Make transactions undroppable

coordinator/cosign/src/delay.rs literally demonstrates how we'd need to rewrite
our handling of transactions with this change. It can be cleaned up a bit but
already identifies ergonomic issues. It also doesn't model passing an &mut txn
to an async function, which would also require using the droppable wrapper
struct.

To locally see this build, run

RUSTFLAGS="-Zpanic_abort_tests -C panic=abort" cargo +nightly build -p serai-cosign --all-targets

To locally see this fail to build, run

cargo build -p serai-cosign --all-targets

While it doesn't say which line causes it fail to build, the only distinction
is panic=unwind.

For more context, please see #578.

.github/actions/bitcoin/action.yml

@@ -5,14 +5,14 @@ inputs:
   version:
     description: "Version to download and run"
     required: false
-    default: 24.0.1
+    default: "27.0"
 
 runs:
   using: "composite"
   steps:
     - name: Bitcoin Daemon Cache
       id: cache-bitcoind
-      uses: actions/cache@704facf57e6136b1bc63b828d79edcd491f0ee84
+      uses: actions/cache@13aacd865c20de90d75de3b17ebe84f7a17d57d2
       with:
         path: bitcoin.tar.gz
         key: bitcoind-${{ runner.os }}-${{ runner.arch }}-${{ inputs.version }}
@@ -37,11 +37,4 @@ runs:
 
     - name: Bitcoin Regtest Daemon
       shell: bash
-      run: |
-        RPC_USER=serai
-        RPC_PASS=seraidex
-
-        bitcoind -txindex -regtest \
-          -rpcuser=$RPC_USER -rpcpassword=$RPC_PASS \
-          -rpcbind=127.0.0.1 -rpcbind=$(hostname) -rpcallowip=0.0.0.0/0 \
-          -daemon
+      run: PATH=$PATH:/usr/bin ./orchestration/dev/networks/bitcoin/run.sh -txindex -daemon

.github/actions/build-dependencies/action.yml

@@ -1,12 +1,6 @@
 name: build-dependencies
 description: Installs build dependencies for Serai
 
-inputs:
-  github-token:
-    description: "GitHub token to install Protobuf with"
-    require: true
-    default:
-
 runs:
   using: "composite"
   steps:
@@ -20,22 +14,36 @@ runs:
         sudo apt autoremove -y
         sudo apt clean
         docker system prune -a --volumes
+      if: runner.os == 'Linux'
 
-    - name: Install apt dependencies
+    - name: Remove unused packages
       shell: bash
-      run: sudo apt install -y ca-certificates
+      run: |
+        (gem uninstall -aIx) || (exit 0)
+        brew uninstall --force "*msbuild*" "*powershell*" "*nuget*" "*bazel*" "*ansible*" "*terraform*" "*heroku*" "*aws*" azure-cli
+        brew uninstall --force "*nodejs*" "*npm*" "*yarn*" "*java*" "*kotlin*" "*golang*" "*swift*" "*julia*" "*fortran*" "*android*"
+        brew uninstall --force "*apache2*" "*nginx*" "*firefox*" "*chromium*" "*chrome*" "*edge*"
+        brew uninstall --force "*qemu*" "*sql*" "*texinfo*" "*imagemagick*"
+        brew cleanup
+      if: runner.os == 'macOS'
 
-    - name: Install Protobuf
-      uses: arduino/setup-protoc@a8b67ba40b37d35169e222f3bb352603327985b6
-      with:
-        repo-token: ${{ inputs.github-token }}
+    - name: Install dependencies
+      shell: bash
+      run: |
+        if [ "$RUNNER_OS" == "Linux" ]; then
+          sudo apt install -y ca-certificates protobuf-compiler
+        elif [ "$RUNNER_OS" == "Windows" ]; then
+          choco install protoc
+        elif [ "$RUNNER_OS" == "macOS" ]; then
+          brew install protobuf
+        fi
 
     - name: Install solc
       shell: bash
       run: |
         cargo install svm-rs
-        svm install 0.8.16
-        svm use 0.8.16
+        svm install 0.8.26
+        svm use 0.8.26
 
     # - name: Cache Rust
     #   uses: Swatinem/rust-cache@a95ba195448af2da9b00fb742d14ffaaf3c21f43

.github/actions/monero-wallet-rpc/action.yml

@@ -5,14 +5,14 @@ inputs:
   version:
     description: "Version to download and run"
     required: false
-    default: v0.18.2.0
+    default: v0.18.3.4
 
 runs:
   using: "composite"
   steps:
     - name: Monero Wallet RPC Cache
       id: cache-monero-wallet-rpc
-      uses: actions/cache@704facf57e6136b1bc63b828d79edcd491f0ee84
+      uses: actions/cache@13aacd865c20de90d75de3b17ebe84f7a17d57d2
       with:
         path: monero-wallet-rpc
         key: monero-wallet-rpc-${{ runner.os }}-${{ runner.arch }}-${{ inputs.version }}
@@ -41,4 +41,9 @@ runs:
 
     - name: Monero Wallet RPC
       shell: bash
-      run: ./monero-wallet-rpc --disable-rpc-login --rpc-bind-port 6061 --allow-mismatched-daemon-version --wallet-dir ./ --detach
+      run: |
+        ./monero-wallet-rpc --allow-mismatched-daemon-version \
+          --daemon-address 0.0.0.0:18081 --daemon-login serai:seraidex \
+          --disable-rpc-login --rpc-bind-port 18082 \
+          --wallet-dir ./ \
+          --detach

.github/actions/monero/action.yml

@@ -5,16 +5,16 @@ inputs:
   version:
     description: "Version to download and run"
     required: false
-    default: v0.18.2.0
+    default: v0.18.3.4
 
 runs:
   using: "composite"
   steps:
     - name: Monero Daemon Cache
       id: cache-monerod
-      uses: actions/cache@704facf57e6136b1bc63b828d79edcd491f0ee84
+      uses: actions/cache@13aacd865c20de90d75de3b17ebe84f7a17d57d2
       with:
-        path: monerod
+        path: /usr/bin/monerod
         key: monerod-${{ runner.os }}-${{ runner.arch }}-${{ inputs.version }}
 
     - name: Download the Monero Daemon
@@ -37,8 +37,10 @@ runs:
         wget https://downloads.getmonero.org/cli/$FILE
         tar -xvf $FILE
 
-        mv monero-x86_64-linux-gnu-${{ inputs.version }}/monerod monerod
+        sudo mv monero-x86_64-linux-gnu-${{ inputs.version }}/monerod /usr/bin/monerod
+        sudo chmod 777 /usr/bin/monerod
+        sudo chmod +x /usr/bin/monerod
 
     - name: Monero Regtest Daemon
       shell: bash
-      run: ./monerod --regtest --offline --fixed-difficulty=1 --detach
+      run: PATH=$PATH:/usr/bin ./orchestration/dev/networks/monero/run.sh --detach

.github/actions/test-dependencies/action.yml

@@ -2,33 +2,26 @@ name: test-dependencies
 description: Installs test dependencies for Serai
 
 inputs:
-  github-token:
-    description: "GitHub token to install Protobuf with"
-    require: true
-    default:
-
   monero-version:
     description: "Monero version to download and run as a regtest node"
     required: false
-    default: v0.18.2.0
+    default: v0.18.3.4
 
   bitcoin-version:
     description: "Bitcoin version to download and run as a regtest node"
     required: false
-    default: 24.0.1
+    default: "27.1"
 
 runs:
   using: "composite"
   steps:
     - name: Install Build Dependencies
       uses: ./.github/actions/build-dependencies
-      with:
-        github-token: ${{ inputs.github-token }}
 
     - name: Install Foundry
-      uses: foundry-rs/foundry-toolchain@cb603ca0abb544f301eaed59ac0baf579aa6aecf
+      uses: foundry-rs/foundry-toolchain@8f1998e9878d786675189ef566a2e4bf24869773
       with:
-        version: nightly-09fe3e041369a816365a020f715ad6f94dbce9f2
+        version: nightly-f625d0fa7c51e65b4bf1e8f7931cd1c6e2e285e9
         cache: false
 
     - name: Run a Monero Regtest Node

.github/nightly-version

@@ -1 +1 @@
-nightly-2023-11-01
+nightly-2024-07-01

.github/workflows/coins-tests.yml

@@ -1,37 +0,0 @@
-name: coins/ Tests
-
-on:
-  push:
-    branches:
-      - develop
-    paths:
-      - "common/**"
-      - "crypto/**"
-      - "coins/**"
-
-  pull_request:
-    paths:
-      - "common/**"
-      - "crypto/**"
-      - "coins/**"
-
-  workflow_dispatch:
-
-jobs:
-  test-coins:
-    runs-on: ubuntu-latest
-    steps:
-      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
-
-      - name: Test Dependencies
-        uses: ./.github/actions/test-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
-
-      - name: Run Tests
-        run: |
-          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features \
-            -p bitcoin-serai \
-            -p ethereum-serai \
-            -p monero-generators \
-            -p monero-serai

.github/workflows/common-tests.yml

@@ -21,13 +21,14 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: |
           GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features \
             -p std-shims \
             -p zalloc \
+            -p patchable-async-sleep \
             -p serai-db \
-            -p serai-env
+            -p serai-env \
+            -p serai-task \
+            -p simple-request

.github/workflows/coordinator-tests.yml

@@ -7,11 +7,10 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
       - "coordinator/**"
-      - "orchestration/coordinator/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/coordinator/**"
 
@@ -19,11 +18,10 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
       - "coordinator/**"
-      - "orchestration/coordinator/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/coordinator/**"
 
@@ -37,8 +35,6 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Run coordinator Docker tests
-        run: cd tests/coordinator && GITHUB_CI=true RUST_BACKTRACE=1 cargo test
+        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-coordinator-tests

.github/workflows/crypto-tests.yml

@@ -23,8 +23,6 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: |
@@ -37,6 +35,10 @@ jobs:
             -p multiexp \
             -p schnorr-signatures \
             -p dleq \
+            -p generalized-bulletproofs \
+            -p generalized-bulletproofs-circuit-abstraction \
+            -p ec-divisors \
+            -p generalized-bulletproofs-ec-gadgets \
             -p dkg \
             -p modular-frost \
             -p frost-schnorrkel

.github/workflows/daily-deny.yml

@@ -12,7 +12,7 @@ jobs:
       - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
 
       - name: Advisory Cache
-        uses: actions/cache@704facf57e6136b1bc63b828d79edcd491f0ee84
+        uses: actions/cache@13aacd865c20de90d75de3b17ebe84f7a17d57d2
         with:
           path: ~/.cargo/advisory-db
           key: rust-advisory-db

.github/workflows/full-stack-tests.yml

@@ -17,8 +17,6 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Run Full Stack Docker tests
-        run: cd tests/full-stack && GITHUB_CI=true RUST_BACKTRACE=1 cargo test
+        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-full-stack-tests

.github/workflows/lint.yml

@@ -9,18 +9,21 @@ on:
 
 jobs:
   clippy:
-    runs-on: ubuntu-latest
+    strategy:
+      matrix:
+        os: [ubuntu-latest, macos-13, macos-14, windows-latest]
+    runs-on: ${{ matrix.os }}
+
     steps:
       - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
 
       - name: Get nightly version to use
         id: nightly
+        shell: bash
         run: echo "version=$(cat .github/nightly-version)" >> $GITHUB_OUTPUT
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Install nightly rust
         run: rustup toolchain install ${{ steps.nightly.outputs.version }} --profile minimal -t wasm32-unknown-unknown -c clippy
@@ -28,13 +31,22 @@ jobs:
       - name: Run Clippy
         run: cargo +${{ steps.nightly.outputs.version }} clippy --all-features --all-targets -- -D warnings -A clippy::items_after_test_module
 
+      # Also verify the lockfile isn't dirty
+      # This happens when someone edits a Cargo.toml yet doesn't do anything
+      # which causes the lockfile to be updated
+      # The above clippy run will cause it to be updated, so checking there's
+      # no differences present now performs the desired check
+      - name: Verify lockfile
+        shell: bash
+        run: git diff | wc -l | LC_ALL="en_US.utf8" grep -x -e "^[ ]*0"
+
   deny:
     runs-on: ubuntu-latest
     steps:
       - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
 
       - name: Advisory Cache
-        uses: actions/cache@704facf57e6136b1bc63b828d79edcd491f0ee84
+        uses: actions/cache@13aacd865c20de90d75de3b17ebe84f7a17d57d2
         with:
           path: ~/.cargo/advisory-db
           key: rust-advisory-db
@@ -52,6 +64,7 @@ jobs:
 
       - name: Get nightly version to use
         id: nightly
+        shell: bash
         run: echo "version=$(cat .github/nightly-version)" >> $GITHUB_OUTPUT
 
       - name: Install nightly rust
@@ -60,10 +73,42 @@ jobs:
       - name: Run rustfmt
         run: cargo +${{ steps.nightly.outputs.version }} fmt -- --check
 
-  dockerfiles:
+      - name: Install foundry
+        uses: foundry-rs/foundry-toolchain@8f1998e9878d786675189ef566a2e4bf24869773
+        with:
+          version: nightly-41d4e5437107f6f42c7711123890147bc736a609
+          cache: false
+
+      - name: Run forge fmt
+        run: FOUNDRY_FMT_SORT_INPUTS=false FOUNDRY_FMT_LINE_LENGTH=100 FOUNDRY_FMT_TAB_WIDTH=2 FOUNDRY_FMT_BRACKET_SPACING=true FOUNDRY_FMT_INT_TYPES=preserve forge fmt --check $(find . -iname "*.sol")
+
+  machete:
     runs-on: ubuntu-latest
     steps:
       - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
-      - name: Verify Dockerfiles are up to date
-        # Runs the file which generates them and checks the diff has no lines
-        run: cd orchestration && ./dockerfiles.sh && git diff | wc -l | grep -x "0"
+      - name: Verify all dependencies are in use
+        run: |
+          cargo install cargo-machete
+          cargo machete
+
+  slither:
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+      - name: Slither
+        run: |
+          python3 -m pip install solc-select
+          solc-select install 0.8.26
+          solc-select use 0.8.26
+
+          python3 -m pip install slither-analyzer
+
+          slither --include-paths ./networks/ethereum/schnorr/contracts/Schnorr.sol
+          slither --include-paths ./networks/ethereum/schnorr/contracts ./networks/ethereum/schnorr/contracts/tests/Schnorr.sol
+          slither processor/ethereum/deployer/contracts/Deployer.sol
+          slither processor/ethereum/erc20/contracts/IERC20.sol
+
+          cp networks/ethereum/schnorr/contracts/Schnorr.sol processor/ethereum/router/contracts/
+          cp processor/ethereum/erc20/contracts/IERC20.sol processor/ethereum/router/contracts/
+          cd processor/ethereum/router/contracts
+          slither Router.sol

.github/workflows/message-queue-tests.yml

@@ -8,7 +8,7 @@ on:
       - "common/**"
       - "crypto/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/message-queue/**"
 
@@ -17,7 +17,7 @@ on:
       - "common/**"
       - "crypto/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/message-queue/**"
 
@@ -31,8 +31,6 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Run message-queue Docker tests
-        run: cd tests/message-queue && GITHUB_CI=true RUST_BACKTRACE=1 cargo test
+        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-message-queue-tests

.github/workflows/mini-tests.yml

@@ -21,8 +21,6 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p mini-serai

.github/workflows/monero-tests.yaml

@@ -5,12 +5,12 @@ on:
     branches:
       - develop
     paths:
-      - "coins/monero/**"
+      - "networks/monero/**"
       - "processor/**"
 
   pull_request:
     paths:
-      - "coins/monero/**"
+      - "networks/monero/**"
       - "processor/**"
 
   workflow_dispatch:
@@ -24,11 +24,24 @@ jobs:
 
       - name: Test Dependencies
         uses: ./.github/actions/test-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Unit Tests Without Features
-        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --lib
+        run: |
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-io --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-generators --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-primitives --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-mlsag --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-clsag --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-borromean --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-bulletproofs --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-rpc --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-simple-request-rpc --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-address --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-seed --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package polyseed --lib
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet-util --lib
 
       # Doesn't run unit tests with features as the tests workflow will
 
@@ -37,7 +50,7 @@ jobs:
     # Test against all supported protocol versions
     strategy:
       matrix:
-        version: [v0.17.3.2, v0.18.2.0]
+        version: [v0.17.3.2, v0.18.3.4]
 
     steps:
       - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
@@ -45,15 +58,20 @@ jobs:
       - name: Test Dependencies
         uses: ./.github/actions/test-dependencies
         with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
           monero-version: ${{ matrix.version }}
 
       - name: Run Integration Tests Without Features
-        # Runs with the binaries feature so the binaries build
-        # https://github.com/rust-lang/cargo/issues/8396
-        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --features binaries --test '*'
+        run: |
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-simple-request-rpc --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet-util --test '*'
 
       - name: Run Integration Tests
         # Don't run if the the tests workflow also will
-        if: ${{ matrix.version != 'v0.18.2.0' }}
-        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --all-features --test '*'
+        if: ${{ matrix.version != 'v0.18.3.4' }}
+        run: |
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-serai --all-features --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-simple-request-rpc --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet --all-features --test '*'
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --package monero-wallet-util --all-features --test '*'

.github/workflows/msrv.yml

@@ -0,0 +1,259 @@
+name: Weekly MSRV Check
+
+on:
+  schedule:
+    - cron: "0 0 * * 0"
+  workflow_dispatch:
+
+jobs:
+  msrv-common:
+    name: Run cargo msrv on common
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on common
+        run: |
+          cargo msrv verify --manifest-path common/zalloc/Cargo.toml
+          cargo msrv verify --manifest-path common/std-shims/Cargo.toml
+          cargo msrv verify --manifest-path common/env/Cargo.toml
+          cargo msrv verify --manifest-path common/db/Cargo.toml
+          cargo msrv verify --manifest-path common/task/Cargo.toml
+          cargo msrv verify --manifest-path common/request/Cargo.toml
+          cargo msrv verify --manifest-path common/patchable-async-sleep/Cargo.toml
+
+  msrv-crypto:
+    name: Run cargo msrv on crypto
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on crypto
+        run: |
+          cargo msrv verify --manifest-path crypto/transcript/Cargo.toml
+
+          cargo msrv verify --manifest-path crypto/ff-group-tests/Cargo.toml
+          cargo msrv verify --manifest-path crypto/dalek-ff-group/Cargo.toml
+          cargo msrv verify --manifest-path crypto/ed448/Cargo.toml
+
+          cargo msrv verify --manifest-path crypto/multiexp/Cargo.toml
+
+          cargo msrv verify --manifest-path crypto/dleq/Cargo.toml
+          cargo msrv verify --manifest-path crypto/ciphersuite/Cargo.toml
+          cargo msrv verify --manifest-path crypto/schnorr/Cargo.toml
+
+          cargo msrv verify --manifest-path crypto/evrf/generalized-bulletproofs/Cargo.toml
+          cargo msrv verify --manifest-path crypto/evrf/circuit-abstraction/Cargo.toml
+          cargo msrv verify --manifest-path crypto/evrf/divisors/Cargo.toml
+          cargo msrv verify --manifest-path crypto/evrf/ec-gadgets/Cargo.toml
+          cargo msrv verify --manifest-path crypto/evrf/embedwards25519/Cargo.toml
+          cargo msrv verify --manifest-path crypto/evrf/secq256k1/Cargo.toml
+
+          cargo msrv verify --manifest-path crypto/dkg/Cargo.toml
+          cargo msrv verify --manifest-path crypto/frost/Cargo.toml
+          cargo msrv verify --manifest-path crypto/schnorrkel/Cargo.toml
+
+  msrv-networks:
+    name: Run cargo msrv on networks
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on networks
+        run: |
+          cargo msrv verify --manifest-path networks/bitcoin/Cargo.toml
+
+          cargo msrv verify --manifest-path networks/ethereum/build-contracts/Cargo.toml
+          cargo msrv verify --manifest-path networks/ethereum/schnorr/Cargo.toml
+          cargo msrv verify --manifest-path networks/ethereum/alloy-simple-request-transport/Cargo.toml
+          cargo msrv verify --manifest-path networks/ethereum/relayer/Cargo.toml --features parity-db
+
+          cargo msrv verify --manifest-path networks/monero/io/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/generators/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/primitives/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/ringct/mlsag/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/ringct/clsag/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/ringct/borromean/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/ringct/bulletproofs/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/rpc/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/rpc/simple-request/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/wallet/address/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/wallet/Cargo.toml
+          cargo msrv verify --manifest-path networks/monero/verify-chain/Cargo.toml
+
+  msrv-message-queue:
+    name: Run cargo msrv on message-queue
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on message-queue
+        run: |
+          cargo msrv verify --manifest-path message-queue/Cargo.toml --features parity-db
+
+  msrv-processor:
+    name: Run cargo msrv on processor
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on processor
+        run: |
+          cargo msrv verify --manifest-path processor/view-keys/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/primitives/Cargo.toml
+          cargo msrv verify --manifest-path processor/messages/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/scanner/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/scheduler/primitives/Cargo.toml
+          cargo msrv verify --manifest-path processor/scheduler/smart-contract/Cargo.toml
+          cargo msrv verify --manifest-path processor/scheduler/utxo/primitives/Cargo.toml
+          cargo msrv verify --manifest-path processor/scheduler/utxo/standard/Cargo.toml
+          cargo msrv verify --manifest-path processor/scheduler/utxo/transaction-chaining/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/key-gen/Cargo.toml
+          cargo msrv verify --manifest-path processor/frost-attempt-manager/Cargo.toml
+          cargo msrv verify --manifest-path processor/signers/Cargo.toml
+          cargo msrv verify --manifest-path processor/bin/Cargo.toml --features parity-db
+
+          cargo msrv verify --manifest-path processor/bitcoin/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/ethereum/primitives/Cargo.toml
+          cargo msrv verify --manifest-path processor/ethereum/test-primitives/Cargo.toml
+          cargo msrv verify --manifest-path processor/ethereum/erc20/Cargo.toml
+          cargo msrv verify --manifest-path processor/ethereum/deployer/Cargo.toml
+          cargo msrv verify --manifest-path processor/ethereum/router/Cargo.toml
+          cargo msrv verify --manifest-path processor/ethereum/Cargo.toml
+
+          cargo msrv verify --manifest-path processor/monero/Cargo.toml
+
+  msrv-coordinator:
+    name: Run cargo msrv on coordinator
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on coordinator
+        run: |
+          cargo msrv verify --manifest-path coordinator/tributary-sdk/tendermint/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/tributary-sdk/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/cosign/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/substrate/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/tributary/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/p2p/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/p2p/libp2p/Cargo.toml
+          cargo msrv verify --manifest-path coordinator/Cargo.toml
+
+  msrv-substrate:
+    name: Run cargo msrv on substrate
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on substrate
+        run: |
+          cargo msrv verify --manifest-path substrate/primitives/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/coins/primitives/Cargo.toml
+          cargo msrv verify --manifest-path substrate/coins/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/dex/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/economic-security/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/genesis-liquidity/primitives/Cargo.toml
+          cargo msrv verify --manifest-path substrate/genesis-liquidity/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/in-instructions/primitives/Cargo.toml
+          cargo msrv verify --manifest-path substrate/in-instructions/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/validator-sets/pallet/Cargo.toml
+          cargo msrv verify --manifest-path substrate/validator-sets/primitives/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/emissions/primitives/Cargo.toml
+          cargo msrv verify --manifest-path substrate/emissions/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/signals/primitives/Cargo.toml
+          cargo msrv verify --manifest-path substrate/signals/pallet/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/abi/Cargo.toml
+          cargo msrv verify --manifest-path substrate/client/Cargo.toml
+
+          cargo msrv verify --manifest-path substrate/runtime/Cargo.toml
+          cargo msrv verify --manifest-path substrate/node/Cargo.toml
+
+  msrv-orchestration:
+    name: Run cargo msrv on orchestration
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on message-queue
+        run: |
+          cargo msrv verify --manifest-path orchestration/Cargo.toml
+
+  msrv-mini:
+    name: Run cargo msrv on mini
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Install Build Dependencies
+        uses: ./.github/actions/build-dependencies
+
+      - name: Install cargo msrv
+        run: cargo install --locked cargo-msrv
+
+      - name: Run cargo msrv on mini
+        run: |
+          cargo msrv verify --manifest-path mini/Cargo.toml

.github/workflows/networks-tests.yml

@@ -0,0 +1,52 @@
+name: networks/ Tests
+
+on:
+  push:
+    branches:
+      - develop
+    paths:
+      - "common/**"
+      - "crypto/**"
+      - "networks/**"
+
+  pull_request:
+    paths:
+      - "common/**"
+      - "crypto/**"
+      - "networks/**"
+
+  workflow_dispatch:
+
+jobs:
+  test-networks:
+    runs-on: ubuntu-latest
+    steps:
+      - uses: actions/checkout@3df4ab11eba7bda6032a0b82a6bb43b11571feac
+
+      - name: Test Dependencies
+        uses: ./.github/actions/test-dependencies
+
+      - name: Run Tests
+        run: |
+          GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features \
+            -p bitcoin-serai \
+            -p build-solidity-contracts \
+            -p ethereum-schnorr-contract \
+            -p alloy-simple-request-transport \
+            -p serai-ethereum-relayer \
+            -p monero-io \
+            -p monero-generators \
+            -p monero-primitives \
+            -p monero-mlsag \
+            -p monero-clsag \
+            -p monero-borromean \
+            -p monero-bulletproofs \
+            -p monero-serai \
+            -p monero-rpc \
+            -p monero-simple-request-rpc \
+            -p monero-address \
+            -p monero-wallet \
+            -p monero-seed \
+            -p polyseed \
+            -p monero-wallet-util \
+            -p monero-serai-verify-chain

.github/workflows/no-std.yml

@@ -7,14 +7,14 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "tests/no-std/**"
 
   pull_request:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "tests/no-std/**"
 
   workflow_dispatch:
@@ -27,11 +27,9 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Install RISC-V Toolchain
         run: sudo apt update && sudo apt install -y gcc-riscv64-unknown-elf gcc-multilib && rustup target add riscv32imac-unknown-none-elf
 
       - name: Verify no-std builds
-        run: cd tests/no-std && CFLAGS=-I/usr/include cargo build --target riscv32imac-unknown-none-elf
+        run: CFLAGS=-I/usr/include cargo build --target riscv32imac-unknown-none-elf -p serai-no-std-tests

.github/workflows/pages.yml

@@ -0,0 +1,90 @@
+# MIT License
+#
+# Copyright (c) 2022 just-the-docs
+#
+# Permission is hereby granted, free of charge, to any person obtaining a copy
+# of this software and associated documentation files (the "Software"), to deal
+# in the Software without restriction, including without limitation the rights
+# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+# copies of the Software, and to permit persons to whom the Software is
+# furnished to do so, subject to the following conditions:
+#
+# The above copyright notice and this permission notice shall be included in all
+# copies or substantial portions of the Software.
+#
+# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+# SOFTWARE.
+
+# This workflow uses actions that are not certified by GitHub.
+# They are provided by a third-party and are governed by
+# separate terms of service, privacy policy, and support
+# documentation.
+
+# Sample workflow for building and deploying a Jekyll site to GitHub Pages
+name: Deploy Jekyll site to Pages
+
+on:
+  push:
+    branches:
+      - "develop"
+    paths:
+      - "docs/**"
+
+  # Allows you to run this workflow manually from the Actions tab
+  workflow_dispatch:
+
+# Sets permissions of the GITHUB_TOKEN to allow deployment to GitHub Pages
+permissions:
+  contents: read
+  pages: write
+  id-token: write
+
+# Allow one concurrent deployment
+concurrency:
+  group: "pages"
+  cancel-in-progress: true
+
+jobs:
+  # Build job
+  build:
+    runs-on: ubuntu-latest
+    defaults:
+      run:
+        working-directory: docs
+    steps:
+      - name: Checkout
+        uses: actions/checkout@v3
+      - name: Setup Ruby
+        uses: ruby/setup-ruby@v1
+        with:
+          bundler-cache: true
+          cache-version: 0
+          working-directory: "${{ github.workspace }}/docs"
+      - name: Setup Pages
+        id: pages
+        uses: actions/configure-pages@v3
+      - name: Build with Jekyll
+        run: bundle exec jekyll build --baseurl "${{ steps.pages.outputs.base_path }}"
+        env:
+          JEKYLL_ENV: production
+      - name: Upload artifact
+        uses: actions/upload-pages-artifact@v1
+        with:
+          path: "docs/_site/"
+
+  # Deployment job
+  deploy:
+    environment:
+      name: github-pages
+      url: ${{ steps.deployment.outputs.page_url }}
+    runs-on: ubuntu-latest
+    needs: build
+    steps:
+      - name: Deploy to GitHub Pages
+        id: deployment
+        uses: actions/deploy-pages@v2

.github/workflows/processor-tests.yml

@@ -7,11 +7,10 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
       - "processor/**"
-      - "orchestration/processor/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/processor/**"
 
@@ -19,11 +18,10 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
-      - "orchestration/message-queue/**"
       - "processor/**"
-      - "orchestration/processor/**"
+      - "orchestration/**"
       - "tests/docker/**"
       - "tests/processor/**"
 
@@ -37,8 +35,6 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Run processor Docker tests
-        run: cd tests/processor && GITHUB_CI=true RUST_BACKTRACE=1 cargo test
+        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-processor-tests

.github/workflows/reproducible-runtime.yml

@@ -31,8 +31,6 @@ jobs:
 
       - name: Install Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ inputs.github-token }}
 
       - name: Run Reproducible Runtime tests
-        run: cd tests/reproducible-runtime && GITHUB_CI=true RUST_BACKTRACE=1 cargo test
+        run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-reproducible-runtime-tests

.github/workflows/tests.yml

@@ -7,7 +7,7 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
       - "processor/**"
       - "coordinator/**"
@@ -17,7 +17,7 @@ on:
     paths:
       - "common/**"
       - "crypto/**"
-      - "coins/**"
+      - "networks/**"
       - "message-queue/**"
       - "processor/**"
       - "coordinator/**"
@@ -33,18 +33,41 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: |
           GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features \
             -p serai-message-queue \
             -p serai-processor-messages \
-            -p serai-processor \
+            -p serai-processor-key-gen \
+            -p serai-processor-view-keys \
+            -p serai-processor-frost-attempt-manager \
+            -p serai-processor-primitives \
+            -p serai-processor-scanner \
+            -p serai-processor-scheduler-primitives \
+            -p serai-processor-utxo-scheduler-primitives \
+            -p serai-processor-utxo-scheduler \
+            -p serai-processor-transaction-chaining-scheduler \
+            -p serai-processor-smart-contract-scheduler \
+            -p serai-processor-signers \
+            -p serai-processor-bin \
+            -p serai-bitcoin-processor \
+            -p serai-processor-ethereum-primitives \
+            -p serai-processor-ethereum-test-primitives \
+            -p serai-processor-ethereum-deployer \
+            -p serai-processor-ethereum-router \
+            -p serai-processor-ethereum-erc20 \
+            -p serai-ethereum-processor \
+            -p serai-monero-processor \
             -p tendermint-machine \
-            -p tributary-chain \
+            -p tributary-sdk \
+            -p serai-cosign \
+            -p serai-coordinator-substrate \
+            -p serai-coordinator-tributary \
+            -p serai-coordinator-p2p \
+            -p serai-coordinator-libp2p-p2p \
             -p serai-coordinator \
+            -p serai-orchestrator \
             -p serai-docker-tests
 
   test-substrate:
@@ -54,8 +77,6 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: |
@@ -66,9 +87,16 @@ jobs:
             -p serai-dex-pallet \
             -p serai-validator-sets-primitives \
             -p serai-validator-sets-pallet \
+            -p serai-genesis-liquidity-primitives \
+            -p serai-genesis-liquidity-pallet \
+            -p serai-emissions-primitives \
+            -p serai-emissions-pallet \
+            -p serai-economic-security-pallet \
             -p serai-in-instructions-primitives \
             -p serai-in-instructions-pallet \
+            -p serai-signals-primitives \
             -p serai-signals-pallet \
+            -p serai-abi \
             -p serai-runtime \
             -p serai-node
 
@@ -79,8 +107,6 @@ jobs:
 
       - name: Build Dependencies
         uses: ./.github/actions/build-dependencies
-        with:
-          github-token: ${{ secrets.GITHUB_TOKEN }}
 
       - name: Run Tests
         run: GITHUB_CI=true RUST_BACKTRACE=1 cargo test --all-features -p serai-client

.gitignore

@@ -1,3 +1,7 @@
 target
-.vscode
+Dockerfile
+Dockerfile.fast-epoch
+!orchestration/runtime/Dockerfile
 .test-logs
+
+.vscode

Cargo.toml

@@ -1,10 +1,26 @@
 [workspace]
 resolver = "2"
 members = [
+  # Version patches
+  "patches/parking_lot_core",
+  "patches/parking_lot",
+  "patches/zstd",
+  "patches/rocksdb",
+
+  # std patches
+  "patches/matches",
+  "patches/is-terminal",
+
+  # Rewrites/redirects
+  "patches/option-ext",
+  "patches/directories-next",
+
   "common/std-shims",
   "common/zalloc",
+  "common/patchable-async-sleep",
   "common/db",
   "common/env",
+  "common/task",
   "common/request",
 
   "crypto/transcript",
@@ -15,25 +31,78 @@ members = [
   "crypto/ciphersuite",
 
   "crypto/multiexp",
-
   "crypto/schnorr",
   "crypto/dleq",
+
+  "crypto/evrf/secq256k1",
+  "crypto/evrf/embedwards25519",
+  "crypto/evrf/generalized-bulletproofs",
+  "crypto/evrf/circuit-abstraction",
+  "crypto/evrf/divisors",
+  "crypto/evrf/ec-gadgets",
+
   "crypto/dkg",
   "crypto/frost",
   "crypto/schnorrkel",
 
-  "coins/bitcoin",
-  "coins/ethereum",
-  "coins/monero/generators",
-  "coins/monero",
+  "networks/bitcoin",
+
+  "networks/ethereum/build-contracts",
+  "networks/ethereum/schnorr",
+  "networks/ethereum/alloy-simple-request-transport",
+  "networks/ethereum/relayer",
+
+  "networks/monero/io",
+  "networks/monero/generators",
+  "networks/monero/primitives",
+  "networks/monero/ringct/mlsag",
+  "networks/monero/ringct/clsag",
+  "networks/monero/ringct/borromean",
+  "networks/monero/ringct/bulletproofs",
+  "networks/monero",
+  "networks/monero/rpc",
+  "networks/monero/rpc/simple-request",
+  "networks/monero/wallet/address",
+  "networks/monero/wallet",
+  "networks/monero/wallet/seed",
+  "networks/monero/wallet/polyseed",
+  "networks/monero/wallet/util",
+  "networks/monero/verify-chain",
 
   "message-queue",
 
   "processor/messages",
-  "processor",
 
-  "coordinator/tributary/tendermint",
+  "processor/key-gen",
+  "processor/view-keys",
+  "processor/frost-attempt-manager",
+
+  "processor/primitives",
+  "processor/scanner",
+  "processor/scheduler/primitives",
+  "processor/scheduler/utxo/primitives",
+  "processor/scheduler/utxo/standard",
+  "processor/scheduler/utxo/transaction-chaining",
+  "processor/scheduler/smart-contract",
+  "processor/signers",
+
+  "processor/bin",
+  "processor/bitcoin",
+  "processor/ethereum/primitives",
+  "processor/ethereum/test-primitives",
+  "processor/ethereum/deployer",
+  "processor/ethereum/router",
+  "processor/ethereum/erc20",
+  "processor/ethereum",
+  "processor/monero",
+
+  "coordinator/tributary-sdk/tendermint",
+  "coordinator/tributary-sdk",
+  "coordinator/cosign",
+  "coordinator/substrate",
   "coordinator/tributary",
+  "coordinator/p2p",
+  "coordinator/p2p/libp2p",
   "coordinator",
 
   "substrate/primitives",
@@ -41,19 +110,34 @@ members = [
   "substrate/coins/primitives",
   "substrate/coins/pallet",
 
-  "substrate/in-instructions/primitives",
-  "substrate/in-instructions/pallet",
+  "substrate/dex/pallet",
 
   "substrate/validator-sets/primitives",
   "substrate/validator-sets/pallet",
 
+  "substrate/genesis-liquidity/primitives",
+  "substrate/genesis-liquidity/pallet",
+
+  "substrate/emissions/primitives",
+  "substrate/emissions/pallet",
+
+  "substrate/economic-security/pallet",
+
+  "substrate/in-instructions/primitives",
+  "substrate/in-instructions/pallet",
+
+  "substrate/signals/primitives",
   "substrate/signals/pallet",
 
+  "substrate/abi",
+
   "substrate/runtime",
   "substrate/node",
 
   "substrate/client",
 
+  "orchestration",
+
   "mini",
 
   "tests/no-std",
@@ -70,18 +154,32 @@ members = [
 # to the extensive operations required for Bulletproofs
 [profile.dev.package]
 subtle = { opt-level = 3 }
-curve25519-dalek = { opt-level = 3 }
 
 ff = { opt-level = 3 }
 group = { opt-level = 3 }
 
 crypto-bigint = { opt-level = 3 }
+secp256k1 = { opt-level = 3 }
+curve25519-dalek = { opt-level = 3 }
 dalek-ff-group = { opt-level = 3 }
 minimal-ed448 = { opt-level = 3 }
 
 multiexp = { opt-level = 3 }
 
-monero-serai = { opt-level = 3 }
+secq256k1 = { opt-level = 3 }
+embedwards25519 = { opt-level = 3 }
+generalized-bulletproofs = { opt-level = 3 }
+generalized-bulletproofs-circuit-abstraction = { opt-level = 3 }
+ec-divisors = { opt-level = 3 }
+generalized-bulletproofs-ec-gadgets = { opt-level = 3 }
+
+dkg = { opt-level = 3 }
+
+monero-generators = { opt-level = 3 }
+monero-borromean = { opt-level = 3 }
+monero-bulletproofs = { opt-level = 3 }
+monero-mlsag = { opt-level = 3 }
+monero-clsag = { opt-level = 3 }
 
 [profile.release]
 panic = "unwind"
@@ -90,6 +188,77 @@ panic = "unwind"
 # https://github.com/rust-lang-nursery/lazy-static.rs/issues/201
 lazy_static = { git = "https://github.com/rust-lang-nursery/lazy-static.rs", rev = "5735630d46572f1e5377c8f2ba0f79d18f53b10c" }
 
-# subxt *can* pull these off crates.io yet there's no benefit to this
-sp-core-hashing = { git = "https://github.com/serai-dex/substrate" }
-sp-std = { git = "https://github.com/serai-dex/substrate" }
+parking_lot_core = { path = "patches/parking_lot_core" }
+parking_lot = { path = "patches/parking_lot" }
+# wasmtime pulls in an old version for this
+zstd = { path = "patches/zstd" }
+# Needed for WAL compression
+rocksdb = { path = "patches/rocksdb" }
+
+# is-terminal now has an std-based solution with an equivalent API
+is-terminal = { path = "patches/is-terminal" }
+# So does matches
+matches = { path = "patches/matches" }
+
+# directories-next was created because directories was unmaintained
+# directories-next is now unmaintained while directories is maintained
+# The directories author pulls in ridiculously pointless crates and prefers
+# copyleft licenses
+# The following two patches resolve everything
+option-ext = { path = "patches/option-ext" }
+directories-next = { path = "patches/directories-next" }
+
+# The official pasta_curves repo doesn't support Zeroize
+pasta_curves = { git = "https://github.com/kayabaNerve/pasta_curves", rev = "a46b5be95cacbff54d06aad8d3bbcba42e05d616" }
+
+[workspace.lints.clippy]
+unwrap_or_default = "allow"
+map_unwrap_or = "allow"
+borrow_as_ptr = "deny"
+cast_lossless = "deny"
+cast_possible_truncation = "deny"
+cast_possible_wrap = "deny"
+cast_precision_loss = "deny"
+cast_ptr_alignment = "deny"
+cast_sign_loss = "deny"
+checked_conversions = "deny"
+cloned_instead_of_copied = "deny"
+enum_glob_use = "deny"
+expl_impl_clone_on_copy = "deny"
+explicit_into_iter_loop = "deny"
+explicit_iter_loop = "deny"
+flat_map_option = "deny"
+float_cmp = "deny"
+fn_params_excessive_bools = "deny"
+ignored_unit_patterns = "deny"
+implicit_clone = "deny"
+inefficient_to_string = "deny"
+invalid_upcast_comparisons = "deny"
+large_stack_arrays = "deny"
+linkedlist = "deny"
+macro_use_imports = "deny"
+manual_instant_elapsed = "deny"
+manual_let_else = "deny"
+manual_ok_or = "deny"
+manual_string_new = "deny"
+match_bool = "deny"
+match_same_arms = "deny"
+missing_fields_in_debug = "deny"
+needless_continue = "deny"
+needless_pass_by_value = "deny"
+ptr_cast_constness = "deny"
+range_minus_one = "deny"
+range_plus_one = "deny"
+redundant_closure_for_method_calls = "deny"
+redundant_else = "deny"
+string_add_assign = "deny"
+string_slice = "deny"
+unchecked_duration_subtraction = "deny"
+uninlined_format_args = "deny"
+unnecessary_box_returns = "deny"
+unnecessary_join = "deny"
+unnecessary_wraps = "deny"
+unnested_or_patterns = "deny"
+unused_async = "deny"
+unused_self = "deny"
+zero_sized_map_values = "deny"

README.md

@@ -5,13 +5,16 @@ Bitcoin, Ethereum, DAI, and Monero, offering a liquidity-pool-based trading
 experience. Funds are stored in an economically secured threshold-multisig
 wallet.
 
-[Getting Started](docs/Getting%20Started.md)
+[Getting Started](spec/Getting%20Started.md)
 
 ### Layout
 
 - `audits`: Audits for various parts of Serai.
 
-- `docs`: Documentation on the Serai protocol.
+- `spec`: The specification of the Serai protocol, both internally and as
+  networked.
+
+- `docs`: User-facing documentation on the Serai protocol.
 
 - `common`: Crates containing utilities common to a variety of areas under
   Serai, none neatly fitting under another category.
@@ -21,7 +24,7 @@ wallet.
   infrastructure, to our IETF-compliant FROST implementation, to a DLEq proof as
   needed for Bitcoin-Monero atomic swaps.
 
-- `coins`: Various coin libraries intended for usage in Serai yet also by the
+- `networks`: Various libraries intended for usage in Serai yet also by the
   wider community. This means they will always support the functionality Serai
   needs, yet won't disadvantage other use cases when possible.
 

audits/Cypher Stack coins bitcoin August 2023/README.md

@@ -1,6 +0,0 @@
-# Cypher Stack /coins/bitcoin Audit, August 2023
-
-This audit was over the /coins/bitcoin folder. It is encompassing up to commit
-5121ca75199dff7bd34230880a1fdd793012068c.
-
-Please see https://github.com/cypherstack/serai-btc-audit for provenance.

audits/Cypher Stack networks bitcoin August 2023/README.md

@@ -0,0 +1,7 @@
+# Cypher Stack /networks/bitcoin Audit, August 2023
+
+This audit was over the `/networks/bitcoin` folder (at the time located at
+`/coins/bitcoin`). It is encompassing up to commit
+5121ca75199dff7bd34230880a1fdd793012068c.
+
+Please see https://github.com/cypherstack/serai-btc-audit for provenance.

coins/ethereum/.gitignore

@@ -1,3 +0,0 @@
-# solidity build outputs
-cache
-artifacts

coins/ethereum/Cargo.toml

@@ -1,39 +0,0 @@
-[package]
-name = "ethereum-serai"
-version = "0.1.0"
-description = "An Ethereum library supporting Schnorr signing and on-chain verification"
-license = "AGPL-3.0-only"
-repository = "https://github.com/serai-dex/serai/tree/develop/coins/ethereum"
-authors = ["Luke Parker <lukeparker5132@gmail.com>", "Elizabeth Binks <elizabethjbinks@gmail.com>"]
-edition = "2021"
-publish = false
-rust-version = "1.74"
-
-[package.metadata.docs.rs]
-all-features = true
-rustdoc-args = ["--cfg", "docsrs"]
-
-[dependencies]
-thiserror = { version = "1", default-features = false }
-eyre = { version = "0.6", default-features = false }
-
-sha3 = { version = "0.10", default-features = false, features = ["std"] }
-
-group = { version = "0.13", default-features = false }
-k256 = { version = "^0.13.1", default-features = false, features = ["std", "ecdsa"] }
-frost = { package = "modular-frost", path = "../../crypto/frost", features = ["secp256k1", "tests"] }
-
-ethers-core = { version = "2", default-features = false }
-ethers-providers = { version = "2", default-features = false }
-ethers-contract = { version = "2", default-features = false, features = ["abigen", "providers"] }
-
-[dev-dependencies]
-rand_core = { version = "0.6", default-features = false, features = ["std"] }
-
-hex = { version = "0.4", default-features = false, features = ["std"] }
-serde = { version = "1", default-features = false, features = ["std"] }
-serde_json = { version = "1", default-features = false, features = ["std"] }
-
-sha2 = { version = "0.10", default-features = false, features = ["std"] }
-
-tokio = { version = "1", features = ["macros"] }

coins/ethereum/README.md

@@ -1,9 +0,0 @@
-# Ethereum
-
-This package contains Ethereum-related functionality, specifically deploying and
-interacting with Serai contracts.
-
-### Dependencies
-
-- solc
-- [Foundry](https://github.com/foundry-rs/foundry)

coins/ethereum/build.rs

@@ -1,15 +0,0 @@
-fn main() {
-  println!("cargo:rerun-if-changed=contracts");
-  println!("cargo:rerun-if-changed=artifacts");
-
-  #[rustfmt::skip]
-  let args = [
-    "--base-path", ".",
-    "-o", "./artifacts", "--overwrite",
-    "--bin", "--abi",
-    "--optimize",
-    "./contracts/Schnorr.sol"
-  ];
-
-  assert!(std::process::Command::new("solc").args(args).status().unwrap().success());
-}

coins/ethereum/contracts/Schnorr.sol

@@ -1,36 +0,0 @@
-//SPDX-License-Identifier: AGPLv3
-pragma solidity ^0.8.0;
-
-// see https://github.com/noot/schnorr-verify for implementation details
-contract Schnorr {
-  // secp256k1 group order
-  uint256 constant public Q =
-    0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141;
-
-  // parity := public key y-coord parity (27 or 28)
-  // px := public key x-coord
-  // message := 32-byte message
-  // s := schnorr signature
-  // e := schnorr signature challenge
-  function verify(
-    uint8 parity,
-    bytes32 px,
-    bytes32 message,
-    bytes32 s,
-    bytes32 e
-  ) public view returns (bool) {
-    // ecrecover = (m, v, r, s);
-    bytes32 sp = bytes32(Q - mulmod(uint256(s), uint256(px), Q));
-    bytes32 ep = bytes32(Q - mulmod(uint256(e), uint256(px), Q));
-
-    require(sp != 0);
-    // the ecrecover precompile implementation checks that the `r` and `s`
-    // inputs are non-zero (in this case, `px` and `ep`), thus we don't need to
-    // check if they're zero.will make me 
-    address R = ecrecover(sp, parity, px, ep);
-    require(R != address(0), "ecrecover failed");
-    return e == keccak256(
-      abi.encodePacked(R, uint8(parity), px, block.chainid, message)
-    );
-  }
-}

coins/ethereum/src/contract.rs

@@ -1,36 +0,0 @@
-use thiserror::Error;
-use eyre::{eyre, Result};
-
-use ethers_providers::{Provider, Http};
-use ethers_contract::abigen;
-
-use crate::crypto::ProcessedSignature;
-
-#[derive(Error, Debug)]
-pub enum EthereumError {
-  #[error("failed to verify Schnorr signature")]
-  VerificationError,
-}
-
-abigen!(Schnorr, "./artifacts/Schnorr.abi");
-
-pub async fn call_verify(
-  contract: &Schnorr<Provider<Http>>,
-  params: &ProcessedSignature,
-) -> Result<()> {
-  if contract
-    .verify(
-      params.parity + 27,
-      params.px.to_bytes().into(),
-      params.message,
-      params.s.to_bytes().into(),
-      params.e.to_bytes().into(),
-    )
-    .call()
-    .await?
-  {
-    Ok(())
-  } else {
-    Err(eyre!(EthereumError::VerificationError))
-  }
-}

coins/ethereum/src/crypto.rs

@@ -1,107 +0,0 @@
-use sha3::{Digest, Keccak256};
-
-use group::Group;
-use k256::{
-  elliptic_curve::{
-    bigint::ArrayEncoding, ops::Reduce, point::DecompressPoint, sec1::ToEncodedPoint,
-  },
-  AffinePoint, ProjectivePoint, Scalar, U256,
-};
-
-use frost::{algorithm::Hram, curve::Secp256k1};
-
-pub fn keccak256(data: &[u8]) -> [u8; 32] {
-  Keccak256::digest(data).into()
-}
-
-pub fn hash_to_scalar(data: &[u8]) -> Scalar {
-  Scalar::reduce(U256::from_be_slice(&keccak256(data)))
-}
-
-pub fn address(point: &ProjectivePoint) -> [u8; 20] {
-  let encoded_point = point.to_encoded_point(false);
-  keccak256(&encoded_point.as_ref()[1 .. 65])[12 .. 32].try_into().unwrap()
-}
-
-pub fn ecrecover(message: Scalar, v: u8, r: Scalar, s: Scalar) -> Option<[u8; 20]> {
-  if r.is_zero().into() || s.is_zero().into() {
-    return None;
-  }
-
-  #[allow(non_snake_case)]
-  let R = AffinePoint::decompress(&r.to_bytes(), v.into());
-  #[allow(non_snake_case)]
-  if let Some(R) = Option::<AffinePoint>::from(R) {
-    #[allow(non_snake_case)]
-    let R = ProjectivePoint::from(R);
-
-    let r = r.invert().unwrap();
-    let u1 = ProjectivePoint::GENERATOR * (-message * r);
-    let u2 = R * (s * r);
-    let key: ProjectivePoint = u1 + u2;
-    if !bool::from(key.is_identity()) {
-      return Some(address(&key));
-    }
-  }
-
-  None
-}
-
-#[derive(Clone, Default)]
-pub struct EthereumHram {}
-impl Hram<Secp256k1> for EthereumHram {
-  #[allow(non_snake_case)]
-  fn hram(R: &ProjectivePoint, A: &ProjectivePoint, m: &[u8]) -> Scalar {
-    let a_encoded_point = A.to_encoded_point(true);
-    let mut a_encoded = a_encoded_point.as_ref().to_owned();
-    a_encoded[0] += 25; // Ethereum uses 27/28 for point parity
-    let mut data = address(R).to_vec();
-    data.append(&mut a_encoded);
-    data.append(&mut m.to_vec());
-    Scalar::reduce(U256::from_be_slice(&keccak256(&data)))
-  }
-}
-
-pub struct ProcessedSignature {
-  pub s: Scalar,
-  pub px: Scalar,
-  pub parity: u8,
-  pub message: [u8; 32],
-  pub e: Scalar,
-}
-
-#[allow(non_snake_case)]
-pub fn preprocess_signature_for_ecrecover(
-  m: [u8; 32],
-  R: &ProjectivePoint,
-  s: Scalar,
-  A: &ProjectivePoint,
-  chain_id: U256,
-) -> (Scalar, Scalar) {
-  let processed_sig = process_signature_for_contract(m, R, s, A, chain_id);
-  let sr = processed_sig.s.mul(&processed_sig.px).negate();
-  let er = processed_sig.e.mul(&processed_sig.px).negate();
-  (sr, er)
-}
-
-#[allow(non_snake_case)]
-pub fn process_signature_for_contract(
-  m: [u8; 32],
-  R: &ProjectivePoint,
-  s: Scalar,
-  A: &ProjectivePoint,
-  chain_id: U256,
-) -> ProcessedSignature {
-  let encoded_pk = A.to_encoded_point(true);
-  let px = &encoded_pk.as_ref()[1 .. 33];
-  let px_scalar = Scalar::reduce(U256::from_be_slice(px));
-  let e = EthereumHram::hram(R, A, &[chain_id.to_be_byte_array().as_slice(), &m].concat());
-  ProcessedSignature {
-    s,
-    px: px_scalar,
-    parity: &encoded_pk.as_ref()[0] - 2,
-    #[allow(non_snake_case)]
-    message: m,
-    e,
-  }
-}

coins/ethereum/src/lib.rs

@@ -1,2 +0,0 @@
-pub mod contract;
-pub mod crypto;

coins/ethereum/tests/contract.rs

@@ -1,128 +0,0 @@
-use std::{convert::TryFrom, sync::Arc, time::Duration, fs::File};
-
-use rand_core::OsRng;
-
-use ::k256::{
-  elliptic_curve::{bigint::ArrayEncoding, PrimeField},
-  U256,
-};
-
-use ethers_core::{
-  types::Signature,
-  abi::Abi,
-  utils::{keccak256, Anvil, AnvilInstance},
-};
-use ethers_contract::ContractFactory;
-use ethers_providers::{Middleware, Provider, Http};
-
-use frost::{
-  curve::Secp256k1,
-  Participant,
-  algorithm::IetfSchnorr,
-  tests::{key_gen, algorithm_machines, sign},
-};
-
-use ethereum_serai::{
-  crypto,
-  contract::{Schnorr, call_verify},
-};
-
-// TODO: Replace with a contract deployment from an unknown account, so the environment solely has
-// to fund the deployer, not create/pass a wallet
-pub async fn deploy_schnorr_verifier_contract(
-  chain_id: u32,
-  client: Arc<Provider<Http>>,
-  wallet: &k256::ecdsa::SigningKey,
-) -> eyre::Result<Schnorr<Provider<Http>>> {
-  let abi: Abi = serde_json::from_reader(File::open("./artifacts/Schnorr.abi").unwrap()).unwrap();
-
-  let hex_bin_buf = std::fs::read_to_string("./artifacts/Schnorr.bin").unwrap();
-  let hex_bin =
-    if let Some(stripped) = hex_bin_buf.strip_prefix("0x") { stripped } else { &hex_bin_buf };
-  let bin = hex::decode(hex_bin).unwrap();
-  let factory = ContractFactory::new(abi, bin.into(), client.clone());
-
-  let mut deployment_tx = factory.deploy(())?.tx;
-  deployment_tx.set_chain_id(chain_id);
-  deployment_tx.set_gas(500_000);
-  let (max_fee_per_gas, max_priority_fee_per_gas) = client.estimate_eip1559_fees(None).await?;
-  deployment_tx.as_eip1559_mut().unwrap().max_fee_per_gas = Some(max_fee_per_gas);
-  deployment_tx.as_eip1559_mut().unwrap().max_priority_fee_per_gas = Some(max_priority_fee_per_gas);
-
-  let sig_hash = deployment_tx.sighash();
-  let (sig, rid) = wallet.sign_prehash_recoverable(sig_hash.as_ref()).unwrap();
-
-  // EIP-155 v
-  let mut v = u64::from(rid.to_byte());
-  assert!((v == 0) || (v == 1));
-  v += u64::from((chain_id * 2) + 35);
-
-  let r = sig.r().to_repr();
-  let r_ref: &[u8] = r.as_ref();
-  let s = sig.s().to_repr();
-  let s_ref: &[u8] = s.as_ref();
-  let deployment_tx = deployment_tx.rlp_signed(&Signature { r: r_ref.into(), s: s_ref.into(), v });
-
-  let pending_tx = client.send_raw_transaction(deployment_tx).await?;
-
-  let mut receipt;
-  while {
-    receipt = client.get_transaction_receipt(pending_tx.tx_hash()).await?;
-    receipt.is_none()
-  } {
-    tokio::time::sleep(Duration::from_secs(6)).await;
-  }
-  let receipt = receipt.unwrap();
-  assert!(receipt.status == Some(1.into()));
-
-  let contract = Schnorr::new(receipt.contract_address.unwrap(), client.clone());
-  Ok(contract)
-}
-
-async fn deploy_test_contract() -> (u32, AnvilInstance, Schnorr<Provider<Http>>) {
-  let anvil = Anvil::new().spawn();
-
-  let provider =
-    Provider::<Http>::try_from(anvil.endpoint()).unwrap().interval(Duration::from_millis(10u64));
-  let chain_id = provider.get_chainid().await.unwrap().as_u32();
-  let wallet = anvil.keys()[0].clone().into();
-  let client = Arc::new(provider);
-
-  (chain_id, anvil, deploy_schnorr_verifier_contract(chain_id, client, &wallet).await.unwrap())
-}
-
-#[tokio::test]
-async fn test_deploy_contract() {
-  deploy_test_contract().await;
-}
-
-#[tokio::test]
-async fn test_ecrecover_hack() {
-  let (chain_id, _anvil, contract) = deploy_test_contract().await;
-  let chain_id = U256::from(chain_id);
-
-  let keys = key_gen::<_, Secp256k1>(&mut OsRng);
-  let group_key = keys[&Participant::new(1).unwrap()].group_key();
-
-  const MESSAGE: &[u8] = b"Hello, World!";
-  let hashed_message = keccak256(MESSAGE);
-
-  let full_message = &[chain_id.to_be_byte_array().as_slice(), &hashed_message].concat();
-
-  let algo = IetfSchnorr::<Secp256k1, crypto::EthereumHram>::ietf();
-  let sig = sign(
-    &mut OsRng,
-    algo.clone(),
-    keys.clone(),
-    algorithm_machines(&mut OsRng, algo, &keys),
-    full_message,
-  );
-  let mut processed_sig =
-    crypto::process_signature_for_contract(hashed_message, &sig.R, sig.s, &group_key, chain_id);
-
-  call_verify(&contract, &processed_sig).await.unwrap();
-
-  // test invalid signature fails
-  processed_sig.message[0] = 0;
-  assert!(call_verify(&contract, &processed_sig).await.is_err());
-}

coins/ethereum/tests/crypto.rs

@@ -1,92 +0,0 @@
-use k256::{
-  elliptic_curve::{bigint::ArrayEncoding, ops::Reduce, sec1::ToEncodedPoint},
-  ProjectivePoint, Scalar, U256,
-};
-use frost::{curve::Secp256k1, Participant};
-
-use ethereum_serai::crypto::*;
-
-#[test]
-fn test_ecrecover() {
-  use rand_core::OsRng;
-  use sha2::Sha256;
-  use sha3::{Digest, Keccak256};
-  use k256::ecdsa::{hazmat::SignPrimitive, signature::DigestVerifier, SigningKey, VerifyingKey};
-
-  let private = SigningKey::random(&mut OsRng);
-  let public = VerifyingKey::from(&private);
-
-  const MESSAGE: &[u8] = b"Hello, World!";
-  let (sig, recovery_id) = private
-    .as_nonzero_scalar()
-    .try_sign_prehashed_rfc6979::<Sha256>(&Keccak256::digest(MESSAGE), b"")
-    .unwrap();
-  #[allow(clippy::unit_cmp)] // Intended to assert this wasn't changed to Result<bool>
-  {
-    assert_eq!(public.verify_digest(Keccak256::new_with_prefix(MESSAGE), &sig).unwrap(), ());
-  }
-
-  assert_eq!(
-    ecrecover(hash_to_scalar(MESSAGE), recovery_id.unwrap().is_y_odd().into(), *sig.r(), *sig.s())
-      .unwrap(),
-    address(&ProjectivePoint::from(public.as_affine()))
-  );
-}
-
-#[test]
-fn test_signing() {
-  use frost::{
-    algorithm::IetfSchnorr,
-    tests::{algorithm_machines, key_gen, sign},
-  };
-  use rand_core::OsRng;
-
-  let keys = key_gen::<_, Secp256k1>(&mut OsRng);
-  let _group_key = keys[&Participant::new(1).unwrap()].group_key();
-
-  const MESSAGE: &[u8] = b"Hello, World!";
-
-  let algo = IetfSchnorr::<Secp256k1, EthereumHram>::ietf();
-  let _sig = sign(
-    &mut OsRng,
-    algo,
-    keys.clone(),
-    algorithm_machines(&mut OsRng, IetfSchnorr::<Secp256k1, EthereumHram>::ietf(), &keys),
-    MESSAGE,
-  );
-}
-
-#[test]
-fn test_ecrecover_hack() {
-  use frost::{
-    algorithm::IetfSchnorr,
-    tests::{algorithm_machines, key_gen, sign},
-  };
-  use rand_core::OsRng;
-
-  let keys = key_gen::<_, Secp256k1>(&mut OsRng);
-  let group_key = keys[&Participant::new(1).unwrap()].group_key();
-  let group_key_encoded = group_key.to_encoded_point(true);
-  let group_key_compressed = group_key_encoded.as_ref();
-  let group_key_x = Scalar::reduce(U256::from_be_slice(&group_key_compressed[1 .. 33]));
-
-  const MESSAGE: &[u8] = b"Hello, World!";
-  let hashed_message = keccak256(MESSAGE);
-  let chain_id = U256::ONE;
-
-  let full_message = &[chain_id.to_be_byte_array().as_slice(), &hashed_message].concat();
-
-  let algo = IetfSchnorr::<Secp256k1, EthereumHram>::ietf();
-  let sig = sign(
-    &mut OsRng,
-    algo.clone(),
-    keys.clone(),
-    algorithm_machines(&mut OsRng, algo, &keys),
-    full_message,
-  );
-
-  let (sr, er) =
-    preprocess_signature_for_ecrecover(hashed_message, &sig.R, sig.s, &group_key, chain_id);
-  let q = ecrecover(sr, group_key_compressed[0] - 2, group_key_x, er).unwrap();
-  assert_eq!(q, address(&sig.R));
-}

coins/ethereum/tests/mod.rs

@@ -1,2 +0,0 @@
-mod contract;
-mod crypto;

coins/monero/Cargo.toml

@@ -1,110 +0,0 @@
-[package]
-name = "monero-serai"
-version = "0.1.4-alpha"
-description = "A modern Monero transaction library"
-license = "MIT"
-repository = "https://github.com/serai-dex/serai/tree/develop/coins/monero"
-authors = ["Luke Parker <lukeparker5132@gmail.com>"]
-edition = "2021"
-rust-version = "1.74"
-
-[package.metadata.docs.rs]
-all-features = true
-rustdoc-args = ["--cfg", "docsrs"]
-
-[dependencies]
-std-shims = { path = "../../common/std-shims", version = "^0.1.1", default-features = false }
-
-async-trait = { version = "0.1", default-features = false }
-thiserror = { version = "1", default-features = false, optional = true }
-
-zeroize = { version = "^1.5", default-features = false, features = ["zeroize_derive"] }
-subtle = { version = "^2.4", default-features = false }
-
-rand_core = { version = "0.6", default-features = false }
-# Used to send transactions
-rand = { version = "0.8", default-features = false }
-rand_chacha = { version = "0.3", default-features = false }
-# Used to select decoys
-rand_distr = { version = "0.4", default-features = false }
-
-sha3 = { version = "0.10", default-features = false }
-pbkdf2 = { version = "0.12", features = ["simple"], default-features = false }
-
-curve25519-dalek = { version = "4", default-features = false, features = ["alloc", "zeroize", "precomputed-tables"] }
-
-# Used for the hash to curve, along with the more complicated proofs
-group = { version = "0.13", default-features = false }
-dalek-ff-group = { path = "../../crypto/dalek-ff-group", version = "0.4", default-features = false }
-multiexp = { path = "../../crypto/multiexp", version = "0.4", default-features = false, features = ["batch"] }
-
-# Needed for multisig
-transcript = { package = "flexible-transcript", path = "../../crypto/transcript", version = "0.3", default-features = false, features = ["recommended"], optional = true }
-dleq = { path = "../../crypto/dleq", version = "0.4", default-features = false, features = ["serialize"], optional = true }
-frost = { package = "modular-frost", path = "../../crypto/frost", version = "0.8", default-features = false, features = ["ed25519"], optional = true }
-
-monero-generators = { path = "generators", version = "0.4", default-features = false }
-
-futures = { version = "0.3", default-features = false, features = ["alloc"], optional = true }
-
-hex-literal = "0.4"
-hex = { version = "0.4", default-features = false, features = ["alloc"] }
-serde = { version = "1", default-features = false, features = ["derive", "alloc"] }
-serde_json = { version = "1", default-features = false, features = ["alloc"] }
-
-base58-monero = { version = "2", default-features = false, features = ["check"] }
-
-# Used for the provided HTTP RPC
-digest_auth = { version = "0.3", default-features = false, optional = true }
-simple-request = { path = "../../common/request", version = "0.1", default-features = false, features = ["tls"], optional = true }
-tokio = { version = "1", default-features = false, optional = true }
-
-[build-dependencies]
-dalek-ff-group = { path = "../../crypto/dalek-ff-group", version = "0.4", default-features = false }
-monero-generators = { path = "generators", version = "0.4", default-features = false }
-
-[dev-dependencies]
-tokio = { version = "1", features = ["sync", "macros"] }
-
-frost = { package = "modular-frost", path = "../../crypto/frost", features = ["tests"] }
-
-[features]
-std = [
-  "std-shims/std",
-
-  "thiserror",
-
-  "zeroize/std",
-  "subtle/std",
-
-  "rand_core/std",
-  "rand/std",
-  "rand_chacha/std",
-  "rand_distr/std",
-
-  "sha3/std",
-  "pbkdf2/std",
-
-  "multiexp/std",
-
-  "transcript/std",
-  "dleq/std",
-
-  "monero-generators/std",
-
-  "futures?/std",
-
-  "hex/std",
-  "serde/std",
-  "serde_json/std",
-
-  "base58-monero/std",
-]
-
-cache-distribution = ["futures"]
-http-rpc = ["digest_auth", "simple-request", "tokio"]
-multisig = ["transcript", "frost", "dleq", "std"]
-binaries = ["tokio/rt-multi-thread", "tokio/macros", "http-rpc"]
-experimental = []
-
-default = ["std", "http-rpc"]

coins/monero/README.md

@@ -1,49 +0,0 @@
-# monero-serai
-
-A modern Monero transaction library intended for usage in wallets. It prides
-itself on accuracy, correctness, and removing common pit falls developers may
-face.
-
-monero-serai also offers the following features:
-
-- Featured Addresses
-- A FROST-based multisig orders of magnitude more performant than Monero's
-
-### Purpose and support
-
-monero-serai was written for Serai, a decentralized exchange aiming to support
-Monero. Despite this, monero-serai is intended to be a widely usable library,
-accurate to Monero. monero-serai guarantees the functionality needed for Serai,
-yet will not deprive functionality from other users.
-
-Various legacy transaction formats are not currently implemented, yet we are
-willing to add support for them. There aren't active development efforts around
-them however.
-
-### Caveats
-
-This library DOES attempt to do the following:
-
-- Create on-chain transactions identical to how wallet2 would (unless told not
-  to)
-- Not be detectable as monero-serai when scanning outputs
-- Not reveal spent outputs to the connected RPC node
-
-This library DOES NOT attempt to do the following:
-
-- Have identical RPC behavior when creating transactions
-- Be a wallet
-
-This means that monero-serai shouldn't be fingerprintable on-chain. It also
-shouldn't be fingerprintable if a targeted attack occurs to detect if the
-receiving wallet is monero-serai or wallet2. It also should be generally safe
-for usage with remote nodes.
-
-It won't hide from remote nodes it's monero-serai however, potentially
-allowing a remote node to profile you. The implications of this are left to the
-user to consider.
-
-It also won't act as a wallet, just as a transaction library. wallet2 has
-several *non-transaction-level* policies, such as always attempting to use two
-inputs to create transactions. These are considered out of scope to
-monero-serai.

coins/monero/build.rs

@@ -1,67 +0,0 @@
-use std::{
-  io::Write,
-  env,
-  path::Path,
-  fs::{File, remove_file},
-};
-
-use dalek_ff_group::EdwardsPoint;
-
-use monero_generators::bulletproofs_generators;
-
-fn serialize(generators_string: &mut String, points: &[EdwardsPoint]) {
-  for generator in points {
-    generators_string.extend(
-      format!(
-        "
-          dalek_ff_group::EdwardsPoint(
-            curve25519_dalek::edwards::CompressedEdwardsY({:?}).decompress().unwrap()
-          ),
-        ",
-        generator.compress().to_bytes()
-      )
-      .chars(),
-    );
-  }
-}
-
-fn generators(prefix: &'static str, path: &str) {
-  let generators = bulletproofs_generators(prefix.as_bytes());
-  #[allow(non_snake_case)]
-  let mut G_str = "".to_string();
-  serialize(&mut G_str, &generators.G);
-  #[allow(non_snake_case)]
-  let mut H_str = "".to_string();
-  serialize(&mut H_str, &generators.H);
-
-  let path = Path::new(&env::var("OUT_DIR").unwrap()).join(path);
-  let _ = remove_file(&path);
-  File::create(&path)
-    .unwrap()
-    .write_all(
-      format!(
-        "
-          pub(crate) static GENERATORS_CELL: OnceLock<Generators> = OnceLock::new();
-          pub fn GENERATORS() -> &'static Generators {{
-            GENERATORS_CELL.get_or_init(|| Generators {{
-              G: vec![
-                {G_str}
-              ],
-              H: vec![
-                {H_str}
-              ],
-            }})
-          }}
-        ",
-      )
-      .as_bytes(),
-    )
-    .unwrap();
-}
-
-fn main() {
-  println!("cargo:rerun-if-changed=build.rs");
-
-  generators("bulletproof", "generators.rs");
-  generators("bulletproof_plus", "generators_plus.rs");
-}

coins/monero/generators/README.md

@@ -1,7 +0,0 @@
-# Monero Generators
-
-Generators used by Monero in both its Pedersen commitments and Bulletproofs(+).
-An implementation of Monero's `ge_fromfe_frombytes_vartime`, simply called
-`hash_to_point` here, is included, as needed to generate generators.
-
-This library is usable under no_std when the `alloc` feature is enabled.

coins/monero/generators/src/lib.rs

@@ -1,79 +0,0 @@
-//! Generators used by Monero in both its Pedersen commitments and Bulletproofs(+).
-//!
-//! An implementation of Monero's `ge_fromfe_frombytes_vartime`, simply called
-//! `hash_to_point` here, is included, as needed to generate generators.
-
-#![cfg_attr(not(feature = "std"), no_std)]
-
-use std_shims::{sync::OnceLock, vec::Vec};
-
-use sha3::{Digest, Keccak256};
-
-use curve25519_dalek::edwards::{EdwardsPoint as DalekPoint, CompressedEdwardsY};
-
-use group::{Group, GroupEncoding};
-use dalek_ff_group::EdwardsPoint;
-
-mod varint;
-use varint::write_varint;
-
-mod hash_to_point;
-pub use hash_to_point::hash_to_point;
-
-fn hash(data: &[u8]) -> [u8; 32] {
-  Keccak256::digest(data).into()
-}
-
-static H_CELL: OnceLock<DalekPoint> = OnceLock::new();
-/// Monero's alternate generator `H`, used for amounts in Pedersen commitments.
-#[allow(non_snake_case)]
-pub fn H() -> DalekPoint {
-  *H_CELL.get_or_init(|| {
-    CompressedEdwardsY(hash(&EdwardsPoint::generator().to_bytes()))
-      .decompress()
-      .unwrap()
-      .mul_by_cofactor()
-  })
-}
-
-static H_POW_2_CELL: OnceLock<[DalekPoint; 64]> = OnceLock::new();
-/// Monero's alternate generator `H`, multiplied by 2**i for i in 1 ..= 64.
-#[allow(non_snake_case)]
-pub fn H_pow_2() -> &'static [DalekPoint; 64] {
-  H_POW_2_CELL.get_or_init(|| {
-    let mut res = [H(); 64];
-    for i in 1 .. 64 {
-      res[i] = res[i - 1] + res[i - 1];
-    }
-    res
-  })
-}
-
-const MAX_M: usize = 16;
-const N: usize = 64;
-const MAX_MN: usize = MAX_M * N;
-
-/// Container struct for Bulletproofs(+) generators.
-#[allow(non_snake_case)]
-pub struct Generators {
-  pub G: Vec<EdwardsPoint>,
-  pub H: Vec<EdwardsPoint>,
-}
-
-/// Generate generators as needed for Bulletproofs(+), as Monero does.
-pub fn bulletproofs_generators(dst: &'static [u8]) -> Generators {
-  let mut res = Generators { G: Vec::with_capacity(MAX_MN), H: Vec::with_capacity(MAX_MN) };
-  for i in 0 .. MAX_MN {
-    let i = 2 * i;
-
-    let mut even = H().compress().to_bytes().to_vec();
-    even.extend(dst);
-    let mut odd = even.clone();
-
-    write_varint(&i.try_into().unwrap(), &mut even).unwrap();
-    write_varint(&(i + 1).try_into().unwrap(), &mut odd).unwrap();
-    res.H.push(EdwardsPoint(hash_to_point(hash(&even))));
-    res.G.push(EdwardsPoint(hash_to_point(hash(&odd))));
-  }
-  res
-}

coins/monero/generators/src/varint.rs

@@ -1,16 +0,0 @@
-use std_shims::io::{self, Write};
-
-const VARINT_CONTINUATION_MASK: u8 = 0b1000_0000;
-pub(crate) fn write_varint<W: Write>(varint: &u64, w: &mut W) -> io::Result<()> {
-  let mut varint = *varint;
-  while {
-    let mut b = u8::try_from(varint & u64::from(!VARINT_CONTINUATION_MASK)).unwrap();
-    varint >>= 7;
-    if varint != 0 {
-      b |= VARINT_CONTINUATION_MASK;
-    }
-    w.write_all(&[b])?;
-    varint != 0
-  } {}
-  Ok(())
-}

coins/monero/src/bin/reserialize_chain.rs

@@ -1,323 +0,0 @@
-#[cfg(feature = "binaries")]
-mod binaries {
-  pub(crate) use std::sync::Arc;
-
-  pub(crate) use curve25519_dalek::{
-    scalar::Scalar,
-    edwards::{CompressedEdwardsY, EdwardsPoint},
-  };
-
-  pub(crate) use multiexp::BatchVerifier;
-
-  pub(crate) use serde::Deserialize;
-  pub(crate) use serde_json::json;
-
-  pub(crate) use monero_serai::{
-    Commitment,
-    ringct::RctPrunable,
-    transaction::{Input, Transaction},
-    block::Block,
-    rpc::{RpcError, Rpc, HttpRpc},
-  };
-
-  pub(crate) use tokio::task::JoinHandle;
-
-  pub(crate) async fn check_block(rpc: Arc<Rpc<HttpRpc>>, block_i: usize) {
-    let hash = loop {
-      match rpc.get_block_hash(block_i).await {
-        Ok(hash) => break hash,
-        Err(RpcError::ConnectionError(e)) => {
-          println!("get_block_hash ConnectionError: {e}");
-          continue;
-        }
-        Err(e) => panic!("couldn't get block {block_i}'s hash: {e:?}"),
-      }
-    };
-
-    // TODO: Grab the JSON to also check it was deserialized correctly
-    #[derive(Deserialize, Debug)]
-    struct BlockResponse {
-      blob: String,
-    }
-    let res: BlockResponse = loop {
-      match rpc.json_rpc_call("get_block", Some(json!({ "hash": hex::encode(hash) }))).await {
-        Ok(res) => break res,
-        Err(RpcError::ConnectionError(e)) => {
-          println!("get_block ConnectionError: {e}");
-          continue;
-        }
-        Err(e) => panic!("couldn't get block {block_i} via block.hash(): {e:?}"),
-      }
-    };
-
-    let blob = hex::decode(res.blob).expect("node returned non-hex block");
-    let block = Block::read(&mut blob.as_slice())
-      .unwrap_or_else(|e| panic!("couldn't deserialize block {block_i}: {e}"));
-    assert_eq!(block.hash(), hash, "hash differs");
-    assert_eq!(block.serialize(), blob, "serialization differs");
-
-    let txs_len = 1 + block.txs.len();
-
-    if !block.txs.is_empty() {
-      #[derive(Deserialize, Debug)]
-      struct TransactionResponse {
-        tx_hash: String,
-        as_hex: String,
-      }
-      #[derive(Deserialize, Debug)]
-      struct TransactionsResponse {
-        #[serde(default)]
-        missed_tx: Vec<String>,
-        txs: Vec<TransactionResponse>,
-      }
-
-      let mut hashes_hex = block.txs.iter().map(hex::encode).collect::<Vec<_>>();
-      let mut all_txs = vec![];
-      while !hashes_hex.is_empty() {
-        let txs: TransactionsResponse = loop {
-          match rpc
-            .rpc_call(
-              "get_transactions",
-              Some(json!({
-                "txs_hashes": hashes_hex.drain(.. hashes_hex.len().min(100)).collect::<Vec<_>>(),
-              })),
-            )
-            .await
-          {
-            Ok(txs) => break txs,
-            Err(RpcError::ConnectionError(e)) => {
-              println!("get_transactions ConnectionError: {e}");
-              continue;
-            }
-            Err(e) => panic!("couldn't call get_transactions: {e:?}"),
-          }
-        };
-        assert!(txs.missed_tx.is_empty());
-        all_txs.extend(txs.txs);
-      }
-
-      let mut batch = BatchVerifier::new(block.txs.len());
-      for (tx_hash, tx_res) in block.txs.into_iter().zip(all_txs) {
-        assert_eq!(
-          tx_res.tx_hash,
-          hex::encode(tx_hash),
-          "node returned a transaction with different hash"
-        );
-
-        let tx = Transaction::read(
-          &mut hex::decode(&tx_res.as_hex).expect("node returned non-hex transaction").as_slice(),
-        )
-        .expect("couldn't deserialize transaction");
-
-        assert_eq!(
-          hex::encode(tx.serialize()),
-          tx_res.as_hex,
-          "Transaction serialization was different"
-        );
-        assert_eq!(tx.hash(), tx_hash, "Transaction hash was different");
-
-        if matches!(tx.rct_signatures.prunable, RctPrunable::Null) {
-          assert_eq!(tx.prefix.version, 1);
-          assert!(!tx.signatures.is_empty());
-          continue;
-        }
-
-        let sig_hash = tx.signature_hash();
-        // Verify all proofs we support proving for
-        // This is due to having debug_asserts calling verify within their proving, and CLSAG
-        // multisig explicitly calling verify as part of its signing process
-        // Accordingly, making sure our signature_hash algorithm is correct is great, and further
-        // making sure the verification functions are valid is appreciated
-        match tx.rct_signatures.prunable {
-          RctPrunable::Null |
-          RctPrunable::AggregateMlsagBorromean { .. } |
-          RctPrunable::MlsagBorromean { .. } => {}
-          RctPrunable::MlsagBulletproofs { bulletproofs, .. } => {
-            assert!(bulletproofs.batch_verify(
-              &mut rand_core::OsRng,
-              &mut batch,
-              (),
-              &tx.rct_signatures.base.commitments
-            ));
-          }
-          RctPrunable::Clsag { bulletproofs, clsags, pseudo_outs } => {
-            assert!(bulletproofs.batch_verify(
-              &mut rand_core::OsRng,
-              &mut batch,
-              (),
-              &tx.rct_signatures.base.commitments
-            ));
-
-            for (i, clsag) in clsags.into_iter().enumerate() {
-              let (amount, key_offsets, image) = match &tx.prefix.inputs[i] {
-                Input::Gen(_) => panic!("Input::Gen"),
-                Input::ToKey { amount, key_offsets, key_image } => (amount, key_offsets, key_image),
-              };
-
-              let mut running_sum = 0;
-              let mut actual_indexes = vec![];
-              for offset in key_offsets {
-                running_sum += offset;
-                actual_indexes.push(running_sum);
-              }
-
-              async fn get_outs(
-                rpc: &Rpc<HttpRpc>,
-                amount: u64,
-                indexes: &[u64],
-              ) -> Vec<[EdwardsPoint; 2]> {
-                #[derive(Deserialize, Debug)]
-                struct Out {
-                  key: String,
-                  mask: String,
-                }
-
-                #[derive(Deserialize, Debug)]
-                struct Outs {
-                  outs: Vec<Out>,
-                }
-
-                let outs: Outs = loop {
-                  match rpc
-                    .rpc_call(
-                      "get_outs",
-                      Some(json!({
-                        "get_txid": true,
-                        "outputs": indexes.iter().map(|o| json!({
-                          "amount": amount,
-                          "index": o
-                        })).collect::<Vec<_>>()
-                      })),
-                    )
-                    .await
-                  {
-                    Ok(outs) => break outs,
-                    Err(RpcError::ConnectionError(e)) => {
-                      println!("get_outs ConnectionError: {e}");
-                      continue;
-                    }
-                    Err(e) => panic!("couldn't connect to RPC to get outs: {e:?}"),
-                  }
-                };
-
-                let rpc_point = |point: &str| {
-                  CompressedEdwardsY(
-                    hex::decode(point)
-                      .expect("invalid hex for ring member")
-                      .try_into()
-                      .expect("invalid point len for ring member"),
-                  )
-                  .decompress()
-                  .expect("invalid point for ring member")
-                };
-
-                outs
-                  .outs
-                  .iter()
-                  .map(|out| {
-                    let mask = rpc_point(&out.mask);
-                    if amount != 0 {
-                      assert_eq!(mask, Commitment::new(Scalar::from(1u8), amount).calculate());
-                    }
-                    [rpc_point(&out.key), mask]
-                  })
-                  .collect()
-              }
-
-              clsag
-                .verify(
-                  &get_outs(&rpc, amount.unwrap_or(0), &actual_indexes).await,
-                  image,
-                  &pseudo_outs[i],
-                  &sig_hash,
-                )
-                .unwrap();
-            }
-          }
-        }
-      }
-      assert!(batch.verify_vartime());
-    }
-
-    println!("Deserialized, hashed, and reserialized {block_i} with {} TXs", txs_len);
-  }
-}
-
-#[cfg(feature = "binaries")]
-#[tokio::main]
-async fn main() {
-  use binaries::*;
-
-  let args = std::env::args().collect::<Vec<String>>();
-
-  // Read start block as the first arg
-  let mut block_i = args[1].parse::<usize>().expect("invalid start block");
-
-  // How many blocks to work on at once
-  let async_parallelism: usize =
-    args.get(2).unwrap_or(&"8".to_string()).parse::<usize>().expect("invalid parallelism argument");
-
-  // Read further args as RPC URLs
-  let default_nodes = vec![
-    "http://xmr-node.cakewallet.com:18081".to_string(),
-    "https://node.sethforprivacy.com".to_string(),
-  ];
-  let mut specified_nodes = vec![];
-  {
-    let mut i = 0;
-    loop {
-      let Some(node) = args.get(3 + i) else { break };
-      specified_nodes.push(node.clone());
-      i += 1;
-    }
-  }
-  let nodes = if specified_nodes.is_empty() { default_nodes } else { specified_nodes };
-
-  let rpc = |url: String| async move {
-    HttpRpc::new(url.clone())
-      .await
-      .unwrap_or_else(|_| panic!("couldn't create HttpRpc connected to {url}"))
-  };
-  let main_rpc = rpc(nodes[0].clone()).await;
-  let mut rpcs = vec![];
-  for i in 0 .. async_parallelism {
-    rpcs.push(Arc::new(rpc(nodes[i % nodes.len()].clone()).await));
-  }
-
-  let mut rpc_i = 0;
-  let mut handles: Vec<JoinHandle<()>> = vec![];
-  let mut height = 0;
-  loop {
-    let new_height = main_rpc.get_height().await.expect("couldn't call get_height");
-    if new_height == height {
-      break;
-    }
-    height = new_height;
-
-    while block_i < height {
-      if handles.len() >= async_parallelism {
-        // Guarantee one handle is complete
-        handles.swap_remove(0).await.unwrap();
-
-        // Remove all of the finished handles
-        let mut i = 0;
-        while i < handles.len() {
-          if handles[i].is_finished() {
-            handles.swap_remove(i).await.unwrap();
-            continue;
-          }
-          i += 1;
-        }
-      }
-
-      handles.push(tokio::spawn(check_block(rpcs[rpc_i].clone(), block_i)));
-      rpc_i = (rpc_i + 1) % rpcs.len();
-      block_i += 1;
-    }
-  }
-}
-
-#[cfg(not(feature = "binaries"))]
-fn main() {
-  panic!("To run binaries, please build with `--feature binaries`.");
-}

coins/monero/src/block.rs

@@ -1,123 +0,0 @@
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use crate::{
-  hash,
-  merkle::merkle_root,
-  serialize::*,
-  transaction::{Input, Transaction},
-};
-
-const CORRECT_BLOCK_HASH_202612: [u8; 32] =
-  hex_literal::hex!("426d16cff04c71f8b16340b722dc4010a2dd3831c22041431f772547ba6e331a");
-const EXISTING_BLOCK_HASH_202612: [u8; 32] =
-  hex_literal::hex!("bbd604d2ba11ba27935e006ed39c9bfdd99b76bf4a50654bc1e1e61217962698");
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct BlockHeader {
-  pub major_version: u8,
-  pub minor_version: u8,
-  pub timestamp: u64,
-  pub previous: [u8; 32],
-  pub nonce: u32,
-}
-
-impl BlockHeader {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_varint(&self.major_version, w)?;
-    write_varint(&self.minor_version, w)?;
-    write_varint(&self.timestamp, w)?;
-    w.write_all(&self.previous)?;
-    w.write_all(&self.nonce.to_le_bytes())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<BlockHeader> {
-    Ok(BlockHeader {
-      major_version: read_varint(r)?,
-      minor_version: read_varint(r)?,
-      timestamp: read_varint(r)?,
-      previous: read_bytes(r)?,
-      nonce: read_bytes(r).map(u32::from_le_bytes)?,
-    })
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct Block {
-  pub header: BlockHeader,
-  pub miner_tx: Transaction,
-  pub txs: Vec<[u8; 32]>,
-}
-
-impl Block {
-  pub fn number(&self) -> usize {
-    match self.miner_tx.prefix.inputs.first() {
-      Some(Input::Gen(number)) => (*number).try_into().unwrap(),
-      _ => panic!("invalid block, miner TX didn't have a Input::Gen"),
-    }
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.header.write(w)?;
-    self.miner_tx.write(w)?;
-    write_varint(&self.txs.len(), w)?;
-    for tx in &self.txs {
-      w.write_all(tx)?;
-    }
-    Ok(())
-  }
-
-  fn tx_merkle_root(&self) -> [u8; 32] {
-    merkle_root(self.miner_tx.hash(), &self.txs)
-  }
-
-  /// Serialize the block as required for the proof of work hash.
-  ///
-  /// This is distinct from the serialization required for the block hash. To get the block hash,
-  /// use the [`Block::hash`] function.
-  pub fn serialize_hashable(&self) -> Vec<u8> {
-    let mut blob = self.header.serialize();
-    blob.extend_from_slice(&self.tx_merkle_root());
-    write_varint(&(1 + u64::try_from(self.txs.len()).unwrap()), &mut blob).unwrap();
-
-    blob
-  }
-
-  pub fn hash(&self) -> [u8; 32] {
-    let mut hashable = self.serialize_hashable();
-    // Monero pre-appends a VarInt of the block hashing blobs length before getting the block hash
-    // but doesn't do this when getting the proof of work hash :)
-    let mut hashing_blob = Vec::with_capacity(8 + hashable.len());
-    write_varint(&u64::try_from(hashable.len()).unwrap(), &mut hashing_blob).unwrap();
-    hashing_blob.append(&mut hashable);
-
-    let hash = hash(&hashing_blob);
-    if hash == CORRECT_BLOCK_HASH_202612 {
-      return EXISTING_BLOCK_HASH_202612;
-    };
-
-    hash
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Block> {
-    Ok(Block {
-      header: BlockHeader::read(r)?,
-      miner_tx: Transaction::read(r)?,
-      txs: (0_usize .. read_varint(r)?).map(|_| read_bytes(r)).collect::<Result<_, _>>()?,
-    })
-  }
-}

coins/monero/src/lib.rs

@@ -1,225 +0,0 @@
-#![cfg_attr(docsrs, feature(doc_auto_cfg))]
-#![doc = include_str!("../README.md")]
-#![cfg_attr(not(feature = "std"), no_std)]
-
-#[cfg(not(feature = "std"))]
-#[macro_use]
-extern crate alloc;
-
-use std_shims::{sync::OnceLock, io};
-
-use rand_core::{RngCore, CryptoRng};
-
-use zeroize::{Zeroize, ZeroizeOnDrop};
-
-use sha3::{Digest, Keccak256};
-
-use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar, edwards::EdwardsPoint};
-
-pub use monero_generators::H;
-
-mod merkle;
-
-mod serialize;
-use serialize::{read_byte, read_u16};
-
-/// UnreducedScalar struct with functionality for recovering incorrectly reduced scalars.
-mod unreduced_scalar;
-
-/// Ring Signature structs and functionality.
-pub mod ring_signatures;
-
-/// RingCT structs and functionality.
-pub mod ringct;
-use ringct::RctType;
-
-/// Transaction structs.
-pub mod transaction;
-/// Block structs.
-pub mod block;
-
-/// Monero daemon RPC interface.
-pub mod rpc;
-/// Wallet functionality, enabling scanning and sending transactions.
-pub mod wallet;
-
-#[cfg(test)]
-mod tests;
-
-static INV_EIGHT_CELL: OnceLock<Scalar> = OnceLock::new();
-#[allow(non_snake_case)]
-pub(crate) fn INV_EIGHT() -> Scalar {
-  *INV_EIGHT_CELL.get_or_init(|| Scalar::from(8u8).invert())
-}
-
-/// Monero protocol version.
-///
-/// v15 is omitted as v15 was simply v14 and v16 being active at the same time, with regards to the
-/// transactions supported. Accordingly, v16 should be used during v15.
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-#[allow(non_camel_case_types)]
-pub enum Protocol {
-  v14,
-  v16,
-  Custom {
-    ring_len: usize,
-    bp_plus: bool,
-    optimal_rct_type: RctType,
-    view_tags: bool,
-    v16_fee: bool,
-  },
-}
-
-impl Protocol {
-  /// Amount of ring members under this protocol version.
-  pub fn ring_len(&self) -> usize {
-    match self {
-      Protocol::v14 => 11,
-      Protocol::v16 => 16,
-      Protocol::Custom { ring_len, .. } => *ring_len,
-    }
-  }
-
-  /// Whether or not the specified version uses Bulletproofs or Bulletproofs+.
-  ///
-  /// This method will likely be reworked when versions not using Bulletproofs at all are added.
-  pub fn bp_plus(&self) -> bool {
-    match self {
-      Protocol::v14 => false,
-      Protocol::v16 => true,
-      Protocol::Custom { bp_plus, .. } => *bp_plus,
-    }
-  }
-
-  // TODO: Make this an Option when we support pre-RCT protocols
-  pub fn optimal_rct_type(&self) -> RctType {
-    match self {
-      Protocol::v14 => RctType::Clsag,
-      Protocol::v16 => RctType::BulletproofsPlus,
-      Protocol::Custom { optimal_rct_type, .. } => *optimal_rct_type,
-    }
-  }
-
-  /// Whether or not the specified version uses view tags.
-  pub fn view_tags(&self) -> bool {
-    match self {
-      Protocol::v14 => false,
-      Protocol::v16 => true,
-      Protocol::Custom { view_tags, .. } => *view_tags,
-    }
-  }
-
-  /// Whether or not the specified version uses the fee algorithm from Monero
-  /// hard fork version 16 (released in v18 binaries).
-  pub fn v16_fee(&self) -> bool {
-    match self {
-      Protocol::v14 => false,
-      Protocol::v16 => true,
-      Protocol::Custom { v16_fee, .. } => *v16_fee,
-    }
-  }
-
-  pub(crate) fn write<W: io::Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      Protocol::v14 => w.write_all(&[0, 14]),
-      Protocol::v16 => w.write_all(&[0, 16]),
-      Protocol::Custom { ring_len, bp_plus, optimal_rct_type, view_tags, v16_fee } => {
-        // Custom, version 0
-        w.write_all(&[1, 0])?;
-        w.write_all(&u16::try_from(*ring_len).unwrap().to_le_bytes())?;
-        w.write_all(&[u8::from(*bp_plus)])?;
-        w.write_all(&[optimal_rct_type.to_byte()])?;
-        w.write_all(&[u8::from(*view_tags)])?;
-        w.write_all(&[u8::from(*v16_fee)])
-      }
-    }
-  }
-
-  pub(crate) fn read<R: io::Read>(r: &mut R) -> io::Result<Protocol> {
-    Ok(match read_byte(r)? {
-      // Monero protocol
-      0 => match read_byte(r)? {
-        14 => Protocol::v14,
-        16 => Protocol::v16,
-        _ => Err(io::Error::other("unrecognized monero protocol"))?,
-      },
-      // Custom
-      1 => match read_byte(r)? {
-        0 => Protocol::Custom {
-          ring_len: read_u16(r)?.into(),
-          bp_plus: match read_byte(r)? {
-            0 => false,
-            1 => true,
-            _ => Err(io::Error::other("invalid bool serialization"))?,
-          },
-          optimal_rct_type: RctType::from_byte(read_byte(r)?)
-            .ok_or_else(|| io::Error::other("invalid RctType serialization"))?,
-          view_tags: match read_byte(r)? {
-            0 => false,
-            1 => true,
-            _ => Err(io::Error::other("invalid bool serialization"))?,
-          },
-          v16_fee: match read_byte(r)? {
-            0 => false,
-            1 => true,
-            _ => Err(io::Error::other("invalid bool serialization"))?,
-          },
-        },
-        _ => Err(io::Error::other("unrecognized custom protocol serialization"))?,
-      },
-      _ => Err(io::Error::other("unrecognized protocol serialization"))?,
-    })
-  }
-}
-
-/// Transparent structure representing a Pedersen commitment's contents.
-#[allow(non_snake_case)]
-#[derive(Clone, PartialEq, Eq, Zeroize, ZeroizeOnDrop)]
-pub struct Commitment {
-  pub mask: Scalar,
-  pub amount: u64,
-}
-
-impl core::fmt::Debug for Commitment {
-  fn fmt(&self, fmt: &mut core::fmt::Formatter<'_>) -> Result<(), core::fmt::Error> {
-    fmt.debug_struct("Commitment").field("amount", &self.amount).finish_non_exhaustive()
-  }
-}
-
-impl Commitment {
-  /// A commitment to zero, defined with a mask of 1 (as to not be the identity).
-  pub fn zero() -> Commitment {
-    Commitment { mask: Scalar::ONE, amount: 0 }
-  }
-
-  pub fn new(mask: Scalar, amount: u64) -> Commitment {
-    Commitment { mask, amount }
-  }
-
-  /// Calculate a Pedersen commitment, as a point, from the transparent structure.
-  pub fn calculate(&self) -> EdwardsPoint {
-    (&self.mask * ED25519_BASEPOINT_TABLE) + (Scalar::from(self.amount) * H())
-  }
-}
-
-/// Support generating a random scalar using a modern rand, as dalek's is notoriously dated.
-pub fn random_scalar<R: RngCore + CryptoRng>(rng: &mut R) -> Scalar {
-  let mut r = [0; 64];
-  rng.fill_bytes(&mut r);
-  Scalar::from_bytes_mod_order_wide(&r)
-}
-
-pub(crate) fn hash(data: &[u8]) -> [u8; 32] {
-  Keccak256::digest(data).into()
-}
-
-/// Hash the provided data to a scalar via keccak256(data) % l.
-pub fn hash_to_scalar(data: &[u8]) -> Scalar {
-  let scalar = Scalar::from_bytes_mod_order(hash(data));
-  // Monero will explicitly error in this case
-  // This library acknowledges its practical impossibility of it occurring, and doesn't bother to
-  // code in logic to handle it. That said, if it ever occurs, something must happen in order to
-  // not generate/verify a proof we believe to be valid when it isn't
-  assert!(scalar != Scalar::ZERO, "ZERO HASH: {data:?}");
-  scalar
-}

coins/monero/src/ring_signatures.rs

@@ -1,72 +0,0 @@
-use std_shims::{
-  io::{self, *},
-  vec::Vec,
-};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::{EdwardsPoint, Scalar};
-
-use monero_generators::hash_to_point;
-
-use crate::{serialize::*, hash_to_scalar};
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub struct Signature {
-  c: Scalar,
-  r: Scalar,
-}
-
-impl Signature {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_scalar(&self.c, w)?;
-    write_scalar(&self.r, w)?;
-    Ok(())
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Signature> {
-    Ok(Signature { c: read_scalar(r)?, r: read_scalar(r)? })
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub struct RingSignature {
-  sigs: Vec<Signature>,
-}
-
-impl RingSignature {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    for sig in &self.sigs {
-      sig.write(w)?;
-    }
-    Ok(())
-  }
-
-  pub fn read<R: Read>(members: usize, r: &mut R) -> io::Result<RingSignature> {
-    Ok(RingSignature { sigs: read_raw_vec(Signature::read, members, r)? })
-  }
-
-  pub fn verify(&self, msg: &[u8; 32], ring: &[EdwardsPoint], key_image: &EdwardsPoint) -> bool {
-    if ring.len() != self.sigs.len() {
-      return false;
-    }
-
-    let mut buf = Vec::with_capacity(32 + (32 * 2 * ring.len()));
-    buf.extend_from_slice(msg);
-
-    let mut sum = Scalar::ZERO;
-
-    for (ring_member, sig) in ring.iter().zip(&self.sigs) {
-      #[allow(non_snake_case)]
-      let Li = EdwardsPoint::vartime_double_scalar_mul_basepoint(&sig.c, ring_member, &sig.r);
-      buf.extend_from_slice(Li.compress().as_bytes());
-      #[allow(non_snake_case)]
-      let Ri = (sig.r * hash_to_point(ring_member.compress().to_bytes())) + (sig.c * key_image);
-      buf.extend_from_slice(Ri.compress().as_bytes());
-
-      sum += sig.c;
-    }
-
-    sum == hash_to_scalar(&buf)
-  }
-}

coins/monero/src/ringct/bulletproofs/core.rs

@@ -1,153 +0,0 @@
-use std_shims::{vec::Vec, sync::OnceLock};
-
-use rand_core::{RngCore, CryptoRng};
-
-use subtle::{Choice, ConditionallySelectable};
-
-use curve25519_dalek::edwards::EdwardsPoint as DalekPoint;
-
-use group::{ff::Field, Group};
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-use multiexp::multiexp as multiexp_const;
-
-pub(crate) use monero_generators::Generators;
-
-use crate::{INV_EIGHT as DALEK_INV_EIGHT, H as DALEK_H, Commitment, hash_to_scalar as dalek_hash};
-pub(crate) use crate::ringct::bulletproofs::scalar_vector::*;
-
-#[inline]
-pub(crate) fn INV_EIGHT() -> Scalar {
-  Scalar(DALEK_INV_EIGHT())
-}
-
-#[inline]
-pub(crate) fn H() -> EdwardsPoint {
-  EdwardsPoint(DALEK_H())
-}
-
-pub(crate) fn hash_to_scalar(data: &[u8]) -> Scalar {
-  Scalar(dalek_hash(data))
-}
-
-// Components common between variants
-pub(crate) const MAX_M: usize = 16;
-pub(crate) const LOG_N: usize = 6; // 2 << 6 == N
-pub(crate) const N: usize = 64;
-
-pub(crate) fn prove_multiexp(pairs: &[(Scalar, EdwardsPoint)]) -> EdwardsPoint {
-  multiexp_const(pairs) * INV_EIGHT()
-}
-
-pub(crate) fn vector_exponent(
-  generators: &Generators,
-  a: &ScalarVector,
-  b: &ScalarVector,
-) -> EdwardsPoint {
-  debug_assert_eq!(a.len(), b.len());
-  (a * &generators.G[.. a.len()]) + (b * &generators.H[.. b.len()])
-}
-
-pub(crate) fn hash_cache(cache: &mut Scalar, mash: &[[u8; 32]]) -> Scalar {
-  let slice =
-    &[cache.to_bytes().as_ref(), mash.iter().copied().flatten().collect::<Vec<_>>().as_ref()]
-      .concat();
-  *cache = hash_to_scalar(slice);
-  *cache
-}
-
-pub(crate) fn MN(outputs: usize) -> (usize, usize, usize) {
-  let mut logM = 0;
-  let mut M;
-  while {
-    M = 1 << logM;
-    (M <= MAX_M) && (M < outputs)
-  } {
-    logM += 1;
-  }
-
-  (logM + LOG_N, M, M * N)
-}
-
-pub(crate) fn bit_decompose(commitments: &[Commitment]) -> (ScalarVector, ScalarVector) {
-  let (_, M, MN) = MN(commitments.len());
-
-  let sv = commitments.iter().map(|c| Scalar::from(c.amount)).collect::<Vec<_>>();
-  let mut aL = ScalarVector::new(MN);
-  let mut aR = ScalarVector::new(MN);
-
-  for j in 0 .. M {
-    for i in (0 .. N).rev() {
-      let mut bit = Choice::from(0);
-      if j < sv.len() {
-        bit = Choice::from((sv[j][i / 8] >> (i % 8)) & 1);
-      }
-      aL.0[(j * N) + i] = Scalar::conditional_select(&Scalar::ZERO, &Scalar::ONE, bit);
-      aR.0[(j * N) + i] = Scalar::conditional_select(&-Scalar::ONE, &Scalar::ZERO, bit);
-    }
-  }
-
-  (aL, aR)
-}
-
-pub(crate) fn hash_commitments<C: IntoIterator<Item = DalekPoint>>(
-  commitments: C,
-) -> (Scalar, Vec<EdwardsPoint>) {
-  let V = commitments.into_iter().map(|c| EdwardsPoint(c) * INV_EIGHT()).collect::<Vec<_>>();
-  (hash_to_scalar(&V.iter().flat_map(|V| V.compress().to_bytes()).collect::<Vec<_>>()), V)
-}
-
-pub(crate) fn alpha_rho<R: RngCore + CryptoRng>(
-  rng: &mut R,
-  generators: &Generators,
-  aL: &ScalarVector,
-  aR: &ScalarVector,
-) -> (Scalar, EdwardsPoint) {
-  let ar = Scalar::random(rng);
-  (ar, (vector_exponent(generators, aL, aR) + (EdwardsPoint::generator() * ar)) * INV_EIGHT())
-}
-
-pub(crate) fn LR_statements(
-  a: &ScalarVector,
-  G_i: &[EdwardsPoint],
-  b: &ScalarVector,
-  H_i: &[EdwardsPoint],
-  cL: Scalar,
-  U: EdwardsPoint,
-) -> Vec<(Scalar, EdwardsPoint)> {
-  let mut res = a
-    .0
-    .iter()
-    .copied()
-    .zip(G_i.iter().copied())
-    .chain(b.0.iter().copied().zip(H_i.iter().copied()))
-    .collect::<Vec<_>>();
-  res.push((cL, U));
-  res
-}
-
-static TWO_N_CELL: OnceLock<ScalarVector> = OnceLock::new();
-pub(crate) fn TWO_N() -> &'static ScalarVector {
-  TWO_N_CELL.get_or_init(|| ScalarVector::powers(Scalar::from(2u8), N))
-}
-
-pub(crate) fn challenge_products(w: &[Scalar], winv: &[Scalar]) -> Vec<Scalar> {
-  let mut products = vec![Scalar::ZERO; 1 << w.len()];
-  products[0] = winv[0];
-  products[1] = w[0];
-  for j in 1 .. w.len() {
-    let mut slots = (1 << (j + 1)) - 1;
-    while slots > 0 {
-      products[slots] = products[slots / 2] * w[j];
-      products[slots - 1] = products[slots / 2] * winv[j];
-      slots = slots.saturating_sub(2);
-    }
-  }
-
-  // Sanity check as if the above failed to populate, it'd be critical
-  for w in &products {
-    debug_assert!(!bool::from(w.is_zero()));
-  }
-
-  products
-}

coins/monero/src/ringct/bulletproofs/mod.rs

@@ -1,229 +0,0 @@
-#![allow(non_snake_case)]
-
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use rand_core::{RngCore, CryptoRng};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::edwards::EdwardsPoint;
-use multiexp::BatchVerifier;
-
-use crate::{Commitment, wallet::TransactionError, serialize::*};
-
-pub(crate) mod scalar_vector;
-pub(crate) mod core;
-use self::core::LOG_N;
-
-pub(crate) mod original;
-use self::original::OriginalStruct;
-
-pub(crate) mod plus;
-use self::plus::*;
-
-pub(crate) const MAX_OUTPUTS: usize = self::core::MAX_M;
-
-/// Bulletproofs enum, supporting the original and plus formulations.
-#[allow(clippy::large_enum_variant)]
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub enum Bulletproofs {
-  Original(OriginalStruct),
-  Plus(AggregateRangeProof),
-}
-
-impl Bulletproofs {
-  fn bp_fields(plus: bool) -> usize {
-    if plus {
-      6
-    } else {
-      9
-    }
-  }
-
-  // https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
-  //   src/cryptonote_basic/cryptonote_format_utils.cpp#L106-L124
-  pub(crate) fn calculate_bp_clawback(plus: bool, n_outputs: usize) -> (usize, usize) {
-    #[allow(non_snake_case)]
-    let mut LR_len = 0;
-    let mut n_padded_outputs = 1;
-    while n_padded_outputs < n_outputs {
-      LR_len += 1;
-      n_padded_outputs = 1 << LR_len;
-    }
-    LR_len += LOG_N;
-
-    let mut bp_clawback = 0;
-    if n_padded_outputs > 2 {
-      let fields = Bulletproofs::bp_fields(plus);
-      let base = ((fields + (2 * (LOG_N + 1))) * 32) / 2;
-      let size = (fields + (2 * LR_len)) * 32;
-      bp_clawback = ((base * n_padded_outputs) - size) * 4 / 5;
-    }
-
-    (bp_clawback, LR_len)
-  }
-
-  pub(crate) fn fee_weight(plus: bool, outputs: usize) -> usize {
-    #[allow(non_snake_case)]
-    let (bp_clawback, LR_len) = Bulletproofs::calculate_bp_clawback(plus, outputs);
-    32 * (Bulletproofs::bp_fields(plus) + (2 * LR_len)) + 2 + bp_clawback
-  }
-
-  /// Prove the list of commitments are within [0 .. 2^64).
-  pub fn prove<R: RngCore + CryptoRng>(
-    rng: &mut R,
-    outputs: &[Commitment],
-    plus: bool,
-  ) -> Result<Bulletproofs, TransactionError> {
-    if outputs.is_empty() {
-      Err(TransactionError::NoOutputs)?;
-    }
-    if outputs.len() > MAX_OUTPUTS {
-      Err(TransactionError::TooManyOutputs)?;
-    }
-    Ok(if !plus {
-      Bulletproofs::Original(OriginalStruct::prove(rng, outputs))
-    } else {
-      use dalek_ff_group::EdwardsPoint as DfgPoint;
-      Bulletproofs::Plus(
-        AggregateRangeStatement::new(outputs.iter().map(|com| DfgPoint(com.calculate())).collect())
-          .unwrap()
-          .prove(rng, AggregateRangeWitness::new(outputs).unwrap())
-          .unwrap(),
-      )
-    })
-  }
-
-  /// Verify the given Bulletproofs.
-  #[must_use]
-  pub fn verify<R: RngCore + CryptoRng>(&self, rng: &mut R, commitments: &[EdwardsPoint]) -> bool {
-    match self {
-      Bulletproofs::Original(bp) => bp.verify(rng, commitments),
-      Bulletproofs::Plus(bp) => {
-        let mut verifier = BatchVerifier::new(1);
-        // If this commitment is torsioned (which is allowed), this won't be a well-formed
-        // dfg::EdwardsPoint (expected to be of prime-order)
-        // The actual BP+ impl will perform a torsion clear though, making this safe
-        // TODO: Have AggregateRangeStatement take in dalek EdwardsPoint for clarity on this
-        let Some(statement) = AggregateRangeStatement::new(
-          commitments.iter().map(|c| dalek_ff_group::EdwardsPoint(*c)).collect(),
-        ) else {
-          return false;
-        };
-        if !statement.verify(rng, &mut verifier, (), bp.clone()) {
-          return false;
-        }
-        verifier.verify_vartime()
-      }
-    }
-  }
-
-  /// Accumulate the verification for the given Bulletproofs into the specified BatchVerifier.
-  /// Returns false if the Bulletproofs aren't sane, without mutating the BatchVerifier.
-  /// Returns true if the Bulletproofs are sane, regardless of their validity.
-  #[must_use]
-  pub fn batch_verify<ID: Copy + Zeroize, R: RngCore + CryptoRng>(
-    &self,
-    rng: &mut R,
-    verifier: &mut BatchVerifier<ID, dalek_ff_group::EdwardsPoint>,
-    id: ID,
-    commitments: &[EdwardsPoint],
-  ) -> bool {
-    match self {
-      Bulletproofs::Original(bp) => bp.batch_verify(rng, verifier, id, commitments),
-      Bulletproofs::Plus(bp) => {
-        let Some(statement) = AggregateRangeStatement::new(
-          commitments.iter().map(|c| dalek_ff_group::EdwardsPoint(*c)).collect(),
-        ) else {
-          return false;
-        };
-        statement.verify(rng, verifier, id, bp.clone())
-      }
-    }
-  }
-
-  fn write_core<W: Write, F: Fn(&[EdwardsPoint], &mut W) -> io::Result<()>>(
-    &self,
-    w: &mut W,
-    specific_write_vec: F,
-  ) -> io::Result<()> {
-    match self {
-      Bulletproofs::Original(bp) => {
-        write_point(&bp.A, w)?;
-        write_point(&bp.S, w)?;
-        write_point(&bp.T1, w)?;
-        write_point(&bp.T2, w)?;
-        write_scalar(&bp.taux, w)?;
-        write_scalar(&bp.mu, w)?;
-        specific_write_vec(&bp.L, w)?;
-        specific_write_vec(&bp.R, w)?;
-        write_scalar(&bp.a, w)?;
-        write_scalar(&bp.b, w)?;
-        write_scalar(&bp.t, w)
-      }
-
-      Bulletproofs::Plus(bp) => {
-        write_point(&bp.A.0, w)?;
-        write_point(&bp.wip.A.0, w)?;
-        write_point(&bp.wip.B.0, w)?;
-        write_scalar(&bp.wip.r_answer.0, w)?;
-        write_scalar(&bp.wip.s_answer.0, w)?;
-        write_scalar(&bp.wip.delta_answer.0, w)?;
-        specific_write_vec(&bp.wip.L.iter().cloned().map(|L| L.0).collect::<Vec<_>>(), w)?;
-        specific_write_vec(&bp.wip.R.iter().cloned().map(|R| R.0).collect::<Vec<_>>(), w)
-      }
-    }
-  }
-
-  pub(crate) fn signature_write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.write_core(w, |points, w| write_raw_vec(write_point, points, w))
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.write_core(w, |points, w| write_vec(write_point, points, w))
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  /// Read Bulletproofs.
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Bulletproofs> {
-    Ok(Bulletproofs::Original(OriginalStruct {
-      A: read_point(r)?,
-      S: read_point(r)?,
-      T1: read_point(r)?,
-      T2: read_point(r)?,
-      taux: read_scalar(r)?,
-      mu: read_scalar(r)?,
-      L: read_vec(read_point, r)?,
-      R: read_vec(read_point, r)?,
-      a: read_scalar(r)?,
-      b: read_scalar(r)?,
-      t: read_scalar(r)?,
-    }))
-  }
-
-  /// Read Bulletproofs+.
-  pub fn read_plus<R: Read>(r: &mut R) -> io::Result<Bulletproofs> {
-    use dalek_ff_group::{Scalar as DfgScalar, EdwardsPoint as DfgPoint};
-
-    Ok(Bulletproofs::Plus(AggregateRangeProof {
-      A: DfgPoint(read_point(r)?),
-      wip: WipProof {
-        A: DfgPoint(read_point(r)?),
-        B: DfgPoint(read_point(r)?),
-        r_answer: DfgScalar(read_scalar(r)?),
-        s_answer: DfgScalar(read_scalar(r)?),
-        delta_answer: DfgScalar(read_scalar(r)?),
-        L: read_vec(read_point, r)?.into_iter().map(DfgPoint).collect(),
-        R: read_vec(read_point, r)?.into_iter().map(DfgPoint).collect(),
-      },
-    }))
-  }
-}

coins/monero/src/ringct/bulletproofs/original.rs

@@ -1,309 +0,0 @@
-use std_shims::{vec::Vec, sync::OnceLock};
-
-use rand_core::{RngCore, CryptoRng};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::{scalar::Scalar as DalekScalar, edwards::EdwardsPoint as DalekPoint};
-
-use group::{ff::Field, Group};
-use dalek_ff_group::{ED25519_BASEPOINT_POINT as G, Scalar, EdwardsPoint};
-
-use multiexp::BatchVerifier;
-
-use crate::{Commitment, ringct::bulletproofs::core::*};
-
-include!(concat!(env!("OUT_DIR"), "/generators.rs"));
-
-static IP12_CELL: OnceLock<Scalar> = OnceLock::new();
-pub(crate) fn IP12() -> Scalar {
-  *IP12_CELL.get_or_init(|| inner_product(&ScalarVector(vec![Scalar::ONE; N]), TWO_N()))
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct OriginalStruct {
-  pub(crate) A: DalekPoint,
-  pub(crate) S: DalekPoint,
-  pub(crate) T1: DalekPoint,
-  pub(crate) T2: DalekPoint,
-  pub(crate) taux: DalekScalar,
-  pub(crate) mu: DalekScalar,
-  pub(crate) L: Vec<DalekPoint>,
-  pub(crate) R: Vec<DalekPoint>,
-  pub(crate) a: DalekScalar,
-  pub(crate) b: DalekScalar,
-  pub(crate) t: DalekScalar,
-}
-
-impl OriginalStruct {
-  pub(crate) fn prove<R: RngCore + CryptoRng>(
-    rng: &mut R,
-    commitments: &[Commitment],
-  ) -> OriginalStruct {
-    let (logMN, M, MN) = MN(commitments.len());
-
-    let (aL, aR) = bit_decompose(commitments);
-    let commitments_points = commitments.iter().map(Commitment::calculate).collect::<Vec<_>>();
-    let (mut cache, _) = hash_commitments(commitments_points.clone());
-
-    let (sL, sR) =
-      ScalarVector((0 .. (MN * 2)).map(|_| Scalar::random(&mut *rng)).collect::<Vec<_>>()).split();
-
-    let generators = GENERATORS();
-    let (mut alpha, A) = alpha_rho(&mut *rng, generators, &aL, &aR);
-    let (mut rho, S) = alpha_rho(&mut *rng, generators, &sL, &sR);
-
-    let y = hash_cache(&mut cache, &[A.compress().to_bytes(), S.compress().to_bytes()]);
-    let mut cache = hash_to_scalar(&y.to_bytes());
-    let z = cache;
-
-    let l0 = &aL - z;
-    let l1 = sL;
-
-    let mut zero_twos = Vec::with_capacity(MN);
-    let zpow = ScalarVector::powers(z, M + 2);
-    for j in 0 .. M {
-      for i in 0 .. N {
-        zero_twos.push(zpow[j + 2] * TWO_N()[i]);
-      }
-    }
-
-    let yMN = ScalarVector::powers(y, MN);
-    let r0 = (&(aR + z) * &yMN) + ScalarVector(zero_twos);
-    let r1 = yMN * sR;
-
-    let (T1, T2, x, mut taux) = {
-      let t1 = inner_product(&l0, &r1) + inner_product(&l1, &r0);
-      let t2 = inner_product(&l1, &r1);
-
-      let mut tau1 = Scalar::random(&mut *rng);
-      let mut tau2 = Scalar::random(&mut *rng);
-
-      let T1 = prove_multiexp(&[(t1, H()), (tau1, EdwardsPoint::generator())]);
-      let T2 = prove_multiexp(&[(t2, H()), (tau2, EdwardsPoint::generator())]);
-
-      let x =
-        hash_cache(&mut cache, &[z.to_bytes(), T1.compress().to_bytes(), T2.compress().to_bytes()]);
-
-      let taux = (tau2 * (x * x)) + (tau1 * x);
-
-      tau1.zeroize();
-      tau2.zeroize();
-      (T1, T2, x, taux)
-    };
-
-    let mu = (x * rho) + alpha;
-    alpha.zeroize();
-    rho.zeroize();
-
-    for (i, gamma) in commitments.iter().map(|c| Scalar(c.mask)).enumerate() {
-      taux += zpow[i + 2] * gamma;
-    }
-
-    let l = &l0 + &(l1 * x);
-    let r = &r0 + &(r1 * x);
-
-    let t = inner_product(&l, &r);
-
-    let x_ip =
-      hash_cache(&mut cache, &[x.to_bytes(), taux.to_bytes(), mu.to_bytes(), t.to_bytes()]);
-
-    let mut a = l;
-    let mut b = r;
-
-    let yinv = y.invert().unwrap();
-    let yinvpow = ScalarVector::powers(yinv, MN);
-
-    let mut G_proof = generators.G[.. a.len()].to_vec();
-    let mut H_proof = generators.H[.. a.len()].to_vec();
-    H_proof.iter_mut().zip(yinvpow.0.iter()).for_each(|(this_H, yinvpow)| *this_H *= yinvpow);
-    let U = H() * x_ip;
-
-    let mut L = Vec::with_capacity(logMN);
-    let mut R = Vec::with_capacity(logMN);
-
-    while a.len() != 1 {
-      let (aL, aR) = a.split();
-      let (bL, bR) = b.split();
-
-      let cL = inner_product(&aL, &bR);
-      let cR = inner_product(&aR, &bL);
-
-      let (G_L, G_R) = G_proof.split_at(aL.len());
-      let (H_L, H_R) = H_proof.split_at(aL.len());
-
-      let L_i = prove_multiexp(&LR_statements(&aL, G_R, &bR, H_L, cL, U));
-      let R_i = prove_multiexp(&LR_statements(&aR, G_L, &bL, H_R, cR, U));
-      L.push(L_i);
-      R.push(R_i);
-
-      let w = hash_cache(&mut cache, &[L_i.compress().to_bytes(), R_i.compress().to_bytes()]);
-      let winv = w.invert().unwrap();
-
-      a = (aL * w) + (aR * winv);
-      b = (bL * winv) + (bR * w);
-
-      if a.len() != 1 {
-        G_proof = hadamard_fold(G_L, G_R, winv, w);
-        H_proof = hadamard_fold(H_L, H_R, w, winv);
-      }
-    }
-
-    let res = OriginalStruct {
-      A: *A,
-      S: *S,
-      T1: *T1,
-      T2: *T2,
-      taux: *taux,
-      mu: *mu,
-      L: L.drain(..).map(|L| *L).collect(),
-      R: R.drain(..).map(|R| *R).collect(),
-      a: *a[0],
-      b: *b[0],
-      t: *t,
-    };
-    debug_assert!(res.verify(rng, &commitments_points));
-    res
-  }
-
-  #[must_use]
-  fn verify_core<ID: Copy + Zeroize, R: RngCore + CryptoRng>(
-    &self,
-    rng: &mut R,
-    verifier: &mut BatchVerifier<ID, EdwardsPoint>,
-    id: ID,
-    commitments: &[DalekPoint],
-  ) -> bool {
-    // Verify commitments are valid
-    if commitments.is_empty() || (commitments.len() > MAX_M) {
-      return false;
-    }
-
-    // Verify L and R are properly sized
-    if self.L.len() != self.R.len() {
-      return false;
-    }
-
-    let (logMN, M, MN) = MN(commitments.len());
-    if self.L.len() != logMN {
-      return false;
-    }
-
-    // Rebuild all challenges
-    let (mut cache, commitments) = hash_commitments(commitments.iter().copied());
-    let y = hash_cache(&mut cache, &[self.A.compress().to_bytes(), self.S.compress().to_bytes()]);
-
-    let z = hash_to_scalar(&y.to_bytes());
-    cache = z;
-
-    let x = hash_cache(
-      &mut cache,
-      &[z.to_bytes(), self.T1.compress().to_bytes(), self.T2.compress().to_bytes()],
-    );
-
-    let x_ip = hash_cache(
-      &mut cache,
-      &[x.to_bytes(), self.taux.to_bytes(), self.mu.to_bytes(), self.t.to_bytes()],
-    );
-
-    let mut w = Vec::with_capacity(logMN);
-    let mut winv = Vec::with_capacity(logMN);
-    for (L, R) in self.L.iter().zip(&self.R) {
-      w.push(hash_cache(&mut cache, &[L.compress().to_bytes(), R.compress().to_bytes()]));
-      winv.push(cache.invert().unwrap());
-    }
-
-    // Convert the proof from * INV_EIGHT to its actual form
-    let normalize = |point: &DalekPoint| EdwardsPoint(point.mul_by_cofactor());
-
-    let L = self.L.iter().map(normalize).collect::<Vec<_>>();
-    let R = self.R.iter().map(normalize).collect::<Vec<_>>();
-    let T1 = normalize(&self.T1);
-    let T2 = normalize(&self.T2);
-    let A = normalize(&self.A);
-    let S = normalize(&self.S);
-
-    let commitments = commitments.iter().map(|c| c.mul_by_cofactor()).collect::<Vec<_>>();
-
-    // Verify it
-    let mut proof = Vec::with_capacity(4 + commitments.len());
-
-    let zpow = ScalarVector::powers(z, M + 3);
-    let ip1y = ScalarVector::powers(y, M * N).sum();
-    let mut k = -(zpow[2] * ip1y);
-    for j in 1 ..= M {
-      k -= zpow[j + 2] * IP12();
-    }
-    let y1 = Scalar(self.t) - ((z * ip1y) + k);
-    proof.push((-y1, H()));
-
-    proof.push((-Scalar(self.taux), G));
-
-    for (j, commitment) in commitments.iter().enumerate() {
-      proof.push((zpow[j + 2], *commitment));
-    }
-
-    proof.push((x, T1));
-    proof.push((x * x, T2));
-    verifier.queue(&mut *rng, id, proof);
-
-    proof = Vec::with_capacity(4 + (2 * (MN + logMN)));
-    let z3 = (Scalar(self.t) - (Scalar(self.a) * Scalar(self.b))) * x_ip;
-    proof.push((z3, H()));
-    proof.push((-Scalar(self.mu), G));
-
-    proof.push((Scalar::ONE, A));
-    proof.push((x, S));
-
-    {
-      let ypow = ScalarVector::powers(y, MN);
-      let yinv = y.invert().unwrap();
-      let yinvpow = ScalarVector::powers(yinv, MN);
-
-      let w_cache = challenge_products(&w, &winv);
-
-      let generators = GENERATORS();
-      for i in 0 .. MN {
-        let g = (Scalar(self.a) * w_cache[i]) + z;
-        proof.push((-g, generators.G[i]));
-
-        let mut h = Scalar(self.b) * yinvpow[i] * w_cache[(!i) & (MN - 1)];
-        h -= ((zpow[(i / N) + 2] * TWO_N()[i % N]) + (z * ypow[i])) * yinvpow[i];
-        proof.push((-h, generators.H[i]));
-      }
-    }
-
-    for i in 0 .. logMN {
-      proof.push((w[i] * w[i], L[i]));
-      proof.push((winv[i] * winv[i], R[i]));
-    }
-    verifier.queue(rng, id, proof);
-
-    true
-  }
-
-  #[must_use]
-  pub(crate) fn verify<R: RngCore + CryptoRng>(
-    &self,
-    rng: &mut R,
-    commitments: &[DalekPoint],
-  ) -> bool {
-    let mut verifier = BatchVerifier::new(1);
-    if self.verify_core(rng, &mut verifier, (), commitments) {
-      verifier.verify_vartime()
-    } else {
-      false
-    }
-  }
-
-  #[must_use]
-  pub(crate) fn batch_verify<ID: Copy + Zeroize, R: RngCore + CryptoRng>(
-    &self,
-    rng: &mut R,
-    verifier: &mut BatchVerifier<ID, EdwardsPoint>,
-    id: ID,
-    commitments: &[DalekPoint],
-  ) -> bool {
-    self.verify_core(rng, verifier, id, commitments)
-  }
-}

coins/monero/src/ringct/bulletproofs/plus/aggregate_range_proof.rs

@@ -1,249 +0,0 @@
-use std_shims::vec::Vec;
-
-use rand_core::{RngCore, CryptoRng};
-
-use zeroize::{Zeroize, ZeroizeOnDrop};
-
-use multiexp::{multiexp, multiexp_vartime, BatchVerifier};
-use group::{
-  ff::{Field, PrimeField},
-  Group, GroupEncoding,
-};
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-use crate::{
-  Commitment,
-  ringct::{
-    bulletproofs::core::{MAX_M, N},
-    bulletproofs::plus::{
-      ScalarVector, PointVector, GeneratorsList, Generators,
-      transcript::*,
-      weighted_inner_product::{WipStatement, WipWitness, WipProof},
-      padded_pow_of_2, u64_decompose,
-    },
-  },
-};
-
-// Figure 3
-#[derive(Clone, Debug)]
-pub(crate) struct AggregateRangeStatement {
-  generators: Generators,
-  V: Vec<EdwardsPoint>,
-}
-
-impl Zeroize for AggregateRangeStatement {
-  fn zeroize(&mut self) {
-    self.V.zeroize();
-  }
-}
-
-#[derive(Clone, Debug, Zeroize, ZeroizeOnDrop)]
-pub(crate) struct AggregateRangeWitness {
-  values: Vec<u64>,
-  gammas: Vec<Scalar>,
-}
-
-impl AggregateRangeWitness {
-  pub(crate) fn new(commitments: &[Commitment]) -> Option<Self> {
-    if commitments.is_empty() || (commitments.len() > MAX_M) {
-      return None;
-    }
-
-    let mut values = Vec::with_capacity(commitments.len());
-    let mut gammas = Vec::with_capacity(commitments.len());
-    for commitment in commitments {
-      values.push(commitment.amount);
-      gammas.push(Scalar(commitment.mask));
-    }
-    Some(AggregateRangeWitness { values, gammas })
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub struct AggregateRangeProof {
-  pub(crate) A: EdwardsPoint,
-  pub(crate) wip: WipProof,
-}
-
-impl AggregateRangeStatement {
-  pub(crate) fn new(V: Vec<EdwardsPoint>) -> Option<Self> {
-    if V.is_empty() || (V.len() > MAX_M) {
-      return None;
-    }
-
-    Some(Self { generators: Generators::new(), V })
-  }
-
-  fn transcript_A(transcript: &mut Scalar, A: EdwardsPoint) -> (Scalar, Scalar) {
-    let y = hash_to_scalar(&[transcript.to_repr().as_ref(), A.to_bytes().as_ref()].concat());
-    let z = hash_to_scalar(y.to_bytes().as_ref());
-    *transcript = z;
-    (y, z)
-  }
-
-  fn d_j(j: usize, m: usize) -> ScalarVector {
-    let mut d_j = Vec::with_capacity(m * N);
-    for _ in 0 .. (j - 1) * N {
-      d_j.push(Scalar::ZERO);
-    }
-    d_j.append(&mut ScalarVector::powers(Scalar::from(2u8), N).0);
-    for _ in 0 .. (m - j) * N {
-      d_j.push(Scalar::ZERO);
-    }
-    ScalarVector(d_j)
-  }
-
-  fn compute_A_hat(
-    mut V: PointVector,
-    generators: &Generators,
-    transcript: &mut Scalar,
-    mut A: EdwardsPoint,
-  ) -> (Scalar, ScalarVector, Scalar, Scalar, ScalarVector, EdwardsPoint) {
-    let (y, z) = Self::transcript_A(transcript, A);
-    A = A.mul_by_cofactor();
-
-    while V.len() < padded_pow_of_2(V.len()) {
-      V.0.push(EdwardsPoint::identity());
-    }
-    let mn = V.len() * N;
-
-    let mut z_pow = Vec::with_capacity(V.len());
-
-    let mut d = ScalarVector::new(mn);
-    for j in 1 ..= V.len() {
-      z_pow.push(z.pow(Scalar::from(2 * u64::try_from(j).unwrap()))); // TODO: Optimize this
-      d = d.add_vec(&Self::d_j(j, V.len()).mul(z_pow[j - 1]));
-    }
-
-    let mut ascending_y = ScalarVector(vec![y]);
-    for i in 1 .. d.len() {
-      ascending_y.0.push(ascending_y[i - 1] * y);
-    }
-    let y_pows = ascending_y.clone().sum();
-
-    let mut descending_y = ascending_y.clone();
-    descending_y.0.reverse();
-
-    let d_descending_y = d.mul_vec(&descending_y);
-
-    let y_mn_plus_one = descending_y[0] * y;
-
-    let mut commitment_accum = EdwardsPoint::identity();
-    for (j, commitment) in V.0.iter().enumerate() {
-      commitment_accum += *commitment * z_pow[j];
-    }
-
-    let neg_z = -z;
-    let mut A_terms = Vec::with_capacity((generators.len() * 2) + 2);
-    for (i, d_y_z) in d_descending_y.add(z).0.drain(..).enumerate() {
-      A_terms.push((neg_z, generators.generator(GeneratorsList::GBold1, i)));
-      A_terms.push((d_y_z, generators.generator(GeneratorsList::HBold1, i)));
-    }
-    A_terms.push((y_mn_plus_one, commitment_accum));
-    A_terms.push((
-      ((y_pows * z) - (d.sum() * y_mn_plus_one * z) - (y_pows * z.square())),
-      generators.g(),
-    ));
-
-    (y, d_descending_y, y_mn_plus_one, z, ScalarVector(z_pow), A + multiexp_vartime(&A_terms))
-  }
-
-  pub(crate) fn prove<R: RngCore + CryptoRng>(
-    self,
-    rng: &mut R,
-    witness: AggregateRangeWitness,
-  ) -> Option<AggregateRangeProof> {
-    // Check for consistency with the witness
-    if self.V.len() != witness.values.len() {
-      return None;
-    }
-    for (commitment, (value, gamma)) in
-      self.V.iter().zip(witness.values.iter().zip(witness.gammas.iter()))
-    {
-      if Commitment::new(**gamma, *value).calculate() != **commitment {
-        return None;
-      }
-    }
-
-    let Self { generators, V } = self;
-    // Monero expects all of these points to be torsion-free
-    // Generally, for Bulletproofs, it sends points * INV_EIGHT and then performs a torsion clear
-    // by multiplying by 8
-    // This also restores the original value due to the preprocessing
-    // Commitments aren't transmitted INV_EIGHT though, so this multiplies by INV_EIGHT to enable
-    // clearing its cofactor without mutating the value
-    // For some reason, these values are transcripted * INV_EIGHT, not as transmitted
-    let mut V = V.into_iter().map(|V| EdwardsPoint(V.0 * crate::INV_EIGHT())).collect::<Vec<_>>();
-    let mut transcript = initial_transcript(V.iter());
-    V.iter_mut().for_each(|V| *V = V.mul_by_cofactor());
-
-    // Pad V
-    while V.len() < padded_pow_of_2(V.len()) {
-      V.push(EdwardsPoint::identity());
-    }
-
-    let generators = generators.reduce(V.len() * N);
-
-    let mut d_js = Vec::with_capacity(V.len());
-    let mut a_l = ScalarVector(Vec::with_capacity(V.len() * N));
-    for j in 1 ..= V.len() {
-      d_js.push(Self::d_j(j, V.len()));
-      a_l.0.append(&mut u64_decompose(*witness.values.get(j - 1).unwrap_or(&0)).0);
-    }
-
-    let a_r = a_l.sub(Scalar::ONE);
-
-    let alpha = Scalar::random(&mut *rng);
-
-    let mut A_terms = Vec::with_capacity((generators.len() * 2) + 1);
-    for (i, a_l) in a_l.0.iter().enumerate() {
-      A_terms.push((*a_l, generators.generator(GeneratorsList::GBold1, i)));
-    }
-    for (i, a_r) in a_r.0.iter().enumerate() {
-      A_terms.push((*a_r, generators.generator(GeneratorsList::HBold1, i)));
-    }
-    A_terms.push((alpha, generators.h()));
-    let mut A = multiexp(&A_terms);
-    A_terms.zeroize();
-
-    // Multiply by INV_EIGHT per earlier commentary
-    A.0 *= crate::INV_EIGHT();
-
-    let (y, d_descending_y, y_mn_plus_one, z, z_pow, A_hat) =
-      Self::compute_A_hat(PointVector(V), &generators, &mut transcript, A);
-
-    let a_l = a_l.sub(z);
-    let a_r = a_r.add_vec(&d_descending_y).add(z);
-    let mut alpha = alpha;
-    for j in 1 ..= witness.gammas.len() {
-      alpha += z_pow[j - 1] * witness.gammas[j - 1] * y_mn_plus_one;
-    }
-
-    Some(AggregateRangeProof {
-      A,
-      wip: WipStatement::new(generators, A_hat, y)
-        .prove(rng, transcript, WipWitness::new(a_l, a_r, alpha).unwrap())
-        .unwrap(),
-    })
-  }
-
-  pub(crate) fn verify<Id: Copy + Zeroize, R: RngCore + CryptoRng>(
-    self,
-    rng: &mut R,
-    verifier: &mut BatchVerifier<Id, EdwardsPoint>,
-    id: Id,
-    proof: AggregateRangeProof,
-  ) -> bool {
-    let Self { generators, V } = self;
-
-    let mut V = V.into_iter().map(|V| EdwardsPoint(V.0 * crate::INV_EIGHT())).collect::<Vec<_>>();
-    let mut transcript = initial_transcript(V.iter());
-    V.iter_mut().for_each(|V| *V = V.mul_by_cofactor());
-
-    let generators = generators.reduce(V.len() * N);
-
-    let (y, _, _, _, _, A_hat) =
-      Self::compute_A_hat(PointVector(V), &generators, &mut transcript, proof.A);
-    WipStatement::new(generators, A_hat, y).verify(rng, verifier, id, transcript, proof.wip)
-  }
-}

coins/monero/src/ringct/bulletproofs/plus/mod.rs

@@ -1,92 +0,0 @@
-#![allow(non_snake_case)]
-
-use group::Group;
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-mod scalar_vector;
-pub(crate) use scalar_vector::{ScalarVector, weighted_inner_product};
-mod point_vector;
-pub(crate) use point_vector::PointVector;
-
-pub(crate) mod transcript;
-pub(crate) mod weighted_inner_product;
-pub(crate) use weighted_inner_product::*;
-pub(crate) mod aggregate_range_proof;
-pub(crate) use aggregate_range_proof::*;
-
-pub(crate) fn padded_pow_of_2(i: usize) -> usize {
-  let mut next_pow_of_2 = 1;
-  while next_pow_of_2 < i {
-    next_pow_of_2 <<= 1;
-  }
-  next_pow_of_2
-}
-
-#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug)]
-pub(crate) enum GeneratorsList {
-  GBold1,
-  HBold1,
-}
-
-// TODO: Table these
-#[derive(Clone, Debug)]
-pub(crate) struct Generators {
-  g: EdwardsPoint,
-
-  g_bold1: &'static [EdwardsPoint],
-  h_bold1: &'static [EdwardsPoint],
-}
-
-mod generators {
-  use std_shims::sync::OnceLock;
-  use monero_generators::Generators;
-  include!(concat!(env!("OUT_DIR"), "/generators_plus.rs"));
-}
-
-impl Generators {
-  #[allow(clippy::new_without_default)]
-  pub(crate) fn new() -> Self {
-    let gens = generators::GENERATORS();
-    Generators { g: dalek_ff_group::EdwardsPoint(crate::H()), g_bold1: &gens.G, h_bold1: &gens.H }
-  }
-
-  pub(crate) fn len(&self) -> usize {
-    self.g_bold1.len()
-  }
-
-  pub(crate) fn g(&self) -> EdwardsPoint {
-    self.g
-  }
-
-  pub(crate) fn h(&self) -> EdwardsPoint {
-    EdwardsPoint::generator()
-  }
-
-  pub(crate) fn generator(&self, list: GeneratorsList, i: usize) -> EdwardsPoint {
-    match list {
-      GeneratorsList::GBold1 => self.g_bold1[i],
-      GeneratorsList::HBold1 => self.h_bold1[i],
-    }
-  }
-
-  pub(crate) fn reduce(&self, generators: usize) -> Self {
-    // Round to the nearest power of 2
-    let generators = padded_pow_of_2(generators);
-    assert!(generators <= self.g_bold1.len());
-
-    Generators {
-      g: self.g,
-      g_bold1: &self.g_bold1[.. generators],
-      h_bold1: &self.h_bold1[.. generators],
-    }
-  }
-}
-
-// Returns the little-endian decomposition.
-fn u64_decompose(value: u64) -> ScalarVector {
-  let mut bits = ScalarVector::new(64);
-  for bit in 0 .. 64 {
-    bits[bit] = Scalar::from((value >> bit) & 1);
-  }
-  bits
-}

coins/monero/src/ringct/bulletproofs/plus/scalar_vector.rs

@@ -1,114 +0,0 @@
-use core::{
-  borrow::Borrow,
-  ops::{Index, IndexMut},
-};
-use std_shims::vec::Vec;
-
-use zeroize::Zeroize;
-
-use group::ff::Field;
-use dalek_ff_group::Scalar;
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub(crate) struct ScalarVector(pub(crate) Vec<Scalar>);
-
-impl Index<usize> for ScalarVector {
-  type Output = Scalar;
-  fn index(&self, index: usize) -> &Scalar {
-    &self.0[index]
-  }
-}
-
-impl IndexMut<usize> for ScalarVector {
-  fn index_mut(&mut self, index: usize) -> &mut Scalar {
-    &mut self.0[index]
-  }
-}
-
-impl ScalarVector {
-  pub(crate) fn new(len: usize) -> Self {
-    ScalarVector(vec![Scalar::ZERO; len])
-  }
-
-  pub(crate) fn add(&self, scalar: impl Borrow<Scalar>) -> Self {
-    let mut res = self.clone();
-    for val in res.0.iter_mut() {
-      *val += scalar.borrow();
-    }
-    res
-  }
-
-  pub(crate) fn sub(&self, scalar: impl Borrow<Scalar>) -> Self {
-    let mut res = self.clone();
-    for val in res.0.iter_mut() {
-      *val -= scalar.borrow();
-    }
-    res
-  }
-
-  pub(crate) fn mul(&self, scalar: impl Borrow<Scalar>) -> Self {
-    let mut res = self.clone();
-    for val in res.0.iter_mut() {
-      *val *= scalar.borrow();
-    }
-    res
-  }
-
-  pub(crate) fn add_vec(&self, vector: &Self) -> Self {
-    debug_assert_eq!(self.len(), vector.len());
-    let mut res = self.clone();
-    for (i, val) in res.0.iter_mut().enumerate() {
-      *val += vector.0[i];
-    }
-    res
-  }
-
-  pub(crate) fn mul_vec(&self, vector: &Self) -> Self {
-    debug_assert_eq!(self.len(), vector.len());
-    let mut res = self.clone();
-    for (i, val) in res.0.iter_mut().enumerate() {
-      *val *= vector.0[i];
-    }
-    res
-  }
-
-  pub(crate) fn inner_product(&self, vector: &Self) -> Scalar {
-    self.mul_vec(vector).sum()
-  }
-
-  pub(crate) fn powers(x: Scalar, len: usize) -> Self {
-    debug_assert!(len != 0);
-
-    let mut res = Vec::with_capacity(len);
-    res.push(Scalar::ONE);
-    res.push(x);
-    for i in 2 .. len {
-      res.push(res[i - 1] * x);
-    }
-    res.truncate(len);
-    ScalarVector(res)
-  }
-
-  pub(crate) fn sum(mut self) -> Scalar {
-    self.0.drain(..).sum()
-  }
-
-  pub(crate) fn len(&self) -> usize {
-    self.0.len()
-  }
-
-  pub(crate) fn split(mut self) -> (Self, Self) {
-    debug_assert!(self.len() > 1);
-    let r = self.0.split_off(self.0.len() / 2);
-    debug_assert_eq!(self.len(), r.len());
-    (self, ScalarVector(r))
-  }
-}
-
-pub(crate) fn weighted_inner_product(
-  a: &ScalarVector,
-  b: &ScalarVector,
-  y: &ScalarVector,
-) -> Scalar {
-  a.inner_product(&b.mul_vec(y))
-}

coins/monero/src/ringct/bulletproofs/plus/transcript.rs

@@ -1,24 +0,0 @@
-use std_shims::{sync::OnceLock, vec::Vec};
-
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-use monero_generators::{hash_to_point as raw_hash_to_point};
-use crate::{hash, hash_to_scalar as dalek_hash};
-
-// Monero starts BP+ transcripts with the following constant.
-static TRANSCRIPT_CELL: OnceLock<[u8; 32]> = OnceLock::new();
-pub(crate) fn TRANSCRIPT() -> [u8; 32] {
-  // Why this uses a hash_to_point is completely unknown.
-  *TRANSCRIPT_CELL
-    .get_or_init(|| raw_hash_to_point(hash(b"bulletproof_plus_transcript")).compress().to_bytes())
-}
-
-pub(crate) fn hash_to_scalar(data: &[u8]) -> Scalar {
-  Scalar(dalek_hash(data))
-}
-
-pub(crate) fn initial_transcript(commitments: core::slice::Iter<'_, EdwardsPoint>) -> Scalar {
-  let commitments_hash =
-    hash_to_scalar(&commitments.flat_map(|V| V.compress().to_bytes()).collect::<Vec<_>>());
-  hash_to_scalar(&[TRANSCRIPT().as_ref(), &commitments_hash.to_bytes()].concat())
-}

coins/monero/src/ringct/bulletproofs/scalar_vector.rs

@@ -1,114 +0,0 @@
-use core::ops::{Add, Sub, Mul, Index};
-use std_shims::vec::Vec;
-
-use zeroize::{Zeroize, ZeroizeOnDrop};
-
-use group::ff::Field;
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-use multiexp::multiexp;
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub(crate) struct ScalarVector(pub(crate) Vec<Scalar>);
-macro_rules! math_op {
-  ($Op: ident, $op: ident, $f: expr) => {
-    #[allow(clippy::redundant_closure_call)]
-    impl $Op<Scalar> for ScalarVector {
-      type Output = ScalarVector;
-      fn $op(self, b: Scalar) -> ScalarVector {
-        ScalarVector(self.0.iter().map(|a| $f((a, &b))).collect())
-      }
-    }
-
-    #[allow(clippy::redundant_closure_call)]
-    impl $Op<Scalar> for &ScalarVector {
-      type Output = ScalarVector;
-      fn $op(self, b: Scalar) -> ScalarVector {
-        ScalarVector(self.0.iter().map(|a| $f((a, &b))).collect())
-      }
-    }
-
-    #[allow(clippy::redundant_closure_call)]
-    impl $Op<ScalarVector> for ScalarVector {
-      type Output = ScalarVector;
-      fn $op(self, b: ScalarVector) -> ScalarVector {
-        debug_assert_eq!(self.len(), b.len());
-        ScalarVector(self.0.iter().zip(b.0.iter()).map($f).collect())
-      }
-    }
-
-    #[allow(clippy::redundant_closure_call)]
-    impl $Op<&ScalarVector> for &ScalarVector {
-      type Output = ScalarVector;
-      fn $op(self, b: &ScalarVector) -> ScalarVector {
-        debug_assert_eq!(self.len(), b.len());
-        ScalarVector(self.0.iter().zip(b.0.iter()).map($f).collect())
-      }
-    }
-  };
-}
-math_op!(Add, add, |(a, b): (&Scalar, &Scalar)| *a + *b);
-math_op!(Sub, sub, |(a, b): (&Scalar, &Scalar)| *a - *b);
-math_op!(Mul, mul, |(a, b): (&Scalar, &Scalar)| *a * *b);
-
-impl ScalarVector {
-  pub(crate) fn new(len: usize) -> ScalarVector {
-    ScalarVector(vec![Scalar::ZERO; len])
-  }
-
-  pub(crate) fn powers(x: Scalar, len: usize) -> ScalarVector {
-    debug_assert!(len != 0);
-
-    let mut res = Vec::with_capacity(len);
-    res.push(Scalar::ONE);
-    for i in 1 .. len {
-      res.push(res[i - 1] * x);
-    }
-    ScalarVector(res)
-  }
-
-  pub(crate) fn sum(mut self) -> Scalar {
-    self.0.drain(..).sum()
-  }
-
-  pub(crate) fn len(&self) -> usize {
-    self.0.len()
-  }
-
-  pub(crate) fn split(self) -> (ScalarVector, ScalarVector) {
-    let (l, r) = self.0.split_at(self.0.len() / 2);
-    (ScalarVector(l.to_vec()), ScalarVector(r.to_vec()))
-  }
-}
-
-impl Index<usize> for ScalarVector {
-  type Output = Scalar;
-  fn index(&self, index: usize) -> &Scalar {
-    &self.0[index]
-  }
-}
-
-pub(crate) fn inner_product(a: &ScalarVector, b: &ScalarVector) -> Scalar {
-  (a * b).sum()
-}
-
-impl Mul<&[EdwardsPoint]> for &ScalarVector {
-  type Output = EdwardsPoint;
-  fn mul(self, b: &[EdwardsPoint]) -> EdwardsPoint {
-    debug_assert_eq!(self.len(), b.len());
-    multiexp(&self.0.iter().copied().zip(b.iter().copied()).collect::<Vec<_>>())
-  }
-}
-
-pub(crate) fn hadamard_fold(
-  l: &[EdwardsPoint],
-  r: &[EdwardsPoint],
-  a: Scalar,
-  b: Scalar,
-) -> Vec<EdwardsPoint> {
-  let mut res = Vec::with_capacity(l.len() / 2);
-  for i in 0 .. l.len() {
-    res.push(multiexp(&[(a, l[i]), (b, r[i])]));
-  }
-  res
-}

coins/monero/src/ringct/clsag/mod.rs

@@ -1,324 +0,0 @@
-#![allow(non_snake_case)]
-
-use core::ops::Deref;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use rand_core::{RngCore, CryptoRng};
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-use subtle::{ConstantTimeEq, Choice, CtOption};
-
-use curve25519_dalek::{
-  constants::ED25519_BASEPOINT_TABLE,
-  scalar::Scalar,
-  traits::{IsIdentity, VartimePrecomputedMultiscalarMul},
-  edwards::{EdwardsPoint, VartimeEdwardsPrecomputation},
-};
-
-use crate::{
-  INV_EIGHT, Commitment, random_scalar, hash_to_scalar, wallet::decoys::Decoys,
-  ringct::hash_to_point, serialize::*,
-};
-
-#[cfg(feature = "multisig")]
-mod multisig;
-#[cfg(feature = "multisig")]
-pub use multisig::{ClsagDetails, ClsagAddendum, ClsagMultisig};
-#[cfg(feature = "multisig")]
-pub(crate) use multisig::add_key_image_share;
-
-/// Errors returned when CLSAG signing fails.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-#[cfg_attr(feature = "std", derive(thiserror::Error))]
-pub enum ClsagError {
-  #[cfg_attr(feature = "std", error("internal error ({0})"))]
-  InternalError(&'static str),
-  #[cfg_attr(feature = "std", error("invalid ring"))]
-  InvalidRing,
-  #[cfg_attr(feature = "std", error("invalid ring member (member {0}, ring size {1})"))]
-  InvalidRingMember(u8, u8),
-  #[cfg_attr(feature = "std", error("invalid commitment"))]
-  InvalidCommitment,
-  #[cfg_attr(feature = "std", error("invalid key image"))]
-  InvalidImage,
-  #[cfg_attr(feature = "std", error("invalid D"))]
-  InvalidD,
-  #[cfg_attr(feature = "std", error("invalid s"))]
-  InvalidS,
-  #[cfg_attr(feature = "std", error("invalid c1"))]
-  InvalidC1,
-}
-
-/// Input being signed for.
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct ClsagInput {
-  // The actual commitment for the true spend
-  pub(crate) commitment: Commitment,
-  // True spend index, offsets, and ring
-  pub(crate) decoys: Decoys,
-}
-
-impl ClsagInput {
-  pub fn new(commitment: Commitment, decoys: Decoys) -> Result<ClsagInput, ClsagError> {
-    let n = decoys.len();
-    if n > u8::MAX.into() {
-      Err(ClsagError::InternalError("max ring size in this library is u8 max"))?;
-    }
-    let n = u8::try_from(n).unwrap();
-    if decoys.i >= n {
-      Err(ClsagError::InvalidRingMember(decoys.i, n))?;
-    }
-
-    // Validate the commitment matches
-    if decoys.ring[usize::from(decoys.i)][1] != commitment.calculate() {
-      Err(ClsagError::InvalidCommitment)?;
-    }
-
-    Ok(ClsagInput { commitment, decoys })
-  }
-}
-
-#[allow(clippy::large_enum_variant)]
-enum Mode {
-  Sign(usize, EdwardsPoint, EdwardsPoint),
-  Verify(Scalar),
-}
-
-// Core of the CLSAG algorithm, applicable to both sign and verify with minimal differences
-// Said differences are covered via the above Mode
-fn core(
-  ring: &[[EdwardsPoint; 2]],
-  I: &EdwardsPoint,
-  pseudo_out: &EdwardsPoint,
-  msg: &[u8; 32],
-  D: &EdwardsPoint,
-  s: &[Scalar],
-  A_c1: Mode,
-) -> ((EdwardsPoint, Scalar, Scalar), Scalar) {
-  let n = ring.len();
-
-  let images_precomp = VartimeEdwardsPrecomputation::new([I, D]);
-  let D = D * INV_EIGHT();
-
-  // Generate the transcript
-  // Instead of generating multiple, a single transcript is created and then edited as needed
-  const PREFIX: &[u8] = b"CLSAG_";
-  #[rustfmt::skip]
-  const AGG_0: &[u8]  =       b"agg_0";
-  #[rustfmt::skip]
-  const ROUND: &[u8]  =       b"round";
-  const PREFIX_AGG_0_LEN: usize = PREFIX.len() + AGG_0.len();
-
-  let mut to_hash = Vec::with_capacity(((2 * n) + 5) * 32);
-  to_hash.extend(PREFIX);
-  to_hash.extend(AGG_0);
-  to_hash.extend([0; 32 - PREFIX_AGG_0_LEN]);
-
-  let mut P = Vec::with_capacity(n);
-  for member in ring {
-    P.push(member[0]);
-    to_hash.extend(member[0].compress().to_bytes());
-  }
-
-  let mut C = Vec::with_capacity(n);
-  for member in ring {
-    C.push(member[1] - pseudo_out);
-    to_hash.extend(member[1].compress().to_bytes());
-  }
-
-  to_hash.extend(I.compress().to_bytes());
-  to_hash.extend(D.compress().to_bytes());
-  to_hash.extend(pseudo_out.compress().to_bytes());
-  // mu_P with agg_0
-  let mu_P = hash_to_scalar(&to_hash);
-  // mu_C with agg_1
-  to_hash[PREFIX_AGG_0_LEN - 1] = b'1';
-  let mu_C = hash_to_scalar(&to_hash);
-
-  // Truncate it for the round transcript, altering the DST as needed
-  to_hash.truncate(((2 * n) + 1) * 32);
-  for i in 0 .. ROUND.len() {
-    to_hash[PREFIX.len() + i] = ROUND[i];
-  }
-  // Unfortunately, it's I D pseudo_out instead of pseudo_out I D, meaning this needs to be
-  // truncated just to add it back
-  to_hash.extend(pseudo_out.compress().to_bytes());
-  to_hash.extend(msg);
-
-  // Configure the loop based on if we're signing or verifying
-  let start;
-  let end;
-  let mut c;
-  match A_c1 {
-    Mode::Sign(r, A, AH) => {
-      start = r + 1;
-      end = r + n;
-      to_hash.extend(A.compress().to_bytes());
-      to_hash.extend(AH.compress().to_bytes());
-      c = hash_to_scalar(&to_hash);
-    }
-
-    Mode::Verify(c1) => {
-      start = 0;
-      end = n;
-      c = c1;
-    }
-  }
-
-  // Perform the core loop
-  let mut c1 = CtOption::new(Scalar::ZERO, Choice::from(0));
-  for i in (start .. end).map(|i| i % n) {
-    // This will only execute once and shouldn't need to be constant time. Making it constant time
-    // removes the risk of branch prediction creating timing differences depending on ring index
-    // however
-    c1 = c1.or_else(|| CtOption::new(c, i.ct_eq(&0)));
-
-    let c_p = mu_P * c;
-    let c_c = mu_C * c;
-
-    let L = (&s[i] * ED25519_BASEPOINT_TABLE) + (c_p * P[i]) + (c_c * C[i]);
-    let PH = hash_to_point(&P[i]);
-    // Shouldn't be an issue as all of the variables in this vartime statement are public
-    let R = (s[i] * PH) + images_precomp.vartime_multiscalar_mul([c_p, c_c]);
-
-    to_hash.truncate(((2 * n) + 3) * 32);
-    to_hash.extend(L.compress().to_bytes());
-    to_hash.extend(R.compress().to_bytes());
-    c = hash_to_scalar(&to_hash);
-  }
-
-  // This first tuple is needed to continue signing, the latter is the c to be tested/worked with
-  ((D, c * mu_P, c * mu_C), c1.unwrap_or(c))
-}
-
-/// CLSAG signature, as used in Monero.
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct Clsag {
-  pub D: EdwardsPoint,
-  pub s: Vec<Scalar>,
-  pub c1: Scalar,
-}
-
-impl Clsag {
-  // Sign core is the extension of core as needed for signing, yet is shared between single signer
-  // and multisig, hence why it's still core
-  pub(crate) fn sign_core<R: RngCore + CryptoRng>(
-    rng: &mut R,
-    I: &EdwardsPoint,
-    input: &ClsagInput,
-    mask: Scalar,
-    msg: &[u8; 32],
-    A: EdwardsPoint,
-    AH: EdwardsPoint,
-  ) -> (Clsag, EdwardsPoint, Scalar, Scalar) {
-    let r: usize = input.decoys.i.into();
-
-    let pseudo_out = Commitment::new(mask, input.commitment.amount).calculate();
-    let z = input.commitment.mask - mask;
-
-    let H = hash_to_point(&input.decoys.ring[r][0]);
-    let D = H * z;
-    let mut s = Vec::with_capacity(input.decoys.ring.len());
-    for _ in 0 .. input.decoys.ring.len() {
-      s.push(random_scalar(rng));
-    }
-    let ((D, p, c), c1) =
-      core(&input.decoys.ring, I, &pseudo_out, msg, &D, &s, Mode::Sign(r, A, AH));
-
-    (Clsag { D, s, c1 }, pseudo_out, p, c * z)
-  }
-
-  /// Generate CLSAG signatures for the given inputs.
-  /// inputs is of the form (private key, key image, input).
-  /// sum_outputs is for the sum of the outputs' commitment masks.
-  pub fn sign<R: RngCore + CryptoRng>(
-    rng: &mut R,
-    mut inputs: Vec<(Zeroizing<Scalar>, EdwardsPoint, ClsagInput)>,
-    sum_outputs: Scalar,
-    msg: [u8; 32],
-  ) -> Vec<(Clsag, EdwardsPoint)> {
-    let mut res = Vec::with_capacity(inputs.len());
-    let mut sum_pseudo_outs = Scalar::ZERO;
-    for i in 0 .. inputs.len() {
-      let mut mask = random_scalar(rng);
-      if i == (inputs.len() - 1) {
-        mask = sum_outputs - sum_pseudo_outs;
-      } else {
-        sum_pseudo_outs += mask;
-      }
-
-      let mut nonce = Zeroizing::new(random_scalar(rng));
-      let (mut clsag, pseudo_out, p, c) = Clsag::sign_core(
-        rng,
-        &inputs[i].1,
-        &inputs[i].2,
-        mask,
-        &msg,
-        nonce.deref() * ED25519_BASEPOINT_TABLE,
-        nonce.deref() *
-          hash_to_point(&inputs[i].2.decoys.ring[usize::from(inputs[i].2.decoys.i)][0]),
-      );
-      clsag.s[usize::from(inputs[i].2.decoys.i)] =
-        (-((p * inputs[i].0.deref()) + c)) + nonce.deref();
-      inputs[i].0.zeroize();
-      nonce.zeroize();
-
-      debug_assert!(clsag
-        .verify(&inputs[i].2.decoys.ring, &inputs[i].1, &pseudo_out, &msg)
-        .is_ok());
-
-      res.push((clsag, pseudo_out));
-    }
-
-    res
-  }
-
-  /// Verify the CLSAG signature against the given Transaction data.
-  pub fn verify(
-    &self,
-    ring: &[[EdwardsPoint; 2]],
-    I: &EdwardsPoint,
-    pseudo_out: &EdwardsPoint,
-    msg: &[u8; 32],
-  ) -> Result<(), ClsagError> {
-    // Preliminary checks. s, c1, and points must also be encoded canonically, which isn't checked
-    // here
-    if ring.is_empty() {
-      Err(ClsagError::InvalidRing)?;
-    }
-    if ring.len() != self.s.len() {
-      Err(ClsagError::InvalidS)?;
-    }
-    if I.is_identity() {
-      Err(ClsagError::InvalidImage)?;
-    }
-
-    let D = self.D.mul_by_cofactor();
-    if D.is_identity() {
-      Err(ClsagError::InvalidD)?;
-    }
-
-    let (_, c1) = core(ring, I, pseudo_out, msg, &D, &self.s, Mode::Verify(self.c1));
-    if c1 != self.c1 {
-      Err(ClsagError::InvalidC1)?;
-    }
-    Ok(())
-  }
-
-  pub(crate) fn fee_weight(ring_len: usize) -> usize {
-    (ring_len * 32) + 32 + 32
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_raw_vec(write_scalar, &self.s, w)?;
-    w.write_all(&self.c1.to_bytes())?;
-    write_point(&self.D, w)
-  }
-
-  pub fn read<R: Read>(decoys: usize, r: &mut R) -> io::Result<Clsag> {
-    Ok(Clsag { s: read_raw_vec(read_scalar, decoys, r)?, c1: read_scalar(r)?, D: read_point(r)? })
-  }
-}

coins/monero/src/ringct/clsag/multisig.rs

@@ -1,304 +0,0 @@
-use core::{ops::Deref, fmt::Debug};
-use std_shims::io::{self, Read, Write};
-use std::sync::{Arc, RwLock};
-
-use rand_core::{RngCore, CryptoRng, SeedableRng};
-use rand_chacha::ChaCha20Rng;
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-
-use curve25519_dalek::{scalar::Scalar, edwards::EdwardsPoint};
-
-use group::{ff::Field, Group, GroupEncoding};
-
-use transcript::{Transcript, RecommendedTranscript};
-use dalek_ff_group as dfg;
-use dleq::DLEqProof;
-use frost::{
-  dkg::lagrange,
-  curve::Ed25519,
-  Participant, FrostError, ThresholdKeys, ThresholdView,
-  algorithm::{WriteAddendum, Algorithm},
-};
-
-use crate::ringct::{
-  hash_to_point,
-  clsag::{ClsagInput, Clsag},
-};
-
-fn dleq_transcript() -> RecommendedTranscript {
-  RecommendedTranscript::new(b"monero_key_image_dleq")
-}
-
-impl ClsagInput {
-  fn transcript<T: Transcript>(&self, transcript: &mut T) {
-    // Doesn't domain separate as this is considered part of the larger CLSAG proof
-
-    // Ring index
-    transcript.append_message(b"real_spend", [self.decoys.i]);
-
-    // Ring
-    for (i, pair) in self.decoys.ring.iter().enumerate() {
-      // Doesn't include global output indexes as CLSAG doesn't care and won't be affected by it
-      // They're just a unreliable reference to this data which will be included in the message
-      // if in use
-      transcript.append_message(b"member", [u8::try_from(i).expect("ring size exceeded 255")]);
-      transcript.append_message(b"key", pair[0].compress().to_bytes());
-      transcript.append_message(b"commitment", pair[1].compress().to_bytes())
-    }
-
-    // Doesn't include the commitment's parts as the above ring + index includes the commitment
-    // The only potential malleability would be if the G/H relationship is known breaking the
-    // discrete log problem, which breaks everything already
-  }
-}
-
-/// CLSAG input and the mask to use for it.
-#[derive(Clone, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct ClsagDetails {
-  input: ClsagInput,
-  mask: Scalar,
-}
-
-impl ClsagDetails {
-  pub fn new(input: ClsagInput, mask: Scalar) -> ClsagDetails {
-    ClsagDetails { input, mask }
-  }
-}
-
-/// Addendum produced during the FROST signing process with relevant data.
-#[derive(Clone, PartialEq, Eq, Zeroize, Debug)]
-pub struct ClsagAddendum {
-  pub(crate) key_image: dfg::EdwardsPoint,
-  dleq: DLEqProof<dfg::EdwardsPoint>,
-}
-
-impl WriteAddendum for ClsagAddendum {
-  fn write<W: Write>(&self, writer: &mut W) -> io::Result<()> {
-    writer.write_all(self.key_image.compress().to_bytes().as_ref())?;
-    self.dleq.write(writer)
-  }
-}
-
-#[allow(non_snake_case)]
-#[derive(Clone, PartialEq, Eq, Debug)]
-struct Interim {
-  p: Scalar,
-  c: Scalar,
-
-  clsag: Clsag,
-  pseudo_out: EdwardsPoint,
-}
-
-/// FROST algorithm for producing a CLSAG signature.
-#[allow(non_snake_case)]
-#[derive(Clone, Debug)]
-pub struct ClsagMultisig {
-  transcript: RecommendedTranscript,
-
-  pub(crate) H: EdwardsPoint,
-  // Merged here as CLSAG needs it, passing it would be a mess, yet having it beforehand requires
-  // an extra round
-  image: EdwardsPoint,
-
-  details: Arc<RwLock<Option<ClsagDetails>>>,
-
-  msg: Option<[u8; 32]>,
-  interim: Option<Interim>,
-}
-
-impl ClsagMultisig {
-  pub fn new(
-    transcript: RecommendedTranscript,
-    output_key: EdwardsPoint,
-    details: Arc<RwLock<Option<ClsagDetails>>>,
-  ) -> ClsagMultisig {
-    ClsagMultisig {
-      transcript,
-
-      H: hash_to_point(&output_key),
-      image: EdwardsPoint::identity(),
-
-      details,
-
-      msg: None,
-      interim: None,
-    }
-  }
-
-  fn input(&self) -> ClsagInput {
-    (*self.details.read().unwrap()).as_ref().unwrap().input.clone()
-  }
-
-  fn mask(&self) -> Scalar {
-    (*self.details.read().unwrap()).as_ref().unwrap().mask
-  }
-}
-
-pub(crate) fn add_key_image_share(
-  image: &mut EdwardsPoint,
-  generator: EdwardsPoint,
-  offset: Scalar,
-  included: &[Participant],
-  participant: Participant,
-  share: EdwardsPoint,
-) {
-  if image.is_identity().into() {
-    *image = generator * offset;
-  }
-  *image += share * lagrange::<dfg::Scalar>(participant, included).0;
-}
-
-impl Algorithm<Ed25519> for ClsagMultisig {
-  type Transcript = RecommendedTranscript;
-  type Addendum = ClsagAddendum;
-  type Signature = (Clsag, EdwardsPoint);
-
-  fn nonces(&self) -> Vec<Vec<dfg::EdwardsPoint>> {
-    vec![vec![dfg::EdwardsPoint::generator(), dfg::EdwardsPoint(self.H)]]
-  }
-
-  fn preprocess_addendum<R: RngCore + CryptoRng>(
-    &mut self,
-    rng: &mut R,
-    keys: &ThresholdKeys<Ed25519>,
-  ) -> ClsagAddendum {
-    ClsagAddendum {
-      key_image: dfg::EdwardsPoint(self.H) * keys.secret_share().deref(),
-      dleq: DLEqProof::prove(
-        rng,
-        // Doesn't take in a larger transcript object due to the usage of this
-        // Every prover would immediately write their own DLEq proof, when they can only do so in
-        // the proper order if they want to reach consensus
-        // It'd be a poor API to have CLSAG define a new transcript solely to pass here, just to
-        // try to merge later in some form, when it should instead just merge xH (as it does)
-        &mut dleq_transcript(),
-        &[dfg::EdwardsPoint::generator(), dfg::EdwardsPoint(self.H)],
-        keys.secret_share(),
-      ),
-    }
-  }
-
-  fn read_addendum<R: Read>(&self, reader: &mut R) -> io::Result<ClsagAddendum> {
-    let mut bytes = [0; 32];
-    reader.read_exact(&mut bytes)?;
-    // dfg ensures the point is torsion free
-    let xH = Option::<dfg::EdwardsPoint>::from(dfg::EdwardsPoint::from_bytes(&bytes))
-      .ok_or_else(|| io::Error::other("invalid key image"))?;
-    // Ensure this is a canonical point
-    if xH.to_bytes() != bytes {
-      Err(io::Error::other("non-canonical key image"))?;
-    }
-
-    Ok(ClsagAddendum { key_image: xH, dleq: DLEqProof::<dfg::EdwardsPoint>::read(reader)? })
-  }
-
-  fn process_addendum(
-    &mut self,
-    view: &ThresholdView<Ed25519>,
-    l: Participant,
-    addendum: ClsagAddendum,
-  ) -> Result<(), FrostError> {
-    if self.image.is_identity().into() {
-      self.transcript.domain_separate(b"CLSAG");
-      self.input().transcript(&mut self.transcript);
-      self.transcript.append_message(b"mask", self.mask().to_bytes());
-    }
-
-    self.transcript.append_message(b"participant", l.to_bytes());
-
-    addendum
-      .dleq
-      .verify(
-        &mut dleq_transcript(),
-        &[dfg::EdwardsPoint::generator(), dfg::EdwardsPoint(self.H)],
-        &[view.original_verification_share(l), addendum.key_image],
-      )
-      .map_err(|_| FrostError::InvalidPreprocess(l))?;
-
-    self.transcript.append_message(b"key_image_share", addendum.key_image.compress().to_bytes());
-    add_key_image_share(
-      &mut self.image,
-      self.H,
-      view.offset().0,
-      view.included(),
-      l,
-      addendum.key_image.0,
-    );
-
-    Ok(())
-  }
-
-  fn transcript(&mut self) -> &mut Self::Transcript {
-    &mut self.transcript
-  }
-
-  fn sign_share(
-    &mut self,
-    view: &ThresholdView<Ed25519>,
-    nonce_sums: &[Vec<dfg::EdwardsPoint>],
-    nonces: Vec<Zeroizing<dfg::Scalar>>,
-    msg: &[u8],
-  ) -> dfg::Scalar {
-    // Use the transcript to get a seeded random number generator
-    // The transcript contains private data, preventing passive adversaries from recreating this
-    // process even if they have access to commitments (specifically, the ring index being signed
-    // for, along with the mask which should not only require knowing the shared keys yet also the
-    // input commitment masks)
-    let mut rng = ChaCha20Rng::from_seed(self.transcript.rng_seed(b"decoy_responses"));
-
-    self.msg = Some(msg.try_into().expect("CLSAG message should be 32-bytes"));
-
-    #[allow(non_snake_case)]
-    let (clsag, pseudo_out, p, c) = Clsag::sign_core(
-      &mut rng,
-      &self.image,
-      &self.input(),
-      self.mask(),
-      self.msg.as_ref().unwrap(),
-      nonce_sums[0][0].0,
-      nonce_sums[0][1].0,
-    );
-    self.interim = Some(Interim { p, c, clsag, pseudo_out });
-
-    (-(dfg::Scalar(p) * view.secret_share().deref())) + nonces[0].deref()
-  }
-
-  #[must_use]
-  fn verify(
-    &self,
-    _: dfg::EdwardsPoint,
-    _: &[Vec<dfg::EdwardsPoint>],
-    sum: dfg::Scalar,
-  ) -> Option<Self::Signature> {
-    let interim = self.interim.as_ref().unwrap();
-    let mut clsag = interim.clsag.clone();
-    clsag.s[usize::from(self.input().decoys.i)] = sum.0 - interim.c;
-    if clsag
-      .verify(
-        &self.input().decoys.ring,
-        &self.image,
-        &interim.pseudo_out,
-        self.msg.as_ref().unwrap(),
-      )
-      .is_ok()
-    {
-      return Some((clsag, interim.pseudo_out));
-    }
-    None
-  }
-
-  fn verify_share(
-    &self,
-    verification_share: dfg::EdwardsPoint,
-    nonces: &[Vec<dfg::EdwardsPoint>],
-    share: dfg::Scalar,
-  ) -> Result<Vec<(dfg::Scalar, dfg::EdwardsPoint)>, ()> {
-    let interim = self.interim.as_ref().unwrap();
-    Ok(vec![
-      (share, dfg::EdwardsPoint::generator()),
-      (dfg::Scalar(interim.p), verification_share),
-      (-dfg::Scalar::ONE, nonces[0][0]),
-    ])
-  }
-}

coins/monero/src/ringct/hash_to_point.rs

@@ -1,8 +0,0 @@
-use curve25519_dalek::edwards::EdwardsPoint;
-
-pub use monero_generators::{hash_to_point as raw_hash_to_point};
-
-/// Monero's hash to point function, as named `ge_fromfe_frombytes_vartime`.
-pub fn hash_to_point(key: &EdwardsPoint) -> EdwardsPoint {
-  raw_hash_to_point(key.compress().to_bytes())
-}

coins/monero/src/ringct/mod.rs

@@ -1,393 +0,0 @@
-use core::ops::Deref;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use zeroize::{Zeroize, Zeroizing};
-
-use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar, edwards::EdwardsPoint};
-
-pub(crate) mod hash_to_point;
-pub use hash_to_point::{raw_hash_to_point, hash_to_point};
-
-/// MLSAG struct, along with verifying functionality.
-pub mod mlsag;
-/// CLSAG struct, along with signing and verifying functionality.
-pub mod clsag;
-/// BorromeanRange struct, along with verifying functionality.
-pub mod borromean;
-/// Bulletproofs(+) structs, along with proving and verifying functionality.
-pub mod bulletproofs;
-
-use crate::{
-  Protocol,
-  serialize::*,
-  ringct::{mlsag::Mlsag, clsag::Clsag, borromean::BorromeanRange, bulletproofs::Bulletproofs},
-};
-
-/// Generate a key image for a given key. Defined as `x * hash_to_point(xG)`.
-pub fn generate_key_image(secret: &Zeroizing<Scalar>) -> EdwardsPoint {
-  hash_to_point(&(ED25519_BASEPOINT_TABLE * secret.deref())) * secret.deref()
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub enum EncryptedAmount {
-  Original { mask: [u8; 32], amount: [u8; 32] },
-  Compact { amount: [u8; 8] },
-}
-
-impl EncryptedAmount {
-  pub fn read<R: Read>(compact: bool, r: &mut R) -> io::Result<EncryptedAmount> {
-    Ok(if !compact {
-      EncryptedAmount::Original { mask: read_bytes(r)?, amount: read_bytes(r)? }
-    } else {
-      EncryptedAmount::Compact { amount: read_bytes(r)? }
-    })
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      EncryptedAmount::Original { mask, amount } => {
-        w.write_all(mask)?;
-        w.write_all(amount)
-      }
-      EncryptedAmount::Compact { amount } => w.write_all(amount),
-    }
-  }
-}
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum RctType {
-  /// No RCT proofs.
-  Null,
-  /// One MLSAG for multiple inputs and Borromean range proofs (RCTTypeFull).
-  MlsagAggregate,
-  // One MLSAG for each input and a Borromean range proof (RCTTypeSimple).
-  MlsagIndividual,
-  // One MLSAG for each input and a Bulletproof (RCTTypeBulletproof).
-  Bulletproofs,
-  /// One MLSAG for each input and a Bulletproof, yet starting to use EncryptedAmount::Compact
-  /// (RCTTypeBulletproof2).
-  BulletproofsCompactAmount,
-  /// One CLSAG for each input and a Bulletproof (RCTTypeCLSAG).
-  Clsag,
-  /// One CLSAG for each input and a Bulletproof+ (RCTTypeBulletproofPlus).
-  BulletproofsPlus,
-}
-
-impl RctType {
-  pub fn to_byte(self) -> u8 {
-    match self {
-      RctType::Null => 0,
-      RctType::MlsagAggregate => 1,
-      RctType::MlsagIndividual => 2,
-      RctType::Bulletproofs => 3,
-      RctType::BulletproofsCompactAmount => 4,
-      RctType::Clsag => 5,
-      RctType::BulletproofsPlus => 6,
-    }
-  }
-
-  pub fn from_byte(byte: u8) -> Option<Self> {
-    Some(match byte {
-      0 => RctType::Null,
-      1 => RctType::MlsagAggregate,
-      2 => RctType::MlsagIndividual,
-      3 => RctType::Bulletproofs,
-      4 => RctType::BulletproofsCompactAmount,
-      5 => RctType::Clsag,
-      6 => RctType::BulletproofsPlus,
-      _ => None?,
-    })
-  }
-
-  pub fn compact_encrypted_amounts(&self) -> bool {
-    match self {
-      RctType::Null => false,
-      RctType::MlsagAggregate => false,
-      RctType::MlsagIndividual => false,
-      RctType::Bulletproofs => false,
-      RctType::BulletproofsCompactAmount => true,
-      RctType::Clsag => true,
-      RctType::BulletproofsPlus => true,
-    }
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct RctBase {
-  pub fee: u64,
-  pub pseudo_outs: Vec<EdwardsPoint>,
-  pub encrypted_amounts: Vec<EncryptedAmount>,
-  pub commitments: Vec<EdwardsPoint>,
-}
-
-impl RctBase {
-  pub(crate) fn fee_weight(outputs: usize, fee: u64) -> usize {
-    // 1 byte for the RCT signature type
-    1 + (outputs * (8 + 32)) + varint_len(fee)
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W, rct_type: RctType) -> io::Result<()> {
-    w.write_all(&[rct_type.to_byte()])?;
-    match rct_type {
-      RctType::Null => Ok(()),
-      _ => {
-        write_varint(&self.fee, w)?;
-        if rct_type == RctType::MlsagIndividual {
-          write_raw_vec(write_point, &self.pseudo_outs, w)?;
-        }
-        for encrypted_amount in &self.encrypted_amounts {
-          encrypted_amount.write(w)?;
-        }
-        write_raw_vec(write_point, &self.commitments, w)
-      }
-    }
-  }
-
-  pub fn read<R: Read>(inputs: usize, outputs: usize, r: &mut R) -> io::Result<(RctBase, RctType)> {
-    let rct_type =
-      RctType::from_byte(read_byte(r)?).ok_or_else(|| io::Error::other("invalid RCT type"))?;
-
-    match rct_type {
-      RctType::Null => {}
-      RctType::MlsagAggregate => {}
-      RctType::MlsagIndividual => {}
-      RctType::Bulletproofs |
-      RctType::BulletproofsCompactAmount |
-      RctType::Clsag |
-      RctType::BulletproofsPlus => {
-        if outputs == 0 {
-          // Because the Bulletproofs(+) layout must be canonical, there must be 1 Bulletproof if
-          // Bulletproofs are in use
-          // If there are Bulletproofs, there must be a matching amount of outputs, implicitly
-          // banning 0 outputs
-          // Since HF 12 (CLSAG being 13), a 2-output minimum has also been enforced
-          Err(io::Error::other("RCT with Bulletproofs(+) had 0 outputs"))?;
-        }
-      }
-    }
-
-    Ok((
-      if rct_type == RctType::Null {
-        RctBase { fee: 0, pseudo_outs: vec![], encrypted_amounts: vec![], commitments: vec![] }
-      } else {
-        RctBase {
-          fee: read_varint(r)?,
-          pseudo_outs: if rct_type == RctType::MlsagIndividual {
-            read_raw_vec(read_point, inputs, r)?
-          } else {
-            vec![]
-          },
-          encrypted_amounts: (0 .. outputs)
-            .map(|_| EncryptedAmount::read(rct_type.compact_encrypted_amounts(), r))
-            .collect::<Result<_, _>>()?,
-          commitments: read_raw_vec(read_point, outputs, r)?,
-        }
-      },
-      rct_type,
-    ))
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub enum RctPrunable {
-  Null,
-  AggregateMlsagBorromean {
-    borromean: Vec<BorromeanRange>,
-    mlsag: Mlsag,
-  },
-  MlsagBorromean {
-    borromean: Vec<BorromeanRange>,
-    mlsags: Vec<Mlsag>,
-  },
-  MlsagBulletproofs {
-    bulletproofs: Bulletproofs,
-    mlsags: Vec<Mlsag>,
-    pseudo_outs: Vec<EdwardsPoint>,
-  },
-  Clsag {
-    bulletproofs: Bulletproofs,
-    clsags: Vec<Clsag>,
-    pseudo_outs: Vec<EdwardsPoint>,
-  },
-}
-
-impl RctPrunable {
-  pub(crate) fn fee_weight(protocol: Protocol, inputs: usize, outputs: usize) -> usize {
-    // 1 byte for number of BPs (technically a VarInt, yet there's always just zero or one)
-    1 + Bulletproofs::fee_weight(protocol.bp_plus(), outputs) +
-      (inputs * (Clsag::fee_weight(protocol.ring_len()) + 32))
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W, rct_type: RctType) -> io::Result<()> {
-    match self {
-      RctPrunable::Null => Ok(()),
-      RctPrunable::AggregateMlsagBorromean { borromean, mlsag } => {
-        write_raw_vec(BorromeanRange::write, borromean, w)?;
-        mlsag.write(w)
-      }
-      RctPrunable::MlsagBorromean { borromean, mlsags } => {
-        write_raw_vec(BorromeanRange::write, borromean, w)?;
-        write_raw_vec(Mlsag::write, mlsags, w)
-      }
-      RctPrunable::MlsagBulletproofs { bulletproofs, mlsags, pseudo_outs } => {
-        if rct_type == RctType::Bulletproofs {
-          w.write_all(&1u32.to_le_bytes())?;
-        } else {
-          w.write_all(&[1])?;
-        }
-        bulletproofs.write(w)?;
-
-        write_raw_vec(Mlsag::write, mlsags, w)?;
-        write_raw_vec(write_point, pseudo_outs, w)
-      }
-      RctPrunable::Clsag { bulletproofs, clsags, pseudo_outs } => {
-        w.write_all(&[1])?;
-        bulletproofs.write(w)?;
-
-        write_raw_vec(Clsag::write, clsags, w)?;
-        write_raw_vec(write_point, pseudo_outs, w)
-      }
-    }
-  }
-
-  pub fn serialize(&self, rct_type: RctType) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized, rct_type).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(
-    rct_type: RctType,
-    decoys: &[usize],
-    outputs: usize,
-    r: &mut R,
-  ) -> io::Result<RctPrunable> {
-    // While we generally don't bother with misc consensus checks, this affects the safety of
-    // the below defined rct_type function
-    // The exact line preventing zero-input transactions is:
-    // https://github.com/monero-project/monero/blob/00fd416a99686f0956361d1cd0337fe56e58d4a7/
-    //   src/ringct/rctSigs.cpp#L609
-    // And then for RctNull, that's only allowed for miner TXs which require one input of
-    // Input::Gen
-    if decoys.is_empty() {
-      Err(io::Error::other("transaction had no inputs"))?;
-    }
-
-    Ok(match rct_type {
-      RctType::Null => RctPrunable::Null,
-      RctType::MlsagAggregate => RctPrunable::AggregateMlsagBorromean {
-        borromean: read_raw_vec(BorromeanRange::read, outputs, r)?,
-        mlsag: Mlsag::read(decoys[0], decoys.len() + 1, r)?,
-      },
-      RctType::MlsagIndividual => RctPrunable::MlsagBorromean {
-        borromean: read_raw_vec(BorromeanRange::read, outputs, r)?,
-        mlsags: decoys.iter().map(|d| Mlsag::read(*d, 2, r)).collect::<Result<_, _>>()?,
-      },
-      RctType::Bulletproofs | RctType::BulletproofsCompactAmount => {
-        RctPrunable::MlsagBulletproofs {
-          bulletproofs: {
-            if (if rct_type == RctType::Bulletproofs {
-              u64::from(read_u32(r)?)
-            } else {
-              read_varint(r)?
-            }) != 1
-            {
-              Err(io::Error::other("n bulletproofs instead of one"))?;
-            }
-            Bulletproofs::read(r)?
-          },
-          mlsags: decoys.iter().map(|d| Mlsag::read(*d, 2, r)).collect::<Result<_, _>>()?,
-          pseudo_outs: read_raw_vec(read_point, decoys.len(), r)?,
-        }
-      }
-      RctType::Clsag | RctType::BulletproofsPlus => RctPrunable::Clsag {
-        bulletproofs: {
-          if read_varint::<_, u64>(r)? != 1 {
-            Err(io::Error::other("n bulletproofs instead of one"))?;
-          }
-          (if rct_type == RctType::Clsag { Bulletproofs::read } else { Bulletproofs::read_plus })(
-            r,
-          )?
-        },
-        clsags: (0 .. decoys.len()).map(|o| Clsag::read(decoys[o], r)).collect::<Result<_, _>>()?,
-        pseudo_outs: read_raw_vec(read_point, decoys.len(), r)?,
-      },
-    })
-  }
-
-  pub(crate) fn signature_write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      RctPrunable::Null => panic!("Serializing RctPrunable::Null for a signature"),
-      RctPrunable::AggregateMlsagBorromean { borromean, .. } |
-      RctPrunable::MlsagBorromean { borromean, .. } => {
-        borromean.iter().try_for_each(|rs| rs.write(w))
-      }
-      RctPrunable::MlsagBulletproofs { bulletproofs, .. } => bulletproofs.signature_write(w),
-      RctPrunable::Clsag { bulletproofs, .. } => bulletproofs.signature_write(w),
-    }
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct RctSignatures {
-  pub base: RctBase,
-  pub prunable: RctPrunable,
-}
-
-impl RctSignatures {
-  /// RctType for a given RctSignatures struct.
-  pub fn rct_type(&self) -> RctType {
-    match &self.prunable {
-      RctPrunable::Null => RctType::Null,
-      RctPrunable::AggregateMlsagBorromean { .. } => RctType::MlsagAggregate,
-      RctPrunable::MlsagBorromean { .. } => RctType::MlsagIndividual,
-      // RctBase ensures there's at least one output, making the following
-      // inferences guaranteed/expects impossible on any valid RctSignatures
-      RctPrunable::MlsagBulletproofs { .. } => {
-        if matches!(
-          self
-            .base
-            .encrypted_amounts
-            .first()
-            .expect("MLSAG with Bulletproofs didn't have any outputs"),
-          EncryptedAmount::Original { .. }
-        ) {
-          RctType::Bulletproofs
-        } else {
-          RctType::BulletproofsCompactAmount
-        }
-      }
-      RctPrunable::Clsag { bulletproofs, .. } => {
-        if matches!(bulletproofs, Bulletproofs::Original { .. }) {
-          RctType::Clsag
-        } else {
-          RctType::BulletproofsPlus
-        }
-      }
-    }
-  }
-
-  pub(crate) fn fee_weight(protocol: Protocol, inputs: usize, outputs: usize, fee: u64) -> usize {
-    RctBase::fee_weight(outputs, fee) + RctPrunable::fee_weight(protocol, inputs, outputs)
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    let rct_type = self.rct_type();
-    self.base.write(w, rct_type)?;
-    self.prunable.write(w, rct_type)
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(decoys: Vec<usize>, outputs: usize, r: &mut R) -> io::Result<RctSignatures> {
-    let base = RctBase::read(decoys.len(), outputs, r)?;
-    Ok(RctSignatures { base: base.0, prunable: RctPrunable::read(base.1, &decoys, outputs, r)? })
-  }
-}

coins/monero/src/rpc/mod.rs

@@ -1,733 +0,0 @@
-use core::fmt::Debug;
-#[cfg(not(feature = "std"))]
-use alloc::boxed::Box;
-use std_shims::{
-  vec::Vec,
-  io,
-  string::{String, ToString},
-};
-
-use async_trait::async_trait;
-
-use curve25519_dalek::edwards::{EdwardsPoint, CompressedEdwardsY};
-
-use serde::{Serialize, Deserialize, de::DeserializeOwned};
-use serde_json::{Value, json};
-
-use crate::{
-  Protocol,
-  serialize::*,
-  transaction::{Input, Timelock, Transaction},
-  block::Block,
-  wallet::{FeePriority, Fee},
-};
-
-#[cfg(feature = "http-rpc")]
-mod http;
-#[cfg(feature = "http-rpc")]
-pub use http::*;
-
-// Number of blocks the fee estimate will be valid for
-// https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
-//   src/wallet/wallet2.cpp#L121
-const GRACE_BLOCKS_FOR_FEE_ESTIMATE: u64 = 10;
-
-#[derive(Deserialize, Debug)]
-pub struct EmptyResponse {}
-#[derive(Deserialize, Debug)]
-pub struct JsonRpcResponse<T> {
-  result: T,
-}
-
-#[derive(Deserialize, Debug)]
-struct TransactionResponse {
-  tx_hash: String,
-  as_hex: String,
-  pruned_as_hex: String,
-}
-#[derive(Deserialize, Debug)]
-struct TransactionsResponse {
-  #[serde(default)]
-  missed_tx: Vec<String>,
-  txs: Vec<TransactionResponse>,
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-#[cfg_attr(feature = "std", derive(thiserror::Error))]
-pub enum RpcError {
-  #[cfg_attr(feature = "std", error("internal error ({0})"))]
-  InternalError(&'static str),
-  #[cfg_attr(feature = "std", error("connection error ({0})"))]
-  ConnectionError(String),
-  #[cfg_attr(feature = "std", error("invalid node ({0})"))]
-  InvalidNode(&'static str),
-  #[cfg_attr(feature = "std", error("unsupported protocol version ({0})"))]
-  UnsupportedProtocol(usize),
-  #[cfg_attr(feature = "std", error("transactions not found"))]
-  TransactionsNotFound(Vec<[u8; 32]>),
-  #[cfg_attr(feature = "std", error("invalid point ({0})"))]
-  InvalidPoint(String),
-  #[cfg_attr(feature = "std", error("pruned transaction"))]
-  PrunedTransaction,
-  #[cfg_attr(feature = "std", error("invalid transaction ({0:?})"))]
-  InvalidTransaction([u8; 32]),
-  #[cfg_attr(feature = "std", error("unexpected fee response"))]
-  InvalidFee,
-  #[cfg_attr(feature = "std", error("invalid priority"))]
-  InvalidPriority,
-}
-
-fn rpc_hex(value: &str) -> Result<Vec<u8>, RpcError> {
-  hex::decode(value).map_err(|_| RpcError::InvalidNode("expected hex wasn't hex"))
-}
-
-fn hash_hex(hash: &str) -> Result<[u8; 32], RpcError> {
-  rpc_hex(hash)?.try_into().map_err(|_| RpcError::InvalidNode("hash wasn't 32-bytes"))
-}
-
-fn rpc_point(point: &str) -> Result<EdwardsPoint, RpcError> {
-  CompressedEdwardsY(
-    rpc_hex(point)?.try_into().map_err(|_| RpcError::InvalidPoint(point.to_string()))?,
-  )
-  .decompress()
-  .ok_or_else(|| RpcError::InvalidPoint(point.to_string()))
-}
-
-// Read an EPEE VarInt, distinct from the VarInts used throughout the rest of the protocol
-fn read_epee_vi<R: io::Read>(reader: &mut R) -> io::Result<u64> {
-  let vi_start = read_byte(reader)?;
-  let len = match vi_start & 0b11 {
-    0 => 1,
-    1 => 2,
-    2 => 4,
-    3 => 8,
-    _ => unreachable!(),
-  };
-  let mut vi = u64::from(vi_start >> 2);
-  for i in 1 .. len {
-    vi |= u64::from(read_byte(reader)?) << (((i - 1) * 8) + 6);
-  }
-  Ok(vi)
-}
-
-#[async_trait]
-pub trait RpcConnection: Clone + Debug {
-  /// Perform a POST request to the specified route with the specified body.
-  ///
-  /// The implementor is left to handle anything such as authentication.
-  async fn post(&self, route: &str, body: Vec<u8>) -> Result<Vec<u8>, RpcError>;
-}
-
-// TODO: Make this provided methods for RpcConnection?
-#[derive(Clone, Debug)]
-pub struct Rpc<R: RpcConnection>(R);
-impl<R: RpcConnection> Rpc<R> {
-  /// Perform a RPC call to the specified route with the provided parameters.
-  ///
-  /// This is NOT a JSON-RPC call. They use a route of "json_rpc" and are available via
-  /// `json_rpc_call`.
-  pub async fn rpc_call<Params: Serialize + Debug, Response: DeserializeOwned + Debug>(
-    &self,
-    route: &str,
-    params: Option<Params>,
-  ) -> Result<Response, RpcError> {
-    let res = self
-      .0
-      .post(
-        route,
-        if let Some(params) = params {
-          serde_json::to_string(&params).unwrap().into_bytes()
-        } else {
-          vec![]
-        },
-      )
-      .await?;
-    let res_str = std_shims::str::from_utf8(&res)
-      .map_err(|_| RpcError::InvalidNode("response wasn't utf-8"))?;
-    serde_json::from_str(res_str)
-      .map_err(|_| RpcError::InvalidNode("response wasn't json: {res_str}"))
-  }
-
-  /// Perform a JSON-RPC call with the specified method with the provided parameters
-  pub async fn json_rpc_call<Response: DeserializeOwned + Debug>(
-    &self,
-    method: &str,
-    params: Option<Value>,
-  ) -> Result<Response, RpcError> {
-    let mut req = json!({ "method": method });
-    if let Some(params) = params {
-      req.as_object_mut().unwrap().insert("params".into(), params);
-    }
-    Ok(self.rpc_call::<_, JsonRpcResponse<Response>>("json_rpc", Some(req)).await?.result)
-  }
-
-  /// Perform a binary call to the specified route with the provided parameters.
-  pub async fn bin_call(&self, route: &str, params: Vec<u8>) -> Result<Vec<u8>, RpcError> {
-    self.0.post(route, params).await
-  }
-
-  /// Get the active blockchain protocol version.
-  pub async fn get_protocol(&self) -> Result<Protocol, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct ProtocolResponse {
-      major_version: usize,
-    }
-
-    #[derive(Deserialize, Debug)]
-    struct LastHeaderResponse {
-      block_header: ProtocolResponse,
-    }
-
-    Ok(
-      match self
-        .json_rpc_call::<LastHeaderResponse>("get_last_block_header", None)
-        .await?
-        .block_header
-        .major_version
-      {
-        13 | 14 => Protocol::v14,
-        15 | 16 => Protocol::v16,
-        protocol => Err(RpcError::UnsupportedProtocol(protocol))?,
-      },
-    )
-  }
-
-  pub async fn get_height(&self) -> Result<usize, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct HeightResponse {
-      height: usize,
-    }
-    Ok(self.rpc_call::<Option<()>, HeightResponse>("get_height", None).await?.height)
-  }
-
-  pub async fn get_transactions(&self, hashes: &[[u8; 32]]) -> Result<Vec<Transaction>, RpcError> {
-    if hashes.is_empty() {
-      return Ok(vec![]);
-    }
-
-    let mut hashes_hex = hashes.iter().map(hex::encode).collect::<Vec<_>>();
-    let mut all_txs = Vec::with_capacity(hashes.len());
-    while !hashes_hex.is_empty() {
-      // Monero errors if more than 100 is requested unless using a non-restricted RPC
-      const TXS_PER_REQUEST: usize = 100;
-      let this_count = TXS_PER_REQUEST.min(hashes_hex.len());
-
-      let txs: TransactionsResponse = self
-        .rpc_call(
-          "get_transactions",
-          Some(json!({
-            "txs_hashes": hashes_hex.drain(.. this_count).collect::<Vec<_>>(),
-          })),
-        )
-        .await?;
-
-      if !txs.missed_tx.is_empty() {
-        Err(RpcError::TransactionsNotFound(
-          txs.missed_tx.iter().map(|hash| hash_hex(hash)).collect::<Result<_, _>>()?,
-        ))?;
-      }
-
-      all_txs.extend(txs.txs);
-    }
-
-    all_txs
-      .iter()
-      .enumerate()
-      .map(|(i, res)| {
-        let tx = Transaction::read::<&[u8]>(
-          &mut rpc_hex(if !res.as_hex.is_empty() { &res.as_hex } else { &res.pruned_as_hex })?
-            .as_ref(),
-        )
-        .map_err(|_| match hash_hex(&res.tx_hash) {
-          Ok(hash) => RpcError::InvalidTransaction(hash),
-          Err(err) => err,
-        })?;
-
-        // https://github.com/monero-project/monero/issues/8311
-        if res.as_hex.is_empty() {
-          match tx.prefix.inputs.first() {
-            Some(Input::Gen { .. }) => (),
-            _ => Err(RpcError::PrunedTransaction)?,
-          }
-        }
-
-        // This does run a few keccak256 hashes, which is pointless if the node is trusted
-        // In exchange, this provides resilience against invalid/malicious nodes
-        if tx.hash() != hashes[i] {
-          Err(RpcError::InvalidNode("replied with transaction wasn't the requested transaction"))?;
-        }
-
-        Ok(tx)
-      })
-      .collect()
-  }
-
-  pub async fn get_transaction(&self, tx: [u8; 32]) -> Result<Transaction, RpcError> {
-    self.get_transactions(&[tx]).await.map(|mut txs| txs.swap_remove(0))
-  }
-
-  /// Get the hash of a block from the node by the block's numbers.
-  /// This function does not verify the returned block hash is actually for the number in question.
-  pub async fn get_block_hash(&self, number: usize) -> Result<[u8; 32], RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct BlockHeaderResponse {
-      hash: String,
-    }
-    #[derive(Deserialize, Debug)]
-    struct BlockHeaderByHeightResponse {
-      block_header: BlockHeaderResponse,
-    }
-
-    let header: BlockHeaderByHeightResponse =
-      self.json_rpc_call("get_block_header_by_height", Some(json!({ "height": number }))).await?;
-    hash_hex(&header.block_header.hash)
-  }
-
-  /// Get a block from the node by its hash.
-  /// This function does not verify the returned block actually has the hash in question.
-  pub async fn get_block(&self, hash: [u8; 32]) -> Result<Block, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct BlockResponse {
-      blob: String,
-    }
-
-    let res: BlockResponse =
-      self.json_rpc_call("get_block", Some(json!({ "hash": hex::encode(hash) }))).await?;
-
-    let block = Block::read::<&[u8]>(&mut rpc_hex(&res.blob)?.as_ref())
-      .map_err(|_| RpcError::InvalidNode("invalid block"))?;
-    if block.hash() != hash {
-      Err(RpcError::InvalidNode("different block than requested (hash)"))?;
-    }
-    Ok(block)
-  }
-
-  pub async fn get_block_by_number(&self, number: usize) -> Result<Block, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct BlockResponse {
-      blob: String,
-    }
-
-    let res: BlockResponse =
-      self.json_rpc_call("get_block", Some(json!({ "height": number }))).await?;
-
-    let block = Block::read::<&[u8]>(&mut rpc_hex(&res.blob)?.as_ref())
-      .map_err(|_| RpcError::InvalidNode("invalid block"))?;
-
-    // Make sure this is actually the block for this number
-    match block.miner_tx.prefix.inputs.first() {
-      Some(Input::Gen(actual)) => {
-        if usize::try_from(*actual).unwrap() == number {
-          Ok(block)
-        } else {
-          Err(RpcError::InvalidNode("different block than requested (number)"))
-        }
-      }
-      _ => Err(RpcError::InvalidNode("block's miner_tx didn't have an input of kind Input::Gen")),
-    }
-  }
-
-  pub async fn get_block_transactions(&self, hash: [u8; 32]) -> Result<Vec<Transaction>, RpcError> {
-    let block = self.get_block(hash).await?;
-    let mut res = vec![block.miner_tx];
-    res.extend(self.get_transactions(&block.txs).await?);
-    Ok(res)
-  }
-
-  pub async fn get_block_transactions_by_number(
-    &self,
-    number: usize,
-  ) -> Result<Vec<Transaction>, RpcError> {
-    self.get_block_transactions(self.get_block_hash(number).await?).await
-  }
-
-  /// Get the output indexes of the specified transaction.
-  pub async fn get_o_indexes(&self, hash: [u8; 32]) -> Result<Vec<u64>, RpcError> {
-    /*
-    TODO: Use these when a suitable epee serde lib exists
-
-    #[derive(Serialize, Debug)]
-    struct Request {
-      txid: [u8; 32],
-    }
-
-    #[derive(Deserialize, Debug)]
-    struct OIndexes {
-      o_indexes: Vec<u64>,
-    }
-    */
-
-    // Given the immaturity of Rust epee libraries, this is a homegrown one which is only validated
-    // to work against this specific function
-
-    // Header for EPEE, an 8-byte magic and a version
-    const EPEE_HEADER: &[u8] = b"\x01\x11\x01\x01\x01\x01\x02\x01\x01";
-
-    let mut request = EPEE_HEADER.to_vec();
-    // Number of fields (shifted over 2 bits as the 2 LSBs are reserved for metadata)
-    request.push(1 << 2);
-    // Length of field name
-    request.push(4);
-    // Field name
-    request.extend(b"txid");
-    // Type of field
-    request.push(10);
-    // Length of string, since this byte array is technically a string
-    request.push(32 << 2);
-    // The "string"
-    request.extend(hash);
-
-    let indexes_buf = self.bin_call("get_o_indexes.bin", request).await?;
-    let mut indexes: &[u8] = indexes_buf.as_ref();
-
-    (|| {
-      let mut res = None;
-      let mut is_okay = false;
-
-      if read_bytes::<_, { EPEE_HEADER.len() }>(&mut indexes)? != EPEE_HEADER {
-        Err(io::Error::other("invalid header"))?;
-      }
-
-      let read_object = |reader: &mut &[u8]| -> io::Result<Vec<u64>> {
-        let fields = read_byte(reader)? >> 2;
-
-        for _ in 0 .. fields {
-          let name_len = read_byte(reader)?;
-          let name = read_raw_vec(read_byte, name_len.into(), reader)?;
-
-          let type_with_array_flag = read_byte(reader)?;
-          let kind = type_with_array_flag & (!0x80);
-
-          let iters = if type_with_array_flag != kind { read_epee_vi(reader)? } else { 1 };
-
-          if (&name == b"o_indexes") && (kind != 5) {
-            Err(io::Error::other("o_indexes weren't u64s"))?;
-          }
-
-          let f = match kind {
-            // i64
-            1 => |reader: &mut &[u8]| read_raw_vec(read_byte, 8, reader),
-            // i32
-            2 => |reader: &mut &[u8]| read_raw_vec(read_byte, 4, reader),
-            // i16
-            3 => |reader: &mut &[u8]| read_raw_vec(read_byte, 2, reader),
-            // i8
-            4 => |reader: &mut &[u8]| read_raw_vec(read_byte, 1, reader),
-            // u64
-            5 => |reader: &mut &[u8]| read_raw_vec(read_byte, 8, reader),
-            // u32
-            6 => |reader: &mut &[u8]| read_raw_vec(read_byte, 4, reader),
-            // u16
-            7 => |reader: &mut &[u8]| read_raw_vec(read_byte, 2, reader),
-            // u8
-            8 => |reader: &mut &[u8]| read_raw_vec(read_byte, 1, reader),
-            // double
-            9 => |reader: &mut &[u8]| read_raw_vec(read_byte, 8, reader),
-            // string, or any collection of bytes
-            10 => |reader: &mut &[u8]| {
-              let len = read_epee_vi(reader)?;
-              read_raw_vec(
-                read_byte,
-                len.try_into().map_err(|_| io::Error::other("u64 length exceeded usize"))?,
-                reader,
-              )
-            },
-            // bool
-            11 => |reader: &mut &[u8]| read_raw_vec(read_byte, 1, reader),
-            // object, errors here as it shouldn't be used on this call
-            12 => {
-              |_: &mut &[u8]| Err(io::Error::other("node used object in reply to get_o_indexes"))
-            }
-            // array, so far unused
-            13 => |_: &mut &[u8]| Err(io::Error::other("node used the unused array type")),
-            _ => |_: &mut &[u8]| Err(io::Error::other("node used an invalid type")),
-          };
-
-          let mut bytes_res = vec![];
-          for _ in 0 .. iters {
-            bytes_res.push(f(reader)?);
-          }
-
-          let mut actual_res = Vec::with_capacity(bytes_res.len());
-          match name.as_slice() {
-            b"o_indexes" => {
-              for o_index in bytes_res {
-                actual_res.push(u64::from_le_bytes(
-                  o_index
-                    .try_into()
-                    .map_err(|_| io::Error::other("node didn't provide 8 bytes for a u64"))?,
-                ));
-              }
-              res = Some(actual_res);
-            }
-            b"status" => {
-              if bytes_res
-                .first()
-                .ok_or_else(|| io::Error::other("status wasn't a string"))?
-                .as_slice() !=
-                b"OK"
-              {
-                // TODO: Better handle non-OK responses
-                Err(io::Error::other("response wasn't OK"))?;
-              }
-              is_okay = true;
-            }
-            _ => continue,
-          }
-
-          if is_okay && res.is_some() {
-            break;
-          }
-        }
-
-        // Didn't return a response with a status
-        // (if the status wasn't okay, we would've already errored)
-        if !is_okay {
-          Err(io::Error::other("response didn't contain a status"))?;
-        }
-
-        // If the Vec was empty, it would've been omitted, hence the unwrap_or
-        // TODO: Test against a 0-output TX, such as the ones found in block 202612
-        Ok(res.unwrap_or(vec![]))
-      };
-
-      read_object(&mut indexes)
-    })()
-    .map_err(|_| RpcError::InvalidNode("invalid binary response"))
-  }
-
-  /// Get the output distribution, from the specified height to the specified height (both
-  /// inclusive).
-  pub async fn get_output_distribution(
-    &self,
-    from: usize,
-    to: usize,
-  ) -> Result<Vec<u64>, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct Distribution {
-      distribution: Vec<u64>,
-    }
-
-    #[derive(Deserialize, Debug)]
-    struct Distributions {
-      distributions: Vec<Distribution>,
-    }
-
-    let mut distributions: Distributions = self
-      .json_rpc_call(
-        "get_output_distribution",
-        Some(json!({
-          "binary": false,
-          "amounts": [0],
-          "cumulative": true,
-          "from_height": from,
-          "to_height": to,
-        })),
-      )
-      .await?;
-
-    Ok(distributions.distributions.swap_remove(0).distribution)
-  }
-
-  /// Get the specified outputs from the RingCT (zero-amount) pool, but only return them if their
-  /// timelock has been satisfied.
-  ///
-  /// The timelock being satisfied is distinct from being free of the 10-block lock applied to all
-  /// Monero transactions.
-  pub async fn get_unlocked_outputs(
-    &self,
-    indexes: &[u64],
-    height: usize,
-  ) -> Result<Vec<Option<[EdwardsPoint; 2]>>, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct Out {
-      key: String,
-      mask: String,
-      txid: String,
-    }
-
-    #[derive(Deserialize, Debug)]
-    struct Outs {
-      outs: Vec<Out>,
-    }
-
-    let outs: Outs = self
-      .rpc_call(
-        "get_outs",
-        Some(json!({
-          "get_txid": true,
-          "outputs": indexes.iter().map(|o| json!({
-            "amount": 0,
-            "index": o
-          })).collect::<Vec<_>>()
-        })),
-      )
-      .await?;
-
-    let txs = self
-      .get_transactions(
-        &outs.outs.iter().map(|out| hash_hex(&out.txid)).collect::<Result<Vec<_>, _>>()?,
-      )
-      .await?;
-
-    // TODO: https://github.com/serai-dex/serai/issues/104
-    outs
-      .outs
-      .iter()
-      .enumerate()
-      .map(|(i, out)| {
-        // Allow keys to be invalid, though if they are, return None to trigger selection of a new
-        // decoy
-        // Only valid keys can be used in CLSAG proofs, hence the need for re-selection, yet
-        // invalid keys may honestly exist on the blockchain
-        // Only a recent hard fork checked output keys were valid points
-        let Some(key) = CompressedEdwardsY(
-          rpc_hex(&out.key)?.try_into().map_err(|_| RpcError::InvalidNode("non-32-byte point"))?,
-        )
-        .decompress() else {
-          return Ok(None);
-        };
-        Ok(
-          Some([key, rpc_point(&out.mask)?])
-            .filter(|_| Timelock::Block(height) >= txs[i].prefix.timelock),
-        )
-      })
-      .collect()
-  }
-
-  async fn get_fee_v14(&self, priority: FeePriority) -> Result<Fee, RpcError> {
-    #[derive(Deserialize, Debug)]
-    struct FeeResponseV14 {
-      status: String,
-      fee: u64,
-      quantization_mask: u64,
-    }
-
-    // https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
-    //   src/wallet/wallet2.cpp#L7569-L7584
-    // https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
-    //   src/wallet/wallet2.cpp#L7660-L7661
-    let priority_idx =
-      usize::try_from(if priority.fee_priority() == 0 { 1 } else { priority.fee_priority() - 1 })
-        .map_err(|_| RpcError::InvalidPriority)?;
-    let multipliers = [1, 5, 25, 1000];
-    if priority_idx >= multipliers.len() {
-      // though not an RPC error, it seems sensible to treat as such
-      Err(RpcError::InvalidPriority)?;
-    }
-    let fee_multiplier = multipliers[priority_idx];
-
-    let res: FeeResponseV14 = self
-      .json_rpc_call(
-        "get_fee_estimate",
-        Some(json!({ "grace_blocks": GRACE_BLOCKS_FOR_FEE_ESTIMATE })),
-      )
-      .await?;
-
-    if res.status != "OK" {
-      Err(RpcError::InvalidFee)?;
-    }
-
-    Ok(Fee { per_weight: res.fee * fee_multiplier, mask: res.quantization_mask })
-  }
-
-  /// Get the currently estimated fee from the node.
-  ///
-  /// This may be manipulated to unsafe levels and MUST be sanity checked.
-  // TODO: Take a sanity check argument
-  pub async fn get_fee(&self, protocol: Protocol, priority: FeePriority) -> Result<Fee, RpcError> {
-    // TODO: Implement wallet2's adjust_priority which by default automatically uses a lower
-    // priority than provided depending on the backlog in the pool
-    if protocol.v16_fee() {
-      #[derive(Deserialize, Debug)]
-      struct FeeResponse {
-        status: String,
-        fees: Vec<u64>,
-        quantization_mask: u64,
-      }
-
-      let res: FeeResponse = self
-        .json_rpc_call(
-          "get_fee_estimate",
-          Some(json!({ "grace_blocks": GRACE_BLOCKS_FOR_FEE_ESTIMATE })),
-        )
-        .await?;
-
-      // https://github.com/monero-project/monero/blob/94e67bf96bbc010241f29ada6abc89f49a81759c/
-      // src/wallet/wallet2.cpp#L7615-L7620
-      let priority_idx = usize::try_from(if priority.fee_priority() >= 4 {
-        3
-      } else {
-        priority.fee_priority().saturating_sub(1)
-      })
-      .map_err(|_| RpcError::InvalidPriority)?;
-
-      if res.status != "OK" {
-        Err(RpcError::InvalidFee)
-      } else if priority_idx >= res.fees.len() {
-        Err(RpcError::InvalidPriority)
-      } else {
-        Ok(Fee { per_weight: res.fees[priority_idx], mask: res.quantization_mask })
-      }
-    } else {
-      self.get_fee_v14(priority).await
-    }
-  }
-
-  pub async fn publish_transaction(&self, tx: &Transaction) -> Result<(), RpcError> {
-    #[allow(dead_code)]
-    #[derive(Deserialize, Debug)]
-    struct SendRawResponse {
-      status: String,
-      double_spend: bool,
-      fee_too_low: bool,
-      invalid_input: bool,
-      invalid_output: bool,
-      low_mixin: bool,
-      not_relayed: bool,
-      overspend: bool,
-      too_big: bool,
-      too_few_outputs: bool,
-      reason: String,
-    }
-
-    let res: SendRawResponse = self
-      .rpc_call("send_raw_transaction", Some(json!({ "tx_as_hex": hex::encode(tx.serialize()) })))
-      .await?;
-
-    if res.status != "OK" {
-      Err(RpcError::InvalidTransaction(tx.hash()))?;
-    }
-
-    Ok(())
-  }
-
-  // TODO: Take &Address, not &str?
-  pub async fn generate_blocks(
-    &self,
-    address: &str,
-    block_count: usize,
-  ) -> Result<Vec<[u8; 32]>, RpcError> {
-    #[derive(Debug, Deserialize)]
-    struct BlocksResponse {
-      blocks: Vec<String>,
-    }
-
-    let block_strs = self
-      .json_rpc_call::<BlocksResponse>(
-        "generateblocks",
-        Some(json!({
-          "wallet_address": address,
-          "amount_of_blocks": block_count
-        })),
-      )
-      .await?
-      .blocks;
-
-    let mut blocks = Vec::with_capacity(block_strs.len());
-    for block in block_strs {
-      blocks.push(hash_hex(&block)?);
-    }
-    Ok(blocks)
-  }
-}

coins/monero/src/serialize.rs

@@ -1,167 +0,0 @@
-use core::fmt::Debug;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use curve25519_dalek::{
-  scalar::Scalar,
-  edwards::{EdwardsPoint, CompressedEdwardsY},
-};
-
-const VARINT_CONTINUATION_MASK: u8 = 0b1000_0000;
-
-mod sealed {
-  pub trait VarInt: TryInto<u64> + TryFrom<u64> + Copy {}
-  impl VarInt for u8 {}
-  impl VarInt for u32 {}
-  impl VarInt for u64 {}
-  impl VarInt for usize {}
-}
-
-// This will panic if the VarInt exceeds u64::MAX
-pub(crate) fn varint_len<U: sealed::VarInt>(varint: U) -> usize {
-  let varint_u64: u64 = varint.try_into().map_err(|_| "varint exceeded u64").unwrap();
-  ((usize::try_from(u64::BITS - varint_u64.leading_zeros()).unwrap().saturating_sub(1)) / 7) + 1
-}
-
-pub(crate) fn write_byte<W: Write>(byte: &u8, w: &mut W) -> io::Result<()> {
-  w.write_all(&[*byte])
-}
-
-// This will panic if the VarInt exceeds u64::MAX
-pub(crate) fn write_varint<W: Write, U: sealed::VarInt>(varint: &U, w: &mut W) -> io::Result<()> {
-  let mut varint: u64 = (*varint).try_into().map_err(|_| "varint exceeded u64").unwrap();
-  while {
-    let mut b = u8::try_from(varint & u64::from(!VARINT_CONTINUATION_MASK)).unwrap();
-    varint >>= 7;
-    if varint != 0 {
-      b |= VARINT_CONTINUATION_MASK;
-    }
-    write_byte(&b, w)?;
-    varint != 0
-  } {}
-  Ok(())
-}
-
-pub(crate) fn write_scalar<W: Write>(scalar: &Scalar, w: &mut W) -> io::Result<()> {
-  w.write_all(&scalar.to_bytes())
-}
-
-pub(crate) fn write_point<W: Write>(point: &EdwardsPoint, w: &mut W) -> io::Result<()> {
-  w.write_all(&point.compress().to_bytes())
-}
-
-pub(crate) fn write_raw_vec<T, W: Write, F: Fn(&T, &mut W) -> io::Result<()>>(
-  f: F,
-  values: &[T],
-  w: &mut W,
-) -> io::Result<()> {
-  for value in values {
-    f(value, w)?;
-  }
-  Ok(())
-}
-
-pub(crate) fn write_vec<T, W: Write, F: Fn(&T, &mut W) -> io::Result<()>>(
-  f: F,
-  values: &[T],
-  w: &mut W,
-) -> io::Result<()> {
-  write_varint(&values.len(), w)?;
-  write_raw_vec(f, values, w)
-}
-
-pub(crate) fn read_bytes<R: Read, const N: usize>(r: &mut R) -> io::Result<[u8; N]> {
-  let mut res = [0; N];
-  r.read_exact(&mut res)?;
-  Ok(res)
-}
-
-pub(crate) fn read_byte<R: Read>(r: &mut R) -> io::Result<u8> {
-  Ok(read_bytes::<_, 1>(r)?[0])
-}
-
-pub(crate) fn read_u16<R: Read>(r: &mut R) -> io::Result<u16> {
-  read_bytes(r).map(u16::from_le_bytes)
-}
-
-pub(crate) fn read_u32<R: Read>(r: &mut R) -> io::Result<u32> {
-  read_bytes(r).map(u32::from_le_bytes)
-}
-
-pub(crate) fn read_u64<R: Read>(r: &mut R) -> io::Result<u64> {
-  read_bytes(r).map(u64::from_le_bytes)
-}
-
-pub(crate) fn read_varint<R: Read, U: sealed::VarInt>(r: &mut R) -> io::Result<U> {
-  let mut bits = 0;
-  let mut res = 0;
-  while {
-    let b = read_byte(r)?;
-    if (bits != 0) && (b == 0) {
-      Err(io::Error::other("non-canonical varint"))?;
-    }
-    if ((bits + 7) > 64) && (b >= (1 << (64 - bits))) {
-      Err(io::Error::other("varint overflow"))?;
-    }
-
-    res += u64::from(b & (!VARINT_CONTINUATION_MASK)) << bits;
-    bits += 7;
-    b & VARINT_CONTINUATION_MASK == VARINT_CONTINUATION_MASK
-  } {}
-  res.try_into().map_err(|_| io::Error::other("VarInt does not fit into integer type"))
-}
-
-// All scalar fields supported by monero-serai are checked to be canonical for valid transactions
-// While from_bytes_mod_order would be more flexible, it's not currently needed and would be
-// inaccurate to include now. While casting a wide net may be preferable, it'd also be inaccurate
-// for now. There's also further edge cases as noted by
-// https://github.com/monero-project/monero/issues/8438, where some scalars had an archaic
-// reduction applied
-pub(crate) fn read_scalar<R: Read>(r: &mut R) -> io::Result<Scalar> {
-  Option::from(Scalar::from_canonical_bytes(read_bytes(r)?))
-    .ok_or_else(|| io::Error::other("unreduced scalar"))
-}
-
-pub(crate) fn read_point<R: Read>(r: &mut R) -> io::Result<EdwardsPoint> {
-  let bytes = read_bytes(r)?;
-  CompressedEdwardsY(bytes)
-    .decompress()
-    // Ban points which are either unreduced or -0
-    .filter(|point| point.compress().to_bytes() == bytes)
-    .ok_or_else(|| io::Error::other("invalid point"))
-}
-
-pub(crate) fn read_torsion_free_point<R: Read>(r: &mut R) -> io::Result<EdwardsPoint> {
-  read_point(r)
-    .ok()
-    .filter(EdwardsPoint::is_torsion_free)
-    .ok_or_else(|| io::Error::other("invalid point"))
-}
-
-pub(crate) fn read_raw_vec<R: Read, T, F: Fn(&mut R) -> io::Result<T>>(
-  f: F,
-  len: usize,
-  r: &mut R,
-) -> io::Result<Vec<T>> {
-  let mut res = vec![];
-  for _ in 0 .. len {
-    res.push(f(r)?);
-  }
-  Ok(res)
-}
-
-pub(crate) fn read_array<R: Read, T: Debug, F: Fn(&mut R) -> io::Result<T>, const N: usize>(
-  f: F,
-  r: &mut R,
-) -> io::Result<[T; N]> {
-  read_raw_vec(f, N, r).map(|vec| vec.try_into().unwrap())
-}
-
-pub(crate) fn read_vec<R: Read, T, F: Fn(&mut R) -> io::Result<T>>(
-  f: F,
-  r: &mut R,
-) -> io::Result<Vec<T>> {
-  read_raw_vec(f, read_varint(r)?, r)
-}

coins/monero/src/tests/bulletproofs/mod.rs

@@ -1,94 +0,0 @@
-use hex_literal::hex;
-use rand_core::OsRng;
-
-use curve25519_dalek::{scalar::Scalar, edwards::CompressedEdwardsY};
-use multiexp::BatchVerifier;
-
-use crate::{
-  Commitment, random_scalar,
-  ringct::bulletproofs::{Bulletproofs, original::OriginalStruct},
-};
-
-mod plus;
-
-#[test]
-fn bulletproofs_vector() {
-  let scalar = |scalar| Scalar::from_canonical_bytes(scalar).unwrap();
-  let point = |point| CompressedEdwardsY(point).decompress().unwrap();
-
-  // Generated from Monero
-  assert!(Bulletproofs::Original(OriginalStruct {
-    A: point(hex!("ef32c0b9551b804decdcb107eb22aa715b7ce259bf3c5cac20e24dfa6b28ac71")),
-    S: point(hex!("e1285960861783574ee2b689ae53622834eb0b035d6943103f960cd23e063fa0")),
-    T1: point(hex!("4ea07735f184ba159d0e0eb662bac8cde3eb7d39f31e567b0fbda3aa23fe5620")),
-    T2: point(hex!("b8390aa4b60b255630d40e592f55ec6b7ab5e3a96bfcdcd6f1cd1d2fc95f441e")),
-    taux: scalar(hex!("5957dba8ea9afb23d6e81cc048a92f2d502c10c749dc1b2bd148ae8d41ec7107")),
-    mu: scalar(hex!("923023b234c2e64774b820b4961f7181f6c1dc152c438643e5a25b0bf271bc02")),
-    L: vec![
-      point(hex!("c45f656316b9ebf9d357fb6a9f85b5f09e0b991dd50a6e0ae9b02de3946c9d99")),
-      point(hex!("9304d2bf0f27183a2acc58cc755a0348da11bd345485fda41b872fee89e72aac")),
-      point(hex!("1bb8b71925d155dd9569f64129ea049d6149fdc4e7a42a86d9478801d922129b")),
-      point(hex!("5756a7bf887aa72b9a952f92f47182122e7b19d89e5dd434c747492b00e1c6b7")),
-      point(hex!("6e497c910d102592830555356af5ff8340e8d141e3fb60ea24cfa587e964f07d")),
-      point(hex!("f4fa3898e7b08e039183d444f3d55040f3c790ed806cb314de49f3068bdbb218")),
-      point(hex!("0bbc37597c3ead517a3841e159c8b7b79a5ceaee24b2a9a20350127aab428713")),
-    ],
-    R: vec![
-      point(hex!("609420ba1702781692e84accfd225adb3d077aedc3cf8125563400466b52dbd9")),
-      point(hex!("fb4e1d079e7a2b0ec14f7e2a3943bf50b6d60bc346a54fcf562fb234b342abf8")),
-      point(hex!("6ae3ac97289c48ce95b9c557289e82a34932055f7f5e32720139824fe81b12e5")),
-      point(hex!("d071cc2ffbdab2d840326ad15f68c01da6482271cae3cf644670d1632f29a15c")),
-      point(hex!("e52a1754b95e1060589ba7ce0c43d0060820ebfc0d49dc52884bc3c65ad18af5")),
-      point(hex!("41573b06140108539957df71aceb4b1816d2409ce896659aa5c86f037ca5e851")),
-      point(hex!("a65970b2cc3c7b08b2b5b739dbc8e71e646783c41c625e2a5b1535e3d2e0f742")),
-    ],
-    a: scalar(hex!("0077c5383dea44d3cd1bc74849376bd60679612dc4b945255822457fa0c0a209")),
-    b: scalar(hex!("fe80cf5756473482581e1d38644007793ddc66fdeb9404ec1689a907e4863302")),
-    t: scalar(hex!("40dfb08e09249040df997851db311bd6827c26e87d6f0f332c55be8eef10e603"))
-  })
-  .verify(
-    &mut OsRng,
-    &[
-      // For some reason, these vectors are * INV_EIGHT
-      point(hex!("8e8f23f315edae4f6c2f948d9a861e0ae32d356b933cd11d2f0e031ac744c41f"))
-        .mul_by_cofactor(),
-      point(hex!("2829cbd025aa54cd6e1b59a032564f22f0b2e5627f7f2c4297f90da438b5510f"))
-        .mul_by_cofactor(),
-    ]
-  ));
-}
-
-macro_rules! bulletproofs_tests {
-  ($name: ident, $max: ident, $plus: literal) => {
-    #[test]
-    fn $name() {
-      // Create Bulletproofs for all possible output quantities
-      let mut verifier = BatchVerifier::new(16);
-      for i in 1 ..= 16 {
-        let commitments = (1 ..= i)
-          .map(|i| Commitment::new(random_scalar(&mut OsRng), u64::try_from(i).unwrap()))
-          .collect::<Vec<_>>();
-
-        let bp = Bulletproofs::prove(&mut OsRng, &commitments, $plus).unwrap();
-
-        let commitments = commitments.iter().map(Commitment::calculate).collect::<Vec<_>>();
-        assert!(bp.verify(&mut OsRng, &commitments));
-        assert!(bp.batch_verify(&mut OsRng, &mut verifier, i, &commitments));
-      }
-      assert!(verifier.verify_vartime());
-    }
-
-    #[test]
-    fn $max() {
-      // Check Bulletproofs errors if we try to prove for too many outputs
-      let mut commitments = vec![];
-      for _ in 0 .. 17 {
-        commitments.push(Commitment::new(Scalar::ZERO, 0));
-      }
-      assert!(Bulletproofs::prove(&mut OsRng, &commitments, $plus).is_err());
-    }
-  };
-}
-
-bulletproofs_tests!(bulletproofs, bulletproofs_max, false);
-bulletproofs_tests!(bulletproofs_plus, bulletproofs_plus_max, true);

coins/monero/src/tests/bulletproofs/plus/aggregate_range_proof.rs

@@ -1,30 +0,0 @@
-use rand_core::{RngCore, OsRng};
-
-use multiexp::BatchVerifier;
-use group::ff::Field;
-use dalek_ff_group::{Scalar, EdwardsPoint};
-
-use crate::{
-  Commitment,
-  ringct::bulletproofs::plus::aggregate_range_proof::{
-    AggregateRangeStatement, AggregateRangeWitness,
-  },
-};
-
-#[test]
-fn test_aggregate_range_proof() {
-  let mut verifier = BatchVerifier::new(16);
-  for m in 1 ..= 16 {
-    let mut commitments = vec![];
-    for _ in 0 .. m {
-      commitments.push(Commitment::new(*Scalar::random(&mut OsRng), OsRng.next_u64()));
-    }
-    let commitment_points = commitments.iter().map(|com| EdwardsPoint(com.calculate())).collect();
-    let statement = AggregateRangeStatement::new(commitment_points).unwrap();
-    let witness = AggregateRangeWitness::new(&commitments).unwrap();
-
-    let proof = statement.clone().prove(&mut OsRng, witness).unwrap();
-    statement.verify(&mut OsRng, &mut verifier, (), proof);
-  }
-  assert!(verifier.verify_vartime());
-}

coins/monero/src/tests/mod.rs

@@ -1,5 +0,0 @@
-mod unreduced_scalar;
-mod clsag;
-mod bulletproofs;
-mod address;
-mod seed;

coins/monero/src/tests/seed.rs

@@ -1,382 +0,0 @@
-use zeroize::Zeroizing;
-
-use rand_core::OsRng;
-
-use curve25519_dalek::scalar::Scalar;
-
-use crate::{
-  hash,
-  wallet::seed::{
-    Seed, SeedType,
-    classic::{self, trim_by_lang},
-    polyseed,
-  },
-};
-
-#[test]
-fn test_classic_seed() {
-  struct Vector {
-    language: classic::Language,
-    seed: String,
-    spend: String,
-    view: String,
-  }
-
-  let vectors = [
-    Vector {
-      language: classic::Language::Chinese,
-      seed: "摇 曲 艺 武 滴 然 效 似 赏 式 祥 歌 买 疑 小 碧 堆 博 键 房 鲜 悲 付 喷 武".into(),
-      spend: "a5e4fff1706ef9212993a69f246f5c95ad6d84371692d63e9bb0ea112a58340d".into(),
-      view: "1176c43ce541477ea2f3ef0b49b25112b084e26b8a843e1304ac4677b74cdf02".into(),
-    },
-    Vector {
-      language: classic::Language::English,
-      seed: "washing thirsty occur lectures tuesday fainted toxic adapt \
-               abnormal memoir nylon mostly building shrugged online ember northern \
-               ruby woes dauntless boil family illness inroads northern"
-        .into(),
-      spend: "c0af65c0dd837e666b9d0dfed62745f4df35aed7ea619b2798a709f0fe545403".into(),
-      view: "513ba91c538a5a9069e0094de90e927c0cd147fa10428ce3ac1afd49f63e3b01".into(),
-    },
-    Vector {
-      language: classic::Language::Dutch,
-      seed: "setwinst riphagen vimmetje extase blief tuitelig fuiven meifeest \
-               ponywagen zesmaal ripdeal matverf codetaal leut ivoor rotten \
-               wisgerhof winzucht typograaf atrium rein zilt traktaat verzaagd setwinst"
-        .into(),
-      spend: "e2d2873085c447c2bc7664222ac8f7d240df3aeac137f5ff2022eaa629e5b10a".into(),
-      view: "eac30b69477e3f68093d131c7fd961564458401b07f8c87ff8f6030c1a0c7301".into(),
-    },
-    Vector {
-      language: classic::Language::French,
-      seed: "poids vaseux tarte bazar poivre effet entier nuance \
-               sensuel ennui pacte osselet poudre battre alibi mouton \
-               stade paquet pliage gibier type question position projet pliage"
-        .into(),
-      spend: "2dd39ff1a4628a94b5c2ec3e42fb3dfe15c2b2f010154dc3b3de6791e805b904".into(),
-      view: "6725b32230400a1032f31d622b44c3a227f88258939b14a7c72e00939e7bdf0e".into(),
-    },
-    Vector {
-      language: classic::Language::Spanish,
-      seed: "minero ocupar mirar evadir octubre cal logro miope \
-               opaco disco ancla litio clase cuello nasal clase \
-               fiar avance deseo mente grumo negro cordón croqueta clase"
-        .into(),
-      spend: "ae2c9bebdddac067d73ec0180147fc92bdf9ac7337f1bcafbbe57dd13558eb02".into(),
-      view: "18deafb34d55b7a43cae2c1c1c206a3c80c12cc9d1f84640b484b95b7fec3e05".into(),
-    },
-    Vector {
-      language: classic::Language::German,
-      seed: "Kaliber Gabelung Tapir Liveband Favorit Specht Enklave Nabel \
-               Jupiter Foliant Chronik nisten löten Vase Aussage Rekord \
-               Yeti Gesetz Eleganz Alraune Künstler Almweide Jahr Kastanie Almweide"
-        .into(),
-      spend: "79801b7a1b9796856e2397d862a113862e1fdc289a205e79d8d70995b276db06".into(),
-      view: "99f0ec556643bd9c038a4ed86edcb9c6c16032c4622ed2e000299d527a792701".into(),
-    },
-    Vector {
-      language: classic::Language::Italian,
-      seed: "cavo pancetta auto fulmine alleanza filmato diavolo prato \
-               forzare meritare litigare lezione segreto evasione votare buio \
-               licenza cliente dorso natale crescere vento tutelare vetta evasione"
-        .into(),
-      spend: "5e7fd774eb00fa5877e2a8b4dc9c7ffe111008a3891220b56a6e49ac816d650a".into(),
-      view: "698a1dce6018aef5516e82ca0cb3e3ec7778d17dfb41a137567bfa2e55e63a03".into(),
-    },
-    Vector {
-      language: classic::Language::Portuguese,
-      seed: "agito eventualidade onus itrio holograma sodomizar objetos dobro \
-               iugoslavo bcrepuscular odalisca abjeto iuane darwinista eczema acetona \
-               cibernetico hoquei gleba driver buffer azoto megera nogueira agito"
-        .into(),
-      spend: "13b3115f37e35c6aa1db97428b897e584698670c1b27854568d678e729200c0f".into(),
-      view: "ad1b4fd35270f5f36c4da7166672b347e75c3f4d41346ec2a06d1d0193632801".into(),
-    },
-    Vector {
-      language: classic::Language::Japanese,
-      seed: "ぜんぶ どうぐ おたがい せんきょ おうじ そんちょう じゅしん いろえんぴつ \
-               かほう つかれる えらぶ にちじょう くのう にちようび ぬまえび さんきゃく \
-               おおや ちぬき うすめる いがく せつでん さうな すいえい せつだん おおや"
-        .into(),
-      spend: "c56e895cdb13007eda8399222974cdbab493640663804b93cbef3d8c3df80b0b".into(),
-      view: "6c3634a313ec2ee979d565c33888fd7c3502d696ce0134a8bc1a2698c7f2c508".into(),
-    },
-    Vector {
-      language: classic::Language::Russian,
-      seed: "шатер икра нация ехать получать инерция доза реальный \
-               рыжий таможня лопата душа веселый клетка атлас лекция \
-               обгонять паек наивный лыжный дурак стать ежик задача паек"
-        .into(),
-      spend: "7cb5492df5eb2db4c84af20766391cd3e3662ab1a241c70fc881f3d02c381f05".into(),
-      view: "fcd53e41ec0df995ab43927f7c44bc3359c93523d5009fb3f5ba87431d545a03".into(),
-    },
-    Vector {
-      language: classic::Language::Esperanto,
-      seed: "ukazo klini peco etikedo fabriko imitado onklino urino \
-               pudro incidento kumuluso ikono smirgi hirundo uretro krii \
-               sparkado super speciala pupo alpinisto cvana vokegi zombio fabriko"
-        .into(),
-      spend: "82ebf0336d3b152701964ed41df6b6e9a035e57fc98b84039ed0bd4611c58904".into(),
-      view: "cd4d120e1ea34360af528f6a3e6156063312d9cefc9aa6b5218d366c0ed6a201".into(),
-    },
-    Vector {
-      language: classic::Language::Lojban,
-      seed: "jetnu vensa julne xrotu xamsi julne cutci dakli \
-               mlatu xedja muvgau palpi xindo sfubu ciste cinri \
-               blabi darno dembi janli blabi fenki bukpu burcu blabi"
-        .into(),
-      spend: "e4f8c6819ab6cf792cebb858caabac9307fd646901d72123e0367ebc0a79c200".into(),
-      view: "c806ce62bafaa7b2d597f1a1e2dbe4a2f96bfd804bf6f8420fc7f4a6bd700c00".into(),
-    },
-    Vector {
-      language: classic::Language::EnglishOld,
-      seed: "glorious especially puff son moment add youth nowhere \
-               throw glide grip wrong rhythm consume very swear \
-               bitter heavy eventually begin reason flirt type unable"
-        .into(),
-      spend: "647f4765b66b636ff07170ab6280a9a6804dfbaf19db2ad37d23be024a18730b".into(),
-      view: "045da65316a906a8c30046053119c18020b07a7a3a6ef5c01ab2a8755416bd02".into(),
-    },
-  ];
-
-  for vector in vectors {
-    let trim_seed = |seed: &str| {
-      seed
-        .split_whitespace()
-        .map(|word| trim_by_lang(word, vector.language))
-        .collect::<Vec<_>>()
-        .join(" ")
-    };
-
-    // Test against Monero
-    {
-      let seed = Seed::from_string(Zeroizing::new(vector.seed.clone())).unwrap();
-      assert_eq!(seed, Seed::from_string(Zeroizing::new(trim_seed(&vector.seed))).unwrap());
-
-      let spend: [u8; 32] = hex::decode(vector.spend).unwrap().try_into().unwrap();
-      // For classical seeds, Monero directly uses the entropy as a spend key
-      assert_eq!(
-        Option::<Scalar>::from(Scalar::from_canonical_bytes(*seed.entropy())),
-        Option::<Scalar>::from(Scalar::from_canonical_bytes(spend)),
-      );
-
-      let view: [u8; 32] = hex::decode(vector.view).unwrap().try_into().unwrap();
-      // Monero then derives the view key as H(spend)
-      assert_eq!(
-        Scalar::from_bytes_mod_order(hash(&spend)),
-        Scalar::from_canonical_bytes(view).unwrap()
-      );
-
-      assert_eq!(
-        Seed::from_entropy(SeedType::Classic(vector.language), Zeroizing::new(spend), None)
-          .unwrap(),
-        seed
-      );
-    }
-
-    // Test against ourselves
-    {
-      let seed = Seed::new(&mut OsRng, SeedType::Classic(vector.language));
-      assert_eq!(seed, Seed::from_string(Zeroizing::new(trim_seed(&seed.to_string()))).unwrap());
-      assert_eq!(
-        seed,
-        Seed::from_entropy(SeedType::Classic(vector.language), seed.entropy(), None).unwrap()
-      );
-      assert_eq!(seed, Seed::from_string(seed.to_string()).unwrap());
-    }
-  }
-}
-
-#[test]
-fn test_polyseed() {
-  struct Vector {
-    language: polyseed::Language,
-    seed: String,
-    entropy: String,
-    birthday: u64,
-    has_prefix: bool,
-    has_accent: bool,
-  }
-
-  let vectors = [
-    Vector {
-      language: polyseed::Language::English,
-      seed: "raven tail swear infant grief assist regular lamp \
-      duck valid someone little harsh puppy airport language"
-        .into(),
-      entropy: "dd76e7359a0ded37cd0ff0f3c829a5ae01673300000000000000000000000000".into(),
-      birthday: 1638446400,
-      has_prefix: true,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::Spanish,
-      seed: "eje fin parte célebre tabú pestaña lienzo puma \
-      prisión hora regalo lengua existir lápiz lote sonoro"
-        .into(),
-      entropy: "5a2b02df7db21fcbe6ec6df137d54c7b20fd2b00000000000000000000000000".into(),
-      birthday: 3118651200,
-      has_prefix: true,
-      has_accent: true,
-    },
-    Vector {
-      language: polyseed::Language::French,
-      seed: "valable arracher décaler jeudi amusant dresser mener épaissir risible \
-      prouesse réserve ampleur ajuster muter caméra enchère"
-        .into(),
-      entropy: "11cfd870324b26657342c37360c424a14a050b00000000000000000000000000".into(),
-      birthday: 1679314966,
-      has_prefix: true,
-      has_accent: true,
-    },
-    Vector {
-      language: polyseed::Language::Italian,
-      seed: "caduco midollo copione meninge isotopo illogico riflesso tartaruga fermento \
-      olandese normale tristezza episodio voragine forbito achille"
-        .into(),
-      entropy: "7ecc57c9b4652d4e31428f62bec91cfd55500600000000000000000000000000".into(),
-      birthday: 1679316358,
-      has_prefix: true,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::Portuguese,
-      seed: "caverna custear azedo adeus senador apertada sedoso omitir \
-      sujeito aurora videira molho cartaz gesso dentista tapar"
-        .into(),
-      entropy: "45473063711376cae38f1b3eba18c874124e1d00000000000000000000000000".into(),
-      birthday: 1679316657,
-      has_prefix: true,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::Czech,
-      seed: "usmrtit nora dotaz komunita zavalit funkce mzda sotva akce \
-      vesta kabel herna stodola uvolnit ustrnout email"
-        .into(),
-      entropy: "7ac8a4efd62d9c3c4c02e350d32326df37821c00000000000000000000000000".into(),
-      birthday: 1679316898,
-      has_prefix: true,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::Korean,
-      seed: "전망 선풍기 국제 무궁화 설사 기름 이론적 해안 절망 예선 \
-        지우개 보관 절망 말기 시각 귀신"
-        .into(),
-      entropy: "684663fda420298f42ed94b2c512ed38ddf12b00000000000000000000000000".into(),
-      birthday: 1679317073,
-      has_prefix: false,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::Japanese,
-      seed: "うちあわせ　ちつじょ　つごう　しはい　けんこう　とおる　てみやげ　はんとし　たんとう \
-      といれ　おさない　おさえる　むかう　ぬぐう　なふだ　せまる"
-        .into(),
-      entropy: "94e6665518a6286c6e3ba508a2279eb62b771f00000000000000000000000000".into(),
-      birthday: 1679318722,
-      has_prefix: false,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::ChineseTraditional,
-      seed: "亂 挖 斤 柄 代 圈 枝 轄 魯 論 函 開 勘 番 榮 壁".into(),
-      entropy: "b1594f585987ab0fd5a31da1f0d377dae5283f00000000000000000000000000".into(),
-      birthday: 1679426433,
-      has_prefix: false,
-      has_accent: false,
-    },
-    Vector {
-      language: polyseed::Language::ChineseSimplified,
-      seed: "啊 百 族 府 票 划 伪 仓 叶 虾 借 溜 晨 左 等 鬼".into(),
-      entropy: "21cdd366f337b89b8d1bc1df9fe73047c22b0300000000000000000000000000".into(),
-      birthday: 1679426817,
-      has_prefix: false,
-      has_accent: false,
-    },
-  ];
-
-  for vector in vectors {
-    let add_whitespace = |mut seed: String| {
-      seed.push(' ');
-      seed
-    };
-
-    let seed_without_accents = |seed: &str| {
-      seed
-        .split_whitespace()
-        .map(|w| w.chars().filter(|c| c.is_ascii()).collect::<String>())
-        .collect::<Vec<_>>()
-        .join(" ")
-    };
-
-    let trim_seed = |seed: &str| {
-      let seed_to_trim =
-        if vector.has_accent { seed_without_accents(seed) } else { seed.to_string() };
-      seed_to_trim
-        .split_whitespace()
-        .map(|w| {
-          let mut ascii = 0;
-          let mut to_take = w.len();
-          for (i, char) in w.chars().enumerate() {
-            if char.is_ascii() {
-              ascii += 1;
-            }
-            if ascii == polyseed::PREFIX_LEN {
-              // +1 to include this character, which put us at the prefix length
-              to_take = i + 1;
-              break;
-            }
-          }
-          w.chars().take(to_take).collect::<String>()
-        })
-        .collect::<Vec<_>>()
-        .join(" ")
-    };
-
-    // String -> Seed
-    let seed = Seed::from_string(Zeroizing::new(vector.seed.clone())).unwrap();
-
-    // Make sure a version with added whitespace still works
-    let whitespaced_seed =
-      Seed::from_string(Zeroizing::new(add_whitespace(vector.seed.clone()))).unwrap();
-    assert_eq!(seed, whitespaced_seed);
-    // Check trimmed versions works
-    if vector.has_prefix {
-      let trimmed_seed = Seed::from_string(Zeroizing::new(trim_seed(&vector.seed))).unwrap();
-      assert_eq!(seed, trimmed_seed);
-    }
-    // Check versions without accents work
-    if vector.has_accent {
-      let seed_without_accents =
-        Seed::from_string(Zeroizing::new(seed_without_accents(&vector.seed))).unwrap();
-      assert_eq!(seed, seed_without_accents);
-    }
-
-    let entropy = Zeroizing::new(hex::decode(vector.entropy).unwrap().try_into().unwrap());
-    assert_eq!(seed.entropy(), entropy);
-    assert!(seed.birthday().abs_diff(vector.birthday) < polyseed::TIME_STEP);
-
-    // Entropy -> Seed
-    let from_entropy =
-      Seed::from_entropy(SeedType::Polyseed(vector.language), entropy, Some(seed.birthday()))
-        .unwrap();
-    assert_eq!(seed.to_string(), from_entropy.to_string());
-
-    // Check against ourselves
-    {
-      let seed = Seed::new(&mut OsRng, SeedType::Polyseed(vector.language));
-      assert_eq!(seed, Seed::from_string(seed.to_string()).unwrap());
-      assert_eq!(
-        seed,
-        Seed::from_entropy(
-          SeedType::Polyseed(vector.language),
-          seed.entropy(),
-          Some(seed.birthday())
-        )
-        .unwrap()
-      );
-    }
-  }
-}

coins/monero/src/transaction.rs

@@ -1,433 +0,0 @@
-use core::cmp::Ordering;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::edwards::{EdwardsPoint, CompressedEdwardsY};
-
-use crate::{
-  Protocol, hash,
-  serialize::*,
-  ring_signatures::RingSignature,
-  ringct::{bulletproofs::Bulletproofs, RctType, RctBase, RctPrunable, RctSignatures},
-};
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub enum Input {
-  Gen(u64),
-  ToKey { amount: Option<u64>, key_offsets: Vec<u64>, key_image: EdwardsPoint },
-}
-
-impl Input {
-  pub(crate) fn fee_weight(offsets_weight: usize) -> usize {
-    // Uses 1 byte for the input type
-    // Uses 1 byte for the VarInt amount due to amount being 0
-    1 + 1 + offsets_weight + 32
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      Input::Gen(height) => {
-        w.write_all(&[255])?;
-        write_varint(height, w)
-      }
-
-      Input::ToKey { amount, key_offsets, key_image } => {
-        w.write_all(&[2])?;
-        write_varint(&amount.unwrap_or(0), w)?;
-        write_vec(write_varint, key_offsets, w)?;
-        write_point(key_image, w)
-      }
-    }
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut res = vec![];
-    self.write(&mut res).unwrap();
-    res
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Input> {
-    Ok(match read_byte(r)? {
-      255 => Input::Gen(read_varint(r)?),
-      2 => {
-        let amount = read_varint(r)?;
-        // https://github.com/monero-project/monero/
-        //   blob/00fd416a99686f0956361d1cd0337fe56e58d4a7/
-        //   src/cryptonote_basic/cryptonote_format_utils.cpp#L860-L863
-        // A non-RCT 0-amount input can't exist because only RCT TXs can have a 0-amount output
-        // That's why collapsing to None if the amount is 0 is safe, even without knowing if RCT
-        let amount = if amount == 0 { None } else { Some(amount) };
-        Input::ToKey {
-          amount,
-          key_offsets: read_vec(read_varint, r)?,
-          key_image: read_torsion_free_point(r)?,
-        }
-      }
-      _ => Err(io::Error::other("Tried to deserialize unknown/unused input type"))?,
-    })
-  }
-}
-
-// Doesn't bother moving to an enum for the unused Script classes
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct Output {
-  pub amount: Option<u64>,
-  pub key: CompressedEdwardsY,
-  pub view_tag: Option<u8>,
-}
-
-impl Output {
-  pub(crate) fn fee_weight(view_tags: bool) -> usize {
-    // Uses 1 byte for the output type
-    // Uses 1 byte for the VarInt amount due to amount being 0
-    1 + 1 + 32 + if view_tags { 1 } else { 0 }
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_varint(&self.amount.unwrap_or(0), w)?;
-    w.write_all(&[2 + u8::from(self.view_tag.is_some())])?;
-    w.write_all(&self.key.to_bytes())?;
-    if let Some(view_tag) = self.view_tag {
-      w.write_all(&[view_tag])?;
-    }
-    Ok(())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut res = Vec::with_capacity(8 + 1 + 32);
-    self.write(&mut res).unwrap();
-    res
-  }
-
-  pub fn read<R: Read>(rct: bool, r: &mut R) -> io::Result<Output> {
-    let amount = read_varint(r)?;
-    let amount = if rct {
-      if amount != 0 {
-        Err(io::Error::other("RCT TX output wasn't 0"))?;
-      }
-      None
-    } else {
-      Some(amount)
-    };
-
-    let view_tag = match read_byte(r)? {
-      2 => false,
-      3 => true,
-      _ => Err(io::Error::other("Tried to deserialize unknown/unused output type"))?,
-    };
-
-    Ok(Output {
-      amount,
-      key: CompressedEdwardsY(read_bytes(r)?),
-      view_tag: if view_tag { Some(read_byte(r)?) } else { None },
-    })
-  }
-}
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum Timelock {
-  None,
-  Block(usize),
-  Time(u64),
-}
-
-impl Timelock {
-  fn from_raw(raw: u64) -> Timelock {
-    if raw == 0 {
-      Timelock::None
-    } else if raw < 500_000_000 {
-      Timelock::Block(usize::try_from(raw).unwrap())
-    } else {
-      Timelock::Time(raw)
-    }
-  }
-
-  fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_varint(
-      &match self {
-        Timelock::None => 0,
-        Timelock::Block(block) => (*block).try_into().unwrap(),
-        Timelock::Time(time) => *time,
-      },
-      w,
-    )
-  }
-}
-
-impl PartialOrd for Timelock {
-  fn partial_cmp(&self, other: &Self) -> Option<Ordering> {
-    match (self, other) {
-      (Timelock::None, _) => Some(Ordering::Less),
-      (Timelock::Block(a), Timelock::Block(b)) => a.partial_cmp(b),
-      (Timelock::Time(a), Timelock::Time(b)) => a.partial_cmp(b),
-      _ => None,
-    }
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct TransactionPrefix {
-  pub version: u64,
-  pub timelock: Timelock,
-  pub inputs: Vec<Input>,
-  pub outputs: Vec<Output>,
-  pub extra: Vec<u8>,
-}
-
-impl TransactionPrefix {
-  pub(crate) fn fee_weight(
-    decoy_weights: &[usize],
-    outputs: usize,
-    view_tags: bool,
-    extra: usize,
-  ) -> usize {
-    // Assumes Timelock::None since this library won't let you create a TX with a timelock
-    // 1 input for every decoy weight
-    1 + 1 +
-      varint_len(decoy_weights.len()) +
-      decoy_weights.iter().map(|&offsets_weight| Input::fee_weight(offsets_weight)).sum::<usize>() +
-      varint_len(outputs) +
-      (outputs * Output::fee_weight(view_tags)) +
-      varint_len(extra) +
-      extra
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    write_varint(&self.version, w)?;
-    self.timelock.write(w)?;
-    write_vec(Input::write, &self.inputs, w)?;
-    write_vec(Output::write, &self.outputs, w)?;
-    write_varint(&self.extra.len(), w)?;
-    w.write_all(&self.extra)
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut res = vec![];
-    self.write(&mut res).unwrap();
-    res
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<TransactionPrefix> {
-    let version = read_varint(r)?;
-    // TODO: Create an enum out of version
-    if (version == 0) || (version > 2) {
-      Err(io::Error::other("unrecognized transaction version"))?;
-    }
-
-    let timelock = Timelock::from_raw(read_varint(r)?);
-
-    let inputs = read_vec(|r| Input::read(r), r)?;
-    if inputs.is_empty() {
-      Err(io::Error::other("transaction had no inputs"))?;
-    }
-    let is_miner_tx = matches!(inputs[0], Input::Gen { .. });
-
-    let mut prefix = TransactionPrefix {
-      version,
-      timelock,
-      inputs,
-      outputs: read_vec(|r| Output::read((!is_miner_tx) && (version == 2), r), r)?,
-      extra: vec![],
-    };
-    prefix.extra = read_vec(read_byte, r)?;
-    Ok(prefix)
-  }
-
-  pub fn hash(&self) -> [u8; 32] {
-    hash(&self.serialize())
-  }
-}
-
-/// Monero transaction. For version 1, rct_signatures still contains an accurate fee value.
-#[derive(Clone, PartialEq, Eq, Debug)]
-pub struct Transaction {
-  pub prefix: TransactionPrefix,
-  pub signatures: Vec<RingSignature>,
-  pub rct_signatures: RctSignatures,
-}
-
-impl Transaction {
-  pub(crate) fn fee_weight(
-    protocol: Protocol,
-    decoy_weights: &[usize],
-    outputs: usize,
-    extra: usize,
-    fee: u64,
-  ) -> usize {
-    TransactionPrefix::fee_weight(decoy_weights, outputs, protocol.view_tags(), extra) +
-      RctSignatures::fee_weight(protocol, decoy_weights.len(), outputs, fee)
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.prefix.write(w)?;
-    if self.prefix.version == 1 {
-      for ring_sig in &self.signatures {
-        ring_sig.write(w)?;
-      }
-      Ok(())
-    } else if self.prefix.version == 2 {
-      self.rct_signatures.write(w)
-    } else {
-      panic!("Serializing a transaction with an unknown version");
-    }
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut res = Vec::with_capacity(2048);
-    self.write(&mut res).unwrap();
-    res
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Transaction> {
-    let prefix = TransactionPrefix::read(r)?;
-    let mut signatures = vec![];
-    let mut rct_signatures = RctSignatures {
-      base: RctBase { fee: 0, encrypted_amounts: vec![], pseudo_outs: vec![], commitments: vec![] },
-      prunable: RctPrunable::Null,
-    };
-
-    if prefix.version == 1 {
-      signatures = prefix
-        .inputs
-        .iter()
-        .filter_map(|input| match input {
-          Input::ToKey { key_offsets, .. } => Some(RingSignature::read(key_offsets.len(), r)),
-          _ => None,
-        })
-        .collect::<Result<_, _>>()?;
-
-      if !matches!(prefix.inputs[0], Input::Gen(..)) {
-        let in_amount = prefix
-          .inputs
-          .iter()
-          .map(|input| match input {
-            Input::Gen(..) => Err(io::Error::other("Input::Gen present in non-coinbase v1 TX"))?,
-            // v1 TXs can burn v2 outputs
-            // dcff3fe4f914d6b6bd4a5b800cc4cca8f2fdd1bd73352f0700d463d36812f328 is one such TX
-            // It includes a pre-RCT signature for a RCT output, yet if you interpret the RCT
-            // output as being worth 0, it passes a sum check (guaranteed since no outputs are RCT)
-            Input::ToKey { amount, .. } => Ok(amount.unwrap_or(0)),
-          })
-          .collect::<io::Result<Vec<_>>>()?
-          .into_iter()
-          .sum::<u64>();
-
-        let mut out = 0;
-        for output in &prefix.outputs {
-          if output.amount.is_none() {
-            Err(io::Error::other("v1 transaction had a 0-amount output"))?;
-          }
-          out += output.amount.unwrap();
-        }
-
-        if in_amount < out {
-          Err(io::Error::other("transaction spent more than it had as inputs"))?;
-        }
-        rct_signatures.base.fee = in_amount - out;
-      }
-    } else if prefix.version == 2 {
-      rct_signatures = RctSignatures::read(
-        prefix
-          .inputs
-          .iter()
-          .map(|input| match input {
-            Input::Gen(_) => 0,
-            Input::ToKey { key_offsets, .. } => key_offsets.len(),
-          })
-          .collect(),
-        prefix.outputs.len(),
-        r,
-      )?;
-    } else {
-      Err(io::Error::other("Tried to deserialize unknown version"))?;
-    }
-
-    Ok(Transaction { prefix, signatures, rct_signatures })
-  }
-
-  pub fn hash(&self) -> [u8; 32] {
-    let mut buf = Vec::with_capacity(2048);
-    if self.prefix.version == 1 {
-      self.write(&mut buf).unwrap();
-      hash(&buf)
-    } else {
-      let mut hashes = Vec::with_capacity(96);
-
-      hashes.extend(self.prefix.hash());
-
-      self.rct_signatures.base.write(&mut buf, self.rct_signatures.rct_type()).unwrap();
-      hashes.extend(hash(&buf));
-      buf.clear();
-
-      hashes.extend(&match self.rct_signatures.prunable {
-        RctPrunable::Null => [0; 32],
-        _ => {
-          self.rct_signatures.prunable.write(&mut buf, self.rct_signatures.rct_type()).unwrap();
-          hash(&buf)
-        }
-      });
-
-      hash(&hashes)
-    }
-  }
-
-  /// Calculate the hash of this transaction as needed for signing it.
-  pub fn signature_hash(&self) -> [u8; 32] {
-    if self.prefix.version == 1 {
-      return self.prefix.hash();
-    }
-
-    let mut buf = Vec::with_capacity(2048);
-    let mut sig_hash = Vec::with_capacity(96);
-
-    sig_hash.extend(self.prefix.hash());
-
-    self.rct_signatures.base.write(&mut buf, self.rct_signatures.rct_type()).unwrap();
-    sig_hash.extend(hash(&buf));
-    buf.clear();
-
-    self.rct_signatures.prunable.signature_write(&mut buf).unwrap();
-    sig_hash.extend(hash(&buf));
-
-    hash(&sig_hash)
-  }
-
-  fn is_rct_bulletproof(&self) -> bool {
-    match &self.rct_signatures.rct_type() {
-      RctType::Bulletproofs | RctType::BulletproofsCompactAmount | RctType::Clsag => true,
-      RctType::Null |
-      RctType::MlsagAggregate |
-      RctType::MlsagIndividual |
-      RctType::BulletproofsPlus => false,
-    }
-  }
-
-  fn is_rct_bulletproof_plus(&self) -> bool {
-    match &self.rct_signatures.rct_type() {
-      RctType::BulletproofsPlus => true,
-      RctType::Null |
-      RctType::MlsagAggregate |
-      RctType::MlsagIndividual |
-      RctType::Bulletproofs |
-      RctType::BulletproofsCompactAmount |
-      RctType::Clsag => false,
-    }
-  }
-
-  /// Calculate the transaction's weight.
-  pub fn weight(&self) -> usize {
-    let blob_size = self.serialize().len();
-
-    let bp = self.is_rct_bulletproof();
-    let bp_plus = self.is_rct_bulletproof_plus();
-    if !(bp || bp_plus) {
-      blob_size
-    } else {
-      blob_size + Bulletproofs::calculate_bp_clawback(bp_plus, self.prefix.outputs.len()).0
-    }
-  }
-}

coins/monero/src/wallet/address.rs

@@ -1,325 +0,0 @@
-use core::{marker::PhantomData, fmt::Debug};
-use std_shims::string::{String, ToString};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::edwards::{EdwardsPoint, CompressedEdwardsY};
-
-use base58_monero::base58::{encode_check, decode_check};
-
-/// The network this address is for.
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum Network {
-  Mainnet,
-  Testnet,
-  Stagenet,
-}
-
-/// The address type, supporting the officially documented addresses, along with
-/// [Featured Addresses](https://gist.github.com/kayabaNerve/01c50bbc35441e0bbdcee63a9d823789).
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum AddressType {
-  Standard,
-  Integrated([u8; 8]),
-  Subaddress,
-  Featured { subaddress: bool, payment_id: Option<[u8; 8]>, guaranteed: bool },
-}
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub struct SubaddressIndex {
-  pub(crate) account: u32,
-  pub(crate) address: u32,
-}
-
-impl SubaddressIndex {
-  pub const fn new(account: u32, address: u32) -> Option<SubaddressIndex> {
-    if (account == 0) && (address == 0) {
-      return None;
-    }
-    Some(SubaddressIndex { account, address })
-  }
-
-  pub fn account(&self) -> u32 {
-    self.account
-  }
-
-  pub fn address(&self) -> u32 {
-    self.address
-  }
-}
-
-/// Address specification. Used internally to create addresses.
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum AddressSpec {
-  Standard,
-  Integrated([u8; 8]),
-  Subaddress(SubaddressIndex),
-  Featured { subaddress: Option<SubaddressIndex>, payment_id: Option<[u8; 8]>, guaranteed: bool },
-}
-
-impl AddressType {
-  pub fn is_subaddress(&self) -> bool {
-    matches!(self, AddressType::Subaddress) ||
-      matches!(self, AddressType::Featured { subaddress: true, .. })
-  }
-
-  pub fn payment_id(&self) -> Option<[u8; 8]> {
-    if let AddressType::Integrated(id) = self {
-      Some(*id)
-    } else if let AddressType::Featured { payment_id, .. } = self {
-      *payment_id
-    } else {
-      None
-    }
-  }
-
-  pub fn is_guaranteed(&self) -> bool {
-    matches!(self, AddressType::Featured { guaranteed: true, .. })
-  }
-}
-
-/// A type which returns the byte for a given address.
-pub trait AddressBytes: Clone + Copy + PartialEq + Eq + Debug {
-  fn network_bytes(network: Network) -> (u8, u8, u8, u8);
-}
-
-/// Address bytes for Monero.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-pub struct MoneroAddressBytes;
-impl AddressBytes for MoneroAddressBytes {
-  fn network_bytes(network: Network) -> (u8, u8, u8, u8) {
-    match network {
-      Network::Mainnet => (18, 19, 42, 70),
-      Network::Testnet => (53, 54, 63, 111),
-      Network::Stagenet => (24, 25, 36, 86),
-    }
-  }
-}
-
-/// Address metadata.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-pub struct AddressMeta<B: AddressBytes> {
-  _bytes: PhantomData<B>,
-  pub network: Network,
-  pub kind: AddressType,
-}
-
-impl<B: AddressBytes> Zeroize for AddressMeta<B> {
-  fn zeroize(&mut self) {
-    self.network.zeroize();
-    self.kind.zeroize();
-  }
-}
-
-/// Error when decoding an address.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-#[cfg_attr(feature = "std", derive(thiserror::Error))]
-pub enum AddressError {
-  #[cfg_attr(feature = "std", error("invalid address byte"))]
-  InvalidByte,
-  #[cfg_attr(feature = "std", error("invalid address encoding"))]
-  InvalidEncoding,
-  #[cfg_attr(feature = "std", error("invalid length"))]
-  InvalidLength,
-  #[cfg_attr(feature = "std", error("invalid key"))]
-  InvalidKey,
-  #[cfg_attr(feature = "std", error("unknown features"))]
-  UnknownFeatures,
-  #[cfg_attr(feature = "std", error("different network than expected"))]
-  DifferentNetwork,
-}
-
-impl<B: AddressBytes> AddressMeta<B> {
-  #[allow(clippy::wrong_self_convention)]
-  fn to_byte(&self) -> u8 {
-    let bytes = B::network_bytes(self.network);
-    match self.kind {
-      AddressType::Standard => bytes.0,
-      AddressType::Integrated(_) => bytes.1,
-      AddressType::Subaddress => bytes.2,
-      AddressType::Featured { .. } => bytes.3,
-    }
-  }
-
-  /// Create an address's metadata.
-  pub fn new(network: Network, kind: AddressType) -> Self {
-    AddressMeta { _bytes: PhantomData, network, kind }
-  }
-
-  // Returns an incomplete instantiation in the case of Integrated/Featured addresses
-  fn from_byte(byte: u8) -> Result<Self, AddressError> {
-    let mut meta = None;
-    for network in [Network::Mainnet, Network::Testnet, Network::Stagenet] {
-      let (standard, integrated, subaddress, featured) = B::network_bytes(network);
-      if let Some(kind) = match byte {
-        _ if byte == standard => Some(AddressType::Standard),
-        _ if byte == integrated => Some(AddressType::Integrated([0; 8])),
-        _ if byte == subaddress => Some(AddressType::Subaddress),
-        _ if byte == featured => {
-          Some(AddressType::Featured { subaddress: false, payment_id: None, guaranteed: false })
-        }
-        _ => None,
-      } {
-        meta = Some(AddressMeta::new(network, kind));
-        break;
-      }
-    }
-
-    meta.ok_or(AddressError::InvalidByte)
-  }
-
-  pub fn is_subaddress(&self) -> bool {
-    self.kind.is_subaddress()
-  }
-
-  pub fn payment_id(&self) -> Option<[u8; 8]> {
-    self.kind.payment_id()
-  }
-
-  pub fn is_guaranteed(&self) -> bool {
-    self.kind.is_guaranteed()
-  }
-}
-
-/// A Monero address, composed of metadata and a spend/view key.
-#[derive(Clone, Copy, PartialEq, Eq)]
-pub struct Address<B: AddressBytes> {
-  pub meta: AddressMeta<B>,
-  pub spend: EdwardsPoint,
-  pub view: EdwardsPoint,
-}
-
-impl<B: AddressBytes> core::fmt::Debug for Address<B> {
-  fn fmt(&self, fmt: &mut core::fmt::Formatter<'_>) -> Result<(), core::fmt::Error> {
-    fmt
-      .debug_struct("Address")
-      .field("meta", &self.meta)
-      .field("spend", &hex::encode(self.spend.compress().0))
-      .field("view", &hex::encode(self.view.compress().0))
-      // This is not a real field yet is the most valuable thing to know when debugging
-      .field("(address)", &self.to_string())
-      .finish()
-  }
-}
-
-impl<B: AddressBytes> Zeroize for Address<B> {
-  fn zeroize(&mut self) {
-    self.meta.zeroize();
-    self.spend.zeroize();
-    self.view.zeroize();
-  }
-}
-
-impl<B: AddressBytes> ToString for Address<B> {
-  fn to_string(&self) -> String {
-    let mut data = vec![self.meta.to_byte()];
-    data.extend(self.spend.compress().to_bytes());
-    data.extend(self.view.compress().to_bytes());
-    if let AddressType::Featured { subaddress, payment_id, guaranteed } = self.meta.kind {
-      // Technically should be a VarInt, yet we don't have enough features it's needed
-      data.push(
-        u8::from(subaddress) + (u8::from(payment_id.is_some()) << 1) + (u8::from(guaranteed) << 2),
-      );
-    }
-    if let Some(id) = self.meta.kind.payment_id() {
-      data.extend(id);
-    }
-    encode_check(&data).unwrap()
-  }
-}
-
-impl<B: AddressBytes> Address<B> {
-  pub fn new(meta: AddressMeta<B>, spend: EdwardsPoint, view: EdwardsPoint) -> Self {
-    Address { meta, spend, view }
-  }
-
-  pub fn from_str_raw(s: &str) -> Result<Self, AddressError> {
-    let raw = decode_check(s).map_err(|_| AddressError::InvalidEncoding)?;
-    if raw.len() < (1 + 32 + 32) {
-      Err(AddressError::InvalidLength)?;
-    }
-
-    let mut meta = AddressMeta::from_byte(raw[0])?;
-    let spend = CompressedEdwardsY(raw[1 .. 33].try_into().unwrap())
-      .decompress()
-      .ok_or(AddressError::InvalidKey)?;
-    let view = CompressedEdwardsY(raw[33 .. 65].try_into().unwrap())
-      .decompress()
-      .ok_or(AddressError::InvalidKey)?;
-    let mut read = 65;
-
-    if matches!(meta.kind, AddressType::Featured { .. }) {
-      if raw[read] >= (2 << 3) {
-        Err(AddressError::UnknownFeatures)?;
-      }
-
-      let subaddress = (raw[read] & 1) == 1;
-      let integrated = ((raw[read] >> 1) & 1) == 1;
-      let guaranteed = ((raw[read] >> 2) & 1) == 1;
-
-      meta.kind = AddressType::Featured {
-        subaddress,
-        payment_id: Some([0; 8]).filter(|_| integrated),
-        guaranteed,
-      };
-      read += 1;
-    }
-
-    // Update read early so we can verify the length
-    if meta.kind.payment_id().is_some() {
-      read += 8;
-    }
-    if raw.len() != read {
-      Err(AddressError::InvalidLength)?;
-    }
-
-    if let AddressType::Integrated(ref mut id) = meta.kind {
-      id.copy_from_slice(&raw[(read - 8) .. read]);
-    }
-    if let AddressType::Featured { payment_id: Some(ref mut id), .. } = meta.kind {
-      id.copy_from_slice(&raw[(read - 8) .. read]);
-    }
-
-    Ok(Address { meta, spend, view })
-  }
-
-  pub fn from_str(network: Network, s: &str) -> Result<Self, AddressError> {
-    Self::from_str_raw(s).and_then(|addr| {
-      if addr.meta.network == network {
-        Ok(addr)
-      } else {
-        Err(AddressError::DifferentNetwork)?
-      }
-    })
-  }
-
-  pub fn network(&self) -> Network {
-    self.meta.network
-  }
-
-  pub fn is_subaddress(&self) -> bool {
-    self.meta.is_subaddress()
-  }
-
-  pub fn payment_id(&self) -> Option<[u8; 8]> {
-    self.meta.payment_id()
-  }
-
-  pub fn is_guaranteed(&self) -> bool {
-    self.meta.is_guaranteed()
-  }
-}
-
-/// Instantiation of the Address type with Monero's network bytes.
-pub type MoneroAddress = Address<MoneroAddressBytes>;
-// Allow re-interpreting of an arbitrary address as a monero address so it can be used with the
-// rest of this library. Doesn't use From as it was conflicting with From<T> for T.
-impl MoneroAddress {
-  pub fn from<B: AddressBytes>(address: Address<B>) -> MoneroAddress {
-    MoneroAddress::new(
-      AddressMeta::new(address.meta.network, address.meta.kind),
-      address.spend,
-      address.view,
-    )
-  }
-}

coins/monero/src/wallet/decoys.rs

@@ -1,294 +0,0 @@
-use std_shims::{vec::Vec, collections::HashSet};
-
-#[cfg(feature = "cache-distribution")]
-use std_shims::sync::OnceLock;
-
-#[cfg(all(feature = "cache-distribution", not(feature = "std")))]
-use std_shims::sync::Mutex;
-#[cfg(all(feature = "cache-distribution", feature = "std"))]
-use futures::lock::Mutex;
-
-use zeroize::{Zeroize, ZeroizeOnDrop};
-
-use rand_core::{RngCore, CryptoRng};
-use rand_distr::{Distribution, Gamma};
-#[cfg(not(feature = "std"))]
-use rand_distr::num_traits::Float;
-
-use curve25519_dalek::edwards::EdwardsPoint;
-
-use crate::{
-  serialize::varint_len,
-  wallet::SpendableOutput,
-  rpc::{RpcError, RpcConnection, Rpc},
-};
-
-const LOCK_WINDOW: usize = 10;
-const MATURITY: u64 = 60;
-const RECENT_WINDOW: usize = 15;
-const BLOCK_TIME: usize = 120;
-const BLOCKS_PER_YEAR: usize = 365 * 24 * 60 * 60 / BLOCK_TIME;
-const TIP_APPLICATION: f64 = (LOCK_WINDOW * BLOCK_TIME) as f64;
-
-// TODO: Resolve safety of this in case a reorg occurs/the network changes
-// TODO: Update this when scanning a block, as possible
-#[cfg(feature = "cache-distribution")]
-static DISTRIBUTION_CELL: OnceLock<Mutex<Vec<u64>>> = OnceLock::new();
-#[cfg(feature = "cache-distribution")]
-#[allow(non_snake_case)]
-fn DISTRIBUTION() -> &'static Mutex<Vec<u64>> {
-  DISTRIBUTION_CELL.get_or_init(|| Mutex::new(Vec::with_capacity(3000000)))
-}
-
-#[allow(clippy::too_many_arguments)]
-async fn select_n<'a, R: RngCore + CryptoRng, RPC: RpcConnection>(
-  rng: &mut R,
-  rpc: &Rpc<RPC>,
-  distribution: &[u64],
-  height: usize,
-  high: u64,
-  per_second: f64,
-  real: &[u64],
-  used: &mut HashSet<u64>,
-  count: usize,
-) -> Result<Vec<(u64, [EdwardsPoint; 2])>, RpcError> {
-  if height >= rpc.get_height().await? {
-    // TODO: Don't use InternalError for the caller's failure
-    Err(RpcError::InternalError("decoys being requested from too young blocks"))?;
-  }
-
-  #[cfg(test)]
-  let mut iters = 0;
-  let mut confirmed = Vec::with_capacity(count);
-  // Retries on failure. Retries are obvious as decoys, yet should be minimal
-  while confirmed.len() != count {
-    let remaining = count - confirmed.len();
-    let mut candidates = Vec::with_capacity(remaining);
-    while candidates.len() != remaining {
-      #[cfg(test)]
-      {
-        iters += 1;
-        // This is cheap and on fresh chains, a lot of rounds may be needed
-        if iters == 100 {
-          Err(RpcError::InternalError("hit decoy selection round limit"))?;
-        }
-      }
-
-      // Use a gamma distribution
-      let mut age = Gamma::<f64>::new(19.28, 1.0 / 1.61).unwrap().sample(rng).exp();
-      if age > TIP_APPLICATION {
-        age -= TIP_APPLICATION;
-      } else {
-        // f64 does not have try_from available, which is why these are written with `as`
-        age = (rng.next_u64() % u64::try_from(RECENT_WINDOW * BLOCK_TIME).unwrap()) as f64;
-      }
-
-      let o = (age * per_second) as u64;
-      if o < high {
-        let i = distribution.partition_point(|s| *s < (high - 1 - o));
-        let prev = i.saturating_sub(1);
-        let n = distribution[i] - distribution[prev];
-        if n != 0 {
-          let o = distribution[prev] + (rng.next_u64() % n);
-          if !used.contains(&o) {
-            // It will either actually be used, or is unusable and this prevents trying it again
-            used.insert(o);
-            candidates.push(o);
-          }
-        }
-      }
-    }
-
-    // If this is the first time we're requesting these outputs, include the real one as well
-    // Prevents the node we're connected to from having a list of known decoys and then seeing a
-    // TX which uses all of them, with one additional output (the true spend)
-    let mut real_indexes = HashSet::with_capacity(real.len());
-    if confirmed.is_empty() {
-      for real in real {
-        candidates.push(*real);
-      }
-      // Sort candidates so the real spends aren't the ones at the end
-      candidates.sort();
-      for real in real {
-        real_indexes.insert(candidates.binary_search(real).unwrap());
-      }
-    }
-
-    for (i, output) in rpc.get_unlocked_outputs(&candidates, height).await?.iter_mut().enumerate() {
-      // Don't include the real spend as a decoy, despite requesting it
-      if real_indexes.contains(&i) {
-        continue;
-      }
-
-      if let Some(output) = output.take() {
-        confirmed.push((candidates[i], output));
-      }
-    }
-  }
-
-  Ok(confirmed)
-}
-
-fn offset(ring: &[u64]) -> Vec<u64> {
-  let mut res = vec![ring[0]];
-  res.resize(ring.len(), 0);
-  for m in (1 .. ring.len()).rev() {
-    res[m] = ring[m] - ring[m - 1];
-  }
-  res
-}
-
-/// Decoy data, containing the actual member as well (at index `i`).
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct Decoys {
-  pub(crate) i: u8,
-  pub(crate) offsets: Vec<u64>,
-  pub(crate) ring: Vec<[EdwardsPoint; 2]>,
-}
-
-#[allow(clippy::len_without_is_empty)]
-impl Decoys {
-  pub fn fee_weight(offsets: &[u64]) -> usize {
-    varint_len(offsets.len()) + offsets.iter().map(|offset| varint_len(*offset)).sum::<usize>()
-  }
-
-  pub fn len(&self) -> usize {
-    self.offsets.len()
-  }
-
-  /// Select decoys using the same distribution as Monero.
-  pub async fn select<R: RngCore + CryptoRng, RPC: RpcConnection>(
-    rng: &mut R,
-    rpc: &Rpc<RPC>,
-    ring_len: usize,
-    height: usize,
-    inputs: &[SpendableOutput],
-  ) -> Result<Vec<Decoys>, RpcError> {
-    #[cfg(feature = "cache-distribution")]
-    #[cfg(not(feature = "std"))]
-    let mut distribution = DISTRIBUTION().lock();
-    #[cfg(feature = "cache-distribution")]
-    #[cfg(feature = "std")]
-    let mut distribution = DISTRIBUTION().lock().await;
-
-    #[cfg(not(feature = "cache-distribution"))]
-    let mut distribution = vec![];
-
-    let decoy_count = ring_len - 1;
-
-    // Convert the inputs in question to the raw output data
-    let mut real = Vec::with_capacity(inputs.len());
-    let mut outputs = Vec::with_capacity(inputs.len());
-    for input in inputs {
-      real.push(input.global_index);
-      outputs.push((real[real.len() - 1], [input.key(), input.commitment().calculate()]));
-    }
-
-    if distribution.len() <= height {
-      let extension = rpc.get_output_distribution(distribution.len(), height).await?;
-      distribution.extend(extension);
-    }
-    // If asked to use an older height than previously asked, truncate to ensure accuracy
-    // Should never happen, yet risks desyncing if it did
-    distribution.truncate(height + 1); // height is inclusive, and 0 is a valid height
-
-    let high = distribution[distribution.len() - 1];
-    let per_second = {
-      let blocks = distribution.len().min(BLOCKS_PER_YEAR);
-      let outputs = high - distribution[distribution.len().saturating_sub(blocks + 1)];
-      (outputs as f64) / ((blocks * BLOCK_TIME) as f64)
-    };
-
-    let mut used = HashSet::<u64>::new();
-    for o in &outputs {
-      used.insert(o.0);
-    }
-
-    // TODO: Create a TX with less than the target amount, as allowed by the protocol
-    if (high - MATURITY) < u64::try_from(inputs.len() * ring_len).unwrap() {
-      Err(RpcError::InternalError("not enough decoy candidates"))?;
-    }
-
-    // Select all decoys for this transaction, assuming we generate a sane transaction
-    // We should almost never naturally generate an insane transaction, hence why this doesn't
-    // bother with an overage
-    let mut decoys = select_n(
-      rng,
-      rpc,
-      &distribution,
-      height,
-      high,
-      per_second,
-      &real,
-      &mut used,
-      inputs.len() * decoy_count,
-    )
-    .await?;
-    real.zeroize();
-
-    let mut res = Vec::with_capacity(inputs.len());
-    for o in outputs {
-      // Grab the decoys for this specific output
-      let mut ring = decoys.drain((decoys.len() - decoy_count) ..).collect::<Vec<_>>();
-      ring.push(o);
-      ring.sort_by(|a, b| a.0.cmp(&b.0));
-
-      // Sanity checks are only run when 1000 outputs are available in Monero
-      // We run this check whenever the highest output index, which we acknowledge, is > 500
-      // This means we assume (for presumably test blockchains) the height being used has not had
-      // 500 outputs since while itself not being a sufficiently mature blockchain
-      // Considering Monero's p2p layer doesn't actually check transaction sanity, it should be
-      // fine for us to not have perfectly matching rules, especially since this code will infinite
-      // loop if it can't determine sanity, which is possible with sufficient inputs on
-      // sufficiently small chains
-      if high > 500 {
-        // Make sure the TX passes the sanity check that the median output is within the last 40%
-        let target_median = high * 3 / 5;
-        while ring[ring_len / 2].0 < target_median {
-          // If it's not, update the bottom half with new values to ensure the median only moves up
-          for removed in ring.drain(0 .. (ring_len / 2)).collect::<Vec<_>>() {
-            // If we removed the real spend, add it back
-            if removed.0 == o.0 {
-              ring.push(o);
-            } else {
-              // We could not remove this, saving CPU time and removing low values as
-              // possibilities, yet it'd increase the amount of decoys required to create this
-              // transaction and some removed outputs may be the best option (as we drop the first
-              // half, not just the bottom n)
-              used.remove(&removed.0);
-            }
-          }
-
-          // Select new outputs until we have a full sized ring again
-          ring.extend(
-            select_n(
-              rng,
-              rpc,
-              &distribution,
-              height,
-              high,
-              per_second,
-              &[],
-              &mut used,
-              ring_len - ring.len(),
-            )
-            .await?,
-          );
-          ring.sort_by(|a, b| a.0.cmp(&b.0));
-        }
-
-        // The other sanity check rule is about duplicates, yet we already enforce unique ring
-        // members
-      }
-
-      res.push(Decoys {
-        // Binary searches for the real spend since we don't know where it sorted to
-        i: u8::try_from(ring.partition_point(|x| x.0 < o.0)).unwrap(),
-        offsets: offset(&ring.iter().map(|output| output.0).collect::<Vec<_>>()),
-        ring: ring.iter().map(|output| output.1).collect(),
-      });
-    }
-
-    Ok(res)
-  }
-}

coins/monero/src/wallet/extra.rs

@@ -1,214 +0,0 @@
-use core::ops::BitXor;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use zeroize::Zeroize;
-
-use curve25519_dalek::edwards::EdwardsPoint;
-
-use crate::serialize::{
-  varint_len, read_byte, read_bytes, read_varint, read_point, read_vec, write_byte, write_varint,
-  write_point, write_vec,
-};
-
-pub const MAX_TX_EXTRA_NONCE_SIZE: usize = 255;
-
-pub const PAYMENT_ID_MARKER: u8 = 0;
-pub const ENCRYPTED_PAYMENT_ID_MARKER: u8 = 1;
-// Used as it's the highest value not interpretable as a continued VarInt
-pub const ARBITRARY_DATA_MARKER: u8 = 127;
-
-// 1 byte is used for the marker
-pub const MAX_ARBITRARY_DATA_SIZE: usize = MAX_TX_EXTRA_NONCE_SIZE - 1;
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub enum PaymentId {
-  Unencrypted([u8; 32]),
-  Encrypted([u8; 8]),
-}
-
-impl BitXor<[u8; 8]> for PaymentId {
-  type Output = PaymentId;
-
-  fn bitxor(self, bytes: [u8; 8]) -> PaymentId {
-    match self {
-      // Don't perform the xor since this isn't intended to be encrypted with xor
-      PaymentId::Unencrypted(_) => self,
-      PaymentId::Encrypted(id) => {
-        PaymentId::Encrypted((u64::from_le_bytes(id) ^ u64::from_le_bytes(bytes)).to_le_bytes())
-      }
-    }
-  }
-}
-
-impl PaymentId {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      PaymentId::Unencrypted(id) => {
-        w.write_all(&[PAYMENT_ID_MARKER])?;
-        w.write_all(id)?;
-      }
-      PaymentId::Encrypted(id) => {
-        w.write_all(&[ENCRYPTED_PAYMENT_ID_MARKER])?;
-        w.write_all(id)?;
-      }
-    }
-    Ok(())
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<PaymentId> {
-    Ok(match read_byte(r)? {
-      0 => PaymentId::Unencrypted(read_bytes(r)?),
-      1 => PaymentId::Encrypted(read_bytes(r)?),
-      _ => Err(io::Error::other("unknown payment ID type"))?,
-    })
-  }
-}
-
-// Doesn't bother with padding nor MinerGate
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub enum ExtraField {
-  PublicKey(EdwardsPoint),
-  Nonce(Vec<u8>),
-  MergeMining(usize, [u8; 32]),
-  PublicKeys(Vec<EdwardsPoint>),
-}
-
-impl ExtraField {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    match self {
-      ExtraField::PublicKey(key) => {
-        w.write_all(&[1])?;
-        w.write_all(&key.compress().to_bytes())?;
-      }
-      ExtraField::Nonce(data) => {
-        w.write_all(&[2])?;
-        write_vec(write_byte, data, w)?;
-      }
-      ExtraField::MergeMining(height, merkle) => {
-        w.write_all(&[3])?;
-        write_varint(&u64::try_from(*height).unwrap(), w)?;
-        w.write_all(merkle)?;
-      }
-      ExtraField::PublicKeys(keys) => {
-        w.write_all(&[4])?;
-        write_vec(write_point, keys, w)?;
-      }
-    }
-    Ok(())
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<ExtraField> {
-    Ok(match read_byte(r)? {
-      1 => ExtraField::PublicKey(read_point(r)?),
-      2 => ExtraField::Nonce({
-        let nonce = read_vec(read_byte, r)?;
-        if nonce.len() > MAX_TX_EXTRA_NONCE_SIZE {
-          Err(io::Error::other("too long nonce"))?;
-        }
-        nonce
-      }),
-      3 => ExtraField::MergeMining(read_varint(r)?, read_bytes(r)?),
-      4 => ExtraField::PublicKeys(read_vec(read_point, r)?),
-      _ => Err(io::Error::other("unknown extra field"))?,
-    })
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub struct Extra(Vec<ExtraField>);
-impl Extra {
-  pub fn keys(&self) -> Option<(EdwardsPoint, Option<Vec<EdwardsPoint>>)> {
-    let mut key = None;
-    let mut additional = None;
-    for field in &self.0 {
-      match field.clone() {
-        ExtraField::PublicKey(this_key) => key = key.or(Some(this_key)),
-        ExtraField::PublicKeys(these_additional) => {
-          additional = additional.or(Some(these_additional))
-        }
-        _ => (),
-      }
-    }
-    // Don't return any keys if this was non-standard and didn't include the primary key
-    key.map(|key| (key, additional))
-  }
-
-  pub fn payment_id(&self) -> Option<PaymentId> {
-    for field in &self.0 {
-      if let ExtraField::Nonce(data) = field {
-        return PaymentId::read::<&[u8]>(&mut data.as_ref()).ok();
-      }
-    }
-    None
-  }
-
-  pub fn data(&self) -> Vec<Vec<u8>> {
-    let mut res = vec![];
-    for field in &self.0 {
-      if let ExtraField::Nonce(data) = field {
-        if data[0] == ARBITRARY_DATA_MARKER {
-          res.push(data[1 ..].to_vec());
-        }
-      }
-    }
-    res
-  }
-
-  pub(crate) fn new(key: EdwardsPoint, additional: Vec<EdwardsPoint>) -> Extra {
-    let mut res = Extra(Vec::with_capacity(3));
-    res.push(ExtraField::PublicKey(key));
-    if !additional.is_empty() {
-      res.push(ExtraField::PublicKeys(additional));
-    }
-    res
-  }
-
-  pub(crate) fn push(&mut self, field: ExtraField) {
-    self.0.push(field);
-  }
-
-  #[rustfmt::skip]
-  pub(crate) fn fee_weight(
-    outputs: usize,
-    additional: bool,
-    payment_id: bool,
-    data: &[Vec<u8>]
-  ) -> usize {
-    // PublicKey, key
-    (1 + 32) +
-    // PublicKeys, length, additional keys
-    (if additional { 1 + 1 + (outputs * 32) } else { 0 }) +
-    // PaymentId (Nonce), length, encrypted, ID
-    (if payment_id { 1 + 1 + 1 + 8 } else { 0 }) +
-    // Nonce, length, ARBITRARY_DATA_MARKER, data
-    data.iter().map(|v| 1 + varint_len(1 + v.len()) + 1 + v.len()).sum::<usize>()
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    for field in &self.0 {
-      field.write(w)?;
-    }
-    Ok(())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut buf = vec![];
-    self.write(&mut buf).unwrap();
-    buf
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Extra> {
-    let mut res = Extra(vec![]);
-    let mut field;
-    while {
-      field = ExtraField::read(r);
-      field.is_ok()
-    } {
-      res.0.push(field.unwrap());
-    }
-    Ok(res)
-  }
-}

coins/monero/src/wallet/mod.rs

@@ -1,268 +0,0 @@
-use core::ops::Deref;
-use std_shims::collections::{HashSet, HashMap};
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-
-use curve25519_dalek::{
-  constants::ED25519_BASEPOINT_TABLE,
-  scalar::Scalar,
-  edwards::{EdwardsPoint, CompressedEdwardsY},
-};
-
-use crate::{
-  hash, hash_to_scalar, serialize::write_varint, ringct::EncryptedAmount, transaction::Input,
-};
-
-pub mod extra;
-pub(crate) use extra::{PaymentId, ExtraField, Extra};
-
-/// Seed creation and parsing functionality.
-pub mod seed;
-
-/// Address encoding and decoding functionality.
-pub mod address;
-use address::{Network, AddressType, SubaddressIndex, AddressSpec, AddressMeta, MoneroAddress};
-
-mod scan;
-pub use scan::{ReceivedOutput, SpendableOutput, Timelocked};
-
-pub mod decoys;
-pub use decoys::Decoys;
-
-mod send;
-pub use send::{FeePriority, Fee, TransactionError, Change, SignableTransaction, Eventuality};
-#[cfg(feature = "std")]
-pub use send::SignableTransactionBuilder;
-#[cfg(feature = "multisig")]
-pub(crate) use send::InternalPayment;
-#[cfg(feature = "multisig")]
-pub use send::TransactionMachine;
-
-fn key_image_sort(x: &EdwardsPoint, y: &EdwardsPoint) -> core::cmp::Ordering {
-  x.compress().to_bytes().cmp(&y.compress().to_bytes()).reverse()
-}
-
-// https://gist.github.com/kayabaNerve/8066c13f1fe1573286ba7a2fd79f6100
-pub(crate) fn uniqueness(inputs: &[Input]) -> [u8; 32] {
-  let mut u = b"uniqueness".to_vec();
-  for input in inputs {
-    match input {
-      // If Gen, this should be the only input, making this loop somewhat pointless
-      // This works and even if there were somehow multiple inputs, it'd be a false negative
-      Input::Gen(height) => {
-        write_varint(height, &mut u).unwrap();
-      }
-      Input::ToKey { key_image, .. } => u.extend(key_image.compress().to_bytes()),
-    }
-  }
-  hash(&u)
-}
-
-// Hs("view_tag" || 8Ra || o), Hs(8Ra || o), and H(8Ra || 0x8d) with uniqueness inclusion in the
-// Scalar as an option
-#[allow(non_snake_case)]
-pub(crate) fn shared_key(
-  uniqueness: Option<[u8; 32]>,
-  ecdh: EdwardsPoint,
-  o: usize,
-) -> (u8, Scalar, [u8; 8]) {
-  // 8Ra
-  let mut output_derivation = ecdh.mul_by_cofactor().compress().to_bytes().to_vec();
-
-  let mut payment_id_xor = [0; 8];
-  payment_id_xor
-    .copy_from_slice(&hash(&[output_derivation.as_ref(), [0x8d].as_ref()].concat())[.. 8]);
-
-  // || o
-  write_varint(&o, &mut output_derivation).unwrap();
-
-  let view_tag = hash(&[b"view_tag".as_ref(), &output_derivation].concat())[0];
-
-  // uniqueness ||
-  let shared_key = if let Some(uniqueness) = uniqueness {
-    [uniqueness.as_ref(), &output_derivation].concat().to_vec()
-  } else {
-    output_derivation
-  };
-
-  (view_tag, hash_to_scalar(&shared_key), payment_id_xor)
-}
-
-pub(crate) fn commitment_mask(shared_key: Scalar) -> Scalar {
-  let mut mask = b"commitment_mask".to_vec();
-  mask.extend(shared_key.to_bytes());
-  hash_to_scalar(&mask)
-}
-
-pub(crate) fn amount_encryption(amount: u64, key: Scalar) -> [u8; 8] {
-  let mut amount_mask = b"amount".to_vec();
-  amount_mask.extend(key.to_bytes());
-  (amount ^ u64::from_le_bytes(hash(&amount_mask)[.. 8].try_into().unwrap())).to_le_bytes()
-}
-
-// TODO: Move this under EncryptedAmount?
-fn amount_decryption(amount: &EncryptedAmount, key: Scalar) -> (Scalar, u64) {
-  match amount {
-    EncryptedAmount::Original { mask, amount } => {
-      #[cfg(feature = "experimental")]
-      {
-        let mask_shared_sec = hash(key.as_bytes());
-        let mask =
-          Scalar::from_bytes_mod_order(*mask) - Scalar::from_bytes_mod_order(mask_shared_sec);
-
-        let amount_shared_sec = hash(&mask_shared_sec);
-        let amount_scalar =
-          Scalar::from_bytes_mod_order(*amount) - Scalar::from_bytes_mod_order(amount_shared_sec);
-        // d2b from rctTypes.cpp
-        let amount = u64::from_le_bytes(amount_scalar.to_bytes()[0 .. 8].try_into().unwrap());
-
-        (mask, amount)
-      }
-
-      #[cfg(not(feature = "experimental"))]
-      {
-        let _ = mask;
-        let _ = amount;
-        todo!("decrypting a legacy monero transaction's amount")
-      }
-    }
-    EncryptedAmount::Compact { amount } => (
-      commitment_mask(key),
-      u64::from_le_bytes(amount_encryption(u64::from_le_bytes(*amount), key)),
-    ),
-  }
-}
-
-/// The private view key and public spend key, enabling scanning transactions.
-#[derive(Clone, Zeroize, ZeroizeOnDrop)]
-pub struct ViewPair {
-  spend: EdwardsPoint,
-  view: Zeroizing<Scalar>,
-}
-
-impl ViewPair {
-  pub fn new(spend: EdwardsPoint, view: Zeroizing<Scalar>) -> ViewPair {
-    ViewPair { spend, view }
-  }
-
-  pub fn spend(&self) -> EdwardsPoint {
-    self.spend
-  }
-
-  pub fn view(&self) -> EdwardsPoint {
-    self.view.deref() * ED25519_BASEPOINT_TABLE
-  }
-
-  fn subaddress_derivation(&self, index: SubaddressIndex) -> Scalar {
-    hash_to_scalar(&Zeroizing::new(
-      [
-        b"SubAddr\0".as_ref(),
-        Zeroizing::new(self.view.to_bytes()).as_ref(),
-        &index.account().to_le_bytes(),
-        &index.address().to_le_bytes(),
-      ]
-      .concat(),
-    ))
-  }
-
-  fn subaddress_keys(&self, index: SubaddressIndex) -> (EdwardsPoint, EdwardsPoint) {
-    let scalar = self.subaddress_derivation(index);
-    let spend = self.spend + (&scalar * ED25519_BASEPOINT_TABLE);
-    let view = self.view.deref() * spend;
-    (spend, view)
-  }
-
-  /// Returns an address with the provided specification.
-  pub fn address(&self, network: Network, spec: AddressSpec) -> MoneroAddress {
-    let mut spend = self.spend;
-    let mut view: EdwardsPoint = self.view.deref() * ED25519_BASEPOINT_TABLE;
-
-    // construct the address meta
-    let meta = match spec {
-      AddressSpec::Standard => AddressMeta::new(network, AddressType::Standard),
-      AddressSpec::Integrated(payment_id) => {
-        AddressMeta::new(network, AddressType::Integrated(payment_id))
-      }
-      AddressSpec::Subaddress(index) => {
-        (spend, view) = self.subaddress_keys(index);
-        AddressMeta::new(network, AddressType::Subaddress)
-      }
-      AddressSpec::Featured { subaddress, payment_id, guaranteed } => {
-        if let Some(index) = subaddress {
-          (spend, view) = self.subaddress_keys(index);
-        }
-        AddressMeta::new(
-          network,
-          AddressType::Featured { subaddress: subaddress.is_some(), payment_id, guaranteed },
-        )
-      }
-    };
-
-    MoneroAddress::new(meta, spend, view)
-  }
-}
-
-/// Transaction scanner.
-/// This scanner is capable of generating subaddresses, additionally scanning for them once they've
-/// been explicitly generated. If the burning bug is attempted, any secondary outputs will be
-/// ignored.
-#[derive(Clone)]
-pub struct Scanner {
-  pair: ViewPair,
-  // Also contains the spend key as None
-  pub(crate) subaddresses: HashMap<CompressedEdwardsY, Option<SubaddressIndex>>,
-  pub(crate) burning_bug: Option<HashSet<CompressedEdwardsY>>,
-}
-
-impl Zeroize for Scanner {
-  fn zeroize(&mut self) {
-    self.pair.zeroize();
-
-    // These may not be effective, unfortunately
-    for (mut key, mut value) in self.subaddresses.drain() {
-      key.zeroize();
-      value.zeroize();
-    }
-    if let Some(ref mut burning_bug) = self.burning_bug.take() {
-      for mut output in burning_bug.drain() {
-        output.zeroize();
-      }
-    }
-  }
-}
-
-impl Drop for Scanner {
-  fn drop(&mut self) {
-    self.zeroize();
-  }
-}
-
-impl ZeroizeOnDrop for Scanner {}
-
-impl Scanner {
-  /// Create a Scanner from a ViewPair.
-  ///
-  /// burning_bug is a HashSet of used keys, intended to prevent key reuse which would burn funds.
-  ///
-  /// When an output is successfully scanned, the output key MUST be saved to disk.
-  ///
-  /// When a new scanner is created, ALL saved output keys must be passed in to be secure.
-  ///
-  /// If None is passed, a modified shared key derivation is used which is immune to the burning
-  /// bug (specifically the Guaranteed feature from Featured Addresses).
-  pub fn from_view(pair: ViewPair, burning_bug: Option<HashSet<CompressedEdwardsY>>) -> Scanner {
-    let mut subaddresses = HashMap::new();
-    subaddresses.insert(pair.spend.compress(), None);
-    Scanner { pair, subaddresses, burning_bug }
-  }
-
-  /// Register a subaddress.
-  // There used to be an address function here, yet it wasn't safe. It could generate addresses
-  // incompatible with the Scanner. While we could return None for that, then we have the issue
-  // of runtime failures to generate an address.
-  // Removing that API was the simplest option.
-  pub fn register_subaddress(&mut self, subaddress: SubaddressIndex) {
-    let (spend, _) = self.pair.subaddress_keys(subaddress);
-    self.subaddresses.insert(spend.compress(), Some(subaddress));
-  }
-}

coins/monero/src/wallet/scan.rs

@@ -1,506 +0,0 @@
-use core::ops::Deref;
-use std_shims::{
-  vec::Vec,
-  io::{self, Read, Write},
-};
-
-use zeroize::{Zeroize, ZeroizeOnDrop};
-
-use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar, edwards::EdwardsPoint};
-
-use crate::{
-  Commitment,
-  serialize::{read_byte, read_u32, read_u64, read_bytes, read_scalar, read_point, read_raw_vec},
-  transaction::{Input, Timelock, Transaction},
-  block::Block,
-  rpc::{RpcError, RpcConnection, Rpc},
-  wallet::{
-    PaymentId, Extra, address::SubaddressIndex, Scanner, uniqueness, shared_key, amount_decryption,
-  },
-};
-
-/// An absolute output ID, defined as its transaction hash and output index.
-#[derive(Clone, PartialEq, Eq, Zeroize, ZeroizeOnDrop)]
-pub struct AbsoluteId {
-  pub tx: [u8; 32],
-  pub o: u8,
-}
-
-impl core::fmt::Debug for AbsoluteId {
-  fn fmt(&self, fmt: &mut core::fmt::Formatter<'_>) -> Result<(), core::fmt::Error> {
-    fmt.debug_struct("AbsoluteId").field("tx", &hex::encode(self.tx)).field("o", &self.o).finish()
-  }
-}
-
-impl AbsoluteId {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    w.write_all(&self.tx)?;
-    w.write_all(&[self.o])
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = Vec::with_capacity(32 + 1);
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<AbsoluteId> {
-    Ok(AbsoluteId { tx: read_bytes(r)?, o: read_byte(r)? })
-  }
-}
-
-/// The data contained with an output.
-#[derive(Clone, PartialEq, Eq, Zeroize, ZeroizeOnDrop)]
-pub struct OutputData {
-  pub key: EdwardsPoint,
-  /// Absolute difference between the spend key and the key in this output
-  pub key_offset: Scalar,
-  pub commitment: Commitment,
-}
-
-impl core::fmt::Debug for OutputData {
-  fn fmt(&self, fmt: &mut core::fmt::Formatter<'_>) -> Result<(), core::fmt::Error> {
-    fmt
-      .debug_struct("OutputData")
-      .field("key", &hex::encode(self.key.compress().0))
-      .field("key_offset", &hex::encode(self.key_offset.to_bytes()))
-      .field("commitment", &self.commitment)
-      .finish()
-  }
-}
-
-impl OutputData {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    w.write_all(&self.key.compress().to_bytes())?;
-    w.write_all(&self.key_offset.to_bytes())?;
-    w.write_all(&self.commitment.mask.to_bytes())?;
-    w.write_all(&self.commitment.amount.to_le_bytes())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = Vec::with_capacity(32 + 32 + 32 + 8);
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<OutputData> {
-    Ok(OutputData {
-      key: read_point(r)?,
-      key_offset: read_scalar(r)?,
-      commitment: Commitment::new(read_scalar(r)?, read_u64(r)?),
-    })
-  }
-}
-
-/// The metadata for an output.
-#[derive(Clone, PartialEq, Eq, Zeroize, ZeroizeOnDrop)]
-pub struct Metadata {
-  /// The subaddress this output was sent to.
-  pub subaddress: Option<SubaddressIndex>,
-  /// The payment ID included with this output.
-  /// This will be gibberish if the payment ID wasn't intended for the recipient or wasn't included.
-  // Could be an Option, as extra doesn't necessarily have a payment ID, yet all Monero TXs should
-  // have this making it simplest for it to be as-is.
-  pub payment_id: [u8; 8],
-  /// Arbitrary data encoded in TX extra.
-  pub arbitrary_data: Vec<Vec<u8>>,
-}
-
-impl core::fmt::Debug for Metadata {
-  fn fmt(&self, fmt: &mut core::fmt::Formatter<'_>) -> Result<(), core::fmt::Error> {
-    fmt
-      .debug_struct("Metadata")
-      .field("subaddress", &self.subaddress)
-      .field("payment_id", &hex::encode(self.payment_id))
-      .field("arbitrary_data", &self.arbitrary_data.iter().map(hex::encode).collect::<Vec<_>>())
-      .finish()
-  }
-}
-
-impl Metadata {
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    if let Some(subaddress) = self.subaddress {
-      w.write_all(&[1])?;
-      w.write_all(&subaddress.account().to_le_bytes())?;
-      w.write_all(&subaddress.address().to_le_bytes())?;
-    } else {
-      w.write_all(&[0])?;
-    }
-    w.write_all(&self.payment_id)?;
-
-    w.write_all(&u32::try_from(self.arbitrary_data.len()).unwrap().to_le_bytes())?;
-    for part in &self.arbitrary_data {
-      w.write_all(&[u8::try_from(part.len()).unwrap()])?;
-      w.write_all(part)?;
-    }
-    Ok(())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = Vec::with_capacity(1 + 8 + 1);
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<Metadata> {
-    let subaddress = if read_byte(r)? == 1 {
-      Some(
-        SubaddressIndex::new(read_u32(r)?, read_u32(r)?)
-          .ok_or_else(|| io::Error::other("invalid subaddress in metadata"))?,
-      )
-    } else {
-      None
-    };
-
-    Ok(Metadata {
-      subaddress,
-      payment_id: read_bytes(r)?,
-      arbitrary_data: {
-        let mut data = vec![];
-        for _ in 0 .. read_u32(r)? {
-          let len = read_byte(r)?;
-          data.push(read_raw_vec(read_byte, usize::from(len), r)?);
-        }
-        data
-      },
-    })
-  }
-}
-
-/// A received output, defined as its absolute ID, data, and metadara.
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct ReceivedOutput {
-  pub absolute: AbsoluteId,
-  pub data: OutputData,
-  pub metadata: Metadata,
-}
-
-impl ReceivedOutput {
-  pub fn key(&self) -> EdwardsPoint {
-    self.data.key
-  }
-
-  pub fn key_offset(&self) -> Scalar {
-    self.data.key_offset
-  }
-
-  pub fn commitment(&self) -> Commitment {
-    self.data.commitment.clone()
-  }
-
-  pub fn arbitrary_data(&self) -> &[Vec<u8>] {
-    &self.metadata.arbitrary_data
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.absolute.write(w)?;
-    self.data.write(w)?;
-    self.metadata.write(w)
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<ReceivedOutput> {
-    Ok(ReceivedOutput {
-      absolute: AbsoluteId::read(r)?,
-      data: OutputData::read(r)?,
-      metadata: Metadata::read(r)?,
-    })
-  }
-}
-
-/// A spendable output, defined as a received output and its index on the Monero blockchain.
-/// This index is dependent on the Monero blockchain and will only be known once the output is
-/// included within a block. This may change if there's a reorganization.
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct SpendableOutput {
-  pub output: ReceivedOutput,
-  pub global_index: u64,
-}
-
-impl SpendableOutput {
-  /// Update the spendable output's global index. This is intended to be called if a
-  /// re-organization occurred.
-  pub async fn refresh_global_index<RPC: RpcConnection>(
-    &mut self,
-    rpc: &Rpc<RPC>,
-  ) -> Result<(), RpcError> {
-    self.global_index = *rpc
-      .get_o_indexes(self.output.absolute.tx)
-      .await?
-      .get(usize::from(self.output.absolute.o))
-      .ok_or(RpcError::InvalidNode(
-        "node returned output indexes didn't include an index for this output",
-      ))?;
-    Ok(())
-  }
-
-  pub async fn from<RPC: RpcConnection>(
-    rpc: &Rpc<RPC>,
-    output: ReceivedOutput,
-  ) -> Result<SpendableOutput, RpcError> {
-    let mut output = SpendableOutput { output, global_index: 0 };
-    output.refresh_global_index(rpc).await?;
-    Ok(output)
-  }
-
-  pub fn key(&self) -> EdwardsPoint {
-    self.output.key()
-  }
-
-  pub fn key_offset(&self) -> Scalar {
-    self.output.key_offset()
-  }
-
-  pub fn commitment(&self) -> Commitment {
-    self.output.commitment()
-  }
-
-  pub fn arbitrary_data(&self) -> &[Vec<u8>] {
-    self.output.arbitrary_data()
-  }
-
-  pub fn write<W: Write>(&self, w: &mut W) -> io::Result<()> {
-    self.output.write(w)?;
-    w.write_all(&self.global_index.to_le_bytes())
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut serialized = vec![];
-    self.write(&mut serialized).unwrap();
-    serialized
-  }
-
-  pub fn read<R: Read>(r: &mut R) -> io::Result<SpendableOutput> {
-    Ok(SpendableOutput { output: ReceivedOutput::read(r)?, global_index: read_u64(r)? })
-  }
-}
-
-/// A collection of timelocked outputs, either received or spendable.
-#[derive(Zeroize)]
-pub struct Timelocked<O: Clone + Zeroize>(Timelock, Vec<O>);
-impl<O: Clone + Zeroize> Drop for Timelocked<O> {
-  fn drop(&mut self) {
-    self.zeroize();
-  }
-}
-impl<O: Clone + Zeroize> ZeroizeOnDrop for Timelocked<O> {}
-
-impl<O: Clone + Zeroize> Timelocked<O> {
-  pub fn timelock(&self) -> Timelock {
-    self.0
-  }
-
-  /// Return the outputs if they're not timelocked, or an empty vector if they are.
-  #[must_use]
-  pub fn not_locked(&self) -> Vec<O> {
-    if self.0 == Timelock::None {
-      return self.1.clone();
-    }
-    vec![]
-  }
-
-  /// Returns None if the Timelocks aren't comparable. Returns Some(vec![]) if none are unlocked.
-  #[must_use]
-  pub fn unlocked(&self, timelock: Timelock) -> Option<Vec<O>> {
-    // If the Timelocks are comparable, return the outputs if they're now unlocked
-    if self.0 <= timelock {
-      Some(self.1.clone())
-    } else {
-      None
-    }
-  }
-
-  #[must_use]
-  pub fn ignore_timelock(&self) -> Vec<O> {
-    self.1.clone()
-  }
-}
-
-impl Scanner {
-  /// Scan a transaction to discover the received outputs.
-  pub fn scan_transaction(&mut self, tx: &Transaction) -> Timelocked<ReceivedOutput> {
-    // Only scan RCT TXs since we can only spend RCT outputs
-    if tx.prefix.version != 2 {
-      return Timelocked(tx.prefix.timelock, vec![]);
-    }
-
-    let Ok(extra) = Extra::read::<&[u8]>(&mut tx.prefix.extra.as_ref()) else {
-      return Timelocked(tx.prefix.timelock, vec![]);
-    };
-
-    let Some((tx_key, additional)) = extra.keys() else {
-      return Timelocked(tx.prefix.timelock, vec![]);
-    };
-
-    let payment_id = extra.payment_id();
-
-    let mut res = vec![];
-    for (o, output) in tx.prefix.outputs.iter().enumerate() {
-      // https://github.com/serai-dex/serai/issues/106
-      if let Some(burning_bug) = self.burning_bug.as_ref() {
-        if burning_bug.contains(&output.key) {
-          continue;
-        }
-      }
-
-      let output_key = output.key.decompress();
-      if output_key.is_none() {
-        continue;
-      }
-      let output_key = output_key.unwrap();
-
-      for key in [Some(Some(&tx_key)), additional.as_ref().map(|additional| additional.get(o))] {
-        let key = if let Some(Some(key)) = key {
-          key
-        } else if let Some(None) = key {
-          // This is non-standard. There were additional keys, yet not one for this output
-          // https://github.com/monero-project/monero/
-          //   blob/04a1e2875d6e35e27bb21497988a6c822d319c28/
-          //   src/cryptonote_basic/cryptonote_format_utils.cpp#L1062
-          // TODO: Should this return? Where does Monero set the trap handler for this exception?
-          continue;
-        } else {
-          break;
-        };
-        let (view_tag, shared_key, payment_id_xor) = shared_key(
-          if self.burning_bug.is_none() { Some(uniqueness(&tx.prefix.inputs)) } else { None },
-          self.pair.view.deref() * key,
-          o,
-        );
-
-        let payment_id =
-          if let Some(PaymentId::Encrypted(id)) = payment_id.map(|id| id ^ payment_id_xor) {
-            id
-          } else {
-            payment_id_xor
-          };
-
-        if let Some(actual_view_tag) = output.view_tag {
-          if actual_view_tag != view_tag {
-            continue;
-          }
-        }
-
-        // P - shared == spend
-        let subaddress =
-          self.subaddresses.get(&(output_key - (&shared_key * ED25519_BASEPOINT_TABLE)).compress());
-        if subaddress.is_none() {
-          continue;
-        }
-        let subaddress = *subaddress.unwrap();
-
-        // If it has torsion, it'll substract the non-torsioned shared key to a torsioned key
-        // We will not have a torsioned key in our HashMap of keys, so we wouldn't identify it as
-        // ours
-        // If we did though, it'd enable bypassing the included burning bug protection
-        assert!(output_key.is_torsion_free());
-
-        let mut key_offset = shared_key;
-        if let Some(subaddress) = subaddress {
-          key_offset += self.pair.subaddress_derivation(subaddress);
-        }
-        // Since we've found an output to us, get its amount
-        let mut commitment = Commitment::zero();
-
-        // Miner transaction
-        if let Some(amount) = output.amount {
-          commitment.amount = amount;
-        // Regular transaction
-        } else {
-          let (mask, amount) = match tx.rct_signatures.base.encrypted_amounts.get(o) {
-            Some(amount) => amount_decryption(amount, shared_key),
-            // This should never happen, yet it may be possible with miner transactions?
-            // Using get just decreases the possibility of a panic and lets us move on in that case
-            None => break,
-          };
-
-          // Rebuild the commitment to verify it
-          commitment = Commitment::new(mask, amount);
-          // If this is a malicious commitment, move to the next output
-          // Any other R value will calculate to a different spend key and are therefore ignorable
-          if Some(&commitment.calculate()) != tx.rct_signatures.base.commitments.get(o) {
-            break;
-          }
-        }
-
-        if commitment.amount != 0 {
-          res.push(ReceivedOutput {
-            absolute: AbsoluteId { tx: tx.hash(), o: o.try_into().unwrap() },
-
-            data: OutputData { key: output_key, key_offset, commitment },
-
-            metadata: Metadata { subaddress, payment_id, arbitrary_data: extra.data() },
-          });
-
-          if let Some(burning_bug) = self.burning_bug.as_mut() {
-            burning_bug.insert(output.key);
-          }
-        }
-        // Break to prevent public keys from being included multiple times, triggering multiple
-        // inclusions of the same output
-        break;
-      }
-    }
-
-    Timelocked(tx.prefix.timelock, res)
-  }
-
-  /// Scan a block to obtain its spendable outputs. Its the presence in a block giving these
-  /// transactions their global index, and this must be batched as asking for the index of specific
-  /// transactions is a dead giveaway for which transactions you successfully scanned. This
-  /// function obtains the output indexes for the miner transaction, incrementing from there
-  /// instead.
-  pub async fn scan<RPC: RpcConnection>(
-    &mut self,
-    rpc: &Rpc<RPC>,
-    block: &Block,
-  ) -> Result<Vec<Timelocked<SpendableOutput>>, RpcError> {
-    let mut index = rpc.get_o_indexes(block.miner_tx.hash()).await?[0];
-    let mut txs = vec![block.miner_tx.clone()];
-    txs.extend(rpc.get_transactions(&block.txs).await?);
-
-    let map = |mut timelock: Timelocked<ReceivedOutput>, index| {
-      if timelock.1.is_empty() {
-        None
-      } else {
-        Some(Timelocked(
-          timelock.0,
-          timelock
-            .1
-            .drain(..)
-            .map(|output| SpendableOutput {
-              global_index: index + u64::from(output.absolute.o),
-              output,
-            })
-            .collect(),
-        ))
-      }
-    };
-
-    let mut res = vec![];
-    for tx in txs {
-      if let Some(timelock) = map(self.scan_transaction(&tx), index) {
-        res.push(timelock);
-      }
-      index += u64::try_from(
-        tx.prefix
-          .outputs
-          .iter()
-          // Filter to v2 miner TX outputs/RCT outputs since we're tracking the RCT output index
-          .filter(|output| {
-            let is_v2_miner_tx =
-              (tx.prefix.version == 2) && matches!(tx.prefix.inputs.first(), Some(Input::Gen(..)));
-            is_v2_miner_tx || output.amount.is_none()
-          })
-          .count(),
-      )
-      .unwrap()
-    }
-    Ok(res)
-  }
-}

coins/monero/src/wallet/seed/classic.rs

@@ -1,312 +0,0 @@
-use core::ops::Deref;
-use std_shims::{
-  sync::OnceLock,
-  vec::Vec,
-  string::{String, ToString},
-  collections::HashMap,
-};
-
-use zeroize::{Zeroize, Zeroizing};
-use rand_core::{RngCore, CryptoRng};
-
-use curve25519_dalek::scalar::Scalar;
-
-use crate::{random_scalar, wallet::seed::SeedError};
-
-pub(crate) const CLASSIC_SEED_LENGTH: usize = 24;
-pub(crate) const CLASSIC_SEED_LENGTH_WITH_CHECKSUM: usize = 25;
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Hash)]
-pub enum Language {
-  Chinese,
-  English,
-  Dutch,
-  French,
-  Spanish,
-  German,
-  Italian,
-  Portuguese,
-  Japanese,
-  Russian,
-  Esperanto,
-  Lojban,
-  EnglishOld,
-}
-
-fn trim(word: &str, len: usize) -> Zeroizing<String> {
-  Zeroizing::new(word.chars().take(len).collect())
-}
-
-struct WordList {
-  word_list: Vec<&'static str>,
-  word_map: HashMap<&'static str, usize>,
-  trimmed_word_map: HashMap<String, usize>,
-  unique_prefix_length: usize,
-}
-
-impl WordList {
-  fn new(word_list: Vec<&'static str>, prefix_length: usize) -> WordList {
-    let mut lang = WordList {
-      word_list,
-      word_map: HashMap::new(),
-      trimmed_word_map: HashMap::new(),
-      unique_prefix_length: prefix_length,
-    };
-
-    for (i, word) in lang.word_list.iter().enumerate() {
-      lang.word_map.insert(word, i);
-      lang.trimmed_word_map.insert(trim(word, lang.unique_prefix_length).deref().clone(), i);
-    }
-
-    lang
-  }
-}
-
-static LANGUAGES_CELL: OnceLock<HashMap<Language, WordList>> = OnceLock::new();
-#[allow(non_snake_case)]
-fn LANGUAGES() -> &'static HashMap<Language, WordList> {
-  LANGUAGES_CELL.get_or_init(|| {
-    HashMap::from([
-      (Language::Chinese, WordList::new(include!("./classic/zh.rs"), 1)),
-      (Language::English, WordList::new(include!("./classic/en.rs"), 3)),
-      (Language::Dutch, WordList::new(include!("./classic/nl.rs"), 4)),
-      (Language::French, WordList::new(include!("./classic/fr.rs"), 4)),
-      (Language::Spanish, WordList::new(include!("./classic/es.rs"), 4)),
-      (Language::German, WordList::new(include!("./classic/de.rs"), 4)),
-      (Language::Italian, WordList::new(include!("./classic/it.rs"), 4)),
-      (Language::Portuguese, WordList::new(include!("./classic/pt.rs"), 4)),
-      (Language::Japanese, WordList::new(include!("./classic/ja.rs"), 3)),
-      (Language::Russian, WordList::new(include!("./classic/ru.rs"), 4)),
-      (Language::Esperanto, WordList::new(include!("./classic/eo.rs"), 4)),
-      (Language::Lojban, WordList::new(include!("./classic/jbo.rs"), 4)),
-      (Language::EnglishOld, WordList::new(include!("./classic/ang.rs"), 4)),
-    ])
-  })
-}
-
-#[cfg(test)]
-pub(crate) fn trim_by_lang(word: &str, lang: Language) -> String {
-  if lang != Language::EnglishOld {
-    word.chars().take(LANGUAGES()[&lang].unique_prefix_length).collect()
-  } else {
-    word.to_string()
-  }
-}
-
-fn checksum_index(words: &[Zeroizing<String>], lang: &WordList) -> usize {
-  let mut trimmed_words = Zeroizing::new(String::new());
-  for w in words {
-    *trimmed_words += &trim(w, lang.unique_prefix_length);
-  }
-
-  const fn crc32_table() -> [u32; 256] {
-    let poly = 0xedb88320u32;
-
-    let mut res = [0; 256];
-    let mut i = 0;
-    while i < 256 {
-      let mut entry = i;
-      let mut b = 0;
-      while b < 8 {
-        let trigger = entry & 1;
-        entry >>= 1;
-        if trigger == 1 {
-          entry ^= poly;
-        }
-        b += 1;
-      }
-      res[i as usize] = entry;
-      i += 1;
-    }
-
-    res
-  }
-  const CRC32_TABLE: [u32; 256] = crc32_table();
-
-  let trimmed_words = trimmed_words.as_bytes();
-  let mut checksum = u32::MAX;
-  for i in 0 .. trimmed_words.len() {
-    checksum = CRC32_TABLE[usize::from(u8::try_from(checksum % 256).unwrap() ^ trimmed_words[i])] ^
-      (checksum >> 8);
-  }
-
-  usize::try_from(!checksum).unwrap() % words.len()
-}
-
-// Convert a private key to a seed
-fn key_to_seed(lang: Language, key: Zeroizing<Scalar>) -> ClassicSeed {
-  let bytes = Zeroizing::new(key.to_bytes());
-
-  // get the language words
-  let words = &LANGUAGES()[&lang].word_list;
-  let list_len = u64::try_from(words.len()).unwrap();
-
-  // To store the found words & add the checksum word later.
-  let mut seed = Vec::with_capacity(25);
-
-  // convert to words
-  // 4 bytes -> 3 words. 8 digits base 16 -> 3 digits base 1626
-  let mut segment = [0; 4];
-  let mut indices = [0; 4];
-  for i in 0 .. 8 {
-    // convert first 4 byte to u32 & get the word indices
-    let start = i * 4;
-    // convert 4 byte to u32
-    segment.copy_from_slice(&bytes[start .. (start + 4)]);
-    // Actually convert to a u64 so we can add without overflowing
-    indices[0] = u64::from(u32::from_le_bytes(segment));
-    indices[1] = indices[0];
-    indices[0] /= list_len;
-    indices[2] = indices[0] + indices[1];
-    indices[0] /= list_len;
-    indices[3] = indices[0] + indices[2];
-
-    // append words to seed
-    for i in indices.iter().skip(1) {
-      let word = usize::try_from(i % list_len).unwrap();
-      seed.push(Zeroizing::new(words[word].to_string()));
-    }
-  }
-  segment.zeroize();
-  indices.zeroize();
-
-  // create a checksum word for all languages except old english
-  if lang != Language::EnglishOld {
-    let checksum = seed[checksum_index(&seed, &LANGUAGES()[&lang])].clone();
-    seed.push(checksum);
-  }
-
-  let mut res = Zeroizing::new(String::new());
-  for (i, word) in seed.iter().enumerate() {
-    if i != 0 {
-      *res += " ";
-    }
-    *res += word;
-  }
-  ClassicSeed(res)
-}
-
-// Convert a seed to bytes
-pub(crate) fn seed_to_bytes(words: &str) -> Result<(Language, Zeroizing<[u8; 32]>), SeedError> {
-  // get seed words
-  let words = words.split_whitespace().map(|w| Zeroizing::new(w.to_string())).collect::<Vec<_>>();
-  if (words.len() != CLASSIC_SEED_LENGTH) && (words.len() != CLASSIC_SEED_LENGTH_WITH_CHECKSUM) {
-    panic!("invalid seed passed to seed_to_bytes");
-  }
-
-  // find the language
-  let (matched_indices, lang_name, lang) = (|| {
-    let has_checksum = words.len() == CLASSIC_SEED_LENGTH_WITH_CHECKSUM;
-    let mut matched_indices = Zeroizing::new(vec![]);
-
-    // Iterate through all the languages
-    'language: for (lang_name, lang) in LANGUAGES().iter() {
-      matched_indices.zeroize();
-      matched_indices.clear();
-
-      // Iterate through all the words and see if they're all present
-      for word in &words {
-        let trimmed = trim(word, lang.unique_prefix_length);
-        let word = if has_checksum { &trimmed } else { word };
-
-        if let Some(index) = if has_checksum {
-          lang.trimmed_word_map.get(word.deref())
-        } else {
-          lang.word_map.get(&word.as_str())
-        } {
-          matched_indices.push(*index);
-        } else {
-          continue 'language;
-        }
-      }
-
-      if has_checksum {
-        if lang_name == &Language::EnglishOld {
-          Err(SeedError::EnglishOldWithChecksum)?;
-        }
-
-        // exclude the last word when calculating a checksum.
-        let last_word = words.last().unwrap().clone();
-        let checksum = words[checksum_index(&words[.. words.len() - 1], lang)].clone();
-
-        // check the trimmed checksum and trimmed last word line up
-        if trim(&checksum, lang.unique_prefix_length) != trim(&last_word, lang.unique_prefix_length)
-        {
-          Err(SeedError::InvalidChecksum)?;
-        }
-      }
-
-      return Ok((matched_indices, lang_name, lang));
-    }
-
-    Err(SeedError::UnknownLanguage)?
-  })()?;
-
-  // convert to bytes
-  let mut res = Zeroizing::new([0; 32]);
-  let mut indices = Zeroizing::new([0; 4]);
-  for i in 0 .. 8 {
-    // read 3 indices at a time
-    let i3 = i * 3;
-    indices[1] = matched_indices[i3];
-    indices[2] = matched_indices[i3 + 1];
-    indices[3] = matched_indices[i3 + 2];
-
-    let inner = |i| {
-      let mut base = (lang.word_list.len() - indices[i] + indices[i + 1]) % lang.word_list.len();
-      // Shift the index over
-      for _ in 0 .. i {
-        base *= lang.word_list.len();
-      }
-      base
-    };
-    // set the last index
-    indices[0] = indices[1] + inner(1) + inner(2);
-    if (indices[0] % lang.word_list.len()) != indices[1] {
-      Err(SeedError::InvalidSeed)?;
-    }
-
-    let pos = i * 4;
-    let mut bytes = u32::try_from(indices[0]).unwrap().to_le_bytes();
-    res[pos .. (pos + 4)].copy_from_slice(&bytes);
-    bytes.zeroize();
-  }
-
-  Ok((*lang_name, res))
-}
-
-#[derive(Clone, PartialEq, Eq, Zeroize)]
-pub struct ClassicSeed(Zeroizing<String>);
-impl ClassicSeed {
-  pub(crate) fn new<R: RngCore + CryptoRng>(rng: &mut R, lang: Language) -> ClassicSeed {
-    key_to_seed(lang, Zeroizing::new(random_scalar(rng)))
-  }
-
-  pub fn from_string(words: Zeroizing<String>) -> Result<ClassicSeed, SeedError> {
-    let (lang, entropy) = seed_to_bytes(&words)?;
-
-    // Make sure this is a valid scalar
-    let scalar = Scalar::from_canonical_bytes(*entropy);
-    if scalar.is_none().into() {
-      Err(SeedError::InvalidSeed)?;
-    }
-    let mut scalar = scalar.unwrap();
-    scalar.zeroize();
-
-    // Call from_entropy so a trimmed seed becomes a full seed
-    Ok(Self::from_entropy(lang, entropy).unwrap())
-  }
-
-  pub fn from_entropy(lang: Language, entropy: Zeroizing<[u8; 32]>) -> Option<ClassicSeed> {
-    Option::from(Scalar::from_canonical_bytes(*entropy))
-      .map(|scalar| key_to_seed(lang, Zeroizing::new(scalar)))
-  }
-
-  pub(crate) fn to_string(&self) -> Zeroizing<String> {
-    self.0.clone()
-  }
-
-  pub(crate) fn entropy(&self) -> Zeroizing<[u8; 32]> {
-    seed_to_bytes(&self.0).unwrap().1
-  }
-}

coins/monero/src/wallet/seed/mod.rs

@@ -1,126 +0,0 @@
-use core::fmt;
-use std_shims::string::String;
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-use rand_core::{RngCore, CryptoRng};
-
-pub(crate) mod classic;
-pub(crate) mod polyseed;
-use classic::{CLASSIC_SEED_LENGTH, CLASSIC_SEED_LENGTH_WITH_CHECKSUM, ClassicSeed};
-use polyseed::{POLYSEED_LENGTH, Polyseed};
-
-/// Error when decoding a seed.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-#[cfg_attr(feature = "std", derive(thiserror::Error))]
-pub enum SeedError {
-  #[cfg_attr(feature = "std", error("invalid number of words in seed"))]
-  InvalidSeedLength,
-  #[cfg_attr(feature = "std", error("unknown language"))]
-  UnknownLanguage,
-  #[cfg_attr(feature = "std", error("invalid checksum"))]
-  InvalidChecksum,
-  #[cfg_attr(feature = "std", error("english old seeds don't support checksums"))]
-  EnglishOldWithChecksum,
-  #[cfg_attr(feature = "std", error("provided entropy is not valid"))]
-  InvalidEntropy,
-  #[cfg_attr(feature = "std", error("invalid seed"))]
-  InvalidSeed,
-  #[cfg_attr(feature = "std", error("provided features are not supported"))]
-  UnsupportedFeatures,
-}
-
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-pub enum SeedType {
-  Classic(classic::Language),
-  Polyseed(polyseed::Language),
-}
-
-/// A Monero seed.
-#[derive(Clone, PartialEq, Eq, Zeroize, ZeroizeOnDrop)]
-pub enum Seed {
-  Classic(ClassicSeed),
-  Polyseed(Polyseed),
-}
-
-impl fmt::Debug for Seed {
-  fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-    match self {
-      Seed::Classic(_) => f.debug_struct("Seed::Classic").finish_non_exhaustive(),
-      Seed::Polyseed(_) => f.debug_struct("Seed::Polyseed").finish_non_exhaustive(),
-    }
-  }
-}
-
-impl Seed {
-  /// Creates a new `Seed`.
-  pub fn new<R: RngCore + CryptoRng>(rng: &mut R, seed_type: SeedType) -> Seed {
-    match seed_type {
-      SeedType::Classic(lang) => Seed::Classic(ClassicSeed::new(rng, lang)),
-      SeedType::Polyseed(lang) => Seed::Polyseed(Polyseed::new(rng, lang)),
-    }
-  }
-
-  /// Parse a seed from a `String`.
-  pub fn from_string(words: Zeroizing<String>) -> Result<Seed, SeedError> {
-    match words.split_whitespace().count() {
-      CLASSIC_SEED_LENGTH | CLASSIC_SEED_LENGTH_WITH_CHECKSUM => {
-        ClassicSeed::from_string(words).map(Seed::Classic)
-      }
-      POLYSEED_LENGTH => Polyseed::from_string(words).map(Seed::Polyseed),
-      _ => Err(SeedError::InvalidSeedLength)?,
-    }
-  }
-
-  /// Creates a `Seed` from an entropy and an optional birthday (denoted in seconds since the
-  /// epoch).
-  ///
-  /// For `SeedType::Classic`, the birthday is ignored.
-  ///
-  /// For `SeedType::Polyseed`, the last 13 bytes of `entropy` must be `0`.
-  // TODO: Return Result, not Option
-  pub fn from_entropy(
-    seed_type: SeedType,
-    entropy: Zeroizing<[u8; 32]>,
-    birthday: Option<u64>,
-  ) -> Option<Seed> {
-    match seed_type {
-      SeedType::Classic(lang) => ClassicSeed::from_entropy(lang, entropy).map(Seed::Classic),
-      SeedType::Polyseed(lang) => {
-        Polyseed::from(lang, 0, birthday.unwrap_or(0), entropy).map(Seed::Polyseed).ok()
-      }
-    }
-  }
-
-  /// Returns seed as `String`.
-  pub fn to_string(&self) -> Zeroizing<String> {
-    match self {
-      Seed::Classic(seed) => seed.to_string(),
-      Seed::Polyseed(seed) => seed.to_string(),
-    }
-  }
-
-  /// Returns the entropy for this seed.
-  pub fn entropy(&self) -> Zeroizing<[u8; 32]> {
-    match self {
-      Seed::Classic(seed) => seed.entropy(),
-      Seed::Polyseed(seed) => seed.entropy().clone(),
-    }
-  }
-
-  /// Returns the key derived from this seed.
-  pub fn key(&self) -> Zeroizing<[u8; 32]> {
-    match self {
-      // Classic does not differentiate between its entropy and its key
-      Seed::Classic(seed) => seed.entropy(),
-      Seed::Polyseed(seed) => seed.key(),
-    }
-  }
-
-  /// Returns the birthday of this seed.
-  pub fn birthday(&self) -> u64 {
-    match self {
-      Seed::Classic(_) => 0,
-      Seed::Polyseed(seed) => seed.birthday(),
-    }
-  }
-}

coins/monero/src/wallet/send/builder.rs

@@ -1,144 +0,0 @@
-use std::sync::{Arc, RwLock};
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-
-use crate::{
-  Protocol,
-  wallet::{
-    address::MoneroAddress, Fee, SpendableOutput, Change, Decoys, SignableTransaction,
-    TransactionError, extra::MAX_ARBITRARY_DATA_SIZE,
-  },
-};
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-struct SignableTransactionBuilderInternal {
-  protocol: Protocol,
-  fee_rate: Fee,
-
-  r_seed: Option<Zeroizing<[u8; 32]>>,
-  inputs: Vec<(SpendableOutput, Decoys)>,
-  payments: Vec<(MoneroAddress, u64)>,
-  change_address: Option<Change>,
-  data: Vec<Vec<u8>>,
-}
-
-impl SignableTransactionBuilderInternal {
-  // Takes in the change address so users don't miss that they have to manually set one
-  // If they don't, all leftover funds will become part of the fee
-  fn new(protocol: Protocol, fee_rate: Fee, change_address: Option<Change>) -> Self {
-    Self {
-      protocol,
-      fee_rate,
-      r_seed: None,
-      inputs: vec![],
-      payments: vec![],
-      change_address,
-      data: vec![],
-    }
-  }
-
-  fn set_r_seed(&mut self, r_seed: Zeroizing<[u8; 32]>) {
-    self.r_seed = Some(r_seed);
-  }
-
-  fn add_input(&mut self, input: (SpendableOutput, Decoys)) {
-    self.inputs.push(input);
-  }
-  fn add_inputs(&mut self, inputs: &[(SpendableOutput, Decoys)]) {
-    self.inputs.extend(inputs.iter().cloned());
-  }
-
-  fn add_payment(&mut self, dest: MoneroAddress, amount: u64) {
-    self.payments.push((dest, amount));
-  }
-  fn add_payments(&mut self, payments: &[(MoneroAddress, u64)]) {
-    self.payments.extend(payments);
-  }
-
-  fn add_data(&mut self, data: Vec<u8>) {
-    self.data.push(data);
-  }
-}
-
-/// A Transaction Builder for Monero transactions.
-/// All methods provided will modify self while also returning a shallow copy, enabling efficient
-/// chaining with a clean API.
-/// In order to fork the builder at some point, clone will still return a deep copy.
-#[derive(Debug)]
-pub struct SignableTransactionBuilder(Arc<RwLock<SignableTransactionBuilderInternal>>);
-impl Clone for SignableTransactionBuilder {
-  fn clone(&self) -> Self {
-    Self(Arc::new(RwLock::new((*self.0.read().unwrap()).clone())))
-  }
-}
-
-impl PartialEq for SignableTransactionBuilder {
-  fn eq(&self, other: &Self) -> bool {
-    *self.0.read().unwrap() == *other.0.read().unwrap()
-  }
-}
-impl Eq for SignableTransactionBuilder {}
-
-impl Zeroize for SignableTransactionBuilder {
-  fn zeroize(&mut self) {
-    self.0.write().unwrap().zeroize()
-  }
-}
-
-impl SignableTransactionBuilder {
-  fn shallow_copy(&self) -> Self {
-    Self(self.0.clone())
-  }
-
-  pub fn new(protocol: Protocol, fee_rate: Fee, change_address: Option<Change>) -> Self {
-    Self(Arc::new(RwLock::new(SignableTransactionBuilderInternal::new(
-      protocol,
-      fee_rate,
-      change_address,
-    ))))
-  }
-
-  pub fn set_r_seed(&mut self, r_seed: Zeroizing<[u8; 32]>) -> Self {
-    self.0.write().unwrap().set_r_seed(r_seed);
-    self.shallow_copy()
-  }
-
-  pub fn add_input(&mut self, input: (SpendableOutput, Decoys)) -> Self {
-    self.0.write().unwrap().add_input(input);
-    self.shallow_copy()
-  }
-  pub fn add_inputs(&mut self, inputs: &[(SpendableOutput, Decoys)]) -> Self {
-    self.0.write().unwrap().add_inputs(inputs);
-    self.shallow_copy()
-  }
-
-  pub fn add_payment(&mut self, dest: MoneroAddress, amount: u64) -> Self {
-    self.0.write().unwrap().add_payment(dest, amount);
-    self.shallow_copy()
-  }
-  pub fn add_payments(&mut self, payments: &[(MoneroAddress, u64)]) -> Self {
-    self.0.write().unwrap().add_payments(payments);
-    self.shallow_copy()
-  }
-
-  pub fn add_data(&mut self, data: Vec<u8>) -> Result<Self, TransactionError> {
-    if data.len() > MAX_ARBITRARY_DATA_SIZE {
-      Err(TransactionError::TooMuchData)?;
-    }
-    self.0.write().unwrap().add_data(data);
-    Ok(self.shallow_copy())
-  }
-
-  pub fn build(self) -> Result<SignableTransaction, TransactionError> {
-    let read = self.0.read().unwrap();
-    SignableTransaction::new(
-      read.protocol,
-      read.r_seed.clone(),
-      read.inputs.clone(),
-      read.payments.clone(),
-      read.change_address.clone(),
-      read.data.clone(),
-      read.fee_rate,
-    )
-  }
-}

coins/monero/src/wallet/send/mod.rs

@@ -1,997 +0,0 @@
-use core::{ops::Deref, fmt};
-use std_shims::{
-  vec::Vec,
-  io,
-  string::{String, ToString},
-};
-
-use rand_core::{RngCore, CryptoRng, SeedableRng};
-use rand_chacha::ChaCha20Rng;
-use rand::seq::SliceRandom;
-
-use zeroize::{Zeroize, ZeroizeOnDrop, Zeroizing};
-
-use group::Group;
-use curve25519_dalek::{
-  constants::{ED25519_BASEPOINT_POINT, ED25519_BASEPOINT_TABLE},
-  scalar::Scalar,
-  edwards::EdwardsPoint,
-};
-use dalek_ff_group as dfg;
-
-#[cfg(feature = "multisig")]
-use frost::FrostError;
-
-use crate::{
-  Protocol, Commitment, hash, random_scalar,
-  serialize::{
-    read_byte, read_bytes, read_u64, read_scalar, read_point, read_vec, write_byte, write_scalar,
-    write_point, write_raw_vec, write_vec,
-  },
-  ringct::{
-    generate_key_image,
-    clsag::{ClsagError, ClsagInput, Clsag},
-    bulletproofs::{MAX_OUTPUTS, Bulletproofs},
-    RctBase, RctPrunable, RctSignatures,
-  },
-  transaction::{Input, Output, Timelock, TransactionPrefix, Transaction},
-  rpc::RpcError,
-  wallet::{
-    address::{Network, AddressSpec, MoneroAddress},
-    ViewPair, SpendableOutput, Decoys, PaymentId, ExtraField, Extra, key_image_sort, uniqueness,
-    shared_key, commitment_mask, amount_encryption,
-    extra::{ARBITRARY_DATA_MARKER, MAX_ARBITRARY_DATA_SIZE},
-  },
-};
-
-#[cfg(feature = "std")]
-mod builder;
-#[cfg(feature = "std")]
-pub use builder::SignableTransactionBuilder;
-
-#[cfg(feature = "multisig")]
-mod multisig;
-#[cfg(feature = "multisig")]
-pub use multisig::TransactionMachine;
-use crate::ringct::EncryptedAmount;
-
-#[allow(non_snake_case)]
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-struct SendOutput {
-  R: EdwardsPoint,
-  view_tag: u8,
-  dest: EdwardsPoint,
-  commitment: Commitment,
-  amount: [u8; 8],
-}
-
-impl SendOutput {
-  #[allow(non_snake_case)]
-  fn internal(
-    unique: [u8; 32],
-    output: (usize, (MoneroAddress, u64)),
-    ecdh: EdwardsPoint,
-    R: EdwardsPoint,
-  ) -> (SendOutput, Option<[u8; 8]>) {
-    let o = output.0;
-    let output = output.1;
-
-    let (view_tag, shared_key, payment_id_xor) =
-      shared_key(Some(unique).filter(|_| output.0.is_guaranteed()), ecdh, o);
-
-    (
-      SendOutput {
-        R,
-        view_tag,
-        dest: ((&shared_key * ED25519_BASEPOINT_TABLE) + output.0.spend),
-        commitment: Commitment::new(commitment_mask(shared_key), output.1),
-        amount: amount_encryption(output.1, shared_key),
-      },
-      output
-        .0
-        .payment_id()
-        .map(|id| (u64::from_le_bytes(id) ^ u64::from_le_bytes(payment_id_xor)).to_le_bytes()),
-    )
-  }
-
-  fn new(
-    r: &Zeroizing<Scalar>,
-    unique: [u8; 32],
-    output: (usize, (MoneroAddress, u64)),
-  ) -> (SendOutput, Option<[u8; 8]>) {
-    let address = output.1 .0;
-    SendOutput::internal(
-      unique,
-      output,
-      r.deref() * address.view,
-      if !address.is_subaddress() {
-        r.deref() * ED25519_BASEPOINT_TABLE
-      } else {
-        r.deref() * address.spend
-      },
-    )
-  }
-
-  fn change(
-    ecdh: EdwardsPoint,
-    unique: [u8; 32],
-    output: (usize, (MoneroAddress, u64)),
-  ) -> (SendOutput, Option<[u8; 8]>) {
-    SendOutput::internal(unique, output, ecdh, ED25519_BASEPOINT_POINT)
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug)]
-#[cfg_attr(feature = "std", derive(thiserror::Error))]
-pub enum TransactionError {
-  #[cfg_attr(feature = "std", error("multiple addresses with payment IDs"))]
-  MultiplePaymentIds,
-  #[cfg_attr(feature = "std", error("no inputs"))]
-  NoInputs,
-  #[cfg_attr(feature = "std", error("no outputs"))]
-  NoOutputs,
-  #[cfg_attr(feature = "std", error("invalid number of decoys"))]
-  InvalidDecoyQuantity,
-  #[cfg_attr(feature = "std", error("only one output and no change address"))]
-  NoChange,
-  #[cfg_attr(feature = "std", error("too many outputs"))]
-  TooManyOutputs,
-  #[cfg_attr(feature = "std", error("too much data"))]
-  TooMuchData,
-  #[cfg_attr(feature = "std", error("too many inputs/too much arbitrary data"))]
-  TooLargeTransaction,
-  #[cfg_attr(
-    feature = "std",
-    error("not enough funds (inputs {inputs}, outputs {outputs}, fee {fee})")
-  )]
-  NotEnoughFunds { inputs: u64, outputs: u64, fee: u64 },
-  #[cfg_attr(feature = "std", error("wrong spend private key"))]
-  WrongPrivateKey,
-  #[cfg_attr(feature = "std", error("rpc error ({0})"))]
-  RpcError(RpcError),
-  #[cfg_attr(feature = "std", error("clsag error ({0})"))]
-  ClsagError(ClsagError),
-  #[cfg_attr(feature = "std", error("invalid transaction ({0})"))]
-  InvalidTransaction(RpcError),
-  #[cfg(feature = "multisig")]
-  #[cfg_attr(feature = "std", error("frost error {0}"))]
-  FrostError(FrostError),
-}
-
-fn prepare_inputs(
-  inputs: &[(SpendableOutput, Decoys)],
-  spend: &Zeroizing<Scalar>,
-  tx: &mut Transaction,
-) -> Result<Vec<(Zeroizing<Scalar>, EdwardsPoint, ClsagInput)>, TransactionError> {
-  let mut signable = Vec::with_capacity(inputs.len());
-
-  for (i, (input, decoys)) in inputs.iter().enumerate() {
-    let input_spend = Zeroizing::new(input.key_offset() + spend.deref());
-    let image = generate_key_image(&input_spend);
-    signable.push((
-      input_spend,
-      image,
-      ClsagInput::new(input.commitment().clone(), decoys.clone())
-        .map_err(TransactionError::ClsagError)?,
-    ));
-
-    tx.prefix.inputs.push(Input::ToKey {
-      amount: None,
-      key_offsets: decoys.offsets.clone(),
-      key_image: signable[i].1,
-    });
-  }
-
-  signable.sort_by(|x, y| x.1.compress().to_bytes().cmp(&y.1.compress().to_bytes()).reverse());
-  tx.prefix.inputs.sort_by(|x, y| {
-    if let (Input::ToKey { key_image: x, .. }, Input::ToKey { key_image: y, .. }) = (x, y) {
-      x.compress().to_bytes().cmp(&y.compress().to_bytes()).reverse()
-    } else {
-      panic!("Input wasn't ToKey")
-    }
-  });
-
-  Ok(signable)
-}
-
-// Deterministically calculate what the TX weight and fee will be.
-fn calculate_weight_and_fee(
-  protocol: Protocol,
-  decoy_weights: &[usize],
-  n_outputs: usize,
-  extra: usize,
-  fee_rate: Fee,
-) -> (usize, u64) {
-  // Starting the fee at 0 here is different than core Monero's wallet2.cpp, which starts its fee
-  // calculation with an estimate.
-  //
-  // This difference is okay in practice because wallet2 still ends up using a fee calculated from
-  // a TX's weight, as calculated later in this function.
-  //
-  // See this PR highlighting wallet2's behavior:
-  //   https://github.com/monero-project/monero/pull/8882
-  //
-  // Even with that PR, if the estimated fee's VarInt byte length is larger than the calculated
-  // fee's, the wallet can theoretically use a fee not based on the actual TX weight. This does not
-  // occur in practice as it's nearly impossible for wallet2 to estimate a fee that is larger
-  // than the calculated fee today, and on top of that, even more unlikely for that estimate's
-  // VarInt to be larger in byte length than the calculated fee's.
-  let mut weight = 0usize;
-  let mut fee = 0u64;
-
-  let mut done = false;
-  let mut iters = 0;
-  let max_iters = 5;
-  while !done {
-    weight = Transaction::fee_weight(protocol, decoy_weights, n_outputs, extra, fee);
-
-    let fee_calculated_from_weight = fee_rate.calculate_fee_from_weight(weight);
-
-    // Continue trying to use the fee calculated from the tx's weight
-    done = fee_calculated_from_weight == fee;
-
-    fee = fee_calculated_from_weight;
-
-    #[cfg(test)]
-    debug_assert!(iters < max_iters, "Reached max fee calculation attempts");
-    // Should never happen because the fee VarInt byte length shouldn't change *every* single iter.
-    // `iters` reaching `max_iters` is unexpected.
-    if iters >= max_iters {
-      // Fail-safe break to ensure funds are still spendable
-      break;
-    }
-    iters += 1;
-  }
-
-  (weight, fee)
-}
-
-/// Fee struct, defined as a per-unit cost and a mask for rounding purposes.
-#[derive(Clone, Copy, PartialEq, Eq, Debug, Zeroize)]
-pub struct Fee {
-  pub per_weight: u64,
-  pub mask: u64,
-}
-
-impl Fee {
-  pub fn calculate_fee_from_weight(&self, weight: usize) -> u64 {
-    let fee = (((self.per_weight * u64::try_from(weight).unwrap()) + self.mask - 1) / self.mask) *
-      self.mask;
-    debug_assert_eq!(weight, self.calculate_weight_from_fee(fee), "Miscalculated weight from fee");
-    fee
-  }
-
-  pub fn calculate_weight_from_fee(&self, fee: u64) -> usize {
-    usize::try_from(fee / self.per_weight).unwrap()
-  }
-}
-
-/// Fee priority, determining how quickly a transaction is included in a block.
-#[derive(Clone, Copy, PartialEq, Eq, Debug)]
-#[allow(non_camel_case_types)]
-pub enum FeePriority {
-  Lowest,
-  Low,
-  Medium,
-  High,
-  Custom { priority: u32 },
-}
-
-impl FeePriority {
-  pub(crate) fn fee_priority(&self) -> u32 {
-    match self {
-      FeePriority::Lowest => 0,
-      FeePriority::Low => 1,
-      FeePriority::Medium => 2,
-      FeePriority::High => 3,
-      FeePriority::Custom { priority, .. } => *priority,
-    }
-  }
-}
-
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub(crate) enum InternalPayment {
-  Payment((MoneroAddress, u64)),
-  Change(Change, u64),
-}
-
-/// The eventual output of a SignableTransaction.
-///
-/// If the SignableTransaction has a Change with a view key, this will also have the view key.
-/// Accordingly, it must be treated securely.
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize)]
-pub struct Eventuality {
-  protocol: Protocol,
-  r_seed: Zeroizing<[u8; 32]>,
-  inputs: Vec<EdwardsPoint>,
-  payments: Vec<InternalPayment>,
-  extra: Vec<u8>,
-}
-
-/// A signable transaction, either in a single-signer or multisig context.
-#[derive(Clone, PartialEq, Eq, Debug, Zeroize, ZeroizeOnDrop)]
-pub struct SignableTransaction {
-  protocol: Protocol,
-  r_seed: Option<Zeroizing<[u8; 32]>>,
-  inputs: Vec<(SpendableOutput, Decoys)>,
-  payments: Vec<InternalPayment>,
-  data: Vec<Vec<u8>>,
-  fee: u64,
-  fee_rate: Fee,
-}
-
-/// Specification for a change output.
-#[derive(Clone, PartialEq, Eq, Zeroize)]
-pub struct Change {
-  address: MoneroAddress,
-  view: Option<Zeroizing<Scalar>>,
-}
-
-impl fmt::Debug for Change {
-  fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
-    f.debug_struct("Change").field("address", &self.address).finish_non_exhaustive()
-  }
-}
-
-impl Change {
-  /// Create a change output specification from a ViewPair, as needed to maintain privacy.
-  pub fn new(view: &ViewPair, guaranteed: bool) -> Change {
-    Change {
-      address: view.address(
-        Network::Mainnet,
-        if !guaranteed {
-          AddressSpec::Standard
-        } else {
-          AddressSpec::Featured { subaddress: None, payment_id: None, guaranteed: true }
-        },
-      ),
-      view: Some(view.view.clone()),
-    }
-  }
-
-  /// Create a fingerprintable change output specification which will harm privacy. Only use this
-  /// if you know what you're doing.
-  pub fn fingerprintable(address: MoneroAddress) -> Change {
-    Change { address, view: None }
-  }
-}
-
-fn need_additional(payments: &[InternalPayment]) -> (bool, bool) {
-  let mut has_change_view = false;
-  let subaddresses = payments
-    .iter()
-    .filter(|payment| match *payment {
-      InternalPayment::Payment(payment) => payment.0.is_subaddress(),
-      InternalPayment::Change(change, _) => {
-        if change.view.is_some() {
-          has_change_view = true;
-          // It should not be possible to construct a change specification to a subaddress with a
-          // view key
-          debug_assert!(!change.address.is_subaddress());
-        }
-        change.address.is_subaddress()
-      }
-    })
-    .count() !=
-    0;
-
-  // We need additional keys if we have any subaddresses
-  let mut additional = subaddresses;
-  // Unless the above change view key path is taken
-  if (payments.len() == 2) && has_change_view {
-    additional = false;
-  }
-
-  (subaddresses, additional)
-}
-
-fn sanity_check_change_payment(payments: &[InternalPayment], has_change_address: bool) {
-  debug_assert_eq!(
-    payments
-      .iter()
-      .filter(|payment| match *payment {
-        InternalPayment::Payment(_) => false,
-        InternalPayment::Change(_, _) => true,
-      })
-      .count(),
-    if has_change_address { 1 } else { 0 },
-    "Unexpected number of change outputs"
-  );
-}
-
-impl SignableTransaction {
-  /// Create a signable transaction.
-  ///
-  /// `r_seed` refers to a seed used to derive the transaction's ephemeral keys (colloquially
-  /// called Rs). If None is provided, one will be automatically generated.
-  ///
-  /// Up to 16 outputs may be present, including the change output. If the change address is
-  /// specified, leftover funds will be sent to it.
-  ///
-  /// Each chunk of data must not exceed MAX_ARBITRARY_DATA_SIZE and will be embedded in TX extra.
-  pub fn new(
-    protocol: Protocol,
-    r_seed: Option<Zeroizing<[u8; 32]>>,
-    inputs: Vec<(SpendableOutput, Decoys)>,
-    payments: Vec<(MoneroAddress, u64)>,
-    change_address: Option<Change>,
-    data: Vec<Vec<u8>>,
-    fee_rate: Fee,
-  ) -> Result<SignableTransaction, TransactionError> {
-    // Make sure there's only one payment ID
-    let mut has_payment_id = {
-      let mut payment_ids = 0;
-      let mut count = |addr: MoneroAddress| {
-        if addr.payment_id().is_some() {
-          payment_ids += 1
-        }
-      };
-      for payment in &payments {
-        count(payment.0);
-      }
-      if let Some(change) = change_address.as_ref() {
-        count(change.address);
-      }
-      if payment_ids > 1 {
-        Err(TransactionError::MultiplePaymentIds)?;
-      }
-      payment_ids == 1
-    };
-
-    if inputs.is_empty() {
-      Err(TransactionError::NoInputs)?;
-    }
-    if payments.is_empty() {
-      Err(TransactionError::NoOutputs)?;
-    }
-
-    for (_, decoys) in &inputs {
-      if decoys.len() != protocol.ring_len() {
-        Err(TransactionError::InvalidDecoyQuantity)?;
-      }
-    }
-
-    for part in &data {
-      if part.len() > MAX_ARBITRARY_DATA_SIZE {
-        Err(TransactionError::TooMuchData)?;
-      }
-    }
-
-    // If we don't have two outputs, as required by Monero, error
-    if (payments.len() == 1) && change_address.is_none() {
-      Err(TransactionError::NoChange)?;
-    }
-
-    // Get the outgoing amount ignoring fees
-    let out_amount = payments.iter().map(|payment| payment.1).sum::<u64>();
-
-    let outputs = payments.len() + usize::from(change_address.is_some());
-    if outputs > MAX_OUTPUTS {
-      Err(TransactionError::TooManyOutputs)?;
-    }
-
-    // Collect payments in a container that includes a change output if a change address is provided
-    let mut payments = payments.into_iter().map(InternalPayment::Payment).collect::<Vec<_>>();
-    if change_address.is_some() {
-      // Push a 0 amount change output that we'll use to do fee calculations.
-      // We'll modify the change amount after calculating the fee
-      payments.push(InternalPayment::Change(change_address.clone().unwrap(), 0));
-    }
-
-    // Determine if we'll need additional pub keys in tx extra
-    let (_, additional) = need_additional(&payments);
-
-    // Add a dummy payment ID if there's only 2 payments
-    has_payment_id |= outputs == 2;
-
-    // Calculate the extra length
-    let extra = Extra::fee_weight(outputs, additional, has_payment_id, data.as_ref());
-
-    // https://github.com/monero-project/monero/pull/8733
-    const MAX_EXTRA_SIZE: usize = 1060;
-    if extra > MAX_EXTRA_SIZE {
-      Err(TransactionError::TooMuchData)?;
-    }
-
-    // Caclculate weight of decoys
-    let decoy_weights =
-      inputs.iter().map(|(_, decoy)| Decoys::fee_weight(&decoy.offsets)).collect::<Vec<_>>();
-
-    // Deterministically calculate tx weight and fee
-    let (weight, fee) =
-      calculate_weight_and_fee(protocol, &decoy_weights, outputs, extra, fee_rate);
-
-    // The actual limit is half the block size, and for the minimum block size of 300k, that'd be
-    // 150k
-    // wallet2 will only create transactions up to 100k bytes however
-    const MAX_TX_SIZE: usize = 100_000;
-    if weight >= MAX_TX_SIZE {
-      Err(TransactionError::TooLargeTransaction)?;
-    }
-
-    // Make sure we have enough funds
-    let in_amount = inputs.iter().map(|(input, _)| input.commitment().amount).sum::<u64>();
-    if in_amount < (out_amount + fee) {
-      Err(TransactionError::NotEnoughFunds { inputs: in_amount, outputs: out_amount, fee })?;
-    }
-
-    // Sanity check we have the expected number of change outputs
-    sanity_check_change_payment(&payments, change_address.is_some());
-
-    // Modify the amount of the change output
-    if change_address.is_some() {
-      let change_payment = payments.last_mut().unwrap();
-      debug_assert!(matches!(change_payment, InternalPayment::Change(_, _)));
-      *change_payment =
-        InternalPayment::Change(change_address.clone().unwrap(), in_amount - out_amount - fee);
-    }
-
-    // Sanity check the change again after modifying
-    sanity_check_change_payment(&payments, change_address.is_some());
-
-    // Sanity check outgoing amount + fee == incoming amount
-    debug_assert_eq!(
-      payments
-        .iter()
-        .map(|payment| match *payment {
-          InternalPayment::Payment(payment) => payment.1,
-          InternalPayment::Change(_, amount) => amount,
-        })
-        .sum::<u64>() +
-        fee,
-      in_amount,
-      "Outgoing amount + fee != incoming amount"
-    );
-
-    Ok(SignableTransaction { protocol, r_seed, inputs, payments, data, fee, fee_rate })
-  }
-
-  pub fn fee(&self) -> u64 {
-    self.fee
-  }
-
-  pub fn fee_rate(&self) -> Fee {
-    self.fee_rate
-  }
-
-  #[allow(clippy::type_complexity)]
-  fn prepare_payments(
-    seed: &Zeroizing<[u8; 32]>,
-    inputs: &[EdwardsPoint],
-    payments: &mut Vec<InternalPayment>,
-    uniqueness: [u8; 32],
-  ) -> (EdwardsPoint, Vec<Zeroizing<Scalar>>, Vec<SendOutput>, Option<[u8; 8]>) {
-    let mut rng = {
-      // Hash the inputs into the seed so we don't re-use Rs
-      // Doesn't re-use uniqueness as that's based on key images, which requires interactivity
-      // to generate. The output keys do not
-      // This remains private so long as the seed is private
-      let mut r_uniqueness = vec![];
-      for input in inputs {
-        r_uniqueness.extend(input.compress().to_bytes());
-      }
-      ChaCha20Rng::from_seed(hash(
-        &[b"monero-serai_outputs".as_ref(), seed.as_ref(), &r_uniqueness].concat(),
-      ))
-    };
-
-    // Shuffle the payments
-    payments.shuffle(&mut rng);
-
-    // Used for all non-subaddress outputs, or if there's only one subaddress output and a change
-    let tx_key = Zeroizing::new(random_scalar(&mut rng));
-    let mut tx_public_key = tx_key.deref() * ED25519_BASEPOINT_TABLE;
-
-    // If any of these outputs are to a subaddress, we need keys distinct to them
-    // The only time this *does not* force having additional keys is when the only other output
-    // is a change output we have the view key for, enabling rewriting rA to aR
-    let (subaddresses, additional) = need_additional(payments);
-    let modified_change_ecdh = subaddresses && (!additional);
-
-    // If we're using the aR rewrite, update tx_public_key from rG to rB
-    if modified_change_ecdh {
-      for payment in &*payments {
-        match payment {
-          InternalPayment::Payment(payment) => {
-            // This should be the only payment and it should be a subaddress
-            debug_assert!(payment.0.is_subaddress());
-            tx_public_key = tx_key.deref() * payment.0.spend;
-          }
-          InternalPayment::Change(_, _) => {}
-        }
-      }
-      debug_assert!(tx_public_key != (tx_key.deref() * ED25519_BASEPOINT_TABLE));
-    }
-
-    // Actually create the outputs
-    let mut additional_keys = vec![];
-    let mut outputs = Vec::with_capacity(payments.len());
-    let mut id = None;
-    for (o, mut payment) in payments.drain(..).enumerate() {
-      // Downcast the change output to a payment output if it doesn't require special handling
-      // regarding it's view key
-      payment = if !modified_change_ecdh {
-        if let InternalPayment::Change(change, amount) = &payment {
-          InternalPayment::Payment((change.address, *amount))
-        } else {
-          payment
-        }
-      } else {
-        payment
-      };
-
-      let (output, payment_id) = match payment {
-        InternalPayment::Payment(payment) => {
-          // If this is a subaddress, generate a dedicated r. Else, reuse the TX key
-          let dedicated = Zeroizing::new(random_scalar(&mut rng));
-          let use_dedicated = additional && payment.0.is_subaddress();
-          let r = if use_dedicated { &dedicated } else { &tx_key };
-
-          let (mut output, payment_id) = SendOutput::new(r, uniqueness, (o, payment));
-          if modified_change_ecdh {
-            debug_assert_eq!(tx_public_key, output.R);
-          }
-
-          if use_dedicated {
-            additional_keys.push(dedicated);
-          } else {
-            // If this used tx_key, randomize its R
-            // This is so when extra is created, there's a distinct R for it to use
-            output.R = dfg::EdwardsPoint::random(&mut rng).0;
-          }
-          (output, payment_id)
-        }
-        InternalPayment::Change(change, amount) => {
-          // Instead of rA, use Ra, where R is r * subaddress_spend_key
-          // change.view must be Some as if it's None, this payment would've been downcast
-          let ecdh = tx_public_key * change.view.unwrap().deref();
-          SendOutput::change(ecdh, uniqueness, (o, (change.address, amount)))
-        }
-      };
-
-      outputs.push(output);
-      id = id.or(payment_id);
-    }
-
-    // Include a random payment ID if we don't actually have one
-    // It prevents transactions from leaking if they're sending to integrated addresses or not
-    // Only do this if we only have two outputs though, as Monero won't add a dummy if there's
-    // more than two outputs
-    if outputs.len() <= 2 {
-      let mut rand = [0; 8];
-      rng.fill_bytes(&mut rand);
-      id = id.or(Some(rand));
-    }
-
-    (tx_public_key, additional_keys, outputs, id)
-  }
-
-  #[allow(non_snake_case)]
-  fn extra(
-    tx_key: EdwardsPoint,
-    additional: bool,
-    Rs: Vec<EdwardsPoint>,
-    id: Option<[u8; 8]>,
-    data: &mut Vec<Vec<u8>>,
-  ) -> Vec<u8> {
-    #[allow(non_snake_case)]
-    let Rs_len = Rs.len();
-    let mut extra = Extra::new(tx_key, if additional { Rs } else { vec![] });
-
-    if let Some(id) = id {
-      let mut id_vec = Vec::with_capacity(1 + 8);
-      PaymentId::Encrypted(id).write(&mut id_vec).unwrap();
-      extra.push(ExtraField::Nonce(id_vec));
-    }
-
-    // Include data if present
-    let extra_len = Extra::fee_weight(Rs_len, additional, id.is_some(), data.as_ref());
-    for part in data.drain(..) {
-      let mut arb = vec![ARBITRARY_DATA_MARKER];
-      arb.extend(part);
-      extra.push(ExtraField::Nonce(arb));
-    }
-
-    let mut serialized = Vec::with_capacity(extra_len);
-    extra.write(&mut serialized).unwrap();
-    debug_assert_eq!(extra_len, serialized.len());
-    serialized
-  }
-
-  /// Returns the eventuality of this transaction.
-  ///
-  /// The eventuality is defined as the TX extra/outputs this transaction will create, if signed
-  /// with the specified seed. This eventuality can be compared to on-chain transactions to see
-  /// if the transaction has already been signed and published.
-  pub fn eventuality(&self) -> Option<Eventuality> {
-    let inputs = self.inputs.iter().map(|(input, _)| input.key()).collect::<Vec<_>>();
-    let (tx_key, additional, outputs, id) = Self::prepare_payments(
-      self.r_seed.as_ref()?,
-      &inputs,
-      &mut self.payments.clone(),
-      // Lie about the uniqueness, used when determining output keys/commitments yet not the
-      // ephemeral keys, which is want we want here
-      // While we do still grab the outputs variable, it's so we can get its Rs
-      [0; 32],
-    );
-    #[allow(non_snake_case)]
-    let Rs = outputs.iter().map(|output| output.R).collect();
-    drop(outputs);
-
-    let additional = !additional.is_empty();
-    let extra = Self::extra(tx_key, additional, Rs, id, &mut self.data.clone());
-
-    Some(Eventuality {
-      protocol: self.protocol,
-      r_seed: self.r_seed.clone()?,
-      inputs,
-      payments: self.payments.clone(),
-      extra,
-    })
-  }
-
-  fn prepare_transaction<R: RngCore + CryptoRng>(
-    &mut self,
-    rng: &mut R,
-    uniqueness: [u8; 32],
-  ) -> (Transaction, Scalar) {
-    // If no seed for the ephemeral keys was provided, make one
-    let r_seed = self.r_seed.clone().unwrap_or_else(|| {
-      let mut res = Zeroizing::new([0; 32]);
-      rng.fill_bytes(res.as_mut());
-      res
-    });
-
-    let (tx_key, additional, outputs, id) = Self::prepare_payments(
-      &r_seed,
-      &self.inputs.iter().map(|(input, _)| input.key()).collect::<Vec<_>>(),
-      &mut self.payments,
-      uniqueness,
-    );
-    // This function only cares if additional keys were necessary, not what they were
-    let additional = !additional.is_empty();
-
-    let commitments = outputs.iter().map(|output| output.commitment.clone()).collect::<Vec<_>>();
-    let sum = commitments.iter().map(|commitment| commitment.mask).sum();
-
-    // Safe due to the constructor checking MAX_OUTPUTS
-    let bp = Bulletproofs::prove(rng, &commitments, self.protocol.bp_plus()).unwrap();
-
-    // Create the TX extra
-    let extra = Self::extra(
-      tx_key,
-      additional,
-      outputs.iter().map(|output| output.R).collect(),
-      id,
-      &mut self.data,
-    );
-
-    let mut fee = self.inputs.iter().map(|(input, _)| input.commitment().amount).sum::<u64>();
-    let mut tx_outputs = Vec::with_capacity(outputs.len());
-    let mut encrypted_amounts = Vec::with_capacity(outputs.len());
-    for output in &outputs {
-      fee -= output.commitment.amount;
-      tx_outputs.push(Output {
-        amount: None,
-        key: output.dest.compress(),
-        view_tag: Some(output.view_tag).filter(|_| self.protocol.view_tags()),
-      });
-      encrypted_amounts.push(EncryptedAmount::Compact { amount: output.amount });
-    }
-    debug_assert_eq!(self.fee, fee, "transaction will use an unexpected fee");
-
-    (
-      Transaction {
-        prefix: TransactionPrefix {
-          version: 2,
-          timelock: Timelock::None,
-          inputs: vec![],
-          outputs: tx_outputs,
-          extra,
-        },
-        signatures: vec![],
-        rct_signatures: RctSignatures {
-          base: RctBase {
-            fee,
-            encrypted_amounts,
-            pseudo_outs: vec![],
-            commitments: commitments.iter().map(Commitment::calculate).collect(),
-          },
-          prunable: RctPrunable::Clsag { bulletproofs: bp, clsags: vec![], pseudo_outs: vec![] },
-        },
-      },
-      sum,
-    )
-  }
-
-  /// Sign this transaction.
-  pub fn sign<R: RngCore + CryptoRng>(
-    mut self,
-    rng: &mut R,
-    spend: &Zeroizing<Scalar>,
-  ) -> Result<Transaction, TransactionError> {
-    let mut images = Vec::with_capacity(self.inputs.len());
-    for (input, _) in &self.inputs {
-      let mut offset = Zeroizing::new(spend.deref() + input.key_offset());
-      if (offset.deref() * ED25519_BASEPOINT_TABLE) != input.key() {
-        Err(TransactionError::WrongPrivateKey)?;
-      }
-
-      images.push(generate_key_image(&offset));
-      offset.zeroize();
-    }
-    images.sort_by(key_image_sort);
-
-    let (mut tx, mask_sum) = self.prepare_transaction(
-      rng,
-      uniqueness(
-        &images
-          .iter()
-          .map(|image| Input::ToKey { amount: None, key_offsets: vec![], key_image: *image })
-          .collect::<Vec<_>>(),
-      ),
-    );
-
-    let signable = prepare_inputs(&self.inputs, spend, &mut tx)?;
-
-    let clsag_pairs = Clsag::sign(rng, signable, mask_sum, tx.signature_hash());
-    match tx.rct_signatures.prunable {
-      RctPrunable::Null => panic!("Signing for RctPrunable::Null"),
-      RctPrunable::Clsag { ref mut clsags, ref mut pseudo_outs, .. } => {
-        clsags.append(&mut clsag_pairs.iter().map(|clsag| clsag.0.clone()).collect::<Vec<_>>());
-        pseudo_outs.append(&mut clsag_pairs.iter().map(|clsag| clsag.1).collect::<Vec<_>>());
-      }
-      _ => unreachable!("attempted to sign a TX which wasn't CLSAG"),
-    }
-
-    debug_assert_eq!(
-      self.fee_rate.calculate_fee_from_weight(tx.weight()),
-      tx.rct_signatures.base.fee,
-      "transaction used unexpected fee",
-    );
-
-    Ok(tx)
-  }
-}
-
-impl Eventuality {
-  /// Enables building a HashMap of Extra -> Eventuality for efficiently checking if an on-chain
-  /// transaction may match this eventuality.
-  ///
-  /// This extra is cryptographically bound to:
-  /// 1) A specific set of inputs (via their output key)
-  /// 2) A specific seed for the ephemeral keys
-  ///
-  /// This extra may be used in a transaction with a distinct set of inputs, yet no honest
-  /// transaction which doesn't satisfy this Eventuality will contain it.
-  pub fn extra(&self) -> &[u8] {
-    &self.extra
-  }
-
-  #[must_use]
-  pub fn matches(&self, tx: &Transaction) -> bool {
-    if self.payments.len() != tx.prefix.outputs.len() {
-      return false;
-    }
-
-    // Verify extra.
-    // Even if all the outputs were correct, a malicious extra could still cause a recipient to
-    // fail to receive their funds.
-    // This is the cheapest check available to perform as it does not require TX-specific ECC ops.
-    if self.extra != tx.prefix.extra {
-      return false;
-    }
-
-    // Also ensure no timelock was set.
-    if tx.prefix.timelock != Timelock::None {
-      return false;
-    }
-
-    // Generate the outputs. This is TX-specific due to uniqueness.
-    let (_, _, outputs, _) = SignableTransaction::prepare_payments(
-      &self.r_seed,
-      &self.inputs,
-      &mut self.payments.clone(),
-      uniqueness(&tx.prefix.inputs),
-    );
-
-    let rct_type = tx.rct_signatures.rct_type();
-    if rct_type != self.protocol.optimal_rct_type() {
-      return false;
-    }
-
-    // TODO: Remove this when the following for loop is updated
-    assert!(
-      rct_type.compact_encrypted_amounts(),
-      "created an Eventuality for a very old RctType we don't support proving for"
-    );
-
-    for (o, (expected, actual)) in outputs.iter().zip(tx.prefix.outputs.iter()).enumerate() {
-      // Verify the output, commitment, and encrypted amount.
-      if (&Output {
-        amount: None,
-        key: expected.dest.compress(),
-        view_tag: Some(expected.view_tag).filter(|_| self.protocol.view_tags()),
-      } != actual) ||
-        (Some(&expected.commitment.calculate()) != tx.rct_signatures.base.commitments.get(o)) ||
-        (Some(&EncryptedAmount::Compact { amount: expected.amount }) !=
-          tx.rct_signatures.base.encrypted_amounts.get(o))
-      {
-        return false;
-      }
-    }
-
-    true
-  }
-
-  pub fn write<W: io::Write>(&self, w: &mut W) -> io::Result<()> {
-    self.protocol.write(w)?;
-    write_raw_vec(write_byte, self.r_seed.as_ref(), w)?;
-    write_vec(write_point, &self.inputs, w)?;
-
-    fn write_payment<W: io::Write>(payment: &InternalPayment, w: &mut W) -> io::Result<()> {
-      match payment {
-        InternalPayment::Payment(payment) => {
-          w.write_all(&[0])?;
-          write_vec(write_byte, payment.0.to_string().as_bytes(), w)?;
-          w.write_all(&payment.1.to_le_bytes())
-        }
-        InternalPayment::Change(change, amount) => {
-          w.write_all(&[1])?;
-          write_vec(write_byte, change.address.to_string().as_bytes(), w)?;
-          if let Some(view) = change.view.as_ref() {
-            w.write_all(&[1])?;
-            write_scalar(view, w)?;
-          } else {
-            w.write_all(&[0])?;
-          }
-          w.write_all(&amount.to_le_bytes())
-        }
-      }
-    }
-    write_vec(write_payment, &self.payments, w)?;
-
-    write_vec(write_byte, &self.extra, w)
-  }
-
-  pub fn serialize(&self) -> Vec<u8> {
-    let mut buf = Vec::with_capacity(128);
-    self.write(&mut buf).unwrap();
-    buf
-  }
-
-  pub fn read<R: io::Read>(r: &mut R) -> io::Result<Eventuality> {
-    fn read_address<R: io::Read>(r: &mut R) -> io::Result<MoneroAddress> {
-      String::from_utf8(read_vec(read_byte, r)?)
-        .ok()
-        .and_then(|str| MoneroAddress::from_str_raw(&str).ok())
-        .ok_or_else(|| io::Error::other("invalid address"))
-    }
-
-    fn read_payment<R: io::Read>(r: &mut R) -> io::Result<InternalPayment> {
-      Ok(match read_byte(r)? {
-        0 => InternalPayment::Payment((read_address(r)?, read_u64(r)?)),
-        1 => InternalPayment::Change(
-          Change {
-            address: read_address(r)?,
-            view: match read_byte(r)? {
-              0 => None,
-              1 => Some(Zeroizing::new(read_scalar(r)?)),
-              _ => Err(io::Error::other("invalid change payment"))?,
-            },
-          },
-          read_u64(r)?,
-        ),
-        _ => Err(io::Error::other("invalid payment"))?,
-      })
-    }
-
-    Ok(Eventuality {
-      protocol: Protocol::read(r)?,
-      r_seed: Zeroizing::new(read_bytes::<_, 32>(r)?),
-      inputs: read_vec(read_point, r)?,
-      payments: read_vec(read_payment, r)?,
-      extra: read_vec(read_byte, r)?,
-    })
-  }
-}

coins/monero/src/wallet/send/multisig.rs

@@ -1,417 +0,0 @@
-use std_shims::{
-  vec::Vec,
-  io::{self, Read},
-  collections::HashMap,
-};
-use std::sync::{Arc, RwLock};
-
-use zeroize::Zeroizing;
-
-use rand_core::{RngCore, CryptoRng, SeedableRng};
-use rand_chacha::ChaCha20Rng;
-
-use group::ff::Field;
-use curve25519_dalek::{traits::Identity, scalar::Scalar, edwards::EdwardsPoint};
-use dalek_ff_group as dfg;
-
-use transcript::{Transcript, RecommendedTranscript};
-use frost::{
-  curve::Ed25519,
-  Participant, FrostError, ThresholdKeys,
-  sign::{
-    Writable, Preprocess, CachedPreprocess, SignatureShare, PreprocessMachine, SignMachine,
-    SignatureMachine, AlgorithmMachine, AlgorithmSignMachine, AlgorithmSignatureMachine,
-  },
-};
-
-use crate::{
-  random_scalar,
-  ringct::{
-    clsag::{ClsagInput, ClsagDetails, ClsagAddendum, ClsagMultisig, add_key_image_share},
-    RctPrunable,
-  },
-  transaction::{Input, Transaction},
-  wallet::{TransactionError, InternalPayment, SignableTransaction, key_image_sort, uniqueness},
-};
-
-/// FROST signing machine to produce a signed transaction.
-pub struct TransactionMachine {
-  signable: SignableTransaction,
-
-  i: Participant,
-  transcript: RecommendedTranscript,
-
-  // Hashed key and scalar offset
-  key_images: Vec<(EdwardsPoint, Scalar)>,
-  inputs: Vec<Arc<RwLock<Option<ClsagDetails>>>>,
-  clsags: Vec<AlgorithmMachine<Ed25519, ClsagMultisig>>,
-}
-
-pub struct TransactionSignMachine {
-  signable: SignableTransaction,
-
-  i: Participant,
-  transcript: RecommendedTranscript,
-
-  key_images: Vec<(EdwardsPoint, Scalar)>,
-  inputs: Vec<Arc<RwLock<Option<ClsagDetails>>>>,
-  clsags: Vec<AlgorithmSignMachine<Ed25519, ClsagMultisig>>,
-
-  our_preprocess: Vec<Preprocess<Ed25519, ClsagAddendum>>,
-}
-
-pub struct TransactionSignatureMachine {
-  tx: Transaction,
-  clsags: Vec<AlgorithmSignatureMachine<Ed25519, ClsagMultisig>>,
-}
-
-impl SignableTransaction {
-  /// Create a FROST signing machine out of this signable transaction.
-  /// The height is the Monero blockchain height to synchronize around.
-  pub fn multisig(
-    self,
-    keys: ThresholdKeys<Ed25519>,
-    mut transcript: RecommendedTranscript,
-  ) -> Result<TransactionMachine, TransactionError> {
-    let mut inputs = vec![];
-    for _ in 0 .. self.inputs.len() {
-      // Doesn't resize as that will use a single Rc for the entire Vec
-      inputs.push(Arc::new(RwLock::new(None)));
-    }
-    let mut clsags = vec![];
-
-    // Create a RNG out of the input shared keys, which either requires the view key or being every
-    // sender, and the payments (address and amount), which a passive adversary may be able to know
-    // depending on how these transactions are coordinated
-    // Being every sender would already let you note rings which happen to use your transactions
-    // multiple times, already breaking privacy there
-
-    transcript.domain_separate(b"monero_transaction");
-
-    // Also include the spend_key as below only the key offset is included, so this transcripts the
-    // sum product
-    // Useful as transcripting the sum product effectively transcripts the key image, further
-    // guaranteeing the one time properties noted below
-    transcript.append_message(b"spend_key", keys.group_key().0.compress().to_bytes());
-
-    if let Some(r_seed) = &self.r_seed {
-      transcript.append_message(b"r_seed", r_seed);
-    }
-
-    for (input, decoys) in &self.inputs {
-      // These outputs can only be spent once. Therefore, it forces all RNGs derived from this
-      // transcript (such as the one used to create one time keys) to be unique
-      transcript.append_message(b"input_hash", input.output.absolute.tx);
-      transcript.append_message(b"input_output_index", [input.output.absolute.o]);
-      // Not including this, with a doxxed list of payments, would allow brute forcing the inputs
-      // to determine RNG seeds and therefore the true spends
-      transcript.append_message(b"input_shared_key", input.key_offset().to_bytes());
-
-      // Ensure all signers are signing the same rings
-      transcript.append_message(b"real_spend", [decoys.i]);
-      for (i, ring_member) in decoys.ring.iter().enumerate() {
-        transcript
-          .append_message(b"ring_member", [u8::try_from(i).expect("ring size exceeded 255")]);
-        transcript.append_message(b"ring_member_offset", decoys.offsets[i].to_le_bytes());
-        transcript.append_message(b"ring_member_key", ring_member[0].compress().to_bytes());
-        transcript.append_message(b"ring_member_commitment", ring_member[1].compress().to_bytes());
-      }
-    }
-
-    for payment in &self.payments {
-      match payment {
-        InternalPayment::Payment(payment) => {
-          transcript.append_message(b"payment_address", payment.0.to_string().as_bytes());
-          transcript.append_message(b"payment_amount", payment.1.to_le_bytes());
-        }
-        InternalPayment::Change(change, amount) => {
-          transcript.append_message(b"change_address", change.address.to_string().as_bytes());
-          if let Some(view) = change.view.as_ref() {
-            transcript.append_message(b"change_view_key", Zeroizing::new(view.to_bytes()));
-          }
-          transcript.append_message(b"change_amount", amount.to_le_bytes());
-        }
-      }
-    }
-
-    let mut key_images = vec![];
-    for (i, (input, _)) in self.inputs.iter().enumerate() {
-      // Check this the right set of keys
-      let offset = keys.offset(dfg::Scalar(input.key_offset()));
-      if offset.group_key().0 != input.key() {
-        Err(TransactionError::WrongPrivateKey)?;
-      }
-
-      let clsag = ClsagMultisig::new(transcript.clone(), input.key(), inputs[i].clone());
-      key_images.push((
-        clsag.H,
-        keys.current_offset().unwrap_or(dfg::Scalar::ZERO).0 + self.inputs[i].0.key_offset(),
-      ));
-      clsags.push(AlgorithmMachine::new(clsag, offset));
-    }
-
-    Ok(TransactionMachine {
-      signable: self,
-
-      i: keys.params().i(),
-      transcript,
-
-      key_images,
-      inputs,
-      clsags,
-    })
-  }
-}
-
-impl PreprocessMachine for TransactionMachine {
-  type Preprocess = Vec<Preprocess<Ed25519, ClsagAddendum>>;
-  type Signature = Transaction;
-  type SignMachine = TransactionSignMachine;
-
-  fn preprocess<R: RngCore + CryptoRng>(
-    mut self,
-    rng: &mut R,
-  ) -> (TransactionSignMachine, Self::Preprocess) {
-    // Iterate over each CLSAG calling preprocess
-    let mut preprocesses = Vec::with_capacity(self.clsags.len());
-    let clsags = self
-      .clsags
-      .drain(..)
-      .map(|clsag| {
-        let (clsag, preprocess) = clsag.preprocess(rng);
-        preprocesses.push(preprocess);
-        clsag
-      })
-      .collect();
-    let our_preprocess = preprocesses.clone();
-
-    // We could add further entropy here, and previous versions of this library did so
-    // As of right now, the multisig's key, the inputs being spent, and the FROST data itself
-    // will be used for RNG seeds. In order to recreate these RNG seeds, breaking privacy,
-    // counterparties must have knowledge of the multisig, either the view key or access to the
-    // coordination layer, and then access to the actual FROST signing process
-    // If the commitments are sent in plain text, then entropy here also would be, making it not
-    // increase privacy. If they're not sent in plain text, or are otherwise inaccessible, they
-    // already offer sufficient entropy. That's why further entropy is not included
-
-    (
-      TransactionSignMachine {
-        signable: self.signable,
-
-        i: self.i,
-        transcript: self.transcript,
-
-        key_images: self.key_images,
-        inputs: self.inputs,
-        clsags,
-
-        our_preprocess,
-      },
-      preprocesses,
-    )
-  }
-}
-
-impl SignMachine<Transaction> for TransactionSignMachine {
-  type Params = ();
-  type Keys = ThresholdKeys<Ed25519>;
-  type Preprocess = Vec<Preprocess<Ed25519, ClsagAddendum>>;
-  type SignatureShare = Vec<SignatureShare<Ed25519>>;
-  type SignatureMachine = TransactionSignatureMachine;
-
-  fn cache(self) -> CachedPreprocess {
-    unimplemented!(
-      "Monero transactions don't support caching their preprocesses due to {}",
-      "being already bound to a specific transaction"
-    );
-  }
-
-  fn from_cache(_: (), _: ThresholdKeys<Ed25519>, _: CachedPreprocess) -> Result<Self, FrostError> {
-    unimplemented!(
-      "Monero transactions don't support caching their preprocesses due to {}",
-      "being already bound to a specific transaction"
-    );
-  }
-
-  fn read_preprocess<R: Read>(&self, reader: &mut R) -> io::Result<Self::Preprocess> {
-    self.clsags.iter().map(|clsag| clsag.read_preprocess(reader)).collect()
-  }
-
-  fn sign(
-    mut self,
-    mut commitments: HashMap<Participant, Self::Preprocess>,
-    msg: &[u8],
-  ) -> Result<(TransactionSignatureMachine, Self::SignatureShare), FrostError> {
-    if !msg.is_empty() {
-      panic!("message was passed to the TransactionMachine when it generates its own");
-    }
-
-    // Find out who's included
-    // This may not be a valid set of signers yet the algorithm machine will error if it's not
-    commitments.remove(&self.i); // Remove, if it was included for some reason
-    let mut included = commitments.keys().copied().collect::<Vec<_>>();
-    included.push(self.i);
-    included.sort_unstable();
-
-    // Convert the unified commitments to a Vec of the individual commitments
-    let mut images = vec![EdwardsPoint::identity(); self.clsags.len()];
-    let mut commitments = (0 .. self.clsags.len())
-      .map(|c| {
-        included
-          .iter()
-          .map(|l| {
-            // Add all commitments to the transcript for their entropy
-            // While each CLSAG will do this as they need to for security, they have their own
-            // transcripts cloned from this TX's initial premise's transcript. For our TX
-            // transcript to have the CLSAG data for entropy, it'll have to be added ourselves here
-            self.transcript.append_message(b"participant", (*l).to_bytes());
-
-            let preprocess = if *l == self.i {
-              self.our_preprocess[c].clone()
-            } else {
-              commitments.get_mut(l).ok_or(FrostError::MissingParticipant(*l))?[c].clone()
-            };
-
-            {
-              let mut buf = vec![];
-              preprocess.write(&mut buf).unwrap();
-              self.transcript.append_message(b"preprocess", buf);
-            }
-
-            // While here, calculate the key image
-            // Clsag will parse/calculate/validate this as needed, yet doing so here as well
-            // provides the easiest API overall, as this is where the TX is (which needs the key
-            // images in its message), along with where the outputs are determined (where our
-            // outputs may need these in order to guarantee uniqueness)
-            add_key_image_share(
-              &mut images[c],
-              self.key_images[c].0,
-              self.key_images[c].1,
-              &included,
-              *l,
-              preprocess.addendum.key_image.0,
-            );
-
-            Ok((*l, preprocess))
-          })
-          .collect::<Result<HashMap<_, _>, _>>()
-      })
-      .collect::<Result<Vec<_>, _>>()?;
-
-    // Remove our preprocess which shouldn't be here. It was just the easiest way to implement the
-    // above
-    for map in &mut commitments {
-      map.remove(&self.i);
-    }
-
-    // Create the actual transaction
-    let (mut tx, output_masks) = {
-      let mut sorted_images = images.clone();
-      sorted_images.sort_by(key_image_sort);
-
-      self.signable.prepare_transaction(
-        // Technically, r_seed is used for the transaction keys if it's provided
-        &mut ChaCha20Rng::from_seed(self.transcript.rng_seed(b"transaction_keys_bulletproofs")),
-        uniqueness(
-          &sorted_images
-            .iter()
-            .map(|image| Input::ToKey { amount: None, key_offsets: vec![], key_image: *image })
-            .collect::<Vec<_>>(),
-        ),
-      )
-    };
-
-    // Sort the inputs, as expected
-    let mut sorted = Vec::with_capacity(self.clsags.len());
-    while !self.clsags.is_empty() {
-      let (inputs, decoys) = self.signable.inputs.swap_remove(0);
-      sorted.push((
-        images.swap_remove(0),
-        inputs,
-        decoys,
-        self.inputs.swap_remove(0),
-        self.clsags.swap_remove(0),
-        commitments.swap_remove(0),
-      ));
-    }
-    sorted.sort_by(|x, y| key_image_sort(&x.0, &y.0));
-
-    let mut rng = ChaCha20Rng::from_seed(self.transcript.rng_seed(b"pseudo_out_masks"));
-    let mut sum_pseudo_outs = Scalar::ZERO;
-    while !sorted.is_empty() {
-      let value = sorted.remove(0);
-
-      let mut mask = random_scalar(&mut rng);
-      if sorted.is_empty() {
-        mask = output_masks - sum_pseudo_outs;
-      } else {
-        sum_pseudo_outs += mask;
-      }
-
-      tx.prefix.inputs.push(Input::ToKey {
-        amount: None,
-        key_offsets: value.2.offsets.clone(),
-        key_image: value.0,
-      });
-
-      *value.3.write().unwrap() = Some(ClsagDetails::new(
-        ClsagInput::new(value.1.commitment().clone(), value.2).map_err(|_| {
-          panic!("Signing an input which isn't present in the ring we created for it")
-        })?,
-        mask,
-      ));
-
-      self.clsags.push(value.4);
-      commitments.push(value.5);
-    }
-
-    let msg = tx.signature_hash();
-
-    // Iterate over each CLSAG calling sign
-    let mut shares = Vec::with_capacity(self.clsags.len());
-    let clsags = self
-      .clsags
-      .drain(..)
-      .map(|clsag| {
-        let (clsag, share) = clsag.sign(commitments.remove(0), &msg)?;
-        shares.push(share);
-        Ok(clsag)
-      })
-      .collect::<Result<_, _>>()?;
-
-    Ok((TransactionSignatureMachine { tx, clsags }, shares))
-  }
-}
-
-impl SignatureMachine<Transaction> for TransactionSignatureMachine {
-  type SignatureShare = Vec<SignatureShare<Ed25519>>;
-
-  fn read_share<R: Read>(&self, reader: &mut R) -> io::Result<Self::SignatureShare> {
-    self.clsags.iter().map(|clsag| clsag.read_share(reader)).collect()
-  }
-
-  fn complete(
-    mut self,
-    shares: HashMap<Participant, Self::SignatureShare>,
-  ) -> Result<Transaction, FrostError> {
-    let mut tx = self.tx;
-    match tx.rct_signatures.prunable {
-      RctPrunable::Null => panic!("Signing for RctPrunable::Null"),
-      RctPrunable::Clsag { ref mut clsags, ref mut pseudo_outs, .. } => {
-        for (c, clsag) in self.clsags.drain(..).enumerate() {
-          let (clsag, pseudo_out) = clsag.complete(
-            shares.iter().map(|(l, shares)| (*l, shares[c].clone())).collect::<HashMap<_, _>>(),
-          )?;
-          clsags.push(clsag);
-          pseudo_outs.push(pseudo_out);
-        }
-      }
-      RctPrunable::AggregateMlsagBorromean { .. } |
-      RctPrunable::MlsagBorromean { .. } |
-      RctPrunable::MlsagBulletproofs { .. } => {
-        unreachable!("attempted to sign a multisig TX which wasn't CLSAG")
-      }
-    }
-    Ok(tx)
-  }
-}

coins/monero/tests/runner.rs

@@ -1,314 +0,0 @@
-use core::ops::Deref;
-use std_shims::{sync::OnceLock, collections::HashSet};
-
-use zeroize::Zeroizing;
-use rand_core::OsRng;
-
-use curve25519_dalek::{constants::ED25519_BASEPOINT_TABLE, scalar::Scalar};
-
-use tokio::sync::Mutex;
-
-use monero_serai::{
-  random_scalar,
-  rpc::{HttpRpc, Rpc},
-  wallet::{
-    ViewPair, Scanner,
-    address::{Network, AddressType, AddressSpec, AddressMeta, MoneroAddress},
-    SpendableOutput, Fee,
-  },
-  transaction::Transaction,
-};
-
-pub fn random_address() -> (Scalar, ViewPair, MoneroAddress) {
-  let spend = random_scalar(&mut OsRng);
-  let spend_pub = &spend * ED25519_BASEPOINT_TABLE;
-  let view = Zeroizing::new(random_scalar(&mut OsRng));
-  (
-    spend,
-    ViewPair::new(spend_pub, view.clone()),
-    MoneroAddress {
-      meta: AddressMeta::new(Network::Mainnet, AddressType::Standard),
-      spend: spend_pub,
-      view: view.deref() * ED25519_BASEPOINT_TABLE,
-    },
-  )
-}
-
-// TODO: Support transactions already on-chain
-// TODO: Don't have a side effect of mining blocks more blocks than needed under race conditions
-// TODO: mine as much as needed instead of default 10 blocks
-pub async fn mine_until_unlocked(rpc: &Rpc<HttpRpc>, addr: &str, tx_hash: [u8; 32]) {
-  // mine until tx is in a block
-  let mut height = rpc.get_height().await.unwrap();
-  let mut found = false;
-  while !found {
-    let block = rpc.get_block_by_number(height - 1).await.unwrap();
-    found = match block.txs.iter().find(|&&x| x == tx_hash) {
-      Some(_) => true,
-      None => {
-        rpc.generate_blocks(addr, 1).await.unwrap();
-        height += 1;
-        false
-      }
-    }
-  }
-
-  // mine 9 more blocks to unlock the tx
-  rpc.generate_blocks(addr, 9).await.unwrap();
-}
-
-// Mines 60 blocks and returns an unlocked miner TX output.
-#[allow(dead_code)]
-pub async fn get_miner_tx_output(rpc: &Rpc<HttpRpc>, view: &ViewPair) -> SpendableOutput {
-  let mut scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-
-  // Mine 60 blocks to unlock a miner TX
-  let start = rpc.get_height().await.unwrap();
-  rpc
-    .generate_blocks(&view.address(Network::Mainnet, AddressSpec::Standard).to_string(), 60)
-    .await
-    .unwrap();
-
-  let block = rpc.get_block_by_number(start).await.unwrap();
-  scanner.scan(rpc, &block).await.unwrap().swap_remove(0).ignore_timelock().swap_remove(0)
-}
-
-/// Make sure the weight and fee match the expected calculation.
-pub fn check_weight_and_fee(tx: &Transaction, fee_rate: Fee) {
-  let fee = tx.rct_signatures.base.fee;
-
-  let weight = tx.weight();
-  let expected_weight = fee_rate.calculate_weight_from_fee(fee);
-  assert_eq!(weight, expected_weight);
-
-  let expected_fee = fee_rate.calculate_fee_from_weight(weight);
-  assert_eq!(fee, expected_fee);
-}
-
-pub async fn rpc() -> Rpc<HttpRpc> {
-  let rpc = HttpRpc::new("http://127.0.0.1:18081".to_string()).await.unwrap();
-
-  // Only run once
-  if rpc.get_height().await.unwrap() != 1 {
-    return rpc;
-  }
-
-  let addr = MoneroAddress {
-    meta: AddressMeta::new(Network::Mainnet, AddressType::Standard),
-    spend: &random_scalar(&mut OsRng) * ED25519_BASEPOINT_TABLE,
-    view: &random_scalar(&mut OsRng) * ED25519_BASEPOINT_TABLE,
-  }
-  .to_string();
-
-  // Mine 40 blocks to ensure decoy availability
-  rpc.generate_blocks(&addr, 40).await.unwrap();
-
-  // Make sure we recognize the protocol
-  rpc.get_protocol().await.unwrap();
-
-  rpc
-}
-
-pub static SEQUENTIAL: OnceLock<Mutex<()>> = OnceLock::new();
-
-#[macro_export]
-macro_rules! async_sequential {
-  ($(async fn $name: ident() $body: block)*) => {
-    $(
-      #[tokio::test]
-      async fn $name() {
-        let guard = runner::SEQUENTIAL.get_or_init(|| tokio::sync::Mutex::new(())).lock().await;
-        let local = tokio::task::LocalSet::new();
-        local.run_until(async move {
-          if let Err(err) = tokio::task::spawn_local(async move { $body }).await {
-            drop(guard);
-            Err(err).unwrap()
-          }
-        }).await;
-      }
-    )*
-  }
-}
-
-#[macro_export]
-macro_rules! test {
-  (
-    $name: ident,
-    (
-      $first_tx: expr,
-      $first_checks: expr,
-    ),
-    $((
-      $tx: expr,
-      $checks: expr,
-    )$(,)?),*
-  ) => {
-    async_sequential! {
-      async fn $name() {
-        use core::{ops::Deref, any::Any};
-        use std::collections::HashSet;
-        #[cfg(feature = "multisig")]
-        use std::collections::HashMap;
-
-        use zeroize::Zeroizing;
-        use rand_core::OsRng;
-
-        use curve25519_dalek::constants::ED25519_BASEPOINT_TABLE;
-
-        #[cfg(feature = "multisig")]
-        use transcript::{Transcript, RecommendedTranscript};
-        #[cfg(feature = "multisig")]
-        use frost::{
-          curve::Ed25519,
-          Participant,
-          tests::{THRESHOLD, key_gen},
-        };
-
-        use monero_serai::{
-          random_scalar,
-          wallet::{
-            address::{Network, AddressSpec}, ViewPair, Scanner, Change, Decoys, FeePriority,
-            SignableTransaction, SignableTransactionBuilder,
-          },
-        };
-
-        use runner::{
-          random_address, rpc, mine_until_unlocked, get_miner_tx_output,
-          check_weight_and_fee,
-        };
-
-        type Builder = SignableTransactionBuilder;
-
-        // Run each function as both a single signer and as a multisig
-        #[allow(clippy::redundant_closure_call)]
-        for multisig in [false, true] {
-          // Only run the multisig variant if multisig is enabled
-          if multisig {
-            #[cfg(not(feature = "multisig"))]
-            continue;
-          }
-
-          let spend = Zeroizing::new(random_scalar(&mut OsRng));
-          #[cfg(feature = "multisig")]
-          let keys = key_gen::<_, Ed25519>(&mut OsRng);
-
-          let spend_pub = if !multisig {
-            spend.deref() * ED25519_BASEPOINT_TABLE
-          } else {
-            #[cfg(not(feature = "multisig"))]
-            panic!("Multisig branch called without the multisig feature");
-            #[cfg(feature = "multisig")]
-            keys[&Participant::new(1).unwrap()].group_key().0
-          };
-
-          let rpc = rpc().await;
-
-          let view = ViewPair::new(spend_pub, Zeroizing::new(random_scalar(&mut OsRng)));
-          let addr = view.address(Network::Mainnet, AddressSpec::Standard);
-
-          let miner_tx = get_miner_tx_output(&rpc, &view).await;
-
-          let protocol = rpc.get_protocol().await.unwrap();
-
-          let builder = SignableTransactionBuilder::new(
-            protocol,
-            rpc.get_fee(protocol, FeePriority::Low).await.unwrap(),
-            Some(Change::new(
-              &ViewPair::new(
-                &random_scalar(&mut OsRng) * ED25519_BASEPOINT_TABLE,
-                Zeroizing::new(random_scalar(&mut OsRng))
-              ),
-              false
-            )),
-          );
-
-          let sign = |tx: SignableTransaction| {
-            let spend = spend.clone();
-            #[cfg(feature = "multisig")]
-            let keys = keys.clone();
-            async move {
-              if !multisig {
-                tx.sign(&mut OsRng, &spend).unwrap()
-              } else {
-                #[cfg(not(feature = "multisig"))]
-                panic!("Multisig branch called without the multisig feature");
-                #[cfg(feature = "multisig")]
-                {
-                  let mut machines = HashMap::new();
-                  for i in (1 ..= THRESHOLD).map(|i| Participant::new(i).unwrap()) {
-                    machines.insert(
-                      i,
-                      tx
-                        .clone()
-                        .multisig(
-                          keys[&i].clone(),
-                          RecommendedTranscript::new(b"Monero Serai Test Transaction"),
-                        )
-                        .unwrap(),
-                    );
-                  }
-
-                  frost::tests::sign_without_caching(&mut OsRng, machines, &[])
-                }
-              }
-            }
-          };
-
-          // TODO: Generate a distinct wallet for each transaction to prevent overlap
-          let next_addr = addr;
-
-          let temp = Box::new({
-            let mut builder = builder.clone();
-
-            let decoys = Decoys::select(
-              &mut OsRng,
-              &rpc,
-              protocol.ring_len(),
-              rpc.get_height().await.unwrap() - 1,
-              &[miner_tx.clone()]
-            )
-            .await
-            .unwrap();
-            builder.add_input((miner_tx, decoys.first().unwrap().clone()));
-
-            let (tx, state) = ($first_tx)(rpc.clone(), builder, next_addr).await;
-            let fee_rate = tx.fee_rate().clone();
-            let signed = sign(tx).await;
-            rpc.publish_transaction(&signed).await.unwrap();
-            mine_until_unlocked(&rpc, &random_address().2.to_string(), signed.hash()).await;
-            let tx = rpc.get_transaction(signed.hash()).await.unwrap();
-            check_weight_and_fee(&tx, fee_rate);
-            let scanner =
-              Scanner::from_view(view.clone(), Some(HashSet::new()));
-            ($first_checks)(rpc.clone(), tx, scanner, state).await
-          });
-          #[allow(unused_variables, unused_mut, unused_assignments)]
-          let mut carried_state: Box<dyn Any> = temp;
-
-          $(
-            let (tx, state) = ($tx)(
-              protocol,
-              rpc.clone(),
-              builder.clone(),
-              next_addr,
-              *carried_state.downcast().unwrap()
-            ).await;
-            let fee_rate = tx.fee_rate().clone();
-            let signed = sign(tx).await;
-            rpc.publish_transaction(&signed).await.unwrap();
-            mine_until_unlocked(&rpc, &random_address().2.to_string(), signed.hash()).await;
-            let tx = rpc.get_transaction(signed.hash()).await.unwrap();
-            check_weight_and_fee(&tx, fee_rate);
-            #[allow(unused_assignments)]
-            {
-              let scanner =
-                Scanner::from_view(view.clone(), Some(HashSet::new()));
-              carried_state =
-                Box::new(($checks)(rpc.clone(), tx, scanner, state).await);
-            }
-          )*
-        }
-      }
-    }
-  }
-}

coins/monero/tests/scan.rs

@@ -1,300 +0,0 @@
-use rand::RngCore;
-
-use monero_serai::{transaction::Transaction, wallet::address::SubaddressIndex};
-
-mod runner;
-
-test!(
-  scan_standard_address,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      builder.add_payment(view.address(Network::Mainnet, AddressSpec::Standard), 5);
-      (builder.build().unwrap(), scanner)
-    },
-    |_, tx: Transaction, _, mut state: Scanner| async move {
-      let output = state.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-    },
-  ),
-);
-
-test!(
-  scan_subaddress,
-  (
-    |_, mut builder: Builder, _| async move {
-      let subaddress = SubaddressIndex::new(0, 1).unwrap();
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      scanner.register_subaddress(subaddress);
-
-      builder.add_payment(view.address(Network::Mainnet, AddressSpec::Subaddress(subaddress)), 5);
-      (builder.build().unwrap(), (scanner, subaddress))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, SubaddressIndex)| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.subaddress, Some(state.1));
-    },
-  ),
-);
-
-test!(
-  scan_integrated_address,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-
-      let mut payment_id = [0u8; 8];
-      OsRng.fill_bytes(&mut payment_id);
-
-      builder.add_payment(view.address(Network::Mainnet, AddressSpec::Integrated(payment_id)), 5);
-      (builder.build().unwrap(), (scanner, payment_id))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, [u8; 8])| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.payment_id, state.1);
-    },
-  ),
-);
-
-test!(
-  scan_featured_standard,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured { subaddress: None, payment_id: None, guaranteed: false },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), scanner)
-    },
-    |_, tx: Transaction, _, mut state: Scanner| async move {
-      let output = state.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-    },
-  ),
-);
-
-test!(
-  scan_featured_subaddress,
-  (
-    |_, mut builder: Builder, _| async move {
-      let subaddress = SubaddressIndex::new(0, 2).unwrap();
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      scanner.register_subaddress(subaddress);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: Some(subaddress),
-            payment_id: None,
-            guaranteed: false,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, subaddress))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, SubaddressIndex)| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.subaddress, Some(state.1));
-    },
-  ),
-);
-
-test!(
-  scan_featured_integrated,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      let mut payment_id = [0u8; 8];
-      OsRng.fill_bytes(&mut payment_id);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: None,
-            payment_id: Some(payment_id),
-            guaranteed: false,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, payment_id))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, [u8; 8])| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.payment_id, state.1);
-    },
-  ),
-);
-
-test!(
-  scan_featured_integrated_subaddress,
-  (
-    |_, mut builder: Builder, _| async move {
-      let subaddress = SubaddressIndex::new(0, 3).unwrap();
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-      scanner.register_subaddress(subaddress);
-
-      let mut payment_id = [0u8; 8];
-      OsRng.fill_bytes(&mut payment_id);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: Some(subaddress),
-            payment_id: Some(payment_id),
-            guaranteed: false,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, payment_id, subaddress))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, [u8; 8], SubaddressIndex)| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.payment_id, state.1);
-      assert_eq!(output.metadata.subaddress, Some(state.2));
-    },
-  ),
-);
-
-test!(
-  scan_guaranteed_standard,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), None);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured { subaddress: None, payment_id: None, guaranteed: true },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), scanner)
-    },
-    |_, tx: Transaction, _, mut state: Scanner| async move {
-      let output = state.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-    },
-  ),
-);
-
-test!(
-  scan_guaranteed_subaddress,
-  (
-    |_, mut builder: Builder, _| async move {
-      let subaddress = SubaddressIndex::new(1, 0).unwrap();
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), None);
-      scanner.register_subaddress(subaddress);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: Some(subaddress),
-            payment_id: None,
-            guaranteed: true,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, subaddress))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, SubaddressIndex)| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.subaddress, Some(state.1));
-    },
-  ),
-);
-
-test!(
-  scan_guaranteed_integrated,
-  (
-    |_, mut builder: Builder, _| async move {
-      let view = runner::random_address().1;
-      let scanner = Scanner::from_view(view.clone(), None);
-      let mut payment_id = [0u8; 8];
-      OsRng.fill_bytes(&mut payment_id);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: None,
-            payment_id: Some(payment_id),
-            guaranteed: true,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, payment_id))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, [u8; 8])| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.payment_id, state.1);
-    },
-  ),
-);
-
-test!(
-  scan_guaranteed_integrated_subaddress,
-  (
-    |_, mut builder: Builder, _| async move {
-      let subaddress = SubaddressIndex::new(1, 1).unwrap();
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), None);
-      scanner.register_subaddress(subaddress);
-
-      let mut payment_id = [0u8; 8];
-      OsRng.fill_bytes(&mut payment_id);
-
-      builder.add_payment(
-        view.address(
-          Network::Mainnet,
-          AddressSpec::Featured {
-            subaddress: Some(subaddress),
-            payment_id: Some(payment_id),
-            guaranteed: true,
-          },
-        ),
-        5,
-      );
-      (builder.build().unwrap(), (scanner, payment_id, subaddress))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, [u8; 8], SubaddressIndex)| async move {
-      let output = state.0.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-      assert_eq!(output.metadata.payment_id, state.1);
-      assert_eq!(output.metadata.subaddress, Some(state.2));
-    },
-  ),
-);

coins/monero/tests/send.rs

@@ -1,275 +0,0 @@
-use rand_core::OsRng;
-
-use monero_serai::{
-  transaction::Transaction,
-  wallet::{
-    extra::Extra, address::SubaddressIndex, ReceivedOutput, SpendableOutput, Decoys,
-    SignableTransactionBuilder,
-  },
-  rpc::{Rpc, HttpRpc},
-  Protocol,
-};
-
-mod runner;
-
-// Set up inputs, select decoys, then add them to the TX builder
-async fn add_inputs(
-  protocol: Protocol,
-  rpc: &Rpc<HttpRpc>,
-  outputs: Vec<ReceivedOutput>,
-  builder: &mut SignableTransactionBuilder,
-) {
-  let mut spendable_outputs = Vec::with_capacity(outputs.len());
-  for output in outputs {
-    spendable_outputs.push(SpendableOutput::from(rpc, output).await.unwrap());
-  }
-
-  let decoys = Decoys::select(
-    &mut OsRng,
-    rpc,
-    protocol.ring_len(),
-    rpc.get_height().await.unwrap() - 1,
-    &spendable_outputs,
-  )
-  .await
-  .unwrap();
-
-  let inputs = spendable_outputs.into_iter().zip(decoys).collect::<Vec<_>>();
-
-  builder.add_inputs(&inputs);
-}
-
-test!(
-  spend_miner_output,
-  (
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 5);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let output = scanner.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 5);
-    },
-  ),
-);
-
-test!(
-  spend_multiple_outputs,
-  (
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 1000000000000);
-      builder.add_payment(addr, 2000000000000);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut outputs = scanner.scan_transaction(&tx).not_locked();
-      outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
-      assert_eq!(outputs[0].commitment().amount, 1000000000000);
-      assert_eq!(outputs[1].commitment().amount, 2000000000000);
-      outputs
-    },
-  ),
-  (
-    |protocol: Protocol, rpc, mut builder: Builder, addr, outputs: Vec<ReceivedOutput>| async move {
-      add_inputs(protocol, &rpc, outputs, &mut builder).await;
-      builder.add_payment(addr, 6);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let output = scanner.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 6);
-    },
-  ),
-);
-
-test!(
-  // Ideally, this would be single_R, yet it isn't feasible to apply allow(non_snake_case) here
-  single_r_subaddress_send,
-  (
-    // Consume this builder for an output we can use in the future
-    // This is needed because we can't get the input from the passed in builder
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 1000000000000);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut outputs = scanner.scan_transaction(&tx).not_locked();
-      outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
-      assert_eq!(outputs[0].commitment().amount, 1000000000000);
-      outputs
-    },
-  ),
-  (
-    |protocol, rpc: Rpc<_>, _, _, outputs: Vec<ReceivedOutput>| async move {
-      use monero_serai::wallet::FeePriority;
-
-      let change_view = ViewPair::new(
-        &random_scalar(&mut OsRng) * ED25519_BASEPOINT_TABLE,
-        Zeroizing::new(random_scalar(&mut OsRng)),
-      );
-
-      let mut builder = SignableTransactionBuilder::new(
-        protocol,
-        rpc.get_fee(protocol, FeePriority::Low).await.unwrap(),
-        Some(Change::new(&change_view, false)),
-      );
-      add_inputs(protocol, &rpc, vec![outputs.first().unwrap().clone()], &mut builder).await;
-
-      // Send to a subaddress
-      let sub_view = ViewPair::new(
-        &random_scalar(&mut OsRng) * ED25519_BASEPOINT_TABLE,
-        Zeroizing::new(random_scalar(&mut OsRng)),
-      );
-      builder.add_payment(
-        sub_view
-          .address(Network::Mainnet, AddressSpec::Subaddress(SubaddressIndex::new(0, 1).unwrap())),
-        1,
-      );
-      (builder.build().unwrap(), (change_view, sub_view))
-    },
-    |_, tx: Transaction, _, views: (ViewPair, ViewPair)| async move {
-      // Make sure the change can pick up its output
-      let mut change_scanner = Scanner::from_view(views.0, Some(HashSet::new()));
-      assert!(change_scanner.scan_transaction(&tx).not_locked().len() == 1);
-
-      // Make sure the subaddress can pick up its output
-      let mut sub_scanner = Scanner::from_view(views.1, Some(HashSet::new()));
-      sub_scanner.register_subaddress(SubaddressIndex::new(0, 1).unwrap());
-      let sub_outputs = sub_scanner.scan_transaction(&tx).not_locked();
-      assert!(sub_outputs.len() == 1);
-      assert_eq!(sub_outputs[0].commitment().amount, 1);
-
-      // Make sure only one R was included in TX extra
-      assert!(Extra::read::<&[u8]>(&mut tx.prefix.extra.as_ref())
-        .unwrap()
-        .keys()
-        .unwrap()
-        .1
-        .is_none());
-    },
-  ),
-);
-
-test!(
-  spend_one_input_to_one_output_plus_change,
-  (
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 2000000000000);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut outputs = scanner.scan_transaction(&tx).not_locked();
-      outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
-      assert_eq!(outputs[0].commitment().amount, 2000000000000);
-      outputs
-    },
-  ),
-  (
-    |protocol: Protocol, rpc, mut builder: Builder, addr, outputs: Vec<ReceivedOutput>| async move {
-      add_inputs(protocol, &rpc, outputs, &mut builder).await;
-      builder.add_payment(addr, 2);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let output = scanner.scan_transaction(&tx).not_locked().swap_remove(0);
-      assert_eq!(output.commitment().amount, 2);
-    },
-  ),
-);
-
-test!(
-  spend_max_outputs,
-  (
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 1000000000000);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut outputs = scanner.scan_transaction(&tx).not_locked();
-      outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
-      assert_eq!(outputs[0].commitment().amount, 1000000000000);
-      outputs
-    },
-  ),
-  (
-    |protocol: Protocol, rpc, mut builder: Builder, addr, outputs: Vec<ReceivedOutput>| async move {
-      add_inputs(protocol, &rpc, outputs, &mut builder).await;
-
-      for i in 0 .. 15 {
-        builder.add_payment(addr, i + 1);
-      }
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut scanned_tx = scanner.scan_transaction(&tx).not_locked();
-
-      let mut output_amounts = HashSet::new();
-      for i in 0 .. 15 {
-        output_amounts.insert((i + 1) as u64);
-      }
-      for _ in 0 .. 15 {
-        let output = scanned_tx.swap_remove(0);
-        let amount = output.commitment().amount;
-        assert!(output_amounts.contains(&amount));
-        output_amounts.remove(&amount);
-      }
-    },
-  ),
-);
-
-test!(
-  spend_max_outputs_to_subaddresses,
-  (
-    |_, mut builder: Builder, addr| async move {
-      builder.add_payment(addr, 1000000000000);
-      (builder.build().unwrap(), ())
-    },
-    |_, tx: Transaction, mut scanner: Scanner, _| async move {
-      let mut outputs = scanner.scan_transaction(&tx).not_locked();
-      outputs.sort_by(|x, y| x.commitment().amount.cmp(&y.commitment().amount));
-      assert_eq!(outputs[0].commitment().amount, 1000000000000);
-      outputs
-    },
-  ),
-  (
-    |protocol: Protocol, rpc, mut builder: Builder, _, outputs: Vec<ReceivedOutput>| async move {
-      add_inputs(protocol, &rpc, outputs, &mut builder).await;
-
-      let view = runner::random_address().1;
-      let mut scanner = Scanner::from_view(view.clone(), Some(HashSet::new()));
-
-      let mut subaddresses = vec![];
-      for i in 0 .. 15 {
-        let subaddress = SubaddressIndex::new(0, i + 1).unwrap();
-        scanner.register_subaddress(subaddress);
-
-        builder.add_payment(
-          view.address(Network::Mainnet, AddressSpec::Subaddress(subaddress)),
-          (i + 1) as u64,
-        );
-        subaddresses.push(subaddress);
-      }
-
-      (builder.build().unwrap(), (scanner, subaddresses))
-    },
-    |_, tx: Transaction, _, mut state: (Scanner, Vec<SubaddressIndex>)| async move {
-      use std::collections::HashMap;
-
-      let mut scanned_tx = state.0.scan_transaction(&tx).not_locked();
-
-      let mut output_amounts_by_subaddress = HashMap::new();
-      for i in 0 .. 15 {
-        output_amounts_by_subaddress.insert((i + 1) as u64, state.1[i]);
-      }
-      for _ in 0 .. 15 {
-        let output = scanned_tx.swap_remove(0);
-        let amount = output.commitment().amount;
-
-        assert!(output_amounts_by_subaddress.contains_key(&amount));
-        assert_eq!(output.metadata.subaddress, Some(output_amounts_by_subaddress[&amount]));
-
-        output_amounts_by_subaddress.remove(&amount);
-      }
-    },
-  ),
-);

common/db/Cargo.toml

@@ -1,20 +1,25 @@
 [package]
 name = "serai-db"
-version = "0.1.0"
+version = "0.1.1"
 description = "A simple database trait and backends for it"
 license = "MIT"
 repository = "https://github.com/serai-dex/serai/tree/develop/common/db"
 authors = ["Luke Parker <lukeparker5132@gmail.com>"]
 keywords = []
 edition = "2021"
-rust-version = "1.65"
+rust-version = "1.71"
 
 [package.metadata.docs.rs]
 all-features = true
 rustdoc-args = ["--cfg", "docsrs"]
 
+[lints]
+workspace = true
+
 [dependencies]
-rocksdb = { version = "0.21", default-features = false, features = ["lz4"], optional = true }
+parity-db = { version = "0.4", default-features = false, optional = true }
+rocksdb = { version = "0.23", default-features = false, features = ["zstd"], optional = true }
 
 [features]
+parity-db = ["dep:parity-db"]
 rocksdb = ["dep:rocksdb"]

common/db/README.md

@@ -0,0 +1,8 @@
+# Serai DB
+
+An inefficient, minimal abstraction around databases.
+
+The abstraction offers `get`, `put`, and `del` with helper functions and macros
+built on top. Database iteration is not offered, forcing the caller to manually
+implement indexing schemes. This ensures wide compatibility across abstracted
+databases.

common/db/src/create_db.rs

@@ -22,7 +22,7 @@ pub fn serai_db_key(
 ///
 /// * `db_name` - A database name
 /// * `field_name` - An item name
-/// * `args` - Comma seperated list of key arguments
+/// * `args` - Comma separated list of key arguments
 /// * `field_type` - The return type
 ///
 /// # Example
@@ -38,33 +38,66 @@ pub fn serai_db_key(
 #[macro_export]
 macro_rules! create_db {
   ($db_name: ident {
-    $($field_name: ident: ($($arg: ident: $arg_type: ty),*) -> $field_type: ty$(,)?)*
+    $(
+      $field_name: ident:
+        $(<$($generic_name: tt: $generic_type: tt),+>)?(
+          $($arg: ident: $arg_type: ty),*
+        ) -> $field_type: ty$(,)?
+    )*
   }) => {
     $(
       #[derive(Clone, Debug)]
-      pub struct $field_name;
-      impl $field_name {
-        pub fn key($($arg: $arg_type),*) -> Vec<u8> {
+      pub(crate) struct $field_name$(
+        <$($generic_name: $generic_type),+>
+      )?$(
+        (core::marker::PhantomData<($($generic_name),+)>)
+      )?;
+      impl$(<$($generic_name: $generic_type),+>)? $field_name$(<$($generic_name),+>)? {
+        pub(crate) fn key($($arg: $arg_type),*) -> Vec<u8> {
+          use scale::Encode;
           $crate::serai_db_key(
             stringify!($db_name).as_bytes(),
             stringify!($field_name).as_bytes(),
             ($($arg),*).encode()
           )
         }
-        #[allow(dead_code)]
-        pub fn set(txn: &mut impl DbTxn $(, $arg: $arg_type)*, data: &$field_type) {
-          let key = $field_name::key($($arg),*);
+        pub(crate) fn set(
+          txn: &mut impl DbTxn
+          $(, $arg: $arg_type)*,
+          data: &$field_type
+        ) {
+          let key = Self::key($($arg),*);
           txn.put(&key, borsh::to_vec(data).unwrap());
         }
-        #[allow(dead_code)]
-        pub fn get(getter: &impl Get, $($arg: $arg_type),*) -> Option<$field_type> {
-          getter.get($field_name::key($($arg),*)).map(|data| {
+        pub(crate) fn get(
+          getter: &impl Get,
+          $($arg: $arg_type),*
+        ) -> Option<$field_type> {
+          getter.get(Self::key($($arg),*)).map(|data| {
             borsh::from_slice(data.as_ref()).unwrap()
           })
         }
+        // Returns a PhantomData of all generic types so if the generic was only used in the value,
+        // not the keys, this doesn't have unused generic types
         #[allow(dead_code)]
-        pub fn del(txn: &mut impl DbTxn $(, $arg: $arg_type)*) {
-          txn.del(&$field_name::key($($arg),*))
+        pub(crate) fn del(
+          txn: &mut impl DbTxn
+          $(, $arg: $arg_type)*
+        ) -> core::marker::PhantomData<($($($generic_name),+)?)> {
+          txn.del(&Self::key($($arg),*));
+          core::marker::PhantomData
+        }
+
+        pub(crate) fn take(
+          txn: &mut impl DbTxn
+          $(, $arg: $arg_type)*
+        ) -> Option<$field_type> {
+          let key = Self::key($($arg),*);
+          let res = txn.get(&key).map(|data| borsh::from_slice(data.as_ref()).unwrap());
+          if res.is_some() {
+            txn.del(key);
+          }
+          res
         }
       }
     )*
@@ -74,19 +107,30 @@ macro_rules! create_db {
 #[macro_export]
 macro_rules! db_channel {
   ($db_name: ident {
-    $($field_name: ident: ($($arg: ident: $arg_type: ty),*) -> $field_type: ty$(,)?)*
+    $($field_name: ident:
+      $(<$($generic_name: tt: $generic_type: tt),+>)?(
+        $($arg: ident: $arg_type: ty),*
+      ) -> $field_type: ty$(,)?
+    )*
   }) => {
     $(
       create_db! {
         $db_name {
-          $field_name: ($($arg: $arg_type,)* index: u32) -> $field_type,
+          $field_name: $(<$($generic_name: $generic_type),+>)?(
+            $($arg: $arg_type,)*
+            index: u32
+          ) -> $field_type
         }
       }
 
-      impl $field_name {
-        pub fn send(txn: &mut impl DbTxn $(, $arg: $arg_type)*, value: &$field_type) {
+      impl$(<$($generic_name: $generic_type),+>)? $field_name$(<$($generic_name),+>)? {
+        pub(crate) fn send(
+          txn: &mut impl DbTxn
+          $(, $arg: $arg_type)*
+          , value: &$field_type
+        ) {
           // Use index 0 to store the amount of messages
-          let messages_sent_key = $field_name::key($($arg),*, 0);
+          let messages_sent_key = Self::key($($arg,)* 0);
           let messages_sent = txn.get(&messages_sent_key).map(|counter| {
             u32::from_le_bytes(counter.try_into().unwrap())
           }).unwrap_or(0);
@@ -97,19 +141,35 @@ macro_rules! db_channel {
           // at the same time
           let index_to_use = messages_sent + 2;
 
-          $field_name::set(txn, $($arg),*, index_to_use, value);
+          Self::set(txn, $($arg,)* index_to_use, value);
         }
-        pub fn try_recv(txn: &mut impl DbTxn $(, $arg: $arg_type)*) -> Option<$field_type> {
-          let messages_recvd_key = $field_name::key($($arg),*, 1);
+        pub(crate) fn peek(
+          getter: &impl Get
+          $(, $arg: $arg_type)*
+        ) -> Option<$field_type> {
+          let messages_recvd_key = Self::key($($arg,)* 1);
+          let messages_recvd = getter.get(&messages_recvd_key).map(|counter| {
+            u32::from_le_bytes(counter.try_into().unwrap())
+          }).unwrap_or(0);
+
+          let index_to_read = messages_recvd + 2;
+
+          Self::get(getter, $($arg,)* index_to_read)
+        }
+        pub(crate) fn try_recv(
+          txn: &mut impl DbTxn
+          $(, $arg: $arg_type)*
+        ) -> Option<$field_type> {
+          let messages_recvd_key = Self::key($($arg,)* 1);
           let messages_recvd = txn.get(&messages_recvd_key).map(|counter| {
             u32::from_le_bytes(counter.try_into().unwrap())
           }).unwrap_or(0);
 
           let index_to_read = messages_recvd + 2;
 
-          let res = $field_name::get(txn, $($arg),*, index_to_read);
+          let res = Self::get(txn, $($arg,)* index_to_read);
           if res.is_some() {
-            $field_name::del(txn, $($arg),*, index_to_read);
+            Self::del(txn, $($arg,)* index_to_read);
             txn.put(&messages_recvd_key, (messages_recvd + 1).to_le_bytes());
           }
           res

common/db/src/lib.rs

@@ -9,26 +9,92 @@ mod rocks;
 #[cfg(feature = "rocksdb")]
 pub use rocks::{RocksDB, new_rocksdb};
 
-/// An object implementing get.
+#[cfg(feature = "parity-db")]
+mod parity_db;
+#[cfg(feature = "parity-db")]
+pub use parity_db::{ParityDb, new_parity_db};
+
+/// An object implementing `get`.
 pub trait Get {
+  /// Get a value from the database.
   fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>>;
 }
 
-/// An atomic database operation.
+/// An atomic database transaction.
+///
+/// A transaction is only required to atomically commit. It is not required that two `Get` calls
+/// made with the same transaction return the same result, if another transaction wrote to that
+/// key.
+///
+/// If two transactions are created, and both write (including deletions) to the same key, behavior
+/// is undefined. The transaction may block, deadlock, panic, overwrite one of the two values
+/// randomly, or any other action, at time of write or at time of commit.
 #[must_use]
-pub trait DbTxn: Send + Get {
+pub trait DbTxn: Sized + Send + Get {
+  /// Write a value to this key.
   fn put(&mut self, key: impl AsRef<[u8]>, value: impl AsRef<[u8]>);
+  /// Delete the value from this key.
   fn del(&mut self, key: impl AsRef<[u8]>);
+  /// Commit this transaction.
   fn commit(self);
+  /// Close this transaction.
+  ///
+  /// This is equivalent to `Drop` on transactions which can be dropped. This is explicit and works
+  /// with transactions which can't be dropped.
+  fn close(self) {
+    drop(self);
+  }
 }
 
-/// A database supporting atomic operations.
+// Credit for the idea goes to https://jack.wrenn.fyi/blog/undroppable
+pub struct Undroppable<T>(Option<T>);
+impl<T> Drop for Undroppable<T> {
+  fn drop(&mut self) {
+    // Use an assertion at compile time to prevent this code from compiling if generated
+    #[allow(clippy::assertions_on_constants)]
+    const {
+      assert!(false, "Undroppable DbTxn was dropped. Ensure all code paths call commit or close");
+    }
+  }
+}
+impl<T: DbTxn> Get for Undroppable<T> {
+  fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
+    self.0.as_ref().unwrap().get(key)
+  }
+}
+impl<T: DbTxn> DbTxn for Undroppable<T> {
+  fn put(&mut self, key: impl AsRef<[u8]>, value: impl AsRef<[u8]>) {
+    self.0.as_mut().unwrap().put(key, value);
+  }
+  fn del(&mut self, key: impl AsRef<[u8]>) {
+    self.0.as_mut().unwrap().del(key);
+  }
+  fn commit(mut self) {
+    self.0.take().unwrap().commit();
+    let _ = core::mem::ManuallyDrop::new(self);
+  }
+  fn close(mut self) {
+    drop(self.0.take().unwrap());
+    let _ = core::mem::ManuallyDrop::new(self);
+  }
+}
+
+/// A database supporting atomic transaction.
 pub trait Db: 'static + Send + Sync + Clone + Get {
+  /// The type representing a database transaction.
   type Transaction<'a>: DbTxn;
+  /// Calculate a key for a database entry.
+  ///
+  /// Keys are separated by the database, the item within the database, and the item's key itself.
   fn key(db_dst: &'static [u8], item_dst: &'static [u8], key: impl AsRef<[u8]>) -> Vec<u8> {
     let db_len = u8::try_from(db_dst.len()).unwrap();
     let dst_len = u8::try_from(item_dst.len()).unwrap();
     [[db_len].as_ref(), db_dst, [dst_len].as_ref(), item_dst, key.as_ref()].concat()
   }
-  fn txn(&mut self) -> Self::Transaction<'_>;
+  /// Open a new transaction which may be dropped.
+  fn unsafe_txn(&mut self) -> Self::Transaction<'_>;
+  /// Open a new transaction which must be committed or closed.
+  fn txn(&mut self) -> Undroppable<Self::Transaction<'_>> {
+    Undroppable(Some(self.unsafe_txn()))
+  }
 }

common/db/src/mem.rs

@@ -6,12 +6,12 @@ use std::{
 
 use crate::*;
 
-/// An atomic operation for the in-memory databae.
+/// An atomic operation for the in-memory database.
 #[must_use]
 #[derive(PartialEq, Eq, Debug)]
 pub struct MemDbTxn<'a>(&'a MemDb, HashMap<Vec<u8>, Vec<u8>>, HashSet<Vec<u8>>);
 
-impl<'a> Get for MemDbTxn<'a> {
+impl Get for MemDbTxn<'_> {
   fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
     if self.2.contains(key.as_ref()) {
       return None;
@@ -23,7 +23,7 @@ impl<'a> Get for MemDbTxn<'a> {
       .or_else(|| self.0 .0.read().unwrap().get(key.as_ref()).cloned())
   }
 }
-impl<'a> DbTxn for MemDbTxn<'a> {
+impl DbTxn for MemDbTxn<'_> {
   fn put(&mut self, key: impl AsRef<[u8]>, value: impl AsRef<[u8]>) {
     self.2.remove(key.as_ref());
     self.1.insert(key.as_ref().to_vec(), value.as_ref().to_vec());
@@ -74,7 +74,7 @@ impl Get for MemDb {
 }
 impl Db for MemDb {
   type Transaction<'a> = MemDbTxn<'a>;
-  fn txn(&mut self) -> MemDbTxn<'_> {
+  fn unsafe_txn(&mut self) -> MemDbTxn<'_> {
     MemDbTxn(self, HashMap::new(), HashSet::new())
   }
 }

common/db/src/parity_db.rs

@@ -0,0 +1,47 @@
+use std::sync::Arc;
+
+pub use ::parity_db::{Options, Db as ParityDb};
+
+use crate::*;
+
+#[must_use]
+pub struct Transaction<'a>(&'a Arc<ParityDb>, Vec<(u8, Vec<u8>, Option<Vec<u8>>)>);
+
+impl Get for Transaction<'_> {
+  fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
+    let mut res = self.0.get(&key);
+    for change in &self.1 {
+      if change.1 == key.as_ref() {
+        res.clone_from(&change.2);
+      }
+    }
+    res
+  }
+}
+impl DbTxn for Transaction<'_> {
+  fn put(&mut self, key: impl AsRef<[u8]>, value: impl AsRef<[u8]>) {
+    self.1.push((0, key.as_ref().to_vec(), Some(value.as_ref().to_vec())))
+  }
+  fn del(&mut self, key: impl AsRef<[u8]>) {
+    self.1.push((0, key.as_ref().to_vec(), None))
+  }
+  fn commit(self) {
+    self.0.commit(self.1).unwrap()
+  }
+}
+
+impl Get for Arc<ParityDb> {
+  fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
+    ParityDb::get(self, 0, key.as_ref()).unwrap()
+  }
+}
+impl Db for Arc<ParityDb> {
+  type Transaction<'a> = Transaction<'a>;
+  fn unsafe_txn(&mut self) -> Self::Transaction<'_> {
+    Transaction(self, vec![])
+  }
+}
+
+pub fn new_parity_db(path: &str) -> Arc<ParityDb> {
+  Arc::new(ParityDb::open_or_create(&Options::with_columns(std::path::Path::new(path), 1)).unwrap())
+}

common/db/src/rocks.rs

@@ -1,42 +1,66 @@
 use std::sync::Arc;
 
-use rocksdb::{DBCompressionType, ThreadMode, SingleThreaded, Options, Transaction, TransactionDB};
+use rocksdb::{
+  DBCompressionType, ThreadMode, SingleThreaded, LogLevel, WriteOptions,
+  Transaction as RocksTransaction, Options, OptimisticTransactionDB,
+};
 
 use crate::*;
 
-impl<T: ThreadMode> Get for Transaction<'_, TransactionDB<T>> {
+#[must_use]
+pub struct Transaction<'a, T: ThreadMode>(
+  RocksTransaction<'a, OptimisticTransactionDB<T>>,
+  &'a OptimisticTransactionDB<T>,
+);
+
+impl<T: ThreadMode> Get for Transaction<'_, T> {
   fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
-    self.get(key).expect("couldn't read from RocksDB via transaction")
+    self.0.get(key).expect("couldn't read from RocksDB via transaction")
   }
 }
-impl<T: ThreadMode> DbTxn for Transaction<'_, TransactionDB<T>> {
+impl<T: ThreadMode> DbTxn for Transaction<'_, T> {
   fn put(&mut self, key: impl AsRef<[u8]>, value: impl AsRef<[u8]>) {
-    Transaction::put(self, key, value).expect("couldn't write to RocksDB via transaction")
+    self.0.put(key, value).expect("couldn't write to RocksDB via transaction")
   }
   fn del(&mut self, key: impl AsRef<[u8]>) {
-    self.delete(key).expect("couldn't delete from RocksDB via transaction")
+    self.0.delete(key).expect("couldn't delete from RocksDB via transaction")
   }
   fn commit(self) {
-    Transaction::commit(self).expect("couldn't commit to RocksDB via transaction")
+    self.0.commit().expect("couldn't commit to RocksDB via transaction");
+    self.1.flush_wal(true).expect("couldn't flush RocksDB WAL");
+    self.1.flush().expect("couldn't flush RocksDB");
   }
 }
 
-impl<T: ThreadMode> Get for Arc<TransactionDB<T>> {
+impl<T: ThreadMode> Get for Arc<OptimisticTransactionDB<T>> {
   fn get(&self, key: impl AsRef<[u8]>) -> Option<Vec<u8>> {
-    TransactionDB::get(self, key).expect("couldn't read from RocksDB")
+    OptimisticTransactionDB::get(self, key).expect("couldn't read from RocksDB")
   }
 }
-impl<T: ThreadMode + 'static> Db for Arc<TransactionDB<T>> {
-  type Transaction<'a> = Transaction<'a, TransactionDB<T>>;
-  fn txn(&mut self) -> Self::Transaction<'_> {
-    self.transaction()
+impl<T: Send + ThreadMode + 'static> Db for Arc<OptimisticTransactionDB<T>> {
+  type Transaction<'a> = Transaction<'a, T>;
+  fn unsafe_txn(&mut self) -> Self::Transaction<'_> {
+    let mut opts = WriteOptions::default();
+    opts.set_sync(true);
+    Transaction(self.transaction_opt(&opts, &Default::default()), &**self)
   }
 }
 
-pub type RocksDB = Arc<TransactionDB<SingleThreaded>>;
+pub type RocksDB = Arc<OptimisticTransactionDB<SingleThreaded>>;
 pub fn new_rocksdb(path: &str) -> RocksDB {
   let mut options = Options::default();
   options.create_if_missing(true);
-  options.set_compression_type(DBCompressionType::Lz4);
-  Arc::new(TransactionDB::open(&options, &Default::default(), path).unwrap())
+  options.set_compression_type(DBCompressionType::Zstd);
+
+  options.set_wal_compression_type(DBCompressionType::Zstd);
+  // 10 MB
+  options.set_max_total_wal_size(10 * 1024 * 1024);
+  options.set_wal_size_limit_mb(10);
+
+  options.set_log_level(LogLevel::Warn);
+  // 1 MB
+  options.set_max_log_file_size(1024 * 1024);
+  options.set_recycle_log_file_num(1);
+
+  Arc::new(OptimisticTransactionDB::open(&options, path).unwrap())
 }

common/env/Cargo.toml

@@ -7,8 +7,11 @@ repository = "https://github.com/serai-dex/serai/tree/develop/common/env"
 authors = ["Luke Parker <lukeparker5132@gmail.com>"]
 keywords = []
 edition = "2021"
-rust-version = "1.60"
+rust-version = "1.71"
 
 [package.metadata.docs.rs]
 all-features = true
 rustdoc-args = ["--cfg", "docsrs"]
+
+[lints]
+workspace = true

common/env/src/lib.rs

@@ -3,6 +3,7 @@
 
 // Obtain a variable from the Serai environment/secret store.
 pub fn var(variable: &str) -> Option<String> {
-  // TODO: Move this to Kubernetes
+  // TODO: Move this to a proper secret store
+  // TODO: Unset this variable
   std::env::var(variable).ok()
 }

common/patchable-async-sleep/Cargo.toml

@@ -0,0 +1,20 @@
+[package]
+name = "patchable-async-sleep"
+version = "0.1.0"
+description = "An async sleep function, patchable to the preferred runtime"
+license = "MIT"
+repository = "https://github.com/serai-dex/serai/tree/develop/common/patchable-async-sleep"
+authors = ["Luke Parker <lukeparker5132@gmail.com>"]
+keywords = ["async", "sleep", "tokio", "smol", "async-std"]
+edition = "2021"
+rust-version = "1.71"
+
+[package.metadata.docs.rs]
+all-features = true
+rustdoc-args = ["--cfg", "docsrs"]
+
+[lints]
+workspace = true
+
+[dependencies]
+tokio = { version = "1", default-features = false, features = [ "time"] }

common/patchable-async-sleep/LICENSE

@@ -1,6 +1,6 @@
 MIT License
 
-Copyright (c) 2022-2023 Luke Parker
+Copyright (c) 2024 Luke Parker
 
 Permission is hereby granted, free of charge, to any person obtaining a copy
 of this software and associated documentation files (the "Software"), to deal

common/patchable-async-sleep/README.md

@@ -0,0 +1,7 @@
+# Patchable Async Sleep
+
+An async sleep function, patchable to the preferred runtime.
+
+This crate is `tokio`-backed. Applications which don't want to use `tokio`
+should patch this crate to one which works witht heir preferred runtime. The
+point of it is to have a minimal API surface to trivially facilitate such work.

common/patchable-async-sleep/src/lib.rs

@@ -0,0 +1,10 @@
+#![cfg_attr(docsrs, feature(doc_auto_cfg))]
+#![doc = include_str!("../README.md")]
+#![deny(missing_docs)]
+
+use core::time::Duration;
+
+/// Sleep for the specified duration.
+pub fn sleep(duration: Duration) -> impl core::future::Future<Output = ()> {
+  tokio::time::sleep(duration)
+}

common/request/Cargo.toml

@@ -7,18 +7,23 @@ repository = "https://github.com/serai-dex/serai/tree/develop/common/simple-requ
 authors = ["Luke Parker <lukeparker5132@gmail.com>"]
 keywords = ["http", "https", "async", "request", "ssl"]
 edition = "2021"
-rust-version = "1.64"
+rust-version = "1.71"
 
 [package.metadata.docs.rs]
 all-features = true
 rustdoc-args = ["--cfg", "docsrs"]
 
+[lints]
+workspace = true
+
 [dependencies]
-# Deprecated here means to enable deprecated warnings, not to restore deprecated APIs
-hyper = { version = "0.14", default-features = false, features = ["http1", "tcp", "client", "runtime", "backports", "deprecated"] }
+tower-service = { version = "0.3", default-features = false }
+hyper = { version = "1", default-features = false, features = ["http1", "client"] }
+hyper-util = { version = "0.1", default-features = false, features = ["http1", "client-legacy", "tokio"] }
+http-body-util = { version = "0.1", default-features = false }
 tokio = { version = "1", default-features = false }
 
-hyper-rustls = { version = "0.24", default-features = false, features = ["http1", "native-tokio"], optional = true }
+hyper-rustls = { version = "0.27", default-features = false, features = ["http1", "ring", "rustls-native-certs", "native-tokio"], optional = true }
 
 zeroize = { version = "1", optional = true }
 base64ct = { version = "1", features = ["alloc"], optional = true }

common/request/src/lib.rs

@@ -5,14 +5,13 @@ use std::sync::Arc;
 
 use tokio::sync::Mutex;
 
+use tower_service::Service as TowerService;
 #[cfg(feature = "tls")]
 use hyper_rustls::{HttpsConnectorBuilder, HttpsConnector};
-use hyper::{
-  Uri,
-  header::HeaderValue,
-  body::Body,
-  service::Service,
-  client::{HttpConnector, conn::http1::SendRequest},
+use hyper::{Uri, header::HeaderValue, body::Bytes, client::conn::http1::SendRequest};
+use hyper_util::{
+  rt::tokio::TokioExecutor,
+  client::legacy::{Client as HyperClient, connect::HttpConnector},
 };
 pub use hyper;
 
@@ -29,6 +28,7 @@ pub enum Error {
   InconsistentHost,
   ConnectionError(Box<dyn Send + Sync + std::error::Error>),
   Hyper(hyper::Error),
+  HyperUtil(hyper_util::client::legacy::Error),
 }
 
 #[cfg(not(feature = "tls"))]
@@ -38,8 +38,12 @@ type Connector = HttpsConnector<HttpConnector>;
 
 #[derive(Clone, Debug)]
 enum Connection {
-  ConnectionPool(hyper::Client<Connector>),
-  Connection { connector: Connector, host: Uri, connection: Arc<Mutex<Option<SendRequest<Body>>>> },
+  ConnectionPool(HyperClient<Connector, Full<Bytes>>),
+  Connection {
+    connector: Connector,
+    host: Uri,
+    connection: Arc<Mutex<Option<SendRequest<Full<Bytes>>>>>,
+  },
 }
 
 #[derive(Clone, Debug)]
@@ -49,21 +53,33 @@ pub struct Client {
 
 impl Client {
   fn connector() -> Connector {
+    let mut res = HttpConnector::new();
+    res.set_keepalive(Some(core::time::Duration::from_secs(60)));
+    res.set_nodelay(true);
+    res.set_reuse_address(true);
     #[cfg(feature = "tls")]
-    let res =
-      HttpsConnectorBuilder::new().with_native_roots().https_or_http().enable_http1().build();
-    #[cfg(not(feature = "tls"))]
-    let res = HttpConnector::new();
+    res.enforce_http(false);
+    #[cfg(feature = "tls")]
+    let res = HttpsConnectorBuilder::new()
+      .with_native_roots()
+      .expect("couldn't fetch system's SSL roots")
+      .https_or_http()
+      .enable_http1()
+      .wrap_connector(res);
     res
   }
 
   pub fn with_connection_pool() -> Client {
     Client {
-      connection: Connection::ConnectionPool(hyper::Client::builder().build(Self::connector())),
+      connection: Connection::ConnectionPool(
+        HyperClient::builder(TokioExecutor::new())
+          .pool_idle_timeout(core::time::Duration::from_secs(60))
+          .build(Self::connector()),
+      ),
     }
   }
 
-  pub fn without_connection_pool(host: String) -> Result<Client, Error> {
+  pub fn without_connection_pool(host: &str) -> Result<Client, Error> {
     Ok(Client {
       connection: Connection::Connection {
         connector: Self::connector(),
@@ -79,7 +95,7 @@ impl Client {
     })
   }
 
-  pub async fn request<R: Into<Request>>(&self, request: R) -> Result<Response, Error> {
+  pub async fn request<R: Into<Request>>(&self, request: R) -> Result<Response<'_>, Error> {
     let request: Request = request.into();
     let mut request = request.0;
     if let Some(header_host) = request.headers().get(hyper::header::HOST) {
@@ -111,8 +127,10 @@ impl Client {
         .insert(hyper::header::HOST, HeaderValue::from_str(&host).map_err(|_| Error::InvalidUri)?);
     }
 
-    Ok(Response(match &self.connection {
-      Connection::ConnectionPool(client) => client.request(request).await.map_err(Error::Hyper)?,
+    let response = match &self.connection {
+      Connection::ConnectionPool(client) => {
+        client.request(request).await.map_err(Error::HyperUtil)?
+      }
       Connection::Connection { connector, host, connection } => {
         let mut connection_lock = connection.lock().await;
 
@@ -125,8 +143,8 @@ impl Client {
           let call_res = call_res.map_err(Error::ConnectionError);
           let (requester, connection) =
             hyper::client::conn::http1::handshake(call_res?).await.map_err(Error::Hyper)?;
-          // This will die when we drop the requester, so we don't need to track an AbortHandle for
-          // it
+          // This will die when we drop the requester, so we don't need to track an AbortHandle
+          // for it
           tokio::spawn(connection);
           *connection_lock = Some(requester);
         }
@@ -137,7 +155,7 @@ impl Client {
           // Send the request
           let res = connection.send_request(request).await;
           if let Ok(res) = res {
-            return Ok(Response(res));
+            return Ok(Response(res, self));
           }
           err = res.err();
         }
@@ -145,6 +163,8 @@ impl Client {
         *connection_lock = None;
         Err(Error::Hyper(err.unwrap()))?
       }
-    }))
+    };
+
+    Ok(Response(response, self))
   }
 }

common/request/src/request.rs

@@ -1,12 +1,13 @@
-use hyper::body::Body;
+use hyper::body::Bytes;
 #[cfg(feature = "basic-auth")]
 use hyper::header::HeaderValue;
+pub use http_body_util::Full;
 
 #[cfg(feature = "basic-auth")]
 use crate::Error;
 
 #[derive(Debug)]
-pub struct Request(pub(crate) hyper::Request<Body>);
+pub struct Request(pub(crate) hyper::Request<Full<Bytes>>);
 impl Request {
   #[cfg(feature = "basic-auth")]
   fn username_password_from_uri(&self) -> Result<(String, String), Error> {
@@ -18,7 +19,7 @@ impl Request {
 
         let mut userpass_iter = userpass.split(':');
         let username = userpass_iter.next().unwrap().to_string();
-        let password = userpass_iter.next().map(str::to_string).unwrap_or_else(String::new);
+        let password = userpass_iter.next().map_or_else(String::new, str::to_string);
         zeroize::Zeroize::zeroize(&mut userpass);
 
         return Ok((username, password));
@@ -59,8 +60,8 @@ impl Request {
     let _ = self.basic_auth_from_uri();
   }
 }
-impl From<hyper::Request<Body>> for Request {
-  fn from(request: hyper::Request<Body>) -> Request {
+impl From<hyper::Request<Full<Bytes>>> for Request {
+  fn from(request: hyper::Request<Full<Bytes>>) -> Request {
     Request(request)
   }
 }