coordinator/src/tributary/mod.rs

use std::{io, collections::HashMap};

use blake2::{Digest, Blake2s256};
use transcript::{Transcript, RecommendedTranscript};

use ciphersuite::{Ciphersuite, Ristretto};
use frost::Participant;

use scale::Encode;

use serai_client::validator_sets::primitives::{ValidatorSet, ValidatorSetData};

#[rustfmt::skip]
use tributary::{
  ReadWrite, Signed, TransactionError, TransactionKind, Transaction as TransactionTrait,
};

mod db;
pub use db::*;

pub mod scanner;

#[derive(Clone, PartialEq, Eq, Debug)]
pub struct TributarySpec {
  serai_block: [u8; 32],
  start_time: u64,
  set: ValidatorSet,
  validators: Vec<(<Ristretto as Ciphersuite>::G, u64)>,
}

impl TributarySpec {
  pub fn new(
    serai_block: [u8; 32],
    start_time: u64,
    set: ValidatorSet,
    set_data: ValidatorSetData,
  ) -> TributarySpec {
    let mut validators = vec![];
    for (participant, amount) in set_data.participants {
      // TODO: Ban invalid keys from being validators on the Serai side
      let participant = <Ristretto as Ciphersuite>::read_G::<&[u8]>(&mut participant.0.as_ref())
        .expect("invalid key registered as participant");
      // Give one weight on Tributary per bond instance
      validators.push((participant, amount.0 / set_data.bond.0));
    }

    Self { serai_block, start_time, set, validators }
  }

  pub fn set(&self) -> ValidatorSet {
    self.set
  }

  pub fn genesis(&self) -> [u8; 32] {
    // Calculate the genesis for this Tributary
    let mut genesis = RecommendedTranscript::new(b"Serai Tributary Genesis");
    // This locks it to a specific Serai chain
    genesis.append_message(b"serai_block", self.serai_block);
    genesis.append_message(b"session", self.set.session.0.to_le_bytes());
    genesis.append_message(b"network", self.set.network.encode());
    let genesis = genesis.challenge(b"genesis");
    let genesis_ref: &[u8] = genesis.as_ref();
    genesis_ref[.. 32].try_into().unwrap()
  }

  pub fn start_time(&self) -> u64 {
    self.start_time
  }

  pub fn n(&self) -> u16 {
    // TODO: Support multiple key shares
    // self.validators.iter().map(|(_, weight)| u16::try_from(weight).unwrap()).sum()
    self.validators().len().try_into().unwrap()
  }

  pub fn t(&self) -> u16 {
    (2 * (self.n() / 3)) + 1
  }

  pub fn i(&self, key: <Ristretto as Ciphersuite>::G) -> Option<Participant> {
    let mut i = 1;
    // TODO: Support multiple key shares
    for (validator, _weight) in &self.validators {
      if validator == &key {
        // return (i .. (i + weight)).to_vec();
        return Some(Participant::new(i).unwrap());
      }
      // i += weight;
      i += 1;
    }
    None
  }

  pub fn validators(&self) -> HashMap<<Ristretto as Ciphersuite>::G, u64> {
    let mut res = HashMap::new();
    for (key, amount) in self.validators.clone() {
      res.insert(key, amount);
    }
    res
  }
}

#[derive(Clone, PartialEq, Eq, Debug)]
pub struct SignData {
  pub plan: [u8; 32],
  pub attempt: u32,

  pub data: Vec<u8>,

  pub signed: Signed,
}

impl ReadWrite for SignData {
  fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {
    let mut plan = [0; 32];
    reader.read_exact(&mut plan)?;

    let mut attempt = [0; 4];
    reader.read_exact(&mut attempt)?;
    let attempt = u32::from_le_bytes(attempt);

    let data = {
      let mut data_len = [0; 2];
      reader.read_exact(&mut data_len)?;
      let mut data = vec![0; usize::from(u16::from_le_bytes(data_len))];
      reader.read_exact(&mut data)?;
      data
    };

    let signed = Signed::read(reader)?;

    Ok(SignData { plan, attempt, data, signed })
  }

  fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {
    writer.write_all(&self.plan)?;
    writer.write_all(&self.attempt.to_le_bytes())?;

    if self.data.len() > u16::MAX.into() {
      // Currently, the largest sign item would be a Monero transaction
      // It provides 4 commitments per input (128 bytes), a 64-byte proof for them, along with a
      // key image and proof (96 bytes)
      // Even with all of that, we could support 227 inputs in a single TX
      // Monero is limited to 120 inputs per TX
      Err(io::Error::new(io::ErrorKind::Other, "signing data exceeded 65535 bytes"))?;
    }
    writer.write_all(&u16::try_from(self.data.len()).unwrap().to_le_bytes())?;
    writer.write_all(&self.data)?;

    self.signed.write(writer)
  }
}

#[derive(Clone, PartialEq, Eq, Debug)]
pub enum Transaction {
  // Once this completes successfully, no more instances should be created.
  DkgCommitments(u32, Vec<u8>, Signed),
  DkgShares(u32, HashMap<Participant, Vec<u8>>, Signed),

  SignPreprocess(SignData),
  SignShare(SignData),

  FinalizedBlock(u64),

  BatchPreprocess(SignData),
  BatchShare(SignData),
}

impl ReadWrite for Transaction {
  fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {
    let mut kind = [0];
    reader.read_exact(&mut kind)?;

    match kind[0] {
      0 => {
        let mut attempt = [0; 4];
        reader.read_exact(&mut attempt)?;
        let attempt = u32::from_le_bytes(attempt);

        let commitments = {
          let mut commitments_len = [0; 2];
          reader.read_exact(&mut commitments_len)?;
          let mut commitments = vec![0; usize::from(u16::from_le_bytes(commitments_len))];
          reader.read_exact(&mut commitments)?;
          commitments
        };

        let signed = Signed::read(reader)?;

        Ok(Transaction::DkgCommitments(attempt, commitments, signed))
      }

      1 => {
        let mut attempt = [0; 4];
        reader.read_exact(&mut attempt)?;
        let attempt = u32::from_le_bytes(attempt);

        let shares = {
          let mut share_quantity = [0; 2];
          reader.read_exact(&mut share_quantity)?;

          let mut share_len = [0; 2];
          reader.read_exact(&mut share_len)?;
          let share_len = usize::from(u16::from_le_bytes(share_len));

          let mut shares = HashMap::new();
          for i in 0 .. u16::from_le_bytes(share_quantity) {
            let participant = Participant::new(i + 1).unwrap();
            let mut share = vec![0; share_len];
            reader.read_exact(&mut share)?;
            shares.insert(participant, share);
          }
          shares
        };

        let signed = Signed::read(reader)?;

        Ok(Transaction::DkgShares(attempt, shares, signed))
      }

      2 => SignData::read(reader).map(Transaction::SignPreprocess),
      3 => SignData::read(reader).map(Transaction::SignShare),

      4 => {
        let mut block = [0; 8];
        reader.read_exact(&mut block)?;
        Ok(Transaction::FinalizedBlock(u64::from_le_bytes(block)))
      }

      5 => SignData::read(reader).map(Transaction::BatchPreprocess),
      6 => SignData::read(reader).map(Transaction::BatchShare),
      _ => Err(io::Error::new(io::ErrorKind::Other, "invalid transaction type")),
    }
  }

  fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {
    match self {
      Transaction::DkgCommitments(attempt, commitments, signed) => {
        writer.write_all(&[0])?;
        writer.write_all(&attempt.to_le_bytes())?;
        if commitments.len() > u16::MAX.into() {
          // t commitments and an encryption key mean a u16 is fine until a threshold > 2000 occurs
          Err(io::Error::new(io::ErrorKind::Other, "dkg commitments exceeded 65535 bytes"))?;
        }
        writer.write_all(&u16::try_from(commitments.len()).unwrap().to_le_bytes())?;
        writer.write_all(commitments)?;
        signed.write(writer)
      }

      Transaction::DkgShares(attempt, shares, signed) => {
        writer.write_all(&[1])?;
        writer.write_all(&attempt.to_le_bytes())?;
        // Shares are indexed by non-zero u16s (Participants), so this can't fail
        writer.write_all(&u16::try_from(shares.len()).unwrap().to_le_bytes())?;
        let mut share_len = None;
        for participant in 0 .. shares.len() {
          let share = &shares[&Participant::new(u16::try_from(participant + 1).unwrap()).unwrap()];
          if let Some(share_len) = share_len {
            if share.len() != share_len {
              panic!("variable length shares");
            }
          } else {
            // For BLS12-381 G2, this would be:
            // - A 32-byte share
            // - A 96-byte ephemeral key
            // - A 128-byte signature
            // Hence why this has to be u16
            writer.write_all(&u16::try_from(share.len()).unwrap().to_le_bytes())?;
            share_len = Some(share.len());
          }

          writer.write_all(share)?;
        }
        signed.write(writer)
      }

      Transaction::SignPreprocess(data) => {
        writer.write_all(&[2])?;
        data.write(writer)
      }
      Transaction::SignShare(data) => {
        writer.write_all(&[3])?;
        data.write(writer)
      }

      Transaction::FinalizedBlock(block) => {
        writer.write_all(&[4])?;
        writer.write_all(&block.to_le_bytes())
      }

      Transaction::BatchPreprocess(data) => {
        writer.write_all(&[5])?;
        data.write(writer)
      }
      Transaction::BatchShare(data) => {
        writer.write_all(&[6])?;
        data.write(writer)
      }
    }
  }
}

impl TransactionTrait for Transaction {
  fn kind(&self) -> TransactionKind<'_> {
    match self {
      Transaction::DkgCommitments(_, _, signed) => TransactionKind::Signed(signed),
      Transaction::DkgShares(_, _, signed) => TransactionKind::Signed(signed),

      Transaction::SignPreprocess(data) => TransactionKind::Signed(&data.signed),
      Transaction::SignShare(data) => TransactionKind::Signed(&data.signed),

      Transaction::FinalizedBlock(_) => TransactionKind::Provided,

      Transaction::BatchPreprocess(data) => TransactionKind::Signed(&data.signed),
      Transaction::BatchShare(data) => TransactionKind::Signed(&data.signed),
    }
  }

  fn hash(&self) -> [u8; 32] {
    let mut tx = self.serialize();
    if let TransactionKind::Signed(signed) = self.kind() {
      // Make sure the part we're cutting off is the signature
      assert_eq!(tx.drain((tx.len() - 64) ..).collect::<Vec<_>>(), signed.signature.serialize());
    }
    Blake2s256::digest(tx).into()
  }

  fn verify(&self) -> Result<(), TransactionError> {
    // TODO: Augment with checks that the Vecs can be deser'd and are for recognized IDs
    Ok(())
  }
}
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`use std::{io, collections::HashMap};`

			`use blake2::{Digest, Blake2s256};`
Rename transaction file to tributary, add function for genesis 2023-04-17 02:09:29 -04:00			`use transcript::{Transcript, RecommendedTranscript};`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00
Initial Tributary handling 2023-04-20 05:05:17 -04:00			`use ciphersuite::{Ciphersuite, Ristretto};`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`use frost::Participant;`

Use an enum for Coin/NetworkId It originally wasn't an enum so software which had yet to update before an integration wouldn't error (as now enums are strictly typed). The strict typing is preferable though. 2023-04-18 02:01:53 -04:00			`use scale::Encode;`

Initial Tributary handling 2023-04-20 05:05:17 -04:00			`use serai_client::validator_sets::primitives::{ValidatorSet, ValidatorSetData};`
Rename transaction file to tributary, add function for genesis 2023-04-17 02:09:29 -04:00
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`#[rustfmt::skip]`
			`use tributary::{`
Rename transaction file to tributary, add function for genesis 2023-04-17 02:09:29 -04:00			`ReadWrite, Signed, TransactionError, TransactionKind, Transaction as TransactionTrait,`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`};`

Initial Tributary handling 2023-04-20 05:05:17 -04:00			`mod db;`
			`pub use db::*;`

			`pub mod scanner;`

			`#[derive(Clone, PartialEq, Eq, Debug)]`
			`pub struct TributarySpec {`
			`serai_block: [u8; 32],`
			`start_time: u64,`
			`set: ValidatorSet,`
			`validators: Vec<(<Ristretto as Ciphersuite>::G, u64)>,`
			`}`

			`impl TributarySpec {`
			`pub fn new(`
			`serai_block: [u8; 32],`
			`start_time: u64,`
			`set: ValidatorSet,`
			`set_data: ValidatorSetData,`
			`) -> TributarySpec {`
			`let mut validators = vec![];`
			`for (participant, amount) in set_data.participants {`
			`// TODO: Ban invalid keys from being validators on the Serai side`
			`let participant = <Ristretto as Ciphersuite>::read_G::<&[u8]>(&mut participant.0.as_ref())`
			`.expect("invalid key registered as participant");`
			`// Give one weight on Tributary per bond instance`
			`validators.push((participant, amount.0 / set_data.bond.0));`
			`}`

			`Self { serai_block, start_time, set, validators }`
			`}`

			`pub fn set(&self) -> ValidatorSet {`
			`self.set`
			`}`

			`pub fn genesis(&self) -> [u8; 32] {`
			`// Calculate the genesis for this Tributary`
			`let mut genesis = RecommendedTranscript::new(b"Serai Tributary Genesis");`
			`// This locks it to a specific Serai chain`
			`genesis.append_message(b"serai_block", self.serai_block);`
			`genesis.append_message(b"session", self.set.session.0.to_le_bytes());`
			`genesis.append_message(b"network", self.set.network.encode());`
			`let genesis = genesis.challenge(b"genesis");`
			`let genesis_ref: &[u8] = genesis.as_ref();`
			`genesis_ref[.. 32].try_into().unwrap()`
			`}`

			`pub fn start_time(&self) -> u64 {`
			`self.start_time`
			`}`

			`pub fn n(&self) -> u16 {`
			`// TODO: Support multiple key shares`
			`// self.validators.iter().map(\|(_, weight)\| u16::try_from(weight).unwrap()).sum()`
			`self.validators().len().try_into().unwrap()`
			`}`

			`pub fn t(&self) -> u16 {`
			`(2 * (self.n() / 3)) + 1`
			`}`

			`pub fn i(&self, key: <Ristretto as Ciphersuite>::G) -> Option<Participant> {`
			`let mut i = 1;`
			`// TODO: Support multiple key shares`
			`for (validator, _weight) in &self.validators {`
			`if validator == &key {`
			`// return (i .. (i + weight)).to_vec();`
			`return Some(Participant::new(i).unwrap());`
			`}`
			`// i += weight;`
			`i += 1;`
			`}`
			`None`
			`}`

			`pub fn validators(&self) -> HashMap<<Ristretto as Ciphersuite>::G, u64> {`
			`let mut res = HashMap::new();`
			`for (key, amount) in self.validators.clone() {`
			`res.insert(key, amount);`
			`}`
			`res`
			`}`
Rename transaction file to tributary, add function for genesis 2023-04-17 02:09:29 -04:00			`}`

Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`#[derive(Clone, PartialEq, Eq, Debug)]`
			`pub struct SignData {`
			`pub plan: [u8; 32],`
			`pub attempt: u32,`

			`pub data: Vec<u8>,`

			`pub signed: Signed,`
			`}`

			`impl ReadWrite for SignData {`
			`fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {`
			`let mut plan = [0; 32];`
			`reader.read_exact(&mut plan)?;`

			`let mut attempt = [0; 4];`
			`reader.read_exact(&mut attempt)?;`
			`let attempt = u32::from_le_bytes(attempt);`

			`let data = {`
			`let mut data_len = [0; 2];`
			`reader.read_exact(&mut data_len)?;`
			`let mut data = vec![0; usize::from(u16::from_le_bytes(data_len))];`
			`reader.read_exact(&mut data)?;`
			`data`
			`};`

			`let signed = Signed::read(reader)?;`

			`Ok(SignData { plan, attempt, data, signed })`
			`}`

			`fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {`
			`writer.write_all(&self.plan)?;`
			`writer.write_all(&self.attempt.to_le_bytes())?;`

Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`if self.data.len() > u16::MAX.into() {`
			`// Currently, the largest sign item would be a Monero transaction`
			`// It provides 4 commitments per input (128 bytes), a 64-byte proof for them, along with a`
			`// key image and proof (96 bytes)`
			`// Even with all of that, we could support 227 inputs in a single TX`
			`// Monero is limited to 120 inputs per TX`
			`Err(io::Error::new(io::ErrorKind::Other, "signing data exceeded 65535 bytes"))?;`
			`}`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`writer.write_all(&u16::try_from(self.data.len()).unwrap().to_le_bytes())?;`
			`writer.write_all(&self.data)?;`

			`self.signed.write(writer)`
			`}`
			`}`

			`#[derive(Clone, PartialEq, Eq, Debug)]`
			`pub enum Transaction {`
			`// Once this completes successfully, no more instances should be created.`
			`DkgCommitments(u32, Vec<u8>, Signed),`
			`DkgShares(u32, HashMap<Participant, Vec<u8>>, Signed),`

			`SignPreprocess(SignData),`
			`SignShare(SignData),`

			`FinalizedBlock(u64),`

			`BatchPreprocess(SignData),`
			`BatchShare(SignData),`
			`}`

			`impl ReadWrite for Transaction {`
			`fn read<R: io::Read>(reader: &mut R) -> io::Result<Self> {`
			`let mut kind = [0];`
			`reader.read_exact(&mut kind)?;`

			`match kind[0] {`
			`0 => {`
			`let mut attempt = [0; 4];`
			`reader.read_exact(&mut attempt)?;`
			`let attempt = u32::from_le_bytes(attempt);`

			`let commitments = {`
			`let mut commitments_len = [0; 2];`
			`reader.read_exact(&mut commitments_len)?;`
			`let mut commitments = vec![0; usize::from(u16::from_le_bytes(commitments_len))];`
			`reader.read_exact(&mut commitments)?;`
			`commitments`
			`};`

			`let signed = Signed::read(reader)?;`

			`Ok(Transaction::DkgCommitments(attempt, commitments, signed))`
			`}`

			`1 => {`
			`let mut attempt = [0; 4];`
			`reader.read_exact(&mut attempt)?;`
			`let attempt = u32::from_le_bytes(attempt);`

			`let shares = {`
			`let mut share_quantity = [0; 2];`
			`reader.read_exact(&mut share_quantity)?;`

Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`let mut share_len = [0; 2];`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`reader.read_exact(&mut share_len)?;`
Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`let share_len = usize::from(u16::from_le_bytes(share_len));`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00
			`let mut shares = HashMap::new();`
			`for i in 0 .. u16::from_le_bytes(share_quantity) {`
			`let participant = Participant::new(i + 1).unwrap();`
			`let mut share = vec![0; share_len];`
			`reader.read_exact(&mut share)?;`
			`shares.insert(participant, share);`
			`}`
			`shares`
			`};`

			`let signed = Signed::read(reader)?;`

			`Ok(Transaction::DkgShares(attempt, shares, signed))`
			`}`

			`2 => SignData::read(reader).map(Transaction::SignPreprocess),`
			`3 => SignData::read(reader).map(Transaction::SignShare),`

			`4 => {`
			`let mut block = [0; 8];`
			`reader.read_exact(&mut block)?;`
			`Ok(Transaction::FinalizedBlock(u64::from_le_bytes(block)))`
			`}`

			`5 => SignData::read(reader).map(Transaction::BatchPreprocess),`
			`6 => SignData::read(reader).map(Transaction::BatchShare),`
			`_ => Err(io::Error::new(io::ErrorKind::Other, "invalid transaction type")),`
			`}`
			`}`

			`fn write<W: io::Write>(&self, writer: &mut W) -> io::Result<()> {`
			`match self {`
			`Transaction::DkgCommitments(attempt, commitments, signed) => {`
			`writer.write_all(&[0])?;`
			`writer.write_all(&attempt.to_le_bytes())?;`
Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`if commitments.len() > u16::MAX.into() {`
			`// t commitments and an encryption key mean a u16 is fine until a threshold > 2000 occurs`
			`Err(io::Error::new(io::ErrorKind::Other, "dkg commitments exceeded 65535 bytes"))?;`
			`}`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`writer.write_all(&u16::try_from(commitments.len()).unwrap().to_le_bytes())?;`
			`writer.write_all(commitments)?;`
			`signed.write(writer)`
			`}`

			`Transaction::DkgShares(attempt, shares, signed) => {`
			`writer.write_all(&[1])?;`
			`writer.write_all(&attempt.to_le_bytes())?;`
Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`// Shares are indexed by non-zero u16s (Participants), so this can't fail`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`writer.write_all(&u16::try_from(shares.len()).unwrap().to_le_bytes())?;`
			`let mut share_len = None;`
			`for participant in 0 .. shares.len() {`
			`let share = &shares[&Participant::new(u16::try_from(participant + 1).unwrap()).unwrap()];`
			`if let Some(share_len) = share_len {`
			`if share.len() != share_len {`
			`panic!("variable length shares");`
			`}`
			`} else {`
Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`// For BLS12-381 G2, this would be:`
			`// - A 32-byte share`
			`// - A 96-byte ephemeral key`
			`// - A 128-byte signature`
			`// Hence why this has to be u16`
			`writer.write_all(&u16::try_from(share.len()).unwrap().to_le_bytes())?;`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`share_len = Some(share.len());`
			`}`

			`writer.write_all(share)?;`
			`}`
			`signed.write(writer)`
			`}`

			`Transaction::SignPreprocess(data) => {`
			`writer.write_all(&[2])?;`
			`data.write(writer)`
			`}`
			`Transaction::SignShare(data) => {`
			`writer.write_all(&[3])?;`
			`data.write(writer)`
			`}`

			`Transaction::FinalizedBlock(block) => {`
			`writer.write_all(&[4])?;`
			`writer.write_all(&block.to_le_bytes())`
			`}`

			`Transaction::BatchPreprocess(data) => {`
			`writer.write_all(&[5])?;`
			`data.write(writer)`
			`}`
			`Transaction::BatchShare(data) => {`
			`writer.write_all(&[6])?;`
			`data.write(writer)`
			`}`
			`}`
			`}`
			`}`

			`impl TransactionTrait for Transaction {`
Make TransactionKind have a reference to Signed Broken commit due to partial staging of one file. 2023-04-12 09:38:20 -04:00			`fn kind(&self) -> TransactionKind<'_> {`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`match self {`
Make TransactionKind have a reference to Signed Broken commit due to partial staging of one file. 2023-04-12 09:38:20 -04:00			`Transaction::DkgCommitments(_, _, signed) => TransactionKind::Signed(signed),`
			`Transaction::DkgShares(_, _, signed) => TransactionKind::Signed(signed),`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00
Make TransactionKind have a reference to Signed Broken commit due to partial staging of one file. 2023-04-12 09:38:20 -04:00			`Transaction::SignPreprocess(data) => TransactionKind::Signed(&data.signed),`
			`Transaction::SignShare(data) => TransactionKind::Signed(&data.signed),`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00
			`Transaction::FinalizedBlock(_) => TransactionKind::Provided,`

Make TransactionKind have a reference to Signed Broken commit due to partial staging of one file. 2023-04-12 09:38:20 -04:00			`Transaction::BatchPreprocess(data) => TransactionKind::Signed(&data.signed),`
			`Transaction::BatchShare(data) => TransactionKind::Signed(&data.signed),`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`}`
			`}`

			`fn hash(&self) -> [u8; 32] {`
			`let mut tx = self.serialize();`
			`if let TransactionKind::Signed(signed) = self.kind() {`
Clarify transaction length sizing 2023-04-11 19:18:26 -04:00			`// Make sure the part we're cutting off is the signature`
Make TransactionKind have a reference to Signed Broken commit due to partial staging of one file. 2023-04-12 09:38:20 -04:00			`assert_eq!(tx.drain((tx.len() - 64) ..).collect::<Vec<_>>(), signed.signature.serialize());`
Define all coordinator transaction types 2023-04-11 19:04:53 -04:00			`}`
			`Blake2s256::digest(tx).into()`
			`}`

			`fn verify(&self) -> Result<(), TransactionError> {`
			`// TODO: Augment with checks that the Vecs can be deser'd and are for recognized IDs`
			`Ok(())`
			`}`
			`}`