protocol.go 3.62 KB
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package sign

import (
	"fmt"
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	"time"
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	cAPI "dfss/dfssc/api"
	"dfss/dfssc/common"
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	dAPI "dfss/dfssd/api"
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)

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// Sign performs all the message exchanges for the contract to be signed
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//
// * Initialize the SignatureManager from starter.go
// * Compute the reversed map [mail -> ID] of signers
// * Make channels for handlers
// * Promises rounds
// * Signature round
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func (m *SignatureManager) Sign() error {
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	myID, nextIndex, err := m.Initialize()
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	if err != nil {
		return err
	}

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	m.makeSignersHashToIDMap()
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	m.cServerIface.incomingPromises = make(chan interface{}, chanBufferSize)
	m.cServerIface.incomingSignatures = make(chan interface{}, chanBufferSize)
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	// Cooldown delay, let other clients wake-up their channels
	time.Sleep(time.Second)
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	// Promess rounds
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	// Follow the sequence until there is no next occurence of me
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	for m.currentIndex >= 0 {
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		dAPI.DLog("starting round at index [" + fmt.Sprintf("%d", m.currentIndex) + "] with nextIndex=" + fmt.Sprintf("%d", nextIndex))
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		// Set of the promise we are waiting for
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		var pendingSet []uint32
		pendingSet, err = common.GetPendingSet(m.sequence, myID, m.currentIndex)
		if err != nil {
			return err
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		}

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		// Set of the promises we must send
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		var sendSet []uint32
		sendSet, err = common.GetSendSet(m.sequence, myID, m.currentIndex)
		if err != nil {
			return err
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		}

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		// Exchange messages
		m.promiseRound(pendingSet, sendSet, myID)
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		m.currentIndex = nextIndex
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		nextIndex, err = common.FindNextIndex(m.sequence, myID, m.currentIndex)
		if err != nil {
			return err
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		}
	}

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	dAPI.DLog("entering signature round")
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	// Signature round
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	err = m.ExchangeAllSignatures()
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	if err != nil {
		return err
	}
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	dAPI.DLog("exiting signature round")
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	// Network's job is done, cleaning time
	// Shutdown and platform client and TODO peer server & connections
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	return m.platformConn.Close()
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}

// GetClient retrieves the Client to the specified sequence id provided it exists
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func (m *SignatureManager) GetClient(to uint32) (client *cAPI.ClientClient, mail string) {
	mail = m.contract.Signers[to].Email
	client = m.peers[mail]
	return
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}

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// makeSignersHashToIDMap builds an association to reverse a hash to the sequence ID
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func (m *SignatureManager) makeSignersHashToIDMap() {
	m.hashToID = make(map[string]uint32)
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	signers := m.contract.Signers
	for id, signer := range signers {
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		m.hashToID[signer.Hash] = uint32(id)
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	}
}

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// promiseRound describes a promise round: reception and sending
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func (m *SignatureManager) promiseRound(pendingSet, sendSet []uint32, myID uint32) {

	// Reception of the due promises
	for len(pendingSet) > 0 {
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		select {
		case promiseIface := <-m.cServerIface.incomingPromises:
			promise := (promiseIface).(*cAPI.Promise)
			senderID, exist := m.hashToID[fmt.Sprintf("%x", promise.Context.SenderKeyHash)]
			if exist {
				var err error
				pendingSet, err = common.Remove(pendingSet, senderID)
				if err != nil {
					continue
				}
				m.archives.receivedPromises = append(m.archives.receivedPromises, promise)
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			}
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		case <-time.After(time.Minute):
			// TODO contact TTP
			return
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		}
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	}

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	c := make(chan *cAPI.Promise, chanBufferSize)
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	// Sending of due promises
	for _, id := range sendSet {
		go func(id uint32, m *SignatureManager) {
			promise, err := m.CreatePromise(myID, id)
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			if err == nil {
				_ = m.SendEvidence(promise, nil, id)
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			}
			c <- promise
		}(id, m)
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	}

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	// Verifying we sent all the due promises
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	for range sendSet {
		_ = <-c
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	}
}
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// closeAllPeerClient tries to close all established connection with other peers
func (m *SignatureManager) closeAllPeerClient() {
	for k, client := range m.peersConn {
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		_ = client.Close()
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		// Remove associated grpc client
		delete(m.peers, k)
	}
}