lotus/paychmgr/simple.go

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package paychmgr
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import (
"bytes"
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"context"
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"fmt"
"sync"
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"github.com/ipfs/go-cid"
"golang.org/x/sync/errgroup"
"golang.org/x/xerrors"
"github.com/filecoin-project/go-address"
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"github.com/filecoin-project/go-state-types/big"
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init2 "github.com/filecoin-project/specs-actors/actors/builtin/init"
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"github.com/filecoin-project/lotus/api"
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"github.com/filecoin-project/lotus/build"
"github.com/filecoin-project/lotus/chain/types"
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)
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// paychFundsRes is the response to a create channel or add funds request
type paychFundsRes struct {
channel address.Address
mcid cid.Cid
err error
}
// fundsReq is a request to create a channel or add funds to a channel
type fundsReq struct {
ctx context.Context
promise chan *paychFundsRes
amt types.BigInt
lk sync.Mutex
// merge parent, if this req is part of a merge
merge *mergedFundsReq
// whether the req's context has been cancelled
active bool
}
func newFundsReq(ctx context.Context, amt types.BigInt) *fundsReq {
promise := make(chan *paychFundsRes)
return &fundsReq{
ctx: ctx,
promise: promise,
amt: amt,
active: true,
}
}
// onComplete is called when the funds request has been executed
func (r *fundsReq) onComplete(res *paychFundsRes) {
select {
case <-r.ctx.Done():
case r.promise <- res:
}
}
// cancel is called when the req's context is cancelled
func (r *fundsReq) cancel() {
r.lk.Lock()
r.active = false
m := r.merge
r.lk.Unlock()
// If there's a merge parent, tell the merge parent to check if it has any
// active reqs left
if m != nil {
m.checkActive()
}
}
// isActive indicates whether the req's context has been cancelled
func (r *fundsReq) isActive() bool {
r.lk.Lock()
defer r.lk.Unlock()
return r.active
}
// setMergeParent sets the merge that this req is part of
func (r *fundsReq) setMergeParent(m *mergedFundsReq) {
r.lk.Lock()
defer r.lk.Unlock()
r.merge = m
}
// mergedFundsReq merges together multiple add funds requests that are queued
// up, so that only one message is sent for all the requests (instead of one
// message for each request)
type mergedFundsReq struct {
ctx context.Context
cancel context.CancelFunc
reqs []*fundsReq
}
func newMergedFundsReq(reqs []*fundsReq) *mergedFundsReq {
ctx, cancel := context.WithCancel(context.Background())
m := &mergedFundsReq{
ctx: ctx,
cancel: cancel,
reqs: reqs,
}
for _, r := range m.reqs {
r.setMergeParent(m)
}
// If the requests were all cancelled while being added, cancel the context
// immediately
m.checkActive()
return m
}
// Called when a fundsReq is cancelled
func (m *mergedFundsReq) checkActive() {
// Check if there are any active fundsReqs
for _, r := range m.reqs {
if r.isActive() {
return
}
}
// If all fundsReqs have been cancelled, cancel the context
m.cancel()
}
// onComplete is called when the queue has executed the mergeFundsReq.
// Calls onComplete on each fundsReq in the mergeFundsReq.
func (m *mergedFundsReq) onComplete(res *paychFundsRes) {
for _, r := range m.reqs {
if r.isActive() {
r.onComplete(res)
}
}
}
// sum is the sum of the amounts in all requests in the merge
func (m *mergedFundsReq) sum() types.BigInt {
sum := types.NewInt(0)
for _, r := range m.reqs {
if r.isActive() {
sum = types.BigAdd(sum, r.amt)
}
}
return sum
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}
// getPaych ensures that a channel exists between the from and to addresses,
// and adds the given amount of funds.
// If the channel does not exist a create channel message is sent and the
// message CID is returned.
// If the channel does exist an add funds message is sent and both the channel
// address and message CID are returned.
// If there is an in progress operation (create channel / add funds), getPaych
// blocks until the previous operation completes, then returns both the channel
// address and the CID of the new add funds message.
// If an operation returns an error, subsequent waiting operations will still
// be attempted.
func (ca *channelAccessor) getPaych(ctx context.Context, amt types.BigInt) (address.Address, cid.Cid, error) {
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// Add the request to add funds to a queue and wait for the result
freq := newFundsReq(ctx, amt)
ca.enqueue(freq)
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select {
case res := <-freq.promise:
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return res.channel, res.mcid, res.err
case <-ctx.Done():
freq.cancel()
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return address.Undef, cid.Undef, ctx.Err()
}
}
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// Queue up an add funds operation
func (ca *channelAccessor) enqueue(task *fundsReq) {
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ca.lk.Lock()
defer ca.lk.Unlock()
ca.fundsReqQueue = append(ca.fundsReqQueue, task)
go ca.processQueue("") // nolint: errcheck
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}
// Run the operations in the queue
func (ca *channelAccessor) processQueue(channelID string) (*api.ChannelAvailableFunds, error) {
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ca.lk.Lock()
defer ca.lk.Unlock()
// Remove cancelled requests
ca.filterQueue()
// If there's nothing in the queue, bail out
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if len(ca.fundsReqQueue) == 0 {
return ca.currentAvailableFunds(channelID, types.NewInt(0))
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}
// Merge all pending requests into one.
// For example if there are pending requests for 3, 2, 4 then
// amt = 3 + 2 + 4 = 9
merged := newMergedFundsReq(ca.fundsReqQueue[:])
amt := merged.sum()
if amt.IsZero() {
// Note: The amount can be zero if requests are cancelled as we're
// building the mergedFundsReq
return ca.currentAvailableFunds(channelID, amt)
}
res := ca.processTask(merged.ctx, amt)
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// If the task is waiting on an external event (eg something to appear on
// chain) it will return nil
if res == nil {
// Stop processing the fundsReqQueue and wait. When the event occurs it will
// call processQueue() again
return ca.currentAvailableFunds(channelID, amt)
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}
// Finished processing so clear the queue
ca.fundsReqQueue = nil
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// Call the task callback with its results
merged.onComplete(res)
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return ca.currentAvailableFunds(channelID, types.NewInt(0))
}
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// filterQueue filters cancelled requests out of the queue
func (ca *channelAccessor) filterQueue() {
if len(ca.fundsReqQueue) == 0 {
return
}
// Remove cancelled requests
i := 0
for _, r := range ca.fundsReqQueue {
if r.isActive() {
ca.fundsReqQueue[i] = r
i++
}
}
// Allow GC of remaining slice elements
for rem := i; rem < len(ca.fundsReqQueue); rem++ {
ca.fundsReqQueue[i] = nil
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}
// Resize slice
ca.fundsReqQueue = ca.fundsReqQueue[:i]
}
// queueSize is the size of the funds request queue (used by tests)
func (ca *channelAccessor) queueSize() int {
ca.lk.Lock()
defer ca.lk.Unlock()
return len(ca.fundsReqQueue)
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}
// msgWaitComplete is called when the message for a previous task is confirmed
// or there is an error.
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func (ca *channelAccessor) msgWaitComplete(mcid cid.Cid, err error) {
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ca.lk.Lock()
defer ca.lk.Unlock()
// Save the message result to the store
dserr := ca.store.SaveMessageResult(mcid, err)
if dserr != nil {
log.Errorf("saving message result: %s", dserr)
}
// Inform listeners that the message has completed
ca.msgListeners.fireMsgComplete(mcid, err)
// The queue may have been waiting for msg completion to proceed, so
// process the next queue item
if len(ca.fundsReqQueue) > 0 {
go ca.processQueue("") // nolint: errcheck
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}
}
func (ca *channelAccessor) currentAvailableFunds(channelID string, queuedAmt types.BigInt) (*api.ChannelAvailableFunds, error) {
if len(channelID) == 0 {
return nil, nil
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}
channelInfo, err := ca.store.ByChannelID(channelID)
if err != nil {
return nil, err
}
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// The channel may have a pending create or add funds message
waitSentinel := channelInfo.CreateMsg
if waitSentinel == nil {
waitSentinel = channelInfo.AddFundsMsg
}
// Get the total amount redeemed by vouchers.
// This includes vouchers that have been submitted, and vouchers that are
// in the datastore but haven't yet been submitted.
totalRedeemed := types.NewInt(0)
if channelInfo.Channel != nil {
ch := *channelInfo.Channel
_, pchState, err := ca.sa.loadPaychActorState(ca.chctx, ch)
if err != nil {
return nil, err
}
laneStates, err := ca.laneState(ca.chctx, pchState, ch)
if err != nil {
return nil, err
}
for _, ls := range laneStates {
r, err := ls.Redeemed()
if err != nil {
return nil, err
}
totalRedeemed = types.BigAdd(totalRedeemed, r)
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}
}
return &api.ChannelAvailableFunds{
Channel: channelInfo.Channel,
From: channelInfo.from(),
To: channelInfo.to(),
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ConfirmedAmt: channelInfo.Amount,
PendingAmt: channelInfo.PendingAmount,
PendingWaitSentinel: waitSentinel,
QueuedAmt: queuedAmt,
VoucherReedeemedAmt: totalRedeemed,
}, nil
}
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// processTask checks the state of the channel and takes appropriate action
// (see description of getPaych).
// Note that processTask may be called repeatedly in the same state, and should
// return nil if there is no state change to be made (eg when waiting for a
// message to be confirmed on chain)
func (ca *channelAccessor) processTask(ctx context.Context, amt types.BigInt) *paychFundsRes {
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// Get the payment channel for the from/to addresses.
// Note: It's ok if we get ErrChannelNotTracked. It just means we need to
// create a channel.
channelInfo, err := ca.store.OutboundActiveByFromTo(ca.from, ca.to)
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if err != nil && err != ErrChannelNotTracked {
return &paychFundsRes{err: err}
}
// If a channel has not yet been created, create one.
if channelInfo == nil {
mcid, err := ca.createPaych(ctx, amt)
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if err != nil {
return &paychFundsRes{err: err}
}
return &paychFundsRes{mcid: mcid}
}
// If the create channel message has been sent but the channel hasn't
// been created on chain yet
if channelInfo.CreateMsg != nil {
// Wait for the channel to be created before trying again
return nil
}
// If an add funds message was sent to the chain but hasn't been confirmed
// on chain yet
if channelInfo.AddFundsMsg != nil {
// Wait for the add funds message to be confirmed before trying again
return nil
}
// We need to add more funds, so send an add funds message to
// cover the amount for this request
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mcid, err := ca.addFunds(ctx, channelInfo, amt)
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if err != nil {
return &paychFundsRes{err: err}
}
return &paychFundsRes{channel: *channelInfo.Channel, mcid: *mcid}
}
// createPaych sends a message to create the channel and returns the message cid
func (ca *channelAccessor) createPaych(ctx context.Context, amt types.BigInt) (cid.Cid, error) {
mb, err := ca.messageBuilder(ctx, ca.from)
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if err != nil {
return cid.Undef, err
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}
msg, err := mb.Create(ca.to, amt)
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if err != nil {
return cid.Undef, err
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}
smsg, err := ca.api.MpoolPushMessage(ctx, msg, nil)
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if err != nil {
return cid.Undef, xerrors.Errorf("initializing paych actor: %w", err)
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}
mcid := smsg.Cid()
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// Create a new channel in the store
ci, err := ca.store.CreateChannel(ca.from, ca.to, mcid, amt)
if err != nil {
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log.Errorf("creating channel: %s", err)
return cid.Undef, err
}
// Wait for the channel to be created on chain
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go ca.waitForPaychCreateMsg(ci.ChannelID, mcid)
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return mcid, nil
}
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// waitForPaychCreateMsg waits for mcid to appear on chain and stores the robust address of the
// created payment channel
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func (ca *channelAccessor) waitForPaychCreateMsg(channelID string, mcid cid.Cid) {
err := ca.waitPaychCreateMsg(channelID, mcid)
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ca.msgWaitComplete(mcid, err)
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}
func (ca *channelAccessor) waitPaychCreateMsg(channelID string, mcid cid.Cid) error {
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mwait, err := ca.api.StateWaitMsg(ca.chctx, mcid, build.MessageConfidence)
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if err != nil {
log.Errorf("wait msg: %w", err)
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return err
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}
// If channel creation failed
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if mwait.Receipt.ExitCode != 0 {
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ca.lk.Lock()
defer ca.lk.Unlock()
// Channel creation failed, so remove the channel from the datastore
dserr := ca.store.RemoveChannel(channelID)
if dserr != nil {
log.Errorf("failed to remove channel %s: %s", channelID, dserr)
}
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err := xerrors.Errorf("payment channel creation failed (exit code %d)", mwait.Receipt.ExitCode)
log.Error(err)
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return err
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}
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// TODO: ActorUpgrade abstract over this.
// This "works" because it hasn't changed from v0 to v2, but we still
// need an abstraction here.
var decodedReturn init2.ExecReturn
err = decodedReturn.UnmarshalCBOR(bytes.NewReader(mwait.Receipt.Return))
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if err != nil {
log.Error(err)
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return err
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}
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ca.lk.Lock()
defer ca.lk.Unlock()
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// Store robust address of channel
ca.mutateChannelInfo(channelID, func(channelInfo *ChannelInfo) {
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channelInfo.Channel = &decodedReturn.RobustAddress
channelInfo.Amount = channelInfo.PendingAmount
channelInfo.PendingAmount = big.NewInt(0)
channelInfo.CreateMsg = nil
})
return nil
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}
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// addFunds sends a message to add funds to the channel and returns the message cid
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func (ca *channelAccessor) addFunds(ctx context.Context, channelInfo *ChannelInfo, amt types.BigInt) (*cid.Cid, error) {
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msg := &types.Message{
To: *channelInfo.Channel,
From: channelInfo.Control,
Value: amt,
Method: 0,
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}
smsg, err := ca.api.MpoolPushMessage(ctx, msg, nil)
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if err != nil {
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return nil, err
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}
mcid := smsg.Cid()
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// Store the add funds message CID on the channel
ca.mutateChannelInfo(channelInfo.ChannelID, func(ci *ChannelInfo) {
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ci.PendingAmount = amt
ci.AddFundsMsg = &mcid
})
// Store a reference from the message CID to the channel, so that we can
// look up the channel from the message CID
err = ca.store.SaveNewMessage(channelInfo.ChannelID, mcid)
if err != nil {
log.Errorf("saving add funds message CID %s: %s", mcid, err)
}
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go ca.waitForAddFundsMsg(channelInfo.ChannelID, mcid)
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return &mcid, nil
}
// waitForAddFundsMsg waits for mcid to appear on chain and returns error, if any
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func (ca *channelAccessor) waitForAddFundsMsg(channelID string, mcid cid.Cid) {
err := ca.waitAddFundsMsg(channelID, mcid)
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ca.msgWaitComplete(mcid, err)
}
func (ca *channelAccessor) waitAddFundsMsg(channelID string, mcid cid.Cid) error {
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mwait, err := ca.api.StateWaitMsg(ca.chctx, mcid, build.MessageConfidence)
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if err != nil {
log.Error(err)
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return err
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}
if mwait.Receipt.ExitCode != 0 {
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err := xerrors.Errorf("voucher channel creation failed: adding funds (exit code %d)", mwait.Receipt.ExitCode)
log.Error(err)
ca.lk.Lock()
defer ca.lk.Unlock()
ca.mutateChannelInfo(channelID, func(channelInfo *ChannelInfo) {
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channelInfo.PendingAmount = big.NewInt(0)
channelInfo.AddFundsMsg = nil
})
return err
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}
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ca.lk.Lock()
defer ca.lk.Unlock()
// Store updated amount
ca.mutateChannelInfo(channelID, func(channelInfo *ChannelInfo) {
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channelInfo.Amount = types.BigAdd(channelInfo.Amount, channelInfo.PendingAmount)
channelInfo.PendingAmount = big.NewInt(0)
channelInfo.AddFundsMsg = nil
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})
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return nil
}
// Change the state of the channel in the store
func (ca *channelAccessor) mutateChannelInfo(channelID string, mutate func(*ChannelInfo)) {
channelInfo, err := ca.store.ByChannelID(channelID)
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// If there's an error reading or writing to the store just log an error.
// For now we're assuming it's unlikely to happen in practice.
// Later we may want to implement a transactional approach, whereby
// we record to the store that we're going to send a message, send
// the message, and then record that the message was sent.
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if err != nil {
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log.Errorf("Error reading channel info from store: %s", err)
return
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}
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mutate(channelInfo)
err = ca.store.putChannelInfo(channelInfo)
if err != nil {
log.Errorf("Error writing channel info to store: %s", err)
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}
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}
// restartPending checks the datastore to see if there are any channels that
// have outstanding create / add funds messages, and if so, waits on the
// messages.
// Outstanding messages can occur if a create / add funds message was sent and
// then the system was shut down or crashed before the result was received.
func (pm *Manager) restartPending() error {
cis, err := pm.store.WithPendingAddFunds()
if err != nil {
return err
}
group := errgroup.Group{}
for _, chanInfo := range cis {
ci := chanInfo
if ci.CreateMsg != nil {
group.Go(func() error {
ca, err := pm.accessorByFromTo(ci.Control, ci.Target)
if err != nil {
return xerrors.Errorf("error initializing payment channel manager %s -> %s: %s", ci.Control, ci.Target, err)
}
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go ca.waitForPaychCreateMsg(ci.ChannelID, *ci.CreateMsg)
return nil
})
} else if ci.AddFundsMsg != nil {
group.Go(func() error {
ca, err := pm.accessorByAddress(*ci.Channel)
if err != nil {
return xerrors.Errorf("error initializing payment channel manager %s: %s", ci.Channel, err)
}
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go ca.waitForAddFundsMsg(ci.ChannelID, *ci.AddFundsMsg)
return nil
})
}
}
return group.Wait()
}
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// getPaychWaitReady waits for a the response to the message with the given cid
func (ca *channelAccessor) getPaychWaitReady(ctx context.Context, mcid cid.Cid) (address.Address, error) {
ca.lk.Lock()
// First check if the message has completed
msgInfo, err := ca.store.GetMessage(mcid)
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if err != nil {
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ca.lk.Unlock()
return address.Undef, err
}
// If the create channel / add funds message failed, return an error
if len(msgInfo.Err) > 0 {
ca.lk.Unlock()
return address.Undef, xerrors.New(msgInfo.Err)
}
// If the message has completed successfully
if msgInfo.Received {
ca.lk.Unlock()
// Get the channel address
ci, err := ca.store.ByMessageCid(mcid)
if err != nil {
return address.Undef, err
}
if ci.Channel == nil {
panic(fmt.Sprintf("create / add funds message %s succeeded but channelInfo.Channel is nil", mcid))
}
return *ci.Channel, nil
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}
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// The message hasn't completed yet so wait for it to complete
promise := ca.msgPromise(ctx, mcid)
// Unlock while waiting
ca.lk.Unlock()
select {
case res := <-promise:
return res.channel, res.err
case <-ctx.Done():
return address.Undef, ctx.Err()
}
}
type onMsgRes struct {
channel address.Address
err error
}
// msgPromise returns a channel that receives the result of the message with
// the given CID
func (ca *channelAccessor) msgPromise(ctx context.Context, mcid cid.Cid) chan onMsgRes {
promise := make(chan onMsgRes)
triggerUnsub := make(chan struct{})
unsub := ca.msgListeners.onMsgComplete(mcid, func(err error) {
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close(triggerUnsub)
// Use a go-routine so as not to block the event handler loop
go func() {
res := onMsgRes{err: err}
if res.err == nil {
// Get the channel associated with the message cid
ci, err := ca.store.ByMessageCid(mcid)
if err != nil {
res.err = err
} else {
res.channel = *ci.Channel
}
}
// Pass the result to the caller
select {
case promise <- res:
case <-ctx.Done():
}
}()
})
// Unsubscribe when the message is received or the context is done
go func() {
select {
case <-ctx.Done():
case <-triggerUnsub:
}
unsub()
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}()
return promise
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}
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func (ca *channelAccessor) availableFunds(channelID string) (*api.ChannelAvailableFunds, error) {
return ca.processQueue(channelID)
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}