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handshake.go
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handshake.go
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package keeper
import (
"fmt"
"github.com/cosmos/cosmos-sdk/telemetry"
sdk "github.com/cosmos/cosmos-sdk/types"
sdkerrors "github.com/cosmos/cosmos-sdk/types/errors"
capabilitytypes "github.com/cosmos/cosmos-sdk/x/capability/types"
connectiontypes "github.com/cosmos/ibc-go/v3/modules/core/03-connection/types"
"github.com/cosmos/ibc-go/v3/modules/core/04-channel/types"
porttypes "github.com/cosmos/ibc-go/v3/modules/core/05-port/types"
host "github.com/cosmos/ibc-go/v3/modules/core/24-host"
"github.com/cosmos/ibc-go/v3/modules/core/exported"
)
// ChanOpenInit is called by a module to initiate a channel opening handshake with
// a module on another chain. The counterparty channel identifier is validated to be
// empty in msg validation.
func (k Keeper) ChanOpenInit(
ctx sdk.Context,
order types.Order,
connectionHops []string,
portID string,
portCap *capabilitytypes.Capability,
counterparty types.Counterparty,
version string,
) (string, *capabilitytypes.Capability, error) {
// connection hop length checked on msg.ValidateBasic()
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, connectionHops[0])
if !found {
return "", nil, sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, connectionHops[0])
}
getVersions := connectionEnd.GetVersions()
if len(getVersions) != 1 {
return "", nil, sdkerrors.Wrapf(
connectiontypes.ErrInvalidVersion,
"single version must be negotiated on connection before opening channel, got: %v",
getVersions,
)
}
if !connectiontypes.VerifySupportedFeature(getVersions[0], order.String()) {
return "", nil, sdkerrors.Wrapf(
connectiontypes.ErrInvalidVersion,
"connection version %s does not support channel ordering: %s",
getVersions[0], order.String(),
)
}
if !k.portKeeper.Authenticate(ctx, portCap, portID) {
return "", nil, sdkerrors.Wrapf(porttypes.ErrInvalidPort, "caller does not own port capability for port ID %s", portID)
}
channelID := k.GenerateChannelIdentifier(ctx)
capKey, err := k.scopedKeeper.NewCapability(ctx, host.ChannelCapabilityPath(portID, channelID))
if err != nil {
return "", nil, sdkerrors.Wrapf(err, "could not create channel capability for port ID %s and channel ID %s", portID, channelID)
}
return channelID, capKey, nil
}
// WriteOpenInitChannel writes a channel which has successfully passed the OpenInit handshake step.
// The channel is set in state and all the associated Send and Recv sequences are set to 1.
// An event is emitted for the handshake step.
func (k Keeper) WriteOpenInitChannel(
ctx sdk.Context,
portID,
channelID string,
order types.Order,
connectionHops []string,
counterparty types.Counterparty,
version string,
) {
channel := types.NewChannel(types.INIT, order, counterparty, connectionHops, version)
k.SetChannel(ctx, portID, channelID, channel)
k.SetNextSequenceSend(ctx, portID, channelID, 1)
k.SetNextSequenceRecv(ctx, portID, channelID, 1)
k.SetNextSequenceAck(ctx, portID, channelID, 1)
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", "NONE", "new-state", "INIT")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "open-init")
}()
EmitChannelOpenInitEvent(ctx, portID, channelID, channel)
}
// ChanOpenTry is called by a module to accept the first step of a channel opening
// handshake initiated by a module on another chain.
func (k Keeper) ChanOpenTry(
ctx sdk.Context,
order types.Order,
connectionHops []string,
portID,
previousChannelID string,
portCap *capabilitytypes.Capability,
counterparty types.Counterparty,
counterpartyVersion string,
proofInit []byte,
proofHeight exported.Height,
) (string, *capabilitytypes.Capability, error) {
var (
previousChannel types.Channel
previousChannelFound bool
)
channelID := previousChannelID
// connection hops only supports a single connection
if len(connectionHops) != 1 {
return "", nil, sdkerrors.Wrapf(types.ErrTooManyConnectionHops, "expected 1, got %d", len(connectionHops))
}
// empty channel identifier indicates continuing a previous channel handshake
if previousChannelID != "" {
// channel identifier and connection hop length checked on msg.ValidateBasic()
// ensure that the previous channel exists
previousChannel, previousChannelFound = k.GetChannel(ctx, portID, previousChannelID)
if !previousChannelFound {
return "", nil, sdkerrors.Wrapf(types.ErrInvalidChannel, "previous channel does not exist for supplied previous channelID %s", previousChannelID)
}
// previous channel must use the same fields
if !(previousChannel.Ordering == order &&
previousChannel.Counterparty.PortId == counterparty.PortId &&
previousChannel.Counterparty.ChannelId == "" &&
previousChannel.ConnectionHops[0] == connectionHops[0] && // ChanOpenInit will only set a single connection hop
previousChannel.Version == counterpartyVersion) {
return "", nil, sdkerrors.Wrap(types.ErrInvalidChannel, "channel fields mismatch previous channel fields")
}
if previousChannel.State != types.INIT {
return "", nil, sdkerrors.Wrapf(types.ErrInvalidChannelState, "previous channel state is in %s, expected INIT", previousChannel.State)
}
} else {
// generate a new channel
channelID = k.GenerateChannelIdentifier(ctx)
}
if !k.portKeeper.Authenticate(ctx, portCap, portID) {
return "", nil, sdkerrors.Wrapf(porttypes.ErrInvalidPort, "caller does not own port capability for port ID %s", portID)
}
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, connectionHops[0])
if !found {
return "", nil, sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, connectionHops[0])
}
if connectionEnd.GetState() != int32(connectiontypes.OPEN) {
return "", nil, sdkerrors.Wrapf(
connectiontypes.ErrInvalidConnectionState,
"connection state is not OPEN (got %s)", connectiontypes.State(connectionEnd.GetState()).String(),
)
}
getVersions := connectionEnd.GetVersions()
if len(getVersions) != 1 {
return "", nil, sdkerrors.Wrapf(
connectiontypes.ErrInvalidVersion,
"single version must be negotiated on connection before opening channel, got: %v",
getVersions,
)
}
if !connectiontypes.VerifySupportedFeature(getVersions[0], order.String()) {
return "", nil, sdkerrors.Wrapf(
connectiontypes.ErrInvalidVersion,
"connection version %s does not support channel ordering: %s",
getVersions[0], order.String(),
)
}
counterpartyHops := []string{connectionEnd.GetCounterparty().GetConnectionID()}
// expectedCounterpaty is the counterparty of the counterparty's channel end
// (i.e self)
expectedCounterparty := types.NewCounterparty(portID, "")
expectedChannel := types.NewChannel(
types.INIT, order, expectedCounterparty,
counterpartyHops, counterpartyVersion,
)
if err := k.connectionKeeper.VerifyChannelState(
ctx, connectionEnd, proofHeight, proofInit,
counterparty.PortId, counterparty.ChannelId, expectedChannel,
); err != nil {
return "", nil, err
}
var (
capKey *capabilitytypes.Capability
err error
)
if !previousChannelFound {
capKey, err = k.scopedKeeper.NewCapability(ctx, host.ChannelCapabilityPath(portID, channelID))
if err != nil {
return "", nil, sdkerrors.Wrapf(err, "could not create channel capability for port ID %s and channel ID %s", portID, channelID)
}
} else {
// capability initialized in ChanOpenInit
capKey, found = k.scopedKeeper.GetCapability(ctx, host.ChannelCapabilityPath(portID, channelID))
if !found {
return "", nil, sdkerrors.Wrapf(types.ErrChannelCapabilityNotFound,
"capability not found for existing channel, portID (%s) channelID (%s)", portID, channelID,
)
}
}
return channelID, capKey, nil
}
// WriteOpenTryChannel writes a channel which has successfully passed the OpenTry handshake step.
// The channel is set in state. If a previous channel state did not exist, all the Send and Recv
// sequences are set to 1. An event is emitted for the handshake step.
func (k Keeper) WriteOpenTryChannel(
ctx sdk.Context,
portID,
channelID string,
order types.Order,
connectionHops []string,
counterparty types.Counterparty,
version string,
) {
previousChannel, previousChannelFound := k.GetChannel(ctx, portID, channelID)
if !previousChannelFound {
k.SetNextSequenceSend(ctx, portID, channelID, 1)
k.SetNextSequenceRecv(ctx, portID, channelID, 1)
k.SetNextSequenceAck(ctx, portID, channelID, 1)
}
channel := types.NewChannel(types.TRYOPEN, order, counterparty, connectionHops, version)
k.SetChannel(ctx, portID, channelID, channel)
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", previousChannel.State.String(), "new-state", "TRYOPEN")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "open-try")
}()
EmitChannelOpenTryEvent(ctx, portID, channelID, channel)
}
// ChanOpenAck is called by the handshake-originating module to acknowledge the
// acceptance of the initial request by the counterparty module on the other chain.
func (k Keeper) ChanOpenAck(
ctx sdk.Context,
portID,
channelID string,
chanCap *capabilitytypes.Capability,
counterpartyVersion,
counterpartyChannelID string,
proofTry []byte,
proofHeight exported.Height,
) error {
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
return sdkerrors.Wrapf(types.ErrChannelNotFound, "port ID (%s) channel ID (%s)", portID, channelID)
}
if !(channel.State == types.INIT || channel.State == types.TRYOPEN) {
return sdkerrors.Wrapf(
types.ErrInvalidChannelState,
"channel state should be INIT or TRYOPEN (got %s)", channel.State.String(),
)
}
if !k.scopedKeeper.AuthenticateCapability(ctx, chanCap, host.ChannelCapabilityPath(portID, channelID)) {
return sdkerrors.Wrapf(types.ErrChannelCapabilityNotFound, "caller does not own capability for channel, port ID (%s) channel ID (%s)", portID, channelID)
}
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, channel.ConnectionHops[0])
if !found {
return sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, channel.ConnectionHops[0])
}
if connectionEnd.GetState() != int32(connectiontypes.OPEN) {
return sdkerrors.Wrapf(
connectiontypes.ErrInvalidConnectionState,
"connection state is not OPEN (got %s)", connectiontypes.State(connectionEnd.GetState()).String(),
)
}
counterpartyHops := []string{connectionEnd.GetCounterparty().GetConnectionID()}
// counterparty of the counterparty channel end (i.e self)
expectedCounterparty := types.NewCounterparty(portID, channelID)
expectedChannel := types.NewChannel(
types.TRYOPEN, channel.Ordering, expectedCounterparty,
counterpartyHops, counterpartyVersion,
)
if err := k.connectionKeeper.VerifyChannelState(
ctx, connectionEnd, proofHeight, proofTry,
channel.Counterparty.PortId, counterpartyChannelID,
expectedChannel,
); err != nil {
return err
}
return nil
}
// WriteOpenAckChannel writes an updated channel state for the successful OpenAck handshake step.
// An event is emitted for the handshake step.
func (k Keeper) WriteOpenAckChannel(
ctx sdk.Context,
portID,
channelID,
counterpartyVersion,
counterpartyChannelID string,
) {
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
panic(fmt.Sprintf("could not find existing channel when updating channel state in successful ChanOpenAck step, channelID: %s, portID: %s", channelID, portID))
}
channel.State = types.OPEN
channel.Version = counterpartyVersion
channel.Counterparty.ChannelId = counterpartyChannelID
k.SetChannel(ctx, portID, channelID, channel)
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", channel.State.String(), "new-state", "OPEN")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "open-ack")
}()
EmitChannelOpenAckEvent(ctx, portID, channelID, channel)
}
// ChanOpenConfirm is called by the counterparty module to close their end of the
// channel, since the other end has been closed.
func (k Keeper) ChanOpenConfirm(
ctx sdk.Context,
portID,
channelID string,
chanCap *capabilitytypes.Capability,
proofAck []byte,
proofHeight exported.Height,
) error {
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
return sdkerrors.Wrapf(types.ErrChannelNotFound, "port ID (%s) channel ID (%s)", portID, channelID)
}
if channel.State != types.TRYOPEN {
return sdkerrors.Wrapf(
types.ErrInvalidChannelState,
"channel state is not TRYOPEN (got %s)", channel.State.String(),
)
}
if !k.scopedKeeper.AuthenticateCapability(ctx, chanCap, host.ChannelCapabilityPath(portID, channelID)) {
return sdkerrors.Wrapf(types.ErrChannelCapabilityNotFound, "caller does not own capability for channel, port ID (%s) channel ID (%s)", portID, channelID)
}
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, channel.ConnectionHops[0])
if !found {
return sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, channel.ConnectionHops[0])
}
if connectionEnd.GetState() != int32(connectiontypes.OPEN) {
return sdkerrors.Wrapf(
connectiontypes.ErrInvalidConnectionState,
"connection state is not OPEN (got %s)", connectiontypes.State(connectionEnd.GetState()).String(),
)
}
counterpartyHops := []string{connectionEnd.GetCounterparty().GetConnectionID()}
counterparty := types.NewCounterparty(portID, channelID)
expectedChannel := types.NewChannel(
types.OPEN, channel.Ordering, counterparty,
counterpartyHops, channel.Version,
)
if err := k.connectionKeeper.VerifyChannelState(
ctx, connectionEnd, proofHeight, proofAck,
channel.Counterparty.PortId, channel.Counterparty.ChannelId,
expectedChannel,
); err != nil {
return err
}
return nil
}
// WriteOpenConfirmChannel writes an updated channel state for the successful OpenConfirm handshake step.
// An event is emitted for the handshake step.
func (k Keeper) WriteOpenConfirmChannel(
ctx sdk.Context,
portID,
channelID string,
) {
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
panic(fmt.Sprintf("could not find existing channel when updating channel state in successful ChanOpenConfirm step, channelID: %s, portID: %s", channelID, portID))
}
channel.State = types.OPEN
k.SetChannel(ctx, portID, channelID, channel)
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", "TRYOPEN", "new-state", "OPEN")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "open-confirm")
}()
EmitChannelOpenConfirmEvent(ctx, portID, channelID, channel)
}
// Closing Handshake
//
// This section defines the set of functions required to close a channel handshake
// as defined in https://github.com/cosmos/ibc/tree/master/spec/core/ics-004-channel-and-packet-semantics#closing-handshake
//
// ChanCloseInit is called by either module to close their end of the channel. Once
// closed, channels cannot be reopened.
func (k Keeper) ChanCloseInit(
ctx sdk.Context,
portID,
channelID string,
chanCap *capabilitytypes.Capability,
) error {
if !k.scopedKeeper.AuthenticateCapability(ctx, chanCap, host.ChannelCapabilityPath(portID, channelID)) {
return sdkerrors.Wrapf(types.ErrChannelCapabilityNotFound, "caller does not own capability for channel, port ID (%s) channel ID (%s)", portID, channelID)
}
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
return sdkerrors.Wrapf(types.ErrChannelNotFound, "port ID (%s) channel ID (%s)", portID, channelID)
}
if channel.State == types.CLOSED {
return sdkerrors.Wrap(types.ErrInvalidChannelState, "channel is already CLOSED")
}
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, channel.ConnectionHops[0])
if !found {
return sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, channel.ConnectionHops[0])
}
if connectionEnd.GetState() != int32(connectiontypes.OPEN) {
return sdkerrors.Wrapf(
connectiontypes.ErrInvalidConnectionState,
"connection state is not OPEN (got %s)", connectiontypes.State(connectionEnd.GetState()).String(),
)
}
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", channel.State.String(), "new-state", "CLOSED")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "close-init")
}()
channel.State = types.CLOSED
k.SetChannel(ctx, portID, channelID, channel)
EmitChannelCloseInitEvent(ctx, portID, channelID, channel)
return nil
}
// ChanCloseConfirm is called by the counterparty module to close their end of the
// channel, since the other end has been closed.
func (k Keeper) ChanCloseConfirm(
ctx sdk.Context,
portID,
channelID string,
chanCap *capabilitytypes.Capability,
proofInit []byte,
proofHeight exported.Height,
) error {
if !k.scopedKeeper.AuthenticateCapability(ctx, chanCap, host.ChannelCapabilityPath(portID, channelID)) {
return sdkerrors.Wrap(types.ErrChannelCapabilityNotFound, "caller does not own capability for channel, port ID (%s) channel ID (%s)")
}
channel, found := k.GetChannel(ctx, portID, channelID)
if !found {
return sdkerrors.Wrapf(types.ErrChannelNotFound, "port ID (%s) channel ID (%s)", portID, channelID)
}
if channel.State == types.CLOSED {
return sdkerrors.Wrap(types.ErrInvalidChannelState, "channel is already CLOSED")
}
connectionEnd, found := k.connectionKeeper.GetConnection(ctx, channel.ConnectionHops[0])
if !found {
return sdkerrors.Wrap(connectiontypes.ErrConnectionNotFound, channel.ConnectionHops[0])
}
if connectionEnd.GetState() != int32(connectiontypes.OPEN) {
return sdkerrors.Wrapf(
connectiontypes.ErrInvalidConnectionState,
"connection state is not OPEN (got %s)", connectiontypes.State(connectionEnd.GetState()).String(),
)
}
counterpartyHops := []string{connectionEnd.GetCounterparty().GetConnectionID()}
counterparty := types.NewCounterparty(portID, channelID)
expectedChannel := types.NewChannel(
types.CLOSED, channel.Ordering, counterparty,
counterpartyHops, channel.Version,
)
if err := k.connectionKeeper.VerifyChannelState(
ctx, connectionEnd, proofHeight, proofInit,
channel.Counterparty.PortId, channel.Counterparty.ChannelId,
expectedChannel,
); err != nil {
return err
}
k.Logger(ctx).Info("channel state updated", "port-id", portID, "channel-id", channelID, "previous-state", channel.State.String(), "new-state", "CLOSED")
defer func() {
telemetry.IncrCounter(1, "ibc", "channel", "close-confirm")
}()
channel.State = types.CLOSED
k.SetChannel(ctx, portID, channelID, channel)
EmitChannelCloseConfirmEvent(ctx, portID, channelID, channel)
return nil
}