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types.go
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types.go
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package api
import (
"encoding/json"
"fmt"
"time"
datatransfer "github.com/filecoin-project/go-data-transfer"
"github.com/filecoin-project/go-fil-markets/retrievalmarket"
"github.com/filecoin-project/go-state-types/abi"
"github.com/filecoin-project/lotus/chain/types"
"github.com/ipfs/go-cid"
"github.com/ipfs/go-graphsync"
"github.com/libp2p/go-libp2p-core/peer"
pubsub "github.com/libp2p/go-libp2p-pubsub"
ma "github.com/multiformats/go-multiaddr"
)
// TODO: check if this exists anywhere else
type MultiaddrSlice []ma.Multiaddr
func (m *MultiaddrSlice) UnmarshalJSON(raw []byte) (err error) {
var temp []string
if err := json.Unmarshal(raw, &temp); err != nil {
return err
}
res := make([]ma.Multiaddr, len(temp))
for i, str := range temp {
res[i], err = ma.NewMultiaddr(str)
if err != nil {
return err
}
}
*m = res
return nil
}
var _ json.Unmarshaler = new(MultiaddrSlice)
type ObjStat struct {
Size uint64
Links uint64
}
type PubsubScore struct {
ID peer.ID
Score *pubsub.PeerScoreSnapshot
}
type MessageSendSpec struct {
MaxFee abi.TokenAmount
}
// GraphSyncDataTransfer provides diagnostics on a data transfer happening over graphsync
type GraphSyncDataTransfer struct {
// GraphSync request id for this transfer
RequestID graphsync.RequestID
// Graphsync state for this transfer
RequestState string
// If a channel ID is present, indicates whether this is the current graphsync request for this channel
// (could have changed in a restart)
IsCurrentChannelRequest bool
// Data transfer channel ID for this transfer
ChannelID *datatransfer.ChannelID
// Data transfer state for this transfer
ChannelState *DataTransferChannel
// Diagnostic information about this request -- and unexpected inconsistencies in
// request state
Diagnostics []string
}
// TransferDiagnostics give current information about transfers going over graphsync that may be helpful for debugging
type TransferDiagnostics struct {
ReceivingTransfers []*GraphSyncDataTransfer
SendingTransfers []*GraphSyncDataTransfer
}
type DataTransferChannel struct {
TransferID datatransfer.TransferID
Status datatransfer.Status
BaseCID cid.Cid
IsInitiator bool
IsSender bool
Voucher string
Message string
OtherPeer peer.ID
Transferred uint64
Stages *datatransfer.ChannelStages
}
// NewDataTransferChannel constructs an API DataTransferChannel type from full channel state snapshot and a host id
func NewDataTransferChannel(hostID peer.ID, channelState datatransfer.ChannelState) DataTransferChannel {
channel := DataTransferChannel{
TransferID: channelState.TransferID(),
Status: channelState.Status(),
BaseCID: channelState.BaseCID(),
IsSender: channelState.Sender() == hostID,
Message: channelState.Message(),
}
stringer, ok := channelState.Voucher().(fmt.Stringer)
if ok {
channel.Voucher = stringer.String()
} else {
voucherJSON, err := json.Marshal(channelState.Voucher())
if err != nil {
channel.Voucher = fmt.Errorf("Voucher Serialization: %w", err).Error()
} else {
channel.Voucher = string(voucherJSON)
}
}
if channel.IsSender {
channel.IsInitiator = !channelState.IsPull()
channel.Transferred = channelState.Sent()
channel.OtherPeer = channelState.Recipient()
} else {
channel.IsInitiator = channelState.IsPull()
channel.Transferred = channelState.Received()
channel.OtherPeer = channelState.Sender()
}
return channel
}
type NetBlockList struct {
Peers []peer.ID
IPAddrs []string
IPSubnets []string
}
type ExtendedPeerInfo struct {
ID peer.ID
Agent string
Addrs []string
Protocols []string
ConnMgrMeta *ConnMgrInfo
}
type ConnMgrInfo struct {
FirstSeen time.Time
Value int
Tags map[string]int
Conns map[string]time.Time
}
type NodeStatus struct {
SyncStatus NodeSyncStatus
PeerStatus NodePeerStatus
ChainStatus NodeChainStatus
}
type NodeSyncStatus struct {
Epoch uint64
Behind uint64
}
type NodePeerStatus struct {
PeersToPublishMsgs int
PeersToPublishBlocks int
}
type NodeChainStatus struct {
BlocksPerTipsetLast100 float64
BlocksPerTipsetLastFinality float64
}
type CheckStatusCode int
//go:generate go run golang.org/x/tools/cmd/stringer -type=CheckStatusCode -trimprefix=CheckStatus
const (
_ CheckStatusCode = iota
// Message Checks
CheckStatusMessageSerialize
CheckStatusMessageSize
CheckStatusMessageValidity
CheckStatusMessageMinGas
CheckStatusMessageMinBaseFee
CheckStatusMessageBaseFee
CheckStatusMessageBaseFeeLowerBound
CheckStatusMessageBaseFeeUpperBound
CheckStatusMessageGetStateNonce
CheckStatusMessageNonce
CheckStatusMessageGetStateBalance
CheckStatusMessageBalance
)
type CheckStatus struct {
Code CheckStatusCode
OK bool
Err string
Hint map[string]interface{}
}
type MessageCheckStatus struct {
Cid cid.Cid
CheckStatus
}
type MessagePrototype struct {
Message types.Message
ValidNonce bool
}
type RetrievalInfo struct {
PayloadCID cid.Cid
ID retrievalmarket.DealID
PieceCID *cid.Cid
PricePerByte abi.TokenAmount
UnsealPrice abi.TokenAmount
Status retrievalmarket.DealStatus
Message string // more information about deal state, particularly errors
Provider peer.ID
BytesReceived uint64
BytesPaidFor uint64
TotalPaid abi.TokenAmount
TransferChannelID *datatransfer.ChannelID
DataTransfer *DataTransferChannel
// optional event if part of ClientGetRetrievalUpdates
Event *retrievalmarket.ClientEvent
}
type RestrievalRes struct {
DealID retrievalmarket.DealID
}
// Selector specifies ipld selector string
// - if the string starts with '{', it's interpreted as json selector string
// see https://ipld.io/specs/selectors/ and https://ipld.io/specs/selectors/fixtures/selector-fixtures-1/
// - otherwise the string is interpreted as ipld-selector-text-lite (simple ipld path)
// see https://github.com/ipld/go-ipld-selector-text-lite
type Selector string
type DagSpec struct {
// DataSelector matches data to be retrieved
// - when using textselector, the path specifies subtree
// - the matched graph must have a single root
DataSelector *Selector
// ExportMerkleProof is applicable only when exporting to a CAR file via a path textselector
// When true, in addition to the selection target, the resulting CAR will contain every block along the
// path back to, and including the original root
// When false the resulting CAR contains only the blocks of the target subdag
ExportMerkleProof bool
}
type ExportRef struct {
Root cid.Cid
// DAGs array specifies a list of DAGs to export
// - If exporting into unixfs files, only one DAG is supported, DataSelector is only used to find the targeted root node
// - If exporting into a car file
// - When exactly one text-path DataSelector is specified exports the subgraph and its full merkle-path from the original root
// - Otherwise ( multiple paths and/or JSON selector specs) determines each individual subroot and exports the subtrees as a multi-root car
// - When not specified defaults to a single DAG:
// - Data - the entire DAG: `{"R":{"l":{"none":{}},":>":{"a":{">":{"@":{}}}}}}`
DAGs []DagSpec
FromLocalCAR string // if specified, get data from a local CARv2 file.
DealID retrievalmarket.DealID
}