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p2ptypes.go
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p2ptypes.go
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package eos
import (
"crypto/sha256"
"encoding/binary"
"encoding/hex"
"encoding/json"
"errors"
"fmt"
"strconv"
"github.com/eoscanada/eos-go/ecc"
"github.com/tidwall/gjson"
)
type P2PMessage interface {
fmt.Stringer
GetType() P2PMessageType
}
type HandshakeMessage struct {
// net_plugin/protocol.hpp handshake_message
NetworkVersion uint16 `json:"network_version"`
ChainID Checksum256 `json:"chain_id"`
NodeID Checksum256 `json:"node_id"` // sha256
Key ecc.PublicKey `json:"key"` // can be empty, producer key, or peer key
Time Tstamp `json:"time"` // time?!
Token Checksum256 `json:"token"` // digest of time to prove we own the private `key`
Signature ecc.Signature `json:"sig"` // can be empty if no key, signature of the digest above
P2PAddress string `json:"p2p_address"`
LastIrreversibleBlockNum uint32 `json:"last_irreversible_block_num"`
LastIrreversibleBlockID Checksum256 `json:"last_irreversible_block_id"`
HeadNum uint32 `json:"head_num"`
HeadID Checksum256 `json:"head_id"`
OS string `json:"os"`
Agent string `json:"agent"`
Generation int16 `json:"generation"`
}
func (m *HandshakeMessage) GetType() P2PMessageType {
return HandshakeMessageType
}
type ChainSizeMessage struct {
LastIrreversibleBlockNum uint32 `json:"last_irreversible_block_num"`
LastIrreversibleBlockID Checksum256 `json:"last_irreversible_block_id"`
HeadNum uint32 `json:"head_num"`
HeadID Checksum256 `json:"head_id"`
}
func (m *ChainSizeMessage) GetType() P2PMessageType {
return ChainSizeType
}
func (m *HandshakeMessage) String() string {
return fmt.Sprintf("handshake: Head [%d] Last Irreversible [%d] Time [%s]", m.HeadNum, m.LastIrreversibleBlockNum, m.Time)
}
type GoAwayReason uint8
// See plugins/net_plugin/include/eosio/net_plugin/protocol.hpp#L39
const (
GoAwayNoReason = GoAwayReason(iota)
GoAwaySelfConnect
GoAwayDuplicate
GoAwayWrongChain
GoAwayWrongVersion
GoAwayForked
GoAwayUnlinkable
GoAwayBadTransaction
GoAwayValidation
GoAwayBenignOther
GoAwayFatalOther
GoAwayAuthentication
)
var goAwayToStringMap = map[GoAwayReason]string{
GoAwayNoReason: "no reason",
GoAwaySelfConnect: "self connect",
GoAwayDuplicate: "duplicate",
GoAwayWrongChain: "wrong chain",
GoAwayWrongVersion: "wrong version",
GoAwayForked: "chain is forked",
GoAwayUnlinkable: "unlinkable block received",
GoAwayBadTransaction: "bad transaction",
GoAwayValidation: "invalid block",
GoAwayAuthentication: "authentication failure",
GoAwayFatalOther: "some other failure",
GoAwayBenignOther: "some other non-fatal condition, possibly unknown block",
}
func (r GoAwayReason) String() string {
if value, exists := goAwayToStringMap[r]; exists {
return value
}
return "some crazy reason"
}
type GoAwayMessage struct {
Reason GoAwayReason `json:"reason"`
NodeID Checksum256 `json:"node_id"`
}
func (m *GoAwayMessage) GetType() P2PMessageType {
return GoAwayMessageType
}
func (m *GoAwayMessage) String() string {
return fmt.Sprintf("go away: reason [%d]", m.Reason)
}
type TimeMessage struct {
Origin Tstamp `json:"org"`
Receive Tstamp `json:"rec"`
Transmit Tstamp `json:"xmt"`
Destination Tstamp `json:"dst"`
}
func (m *TimeMessage) GetType() P2PMessageType {
return TimeMessageType
}
func (t *TimeMessage) String() string {
return fmt.Sprintf("Origin [%s], Receive [%s], Transmit [%s], Destination [%s]", t.Origin, t.Receive, t.Transmit, t.Destination)
}
type TransactionStatus uint8
const (
TransactionStatusExecuted TransactionStatus = iota ///< succeed, no error handler executed
TransactionStatusSoftFail ///< objectively failed (not executed), error handler executed
TransactionStatusHardFail ///< objectively failed and error handler objectively failed thus no state change
TransactionStatusDelayed ///< transaction delayed
TransactionStatusExpired ///< transaction expired
TransactionStatusUnknown = TransactionStatus(255)
)
func (s *TransactionStatus) UnmarshalJSON(data []byte) error {
var decoded string
if err := json.Unmarshal(data, &decoded); err != nil {
return err
}
switch decoded {
case "executed":
*s = TransactionStatusExecuted
case "soft_fail":
*s = TransactionStatusSoftFail
case "hard_fail":
*s = TransactionStatusHardFail
case "delayed":
*s = TransactionStatusDelayed
case "expired":
*s = TransactionStatusExpired
default:
*s = TransactionStatusUnknown
}
return nil
}
func (s TransactionStatus) MarshalJSON() (data []byte, err error) {
out := "unknown"
switch s {
case TransactionStatusExecuted:
out = "executed"
case TransactionStatusSoftFail:
out = "soft_fail"
case TransactionStatusHardFail:
out = "hard_fail"
case TransactionStatusDelayed:
out = "delayed"
case TransactionStatusExpired:
out = "expired"
}
return json.Marshal(out)
}
func (s TransactionStatus) String() string {
switch s {
case TransactionStatusExecuted:
return "executed"
case TransactionStatusSoftFail:
return "soft_fail"
case TransactionStatusHardFail:
return "hard_fail"
case TransactionStatusDelayed:
return "delayed"
case TransactionStatusExpired:
return "expired"
default:
return "unknown"
}
}
//type TransactionID Checksum256
type ProducerKey struct {
AccountName AccountName `json:"producer_name"`
BlockSigningKey ecc.PublicKey `json:"block_signing_key"`
}
type ProducerSchedule struct {
Version uint32 `json:"version"`
Producers []ProducerKey `json:"producers"`
}
type ProducerAuthoritySchedule struct {
Version uint32 `json:"version"`
Producers []*ProducerAuthority `json:"producers"`
}
type ProducerAuthority struct {
AccountName AccountName `json:"producer_name"`
BlockSigningAuthority *BlockSigningAuthority `json:"authority"`
}
type MerkleRoot struct {
ActiveNodes []Checksum256 `json:"_active_nodes"`
NodeCount uint64 `json:"_node_count"`
}
type PairAccountNameBlockNum struct {
AccountName AccountName
BlockNum uint32
}
func (c PairAccountNameBlockNum) MarshalJSON() ([]byte, error) {
return []byte(`["` + string(c.AccountName) + `",` + strconv.FormatUint(uint64(c.BlockNum), 10) + `]`), nil
}
func (c *PairAccountNameBlockNum) UnmarshalJSON(data []byte) error {
var object [2]interface{}
err := json.Unmarshal(data, &object)
if err != nil {
return nil
}
accountName, ok := object[0].(string)
if !ok {
return fmt.Errorf("expecting first element to be a string, got %T", object[0])
}
blockNum, ok := object[1].(float64)
if !ok {
return fmt.Errorf("expecting second element to be a float64, got %T", object[1])
}
c.AccountName = AN(accountName)
c.BlockNum = uint32(blockNum)
return nil
}
func (c *PairAccountNameBlockNum) UnmarshalBinary(decoder *Decoder) error {
accountName, err := decoder.ReadName()
if err != nil {
return fmt.Errorf("unable to read pair account name: %w", err)
}
blockNum, err := decoder.ReadUint32()
if err != nil {
return fmt.Errorf("unable to read pair block num: %w", err)
}
c.AccountName = AccountName(accountName)
c.BlockNum = blockNum
return nil
}
// FIXME: This structure supports both EOS 1.8.x as well as EOS 2.0.x. However, the binary encoding
//
// format does only support the 2.0.x version for now. It's not clear how we would do thing
// to propagate the information that encoding/decoding of binary should be performed with one
// variant or the other. When this comment was added, the binary encoding/decoding was not
// working for either version, so supporting EOS 2.0.x only is a fair improvements. Will need
// to understand better if this is required for other chains for example.
type BlockState struct {
BlockNum uint32 `json:"block_num"`
DPoSProposedIrreversibleBlockNum uint32 `json:"dpos_proposed_irreversible_blocknum"`
DPoSIrreversibleBlockNum uint32 `json:"dpos_irreversible_blocknum"`
// Hybrid (dynamic types)
ActiveSchedule *ProducerScheduleOrAuthoritySchedule `json:"active_schedule"`
BlockrootMerkle *MerkleRoot `json:"blockroot_merkle,omitempty"`
ProducerToLastProduced []PairAccountNameBlockNum `json:"producer_to_last_produced,omitempty"`
ProducerToLastImpliedIRB []PairAccountNameBlockNum `json:"producer_to_last_implied_irb,omitempty"`
// EOSIO 2.x
ValidBlockSigningAuthorityV2 *BlockSigningAuthority `json:"valid_block_signing_authority,omitempty"`
ConfirmCount []uint8 `json:"confirm_count,omitempty"`
BlockID Checksum256 `json:"id"`
Header *SignedBlockHeader `json:"header,omitempty"`
PendingSchedule *PendingSchedule `json:"pending_schedule"`
ActivatedProtocolFeatures *ProtocolFeatureActivationSet `json:"activated_protocol_features,omitempty" eos:"optional"`
AdditionalSignatures []ecc.Signature `json:"additional_signatures"`
SignedBlock *SignedBlock `json:"block,omitempty" eos:"optional"`
Validated bool `json:"validated"`
// EOSIO 1.x
BlockSigningKeyV1 *ecc.PublicKey `json:"block_signing_key,omitempty" eos:"-"`
}
type ProducerScheduleOrAuthoritySchedule struct {
// EOSIO 1.x
V1 *ProducerSchedule
// EOSIO 2.x
V2 *ProducerAuthoritySchedule
}
func (p *ProducerScheduleOrAuthoritySchedule) MarshalJSON() ([]byte, error) {
// In case of ambiguity, which arise only on empty `producers` array, the first one is picked since it does not matter (same JSON expectOutput)
if p.V1 != nil {
return json.Marshal(p.V1)
}
if p.V2 != nil {
return json.Marshal(p.V2)
}
return nil, fmt.Errorf("both V1 and V2 were null, this is an error")
}
func (p *ProducerScheduleOrAuthoritySchedule) UnmarshalJSON(data []byte) error {
versionResult := gjson.GetBytes(data, "version")
if !versionResult.Exists() || versionResult.Type != gjson.Number {
return fmt.Errorf("expected 'version' key of type 'number' to exist in %q", string(data))
}
producersResult := gjson.GetBytes(data, "producers")
if !producersResult.Exists() || !producersResult.IsArray() {
return fmt.Errorf("expected 'producers' key of type 'number' to exist in %q", string(data))
}
// We cannot infer anything, what should we do exactly? We could populate the two, but
// what happens on marshal? Both are defined, that's what we choose for now, `eos-go` user
// would then make the choice themselves.
if len(producersResult.Array()) == 0 || producersResult.Get("0.block_signing_key").Exists() {
p.V1 = new(ProducerSchedule)
err := json.Unmarshal(data, p.V1)
if err != nil {
return fmt.Errorf("unable to unmarshal ProducerSchedule type: %w", err)
}
}
if len(producersResult.Array()) == 0 || producersResult.Get("0.authority").Exists() {
p.V2 = new(ProducerAuthoritySchedule)
err := json.Unmarshal(data, p.V2)
if err != nil {
return fmt.Errorf("unable to unmarshal ProducerAuthoritySchedule type: %w", err)
}
}
if p.V1 == nil && p.V2 == nil {
return errors.New("unable to unmarshal producer authority or schedule, no type could be inferred from JSON")
}
return nil
}
func (p *ProducerScheduleOrAuthoritySchedule) UnmarshalBinary(decoder *Decoder) error {
// FIXME: For now, we assume all blocks are in 2.0 format, so with V2 set. However,
// it's not really clear for me yet how is the versionning being handled by
// `nodeos` at the binary level. In the block header, there is some header
// extensions that can be used to determined if the WTMSIG protocol feature
// has been activated or not. But I'm not even sure the binary format changes
// or not (most probably that it does). Anyway, this compatibility stuff between
// 1.8 and 2.0 with WTMSIG protocol feature needs to be researched and handled
// correctly everywhere in the library.
if p.V2 == nil {
p.V2 = new(ProducerAuthoritySchedule)
}
err := decoder.Decode(p.V2)
if err != nil {
return fmt.Errorf("unable to decode producer authority schedule (V2): %w", err)
}
return nil
}
// See libraries/chain/include/eosio/chain/producer_schedule.hpp#L161
var BlockSigningAuthorityVariant = NewVariantDefinition([]VariantType{
{"block_signing_authority_v0", (*BlockSigningAuthorityV0)(nil)},
})
type BlockSigningAuthority struct {
BaseVariant
}
func (a *BlockSigningAuthority) MarshalJSON() ([]byte, error) {
return a.BaseVariant.MarshalJSON(BlockSigningAuthorityVariant)
}
func (a *BlockSigningAuthority) UnmarshalJSON(data []byte) error {
return a.BaseVariant.UnmarshalJSON(data, BlockSigningAuthorityVariant)
}
func (a *BlockSigningAuthority) UnmarshalBinary(decoder *Decoder) error {
return a.BaseVariant.UnmarshalBinaryVariant(decoder, BlockSigningAuthorityVariant)
}
// See libraries/chain/include/eosio/chain/producer_schedule.hpp#L100
type BlockSigningAuthorityV0 struct {
Threshold uint32 `json:"threshold"`
Keys []*KeyWeight `json:"keys"`
}
type PendingSchedule struct {
ScheduleLIBNum uint32 `json:"schedule_lib_num"`
ScheduleHash Checksum256 `json:"schedule_hash"`
Schedule *ProducerScheduleOrAuthoritySchedule `json:"schedule"`
}
type ProtocolFeatureActivationSet struct {
ProtocolFeatures []Checksum256 `json:"protocol_features"`
}
type BlockHeader struct {
Timestamp BlockTimestamp `json:"timestamp"`
Producer AccountName `json:"producer"`
Confirmed uint16 `json:"confirmed"`
Previous Checksum256 `json:"previous"`
TransactionMRoot Checksum256 `json:"transaction_mroot"`
ActionMRoot Checksum256 `json:"action_mroot"`
ScheduleVersion uint32 `json:"schedule_version"`
// EOSIO 1.x
NewProducersV1 *ProducerSchedule `json:"new_producers,omitempty" eos:"optional"`
HeaderExtensions []*Extension `json:"header_extensions"`
}
func (b *BlockHeader) BlockNumber() uint32 {
return binary.BigEndian.Uint32(b.Previous[:4]) + 1
}
func (b *BlockHeader) BlockID() (Checksum256, error) {
cereal, err := MarshalBinary(b)
if err != nil {
return nil, err
}
h := sha256.New()
_, _ = h.Write(cereal)
hashed := h.Sum(nil)
binary.BigEndian.PutUint32(hashed, b.BlockNumber())
return Checksum256(hashed), nil
}
type SignedBlockHeader struct {
BlockHeader
ProducerSignature ecc.Signature `json:"producer_signature"`
}
type SignedBlock struct {
SignedBlockHeader
Transactions []TransactionReceipt `json:"transactions"`
BlockExtensions []*Extension `json:"block_extensions"`
}
func (m *SignedBlock) String() string {
return fmt.Sprintf("SignedBlock [%d] with %d txs", m.BlockNumber(), len(m.Transactions))
}
func (m *SignedBlock) GetType() P2PMessageType {
return SignedBlockType
}
type TransactionReceiptHeader struct {
Status TransactionStatus `json:"status"`
CPUUsageMicroSeconds uint32 `json:"cpu_usage_us"`
NetUsageWords Varuint32 `json:"net_usage_words"`
}
type TransactionReceipt struct {
TransactionReceiptHeader
Transaction TransactionWithID `json:"trx"`
}
type TransactionWithID struct {
ID Checksum256
Packed *PackedTransaction
}
func (t TransactionWithID) MarshalJSON() ([]byte, error) {
return json.Marshal([]interface{}{
t.ID,
t.Packed,
})
}
func (t *TransactionWithID) UnmarshalJSON(data []byte) error {
var packed PackedTransaction
if data[0] == '{' {
if err := json.Unmarshal(data, &packed); err != nil {
return err
}
id, err := packed.ID()
if err != nil {
return fmt.Errorf("get id: %w", err)
}
*t = TransactionWithID{
ID: id,
Packed: &packed,
}
return nil
} else if data[0] == '"' {
var id string
err := json.Unmarshal(data, &id)
if err != nil {
return err
}
shaID, err := hex.DecodeString(id)
if err != nil {
return fmt.Errorf("decoding id in trx: %w", err)
}
*t = TransactionWithID{
ID: Checksum256(shaID),
}
return nil
}
var in []json.RawMessage
err := json.Unmarshal(data, &in)
if err != nil {
return err
}
if len(in) != 2 {
return fmt.Errorf("expected two params for TransactionWithID, got %d", len(in))
}
typ := string(in[0])
switch typ {
case "0":
var s string
if err := json.Unmarshal(in[1], &s); err != nil {
return err
}
*t = TransactionWithID{}
if err := json.Unmarshal(in[1], &t.ID); err != nil {
return err
}
case "1":
// ignore the ID field right now..
err = json.Unmarshal(in[1], &packed)
if err != nil {
return err
}
id, err := packed.ID()
if err != nil {
return fmt.Errorf("get id: %w", err)
}
*t = TransactionWithID{
ID: id,
Packed: &packed,
}
default:
return fmt.Errorf("unsupported multi-variant trx serialization type from C++ code into Go: %q", typ)
}
return nil
}
type IDListMode byte
const (
none IDListMode = iota
catch_up
last_irr_catch_up
normal
)
type OrderedTransactionIDs struct {
Mode [4]byte `json:"mode"`
Pending uint32 `json:"pending"`
IDs []Checksum256 `json:"ids"`
}
type OrderedBlockIDs struct {
Mode [4]byte `json:"mode"`
Pending uint32 `json:"pending"`
IDs []Checksum256 `json:"ids"`
}
func (o *OrderedBlockIDs) String() string {
ids := ""
for _, id := range o.IDs {
ids += fmt.Sprintf("%s,", id)
}
return fmt.Sprintf("Mode %d, Pending %d, ids [%s]", o.Mode, o.Pending, ids)
}
type NoticeMessage struct {
KnownTrx OrderedBlockIDs `json:"known_trx"`
KnownBlocks OrderedBlockIDs `json:"known_blocks"`
}
func (n *NoticeMessage) String() string {
return fmt.Sprintf("KnownTrx %s :: KnownBlocks %s", n.KnownTrx.String(), n.KnownBlocks.String())
}
func (m *NoticeMessage) GetType() P2PMessageType {
return NoticeMessageType
}
type SyncRequestMessage struct {
StartBlock uint32 `json:"start_block"`
EndBlock uint32 `json:"end_block"`
}
func (m *SyncRequestMessage) GetType() P2PMessageType {
return SyncRequestMessageType
}
func (m *SyncRequestMessage) String() string {
return fmt.Sprintf("SyncRequest: Start Block [%d] End Block [%d]", m.StartBlock, m.EndBlock)
}
type RequestMessage struct {
ReqTrx OrderedBlockIDs `json:"req_trx"`
ReqBlocks OrderedBlockIDs `json:"req_blocks"`
}
func (r *RequestMessage) String() string {
return fmt.Sprintf("ReqTrx %s :: ReqBlocks %s", r.ReqTrx.String(), r.ReqBlocks.String())
}
func (m *RequestMessage) GetType() P2PMessageType {
return RequestMessageType
}
type SignedTransactionMessage struct {
Signatures []ecc.Signature `json:"signatures"`
ContextFreeData []byte `json:"context_free_data"`
}
type PackedTransactionMessage struct {
PackedTransaction
}
func (m *PackedTransactionMessage) GetType() P2PMessageType {
return PackedTransactionMessageType
}
func (m PackedTransactionMessage) String() string {
signTrx, err := m.Unpack()
if err != nil {
return fmt.Sprintf("err trx msg unpack by %s", err.Error())
}
return signTrx.String()
}