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message.go
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// Copyright 2021 github.com/gagliardetto
// This file has been modified by github.com/gagliardetto
//
// Copyright 2020 dfuse Platform Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package solana
import (
"encoding/base64"
"fmt"
bin "github.com/gagliardetto/binary"
"github.com/gagliardetto/treeout"
"github.com/gagliardetto/solana-go/text"
)
type MessageAddressTableLookupSlice []MessageAddressTableLookup
// NumLookups returns the number of accounts from all the lookups.
func (lookups MessageAddressTableLookupSlice) NumLookups() int {
count := 0
for _, lookup := range lookups {
count += len(lookup.ReadonlyIndexes)
count += len(lookup.WritableIndexes)
}
return count
}
// NumWritableLookups returns the number of writable accounts
// across all the lookups (all the address tables).
func (lookups MessageAddressTableLookupSlice) NumWritableLookups() int {
count := 0
for _, lookup := range lookups {
count += len(lookup.WritableIndexes)
}
return count
}
// GetTableIDs returns the list of all address table IDs.
func (lookups MessageAddressTableLookupSlice) GetTableIDs() PublicKeySlice {
if lookups == nil {
return nil
}
ids := make(PublicKeySlice, 0)
for _, lookup := range lookups {
ids.UniqueAppend(lookup.AccountKey)
}
return ids
}
type MessageAddressTableLookup struct {
AccountKey PublicKey `json:"accountKey"` // The account key of the address table.
WritableIndexes Uint8SliceAsNum `json:"writableIndexes"`
ReadonlyIndexes Uint8SliceAsNum `json:"readonlyIndexes"`
}
// Uint8SliceAsNum is a slice of uint8s that can be marshaled as numbers instead of a byte slice.
type Uint8SliceAsNum []uint8
// MarshalJSON implements json.Marshaler.
func (slice Uint8SliceAsNum) MarshalJSON() ([]byte, error) {
out := make([]uint16, len(slice))
for i, idx := range slice {
out[i] = uint16(idx)
}
return json.Marshal(out)
}
type MessageVersion int
const (
MessageVersionLegacy MessageVersion = 0 // default
MessageVersionV0 MessageVersion = 1 // v0
)
type Message struct {
version MessageVersion
// List of base-58 encoded public keys used by the transaction,
// including by the instructions and for signatures.
// The first `message.header.numRequiredSignatures` public keys must sign the transaction.
AccountKeys PublicKeySlice `json:"accountKeys"` // static keys; static keys + dynamic keys if after resolution (i.e. call to `ResolveLookups()`)
// Details the account types and signatures required by the transaction.
Header MessageHeader `json:"header"`
// A base-58 encoded hash of a recent block in the ledger used to
// prevent transaction duplication and to give transactions lifetimes.
RecentBlockhash Hash `json:"recentBlockhash"`
// List of program instructions that will be executed in sequence
// and committed in one atomic transaction if all succeed.
Instructions []CompiledInstruction `json:"instructions"`
// List of address table lookups used to load additional accounts for this transaction.
AddressTableLookups MessageAddressTableLookupSlice `json:"addressTableLookups"`
// The actual tables that contain the list of account pubkeys.
// NOTE: you need to fetch these from the chain, and then call `SetAddressTables`
// before you use this transaction -- otherwise, you will get a panic.
addressTables map[PublicKey]PublicKeySlice
resolved bool // if true, the lookups have been resolved, and the `AccountKeys` slice contains all the accounts (static + dynamic).
}
func (mx *Message) ResetAddressTables() {
mx.addressTables = nil
}
// SetAddressTables sets the actual address tables used by this message.
// Use `mx.GetAddressTableLookups().GetTableIDs()` to get the list of all address table IDs.
// NOTE: you can call this once.
func (mx *Message) SetAddressTables(tables map[PublicKey]PublicKeySlice) error {
if mx.addressTables != nil {
return fmt.Errorf("address tables already set")
}
mx.addressTables = tables
return nil
}
// GetAddressTables returns the actual address tables used by this message.
// NOTE: you must have called `SetAddressTable` before being able to use this method.
func (mx *Message) GetAddressTables() map[PublicKey]PublicKeySlice {
return mx.addressTables
}
var _ bin.EncoderDecoder = &Message{}
// SetVersion sets the message version.
// This method forces the message to be encoded in the specified version.
// NOTE: if you set lookups, the version will default to V0.
func (m *Message) SetVersion(version MessageVersion) *Message {
// check if the version is valid
switch version {
case MessageVersionV0, MessageVersionLegacy:
default:
panic(fmt.Errorf("invalid message version: %d", version))
}
m.version = version
return m
}
// GetVersion returns the message version.
func (m *Message) GetVersion() MessageVersion {
return m.version
}
// SetAddressTableLookups (re)sets the lookups used by this message.
func (mx *Message) SetAddressTableLookups(lookups []MessageAddressTableLookup) *Message {
mx.AddressTableLookups = lookups
mx.version = MessageVersionV0
return mx
}
// AddAddressTableLookup adds a new lookup to the message.
func (mx *Message) AddAddressTableLookup(lookup MessageAddressTableLookup) *Message {
mx.AddressTableLookups = append(mx.AddressTableLookups, lookup)
mx.version = MessageVersionV0
return mx
}
// GetAddressTableLookups returns the lookups used by this message.
func (mx *Message) GetAddressTableLookups() MessageAddressTableLookupSlice {
return mx.AddressTableLookups
}
func (mx Message) NumLookups() int {
if mx.AddressTableLookups == nil {
return 0
}
return mx.AddressTableLookups.NumLookups()
}
func (mx Message) NumWritableLookups() int {
if mx.AddressTableLookups == nil {
return 0
}
return mx.AddressTableLookups.NumWritableLookups()
}
func (mx Message) MarshalJSON() ([]byte, error) {
if mx.version == MessageVersionLegacy {
out := struct {
AccountKeys []string `json:"accountKeys"`
Header MessageHeader `json:"header"`
RecentBlockhash string `json:"recentBlockhash"`
Instructions []CompiledInstruction `json:"instructions"`
}{
AccountKeys: make([]string, len(mx.AccountKeys)),
Header: mx.Header,
RecentBlockhash: mx.RecentBlockhash.String(),
Instructions: mx.Instructions,
}
for i, key := range mx.AccountKeys {
out.AccountKeys[i] = key.String()
}
return json.Marshal(out)
}
// Versioned message:
out := struct {
AccountKeys []string `json:"accountKeys"`
Header MessageHeader `json:"header"`
RecentBlockhash string `json:"recentBlockhash"`
Instructions []CompiledInstruction `json:"instructions"`
AddressTableLookups []MessageAddressTableLookup `json:"addressTableLookups"`
}{
AccountKeys: make([]string, len(mx.AccountKeys)),
Header: mx.Header,
RecentBlockhash: mx.RecentBlockhash.String(),
Instructions: mx.Instructions,
AddressTableLookups: mx.AddressTableLookups,
}
for i, key := range mx.AccountKeys {
out.AccountKeys[i] = key.String()
}
if out.AddressTableLookups == nil {
out.AddressTableLookups = make([]MessageAddressTableLookup, 0)
}
return json.Marshal(out)
}
func (mx *Message) EncodeToTree(txTree treeout.Branches) {
switch mx.version {
case MessageVersionV0:
txTree.Child("Version: v0")
case MessageVersionLegacy:
txTree.Child("Version: legacy")
default:
txTree.Child(text.Sf("Version (unknown): %v", mx.version))
}
txTree.Child(text.Sf("RecentBlockhash: %s", mx.RecentBlockhash))
txTree.Child(fmt.Sprintf("AccountKeys[len=%v]", mx.numStaticAccounts()+mx.AddressTableLookups.NumLookups())).ParentFunc(func(accountKeysBranch treeout.Branches) {
accountKeys, err := mx.AccountMetaList()
if err != nil {
accountKeysBranch.Child(text.RedBG(fmt.Sprintf("AccountMetaList: %s", err)))
} else {
for keyIndex, key := range accountKeys {
isFromTable := mx.IsVersioned() && keyIndex >= mx.numStaticAccounts()
if isFromTable {
accountKeysBranch.Child(text.Sf("%s (from Address Table Lookup)", text.ColorizeBG(key.PublicKey.String())))
} else {
accountKeysBranch.Child(text.ColorizeBG(key.PublicKey.String()))
}
}
}
})
if mx.IsVersioned() {
txTree.Child(fmt.Sprintf("AddressTableLookups[len=%v]", len(mx.AddressTableLookups))).ParentFunc(func(lookupsBranch treeout.Branches) {
for _, lookup := range mx.AddressTableLookups {
lookupsBranch.Child(text.Sf("%s", text.ColorizeBG(lookup.AccountKey.String()))).ParentFunc(func(lookupBranch treeout.Branches) {
lookupBranch.Child(text.Sf("WritableIndexes: %v", lookup.WritableIndexes))
lookupBranch.Child(text.Sf("ReadonlyIndexes: %v", lookup.ReadonlyIndexes))
})
}
})
}
txTree.Child("Header").ParentFunc(func(message treeout.Branches) {
mx.Header.EncodeToTree(message)
})
}
func (header *MessageHeader) EncodeToTree(mxBranch treeout.Branches) {
mxBranch.Child(text.Sf("NumRequiredSignatures: %v", header.NumRequiredSignatures))
mxBranch.Child(text.Sf("NumReadonlySignedAccounts: %v", header.NumReadonlySignedAccounts))
mxBranch.Child(text.Sf("NumReadonlyUnsignedAccounts: %v", header.NumReadonlyUnsignedAccounts))
}
func (mx *Message) MarshalBinary() ([]byte, error) {
switch mx.version {
case MessageVersionV0:
return mx.MarshalV0()
case MessageVersionLegacy:
return mx.MarshalLegacy()
default:
return nil, fmt.Errorf("invalid message version: %d", mx.version)
}
}
func (mx *Message) MarshalLegacy() ([]byte, error) {
buf := []byte{
mx.Header.NumRequiredSignatures,
mx.Header.NumReadonlySignedAccounts,
mx.Header.NumReadonlyUnsignedAccounts,
}
bin.EncodeCompactU16Length(&buf, len(mx.AccountKeys))
for _, key := range mx.AccountKeys {
buf = append(buf, key[:]...)
}
buf = append(buf, mx.RecentBlockhash[:]...)
bin.EncodeCompactU16Length(&buf, len(mx.Instructions))
for _, instruction := range mx.Instructions {
buf = append(buf, byte(instruction.ProgramIDIndex))
bin.EncodeCompactU16Length(&buf, len(instruction.Accounts))
for _, accountIdx := range instruction.Accounts {
buf = append(buf, byte(accountIdx))
}
bin.EncodeCompactU16Length(&buf, len(instruction.Data))
buf = append(buf, instruction.Data...)
}
return buf, nil
}
func (mx *Message) MarshalV0() ([]byte, error) {
buf := []byte{
mx.Header.NumRequiredSignatures,
mx.Header.NumReadonlySignedAccounts,
mx.Header.NumReadonlyUnsignedAccounts,
}
{
// Encode only the keys that are not in the address table lookups.
staticAccountKeys := mx.getStaticKeys()
bin.EncodeCompactU16Length(&buf, len(staticAccountKeys))
for _, key := range staticAccountKeys {
buf = append(buf, key[:]...)
}
buf = append(buf, mx.RecentBlockhash[:]...)
bin.EncodeCompactU16Length(&buf, len(mx.Instructions))
for _, instruction := range mx.Instructions {
buf = append(buf, byte(instruction.ProgramIDIndex))
bin.EncodeCompactU16Length(&buf, len(instruction.Accounts))
for _, accountIdx := range instruction.Accounts {
buf = append(buf, byte(accountIdx))
}
bin.EncodeCompactU16Length(&buf, len(instruction.Data))
buf = append(buf, instruction.Data...)
}
}
versionNum := byte(mx.version) // TODO: what number is this?
if versionNum > 127 {
return nil, fmt.Errorf("invalid message version: %d", mx.version)
}
buf = append([]byte{byte(versionNum + 127)}, buf...)
if mx.AddressTableLookups != nil && len(mx.AddressTableLookups) > 0 {
// wite length of address table lookups as u8
buf = append(buf, byte(len(mx.AddressTableLookups)))
for _, lookup := range mx.AddressTableLookups {
// write account pubkey
buf = append(buf, lookup.AccountKey[:]...)
// write writable indexes
bin.EncodeCompactU16Length(&buf, len(lookup.WritableIndexes))
buf = append(buf, lookup.WritableIndexes...)
// write readonly indexes
bin.EncodeCompactU16Length(&buf, len(lookup.ReadonlyIndexes))
buf = append(buf, lookup.ReadonlyIndexes...)
}
} else {
buf = append(buf, 0)
}
return buf, nil
}
func (mx Message) MarshalWithEncoder(encoder *bin.Encoder) error {
out, err := mx.MarshalBinary()
if err != nil {
return err
}
return encoder.WriteBytes(out, false)
}
func (mx Message) ToBase64() string {
out, _ := mx.MarshalBinary()
return base64.StdEncoding.EncodeToString(out)
}
func (mx *Message) UnmarshalWithDecoder(decoder *bin.Decoder) (err error) {
// peek first byte to determine if this is a legacy or v0 message
versionNum, err := decoder.Peek(1)
if err != nil {
return err
}
// TODO: is this the right way to determine if this is a legacy or v0 message?
if versionNum[0] < 127 {
mx.version = MessageVersionLegacy
} else {
mx.version = MessageVersionV0
}
switch mx.version {
case MessageVersionV0:
return mx.UnmarshalV0(decoder)
case MessageVersionLegacy:
return mx.UnmarshalLegacy(decoder)
default:
return fmt.Errorf("invalid message version: %d", mx.version)
}
}
func (mx *Message) UnmarshalBase64(b64 string) error {
b, err := base64.StdEncoding.DecodeString(b64)
if err != nil {
return err
}
return mx.UnmarshalWithDecoder(bin.NewBinDecoder(b))
}
// GetAddressTableLookupAccounts associates the lookups with the accounts
// in the actual address tables, and returns the accounts.
// NOTE: you need to call `SetAddressTables` before calling this method,
// so that the lookups can be associated with the accounts in the address tables.
func (mx Message) GetAddressTableLookupAccounts() (PublicKeySlice, error) {
err := mx.checkPreconditions()
if err != nil {
return nil, err
}
var writable PublicKeySlice
var readonly PublicKeySlice
for _, lookup := range mx.AddressTableLookups {
table, ok := mx.addressTables[lookup.AccountKey]
if !ok {
return writable, fmt.Errorf("address table lookup not found for account: %s", lookup.AccountKey)
}
for _, idx := range lookup.WritableIndexes {
if int(idx) >= len(table) {
return writable, fmt.Errorf("address table lookup index out of range: %d", idx)
}
writable = append(writable, table[idx])
}
for _, idx := range lookup.ReadonlyIndexes {
if int(idx) >= len(table) {
return writable, fmt.Errorf("address table lookup index out of range: %d", idx)
}
readonly = append(readonly, table[idx])
}
}
return append(writable, readonly...), nil
}
// ResolveLookups resolves the address table lookups,
// and appends the resolved accounts to the `message.AccountKeys` field.
// NOTE: you need to call `SetAddressTables` before calling this method.
func (mx *Message) ResolveLookups() (err error) {
if mx.resolved {
return nil
}
// add accounts from the address table lookups
atlAccounts, err := mx.GetAddressTableLookupAccounts()
if err != nil {
return err
}
mx.AccountKeys = append(mx.AccountKeys, atlAccounts...)
mx.resolved = true
return nil
}
func (mx Message) IsResolved() bool {
return mx.resolved
}
// GetAllKeys returns ALL the message's account keys (including the keys from resolved address lookup tables).
func (mx Message) GetAllKeys() (keys PublicKeySlice, err error) {
if mx.resolved {
// If the message has been resolved, then the account keys have already
// been appended to the `AccountKeys` field of the message.
return mx.AccountKeys, nil
}
// If not resolved, then we need to resolve the lookups first...
atlAccounts, err := mx.GetAddressTableLookupAccounts()
if err != nil {
return keys, err
}
// ...and return the account keys with the lookups appended:
return append(mx.AccountKeys, atlAccounts...), nil
}
func (mx Message) getStaticKeys() (keys PublicKeySlice) {
if mx.resolved {
// If the message has been resolved, then the account keys have already
// been appended to the `AccountKeys` field of the message.
return mx.AccountKeys[:mx.numStaticAccounts()]
}
return mx.AccountKeys
}
func (mx *Message) UnmarshalV0(decoder *bin.Decoder) (err error) {
version, err := decoder.ReadByte()
if err != nil {
return fmt.Errorf("failed to read message version: %w", err)
}
// TODO: check version
mx.version = MessageVersion(version - 127)
// The middle of the message is the same as the legacy message:
err = mx.UnmarshalLegacy(decoder)
if err != nil {
return err
}
// Read address table lookups length:
addressTableLookupsLen, err := decoder.ReadByte()
if err != nil {
return fmt.Errorf("failed to read address table lookups length: %w", err)
}
if addressTableLookupsLen > 0 {
mx.AddressTableLookups = make([]MessageAddressTableLookup, addressTableLookupsLen)
for i := 0; i < int(addressTableLookupsLen); i++ {
// read account pubkey
_, err = decoder.Read(mx.AddressTableLookups[i].AccountKey[:])
if err != nil {
return fmt.Errorf("failed to read account pubkey: %w", err)
}
// read writable indexes
writableIndexesLen, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("failed to read writable indexes length: %w", err)
}
if writableIndexesLen > decoder.Remaining() {
return fmt.Errorf("writable indexes length is too large: %d", writableIndexesLen)
}
mx.AddressTableLookups[i].WritableIndexes = make([]byte, writableIndexesLen)
_, err = decoder.Read(mx.AddressTableLookups[i].WritableIndexes)
if err != nil {
return fmt.Errorf("failed to read writable indexes: %w", err)
}
// read readonly indexes
readonlyIndexesLen, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("failed to read readonly indexes length: %w", err)
}
if readonlyIndexesLen > decoder.Remaining() {
return fmt.Errorf("readonly indexes length is too large: %d", readonlyIndexesLen)
}
mx.AddressTableLookups[i].ReadonlyIndexes = make([]byte, readonlyIndexesLen)
_, err = decoder.Read(mx.AddressTableLookups[i].ReadonlyIndexes)
if err != nil {
return fmt.Errorf("failed to read readonly indexes: %w", err)
}
}
}
return nil
}
func (mx *Message) UnmarshalLegacy(decoder *bin.Decoder) (err error) {
{
mx.Header.NumRequiredSignatures, err = decoder.ReadUint8()
if err != nil {
return fmt.Errorf("unable to decode mx.Header.NumRequiredSignatures: %w", err)
}
mx.Header.NumReadonlySignedAccounts, err = decoder.ReadUint8()
if err != nil {
return fmt.Errorf("unable to decode mx.Header.NumReadonlySignedAccounts: %w", err)
}
mx.Header.NumReadonlyUnsignedAccounts, err = decoder.ReadUint8()
if err != nil {
return fmt.Errorf("unable to decode mx.Header.NumReadonlyUnsignedAccounts: %w", err)
}
}
{
numAccountKeys, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("unable to decode numAccountKeys: %w", err)
}
if numAccountKeys > decoder.Remaining()/32 {
return fmt.Errorf("numAccountKeys %d is too large for remaining bytes %d", numAccountKeys, decoder.Remaining())
}
mx.AccountKeys = make(PublicKeySlice, numAccountKeys)
for i := 0; i < numAccountKeys; i++ {
_, err := decoder.Read(mx.AccountKeys[i][:])
if err != nil {
return fmt.Errorf("unable to decode mx.AccountKeys[%d]: %w", i, err)
}
}
}
{
_, err := decoder.Read(mx.RecentBlockhash[:])
if err != nil {
return fmt.Errorf("unable to decode mx.RecentBlockhash: %w", err)
}
}
{
numInstructions, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("unable to decode numInstructions: %w", err)
}
if numInstructions > decoder.Remaining() {
return fmt.Errorf("numInstructions %d is greater than remaining bytes %d", numInstructions, decoder.Remaining())
}
mx.Instructions = make([]CompiledInstruction, numInstructions)
for instructionIndex := 0; instructionIndex < numInstructions; instructionIndex++ {
programIDIndex, err := decoder.ReadUint8()
if err != nil {
return fmt.Errorf("unable to decode mx.Instructions[%d].ProgramIDIndex: %w", instructionIndex, err)
}
mx.Instructions[instructionIndex].ProgramIDIndex = uint16(programIDIndex)
{
numAccounts, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("unable to decode numAccounts for ix[%d]: %w", instructionIndex, err)
}
if numAccounts > decoder.Remaining() {
return fmt.Errorf("ix[%v]: numAccounts %d is greater than remaining bytes %d", instructionIndex, numAccounts, decoder.Remaining())
}
mx.Instructions[instructionIndex].Accounts = make([]uint16, numAccounts)
for i := 0; i < numAccounts; i++ {
accountIndex, err := decoder.ReadUint8()
if err != nil {
return fmt.Errorf("unable to decode accountIndex for ix[%d].Accounts[%d]: %w", instructionIndex, i, err)
}
mx.Instructions[instructionIndex].Accounts[i] = uint16(accountIndex)
}
}
{
dataLen, err := decoder.ReadCompactU16()
if err != nil {
return fmt.Errorf("unable to decode dataLen for ix[%d]: %w", instructionIndex, err)
}
if dataLen > decoder.Remaining() {
return fmt.Errorf("ix[%v]: dataLen %d is greater than remaining bytes %d", instructionIndex, dataLen, decoder.Remaining())
}
dataBytes, err := decoder.ReadBytes(dataLen)
if err != nil {
return fmt.Errorf("unable to decode dataBytes for ix[%d]: %w", instructionIndex, err)
}
mx.Instructions[instructionIndex].Data = (Base58)(dataBytes)
}
}
}
return nil
}
func (m Message) checkPreconditions() error {
// if this is versioned,
// and there are > 0 lookups,
// but the address table is empty,
// then we can't build the account meta list:
if m.IsVersioned() && m.AddressTableLookups.NumLookups() > 0 && (m.addressTables == nil || len(m.addressTables) == 0) {
return fmt.Errorf("cannot build account meta list without address tables")
}
return nil
}
func (m Message) AccountMetaList() (AccountMetaSlice, error) {
err := m.checkPreconditions()
if err != nil {
return nil, err
}
accountKeys, err := m.GetAllKeys()
if err != nil {
return nil, err
}
out := make(AccountMetaSlice, len(accountKeys))
for i, a := range accountKeys {
isWritable, err := m.IsWritable(a)
if err != nil {
return nil, err
}
out[i] = &AccountMeta{
PublicKey: a,
IsSigner: m.IsSigner(a),
IsWritable: isWritable,
}
}
return out, nil
}
func (m Message) IsVersioned() bool {
return m.version != MessageVersionLegacy
}
// Signers returns the pubkeys of all accounts that are signers.
func (m Message) Signers() PublicKeySlice {
// signers always in AccountKeys
out := make(PublicKeySlice, 0, len(m.AccountKeys))
for _, a := range m.AccountKeys {
if m.IsSigner(a) {
out = append(out, a)
}
}
return out
}
// Writable returns the pubkeys of all accounts that are writable.
func (m Message) Writable() (out PublicKeySlice, err error) {
err = m.checkPreconditions()
if err != nil {
return nil, err
}
accountKeys, err := m.GetAllKeys()
if err != nil {
return nil, err
}
for _, a := range accountKeys {
isWritable, err := m.IsWritable(a)
if err != nil {
return nil, err
}
if isWritable {
out = append(out, a)
}
}
return out, nil
}
// ResolveProgramIDIndex resolves the program ID index to a program ID.
// DEPRECATED: use `Program(index)` instead.
func (m Message) ResolveProgramIDIndex(programIDIndex uint16) (PublicKey, error) {
return m.Program(programIDIndex)
}
// Program returns the program key at the given index.
func (m Message) Program(programIDIndex uint16) (PublicKey, error) {
// programIDIndex always in AccountKeys
if int(programIDIndex) < len(m.AccountKeys) {
return m.AccountKeys[programIDIndex], nil
}
return PublicKey{}, fmt.Errorf("programID index not found %d", programIDIndex)
}
// Account returns the account at the given index.
func (m Message) Account(index uint16) (PublicKey, error) {
if int(index) < len(m.AccountKeys) {
return m.AccountKeys[index], nil
}
allKeys, err := m.GetAllKeys()
if err != nil {
return PublicKey{}, err
}
if int(index) < len(allKeys) {
return allKeys[index], nil
}
return PublicKey{}, fmt.Errorf("account index not found %d", index)
}
// GetAccountIndex returns the index of the given account (first occurrence of the account).
func (m Message) GetAccountIndex(account PublicKey) (uint16, error) {
err := m.checkPreconditions()
if err != nil {
return 0, err
}
accountKeys, err := m.GetAllKeys()
if err != nil {
return 0, err
}
for idx, a := range accountKeys {
if a.Equals(account) {
return uint16(idx), nil
}
}
return 0, fmt.Errorf("account not found: %s", account)
}
func (m Message) HasAccount(account PublicKey) (bool, error) {
err := m.checkPreconditions()
if err != nil {
return false, err
}
accountKeys, err := m.GetAllKeys()
if err != nil {
return false, err
}
for _, a := range accountKeys {
if a.Equals(account) {
return true, nil
}
}
return false, nil
}
func (m Message) IsSigner(account PublicKey) bool {
// signers always in AccountKeys
for idx, acc := range m.AccountKeys {
if acc.Equals(account) {
return idx < int(m.Header.NumRequiredSignatures)
}
}
return false
}
// numStaticAccounts returns the number of accounts that are always present in the
// account keys list (i.e. all the accounts that are NOT in the lookup table).
func (m Message) numStaticAccounts() int {
if !m.resolved {
return len(m.AccountKeys)
}
return len(m.AccountKeys) - m.NumLookups()
}
func (m Message) isWritableInLookups(idx int) bool {
if idx < m.numStaticAccounts() {
return false
}
return idx-m.numStaticAccounts() < m.AddressTableLookups.NumWritableLookups()
}
func (m Message) IsWritable(account PublicKey) (bool, error) {
err := m.checkPreconditions()
if err != nil {
return false, err
}
accountKeys, err := m.GetAllKeys()
if err != nil {
return false, err
}
index := 0
found := false
for idx, acc := range accountKeys {
if acc.Equals(account) {
found = true
index = idx
}
}
if !found {
return false, err
}
h := m.Header
if index >= m.numStaticAccounts() {
return m.isWritableInLookups(index), nil
} else if index >= int(h.NumRequiredSignatures) {
// unsignedAccountIndex < numWritableUnsignedAccounts
return index-int(h.NumRequiredSignatures) < (m.numStaticAccounts()-int(h.NumRequiredSignatures))-int(h.NumReadonlyUnsignedAccounts), nil
}
return index < int(h.NumRequiredSignatures-h.NumReadonlySignedAccounts), nil
}
func (m Message) signerKeys() PublicKeySlice {
return m.AccountKeys[0:m.Header.NumRequiredSignatures]
}
type MessageHeader struct {
// The total number of signatures required to make the transaction valid.
// The signatures must match the first `numRequiredSignatures` of `message.account_keys`.
NumRequiredSignatures uint8 `json:"numRequiredSignatures"`
// The last numReadonlySignedAccounts of the signed keys are read-only accounts.
// Programs may process multiple transactions that load read-only accounts within
// a single PoH entry, but are not permitted to credit or debit lamports or modify
// account data.
// Transactions targeting the same read-write account are evaluated sequentially.
NumReadonlySignedAccounts uint8 `json:"numReadonlySignedAccounts"`
// The last `numReadonlyUnsignedAccounts` of the unsigned keys are read-only accounts.
NumReadonlyUnsignedAccounts uint8 `json:"numReadonlyUnsignedAccounts"`
}