Documentation ¶
Overview ¶
Package wire implements the bitcoin wire protocol.
For the complete details of the bitcoin protocol, see the official wiki entry at https://en.bitcoin.it/wiki/Protocol_specification. The following only serves as a quick overview to provide information on how to use the package.
At a high level, this package provides support for marshalling and unmarshalling supported bitcoin messages to and from the wire. This package does not deal with the specifics of message handling such as what to do when a message is received. This provides the caller with a high level of flexibility.
Bitcoin Message Overview ¶
The bitcoin protocol consists of exchanging messages between peers. Each message is preceded by a header which identifies information about it such as which bitcoin network it is a part of, its type, how big it is, and a checksum to verify validity. All encoding and decoding of message headers is handled by this package.
To accomplish this, there is a generic interface for bitcoin messages named Message which allows messages of any type to be read, written, or passed around through channels, functions, etc. In addition, concrete implementations of most of the currently supported bitcoin messages are provided. For these supported messages, all of the details of marshalling and unmarshalling to and from the wire using bitcoin encoding are handled so the caller doesn't have to concern themselves with the specifics.
Message Interaction ¶
The following provides a quick summary of how the bitcoin messages are intended to interact with one another. As stated above, these interactions are not directly handled by this package. For more in-depth details about the appropriate interactions, see the official bitcoin protocol wiki entry at https://en.bitcoin.it/wiki/Protocol_specification.
The initial handshake consists of two peers sending each other a version message (MsgVersion) followed by responding with a verack message (MsgVerAck). Both peers use the information in the version message (MsgVersion) to negotiate things such as protocol version and supported services with each other. Once the initial handshake is complete, the following chart indicates message interactions in no particular order.
Peer A Sends Peer B Responds ---------------------------------------------------------------------------- getaddr message (MsgGetAddr) addr message (MsgAddr) getblocks message (MsgGetBlocks) inv message (MsgInv) inv message (MsgInv) getdata message (MsgGetData) getdata message (MsgGetData) block message (MsgBlock) -or- tx message (MsgTx) -or- notfound message (MsgNotFound) getheaders message (MsgGetHeaders) headers message (MsgHeaders) ping message (MsgPing) pong message (MsgHeaders)* -or- (none -- Ability to send message is enough) NOTES: * The pong message was not added until later protocol versions as defined in BIP0031. The BIP0031Version constant can be used to detect a recent enough protocol version for this purpose (version > BIP0031Version).
Common Parameters ¶
There are several common parameters that arise when using this package to read and write bitcoin messages. The following sections provide a quick overview of these parameters so the next sections can build on them.
Protocol Version ¶
The protocol version should be negotiated with the remote peer at a higher level than this package via the version (MsgVersion) message exchange, however, this package provides the wire.ProtocolVersion constant which indicates the latest protocol version this package supports and is typically the value to use for all outbound connections before a potentially lower protocol version is negotiated.
Bitcoin Network ¶
The bitcoin network is a magic number which is used to identify the start of a message and which bitcoin network the message applies to. This package provides the following constants:
protocol.MainNet wire.TestNet (Regression test network) protocol.TestNet3 (Test network version 3) wire.SimNet (Simulation test network)
Determining Message Type ¶
As discussed in the bitcoin message overview section, this package reads and writes bitcoin messages using a generic interface named Message. In order to determine the actual concrete type of the message, use a type switch or type assertion. An example of a type switch follows:
// Assumes msg is already a valid concrete message such as one created // via NewMsgVersion or read via ReadMessage. switch msg := msg.(type) { case *wire.MsgVersion: // The message is a pointer to a MsgVersion struct. fmt.Printf("Protocol version: %v", msg.ProtocolVersion) case *wire.MsgBlock: // The message is a pointer to a MsgBlock struct. fmt.Printf("Number of tx in block: %v", msg.Header.TxnCount) }
Reading Messages ¶
In order to unmarshall bitcoin messages from the wire, use the ReadMessage function. It accepts any io.Reader, but typically this will be a net.Conn to a remote node running a bitcoin peer. Example syntax is:
// Reads and validates the next bitcoin message from conn using the // protocol version pver and the bitcoin network btcnet. The returns // are a wire.Message, a []byte which contains the unmarshalled // raw payload, and a possible error. msg, rawPayload, err := wire.ReadMessage(conn, pver, btcnet) if err != nil { // Log and handle the error }
Writing Messages ¶
In order to marshall bitcoin messages to the wire, use the WriteMessage function. It accepts any io.Writer, but typically this will be a net.Conn to a remote node running a bitcoin peer. Example syntax to request addresses from a remote peer is:
// Create a new getaddr bitcoin message. msg := wire.NewMsgGetAddr() // Writes a bitcoin message msg to conn using the protocol version // pver, and the bitcoin network btcnet. The return is a possible // error. err := wire.WriteMessage(conn, msg, pver, btcnet) if err != nil { // Log and handle the error }
Errors ¶
Errors returned by this package are either the raw errors provided by underlying calls to read/write from streams such as io.EOF, io.ErrUnexpectedEOF, and io.ErrShortWrite, or of type wire.MessageError. This allows the caller to differentiate between general IO errors and malformed messages through type assertions.
Bitcoin Improvement Proposals ¶
This package includes spec changes outlined by the following BIPs:
BIP0014 (https://github.com/bitcoin/bips/blob/master/bip-0014.mediawiki) BIP0031 (https://github.com/bitcoin/bips/blob/master/bip-0031.mediawiki) BIP0035 (https://github.com/bitcoin/bips/blob/master/bip-0035.mediawiki) BIP0037 (https://github.com/bitcoin/bips/blob/master/bip-0037.mediawiki) BIP0111 (https://github.com/bitcoin/bips/blob/master/bip-0111.mediawiki) BIP0130 (https://github.com/bitcoin/bips/blob/master/bip-0130.mediawiki) BIP0133 (https://github.com/bitcoin/bips/blob/master/bip-0133.mediawiki)
Index ¶
- Constants
- Variables
- func RandomUint64() (uint64, er.R)
- func ReadVarBytes(r io.Reader, pver uint32, maxAllowed uint32, fieldName string) ([]byte, er.R)
- func ReadVarInt(r io.Reader, pver uint32) (uint64, er.R)
- func ReadVarString(r io.Reader, pver uint32) (string, er.R)
- func VarIntSerializeSize(val uint64) int
- func WriteMessage(w io.Writer, msg Message, pver uint32, btcnet protocol.BitcoinNet) er.R
- func WriteMessageN(w io.Writer, msg Message, pver uint32, btcnet protocol.BitcoinNet) (int, er.R)
- func WriteMessageWithEncodingN(w io.Writer, msg Message, pver uint32, btcnet protocol.BitcoinNet, ...) (int, er.R)
- func WriteTxOut(w io.Writer, pver uint32, version int32, to *TxOut) er.R
- func WriteVarBytes(w io.Writer, pver uint32, bytes []byte) er.R
- func WriteVarInt(w io.Writer, pver uint32, val uint64) er.R
- func WriteVarString(w io.Writer, pver uint32, str string) er.R
- type BlockHeader
- func (h *BlockHeader) BlockHash() chainhash.Hash
- func (h *BlockHeader) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (h *BlockHeader) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (h *BlockHeader) Deserialize(r io.Reader) er.R
- func (h *BlockHeader) Serialize(w io.Writer) er.R
- type BloomUpdateType
- type FilterType
- type InvType
- type InvVect
- type Message
- func ReadMessage(r io.Reader, pver uint32, btcnet protocol.BitcoinNet) (Message, []byte, er.R)
- func ReadMessageN(r io.Reader, pver uint32, btcnet protocol.BitcoinNet) (int, Message, []byte, er.R)
- func ReadMessageWithEncodingN(r io.Reader, pver uint32, btcnet protocol.BitcoinNet, enc MessageEncoding) (int, Message, []byte, er.R)
- type MessageEncoding
- type MsgAddr
- func (msg *MsgAddr) AddAddress(na *NetAddress) er.R
- func (msg *MsgAddr) AddAddresses(netAddrs ...*NetAddress) er.R
- func (msg *MsgAddr) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgAddr) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgAddr) ClearAddresses()
- func (msg *MsgAddr) Command() string
- func (msg *MsgAddr) MaxPayloadLength(pver uint32) uint32
- type MsgBlock
- func (msg *MsgBlock) AddTransaction(tx *MsgTx) er.R
- func (msg *MsgBlock) BlockHash() chainhash.Hash
- func (msg *MsgBlock) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgBlock) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgBlock) ClearTransactions()
- func (msg *MsgBlock) Command() string
- func (msg *MsgBlock) Deserialize(r io.Reader) er.R
- func (msg *MsgBlock) DeserializeTxLoc(r *bytes.Buffer) ([]TxLoc, er.R)
- func (msg *MsgBlock) MaxPayloadLength(pver uint32) uint32
- func (msg *MsgBlock) Serialize(w io.Writer) er.R
- func (msg *MsgBlock) SerializeSize() int
- func (msg *MsgBlock) SerializeSizeStripped() int
- func (msg *MsgBlock) TxHashes() ([]chainhash.Hash, er.R)
- type MsgCFCheckpt
- func (msg *MsgCFCheckpt) AddCFHeader(header *chainhash.Hash) er.R
- func (msg *MsgCFCheckpt) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
- func (msg *MsgCFCheckpt) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
- func (msg *MsgCFCheckpt) Command() string
- func (msg *MsgCFCheckpt) MaxPayloadLength(pver uint32) uint32
- type MsgCFHeaders
- func (msg *MsgCFHeaders) AddCFHash(hash *chainhash.Hash) er.R
- func (msg *MsgCFHeaders) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
- func (msg *MsgCFHeaders) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
- func (msg *MsgCFHeaders) Command() string
- func (msg *MsgCFHeaders) MaxPayloadLength(pver uint32) uint32
- type MsgCFilter
- type MsgFeeFilter
- type MsgFilterAdd
- type MsgFilterClear
- type MsgFilterLoad
- type MsgGetAddr
- type MsgGetBlocks
- func (msg *MsgGetBlocks) AddBlockLocatorHash(hash *chainhash.Hash) er.R
- func (msg *MsgGetBlocks) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetBlocks) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetBlocks) Command() string
- func (msg *MsgGetBlocks) MaxPayloadLength(pver uint32) uint32
- type MsgGetCFCheckpt
- type MsgGetCFHeaders
- type MsgGetCFilters
- type MsgGetData
- func (msg *MsgGetData) AddInvVect(iv *InvVect) er.R
- func (msg *MsgGetData) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetData) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetData) Command() string
- func (msg *MsgGetData) MaxPayloadLength(pver uint32) uint32
- type MsgGetHeaders
- func (msg *MsgGetHeaders) AddBlockLocatorHash(hash *chainhash.Hash) er.R
- func (msg *MsgGetHeaders) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetHeaders) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgGetHeaders) Command() string
- func (msg *MsgGetHeaders) MaxPayloadLength(pver uint32) uint32
- type MsgHeaders
- func (msg *MsgHeaders) AddBlockHeader(bh *BlockHeader) er.R
- func (msg *MsgHeaders) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgHeaders) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgHeaders) Command() string
- func (msg *MsgHeaders) MaxPayloadLength(pver uint32) uint32
- type MsgInv
- func (msg *MsgInv) AddInvVect(iv *InvVect) er.R
- func (msg *MsgInv) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgInv) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgInv) Command() string
- func (msg *MsgInv) MaxPayloadLength(pver uint32) uint32
- type MsgMemPool
- type MsgMerkleBlock
- func (msg *MsgMerkleBlock) AddTxHash(hash *chainhash.Hash) er.R
- func (msg *MsgMerkleBlock) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgMerkleBlock) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgMerkleBlock) Command() string
- func (msg *MsgMerkleBlock) MaxPayloadLength(pver uint32) uint32
- type MsgNotFound
- func (msg *MsgNotFound) AddInvVect(iv *InvVect) er.R
- func (msg *MsgNotFound) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgNotFound) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgNotFound) Command() string
- func (msg *MsgNotFound) MaxPayloadLength(pver uint32) uint32
- type MsgPing
- type MsgPong
- type MsgReject
- type MsgSendHeaders
- type MsgTx
- func (msg *MsgTx) AddTxIn(ti *TxIn)
- func (msg *MsgTx) AddTxOut(to *TxOut)
- func (msg *MsgTx) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgTx) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgTx) Command() string
- func (msg *MsgTx) Copy() *MsgTx
- func (msg *MsgTx) Deserialize(r io.Reader) er.R
- func (msg *MsgTx) DeserializeNoWitness(r io.Reader) er.R
- func (msg *MsgTx) HasWitness() bool
- func (msg *MsgTx) MaxPayloadLength(pver uint32) uint32
- func (msg *MsgTx) PkScriptLocs() []int
- func (msg *MsgTx) Serialize(w io.Writer) er.R
- func (msg *MsgTx) SerializeNoWitness(w io.Writer) er.R
- func (msg *MsgTx) SerializeSize() int
- func (msg *MsgTx) SerializeSizeStripped() int
- func (msg *MsgTx) TxHash() chainhash.Hash
- func (msg *MsgTx) WitnessHash() chainhash.Hash
- type MsgVerAck
- type MsgVersion
- func (msg *MsgVersion) AddService(service protocol.ServiceFlag)
- func (msg *MsgVersion) AddUserAgent(name string, version string, comments ...string) er.R
- func (msg *MsgVersion) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgVersion) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (msg *MsgVersion) Command() string
- func (msg *MsgVersion) HasService(service protocol.ServiceFlag) bool
- func (msg *MsgVersion) MaxPayloadLength(pver uint32) uint32
- type NetAddress
- type OutPoint
- type PacketCryptAnn
- func (p *PacketCryptAnn) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (p *PacketCryptAnn) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (p *PacketCryptAnn) GetAnnounceHeader() []byte
- func (p *PacketCryptAnn) GetContentHash() []byte
- func (p *PacketCryptAnn) GetContentLength() uint32
- func (p *PacketCryptAnn) GetItem4Prefix() []byte
- func (p *PacketCryptAnn) GetMerkleProof() []byte
- func (p *PacketCryptAnn) GetParentBlockHeight() uint32
- func (p *PacketCryptAnn) GetSigningKey() []byte
- func (p *PacketCryptAnn) GetSoftNonce() []byte
- func (p *PacketCryptAnn) GetVersion() uint
- func (p *PacketCryptAnn) GetWorkTarget() uint32
- func (p *PacketCryptAnn) HasSigningKey() bool
- type PacketCryptProof
- func (h *PacketCryptProof) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
- func (h *PacketCryptProof) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
- func (h *PacketCryptProof) Serialize(w io.Writer) er.R
- func (h *PacketCryptProof) SerializeSize() int
- func (h *PacketCryptProof) SplitContentProof(proofIdx uint32) ([][]byte, er.R)
- type PcCoinbaseCommit
- type RejectCode
- type TxIn
- type TxInAdditional
- type TxLoc
- type TxOut
- type TxWitness
Constants ¶
const ( // MaxInvPerMsg is the maximum number of inventory vectors that can be in a // single bitcoin inv message. MaxInvPerMsg = 50000 // InvWitnessFlag denotes that the inventory vector type is requesting, // or sending a version which includes witness data. InvWitnessFlag = 1 << 30 )
const ( CmdVersion = "version" CmdVerAck = "verack" CmdGetAddr = "getaddr" CmdAddr = "addr" CmdGetBlocks = "getblocks" CmdInv = "inv" CmdGetData = "getdata" CmdNotFound = "notfound" CmdBlock = "block" CmdTx = "tx" CmdGetHeaders = "getheaders" CmdHeaders = "headers" CmdPing = "ping" CmdPong = "pong" CmdMemPool = "mempool" CmdFilterAdd = "filteradd" CmdFilterClear = "filterclear" CmdFilterLoad = "filterload" CmdMerkleBlock = "merkleblock" CmdReject = "reject" CmdSendHeaders = "sendheaders" CmdFeeFilter = "feefilter" CmdGetCFilters = "getcfilters" CmdGetCFHeaders = "getcfheaders" CmdGetCFCheckpt = "getcfcheckpt" CmdCFilter = "cfilter" CmdCFHeaders = "cfheaders" CmdCFCheckpt = "cfcheckpt" )
Commands used in bitcoin message headers which describe the type of message.
const ( // MaxCFHeaderPayload is the maximum byte size of a committed // filter header. MaxCFHeaderPayload = chainhash.HashSize // MaxCFHeadersPerMsg is the maximum number of committed filter headers // that can be in a single bitcoin cfheaders message. MaxCFHeadersPerMsg = 2000 )
const ( // MaxFilterLoadHashFuncs is the maximum number of hash functions to // load into the Bloom filter. MaxFilterLoadHashFuncs = 50 // MaxFilterLoadFilterSize is the maximum size in bytes a filter may be. MaxFilterLoadFilterSize = 36000 )
const ( // CFCheckptInterval is the gap (in number of blocks) between each // filter header checkpoint. CFCheckptInterval = 1000 )
const CommandSize = 12
CommandSize is the fixed size of all commands in the common bitcoin message header. Shorter commands must be zero padded.
const DefaultUserAgent = "/btcwire:0.5.0/"
DefaultUserAgent for wire in the stack
const ( // ForceEptfEncoding will cause a failure if there is missing additional // data. If Additional missing or incomplete, then this will cause an error // in encoding. ForceEptfEncoding = EptfEncoding | _ForceEptfEncoding )
const MaxAddrPerMsg = 1000
MaxAddrPerMsg is the maximum number of addresses that can be in a single bitcoin addr message (MsgAddr).
const MaxBlockHeaderPayload = 16 + (chainhash.HashSize * 2)
MaxBlockHeaderPayload is the maximum number of bytes a block header can be. Version 4 bytes + Timestamp 4 bytes + Bits 4 bytes + Nonce 4 bytes + PrevBlock and MerkleRoot hashes.
const MaxBlockHeadersPerMsg = 2000
MaxBlockHeadersPerMsg is the maximum number of block headers that can be in a single bitcoin headers message.
const MaxBlockLocatorsPerMsg = 500
MaxBlockLocatorsPerMsg is the maximum number of block locator hashes allowed per message.
const MaxBlockPayload = 4000000
MaxBlockPayload is the maximum bytes a block message can be in bytes. After Segregated Witness, the max block payload has been raised to 4MB.
const MaxBlocksPerMsg = 500
MaxBlocksPerMsg is the maximum number of blocks allowed per message.
const ( // MaxCFilterDataSize is the maximum byte size of a committed filter. // The maximum size is currently defined as 256KiB. MaxCFilterDataSize = 256 * 1024 )
const ( // MaxFilterAddDataSize is the maximum byte size of a data // element to add to the Bloom filter. It is equal to the // maximum element size of a script. MaxFilterAddDataSize = 520 )
const MaxGetCFiltersReqRange = 1000
MaxGetCFiltersReqRange the maximum number of filters that may be requested in a getcfheaders message.
const MaxMessagePayload = (1024 * 1024 * 32) // 32MB
MaxMessagePayload is the maximum bytes a message can be regardless of other individual limits imposed by messages themselves.
const MaxUserAgentLen = 256
MaxUserAgentLen is the maximum allowed length for the user agent field in a version message (MsgVersion).
const (
// MaxVarIntPayload is the maximum payload size for a variable length integer.
MaxVarIntPayload = 9
)
const MessageHeaderSize = 24
MessageHeaderSize is the number of bytes in a bitcoin message header. Bitcoin network (magic) 4 bytes + command 12 bytes + payload length 4 bytes + checksum 4 bytes.
const PcAnnHeaderLen = 88
PcAnnHeaderLen is the length of the announcement header (not including merkle proof)
const PcAnnMerkleProofLen = 896
PcAnnMerkleProofLen is the length of the merkle proof
const PcAnnSerializeSize = 1024
PcAnnSerializeSize how big the announcement is when serialized
const PcCoinbaseCommitMagic uint32 = 0x0211f909
PcCoinbaseCommitMagic is the first 4 bytes of the commitment
const PcItem4PrefixLen = PcAnnSerializeSize - (PcAnnHeaderLen + PcAnnMerkleProofLen)
PcItem4PrefixLen is the length of the item 4 prefix which follows the merkle proof
Variables ¶
var ErrInsaneCFHeaderCount = errors.New(
"refusing to decode unreasonable number of filter headers")
ErrInsaneCFHeaderCount signals that we were asked to decode an unreasonable number of cfilter headers.
var LatestEncoding = WitnessEncoding
LatestEncoding is the most recently specified encoding for the Bitcoin wire protocol.
var MessageError *er.ErrorCode = er.GenericErrorType.Code("wire.MessageError")
MessageError describes an issue with a message. An example of some potential issues are messages from the wrong bitcoin network, invalid commands, mismatched checksums, and exceeding max payloads.
This provides a mechanism for the caller to type assert the error to differentiate between general io errors such as io.EOF and issues that resulted from malformed messages.
Functions ¶
func RandomUint64 ¶
RandomUint64 returns a cryptographically random uint64 value.
func ReadVarBytes ¶
ReadVarBytes reads a variable length byte array. A byte array is encoded as a varInt containing the length of the array followed by the bytes themselves. An error is returned if the length is greater than the passed maxAllowed parameter which helps protect against memory exhaustion attacks and forced panics through malformed messages. The fieldName parameter is only used for the error message so it provides more context in the error.
func ReadVarInt ¶
ReadVarInt reads a variable length integer from r and returns it as a uint64.
func ReadVarString ¶
ReadVarString reads a variable length string from r and returns it as a Go string. A variable length string is encoded as a variable length integer containing the length of the string followed by the bytes that represent the string itself. An error is returned if the length is greater than the maximum block payload size since it helps protect against memory exhaustion attacks and forced panics through malformed messages.
func VarIntSerializeSize ¶
VarIntSerializeSize returns the number of bytes it would take to serialize val as a variable length integer.
func WriteMessage ¶
WriteMessage writes a bitcoin Message to w including the necessary header information. This function is the same as WriteMessageN except it doesn't doesn't return the number of bytes written. This function is mainly provided for backwards compatibility with the original API, but it's also useful for callers that don't care about byte counts.
func WriteMessageN ¶
WriteMessageN writes a bitcoin Message to w including the necessary header information and returns the number of bytes written. This function is the same as WriteMessage except it also returns the number of bytes written.
func WriteMessageWithEncodingN ¶
func WriteMessageWithEncodingN(w io.Writer, msg Message, pver uint32, btcnet protocol.BitcoinNet, encoding MessageEncoding) (int, er.R)
WriteMessageWithEncodingN writes a bitcoin Message to w including the necessary header information and returns the number of bytes written. This function is the same as WriteMessageN except it also allows the caller to specify the message encoding format to be used when serializing wire messages.
func WriteTxOut ¶
WriteTxOut encodes to into the bitcoin protocol encoding for a transaction output (TxOut) to w.
NOTE: This function is exported in order to allow txscript to compute the new sighashes for witness transactions (BIP0143).
func WriteVarBytes ¶
WriteVarBytes serializes a variable length byte array to w as a varInt containing the number of bytes, followed by the bytes themselves.
func WriteVarInt ¶
WriteVarInt serializes val to w using a variable number of bytes depending on its value.
Types ¶
type BlockHeader ¶
type BlockHeader struct { // Version of the block. This is not the same as the protocol version. Version int32 // Hash of the previous block header in the block chain. PrevBlock chainhash.Hash // Merkle tree reference to hash of all transactions for the block. MerkleRoot chainhash.Hash // Time the block was created. This is, unfortunately, encoded as a // uint32 on the wire and therefore is limited to 2106. Timestamp time.Time // Difficulty target for the block. Bits uint32 // Nonce used to generate the block. Nonce uint32 }
BlockHeader defines information about a block and is used in the bitcoin block (MsgBlock) and headers (MsgHeaders) messages.
func NewBlockHeader ¶
func NewBlockHeader(version int32, prevHash, merkleRootHash *chainhash.Hash, bits uint32, nonce uint32) *BlockHeader
NewBlockHeader returns a new BlockHeader using the provided version, previous block hash, merkle root hash, difficulty bits, and nonce used to generate the block with defaults for the remaining fields.
func (*BlockHeader) BlockHash ¶
func (h *BlockHeader) BlockHash() chainhash.Hash
BlockHash computes the block identifier hash for the given block header.
func (*BlockHeader) BtcDecode ¶
func (h *BlockHeader) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation. See Deserialize for decoding block headers stored to disk, such as in a database, as opposed to decoding block headers from the wire.
func (*BlockHeader) BtcEncode ¶
func (h *BlockHeader) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation. See Serialize for encoding block headers to be stored to disk, such as in a database, as opposed to encoding block headers for the wire.
func (*BlockHeader) Deserialize ¶
func (h *BlockHeader) Deserialize(r io.Reader) er.R
Deserialize decodes a block header from r into the receiver using a format that is suitable for long-term storage such as a database while respecting the Version field.
type BloomUpdateType ¶
type BloomUpdateType uint8
BloomUpdateType specifies how the filter is updated when a match is found
const ( // BloomUpdateNone indicates the filter is not adjusted when a match is // found. BloomUpdateNone BloomUpdateType = 0 // BloomUpdateAll indicates if the filter matches any data element in a // public key script, the outpoint is serialized and inserted into the // filter. BloomUpdateAll BloomUpdateType = 1 // BloomUpdateP2PubkeyOnly indicates if the filter matches a data // element in a public key script and the script is of the standard // pay-to-pubkey or multisig, the outpoint is serialized and inserted // into the filter. BloomUpdateP2PubkeyOnly BloomUpdateType = 2 )
type FilterType ¶
type FilterType uint8
FilterType is used to represent a filter type.
const ( // GCSFilterRegular is the regular filter type. GCSFilterRegular FilterType = iota )
type InvType ¶
type InvType uint32
InvType represents the allowed types of inventory vectors. See InvVect.
const ( InvTypeError InvType = 0 InvTypeTx InvType = 1 InvTypeBlock InvType = 2 InvTypeFilteredBlock InvType = 3 InvTypeWitnessBlock InvType = InvTypeBlock | InvWitnessFlag InvTypeWitnessTx InvType = InvTypeTx | InvWitnessFlag InvTypeFilteredWitnessBlock InvType = InvTypeFilteredBlock | InvWitnessFlag )
These constants define the various supported inventory vector types.
type InvVect ¶
InvVect defines a bitcoin inventory vector which is used to describe data, as specified by the Type field, that a peer wants, has, or does not have to another peer.
type Message ¶
type Message interface { BtcDecode(io.Reader, uint32, MessageEncoding) er.R BtcEncode(io.Writer, uint32, MessageEncoding) er.R Command() string MaxPayloadLength(uint32) uint32 }
Message is an interface that describes a bitcoin message. A type that implements Message has complete control over the representation of its data and may therefore contain additional or fewer fields than those which are used directly in the protocol encoded message.
func ReadMessage ¶
ReadMessage reads, validates, and parses the next bitcoin Message from r for the provided protocol version and bitcoin network. It returns the parsed Message and raw bytes which comprise the message. This function only differs from ReadMessageN in that it doesn't return the number of bytes read. This function is mainly provided for backwards compatibility with the original API, but it's also useful for callers that don't care about byte counts.
func ReadMessageN ¶
func ReadMessageN(r io.Reader, pver uint32, btcnet protocol.BitcoinNet) (int, Message, []byte, er.R)
ReadMessageN reads, validates, and parses the next bitcoin Message from r for the provided protocol version and bitcoin network. It returns the number of bytes read in addition to the parsed Message and raw bytes which comprise the message. This function is the same as ReadMessage except it also returns the number of bytes read.
func ReadMessageWithEncodingN ¶
func ReadMessageWithEncodingN(r io.Reader, pver uint32, btcnet protocol.BitcoinNet, enc MessageEncoding) (int, Message, []byte, er.R)
ReadMessageWithEncodingN reads, validates, and parses the next bitcoin Message from r for the provided protocol version and bitcoin network. It returns the number of bytes read in addition to the parsed Message and raw bytes which comprise the message. This function is the same as ReadMessageN except it allows the caller to specify which message encoding is to to consult when decoding wire messages.
type MessageEncoding ¶
type MessageEncoding uint32
MessageEncoding represents the wire message encoding format to be used.
const ( // BaseEncoding encodes all messages in the default format specified // for the Bitcoin wire protocol. BaseEncoding MessageEncoding = 1 << iota // WitnessEncoding encodes all messages other than transaction messages // using the default Bitcoin wire protocol specification. For transaction // messages, the new encoding format detailed in BIP0144 will be used. WitnessEncoding // PacketCryptEncoding indicates that we should force decoding of the // PacketCrypt proof. PacketCryptEncoding // NoPacketCryptEncoding indicates that we should avoid encoding of the // PacketCrypt proof. NoPacketCryptEncoding // EptfEncoding indicates that we should encode using electrum partial // transaction encoding, if Additional is present but incomplete then this // will cause an error in encoding. EptfEncoding )
type MsgAddr ¶
type MsgAddr struct {
AddrList []*NetAddress
}
MsgAddr implements the Message interface and represents a bitcoin addr message. It is used to provide a list of known active peers on the network. An active peer is considered one that has transmitted a message within the last 3 hours. Nodes which have not transmitted in that time frame should be forgotten. Each message is limited to a maximum number of addresses, which is currently 1000. As a result, multiple messages must be used to relay the full list.
Use the AddAddress function to build up the list of known addresses when sending an addr message to another peer.
func NewMsgAddr ¶
func NewMsgAddr() *MsgAddr
NewMsgAddr returns a new bitcoin addr message that conforms to the Message interface. See MsgAddr for details.
func (*MsgAddr) AddAddress ¶
func (msg *MsgAddr) AddAddress(na *NetAddress) er.R
AddAddress adds a known active peer to the message.
func (*MsgAddr) AddAddresses ¶
func (msg *MsgAddr) AddAddresses(netAddrs ...*NetAddress) er.R
AddAddresses adds multiple known active peers to the message.
func (*MsgAddr) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgAddr) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgAddr) ClearAddresses ¶
func (msg *MsgAddr) ClearAddresses()
ClearAddresses removes all addresses from the message.
func (*MsgAddr) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgAddr) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgBlock ¶
type MsgBlock struct { Header BlockHeader Pcp *PacketCryptProof Transactions []*MsgTx }
MsgBlock implements the Message interface and represents a bitcoin block message. It is used to deliver block and transaction information in response to a getdata message (MsgGetData) for a given block hash.
func NewMsgBlock ¶
func NewMsgBlock(blockHeader *BlockHeader) *MsgBlock
NewMsgBlock returns a new bitcoin block message that conforms to the Message interface. See MsgBlock for details.
func (*MsgBlock) AddTransaction ¶
AddTransaction adds a transaction to the message.
func (*MsgBlock) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation. See Deserialize for decoding blocks stored to disk, such as in a database, as opposed to decoding blocks from the wire.
func (*MsgBlock) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation. See Serialize for encoding blocks to be stored to disk, such as in a database, as opposed to encoding blocks for the wire.
func (*MsgBlock) ClearTransactions ¶
func (msg *MsgBlock) ClearTransactions()
ClearTransactions removes all transactions from the message.
func (*MsgBlock) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgBlock) Deserialize ¶
Deserialize decodes a block from r into the receiver using a format that is suitable for long-term storage such as a database while respecting the Version field in the block. This function differs from BtcDecode in that BtcDecode decodes from the bitcoin wire protocol as it was sent across the network. The wire encoding can technically differ depending on the protocol version and doesn't even really need to match the format of a stored block at all. As of the time this comment was written, the encoded block is the same in both instances, but there is a distinct difference and separating the two allows the API to be flexible enough to deal with changes.
func (*MsgBlock) DeserializeTxLoc ¶
DeserializeTxLoc decodes r in the same manner Deserialize does, but it takes a byte buffer instead of a generic reader and returns a slice containing the start and length of each transaction within the raw data that is being deserialized.
func (*MsgBlock) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
func (*MsgBlock) Serialize ¶
Serialize encodes the block to w using a format that suitable for long-term storage such as a database while respecting the Version field in the block. This function differs from BtcEncode in that BtcEncode encodes the block to the bitcoin wire protocol in order to be sent across the network. The wire encoding can technically differ depending on the protocol version and doesn't even really need to match the format of a stored block at all. As of the time this comment was written, the encoded block is the same in both instances, but there is a distinct difference and separating the two allows the API to be flexible enough to deal with changes.
func (*MsgBlock) SerializeSize ¶
SerializeSize returns the number of bytes it would take to serialize the block, factoring in any witness data within transaction.
func (*MsgBlock) SerializeSizeStripped ¶
SerializeSizeStripped returns the number of bytes it would take to serialize the block, excluding any witness data (if any).
type MsgCFCheckpt ¶
type MsgCFCheckpt struct { FilterType FilterType StopHash chainhash.Hash FilterHeaders []*chainhash.Hash }
MsgCFCheckpt implements the Message interface and represents a bitcoin cfcheckpt message. It is used to deliver committed filter header information in response to a getcfcheckpt message (MsgGetCFCheckpt). See MsgGetCFCheckpt for details on requesting the headers.
func NewMsgCFCheckpt ¶
func NewMsgCFCheckpt(filterType FilterType, stopHash *chainhash.Hash, headersCount int) *MsgCFCheckpt
NewMsgCFCheckpt returns a new bitcoin cfheaders message that conforms to the Message interface. See MsgCFCheckpt for details.
func (*MsgCFCheckpt) AddCFHeader ¶
func (msg *MsgCFCheckpt) AddCFHeader(header *chainhash.Hash) er.R
AddCFHeader adds a new committed filter header to the message.
func (*MsgCFCheckpt) BtcDecode ¶
func (msg *MsgCFCheckpt) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgCFCheckpt) BtcEncode ¶
func (msg *MsgCFCheckpt) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgCFCheckpt) Command ¶
func (msg *MsgCFCheckpt) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgCFCheckpt) MaxPayloadLength ¶
func (msg *MsgCFCheckpt) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgCFHeaders ¶
type MsgCFHeaders struct { FilterType FilterType StopHash chainhash.Hash PrevFilterHeader chainhash.Hash FilterHashes []*chainhash.Hash }
MsgCFHeaders implements the Message interface and represents a bitcoin cfheaders message. It is used to deliver committed filter header information in response to a getcfheaders message (MsgGetCFHeaders). The maximum number of committed filter headers per message is currently 2000. See MsgGetCFHeaders for details on requesting the headers.
func NewMsgCFHeaders ¶
func NewMsgCFHeaders() *MsgCFHeaders
NewMsgCFHeaders returns a new bitcoin cfheaders message that conforms to the Message interface. See MsgCFHeaders for details.
func (*MsgCFHeaders) AddCFHash ¶
func (msg *MsgCFHeaders) AddCFHash(hash *chainhash.Hash) er.R
AddCFHash adds a new filter hash to the message.
func (*MsgCFHeaders) BtcDecode ¶
func (msg *MsgCFHeaders) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgCFHeaders) BtcEncode ¶
func (msg *MsgCFHeaders) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgCFHeaders) Command ¶
func (msg *MsgCFHeaders) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgCFHeaders) MaxPayloadLength ¶
func (msg *MsgCFHeaders) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgCFilter ¶
type MsgCFilter struct { FilterType FilterType BlockHash chainhash.Hash Data []byte }
MsgCFilter implements the Message interface and represents a bitcoin cfilter message. It is used to deliver a committed filter in response to a getcfilters (MsgGetCFilters) message.
func NewMsgCFilter ¶
func NewMsgCFilter(filterType FilterType, blockHash *chainhash.Hash, data []byte) *MsgCFilter
NewMsgCFilter returns a new bitcoin cfilter message that conforms to the Message interface. See MsgCFilter for details.
func (*MsgCFilter) BtcDecode ¶
func (msg *MsgCFilter) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgCFilter) BtcEncode ¶
func (msg *MsgCFilter) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgCFilter) Command ¶
func (msg *MsgCFilter) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgCFilter) MaxPayloadLength ¶
func (msg *MsgCFilter) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgFeeFilter ¶
type MsgFeeFilter struct {
MinFee int64
}
MsgFeeFilter implements the Message interface and represents a bitcoin feefilter message. It is used to request the receiving peer does not announce any transactions below the specified minimum fee rate.
This message was not added until protocol versions starting with FeeFilterVersion.
func NewMsgFeeFilter ¶
func NewMsgFeeFilter(minfee int64) *MsgFeeFilter
NewMsgFeeFilter returns a new bitcoin feefilter message that conforms to the Message interface. See MsgFeeFilter for details.
func (*MsgFeeFilter) BtcDecode ¶
func (msg *MsgFeeFilter) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgFeeFilter) BtcEncode ¶
func (msg *MsgFeeFilter) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgFeeFilter) Command ¶
func (msg *MsgFeeFilter) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgFeeFilter) MaxPayloadLength ¶
func (msg *MsgFeeFilter) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgFilterAdd ¶
type MsgFilterAdd struct {
Data []byte
}
MsgFilterAdd implements the Message interface and represents a bitcoin filteradd message. It is used to add a data element to an existing Bloom filter.
This message was not added until protocol version BIP0037Version.
func NewMsgFilterAdd ¶
func NewMsgFilterAdd(data []byte) *MsgFilterAdd
NewMsgFilterAdd returns a new bitcoin filteradd message that conforms to the Message interface. See MsgFilterAdd for details.
func (*MsgFilterAdd) BtcDecode ¶
func (msg *MsgFilterAdd) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgFilterAdd) BtcEncode ¶
func (msg *MsgFilterAdd) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgFilterAdd) Command ¶
func (msg *MsgFilterAdd) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgFilterAdd) MaxPayloadLength ¶
func (msg *MsgFilterAdd) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgFilterClear ¶
type MsgFilterClear struct{}
MsgFilterClear implements the Message interface and represents a bitcoin filterclear message which is used to reset a Bloom filter.
This message was not added until protocol version BIP0037Version and has no payload.
func NewMsgFilterClear ¶
func NewMsgFilterClear() *MsgFilterClear
NewMsgFilterClear returns a new bitcoin filterclear message that conforms to the Message interface. See MsgFilterClear for details.
func (*MsgFilterClear) BtcDecode ¶
func (msg *MsgFilterClear) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgFilterClear) BtcEncode ¶
func (msg *MsgFilterClear) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgFilterClear) Command ¶
func (msg *MsgFilterClear) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgFilterClear) MaxPayloadLength ¶
func (msg *MsgFilterClear) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgFilterLoad ¶
type MsgFilterLoad struct { Filter []byte HashFuncs uint32 Tweak uint32 Flags BloomUpdateType }
MsgFilterLoad implements the Message interface and represents a bitcoin filterload message which is used to reset a Bloom filter.
This message was not added until protocol version BIP0037Version.
func NewMsgFilterLoad ¶
func NewMsgFilterLoad(filter []byte, hashFuncs uint32, tweak uint32, flags BloomUpdateType) *MsgFilterLoad
NewMsgFilterLoad returns a new bitcoin filterload message that conforms to the Message interface. See MsgFilterLoad for details.
func (*MsgFilterLoad) BtcDecode ¶
func (msg *MsgFilterLoad) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgFilterLoad) BtcEncode ¶
func (msg *MsgFilterLoad) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgFilterLoad) Command ¶
func (msg *MsgFilterLoad) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgFilterLoad) MaxPayloadLength ¶
func (msg *MsgFilterLoad) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetAddr ¶
type MsgGetAddr struct{}
MsgGetAddr implements the Message interface and represents a bitcoin getaddr message. It is used to request a list of known active peers on the network from a peer to help identify potential nodes. The list is returned via one or more addr messages (MsgAddr).
This message has no payload.
func NewMsgGetAddr ¶
func NewMsgGetAddr() *MsgGetAddr
NewMsgGetAddr returns a new bitcoin getaddr message that conforms to the Message interface. See MsgGetAddr for details.
func (*MsgGetAddr) BtcDecode ¶
func (msg *MsgGetAddr) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetAddr) BtcEncode ¶
func (msg *MsgGetAddr) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetAddr) Command ¶
func (msg *MsgGetAddr) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetAddr) MaxPayloadLength ¶
func (msg *MsgGetAddr) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetBlocks ¶
type MsgGetBlocks struct { ProtocolVersion uint32 BlockLocatorHashes []*chainhash.Hash HashStop chainhash.Hash }
MsgGetBlocks implements the Message interface and represents a bitcoin getblocks message. It is used to request a list of blocks starting after the last known hash in the slice of block locator hashes. The list is returned via an inv message (MsgInv) and is limited by a specific hash to stop at or the maximum number of blocks per message, which is currently 500.
Set the HashStop field to the hash at which to stop and use AddBlockLocatorHash to build up the list of block locator hashes.
The algorithm for building the block locator hashes should be to add the hashes in reverse order until you reach the genesis block. In order to keep the list of locator hashes to a reasonable number of entries, first add the most recent 10 block hashes, then double the step each loop iteration to exponentially decrease the number of hashes the further away from head and closer to the genesis block you get.
func NewMsgGetBlocks ¶
func NewMsgGetBlocks(hashStop *chainhash.Hash) *MsgGetBlocks
NewMsgGetBlocks returns a new bitcoin getblocks message that conforms to the Message interface using the passed parameters and defaults for the remaining fields.
func (*MsgGetBlocks) AddBlockLocatorHash ¶
func (msg *MsgGetBlocks) AddBlockLocatorHash(hash *chainhash.Hash) er.R
AddBlockLocatorHash adds a new block locator hash to the message.
func (*MsgGetBlocks) BtcDecode ¶
func (msg *MsgGetBlocks) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetBlocks) BtcEncode ¶
func (msg *MsgGetBlocks) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetBlocks) Command ¶
func (msg *MsgGetBlocks) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetBlocks) MaxPayloadLength ¶
func (msg *MsgGetBlocks) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetCFCheckpt ¶
type MsgGetCFCheckpt struct { FilterType FilterType StopHash chainhash.Hash }
MsgGetCFCheckpt is a request for filter headers at evenly spaced intervals throughout the blockchain history. It allows to set the FilterType field to get headers in the chain of basic (0x00) or extended (0x01) headers.
func NewMsgGetCFCheckpt ¶
func NewMsgGetCFCheckpt(filterType FilterType, stopHash *chainhash.Hash) *MsgGetCFCheckpt
NewMsgGetCFCheckpt returns a new bitcoin getcfcheckpt message that conforms to the Message interface using the passed parameters and defaults for the remaining fields.
func (*MsgGetCFCheckpt) BtcDecode ¶
func (msg *MsgGetCFCheckpt) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetCFCheckpt) BtcEncode ¶
func (msg *MsgGetCFCheckpt) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetCFCheckpt) Command ¶
func (msg *MsgGetCFCheckpt) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetCFCheckpt) MaxPayloadLength ¶
func (msg *MsgGetCFCheckpt) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetCFHeaders ¶
type MsgGetCFHeaders struct { FilterType FilterType StartHeight uint32 StopHash chainhash.Hash }
MsgGetCFHeaders is a message similar to MsgGetHeaders, but for committed filter headers. It allows to set the FilterType field to get headers in the chain of basic (0x00) or extended (0x01) headers.
func NewMsgGetCFHeaders ¶
func NewMsgGetCFHeaders(filterType FilterType, startHeight uint32, stopHash *chainhash.Hash) *MsgGetCFHeaders
NewMsgGetCFHeaders returns a new bitcoin getcfheader message that conforms to the Message interface using the passed parameters and defaults for the remaining fields.
func (*MsgGetCFHeaders) BtcDecode ¶
func (msg *MsgGetCFHeaders) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetCFHeaders) BtcEncode ¶
func (msg *MsgGetCFHeaders) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetCFHeaders) Command ¶
func (msg *MsgGetCFHeaders) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetCFHeaders) MaxPayloadLength ¶
func (msg *MsgGetCFHeaders) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetCFilters ¶
type MsgGetCFilters struct { FilterType FilterType StartHeight uint32 StopHash chainhash.Hash }
MsgGetCFilters implements the Message interface and represents a bitcoin getcfilters message. It is used to request committed filters for a range of blocks.
func NewMsgGetCFilters ¶
func NewMsgGetCFilters(filterType FilterType, startHeight uint32, stopHash *chainhash.Hash) *MsgGetCFilters
NewMsgGetCFilters returns a new bitcoin getcfilters message that conforms to the Message interface using the passed parameters and defaults for the remaining fields.
func (*MsgGetCFilters) BtcDecode ¶
func (msg *MsgGetCFilters) BtcDecode(r io.Reader, pver uint32, _ MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetCFilters) BtcEncode ¶
func (msg *MsgGetCFilters) BtcEncode(w io.Writer, pver uint32, _ MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetCFilters) Command ¶
func (msg *MsgGetCFilters) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetCFilters) MaxPayloadLength ¶
func (msg *MsgGetCFilters) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetData ¶
type MsgGetData struct {
InvList []*InvVect
}
MsgGetData implements the Message interface and represents a bitcoin getdata message. It is used to request data such as blocks and transactions from another peer. It should be used in response to the inv (MsgInv) message to request the actual data referenced by each inventory vector the receiving peer doesn't already have. Each message is limited to a maximum number of inventory vectors, which is currently 50,000. As a result, multiple messages must be used to request larger amounts of data.
Use the AddInvVect function to build up the list of inventory vectors when sending a getdata message to another peer.
func NewMsgGetData ¶
func NewMsgGetData() *MsgGetData
NewMsgGetData returns a new bitcoin getdata message that conforms to the Message interface. See MsgGetData for details.
func NewMsgGetDataSizeHint ¶
func NewMsgGetDataSizeHint(sizeHint uint) *MsgGetData
NewMsgGetDataSizeHint returns a new bitcoin getdata message that conforms to the Message interface. See MsgGetData for details. This function differs from NewMsgGetData in that it allows a default allocation size for the backing array which houses the inventory vector list. This allows callers who know in advance how large the inventory list will grow to avoid the overhead of growing the internal backing array several times when appending large amounts of inventory vectors with AddInvVect. Note that the specified hint is just that - a hint that is used for the default allocation size. Adding more (or less) inventory vectors will still work properly. The size hint is limited to MaxInvPerMsg.
func (*MsgGetData) AddInvVect ¶
func (msg *MsgGetData) AddInvVect(iv *InvVect) er.R
AddInvVect adds an inventory vector to the message.
func (*MsgGetData) BtcDecode ¶
func (msg *MsgGetData) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetData) BtcEncode ¶
func (msg *MsgGetData) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetData) Command ¶
func (msg *MsgGetData) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetData) MaxPayloadLength ¶
func (msg *MsgGetData) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgGetHeaders ¶
type MsgGetHeaders struct { ProtocolVersion uint32 BlockLocatorHashes []*chainhash.Hash HashStop chainhash.Hash }
MsgGetHeaders implements the Message interface and represents a bitcoin getheaders message. It is used to request a list of block headers for blocks starting after the last known hash in the slice of block locator hashes. The list is returned via a headers message (MsgHeaders) and is limited by a specific hash to stop at or the maximum number of block headers per message, which is currently 2000.
Set the HashStop field to the hash at which to stop and use AddBlockLocatorHash to build up the list of block locator hashes.
The algorithm for building the block locator hashes should be to add the hashes in reverse order until you reach the genesis block. In order to keep the list of locator hashes to a resonable number of entries, first add the most recent 10 block hashes, then double the step each loop iteration to exponentially decrease the number of hashes the further away from head and closer to the genesis block you get.
func NewMsgGetHeaders ¶
func NewMsgGetHeaders() *MsgGetHeaders
NewMsgGetHeaders returns a new bitcoin getheaders message that conforms to the Message interface. See MsgGetHeaders for details.
func (*MsgGetHeaders) AddBlockLocatorHash ¶
func (msg *MsgGetHeaders) AddBlockLocatorHash(hash *chainhash.Hash) er.R
AddBlockLocatorHash adds a new block locator hash to the message.
func (*MsgGetHeaders) BtcDecode ¶
func (msg *MsgGetHeaders) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgGetHeaders) BtcEncode ¶
func (msg *MsgGetHeaders) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgGetHeaders) Command ¶
func (msg *MsgGetHeaders) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgGetHeaders) MaxPayloadLength ¶
func (msg *MsgGetHeaders) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgHeaders ¶
type MsgHeaders struct {
Headers []*BlockHeader
}
MsgHeaders implements the Message interface and represents a bitcoin headers message. It is used to deliver block header information in response to a getheaders message (MsgGetHeaders). The maximum number of block headers per message is currently 2000. See MsgGetHeaders for details on requesting the headers.
func NewMsgHeaders ¶
func NewMsgHeaders() *MsgHeaders
NewMsgHeaders returns a new bitcoin headers message that conforms to the Message interface. See MsgHeaders for details.
func (*MsgHeaders) AddBlockHeader ¶
func (msg *MsgHeaders) AddBlockHeader(bh *BlockHeader) er.R
AddBlockHeader adds a new block header to the message.
func (*MsgHeaders) BtcDecode ¶
func (msg *MsgHeaders) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgHeaders) BtcEncode ¶
func (msg *MsgHeaders) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgHeaders) Command ¶
func (msg *MsgHeaders) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgHeaders) MaxPayloadLength ¶
func (msg *MsgHeaders) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgInv ¶
type MsgInv struct {
InvList []*InvVect
}
MsgInv implements the Message interface and represents a bitcoin inv message. It is used to advertise a peer's known data such as blocks and transactions through inventory vectors. It may be sent unsolicited to inform other peers of the data or in response to a getblocks message (MsgGetBlocks). Each message is limited to a maximum number of inventory vectors, which is currently 50,000.
Use the AddInvVect function to build up the list of inventory vectors when sending an inv message to another peer.
func NewMsgInv ¶
func NewMsgInv() *MsgInv
NewMsgInv returns a new bitcoin inv message that conforms to the Message interface. See MsgInv for details.
func NewMsgInvSizeHint ¶
NewMsgInvSizeHint returns a new bitcoin inv message that conforms to the Message interface. See MsgInv for details. This function differs from NewMsgInv in that it allows a default allocation size for the backing array which houses the inventory vector list. This allows callers who know in advance how large the inventory list will grow to avoid the overhead of growing the internal backing array several times when appending large amounts of inventory vectors with AddInvVect. Note that the specified hint is just that - a hint that is used for the default allocation size. Adding more (or less) inventory vectors will still work properly. The size hint is limited to MaxInvPerMsg.
func (*MsgInv) AddInvVect ¶
AddInvVect adds an inventory vector to the message.
func (*MsgInv) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgInv) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgInv) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgInv) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgMemPool ¶
type MsgMemPool struct{}
MsgMemPool implements the Message interface and represents a bitcoin mempool message. It is used to request a list of transactions still in the active memory pool of a relay.
This message has no payload and was not added until protocol versions starting with BIP0035Version.
func NewMsgMemPool ¶
func NewMsgMemPool() *MsgMemPool
NewMsgMemPool returns a new bitcoin pong message that conforms to the Message interface. See MsgPong for details.
func (*MsgMemPool) BtcDecode ¶
func (msg *MsgMemPool) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgMemPool) BtcEncode ¶
func (msg *MsgMemPool) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgMemPool) Command ¶
func (msg *MsgMemPool) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgMemPool) MaxPayloadLength ¶
func (msg *MsgMemPool) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgMerkleBlock ¶
type MsgMerkleBlock struct { Header BlockHeader Transactions uint32 Hashes []*chainhash.Hash Flags []byte }
MsgMerkleBlock implements the Message interface and represents a bitcoin merkleblock message which is used to reset a Bloom filter.
This message was not added until protocol version BIP0037Version.
func NewMsgMerkleBlock ¶
func NewMsgMerkleBlock(bh *BlockHeader) *MsgMerkleBlock
NewMsgMerkleBlock returns a new bitcoin merkleblock message that conforms to the Message interface. See MsgMerkleBlock for details.
func (*MsgMerkleBlock) AddTxHash ¶
func (msg *MsgMerkleBlock) AddTxHash(hash *chainhash.Hash) er.R
AddTxHash adds a new transaction hash to the message.
func (*MsgMerkleBlock) BtcDecode ¶
func (msg *MsgMerkleBlock) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgMerkleBlock) BtcEncode ¶
func (msg *MsgMerkleBlock) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgMerkleBlock) Command ¶
func (msg *MsgMerkleBlock) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgMerkleBlock) MaxPayloadLength ¶
func (msg *MsgMerkleBlock) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgNotFound ¶
type MsgNotFound struct {
InvList []*InvVect
}
MsgNotFound defines a bitcoin notfound message which is sent in response to a getdata message if any of the requested data in not available on the peer. Each message is limited to a maximum number of inventory vectors, which is currently 50,000.
Use the AddInvVect function to build up the list of inventory vectors when sending a notfound message to another peer.
func NewMsgNotFound ¶
func NewMsgNotFound() *MsgNotFound
NewMsgNotFound returns a new bitcoin notfound message that conforms to the Message interface. See MsgNotFound for details.
func (*MsgNotFound) AddInvVect ¶
func (msg *MsgNotFound) AddInvVect(iv *InvVect) er.R
AddInvVect adds an inventory vector to the message.
func (*MsgNotFound) BtcDecode ¶
func (msg *MsgNotFound) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgNotFound) BtcEncode ¶
func (msg *MsgNotFound) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgNotFound) Command ¶
func (msg *MsgNotFound) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgNotFound) MaxPayloadLength ¶
func (msg *MsgNotFound) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgPing ¶
type MsgPing struct { // Unique value associated with message that is used to identify // specific ping message. Nonce uint64 }
MsgPing implements the Message interface and represents a bitcoin ping message.
For versions BIP0031Version and earlier, it is used primarily to confirm that a connection is still valid. A transmission error is typically interpreted as a closed connection and that the peer should be removed. For versions AFTER BIP0031Version it contains an identifier which can be returned in the pong message to determine network timing.
The payload for this message just consists of a nonce used for identifying it later.
func NewMsgPing ¶
NewMsgPing returns a new bitcoin ping message that conforms to the Message interface. See MsgPing for details.
func (*MsgPing) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgPing) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgPing) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgPing) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgPong ¶
type MsgPong struct { // Unique value associated with message that is used to identify // specific ping message. Nonce uint64 }
MsgPong implements the Message interface and represents a bitcoin pong message which is used primarily to confirm that a connection is still valid in response to a bitcoin ping message (MsgPing).
This message was not added until protocol versions AFTER BIP0031Version.
func NewMsgPong ¶
NewMsgPong returns a new bitcoin pong message that conforms to the Message interface. See MsgPong for details.
func (*MsgPong) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgPong) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgPong) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgPong) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgReject ¶
type MsgReject struct { // Cmd is the command for the message which was rejected such as // as CmdBlock or CmdTx. This can be obtained from the Command function // of a Message. Cmd string // RejectCode is a code indicating why the command was rejected. It // is encoded as a uint8 on the wire. Code RejectCode // Reason is a human-readable string with specific details (over and // above the reject code) about why the command was rejected. Reason string // Hash identifies a specific block or transaction that was rejected // and therefore only applies the MsgBlock and MsgTx messages. Hash chainhash.Hash }
MsgReject implements the Message interface and represents a bitcoin reject message.
This message was not added until protocol version RejectVersion.
func NewMsgReject ¶
func NewMsgReject(command string, code RejectCode, reason string) *MsgReject
NewMsgReject returns a new bitcoin reject message that conforms to the Message interface. See MsgReject for details.
func (*MsgReject) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgReject) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgReject) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgReject) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgSendHeaders ¶
type MsgSendHeaders struct{}
MsgSendHeaders implements the Message interface and represents a bitcoin sendheaders message. It is used to request the peer send block headers rather than inventory vectors.
This message has no payload and was not added until protocol versions starting with SendHeadersVersion.
func NewMsgSendHeaders ¶
func NewMsgSendHeaders() *MsgSendHeaders
NewMsgSendHeaders returns a new bitcoin sendheaders message that conforms to the Message interface. See MsgSendHeaders for details.
func (*MsgSendHeaders) BtcDecode ¶
func (msg *MsgSendHeaders) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgSendHeaders) BtcEncode ¶
func (msg *MsgSendHeaders) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgSendHeaders) Command ¶
func (msg *MsgSendHeaders) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgSendHeaders) MaxPayloadLength ¶
func (msg *MsgSendHeaders) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgTx ¶
type MsgTx struct { Version int32 TxIn []*TxIn TxOut []*TxOut LockTime uint32 Additional []TxInAdditional }
MsgTx implements the Message interface and represents a bitcoin tx message. It is used to deliver transaction information in response to a getdata message (MsgGetData) for a given transaction.
Use the AddTxIn and AddTxOut functions to build up the list of transaction inputs and outputs.
If a transaction is to be encoded using EPTF format, Additional must be a slice of the same length as TxIn. However if there are inputs which are already complete and signed, for those inputs Additional should have a nil PkScript. Furthermore, for EPTF encoding, TxIn which have Additional info must not have any SignatureScript value.
func NewMsgTx ¶
NewMsgTx returns a new bitcoin tx message that conforms to the Message interface. The return instance has a default version of TxVersion and there are no transaction inputs or outputs. Also, the lock time is set to zero to indicate the transaction is valid immediately as opposed to some time in future.
func (*MsgTx) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation. See Deserialize for decoding transactions stored to disk, such as in a database, as opposed to decoding transactions from the wire.
func (*MsgTx) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation. See Serialize for encoding transactions to be stored to disk, such as in a database, as opposed to encoding transactions for the wire.
func (*MsgTx) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgTx) Copy ¶
Copy creates a deep copy of a transaction so that the original does not get modified when the copy is manipulated.
func (*MsgTx) Deserialize ¶
Deserialize decodes a transaction from r into the receiver using a format that is suitable for long-term storage such as a database while respecting the Version field in the transaction. This function differs from BtcDecode in that BtcDecode decodes from the bitcoin wire protocol as it was sent across the network. The wire encoding can technically differ depending on the protocol version and doesn't even really need to match the format of a stored transaction at all. As of the time this comment was written, the encoded transaction is the same in both instances, but there is a distinct difference and separating the two allows the API to be flexible enough to deal with changes.
func (*MsgTx) DeserializeNoWitness ¶
DeserializeNoWitness decodes a transaction from r into the receiver, where the transaction encoding format within r MUST NOT utilize the new serialization format created to encode transaction bearing witness data within inputs.
func (*MsgTx) HasWitness ¶
HasWitness returns false if none of the inputs within the transaction contain witness data, true false otherwise.
func (*MsgTx) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
func (*MsgTx) PkScriptLocs ¶
PkScriptLocs returns a slice containing the start of each public key script within the raw serialized transaction. The caller can easily obtain the length of each script by using len on the script available via the appropriate transaction output entry.
func (*MsgTx) Serialize ¶
Serialize encodes the transaction to w using a format that suitable for long-term storage such as a database while respecting the Version field in the transaction. This function differs from BtcEncode in that BtcEncode encodes the transaction to the bitcoin wire protocol in order to be sent across the network. The wire encoding can technically differ depending on the protocol version and doesn't even really need to match the format of a stored transaction at all. As of the time this comment was written, the encoded transaction is the same in both instances, but there is a distinct difference and separating the two allows the API to be flexible enough to deal with changes.
func (*MsgTx) SerializeNoWitness ¶
SerializeNoWitness encodes the transaction to w in an identical manner to Serialize, however even if the source transaction has inputs with witness data, the old serialization format will still be used.
func (*MsgTx) SerializeSize ¶
SerializeSize returns the number of bytes it would take to serialize the the transaction.
func (*MsgTx) SerializeSizeStripped ¶
SerializeSizeStripped returns the number of bytes it would take to serialize the transaction, excluding any included witness data.
func (*MsgTx) WitnessHash ¶
WitnessHash generates the hash of the transaction serialized according to the new witness serialization defined in BIP0141 and BIP0144. The final output is used within the Segregated Witness commitment of all the witnesses within a block. If a transaction has no witness data, then the witness hash, is the same as its txid.
type MsgVerAck ¶
type MsgVerAck struct{}
MsgVerAck defines a bitcoin verack message which is used for a peer to acknowledge a version message (MsgVersion) after it has used the information to negotiate parameters. It implements the Message interface.
This message has no payload.
func NewMsgVerAck ¶
func NewMsgVerAck() *MsgVerAck
NewMsgVerAck returns a new bitcoin verack message that conforms to the Message interface.
func (*MsgVerAck) BtcDecode ¶
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. This is part of the Message interface implementation.
func (*MsgVerAck) BtcEncode ¶
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgVerAck) Command ¶
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgVerAck) MaxPayloadLength ¶
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type MsgVersion ¶
type MsgVersion struct { // Version of the protocol the node is using. ProtocolVersion int32 // Bitfield which identifies the enabled services. Services protocol.ServiceFlag // Time the message was generated. This is encoded as an int64 on the wire. Timestamp time.Time // Address of the remote peer. AddrYou NetAddress // Address of the local peer. AddrMe NetAddress // Unique value associated with message that is used to detect self // connections. Nonce uint64 // The user agent that generated messsage. This is a encoded as a varString // on the wire. This has a max length of MaxUserAgentLen. UserAgent string // Last block seen by the generator of the version message. LastBlock int32 // Don't announce transactions to peer. DisableRelayTx bool }
MsgVersion implements the Message interface and represents a bitcoin version message. It is used for a peer to advertise itself as soon as an outbound connection is made. The remote peer then uses this information along with its own to negotiate. The remote peer must then respond with a version message of its own containing the negotiated values followed by a verack message (MsgVerAck). This exchange must take place before any further communication is allowed to proceed.
func NewMsgVersion ¶
func NewMsgVersion(me *NetAddress, you *NetAddress, nonce uint64, lastBlock int32) *MsgVersion
NewMsgVersion returns a new bitcoin version message that conforms to the Message interface using the passed parameters and defaults for the remaining fields.
func (*MsgVersion) AddService ¶
func (msg *MsgVersion) AddService(service protocol.ServiceFlag)
AddService adds service as a supported service by the peer generating the message.
func (*MsgVersion) AddUserAgent ¶
AddUserAgent adds a user agent to the user agent string for the version message. The version string is not defined to any strict format, although it is recommended to use the form "major.minor.revision" e.g. "2.6.41".
func (*MsgVersion) BtcDecode ¶
func (msg *MsgVersion) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes r using the bitcoin protocol encoding into the receiver. The version message is special in that the protocol version hasn't been negotiated yet. As a result, the pver field is ignored and any fields which are added in new versions are optional. This also mean that r must be a *bytes.Buffer so the number of remaining bytes can be ascertained.
This is part of the Message interface implementation.
func (*MsgVersion) BtcEncode ¶
func (msg *MsgVersion) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes the receiver to w using the bitcoin protocol encoding. This is part of the Message interface implementation.
func (*MsgVersion) Command ¶
func (msg *MsgVersion) Command() string
Command returns the protocol command string for the message. This is part of the Message interface implementation.
func (*MsgVersion) HasService ¶
func (msg *MsgVersion) HasService(service protocol.ServiceFlag) bool
HasService returns whether the specified service is supported by the peer that generated the message.
func (*MsgVersion) MaxPayloadLength ¶
func (msg *MsgVersion) MaxPayloadLength(pver uint32) uint32
MaxPayloadLength returns the maximum length the payload can be for the receiver. This is part of the Message interface implementation.
type NetAddress ¶
type NetAddress struct { // Last time the address was seen. This is, unfortunately, encoded as a // uint32 on the wire and therefore is limited to 2106. This field is // not present in the bitcoin version message (MsgVersion) nor was it // added until protocol version >= NetAddressTimeVersion. Timestamp time.Time // Bitfield which identifies the services supported by the address. Services protocol.ServiceFlag // IP address of the peer. IP net.IP // Port the peer is using. This is encoded in big endian on the wire // which differs from most everything else. Port uint16 }
NetAddress defines information about a peer on the network including the time it was last seen, the services it supports, its IP address, and port.
func NewNetAddress ¶
func NewNetAddress(addr *net.TCPAddr, services protocol.ServiceFlag) *NetAddress
NewNetAddress returns a new NetAddress using the provided TCP address and supported services with defaults for the remaining fields.
func NewNetAddressIPPort ¶
func NewNetAddressIPPort(ip net.IP, port uint16, services protocol.ServiceFlag) *NetAddress
NewNetAddressIPPort returns a new NetAddress using the provided IP, port, and supported services with defaults for the remaining fields.
func NewNetAddressTimestamp ¶
func NewNetAddressTimestamp( timestamp time.Time, services protocol.ServiceFlag, ip net.IP, port uint16) *NetAddress
NewNetAddressTimestamp returns a new NetAddress using the provided timestamp, IP, port, and supported services. The timestamp is rounded to single second precision.
func (*NetAddress) AddService ¶
func (na *NetAddress) AddService(service protocol.ServiceFlag)
AddService adds service as a supported service by the peer generating the message.
func (*NetAddress) HasService ¶
func (na *NetAddress) HasService(service protocol.ServiceFlag) bool
HasService returns whether the specified service is supported by the address.
type OutPoint ¶
OutPoint defines a bitcoin data type that is used to track previous transaction outputs.
func NewOutPoint ¶
NewOutPoint returns a new bitcoin transaction outpoint point with the provided hash and index.
type PacketCryptAnn ¶
type PacketCryptAnn struct {
Header [1024]byte
}
PacketCryptAnn is the in-memory structure of a PacketCrypt announcement
func (*PacketCryptAnn) BtcDecode ¶
func (p *PacketCryptAnn) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes an announcement from a reader
func (*PacketCryptAnn) BtcEncode ¶
func (p *PacketCryptAnn) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes an announcement to a writer
func (*PacketCryptAnn) GetAnnounceHeader ¶
func (p *PacketCryptAnn) GetAnnounceHeader() []byte
GetAnnounceHeader provides the header without the merkle proof
func (*PacketCryptAnn) GetContentHash ¶
func (p *PacketCryptAnn) GetContentHash() []byte
GetContentHash returns the content merkle root in the event that the announcement has external content, or in the event that the announcement has internal content, it is the content itself (right-padded to 32 bytes)
func (*PacketCryptAnn) GetContentLength ¶
func (p *PacketCryptAnn) GetContentLength() uint32
GetContentLength provides the length of the announcement content
func (*PacketCryptAnn) GetItem4Prefix ¶
func (p *PacketCryptAnn) GetItem4Prefix() []byte
GetItem4Prefix provides the memory location of item4 which must be stored in the announcement
func (*PacketCryptAnn) GetMerkleProof ¶
func (p *PacketCryptAnn) GetMerkleProof() []byte
GetMerkleProof provides the memory location in the announcement of the merkle branch
func (*PacketCryptAnn) GetParentBlockHeight ¶
func (p *PacketCryptAnn) GetParentBlockHeight() uint32
GetParentBlockHeight returns the block height of the block whose hash is committed in this announcement, the age of the announcement (in blocks) influences it's value to a miner.
func (*PacketCryptAnn) GetSigningKey ¶
func (p *PacketCryptAnn) GetSigningKey() []byte
GetSigningKey returns the memory location in the ann of the signing key warning: mutating the result will mutate the announcement
func (*PacketCryptAnn) GetSoftNonce ¶
func (p *PacketCryptAnn) GetSoftNonce() []byte
GetSoftNonce outputs a byte slice with bytes 1, 2 and 3
func (*PacketCryptAnn) GetVersion ¶
func (p *PacketCryptAnn) GetVersion() uint
GetVersion gets the version number of the announcement.
func (*PacketCryptAnn) GetWorkTarget ¶
func (p *PacketCryptAnn) GetWorkTarget() uint32
GetWorkTarget provides the PoW target for the announcement, in bitcoin compressed bignum format
func (*PacketCryptAnn) HasSigningKey ¶
func (p *PacketCryptAnn) HasSigningKey() bool
HasSigningKey returns true if a signing key is specified
type PacketCryptProof ¶
type PacketCryptProof struct { Nonce uint32 Announcements [4]PacketCryptAnn Signatures [4][]byte ContentProof []byte AnnProof []byte // 0 means no version specified, 1 is the first version Version int }
PacketCryptProof is the in-memory representation of the proof which sits between the header and the block content
func (*PacketCryptProof) BtcDecode ¶
func (h *PacketCryptProof) BtcDecode(r io.Reader, pver uint32, enc MessageEncoding) er.R
BtcDecode decodes a PacketCryptProof from a reader
func (*PacketCryptProof) BtcEncode ¶
func (h *PacketCryptProof) BtcEncode(w io.Writer, pver uint32, enc MessageEncoding) er.R
BtcEncode encodes a PacketCryptProof to a writer
func (*PacketCryptProof) Serialize ¶
func (h *PacketCryptProof) Serialize(w io.Writer) er.R
Serialize writes a PacketCryptProof to the on-disk format
func (*PacketCryptProof) SerializeSize ¶
func (h *PacketCryptProof) SerializeSize() int
SerializeSize gets the size of the PacketCryptProof when serialized
func (*PacketCryptProof) SplitContentProof ¶
func (h *PacketCryptProof) SplitContentProof(proofIdx uint32) ([][]byte, er.R)
SplitContentProof splits the content proof into the proofs for the 4 individual announcements.
type PcCoinbaseCommit ¶
type PcCoinbaseCommit struct {
Bytes [48]byte
}
PcCoinbaseCommit is the commmitment which is placed in the coinbase before beginning to calculate the PacketCrypt proof
func NewPcCoinbaseCommit ¶
func NewPcCoinbaseCommit() *PcCoinbaseCommit
NewPcCoinbaseCommit creates a new coinbase commit with the initial pattern (all fc)
func (*PcCoinbaseCommit) AnnCount ¶
func (c *PcCoinbaseCommit) AnnCount() uint64
AnnCount gets the number of announcements which were claimed in the coinbase commitment
func (*PcCoinbaseCommit) AnnMinDifficulty ¶
func (c *PcCoinbaseCommit) AnnMinDifficulty() uint32
AnnMinDifficulty gets the claimed minimum target of any announcement claimed in the coinbase commitment, the format is in bitcoin compressed bignum form
func (*PcCoinbaseCommit) Magic ¶
func (c *PcCoinbaseCommit) Magic() uint32
Magic gets the magic bytes from the coinbase commitment, they should match PcCoinbaseCommitMagic
func (*PcCoinbaseCommit) MerkleRoot ¶
func (c *PcCoinbaseCommit) MerkleRoot() []byte
MerkleRoot gets the root of announcements claimed in the coinbase commitment
type RejectCode ¶
type RejectCode uint8
RejectCode represents a numeric value by which a remote peer indicates why a message was rejected.
const ( RejectMalformed RejectCode = 0x01 RejectInvalid RejectCode = 0x10 RejectObsolete RejectCode = 0x11 RejectDuplicate RejectCode = 0x12 RejectNonstandard RejectCode = 0x40 RejectDust RejectCode = 0x41 RejectInsufficientFee RejectCode = 0x42 RejectCheckpoint RejectCode = 0x43 )
These constants define the various supported reject codes.
func (RejectCode) String ¶
func (code RejectCode) String() string
String returns the RejectCode in human-readable form.
type TxIn ¶
type TxIn struct { PreviousOutPoint OutPoint SignatureScript []byte Witness TxWitness Sequence uint32 }
TxIn defines a bitcoin transaction input.
func NewTxIn ¶
NewTxIn returns a new bitcoin transaction input with the provided previous outpoint point and signature script with a default sequence of MaxTxInSequenceNum.
func (*TxIn) SerializeSize ¶
SerializeSize returns the number of bytes it would take to serialize the the transaction input.
type TxInAdditional ¶
type TxLoc ¶
TxLoc holds locator data for the offset and length of where a transaction is located within a MsgBlock data buffer.
type TxOut ¶
TxOut defines a bitcoin transaction output.
func NewTxOut ¶
NewTxOut returns a new bitcoin transaction output with the provided transaction value and public key script.
func (*TxOut) SerializeSize ¶
SerializeSize returns the number of bytes it would take to serialize the the transaction output.
type TxWitness ¶
type TxWitness [][]byte
TxWitness defines the witness for a TxIn. A witness is to be interpreted as a slice of byte slices, or a stack with one or many elements.
func (TxWitness) SerializeSize ¶
SerializeSize returns the number of bytes it would take to serialize the the transaction input's witness.
Source Files ¶
- blockheader.go
- common.go
- doc.go
- error.go
- invvect.go
- message.go
- msgaddr.go
- msgblock.go
- msgcfcheckpt.go
- msgcfheaders.go
- msgcfilter.go
- msgfeefilter.go
- msgfilteradd.go
- msgfilterclear.go
- msgfilterload.go
- msggetaddr.go
- msggetblocks.go
- msggetcfcheckpt.go
- msggetcfheaders.go
- msggetcfilters.go
- msggetdata.go
- msggetheaders.go
- msgheaders.go
- msginv.go
- msgmempool.go
- msgmerkleblock.go
- msgnotfound.go
- msgping.go
- msgpong.go
- msgreject.go
- msgsendheaders.go
- msgtx.go
- msgverack.go
- msgversion.go
- netaddress.go
- packetcryptann.go
- packetcryptproof.go