style: apply prettier

This commit is contained in:
d-yokoi 2019-03-03 23:07:49 +09:00
parent c74ab67ccf
commit 03632f1507
No known key found for this signature in database
GPG key ID: 49EAF81BC6A0D19A
24 changed files with 2321 additions and 1958 deletions

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@ -1,101 +1,119 @@
import { Network } from './networks'
import * as types from './types'
import * as bscript from './script'
import * as networks from './networks'
import * as payments from './payments'
import { Network } from './networks';
import * as types from './types';
import * as bscript from './script';
import * as networks from './networks';
import * as payments from './payments';
const bech32 = require('bech32')
const bs58check = require('bs58check')
const typeforce = require('typeforce')
const bech32 = require('bech32');
const bs58check = require('bs58check');
const typeforce = require('typeforce');
export type Base58CheckResult = {
hash: Buffer;
version: number;
}
};
export type Bech32Result = {
version: number;
prefix: string;
data: Buffer;
}
};
export function fromBase58Check (address: string): Base58CheckResult {
const payload = bs58check.decode(address)
export function fromBase58Check(address: string): Base58CheckResult {
const payload = bs58check.decode(address);
// TODO: 4.0.0, move to "toOutputScript"
if (payload.length < 21) throw new TypeError(address + ' is too short')
if (payload.length > 21) throw new TypeError(address + ' is too long')
if (payload.length < 21) throw new TypeError(address + ' is too short');
if (payload.length > 21) throw new TypeError(address + ' is too long');
const version = payload.readUInt8(0)
const hash = payload.slice(1)
const version = payload.readUInt8(0);
const hash = payload.slice(1);
return { version: version, hash: hash }
return { version: version, hash: hash };
}
export function fromBech32 (address: string): Bech32Result {
const result = bech32.decode(address)
const data = bech32.fromWords(result.words.slice(1))
export function fromBech32(address: string): Bech32Result {
const result = bech32.decode(address);
const data = bech32.fromWords(result.words.slice(1));
return {
version: result.words[0],
prefix: result.prefix,
data: Buffer.from(data)
}
data: Buffer.from(data),
};
}
export function toBase58Check (hash: Buffer, version: number): string {
typeforce(types.tuple(types.Hash160bit, types.UInt8), arguments)
export function toBase58Check(hash: Buffer, version: number): string {
typeforce(types.tuple(types.Hash160bit, types.UInt8), arguments);
const payload = Buffer.allocUnsafe(21)
payload.writeUInt8(version, 0)
hash.copy(payload, 1)
const payload = Buffer.allocUnsafe(21);
payload.writeUInt8(version, 0);
hash.copy(payload, 1);
return bs58check.encode(payload)
return bs58check.encode(payload);
}
export function toBech32 (data: Buffer, version: number, prefix: string): string {
const words = bech32.toWords(data)
words.unshift(version)
export function toBech32(
data: Buffer,
version: number,
prefix: string,
): string {
const words = bech32.toWords(data);
words.unshift(version);
return bech32.encode(prefix, words)
return bech32.encode(prefix, words);
}
export function fromOutputScript (output: Buffer, network: Network): string { //TODO: Network
network = network || networks.bitcoin
export function fromOutputScript(output: Buffer, network: Network): string {
//TODO: Network
network = network || networks.bitcoin;
try { return <string>payments.p2pkh({ output, network }).address } catch (e) {}
try { return <string>payments.p2sh({ output, network }).address } catch (e) {}
try { return <string>payments.p2wpkh({ output, network }).address } catch (e) {}
try { return <string>payments.p2wsh({ output, network }).address } catch (e) {}
throw new Error(bscript.toASM(output) + ' has no matching Address')
}
export function toOutputScript (address: string, network: Network): Buffer {
network = network || networks.bitcoin
let decodeBase58: Base58CheckResult | undefined = undefined
let decodeBech32: Bech32Result | undefined = undefined
try {
decodeBase58 = fromBase58Check(address)
return <string>payments.p2pkh({ output, network }).address;
} catch (e) {}
try {
return <string>payments.p2sh({ output, network }).address;
} catch (e) {}
try {
return <string>payments.p2wpkh({ output, network }).address;
} catch (e) {}
try {
return <string>payments.p2wsh({ output, network }).address;
} catch (e) {}
throw new Error(bscript.toASM(output) + ' has no matching Address');
}
export function toOutputScript(address: string, network: Network): Buffer {
network = network || networks.bitcoin;
let decodeBase58: Base58CheckResult | undefined = undefined;
let decodeBech32: Bech32Result | undefined = undefined;
try {
decodeBase58 = fromBase58Check(address);
} catch (e) {}
if (decodeBase58) {
if (decodeBase58.version === network.pubKeyHash) return <Buffer>payments.p2pkh({ hash: decodeBase58.hash }).output
if (decodeBase58.version === network.scriptHash) return <Buffer>payments.p2sh({ hash: decodeBase58.hash }).output
if (decodeBase58.version === network.pubKeyHash)
return <Buffer>payments.p2pkh({ hash: decodeBase58.hash }).output;
if (decodeBase58.version === network.scriptHash)
return <Buffer>payments.p2sh({ hash: decodeBase58.hash }).output;
} else {
try {
decodeBech32 = fromBech32(address)
decodeBech32 = fromBech32(address);
} catch (e) {}
if (decodeBech32) {
if (decodeBech32.prefix !== network.bech32) throw new Error(address + ' has an invalid prefix')
if (decodeBech32.prefix !== network.bech32)
throw new Error(address + ' has an invalid prefix');
if (decodeBech32.version === 0) {
if (decodeBech32.data.length === 20) return <Buffer>payments.p2wpkh({ hash: decodeBech32.data }).output
if (decodeBech32.data.length === 32) return <Buffer>payments.p2wsh({ hash: decodeBech32.data }).output
if (decodeBech32.data.length === 20)
return <Buffer>payments.p2wpkh({ hash: decodeBech32.data }).output;
if (decodeBech32.data.length === 32)
return <Buffer>payments.p2wsh({ hash: decodeBech32.data }).output;
}
}
}
throw new Error(address + ' has no matching Script')
throw new Error(address + ' has no matching Script');
}

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@ -1,17 +1,22 @@
import { Transaction } from './transaction'
import * as types from './types'
import * as bcrypto from './crypto'
import { reverseBuffer } from './bufferutils'
import { Transaction } from './transaction';
import * as types from './types';
import * as bcrypto from './crypto';
import { reverseBuffer } from './bufferutils';
const fastMerkleRoot = require('merkle-lib/fastRoot')
const typeforce = require('typeforce')
const varuint = require('varuint-bitcoin')
const fastMerkleRoot = require('merkle-lib/fastRoot');
const typeforce = require('typeforce');
const varuint = require('varuint-bitcoin');
const errorMerkleNoTxes = new TypeError('Cannot compute merkle root for zero transactions')
const errorWitnessNotSegwit = new TypeError('Cannot compute witness commit for non-segwit block')
const errorMerkleNoTxes = new TypeError(
'Cannot compute merkle root for zero transactions',
);
const errorWitnessNotSegwit = new TypeError(
'Cannot compute witness commit for non-segwit block',
);
function txesHaveWitnessCommit (transactions: Array<Transaction>): boolean {
return transactions instanceof Array &&
function txesHaveWitnessCommit(transactions: Array<Transaction>): boolean {
return (
transactions instanceof Array &&
transactions[0] &&
transactions[0].ins &&
transactions[0].ins instanceof Array &&
@ -19,255 +24,281 @@ function txesHaveWitnessCommit (transactions: Array<Transaction>): boolean {
transactions[0].ins[0].witness &&
transactions[0].ins[0].witness instanceof Array &&
transactions[0].ins[0].witness.length > 0
);
}
function anyTxHasWitness (transactions: Array<Transaction>): boolean {
return transactions instanceof Array &&
transactions.some(tx =>
typeof tx === 'object' &&
tx.ins instanceof Array &&
tx.ins.some(input =>
typeof input === 'object' &&
input.witness instanceof Array &&
input.witness.length > 0
)
function anyTxHasWitness(transactions: Array<Transaction>): boolean {
return (
transactions instanceof Array &&
transactions.some(
tx =>
typeof tx === 'object' &&
tx.ins instanceof Array &&
tx.ins.some(
input =>
typeof input === 'object' &&
input.witness instanceof Array &&
input.witness.length > 0,
),
)
);
}
export class Block {
version: number
prevHash?: Buffer
merkleRoot?: Buffer
timestamp: number
witnessCommit?: Buffer
bits: number
nonce: number
transactions?: Array<Transaction>
version: number;
prevHash?: Buffer;
merkleRoot?: Buffer;
timestamp: number;
witnessCommit?: Buffer;
bits: number;
nonce: number;
transactions?: Array<Transaction>;
constructor () {
this.version = 1
this.timestamp = 0
this.bits = 0
this.nonce = 0
this.prevHash = undefined
this.merkleRoot = undefined
this.witnessCommit = undefined
this.transactions = undefined
constructor() {
this.version = 1;
this.timestamp = 0;
this.bits = 0;
this.nonce = 0;
this.prevHash = undefined;
this.merkleRoot = undefined;
this.witnessCommit = undefined;
this.transactions = undefined;
}
static fromBuffer (buffer: Buffer): Block {
if (buffer.length < 80) throw new Error('Buffer too small (< 80 bytes)')
static fromBuffer(buffer: Buffer): Block {
if (buffer.length < 80) throw new Error('Buffer too small (< 80 bytes)');
let offset: number = 0
let offset: number = 0;
const readSlice = (n: number): Buffer => {
offset += n
return buffer.slice(offset - n, offset)
}
offset += n;
return buffer.slice(offset - n, offset);
};
const readUInt32 = (): number => {
const i = buffer.readUInt32LE(offset)
offset += 4
return i
}
const i = buffer.readUInt32LE(offset);
offset += 4;
return i;
};
const readInt32 = (): number => {
const i = buffer.readInt32LE(offset)
offset += 4
return i
}
const i = buffer.readInt32LE(offset);
offset += 4;
return i;
};
const block = new Block()
block.version = readInt32()
block.prevHash = readSlice(32)
block.merkleRoot = readSlice(32)
block.timestamp = readUInt32()
block.bits = readUInt32()
block.nonce = readUInt32()
const block = new Block();
block.version = readInt32();
block.prevHash = readSlice(32);
block.merkleRoot = readSlice(32);
block.timestamp = readUInt32();
block.bits = readUInt32();
block.nonce = readUInt32();
if (buffer.length === 80) return block
if (buffer.length === 80) return block;
const readVarInt = (): number => {
const vi = varuint.decode(buffer, offset)
offset += varuint.decode.bytes
return vi
}
const vi = varuint.decode(buffer, offset);
offset += varuint.decode.bytes;
return vi;
};
const readTransaction = (): any => {
const tx = Transaction.fromBuffer(buffer.slice(offset), true)
offset += tx.byteLength()
return tx
}
const tx = Transaction.fromBuffer(buffer.slice(offset), true);
offset += tx.byteLength();
return tx;
};
const nTransactions = readVarInt()
block.transactions = []
const nTransactions = readVarInt();
block.transactions = [];
for (var i = 0; i < nTransactions; ++i) {
const tx = readTransaction()
block.transactions.push(tx)
const tx = readTransaction();
block.transactions.push(tx);
}
let witnessCommit = block.getWitnessCommit()
let witnessCommit = block.getWitnessCommit();
// This Block contains a witness commit
if (witnessCommit) block.witnessCommit = witnessCommit
if (witnessCommit) block.witnessCommit = witnessCommit;
return block
return block;
}
static fromHex (hex: string): Block {
return Block.fromBuffer(Buffer.from(hex, 'hex'))
static fromHex(hex: string): Block {
return Block.fromBuffer(Buffer.from(hex, 'hex'));
}
static calculateTarget (bits: number): Buffer {
const exponent = ((bits & 0xff000000) >> 24) - 3
const mantissa = bits & 0x007fffff
const target = Buffer.alloc(32, 0)
target.writeUIntBE(mantissa, 29 - exponent, 3)
return target
static calculateTarget(bits: number): Buffer {
const exponent = ((bits & 0xff000000) >> 24) - 3;
const mantissa = bits & 0x007fffff;
const target = Buffer.alloc(32, 0);
target.writeUIntBE(mantissa, 29 - exponent, 3);
return target;
}
static calculateMerkleRoot (transactions: Array<Transaction>, forWitness?: boolean): Buffer {
typeforce([{ getHash: types.Function }], transactions)
if (transactions.length === 0) throw errorMerkleNoTxes
if (forWitness && !txesHaveWitnessCommit(transactions)) throw errorWitnessNotSegwit
static calculateMerkleRoot(
transactions: Array<Transaction>,
forWitness?: boolean,
): Buffer {
typeforce([{ getHash: types.Function }], transactions);
if (transactions.length === 0) throw errorMerkleNoTxes;
if (forWitness && !txesHaveWitnessCommit(transactions))
throw errorWitnessNotSegwit;
const hashes = transactions.map(transaction => transaction.getHash(forWitness!))
const hashes = transactions.map(transaction =>
transaction.getHash(forWitness!),
);
const rootHash = fastMerkleRoot(hashes, bcrypto.hash256)
const rootHash = fastMerkleRoot(hashes, bcrypto.hash256);
return forWitness
? bcrypto.hash256(Buffer.concat([rootHash, transactions[0].ins[0].witness[0]]))
: rootHash
? bcrypto.hash256(
Buffer.concat([rootHash, transactions[0].ins[0].witness[0]]),
)
: rootHash;
}
getWitnessCommit (): Buffer | null {
if (!txesHaveWitnessCommit(this.transactions!)) return null
getWitnessCommit(): Buffer | null {
if (!txesHaveWitnessCommit(this.transactions!)) return null;
// The merkle root for the witness data is in an OP_RETURN output.
// There is no rule for the index of the output, so use filter to find it.
// The root is prepended with 0xaa21a9ed so check for 0x6a24aa21a9ed
// If multiple commits are found, the output with highest index is assumed.
let witnessCommits = this.transactions![0].outs
.filter(out => out.script.slice(0, 6).equals(Buffer.from('6a24aa21a9ed', 'hex')))
.map(out => out.script.slice(6, 38))
if (witnessCommits.length === 0) return null
let witnessCommits = this.transactions![0].outs.filter(out =>
out.script.slice(0, 6).equals(Buffer.from('6a24aa21a9ed', 'hex')),
).map(out => out.script.slice(6, 38));
if (witnessCommits.length === 0) return null;
// Use the commit with the highest output (should only be one though)
let result = witnessCommits[witnessCommits.length - 1]
let result = witnessCommits[witnessCommits.length - 1];
if (!(result instanceof Buffer && result.length === 32)) return null
return result
if (!(result instanceof Buffer && result.length === 32)) return null;
return result;
}
hasWitnessCommit (): boolean {
if (this.witnessCommit instanceof Buffer &&
this.witnessCommit.length === 32) return true
if (this.getWitnessCommit() !== null) return true
return false
hasWitnessCommit(): boolean {
if (
this.witnessCommit instanceof Buffer &&
this.witnessCommit.length === 32
)
return true;
if (this.getWitnessCommit() !== null) return true;
return false;
}
hasWitness (): boolean {
return anyTxHasWitness(this.transactions!)
hasWitness(): boolean {
return anyTxHasWitness(this.transactions!);
}
byteLength (headersOnly: boolean): number {
if (headersOnly || !this.transactions) return 80
byteLength(headersOnly: boolean): number {
if (headersOnly || !this.transactions) return 80;
return 80 + varuint.encodingLength(this.transactions.length) +
return (
80 +
varuint.encodingLength(this.transactions.length) +
this.transactions.reduce((a, x) => a + x.byteLength(), 0)
);
}
getHash (): Buffer {
return bcrypto.hash256(this.toBuffer(true))
getHash(): Buffer {
return bcrypto.hash256(this.toBuffer(true));
}
getId (): string {
return reverseBuffer(this.getHash()).toString('hex')
getId(): string {
return reverseBuffer(this.getHash()).toString('hex');
}
getUTCDate (): Date {
const date = new Date(0) // epoch
date.setUTCSeconds(this.timestamp)
getUTCDate(): Date {
const date = new Date(0); // epoch
date.setUTCSeconds(this.timestamp);
return date
return date;
}
// TODO: buffer, offset compatibility
toBuffer (headersOnly: boolean): Buffer {
const buffer: Buffer = Buffer.allocUnsafe(this.byteLength(headersOnly))
toBuffer(headersOnly: boolean): Buffer {
const buffer: Buffer = Buffer.allocUnsafe(this.byteLength(headersOnly));
let offset: number = 0
let offset: number = 0;
const writeSlice = (slice: Buffer): void => {
slice.copy(buffer, offset)
offset += slice.length
}
slice.copy(buffer, offset);
offset += slice.length;
};
const writeInt32 = (i: number): void => {
buffer.writeInt32LE(i, offset)
offset += 4
}
buffer.writeInt32LE(i, offset);
offset += 4;
};
const writeUInt32 = (i: number): void => {
buffer.writeUInt32LE(i, offset)
offset += 4
}
buffer.writeUInt32LE(i, offset);
offset += 4;
};
writeInt32(this.version)
writeSlice(this.prevHash!)
writeSlice(this.merkleRoot!)
writeUInt32(this.timestamp)
writeUInt32(this.bits)
writeUInt32(this.nonce)
writeInt32(this.version);
writeSlice(this.prevHash!);
writeSlice(this.merkleRoot!);
writeUInt32(this.timestamp);
writeUInt32(this.bits);
writeUInt32(this.nonce);
if (headersOnly || !this.transactions) return buffer
if (headersOnly || !this.transactions) return buffer;
varuint.encode(this.transactions.length, buffer, offset)
offset += varuint.encode.bytes
varuint.encode(this.transactions.length, buffer, offset);
offset += varuint.encode.bytes;
this.transactions.forEach(tx => {
const txSize = tx.byteLength() // TODO: extract from toBuffer?
tx.toBuffer(buffer, offset)
offset += txSize
})
const txSize = tx.byteLength(); // TODO: extract from toBuffer?
tx.toBuffer(buffer, offset);
offset += txSize;
});
return buffer
return buffer;
}
toHex (headersOnly: boolean): string {
return this.toBuffer(headersOnly).toString('hex')
toHex(headersOnly: boolean): string {
return this.toBuffer(headersOnly).toString('hex');
}
checkTxRoots (): boolean {
checkTxRoots(): boolean {
// If the Block has segwit transactions but no witness commit,
// there's no way it can be valid, so fail the check.
let hasWitnessCommit = this.hasWitnessCommit()
if (!hasWitnessCommit && this.hasWitness()) return false
return this.__checkMerkleRoot() &&
let hasWitnessCommit = this.hasWitnessCommit();
if (!hasWitnessCommit && this.hasWitness()) return false;
return (
this.__checkMerkleRoot() &&
(hasWitnessCommit ? this.__checkWitnessCommit() : true)
);
}
checkMerkleRoot (): boolean {
console.warn('Deprecation Warning: Block method checkMerkleRoot will be ' +
'deprecated in v5. Please use checkTxRoots instead.')
return this.checkTxRoots()
checkMerkleRoot(): boolean {
console.warn(
'Deprecation Warning: Block method checkMerkleRoot will be ' +
'deprecated in v5. Please use checkTxRoots instead.',
);
return this.checkTxRoots();
}
__checkMerkleRoot (): boolean {
if (!this.transactions) throw errorMerkleNoTxes
__checkMerkleRoot(): boolean {
if (!this.transactions) throw errorMerkleNoTxes;
const actualMerkleRoot = Block.calculateMerkleRoot(this.transactions)
return this.merkleRoot!.compare(actualMerkleRoot) === 0
const actualMerkleRoot = Block.calculateMerkleRoot(this.transactions);
return this.merkleRoot!.compare(actualMerkleRoot) === 0;
}
__checkWitnessCommit (): boolean {
if (!this.transactions) throw errorMerkleNoTxes
if (!this.hasWitnessCommit()) throw errorWitnessNotSegwit
__checkWitnessCommit(): boolean {
if (!this.transactions) throw errorMerkleNoTxes;
if (!this.hasWitnessCommit()) throw errorWitnessNotSegwit;
const actualWitnessCommit = Block.calculateMerkleRoot(this.transactions, true)
return this.witnessCommit!.compare(actualWitnessCommit) === 0
const actualWitnessCommit = Block.calculateMerkleRoot(
this.transactions,
true,
);
return this.witnessCommit!.compare(actualWitnessCommit) === 0;
}
checkProofOfWork (): boolean {
const hash: Buffer = reverseBuffer(this.getHash())
const target = Block.calculateTarget(this.bits)
checkProofOfWork(): boolean {
const hash: Buffer = reverseBuffer(this.getHash());
const target = Block.calculateTarget(this.bits);
return hash.compare(target) <= 0
return hash.compare(target) <= 0;
}
}

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@ -1,37 +1,44 @@
// https://github.com/feross/buffer/blob/master/index.js#L1127
function verifuint (value: number, max: number): void {
if (typeof value !== 'number') throw new Error('cannot write a non-number as a number')
if (value < 0) throw new Error('specified a negative value for writing an unsigned value')
if (value > max) throw new Error('RangeError: value out of range')
if (Math.floor(value) !== value) throw new Error('value has a fractional component')
function verifuint(value: number, max: number): void {
if (typeof value !== 'number')
throw new Error('cannot write a non-number as a number');
if (value < 0)
throw new Error('specified a negative value for writing an unsigned value');
if (value > max) throw new Error('RangeError: value out of range');
if (Math.floor(value) !== value)
throw new Error('value has a fractional component');
}
export function readUInt64LE (buffer: Buffer, offset: number): number {
const a = buffer.readUInt32LE(offset)
let b = buffer.readUInt32LE(offset + 4)
b *= 0x100000000
export function readUInt64LE(buffer: Buffer, offset: number): number {
const a = buffer.readUInt32LE(offset);
let b = buffer.readUInt32LE(offset + 4);
b *= 0x100000000;
verifuint(b + a, 0x001fffffffffffff)
return b + a
verifuint(b + a, 0x001fffffffffffff);
return b + a;
}
export function writeUInt64LE (buffer: Buffer, value: number, offset: number): number {
verifuint(value, 0x001fffffffffffff)
export function writeUInt64LE(
buffer: Buffer,
value: number,
offset: number,
): number {
verifuint(value, 0x001fffffffffffff);
buffer.writeInt32LE(value & -1, offset)
buffer.writeUInt32LE(Math.floor(value / 0x100000000), offset + 4)
return offset + 8
buffer.writeInt32LE(value & -1, offset);
buffer.writeUInt32LE(Math.floor(value / 0x100000000), offset + 4);
return offset + 8;
}
export function reverseBuffer (buffer: Buffer): Buffer {
if (buffer.length < 1) return buffer
let j = buffer.length - 1
let tmp = 0
export function reverseBuffer(buffer: Buffer): Buffer {
if (buffer.length < 1) return buffer;
let j = buffer.length - 1;
let tmp = 0;
for (let i = 0; i < buffer.length / 2; i++) {
tmp = buffer[i]
buffer[i] = buffer[j]
buffer[j] = tmp
j--
tmp = buffer[i];
buffer[i] = buffer[j];
buffer[j] = tmp;
j--;
}
return buffer
return buffer;
}

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@ -1,65 +1,69 @@
import { decompile } from './script'
import * as multisig from './templates/multisig'
import * as nullData from './templates/nulldata'
import * as pubKey from './templates/pubkey'
import * as pubKeyHash from './templates/pubkeyhash'
import * as scriptHash from './templates/scripthash'
import * as witnessPubKeyHash from './templates/witnesspubkeyhash'
import * as witnessScriptHash from './templates/witnessscripthash'
import * as witnessCommitment from './templates/witnesscommitment'
import { decompile } from './script';
import * as multisig from './templates/multisig';
import * as nullData from './templates/nulldata';
import * as pubKey from './templates/pubkey';
import * as pubKeyHash from './templates/pubkeyhash';
import * as scriptHash from './templates/scripthash';
import * as witnessPubKeyHash from './templates/witnesspubkeyhash';
import * as witnessScriptHash from './templates/witnessscripthash';
import * as witnessCommitment from './templates/witnesscommitment';
const types = {
P2MS: <string> 'multisig',
NONSTANDARD: <string> 'nonstandard',
NULLDATA: <string> 'nulldata',
P2PK: <string> 'pubkey',
P2PKH: <string> 'pubkeyhash',
P2SH: <string> 'scripthash',
P2WPKH: <string> 'witnesspubkeyhash',
P2WSH: <string> 'witnessscripthash',
WITNESS_COMMITMENT: <string> 'witnesscommitment'
}
P2MS: <string>'multisig',
NONSTANDARD: <string>'nonstandard',
NULLDATA: <string>'nulldata',
P2PK: <string>'pubkey',
P2PKH: <string>'pubkeyhash',
P2SH: <string>'scripthash',
P2WPKH: <string>'witnesspubkeyhash',
P2WSH: <string>'witnessscripthash',
WITNESS_COMMITMENT: <string>'witnesscommitment',
};
function classifyOutput (script: Buffer): string {
if (witnessPubKeyHash.output.check(script)) return types.P2WPKH
if (witnessScriptHash.output.check(script)) return types.P2WSH
if (pubKeyHash.output.check(script)) return types.P2PKH
if (scriptHash.output.check(script)) return types.P2SH
function classifyOutput(script: Buffer): string {
if (witnessPubKeyHash.output.check(script)) return types.P2WPKH;
if (witnessScriptHash.output.check(script)) return types.P2WSH;
if (pubKeyHash.output.check(script)) return types.P2PKH;
if (scriptHash.output.check(script)) return types.P2SH;
// XXX: optimization, below functions .decompile before use
const chunks = decompile(script)
if (!chunks) throw new TypeError('Invalid script')
const chunks = decompile(script);
if (!chunks) throw new TypeError('Invalid script');
if (multisig.output.check(chunks)) return types.P2MS
if (pubKey.output.check(chunks)) return types.P2PK
if (witnessCommitment.output.check(chunks)) return types.WITNESS_COMMITMENT
if (nullData.output.check(chunks)) return types.NULLDATA
if (multisig.output.check(chunks)) return types.P2MS;
if (pubKey.output.check(chunks)) return types.P2PK;
if (witnessCommitment.output.check(chunks)) return types.WITNESS_COMMITMENT;
if (nullData.output.check(chunks)) return types.NULLDATA;
return types.NONSTANDARD
return types.NONSTANDARD;
}
function classifyInput (script: Buffer, allowIncomplete: boolean): string {
function classifyInput(script: Buffer, allowIncomplete: boolean): string {
// XXX: optimization, below functions .decompile before use
const chunks = decompile(script)
if (!chunks) throw new TypeError('Invalid script')
const chunks = decompile(script);
if (!chunks) throw new TypeError('Invalid script');
if (pubKeyHash.input.check(chunks)) return types.P2PKH
if (scriptHash.input.check(chunks, allowIncomplete)) return types.P2SH
if (multisig.input.check(chunks, allowIncomplete)) return types.P2MS
if (pubKey.input.check(chunks)) return types.P2PK
if (pubKeyHash.input.check(chunks)) return types.P2PKH;
if (scriptHash.input.check(chunks, allowIncomplete)) return types.P2SH;
if (multisig.input.check(chunks, allowIncomplete)) return types.P2MS;
if (pubKey.input.check(chunks)) return types.P2PK;
return types.NONSTANDARD
return types.NONSTANDARD;
}
function classifyWitness (script: Array<Buffer>, allowIncomplete: boolean): string {
function classifyWitness(
script: Array<Buffer>,
allowIncomplete: boolean,
): string {
// XXX: optimization, below functions .decompile before use
const chunks = decompile(script)
if (!chunks) throw new TypeError('Invalid script')
const chunks = decompile(script);
if (!chunks) throw new TypeError('Invalid script');
if (witnessPubKeyHash.input.check(chunks)) return types.P2WPKH
if (witnessScriptHash.input.check(<Array<Buffer>>chunks, allowIncomplete)) return types.P2WSH
if (witnessPubKeyHash.input.check(chunks)) return types.P2WPKH;
if (witnessScriptHash.input.check(<Array<Buffer>>chunks, allowIncomplete))
return types.P2WSH;
return types.NONSTANDARD
return types.NONSTANDARD;
}
export {
@ -67,4 +71,4 @@ export {
classifyOutput as output,
classifyWitness as witness,
types,
}
};

View file

@ -1,21 +1,27 @@
const createHash = require('create-hash')
const createHash = require('create-hash');
export function ripemd160 (buffer: Buffer): Buffer {
return createHash('rmd160').update(buffer).digest()
export function ripemd160(buffer: Buffer): Buffer {
return createHash('rmd160')
.update(buffer)
.digest();
}
export function sha1 (buffer: Buffer): Buffer {
return createHash('sha1').update(buffer).digest()
export function sha1(buffer: Buffer): Buffer {
return createHash('sha1')
.update(buffer)
.digest();
}
export function sha256 (buffer: Buffer): Buffer {
return createHash('sha256').update(buffer).digest()
export function sha256(buffer: Buffer): Buffer {
return createHash('sha256')
.update(buffer)
.digest();
}
export function hash160 (buffer: Buffer): Buffer {
return ripemd160(sha256(buffer))
export function hash160(buffer: Buffer): Buffer {
return ripemd160(sha256(buffer));
}
export function hash256 (buffer: Buffer): Buffer {
return sha256(sha256(buffer))
export function hash256(buffer: Buffer): Buffer {
return sha256(sha256(buffer));
}

View file

@ -1,130 +1,132 @@
import { Network } from './networks'
import * as NETWORKS from './networks'
import * as types from './types'
const ecc = require('tiny-secp256k1')
const randomBytes = require('randombytes')
const typeforce = require('typeforce')
const wif = require('wif')
import { Network } from './networks';
import * as NETWORKS from './networks';
import * as types from './types';
const ecc = require('tiny-secp256k1');
const randomBytes = require('randombytes');
const typeforce = require('typeforce');
const wif = require('wif');
const isOptions = typeforce.maybe(typeforce.compile({
compressed: types.maybe(types.Boolean),
network: types.maybe(types.Network)
}))
const isOptions = typeforce.maybe(
typeforce.compile({
compressed: types.maybe(types.Boolean),
network: types.maybe(types.Network),
}),
);
interface ECPairOptions {
compressed?: boolean
network?: Network
rng?(arg0: Buffer): Buffer
compressed?: boolean;
network?: Network;
rng?(arg0: Buffer): Buffer;
}
export interface ECPairInterface {
compressed: boolean
network: Network
privateKey?: Buffer
publicKey?: Buffer
toWIF(): string
sign(hash: Buffer): Buffer
verify(hash: Buffer, signature: Buffer): Buffer
getPublicKey?(): Buffer
compressed: boolean;
network: Network;
privateKey?: Buffer;
publicKey?: Buffer;
toWIF(): string;
sign(hash: Buffer): Buffer;
verify(hash: Buffer, signature: Buffer): Buffer;
getPublicKey?(): Buffer;
}
class ECPair implements ECPairInterface {
compressed: boolean
network: Network
private __d?: Buffer
private __Q?: Buffer
compressed: boolean;
network: Network;
private __d?: Buffer;
private __Q?: Buffer;
constructor (d?: Buffer, Q?: Buffer, options?: ECPairOptions) {
if (options === undefined) options = {}
this.compressed = options.compressed === undefined ? true : options.compressed
this.network = options.network || NETWORKS.bitcoin
constructor(d?: Buffer, Q?: Buffer, options?: ECPairOptions) {
if (options === undefined) options = {};
this.compressed =
options.compressed === undefined ? true : options.compressed;
this.network = options.network || NETWORKS.bitcoin;
this.__d = undefined
this.__Q = undefined
if (d !== undefined) this.__d = d
if (Q !== undefined) this.__Q = ecc.pointCompress(Q, this.compressed)
this.__d = undefined;
this.__Q = undefined;
if (d !== undefined) this.__d = d;
if (Q !== undefined) this.__Q = ecc.pointCompress(Q, this.compressed);
}
get privateKey (): Buffer | undefined {
return this.__d
get privateKey(): Buffer | undefined {
return this.__d;
}
get publicKey (): Buffer | undefined {
if (!this.__Q) this.__Q = ecc.pointFromScalar(this.__d, this.compressed)
return this.__Q
get publicKey(): Buffer | undefined {
if (!this.__Q) this.__Q = ecc.pointFromScalar(this.__d, this.compressed);
return this.__Q;
}
toWIF (): string {
if (!this.__d) throw new Error('Missing private key')
return wif.encode(this.network.wif, this.__d, this.compressed)
toWIF(): string {
if (!this.__d) throw new Error('Missing private key');
return wif.encode(this.network.wif, this.__d, this.compressed);
}
sign (hash: Buffer): Buffer {
if (!this.__d) throw new Error('Missing private key')
return ecc.sign(hash, this.__d)
sign(hash: Buffer): Buffer {
if (!this.__d) throw new Error('Missing private key');
return ecc.sign(hash, this.__d);
}
verify (hash: Buffer, signature: Buffer): Buffer {
return ecc.verify(hash, this.publicKey, signature)
verify(hash: Buffer, signature: Buffer): Buffer {
return ecc.verify(hash, this.publicKey, signature);
}
}
function fromPrivateKey (buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(types.Buffer256bit, buffer)
if (!ecc.isPrivate(buffer)) throw new TypeError('Private key not in range [1, n)')
typeforce(isOptions, options)
function fromPrivateKey(buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(types.Buffer256bit, buffer);
if (!ecc.isPrivate(buffer))
throw new TypeError('Private key not in range [1, n)');
typeforce(isOptions, options);
return new ECPair(buffer, undefined, <ECPairOptions>options)
return new ECPair(buffer, undefined, <ECPairOptions>options);
}
function fromPublicKey (buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(ecc.isPoint, buffer)
typeforce(isOptions, options)
return new ECPair(undefined, buffer, <ECPairOptions>options)
function fromPublicKey(buffer: Buffer, options?: ECPairOptions): ECPair {
typeforce(ecc.isPoint, buffer);
typeforce(isOptions, options);
return new ECPair(undefined, buffer, <ECPairOptions>options);
}
function fromWIF (string: string, network?: Network | Array<Network>): ECPair {
const decoded = wif.decode(string)
const version = decoded.version
function fromWIF(string: string, network?: Network | Array<Network>): ECPair {
const decoded = wif.decode(string);
const version = decoded.version;
// list of networks?
if (types.Array(network)) {
network = <Network>(<Array<Network>>network).filter(function (x: Network) {
return version === x.wif
}).pop()
network = <Network>(<Array<Network>>network)
.filter(function(x: Network) {
return version === x.wif;
})
.pop();
if (!network) throw new Error('Unknown network version')
if (!network) throw new Error('Unknown network version');
// otherwise, assume a network object (or default to bitcoin)
// otherwise, assume a network object (or default to bitcoin)
} else {
network = network || NETWORKS.bitcoin
network = network || NETWORKS.bitcoin;
if (version !== (<Network>network).wif) throw new Error('Invalid network version')
if (version !== (<Network>network).wif)
throw new Error('Invalid network version');
}
return fromPrivateKey(decoded.privateKey, {
compressed: decoded.compressed,
network: <Network>network
})
network: <Network>network,
});
}
function makeRandom (options?: ECPairOptions): ECPair {
typeforce(isOptions, options)
if (options === undefined) options = {}
const rng = options.rng || randomBytes
function makeRandom(options?: ECPairOptions): ECPair {
typeforce(isOptions, options);
if (options === undefined) options = {};
const rng = options.rng || randomBytes;
let d
let d;
do {
d = rng(32)
typeforce(types.Buffer256bit, d)
} while (!ecc.isPrivate(d))
d = rng(32);
typeforce(types.Buffer256bit, d);
} while (!ecc.isPrivate(d));
return fromPrivateKey(d, options)
return fromPrivateKey(d, options);
}
export {
makeRandom,
fromPrivateKey,
fromPublicKey,
fromWIF
}
export { makeRandom, fromPrivateKey, fromPublicKey, fromWIF };

View file

@ -1,28 +1,20 @@
import * as bip32 from 'bip32'
import * as ECPair from './ecpair'
import * as address from './address'
import * as crypto from './crypto'
import * as networks from './networks'
import * as payments from './payments'
import * as script from './script'
import * as bip32 from 'bip32';
import * as ECPair from './ecpair';
import * as address from './address';
import * as crypto from './crypto';
import * as networks from './networks';
import * as payments from './payments';
import * as script from './script';
export {
ECPair,
address,
bip32,
crypto,
networks,
payments,
script,
}
export { ECPair, address, bip32, crypto, networks, payments, script };
export { Block } from './block'
export { Transaction } from './transaction'
export { TransactionBuilder } from './transaction_builder'
export { OPS as opcodes } from './script'
export { Block } from './block';
export { Transaction } from './transaction';
export { TransactionBuilder } from './transaction_builder';
export { OPS as opcodes } from './script';
export { Payment, PaymentOpts } from './payments'
export { Input as TxInput, Output as TxOutput } from './transaction'
export { Network } from './networks'
export { OpCode } from './script'
export { BIP32Interface } from 'bip32'
export { Payment, PaymentOpts } from './payments';
export { Input as TxInput, Output as TxOutput } from './transaction';
export { Network } from './networks';
export { OpCode } from './script';
export { BIP32Interface } from 'bip32';

View file

@ -7,43 +7,43 @@ export type Network = {
pubKeyHash: number;
scriptHash: number;
wif: number;
}
};
type bip32 = {
public: number;
private: number;
}
};
export const bitcoin: Network = {
messagePrefix: '\x18Bitcoin Signed Message:\n',
bech32: 'bc',
bip32: {
public: 0x0488b21e,
private: 0x0488ade4
private: 0x0488ade4,
},
pubKeyHash: 0x00,
scriptHash: 0x05,
wif: 0x80
}
wif: 0x80,
};
export const regtest: Network = {
messagePrefix: '\x18Bitcoin Signed Message:\n',
bech32: 'bcrt',
bip32: {
public: 0x043587cf,
private: 0x04358394
private: 0x04358394,
},
pubKeyHash: 0x6f,
scriptHash: 0xc4,
wif: 0xef
}
wif: 0xef,
};
export const testnet: Network = {
messagePrefix: '\x18Bitcoin Signed Message:\n',
bech32: 'tb',
bip32: {
public: 0x043587cf,
private: 0x04358394
private: 0x04358394,
},
pubKeyHash: 0x6f,
scriptHash: 0xc4,
wif: 0xef
}
wif: 0xef,
};

View file

@ -1,54 +1,59 @@
import { Payment, PaymentOpts } from './index' // eslint-disable-line
import * as bscript from '../script'
import * as lazy from './lazy'
import { bitcoin as BITCOIN_NETWORK } from '../networks'
const typef = require('typeforce')
const OPS = bscript.OPS
import { Payment, PaymentOpts } from './index'; // eslint-disable-line
import * as bscript from '../script';
import * as lazy from './lazy';
import { bitcoin as BITCOIN_NETWORK } from '../networks';
const typef = require('typeforce');
const OPS = bscript.OPS;
function stacksEqual (a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false
function stacksEqual(a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false;
return a.every(function (x, i) {
return x.equals(b[i])
})
return a.every(function(x, i) {
return x.equals(b[i]);
});
}
// output: OP_RETURN ...
export function p2data (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.data &&
!a.output
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2data(a: Payment, opts?: PaymentOpts): Payment {
if (!a.data && !a.output) throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
data: typef.maybe(typef.arrayOf(typef.Buffer))
}, a)
typef(
{
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
data: typef.maybe(typef.arrayOf(typef.Buffer)),
},
a,
);
const network = a.network || BITCOIN_NETWORK
const o = <Payment>{ network }
const network = a.network || BITCOIN_NETWORK;
const o = <Payment>{ network };
lazy.prop(o, 'output', function () {
if (!a.data) return
return bscript.compile((<Array<Buffer | number>>[OPS.OP_RETURN]).concat(a.data))
})
lazy.prop(o, 'data', function () {
if (!a.output) return
return bscript.decompile(a.output)!.slice(1)
})
lazy.prop(o, 'output', function() {
if (!a.data) return;
return bscript.compile(
(<Array<Buffer | number>>[OPS.OP_RETURN]).concat(a.data),
);
});
lazy.prop(o, 'data', function() {
if (!a.output) return;
return bscript.decompile(a.output)!.slice(1);
});
// extended validation
if (opts.validate) {
if (a.output) {
const chunks = bscript.decompile(a.output)
if (chunks![0] !== OPS.OP_RETURN) throw new TypeError('Output is invalid')
if (!chunks!.slice(1).every(typef.Buffer)) throw new TypeError('Output is invalid')
const chunks = bscript.decompile(a.output);
if (chunks![0] !== OPS.OP_RETURN)
throw new TypeError('Output is invalid');
if (!chunks!.slice(1).every(typef.Buffer))
throw new TypeError('Output is invalid');
if (a.data && !stacksEqual(a.data, <Array<Buffer>>o.data)) throw new TypeError('Data mismatch')
if (a.data && !stacksEqual(a.data, <Array<Buffer>>o.data))
throw new TypeError('Data mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -1,35 +1,35 @@
import { Network } from '../networks' // eslint-disable-line
import { p2data as embed } from './embed'
import { p2ms } from './p2ms'
import { p2pk } from './p2pk'
import { p2pkh } from './p2pkh'
import { p2sh } from './p2sh'
import { p2wpkh } from './p2wpkh'
import { p2wsh } from './p2wsh'
import { Network } from '../networks'; // eslint-disable-line
import { p2data as embed } from './embed';
import { p2ms } from './p2ms';
import { p2pk } from './p2pk';
import { p2pkh } from './p2pkh';
import { p2sh } from './p2sh';
import { p2wpkh } from './p2wpkh';
import { p2wsh } from './p2wsh';
export interface Payment {
network?: Network,
output?: Buffer,
data?: Array<Buffer>,
m?: number,
n?: number,
pubkeys?: Array<Buffer>,
input?: Buffer,
signatures?: Array<Buffer>,
pubkey?: Buffer,
signature?: Buffer,
address?: string,
hash?: Buffer,
redeem?: Payment,
witness?: Array<Buffer>,
network?: Network;
output?: Buffer;
data?: Array<Buffer>;
m?: number;
n?: number;
pubkeys?: Array<Buffer>;
input?: Buffer;
signatures?: Array<Buffer>;
pubkey?: Buffer;
signature?: Buffer;
address?: string;
hash?: Buffer;
redeem?: Payment;
witness?: Array<Buffer>;
}
export interface PaymentOpts {
validate?: boolean,
allowIncomplete?: boolean,
validate?: boolean;
allowIncomplete?: boolean;
}
export { embed, p2ms, p2pk, p2pkh, p2sh, p2wpkh, p2wsh }
export { embed, p2ms, p2pk, p2pkh, p2sh, p2wpkh, p2wsh };
// TODO
// witness commitment

View file

@ -1,28 +1,28 @@
export function prop (object: Object, name: string, f: ()=>any): void {
export function prop(object: Object, name: string, f: () => any): void {
Object.defineProperty(object, name, {
configurable: true,
enumerable: true,
get: function () {
let value = f.call(this)
this[name] = value
return value
get: function() {
let value = f.call(this);
this[name] = value;
return value;
},
set: function (value) {
set: function(value) {
Object.defineProperty(this, name, {
configurable: true,
enumerable: true,
value: value,
writable: true
})
}
})
writable: true,
});
},
});
}
export function value <T> (f: ()=>T): ()=>T {
let value: T
return function (): T {
if (value !== undefined) return value
value = f()
return value
}
export function value<T>(f: () => T): () => T {
let value: T;
return function(): T {
if (value !== undefined) return value;
value = f();
return value;
};
}

View file

@ -1,141 +1,165 @@
import { Payment, PaymentOpts } from './index' // eslint-disable-line
import * as bscript from '../script'
import * as lazy from './lazy'
import { bitcoin as BITCOIN_NETWORK } from '../networks'
const OPS = bscript.OPS
const typef = require('typeforce')
const ecc = require('tiny-secp256k1')
import { Payment, PaymentOpts } from './index'; // eslint-disable-line
import * as bscript from '../script';
import * as lazy from './lazy';
import { bitcoin as BITCOIN_NETWORK } from '../networks';
const OPS = bscript.OPS;
const typef = require('typeforce');
const ecc = require('tiny-secp256k1');
const OP_INT_BASE = OPS.OP_RESERVED // OP_1 - 1
const OP_INT_BASE = OPS.OP_RESERVED; // OP_1 - 1
function stacksEqual (a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false
function stacksEqual(a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false;
return a.every(function (x, i) {
return x.equals(b[i])
})
return a.every(function(x, i) {
return x.equals(b[i]);
});
}
// input: OP_0 [signatures ...]
// output: m [pubKeys ...] n OP_CHECKMULTISIG
export function p2ms (a: Payment, opts?: PaymentOpts): Payment {
export function p2ms(a: Payment, opts?: PaymentOpts): Payment {
if (
!a.input &&
!a.output &&
!(a.pubkeys && a.m !== undefined) &&
!a.signatures
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
function isAcceptableSignature (x: Buffer | number) {
return bscript.isCanonicalScriptSignature(<Buffer>x) ||
(opts!.allowIncomplete &&
(<number> x === OPS.OP_0)) !== undefined // eslint-disable-line
function isAcceptableSignature(x: Buffer | number) {
return (
bscript.isCanonicalScriptSignature(<Buffer>x) ||
(opts!.allowIncomplete && <number>x === OPS.OP_0) !== undefined
); // eslint-disable-line
}
typef({
network: typef.maybe(typef.Object),
m: typef.maybe(typef.Number),
n: typef.maybe(typef.Number),
output: typef.maybe(typef.Buffer),
pubkeys: typef.maybe(typef.arrayOf(ecc.isPoint)),
typef(
{
network: typef.maybe(typef.Object),
m: typef.maybe(typef.Number),
n: typef.maybe(typef.Number),
output: typef.maybe(typef.Buffer),
pubkeys: typef.maybe(typef.arrayOf(ecc.isPoint)),
signatures: typef.maybe(typef.arrayOf(isAcceptableSignature)),
input: typef.maybe(typef.Buffer)
}, a)
signatures: typef.maybe(typef.arrayOf(isAcceptableSignature)),
input: typef.maybe(typef.Buffer),
},
a,
);
const network = a.network || BITCOIN_NETWORK
const o: Payment = { network }
const network = a.network || BITCOIN_NETWORK;
const o: Payment = { network };
let chunks: Array<Buffer | number> = []
let decoded = false
function decode (output: Buffer | Array<Buffer | number>): void {
if (decoded) return
decoded = true
chunks = <Array<Buffer | number>>bscript.decompile(output)
o.m = <number> chunks[0] - OP_INT_BASE // eslint-disable-line
o.n = <number> chunks[chunks.length - 2] - OP_INT_BASE // eslint-disable-line
o.pubkeys = <Array<Buffer>>chunks.slice(1, -2)
let chunks: Array<Buffer | number> = [];
let decoded = false;
function decode(output: Buffer | Array<Buffer | number>): void {
if (decoded) return;
decoded = true;
chunks = <Array<Buffer | number>>bscript.decompile(output);
o.m = <number>chunks[0] - OP_INT_BASE; // eslint-disable-line
o.n = <number>chunks[chunks.length - 2] - OP_INT_BASE; // eslint-disable-line
o.pubkeys = <Array<Buffer>>chunks.slice(1, -2);
}
lazy.prop(o, 'output', function () {
if (!a.m) return
if (!o.n) return
if (!a.pubkeys) return
return bscript.compile((<Array<Buffer | number>>[]).concat(
OP_INT_BASE + a.m,
a.pubkeys,
OP_INT_BASE + o.n,
OPS.OP_CHECKMULTISIG
))
})
lazy.prop(o, 'm', function () {
if (!o.output) return
decode(o.output)
return o.m
})
lazy.prop(o, 'n', function () {
if (!o.pubkeys) return
return o.pubkeys.length
})
lazy.prop(o, 'pubkeys', function () {
if (!a.output) return
decode(a.output)
return o.pubkeys
})
lazy.prop(o, 'signatures', function () {
if (!a.input) return
return bscript.decompile(a.input)!.slice(1)
})
lazy.prop(o, 'input', function () {
if (!a.signatures) return
return bscript.compile((<Array<Buffer | number>>[OPS.OP_0]).concat(a.signatures))
})
lazy.prop(o, 'witness', function () {
if (!o.input) return
return []
})
lazy.prop(o, 'output', function() {
if (!a.m) return;
if (!o.n) return;
if (!a.pubkeys) return;
return bscript.compile(
(<Array<Buffer | number>>[]).concat(
OP_INT_BASE + a.m,
a.pubkeys,
OP_INT_BASE + o.n,
OPS.OP_CHECKMULTISIG,
),
);
});
lazy.prop(o, 'm', function() {
if (!o.output) return;
decode(o.output);
return o.m;
});
lazy.prop(o, 'n', function() {
if (!o.pubkeys) return;
return o.pubkeys.length;
});
lazy.prop(o, 'pubkeys', function() {
if (!a.output) return;
decode(a.output);
return o.pubkeys;
});
lazy.prop(o, 'signatures', function() {
if (!a.input) return;
return bscript.decompile(a.input)!.slice(1);
});
lazy.prop(o, 'input', function() {
if (!a.signatures) return;
return bscript.compile(
(<Array<Buffer | number>>[OPS.OP_0]).concat(a.signatures),
);
});
lazy.prop(o, 'witness', function() {
if (!o.input) return;
return [];
});
// extended validation
if (opts.validate) {
if (a.output) {
decode(a.output)
if (!typef.Number(chunks[0])) throw new TypeError('Output is invalid')
if (!typef.Number(chunks[chunks.length - 2])) throw new TypeError('Output is invalid')
if (chunks[chunks.length - 1] !== OPS.OP_CHECKMULTISIG) throw new TypeError('Output is invalid')
decode(a.output);
if (!typef.Number(chunks[0])) throw new TypeError('Output is invalid');
if (!typef.Number(chunks[chunks.length - 2]))
throw new TypeError('Output is invalid');
if (chunks[chunks.length - 1] !== OPS.OP_CHECKMULTISIG)
throw new TypeError('Output is invalid');
if (
o.m! <= 0 || // eslint-disable-line
o.n! > 16 || // eslint-disable-line
o.m! > o.n! || // eslint-disable-line
o.n !== chunks.length - 3) throw new TypeError('Output is invalid')
if (!o.pubkeys!.every(x => ecc.isPoint(x))) throw new TypeError('Output is invalid')
o.n !== chunks.length - 3
)
throw new TypeError('Output is invalid');
if (!o.pubkeys!.every(x => ecc.isPoint(x)))
throw new TypeError('Output is invalid');
if (a.m !== undefined && a.m !== o.m) throw new TypeError('m mismatch')
if (a.n !== undefined && a.n !== o.n) throw new TypeError('n mismatch')
if (a.pubkeys && !stacksEqual(a.pubkeys, o.pubkeys!)) throw new TypeError('Pubkeys mismatch')
if (a.m !== undefined && a.m !== o.m) throw new TypeError('m mismatch');
if (a.n !== undefined && a.n !== o.n) throw new TypeError('n mismatch');
if (a.pubkeys && !stacksEqual(a.pubkeys, o.pubkeys!))
throw new TypeError('Pubkeys mismatch');
}
if (a.pubkeys) {
if (a.n !== undefined && a.n !== a.pubkeys.length) throw new TypeError('Pubkey count mismatch')
o.n = a.pubkeys.length
if (a.n !== undefined && a.n !== a.pubkeys.length)
throw new TypeError('Pubkey count mismatch');
o.n = a.pubkeys.length;
if (o.n < o.m!) throw new TypeError('Pubkey count cannot be less than m')
if (o.n < o.m!) throw new TypeError('Pubkey count cannot be less than m');
}
if (a.signatures) {
if (a.signatures.length < o.m!) throw new TypeError('Not enough signatures provided')
if (a.signatures.length > o.m!) throw new TypeError('Too many signatures provided')
if (a.signatures.length < o.m!)
throw new TypeError('Not enough signatures provided');
if (a.signatures.length > o.m!)
throw new TypeError('Too many signatures provided');
}
if (a.input) {
if (a.input[0] !== OPS.OP_0) throw new TypeError('Input is invalid')
if (o.signatures!.length === 0 || !o.signatures!.every(isAcceptableSignature)) throw new TypeError('Input has invalid signature(s)')
if (a.input[0] !== OPS.OP_0) throw new TypeError('Input is invalid');
if (
o.signatures!.length === 0 ||
!o.signatures!.every(isAcceptableSignature)
)
throw new TypeError('Input has invalid signature(s)');
if (a.signatures && !stacksEqual(a.signatures, o.signatures!)) throw new TypeError('Signature mismatch')
if (a.m !== undefined && a.m !== a.signatures!.length) throw new TypeError('Signature count mismatch')
if (a.signatures && !stacksEqual(a.signatures, o.signatures!))
throw new TypeError('Signature mismatch');
if (a.m !== undefined && a.m !== a.signatures!.length)
throw new TypeError('Signature count mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -1,78 +1,80 @@
import { Payment, PaymentOpts } from './index' // eslint-disable-line
import * as bscript from '../script'
import * as lazy from './lazy'
import { bitcoin as BITCOIN_NETWORK } from '../networks'
const typef = require('typeforce')
const OPS = bscript.OPS
const ecc = require('tiny-secp256k1')
import { Payment, PaymentOpts } from './index'; // eslint-disable-line
import * as bscript from '../script';
import * as lazy from './lazy';
import { bitcoin as BITCOIN_NETWORK } from '../networks';
const typef = require('typeforce');
const OPS = bscript.OPS;
const ecc = require('tiny-secp256k1');
// input: {signature}
// output: {pubKey} OP_CHECKSIG
export function p2pk (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.input &&
!a.output &&
!a.pubkey &&
!a.input &&
!a.signature
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2pk(a: Payment, opts?: PaymentOpts): Payment {
if (!a.input && !a.output && !a.pubkey && !a.input && !a.signature)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
pubkey: typef.maybe(ecc.isPoint),
typef(
{
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
pubkey: typef.maybe(ecc.isPoint),
signature: typef.maybe(bscript.isCanonicalScriptSignature),
input: typef.maybe(typef.Buffer)
}, a)
signature: typef.maybe(bscript.isCanonicalScriptSignature),
input: typef.maybe(typef.Buffer),
},
a,
);
const _chunks = <()=>Array<Buffer | number>>lazy.value(function () { return bscript.decompile(a.input!) })
const _chunks = <() => Array<Buffer | number>>lazy.value(function() {
return bscript.decompile(a.input!);
});
const network = a.network || BITCOIN_NETWORK
const o: Payment = { network }
const network = a.network || BITCOIN_NETWORK;
const o: Payment = { network };
lazy.prop(o, 'output', function () {
if (!a.pubkey) return
return bscript.compile([
a.pubkey,
OPS.OP_CHECKSIG
])
})
lazy.prop(o, 'pubkey', function () {
if (!a.output) return
return a.output.slice(1, -1)
})
lazy.prop(o, 'signature', function () {
if (!a.input) return
return <Buffer>_chunks()[0]
})
lazy.prop(o, 'input', function () {
if (!a.signature) return
return bscript.compile([a.signature])
})
lazy.prop(o, 'witness', function () {
if (!o.input) return
return []
})
lazy.prop(o, 'output', function() {
if (!a.pubkey) return;
return bscript.compile([a.pubkey, OPS.OP_CHECKSIG]);
});
lazy.prop(o, 'pubkey', function() {
if (!a.output) return;
return a.output.slice(1, -1);
});
lazy.prop(o, 'signature', function() {
if (!a.input) return;
return <Buffer>_chunks()[0];
});
lazy.prop(o, 'input', function() {
if (!a.signature) return;
return bscript.compile([a.signature]);
});
lazy.prop(o, 'witness', function() {
if (!o.input) return;
return [];
});
// extended validation
if (opts.validate) {
if (a.output) {
if (a.output[a.output.length - 1] !== OPS.OP_CHECKSIG) throw new TypeError('Output is invalid')
if (!ecc.isPoint(o.pubkey)) throw new TypeError('Output pubkey is invalid')
if (a.pubkey && !a.pubkey.equals(o.pubkey!)) throw new TypeError('Pubkey mismatch')
if (a.output[a.output.length - 1] !== OPS.OP_CHECKSIG)
throw new TypeError('Output is invalid');
if (!ecc.isPoint(o.pubkey))
throw new TypeError('Output pubkey is invalid');
if (a.pubkey && !a.pubkey.equals(o.pubkey!))
throw new TypeError('Pubkey mismatch');
}
if (a.signature) {
if (a.input && !a.input.equals(o.input!)) throw new TypeError('Signature mismatch')
if (a.input && !a.input.equals(o.input!))
throw new TypeError('Signature mismatch');
}
if (a.input) {
if (_chunks().length !== 1) throw new TypeError('Input is invalid')
if (!bscript.isCanonicalScriptSignature(o.signature!)) throw new TypeError('Input has invalid signature')
if (_chunks().length !== 1) throw new TypeError('Input is invalid');
if (!bscript.isCanonicalScriptSignature(o.signature!))
throw new TypeError('Input has invalid signature');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -1,101 +1,103 @@
import { Payment, PaymentOpts } from './index' // eslint-disable-line
import * as bscript from '../script'
import * as bcrypto from '../crypto'
import * as lazy from './lazy'
import { bitcoin as BITCOIN_NETWORK } from '../networks'
const typef = require('typeforce')
const OPS = bscript.OPS
const ecc = require('tiny-secp256k1')
import { Payment, PaymentOpts } from './index'; // eslint-disable-line
import * as bscript from '../script';
import * as bcrypto from '../crypto';
import * as lazy from './lazy';
import { bitcoin as BITCOIN_NETWORK } from '../networks';
const typef = require('typeforce');
const OPS = bscript.OPS;
const ecc = require('tiny-secp256k1');
const bs58check = require('bs58check')
const bs58check = require('bs58check');
// input: {signature} {pubkey}
// output: OP_DUP OP_HASH160 {hash160(pubkey)} OP_EQUALVERIFY OP_CHECKSIG
export function p2pkh (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.address &&
!a.hash &&
!a.output &&
!a.pubkey &&
!a.input
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2pkh(a: Payment, opts?: PaymentOpts): Payment {
if (!a.address && !a.hash && !a.output && !a.pubkey && !a.input)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
network: typef.maybe(typef.Object),
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
output: typef.maybe(typef.BufferN(25)),
typef(
{
network: typef.maybe(typef.Object),
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
output: typef.maybe(typef.BufferN(25)),
pubkey: typef.maybe(ecc.isPoint),
signature: typef.maybe(bscript.isCanonicalScriptSignature),
input: typef.maybe(typef.Buffer)
}, a)
pubkey: typef.maybe(ecc.isPoint),
signature: typef.maybe(bscript.isCanonicalScriptSignature),
input: typef.maybe(typef.Buffer),
},
a,
);
const _address = lazy.value(function () {
const payload = bs58check.decode(a.address)
const version = payload.readUInt8(0)
const hash = payload.slice(1)
return { version, hash }
})
const _chunks = <()=>Array<Buffer | number>>lazy.value(function () { return bscript.decompile(a.input!) })
const _address = lazy.value(function() {
const payload = bs58check.decode(a.address);
const version = payload.readUInt8(0);
const hash = payload.slice(1);
return { version, hash };
});
const _chunks = <() => Array<Buffer | number>>lazy.value(function() {
return bscript.decompile(a.input!);
});
const network = a.network || BITCOIN_NETWORK
const o: Payment = { network }
const network = a.network || BITCOIN_NETWORK;
const o: Payment = { network };
lazy.prop(o, 'address', function () {
if (!o.hash) return
lazy.prop(o, 'address', function() {
if (!o.hash) return;
const payload = Buffer.allocUnsafe(21)
payload.writeUInt8(network.pubKeyHash, 0)
o.hash.copy(payload, 1)
return bs58check.encode(payload)
})
lazy.prop(o, 'hash', function () {
if (a.output) return a.output.slice(3, 23)
if (a.address) return _address().hash
if (a.pubkey || o.pubkey) return bcrypto.hash160(a.pubkey! || o.pubkey!)
})
lazy.prop(o, 'output', function () {
if (!o.hash) return
const payload = Buffer.allocUnsafe(21);
payload.writeUInt8(network.pubKeyHash, 0);
o.hash.copy(payload, 1);
return bs58check.encode(payload);
});
lazy.prop(o, 'hash', function() {
if (a.output) return a.output.slice(3, 23);
if (a.address) return _address().hash;
if (a.pubkey || o.pubkey) return bcrypto.hash160(a.pubkey! || o.pubkey!);
});
lazy.prop(o, 'output', function() {
if (!o.hash) return;
return bscript.compile([
OPS.OP_DUP,
OPS.OP_HASH160,
o.hash,
OPS.OP_EQUALVERIFY,
OPS.OP_CHECKSIG
])
})
lazy.prop(o, 'pubkey', function () {
if (!a.input) return
return <Buffer>_chunks()[1]
})
lazy.prop(o, 'signature', function () {
if (!a.input) return
return <Buffer>_chunks()[0]
})
lazy.prop(o, 'input', function () {
if (!a.pubkey) return
if (!a.signature) return
return bscript.compile([a.signature, a.pubkey])
})
lazy.prop(o, 'witness', function () {
if (!o.input) return
return []
})
OPS.OP_CHECKSIG,
]);
});
lazy.prop(o, 'pubkey', function() {
if (!a.input) return;
return <Buffer>_chunks()[1];
});
lazy.prop(o, 'signature', function() {
if (!a.input) return;
return <Buffer>_chunks()[0];
});
lazy.prop(o, 'input', function() {
if (!a.pubkey) return;
if (!a.signature) return;
return bscript.compile([a.signature, a.pubkey]);
});
lazy.prop(o, 'witness', function() {
if (!o.input) return;
return [];
});
// extended validation
if (opts.validate) {
let hash: Buffer = Buffer.from([])
let hash: Buffer = Buffer.from([]);
if (a.address) {
if (_address().version !== network.pubKeyHash) throw new TypeError('Invalid version or Network mismatch')
if (_address().hash.length !== 20) throw new TypeError('Invalid address')
hash = _address().hash
if (_address().version !== network.pubKeyHash)
throw new TypeError('Invalid version or Network mismatch');
if (_address().hash.length !== 20) throw new TypeError('Invalid address');
hash = _address().hash;
}
if (a.hash) {
if (hash.length > 0 && !hash.equals(a.hash)) throw new TypeError('Hash mismatch')
else hash = a.hash
if (hash.length > 0 && !hash.equals(a.hash))
throw new TypeError('Hash mismatch');
else hash = a.hash;
}
if (a.output) {
@ -105,32 +107,41 @@ export function p2pkh (a: Payment, opts?: PaymentOpts): Payment {
a.output[1] !== OPS.OP_HASH160 ||
a.output[2] !== 0x14 ||
a.output[23] !== OPS.OP_EQUALVERIFY ||
a.output[24] !== OPS.OP_CHECKSIG) throw new TypeError('Output is invalid')
a.output[24] !== OPS.OP_CHECKSIG
)
throw new TypeError('Output is invalid');
const hash2 = a.output.slice(3, 23)
if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch')
else hash = hash2
const hash2 = a.output.slice(3, 23);
if (hash.length > 0 && !hash.equals(hash2))
throw new TypeError('Hash mismatch');
else hash = hash2;
}
if (a.pubkey) {
const pkh = bcrypto.hash160(a.pubkey)
if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch')
else hash = pkh
const pkh = bcrypto.hash160(a.pubkey);
if (hash.length > 0 && !hash.equals(pkh))
throw new TypeError('Hash mismatch');
else hash = pkh;
}
if (a.input) {
const chunks = _chunks()
if (chunks.length !== 2) throw new TypeError('Input is invalid')
if (!bscript.isCanonicalScriptSignature(<Buffer>chunks[0])) throw new TypeError('Input has invalid signature')
if (!ecc.isPoint(chunks[1])) throw new TypeError('Input has invalid pubkey')
const chunks = _chunks();
if (chunks.length !== 2) throw new TypeError('Input is invalid');
if (!bscript.isCanonicalScriptSignature(<Buffer>chunks[0]))
throw new TypeError('Input has invalid signature');
if (!ecc.isPoint(chunks[1]))
throw new TypeError('Input has invalid pubkey');
if (a.signature && !a.signature.equals(<Buffer>chunks[0])) throw new TypeError('Signature mismatch')
if (a.pubkey && !a.pubkey.equals(<Buffer>chunks[1])) throw new TypeError('Pubkey mismatch')
if (a.signature && !a.signature.equals(<Buffer>chunks[0]))
throw new TypeError('Signature mismatch');
if (a.pubkey && !a.pubkey.equals(<Buffer>chunks[1]))
throw new TypeError('Pubkey mismatch');
const pkh = bcrypto.hash160(<Buffer>chunks[1])
if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch')
const pkh = bcrypto.hash160(<Buffer>chunks[1]);
if (hash.length > 0 && !hash.equals(pkh))
throw new TypeError('Hash mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -19,109 +19,109 @@ function stacksEqual (a: Array<Buffer>, b: Array<Buffer>): boolean {
// input: [redeemScriptSig ...] {redeemScript}
// witness: <?>
// output: OP_HASH160 {hash160(redeemScript)} OP_EQUAL
export function p2sh (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.address &&
!a.hash &&
!a.output &&
!a.redeem &&
!a.input
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2sh(a: Payment, opts?: PaymentOpts): Payment {
if (!a.address && !a.hash && !a.output && !a.redeem && !a.input)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
network: typef.maybe(typef.Object),
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
output: typef.maybe(typef.BufferN(23)),
redeem: typef.maybe({
typef(
{
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
input: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer))
}),
input: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer))
}, a)
let network = a.network
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
output: typef.maybe(typef.BufferN(23)),
redeem: typef.maybe({
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
input: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer)),
}),
input: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer)),
},
a,
);
let network = a.network;
if (!network) {
network = (a.redeem && a.redeem.network) || BITCOIN_NETWORK
network = (a.redeem && a.redeem.network) || BITCOIN_NETWORK;
}
const o: Payment = { network }
const o: Payment = { network };
const _address = lazy.value(function () {
const payload = bs58check.decode(a.address)
const version = payload.readUInt8(0)
const hash = payload.slice(1)
return { version, hash }
})
const _chunks = <()=>Array<Buffer | number>>lazy.value(function () { return bscript.decompile(a.input!) })
const _redeem = lazy.value(function (): Payment {
const chunks = _chunks()
const _address = lazy.value(function() {
const payload = bs58check.decode(a.address);
const version = payload.readUInt8(0);
const hash = payload.slice(1);
return { version, hash };
});
const _chunks = <() => Array<Buffer | number>>lazy.value(function() {
return bscript.decompile(a.input!);
});
const _redeem = lazy.value(function(): Payment {
const chunks = _chunks();
return {
network,
output: <Buffer>chunks[chunks.length - 1],
input: bscript.compile(chunks.slice(0, -1)),
witness: a.witness || []
}
})
witness: a.witness || [],
};
});
// output dependents
lazy.prop(o, 'address', function () {
if (!o.hash) return
lazy.prop(o, 'address', function() {
if (!o.hash) return;
const payload = Buffer.allocUnsafe(21)
payload.writeUInt8(o.network!.scriptHash, 0)
o.hash.copy(payload, 1)
return bs58check.encode(payload)
})
lazy.prop(o, 'hash', function () {
const payload = Buffer.allocUnsafe(21);
payload.writeUInt8(o.network!.scriptHash, 0);
o.hash.copy(payload, 1);
return bs58check.encode(payload);
});
lazy.prop(o, 'hash', function() {
// in order of least effort
if (a.output) return a.output.slice(2, 22)
if (a.address) return _address().hash
if (o.redeem && o.redeem.output) return bcrypto.hash160(o.redeem.output)
})
lazy.prop(o, 'output', function () {
if (!o.hash) return
return bscript.compile([
OPS.OP_HASH160,
o.hash,
OPS.OP_EQUAL
])
})
if (a.output) return a.output.slice(2, 22);
if (a.address) return _address().hash;
if (o.redeem && o.redeem.output) return bcrypto.hash160(o.redeem.output);
});
lazy.prop(o, 'output', function() {
if (!o.hash) return;
return bscript.compile([OPS.OP_HASH160, o.hash, OPS.OP_EQUAL]);
});
// input dependents
lazy.prop(o, 'redeem', function () {
if (!a.input) return
return _redeem()
})
lazy.prop(o, 'input', function () {
if (!a.redeem || !a.redeem.input || !a.redeem.output) return
return bscript.compile((<Array<Buffer | number>>[]).concat(
<Array<Buffer | number>>bscript.decompile(a.redeem.input),
a.redeem.output
))
})
lazy.prop(o, 'witness', function () {
if (o.redeem && o.redeem.witness) return o.redeem.witness
if (o.input) return []
})
lazy.prop(o, 'redeem', function() {
if (!a.input) return;
return _redeem();
});
lazy.prop(o, 'input', function() {
if (!a.redeem || !a.redeem.input || !a.redeem.output) return;
return bscript.compile(
(<Array<Buffer | number>>[]).concat(
<Array<Buffer | number>>bscript.decompile(a.redeem.input),
a.redeem.output,
),
);
});
lazy.prop(o, 'witness', function() {
if (o.redeem && o.redeem.witness) return o.redeem.witness;
if (o.input) return [];
});
if (opts.validate) {
let hash: Buffer = Buffer.from([])
let hash: Buffer = Buffer.from([]);
if (a.address) {
if (_address().version !== network.scriptHash) throw new TypeError('Invalid version or Network mismatch')
if (_address().hash.length !== 20) throw new TypeError('Invalid address')
hash = _address().hash
if (_address().version !== network.scriptHash)
throw new TypeError('Invalid version or Network mismatch');
if (_address().hash.length !== 20) throw new TypeError('Invalid address');
hash = _address().hash;
}
if (a.hash) {
if (hash.length > 0 && !hash.equals(a.hash)) throw new TypeError('Hash mismatch')
else hash = a.hash
if (hash.length > 0 && !hash.equals(a.hash))
throw new TypeError('Hash mismatch');
else hash = a.hash;
}
if (a.output) {
@ -129,64 +129,79 @@ export function p2sh (a: Payment, opts?: PaymentOpts): Payment {
a.output.length !== 23 ||
a.output[0] !== OPS.OP_HASH160 ||
a.output[1] !== 0x14 ||
a.output[22] !== OPS.OP_EQUAL) throw new TypeError('Output is invalid')
a.output[22] !== OPS.OP_EQUAL
)
throw new TypeError('Output is invalid');
const hash2 = a.output.slice(2, 22)
if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch')
else hash = hash2
const hash2 = a.output.slice(2, 22);
if (hash.length > 0 && !hash.equals(hash2))
throw new TypeError('Hash mismatch');
else hash = hash2;
}
// inlined to prevent 'no-inner-declarations' failing
const checkRedeem = function (redeem: Payment): void {
const checkRedeem = function(redeem: Payment): void {
// is the redeem output empty/invalid?
if (redeem.output) {
const decompile = bscript.decompile(redeem.output)
if (!decompile || decompile.length < 1) throw new TypeError('Redeem.output too short')
const decompile = bscript.decompile(redeem.output);
if (!decompile || decompile.length < 1)
throw new TypeError('Redeem.output too short');
// match hash against other sources
const hash2 = bcrypto.hash160(redeem.output)
if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch')
else hash = hash2
const hash2 = bcrypto.hash160(redeem.output);
if (hash.length > 0 && !hash.equals(hash2))
throw new TypeError('Hash mismatch');
else hash = hash2;
}
if (redeem.input) {
const hasInput = redeem.input.length > 0
const hasWitness = redeem.witness && redeem.witness.length > 0
if (!hasInput && !hasWitness) throw new TypeError('Empty input')
if (hasInput && hasWitness) throw new TypeError('Input and witness provided')
const hasInput = redeem.input.length > 0;
const hasWitness = redeem.witness && redeem.witness.length > 0;
if (!hasInput && !hasWitness) throw new TypeError('Empty input');
if (hasInput && hasWitness)
throw new TypeError('Input and witness provided');
if (hasInput) {
const richunks = <Array<Buffer | number>>bscript.decompile(redeem.input)
if (!bscript.isPushOnly(richunks)) throw new TypeError('Non push-only scriptSig')
const richunks = <Array<Buffer | number>>(
bscript.decompile(redeem.input)
);
if (!bscript.isPushOnly(richunks))
throw new TypeError('Non push-only scriptSig');
}
}
}
};
if (a.input) {
const chunks = _chunks()
if (!chunks || chunks.length < 1) throw new TypeError('Input too short')
if (!Buffer.isBuffer(_redeem().output)) throw new TypeError('Input is invalid')
const chunks = _chunks();
if (!chunks || chunks.length < 1) throw new TypeError('Input too short');
if (!Buffer.isBuffer(_redeem().output))
throw new TypeError('Input is invalid');
checkRedeem(_redeem())
checkRedeem(_redeem());
}
if (a.redeem) {
if (a.redeem.network && a.redeem.network !== network) throw new TypeError('Network mismatch')
if (a.redeem.network && a.redeem.network !== network)
throw new TypeError('Network mismatch');
if (a.input) {
const redeem = _redeem()
if (a.redeem.output && !a.redeem.output.equals(redeem.output!)) throw new TypeError('Redeem.output mismatch')
if (a.redeem.input && !a.redeem.input.equals(redeem.input!)) throw new TypeError('Redeem.input mismatch')
const redeem = _redeem();
if (a.redeem.output && !a.redeem.output.equals(redeem.output!))
throw new TypeError('Redeem.output mismatch');
if (a.redeem.input && !a.redeem.input.equals(redeem.input!))
throw new TypeError('Redeem.input mismatch');
}
checkRedeem(a.redeem)
checkRedeem(a.redeem);
}
if (a.witness) {
if (
a.redeem &&
a.redeem.witness &&
!stacksEqual(a.redeem.witness, a.witness)) throw new TypeError('Witness and redeem.witness mismatch')
!stacksEqual(a.redeem.witness, a.witness)
)
throw new TypeError('Witness and redeem.witness mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -1,134 +1,142 @@
import { Payment, PaymentOpts } from './index' // eslint-disable-line
import * as bscript from '../script'
import * as bcrypto from '../crypto'
import * as lazy from './lazy'
import { bitcoin as BITCOIN_NETWORK } from '../networks'
const typef = require('typeforce')
const OPS = bscript.OPS
const ecc = require('tiny-secp256k1')
import { Payment, PaymentOpts } from './index'; // eslint-disable-line
import * as bscript from '../script';
import * as bcrypto from '../crypto';
import * as lazy from './lazy';
import { bitcoin as BITCOIN_NETWORK } from '../networks';
const typef = require('typeforce');
const OPS = bscript.OPS;
const ecc = require('tiny-secp256k1');
const bech32 = require('bech32')
const bech32 = require('bech32');
const EMPTY_BUFFER = Buffer.alloc(0)
const EMPTY_BUFFER = Buffer.alloc(0);
// witness: {signature} {pubKey}
// input: <>
// output: OP_0 {pubKeyHash}
export function p2wpkh (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.address &&
!a.hash &&
!a.output &&
!a.pubkey &&
!a.witness
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2wpkh(a: Payment, opts?: PaymentOpts): Payment {
if (!a.address && !a.hash && !a.output && !a.pubkey && !a.witness)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
input: typef.maybe(typef.BufferN(0)),
network: typef.maybe(typef.Object),
output: typef.maybe(typef.BufferN(22)),
pubkey: typef.maybe(ecc.isPoint),
signature: typef.maybe(bscript.isCanonicalScriptSignature),
witness: typef.maybe(typef.arrayOf(typef.Buffer))
}, a)
typef(
{
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(20)),
input: typef.maybe(typef.BufferN(0)),
network: typef.maybe(typef.Object),
output: typef.maybe(typef.BufferN(22)),
pubkey: typef.maybe(ecc.isPoint),
signature: typef.maybe(bscript.isCanonicalScriptSignature),
witness: typef.maybe(typef.arrayOf(typef.Buffer)),
},
a,
);
const _address = lazy.value(function () {
const result = bech32.decode(a.address)
const version = result.words.shift()
const data = bech32.fromWords(result.words)
const _address = lazy.value(function() {
const result = bech32.decode(a.address);
const version = result.words.shift();
const data = bech32.fromWords(result.words);
return {
version,
prefix: result.prefix,
data: Buffer.from(data)
}
})
data: Buffer.from(data),
};
});
const network = a.network || BITCOIN_NETWORK
const o: Payment = { network }
const network = a.network || BITCOIN_NETWORK;
const o: Payment = { network };
lazy.prop(o, 'address', function () {
if (!o.hash) return
lazy.prop(o, 'address', function() {
if (!o.hash) return;
const words = bech32.toWords(o.hash)
words.unshift(0x00)
return bech32.encode(network.bech32, words)
})
lazy.prop(o, 'hash', function () {
if (a.output) return a.output.slice(2, 22)
if (a.address) return _address().data
if (a.pubkey || o.pubkey) return bcrypto.hash160(a.pubkey! || o.pubkey!)
})
lazy.prop(o, 'output', function () {
if (!o.hash) return
return bscript.compile([
OPS.OP_0,
o.hash
])
})
lazy.prop(o, 'pubkey', function () {
if (a.pubkey) return a.pubkey
if (!a.witness) return
return a.witness[1]
})
lazy.prop(o, 'signature', function () {
if (!a.witness) return
return a.witness[0]
})
lazy.prop(o, 'input', function () {
if (!o.witness) return
return EMPTY_BUFFER
})
lazy.prop(o, 'witness', function () {
if (!a.pubkey) return
if (!a.signature) return
return [a.signature, a.pubkey]
})
const words = bech32.toWords(o.hash);
words.unshift(0x00);
return bech32.encode(network.bech32, words);
});
lazy.prop(o, 'hash', function() {
if (a.output) return a.output.slice(2, 22);
if (a.address) return _address().data;
if (a.pubkey || o.pubkey) return bcrypto.hash160(a.pubkey! || o.pubkey!);
});
lazy.prop(o, 'output', function() {
if (!o.hash) return;
return bscript.compile([OPS.OP_0, o.hash]);
});
lazy.prop(o, 'pubkey', function() {
if (a.pubkey) return a.pubkey;
if (!a.witness) return;
return a.witness[1];
});
lazy.prop(o, 'signature', function() {
if (!a.witness) return;
return a.witness[0];
});
lazy.prop(o, 'input', function() {
if (!o.witness) return;
return EMPTY_BUFFER;
});
lazy.prop(o, 'witness', function() {
if (!a.pubkey) return;
if (!a.signature) return;
return [a.signature, a.pubkey];
});
// extended validation
if (opts.validate) {
let hash: Buffer = Buffer.from([])
let hash: Buffer = Buffer.from([]);
if (a.address) {
if (network && network.bech32 !== _address().prefix) throw new TypeError('Invalid prefix or Network mismatch')
if (_address().version !== 0x00) throw new TypeError('Invalid address version')
if (_address().data.length !== 20) throw new TypeError('Invalid address data')
hash = _address().data
if (network && network.bech32 !== _address().prefix)
throw new TypeError('Invalid prefix or Network mismatch');
if (_address().version !== 0x00)
throw new TypeError('Invalid address version');
if (_address().data.length !== 20)
throw new TypeError('Invalid address data');
hash = _address().data;
}
if (a.hash) {
if (hash.length > 0 && !hash.equals(a.hash)) throw new TypeError('Hash mismatch')
else hash = a.hash
if (hash.length > 0 && !hash.equals(a.hash))
throw new TypeError('Hash mismatch');
else hash = a.hash;
}
if (a.output) {
if (
a.output.length !== 22 ||
a.output[0] !== OPS.OP_0 ||
a.output[1] !== 0x14) throw new TypeError('Output is invalid')
if (hash.length > 0 && !hash.equals(a.output.slice(2))) throw new TypeError('Hash mismatch')
else hash = a.output.slice(2)
a.output[1] !== 0x14
)
throw new TypeError('Output is invalid');
if (hash.length > 0 && !hash.equals(a.output.slice(2)))
throw new TypeError('Hash mismatch');
else hash = a.output.slice(2);
}
if (a.pubkey) {
const pkh = bcrypto.hash160(a.pubkey)
if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch')
else hash = pkh
const pkh = bcrypto.hash160(a.pubkey);
if (hash.length > 0 && !hash.equals(pkh))
throw new TypeError('Hash mismatch');
else hash = pkh;
}
if (a.witness) {
if (a.witness.length !== 2) throw new TypeError('Witness is invalid')
if (!bscript.isCanonicalScriptSignature(a.witness[0])) throw new TypeError('Witness has invalid signature')
if (!ecc.isPoint(a.witness[1])) throw new TypeError('Witness has invalid pubkey')
if (a.witness.length !== 2) throw new TypeError('Witness is invalid');
if (!bscript.isCanonicalScriptSignature(a.witness[0]))
throw new TypeError('Witness has invalid signature');
if (!ecc.isPoint(a.witness[1]))
throw new TypeError('Witness has invalid pubkey');
if (a.signature && !a.signature.equals(a.witness[0])) throw new TypeError('Signature mismatch')
if (a.pubkey && !a.pubkey.equals(a.witness[1])) throw new TypeError('Pubkey mismatch')
if (a.signature && !a.signature.equals(a.witness[0]))
throw new TypeError('Signature mismatch');
if (a.pubkey && !a.pubkey.equals(a.witness[1]))
throw new TypeError('Pubkey mismatch');
const pkh = bcrypto.hash160(a.witness[1])
if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch')
const pkh = bcrypto.hash160(a.witness[1]);
if (hash.length > 0 && !hash.equals(pkh))
throw new TypeError('Hash mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -6,98 +6,95 @@ import * as lazy from './lazy'
const typef = require('typeforce')
const OPS = bscript.OPS
const bech32 = require('bech32')
const bech32 = require('bech32');
const EMPTY_BUFFER = Buffer.alloc(0)
const EMPTY_BUFFER = Buffer.alloc(0);
function stacksEqual (a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false
function stacksEqual(a: Array<Buffer>, b: Array<Buffer>): boolean {
if (a.length !== b.length) return false;
return a.every(function (x, i) {
return x.equals(b[i])
})
return a.every(function(x, i) {
return x.equals(b[i]);
});
}
// input: <>
// witness: [redeemScriptSig ...] {redeemScript}
// output: OP_0 {sha256(redeemScript)}
export function p2wsh (a: Payment, opts?: PaymentOpts): Payment {
if (
!a.address &&
!a.hash &&
!a.output &&
!a.redeem &&
!a.witness
) throw new TypeError('Not enough data')
opts = Object.assign({ validate: true }, opts || {})
export function p2wsh(a: Payment, opts?: PaymentOpts): Payment {
if (!a.address && !a.hash && !a.output && !a.redeem && !a.witness)
throw new TypeError('Not enough data');
opts = Object.assign({ validate: true }, opts || {});
typef({
network: typef.maybe(typef.Object),
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(32)),
output: typef.maybe(typef.BufferN(34)),
redeem: typef.maybe({
input: typef.maybe(typef.Buffer),
typef(
{
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer))
}),
input: typef.maybe(typef.BufferN(0)),
witness: typef.maybe(typef.arrayOf(typef.Buffer))
}, a)
const _address = lazy.value(function () {
const result = bech32.decode(a.address)
const version = result.words.shift()
const data = bech32.fromWords(result.words)
address: typef.maybe(typef.String),
hash: typef.maybe(typef.BufferN(32)),
output: typef.maybe(typef.BufferN(34)),
redeem: typef.maybe({
input: typef.maybe(typef.Buffer),
network: typef.maybe(typef.Object),
output: typef.maybe(typef.Buffer),
witness: typef.maybe(typef.arrayOf(typef.Buffer)),
}),
input: typef.maybe(typef.BufferN(0)),
witness: typef.maybe(typef.arrayOf(typef.Buffer)),
},
a,
);
const _address = lazy.value(function() {
const result = bech32.decode(a.address);
const version = result.words.shift();
const data = bech32.fromWords(result.words);
return {
version,
prefix: result.prefix,
data: Buffer.from(data)
}
})
const _rchunks = <()=>Array<Buffer | number>>lazy.value(function () { return bscript.decompile(a.redeem!.input!) })
data: Buffer.from(data),
};
});
const _rchunks = <() => Array<Buffer | number>>lazy.value(function() {
return bscript.decompile(a.redeem!.input!);
});
let network = a.network
let network = a.network;
if (!network) {
network = (a.redeem && a.redeem.network) || BITCOIN_NETWORK
network = (a.redeem && a.redeem.network) || BITCOIN_NETWORK;
}
const o: Payment = { network }
const o: Payment = { network };
lazy.prop(o, 'address', function () {
if (!o.hash) return
const words = bech32.toWords(o.hash)
words.unshift(0x00)
return bech32.encode(network!.bech32, words)
})
lazy.prop(o, 'hash', function () {
if (a.output) return a.output.slice(2)
if (a.address) return _address().data
if (o.redeem && o.redeem.output) return bcrypto.sha256(o.redeem.output)
})
lazy.prop(o, 'output', function () {
if (!o.hash) return
return bscript.compile([
OPS.OP_0,
o.hash
])
})
lazy.prop(o, 'redeem', function () {
if (!a.witness) return
lazy.prop(o, 'address', function() {
if (!o.hash) return;
const words = bech32.toWords(o.hash);
words.unshift(0x00);
return bech32.encode(network!.bech32, words);
});
lazy.prop(o, 'hash', function() {
if (a.output) return a.output.slice(2);
if (a.address) return _address().data;
if (o.redeem && o.redeem.output) return bcrypto.sha256(o.redeem.output);
});
lazy.prop(o, 'output', function() {
if (!o.hash) return;
return bscript.compile([OPS.OP_0, o.hash]);
});
lazy.prop(o, 'redeem', function() {
if (!a.witness) return;
return {
output: a.witness[a.witness.length - 1],
input: EMPTY_BUFFER,
witness: a.witness.slice(0, -1)
}
})
lazy.prop(o, 'input', function () {
if (!o.witness) return
return EMPTY_BUFFER
})
lazy.prop(o, 'witness', function () {
witness: a.witness.slice(0, -1),
};
});
lazy.prop(o, 'input', function() {
if (!o.witness) return;
return EMPTY_BUFFER;
});
lazy.prop(o, 'witness', function() {
// transform redeem input to witness stack?
if (
a.redeem &&
@ -106,47 +103,55 @@ export function p2wsh (a: Payment, opts?: PaymentOpts): Payment {
a.redeem.output &&
a.redeem.output.length > 0
) {
const stack = bscript.toStack(_rchunks())
const stack = bscript.toStack(_rchunks());
// assign, and blank the existing input
o.redeem = Object.assign({ witness: stack }, a.redeem)
o.redeem.input = EMPTY_BUFFER
return (<Array<Buffer>>[]).concat(stack, a.redeem.output)
o.redeem = Object.assign({ witness: stack }, a.redeem);
o.redeem.input = EMPTY_BUFFER;
return (<Array<Buffer>>[]).concat(stack, a.redeem.output);
}
if (!a.redeem) return
if (!a.redeem.output) return
if (!a.redeem.witness) return
return (<Array<Buffer>>[]).concat(a.redeem.witness, a.redeem.output)
})
if (!a.redeem) return;
if (!a.redeem.output) return;
if (!a.redeem.witness) return;
return (<Array<Buffer>>[]).concat(a.redeem.witness, a.redeem.output);
});
// extended validation
if (opts.validate) {
let hash: Buffer = Buffer.from([])
let hash: Buffer = Buffer.from([]);
if (a.address) {
if (_address().prefix !== network.bech32) throw new TypeError('Invalid prefix or Network mismatch')
if (_address().version !== 0x00) throw new TypeError('Invalid address version')
if (_address().data.length !== 32) throw new TypeError('Invalid address data')
hash = _address().data
if (_address().prefix !== network.bech32)
throw new TypeError('Invalid prefix or Network mismatch');
if (_address().version !== 0x00)
throw new TypeError('Invalid address version');
if (_address().data.length !== 32)
throw new TypeError('Invalid address data');
hash = _address().data;
}
if (a.hash) {
if (hash.length > 0 && !hash.equals(a.hash)) throw new TypeError('Hash mismatch')
else hash = a.hash
if (hash.length > 0 && !hash.equals(a.hash))
throw new TypeError('Hash mismatch');
else hash = a.hash;
}
if (a.output) {
if (
a.output.length !== 34 ||
a.output[0] !== OPS.OP_0 ||
a.output[1] !== 0x20) throw new TypeError('Output is invalid')
const hash2 = a.output.slice(2)
if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch')
else hash = hash2
a.output[1] !== 0x20
)
throw new TypeError('Output is invalid');
const hash2 = a.output.slice(2);
if (hash.length > 0 && !hash.equals(hash2))
throw new TypeError('Hash mismatch');
else hash = hash2;
}
if (a.redeem) {
if (a.redeem.network && a.redeem.network !== network) throw new TypeError('Network mismatch')
if (a.redeem.network && a.redeem.network !== network)
throw new TypeError('Network mismatch');
// is there two redeem sources?
if (
@ -154,26 +159,40 @@ export function p2wsh (a: Payment, opts?: PaymentOpts): Payment {
a.redeem.input.length > 0 &&
a.redeem.witness &&
a.redeem.witness.length > 0
) throw new TypeError('Ambiguous witness source')
)
throw new TypeError('Ambiguous witness source');
// is the redeem output non-empty?
if (a.redeem.output) {
if (bscript.decompile(a.redeem.output)!.length === 0) throw new TypeError('Redeem.output is invalid')
if (bscript.decompile(a.redeem.output)!.length === 0)
throw new TypeError('Redeem.output is invalid');
// match hash against other sources
const hash2 = bcrypto.sha256(a.redeem.output)
if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch')
else hash = hash2
const hash2 = bcrypto.sha256(a.redeem.output);
if (hash.length > 0 && !hash.equals(hash2))
throw new TypeError('Hash mismatch');
else hash = hash2;
}
if (a.redeem.input && !bscript.isPushOnly(_rchunks())) throw new TypeError('Non push-only scriptSig')
if (a.witness && a.redeem.witness && !stacksEqual(a.witness, a.redeem.witness)) throw new TypeError('Witness and redeem.witness mismatch')
if (a.redeem.input && !bscript.isPushOnly(_rchunks()))
throw new TypeError('Non push-only scriptSig');
if (
a.witness &&
a.redeem.witness &&
!stacksEqual(a.witness, a.redeem.witness)
)
throw new TypeError('Witness and redeem.witness mismatch');
}
if (a.witness) {
if (a.redeem && a.redeem.output && !a.redeem.output.equals(a.witness[a.witness.length - 1])) throw new TypeError('Witness and redeem.output mismatch')
if (
a.redeem &&
a.redeem.output &&
!a.redeem.output.equals(a.witness[a.witness.length - 1])
)
throw new TypeError('Witness and redeem.output mismatch');
}
}
return Object.assign(o, a)
return Object.assign(o, a);
}

View file

@ -1,206 +1,218 @@
import * as types from './types'
import * as scriptNumber from './script_number'
import * as scriptSignature from './script_signature'
const bip66 = require('bip66')
const ecc = require('tiny-secp256k1')
const pushdata = require('pushdata-bitcoin')
const typeforce = require('typeforce')
import * as types from './types';
import * as scriptNumber from './script_number';
import * as scriptSignature from './script_signature';
const bip66 = require('bip66');
const ecc = require('tiny-secp256k1');
const pushdata = require('pushdata-bitcoin');
const typeforce = require('typeforce');
export type OpCode = number
export const OPS = <{[index:string]: OpCode}> require('bitcoin-ops')
export type OpCode = number;
export const OPS = <{ [index: string]: OpCode }>require('bitcoin-ops');
const REVERSE_OPS = <{[index:number]: string}> require('bitcoin-ops/map')
const OP_INT_BASE = OPS.OP_RESERVED // OP_1 - 1
const REVERSE_OPS = <{ [index: number]: string }>require('bitcoin-ops/map');
const OP_INT_BASE = OPS.OP_RESERVED; // OP_1 - 1
function isOPInt (value:number): boolean {
return types.Number(value) &&
((value === OPS.OP_0) ||
(value >= OPS.OP_1 && value <= OPS.OP_16) ||
(value === OPS.OP_1NEGATE))
function isOPInt(value: number): boolean {
return (
types.Number(value) &&
(value === OPS.OP_0 ||
(value >= OPS.OP_1 && value <= OPS.OP_16) ||
value === OPS.OP_1NEGATE)
);
}
function isPushOnlyChunk (value: number | Buffer): boolean {
return types.Buffer(value) || isOPInt(<number>value)
function isPushOnlyChunk(value: number | Buffer): boolean {
return types.Buffer(value) || isOPInt(<number>value);
}
export function isPushOnly (value: Array<number | Buffer>) {
return types.Array(value) && value.every(isPushOnlyChunk)
export function isPushOnly(value: Array<number | Buffer>) {
return types.Array(value) && value.every(isPushOnlyChunk);
}
function asMinimalOP (buffer: Buffer): number | void {
if (buffer.length === 0) return OPS.OP_0
if (buffer.length !== 1) return
if (buffer[0] >= 1 && buffer[0] <= 16) return OP_INT_BASE + buffer[0]
if (buffer[0] === 0x81) return OPS.OP_1NEGATE
function asMinimalOP(buffer: Buffer): number | void {
if (buffer.length === 0) return OPS.OP_0;
if (buffer.length !== 1) return;
if (buffer[0] >= 1 && buffer[0] <= 16) return OP_INT_BASE + buffer[0];
if (buffer[0] === 0x81) return OPS.OP_1NEGATE;
}
function chunksIsBuffer(buf: Buffer | Array<number | Buffer>): buf is Buffer {
return Buffer.isBuffer(buf)
return Buffer.isBuffer(buf);
}
function chunksIsArray(buf: Buffer | Array<number | Buffer>): buf is Array<number | Buffer> {
return types.Array(buf)
function chunksIsArray(
buf: Buffer | Array<number | Buffer>,
): buf is Array<number | Buffer> {
return types.Array(buf);
}
function singleChunkIsBuffer(buf: number | Buffer): buf is Buffer {
return Buffer.isBuffer(buf)
return Buffer.isBuffer(buf);
}
export function compile (chunks: Buffer | Array<number | Buffer>): Buffer {
export function compile(chunks: Buffer | Array<number | Buffer>): Buffer {
// TODO: remove me
if (chunksIsBuffer(chunks)) return chunks
if (chunksIsBuffer(chunks)) return chunks;
typeforce(types.Array, chunks)
typeforce(types.Array, chunks);
const bufferSize = chunks.reduce(function (accum: number, chunk) {
const bufferSize = chunks.reduce(function(accum: number, chunk) {
// data chunk
if (singleChunkIsBuffer(chunk)) {
// adhere to BIP62.3, minimal push policy
if (chunk.length === 1 && asMinimalOP(chunk) !== undefined) {
return accum + 1
return accum + 1;
}
return accum + pushdata.encodingLength(chunk.length) + chunk.length
return accum + pushdata.encodingLength(chunk.length) + chunk.length;
}
// opcode
return accum + 1
}, 0.0)
return accum + 1;
}, 0.0);
const buffer = Buffer.allocUnsafe(bufferSize)
let offset = 0
const buffer = Buffer.allocUnsafe(bufferSize);
let offset = 0;
chunks.forEach(function (chunk) {
chunks.forEach(function(chunk) {
// data chunk
if (singleChunkIsBuffer(chunk)) {
// adhere to BIP62.3, minimal push policy
const opcode = asMinimalOP(chunk)
const opcode = asMinimalOP(chunk);
if (opcode !== undefined) {
buffer.writeUInt8(opcode, offset)
offset += 1
return
buffer.writeUInt8(opcode, offset);
offset += 1;
return;
}
offset += pushdata.encode(buffer, chunk.length, offset)
chunk.copy(buffer, offset)
offset += chunk.length
offset += pushdata.encode(buffer, chunk.length, offset);
chunk.copy(buffer, offset);
offset += chunk.length;
// opcode
// opcode
} else {
buffer.writeUInt8(chunk, offset)
offset += 1
buffer.writeUInt8(chunk, offset);
offset += 1;
}
})
});
if (offset !== buffer.length) throw new Error('Could not decode chunks')
return buffer
if (offset !== buffer.length) throw new Error('Could not decode chunks');
return buffer;
}
export function decompile (buffer: Buffer | Array<number | Buffer>): Array<number | Buffer> | null {
export function decompile(
buffer: Buffer | Array<number | Buffer>,
): Array<number | Buffer> | null {
// TODO: remove me
if (chunksIsArray(buffer)) return buffer
if (chunksIsArray(buffer)) return buffer;
typeforce(types.Buffer, buffer)
typeforce(types.Buffer, buffer);
const chunks: Array<number | Buffer> = []
let i = 0
const chunks: Array<number | Buffer> = [];
let i = 0;
while (i < buffer.length) {
const opcode = buffer[i]
const opcode = buffer[i];
// data chunk
if ((opcode > OPS.OP_0) && (opcode <= OPS.OP_PUSHDATA4)) {
const d = pushdata.decode(buffer, i)
if (opcode > OPS.OP_0 && opcode <= OPS.OP_PUSHDATA4) {
const d = pushdata.decode(buffer, i);
// did reading a pushDataInt fail?
if (d === null) return null
i += d.size
if (d === null) return null;
i += d.size;
// attempt to read too much data?
if (i + d.number > buffer.length) return null
if (i + d.number > buffer.length) return null;
const data = buffer.slice(i, i + d.number)
i += d.number
const data = buffer.slice(i, i + d.number);
i += d.number;
// decompile minimally
const op = asMinimalOP(data)
const op = asMinimalOP(data);
if (op !== undefined) {
chunks.push(op)
chunks.push(op);
} else {
chunks.push(data)
chunks.push(data);
}
// opcode
// opcode
} else {
chunks.push(opcode)
chunks.push(opcode);
i += 1
i += 1;
}
}
return chunks;
}
export function toASM(chunks: Buffer | Array<number | Buffer>): string {
if (chunksIsBuffer(chunks)) {
chunks = <Array<number | Buffer>>decompile(chunks);
}
return chunks
.map(function(chunk) {
// data?
if (singleChunkIsBuffer(chunk)) {
const op = asMinimalOP(chunk);
if (op === undefined) return chunk.toString('hex');
chunk = <number>op;
}
// opcode!
return REVERSE_OPS[chunk];
})
.join(' ');
}
export function toASM (chunks: Buffer | Array<number | Buffer>): string {
if (chunksIsBuffer(chunks)) {
chunks = <Array<number | Buffer>>decompile(chunks)
}
export function fromASM(asm: string): Buffer {
typeforce(types.String, asm);
return chunks.map(function (chunk) {
// data?
if (singleChunkIsBuffer(chunk)) {
const op = asMinimalOP(chunk)
if (op === undefined) return chunk.toString('hex')
chunk = <number>op
}
return compile(
asm.split(' ').map(function(chunkStr) {
// opcode?
if (OPS[chunkStr] !== undefined) return OPS[chunkStr];
typeforce(types.Hex, chunkStr);
// opcode!
return REVERSE_OPS[chunk]
}).join(' ')
// data!
return Buffer.from(chunkStr, 'hex');
}),
);
}
export function fromASM (asm: string): Buffer {
typeforce(types.String, asm)
export function toStack(
chunks: Buffer | Array<number | Buffer>,
): Array<Buffer> {
chunks = <Array<number | Buffer>>decompile(chunks);
typeforce(isPushOnly, chunks);
return compile(asm.split(' ').map(function (chunkStr) {
// opcode?
if (OPS[chunkStr] !== undefined) return OPS[chunkStr]
typeforce(types.Hex, chunkStr)
return chunks.map(function(op) {
if (singleChunkIsBuffer(op)) return op;
if (op === OPS.OP_0) return Buffer.allocUnsafe(0);
// data!
return Buffer.from(chunkStr, 'hex')
}))
return scriptNumber.encode(op - OP_INT_BASE);
});
}
export function toStack (chunks: Buffer | Array<number | Buffer>): Array<Buffer> {
chunks = <Array<number | Buffer>>decompile(chunks)
typeforce(isPushOnly, chunks)
return chunks.map(function (op) {
if (singleChunkIsBuffer(op)) return op
if (op === OPS.OP_0) return Buffer.allocUnsafe(0)
return scriptNumber.encode(op - OP_INT_BASE)
})
export function isCanonicalPubKey(buffer: Buffer): boolean {
return ecc.isPoint(buffer);
}
export function isCanonicalPubKey (buffer: Buffer): boolean {
return ecc.isPoint(buffer)
}
export function isDefinedHashType (hashType: number): boolean {
const hashTypeMod = hashType & ~0x80
export function isDefinedHashType(hashType: number): boolean {
const hashTypeMod = hashType & ~0x80;
// return hashTypeMod > SIGHASH_ALL && hashTypeMod < SIGHASH_SINGLE
return hashTypeMod > 0x00 && hashTypeMod < 0x04
return hashTypeMod > 0x00 && hashTypeMod < 0x04;
}
export function isCanonicalScriptSignature (buffer: Buffer): boolean {
if (!Buffer.isBuffer(buffer)) return false
if (!isDefinedHashType(buffer[buffer.length - 1])) return false
export function isCanonicalScriptSignature(buffer: Buffer): boolean {
if (!Buffer.isBuffer(buffer)) return false;
if (!isDefinedHashType(buffer[buffer.length - 1])) return false;
return bip66.check(buffer.slice(0, -1))
return bip66.check(buffer.slice(0, -1));
}
export const number = scriptNumber
export const signature = scriptSignature
export const number = scriptNumber;
export const signature = scriptSignature;

View file

@ -1,62 +1,71 @@
export function decode(
buffer: Buffer,
maxLength?: number,
minimal?: boolean,
): number {
maxLength = maxLength || 4;
minimal = minimal === undefined ? true : minimal;
export function decode (buffer: Buffer, maxLength?: number, minimal?: boolean): number {
maxLength = maxLength || 4
minimal = minimal === undefined ? true : minimal
const length = buffer.length
if (length === 0) return 0
if (length > maxLength) throw new TypeError('Script number overflow')
const length = buffer.length;
if (length === 0) return 0;
if (length > maxLength) throw new TypeError('Script number overflow');
if (minimal) {
if ((buffer[length - 1] & 0x7f) === 0) {
if (length <= 1 || (buffer[length - 2] & 0x80) === 0) throw new Error('Non-minimally encoded script number')
if (length <= 1 || (buffer[length - 2] & 0x80) === 0)
throw new Error('Non-minimally encoded script number');
}
}
// 40-bit
if (length === 5) {
const a = buffer.readUInt32LE(0)
const b = buffer.readUInt8(4)
const a = buffer.readUInt32LE(0);
const b = buffer.readUInt8(4);
if (b & 0x80) return -(((b & ~0x80) * 0x100000000) + a)
return (b * 0x100000000) + a
if (b & 0x80) return -((b & ~0x80) * 0x100000000 + a);
return b * 0x100000000 + a;
}
// 32-bit / 24-bit / 16-bit / 8-bit
let result = 0
let result = 0;
for (var i = 0; i < length; ++i) {
result |= buffer[i] << (8 * i)
result |= buffer[i] << (8 * i);
}
if (buffer[length - 1] & 0x80) return -(result & ~(0x80 << (8 * (length - 1))))
return result
if (buffer[length - 1] & 0x80)
return -(result & ~(0x80 << (8 * (length - 1))));
return result;
}
function scriptNumSize (i: number): number {
return i > 0x7fffffff ? 5
: i > 0x7fffff ? 4
: i > 0x7fff ? 3
: i > 0x7f ? 2
: i > 0x00 ? 1
: 0
function scriptNumSize(i: number): number {
return i > 0x7fffffff
? 5
: i > 0x7fffff
? 4
: i > 0x7fff
? 3
: i > 0x7f
? 2
: i > 0x00
? 1
: 0;
}
export function encode (number: number): Buffer {
let value = Math.abs(number)
const size = scriptNumSize(value)
const buffer = Buffer.allocUnsafe(size)
const negative = number < 0
export function encode(number: number): Buffer {
let value = Math.abs(number);
const size = scriptNumSize(value);
const buffer = Buffer.allocUnsafe(size);
const negative = number < 0;
for (var i = 0; i < size; ++i) {
buffer.writeUInt8(value & 0xff, i)
value >>= 8
buffer.writeUInt8(value & 0xff, i);
value >>= 8;
}
if (buffer[size - 1] & 0x80) {
buffer.writeUInt8(negative ? 0x80 : 0x00, size - 1)
buffer.writeUInt8(negative ? 0x80 : 0x00, size - 1);
} else if (negative) {
buffer[size - 1] |= 0x80
buffer[size - 1] |= 0x80;
}
return buffer
return buffer;
}

View file

@ -1,64 +1,66 @@
import * as types from './types'
const bip66 = require('bip66')
import * as types from './types';
const bip66 = require('bip66');
const typeforce = require('typeforce')
const typeforce = require('typeforce');
const ZERO = Buffer.alloc(1, 0)
function toDER (x: Buffer): Buffer {
let i = 0
while (x[i] === 0) ++i
if (i === x.length) return ZERO
x = x.slice(i)
if (x[0] & 0x80) return Buffer.concat([ZERO, x], 1 + x.length)
return x
const ZERO = Buffer.alloc(1, 0);
function toDER(x: Buffer): Buffer {
let i = 0;
while (x[i] === 0) ++i;
if (i === x.length) return ZERO;
x = x.slice(i);
if (x[0] & 0x80) return Buffer.concat([ZERO, x], 1 + x.length);
return x;
}
function fromDER (x: Buffer): Buffer {
if (x[0] === 0x00) x = x.slice(1)
const buffer = Buffer.alloc(32, 0)
const bstart = Math.max(0, 32 - x.length)
x.copy(buffer, bstart)
return buffer
function fromDER(x: Buffer): Buffer {
if (x[0] === 0x00) x = x.slice(1);
const buffer = Buffer.alloc(32, 0);
const bstart = Math.max(0, 32 - x.length);
x.copy(buffer, bstart);
return buffer;
}
interface ScriptSignature {
signature: Buffer
hashType: number
signature: Buffer;
hashType: number;
}
// BIP62: 1 byte hashType flag (only 0x01, 0x02, 0x03, 0x81, 0x82 and 0x83 are allowed)
export function decode (buffer: Buffer): ScriptSignature {
const hashType = buffer.readUInt8(buffer.length - 1)
const hashTypeMod = hashType & ~0x80
if (hashTypeMod <= 0 || hashTypeMod >= 4) throw new Error('Invalid hashType ' + hashType)
export function decode(buffer: Buffer): ScriptSignature {
const hashType = buffer.readUInt8(buffer.length - 1);
const hashTypeMod = hashType & ~0x80;
if (hashTypeMod <= 0 || hashTypeMod >= 4)
throw new Error('Invalid hashType ' + hashType);
const decode = bip66.decode(buffer.slice(0, -1))
const r = fromDER(decode.r)
const s = fromDER(decode.s)
const decode = bip66.decode(buffer.slice(0, -1));
const r = fromDER(decode.r);
const s = fromDER(decode.s);
return {
signature: Buffer.concat([r, s], 64),
hashType: hashType
}
hashType: hashType,
};
}
export function encode (signature: Buffer, hashType: number): Buffer {
typeforce({
signature: types.BufferN(64),
hashType: types.UInt8
}, { signature, hashType })
export function encode(signature: Buffer, hashType: number): Buffer {
typeforce(
{
signature: types.BufferN(64),
hashType: types.UInt8,
},
{ signature, hashType },
);
const hashTypeMod = hashType & ~0x80
if (hashTypeMod <= 0 || hashTypeMod >= 4) throw new Error('Invalid hashType ' + hashType)
const hashTypeMod = hashType & ~0x80;
if (hashTypeMod <= 0 || hashTypeMod >= 4)
throw new Error('Invalid hashType ' + hashType);
const hashTypeBuffer = Buffer.allocUnsafe(1)
hashTypeBuffer.writeUInt8(hashType, 0)
const hashTypeBuffer = Buffer.allocUnsafe(1);
hashTypeBuffer.writeUInt8(hashType, 0);
const r = toDER(signature.slice(0, 32))
const s = toDER(signature.slice(32, 64))
const r = toDER(signature.slice(0, 32));
const s = toDER(signature.slice(32, 64));
return Buffer.concat([
bip66.encode(r, s),
hashTypeBuffer
])
return Buffer.concat([bip66.encode(r, s), hashTypeBuffer]);
}

View file

@ -1,17 +1,16 @@
// OP_RETURN {data}
import * as bscript from '../script'
const OPS = bscript.OPS
import * as bscript from '../script';
const OPS = bscript.OPS;
export function check (script: Buffer | Array<number | Buffer>): boolean {
const buffer = bscript.compile(script)
export function check(script: Buffer | Array<number | Buffer>): boolean {
const buffer = bscript.compile(script);
return buffer.length > 1 &&
buffer[0] === OPS.OP_RETURN
return buffer.length > 1 && buffer[0] === OPS.OP_RETURN;
}
check.toJSON = function () { return 'null data output' }
check.toJSON = function() {
return 'null data output';
};
const output = { check }
const output = { check };
export {
output
}
export { output };

View file

@ -1,282 +1,311 @@
import * as bcrypto from './crypto'
import * as bscript from './script'
import * as types from './types'
import * as bufferutils from './bufferutils'
import { reverseBuffer } from './bufferutils'
import { OPS as opcodes } from './script'
import * as bcrypto from './crypto';
import * as bscript from './script';
import * as types from './types';
import * as bufferutils from './bufferutils';
import { reverseBuffer } from './bufferutils';
import { OPS as opcodes } from './script';
const typeforce = require('typeforce')
const varuint = require('varuint-bitcoin')
const typeforce = require('typeforce');
const varuint = require('varuint-bitcoin');
function varSliceSize (someScript: Buffer): number {
const length = someScript.length
function varSliceSize(someScript: Buffer): number {
const length = someScript.length;
return varuint.encodingLength(length) + length
return varuint.encodingLength(length) + length;
}
function vectorSize (someVector: Array<Buffer>): number {
const length = someVector.length
function vectorSize(someVector: Array<Buffer>): number {
const length = someVector.length;
return varuint.encodingLength(length) + someVector.reduce((sum, witness) => {
return sum + varSliceSize(witness)
}, 0)
return (
varuint.encodingLength(length) +
someVector.reduce((sum, witness) => {
return sum + varSliceSize(witness);
}, 0)
);
}
const EMPTY_SCRIPT: Buffer = Buffer.allocUnsafe(0)
const EMPTY_WITNESS: Array<Buffer> = []
const ZERO: Buffer = Buffer.from('0000000000000000000000000000000000000000000000000000000000000000', 'hex')
const ONE: Buffer = Buffer.from('0000000000000000000000000000000000000000000000000000000000000001', 'hex')
const VALUE_UINT64_MAX: Buffer = Buffer.from('ffffffffffffffff', 'hex')
const EMPTY_SCRIPT: Buffer = Buffer.allocUnsafe(0);
const EMPTY_WITNESS: Array<Buffer> = [];
const ZERO: Buffer = Buffer.from(
'0000000000000000000000000000000000000000000000000000000000000000',
'hex',
);
const ONE: Buffer = Buffer.from(
'0000000000000000000000000000000000000000000000000000000000000001',
'hex',
);
const VALUE_UINT64_MAX: Buffer = Buffer.from('ffffffffffffffff', 'hex');
const BLANK_OUTPUT: BlankOutput = {
script: EMPTY_SCRIPT,
valueBuffer: VALUE_UINT64_MAX
}
valueBuffer: VALUE_UINT64_MAX,
};
function isOutput(out: Output | BlankOutput): out is Output {
return (<Output>out).value !== undefined
return (<Output>out).value !== undefined;
}
export type BlankOutput = {
script: Buffer
valueBuffer: Buffer
}
script: Buffer;
valueBuffer: Buffer;
};
export type Output = {
script: Buffer
value: number
}
script: Buffer;
value: number;
};
export type Input = {
hash: Buffer
index: number
script: Buffer
sequence: number
witness: Array<Buffer>
}
hash: Buffer;
index: number;
script: Buffer;
sequence: number;
witness: Array<Buffer>;
};
export class Transaction {
version: number
locktime: number
ins: Array<Input>
outs: Array<Output | BlankOutput>
version: number;
locktime: number;
ins: Array<Input>;
outs: Array<Output | BlankOutput>;
static readonly DEFAULT_SEQUENCE = 0xffffffff
static readonly SIGHASH_ALL = 0x01
static readonly SIGHASH_NONE = 0x02
static readonly SIGHASH_SINGLE = 0x03
static readonly SIGHASH_ANYONECANPAY = 0x80
static readonly ADVANCED_TRANSACTION_MARKER = 0x00
static readonly ADVANCED_TRANSACTION_FLAG = 0x01
static readonly DEFAULT_SEQUENCE = 0xffffffff;
static readonly SIGHASH_ALL = 0x01;
static readonly SIGHASH_NONE = 0x02;
static readonly SIGHASH_SINGLE = 0x03;
static readonly SIGHASH_ANYONECANPAY = 0x80;
static readonly ADVANCED_TRANSACTION_MARKER = 0x00;
static readonly ADVANCED_TRANSACTION_FLAG = 0x01;
constructor () {
this.version = 1
this.locktime = 0
this.ins = []
this.outs = []
constructor() {
this.version = 1;
this.locktime = 0;
this.ins = [];
this.outs = [];
}
static fromBuffer (buffer: Buffer, __noStrict?: boolean): Transaction {
let offset: number = 0
static fromBuffer(buffer: Buffer, __noStrict?: boolean): Transaction {
let offset: number = 0;
function readSlice (n: number): Buffer {
offset += n
return buffer.slice(offset - n, offset)
function readSlice(n: number): Buffer {
offset += n;
return buffer.slice(offset - n, offset);
}
function readUInt32 (): number {
const i = buffer.readUInt32LE(offset)
offset += 4
return i
function readUInt32(): number {
const i = buffer.readUInt32LE(offset);
offset += 4;
return i;
}
function readInt32 (): number {
const i = buffer.readInt32LE(offset)
offset += 4
return i
function readInt32(): number {
const i = buffer.readInt32LE(offset);
offset += 4;
return i;
}
function readUInt64 (): number {
const i = bufferutils.readUInt64LE(buffer, offset)
offset += 8
return i
function readUInt64(): number {
const i = bufferutils.readUInt64LE(buffer, offset);
offset += 8;
return i;
}
function readVarInt (): number {
const vi = varuint.decode(buffer, offset)
offset += varuint.decode.bytes
return vi
function readVarInt(): number {
const vi = varuint.decode(buffer, offset);
offset += varuint.decode.bytes;
return vi;
}
function readVarSlice (): Buffer {
return readSlice(readVarInt())
function readVarSlice(): Buffer {
return readSlice(readVarInt());
}
function readVector (): Array<Buffer> {
const count = readVarInt()
const vector: Array<Buffer> = []
for (var i = 0; i < count; i++) vector.push(readVarSlice())
return vector
function readVector(): Array<Buffer> {
const count = readVarInt();
const vector: Array<Buffer> = [];
for (var i = 0; i < count; i++) vector.push(readVarSlice());
return vector;
}
const tx = new Transaction()
tx.version = readInt32()
const tx = new Transaction();
tx.version = readInt32();
const marker = buffer.readUInt8(offset)
const flag = buffer.readUInt8(offset + 1)
const marker = buffer.readUInt8(offset);
const flag = buffer.readUInt8(offset + 1);
let hasWitnesses = false
if (marker === Transaction.ADVANCED_TRANSACTION_MARKER &&
flag === Transaction.ADVANCED_TRANSACTION_FLAG) {
offset += 2
hasWitnesses = true
let hasWitnesses = false;
if (
marker === Transaction.ADVANCED_TRANSACTION_MARKER &&
flag === Transaction.ADVANCED_TRANSACTION_FLAG
) {
offset += 2;
hasWitnesses = true;
}
const vinLen = readVarInt()
const vinLen = readVarInt();
for (var i = 0; i < vinLen; ++i) {
tx.ins.push({
hash: readSlice(32),
index: readUInt32(),
script: readVarSlice(),
sequence: readUInt32(),
witness: EMPTY_WITNESS
})
witness: EMPTY_WITNESS,
});
}
const voutLen = readVarInt()
const voutLen = readVarInt();
for (i = 0; i < voutLen; ++i) {
tx.outs.push({
value: readUInt64(),
script: readVarSlice()
})
script: readVarSlice(),
});
}
if (hasWitnesses) {
for (i = 0; i < vinLen; ++i) {
tx.ins[i].witness = readVector()
tx.ins[i].witness = readVector();
}
// was this pointless?
if (!tx.hasWitnesses()) throw new Error('Transaction has superfluous witness data')
if (!tx.hasWitnesses())
throw new Error('Transaction has superfluous witness data');
}
tx.locktime = readUInt32()
tx.locktime = readUInt32();
if (__noStrict) return tx
if (offset !== buffer.length) throw new Error('Transaction has unexpected data')
if (__noStrict) return tx;
if (offset !== buffer.length)
throw new Error('Transaction has unexpected data');
return tx
return tx;
}
static fromHex (hex: string): Transaction {
return Transaction.fromBuffer(Buffer.from(hex, 'hex'), false)
static fromHex(hex: string): Transaction {
return Transaction.fromBuffer(Buffer.from(hex, 'hex'), false);
}
static isCoinbaseHash (buffer: Buffer): boolean {
typeforce(types.Hash256bit, buffer)
static isCoinbaseHash(buffer: Buffer): boolean {
typeforce(types.Hash256bit, buffer);
for (var i = 0; i < 32; ++i) {
if (buffer[i] !== 0) return false
if (buffer[i] !== 0) return false;
}
return true
return true;
}
isCoinbase (): boolean {
return this.ins.length === 1 && Transaction.isCoinbaseHash(this.ins[0].hash)
isCoinbase(): boolean {
return (
this.ins.length === 1 && Transaction.isCoinbaseHash(this.ins[0].hash)
);
}
addInput (hash: Buffer, index: number, sequence?: number, scriptSig?: Buffer): number {
typeforce(types.tuple(
types.Hash256bit,
types.UInt32,
types.maybe(types.UInt32),
types.maybe(types.Buffer)
), arguments)
addInput(
hash: Buffer,
index: number,
sequence?: number,
scriptSig?: Buffer,
): number {
typeforce(
types.tuple(
types.Hash256bit,
types.UInt32,
types.maybe(types.UInt32),
types.maybe(types.Buffer),
),
arguments,
);
if (types.Null(sequence)) {
sequence = Transaction.DEFAULT_SEQUENCE
sequence = Transaction.DEFAULT_SEQUENCE;
}
// Add the input and return the input's index
return (this.ins.push({
hash: hash,
index: index,
script: scriptSig || EMPTY_SCRIPT,
sequence: <number>sequence,
witness: EMPTY_WITNESS
}) - 1)
return (
this.ins.push({
hash: hash,
index: index,
script: scriptSig || EMPTY_SCRIPT,
sequence: <number>sequence,
witness: EMPTY_WITNESS,
}) - 1
);
}
addOutput (scriptPubKey: Buffer, value: number): number {
typeforce(types.tuple(types.Buffer, types.Satoshi), arguments)
addOutput(scriptPubKey: Buffer, value: number): number {
typeforce(types.tuple(types.Buffer, types.Satoshi), arguments);
// Add the output and return the output's index
return (this.outs.push({
script: scriptPubKey,
value: value
}) - 1)
return (
this.outs.push({
script: scriptPubKey,
value: value,
}) - 1
);
}
hasWitnesses (): boolean {
return this.ins.some((x) => {
return x.witness.length !== 0
})
hasWitnesses(): boolean {
return this.ins.some(x => {
return x.witness.length !== 0;
});
}
weight (): number {
const base = this.__byteLength(false)
const total = this.__byteLength(true)
return base * 3 + total
weight(): number {
const base = this.__byteLength(false);
const total = this.__byteLength(true);
return base * 3 + total;
}
virtualSize (): number {
return Math.ceil(this.weight() / 4)
virtualSize(): number {
return Math.ceil(this.weight() / 4);
}
byteLength (): number {
return this.__byteLength(true)
byteLength(): number {
return this.__byteLength(true);
}
private __byteLength (__allowWitness: boolean): number {
const hasWitnesses = __allowWitness && this.hasWitnesses()
private __byteLength(__allowWitness: boolean): number {
const hasWitnesses = __allowWitness && this.hasWitnesses();
return (
(hasWitnesses ? 10 : 8) +
varuint.encodingLength(this.ins.length) +
varuint.encodingLength(this.outs.length) +
this.ins.reduce((sum, input) => {
return sum + 40 + varSliceSize(input.script)
return sum + 40 + varSliceSize(input.script);
}, 0) +
this.outs.reduce((sum, output) => {
return sum + 8 + varSliceSize(output.script)
return sum + 8 + varSliceSize(output.script);
}, 0) +
(hasWitnesses ? this.ins.reduce((sum, input) => {
return sum + vectorSize(input.witness)
}, 0) : 0)
)
(hasWitnesses
? this.ins.reduce((sum, input) => {
return sum + vectorSize(input.witness);
}, 0)
: 0)
);
}
clone (): Transaction {
const newTx = new Transaction()
newTx.version = this.version
newTx.locktime = this.locktime
clone(): Transaction {
const newTx = new Transaction();
newTx.version = this.version;
newTx.locktime = this.locktime;
newTx.ins = this.ins.map((txIn) => {
newTx.ins = this.ins.map(txIn => {
return {
hash: txIn.hash,
index: txIn.index,
script: txIn.script,
sequence: txIn.sequence,
witness: txIn.witness
}
})
witness: txIn.witness,
};
});
newTx.outs = this.outs.map((txOut) => {
newTx.outs = this.outs.map(txOut => {
return {
script: txOut.script,
value: (<Output>txOut).value
}
})
value: (<Output>txOut).value,
};
});
return newTx
return newTx;
}
/**
@ -287,284 +316,313 @@ export class Transaction {
* hashType, and then hashes the result.
* This hash can then be used to sign the provided transaction input.
*/
hashForSignature (inIndex: number, prevOutScript: Buffer, hashType: number): Buffer {
typeforce(types.tuple(types.UInt32, types.Buffer, /* types.UInt8 */ types.Number), arguments)
hashForSignature(
inIndex: number,
prevOutScript: Buffer,
hashType: number,
): Buffer {
typeforce(
types.tuple(types.UInt32, types.Buffer, /* types.UInt8 */ types.Number),
arguments,
);
// https://github.com/bitcoin/bitcoin/blob/master/src/test/sighash_tests.cpp#L29
if (inIndex >= this.ins.length) return ONE
if (inIndex >= this.ins.length) return ONE;
// ignore OP_CODESEPARATOR
const ourScript = bscript.compile(bscript.decompile(prevOutScript)!.filter((x) => {
return x !== opcodes.OP_CODESEPARATOR
}))
const ourScript = bscript.compile(
bscript.decompile(prevOutScript)!.filter(x => {
return x !== opcodes.OP_CODESEPARATOR;
}),
);
const txTmp = this.clone()
const txTmp = this.clone();
// SIGHASH_NONE: ignore all outputs? (wildcard payee)
if ((hashType & 0x1f) === Transaction.SIGHASH_NONE) {
txTmp.outs = []
txTmp.outs = [];
// ignore sequence numbers (except at inIndex)
txTmp.ins.forEach((input, i) => {
if (i === inIndex) return
if (i === inIndex) return;
input.sequence = 0
})
input.sequence = 0;
});
// SIGHASH_SINGLE: ignore all outputs, except at the same index?
} else if ((hashType & 0x1f) === Transaction.SIGHASH_SINGLE) {
// https://github.com/bitcoin/bitcoin/blob/master/src/test/sighash_tests.cpp#L60
if (inIndex >= this.outs.length) return ONE
if (inIndex >= this.outs.length) return ONE;
// truncate outputs after
txTmp.outs.length = inIndex + 1
txTmp.outs.length = inIndex + 1;
// "blank" outputs before
for (var i = 0; i < inIndex; i++) {
txTmp.outs[i] = BLANK_OUTPUT
txTmp.outs[i] = BLANK_OUTPUT;
}
// ignore sequence numbers (except at inIndex)
txTmp.ins.forEach((input, y) => {
if (y === inIndex) return
if (y === inIndex) return;
input.sequence = 0
})
input.sequence = 0;
});
}
// SIGHASH_ANYONECANPAY: ignore inputs entirely?
if (hashType & Transaction.SIGHASH_ANYONECANPAY) {
txTmp.ins = [txTmp.ins[inIndex]]
txTmp.ins[0].script = ourScript
txTmp.ins = [txTmp.ins[inIndex]];
txTmp.ins[0].script = ourScript;
// SIGHASH_ALL: only ignore input scripts
} else {
// "blank" others input scripts
txTmp.ins.forEach((input) => {
input.script = EMPTY_SCRIPT
})
txTmp.ins[inIndex].script = ourScript
txTmp.ins.forEach(input => {
input.script = EMPTY_SCRIPT;
});
txTmp.ins[inIndex].script = ourScript;
}
// serialize and hash
const buffer: Buffer = Buffer.allocUnsafe(txTmp.__byteLength(false) + 4)
buffer.writeInt32LE(hashType, buffer.length - 4)
txTmp.__toBuffer(buffer, 0, false)
const buffer: Buffer = Buffer.allocUnsafe(txTmp.__byteLength(false) + 4);
buffer.writeInt32LE(hashType, buffer.length - 4);
txTmp.__toBuffer(buffer, 0, false);
return bcrypto.hash256(buffer)
return bcrypto.hash256(buffer);
}
hashForWitnessV0 (inIndex: number, prevOutScript: Buffer, value: number, hashType: number): Buffer {
typeforce(types.tuple(types.UInt32, types.Buffer, types.Satoshi, types.UInt32), arguments)
hashForWitnessV0(
inIndex: number,
prevOutScript: Buffer,
value: number,
hashType: number,
): Buffer {
typeforce(
types.tuple(types.UInt32, types.Buffer, types.Satoshi, types.UInt32),
arguments,
);
let tbuffer: Buffer = Buffer.from([])
let toffset: number = 0
let tbuffer: Buffer = Buffer.from([]);
let toffset: number = 0;
function writeSlice (slice: Buffer): void {
toffset += slice.copy(tbuffer, toffset)
function writeSlice(slice: Buffer): void {
toffset += slice.copy(tbuffer, toffset);
}
function writeUInt32 (i: number): void {
toffset = tbuffer.writeUInt32LE(i, toffset)
function writeUInt32(i: number): void {
toffset = tbuffer.writeUInt32LE(i, toffset);
}
function writeUInt64 (i: number): void {
toffset = bufferutils.writeUInt64LE(tbuffer, i, toffset)
function writeUInt64(i: number): void {
toffset = bufferutils.writeUInt64LE(tbuffer, i, toffset);
}
function writeVarInt (i: number): void {
varuint.encode(i, tbuffer, toffset)
toffset += varuint.encode.bytes
function writeVarInt(i: number): void {
varuint.encode(i, tbuffer, toffset);
toffset += varuint.encode.bytes;
}
function writeVarSlice (slice: Buffer): void {
writeVarInt(slice.length)
writeSlice(slice)
function writeVarSlice(slice: Buffer): void {
writeVarInt(slice.length);
writeSlice(slice);
}
let hashOutputs = ZERO
let hashPrevouts = ZERO
let hashSequence = ZERO
let hashOutputs = ZERO;
let hashPrevouts = ZERO;
let hashSequence = ZERO;
if (!(hashType & Transaction.SIGHASH_ANYONECANPAY)) {
tbuffer = Buffer.allocUnsafe(36 * this.ins.length)
toffset = 0
tbuffer = Buffer.allocUnsafe(36 * this.ins.length);
toffset = 0;
this.ins.forEach((txIn) => {
writeSlice(txIn.hash)
writeUInt32(txIn.index)
})
this.ins.forEach(txIn => {
writeSlice(txIn.hash);
writeUInt32(txIn.index);
});
hashPrevouts = bcrypto.hash256(tbuffer)
hashPrevouts = bcrypto.hash256(tbuffer);
}
if (!(hashType & Transaction.SIGHASH_ANYONECANPAY) &&
if (
!(hashType & Transaction.SIGHASH_ANYONECANPAY) &&
(hashType & 0x1f) !== Transaction.SIGHASH_SINGLE &&
(hashType & 0x1f) !== Transaction.SIGHASH_NONE) {
tbuffer = Buffer.allocUnsafe(4 * this.ins.length)
toffset = 0
(hashType & 0x1f) !== Transaction.SIGHASH_NONE
) {
tbuffer = Buffer.allocUnsafe(4 * this.ins.length);
toffset = 0;
this.ins.forEach((txIn) => {
writeUInt32(txIn.sequence)
})
this.ins.forEach(txIn => {
writeUInt32(txIn.sequence);
});
hashSequence = bcrypto.hash256(tbuffer)
hashSequence = bcrypto.hash256(tbuffer);
}
if ((hashType & 0x1f) !== Transaction.SIGHASH_SINGLE &&
(hashType & 0x1f) !== Transaction.SIGHASH_NONE) {
if (
(hashType & 0x1f) !== Transaction.SIGHASH_SINGLE &&
(hashType & 0x1f) !== Transaction.SIGHASH_NONE
) {
const txOutsSize = this.outs.reduce((sum, output) => {
return sum + 8 + varSliceSize(output.script)
}, 0)
return sum + 8 + varSliceSize(output.script);
}, 0);
tbuffer = Buffer.allocUnsafe(txOutsSize)
toffset = 0
tbuffer = Buffer.allocUnsafe(txOutsSize);
toffset = 0;
this.outs.forEach((out) => {
writeUInt64((<Output>out).value)
writeVarSlice(out.script)
})
this.outs.forEach(out => {
writeUInt64((<Output>out).value);
writeVarSlice(out.script);
});
hashOutputs = bcrypto.hash256(tbuffer)
} else if ((hashType & 0x1f) === Transaction.SIGHASH_SINGLE && inIndex < this.outs.length) {
const output = this.outs[inIndex]
hashOutputs = bcrypto.hash256(tbuffer);
} else if (
(hashType & 0x1f) === Transaction.SIGHASH_SINGLE &&
inIndex < this.outs.length
) {
const output = this.outs[inIndex];
tbuffer = Buffer.allocUnsafe(8 + varSliceSize(output.script))
toffset = 0
writeUInt64((<Output>output).value)
writeVarSlice(output.script)
tbuffer = Buffer.allocUnsafe(8 + varSliceSize(output.script));
toffset = 0;
writeUInt64((<Output>output).value);
writeVarSlice(output.script);
hashOutputs = bcrypto.hash256(tbuffer)
hashOutputs = bcrypto.hash256(tbuffer);
}
tbuffer = Buffer.allocUnsafe(156 + varSliceSize(prevOutScript))
toffset = 0
tbuffer = Buffer.allocUnsafe(156 + varSliceSize(prevOutScript));
toffset = 0;
const input = this.ins[inIndex]
writeUInt32(this.version)
writeSlice(hashPrevouts)
writeSlice(hashSequence)
writeSlice(input.hash)
writeUInt32(input.index)
writeVarSlice(prevOutScript)
writeUInt64(value)
writeUInt32(input.sequence)
writeSlice(hashOutputs)
writeUInt32(this.locktime)
writeUInt32(hashType)
return bcrypto.hash256(tbuffer)
const input = this.ins[inIndex];
writeUInt32(this.version);
writeSlice(hashPrevouts);
writeSlice(hashSequence);
writeSlice(input.hash);
writeUInt32(input.index);
writeVarSlice(prevOutScript);
writeUInt64(value);
writeUInt32(input.sequence);
writeSlice(hashOutputs);
writeUInt32(this.locktime);
writeUInt32(hashType);
return bcrypto.hash256(tbuffer);
}
getHash (forWitness?: boolean): Buffer {
getHash(forWitness?: boolean): Buffer {
// wtxid for coinbase is always 32 bytes of 0x00
if (forWitness && this.isCoinbase()) return Buffer.alloc(32, 0)
return bcrypto.hash256(this.__toBuffer(undefined, undefined, forWitness))
if (forWitness && this.isCoinbase()) return Buffer.alloc(32, 0);
return bcrypto.hash256(this.__toBuffer(undefined, undefined, forWitness));
}
getId (): string {
getId(): string {
// transaction hash's are displayed in reverse order
return reverseBuffer(this.getHash(false)).toString('hex')
return reverseBuffer(this.getHash(false)).toString('hex');
}
toBuffer (buffer?: Buffer, initialOffset?: number): Buffer {
return this.__toBuffer(buffer, initialOffset, true)
toBuffer(buffer?: Buffer, initialOffset?: number): Buffer {
return this.__toBuffer(buffer, initialOffset, true);
}
private __toBuffer (buffer?: Buffer, initialOffset?: number, __allowWitness?: boolean): Buffer {
if (!buffer) buffer = <Buffer> Buffer.allocUnsafe(this.__byteLength(__allowWitness!))
private __toBuffer(
buffer?: Buffer,
initialOffset?: number,
__allowWitness?: boolean,
): Buffer {
if (!buffer)
buffer = <Buffer>Buffer.allocUnsafe(this.__byteLength(__allowWitness!));
let offset = initialOffset || 0
let offset = initialOffset || 0;
function writeSlice (slice: Buffer): void {
offset += slice.copy(buffer!, offset)
function writeSlice(slice: Buffer): void {
offset += slice.copy(buffer!, offset);
}
function writeUInt8 (i: number) {
offset = (buffer!).writeUInt8(i, offset)
function writeUInt8(i: number) {
offset = buffer!.writeUInt8(i, offset);
}
function writeUInt32 (i: number) {
offset = (buffer!).writeUInt32LE(i, offset)
function writeUInt32(i: number) {
offset = buffer!.writeUInt32LE(i, offset);
}
function writeInt32 (i: number) {
offset = (buffer!).writeInt32LE(i, offset)
function writeInt32(i: number) {
offset = buffer!.writeInt32LE(i, offset);
}
function writeUInt64 (i: number) {
offset = bufferutils.writeUInt64LE(buffer!, i, offset)
function writeUInt64(i: number) {
offset = bufferutils.writeUInt64LE(buffer!, i, offset);
}
function writeVarInt (i: number) {
varuint.encode(i, buffer, offset)
offset += varuint.encode.bytes
function writeVarInt(i: number) {
varuint.encode(i, buffer, offset);
offset += varuint.encode.bytes;
}
function writeVarSlice (slice: Buffer) {
writeVarInt(slice.length)
writeSlice(slice)
function writeVarSlice(slice: Buffer) {
writeVarInt(slice.length);
writeSlice(slice);
}
function writeVector (vector: Array<Buffer>) {
writeVarInt(vector.length)
vector.forEach(writeVarSlice)
function writeVector(vector: Array<Buffer>) {
writeVarInt(vector.length);
vector.forEach(writeVarSlice);
}
writeInt32(this.version)
writeInt32(this.version);
const hasWitnesses = __allowWitness && this.hasWitnesses()
const hasWitnesses = __allowWitness && this.hasWitnesses();
if (hasWitnesses) {
writeUInt8(Transaction.ADVANCED_TRANSACTION_MARKER)
writeUInt8(Transaction.ADVANCED_TRANSACTION_FLAG)
writeUInt8(Transaction.ADVANCED_TRANSACTION_MARKER);
writeUInt8(Transaction.ADVANCED_TRANSACTION_FLAG);
}
writeVarInt(this.ins.length)
writeVarInt(this.ins.length);
this.ins.forEach((txIn) => {
writeSlice(txIn.hash)
writeUInt32(txIn.index)
writeVarSlice(txIn.script)
writeUInt32(txIn.sequence)
})
this.ins.forEach(txIn => {
writeSlice(txIn.hash);
writeUInt32(txIn.index);
writeVarSlice(txIn.script);
writeUInt32(txIn.sequence);
});
writeVarInt(this.outs.length)
this.outs.forEach((txOut) => {
writeVarInt(this.outs.length);
this.outs.forEach(txOut => {
if (isOutput(txOut)) {
writeUInt64(txOut.value)
writeUInt64(txOut.value);
} else {
writeSlice(txOut.valueBuffer)
writeSlice(txOut.valueBuffer);
}
writeVarSlice(txOut.script)
})
writeVarSlice(txOut.script);
});
if (hasWitnesses) {
this.ins.forEach((input) => {
writeVector(input.witness)
})
this.ins.forEach(input => {
writeVector(input.witness);
});
}
writeUInt32(this.locktime)
writeUInt32(this.locktime);
// avoid slicing unless necessary
if (initialOffset !== undefined) return buffer.slice(initialOffset, offset)
return buffer
if (initialOffset !== undefined) return buffer.slice(initialOffset, offset);
return buffer;
}
toHex () {
return this.toBuffer(undefined, undefined).toString('hex')
toHex() {
return this.toBuffer(undefined, undefined).toString('hex');
}
setInputScript (index: number, scriptSig: Buffer) {
typeforce(types.tuple(types.Number, types.Buffer), arguments)
setInputScript(index: number, scriptSig: Buffer) {
typeforce(types.tuple(types.Number, types.Buffer), arguments);
this.ins[index].script = scriptSig
this.ins[index].script = scriptSig;
}
setWitness (index: number, witness: Array<Buffer>) {
typeforce(types.tuple(types.Number, [types.Buffer]), arguments)
setWitness(index: number, witness: Array<Buffer>) {
typeforce(types.tuple(types.Number, [types.Buffer]), arguments);
this.ins[index].witness = witness
this.ins[index].witness = witness;
}
}

File diff suppressed because it is too large Load diff

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@ -1,49 +1,51 @@
const typeforce = require('typeforce')
const typeforce = require('typeforce');
const UINT31_MAX: number = Math.pow(2, 31) - 1
export function UInt31 (value: number): boolean {
return typeforce.UInt32(value) && value <= UINT31_MAX
const UINT31_MAX: number = Math.pow(2, 31) - 1;
export function UInt31(value: number): boolean {
return typeforce.UInt32(value) && value <= UINT31_MAX;
}
export function BIP32Path (value: string): boolean {
return typeforce.String(value) && !!value.match(/^(m\/)?(\d+'?\/)*\d+'?$/)
export function BIP32Path(value: string): boolean {
return typeforce.String(value) && !!value.match(/^(m\/)?(\d+'?\/)*\d+'?$/);
}
BIP32Path.toJSON = function () { return 'BIP32 derivation path' }
BIP32Path.toJSON = function() {
return 'BIP32 derivation path';
};
const SATOSHI_MAX: number = 21 * 1e14
export function Satoshi (value: number): boolean {
return typeforce.UInt53(value) && value <= SATOSHI_MAX
const SATOSHI_MAX: number = 21 * 1e14;
export function Satoshi(value: number): boolean {
return typeforce.UInt53(value) && value <= SATOSHI_MAX;
}
// external dependent types
export const ECPoint = typeforce.quacksLike('Point')
export const ECPoint = typeforce.quacksLike('Point');
// exposed, external API
export const Network = typeforce.compile({
messagePrefix: typeforce.oneOf(typeforce.Buffer, typeforce.String),
bip32: {
public: typeforce.UInt32,
private: typeforce.UInt32
private: typeforce.UInt32,
},
pubKeyHash: typeforce.UInt8,
scriptHash: typeforce.UInt8,
wif: typeforce.UInt8
})
wif: typeforce.UInt8,
});
export const Buffer256bit = typeforce.BufferN(32)
export const Hash160bit = typeforce.BufferN(20)
export const Hash256bit = typeforce.BufferN(32)
export const Number = typeforce.Number
export const Array = typeforce.Array
export const Boolean = typeforce.Boolean
export const String = typeforce.String
export const Buffer = typeforce.Buffer
export const Hex = typeforce.Hex
export const maybe = typeforce.maybe
export const tuple = typeforce.tuple
export const UInt8 = typeforce.UInt8
export const UInt32 = typeforce.UInt32
export const Function = typeforce.Function
export const BufferN = typeforce.BufferN
export const Null = typeforce.Null
export const oneOf = typeforce.oneOf
export const Buffer256bit = typeforce.BufferN(32);
export const Hash160bit = typeforce.BufferN(20);
export const Hash256bit = typeforce.BufferN(32);
export const Number = typeforce.Number;
export const Array = typeforce.Array;
export const Boolean = typeforce.Boolean;
export const String = typeforce.String;
export const Buffer = typeforce.Buffer;
export const Hex = typeforce.Hex;
export const maybe = typeforce.maybe;
export const tuple = typeforce.tuple;
export const UInt8 = typeforce.UInt8;
export const UInt32 = typeforce.UInt32;
export const Function = typeforce.Function;
export const BufferN = typeforce.BufferN;
export const Null = typeforce.Null;
export const oneOf = typeforce.oneOf;