本文整理汇总了TypeScript中bitcoinjs-lib.payments类的典型用法代码示例。如果您正苦于以下问题:TypeScript payments类的具体用法?TypeScript payments怎么用?TypeScript payments使用的例子?那么, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了payments类的10个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的TypeScript代码示例。
示例1: makeRevokeSkeleton
export function makeRevokeSkeleton(fullyQualifiedName: string) {
// Returns a revoke tx skeleton
// with 1 output: 1. the Blockstack revoke OP_RETURN
//
// You MUST make the first input a UTXO from the current OWNER
//
// Returns an unsigned serialized transaction
/*
Format:
0 2 3 39
|----|--|-----------------------------|
magic op name.ns_id (37 bytes)
output 0: the revoke code
*/
const opRet = Buffer.alloc(3)
const nameBuff = Buffer.from(fullyQualifiedName, 'ascii')
opRet.write(opEncode('~'), 0, 3, 'ascii')
const opReturnBuffer = Buffer.concat([opRet, nameBuff])
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
return tx.buildIncomplete()
}
示例2: makeNameImportSkeleton
export function makeNameImportSkeleton(name: string, recipientAddr: string, zonefileHash: string) {
/*
Format:
0 2 3 39
|----|--|-----------------------------|
magic op name.ns_id (37 bytes)
Output 0: the OP_RETURN
Output 1: the recipient
Output 2: the zonefile hash
*/
if (zonefileHash.length !== 40) {
throw new Error('Invalid zonefile hash: must be 20 bytes hex-encoded')
}
const network = config.network
const opReturnBuffer = Buffer.alloc(3 + name.length)
opReturnBuffer.write(opEncode(';'), 0, 3, 'ascii')
opReturnBuffer.write(name, 3, name.length, 'ascii')
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
const zonefileHashB58 = bitcoin.address.toBase58Check(
Buffer.from(zonefileHash, 'hex'), network.layer1.pubKeyHash
)
tx.addOutput(nullOutput, 0)
tx.addOutput(recipientAddr, DUST_MINIMUM)
tx.addOutput(zonefileHashB58, DUST_MINIMUM)
return tx.buildIncomplete()
}
示例3: makeNamespaceRevealSkeleton
export function makeNamespaceRevealSkeleton(
namespace: BlockstackNamespace, revealAddress: string
) {
/*
Format:
0 2 3 7 8 9 10 11 12 13 14 15 16 17 18 20 39
|-----|---|----|-----|-----|----|----|----|----|----|-----|-----|-----|--------|-------|-------|
magic op life coeff. base 1-2 3-4 5-6 7-8 9-10 11-12 13-14 15-16 nonalpha version ns ID
bucket exponents no-vowel
discounts
output 0: namespace reveal code
output 1: reveal address
*/
const hexPayload = namespace.toHexPayload()
const opReturnBuffer = Buffer.alloc(3 + hexPayload.length / 2)
opReturnBuffer.write(opEncode('&'), 0, 3, 'ascii')
opReturnBuffer.write(hexPayload, 3, hexPayload.length / 2, 'hex')
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
tx.addOutput(revealAddress, DUST_MINIMUM)
return tx.buildIncomplete()
}
示例4: makeTokenTransferSkeleton
export function makeTokenTransferSkeleton(recipientAddress: string, consensusHash: string,
tokenType: string, tokenAmount: BN,
scratchArea: string
) {
/*
Format:
0 2 3 19 38 46 80
|-----|--|--------------|----------|-----------|-------------------------|
magic op consensus_hash token_type amount (BE) scratch area
(ns_id)
output 0: token transfer code
output 1: recipient address
*/
if (scratchArea.length > 34) {
throw new Error('Invalid scratch area: must be no more than 34 bytes')
}
const opReturnBuffer = Buffer.alloc(46 + scratchArea.length)
const tokenTypeHex = Buffer.from(tokenType).toString('hex')
const tokenTypeHexPadded = `00000000000000000000000000000000000000${tokenTypeHex}`.slice(-38)
const tokenValueHex = tokenAmount.toString(16, 2)
if (tokenValueHex.length > 16) {
// exceeds 2**64; can't fit
throw new Error(`Cannot send tokens: cannot fit ${tokenAmount.toString()} into 8 bytes`)
}
const tokenValueHexPadded = `0000000000000000${tokenValueHex}`.slice(-16)
opReturnBuffer.write(opEncode('$'), 0, 3, 'ascii')
opReturnBuffer.write(consensusHash, 3, consensusHash.length / 2, 'hex')
opReturnBuffer.write(tokenTypeHexPadded, 19, tokenTypeHexPadded.length / 2, 'hex')
opReturnBuffer.write(tokenValueHexPadded, 38, tokenValueHexPadded.length / 2, 'hex')
opReturnBuffer.write(scratchArea, 46, scratchArea.length, 'ascii')
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
tx.addOutput(recipientAddress, DUST_MINIMUM)
return tx.buildIncomplete()
}
示例5: makeTransferSkeleton
export function makeTransferSkeleton(
fullyQualifiedName: string, consensusHash: string, newOwner: string,
keepZonefile: boolean = false
) {
// Returns a transfer tx skeleton.
// with 2 outputs : 1. the Blockstack Transfer OP_RETURN data
// 2. the new owner with a DUST_MINIMUM value (5500 satoshi)
//
// You MUST make the first input a UTXO from the current OWNER
//
// Returns an unsigned serialized transaction.
/*
Format
0 2 3 4 20 36
|-----|--|----|-------------------|---------------|
magic op keep hash128(name.ns_id) consensus hash
data?
output 0: transfer code
output 1: new owner
*/
const opRet = Buffer.alloc(36)
let keepChar = '~'
if (keepZonefile) {
keepChar = '>'
}
opRet.write(opEncode('>'), 0, 3, 'ascii')
opRet.write(keepChar, 3, 1, 'ascii')
const hashed = hash128(Buffer.from(fullyQualifiedName, 'ascii'))
hashed.copy(opRet, 4)
opRet.write(consensusHash, 20, 16, 'hex')
const opRetPayload = bitcoin.payments.embed({ data: [opRet] }).output
const tx = makeTXbuilder()
tx.addOutput(opRetPayload, 0)
tx.addOutput(newOwner, DUST_MINIMUM)
return tx.buildIncomplete()
}
示例6: makeUpdateSkeleton
export function makeUpdateSkeleton(
fullyQualifiedName: string, consensusHash: string, valueHash: string
) {
// Returns an update tx skeleton.
// with 1 output : 1. the Blockstack update OP_RETURN
//
// You MUST make the first input a UTXO from the current OWNER
//
// Returns an unsigned serialized transaction.
//
// output 0: the revoke code
/*
Format:
0 2 3 19 39
|-----|--|-----------------------------------|-----------------------|
magic op hash128(name.ns_id,consensus hash) hash160(data)
output 0: update code
*/
const opRet = Buffer.alloc(39)
const nameBuff = Buffer.from(fullyQualifiedName, 'ascii')
const consensusBuff = Buffer.from(consensusHash, 'ascii')
const hashedName = hash128(Buffer.concat(
[nameBuff, consensusBuff]
))
opRet.write(opEncode('+'), 0, 3, 'ascii')
hashedName.copy(opRet, 3)
opRet.write(valueHash, 19, 20, 'hex')
const opRetPayload = bitcoin.payments.embed({ data: [opRet] }).output
const tx = makeTXbuilder()
tx.addOutput(opRetPayload, 0)
return tx.buildIncomplete()
}
示例7: makeNamespaceReadySkeleton
export function makeNamespaceReadySkeleton(namespaceID: string) {
/*
Format:
0 2 3 4 23
|-----|--|--|------------|
magic op . ns_id
output 0: namespace ready code
*/
const opReturnBuffer = Buffer.alloc(3 + namespaceID.length + 1)
opReturnBuffer.write(opEncode('!'), 0, 3, 'ascii')
opReturnBuffer.write(`.${namespaceID}`, 3, namespaceID.length + 1, 'ascii')
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
return tx.buildIncomplete()
}
示例8: makeAnnounceSkeleton
export function makeAnnounceSkeleton(messageHash: string) {
/*
Format:
0 2 3 23
|----|--|-----------------------------|
magic op message hash (160-bit)
output 0: the OP_RETURN
*/
if (messageHash.length !== 40) {
throw new Error('Invalid message hash: must be 20 bytes hex-encoded')
}
const opReturnBuffer = Buffer.alloc(3 + messageHash.length / 2)
opReturnBuffer.write(opEncode('#'), 0, 3, 'ascii')
opReturnBuffer.write(messageHash, 3, messageHash.length / 2, 'hex')
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
return tx.buildIncomplete()
}
示例9: getAddressFromBIP32Node
static getAddressFromBIP32Node(node: BIP32) {
return bitcoin.payments.p2pkh({ pubkey: node.publicKey }).address
}
示例10: makeNamespacePreorderSkeleton
export function makeNamespacePreorderSkeleton(
namespaceID: string, consensusHash: string, preorderAddress: string,
registerAddress: string, burn: AmountType
) {
// Returns a namespace preorder tx skeleton.
// Returns an unsigned serialized transaction.
/*
Formats:
Without STACKS:
0 2 3 23 39
|-----|---|--------------------------------------|----------------|
magic op hash(ns_id,script_pubkey,reveal_addr) consensus hash
with STACKs:
0 2 3 23 39 47
|-----|---|--------------------------------------|----------------|--------------------------|
magic op hash(ns_id,script_pubkey,reveal_addr) consensus hash token fee (big-endian)
output 0: namespace preorder code
output 1: change address
otuput 2: burn address
*/
const burnAmount = asAmountV2(burn)
if (burnAmount.units !== 'BTC' && burnAmount.units !== 'STACKS') {
throw new Error(`Invalid burnUnits ${burnAmount.units}`)
}
const network = config.network
const burnAddress = network.getDefaultBurnAddress()
const namespaceIDBuff = Buffer.from(decodeB40(namespaceID), 'hex') // base40
const scriptPublicKey = bitcoin.address.toOutputScript(preorderAddress, network.layer1)
const registerBuff = Buffer.from(registerAddress, 'ascii')
const dataBuffers = [namespaceIDBuff, scriptPublicKey, registerBuff]
const dataBuff = Buffer.concat(dataBuffers)
const hashed = hash160(dataBuff)
let btcBurnAmount = DUST_MINIMUM
let opReturnBufferLen = 39
if (burnAmount.units === 'STACKS') {
opReturnBufferLen = 47
} else {
btcBurnAmount = burnAmount.amount.toNumber()
}
const opReturnBuffer = Buffer.alloc(opReturnBufferLen)
opReturnBuffer.write(opEncode('*'), 0, 3, 'ascii')
hashed.copy(opReturnBuffer, 3)
opReturnBuffer.write(consensusHash, 23, 16, 'hex')
if (burnAmount.units === 'STACKS') {
const burnHex = burnAmount.amount.toString(16, 2)
const paddedBurnHex = `0000000000000000${burnHex}`.slice(-16)
opReturnBuffer.write(paddedBurnHex, 39, 8, 'hex')
}
const nullOutput = bitcoin.payments.embed({ data: [opReturnBuffer] }).output
const tx = makeTXbuilder()
tx.addOutput(nullOutput, 0)
tx.addOutput(preorderAddress, DUST_MINIMUM)
tx.addOutput(burnAddress, btcBurnAmount)
return tx.buildIncomplete()
}