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mirror of https://github.com/bigchaindb/js-bigchaindb-driver.git synced 2024-11-23 02:00:20 +01:00

Made class for Transaction file

This commit is contained in:
michielmulders 2017-11-02 21:03:15 +01:00
parent aba3c7d4bc
commit 61179c167b

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@ -6,251 +6,255 @@ import cc from 'five-bells-condition'
import ccJsonify from './utils/ccJsonify' import ccJsonify from './utils/ccJsonify'
import sha256Hash from './sha256Hash' import sha256Hash from './sha256Hash'
/** export default class Transaction {
* @public constructor() { }
* Canonically serializes a transaction into a string by sorting the keys
* @param {object} (transaction)
* @return {string} a canonically serialized Transaction
*/
export default function serializeTransactionIntoCanonicalString(transaction) {
// BigchainDB signs fulfillments by serializing transactions into a
// "canonical" format where
const tx = clone(transaction)
// TODO: set fulfillments to null
// Sort the keys
return stableStringify(tx, (a, b) => (a.key > b.key ? 1 : -1))
}
export default function makeInputTemplate(publicKeys = [], fulfills = null, fulfillment = null) { /**
return { * @public
fulfillment, * Canonically serializes a transaction into a string by sorting the keys
fulfills, * @param {object} (transaction)
'owners_before': publicKeys, * @return {string} a canonically serialized Transaction
} */
} serializeTransactionIntoCanonicalString(transaction) {
// BigchainDB signs fulfillments by serializing transactions into a
// "canonical" format where
const tx = clone(transaction)
// TODO: set fulfillments to null
// Sort the keys
return stableStringify(tx, (a, b) => (a.key > b.key ? 1 : -1))
}
export default function hashTransaction(transaction) { makeInputTemplate(publicKeys = [], fulfills = null, fulfillment = null) {
// Safely remove any tx id from the given transaction for hashing
const tx = { ...transaction }
delete tx.id
return sha256Hash(serializeTransactionIntoCanonicalString(tx))
}
function makeTransactionTemplate() {
return { return {
'id': null, fulfillment,
'operation': null, fulfills,
'outputs': [], 'owners_before': publicKeys,
'inputs': [],
'metadata': null,
'asset': null,
'version': '1.0',
} }
}
export default function makeTransaction(operation, asset, metadata = null, outputs = [], inputs = []) {
const tx = makeTransactionTemplate()
tx.operation = operation
tx.asset = asset
tx.metadata = metadata
tx.inputs = inputs
tx.outputs = outputs
// Hashing must be done after, as the hash is of the Transaction (up to now)
tx.id = hashTransaction(tx)
return tx
}
/**
* @public
* Generate a `CREATE` transaction holding the `asset`, `metadata`, and `outputs`, to be signed by
* the `issuers`.
* @param {object} asset Created asset's data
* @param {object} metadata Metadata for the Transaction
* @param {object[]} outputs Array of Output objects to add to the Transaction.
* Think of these as the recipients of the asset after the transaction.
* For `CREATE` Transactions, this should usually just be a list of
* Outputs wrapping Ed25519 Conditions generated from the issuers' public
* keys (so that the issuers are the recipients of the created asset).
* @param {...string[]} issuers Public key of one or more issuers to the asset being created by this
* Transaction.
* Note: Each of the private keys corresponding to the given public
* keys MUST be used later (and in the same order) when signing the
* Transaction (`signTransaction()`).
* @returns {object} Unsigned transaction -- make sure to call signTransaction() on it before
* sending it off!
*/
export default function makeCreateTransaction(asset, metadata, outputs, ...issuers) {
const assetDefinition = {
'data': asset || null,
}
const inputs = issuers.map((issuer) => makeInputTemplate([issuer]))
return makeTransaction('CREATE', assetDefinition, metadata, outputs, inputs)
}
/**
* @public
* Create an Ed25519 Cryptocondition from an Ed25519 public key to put into an Output of a Transaction
* @param {string} publicKey base58 encoded Ed25519 public key for the recipient of the Transaction
* @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type
* @returns {object} Ed25519 Condition (that will need to wrapped in an Output)
*/
export default function makeEd25519Condition(publicKey, json = true) {
const publicKeyBuffer = new Buffer(base58.decode(publicKey))
const ed25519Fulfillment = new cc.Ed25519Sha256()
ed25519Fulfillment.setPublicKey(publicKeyBuffer)
if (json) {
return ccJsonify(ed25519Fulfillment)
} }
return ed25519Fulfillment hashTransaction(transaction) {
} // Safely remove any tx id from the given transaction for hashing
const tx = { ...transaction }
delete tx.id
/** return sha256Hash(serializeTransactionIntoCanonicalString(tx))
* @public
* Create an Output from a Condition.
* Note: Assumes the given Condition was generated from a single public key (e.g. a Ed25519 Condition)
* @param {object} condition Condition (e.g. a Ed25519 Condition from `makeEd25519Condition()`)
* @param {string} amount Amount of the output
* @returns {object} An Output usable in a Transaction
*/
export default function makeOutput(condition, amount = '1') {
if (typeof amount !== 'string') {
throw new TypeError('`amount` must be of type string')
} }
const publicKeys = []
const getPublicKeys = details => { makeTransactionTemplate() {
if (details.type === 'ed25519-sha-256') { return {
if (!publicKeys.includes(details.public_key)) { 'id': null,
publicKeys.push(details.public_key) 'operation': null,
} 'outputs': [],
} else if (details.type === 'threshold-sha-256') { 'inputs': [],
details.subconditions.map(getPublicKeys) 'metadata': null,
'asset': null,
'version': '1.0',
} }
} }
getPublicKeys(condition.details)
return { makeTransaction(operation, asset, metadata = null, outputs = [], inputs = []) {
condition, const tx = makeTransactionTemplate()
'amount': amount, tx.operation = operation
'public_keys': publicKeys, tx.asset = asset
tx.metadata = metadata
tx.inputs = inputs
tx.outputs = outputs
// Hashing must be done after, as the hash is of the Transaction (up to now)
tx.id = hashTransaction(tx)
return tx
} }
}
/** /**
* @public * @public
* Create a Preimage-Sha256 Cryptocondition from a secret to put into an Output of a Transaction * Generate a `CREATE` transaction holding the `asset`, `metadata`, and `outputs`, to be signed by
* @param {string} preimage Preimage to be hashed and wrapped in a crypto-condition * the `issuers`.
* @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type * @param {object} asset Created asset's data
* @returns {object} Preimage-Sha256 Condition (that will need to wrapped in an Output) * @param {object} metadata Metadata for the Transaction
*/ * @param {object[]} outputs Array of Output objects to add to the Transaction.
export default function makeSha256Condition(preimage, json = true) { * Think of these as the recipients of the asset after the transaction.
const sha256Fulfillment = new cc.PreimageSha256() * For `CREATE` Transactions, this should usually just be a list of
sha256Fulfillment.preimage = new Buffer(preimage) * Outputs wrapping Ed25519 Conditions generated from the issuers' public
* keys (so that the issuers are the recipients of the created asset).
* @param {...string[]} issuers Public key of one or more issuers to the asset being created by this
* Transaction.
* Note: Each of the private keys corresponding to the given public
* keys MUST be used later (and in the same order) when signing the
* Transaction (`signTransaction()`).
* @returns {object} Unsigned transaction -- make sure to call signTransaction() on it before
* sending it off!
*/
makeCreateTransaction(asset, metadata, outputs, ...issuers) {
const assetDefinition = {
'data': asset || null,
}
const inputs = issuers.map((issuer) => makeInputTemplate([issuer]))
if (json) { return makeTransaction('CREATE', assetDefinition, metadata, outputs, inputs)
return ccJsonify(sha256Fulfillment)
} }
return sha256Fulfillment
}
/** /**
* @public * @public
* Create an Sha256 Threshold Cryptocondition from threshold to put into an Output of a Transaction * Create an Ed25519 Cryptocondition from an Ed25519 public key to put into an Output of a Transaction
* @param {number} threshold * @param {string} publicKey base58 encoded Ed25519 public key for the recipient of the Transaction
* @param {Array} [subconditions=[]] * @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type
* @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type * @returns {object} Ed25519 Condition (that will need to wrapped in an Output)
* @returns {object} Sha256 Threshold Condition (that will need to wrapped in an Output) */
*/ makeEd25519Condition(publicKey, json = true) {
export default function makeThresholdCondition(threshold, subconditions = [], json = true) { const publicKeyBuffer = new Buffer(base58.decode(publicKey))
const thresholdCondition = new cc.ThresholdSha256()
thresholdCondition.threshold = threshold
subconditions.forEach((subcondition) => {
// TODO: add support for Condition and URIs
thresholdCondition.addSubfulfillment(subcondition)
})
if (json) {
return ccJsonify(thresholdCondition)
}
return thresholdCondition
}
/**
* @public
* Generate a `TRANSFER` transaction holding the `asset`, `metadata`, and `outputs`, that fulfills
* the `fulfilledOutputs` of `unspentTransaction`.
* @param {object} unspentTransaction Previous Transaction you have control over (i.e. can fulfill
* its Output Condition)
* @param {object} metadata Metadata for the Transaction
* @param {object[]} outputs Array of Output objects to add to the Transaction.
* Think of these as the recipients of the asset after the transaction.
* For `TRANSFER` Transactions, this should usually just be a list of
* Outputs wrapping Ed25519 Conditions generated from the public keys of
* the recipients.
* @param {...number} OutputIndices Indices of the Outputs in `unspentTransaction` that this
* Transaction fulfills.
* Note that listed public keys listed must be used (and in
* the same order) to sign the Transaction
* (`signTransaction()`).
* @returns {object} Unsigned transaction -- make sure to call signTransaction() on it before
* sending it off!
*/
// TODO:
// - Make `metadata` optional argument
export default function makeTransferTransaction(
unspentTransaction,
metadata,
outputs,
...outputIndices
) {
const inputs = outputIndices.map((outputIndex) => {
const fulfilledOutput = unspentTransaction.outputs[outputIndex]
const transactionLink = {
'output_index': outputIndex,
'transaction_id': unspentTransaction.id,
}
return makeInputTemplate(fulfilledOutput.public_keys, transactionLink)
})
const assetLink = {
'id': unspentTransaction.operation === 'CREATE' ? unspentTransaction.id
: unspentTransaction.asset.id
}
return makeTransaction('TRANSFER', assetLink, metadata, outputs, inputs)
}
/**
* @public
* Sign the given `transaction` with the given `privateKey`s, returning a new copy of `transaction`
* that's been signed.
* Note: Only generates Ed25519 Fulfillments. Thresholds and other types of Fulfillments are left as
* an exercise for the user.
* @param {object} transaction Transaction to sign. `transaction` is not modified.
* @param {...string} privateKeys Private keys associated with the issuers of the `transaction`.
* Looped through to iteratively sign any Input Fulfillments found in
* the `transaction`.
* @returns {object} The signed version of `transaction`.
*/
export default function signTransaction(transaction, ...privateKeys) {
const signedTx = clone(transaction)
signedTx.inputs.forEach((input, index) => {
const privateKey = privateKeys[index]
const privateKeyBuffer = new Buffer(base58.decode(privateKey))
const serializedTransaction = serializeTransactionIntoCanonicalString(transaction)
const ed25519Fulfillment = new cc.Ed25519Sha256() const ed25519Fulfillment = new cc.Ed25519Sha256()
ed25519Fulfillment.sign(new Buffer(serializedTransaction), privateKeyBuffer) ed25519Fulfillment.setPublicKey(publicKeyBuffer)
const fulfillmentUri = ed25519Fulfillment.serializeUri()
input.fulfillment = fulfillmentUri if (json) {
return ccJsonify(ed25519Fulfillment)
}
return ed25519Fulfillment
}
/**
* @public
* Create an Output from a Condition.
* Note: Assumes the given Condition was generated from a single public key (e.g. a Ed25519 Condition)
* @param {object} condition Condition (e.g. a Ed25519 Condition from `makeEd25519Condition()`)
* @param {string} amount Amount of the output
* @returns {object} An Output usable in a Transaction
*/
makeOutput(condition, amount = '1') {
if (typeof amount !== 'string') {
throw new TypeError('`amount` must be of type string')
}
const publicKeys = []
const getPublicKeys = details => {
if (details.type === 'ed25519-sha-256') {
if (!publicKeys.includes(details.public_key)) {
publicKeys.push(details.public_key)
}
} else if (details.type === 'threshold-sha-256') {
details.subconditions.map(getPublicKeys)
}
}
getPublicKeys(condition.details)
return {
condition,
'amount': amount,
'public_keys': publicKeys,
}
}
/**
* @public
* Create a Preimage-Sha256 Cryptocondition from a secret to put into an Output of a Transaction
* @param {string} preimage Preimage to be hashed and wrapped in a crypto-condition
* @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type
* @returns {object} Preimage-Sha256 Condition (that will need to wrapped in an Output)
*/
makeSha256Condition(preimage, json = true) {
const sha256Fulfillment = new cc.PreimageSha256()
sha256Fulfillment.preimage = new Buffer(preimage)
if (json) {
return ccJsonify(sha256Fulfillment)
}
return sha256Fulfillment
}
/**
* @public
* Create an Sha256 Threshold Cryptocondition from threshold to put into an Output of a Transaction
* @param {number} threshold
* @param {Array} [subconditions=[]]
* @param {boolean} [json=true] If true returns a json object otherwise a crypto-condition type
* @returns {object} Sha256 Threshold Condition (that will need to wrapped in an Output)
*/
makeThresholdCondition(threshold, subconditions = [], json = true) {
const thresholdCondition = new cc.ThresholdSha256()
thresholdCondition.threshold = threshold
subconditions.forEach((subcondition) => {
// TODO: add support for Condition and URIs
thresholdCondition.addSubfulfillment(subcondition)
}) })
return signedTx if (json) {
return ccJsonify(thresholdCondition)
}
return thresholdCondition
}
/**
* @public
* Generate a `TRANSFER` transaction holding the `asset`, `metadata`, and `outputs`, that fulfills
* the `fulfilledOutputs` of `unspentTransaction`.
* @param {object} unspentTransaction Previous Transaction you have control over (i.e. can fulfill
* its Output Condition)
* @param {object} metadata Metadata for the Transaction
* @param {object[]} outputs Array of Output objects to add to the Transaction.
* Think of these as the recipients of the asset after the transaction.
* For `TRANSFER` Transactions, this should usually just be a list of
* Outputs wrapping Ed25519 Conditions generated from the public keys of
* the recipients.
* @param {...number} OutputIndices Indices of the Outputs in `unspentTransaction` that this
* Transaction fulfills.
* Note that listed public keys listed must be used (and in
* the same order) to sign the Transaction
* (`signTransaction()`).
* @returns {object} Unsigned transaction -- make sure to call signTransaction() on it before
* sending it off!
*/
// TODO:
// - Make `metadata` optional argument
makeTransferTransaction(
unspentTransaction,
metadata,
outputs,
...outputIndices
) {
const inputs = outputIndices.map((outputIndex) => {
const fulfilledOutput = unspentTransaction.outputs[outputIndex]
const transactionLink = {
'output_index': outputIndex,
'transaction_id': unspentTransaction.id,
}
return makeInputTemplate(fulfilledOutput.public_keys, transactionLink)
})
const assetLink = {
'id': unspentTransaction.operation === 'CREATE' ? unspentTransaction.id
: unspentTransaction.asset.id
}
return makeTransaction('TRANSFER', assetLink, metadata, outputs, inputs)
}
/**
* @public
* Sign the given `transaction` with the given `privateKey`s, returning a new copy of `transaction`
* that's been signed.
* Note: Only generates Ed25519 Fulfillments. Thresholds and other types of Fulfillments are left as
* an exercise for the user.
* @param {object} transaction Transaction to sign. `transaction` is not modified.
* @param {...string} privateKeys Private keys associated with the issuers of the `transaction`.
* Looped through to iteratively sign any Input Fulfillments found in
* the `transaction`.
* @returns {object} The signed version of `transaction`.
*/
signTransaction(transaction, ...privateKeys) {
const signedTx = clone(transaction)
signedTx.inputs.forEach((input, index) => {
const privateKey = privateKeys[index]
const privateKeyBuffer = new Buffer(base58.decode(privateKey))
const serializedTransaction = serializeTransactionIntoCanonicalString(transaction)
const ed25519Fulfillment = new cc.Ed25519Sha256()
ed25519Fulfillment.sign(new Buffer(serializedTransaction), privateKeyBuffer)
const fulfillmentUri = ed25519Fulfillment.serializeUri()
input.fulfillment = fulfillmentUri
})
return signedTx
}
} }