Package Exports
- @starkware-industries/starkware-crypto-utils
- @starkware-industries/starkware-crypto-utils/dist/index.cjs.js
- @starkware-industries/starkware-crypto-utils/dist/index.es.js
This package does not declare an exports field, so the exports above have been automatically detected and optimized by JSPM instead. If any package subpath is missing, it is recommended to post an issue to the original package (@starkware-industries/starkware-crypto-utils) to support the "exports" field. If that is not possible, create a JSPM override to customize the exports field for this package.
Readme
StarkWare Crypto Utils
Signatures, keys and Pedersen hash on STARK friendly elliptic curve
Installation
// using npm
npm i @starkware-industries/starkware-crypto-utils
// using yarn
yarn add @starkware-industries/starkware-crypto-utilsHow to use it
const starkwareCrypto = require('@starkware-industries/starkware-crypto-utils');API
{
prime,
ec: starkEc,
constantPoints,
shiftPoint,
maxEcdsaVal, // Data.
pedersen,
getLimitOrderMsgHash,
getTransferMsgHash,
sign,
verify,
assertInRange,
getTransferMsgHashWithFee,
getLimitOrderMsgHashWithFee // Function.
asset: {
getAssetType,
getAssetId // Function.
},
keyDerivation: {
StarkExEc: ec.n, // Data.
getPrivateKeyFromEthSignature,
privateToStarkKey,
getKeyPairFromPath,
getAccountPath,
grindKey // Function.
},
messageUtils: {
assertInRange // Function.
}
}Usage
Signing a StarkEx order
const starkwareCrypto = require('@starkware-libs/starkware-crypto-utils');
const testData = require('test/config/signature_test_data.json');
const privateKey = testData.meta_data.party_a_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) ===
testData.settlement.party_a_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.settlement.party_a_order.public_key.substring(2)}`
);
const {party_a_order: partyAOrder} = testData.settlement;
const msgHash = starkwareCrypto.getLimitOrderMsgHash(
partyAOrder.vault_id_sell, // - vault_sell (uint31)
partyAOrder.vault_id_buy, // - vault_buy (uint31)
partyAOrder.amount_sell, // - amount_sell (uint63 decimal str)
partyAOrder.amount_buy, // - amount_buy (uint63 decimal str)
partyAOrder.token_sell, // - token_sell (hex str with 0x prefix < prime)
partyAOrder.token_buy, // - token_buy (hex str with 0x prefix < prime)
partyAOrder.nonce, // - nonce (uint31)
partyAOrder.expiration_timestamp // - expiration_timestamp (uint22)
);
assert(
msgHash === testData.meta_data.party_a_order.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.party_a_order.message_hash.substring(2)
);
const msgSignature = starkwareCrypto.sign(keyPair, msgHash);
const {r, s} = msgSignature;
assert(starkwareCrypto.verify(publicKey, msgHash, msgSignature));
assert(
r.toString(16) === partyAOrder.signature.r.substring(2),
`Got: ${r.toString(16)}. Expected: ${partyAOrder.signature.r.substring(2)}`
);
assert(
s.toString(16) === partyAOrder.signature.s.substring(2),
`Got: ${s.toString(16)}. Expected: ${partyAOrder.signature.s.substring(2)}`
);
// The following is the JSON representation of an order:
console.log('Order JSON representation: ');
console.log(partyAOrder);
console.log('\n');StarkEx key serialization
const starkwareCrypto = require('@starkware-libs/starkware-crypto-utils');
const pubXStr = publicKey.pub.getX().toString('hex');
const pubYStr = publicKey.pub.getY().toString('hex');
// Verify Deserialization.
const pubKeyDeserialized = starkwareCrypto.ec.keyFromPublic(
{x: pubXStr, y: pubYStr},
'hex'
);
assert(starkwareCrypto.verify(pubKeyDeserialized, msgHash, msgSignature));Signing a StarkEx order with fee
const privateKey = testData.meta_data.party_a_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) ===
testData.settlement.party_a_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.settlement.party_a_order.public_key.substring(2)}`
);
const {party_a_order: partyAOrder} = testData.settlement;
const feeInfo = testData.fee_info_user;
const msgHash = starkwareCrypto.getLimitOrderMsgHashWithFee(
partyAOrder.vault_id_sell, // - vault_sell (uint64)
partyAOrder.vault_id_buy, // - vault_buy (uint64)
partyAOrder.amount_sell, // - amount_sell (uint63 decimal str)
partyAOrder.amount_buy, // - amount_buy (uint63 decimal str)
partyAOrder.token_sell, // - token_sell (hex str with 0x prefix < prime)
partyAOrder.token_buy, // - token_buy (hex str with 0x prefix < prime)
partyAOrder.nonce, // - nonce (uint31)
partyAOrder.expiration_timestamp, // - expiration_timestamp (uint22)
feeInfo.token_id, // - token (hex str with 0x prefix < prime)
feeInfo.source_vault_id, // - fee_source_vault_id (uint31)
feeInfo.fee_limit // - amount (uint63 decimal str)
);
assert(
msgHash ===
testData.meta_data.party_a_order_with_fee.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.party_a_order_with_fee.message_hash.substring(2)
);
// The following is the JSON representation of an order:
console.log('Order With Fee JSON representation: ');
// Fee info is added to the order, and will be also be seen in the JSON of Settlement.
partyAOrder.fee_info = feeInfo; // eslint-disable-line
console.log(partyAOrder);
console.log('\n');StarkEx transfer
const starkwareCrypto = require('@starkware-libs/starkware-crypto-utils');
const testData = require('test/config/signature_test_data.json');
const privateKey = testData.meta_data.transfer_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) === testData.transfer_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.transfer_order.public_key.substring(2)}`
);
const transfer = testData.transfer_order;
const msgHash = starkwareCrypto.getTransferMsgHash(
transfer.amount, // - amount (uint63 decimal str)
transfer.nonce, // - nonce (uint31)
transfer.sender_vault_id, // - sender_vault_id (uint31)
transfer.token, // - token (hex str with 0x prefix < prime)
transfer.target_vault_id, // - target_vault_id (uint31)
transfer.target_public_key, // - target_public_key (hex str with 0x prefix < prime)
transfer.expiration_timestamp // - expiration_timestamp (uint22)
);
assert(
msgHash === testData.meta_data.transfer_order.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.transfer_order.message_hash.substring(2)
);
// The following is the JSON representation of a transfer:
console.log('Transfer JSON representation: ');
console.log(transfer);
console.log('\n');StarkEx conditional transfer
const starkwareCrypto = require('@starkware-libs/starkware-crypto-utils');
const testData = require('test/config/signature_test_data.json');
const privateKey =
testData.meta_data.conditional_transfer_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) ===
testData.conditional_transfer_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.conditional_transfer_order.public_key.substring(
2
)}`
);
const transfer = testData.conditional_transfer_order;
const msgHash = starkwareCrypto.getTransferMsgHash(
transfer.amount, // - amount (uint63 decimal str)
transfer.nonce, // - nonce (uint31)
transfer.sender_vault_id, // - sender_vault_id (uint31)
transfer.token, // - token (hex str with 0x prefix < prime)
transfer.target_vault_id, // - target_vault_id (uint31)
transfer.target_public_key, // - target_public_key (hex str with 0x prefix < prime)
transfer.expiration_timestamp, // - expiration_timestamp (uint22)
transfer.condition // - condition (hex str with 0x prefix < prime)
);
assert(
msgHash ===
testData.meta_data.conditional_transfer_order.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.conditional_transfer_order.message_hash.substring(2)
);
// The following is the JSON representation of a transfer:
console.log('Conditional Transfer JSON representation: ');
console.log(transfer);
console.log('\n');StarkEx transfer with fee
const privateKey = testData.meta_data.transfer_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) === testData.transfer_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.transfer_order.public_key.substring(2)}`
);
const transfer = testData.transfer_order;
const feeInfo = testData.fee_info_user;
const msgHash = starkwareCrypto.getTransferMsgHashWithFee(
transfer.amount, // - amount (uint63 decimal str)
transfer.nonce, // - nonce (uint31)
transfer.sender_vault_id, // - sender_vault_id (uint64)
transfer.token, // - token (hex str with 0x prefix < prime)
transfer.target_vault_id, // - target_vault_id (uint64)
transfer.target_public_key, // - target_public_key (hex str with 0x prefix < prime)
transfer.expiration_timestamp, // - expiration_timestamp (uint22)
feeInfo.token_id, // - token (hex str with 0x prefix < prime)
feeInfo.source_vault_id, // - fee_source_vault_id (uint64)
feeInfo.fee_limit // - amount (uint63 decimal str)
);
assert(
msgHash ===
testData.meta_data.transfer_order_with_fee.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.transfer_order.message_hash.substring(2)
);
// The following is the JSON representation of a transfer:
console.log('Transfer With Fee JSON representation: ');
console.log(transfer);
console.log('\n');StarkEx conditional Transfer with fee
const privateKey =
testData.meta_data.conditional_transfer_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) ===
testData.conditional_transfer_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.conditional_transfer_order.public_key.substring(
2
)}`
);
const transfer = testData.conditional_transfer_order;
const feeInfo = testData.fee_info_user;
const msgHash = starkwareCrypto.getTransferMsgHashWithFee(
transfer.amount, // - amount (uint63 decimal str)
transfer.nonce, // - nonce (uint31)
transfer.sender_vault_id, // - sender_vault_id (uint64)
transfer.token, // - token (hex str with 0x prefix < prime)
transfer.target_vault_id, // - target_vault_id (uint64)
transfer.target_public_key, // - target_public_key (hex str with 0x prefix < prime)
transfer.expiration_timestamp, // - expiration_timestamp (uint22)
feeInfo.token_id, // - token (hex str with 0x prefix < prime)
feeInfo.source_vault_id, // - fee_source_vault_id (uint64)
feeInfo.fee_limit, // - amount (uint63 decimal str)
transfer.condition // - condition (hex str with 0x prefix < prime)
);
assert(
msgHash ===
testData.meta_data.conditional_transfer_order_with_fee.message_hash.substring(
2
),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.conditional_transfer_order.message_hash.substring(2)
);
// The following is the JSON representation of a transfer:
console.log('Conditional Transfer With Fee JSON representation: ');
console.log(transfer);
console.log('\n');Adding a matching order to create a settlement
const starkwareCrypto = require('@starkware-libs/starkware-crypto-utils');
const testData = require('test/config/signature_test_data.json');
const privateKey = testData.meta_data.party_b_order.private_key.substring(2);
const keyPair = starkwareCrypto.ec.keyFromPrivate(privateKey, 'hex');
const publicKey = starkwareCrypto.ec.keyFromPublic(
keyPair.getPublic(true, 'hex'),
'hex'
);
const publicKeyX = publicKey.pub.getX();
assert(
publicKeyX.toString(16) ===
testData.settlement.party_b_order.public_key.substring(2),
`Got: ${publicKeyX.toString(16)}.
Expected: ${testData.settlement.party_b_order.public_key.substring(2)}`
);
const {party_b_order: partyBOrder} = testData.settlement;
const msgHash = starkwareCrypto.getLimitOrderMsgHash(
partyBOrder.vault_id_sell, // - vault_sell (uint31)
partyBOrder.vault_id_buy, // - vault_buy (uint31)
partyBOrder.amount_sell, // - amount_sell (uint63 decimal str)
partyBOrder.amount_buy, // - amount_buy (uint63 decimal str)
partyBOrder.token_sell, // - token_sell (hex str with 0x prefix < prime)
partyBOrder.token_buy, // - token_buy (hex str with 0x prefix < prime)
partyBOrder.nonce, // - nonce (uint31)
partyBOrder.expiration_timestamp // - expiration_timestamp (uint22)
);
assert(
msgHash === testData.meta_data.party_b_order.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.party_b_order.message_hash.substring(2)
);
const msgSignature = starkwareCrypto.sign(keyPair, msgHash);
const {r, s} = msgSignature;
assert(starkwareCrypto.verify(publicKey, msgHash, msgSignature));
assert(
r.toString(16) === partyBOrder.signature.r.substring(2),
`Got: ${r.toString(16)}. Expected: ${partyBOrder.signature.r.substring(2)}`
);
assert(
s.toString(16) === partyBOrder.signature.s.substring(2),
`Got: ${s.toString(16)}. Expected: ${partyBOrder.signature.s.substring(2)}`
);
// The following is the JSON representation of a settlement:
console.log('Settlement JSON representation: ');
console.log(testData.settlement);Valid transfer with sender_vault_id=2**63+10
const transfer = testData.transfer_order_2nd_valid_range;
const feeInfo = testData.fee_info_user;
const msgHash = starkwareCrypto.getTransferMsgHashWithFee(
transfer.amount, // - amount (uint63 decimal str)
transfer.nonce, // - nonce (uint31)
transfer.sender_vault_id, // - sender_vault_id (uint64)
transfer.token, // - token (hex str with 0x prefix < prime)
transfer.target_vault_id, // - target_vault_id (uint64)
transfer.target_public_key, // - target_public_key (hex str with 0x prefix < prime)
transfer.expiration_timestamp, // - expiration_timestamp (uint22)
feeInfo.token_id, // - token (hex str with 0x prefix < prime)
feeInfo.source_vault_id, // - fee_source_vault_id (uint64)
feeInfo.fee_limit, // - amount (uint63 decimal str)
transfer.condition // - condition (hex str with 0x prefix < prime)
);
assert(
msgHash ===
testData.meta_data.transfer_order_2nd_valid_range.message_hash.substring(2),
`Got: ${msgHash}. Expected: ` +
testData.meta_data.transfer_order_2nd_valid_range.message_hash.substring(2)
);
// The following is the JSON representation of a transfer with sender_vault_id in the second
// valid range:
console.log('Transfer JSON representation: ');
console.log(transfer);
console.log('\n');