archethic_lib_dart 3.4.2 archethic_lib_dart: ^3.4.2 copied to clipboard
Archethic dart library for Flutter for Node and Browser. This library aims to provide a easy way to create Archethic transaction and to send them over the network
Archethic's lib_dart #
Archethic dart library for Flutter
Usage #
This library aims to provide a easy way to create Archethic transaction and to send them over the network.
It supports the Archethic Cryptography rules which are:
-
Algorithm identification: keys are prepared by metadata bytes to indicate the curve used and the origin of the generation, and hashes are prepended by a byte to indicate the hash algorithm used. Those information help during the verification
Ed25519 Software Origin Public key | | | | |-------| | | | |------------------| | | | <<0, 0, 106, 58, 193, 73, 144, 121, 104, 101, 53, 140, 125, 240, 52, 222, 35, 181, 13, 81, 241, 114, 227, 205, 51, 167, 139, 100, 176, 111, 68, 234, 206, 72>> NIST P-256 Software Origin Public key | | | | |---------| | | | |---------------------- | | | <<1, 0, 4, 7, 161, 46, 148, 183, 43, 175, 150, 13, 39, 6, 158, 100, 2, 46, 167, 101, 222, 82, 108, 56, 71, 28, 192, 188, 104, 154, 182, 87, 11, 218, 58, 107, 222, 154, 48, 222, 193, 176, 88, 174, 1, 6, 154, 72, 28, 217, 222, 147, 106, 73, 150, 128, 209, 93, 99, 115, 17, 39, 96, 47, 203, 104, 34>>
-
Key derivation:
To be able to retrieve previous public key, the Archethic network designs the key derivation through a seed (passphrase) and an index(number of previous public keys/transactions). The procedure is described as follows:
The seed generates a master key and an entropy used in the child keys generation. / (256 bytes) Next private key (256 bytes) Master key --> HMAC-512 / Key: Master entropy, seed --> HMAC-512 Data: Master key + index) \ (256 bytes) Master entropy
API #
Cryptographic functions
deriveKeyPair(seed, index, curve, isSeedHexa)
It creates a new keypair into hexadecimal format
seed
is hexadecimal encoding or Uint8Array representing the transaction chain seed to be able to derive and generate the keysindex
is the number of transactions in the chain, to generate the actual and the next public key (see below the cryptography section)curve
is the elliptic curve to use for the key generation (can be "ed25519", "P256", "secp256k1") - default to: "ed25519"isSeedHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).originId
is the origin of the public key (can be 0 for "on chain wallet", 1 for "software" or 2 for "tpm") - default to: 1
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
KeyPair keypair = crypto.deriveKeyPair('mysuperpassphraseorseed', 0, isSeedHexa: false);
// uint8ListToHex(keypair.publicKey) => 0100048cac473e46edd109c3ef59eec22b9ece9f99a2d0dce1c4ccb31ce0bacec4a9ad246744889fb7c98ea75c0f0ecd60002c07fae92f23382669ca9aff1339f44216
deriveAddress(seed, index, curve, hashAlgo, isSeedHexa)
It creates a transaction address by extract the public key from the key derivation and hash it into a hexadecimal format
seed
is hexadecimal encoding or Uint8Array representing the transaction chain seed to be able to derive and generate the keysindex
is the number of transactions in the chain, to generate the actual and the next public key (see below the cryptography section)curve
is the elliptic curve to use for the key generation (can be "ed25519", "P256", "secp256k1") - Default to "ed25519"hashAlgo
is the hash algorithm to create the address (can be "sha256", "sha512", "sha3-256", "sha3-512", "blake2b") - default to "sha256"isSeedHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
String address = crypto.deriveAddress("mysuperpassphraseorseed", 0);
// Address: 00004195d45987f33e5dcb71edfa63438d5e6add655b216acfdd31945d58210fe5d2
ecEncrypt(data, publicKey, isDataHexa, isPublicKeyHexa)
Perform an ECIES encryption using a public key and a data
data
Data to encryptpublicKey
Public key to derive a shared secret and for whom the content must be encryptedisDataHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).isPublicKeyHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Uint8List cipher = crypto.ecEncrypt('dataToEncrypt' '00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646');
aesEncrypt(data, publicKey, isDataHexa, isKeyHexa)
Perform an AES encryption using a key and a data
data
Data to encryptkey
Symmetric keyisDataHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).isKeyHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Uint8List cipher = crypto.aesEncrypt('dataToEncrypt' '0000b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646');
Transaction building
new Transaction(type)
creates a new instance of the transaction
type
is the string defining the type of transaction to generate ("keychain", "keychain_access", "transfer", "hosting", "code_proposal", "code_approval", "token", "contract", "data")
The transaction instance contains the following methods:
setCode(code)
Add the code in the data.code
section of the transaction
code
is a string defining the smart contract
setContent(content)
Add the content in the data.content
section of the transaction
content
is a string defining the smart contract
addOwnership(secret, authorizedKeys)
Add an ownership in the data.ownerships
section of the transaction with a secret and its related authorized public keys to be able to decrypt it.
This aims to prove the ownership or the delegatation of some secret to a given list of public keys.
secret
is the hexadecimal encoding or Uint8Array representing the encrypted secret
authorizedKeys
is a list of object represented by
publicKey
is the hexadecimal encoding or Uint8Array representing the public keyencryptedSecretKey
is the hexadecimal encoding or Uint8Array representing the secret key encrypted with the public key (seeecEncrypt
)
addUCOTransfer(to, amount)
Add a UCO transfer to the data.ledger.uco.transfers
section of the transaction
to
is hexadecimal encoding or Uint8List representing the transaction address (recipient) to receive the fundsamount
is the number of uco to send (int)
addTokenTransfer(to, amount, tokenAddress, tokenId)
Add a token transfer to the data.ledger.token.transfers
section of the transaction
to
is hexadecimal encoding or Uint8List representing the transaction address (recipient) to receive the fundsamount
is the number of uco to send (int)tokenAddress
is hexadecimal encoding or Uint8List representing the token address to spendtokenId
is the ID of the token to use (default to 0)
addRecipient(to)
Add a recipient to call the smart contract's "transaction" action.
to
is the contract's address in hexadecimal or Uint8Array
addRecipientWithNamedAction(to, action, args)
Add a recipient to call a specific smart contract's action.
to
is the contract's address in hexadecimal or Uint8Arrayaction
is the name of the actionargs
is the list of arguments for the action (must contain only JSON valid data)
build(seed, index, curve, hashAlgo, isSeedHexa)
Generate address
, timestamp
, previousPublicKey
, previousSignature
of the transaction and
serialize it using a custom binary protocol.
seed
is hexadecimal encoding or Uint8Array representing the transaction chain seed to be able to derive and generate the keysindex
is the number of transactions in the chain, to generate the actual and the next public key (see below the cryptography section)curve
is the elliptic curve to use for the key generation (can be "ed25519", "P256", "secp256k1") - default to "P256"hashAlgo
is the hash algorithm to use to generate the address (can be "sha256", "sha512", "sha3-256", "sha3-512", "bake2b") - default to "sha256"isSeedHexa
is a parameter used to specify whether the information is in hexadecimal format or not (and thus avoid conversion issues).
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Transaction tx = Transaction(type: 'transfer', data: Transaction.initData())
.addUCOTransfer('0000b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646', toBigInt(0.420))
.build('mysuperpassphraseorseed', 0, 'P256').transaction;
originSign(privateKey)
Sign the transaction with an origin device private key
privateKey
is hexadecimal encoding or Uint8List representing the private key to generate the origin signature to able to perform the ProofOfWork and authorize the transaction
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
final KeyPair originKeypair = crypto.deriveKeyPair('origin_seed', 0, isSeedHexa: false);
Transaction tx = Transaction(type: 'transfer', data: Transaction.initData())
.addUCOTransfer('0000b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646', toBigInt((0.420))
.build('mysuperpassphraseorseed', 0, 'P256').transaction
.originSign(originKeypair.privateKey);
convertToJSON()
Export the transaction generated into JSON
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Transaction tx = Transaction(type: 'transfer', data: Transaction.initData())
.addUCOTransfer('0000b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646', toBigInt(0.420))
.build('mysuperpassphraseorseed', 0, 'P256').transaction
.convertToJSON();
Remote Endpoint calls
getOriginKey()
Return the hardcoded origin private key for software, this is used for signing transaction (see OriginSign).
addOriginKey(originPublicKey, certificate, endpoint)
Query a node to add a new origin public to be authorized to sign transaction with the corresponding private key (see OriginSign). Calls the 'add_origin_key' JSON-RPC 2.0 method
originPublicKey
is the public key to be added.certificate
is the certificate that prove the public key is allowed to be added.endpoint
is the HTTP URL to a Archethic node
Returns
{
transaction_address: "..."
status: "pending"
}
Getting the default origin Key :
final String originPrivateKey = await ApiService('https://testnet.archethic.net').getOriginKey();
final Transaction tx = Transaction(type: 'transfer', data: Transaction.initData());
...
tx.originSign(originPrivateKey);
Getting another origin key :
final String authPublicKey = '0001be992817b7db9807b1df5faa6bb23036e1f2189eeaab0e1f1260ede8642ecc76'
final String privateKey = '0001621d7c3bb971a245959679bf0879822a4df60c95c8f7f2193352d85498840b7d'
final String originPrivateKey = await ApiService('https://testnet.archethic.net').getOriginKey(authPublicKey, privateKey);
final Transaction tx = Transaction(type: 'transfer', data: Transaction.initData());
...
tx.originSign(originPrivateKey);
getTransactionIndex(addresses)
Query a node to find the length of the chain to retrieve the transaction index
addresses
List of transaction addresses (in hexadecimal)
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Map<String, int> indexMap = await ApiService('https://testnet.archethic.net').getTransactionIndex(
['00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646']);
int index = indexMap['00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646'];
// 0
getLastTransaction(addresses)
Query a node to find the last transaction in the transaction chain from a list of addresses
addresses
List of transaction addresses (in hexadecimal)
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Map<String, Transaction> transactionMap = await ApiService('https://testnet.archethic.net').getLastTransaction(
['00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646']);
Transaction transaction = transactionMap['00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646'];
getStorageNoncePublicKey()
Query a node to find the public key of the shared storage node key
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
String storageNoncePublicKey =
await ApiService('https://testnet.archethic.net').getStorageNoncePublicKey();
// 00b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646
getOracleData(timestamp)
Fetch the OracleChain data return a value of Oracle Uco_Price in {OracleUcoPrice} from a timestamp If timestamp = 0 or not precised, the last price is returned
timestamp
: UNIX timestamp (optional)
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
final oracleData =
await OracleService('https://testnet.archethic.net').getOracleData(timestamp);
final eurConversionRate = oracleUcoPrice.uco?.eur;
final usdConversionRate = oracleUcoPrice.uco?.usd;
getTransactionFee(tx)
Query a node to fetch the tx fee for a given transaction Calls the 'estimate_transaction_fee' JSON-RPC 2.0 method
tx
Generated transaction
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Transaction tx = Transaction(...)
TransactionFee transactionFee = await ApiService('https://testnet.archethic.net').getTransactionFee(tx);
subscribeToOracleUpdates(handler)
Subscribe to get the real time updates of the OracleChain
handler
: Callback to handle the new data
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
await OracleService('https://testnet.archethic.net')
.subscribeToOracleUpdates((data) {
log('Oracle value: ${data.timestamp} - ${data.uco!.usd} USD');
// TODO with
{
timestamp: ...,
services: {
uco: {
eur: ...,
usd: ...
}
}
}
});
getTransactionOwnerships(addresses)
Query a node to find the ownerships (secrets and authorized keys) to given transactions addresses
addresses
: List of transactions addresses
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
String address = crypto.deriveAddress("mysuperpassphraseorseed", 0);
Map<String, List<Ownership>> ownershipsMap = await ApiService('https://testnet.archethic.net').getTransactionOwnerships([address]);
List<Ownership> ownerships = ownershipsMap[address];
sendTx(transaction)
Send a transaction to the network Calls the 'send_transaction' JSON-RPC 2.0 method
transaction
: Transaction to send
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
final tx = Transaction(type: 'transfer', data: Transaction.initData())
.addUCOTransfer(
'0000b1d3750edb9381c96b1a975a55b5b4e4fb37bfab104c10b0b6c9a00433ec4646',
toBigInt(0.00000001),
)
.build("mysuperpassphraseorseed", 0)
.transaction
.originSign(originPrivateKey);
await ApiService('https://testnet.archethic.net').sendTx(tx);
callSCFunction(jsonRPCRequest)
Call a smart contract's function using JSON-RPC 2.0 method.
jsonRPCRequest
is the json structure based on SCCallFunctionRequest object to request the functionresultMap
(optional) is the format of the response (true=Map, false=String)
Returns the result of the function called
Call a function :
final smCallFunctionResponse =
await ApiService('https://testnet.archethic.net').callSCFunction(
jsonRPCRequest: SCCallFunctionRequest(
method: 'contract_fun',
params: SCCallFunctionParams(
contract:
'0000a9f3bc500d0ed7d923e983eafc080113633456f53c400814e1d4f34c5fa67220',
function: 'get_chargeable_htlc',
args: [
1692394056,
'0000a3b7b1d4830a09a5459cb24db36c3d791f337260a11892b5e2e9c382da577f7a',
'000085f677b365906a5103959e5fa289622b22ed93062b65120b55133da78242ae3e',
'4BC2DA9ABC1B5667529E3C35141026CB1E1A6DD0376E871C77D2824164F696EF',
'UCO',
4.56
],
),
),
);
Keychain / Wallet management
newKeychainTransaction(String seed, List
Creates a new transaction to build a keychain by embedding the on-chain encrypted wallet.
seed
Keychain's seedauthorizedPublicKeys
List of authorized public keys able to decrypt the walletoriginPrivateKey
Key to make the origin signature of the transaction
newAccessKeychainTransaction(String seed, Uint8List keychainAddress, Uint8List originPrivateKey)
Creates a new keychain access transaction to allow a seed and its key to access a keychain
seed
Keychain access's seedkeychainAddress
Keychain's tx addressoriginPrivateKey
Key to make the origin signature of the transaction
getKeychain(seed)
Retrieve a keychain from the keychain access transaction and decrypt the wallet to retrieve the services associated
seed
Keychain access's seed
import 'package:archethic_lib_dart/archethic_lib_dart.dart';
Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
Once retrieved the keychain provide the following methods:
buildTransaction(tx, serviceName, index, suffix)
Generate address
, previousPublicKey
, previousSignature
of the transaction and
serialize it using a custom binary protocol, based on the derivation path, curve and hash algo of the service given in param.
tx
is an instance ofTransaction
serviceName
is the service name to use for getting the derivation path, the curve and the hash algoindex
is the number of transactions in the chain, to generate the actual and the next public key (see the cryptography section)suffix
: Additional information to add to a service derivation path (default to empty)
Return is the signed Transaction
. Notice that the function also sign the Transaction
given in param, so getting the return is not mandatory
final Transaction tx = Transaction(type: 'transfer', data: Transaction.initData()).addUCOTransfert(...);
final Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
final int index = (await ApiService('https://testnet.archethic.net').getTransactionIndex(keychain.deriveAddress('uco', 0))).chainLength);
Transaction signedTx = keychain.buildTransaction(tx, 'uco', index);
deriveAddress(service, index, suffix)
Derive an address for the given service at the index given
service
: Service name to identify the derivation path to useindex
: Chain index to derive (default to 0)suffix
: Additional information to add to a service derivation path (default to empty)
Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
Uint8List genesisUCOAddress = keychain.deriveAddress('uco', index: 0);
deriveKeypair(service, index, suffix)
Derive a keypair for the given service at the index given
service
: Service name to identify the derivation path to useindex
: Chain index to derive (default to 0)suffix
: Additional information to add to a service derivation path (default to empty)
Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
KeyPair keyPair = keychain.deriveKeypair('uco', index: 0, isSeedHexa: false);
ecEncryptServiceSeed(service, publicKeys)
Use ec encryption on the seed for the list of authorizedPublicKeys
service
: Service name to identify the derivation path to useauthorizedPublicKeys
: List of public keys to encrypt the service seed
final keychain = Keychain(seed: hexToUint8List(generateRandomSeed())).copyWithService('uco', "m/650'/uco");
final storageNoncePublicKey = await ApiService('https://testnet.archethic.net').getStorageNoncePublicKey();
final resultECEncryptServiceSeed = keychain.ecEncryptServiceSeed('uco', [storageNoncePublicKey]);
final secret = uint8ListToHex(resultECEncryptServiceSeed.secret);
final authorizedPublicKeys = resultECEncryptServiceSeed.authorizedPublicKeys;
// secret and authorizedPublicKeys can be used to create an ownership
final tx = Transaction(
type: 'contract',
data: Transaction.initData(),
).addOwnership(secret, authorizedPublicKeys);
toDID()
Return a Decentralized Identity document from the keychain. (This is used in the transaction's content of the keychain tx)
Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
final Map<String, dynamic> did = keychain.toDID();
log(did)
{
"@context": [
"https://www.w3.org/ns/did/v1"
],
"id": "did:archethic:keychain_address",
"authentification": servicesMaterials, //list of public keys of the services
"verificationMethod": servicesMaterials //list of public keys of the services
}
addService(String name, String derivationPath, {String curve = 'ed25519', String hashAlgo = 'sha256'})
Add a service into the keychain
name
: Name of the service to addderivationPath
: Crypto derivation pathcurve
: Elliptic curve to usehashAlgo
: Hash algo
Keychain keychain = await ApiService('https://testnet.archethic.net').getKeychain(accessKeychainSeed);
keychain.addService("nft1", "m/650'/1/0");
log(keychain)
{
version: 1,
seed: "mymasterseed",
services: {
uco: {
derivationPath: "m/650'/0/0",
curve: "ed25519",
hashAlgo: "sha256"
},
nft1: {
derivationPath: "m/650'/1/0",
curve: "ed25519",
hashAlgo: "sha256"
}
}
}
Running the tests #
dart test --exclude-tags noCI