Skip to main content

Migration Notes

v0.9 to 0.10

CashScript SDK

The Reason enum + FailedTimeCheckError and FailedSigCheckError errors have been removed. If you were using these to check your transaction errors, you should now use the new error classes FailedRequireError, FailedTransactionEvaluationError and FailedTransactionError.

If you were using transaction.meep() or using the meep string in errors, you should now use transaction.bitauthUri() to get a BitAuth URI for debugging or use the bitauthUri string in errors.

The Argument type has been split into FunctionArgument and ConstructorArgument and the encodeArgument function has been renamed to encodeFunctionArgument. If you were using these types in your code, you should update your code to use the new types, depending on whether you were using them as function arguments or constructor arguments.

v0.7 to v0.8

cashc compiler

cashc is now a Pure ESM package. This means that you can no longer use require to import cashscript. For more information, see the ESM documentation.

LockingBytecodeP2SH should be replaced with LockingBytecodeP2SH20 to keep the same behaviour, or updated to LockingBytecodeP2SH32 to use the recommended new P2SH32 Address type.

CashScript SDK

cashscript is now a Pure ESM package. This means that you can no longer use require to import cashscript. For more information, see the ESM documentation.

Contract instantiation

When instantiating a Contract object, you now have to pass an options object as a third parameter instead of a network provider. This options object contains the network provider, as well as the address type. The address type defaults to p2sh32 but can be changed to p2sh20 if you want to keep the same address type as in earlier versions of the SDK.

// old
const contract = new Contract(artifact, constructorArgs, provider);

// new
const options = { provider, addressType: 'p2sh20' };
const contract = new Contract(artifact, constructorArgs, options);

SIGHASH_UTXO

All signature templates use SIGHASH_ALL | SIGHASH_UTXOS now, to keep using the only the previous SIGHASH_ALL overwrite it in the following way:

const sig = new SignatureTemplate(wif, HashType.SIGHASH_ALL);

Note that you need to use only SIGHASH_ALL if you're still using "old-style" covenants (from CashScript v0.6.0 and lower). It is recommended to upgrade to the new "native" covenants (from CashScript v0.7.0 and higher) instead.

bigint

You can no longer use number inputs for constructor arguments, function arguments, or input/output amounts. Use bigint instead. contract.getBalance() and contract.getUtxos() now also return bigint for satoshi amounts instead of number.

Name changes & removal of deprecated features

  • Network options "testnet" and "staging" should be replaced with "testnet3" and "testnet4" respectively.
  • contract.getRedeemScriptHex() should be replaced with contract.bytecode.
  • BitboxNetworkProvider has been removed since Bitbox is long deprecated. Switch to modern solutions like ElectrumNetworkProvider instead.

v0.6 to v0.7

cashc compiler

The older preimage-based introspection/covenants have been replaced with the newly supported native introspection/covenants. This has significant consequences for any existing covenant contracts, but in general this native introspection makes covenants more accessible, flexible and efficient. See below for a list of changes. In some cases there is no one to one mapping between the old introspection and the new introspection methods, so the logic of the smart contracts will need to be refactored as well.

Most importantly, it is now possible to access specific data for all individual inputs and outputs, rather than e.g. working with hashes of the outputs (tx.hashOutputs). This offers more flexibility around the data you want to enforce. For more information about this new native introspection functionality, refer to the Global covenant variables section of the documentation, the Covenants guide and the Native Introspection CHIP.

Covenant variables

  • tx.version and tx.locktime used to be bytes4, but are now int.
  • tx.hashtype has been removed and can no longer be accessed.
  • tx.hashPrevouts and tx.outpoint have been removed. Instead, the outpoints of individual inputs can be accessed with tx.inputs[i].outpointTransactionHash and tx.inputs[i].outpointIndex. The index of the active input can be accessed with this.activeInputIndex.
  • tx.hashSequence and tx.sequence have been removed. Instead, the sequence numbers of individual inputs can be accessed with tx.inputs[i].sequenceNumber. The index of the active input can be accessed with this.activeInputIndex.
  • tx.bytecode has been renamed to this.activeBytecode
  • tx.value has been removed. Instead, the value of individual inputs can be accessed with tx.inputs[i].value. The index of the active input can be accessed with this.activeInputIndex.
  • tx.hashOutputs has been removed. Instead, the value and locking bytecode of individual outputs can be accessed separately with tx.outputs[i].value and tx.outputs[i].lockingBytecode.

Additionally, it is now possible to access the number of inputs and outputs with tx.inputs.length and tx.outputs.length. It is also possible to access individual inputs' locking bytecode and unlocking bytecode with tx.inputs[i].lockingBytecode and tx.inputs[i].unlockingBytecode. It is also no longer a requirement to have a signature check somewhere in the contract in order to use this introspection/covenant functionality.

Utility classes

OutputP2PKH, OutputP2SH and OutputNullData have been replaced by LockingBytecodeP2PKH, LockingBytecodeP2SH and LockingBytecodeNullData respectively. These new classes only produce the locking bytecode, rather than the full output (including value). This means that the locking bytecode and value of outputs need to be checked separately.

Other changes

Casting from sig to datasig has been removed since that was only useful for old-style covenants. If, for any reason, you do want to cast a sig to a datasig you will need to manually cut the hashtype off the end and update datasig(s) to s.split(s.length - 1)[0].

Example

Since the new covenant functionality is very different from the existing, it may be useful to see a complex covenant contract refactored from the old way to the new way.

Mecenas.cash v0.6.0
pragma cashscript ^0.6.0;

contract Mecenas(bytes20 recipient, bytes20 funder, int pledge, int period) {
function receive(pubkey pk, sig s) {
require(checkSig(s, pk));
require(tx.age >= period);

int minerFee = 1000;
int intValue = int(bytes(tx.value));

if (intValue <= pledge + minerFee) {
// The contract has less value than the pledge, or equal.
// The recipient must claim all of of it.

bytes8 amount1 = bytes8(intValue - minerFee);
bytes34 out1 = new OutputP2PKH(amount1, recipient);
require(hash256(out1) == tx.hashOutputs);
} else {
// The contract has more value than the pledge. The recipient must
// also add one change output sending the remaining coins back
// to the contract.

bytes8 amount1 = bytes8(pledge);
bytes8 amount2 = bytes8(intValue - pledge - minerFee);
bytes34 out1 = new OutputP2PKH(amount1, recipient);
bytes32 out2 = new OutputP2SH(amount2, hash160(tx.bytecode));
require(hash256(out1 + out2) == tx.hashOutputs);
}
}

function reclaim(pubkey pk, sig s) {
require(hash160(pk) == funder);
require(checkSig(s, pk));
}
}
Mecenas.cash 0.7.0
contract Mecenas(bytes20 recipient, bytes20 funder, int pledge, int period) {
function receive() {
require(tx.age >= period);

// Check that the first output sends to the recipient
bytes25 recipientLockingBytecode = new LockingBytecodeP2PKH(recipient);
require(tx.outputs[0].lockingBytecode == recipientLockingBytecode);

// Calculate the value that's left
int minerFee = 1000;
int currentValue = tx.inputs[this.activeInputIndex].value;
int changeValue = currentValue - pledge - minerFee;

// If there is not enough left for *another* pledge after this one,
// we send the remainder to the recipient. Otherwise we send the
// remainder to the recipient and the change back to the contract
if (changeValue <= pledge + minerFee) {
require(tx.outputs[0].value == currentValue - minerFee);
} else {
require(tx.outputs[0].value == pledge);
bytes changeBytecode = tx.inputs[this.activeInputIndex].lockingBytecode;
require(tx.outputs[1].lockingBytecode == changeBytecode);
require(tx.outputs[1].value == changeValue);
}
}

function reclaim(pubkey pk, sig s) {
require(hash160(pk) == funder);
require(checkSig(s, pk));
}
}

v0.5 to v0.6

cashc compiler

The exports for library usage of cashc have been updated. All utility-type exports have been moved to the @cashscript/utils package, but they are still accessible from the utils export from cashc. Note that the recommended use of cashc is still the CLI, not the NPM package.

In v0.5 you could encode a string like this:

const { Data } = require('cashc');

const encodedString = Data.encodeString('Hello World');

While for v0.6 you'd need to use the utils export or @cashscript/utils:

const { utils } = require('cashc');
const { encodeString } = require('@cashscript/utils');

const encodedString = utils.encodeString('Hello World');
const encodedString = encodeString('Hello World');

Compilation functions used to be exported as part of the CashCompiler object, but are now exported as standalone functions.

In v0.5 compilation looked like this:

const { CashCompiler } = require('cashc');

const Mecenas = CashCompiler.compileFile(path.join(__dirname, 'mecenas.cash'));

In v0.6, this needs to be changed to this:

const { compileFile } = require('cashc');

const Mecenas = compileFile(path.join(__dirname, 'mecenas.cash'));

CashScript SDK

The CashScript SDK no longer depends on cashc and no longer exports the CashCompiler object. This reflects the recommended usage where the CLI is used for compilation and the artifact JSON is saved. Then this artifact JSON can be imported into the CashScript SDK. If you prefer to compile your contracts from code, you need to add cashc as a dependency and use its compilation functionality.

v0.4 to v0.5

CashScript SDK

The contract instantiation flow has been refactored to enable compatibility with more BCH libraries and simplify the different classes involved.


In v0.4 a contract could be compiled or imported using Contract.compile() or Contract.import(), which returned a Contract object. On that Contract object contract.new(...args) could be called, which returned an Instance object. In the v0.5 release, the Contract and Instance objects have been merged and simplified, while the compilation has been extracted into its own class.

In v0.4, contract instantiation looked like this:

const { Contract } = require('cashscript');

const Mecenas = Contract.compile(path.join(__dirname, 'mecenas.cash'), 'testnet');
const contract = Mecenas.new(alicePkh, bobPkh, 10000);

In v0.5, this needs to be changed to look like this:

const { CashCompiler, ElectrumNetworkProvider, Contract } = require('cashscript');

const Mecenas = CashCompiler.compileFile(path.join(__dirname, 'mecenas.cash'));
const provider = new ElectrumNetworkProvider('testnet');
const contract = new Contract(Mecenas, [alicePkh, bobPkh, 10000], provider);

  • Transaction object's .send() function now returns either a libauth Transaction or raw hex string rather than a BITBOX Transaction. If it is necessary, the raw hex string can be imported into libraries such as BITBOX to achieve similar functionality as before.

  • In v0.4.1, Sig was deprecated in favour of SignatureTemplate. In v0.5.0, the deprecated class has been removed. All occurrences of Sig should be replaced with SignatureTemplate.

See the release notes for an overview of other new changes.

v0.3 to v0.4

cashc compiler

In v0.3, casting an int type to a bytes would perform an NUM2BIN operation, padding the value to 8 bytes. This made bytes(10) equivalent to bytes8(10). From v0.4.0 onwards, casting to an unbounded bytes type is only a semantic cast, indicating that the int value should be treated as a bytes value.

  • If you need the old behaviour, you should change all occurrences of bytes(x) to bytes8(x).

CashScript SDK

The entire Transaction flow has been refactored to a more fluent chained TransactionBuilder API.

  • All occurrences of .send(to, amount) should be replaced with .to(to, amount).send().
  • All occurrences of .send(outputs) should be replaced with .to(outputs).send().
    • Alternatively, the list of outputs can be split up between several .to() calls.
    • If any of the outputs contain opReturn outputs, these should be added separately using .withOpReturn(chunks)
  • The same transformations are applicable to all .meep() calls.
  • The meep() function previously logged the meep command automatically, but now it returns the command as a string, so you should console.log() the command separately.
  • All transaction options previously included in the TxOptions object should now be provided using chained functions.
    • The time option should be provided using the .withTime(time) function.
    • The age option should be provided using the .withAge(age) function.
    • The fee option should be provided using the .withHardcodedFee(fee) function.
    • The minChange option should be provided using the .withMinChange(minChange) function.

In v0.2.2, Contract.fromCashFile() and Contract.fromArtifact() were deprecated in favour of Contract.compile() and Contract.import(). In v0.4.0, the deprecated functions have been removed.

  • All occurrences of Contract.fromCashFile() should be replaced with Contract.compile().
  • All occurrences of Contract.fromArtifact() should be replaced with Contract.import().

See the release notes for an overview of other new changes.