Protocol Kit
Software development kit that facilitates the interaction with the Safe contracts.
Table of contents
Install the package with yarn or npm:
yarn add @safe-global/protocol-kit
npm install @safe-global/protocol-kit
Build the package with yarn or npm:
yarn build
npm run build
Create a .env
file with environment variables. You can use the .env.example
file as a reference.
Test the package with yarn or npm:
yarn test
npm run test
The following steps show how to set up the Protocol Kit, deploy a new Safe, create a Safe transaction, generate the required signatures from owners and execute the transaction. However, using the Protocol Kit alone will not allow for the collection of owner signatures off-chain. To do this and be able to see and confirm the pending transactions shown in the Safe Web App, it is recommended that you follow this other guide that covers the use of the Protocol Kit, combined with the API Kit.
1. Instantiate an EthAdapter
First of all, we need to create an EthAdapter
, which contains all the required utilities for the SDKs to interact with the blockchain. It acts as a wrapper for web3.js or ethers.js Ethereum libraries.
Depending on the library used by the Dapp, there are two options:
Once the instance of EthersAdapter
or Web3Adapter
is created, it can be used in the SDK initialization.
2. Deploy a new Safe
To deploy a new Safe account instantiate the SafeFactory
class and call the deploySafe
method with the right params to configure the new Safe. This includes defining the list of owners and the threshold of the Safe. A Safe account with three owners and threshold equal three will be used as the starting point for this example but any Safe configuration is valid.
import Safe, { SafeFactory, SafeAccountConfig } from '@safe-global/protocol-kit'
const safeFactory = await SafeFactory.create({ ethAdapter })
const owners = ['0x<address>', '0x<address>', '0x<address>']
const threshold = 3
const safeAccountConfig: SafeAccountConfig = {
owners,
threshold
}
const safeSdk: Safe = await safeFactory.deploySafe({ safeAccountConfig })
The deploySafe
method executes a transaction from the owner1
account, deploys a new Safe and returns an instance of the Protocol Kit connected to the new Safe. Check the deploySafe
method in the API Reference for more details on additional configuration parameters and callbacks.
Call the getAddress
method, for example, to check the address of the newly deployed Safe.
const newSafeAddress = await safeSdk.getAddress()
To instantiate the Protocol Kit from an existing Safe just pass to it an instance of the EthAdapter
class and the Safe address.
import Safe from '@safe-global/protocol-kit'
const safeSdk: Safe = await Safe.create({ ethAdapter: ethAdapterOwner1, safeAddress })
Check the create
method in the API Reference for more details on additional configuration parameters.
3. Create a Safe transaction
import { SafeTransactionDataPartial } from '@safe-global/safe-core-sdk-types'
const safeTransactionData: SafeTransactionDataPartial = {
to: '0x<address>',
value: '<eth_value_in_wei>',
data: '0x<data>'
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
Check the createTransaction
method in the API Reference for additional details on creating MultiSend transactions.
Before executing this transaction, it must be signed by the owners and this can be done off-chain or on-chain. In this example owner1
will sign it off-chain, owner2
will sign it on-chain and owner3
will execute it (the executor also signs the transaction transparently).
3.a. Off-chain signatures
The owner1
account signs the transaction off-chain.
const signedSafeTransaction = await safeSdk.signTransaction(safeTransaction)
Because the signature is off-chain, there is no interaction with the contract and the signature becomes available at signedSafeTransaction.signatures
.
3.b. On-chain signatures
To connect owner2
to the Safe we need to create a new instance of the class EthAdapter
passing to its constructor the owner we would like to connect. After owner2
account is connected to the SDK as a signer the transaction hash will be approved on-chain.
const ethAdapterOwner2 = new EthersAdapter({ ethers, signerOrProvider: owner2 })
const safeSdk2 = await safeSdk.connect({ ethAdapter: ethAdapterOwner2, safeAddress })
const txHash = await safeSdk2.getTransactionHash(safeTransaction)
const approveTxResponse = await safeSdk2.approveTransactionHash(txHash)
await approveTxResponse.transactionResponse?.wait()
4. Transaction execution
Lastly, owner3
account is connected to the SDK as a signer and executor of the Safe transaction to execute it.
const ethAdapterOwner3 = new EthersAdapter({ ethers, signerOrProvider: owner3 })
const safeSdk3 = await safeSdk2.connect({ ethAdapter: ethAdapterOwner3, safeAddress })
const executeTxResponse = await safeSdk3.executeTransaction(safeTransaction)
await executeTxResponse.transactionResponse?.wait()
All the signatures used to execute the transaction are now available at safeTransaction.signatures
.
create
Returns an instance of the Safe Factory.
import { SafeFactory } from '@safe-global/protocol-kit'
const safeFactory = await SafeFactory.create({ ethAdapter })
-
The isL1SafeSingleton
flag
There are two versions of the Safe contracts: Safe.sol that does not trigger events in order to save gas and SafeL2.sol that does, which is more appropriate for L2 networks.
By default Safe.sol
will be only used on Ethereum Mainnet. For the rest of the networks where the Safe contracts are already deployed, the SafeL2.sol
contract will be used unless you add the isL1SafeSingleton
flag to force the use of the Safe.sol
contract.
const safeFactory = await SafeFactory.create({ ethAdapter, isL1SafeSingleton: true })
-
The contractNetworks
property
If the Safe contracts are not deployed to your current network, the contractNetworks
property will be required to point to the addresses of the Safe contracts previously deployed by you.
import { ContractNetworksConfig } from '@safe-global/protocol-kit'
const chainId = await ethAdapter.getChainId()
const contractNetworks: ContractNetworksConfig = {
[chainId]: {
safeSingletonAddress: '<SINGLETON_ADDRESS>',
safeProxyFactoryAddress: '<PROXY_FACTORY_ADDRESS>',
multiSendAddress: '<MULTI_SEND_ADDRESS>',
multiSendCallOnlyAddress: '<MULTI_SEND_CALL_ONLY_ADDRESS>',
fallbackHandlerAddress: '<FALLBACK_HANDLER_ADDRESS>',
signMessageLibAddress: '<SIGN_MESSAGE_LIB_ADDRESS>',
createCallAddress: '<CREATE_CALL_ADDRESS>',
simulateTxAccessorAddress: '<SIMULATE_TX_ACCESSOR_ADDRESS>',
safeSingletonAbi: '<SINGLETON_ABI>',
safeProxyFactoryAbi: '<PROXY_FACTORY_ABI>',
multiSendAbi: '<MULTI_SEND_ABI>',
multiSendCallOnlyAbi: '<MULTI_SEND_CALL_ONLY_ABI>',
fallbackHandlerAbi: '<FALLBACK_HANDLER_ABI>',
signMessageLibAbi: '<SIGN_MESSAGE_LIB_ABI>',
createCallAbi: '<CREATE_CALL_ABI>',
simulateTxAccessorAbi: '<SIMULATE_TX_ACCESSOR_ABI>'
}
}
const safeFactory = await SafeFactory.create({ ethAdapter, contractNetworks })
-
The safeVersion
property
The SafeFactory
constructor also accepts the safeVersion
property to specify the Safe contract version that will be deployed. This string can take the values 1.0.0
, 1.1.1
, 1.2.0
, 1.3.0
or 1.4.1
. If not specified, the DEFAULT_SAFE_VERSION
value will be used.
const safeVersion = 'X.Y.Z'
const safeFactory = await SafeFactory.create({ ethAdapter, safeVersion })
deploySafe
Deploys a new Safe and returns an instance of the Protocol Kit connected to the deployed Safe. The Singleton address, contract version and layer instance (Safe.sol
or SafeL2.sol
) of the deployed Safe will depend on the configuration used to create the safeFactory
.
const safeAccountConfig: SafeAccountConfig = {
owners,
threshold,
to,
data,
fallbackHandler,
paymentToken,
payment,
paymentReceiver
}
const safeSdk = await safeFactory.deploySafe({ safeAccountConfig })
This method can optionally receive the saltNonce
parameter.
const safeAccountConfig: SafeAccountConfig = {
owners,
threshold,
to,
data,
fallbackHandler,
paymentToken,
payment,
paymentReceiver
}
const saltNonce = '<YOUR_CUSTOM_VALUE>'
const safeSdk = await safeFactory.deploySafe({ safeAccountConfig, saltNonce })
Optionally, some properties can be passed as execution options:
const options: Web3TransactionOptions = {
from,
gas,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const options: EthersTransactionOptions = {
from,
gasLimit,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const safeSdk = await safeFactory.deploySafe({ safeAccountConfig, safeDeploymentConfig, options })
It can also take an optional callback which receives the txHash
of the Safe deployment transaction prior to returning a new instance of the Protocol Kit:
const callback = (txHash: string): void => {
console.log({ txHash })
}
const safeSdk = await safeFactory.deploySafe({ safeAccountConfig, callback })
create
Returns an instance of the Protocol Kit connected to a Safe. The provided Safe must be a safeAddress
or a predictedSafe
.
Initialization of a deployed Safe using the safeAddress
property:
import Safe from '@safe-global/protocol-kit'
const safeSdk = await Safe.create({ ethAdapter, safeAddress })
Initialization of a not deployed Safe using the predictedSafe
property. Because Safes are deployed in a deterministic way, passing a predictedSafe
will allow to initialize the SDK with the Safe configuration and use it to some extent before it is deployed:
import Safe, { PredictedSafeProps } from '@safe-global/protocol-kit'
const predictedSafe: PredictedSafeProps = {
safeAccountConfig,
safeDeploymentConfig
}
const safeSdk = await Safe.create({ ethAdapter, predictedSafe })
-
The isL1SafeSingleton
flag
There are two versions of the Safe contracts: Safe.sol that does not trigger events in order to save gas and SafeL2.sol that does, which is more appropriate for L2 networks.
By default Safe.sol
will be only used on Ethereum Mainnet. For the rest of the networks where the Safe contracts are already deployed, the SafeL2.sol
contract will be used unless you add the isL1SafeSingleton
flag to force the use of the Safe.sol
contract.
const safeSdk = await Safe.create({ ethAdapter, safeAddress, isL1SafeSingleton: true })
-
The contractNetworks
property
If the Safe contracts are not deployed to your current network, the contractNetworks
property will be required to point to the addresses of the Safe contracts previously deployed by you.
import { ContractNetworksConfig } from '@safe-global/protocol-kit'
const chainId = await ethAdapter.getChainId()
const contractNetworks: ContractNetworksConfig = {
[chainId]: {
safeSingletonAddress: '<SINGLETON_ADDRESS>',
safeProxyFactoryAddress: '<PROXY_FACTORY_ADDRESS>',
multiSendAddress: '<MULTI_SEND_ADDRESS>',
multiSendCallOnlyAddress: '<MULTI_SEND_CALL_ONLY_ADDRESS>',
fallbackHandlerAddress: '<FALLBACK_HANDLER_ADDRESS>',
signMessageLibAddress: '<SIGN_MESSAGE_LIB_ADDRESS>',
createCallAddress: '<CREATE_CALL_ADDRESS>',
simulateTxAccessorAddress: '<SIMULATE_TX_ACCESSOR_ADDRESS>',
safeSingletonAbi: '<SINGLETON_ABI>',
safeProxyFactoryAbi: '<PROXY_FACTORY_ABI>',
multiSendAbi: '<MULTI_SEND_ABI>',
multiSendCallOnlyAbi: '<MULTI_SEND_CALL_ONLY_ABI>',
fallbackHandlerAbi: '<FALLBACK_HANDLER_ABI>',
signMessageLibAbi: '<SIGN_MESSAGE_LIB_ABI>',
createCallAbi: '<CREATE_CALL_ABI>',
simulateTxAccessorAbi: '<SIMULATE_TX_ACCESSOR_ABI>'
}
}
const safeSdk = await Safe.create({ ethAdapter, safeAddress, contractNetworks })
connect
Returns a new instance of the Protocol Kit connected to a new Safe or a new Signer. The new connected signer can be passed via the ethAdapter
property while the new connected Safe can be passed using a safeAddress
or a predictedSafe
.
Connection of a deployed Safe using the safeAddress
property:
const safeSdk = await safeSdk.connect({ ethAdapter, safeAddress })
Connection of a not deployed Safe using the predictedSafe
property. Because Safes are deployed in a deterministic way, passing a predictedSafe
will allow to connect a Safe to the SDK with the Safe configuration:
import { PredictedSafeProps } from '@safe-global/protocol-kit'
const predictedSafe: PredictedSafeProps = {
safeAccountConfig,
safeDeploymentConfig
}
const safeSdk = await safeSdk.connect({ ethAdapter, predictedSafe })
-
The isL1SafeSingleton
flag
There are two versions of the Safe contracts: Safe.sol that does not trigger events in order to save gas and SafeL2.sol that does, which is more appropriate for L2 networks.
By default Safe.sol
will be only used on Ethereum Mainnet. For the rest of the networks where the Safe contracts are already deployed, the SafeL2.sol
contract will be used unless you add the isL1SafeSingleton
flag to force the use of the Safe.sol
contract.
const safeSdk = await Safe.connect({ ethAdapter, safeAddress, isL1SafeSingleton: true })
-
The contractNetworks
property
If the Safe contracts are not deployed to your current network, the contractNetworks
property will be required to point to the addresses of the Safe contracts previously deployed by you.
import { ContractNetworksConfig } from '@safe-global/protocol-kit'
const chainId = await ethAdapter.getChainId()
const contractNetworks: ContractNetworksConfig = {
[chainId]: {
safeSingletonAddress: '<SINGLETON_ADDRESS>',
safeProxyFactoryAddress: '<PROXY_FACTORY_ADDRESS>',
multiSendAddress: '<MULTI_SEND_ADDRESS>',
multiSendCallOnlyAddress: '<MULTI_SEND_CALL_ONLY_ADDRESS>',
fallbackHandlerAddress: '<FALLBACK_HANDLER_ADDRESS>',
signMessageLibAddress: '<SIGN_MESSAGE_LIB_ADDRESS>',
createCallAddress: '<CREATE_CALL_ADDRESS>',
simulateTxAccessorAddress: '<SIMULATE_TX_ACCESSOR_ADDRESS>',
safeSingletonAbi: '<SINGLETON_ABI>',
safeProxyFactoryAbi: '<PROXY_FACTORY_ABI>',
multiSendAbi: '<MULTI_SEND_ABI>',
multiSendCallOnlyAbi: '<MULTI_SEND_CALL_ONLY_ABI>',
fallbackHandlerAbi: '<FALLBACK_HANDLER_ABI>',
signMessageLibAbi: '<SIGN_MESSAGE_LIB_ABI>',
createCallAbi: '<CREATE_CALL_ABI>',
simulateTxAccessorAbi: '<SIMULATE_TX_ACCESSOR_ABI>'
}
}
const safeSdk = await Safe.connect({ ethAdapter, safeAddress, contractNetworks })
getAddress
Returns the address of the current SafeProxy contract.
const safeAddress = await safeSdk.getAddress()
getContractVersion
Returns the Safe Singleton contract version.
const contractVersion = await safeSdk.getContractVersion()
getOwners
Returns the list of Safe owner accounts.
const ownerAddresses = await safeSdk.getOwners()
getNonce
Returns the Safe nonce.
const nonce = await safeSdk.getNonce()
getThreshold
Returns the Safe threshold.
const threshold = await safeSdk.getThreshold()
getChainId
Returns the chainId of the connected network.
const chainId = await safeSdk.getChainId()
getBalance
Returns the ETH balance of the Safe.
const balance = await safeSdk.getBalance()
getGuard
Returns the enabled Safe guard or 0x address if no guards are enabled.
const guardAddress = await safeSdk.getGuard()
getModules
Returns the list of addresses of all the enabled Safe modules.
const moduleAddresses = await safeSdk.getModules()
isModuleEnabled
Checks if a specific Safe module is enabled for the current Safe.
const isEnabled = await safeSdk.isModuleEnabled(moduleAddress)
isOwner
Checks if a specific address is an owner of the current Safe.
const isOwner = await safeSdk.isOwner(address)
createTransaction
Returns a Safe transaction ready to be signed by the owners and executed. The Protocol Kit supports the creation of single Safe transactions but also MultiSend transactions.
-
Single transactions
This method can take an object of type SafeTransactionDataPartial
that represents the transaction we want to execute (once the signatures are collected). It accepts some optional properties as follows.
import { SafeTransactionDataPartial } from '@safe-global/safe-core-sdk-types'
const safeTransactionData: SafeTransactionDataPartial = {
to,
data,
value,
operation,
safeTxGas,
baseGas,
gasPrice,
gasToken,
refundReceiver,
nonce
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
-
MultiSend transactions
This method can take an array of MetaTransactionData
objects that represent the multiple transactions we want to include in our MultiSend transaction. If we want to specify some of the optional properties in our MultiSend transaction, we can pass a second argument to the createTransaction
method with the SafeTransactionOptionalProps
object.
const safeTransactionData: MetaTransactionData[] = [
{
to,
data,
value,
operation
},
{
to,
data,
value,
operation
}
]
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
This method can also receive the options
parameter to set the optional properties in the MultiSend transaction:
const safeTransactionData: MetaTransactionData[] = [
{
to,
data,
value,
operation
},
{
to,
data,
value,
operation
}
]
const options: SafeTransactionOptionalProps = {
safeTxGas,
baseGas,
gasPrice,
gasToken,
refundReceiver,
nonce
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData, options })
In addition, the optional callsOnly
parameter, which is false
by default, allows to force the use of the MultiSendCallOnly
instead of the MultiSend
contract when sending a batch transaction:
const callsOnly = true
const safeTransaction = await safeSdk.createTransaction({
safeTransactionData,
options,
callsOnly
})
If the optional properties are not manually set, the Safe transaction returned will have the default value for each one:
operation
: OperationType.Call
(0) is the default value.safeTxGas
: The right gas estimation is the default value.baseGas
: 0 is the default value.gasPrice
: 0 is the default value.gasToken
: 0x address is the default value.refundReceiver
: 0x address is the default value.nonce
: The current Safe nonce is the default value.
Read more about create transactions from a Safe.
createRejectionTransaction
Returns a Safe transaction ready to be signed by the owners that invalidates the pending Safe transaction/s with a specific nonce.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const rejectionTransaction = await safeSdk.createRejectionTransaction(safeTransaction.data.nonce)
copyTransaction
Copies a Safe transaction.
const safeTransaction1 = await safeSdk.createTransaction({ safeTransactionData })
const safeTransaction2 = await copyTransaction(safeTransaction1)
getTransactionHash
Returns the transaction hash of a Safe transaction.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const txHash = await safeSdk.getTransactionHash(safeTransaction)
signTransactionHash
Signs a hash using the current owner account.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const txHash = await safeSdk.getTransactionHash(safeTransaction)
const signature = await safeSdk.signTransactionHash(txHash)
signTypedData
Signs a transaction according to the EIP-712 using the current signer account.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const signature = await safeSdk.signTypedData(safeTransaction)
signTransaction
Returns a new SafeTransaction
object that includes the signature of the current owner. eth_sign
will be used by default to generate the signature.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const signedSafeTransaction = await safeSdk.signTransaction(safeTransaction)
Optionally, an additional parameter can be passed to specify a different way of signing:
const signedSafeTransaction = await safeSdk.signTransaction(safeTransaction, 'eth_signTypedData')
const signedSafeTransaction = await safeSdk.signTransaction(safeTransaction, 'eth_sign')
approveTransactionHash
Approves a hash on-chain using the current owner account.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const txHash = await safeSdk.getTransactionHash(safeTransaction)
const txResponse = await safeSdk.approveTransactionHash(txHash)
await txResponse.transactionResponse?.wait()
Optionally, some properties can be passed as execution options:
const options: Web3TransactionOptions = {
from,
gas,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const options: EthersTransactionOptions = {
from,
gasLimit,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const txResponse = await safeSdk.approveTransactionHash(txHash, options)
getOwnersWhoApprovedTx
Returns a list of owners who have approved a specific Safe transaction.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const txHash = await safeSdk.getTransactionHash(safeTransaction)
const ownerAddresses = await safeSdk.getOwnersWhoApprovedTx(txHash)
createEnableFallbackHandlerTx
Returns the Safe transaction to enable the fallback handler.
const safeTransaction = await safeSdk.createEnableFallbackHandlerTx(fallbackHandlerAddress)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = {
safeTxGas,
baseGas,
gasPrice,
gasToken,
refundReceiver,
nonce
}
const safeTransaction = await safeSdk.createEnableFallbackHandlerTx(fallbackHandlerAddress, options)
createDisableFallbackHandlerTx
Returns the Safe transaction to disable the fallback handler.
const safeTransaction = await safeSdk.createDisableFallbackHandlerTx()
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createDisableFallbackHandlerTx(options)
createEnableGuardTx
Returns the Safe transaction to enable a Safe guard.
const safeTransaction = await safeSdk.createEnableGuardTx(guardAddress)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = {
safeTxGas,
baseGas,
gasPrice,
gasToken,
refundReceiver,
nonce
}
const safeTransaction = await safeSdk.createEnableGuardTx(guardAddress, options)
createDisableGuardTx
Returns the Safe transaction to disable a Safe guard.
const safeTransaction = await safeSdk.createDisableGuardTx()
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createDisableGuardTx(options)
createEnableModuleTx
Returns a Safe transaction ready to be signed that will enable a Safe module.
const safeTransaction = await safeSdk.createEnableModuleTx(moduleAddress)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createEnableModuleTx(moduleAddress, options)
createDisableModuleTx
Returns a Safe transaction ready to be signed that will disable a Safe module.
const safeTransaction = await safeSdk.createDisableModuleTx(moduleAddress)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createDisableModuleTx(moduleAddress, options)
createAddOwnerTx
Returns the Safe transaction to add an owner and optionally change the threshold.
const params: AddOwnerTxParams = {
ownerAddress,
threshold
}
const safeTransaction = await safeSdk.createAddOwnerTx(params)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createAddOwnerTx(params, options)
createRemoveOwnerTx
Returns the Safe transaction to remove an owner and optionally change the threshold.
const params: RemoveOwnerTxParams = {
ownerAddress,
newThreshold
}
const safeTransaction = await safeSdk.createRemoveOwnerTx(params)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createRemoveOwnerTx(params, options)
createSwapOwnerTx
Returns the Safe transaction to replace an owner of the Safe with a new one.
const params: SwapOwnerTxParams = {
oldOwnerAddress,
newOwnerAddress
}
const safeTransaction = await safeSdk.createSwapOwnerTx(params)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createSwapOwnerTx(params, options)
createChangeThresholdTx
Returns the Safe transaction to change the threshold.
const safeTransaction = await safeSdk.createChangeThresholdTx(newThreshold)
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
This method can optionally receive the options
parameter:
const options: SafeTransactionOptionalProps = { ... }
const safeTransaction = await safeSdk.createChangeThresholdTx(newThreshold, options)
isValidTransaction
Checks if a Safe transaction can be executed successfully with no errors.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const isValidTx = await safeSdk.isValidTransaction(safeTransaction)
Optionally, some properties can be passed as execution options:
const options: Web3TransactionOptions = {
from,
gas,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const options: EthersTransactionOptions = {
from,
gasLimit,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const isValidTx = await safeSdk.isValidTransaction(safeTransaction, options)
executeTransaction
Executes a Safe transaction.
const safeTransactionData: SafeTransactionDataPartial = {
}
const safeTransaction = await safeSdk.createTransaction({ safeTransactionData })
const txResponse = await safeSdk.executeTransaction(safeTransaction)
await txResponse.transactionResponse?.wait()
Optionally, some properties can be passed as execution options:
const options: Web3TransactionOptions = {
from,
gas,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const options: EthersTransactionOptions = {
from,
gasLimit,
gasPrice,
maxFeePerGas,
maxPriorityFeePerGas
nonce
}
const txResponse = await safeSdk.executeTransaction(safeTransaction, options)
This library is released under MIT.