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Transactions
Types
UnsignedTransaction
unsignedTransaction . to => string< Address >
The addres this transaction is to.
unsignedTransaction . nonce => number
The nonce of this transaction.
unsignedTransaction . gasLimit => BigNumberish
The gas limit for this transaction.
unsignedTransaction . gasPrice => BigNumberish
The gas price for this transaction.
unsignedTransaction . data => BytesLike
The data for this transaction.
unsignedTransaction . value => BigNumberish
The value (in wei) for this transaction.
unsignedTransaction . chainId => number
The chain ID for this transaction. If the chain ID is 0 or null, then EIP-155 is disabled and legacy signing is used, unless overridden in a signature.
Transaction
transaction . hash => string< DataHexString< 32 > >
The transaction hash, which can be used as an identifier for transaction. This is the keccak256 of the serialized RLP encoded representation of transaction.
unsignedTransaction . to => string< Address >
The address transaction is to.
transaction . from => string< Address >
The address transaction is from.
transaction . nonce => number
The nonce for transaction. Each transaction sent to the network from an account includes this, which ensures the order and non-replayability of a transaction. This must be equal to the current number of transactions ever sent to the network by the from address.
transaction . gasLimit => BigNumber
The gas limit for transaction. An account must have enough ether to cover the gas (at the specified gasPrice). Any unused gas is refunded at the end of the transaction, and if there is insufficient gas to complete execution, the effects of the trasaction are reverted, but the gas is fully consumed and an out-of-gas error occurs.
transaction . gasPrice => BigNumber
The price (in wei) per unit of gas for transaction.
transaction . data => BytesLike
The data for transaction. In a contract this is the call data.
transaction . value => BigNumber
The value (in wei) for transaction.
transaction . chainId => number
The chain ID for transaction. This is used as part of EIP-155 to prevent replay attacks on different networks.
For example, if a transaction was made on ropsten with an account also used on homestead, it would be possible for a transaction signed on ropsten to be executed on homestead, which is likely unintended.
There are situations where replay may be desired, however these are very rare and it is almost always recommended to specify the chain ID.
transaction . r => string< DataHexString< 32 > >
The r portion of the elliptic curve signatures for transaction. This is more accurately, the x coordinate of the point r (from which the y can be computed, along with v).
transaction . s => string< DataHexString< 32 > >
The s portion of the elliptic curve signatures for transaction.
transaction . v => number
The v portion of the elliptic curve signatures for transaction. This is used to refine which of the two possible points a given x-coordinate can have, and in EIP-155 is additionally used to encode the chain ID into the serialized transaction.
Functions
ethers . utils . parseTransaction( aBytesLike ) => Transaction
Parses the transaction properties from a serialized transactions.
ethers . utils . serializeTransaction( tx [ , signature ] ) => string< DataHexString >
Computes the serialized transaction, optionally serialized with the a signature. If signature is not present, the unsigned serialized transaction is returned, which can be used to compute the hash necessary to sign.
This function uses EIP-155 if a chainId is provided, otherwise legacy serialization is used. It is highly recommended to always specify a chainId.
If signature includes a chain ID (explicitly or implicitly by using an EIP-155 v
or _vs
) it will be used to compute the chain ID.
If there is a mismatch between the chain ID of transaction and signature an error is thrown.