2019-01-07 13:50:21 +00:00
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.. index:: ! event
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.. _events:
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******
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Events
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******
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Solidity events give an abstraction on top of the EVM's logging functionality.
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Applications can subscribe and listen to these events through the RPC interface of an Ethereum client.
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Events are inheritable members of contracts. When you call them, they cause the
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arguments to be stored in the transaction's log - a special data structure
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in the blockchain. These logs are associated with the address of the contract,
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are incorporated into the blockchain, and stay there as long as a block is
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accessible (forever as of the Frontier and Homestead releases, but this might
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change with Serenity). The Log and its event data is not accessible from within
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contracts (not even from the contract that created them).
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It is possible to request a simple payment verification (SPV) for logs, so if
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an external entity supplies a contract with such a verification, it can check
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that the log actually exists inside the blockchain. You have to supply block headers
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because the contract can only see the last 256 block hashes.
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You can add the attribute ``indexed`` to up to three parameters which adds them
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to a special data structure known as :ref:`"topics" <abi_events>` instead of
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the data part of the log. If you use arrays (including ``string`` and ``bytes``)
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as indexed arguments, its Keccak-256 hash is stored as a topic instead, this is
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because a topic can only hold a single word (32 bytes).
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All parameters without the ``indexed`` attribute are :ref:`ABI-encoded <ABI>`
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into the data part of the log.
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Topics allow you to search for events, for example when filtering a sequence of
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blocks for certain events. You can also filter events by the address of the
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contract that emitted the event.
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For example, the code below uses the web3.js ``subscribe("logs")``
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`method <https://web3js.readthedocs.io/en/1.0/web3-eth-subscribe.html#subscribe-logs>`_ to filter
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logs that match a topic with a certain address value:
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.. code-block:: javascript
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var options = {
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fromBlock: 0,
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address: web3.eth.defaultAccount,
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topics: ["0x0000000000000000000000000000000000000000000000000000000000000000", null, null]
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};
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web3.eth.subscribe('logs', options, function (error, result) {
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if (!error)
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console.log(result);
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})
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.on("data", function (log) {
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console.log(log);
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})
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.on("changed", function (log) {
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});
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The hash of the signature of the event is one of the topics, except if you
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declared the event with the ``anonymous`` specifier. This means that it is
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2019-05-20 13:06:41 +00:00
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not possible to filter for specific anonymous events by name, you can
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only filter by the contract address. The advantage of anonymous events
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is that they are cheaper to deploy and call.
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2019-01-07 13:50:21 +00:00
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::
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2019-03-05 17:10:09 +00:00
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pragma solidity >=0.4.21 <0.7.0;
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2019-01-07 13:50:21 +00:00
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contract ClientReceipt {
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event Deposit(
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address indexed _from,
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bytes32 indexed _id,
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uint _value
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);
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function deposit(bytes32 _id) public payable {
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// Events are emitted using `emit`, followed by
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// the name of the event and the arguments
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// (if any) in parentheses. Any such invocation
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// (even deeply nested) can be detected from
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// the JavaScript API by filtering for `Deposit`.
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emit Deposit(msg.sender, _id, msg.value);
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}
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}
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The use in the JavaScript API is as follows:
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::
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var abi = /* abi as generated by the compiler */;
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var ClientReceipt = web3.eth.contract(abi);
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var clientReceipt = ClientReceipt.at("0x1234...ab67" /* address */);
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var event = clientReceipt.Deposit();
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// watch for changes
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event.watch(function(error, result){
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// result contains non-indexed arguments and topics
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// given to the `Deposit` call.
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if (!error)
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console.log(result);
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});
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// Or pass a callback to start watching immediately
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var event = clientReceipt.Deposit(function(error, result) {
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if (!error)
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console.log(result);
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});
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The output of the above looks like the following (trimmed):
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.. code-block:: json
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{
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"returnValues": {
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"_from": "0x1111…FFFFCCCC",
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"_id": "0x50…sd5adb20",
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"_value": "0x420042"
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},
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"raw": {
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"data": "0x7f…91385",
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"topics": ["0xfd4…b4ead7", "0x7f…1a91385"]
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}
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}
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.. index:: ! log
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Low-Level Interface to Logs
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===========================
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It is also possible to access the low-level interface to the logging
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mechanism via the functions ``log0``, ``log1``, ``log2``, ``log3`` and ``log4``.
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2019-09-10 14:52:32 +00:00
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Each function ``logi`` takes ``i + 1`` parameter of type ``bytes32``, where the first
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2019-01-07 13:50:21 +00:00
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argument will be used for the data part of the log and the others
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as topics. The event call above can be performed in the same way as
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::
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2019-03-05 17:10:09 +00:00
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pragma solidity >=0.4.10 <0.7.0;
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2019-01-07 13:50:21 +00:00
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contract C {
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function f() public payable {
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uint256 _id = 0x420042;
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log3(
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bytes32(msg.value),
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bytes32(0x50cb9fe53daa9737b786ab3646f04d0150dc50ef4e75f59509d83667ad5adb20),
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bytes32(uint256(msg.sender)),
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bytes32(_id)
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);
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}
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}
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where the long hexadecimal number is equal to
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``keccak256("Deposit(address,bytes32,uint256)")``, the signature of the event.
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Additional Resources for Understanding Events
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==============================================
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- `Javascript documentation <https://github.com/ethereum/wiki/wiki/JavaScript-API#contract-events>`_
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- `Example usage of events <https://github.com/debris/smart-exchange/blob/master/lib/contracts/SmartExchange.sol>`_
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- `How to access them in js <https://github.com/debris/smart-exchange/blob/master/lib/exchange_transactions.js>`_
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