Web3 API

class web3.Web3(provider)

Each Web3 instance exposes the following APIs.

Providers

Web3.HTTPProvider

Convenience API to access web3.providers.rpc.HTTPProvider

Web3.IPCProvider

Convenience API to access web3.providers.ipc.IPCProvider

Attributes

Web3.api

Returns the current Web3 version.

>>> web3.api
"4.7.0"
Web3.client_version
  • Delegates to web3_clientVersion RPC Method

Returns the current client version.

>>> web3.client_version
'Geth/v1.4.11-stable-fed692f6/darwin/go1.7'

Batch Requests

Web3.batch_requests()

The JSON-RPC API allows for batch requests, meaning you can send a single request that contains an array of request objects. Generally, this may be useful when you want to limit the number of requests you send to a node.

You can choose to build a batch of requests within or outside of a context manager:

with w3.batch_requests() as batch:
    batch.add(w3.eth.get_block(6))
    batch.add(w3.eth.get_block(4))
    batch.add(w3.eth.get_block(2))

    responses = batch.execute()
    assert len(responses) == 3

Using the batch object directly:

batch = w3.batch_requests()
batch.add(w3.eth.get_block(1))
batch.add(w3.eth.get_block(2))
responses = batch.execute()
assert len(responses) == 2

Contract interactions can be included in batch requests by omitting the call() method:

batch.add(math_contract.functions.multiply7(0))

Additionally, if you need to make multiple calls of the same function, you can add a mapping of the function to its arguments:

batch = w3.batch_requests()
batch.add_mapping(
    {
        math_contract.functions.multiply7: [1, 2],
        w3.eth.get_block: [3, 4],
    }
)
responses = batch.execute()
assert len(responses) == 4

The execute method returns a list of responses in the order they were included in the batch.

If you need to abandon or rebuild a batch request, utilize the clear method:

batch = w3.batch_requests()
batch.add(w3.eth.get_block(1))
batch.add(w3.eth.get_block(2))
assert len(batch._requests_info) == 2

batch.clear()
assert batch._requests_info == []

Note

Only read-only operations that exist within modules on the Web3 class (e.g. w3.eth, w3.net) are supported by batch_requests. Unsupported methods include:

Async Batch Requests

If using one of the asynchronous providers, you’ll need to make use of the async_execute method and the async and await keywords as appropriate.

Note

If performance is a concern, consider using asyncio.gather() with single concurrent requests instead of an asynchronous batch request. It will generally be the faster option due to the overhead of batching.

# context manager:
async with w3.batch_requests() as batch:
    batch.add(w3.eth.get_block(6))
    batch.add(w3.eth.get_block(4))
    batch.add(w3.eth.get_block(2))

    responses = await batch.async_execute()
    assert len(responses) == 3

# object:
batch = w3.batch_requests()
batch.add(w3.eth.get_block(1))
batch.add(w3.eth.get_block(2))
responses = await batch.async_execute()
assert len(responses) == 2

Encoding and Decoding Helpers

Web3.to_hex(primitive=None, hexstr=None, text=None)

Takes a variety of inputs and returns it in its hexadecimal representation. It follows the rules for converting to hex in the JSON-RPC spec

>>> Web3.to_hex(0)
'0x0'
>>> Web3.to_hex(1)
'0x1'
>>> Web3.to_hex(0x0)
'0x0'
>>> Web3.to_hex(0x000F)
'0xf'
>>> Web3.to_hex(b'')
'0x'
>>> Web3.to_hex(b'\x00\x0F')
'0x000f'
>>> Web3.to_hex(False)
'0x0'
>>> Web3.to_hex(True)
'0x1'
>>> Web3.to_hex(hexstr='0x000F')
'0x000f'
>>> Web3.to_hex(hexstr='000F')
'0x000f'
>>> Web3.to_hex(text='')
'0x'
>>> Web3.to_hex(text='cowmö')
'0x636f776dc3b6'
Web3.to_text(primitive=None, hexstr=None, text=None)

Takes a variety of inputs and returns its string equivalent. Text gets decoded as UTF-8.

>>> Web3.to_text(0x636f776dc3b6)
'cowmö'
>>> Web3.to_text(b'cowm\xc3\xb6')
'cowmö'
>>> Web3.to_text(hexstr='0x636f776dc3b6')
'cowmö'
>>> Web3.to_text(hexstr='636f776dc3b6')
'cowmö'
>>> Web3.to_text(text='cowmö')
'cowmö'
Web3.to_bytes(primitive=None, hexstr=None, text=None)

Takes a variety of inputs and returns its bytes equivalent. Text gets encoded as UTF-8.

>>> Web3.to_bytes(0)
b'\x00'
>>> Web3.to_bytes(0x000F)
b'\x0f'
>>> Web3.to_bytes(b'')
b''
>>> Web3.to_bytes(b'\x00\x0F')
b'\x00\x0f'
>>> Web3.to_bytes(False)
b'\x00'
>>> Web3.to_bytes(True)
b'\x01'
>>> Web3.to_bytes(hexstr='0x000F')
b'\x00\x0f'
>>> Web3.to_bytes(hexstr='000F')
b'\x00\x0f'
>>> Web3.to_bytes(text='')
b''
>>> Web3.to_bytes(text='cowmö')
b'cowm\xc3\xb6'
Web3.to_int(primitive=None, hexstr=None, text=None)

Takes a variety of inputs and returns its integer equivalent.

>>> Web3.to_int(0)
0
>>> Web3.to_int(0x000F)
15
>>> Web3.to_int(b'\x00\x0F')
15
>>> Web3.to_int(False)
0
>>> Web3.to_int(True)
1
>>> Web3.to_int(hexstr='0x000F')
15
>>> Web3.to_int(hexstr='000F')
15
Web3.to_json(obj)

Takes a variety of inputs and returns its JSON equivalent.

>>> Web3.to_json(3)
'3'
>>> Web3.to_json({'one': 1})
'{"one": 1}'

Currency Conversions

Web3.to_wei(value, currency)

Returns the value in the denomination specified by the currency argument converted to wei.

>>> Web3.to_wei(1, 'ether')
1000000000000000000
Web3.from_wei(value, currency)

Returns the value in wei converted to the given currency. The value is returned as a Decimal to ensure precision down to the wei.

>>> Web3.from_wei(1000000000000000000, 'ether')
Decimal('1')

Addresses

Web3.is_address(value)

Returns True if the value is one of the recognized address formats.

  • Allows for both 0x prefixed and non-prefixed values.

  • If the address contains mixed upper and lower cased characters this function also checks if the address checksum is valid according to EIP55

>>> Web3.is_address('0xd3CdA913deB6f67967B99D67aCDFa1712C293601')
True
Web3.is_checksum_address(value)

Returns True if the value is a valid EIP55 checksummed address

>>> Web3.is_checksum_address('0xd3CdA913deB6f67967B99D67aCDFa1712C293601')
True
>>> Web3.is_checksum_address('0xd3cda913deb6f67967b99d67acdfa1712c293601')
False
Web3.to_checksum_address(value)

Returns the given address with an EIP55 checksum.

>>> Web3.to_checksum_address('0xd3cda913deb6f67967b99d67acdfa1712c293601')
'0xd3CdA913deB6f67967B99D67aCDFa1712C293601'

Cryptographic Hashing

classmethod Web3.keccak(primitive=None, hexstr=None, text=None)

Returns the Keccak-256 of the given value. Text is encoded to UTF-8 before computing the hash, just like Solidity. Any of the following are valid and equivalent:

>>> Web3.keccak(0x747874)
>>> Web3.keccak(b'\x74\x78\x74')
>>> Web3.keccak(hexstr='0x747874')
>>> Web3.keccak(hexstr='747874')
>>> Web3.keccak(text='txt')
HexBytes('0xd7278090a36507640ea6b7a0034b69b0d240766fa3f98e3722be93c613b29d2e')
classmethod Web3.solidity_keccak(abi_types, value)

Returns the Keccak-256 as it would be computed by the solidity keccak function on a packed ABI encoding of the value list contents. The abi_types argument should be a list of solidity type strings which correspond to each of the provided values.

>>> Web3.solidity_keccak(['bool'], [True])
HexBytes("0x5fe7f977e71dba2ea1a68e21057beebb9be2ac30c6410aa38d4f3fbe41dcffd2")

>>> Web3.solidity_keccak(['uint8', 'uint8', 'uint8'], [97, 98, 99])
HexBytes("0x4e03657aea45a94fc7d47ba826c8d667c0d1e6e33a64a036ec44f58fa12d6c45")

>>> Web3.solidity_keccak(['uint8[]'], [[97, 98, 99]])
HexBytes("0x233002c671295529bcc50b76a2ef2b0de2dac2d93945fca745255de1a9e4017e")

>>> Web3.solidity_keccak(['address'], ["0x49EdDD3769c0712032808D86597B84ac5c2F5614"])
HexBytes("0x2ff37b5607484cd4eecf6d13292e22bd6e5401eaffcc07e279583bc742c68882")

>>> Web3.solidity_keccak(['address'], ["ethereumfoundation.eth"])
HexBytes("0x913c99ea930c78868f1535d34cd705ab85929b2eaaf70fcd09677ecd6e5d75e9")

Comparable solidity usage:

bytes32 data1 = keccak256(abi.encodePacked(true));
assert(data1 == hex"5fe7f977e71dba2ea1a68e21057beebb9be2ac30c6410aa38d4f3fbe41dcffd2");
bytes32 data2 = keccak256(abi.encodePacked(uint8(97), uint8(98), uint8(99)));
assert(data2 == hex"4e03657aea45a94fc7d47ba826c8d667c0d1e6e33a64a036ec44f58fa12d6c45");

Check Encodability

w3.is_encodable(_type, value)

Returns True if a value can be encoded as the given type. Otherwise returns False.

>>> from web3.auto.gethdev import w3
>>> w3.is_encodable('bytes2', b'12')
True
>>> w3.is_encodable('bytes2', '0x1234')
True
>>> w3.is_encodable('bytes2', '1234')  # not 0x-prefixed, no assumptions will be made
False
>>> w3.is_encodable('bytes2', b'1')  # does not match specified bytes size
False
>>> w3.is_encodable('bytes2', b'123')  # does not match specified bytes size
False
w3.strict_bytes_type_checking

Disable the stricter bytes type checking that is loaded by default. For more examples, see Disabling Strict Checks for Bytes Types

>>> from web3.auto.gethdev import w3

>>> w3.is_encodable('bytes2', b'12')
True

>>>  # not of exact size bytes2
>>> w3.is_encodable('bytes2', b'1')
False

>>> w3.strict_bytes_type_checking = False

>>> # zero-padded, so encoded to: b'1\x00'
>>> w3.is_encodable('bytes2', b'1')
True

>>> # re-enable it
>>> w3.strict_bytes_type_checking = True
>>> w3.is_encodable('bytes2', b'1')
False

RPC API Modules

Each Web3 instance also exposes these namespaced API modules.

Web3.eth

See web3.eth API

Web3.geth

See Geth API

These internal modules inherit from the web3.module.Module class which give them some configurations internal to the web3.py library.

Custom Methods

You may add or overwrite methods within any module using the attach_methods function. To create a property instead, set is_property to True.

>>> w3.eth.attach_methods({
...    'example_method': Method(
...      'eth_example',
...       mungers=[...],
...       request_formatters=[...],
...       result_formatters=[...],
...       is_property=False,
...    ),
... })
>>> w3.eth.example_method()

External Modules

External modules can be used to introduce custom or third-party APIs to your Web3 instance. External modules are simply classes whose methods and properties can be made available within the Web3 instance. Optionally, the external module may make use of the parent Web3 instance by accepting it as the first argument within the __init__ function:

>>> class ExampleModule:
...     def __init__(self, w3):
...         self.w3 = w3
...
...     def print_balance_of_shaq(self):
...         print(self.w3.eth.get_balance('shaq.eth'))

Warning

Given the flexibility of external modules, use caution and only import modules from trusted third parties and open source code you’ve vetted!

Configuring external modules can occur either at instantiation of the Web3 instance or by making use of the attach_modules() method. To instantiate the Web3 instance with external modules use the external_modules keyword argument:

>>> from web3 import Web3, HTTPProvider
>>> from external_module_library import (
...     ModuleClass1,
...     ModuleClass2,
...     ModuleClass3,
...     ModuleClass4,
...     ModuleClass5,
... )
>>> w3 = Web3(
...     HTTPProvider(provider_uri),
...     external_modules={
...         'module1': ModuleClass1,
...         'module2': (ModuleClass2, {
...             'submodule1': ModuleClass3,
...             'submodule2': (ModuleClass4, {
...                 'submodule2a': ModuleClass5,  # submodule children may be nested further if necessary
...             })
...         })
...     }
... )

# `return_zero`, in this case, is an example attribute of the `ModuleClass1` object
>>> w3.module1.return_zero()
0
>>> w3.module2.submodule1.return_one()
1
>>> w3.module2.submodule2.submodule2a.return_two()
2
w3.attach_modules(modules)

The attach_modules() method can be used to attach external modules after the Web3 instance has been instantiated.

Modules are attached via a dict with module names as the keys. The values can either be the module classes themselves, if there are no submodules, or two-item tuples with the module class as the 0th index and a similarly built dict containing the submodule information as the 1st index. This pattern may be repeated as necessary.

>>> from web3 import Web3, HTTPProvider
>>> from external_module_library import (
...     ModuleClass1,
...     ModuleClass2,
...     ModuleClass3,
...     ModuleClass4,
...     ModuleClass5,
... )
>>> w3 = Web3(HTTPProvider(provider_uri))

>>> w3.attach_modules({
...     'module1': ModuleClass1,  # the module class itself may be used for a single module with no submodules
...     'module2': (ModuleClass2, {  # a tuple with module class and corresponding submodule dict may be used for modules with submodules
...         'submodule1': ModuleClass3,
...         'submodule2': (ModuleClass4, {  # this pattern may be repeated as necessary
...             'submodule2a': ModuleClass5,
...         })
...     })
... })
>>> w3.module1.return_zero()
0
>>> w3.module2.submodule1.return_one()
1
>>> w3.module2.submodule2.submodule2a.return_two()
2