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112 lines
3.8 KiB
Plaintext
112 lines
3.8 KiB
Plaintext
2 years ago
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= Utilities
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[.readme-notice]
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NOTE: This document is better viewed at https://docs.openzeppelin.com/contracts/api/utils
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Miscellaneous contracts and libraries containing utility functions you can use to improve security, work with new data types, or safely use low-level primitives.
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The {Address}, {Arrays}, {Base64} and {Strings} libraries provide more operations related to these native data types, while {SafeCast} adds ways to safely convert between the different signed and unsigned numeric types.
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{Multicall} provides a function to batch together multiple calls in a single external call.
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For new data types:
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* {Counters}: a simple way to get a counter that can only be incremented, decremented or reset. Very useful for ID generation, counting contract activity, among others.
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* {EnumerableMap}: like Solidity's https://solidity.readthedocs.io/en/latest/types.html#mapping-types[`mapping`] type, but with key-value _enumeration_: this will let you know how many entries a mapping has, and iterate over them (which is not possible with `mapping`).
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* {EnumerableSet}: like {EnumerableMap}, but for https://en.wikipedia.org/wiki/Set_(abstract_data_type)[sets]. Can be used to store privileged accounts, issued IDs, etc.
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[NOTE]
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====
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Because Solidity does not support generic types, {EnumerableMap} and {EnumerableSet} are specialized to a limited number of key-value types.
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As of v3.0, {EnumerableMap} supports `uint256 -> address` (`UintToAddressMap`), and {EnumerableSet} supports `address` and `uint256` (`AddressSet` and `UintSet`).
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====
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Finally, {Create2} contains all necessary utilities to safely use the https://blog.openzeppelin.com/getting-the-most-out-of-create2/[`CREATE2` EVM opcode], without having to deal with low-level assembly.
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== Math
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{{Math}}
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{{SignedMath}}
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{{SafeCast}}
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{{SafeMath}}
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{{SignedSafeMath}}
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== Cryptography
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{{ECDSA}}
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{{SignatureChecker}}
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{{MerkleProof}}
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{{EIP712}}
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== Escrow
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{{ConditionalEscrow}}
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{{Escrow}}
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{{RefundEscrow}}
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== Introspection
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This set of interfaces and contracts deal with https://en.wikipedia.org/wiki/Type_introspection[type introspection] of contracts, that is, examining which functions can be called on them. This is usually referred to as a contract's _interface_.
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Ethereum contracts have no native concept of an interface, so applications must usually simply trust they are not making an incorrect call. For trusted setups this is a non-issue, but often unknown and untrusted third-party addresses need to be interacted with. There may even not be any direct calls to them! (e.g. `ERC20` tokens may be sent to a contract that lacks a way to transfer them out of it, locking them forever). In these cases, a contract _declaring_ its interface can be very helpful in preventing errors.
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There are two main ways to approach this.
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* Locally, where a contract implements `IERC165` and declares an interface, and a second one queries it directly via `ERC165Checker`.
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* Globally, where a global and unique registry (`IERC1820Registry`) is used to register implementers of a certain interface (`IERC1820Implementer`). It is then the registry that is queried, which allows for more complex setups, like contracts implementing interfaces for externally-owned accounts.
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Note that, in all cases, accounts simply _declare_ their interfaces, but they are not required to actually implement them. This mechanism can therefore be used to both prevent errors and allow for complex interactions (see `ERC777`), but it must not be relied on for security.
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{{IERC165}}
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{{ERC165}}
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{{ERC165Storage}}
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{{ERC165Checker}}
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{{IERC1820Registry}}
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{{IERC1820Implementer}}
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{{ERC1820Implementer}}
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== Data Structures
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{{BitMaps}}
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{{EnumerableMap}}
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{{EnumerableSet}}
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{{DoubleEndedQueue}}
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{{Checkpoints}}
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== Libraries
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{{Create2}}
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{{Address}}
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{{Arrays}}
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{{Base64}}
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{{Counters}}
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{{Strings}}
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{{StorageSlot}}
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{{Multicall}}
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