59 lines
3.3 KiB
Markdown
59 lines
3.3 KiB
Markdown
---
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eip: 927
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title: Generalised authorisations
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author: Nick Johnson <nick@ethereum.org>
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type: Standards Track
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category: ERC
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status: Stagnant
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created: 2018-03-12
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requires: 926
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---
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## Abstract
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This EIP specifies a generic authorisation mechanism, which can be used to implement a variety of authorisation patterns, replacing approvals in ERC20, operators in ERC777, and bespoke authorisation patterns in a variety of other types of contract.
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## Motivation
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Smart contracts commonly need to provide an interface that allows a third-party caller to perform actions on behalf of a user. The most common example of this is token authorisations/operators, but other similar situations exist throughout the ecosystem, including for instance authorising operations on ENS domains. Typically each standard reinvents this system for themselves, leading to a large number of incompatible implementations of the same basic pattern. Here, we propose a generic method usable by all such contracts.
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The pattern implemented here is inspired by [ds-auth](https://github.com/dapphub/ds-auth) and by OAuth.
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## Specification
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The generalised authorisation interface is implemented as a metadata provider, as specified in EIP 926. The following mandatory function is implemented:
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```solidity
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function canCall(address owner, address caller, address callee, bytes4 func) view returns(bool);
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```
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Where:
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- `owner` is the owner of the resource. If approved the function call is treated as being made by this address.
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- `caller` is the address making the present call.
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- `callee` is the address of the contract being called.
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- `func` is the 4-byte signature of the function being called.
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For example, suppose Alice authorises Bob to transfer tokens on her behalf. When Bob does so, Alice is the `owner`, Bob is the `caller`, the token contract is the `callee`, and the function signature for the transfer function is `func`.
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As this standard uses EIP 926, the authorisation flow is as follows:
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1. The callee contract fetches the provider for the `owner` address from the metadata registry contract, which resides at a well-known address.
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2. The callee contract calls `canCall()` with the parameters described above. If the function returns false, the callee reverts execution.
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Commonly, providers will wish to supply a standardised interface for users to set and unset their own authorisations. They SHOULD implement the following interface:
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```solidity
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function authoriseCaller(address owner, address caller, address callee, bytes4 func);
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function revokeCaller(address owner, address caller, address callee, bytes4 func);
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```
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Arguments have the same meaning as in `canCall`. Implementing contracts MUST ensure that `msg.sender` is authorised to call `authoriseCaller` or `revokeCaller` on behalf of `owner`; this MUST always be true if `owner == msg.sender`. Implementing contracts SHOULD use the standard specified here to determine if other callers may provide authorisations as well.
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Implementing contracts SHOULD treat a `func` of 0 as authorising calls to all functions on `callee`. If `authorised` is `false` and `func` is 0, contracts need only clear any blanket authorisation; individual authorisations may remain in effect.
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## Backwards Compatibility
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There are no backwards compatibility concerns.
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## Implementation
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Example implementation TBD.
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## Copyright
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Copyright and related rights waived via [CC0](../LICENSE.md).
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