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93 lines
7.2 KiB
Markdown
93 lines
7.2 KiB
Markdown
---
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eip: 2193
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title: dType Alias Extension - Decentralized Type System
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author: Loredana Cirstea (@loredanacirstea), Christian Tzurcanu (@ctzurcanu)
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discussions-to: https://github.com/ethereum/EIPs/issues/2192
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status: Draft
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type: Standards Track
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category: ERC
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created: 2019-07-16
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requires: 1900, 2157, 155
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---
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## Simple Summary
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We are proposing Alias - a semantic standard for identifying on-chain resources by human-readable qualifiers, supporting any type of data.
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## Abstract
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The dType Alias is a system for providing human-readable resource identifiers to on-chain content. A resource identifier is based on the type of data (identifier provided by dType, [EIP-1900](http://eips.ethereum.org/EIPS/eip-1900)) and the data content (identifier provided by a dType Storage Contract, [EIP-2157](http://eips.ethereum.org/EIPS/eip-2157)). It is a universal way of addressing content, supporting any type of data.
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## Motivation
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There are standards that currently address the need for attaching human-readable identifiers to Ethereum accounts, such as [EIP-137](http://eips.ethereum.org/EIPS/eip-137). These standards are an attempt to bring domain names to Ethereum, following the same format as DNS: `subdomain.domain.tld`. This leaf -> root format is unintuitive and contradicts the semantic meaning that `.` has in programming languages, which is a root -> leaf connection (e.g. in OOP, when accessing an object's property). A more intuitive and widely used approach is a root->leaf format, used in file browsers, hierarchical menus, and even in other decentralized systems, which give unique identifiers to resources (e.g. `0x56.Currency.TCoin` in [Libra](https://medium.com/r/?url=https%3A%2F%2Fdevelopers.libra.org).
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Moreover, [EIP-137](http://eips.ethereum.org/EIPS/eip-137) is not flexible enough to address smart contract content, which can contain heterogeneous data that belongs to various accounts. For example, a `PaymentChannel` smart contract can have an domain name. However, the `Alice-Bob` channel data from inside the smart contract, cannot have a subdomain name. Having uniquely identified, granular resources opens the way to creating both human and machine-readable protocols on top of Ethereum. It also provides a basis for protocols based on functional programming.
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This ERC proposes a set of separators which maintain their semantic meaning and provides a way to address any type of resource - from Ethereum addresses, to individual `struct` instances inside smart contracts.
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Imagine the following dType types: `SocialNetwork` and `Profile`, with related storage data about user profiles. One could access such a profile using an alias for the data content: `alice@socialnetwork.profile`. For a `PaymentChannel` type, Alice can refer to her channel with Bob with `alice-bob.paymentchannel`.
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This alias system can be used off-chain, to replace the old DNS system with a deterministic and machine-readable way of displaying content, based on the dType type's metadata.
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## Specification
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The dType registry will provide domain and subdomain names for the resource type. Subdomains can be attributed recursively, to dType types which contain other complex types in their composition.
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We define an `Alias` registry contract, that keeps track of the human-readable identifiers for data resources, which exist in dType storage contracts.
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Anyone can set an alias in the `Alias` registry, as long as the Ethereum address that signs the alias data has ownership on the resource, in the dType storage contract. Storage contract data ownership will be detailed in [EIP-2157](http://eips.ethereum.org/EIPS/eip-2157). An owner can update or delete an alias at any time.
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```solidity
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interface Alias {
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event AliasSet(bytes32 dtypeIdentifier, bytes1 separator, string name, bytes32 indexed identifier);
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function setAlias(bytes32 dtypeIdentifier, bytes1 separator, string memory name, bytes32 identifier, bytes memory signature) external;
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function getAliased(bytes1 separator, string memory name) view external returns (bytes32 identifier);
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}
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```
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- `dtypeIdentifier`: Type identifier from the dType registry, needed to ensure uniqueness of `name` for a dType type. `dtypeIdentifier` is checked to see if it exists in the dType registry. The dType registry also links the type's data storage contract, where the existence and ownership of the `identifier` is checked.
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- `name`: user-defined human-readable name for the resource referenced by `identifier`
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- `separator`: Character acting as a separator between the name and the rest of the alias. Allowed values:
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- `.`: general domain separation, using root->leaf semantics. E.g. `domain.subdomain.leafsubdomain.resource`
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- `@`: identifying actor-related data, such as user profiles, using leaf->root semantics. E.g. `alice@socialnetwork.profile` or `alice@dao@eth`
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- `#`: identifying concepts, using root->leaf semantics. E.g. `topicX#postY`
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- `/`: general resource path definition, using root->leaf semantics. E.g. `resourceRoot/resource`
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- `identifier`: Resource identifier from a smart contract linked with dType
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- `signature`: Alias owner signature on `dtypeIdentifier`, `identifier`, `name`, `separator`, `nonce`, `aliasAddress`, `chainId`.
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- `nonce`: monotonically increasing counter, used to prevent replay attacks
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- `aliasAddress`: Ethereum address of `Alias` contract
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- `chainId`: chain on which the `Alias` contract is deployed, as detailed in [EIP-155](http://eips.ethereum.org/EIPS/eip-155), used to prevent replay attacks when updating the `identifier` for an alias.
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Content addressability can be done:
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- using the `bytes32` identifiers directly, e.g. `0x0b5e76559822448f6243a6f76ac7864eba89c810084471bdee2a63429c92d2e7@0x9dbb9abe0c47484c5707699b3ceea23b1c2cca2ac72681256ab42ae01bd347da`
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- using the human identifiers, e.g. `alice@socialnetwork`
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Both of the above examples will resolve to the same content.
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## Rationale
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Current attempts to solve content addressability, such as [EIP-137](http://eips.ethereum.org/EIPS/eip-137), only target Ethereum accounts. These are based on inherited concepts from HTTP and DNS, which are not machine friendly.
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With [EIP-1900](http://eips.ethereum.org/EIPS/eip-1900) and [EIP-2157](http://eips.ethereum.org/EIPS/eip-2157), general content addressability can be achieved. dType provides type information and a reference to the smart contract where the type instances are stored. Additionally, Alias uses the semantic meaning of subdomain separators to have a [intuitive order rule](https://github.com/loredanacirstea/articles/blob/master/articles/Flexible_Alias_or_Why_ENS_is_Obsolete.md).
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Multiple aliases can be assigned to a single resource. Either by using a different `name` or by using a different `separator`. Each `separator` can have a specific standard for displaying and processing data, based on its semantic meaning.
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## Backwards Compatibility
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Will be added.
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## Test Cases
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Will be added.
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## Implementation
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An in-work implementation can be found at https://github.com/pipeos-one/dType/blob/master/contracts/contracts/Alias.sol.
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This proposal will be updated with an appropriate implementation when consensus is reached on the specifications.
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## Copyright
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Copyright and related rights waived via [CC0](https://creativecommons.org/publicdomain/zero/1.0/).
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