IPIP-337: Delegated Content Routing HTTP API

IPIP/0337-delegated-routing-http-api.md

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+# IPIP-337: Delegated Content Routing HTTP API
+
+- Start Date: 2022-10-18
+- Related Issues:
+  - https://github.com/ipfs/specs/pull/337
+
+## Summary
+
+This IPIP specifies an HTTP API for delegated content routing.
+
+## Motivation
+
+Idiomatic and first-class HTTP support for delegated routing is an important requirement for large content routing providers,
+and supporting large content providers is a key strategy for driving down IPFS content routing latency.
+These providers must handle high volumes of traffic and support many users, so leveraging industry-standard tools and services
+such as HTTP load balancers, CDNs, reverse proxies, etc. is a requirement.
+To maximize compatibility with standard tools, IPFS needs an HTTP API specification that uses standard HTTP idioms and payload encoding.
+The [Reframe spec](https://github.com/ipfs/specs/blob/main/reframe/REFRAME_PROTOCOL.md) for delegated content routing is an experimental attempt at this,
+but it has resulted in a very unidiomatic HTTP API which is difficult to implement and is incompatible with many existing tools.
+The cost of a proper redesign, implementation, and maintenance of Reframe and its implementation is too high relative to the urgency of having a delegated content routing HTTP API.
+
+Note that this does not supplant nor deprecate Reframe. Ideally in the future, Reframe and its implementation would receive the resources needed to map the IDL to idiomatic HTTP,
+and implementations of this spec could then be rewritten in the IDL, maintaining backwards compatibility.
+
+We expect this API to be extended beyond "content routing" in the future, so additional IPIPs may rename this to something more general such as "Delegated Routing HTTP API".
+
+## Detailed design
+
+See the [Delegated Content Routing HTTP API spec](../routing/DELEGATED_CONTENT_ROUTING_HTTP.md) included with this IPIP.
+
+## Design rationale
+
+To understand the design rationale, it is important to consider the concrete Reframe limitations that we know about:
+
+- Reframe [method types](../reframe/REFRAME_KNOWN_METHODS.md) using the HTTP transport are encoded inside IPLD-encoded messages
+  - This prevents URL-based pattern matching on methods, which makes it hard and expensive to do basic HTTP scaling and optimizations:
+    - Configuring different caching strategies for different methods
+    - Configuring reverse proxies on a per-method basis
+      - Routing methods to specific backends
+      - Method-specific reverse proxy config such as timeouts
+  - Developer UX is poor as a result, e.g. for CDN caching you must encode the entire request message and pass it as a query parameter
+    - This was initially done by URL-escaping the raw bytes
+      - Not possible to consume correctly using standard JavaScript (see [edelweiss#61](https://github.com/ipld/edelweiss/issues/61))
+      - Shipped in Kubo 0.16
+    - Packing a CID into a struct, encoding it with DAG-CBOR, multibase-encoding that, percent-encoding that, and then passing it in a URL, rather than merely passing the CID in the URL, is needlessly complex from a user's perspective, and has already made it difficult to manually construct requests or interpret logs
+    - Added complexity of "Cacheable" methods supporting both POSTs and GETs
+- The required streaming support and message groups add a lot of implementation complexity, but streaming does not currently work for cachable methods sent over HTTP
+  - Ex for FindProviders, the response is buffered anyway for ETag calculation
+  - There are no limits on response sizes nor ways to impose limits and paginate
+  - This is useful for routers that have highly variable resolution time, to send results as soon as possible, but this is not a use case we are focusing on right now and we can add it later
+- The Identify method is not implemented because it is not currently useful
+  - This is because Reframe's ambition is to be a generic catch-all bag of methods across protocols, while delegated routing use case only requires a subset of its methods.
+- Client and server implementations are difficult to write correctly, because of the non-standard wire formats and conventions
+  - Example: [bug reported by implementer](https://github.com/ipld/edelweiss/issues/62), and [another one](https://github.com/ipld/edelweiss/issues/61)
+- The Go implementation is [complex](https://github.com/ipfs/go-delegated-routing/blob/main/gen/proto/proto_edelweiss.go) and [brittle](https://github.com/ipfs/go-delegated-routing/blame/main/client/provide.go#L51-L100), and is currently maintained by IPFS Stewards who are already over-committed with other priorities
+- Only the HTTP transport has been designed and implemented, so it's unclear if the existing design will work for other transports, and what their use cases and requirements are
+  - This means Reframe can't be trusted to be transport-agnostic until there is at least a second transport implemented (e.g. as a reframe-over-libp2p protocol)
+- There's naming confusion around "Reframe, the protocol" and "Reframe, the set of methods"
+
+So this API proposal makes the following changes:
+
+- The Delegated Content Routing API is defined using HTTP semantics, and can be implemented without introducing Reframe concepts nor IPLD
+- There is a clear distinction between the RPC protocol (HTTP) and the API (Deleged Content Routing)
+- "Method names" and cache-relevant parameters are pushed into the URL path
+- Streaming support is removed, and default response size limits are added.
+  - We will add streaming support in a subsequent IPIP, but we are trying to minimize the scope of this IPIP to what is immediately useful
+- Bodies are encoded using idiomatic JSON, instead of using IPLD codecs, and are compatible with OpenAPI specifications
+- The JSON uses human-readable string encodings of common data types
+  - CIDs are encoded as CIDv1 strings with a multibase prefix (e.g. base32), for consistency with CLIs, browsers, and [gateway URLs](https://docs.ipfs.io/how-to/address-ipfs-on-web/)
+  - Multiaddrs use the [human-readable format](https://github.com/multiformats/multiaddr#specification) that is used in existing tools and Kubo CLI commands such as `ipfs id` or `ipfs swarm peers`
+  - Byte array values, such as signatures, are multibase-encoded strings (with an `m` prefix indicating Base64)
+- The "Identify" method and "message groups" are not included
+- The "GetIPNS" and "PutIPNS" methods are not included
+
+### User benefit
+
+The cost of building and operating content routing services will be much lower, as developers will be able to maximally reuse existing industry-standard tooling.
+Users will not need to learn a new RPC protocol and tooling to consume or expose the API.
+This will result in more content routing providers, each providing a better experience for users, driving down content routing latency across the IPFS network
+and increasing data availability.
+
+### Compatibility
+
+#### Backwards Compatibility
+
+IPFS Stewards will implement this API in [go-delegated-routing](https://github.com/ipfs/go-delegated-routing), using breaking changes in a new minor version.
+Because the existing Reframe spec can't be safely used in JavaScript and we won't be investing time and resources into changing the wire format implemented in edelweiss to fix it,
+the experimental support for Reframe in Kubo will be deprecated in the next release and delegated content routing will subsequently use this HTTP API.
+We may decide to re-add Reframe support in the future once these issues have been resolved.-
+
+#### Forwards Compatibility
+
+Standard HTTP mechanisms for forward compatibility are used:
+
+- The API is versioned using a version number prefix in the path
+- The `Accept` and `Content-Type` headers are used for content type negotiation, allowing for backwards-compatible additions of new MIME types, hypothetically such as:
+  - `application/cbor` for binary-encoded responses
+  - `application/x-ndjson` for streamed responses
+  - `application/octet-stream` if the content router can provide the content/block directly
+- New paths+methods can be introduced in a backwards-compatible way
+- Parameters can be added using either new query parameters or new fields in the request/response body.
+- Provider records are both opaque and versioned to allow evolution of schemas and semantics for the same transfer protocol
+
+As a proof-of-concept, the tests for the initial implementation of this HTTP API were successfully tested with a libp2p transport using [libp2p/go-libp2p-http](https://github.com/libp2p/go-libp2p-http), demonstrating viability for also using this API over libp2p.
+
+### Security
+
+- All CID requests are sent to a central HTTPS endpoint as plain text, with TLS being the only protection against third-party observation.
+- While privacy is not a concern in the current version, plans are underway to add a separate endpoint that prioritizes lookup privacy. Follow the progress in related pre-work in  [IPIP-272 (double hashed DHT)](https://github.com/ipfs/specs/pull/373/) and [ipni#5 (reader privacy in indexers)](https://github.com/ipni/specs/pull/5).
+- The usual JSON parsing rules apply. To prevent potential Denial of Service (DoS) attack, clients should ignore responses larger than 100 providers and introduce a byte size limit that is applicable to their use case.
+
+### Alternatives
+
+- Reframe (general-purpose RPC) was evaluated, see "Design rationale" section for rationale why it was not selected.
+
+### Copyright
+
+Copyright and related rights waived via [CC0](https://creativecommons.org/publicdomain/zero/1.0/).

routing/DELEGATED_CONTENT_ROUTING_HTTP.md

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+# Delegated Content Routing HTTP API
+
+![reliable](https://img.shields.io/badge/status-reliable-green.svg?style=flat-square) Delegated Content Routing HTTP API
+
+**Author(s)**:
+
+- Gus Eggert
+
+**Maintainer(s)**:
+
+* * *
+
+**Abstract**
+
+"Delegated content routing" is a mechanism for IPFS implementations to use for offloading content routing to another process/server. This spec describes an HTTP API for delegated content routing.
+
+## API Specification
+
+The Delegated Content Routing Routing HTTP API uses the `application/json` content type by default.
+
+As such, human-readable encodings of types are preferred. This spec may be updated in the future with a compact `application/cbor` encoding, in which case compact encodings of the various types would be used.
+
+## Common Data Types
+
+- CIDs are always string-encoded using a [multibase](https://github.com/multiformats/multibase)-encoded [CIDv1](https://github.com/multiformats/cid#cidv1).
+- Multiaddrs are string-encoded according to the [human-readable multiaddr specification](https://github.com/multiformats/multiaddr#specification)
+- Peer IDs are string-encoded according [PeerID string representation specification](https://github.com/libp2p/specs/blob/master/peer-ids/peer-ids.md#string-representation)
+- Multibase bytes are string-encoded according to [the Multibase spec](https://github.com/multiformats/multibase), and *should* use base64.
+- Timestamps are Unix millisecond epoch timestamps
+
+Until required for business logic, servers should treat these types as opaque strings, and should preserve unknown JSON fields.
+
+### Versioning
+
+This API uses a standard version prefix in the path, such as `/v1/...`. If a backwards-incompatible change must be made, then the version number should be increased.
+
+### Provider Records
+
+A provider record contains information about a content provider, including the transfer protocol and any protocol-specific information useful for fetching the content from the provider.
+
+The information required to write a record to a router (*"write" provider records*) may be different than the information contained when reading provider records (*"read" provider records*).
+
+For example, indexers may require a signature in `bitswap` write records for authentication of the peer contained in the record, but the read records may not include this authentication information.
+
+Both read and write provider records have a minimal required schema as follows:
+
+```json
+{
+    "Protocol": "<transfer_protocol_name>",
+    "Schema": "<transfer_protocol_schema>",
+    ...
+}
+```
+
+Where:
+
+- `Protocol` is the multicodec name of the transfer protocol or an opaque string (for experimenting with novel protocols without a multicodec)
+- `Schema` denotes the schema to use for encoding/decoding the record
+  - This is separate from the `Protocol` to allow this HTTP API to evolve independently of the transfer protocol
+  - Implementations should switch on this when parsing records, not on `Protocol`
+- `...` denotes opaque JSON, which may contain information specific to the transfer protocol
+
+Specifications for some transfer protocols are provided in the "Transfer Protocols" section.
+
+## API
+
+### `GET /routing/v1/providers/{CID}`
+
+#### Response codes
+
+- `200` (OK): the response body contains 0 or more records
+- `404` (Not Found): must be returned if no matching records are found
+- `422` (Unprocessable Entity): request does not conform to schema or semantic constraints
+
+#### Response Body
+
+```json
+{
+    "Providers": [
+        {
+            "Protocol": "<protocol_name>",
+            "Schema": "<schema>",
+            ...
+        }
+    ]
+}
+```
+
+Response limit: 100 providers
+
+Each object in the `Providers` list is a *read provider record*.
+
+## Pagination
+
+This API does not support pagination, but optional pagination can be added in a backwards-compatible spec update.
+
+## Streaming
+
+This API does not currently support streaming, however it can be added in the future through a backwards-compatible update by using a content type other than `application/json`.
+
+## Error Codes
+
+- `501` (Not Implemented): must be returned if a method/path is not supported
+- `429` (Too Many Requests): may be returned along with optional [Retry-After](https://developer.mozilla.org/en-US/docs/Web/HTTP/Headers/Retry-After) header to indicate to the caller that it is issuing requests too quickly
+- `400` (Bad Request): must be returned if an unknown path is requested
+
+## CORS and Web Browsers
+
+Browser interoperability requires implementations to support
+[CORS](https://developer.mozilla.org/en-US/docs/Web/HTTP/CORS).
+
+JavaScript client running on a third-party Origin must be able to send HTTP
+request to the endpoints defined in this specification, and read the received
+values. This means HTTP server implementing this API must (1) support
+[CORS preflight requests](https://developer.mozilla.org/en-US/docs/Glossary/Preflight_request)
+sent as HTTP OPTIONS, and (2) always respond with headers that remove CORS
+limits, allowing every site to query the API for results:
+
+```plaintext
+Access-Control-Allow-Origin: *
+Access-Control-Allow-Methods: GET, OPTIONS
+```
+
+## Known Transfer Protocols
+
+This section contains a non-exhaustive list of known transfer protocols (by name) that may be supported by clients and servers.
+
+### Bitswap
+
+Multicodec name: `transport-bitswap`
+Schema: `bitswap`
+Specification: [ipfs/specs/BITSWAP.md](https://github.com/ipfs/specs/blob/main/BITSWAP.md)
+
+#### Bitswap Read Provider Records
+
+```json
+{
+    "Protocol": "transport-bitswap",
+    "Schema": "bitswap",
+    "ID": "12D3K...",
+    "Addrs": ["/ip4/..."]
+}
+```
+
+- `ID`: the [Peer ID](https://github.com/libp2p/specs/blob/master/peer-ids/peer-ids.md) to contact
+- `Addrs`: a list of known multiaddrs for the peer
+  - This list may be incomplete or incorrect and should only be treated as *hints* to improve performance by avoiding extra peer lookups
+
+The server should respect a passed `transport` query parameter by filtering against the `Addrs` list.
+
+### Filecoin Graphsync
+
+Multicodec name: `transport-graphsync-filecoinv1`
+Schema: `graphsync-filecoinv1`
+Specification: [ipfs/go-graphsync/blob/main/docs/architecture.md](https://github.com/ipfs/go-graphsync/blob/main/docs/architecture.md)
+
+#### Filecoin Graphsync Read Provider Records
+
+```json
+{
+    "Protocol": "transport-graphsync-filecoinv1",
+    "Schema": "graphsync-filecoinv1",
+    "ID": "12D3K...",
+    "Addrs": ["/ip4/..."],
+    "PieceCID": "<cid>",
+    "VerifiedDeal": true,
+    "FastRetrieval": true
+}
+```
+
+- `ID`: the peer ID of the provider
+- `Addrs`: a list of known multiaddrs for the provider
+- `PieceCID`: the CID of the [piece](https://spec.filecoin.io/systems/filecoin_files/piece/#section-systems.filecoin_files.piece) within which the data is stored
+- `VerifiedDeal`: whether the deal corresponding to the data is verified
+- `FastRetrieval`: whether the provider claims there is an unsealed copy of the data available for fast retrieval