diff --git a/src/ipips/ipip-0476.md b/src/ipips/ipip-0476.md
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+---
+title: "IPIP-0476: Delegated Routing DHT Closest Peers API"
+date: 2025-08-19
+ipip: proposal
+editors:
+  - name: Alex Potsides
+    github: achingbrain
+    affiliation:
+      name: Shipyard
+      url: https://ipshipyard.com
+  - name: Marcin Rataj
+    github: lidel
+    affiliation:
+      name: Shipyard
+      url: https://ipshipyard.com
+relatedIssues:
+  - https://github.com/ipfs/specs/pull/476
+  - https://github.com/ipfs/specs/pull/497
+order: 476
+tags: ['ipips']
+---
+
+## Summary
+
+Add a new HTTP endpoint to the Delegated Routing API that allows clients to find the closest peers to a given peer ID without being full DHT clients.
+
+## Motivation
+
+Browser nodes and other resource-constrained clients need to perform peer discovery operations without the overhead of being full DHT clients. The primary use case is for browser nodes performing random walks to find peers that they can make circuit relay reservations on.
+
+Currently, to find peers close to a particular key in the DHT keyspace, a node must:
+1. Be a full DHT client with all the associated overhead
+2. Maintain connections to many peers
+3. Handle the complexity of the DHT protocol
+
+This is particularly problematic for:
+- Browser nodes that need to find circuit relay servers
+- Light clients that want to populate their routing tables
+- Applications that need to find peers to host provider records
+
+## Detailed design
+
+This IPIP introduces a new "DHT Routing API" section to the Delegated Routing V1 HTTP API specification with the following endpoint:
+
+### `GET /routing/v1/dht/closest/peers/{peer-id}`
+
+#### Path Parameters
+
+- `peer-id`: The target peer ID to find closest peers for, represented as a CIDv1 encoded with `libp2p-key` codec
+
+#### Query Parameters
+
+- `closer-than` (optional): A peer ID represented as a CIDv1 encoded with `libp2p-key` codec
+  - Returned peer records must be closer to `peer-id` than `closer-than`
+  - If omitted, the routing implementation should use its own peer ID
+- `count` (optional): Number of peer records to return
+  - Minimum 1, maximum 100, default 20
+
+#### Response
+
+The response follows the same format as the existing peer routing endpoints, returning a JSON object with a `Peers` array containing peer records conforming to the Peer Schema.
+
+### Specification Changes
+
+The following changes are made to `src/routing/http-routing-v1.md`:
+
+1. Add a new "## DHT Routing API" section after the "Peer Routing API" section
+2. Document the `/routing/v1/dht/closest/peers/{peer-id}` endpoint with its parameters and response format
+3. Update the document date to reflect the modification
+
+## Design rationale
+
+The design follows several key principles:
+
+### Simple MVP Approach
+
+The endpoint provides the minimum viable functionality needed for the primary use cases. It can be expanded later if more complex routing scenarios emerge.
+
+### Future-Proofed Path Structure
+
+The path `/routing/v1/dht/closest/peers/{peer-id}` is intentionally structured to allow future expansion:
+- The `/dht/` segment clearly indicates DHT-specific operations
+- The `/closest/peers/` structure allows for potential future endpoints like `/closest/keys/` for keyspace queries
+- This organization keeps the API logical and extensible
+
+### Routing-Agnostic Implementation
+
+While the endpoint is in the DHT namespace, implementations have flexibility in how they determine "closest" peers. This allows for optimization based on the specific routing system being used.
+
+### Consistency with Existing API
+
+The endpoint follows the established patterns of the Delegated Routing API:
+- Uses the same response format as other peer routing endpoints
+- Follows the same parameter conventions
+- Maintains consistency in error handling and status codes
+
+### User benefit
+
+This enhancement provides significant benefits to end users:
+
+1. **Browser Compatibility**: Browser nodes can discover circuit relay servers without implementing the full DHT protocol
+2. **Reduced Resource Usage**: Light clients save bandwidth and processing power by delegating peer discovery
+3. **Faster Peer Discovery**: Delegated routing servers can provide cached results more quickly than performing DHT walks
+4. **Simplified Implementation**: Application developers can implement peer discovery with simple HTTP requests instead of complex DHT logic
+
+### Compatibility
+
+This change is fully backward compatible:
+- It adds a new endpoint without modifying existing ones
+- Existing clients continue to work unchanged
+- Servers that don't implement the endpoint return 501 (Not Implemented) as per the specification
+
+### Security
+
+The new endpoint introduces no additional security considerations beyond those already present in the Delegated Routing API:
+
+- Standard rate limiting should be applied to prevent abuse
+- The endpoint reveals no more information than a DHT query would
+- Access controls can be implemented at the HTTP layer if needed
+- Response caching helps mitigate potential DoS attacks
+
+### Alternatives
+
+Several alternatives were considered:
+
+1. **Full DHT Client Implementation**: Rejected due to excessive resource requirements for browser and mobile environments
+
+2. **Custom libp2p Protocol**: Would require all nodes to implement a new protocol, creating adoption barriers
+
+3. **Extension of Existing Peer Routing**: The `/routing/v1/peers/` endpoint serves a different purpose (finding specific peers rather than closest peers)
+
+4. **Amino-Specific Endpoint**: Initially considered `/routing/v1/amino/` namespace but rejected in favor of the more generic `/dht/` approach
+
+## Test fixtures
+
+This IPIP does not deal with content-addressed data, so specific test CIDs are not applicable. However, implementations should test:
+
+1. Valid peer ID inputs return appropriate closest peers
+2. The `closerThan` parameter correctly filters results
+3. The `count` parameter limits results as specified
+4. Invalid peer IDs return appropriate error responses
+
+### Copyright
+
+Copyright and related rights waived via [CC0](https://creativecommons.org/publicdomain/zero/1.0/).
\ No newline at end of file
diff --git a/src/routing/http-routing-v1.md b/src/routing/http-routing-v1.md
index ea4db1de..d16489d8 100644
--- a/src/routing/http-routing-v1.md
+++ b/src/routing/http-routing-v1.md
@@ -4,7 +4,7 @@ description: >
   Delegated routing is a mechanism for IPFS implementations to use for offloading
   content routing, peer routing and naming to another process/server. This specification describes
   an HTTP API for delegated routing of content, peers, and IPNS.
-date: 2024-10-29
+date: 2025-08-19
 maturity: reliable
 editors:
   - name: Gus Eggert
@@ -244,6 +244,59 @@ The content body must be a [`application/vnd.ipfs.ipns-record`][application/vnd.
 - `400` (Bad Request): the provided :ref[IPNS Record] or :ref[IPNS Name] are not valid.
 - `406` (Not Acceptable): submitted content type is not supported. Error message returned in body should inform the user to retry with `Content-Type: application/vnd.ipfs.ipns-record`.
 
+## DHT Routing API
+
+### `GET /routing/v1/dht/closest/peers/{key}`
+
+This optional endpoint allows light clients to lower the cost of DHT walks in browser contexts.
+
+#### Path Parameters
+
+- `key` is a [CID] or [Peer ID][peer-id-representation] to find the closest peers to.
+  - [CID] should be a CIDv1 in any encoding.
+  - [Peer ID][peer-id-representation] can be represented as a Multihash in Base58btc, or a CIDv1 with `libp2p-key` (`0x72`) codec in Base36 or Base32.
+  - Implementations SHOULD support both CID and Peer ID formats for maximum interoperability.
+
+#### Response Status Codes
+
+- `200` (OK): the response body contains peer 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 Headers
+
+- `Content-Type`: the content type of this response, which MUST be `application/json` or `application/x-ndjson` (see [streaming](#streaming)).
+- `Last-Modified`: an HTTP-date timestamp ([RFC9110, Section 5.6.7](https://www.rfc-editor.org/rfc/rfc9110#section-5.6.7)) of the resolution, allowing HTTP proxies and CDNs to support inexpensive update checks via `If-Modified-Since`
+- `Cache-Control: public, max-age={ttl}, public, stale-while-revalidate={max-ttl}, stale-if-error={max-ttl}`: meaningful cache TTL returned with the response.
+  - When present, `ttl` SHOULD be shorter for responses whose resolution ended in no results (e.g. 15 seconds),
+    and longer for responses that have results (e.g. 5 minutes).
+  - Implementations SHOULD include `max-ttl`, set to the maximum cache window of the underlying routing system.
+    For example, if Amino DHT results are returned, `stale-while-revalidate` SHOULD be set to `172800` (48h, which at the time of writing this specification, is the provider record expiration window).
+- `Vary: Accept`: allows intermediate caches to play nicely with the different possible content types.
+
+#### Response Body
+
+```json
+{
+  "Peers": [
+    {
+      "Schema": "<schema>",
+      "Protocols": ["<protocol-a>", "<protocol-b>", ...],
+      "ID": "bafz...",
+      "Addrs": ["/ip4/..."],
+      ...
+    },
+    ...
+  ]
+}
+```
+
+The number of peer records in the response SHOULD be limited to the DHT bucket size (20 for Amino DHT).
+
+The client SHOULD be able to make a request with `Accept: application/x-ndjson` and get a [stream](#streaming) with more results.
+
+Each object in the `Peers` list is a record conforming to the [Peer Schema](#peer-schema).
+
 ## Pagination
 
 This API does not support pagination, but optional pagination can be added in a backwards-compatible spec update.