Closes https://github.com/coder/internal/issues/961
Likely the same deal as in #19599, the body of `require.Eventually` now fires immediately, when it used to fire after 250ms (the interval). Presumably, the deployment stats become ready before the vs code session count gets incremented. This was never an issue with the 250ms delay, as this flake has only cropped up after the testify version bump.
We'll fix the issue by making it possible to wait for a full metrics cache refresh, i.e. removing `require.Eventually` in this test altogether.
## Description
This PR introduces one counter and two histograms related to workspace
creation and claiming. The goal is to provide clearer observability into
how workspaces are created (regular vs prebuild) and the time cost of
those operations.
### `coderd_workspace_creation_total`
* Metric type: Counter
* Name: `coderd_workspace_creation_total`
* Labels: `organization_name`, `template_name`, `preset_name`
This counter tracks whether a regular workspace (not created from a
prebuild pool) was created using a preset or not.
Currently, we already expose `coderd_prebuilt_workspaces_claimed_total`
for claimed prebuilt workspaces, but we lack a comparable metric for
regular workspace creations. This metric fills that gap, making it
possible to compare regular creations against claims.
Implementation notes:
* Exposed as a `coderd_` metric, consistent with other workspace-related
metrics (e.g. `coderd_api_workspace_latest_build`:
https://github.com/coder/coder/blob/main/coderd/prometheusmetrics/prometheusmetrics.go#L149).
* Every `defaultRefreshRate` (1 minute ), DB query
`GetRegularWorkspaceCreateMetrics` is executed to fetch all regular
workspaces (not created from a prebuild pool).
* The counter is updated with the total from all time (not just since
metric introduction). This differs from the histograms below, which only
accumulate from their introduction forward.
### `coderd_workspace_creation_duration_seconds` &
`coderd_prebuilt_workspace_claim_duration_seconds`
* Metric types: Histogram
* Names:
* `coderd_workspace_creation_duration_seconds`
* Labels: `organization_name`, `template_name`, `preset_name`, `type`
(`regular`, `prebuild`)
* `coderd_prebuilt_workspace_claim_duration_seconds`
* Labels: `organization_name`, `template_name`, `preset_name`
We already have `coderd_provisionerd_workspace_build_timings_seconds`,
which tracks build run times for all workspace builds handled by the
provisioner daemon.
However, in the context of this issue, we are only interested in
creation and claim build times, not all transitions; additionally, this
metric does not include `preset_name`, and adding it there would
significantly increase cardinality. Therefore, separate more focused
metrics are introduced here:
* `coderd_workspace_creation_duration_seconds`: Build time to create a
workspace (either a regular workspace or the build into a prebuild pool,
for prebuild initial provisioning build).
* `coderd_prebuilt_workspace_claim_duration_seconds`: Time to claim a
prebuilt workspace from the pool.
The reason for two separate histograms is that:
* Creation (regular or prebuild): provisioning builds with similar time
magnitude, generally expected to take longer than a claim operation.
* Claim: expected to be a much faster provisioning build.
#### Native histogram usage
Provisioning times vary widely between projects. Using static buckets
risks unbalanced or poorly informative histograms.
To address this, these metrics use [Prometheus native
histograms](https://prometheus.io/docs/specs/native_histograms/):
* First introduced in Prometheus v2.40.0
* Recommended stable usage from v2.45+
* Requires Go client `prometheus/client_golang` v1.15.0+
* Experimental and must be explicitly enabled on the server
(`--enable-feature=native-histograms`)
For compatibility, we also retain a classic bucket definition (aligned
with the existing provisioner metric:
https://github.com/coder/coder/blob/main/provisionerd/provisionerd.go#L182-L189).
* If native histograms are enabled, Prometheus ingests the
high-resolution histogram.
* If not, it falls back to the predefined buckets.
Implementation notes:
* Unlike the counter, these histograms are updated in real-time at
workspace build job completion.
* They reflect data only from the point of introduction forward (no
historical backfill).
## Relates to
Closes: https://github.com/coder/coder/issues/19528
Native histograms tested in observability stack:
https://github.com/coder/observability/pull/50
Fixescoder/internal#892Fixescoder/internal#896
Example output:
```
❯ coder exp task list
ID NAME STATUS STATE STATE CHANGED MESSAGE
a7a27450-ca16-4553-a6c5-9d6f04808569 task-hardcore-herschel-bd08 running idle 5h22m3s ago Listed root directory contents, working directory reset
50f92138-f463-4f2b-abad-1816264b065f task-musing-dewdney-f058 running idle 6h3m8s ago Completed arithmetic calculation
```
Fixes https://github.com/coder/internal/issues/907
We convert `workspacesdk.AgentConn` to an interface and generate a mock
for it. This allows writing `coderd` tests that rely on the agent's HTTP
api to not have to set up an entire tailnet networking stack.
This pull request introduces support for external workspace management, allowing users to register and manage workspaces that are provisioned and managed outside of the Coder.
Depends on: https://github.com/coder/terraform-provider-coder/pull/424
* GET /api/v2/init-script - Gets the agent initialization script
* By default, it returns a script for Linux (amd64), but with query parameters (os and arch) you can get the init script for different platforms
* GET /api/v2/workspaces/{workspace}/external-agent/{agent}/credentials - Gets credentials for an external agent **(enterprise)**
* Updated queries to filter workspaces/templates by the has_external_agent field
Instead of creating tasks with a specialized call to `CreateWorkspace`
on the frontend, we instead lift this to the backend and allow the
frontend to simply call `CreateAITask`.
PProf labels segment the code into groups for determing the source of
cpu/memory profiles. Since the web server and background jobs share a
lot of the same code (eg wsbuilder), it helps to know if the load is
user induced, or background job based.
- Adds a query for counting managed agent workspace builds between two
timestamps
- The "Actual" field in the feature entitlement for managed agents is
now populated with the value read from the database
- The wsbuilder package now validates AI agent usage against the limit
when a license is installed
Closescoder/internal#777
# Enhanced OAuth2 and MCP Compliance for API Authentication
This PR improves OAuth2 and MCP (Microsoft Cloud for Sovereignty)
compliance by:
1. Adding RFC 9728 compliant `WWW-Authenticate` headers with resource
metadata URLs
2. Passing the configured `AccessURL` to API key middleware for proper
audience validation
3. Creating specialized CORS handling for OAuth2 and MCP endpoints with
appropriate headers
4. Making the `state` parameter optional in OAuth2 authorization
requests
These changes ensure proper OAuth2 token audience validation against the
configured access URL and improve interoperability with OAuth2 clients
by providing better error responses and metadata discovery.
Signed-off-by: Thomas Kosiewski <tk@coder.com>
### Breaking Change (changelog note):
> User connections to workspaces, and the opening of workspace apps or ports will no longer create entries in the audit log. Those events will now be included in the 'Connection Log'.
Please see the 'Connection Log' page in the dashboard, and the Connection Log [documentation](https://coder.com/docs/admin/monitoring/connection-logs) for details. Those with permission to view the Audit Log will also be able to view the Connection Log. The new Connection Log has the same licensing restrictions as the Audit Log, and requires a Premium Coder deployment.
### Context
This is the first PR of a few for moving connection events out of the audit log, and into a new database table and web UI page called the 'Connection Log'.
This PR:
- Creates the new table
- Adds and tests queries for inserting and reading, including reading with an RBAC filter.
- Implements the corresponding RBAC changes, such that anyone who can view the audit log can read from the table
- Implements, under the enterprise package, a `ConnectionLogger` abstraction to replace the `Auditor` abstraction for these logs. (No-op'd in AGPL, like the `Auditor`)
- Routes SSH connection and Workspace App events into the new `ConnectionLogger`
- Updates all existing tests to check the values of the `ConnectionLogger` instead of the `Auditor`.
Future PRs:
- Add filtering to the query
- Add an enterprise endpoint to query the new table
- Write a query to delete old events from the audit log, call it from dbpurge.
- Implement a table in the Web UI for viewing connection logs.
> [!NOTE]
> The PRs in this stack obviously won't be (completely) atomic. Whilst they'll each pass CI, the stack is designed to be merged all at once. I'm splitting them up for the sake of those reviewing, and so changes can be reviewed as early as possible. Despite this, it's really hard to make this PR any smaller than it already is. I'll be keeping it in draft until it's actually ready to merge.
# Refactor OAuth2 Provider Code into Dedicated Package
This PR refactors the OAuth2 provider functionality by moving it from the main `coderd` package into a dedicated `oauth2provider` package. The change improves code organization and maintainability without changing functionality.
Key changes:
- Created a new `oauth2provider` package to house all OAuth2 provider-related code
- Moved existing OAuth2 provider functionality from `coderd/identityprovider` to the new package
- Refactored handler functions to follow a consistent pattern of returning `http.HandlerFunc` instead of being handlers directly
- Split large files into smaller, more focused files organized by functionality:
- `app_secrets.go` - Manages OAuth2 application secrets
- `apps.go` - Handles OAuth2 application CRUD operations
- `authorize.go` - Implements the authorization flow
- `metadata.go` - Provides OAuth2 metadata endpoints
- `registration.go` - Handles dynamic client registration
- `revoke.go` - Implements token revocation
- `secrets.go` - Manages secret generation and validation
- `tokens.go` - Handles token issuance and validation
This refactoring improves code organization and makes the OAuth2 provider functionality more maintainable while preserving all existing behavior.
# Add MCP HTTP Server Experiment
This PR adds a new experiment flag `mcp-server-http` to enable the MCP HTTP server functionality. The changes include:
1. Added a new experiment constant `ExperimentMCPServerHTTP` with the value "mcp-server-http"
2. Added display name and documentation for the new experiment
3. Improved the experiment middleware to:
- Support requiring multiple experiments
- Provide better error messages with experiment display names
- Add a development mode bypass option
4. Applied the new experiment requirement to the MCP HTTP endpoint
5. Replaced the custom OAuth2 middleware with the standard experiment middleware
The PR also improves the `Enabled()` method on the `Experiments` type by using `slices.Contains()` for better readability.
# Add MCP HTTP server with streamable transport support
- Add MCP HTTP server with streamable transport support
- Integrate with existing toolsdk for Coder workspace operations
- Add comprehensive E2E tests with OAuth2 bearer token support
- Register MCP endpoint at /api/experimental/mcp/http with authentication
- Support RFC 6750 Bearer token authentication for MCP clients
Change-Id: Ib9024569ae452729908797c42155006aa04330af
Signed-off-by: Thomas Kosiewski <tk@coder.com>
# Implement OAuth2 Dynamic Client Registration (RFC 7591/7592)
This PR implements OAuth2 Dynamic Client Registration according to RFC 7591 and Client Configuration Management according to RFC 7592. These standards allow OAuth2 clients to register themselves programmatically with Coder as an authorization server.
Key changes include:
1. Added database schema extensions to support RFC 7591/7592 fields in the `oauth2_provider_apps` table
2. Implemented `/oauth2/register` endpoint for dynamic client registration (RFC 7591)
3. Added client configuration management endpoints (RFC 7592):
- GET/PUT/DELETE `/oauth2/clients/{client_id}`
- Registration access token validation middleware
4. Added comprehensive validation for OAuth2 client metadata:
- URI validation with support for custom schemes for native apps
- Grant type and response type validation
- Token endpoint authentication method validation
5. Enhanced developer documentation with:
- RFC compliance guidelines
- Testing best practices to avoid race conditions
- Systematic debugging approaches for OAuth2 implementations
The implementation follows security best practices from the RFCs, including proper token handling, secure defaults, and appropriate error responses. This enables third-party applications to integrate with Coder's OAuth2 provider capabilities programmatically.
# Add OAuth2 Protected Resource Metadata Endpoint
This PR implements the OAuth2 Protected Resource Metadata endpoint according to RFC 9728. The endpoint is available at `/.well-known/oauth-protected-resource` and provides information about Coder as an OAuth2 protected resource.
Key changes:
- Added a new endpoint at `/.well-known/oauth-protected-resource` that returns metadata about Coder as an OAuth2 protected resource
- Created a new `OAuth2ProtectedResourceMetadata` struct in the SDK
- Added tests to verify the endpoint functionality
- Updated API documentation to include the new endpoint
The implementation currently returns basic metadata including the resource identifier and authorization server URL. The `scopes_supported` field is empty until a scope system based on RBAC permissions is implemented. The `bearer_methods_supported` field is omitted as Coder uses custom authentication methods rather than standard RFC 6750 bearer tokens.
A TODO has been added to implement RFC 6750 bearer token support in the future.
This pull request implements RFC 8707, Resource Indicators for OAuth 2.0 (https://datatracker.ietf.org/doc/html/rfc8707), to enhance the security of our OAuth 2.0 provider.
This change enables proper audience validation and binds access tokens to their intended resource, which is crucial
for preventing token misuse in multi-tenant environments or deployments with multiple resource servers.
## Key Changes:
* Resource Parameter Support: Adds support for the resource parameter in both the authorization (`/oauth2/authorize`) and token (`/oauth2/token`) endpoints, allowing clients to specify the intended resource server.
* Audience Validation: Implements server-side validation to ensure that the resource parameter provided during the token exchange matches the one from the authorization request.
* API Middleware Enforcement: Introduces a new validation step in the API authentication middleware (`coderd/httpmw/apikey.go`) to verify that the audience of the access token matches the resource server being accessed.
* Database Schema Updates:
* Adds a `resource_uri` column to the `oauth2_provider_app_codes` table to store the resource requested during authorization.
* Adds an `audience` column to the `oauth2_provider_app_tokens` table to bind the issued token to a specific audience.
* Enhanced PKCE: Includes a minor enhancement to the PKCE implementation to protect against timing attacks.
* Comprehensive Testing: Adds extensive new tests to `coderd/oauth2_test.go` to cover various RFC 8707 scenarios, including valid flows, mismatched resources, and refresh token validation.
## How it Works:
1. An OAuth2 client specifies the target resource (e.g., https://coder.example.com) using the resource parameter in the authorization request.
2. The authorization server stores this resource URI with the authorization code.
3. During the token exchange, the server validates that the client provides the same resource parameter.
4. The server issues an access token with an audience claim set to the validated resource URI.
5. When the client uses the access token to call an API endpoint, the middleware verifies that the token's audience matches the URL of the Coder deployment, rejecting any tokens intended for a different resource.
This ensures that a token issued for one Coder deployment cannot be used to access another, significantly strengthening our authentication security.
---
Change-Id: I3924cb2139e837e3ac0b0bd40a5aeb59637ebc1b
Signed-off-by: Thomas Kosiewski <tk@coder.com>
## Summary
This PR implements critical MCP OAuth2 compliance features for Coder's authorization server, adding PKCE support, resource parameter handling, and OAuth2 server metadata discovery. This brings Coder's OAuth2 implementation significantly closer to production readiness for MCP (Model Context Protocol)
integrations.
## What's Added
### OAuth2 Authorization Server Metadata (RFC 8414)
- Add `/.well-known/oauth-authorization-server` endpoint for automatic client discovery
- Returns standardized metadata including supported grant types, response types, and PKCE methods
- Essential for MCP client compatibility and OAuth2 standards compliance
### PKCE Support (RFC 7636)
- Implement Proof Key for Code Exchange with S256 challenge method
- Add `code_challenge` and `code_challenge_method` parameters to authorization flow
- Add `code_verifier` validation in token exchange
- Provides enhanced security for public clients (mobile apps, CLIs)
### Resource Parameter Support (RFC 8707)
- Add `resource` parameter to authorization and token endpoints
- Store resource URI and bind tokens to specific audiences
- Critical for MCP's resource-bound token model
### Enhanced OAuth2 Error Handling
- Add OAuth2-compliant error responses with proper error codes
- Use standard error format: `{"error": "code", "error_description": "details"}`
- Improve error consistency across OAuth2 endpoints
### Authorization UI Improvements
- Fix authorization flow to use POST-based consent instead of GET redirects
- Remove dependency on referer headers for security decisions
- Improve CSRF protection with proper state parameter validation
## Why This Matters
**For MCP Integration:** MCP requires OAuth2 authorization servers to support PKCE, resource parameters, and metadata discovery. Without these features, MCP clients cannot securely authenticate with Coder.
**For Security:** PKCE prevents authorization code interception attacks, especially critical for public clients. Resource binding ensures tokens are only valid for intended services.
**For Standards Compliance:** These are widely adopted OAuth2 extensions that improve interoperability with modern OAuth2 clients.
## Database Changes
- **Migration 000343:** Adds `code_challenge`, `code_challenge_method`, `resource_uri` to `oauth2_provider_app_codes`
- **Migration 000343:** Adds `audience` field to `oauth2_provider_app_tokens` for resource binding
- **Audit Updates:** New OAuth2 fields properly tracked in audit system
- **Backward Compatibility:** All changes maintain compatibility with existing OAuth2 flows
## Test Coverage
- Comprehensive PKCE test suite in `coderd/identityprovider/pkce_test.go`
- OAuth2 metadata endpoint tests in `coderd/oauth2_metadata_test.go`
- Integration tests covering PKCE + resource parameter combinations
- Negative tests for invalid PKCE verifiers and malformed requests
## Testing Instructions
```bash
# Run the comprehensive OAuth2 test suite
./scripts/oauth2/test-mcp-oauth2.sh
Manual Testing with Interactive Server
# Start Coder in development mode
./scripts/develop.sh
# In another terminal, set up test app and run interactive flow
eval $(./scripts/oauth2/setup-test-app.sh)
./scripts/oauth2/test-manual-flow.sh
# Opens browser with OAuth2 flow, handles callback automatically
# Clean up when done
./scripts/oauth2/cleanup-test-app.sh
Individual Component Testing
# Test metadata endpoint
curl -s http://localhost:3000/.well-known/oauth-authorization-server | jq .
# Test PKCE generation
./scripts/oauth2/generate-pkce.sh
# Run specific test suites
go test -v ./coderd/identityprovider -run TestVerifyPKCE
go test -v ./coderd -run TestOAuth2AuthorizationServerMetadata
```
### Breaking Changes
None. All changes maintain backward compatibility with existing OAuth2 flows.
---
Change-Id: Ifbd0d9a543d545f9f56ecaa77ff2238542ff954a
Signed-off-by: Thomas Kosiewski <tk@coder.com>
This PR replaces the use of the **container** ID with the
**devcontainer** ID. This is a breaking change. This allows rebuilding a
devcontainer when there is no valid container ID.
Add an endpoint to fetch AI task prompts for multiple workspace builds
at the same time. A prompt is the value of the "AI Prompt" workspace
build parameter. On main, the only way our API allows fetching workspace
build parameters is by using the `/workspacebuilds/$build_id/parameters`
endpoint, requiring a separate API call for every build.
The Tasks dashboard fetches Task workspaces in order to show them in a
list, and then needs to fetch the value of the `AI Prompt` parameter for
every task workspace (using its latest build id), requiring an
additional API call for each list item. This endpoint will allow the
dashboard to make just 2 calls to render the list: one to fetch task
workspaces, the other to fetch prompts.
<img width="1512" alt="Screenshot 2025-06-20 at 11 33 11"
src="https://github.com/user-attachments/assets/92899999-e922-44c5-8325-b4b23a0d2bff"
/>
Related to https://github.com/coder/internal/issues/660.
Fixes https://github.com/coder/coder/issues/18024
* drive-by: renames `handleExperimentsSafe` to
`handleExperimentsAvailable` to better match semantics
* defines list of `codersdk.ExperimentsKnown` and updates
`ReadExperiments` to log on invalid experiments
* typescript-ignores `codersdk.Experiments` so apitypings generates a
valid enum list of possible values of experiment
* updates OverviewPageView to distinguish between known 'hidden'
experiments and unknown 'invalid' experiments
I modified the proxy host cache we already had and were using for
websocket csp headers to also include the wildcard app host, then used
those for frame-src policies.
I did not add frame-ancestors, since if I understand correctly, those
would go on the app, and this middleware does not come into play there.
Maybe we will want to add it on workspace apps like we do with cors, if
we find apps are setting it to `none` or something.
Closes https://github.com/coder/internal/issues/684
The file cache was caching the `Unauthorized` errors if a user without
the right perms opened the file first. So all future opens would fail.
Now the cache always opens with a subject that can read files. And authz
is checked on the Acquire per user.
Existing template versions do not have the metadata (modules + plan) in
the db. So revert to using static parameter information from the
original template import.
This data will still be served over the websocket.
Closes https://github.com/coder/internal/issues/369
We can't know whether a replacement (i.e. drift of terraform state
leading to a resource needing to be deleted/recreated) will take place
apriori; we can only detect it at `plan` time, because the provider
decides whether a resource must be replaced and it cannot be inferred
through static analysis of the template.
**This is likely to be the most common gotcha with using prebuilds,
since it requires a slight template modification to use prebuilds
effectively**, so let's head this off before it's an issue for
customers.
Drift details will now be logged in the workspace build logs:
Plus a notification will be sent to template admins when this situation
arises:
A new metric - `coderd_prebuilt_workspaces_resource_replacements_total`
- will also increment each time a workspace encounters replacements.
We only track _that_ a resource replacement occurred, not how many. Just
one is enough to ruin a prebuild, but we can't know apriori which
replacement would cause this.
For example, say we have 2 replacements: a `docker_container` and a
`null_resource`; we don't know which one might
cause an issue (or indeed if either would), so we just track the
replacement.
---------
Signed-off-by: Danny Kopping <dannykopping@gmail.com>
This pull request allows coder workspace agents to be reinitialized when
a prebuilt workspace is claimed by a user. This facilitates the transfer
of ownership between the anonymous prebuilds system user and the new
owner of the workspace.
Only a single agent per prebuilt workspace is supported for now, but
plumbing has already been done to facilitate the seamless transition to
multi-agent support.
---------
Signed-off-by: Danny Kopping <dannykopping@gmail.com>
Co-authored-by: Danny Kopping <dannykopping@gmail.com>
Closes https://github.com/coder/coder/issues/17691
`ExtractOrganizationMembersParam` will allow fetching a user with only
organization permissions. If the user belongs to 0 orgs, then the user "does not exist"
from an org perspective. But if you are a site-wide admin, then the user does exist.
Ethan