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merge into: dohertj2/mxaccessgw:agent-3/issue-20-scaffold-worker-project
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dohertj2/mxaccessgw:main dohertj2/mxaccessgw:docs/prose-audit dohertj2/mxaccessgw:docs/xml-doc-comments dohertj2/mxaccessgw:feat/adopt-zb-health dohertj2/mxaccessgw:feat/adopt-zb-telemetry-serilog dohertj2/mxaccessgw:feat/tls-cert-autogen dohertj2/mxaccessgw:feat/lazy-browse-children dohertj2/mxaccessgw:test/client-e2e-coverage dohertj2/mxaccessgw:docs/alarm-client-wm-app-finding dohertj2/mxaccessgw:codex/fix-runtime-review-findings dohertj2/mxaccessgw:agent-2/issue-50-client-packaging-documentation dohertj2/mxaccessgw:agent-1/issue-49-cross-language-smoke-test-matrix dohertj2/mxaccessgw:agent-1/issue-48-implement-java-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-2/issue-35-parity-fixture-matrix dohertj2/mxaccessgw:agent-3/issue-46-implement-python-async-client-values-errors-and-cli dohertj2/mxaccessgw:agent-1/issue-47-scaffold-java-gradle-build dohertj2/mxaccessgw:agent-2/issue-44-implement-rust-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-3/issue-45-scaffold-python-package dohertj2/mxaccessgw:agent-1/issue-40-implement-dotnet-values-status-errors-and-cli dohertj2/mxaccessgw:agent-3/issue-42-implement-go-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-2/issue-34-worker-live-mxaccess-smoke-test dohertj2/mxaccessgw:agent-3/issue-43-scaffold-rust-workspace dohertj2/mxaccessgw:agent-1/issue-39-implement-dotnet-gatewayclient-and-session dohertj2/mxaccessgw:agent-2/issue-33-implement-graceful-shutdown dohertj2/mxaccessgw:agent-3/issue-41-scaffold-go-module dohertj2/mxaccessgw:agent-1/issue-38-scaffold-dotnet-client-projects dohertj2/mxaccessgw:agent-3/issue-32-implement-heartbeat-and-watchdog dohertj2/mxaccessgw:agent-1/issue-37-create-cross-language-client-behavior-fixtures dohertj2/mxaccessgw:agent-2/issue-29-implement-event-sink-and-event-queue dohertj2/mxaccessgw:agent-1/issue-36-publish-stable-client-proto-generation-inputs dohertj2/mxaccessgw:agent-2/issue-28-implement-advise-unadvise-advisesupervisory dohertj2/mxaccessgw:agent-1/issue-16-implement-blazor-server-dashboard dohertj2/mxaccessgw:agent-3/issue-19-gateway-e2e-smoke-with-fake-worker dohertj2/mxaccessgw:agent-2/issue-27-implement-additem-additem2-removeitem dohertj2/mxaccessgw:agent-3/issue-18-build-fake-worker-test-harness dohertj2/mxaccessgw:agent-1/issue-17-implement-dashboard-authentication dohertj2/mxaccessgw:agent-2/issue-26-implement-register-and-unregister dohertj2/mxaccessgw:agent-3/issue-14-implement-event-streaming-and-backpressure dohertj2/mxaccessgw:agent-1/issue-15-implement-dashboard-snapshot-service dohertj2/mxaccessgw:agent-2/issue-25-implement-sta-command-dispatcher dohertj2/mxaccessgw:agent-3/issue-13-implement-public-grpc-service dohertj2/mxaccessgw:agent-2/issue-31-implement-mxstatus-proxy-and-hresult-conversion dohertj2/mxaccessgw:agent-1/issue-24-create-mxaccess-com-object-on-sta dohertj2/mxaccessgw:agent-3/issue-12-implement-session-manager-and-registry dohertj2/mxaccessgw:agent-2/issue-30-implement-value-conversion dohertj2/mxaccessgw:agent-1/issue-23-implement-sta-runtime-and-message-pump dohertj2/mxaccessgw:agent-2/issue-22-implement-pipe-client-and-frame-protocol dohertj2/mxaccessgw:agent-3/issue-11-implement-gateway-workerclient dohertj2/mxaccessgw:agent-1/issue-8-add-grpc-authentication-and-scope-authorization dohertj2/mxaccessgw:agent-2/issue-7-implement-local-api-key-admin-cli dohertj2/mxaccessgw:agent-3/issue-21-implement-worker-bootstrap-and-options dohertj2/mxaccessgw:agent-1/issue-10-implement-worker-process-launcher dohertj2/mxaccessgw:agent-2/issue-6-implement-api-key-hashing-and-verification dohertj2/mxaccessgw:agent-3/issue-20-scaffold-worker-project dohertj2/mxaccessgw:agent-2/issue-5-implement-sqlite-auth-store-and-migrations dohertj2/mxaccessgw:agent-1/issue-9-implement-worker-frame-protocol dohertj2/mxaccessgw:agent-3/issue-4-add-structured-logging-and-metrics-foundation dohertj2/mxaccessgw:agent-2/issue-3-add-gateway-configuration-and-validation dohertj2/mxaccessgw:agent-1/issue-2-define-protobuf-contracts dohertj2/mxaccessgw:agent-1/issue-1-scaffold-gateway-solution-and-projects
..
pull from: dohertj2/mxaccessgw:agent-2/issue-22-implement-pipe-client-and-frame-protocol
Branches Tags
dohertj2/mxaccessgw:main dohertj2/mxaccessgw:docs/prose-audit dohertj2/mxaccessgw:docs/xml-doc-comments dohertj2/mxaccessgw:feat/adopt-zb-health dohertj2/mxaccessgw:feat/adopt-zb-telemetry-serilog dohertj2/mxaccessgw:feat/tls-cert-autogen dohertj2/mxaccessgw:feat/lazy-browse-children dohertj2/mxaccessgw:test/client-e2e-coverage dohertj2/mxaccessgw:docs/alarm-client-wm-app-finding dohertj2/mxaccessgw:codex/fix-runtime-review-findings dohertj2/mxaccessgw:agent-2/issue-50-client-packaging-documentation dohertj2/mxaccessgw:agent-1/issue-49-cross-language-smoke-test-matrix dohertj2/mxaccessgw:agent-1/issue-48-implement-java-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-2/issue-35-parity-fixture-matrix dohertj2/mxaccessgw:agent-3/issue-46-implement-python-async-client-values-errors-and-cli dohertj2/mxaccessgw:agent-1/issue-47-scaffold-java-gradle-build dohertj2/mxaccessgw:agent-2/issue-44-implement-rust-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-3/issue-45-scaffold-python-package dohertj2/mxaccessgw:agent-1/issue-40-implement-dotnet-values-status-errors-and-cli dohertj2/mxaccessgw:agent-3/issue-42-implement-go-client-session-values-errors-and-cli dohertj2/mxaccessgw:agent-2/issue-34-worker-live-mxaccess-smoke-test dohertj2/mxaccessgw:agent-3/issue-43-scaffold-rust-workspace dohertj2/mxaccessgw:agent-1/issue-39-implement-dotnet-gatewayclient-and-session dohertj2/mxaccessgw:agent-2/issue-33-implement-graceful-shutdown dohertj2/mxaccessgw:agent-3/issue-41-scaffold-go-module dohertj2/mxaccessgw:agent-1/issue-38-scaffold-dotnet-client-projects dohertj2/mxaccessgw:agent-3/issue-32-implement-heartbeat-and-watchdog dohertj2/mxaccessgw:agent-1/issue-37-create-cross-language-client-behavior-fixtures dohertj2/mxaccessgw:agent-2/issue-29-implement-event-sink-and-event-queue dohertj2/mxaccessgw:agent-1/issue-36-publish-stable-client-proto-generation-inputs dohertj2/mxaccessgw:agent-2/issue-28-implement-advise-unadvise-advisesupervisory dohertj2/mxaccessgw:agent-1/issue-16-implement-blazor-server-dashboard dohertj2/mxaccessgw:agent-3/issue-19-gateway-e2e-smoke-with-fake-worker dohertj2/mxaccessgw:agent-2/issue-27-implement-additem-additem2-removeitem dohertj2/mxaccessgw:agent-3/issue-18-build-fake-worker-test-harness dohertj2/mxaccessgw:agent-1/issue-17-implement-dashboard-authentication dohertj2/mxaccessgw:agent-2/issue-26-implement-register-and-unregister dohertj2/mxaccessgw:agent-3/issue-14-implement-event-streaming-and-backpressure dohertj2/mxaccessgw:agent-1/issue-15-implement-dashboard-snapshot-service dohertj2/mxaccessgw:agent-2/issue-25-implement-sta-command-dispatcher dohertj2/mxaccessgw:agent-3/issue-13-implement-public-grpc-service dohertj2/mxaccessgw:agent-2/issue-31-implement-mxstatus-proxy-and-hresult-conversion dohertj2/mxaccessgw:agent-1/issue-24-create-mxaccess-com-object-on-sta dohertj2/mxaccessgw:agent-3/issue-12-implement-session-manager-and-registry dohertj2/mxaccessgw:agent-2/issue-30-implement-value-conversion dohertj2/mxaccessgw:agent-1/issue-23-implement-sta-runtime-and-message-pump dohertj2/mxaccessgw:agent-2/issue-22-implement-pipe-client-and-frame-protocol dohertj2/mxaccessgw:agent-3/issue-11-implement-gateway-workerclient dohertj2/mxaccessgw:agent-1/issue-8-add-grpc-authentication-and-scope-authorization dohertj2/mxaccessgw:agent-2/issue-7-implement-local-api-key-admin-cli dohertj2/mxaccessgw:agent-3/issue-21-implement-worker-bootstrap-and-options dohertj2/mxaccessgw:agent-1/issue-10-implement-worker-process-launcher dohertj2/mxaccessgw:agent-2/issue-6-implement-api-key-hashing-and-verification dohertj2/mxaccessgw:agent-3/issue-20-scaffold-worker-project dohertj2/mxaccessgw:agent-2/issue-5-implement-sqlite-auth-store-and-migrations dohertj2/mxaccessgw:agent-1/issue-9-implement-worker-frame-protocol dohertj2/mxaccessgw:agent-3/issue-4-add-structured-logging-and-metrics-foundation dohertj2/mxaccessgw:agent-2/issue-3-add-gateway-configuration-and-validation dohertj2/mxaccessgw:agent-1/issue-2-define-protobuf-contracts dohertj2/mxaccessgw:agent-1/issue-1-scaffold-gateway-solution-and-projects

14 Commits
agent-3/issue-20-scaffold-worker-project .. agent-2/issue-22-implement-pipe-client-and-frame-protocol

Author SHA1 Message Date
Joseph Doherty d5a982152b Issue #22: implement pipe client and frame protocol 2026-04-26 17:16:49 -04:00
dohertj2 0b0be7098e Merge PR #64: Issue #11 implement gateway WorkerClient 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln.
 2026-04-26 17:14:03 -04:00
Joseph Doherty fce9e99553 Issue #11: implement gateway workerclient 2026-04-26 17:09:51 -04:00
dohertj2 c8fb3e91a3 Merge PR #63: Issue #8 add gRPC authentication and scope authorization 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln.
 2026-04-26 17:06:23 -04:00
dohertj2 8ce327e6f4 Merge PR #62: Issue #7 implement local api key admin cli 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln.
 2026-04-26 17:02:09 -04:00
Joseph Doherty fad0ac9948 Issue #8: add grpc authentication and scope authorization 2026-04-26 17:01:59 -04:00
dohertj2 9cb2f1c5cd Merge PR #61: Issue #21 implement worker bootstrap and options 
Verified with dotnet build src\\MxGateway.sln, dotnet test src\\MxGateway.Worker.Tests\\MxGateway.Worker.Tests.csproj -p:Platform=x86, and dotnet test src\\MxGateway.sln --no-build.
 2026-04-26 16:56:52 -04:00
Joseph Doherty da9ffe0e11 Issue #7: implement local api key admin cli 2026-04-26 16:56:12 -04:00
Joseph Doherty 0af1427859 Issue #21: implement worker bootstrap and options 2026-04-26 16:53:06 -04:00
dohertj2 e2b4dfcb32 Merge PR #60: Issue #10 implement worker process launcher 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln --no-build.
 2026-04-26 16:50:00 -04:00
dohertj2 3b3e41acf4 Merge PR #59: Issue #6 implement API key hashing and verification 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln.
 2026-04-26 16:46:06 -04:00
Joseph Doherty c1188c6957 Issue #10: implement worker process launcher 2026-04-26 16:45:42 -04:00
dohertj2 4094e64ee0 Merge PR #58: Issue #20 scaffold worker project 
Verified with dotnet build src\\MxGateway.sln, dotnet test src\\MxGateway.Worker.Tests\\MxGateway.Worker.Tests.csproj -p:Platform=x86, and dotnet test src\\MxGateway.sln --no-build.
 2026-04-26 16:41:34 -04:00
Joseph Doherty 696be17139 Issue #6: implement api key hashing and verification 2026-04-26 16:40:46 -04:00
100 changed files with 6091 additions and 29 deletions
Expand all files Collapse all files
docs/WorkerProcessLauncher.md
+62
View File
@@ -0,0 +1,62 @@
# Worker Process Launcher
The gateway uses `WorkerProcessLauncher` to validate and start one worker
process for a gateway session. The launcher owns process start semantics only;
pipe handshaking and `WorkerReady` validation remain part of the worker client
startup path.
## Launch Inputs
`WorkerProcessLaunchRequest` carries the per-session bootstrap values:
- `SessionId`,
- `PipeName`,
- `ProtocolVersion`,
- `Nonce`,
- optional `PipeReservation` cleanup handle.
The launcher passes `SessionId`, `PipeName`, and `ProtocolVersion` as command
line arguments:
```text
--session-id <sessionId> --pipe-name <pipeName> --protocol-version <version>
```
The launcher sets the nonce through the `MXGATEWAY_WORKER_NONCE` environment
variable. The nonce is not included in `WorkerProcessCommandLine` so logs and
diagnostics can report the launch command without exposing the secret.
## Validation And Cleanup
Before starting the process, the launcher validates that the configured worker
path exists, has a `.exe` extension, contains a valid Windows Portable
Executable header, and matches the configured `RequiredArchitecture`.
After the process starts, `IWorkerStartupProbe` waits for startup readiness.
The default probe only verifies that the worker did not exit immediately. The
worker client replaces this probe when pipe connection, hello, and
`WorkerReady` handling are implemented.
If startup fails or exceeds `WorkerOptions.StartupTimeoutSeconds`, the launcher
kills the worker process tree, disposes the process handle, disposes the
optional pipe reservation, records a worker kill metric, and reports a
`WorkerProcessLaunchException`.
## Verification
Run the focused launcher tests after changing process launch behavior:
```bash
dotnet test src/MxGateway.Tests/MxGateway.Tests.csproj --filter WorkerProcessLauncherTests
```
Run the gateway build because the launcher is part of `MxGateway.Server`:
```bash
dotnet build src/MxGateway.Server/MxGateway.Server.csproj
```
## Related Documentation
- [Gateway Process Detailed Design](./gateway-process-design.md)
- [Worker Frame Protocol](./WorkerFrameProtocol.md)
docs/gateway-process-design.md
+74 -2
View File
@@ -360,6 +360,15 @@ Before launch, validate:
- worker file version or product version is acceptable,
- worker is expected to be x86.
`WorkerProcessLauncher` implements the first validation layer now: it resolves
the worker executable path, requires a `.exe`, validates the Windows Portable
Executable header, and verifies the configured processor architecture. It passes
only `--session-id`, `--pipe-name`, and `--protocol-version` on the command
line. The per-session nonce is set through `MXGATEWAY_WORKER_NONCE` so the
command line remains safe to log. Startup failures and startup timeouts kill and
dispose the worker process and the pre-created pipe reservation before the
session manager observes the failure.
## Worker IPC
The gateway creates the pipe server before launching the worker.
@@ -402,7 +411,7 @@ session ids as protocol faults and close the session.
`WorkerClient` is the gateway-side object that owns one worker connection.
Suggested public shape:
Current public shape:
```csharp
public interface IWorkerClient : IAsyncDisposable
@@ -410,6 +419,7 @@ public interface IWorkerClient : IAsyncDisposable
string SessionId { get; }
int? ProcessId { get; }
WorkerClientState State { get; }
DateTimeOffset LastHeartbeatAt { get; }
Task StartAsync(CancellationToken cancellationToken);
Task<WorkerCommandReply> InvokeAsync(
@@ -429,12 +439,17 @@ Internally it owns:
- pipe stream,
- read loop,
- write loop,
- bounded outbound command/control channel,
- outbound command/control channel serialized by the write loop,
- bounded inbound event channel,
- pending command dictionary keyed by correlation id,
- heartbeat monitor,
- terminal fault source.
`StartAsync` sends `GatewayHello`, verifies the `WorkerHello` protocol version
and nonce, waits for `WorkerReady`, and only then exposes `Ready` state. The
read loop starts after readiness so the handshake has a single owner for its
ordered frames.
### Read Loop
The read loop:
@@ -589,6 +604,29 @@ The gateway should split the key into a stable key id and secret component,
load the key record by id, hash the presented secret, and compare using a
constant-time comparison.
`ApiKeyParser` accepts only `authorization: Bearer mxgw_<key-id>_<secret>`.
Malformed headers fail before any database lookup. The parsed raw secret is
kept only long enough for `ApiKeySecretHasher` to compute an HMAC-SHA256 hash
using the configured `Authentication:PepperSecretName` lookup in application
configuration. The raw secret is not stored in the auth database, identity
model, logs, or verification result.
`ApiKeyVerifier` loads the stored key record by key id, rejects revoked keys,
hashes the presented secret, and compares the stored and presented hashes with
`CryptographicOperations.FixedTimeEquals`. A successful verification returns an
`ApiKeyIdentity` with key id, key prefix, display name, and scopes. Failure
results distinguish malformed credentials, missing keys, revoked keys, missing
pepper configuration, and hash mismatch for internal authorization handling.
`GatewayGrpcAuthorizationInterceptor` enforces this authentication model for
public gRPC calls. Missing, malformed, revoked, unknown, or mismatched keys fail
with `Unauthenticated`. Authenticated calls missing the scope required by the
RPC fail with `PermissionDenied`. The interceptor applies to unary calls and
server-streaming calls and stores the authenticated `ApiKeyIdentity` in
`IGatewayRequestIdentityAccessor` for the duration of the request handler.
`Authentication:Mode` set to `Disabled` bypasses API-key verification for local
development only.
Recommended scopes:
- `session:open`
@@ -608,6 +646,23 @@ gRPC admin API. It should initialize the auth database, create keys, list keys
without secrets, revoke keys, rotate keys, and print raw secrets only once at
creation.
`MxGateway.Server` exposes local API-key administration as an `apikey`
subcommand before the web host starts:
```bash
MxGateway.Server apikey init-db --sqlite-path C:\ProgramData\MxGateway\gateway-auth.db
MxGateway.Server apikey create-key --key-id operator01 --display-name Operator --scopes session:open,events:read
MxGateway.Server apikey list-keys --json
MxGateway.Server apikey revoke-key --key-id operator01
MxGateway.Server apikey rotate-key --key-id operator01 --json
```
The subcommands accept `--sqlite-path`, `--pepper`, and `--json`. `--pepper`
sets the local `MxGateway:ApiKeyPepper` configuration value for the command
process; deployments should normally provide the pepper through the configured
secret source. `create-key` and `rotate-key` print the full raw API key exactly
once. `list-keys` never prints raw secrets or `secret_hash` values.
SQLite auth storage should use startup migrations with a `schema_version` table.
Migrations should run inside transactions and fail startup if the database
schema is newer than the running binary understands.
@@ -637,6 +692,20 @@ Commands requiring authorization:
- worker shutdown diagnostics,
- metadata queries if they expose sensitive plant structure.
Current gRPC scope mapping:
- `OpenSession` requires `session:open`.
- `CloseSession` requires `session:close`.
- `StreamEvents` and `DrainEvents` require `events:read`.
- read-style MXAccess commands such as `Register`, `AddItem`, `Advise`, and
`Ping` require `invoke:read`.
- `Write` and `Write2` require `invoke:write`.
- `WriteSecured`, `WriteSecured2`, and `AuthenticateUser` require
`invoke:secure`.
- metadata commands such as `ArchestrAUserToId`, `GetSessionState`, and
`GetWorkerInfo` require `metadata:read`.
- `ShutdownWorker` requires `admin`.
### Worker IPC
Named pipes should be local only. Pipe ACLs should restrict access to:
@@ -779,6 +848,9 @@ workers and fake transports.
Focused tests:
- session state transitions,
- gRPC API-key authentication for unary and streaming calls,
- gRPC scope mapping for sessions, invokes, events, metadata, and admin
commands,
- worker startup failures,
- protocol version mismatch,
- malformed frame handling,
docs/mxaccess-worker-instance-design.md
+15
View File
@@ -114,6 +114,21 @@ Startup sequence:
If validation fails before MXAccess creation, exit quickly with a non-zero exit
code. If MXAccess creation fails, send `WorkerFault` when possible and exit.
The bootstrap layer returns structured exit codes before it creates pipes,
starts the STA, or touches MXAccess:
| Exit code | Name | Meaning |
|-----------|------|---------|
| `0` | `Success` | Required bootstrap options are valid. |
| `1` | `UnexpectedFailure` | A non-bootstrap exception reaches the process boundary. |
| `2` | `InvalidArguments` | Required arguments are missing or unknown arguments are present. |
| `3` | `InvalidProtocolVersion` | `--protocol-version` is not numeric or does not match the supported worker protocol. |
| `4` | `MissingNonce` | `MXGATEWAY_WORKER_NONCE` is absent or empty. |
Bootstrap logs use `WorkerConsoleLogger` key/value output. `WorkerLogRedactor`
redacts fields whose names indicate nonce, secret, password, token,
credential, or API key values before the message is written.
## Internal Components
```text
gateway.md
+9 -3
View File
@@ -47,6 +47,8 @@ Detailed follow-up docs:
security, observability, and test strategy.
- `docs/WorkerFrameProtocol.md` covers the gateway-side named-pipe frame
reader/writer and `WorkerEnvelope` validation rules.
- `docs/WorkerProcessLauncher.md` covers worker executable validation, process
launch arguments, nonce handling, and startup cleanup behavior.
- `docs/mxaccess-worker-instance-design.md` covers each .NET Framework 4.8 x86
MXAccess worker instance, including STA ownership, message pumping, COM
lifetime, command dispatch, event sinks, conversion, and shutdown.
@@ -564,9 +566,13 @@ Because each client owns one worker, a crash or leak affects only that session.
External gateway:
- use TLS for remote gRPC if crossing machine boundaries,
- authenticate clients with Windows auth, mTLS, or a deployment-specific token,
- authorize access to commands that can write, authenticate users, or alter
runtime state.
- authenticate v1 gRPC clients with `authorization: Bearer
mxgw_<key-id>_<secret>` API-key metadata,
- reject missing or invalid API keys with gRPC `Unauthenticated`,
- reject valid keys that lack the required session, invoke, event, metadata, or
admin scope with gRPC `PermissionDenied`,
- authorize access to commands that can write, authenticate users, expose
metadata, stream events, or alter runtime state.
Internal worker IPC:
src/MxGateway.Server/GatewayApplication.cs
+4
View File
@@ -3,6 +3,8 @@ using MxGateway.Server.Configuration;
using MxGateway.Server.Diagnostics;
using MxGateway.Server.Metrics;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
using MxGateway.Server.Workers;
namespace MxGateway.Server;
@@ -25,8 +27,10 @@ public static class GatewayApplication
builder.Services.AddGatewayConfiguration();
builder.Services.AddSqliteAuthStore();
builder.Services.AddGatewayGrpcAuthorization();
builder.Services.AddHealthChecks();
builder.Services.AddSingleton<GatewayMetrics>();
builder.Services.AddWorkerProcessLauncher();
return builder;
}
src/MxGateway.Server/MxGateway.Server.csproj
+1
View File
@@ -5,6 +5,7 @@
</PropertyGroup>
<ItemGroup>
<PackageReference Include="Grpc.AspNetCore" Version="2.76.0" />
<PackageReference Include="Microsoft.Data.Sqlite" Version="10.0.7" />
</ItemGroup>
src/MxGateway.Server/Program.cs
+37 -1
View File
@@ -1,7 +1,43 @@
using MxGateway.Server;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
var app = GatewayApplication.Build(args);
ApiKeyAdminParseResult apiKeyAdminCommand = ApiKeyAdminCommandLineParser.Parse(args);
if (apiKeyAdminCommand.IsApiKeyCommand)
{
if (apiKeyAdminCommand.Command is null)
{
await Console.Error.WriteLineAsync(apiKeyAdminCommand.Error);
return 2;
}
WebApplicationBuilder builder = GatewayApplication.CreateBuilder([]);
ApplyApiKeyAdminOverrides(builder.Configuration, apiKeyAdminCommand.Command);
await using WebApplication cliApp = builder.Build();
await using AsyncServiceScope scope = cliApp.Services.CreateAsyncScope();
ApiKeyAdminCliRunner runner = scope.ServiceProvider.GetRequiredService<ApiKeyAdminCliRunner>();
return await runner.RunAsync(apiKeyAdminCommand.Command, Console.Out, CancellationToken.None);
}
WebApplication app = GatewayApplication.Build(args);
app.Run();
return 0;
static void ApplyApiKeyAdminOverrides(IConfiguration configuration, ApiKeyAdminCommand command)
{
if (!string.IsNullOrWhiteSpace(command.SqlitePath))
{
configuration[$"{GatewayOptions.SectionName}:Authentication:SqlitePath"] = command.SqlitePath;
}
if (!string.IsNullOrWhiteSpace(command.Pepper))
{
configuration["MxGateway:ApiKeyPepper"] = command.Pepper;
}
}
public partial class Program;
src/MxGateway.Server/Security/Authentication/ApiKeyAdminCliRunner.cs
+180
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@@ -0,0 +1,180 @@
using System.Text.Json;
namespace MxGateway.Server.Security.Authentication;
public sealed class ApiKeyAdminCliRunner(
IAuthStoreMigrator migrator,
IApiKeyAdminStore adminStore,
IApiKeyAuditStore auditStore,
IApiKeySecretHasher hasher)
{
private static readonly JsonSerializerOptions JsonOptions = new()
{
WriteIndented = true
};
public async Task<int> RunAsync(
ApiKeyAdminCommand command,
TextWriter output,
CancellationToken cancellationToken)
{
ApiKeyAdminOutput result = command.Kind switch
{
ApiKeyAdminCommandKind.InitDb => await InitDbAsync(cancellationToken).ConfigureAwait(false),
ApiKeyAdminCommandKind.CreateKey => await CreateKeyAsync(command, cancellationToken).ConfigureAwait(false),
ApiKeyAdminCommandKind.ListKeys => await ListKeysAsync(cancellationToken).ConfigureAwait(false),
ApiKeyAdminCommandKind.RevokeKey => await RevokeKeyAsync(command, cancellationToken).ConfigureAwait(false),
ApiKeyAdminCommandKind.RotateKey => await RotateKeyAsync(command, cancellationToken).ConfigureAwait(false),
_ => throw new InvalidOperationException($"Unsupported API key command '{command.Kind}'.")
};
await WriteOutputAsync(command, result, output).ConfigureAwait(false);
return 0;
}
private async Task<ApiKeyAdminOutput> InitDbAsync(CancellationToken cancellationToken)
{
await migrator.MigrateAsync(cancellationToken).ConfigureAwait(false);
await AppendAuditAsync(null, "init-db", null, cancellationToken).ConfigureAwait(false);
return new ApiKeyAdminOutput("init-db", "initialized", null, []);
}
private async Task<ApiKeyAdminOutput> CreateKeyAsync(
ApiKeyAdminCommand command,
CancellationToken cancellationToken)
{
await migrator.MigrateAsync(cancellationToken).ConfigureAwait(false);
string keyId = Required(command.KeyId);
string secret = ApiKeySecretGenerator.Generate();
string apiKey = FormatApiKey(keyId, secret);
await adminStore.CreateAsync(
new ApiKeyCreateRequest(
KeyId: keyId,
KeyPrefix: $"mxgw_{keyId}",
SecretHash: hasher.HashSecret(secret),
DisplayName: Required(command.DisplayName),
Scopes: command.Scopes,
CreatedUtc: DateTimeOffset.UtcNow),
cancellationToken)
.ConfigureAwait(false);
await AppendAuditAsync(keyId, "create-key", null, cancellationToken).ConfigureAwait(false);
return new ApiKeyAdminOutput("create-key", "created", apiKey, []);
}
private async Task<ApiKeyAdminOutput> ListKeysAsync(CancellationToken cancellationToken)
{
await migrator.MigrateAsync(cancellationToken).ConfigureAwait(false);
IReadOnlyList<ApiKeyRecord> keys = await adminStore.ListAsync(cancellationToken).ConfigureAwait(false);
await AppendAuditAsync(null, "list-keys", null, cancellationToken).ConfigureAwait(false);
return new ApiKeyAdminOutput(
"list-keys",
"ok",
null,
keys.Select(ToListedKey).ToArray());
}
private async Task<ApiKeyAdminOutput> RevokeKeyAsync(
ApiKeyAdminCommand command,
CancellationToken cancellationToken)
{
await migrator.MigrateAsync(cancellationToken).ConfigureAwait(false);
string keyId = Required(command.KeyId);
bool revoked = await adminStore.RevokeAsync(keyId, DateTimeOffset.UtcNow, cancellationToken)
.ConfigureAwait(false);
await AppendAuditAsync(keyId, "revoke-key", revoked ? "revoked" : "not-found-or-already-revoked", cancellationToken)
.ConfigureAwait(false);
return new ApiKeyAdminOutput("revoke-key", revoked ? "revoked" : "not-found-or-already-revoked", null, []);
}
private async Task<ApiKeyAdminOutput> RotateKeyAsync(
ApiKeyAdminCommand command,
CancellationToken cancellationToken)
{
await migrator.MigrateAsync(cancellationToken).ConfigureAwait(false);
string keyId = Required(command.KeyId);
string secret = ApiKeySecretGenerator.Generate();
string apiKey = FormatApiKey(keyId, secret);
bool rotated = await adminStore.RotateAsync(keyId, hasher.HashSecret(secret), DateTimeOffset.UtcNow, cancellationToken)
.ConfigureAwait(false);
await AppendAuditAsync(keyId, "rotate-key", rotated ? "rotated" : "not-found", cancellationToken)
.ConfigureAwait(false);
return new ApiKeyAdminOutput("rotate-key", rotated ? "rotated" : "not-found", rotated ? apiKey : null, []);
}
private static async Task WriteOutputAsync(
ApiKeyAdminCommand command,
ApiKeyAdminOutput result,
TextWriter output)
{
if (command.Json)
{
await output.WriteLineAsync(JsonSerializer.Serialize(result, JsonOptions)).ConfigureAwait(false);
return;
}
await output.WriteLineAsync($"{result.Command}: {result.Status}").ConfigureAwait(false);
if (result.ApiKey is not null)
{
await output.WriteLineAsync($"API key: {result.ApiKey}").ConfigureAwait(false);
}
foreach (ApiKeyAdminListedKey key in result.Keys)
{
string revoked = key.RevokedUtc is null ? "active" : "revoked";
await output.WriteLineAsync($"{key.KeyId}\t{key.DisplayName}\t{revoked}\t{string.Join(',', key.Scopes)}")
.ConfigureAwait(false);
}
}
private async Task AppendAuditAsync(
string? keyId,
string eventType,
string? details,
CancellationToken cancellationToken)
{
await auditStore.AppendAsync(
new ApiKeyAuditEntry(
KeyId: keyId,
EventType: eventType,
RemoteAddress: null,
Details: details),
cancellationToken)
.ConfigureAwait(false);
}
private static ApiKeyAdminListedKey ToListedKey(ApiKeyRecord key)
{
return new ApiKeyAdminListedKey(
KeyId: key.KeyId,
KeyPrefix: key.KeyPrefix,
DisplayName: key.DisplayName,
Scopes: key.Scopes,
CreatedUtc: key.CreatedUtc,
LastUsedUtc: key.LastUsedUtc,
RevokedUtc: key.RevokedUtc);
}
private static string FormatApiKey(string keyId, string secret)
{
return $"mxgw_{keyId}_{secret}";
}
private static string Required(string? value)
{
return value ?? throw new InvalidOperationException("Required command value was not provided.");
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyAdminCommand.cs
+10
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@@ -0,0 +1,10 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyAdminCommand(
ApiKeyAdminCommandKind Kind,
bool Json,
string? SqlitePath,
string? Pepper,
string? KeyId,
string? DisplayName,
IReadOnlySet<string> Scopes);
src/MxGateway.Server/Security/Authentication/ApiKeyAdminCommandKind.cs
+10
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@@ -0,0 +1,10 @@
namespace MxGateway.Server.Security.Authentication;
public enum ApiKeyAdminCommandKind
{
InitDb,
CreateKey,
ListKeys,
RevokeKey,
RotateKey
}
src/MxGateway.Server/Security/Authentication/ApiKeyAdminCommandLineParser.cs
+159
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@@ -0,0 +1,159 @@
namespace MxGateway.Server.Security.Authentication;
public static class ApiKeyAdminCommandLineParser
{
public static ApiKeyAdminParseResult Parse(IReadOnlyList<string> args)
{
if (args.Count == 0 || !string.Equals(args[0], "apikey", StringComparison.OrdinalIgnoreCase))
{
return ApiKeyAdminParseResult.NotApiKeyCommand();
}
if (args.Count < 2)
{
return ApiKeyAdminParseResult.Fail("Missing apikey subcommand.");
}
if (!TryParseKind(args[1], out ApiKeyAdminCommandKind kind))
{
return ApiKeyAdminParseResult.Fail($"Unknown apikey subcommand '{args[1]}'.");
}
Dictionary<string, string?> options = new(StringComparer.OrdinalIgnoreCase);
bool json = false;
for (int index = 2; index < args.Count; index++)
{
string arg = args[index];
if (string.Equals(arg, "--json", StringComparison.OrdinalIgnoreCase))
{
json = true;
continue;
}
if (!arg.StartsWith("--", StringComparison.Ordinal))
{
return ApiKeyAdminParseResult.Fail($"Unexpected argument '{arg}'.");
}
string name = arg[2..];
string? value;
int equalsIndex = name.IndexOf('=', StringComparison.Ordinal);
if (equalsIndex >= 0)
{
value = name[(equalsIndex + 1)..];
name = name[..equalsIndex];
}
else
{
if (index + 1 >= args.Count || args[index + 1].StartsWith("--", StringComparison.Ordinal))
{
return ApiKeyAdminParseResult.Fail($"Option '--{name}' requires a value.");
}
value = args[++index];
}
options[name] = value;
}
string? keyId = GetOption(options, "key-id");
string? displayName = GetOption(options, "display-name");
IReadOnlySet<string> scopes = ParseScopes(GetOption(options, "scopes"));
string? validationError = Validate(kind, keyId, displayName);
if (validationError is not null)
{
return ApiKeyAdminParseResult.Fail(validationError);
}
return ApiKeyAdminParseResult.Success(new ApiKeyAdminCommand(
Kind: kind,
Json: json,
SqlitePath: GetOption(options, "sqlite-path"),
Pepper: GetOption(options, "pepper"),
KeyId: keyId,
DisplayName: displayName,
Scopes: scopes));
}
private static bool TryParseKind(string value, out ApiKeyAdminCommandKind kind)
{
switch (value.ToLowerInvariant())
{
case "init-db":
kind = ApiKeyAdminCommandKind.InitDb;
return true;
case "create-key":
kind = ApiKeyAdminCommandKind.CreateKey;
return true;
case "list-keys":
kind = ApiKeyAdminCommandKind.ListKeys;
return true;
case "revoke-key":
kind = ApiKeyAdminCommandKind.RevokeKey;
return true;
case "rotate-key":
kind = ApiKeyAdminCommandKind.RotateKey;
return true;
default:
kind = default;
return false;
}
}
private static string? Validate(ApiKeyAdminCommandKind kind, string? keyId, string? displayName)
{
if (kind is ApiKeyAdminCommandKind.CreateKey or ApiKeyAdminCommandKind.RevokeKey or ApiKeyAdminCommandKind.RotateKey
&& string.IsNullOrWhiteSpace(keyId))
{
return $"Subcommand '{KindName(kind)}' requires --key-id.";
}
if (!string.IsNullOrWhiteSpace(keyId) && !IsValidKeyId(keyId))
{
return "API key id may contain only letters, numbers, periods, and hyphens.";
}
if (kind == ApiKeyAdminCommandKind.CreateKey && string.IsNullOrWhiteSpace(displayName))
{
return "Subcommand 'create-key' requires --display-name.";
}
return null;
}
private static string KindName(ApiKeyAdminCommandKind kind)
{
return kind switch
{
ApiKeyAdminCommandKind.InitDb => "init-db",
ApiKeyAdminCommandKind.CreateKey => "create-key",
ApiKeyAdminCommandKind.ListKeys => "list-keys",
ApiKeyAdminCommandKind.RevokeKey => "revoke-key",
ApiKeyAdminCommandKind.RotateKey => "rotate-key",
_ => kind.ToString()
};
}
private static bool IsValidKeyId(string keyId)
{
return keyId.All(character =>
char.IsAsciiLetterOrDigit(character)
|| character is '.' or '-');
}
private static string? GetOption(Dictionary<string, string?> options, string name)
{
return options.TryGetValue(name, out string? value) ? value : null;
}
private static IReadOnlySet<string> ParseScopes(string? scopes)
{
return new HashSet<string>(
(scopes ?? string.Empty)
.Split(',', StringSplitOptions.RemoveEmptyEntries | StringSplitOptions.TrimEntries),
StringComparer.Ordinal);
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyAdminListedKey.cs
+10
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@@ -0,0 +1,10 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyAdminListedKey(
string KeyId,
string KeyPrefix,
string DisplayName,
IReadOnlySet<string> Scopes,
DateTimeOffset CreatedUtc,
DateTimeOffset? LastUsedUtc,
DateTimeOffset? RevokedUtc);
src/MxGateway.Server/Security/Authentication/ApiKeyAdminOutput.cs
+7
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@@ -0,0 +1,7 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyAdminOutput(
string Command,
string Status,
string? ApiKey,
IReadOnlyList<ApiKeyAdminListedKey> Keys);
src/MxGateway.Server/Security/Authentication/ApiKeyAdminParseResult.cs
+22
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@@ -0,0 +1,22 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyAdminParseResult(
bool IsApiKeyCommand,
ApiKeyAdminCommand? Command,
string? Error)
{
public static ApiKeyAdminParseResult NotApiKeyCommand()
{
return new ApiKeyAdminParseResult(false, null, null);
}
public static ApiKeyAdminParseResult Success(ApiKeyAdminCommand command)
{
return new ApiKeyAdminParseResult(true, command, null);
}
public static ApiKeyAdminParseResult Fail(string error)
{
return new ApiKeyAdminParseResult(true, null, error);
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyCreateRequest.cs
+9
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@@ -0,0 +1,9 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyCreateRequest(
string KeyId,
string KeyPrefix,
byte[] SecretHash,
string DisplayName,
IReadOnlySet<string> Scopes,
DateTimeOffset CreatedUtc);
src/MxGateway.Server/Security/Authentication/ApiKeyIdentity.cs
+7
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@@ -0,0 +1,7 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyIdentity(
string KeyId,
string KeyPrefix,
string DisplayName,
IReadOnlySet<string> Scopes);
src/MxGateway.Server/Security/Authentication/ApiKeyParser.cs
+45
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@@ -0,0 +1,45 @@
namespace MxGateway.Server.Security.Authentication;
public sealed class ApiKeyParser : IApiKeyParser
{
private const string BearerPrefix = "Bearer ";
private const string TokenPrefix = "mxgw_";
public bool TryParseAuthorizationHeader(string? authorizationHeader, out ParsedApiKey? apiKey)
{
apiKey = null;
if (string.IsNullOrWhiteSpace(authorizationHeader)
|| !authorizationHeader.StartsWith(BearerPrefix, StringComparison.OrdinalIgnoreCase))
{
return false;
}
string token = authorizationHeader[BearerPrefix.Length..].Trim();
if (!token.StartsWith(TokenPrefix, StringComparison.OrdinalIgnoreCase))
{
return false;
}
string keyPayload = token[TokenPrefix.Length..];
int separatorIndex = keyPayload.IndexOf('_', StringComparison.Ordinal);
if (separatorIndex <= 0 || separatorIndex == keyPayload.Length - 1)
{
return false;
}
string keyId = keyPayload[..separatorIndex];
string secret = keyPayload[(separatorIndex + 1)..];
if (string.IsNullOrWhiteSpace(keyId) || string.IsNullOrWhiteSpace(secret))
{
return false;
}
apiKey = new ParsedApiKey(keyId, secret);
return true;
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyPepperUnavailableException.cs
+4
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@@ -0,0 +1,4 @@
namespace MxGateway.Server.Security.Authentication;
public sealed class ApiKeyPepperUnavailableException(string pepperSecretName)
: InvalidOperationException($"API key pepper secret '{pepperSecretName}' is not configured.");
src/MxGateway.Server/Security/Authentication/ApiKeyRecordReader.cs
+26
View File
@@ -0,0 +1,26 @@
using Microsoft.Data.Sqlite;
namespace MxGateway.Server.Security.Authentication;
public static class ApiKeyRecordReader
{
public static ApiKeyRecord Read(SqliteDataReader reader)
{
return new ApiKeyRecord(
KeyId: reader.GetString(0),
KeyPrefix: reader.GetString(1),
SecretHash: (byte[])reader["secret_hash"],
DisplayName: reader.GetString(3),
Scopes: ApiKeyScopeSerializer.Deserialize(reader.GetString(4)),
CreatedUtc: DateTimeOffset.Parse(reader.GetString(5), System.Globalization.CultureInfo.InvariantCulture),
LastUsedUtc: ReadNullableDateTimeOffset(reader, 6),
RevokedUtc: ReadNullableDateTimeOffset(reader, 7));
}
private static DateTimeOffset? ReadNullableDateTimeOffset(SqliteDataReader reader, int ordinal)
{
return reader.IsDBNull(ordinal)
? null
: DateTimeOffset.Parse(reader.GetString(ordinal), System.Globalization.CultureInfo.InvariantCulture);
}
}
src/MxGateway.Server/Security/Authentication/ApiKeySecretGenerator.cs
+17
View File
@@ -0,0 +1,17 @@
using System.Security.Cryptography;
namespace MxGateway.Server.Security.Authentication;
public static class ApiKeySecretGenerator
{
public static string Generate()
{
Span<byte> bytes = stackalloc byte[32];
RandomNumberGenerator.Fill(bytes);
return Convert.ToBase64String(bytes)
.TrimEnd('=')
.Replace('+', '-')
.Replace('/', '_');
}
}
src/MxGateway.Server/Security/Authentication/ApiKeySecretHasher.cs
+35
View File
@@ -0,0 +1,35 @@
using System.Security.Cryptography;
using System.Text;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
namespace MxGateway.Server.Security.Authentication;
public sealed class ApiKeySecretHasher(
IConfiguration configuration,
IOptions<GatewayOptions> options) : IApiKeySecretHasher
{
public byte[] HashSecret(string secret)
{
string pepper = GetPepper();
byte[] pepperBytes = Encoding.UTF8.GetBytes(pepper);
byte[] secretBytes = Encoding.UTF8.GetBytes(secret);
using HMACSHA256 hmac = new(pepperBytes);
return hmac.ComputeHash(secretBytes);
}
private string GetPepper()
{
string pepperSecretName = options.Value.Authentication.PepperSecretName;
string? pepper = configuration[pepperSecretName];
if (string.IsNullOrWhiteSpace(pepper))
{
throw new ApiKeyPepperUnavailableException(pepperSecretName);
}
return pepper;
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyVerificationFailure.cs
+11
View File
@@ -0,0 +1,11 @@
namespace MxGateway.Server.Security.Authentication;
public enum ApiKeyVerificationFailure
{
None,
MissingOrMalformedCredentials,
PepperUnavailable,
KeyNotFound,
KeyRevoked,
SecretMismatch
}
src/MxGateway.Server/Security/Authentication/ApiKeyVerificationResult.cs
+23
View File
@@ -0,0 +1,23 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ApiKeyVerificationResult(
bool Succeeded,
ApiKeyIdentity? Identity,
ApiKeyVerificationFailure Failure)
{
public static ApiKeyVerificationResult Success(ApiKeyIdentity identity)
{
return new ApiKeyVerificationResult(
Succeeded: true,
Identity: identity,
Failure: ApiKeyVerificationFailure.None);
}
public static ApiKeyVerificationResult Fail(ApiKeyVerificationFailure failure)
{
return new ApiKeyVerificationResult(
Succeeded: false,
Identity: null,
Failure: failure);
}
}
src/MxGateway.Server/Security/Authentication/ApiKeyVerifier.cs
+57
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@@ -0,0 +1,57 @@
using System.Security.Cryptography;
namespace MxGateway.Server.Security.Authentication;
public sealed class ApiKeyVerifier(
IApiKeyParser parser,
IApiKeySecretHasher hasher,
IApiKeyStore keyStore) : IApiKeyVerifier
{
public async Task<ApiKeyVerificationResult> VerifyAsync(
string? authorizationHeader,
CancellationToken cancellationToken)
{
if (!parser.TryParseAuthorizationHeader(authorizationHeader, out ParsedApiKey? parsedKey)
|| parsedKey is null)
{
return ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.MissingOrMalformedCredentials);
}
ApiKeyRecord? storedKey = await keyStore.FindByKeyIdAsync(parsedKey.KeyId, cancellationToken)
.ConfigureAwait(false);
if (storedKey is null)
{
return ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.KeyNotFound);
}
if (storedKey.RevokedUtc is not null)
{
return ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.KeyRevoked);
}
byte[] presentedHash;
try
{
presentedHash = hasher.HashSecret(parsedKey.Secret);
}
catch (ApiKeyPepperUnavailableException)
{
return ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.PepperUnavailable);
}
if (!CryptographicOperations.FixedTimeEquals(presentedHash, storedKey.SecretHash))
{
return ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.SecretMismatch);
}
await keyStore.MarkKeyUsedAsync(storedKey.KeyId, DateTimeOffset.UtcNow, cancellationToken)
.ConfigureAwait(false);
return ApiKeyVerificationResult.Success(new ApiKeyIdentity(
KeyId: storedKey.KeyId,
KeyPrefix: storedKey.KeyPrefix,
DisplayName: storedKey.DisplayName,
Scopes: storedKey.Scopes));
}
}
src/MxGateway.Server/Security/Authentication/AuthStoreServiceCollectionExtensions.cs
+5
View File
@@ -4,9 +4,14 @@ public static class AuthStoreServiceCollectionExtensions
{
public static IServiceCollection AddSqliteAuthStore(this IServiceCollection services)
{
services.AddSingleton<IApiKeyParser, ApiKeyParser>();
services.AddSingleton<IApiKeySecretHasher, ApiKeySecretHasher>();
services.AddSingleton<IApiKeyVerifier, ApiKeyVerifier>();
services.AddSingleton<ApiKeyAdminCliRunner>();
services.AddSingleton<AuthSqliteConnectionFactory>();
services.AddSingleton<IAuthStoreMigrator, SqliteAuthStoreMigrator>();
services.AddSingleton<IApiKeyStore, SqliteApiKeyStore>();
services.AddSingleton<IApiKeyAdminStore, SqliteApiKeyAdminStore>();
services.AddSingleton<IApiKeyAuditStore, SqliteApiKeyAuditStore>();
services.AddHostedService<AuthStoreMigrationHostedService>();
src/MxGateway.Server/Security/Authentication/IApiKeyAdminStore.cs
+16
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@@ -0,0 +1,16 @@
namespace MxGateway.Server.Security.Authentication;
public interface IApiKeyAdminStore
{
Task CreateAsync(ApiKeyCreateRequest request, CancellationToken cancellationToken);
Task<IReadOnlyList<ApiKeyRecord>> ListAsync(CancellationToken cancellationToken);
Task<bool> RevokeAsync(string keyId, DateTimeOffset revokedUtc, CancellationToken cancellationToken);
Task<bool> RotateAsync(
string keyId,
byte[] secretHash,
DateTimeOffset rotatedUtc,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Security/Authentication/IApiKeyParser.cs
+6
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@@ -0,0 +1,6 @@
namespace MxGateway.Server.Security.Authentication;
public interface IApiKeyParser
{
bool TryParseAuthorizationHeader(string? authorizationHeader, out ParsedApiKey? apiKey);
}
src/MxGateway.Server/Security/Authentication/IApiKeySecretHasher.cs
+6
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@@ -0,0 +1,6 @@
namespace MxGateway.Server.Security.Authentication;
public interface IApiKeySecretHasher
{
byte[] HashSecret(string secret);
}
src/MxGateway.Server/Security/Authentication/IApiKeyVerifier.cs
+8
View File
@@ -0,0 +1,8 @@
namespace MxGateway.Server.Security.Authentication;
public interface IApiKeyVerifier
{
Task<ApiKeyVerificationResult> VerifyAsync(
string? authorizationHeader,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Security/Authentication/ParsedApiKey.cs
+3
View File
@@ -0,0 +1,3 @@
namespace MxGateway.Server.Security.Authentication;
public sealed record ParsedApiKey(string KeyId, string Secret);
src/MxGateway.Server/Security/Authentication/SqliteApiKeyAdminStore.cs
+116
View File
@@ -0,0 +1,116 @@
using Microsoft.Data.Sqlite;
namespace MxGateway.Server.Security.Authentication;
public sealed class SqliteApiKeyAdminStore(AuthSqliteConnectionFactory connectionFactory) : IApiKeyAdminStore
{
public async Task CreateAsync(ApiKeyCreateRequest request, CancellationToken cancellationToken)
{
await using SqliteConnection connection = connectionFactory.CreateConnection();
await connection.OpenAsync(cancellationToken).ConfigureAwait(false);
await using SqliteCommand command = connection.CreateCommand();
command.CommandText = """
INSERT INTO api_keys (
key_id,
key_prefix,
secret_hash,
display_name,
scopes,
created_utc,
last_used_utc,
revoked_utc)
VALUES (
$key_id,
$key_prefix,
$secret_hash,
$display_name,
$scopes,
$created_utc,
NULL,
NULL);
""";
AddCreateParameters(command, request);
await command.ExecuteNonQueryAsync(cancellationToken).ConfigureAwait(false);
}
public async Task<IReadOnlyList<ApiKeyRecord>> ListAsync(CancellationToken cancellationToken)
{
await using SqliteConnection connection = connectionFactory.CreateConnection();
await connection.OpenAsync(cancellationToken).ConfigureAwait(false);
await using SqliteCommand command = connection.CreateCommand();
command.CommandText = """
SELECT key_id, key_prefix, secret_hash, display_name, scopes, created_utc, last_used_utc, revoked_utc
FROM api_keys
ORDER BY key_id;
""";
List<ApiKeyRecord> records = [];
await using SqliteDataReader reader = await command.ExecuteReaderAsync(cancellationToken)
.ConfigureAwait(false);
while (await reader.ReadAsync(cancellationToken).ConfigureAwait(false))
{
records.Add(ApiKeyRecordReader.Read(reader));
}
return records;
}
public async Task<bool> RevokeAsync(string keyId, DateTimeOffset revokedUtc, CancellationToken cancellationToken)
{
await using SqliteConnection connection = connectionFactory.CreateConnection();
await connection.OpenAsync(cancellationToken).ConfigureAwait(false);
await using SqliteCommand command = connection.CreateCommand();
command.CommandText = """
UPDATE api_keys
SET revoked_utc = $revoked_utc
WHERE key_id = $key_id AND revoked_utc IS NULL;
""";
command.Parameters.AddWithValue("$key_id", keyId);
command.Parameters.AddWithValue("$revoked_utc", revokedUtc.ToString("O"));
int rows = await command.ExecuteNonQueryAsync(cancellationToken).ConfigureAwait(false);
return rows > 0;
}
public async Task<bool> RotateAsync(
string keyId,
byte[] secretHash,
DateTimeOffset rotatedUtc,
CancellationToken cancellationToken)
{
await using SqliteConnection connection = connectionFactory.CreateConnection();
await connection.OpenAsync(cancellationToken).ConfigureAwait(false);
await using SqliteCommand command = connection.CreateCommand();
command.CommandText = """
UPDATE api_keys
SET secret_hash = $secret_hash,
last_used_utc = NULL,
revoked_utc = NULL
WHERE key_id = $key_id;
""";
command.Parameters.AddWithValue("$key_id", keyId);
command.Parameters.Add("$secret_hash", SqliteType.Blob).Value = secretHash;
int rows = await command.ExecuteNonQueryAsync(cancellationToken).ConfigureAwait(false);
return rows > 0;
}
private static void AddCreateParameters(SqliteCommand command, ApiKeyCreateRequest request)
{
command.Parameters.AddWithValue("$key_id", request.KeyId);
command.Parameters.AddWithValue("$key_prefix", request.KeyPrefix);
command.Parameters.Add("$secret_hash", SqliteType.Blob).Value = request.SecretHash;
command.Parameters.AddWithValue("$display_name", request.DisplayName);
command.Parameters.AddWithValue("$scopes", ApiKeyScopeSerializer.Serialize(request.Scopes));
command.Parameters.AddWithValue("$created_utc", request.CreatedUtc.ToString("O"));
}
}
src/MxGateway.Server/Security/Authentication/SqliteApiKeyStore.cs
+1 -21
View File
@@ -61,26 +61,6 @@ public sealed class SqliteApiKeyStore(AuthSqliteConnectionFactory connectionFact
return null;
}
return ReadApiKeyRecord(reader);
}
private static ApiKeyRecord ReadApiKeyRecord(SqliteDataReader reader)
{
return new ApiKeyRecord(
KeyId: reader.GetString(0),
KeyPrefix: reader.GetString(1),
SecretHash: (byte[])reader["secret_hash"],
DisplayName: reader.GetString(3),
Scopes: ApiKeyScopeSerializer.Deserialize(reader.GetString(4)),
CreatedUtc: DateTimeOffset.Parse(reader.GetString(5), System.Globalization.CultureInfo.InvariantCulture),
LastUsedUtc: ReadNullableDateTimeOffset(reader, 6),
RevokedUtc: ReadNullableDateTimeOffset(reader, 7));
}
private static DateTimeOffset? ReadNullableDateTimeOffset(SqliteDataReader reader, int ordinal)
{
return reader.IsDBNull(ordinal)
? null
: DateTimeOffset.Parse(reader.GetString(ordinal), System.Globalization.CultureInfo.InvariantCulture);
return ApiKeyRecordReader.Read(reader);
}
}
src/MxGateway.Server/Security/Authorization/GatewayGrpcAuthorizationInterceptor.cs
+74
View File
@@ -0,0 +1,74 @@
using Grpc.Core;
using Grpc.Core.Interceptors;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Server.Security.Authorization;
public sealed class GatewayGrpcAuthorizationInterceptor(
IApiKeyVerifier apiKeyVerifier,
GatewayGrpcScopeResolver scopeResolver,
IGatewayRequestIdentityAccessor identityAccessor,
IOptions<GatewayOptions> options) : Interceptor
{
public override async Task<TResponse> UnaryServerHandler<TRequest, TResponse>(
TRequest request,
ServerCallContext context,
UnaryServerMethod<TRequest, TResponse> continuation)
{
ApiKeyIdentity? identity = await AuthenticateAndAuthorizeAsync(request, context).ConfigureAwait(false);
IDisposable? identityScope = identity is null ? null : identityAccessor.Push(identity);
using (identityScope)
{
return await continuation(request, context).ConfigureAwait(false);
}
}
public override async Task ServerStreamingServerHandler<TRequest, TResponse>(
TRequest request,
IServerStreamWriter<TResponse> responseStream,
ServerCallContext context,
ServerStreamingServerMethod<TRequest, TResponse> continuation)
{
ApiKeyIdentity? identity = await AuthenticateAndAuthorizeAsync(request, context).ConfigureAwait(false);
IDisposable? identityScope = identity is null ? null : identityAccessor.Push(identity);
using (identityScope)
{
await continuation(request, responseStream, context).ConfigureAwait(false);
}
}
private async Task<ApiKeyIdentity?> AuthenticateAndAuthorizeAsync<TRequest>(
TRequest request,
ServerCallContext context)
where TRequest : class
{
if (options.Value.Authentication.Mode == AuthenticationMode.Disabled)
{
return null;
}
string? authorizationHeader = context.RequestHeaders.GetValue("authorization");
ApiKeyVerificationResult verificationResult = await apiKeyVerifier
.VerifyAsync(authorizationHeader, context.CancellationToken)
.ConfigureAwait(false);
if (!verificationResult.Succeeded || verificationResult.Identity is null)
{
throw new RpcException(new Status(
StatusCode.Unauthenticated,
"Missing or invalid API key."));
}
string requiredScope = scopeResolver.ResolveRequiredScope(request);
if (!verificationResult.Identity.Scopes.Contains(requiredScope))
{
throw new RpcException(new Status(
StatusCode.PermissionDenied,
$"API key is missing required scope '{requiredScope}'."));
}
return verificationResult.Identity;
}
}
src/MxGateway.Server/Security/Authorization/GatewayGrpcScopeResolver.cs
+40
View File
@@ -0,0 +1,40 @@
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Security.Authorization;
public sealed class GatewayGrpcScopeResolver
{
public string ResolveRequiredScope(object request)
{
return request switch
{
OpenSessionRequest => GatewayScopes.SessionOpen,
CloseSessionRequest => GatewayScopes.SessionClose,
StreamEventsRequest => GatewayScopes.EventsRead,
MxCommandRequest commandRequest => ResolveCommandScope(commandRequest.Command?.Kind ?? MxCommandKind.Unspecified),
_ => GatewayScopes.Admin
};
}
private static string ResolveCommandScope(MxCommandKind kind)
{
return kind switch
{
MxCommandKind.Write or
MxCommandKind.Write2 => GatewayScopes.InvokeWrite,
MxCommandKind.WriteSecured or
MxCommandKind.WriteSecured2 or
MxCommandKind.AuthenticateUser => GatewayScopes.InvokeSecure,
MxCommandKind.ArchestraUserToId or
MxCommandKind.GetSessionState or
MxCommandKind.GetWorkerInfo => GatewayScopes.MetadataRead,
MxCommandKind.DrainEvents => GatewayScopes.EventsRead,
MxCommandKind.ShutdownWorker => GatewayScopes.Admin,
_ => GatewayScopes.InvokeRead
};
}
}
src/MxGateway.Server/Security/Authorization/GatewayRequestIdentityAccessor.cs
+38
View File
@@ -0,0 +1,38 @@
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Server.Security.Authorization;
public sealed class GatewayRequestIdentityAccessor : IGatewayRequestIdentityAccessor
{
private readonly AsyncLocal<ApiKeyIdentity?> currentIdentity = new();
public ApiKeyIdentity? Current => currentIdentity.Value;
public IDisposable Push(ApiKeyIdentity identity)
{
ArgumentNullException.ThrowIfNull(identity);
ApiKeyIdentity? previousIdentity = currentIdentity.Value;
currentIdentity.Value = identity;
return new IdentityScope(this, previousIdentity);
}
private sealed class IdentityScope(
GatewayRequestIdentityAccessor accessor,
ApiKeyIdentity? previousIdentity) : IDisposable
{
private bool disposed;
public void Dispose()
{
if (disposed)
{
return;
}
accessor.currentIdentity.Value = previousIdentity;
disposed = true;
}
}
}
src/MxGateway.Server/Security/Authorization/GatewayScopes.cs
+13
View File
@@ -0,0 +1,13 @@
namespace MxGateway.Server.Security.Authorization;
public static class GatewayScopes
{
public const string SessionOpen = "session:open";
public const string SessionClose = "session:close";
public const string InvokeRead = "invoke:read";
public const string InvokeWrite = "invoke:write";
public const string InvokeSecure = "invoke:secure";
public const string EventsRead = "events:read";
public const string MetadataRead = "metadata:read";
public const string Admin = "admin";
}
src/MxGateway.Server/Security/Authorization/GrpcAuthorizationServiceCollectionExtensions.cs
+16
View File
@@ -0,0 +1,16 @@
using Grpc.Core.Interceptors;
namespace MxGateway.Server.Security.Authorization;
public static class GrpcAuthorizationServiceCollectionExtensions
{
public static IServiceCollection AddGatewayGrpcAuthorization(this IServiceCollection services)
{
services.AddSingleton<GatewayGrpcScopeResolver>();
services.AddSingleton<IGatewayRequestIdentityAccessor, GatewayRequestIdentityAccessor>();
services.AddSingleton<GatewayGrpcAuthorizationInterceptor>();
services.AddGrpc(options => options.Interceptors.Add<GatewayGrpcAuthorizationInterceptor>());
return services;
}
}
src/MxGateway.Server/Security/Authorization/IGatewayRequestIdentityAccessor.cs
+10
View File
@@ -0,0 +1,10 @@
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Server.Security.Authorization;
public interface IGatewayRequestIdentityAccessor
{
ApiKeyIdentity? Current { get; }
IDisposable Push(ApiKeyIdentity identity);
}
src/MxGateway.Server/Workers/IWorkerClient.cs
+27
View File
@@ -0,0 +1,27 @@
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Workers;
public interface IWorkerClient : IAsyncDisposable
{
string SessionId { get; }
int? ProcessId { get; }
WorkerClientState State { get; }
DateTimeOffset LastHeartbeatAt { get; }
Task StartAsync(CancellationToken cancellationToken);
Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
TimeSpan timeout,
CancellationToken cancellationToken);
IAsyncEnumerable<WorkerEvent> ReadEventsAsync(CancellationToken cancellationToken);
Task ShutdownAsync(TimeSpan timeout, CancellationToken cancellationToken);
void Kill(string reason);
}
src/MxGateway.Server/Workers/IWorkerProcess.cs
+14
View File
@@ -0,0 +1,14 @@
namespace MxGateway.Server.Workers;
public interface IWorkerProcess : IDisposable
{
int Id { get; }
bool HasExited { get; }
int? ExitCode { get; }
ValueTask WaitForExitAsync(CancellationToken cancellationToken);
void Kill(bool entireProcessTree);
}
src/MxGateway.Server/Workers/IWorkerProcessFactory.cs
+8
View File
@@ -0,0 +1,8 @@
using System.Diagnostics;
namespace MxGateway.Server.Workers;
public interface IWorkerProcessFactory
{
IWorkerProcess Start(ProcessStartInfo startInfo);
}
src/MxGateway.Server/Workers/IWorkerProcessLauncher.cs
+8
View File
@@ -0,0 +1,8 @@
namespace MxGateway.Server.Workers;
public interface IWorkerProcessLauncher
{
Task<WorkerProcessHandle> LaunchAsync(
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken = default);
}
src/MxGateway.Server/Workers/IWorkerStartupProbe.cs
+9
View File
@@ -0,0 +1,9 @@
namespace MxGateway.Server.Workers;
public interface IWorkerStartupProbe
{
Task WaitUntilReadyAsync(
IWorkerProcess process,
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Workers/SystemWorkerProcess.cs
+27
View File
@@ -0,0 +1,27 @@
using System.Diagnostics;
namespace MxGateway.Server.Workers;
internal sealed class SystemWorkerProcess(Process process) : IWorkerProcess
{
public int Id => process.Id;
public bool HasExited => process.HasExited;
public int? ExitCode => process.HasExited ? process.ExitCode : null;
public async ValueTask WaitForExitAsync(CancellationToken cancellationToken)
{
await process.WaitForExitAsync(cancellationToken).ConfigureAwait(false);
}
public void Kill(bool entireProcessTree)
{
process.Kill(entireProcessTree);
}
public void Dispose()
{
process.Dispose();
}
}
src/MxGateway.Server/Workers/SystemWorkerProcessFactory.cs
+22
View File
@@ -0,0 +1,22 @@
using System.Diagnostics;
namespace MxGateway.Server.Workers;
public sealed class SystemWorkerProcessFactory : IWorkerProcessFactory
{
public IWorkerProcess Start(ProcessStartInfo startInfo)
{
Process process = new()
{
StartInfo = startInfo,
};
if (!process.Start())
{
process.Dispose();
throw new InvalidOperationException("Worker process failed to start.");
}
return new SystemWorkerProcess(process);
}
}
src/MxGateway.Server/Workers/WorkerClient.cs
+755
View File
@@ -0,0 +1,755 @@
using System.Collections.Concurrent;
using System.Runtime.CompilerServices;
using System.Threading.Channels;
using Google.Protobuf.WellKnownTypes;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Abstractions;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Metrics;
namespace MxGateway.Server.Workers;
public sealed class WorkerClient : IWorkerClient
{
private const string GatewayVersionFallback = "unknown";
private readonly object _syncRoot = new();
private readonly WorkerClientConnection _connection;
private readonly WorkerClientOptions _options;
private readonly GatewayMetrics? _metrics;
private readonly TimeProvider _timeProvider;
private readonly ILogger<WorkerClient> _logger;
private readonly WorkerFrameReader _reader;
private readonly WorkerFrameWriter _writer;
private readonly Channel<WorkerEnvelope> _outboundEnvelopes;
private readonly Channel<WorkerEvent> _events;
private readonly ConcurrentDictionary<string, PendingCommand> _pendingCommands = new(StringComparer.Ordinal);
private readonly CancellationTokenSource _stopCts = new();
private long _nextSequence;
private WorkerClientState _state;
private DateTimeOffset _lastHeartbeatAt;
private int? _processId;
private Task? _readLoopTask;
private Task? _writeLoopTask;
private Task? _heartbeatLoopTask;
private bool _disposed;
public WorkerClient(
WorkerClientConnection connection,
WorkerClientOptions? options = null,
GatewayMetrics? metrics = null,
TimeProvider? timeProvider = null,
ILogger<WorkerClient>? logger = null)
{
_connection = connection ?? throw new ArgumentNullException(nameof(connection));
_options = options ?? new WorkerClientOptions();
_metrics = metrics;
_timeProvider = timeProvider ?? TimeProvider.System;
_logger = logger ?? NullLogger<WorkerClient>.Instance;
_reader = new WorkerFrameReader(connection.Stream, connection.FrameOptions);
_writer = new WorkerFrameWriter(connection.Stream, connection.FrameOptions);
_outboundEnvelopes = Channel.CreateUnbounded<WorkerEnvelope>(
new UnboundedChannelOptions
{
SingleReader = true,
SingleWriter = false,
AllowSynchronousContinuations = false,
});
_events = Channel.CreateBounded<WorkerEvent>(
new BoundedChannelOptions(_options.EventChannelCapacity)
{
SingleReader = false,
SingleWriter = true,
FullMode = BoundedChannelFullMode.Wait,
AllowSynchronousContinuations = false,
});
_lastHeartbeatAt = _timeProvider.GetUtcNow();
}
public string SessionId => _connection.SessionId;
public int? ProcessId
{
get
{
lock (_syncRoot)
{
return _processId;
}
}
}
public WorkerClientState State
{
get
{
lock (_syncRoot)
{
return _state;
}
}
}
public DateTimeOffset LastHeartbeatAt
{
get
{
lock (_syncRoot)
{
return _lastHeartbeatAt;
}
}
}
public async Task StartAsync(CancellationToken cancellationToken)
{
ThrowIfDisposed();
TransitionFromCreatedToHandshaking();
_writeLoopTask = Task.Run(WriteLoopAsync);
await EnqueueAsync(CreateGatewayHelloEnvelope(), cancellationToken).ConfigureAwait(false);
WorkerEnvelope helloEnvelope = await ReadHandshakeEnvelopeAsync(
WorkerEnvelope.BodyOneofCase.WorkerHello,
cancellationToken).ConfigureAwait(false);
ValidateWorkerHello(helloEnvelope.WorkerHello);
WorkerEnvelope readyEnvelope = await ReadHandshakeEnvelopeAsync(
WorkerEnvelope.BodyOneofCase.WorkerReady,
cancellationToken).ConfigureAwait(false);
MarkReady(readyEnvelope.WorkerReady);
_readLoopTask = Task.Run(ReadLoopAsync);
_heartbeatLoopTask = Task.Run(HeartbeatLoopAsync);
}
public async Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
TimeSpan timeout,
CancellationToken cancellationToken)
{
ArgumentNullException.ThrowIfNull(command);
ThrowIfDisposed();
EnsureReady();
if (timeout <= TimeSpan.Zero)
{
throw new ArgumentOutOfRangeException(nameof(timeout), timeout, "Command timeout must be greater than zero.");
}
string correlationId = Guid.NewGuid().ToString("N");
string method = GetCommandMethod(command);
PendingCommand pendingCommand = new(
correlationId,
method,
_timeProvider.GetTimestamp());
if (!_pendingCommands.TryAdd(correlationId, pendingCommand))
{
throw new InvalidOperationException("Generated a duplicate command correlation id.");
}
_metrics?.CommandStarted(method);
try
{
await EnqueueAsync(CreateCommandEnvelope(correlationId, command), cancellationToken).ConfigureAwait(false);
using CancellationTokenSource timeoutCts = CancellationTokenSource.CreateLinkedTokenSource(cancellationToken);
Task timeoutTask = Task.Delay(timeout, timeoutCts.Token);
Task<WorkerCommandReply> replyTask = pendingCommand.Task;
Task completedTask = await Task.WhenAny(replyTask, timeoutTask).ConfigureAwait(false);
if (completedTask == replyTask)
{
await timeoutCts.CancelAsync().ConfigureAwait(false);
return await replyTask.ConfigureAwait(false);
}
if (cancellationToken.IsCancellationRequested)
{
RemovePendingCommandAsFailed(
correlationId,
pendingCommand,
WorkerClientErrorCode.GatewayShutdown,
"Command wait was canceled.");
cancellationToken.ThrowIfCancellationRequested();
}
RemovePendingCommandAsFailed(
correlationId,
pendingCommand,
WorkerClientErrorCode.CommandTimeout,
$"Worker command {method} timed out after {timeout}.");
throw new WorkerClientException(
WorkerClientErrorCode.CommandTimeout,
$"Worker command {method} timed out after {timeout}.");
}
catch
{
_pendingCommands.TryRemove(correlationId, out _);
throw;
}
}
public async IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
[EnumeratorCancellation] CancellationToken cancellationToken)
{
await foreach (WorkerEvent workerEvent in _events.Reader.ReadAllAsync(cancellationToken).ConfigureAwait(false))
{
yield return workerEvent;
}
}
public async Task ShutdownAsync(TimeSpan timeout, CancellationToken cancellationToken)
{
ThrowIfDisposed();
if (timeout <= TimeSpan.Zero)
{
throw new ArgumentOutOfRangeException(nameof(timeout), timeout, "Shutdown timeout must be greater than zero.");
}
WorkerClientState state = State;
if (state is WorkerClientState.Closed or WorkerClientState.Faulted)
{
return;
}
MarkClosing();
await EnqueueAsync(CreateShutdownEnvelope(timeout, "gateway-shutdown"), cancellationToken).ConfigureAwait(false);
_outboundEnvelopes.Writer.TryComplete();
using CancellationTokenSource timeoutCts = CancellationTokenSource.CreateLinkedTokenSource(cancellationToken);
timeoutCts.CancelAfter(timeout);
try
{
await WaitForBackgroundTasksAsync(timeoutCts.Token).ConfigureAwait(false);
MarkClosed("shutdown");
}
catch (OperationCanceledException) when (!cancellationToken.IsCancellationRequested)
{
SetFaulted(
WorkerClientErrorCode.ShutdownTimeout,
"Worker shutdown timed out.",
null);
throw new WorkerClientException(
WorkerClientErrorCode.ShutdownTimeout,
$"Worker shutdown timed out after {timeout}.");
}
}
public void Kill(string reason)
{
ThrowIfDisposed();
_connection.ProcessHandle?.Process.Kill(entireProcessTree: true);
_metrics?.WorkerKilled(reason);
SetFaulted(
WorkerClientErrorCode.WorkerFaulted,
$"Worker was killed by the gateway: {reason}.",
null);
}
public async ValueTask DisposeAsync()
{
if (_disposed)
{
return;
}
_disposed = true;
_stopCts.Cancel();
_outboundEnvelopes.Writer.TryComplete();
_events.Writer.TryComplete();
CompletePendingCommands(
new WorkerClientException(
WorkerClientErrorCode.GatewayShutdown,
"Worker client was disposed."));
await WaitForBackgroundTasksAsync(CancellationToken.None).ConfigureAwait(false);
await _connection.Stream.DisposeAsync().ConfigureAwait(false);
_connection.ProcessHandle?.Dispose();
_stopCts.Dispose();
}
private async Task WriteLoopAsync()
{
try
{
await foreach (WorkerEnvelope envelope in _outboundEnvelopes.Reader.ReadAllAsync(_stopCts.Token).ConfigureAwait(false))
{
await _writer.WriteAsync(envelope, _stopCts.Token).ConfigureAwait(false);
}
}
catch (OperationCanceledException) when (_stopCts.IsCancellationRequested || IsTerminalState())
{
}
catch (Exception exception)
{
SetFaulted(
WorkerClientErrorCode.WriteFailed,
"Worker pipe write failed.",
exception);
}
}
private async Task ReadLoopAsync()
{
try
{
while (!_stopCts.IsCancellationRequested)
{
WorkerEnvelope envelope = await _reader.ReadAsync(_stopCts.Token).ConfigureAwait(false);
await DispatchEnvelopeAsync(envelope, _stopCts.Token).ConfigureAwait(false);
}
}
catch (OperationCanceledException) when (_stopCts.IsCancellationRequested || IsTerminalState())
{
}
catch (WorkerFrameProtocolException exception) when (exception.ErrorCode == WorkerFrameProtocolErrorCode.EndOfStream)
{
SetFaulted(
WorkerClientErrorCode.PipeDisconnected,
"Worker pipe disconnected.",
exception);
}
catch (Exception exception)
{
SetFaulted(
WorkerClientErrorCode.ProtocolViolation,
"Worker read loop failed.",
exception);
}
}
private async Task HeartbeatLoopAsync()
{
try
{
while (!_stopCts.IsCancellationRequested)
{
await Task.Delay(_options.HeartbeatCheckInterval, _stopCts.Token).ConfigureAwait(false);
if (State != WorkerClientState.Ready)
{
continue;
}
DateTimeOffset lastHeartbeatAt = LastHeartbeatAt;
DateTimeOffset now = _timeProvider.GetUtcNow();
if (now - lastHeartbeatAt <= _options.HeartbeatGrace)
{
continue;
}
_metrics?.HeartbeatFailed(SessionId);
SetFaulted(
WorkerClientErrorCode.HeartbeatExpired,
$"Worker heartbeat expired. Last heartbeat was at {lastHeartbeatAt:O}.",
null);
}
}
catch (OperationCanceledException) when (_stopCts.IsCancellationRequested || IsTerminalState())
{
}
}
private async Task DispatchEnvelopeAsync(
WorkerEnvelope envelope,
CancellationToken cancellationToken)
{
switch (envelope.BodyCase)
{
case WorkerEnvelope.BodyOneofCase.WorkerCommandReply:
CompleteCommand(envelope);
break;
case WorkerEnvelope.BodyOneofCase.WorkerEvent:
await EnqueueWorkerEventAsync(envelope.WorkerEvent, cancellationToken).ConfigureAwait(false);
break;
case WorkerEnvelope.BodyOneofCase.WorkerHeartbeat:
MarkHeartbeat(envelope.WorkerHeartbeat);
break;
case WorkerEnvelope.BodyOneofCase.WorkerFault:
SetFaulted(
WorkerClientErrorCode.WorkerFaulted,
CreateWorkerFaultMessage(envelope.WorkerFault),
null);
break;
case WorkerEnvelope.BodyOneofCase.WorkerShutdownAck:
MarkClosed("worker-shutdown-ack");
break;
default:
SetFaulted(
WorkerClientErrorCode.ProtocolViolation,
$"Worker sent unexpected envelope body {envelope.BodyCase}.",
null);
break;
}
}
private async Task EnqueueWorkerEventAsync(
WorkerEvent workerEvent,
CancellationToken cancellationToken)
{
if (workerEvent.Event is not null)
{
_metrics?.EventReceived(SessionId, workerEvent.Event.Family.ToString());
}
if (!await _events.Writer.WaitToWriteAsync(cancellationToken).ConfigureAwait(false))
{
return;
}
if (!_events.Writer.TryWrite(workerEvent))
{
_metrics?.QueueOverflow("worker-events");
SetFaulted(
WorkerClientErrorCode.ProtocolViolation,
"Worker event channel rejected an event.",
null);
}
}
private void CompleteCommand(WorkerEnvelope envelope)
{
string correlationId = envelope.CorrelationId;
if (string.IsNullOrWhiteSpace(correlationId))
{
correlationId = envelope.WorkerCommandReply.Reply?.CorrelationId ?? string.Empty;
}
if (!_pendingCommands.TryRemove(correlationId, out PendingCommand? pendingCommand))
{
_logger.LogDebug(
"Ignoring late or unknown worker command reply for session {SessionId} and correlation {CorrelationId}.",
SessionId,
correlationId);
return;
}
TimeSpan duration = _timeProvider.GetElapsedTime(pendingCommand.StartTimestamp);
_metrics?.CommandSucceeded(pendingCommand.Method, duration);
pendingCommand.SetResult(envelope.WorkerCommandReply);
}
private void RemovePendingCommandAsFailed(
string correlationId,
PendingCommand pendingCommand,
WorkerClientErrorCode errorCode,
string message)
{
if (!_pendingCommands.TryRemove(correlationId, out _))
{
return;
}
TimeSpan duration = _timeProvider.GetElapsedTime(pendingCommand.StartTimestamp);
_metrics?.CommandFailed(pendingCommand.Method, errorCode.ToString(), duration);
pendingCommand.SetException(new WorkerClientException(errorCode, message));
}
private async Task<WorkerEnvelope> ReadHandshakeEnvelopeAsync(
WorkerEnvelope.BodyOneofCase expectedBody,
CancellationToken cancellationToken)
{
WorkerEnvelope envelope = await _reader.ReadAsync(cancellationToken).ConfigureAwait(false);
if (envelope.BodyCase != expectedBody)
{
throw new WorkerClientException(
WorkerClientErrorCode.ProtocolViolation,
$"Worker handshake expected {expectedBody} but received {envelope.BodyCase}.");
}
return envelope;
}
private void ValidateWorkerHello(WorkerHello workerHello)
{
if (workerHello.ProtocolVersion != _connection.FrameOptions.ProtocolVersion)
{
throw new WorkerClientException(
WorkerClientErrorCode.ProtocolViolation,
"Worker hello protocol version does not match the gateway protocol version.");
}
if (!string.Equals(workerHello.Nonce, _connection.Nonce, StringComparison.Ordinal))
{
throw new WorkerClientException(
WorkerClientErrorCode.ProtocolViolation,
"Worker hello nonce does not match the gateway nonce.");
}
lock (_syncRoot)
{
_processId = workerHello.WorkerProcessId == 0
? _connection.ProcessHandle?.ProcessId
: workerHello.WorkerProcessId;
}
}
private void MarkReady(WorkerReady ready)
{
lock (_syncRoot)
{
_processId = ready.WorkerProcessId == 0
? _processId ?? _connection.ProcessHandle?.ProcessId
: ready.WorkerProcessId;
_lastHeartbeatAt = _timeProvider.GetUtcNow();
_state = WorkerClientState.Ready;
}
DateTimeOffset readyAt = _timeProvider.GetUtcNow();
DateTimeOffset launchedAt = _connection.ProcessHandle?.LaunchedAt ?? readyAt;
_metrics?.WorkerStarted(readyAt - launchedAt);
}
private void MarkHeartbeat(WorkerHeartbeat heartbeat)
{
lock (_syncRoot)
{
_lastHeartbeatAt = _timeProvider.GetUtcNow();
if (heartbeat.WorkerProcessId != 0)
{
_processId = heartbeat.WorkerProcessId;
}
}
}
private void MarkClosing()
{
lock (_syncRoot)
{
if (_state is WorkerClientState.Closed or WorkerClientState.Faulted)
{
return;
}
_state = WorkerClientState.Closing;
}
}
private void MarkClosed(string reason)
{
lock (_syncRoot)
{
if (_state == WorkerClientState.Closed)
{
return;
}
_state = WorkerClientState.Closed;
}
_stopCts.Cancel();
_outboundEnvelopes.Writer.TryComplete();
_events.Writer.TryComplete();
CompletePendingCommands(
new WorkerClientException(
WorkerClientErrorCode.GatewayShutdown,
$"Worker client closed because {reason}."));
_metrics?.WorkerStopped(reason);
}
private void SetFaulted(
WorkerClientErrorCode errorCode,
string message,
Exception? exception)
{
WorkerClientException fault = exception is null
? new WorkerClientException(errorCode, message)
: new WorkerClientException(errorCode, message, exception);
lock (_syncRoot)
{
if (_state is WorkerClientState.Faulted or WorkerClientState.Closed)
{
return;
}
_state = WorkerClientState.Faulted;
}
_stopCts.Cancel();
_outboundEnvelopes.Writer.TryComplete(fault);
_events.Writer.TryComplete(fault);
CompletePendingCommands(fault);
_metrics?.Fault(errorCode.ToString());
_logger.LogWarning(exception, "Worker client faulted for session {SessionId}: {Message}", SessionId, message);
}
private void CompletePendingCommands(Exception exception)
{
foreach (KeyValuePair<string, PendingCommand> item in _pendingCommands.ToArray())
{
if (_pendingCommands.TryRemove(item.Key, out PendingCommand? pendingCommand))
{
TimeSpan duration = _timeProvider.GetElapsedTime(pendingCommand.StartTimestamp);
_metrics?.CommandFailed(pendingCommand.Method, exception.GetType().Name, duration);
pendingCommand.SetException(exception);
}
}
}
private void TransitionFromCreatedToHandshaking()
{
lock (_syncRoot)
{
if (_state != WorkerClientState.Created)
{
throw new WorkerClientException(
WorkerClientErrorCode.InvalidState,
$"Worker client cannot start from state {_state}.");
}
_state = WorkerClientState.Handshaking;
}
}
private void EnsureReady()
{
WorkerClientState state = State;
if (state != WorkerClientState.Ready)
{
throw new WorkerClientException(
WorkerClientErrorCode.InvalidState,
$"Worker client is not ready. Current state is {state}.");
}
}
private bool IsTerminalState()
{
WorkerClientState state = State;
return state is WorkerClientState.Closing or WorkerClientState.Closed or WorkerClientState.Faulted;
}
private async Task EnqueueAsync(
WorkerEnvelope envelope,
CancellationToken cancellationToken)
{
try
{
await _outboundEnvelopes.Writer.WriteAsync(envelope, cancellationToken).ConfigureAwait(false);
}
catch (ChannelClosedException exception)
{
throw new WorkerClientException(
WorkerClientErrorCode.WriteFailed,
"Worker outbound channel is closed.",
exception);
}
}
private WorkerEnvelope CreateGatewayHelloEnvelope()
{
return CreateEnvelope(
correlationId: string.Empty,
envelope => envelope.GatewayHello = new GatewayHello
{
SupportedProtocolVersion = _connection.FrameOptions.ProtocolVersion,
Nonce = _connection.Nonce,
GatewayVersion = typeof(GatewayContractInfo).Assembly.GetName().Version?.ToString() ?? GatewayVersionFallback,
});
}
private WorkerEnvelope CreateCommandEnvelope(
string correlationId,
WorkerCommand command)
{
return CreateEnvelope(
correlationId,
envelope => envelope.WorkerCommand = command.Clone());
}
private WorkerEnvelope CreateShutdownEnvelope(
TimeSpan timeout,
string reason)
{
return CreateEnvelope(
correlationId: string.Empty,
envelope => envelope.WorkerShutdown = new WorkerShutdown
{
GracePeriod = Duration.FromTimeSpan(timeout),
Reason = reason,
});
}
private WorkerEnvelope CreateEnvelope(
string correlationId,
Action<WorkerEnvelope> setBody)
{
WorkerEnvelope envelope = new()
{
ProtocolVersion = _connection.FrameOptions.ProtocolVersion,
SessionId = SessionId,
Sequence = (ulong)Interlocked.Increment(ref _nextSequence),
CorrelationId = correlationId,
};
setBody(envelope);
return envelope;
}
private static string GetCommandMethod(WorkerCommand command)
{
return command.Command?.Kind.ToString() ?? MxCommandKind.Unspecified.ToString();
}
private static string CreateWorkerFaultMessage(WorkerFault fault)
{
return string.IsNullOrWhiteSpace(fault.DiagnosticMessage)
? $"Worker faulted with category {fault.Category}."
: $"Worker faulted with category {fault.Category}: {fault.DiagnosticMessage}";
}
private async Task WaitForBackgroundTasksAsync(CancellationToken cancellationToken)
{
Task[] tasks = new[] { _readLoopTask, _writeLoopTask, _heartbeatLoopTask }
.Where(task => task is not null)
.Cast<Task>()
.ToArray();
if (tasks.Length == 0)
{
return;
}
await Task.WhenAll(tasks).WaitAsync(cancellationToken).ConfigureAwait(false);
}
private void ThrowIfDisposed()
{
ObjectDisposedException.ThrowIf(_disposed, this);
}
private sealed class PendingCommand
{
private readonly TaskCompletionSource<WorkerCommandReply> _completion = new(TaskCreationOptions.RunContinuationsAsynchronously);
public PendingCommand(
string correlationId,
string method,
long startTimestamp)
{
CorrelationId = correlationId;
Method = method;
StartTimestamp = startTimestamp;
}
public string CorrelationId { get; }
public string Method { get; }
public long StartTimestamp { get; }
public Task<WorkerCommandReply> Task => _completion.Task;
public void SetResult(WorkerCommandReply reply)
{
_completion.TrySetResult(reply);
}
public void SetException(Exception exception)
{
_completion.TrySetException(exception);
}
}
}
src/MxGateway.Server/Workers/WorkerClientConnection.cs
+38
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@@ -0,0 +1,38 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerClientConnection
{
public WorkerClientConnection(
string sessionId,
string nonce,
Stream stream,
WorkerFrameProtocolOptions frameOptions,
WorkerProcessHandle? processHandle = null)
{
if (string.IsNullOrWhiteSpace(sessionId))
{
throw new ArgumentException("Session id is required.", nameof(sessionId));
}
if (string.IsNullOrWhiteSpace(nonce))
{
throw new ArgumentException("Worker nonce is required.", nameof(nonce));
}
SessionId = sessionId;
Nonce = nonce;
Stream = stream ?? throw new ArgumentNullException(nameof(stream));
FrameOptions = frameOptions ?? throw new ArgumentNullException(nameof(frameOptions));
ProcessHandle = processHandle;
}
public string SessionId { get; }
public string Nonce { get; }
public Stream Stream { get; }
public WorkerFrameProtocolOptions FrameOptions { get; }
public WorkerProcessHandle? ProcessHandle { get; }
}
src/MxGateway.Server/Workers/WorkerClientErrorCode.cs
+14
View File
@@ -0,0 +1,14 @@
namespace MxGateway.Server.Workers;
public enum WorkerClientErrorCode
{
InvalidState,
ProtocolViolation,
PipeDisconnected,
CommandTimeout,
WorkerFaulted,
HeartbeatExpired,
ShutdownTimeout,
GatewayShutdown,
WriteFailed,
}
src/MxGateway.Server/Workers/WorkerClientException.cs
+23
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@@ -0,0 +1,23 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerClientException : Exception
{
public WorkerClientException(
WorkerClientErrorCode errorCode,
string message)
: base(message)
{
ErrorCode = errorCode;
}
public WorkerClientException(
WorkerClientErrorCode errorCode,
string message,
Exception innerException)
: base(message, innerException)
{
ErrorCode = errorCode;
}
public WorkerClientErrorCode ErrorCode { get; }
}
src/MxGateway.Server/Workers/WorkerClientOptions.cs
+24
View File
@@ -0,0 +1,24 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerClientOptions
{
public static readonly TimeSpan DefaultHeartbeatGrace = TimeSpan.FromSeconds(15);
public static readonly TimeSpan DefaultHeartbeatCheckInterval = TimeSpan.FromSeconds(1);
public static readonly TimeSpan DefaultEventChannelFullModeTimeout = TimeSpan.FromSeconds(5);
public WorkerClientOptions()
{
HeartbeatGrace = DefaultHeartbeatGrace;
HeartbeatCheckInterval = DefaultHeartbeatCheckInterval;
EventChannelCapacity = 1_024;
EventChannelFullModeTimeout = DefaultEventChannelFullModeTimeout;
}
public TimeSpan HeartbeatGrace { get; init; }
public TimeSpan HeartbeatCheckInterval { get; init; }
public int EventChannelCapacity { get; init; }
public TimeSpan EventChannelFullModeTimeout { get; init; }
}
src/MxGateway.Server/Workers/WorkerClientState.cs
+11
View File
@@ -0,0 +1,11 @@
namespace MxGateway.Server.Workers;
public enum WorkerClientState
{
Created,
Handshaking,
Ready,
Closing,
Closed,
Faulted,
}
src/MxGateway.Server/Workers/WorkerExecutableValidator.cs
+80
View File
@@ -0,0 +1,80 @@
using System.Buffers.Binary;
using MxGateway.Server.Configuration;
namespace MxGateway.Server.Workers;
internal static class WorkerExecutableValidator
{
private const ushort ImageFileMachineI386 = 0x014c;
private const ushort ImageFileMachineAmd64 = 0x8664;
private const int DosHeaderSignatureOffset = 0;
private const int PeHeaderOffsetPointer = 0x3c;
private const int PeSignatureSize = 4;
private const int MachineOffsetFromPeHeader = PeSignatureSize;
private const int MinimumHeaderSize = 0x40;
public static void Validate(
string executablePath,
WorkerArchitecture requiredArchitecture)
{
ushort machine = ReadMachineType(executablePath);
ushort expectedMachine = requiredArchitecture switch
{
WorkerArchitecture.X86 => ImageFileMachineI386,
WorkerArchitecture.X64 => ImageFileMachineAmd64,
_ => throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidExecutable,
"Worker executable required architecture is unsupported."),
};
if (machine != expectedMachine)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidExecutable,
$"Worker executable architecture does not match required {requiredArchitecture} architecture.");
}
}
private static ushort ReadMachineType(string executablePath)
{
byte[] header = new byte[MinimumHeaderSize];
using FileStream stream = File.OpenRead(executablePath);
if (stream.Read(header) < header.Length)
{
throw InvalidExecutable("Worker executable is too small to contain a valid PE header.");
}
if (header[DosHeaderSignatureOffset] != 'M' || header[DosHeaderSignatureOffset + 1] != 'Z')
{
throw InvalidExecutable("Worker executable does not contain an MZ header.");
}
int peHeaderOffset = BinaryPrimitives.ReadInt32LittleEndian(header.AsSpan(PeHeaderOffsetPointer, sizeof(int)));
if (peHeaderOffset < MinimumHeaderSize)
{
throw InvalidExecutable("Worker executable PE header offset is invalid.");
}
byte[] peHeaderBytes = new byte[PeSignatureSize + sizeof(ushort)];
stream.Position = peHeaderOffset;
if (stream.Read(peHeaderBytes) < peHeaderBytes.Length)
{
throw InvalidExecutable("Worker executable PE header is missing.");
}
if (peHeaderBytes[0] != 'P' || peHeaderBytes[1] != 'E' || peHeaderBytes[2] != 0 || peHeaderBytes[3] != 0)
{
throw InvalidExecutable("Worker executable does not contain a PE header.");
}
return BinaryPrimitives.ReadUInt16LittleEndian(
peHeaderBytes.AsSpan(MachineOffsetFromPeHeader, sizeof(ushort)));
}
private static WorkerProcessLaunchException InvalidExecutable(string message)
{
return new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidExecutable,
message);
}
}
src/MxGateway.Server/Workers/WorkerProcessCommandLine.cs
+30
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@@ -0,0 +1,30 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerProcessCommandLine
{
public WorkerProcessCommandLine(
string executablePath,
IReadOnlyList<string> arguments)
{
ExecutablePath = executablePath;
Arguments = arguments;
}
public string ExecutablePath { get; }
public IReadOnlyList<string> Arguments { get; }
public override string ToString()
{
return string.Join(
" ",
new[] { Quote(ExecutablePath) }.Concat(Arguments.Select(Quote)));
}
private static string Quote(string value)
{
return value.Contains(' ', StringComparison.Ordinal)
? $"\"{value}\""
: value;
}
}
src/MxGateway.Server/Workers/WorkerProcessHandle.cs
+28
View File
@@ -0,0 +1,28 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerProcessHandle : IDisposable
{
public WorkerProcessHandle(
IWorkerProcess process,
WorkerProcessCommandLine commandLine,
DateTimeOffset launchedAt)
{
Process = process;
ProcessId = process.Id;
CommandLine = commandLine;
LaunchedAt = launchedAt;
}
public IWorkerProcess Process { get; }
public int ProcessId { get; }
public WorkerProcessCommandLine CommandLine { get; }
public DateTimeOffset LaunchedAt { get; }
public void Dispose()
{
Process.Dispose();
}
}
src/MxGateway.Server/Workers/WorkerProcessLaunchErrorCode.cs
+13
View File
@@ -0,0 +1,13 @@
namespace MxGateway.Server.Workers;
public enum WorkerProcessLaunchErrorCode
{
Unknown = 0,
InvalidRequest = 1,
ExecutableNotFound = 2,
InvalidExecutable = 3,
InvalidWorkingDirectory = 4,
StartFailed = 5,
StartupTimeout = 6,
StartupFailed = 7,
}
src/MxGateway.Server/Workers/WorkerProcessLaunchException.cs
+23
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@@ -0,0 +1,23 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerProcessLaunchException : Exception
{
public WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode errorCode,
string message)
: base(message)
{
ErrorCode = errorCode;
}
public WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode errorCode,
string message,
Exception innerException)
: base(message, innerException)
{
ErrorCode = errorCode;
}
public WorkerProcessLaunchErrorCode ErrorCode { get; }
}
src/MxGateway.Server/Workers/WorkerProcessLaunchRequest.cs
+8
View File
@@ -0,0 +1,8 @@
namespace MxGateway.Server.Workers;
public sealed record WorkerProcessLaunchRequest(
string SessionId,
string PipeName,
uint ProtocolVersion,
string Nonce,
IDisposable? PipeReservation = null);
src/MxGateway.Server/Workers/WorkerProcessLauncher.cs
+262
View File
@@ -0,0 +1,262 @@
using System.Diagnostics;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
namespace MxGateway.Server.Workers;
public sealed class WorkerProcessLauncher : IWorkerProcessLauncher
{
public const string WorkerNonceEnvironmentVariableName = "MXGATEWAY_WORKER_NONCE";
private readonly IWorkerProcessFactory _processFactory;
private readonly IWorkerStartupProbe _startupProbe;
private readonly GatewayMetrics _metrics;
private readonly TimeProvider _timeProvider;
private readonly WorkerOptions _workerOptions;
public WorkerProcessLauncher(
IOptions<GatewayOptions> gatewayOptions,
IWorkerProcessFactory processFactory,
IWorkerStartupProbe startupProbe,
GatewayMetrics metrics,
TimeProvider? timeProvider = null)
{
ArgumentNullException.ThrowIfNull(gatewayOptions);
ArgumentNullException.ThrowIfNull(processFactory);
ArgumentNullException.ThrowIfNull(startupProbe);
ArgumentNullException.ThrowIfNull(metrics);
_workerOptions = gatewayOptions.Value.Worker;
_processFactory = processFactory;
_startupProbe = startupProbe;
_metrics = metrics;
_timeProvider = timeProvider ?? TimeProvider.System;
}
public async Task<WorkerProcessHandle> LaunchAsync(
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken = default)
{
try
{
return await LaunchCoreAsync(request, cancellationToken).ConfigureAwait(false);
}
catch
{
request.PipeReservation?.Dispose();
throw;
}
}
private async Task<WorkerProcessHandle> LaunchCoreAsync(
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
ValidateRequest(request);
DateTimeOffset startedAt = _timeProvider.GetUtcNow();
ProcessStartInfo startInfo = CreateStartInfo(request, out WorkerProcessCommandLine commandLine);
IWorkerProcess process;
try
{
process = _processFactory.Start(startInfo);
}
catch (Exception exception) when (exception is not WorkerProcessLaunchException)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.StartFailed,
"Worker process failed to start.",
exception);
}
try
{
using CancellationTokenSource startupTimeout = CancellationTokenSource.CreateLinkedTokenSource(cancellationToken);
startupTimeout.CancelAfter(TimeSpan.FromSeconds(_workerOptions.StartupTimeoutSeconds));
await _startupProbe
.WaitUntilReadyAsync(process, request, startupTimeout.Token)
.ConfigureAwait(false);
_metrics.WorkerStarted(_timeProvider.GetUtcNow() - startedAt);
return new WorkerProcessHandle(process, commandLine, startedAt);
}
catch (OperationCanceledException exception) when (!cancellationToken.IsCancellationRequested)
{
KillAndDispose(process, "StartupTimeout");
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.StartupTimeout,
"Worker process did not complete startup before the configured timeout.",
exception);
}
catch (OperationCanceledException)
{
KillAndDispose(process, "LaunchCanceled");
throw;
}
catch (Exception exception) when (exception is not WorkerProcessLaunchException)
{
KillAndDispose(process, "StartupFailed");
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.StartupFailed,
"Worker process failed during startup.",
exception);
}
catch (WorkerProcessLaunchException)
{
KillAndDispose(process, "StartupFailed");
throw;
}
}
private ProcessStartInfo CreateStartInfo(
WorkerProcessLaunchRequest request,
out WorkerProcessCommandLine commandLine)
{
string executablePath = ResolveExecutablePath();
string workingDirectory = ResolveWorkingDirectory(executablePath);
string[] arguments =
[
"--session-id",
request.SessionId,
"--pipe-name",
request.PipeName,
"--protocol-version",
request.ProtocolVersion.ToString(System.Globalization.CultureInfo.InvariantCulture),
];
ProcessStartInfo startInfo = new()
{
FileName = executablePath,
WorkingDirectory = workingDirectory,
UseShellExecute = false,
CreateNoWindow = true,
ErrorDialog = false,
};
foreach (string argument in arguments)
{
startInfo.ArgumentList.Add(argument);
}
startInfo.Environment[WorkerNonceEnvironmentVariableName] = request.Nonce;
commandLine = new WorkerProcessCommandLine(executablePath, arguments);
return startInfo;
}
private string ResolveExecutablePath()
{
string executablePath;
try
{
executablePath = Path.GetFullPath(_workerOptions.ExecutablePath);
}
catch (Exception exception) when (exception is ArgumentException or NotSupportedException or PathTooLongException)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidExecutable,
"Worker executable path is not a valid filesystem path.",
exception);
}
if (!string.Equals(Path.GetExtension(executablePath), ".exe", StringComparison.OrdinalIgnoreCase))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidExecutable,
"Worker executable path must point to a .exe file.");
}
if (!File.Exists(executablePath))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.ExecutableNotFound,
"Worker executable does not exist.");
}
WorkerExecutableValidator.Validate(executablePath, _workerOptions.RequiredArchitecture);
return executablePath;
}
private string ResolveWorkingDirectory(string executablePath)
{
if (string.IsNullOrWhiteSpace(_workerOptions.WorkingDirectory))
{
return Path.GetDirectoryName(executablePath) ?? Environment.CurrentDirectory;
}
string workingDirectory;
try
{
workingDirectory = Path.GetFullPath(_workerOptions.WorkingDirectory);
}
catch (Exception exception) when (exception is ArgumentException or NotSupportedException or PathTooLongException)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidWorkingDirectory,
"Worker working directory is not a valid filesystem path.",
exception);
}
if (!Directory.Exists(workingDirectory))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidWorkingDirectory,
"Worker working directory does not exist.");
}
return workingDirectory;
}
private void KillAndDispose(IWorkerProcess process, string reason)
{
try
{
if (!process.HasExited)
{
process.Kill(entireProcessTree: true);
_metrics.WorkerKilled(reason);
}
}
finally
{
process.Dispose();
}
}
private static void ValidateRequest(WorkerProcessLaunchRequest request)
{
if (string.IsNullOrWhiteSpace(request.SessionId))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidRequest,
"Worker launch requires a session id.");
}
if (string.IsNullOrWhiteSpace(request.PipeName))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidRequest,
"Worker launch requires a pipe name.");
}
if (request.ProtocolVersion == 0)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidRequest,
"Worker launch requires a non-zero protocol version.");
}
if (string.IsNullOrWhiteSpace(request.Nonce))
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.InvalidRequest,
"Worker launch requires a nonce.");
}
}
}
src/MxGateway.Server/Workers/WorkerProcessStartedProbe.cs
+19
View File
@@ -0,0 +1,19 @@
namespace MxGateway.Server.Workers;
public sealed class WorkerProcessStartedProbe : IWorkerStartupProbe
{
public Task WaitUntilReadyAsync(
IWorkerProcess process,
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
if (process.HasExited)
{
throw new WorkerProcessLaunchException(
WorkerProcessLaunchErrorCode.StartupFailed,
$"Worker process exited before startup completed with exit code {process.ExitCode}.");
}
return Task.CompletedTask;
}
}
src/MxGateway.Server/Workers/WorkerServiceCollectionExtensions.cs
+13
View File
@@ -0,0 +1,13 @@
namespace MxGateway.Server.Workers;
public static class WorkerServiceCollectionExtensions
{
public static IServiceCollection AddWorkerProcessLauncher(this IServiceCollection services)
{
services.AddSingleton<IWorkerProcessFactory, SystemWorkerProcessFactory>();
services.AddSingleton<IWorkerStartupProbe, WorkerProcessStartedProbe>();
services.AddSingleton<IWorkerProcessLauncher, WorkerProcessLauncher>();
return services;
}
}
src/MxGateway.Tests/Diagnostics/GatewayLogRedactorTests.cs
+9
View File
@@ -13,6 +13,15 @@ public sealed class GatewayLogRedactorTests
Assert.DoesNotContain("super-secret", redacted);
}
[Fact]
public void RedactApiKey_RemovesSecretContainingUnderscores()
{
string? redacted = GatewayLogRedactor.RedactApiKey("Bearer mxgw_operator01_super_secret_value");
Assert.Equal("Bearer mxgw_operator01_[redacted]", redacted);
Assert.DoesNotContain("super_secret_value", redacted);
}
[Theory]
[InlineData("AuthenticateUser")]
[InlineData("WriteSecured")]
src/MxGateway.Tests/Gateway/Workers/WorkerClientTests.cs
+341
View File
@@ -0,0 +1,341 @@
using System.IO.Pipes;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Workers;
namespace MxGateway.Tests.Gateway.Workers;
public sealed class WorkerClientTests
{
private const string SessionId = "session-worker-client";
private const string Nonce = "nonce-worker-client";
private const int WorkerProcessId = 4321;
private static readonly TimeSpan TestTimeout = TimeSpan.FromSeconds(5);
[Fact]
public async Task StartAsync_WithWorkerHelloAndReady_EntersReadyState()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(pipePair);
await CompleteHandshakeAsync(client, pipePair);
Assert.Equal(WorkerClientState.Ready, client.State);
Assert.Equal(WorkerProcessId, client.ProcessId);
}
[Fact]
public async Task InvokeAsync_WithMatchingReply_CompletesPendingCommand()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(pipePair);
await CompleteHandshakeAsync(client, pipePair);
Task<WorkerCommandReply> invokeTask = client.InvokeAsync(
CreateCommand(MxCommandKind.Ping),
TestTimeout,
CancellationToken.None);
WorkerEnvelope commandEnvelope = await pipePair.WorkerReader.ReadAsync().AsTask().WaitAsync(TestTimeout);
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerCommand, commandEnvelope.BodyCase);
Assert.False(string.IsNullOrWhiteSpace(commandEnvelope.CorrelationId));
await pipePair.WorkerWriter.WriteAsync(
CreateCommandReplyEnvelope(commandEnvelope.CorrelationId, MxCommandKind.Ping));
WorkerCommandReply reply = await invokeTask.WaitAsync(TestTimeout);
Assert.Equal(commandEnvelope.CorrelationId, reply.Reply.CorrelationId);
Assert.Equal(MxCommandKind.Ping, reply.Reply.Kind);
}
[Fact]
public async Task InvokeAsync_WithLateReply_IgnoresLateReplyAndKeepsClientReady()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(pipePair);
await CompleteHandshakeAsync(client, pipePair);
Task<WorkerCommandReply> timedOutInvokeTask = client.InvokeAsync(
CreateCommand(MxCommandKind.Ping),
TimeSpan.FromMilliseconds(50),
CancellationToken.None);
WorkerEnvelope timedOutCommand = await pipePair.WorkerReader.ReadAsync().AsTask().WaitAsync(TestTimeout);
WorkerClientException exception = await Assert.ThrowsAsync<WorkerClientException>(
async () => await timedOutInvokeTask);
Assert.Equal(WorkerClientErrorCode.CommandTimeout, exception.ErrorCode);
await pipePair.WorkerWriter.WriteAsync(
CreateCommandReplyEnvelope(timedOutCommand.CorrelationId, MxCommandKind.Ping));
await Task.Delay(TimeSpan.FromMilliseconds(50));
Task<WorkerCommandReply> secondInvokeTask = client.InvokeAsync(
CreateCommand(MxCommandKind.GetWorkerInfo),
TestTimeout,
CancellationToken.None);
WorkerEnvelope secondCommand = await pipePair.WorkerReader.ReadAsync().AsTask().WaitAsync(TestTimeout);
await pipePair.WorkerWriter.WriteAsync(
CreateCommandReplyEnvelope(secondCommand.CorrelationId, MxCommandKind.GetWorkerInfo));
WorkerCommandReply reply = await secondInvokeTask.WaitAsync(TestTimeout);
Assert.Equal(WorkerClientState.Ready, client.State);
Assert.Equal(MxCommandKind.GetWorkerInfo, reply.Reply.Kind);
}
[Fact]
public async Task ReadEventsAsync_WithWorkerEvents_YieldsEventsInPipeOrder()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(pipePair);
await CompleteHandshakeAsync(client, pipePair);
using CancellationTokenSource cancellationTokenSource = new(TestTimeout);
await using IAsyncEnumerator<WorkerEvent> events =
client.ReadEventsAsync(cancellationTokenSource.Token).GetAsyncEnumerator(cancellationTokenSource.Token);
await pipePair.WorkerWriter.WriteAsync(
CreateEventEnvelope(sequence: 11, MxEventFamily.OnDataChange));
await pipePair.WorkerWriter.WriteAsync(
CreateEventEnvelope(sequence: 12, MxEventFamily.OperationComplete));
Assert.True(await events.MoveNextAsync());
Assert.Equal((ulong)11, events.Current.Event.WorkerSequence);
Assert.Equal(MxEventFamily.OnDataChange, events.Current.Event.Family);
Assert.True(await events.MoveNextAsync());
Assert.Equal((ulong)12, events.Current.Event.WorkerSequence);
Assert.Equal(MxEventFamily.OperationComplete, events.Current.Event.Family);
}
[Fact]
public async Task ReadLoop_WhenPipeDisconnects_FaultsClient()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(pipePair);
await CompleteHandshakeAsync(client, pipePair);
await pipePair.DisposeWorkerSideAsync();
await WaitUntilAsync(
() => client.State == WorkerClientState.Faulted,
TestTimeout);
Assert.Equal(WorkerClientState.Faulted, client.State);
}
[Fact]
public async Task HeartbeatMonitor_WhenHeartbeatExpires_FaultsClient()
{
await using PipePair pipePair = await PipePair.CreateAsync();
await using WorkerClient client = CreateClient(
pipePair,
new WorkerClientOptions
{
HeartbeatGrace = TimeSpan.FromMilliseconds(80),
HeartbeatCheckInterval = TimeSpan.FromMilliseconds(20),
EventChannelCapacity = 8,
});
await CompleteHandshakeAsync(client, pipePair);
await WaitUntilAsync(
() => client.State == WorkerClientState.Faulted,
TestTimeout);
Assert.Equal(WorkerClientState.Faulted, client.State);
}
private static WorkerClient CreateClient(
PipePair pipePair,
WorkerClientOptions? options = null)
{
WorkerFrameProtocolOptions frameOptions = new(SessionId);
WorkerClientConnection connection = new(
SessionId,
Nonce,
pipePair.GatewayStream,
frameOptions);
return new WorkerClient(connection, options);
}
private static async Task CompleteHandshakeAsync(
WorkerClient client,
PipePair pipePair)
{
Task startTask = client.StartAsync(CancellationToken.None);
WorkerEnvelope gatewayHello = await pipePair.WorkerReader.ReadAsync().AsTask().WaitAsync(TestTimeout);
Assert.Equal(WorkerEnvelope.BodyOneofCase.GatewayHello, gatewayHello.BodyCase);
Assert.Equal(Nonce, gatewayHello.GatewayHello.Nonce);
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, gatewayHello.GatewayHello.SupportedProtocolVersion);
await pipePair.WorkerWriter.WriteAsync(CreateWorkerHelloEnvelope());
await pipePair.WorkerWriter.WriteAsync(CreateWorkerReadyEnvelope());
await startTask.WaitAsync(TestTimeout);
}
private static WorkerCommand CreateCommand(MxCommandKind kind)
{
return new WorkerCommand
{
Command = new MxCommand
{
Kind = kind,
},
};
}
private static WorkerEnvelope CreateWorkerHelloEnvelope()
{
return CreateWorkerEnvelope(
correlationId: string.Empty,
sequence: 1,
envelope => envelope.WorkerHello = new WorkerHello
{
ProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
Nonce = Nonce,
WorkerProcessId = WorkerProcessId,
WorkerVersion = "fake-worker",
});
}
private static WorkerEnvelope CreateWorkerReadyEnvelope()
{
return CreateWorkerEnvelope(
correlationId: string.Empty,
sequence: 2,
envelope => envelope.WorkerReady = new WorkerReady
{
WorkerProcessId = WorkerProcessId,
MxaccessProgid = "LMXProxy.LMXProxyServer.1",
MxaccessClsid = "{C30B52F5-2CB5-4760-AF0A-3A344A7EB5DC}",
});
}
private static WorkerEnvelope CreateCommandReplyEnvelope(
string correlationId,
MxCommandKind kind)
{
return CreateWorkerEnvelope(
correlationId,
sequence: 10,
envelope => envelope.WorkerCommandReply = new WorkerCommandReply
{
Reply = new MxCommandReply
{
SessionId = SessionId,
CorrelationId = correlationId,
Kind = kind,
},
});
}
private static WorkerEnvelope CreateEventEnvelope(
ulong sequence,
MxEventFamily family)
{
return CreateWorkerEnvelope(
correlationId: string.Empty,
sequence,
envelope => envelope.WorkerEvent = new WorkerEvent
{
Event = new MxEvent
{
SessionId = SessionId,
Family = family,
WorkerSequence = sequence,
},
});
}
private static WorkerEnvelope CreateWorkerEnvelope(
string correlationId,
ulong sequence,
Action<WorkerEnvelope> setBody)
{
WorkerEnvelope envelope = new()
{
ProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
SessionId = SessionId,
Sequence = sequence,
CorrelationId = correlationId,
};
setBody(envelope);
return envelope;
}
private static async Task WaitUntilAsync(
Func<bool> predicate,
TimeSpan timeout)
{
using CancellationTokenSource cancellationTokenSource = new(timeout);
while (!predicate())
{
await Task.Delay(TimeSpan.FromMilliseconds(10), cancellationTokenSource.Token);
}
}
private sealed class PipePair : IAsyncDisposable
{
private readonly NamedPipeClientStream _workerStream;
private bool _workerSideDisposed;
private PipePair(
NamedPipeServerStream gatewayStream,
NamedPipeClientStream workerStream)
{
GatewayStream = gatewayStream;
_workerStream = workerStream;
WorkerReader = new WorkerFrameReader(_workerStream, new WorkerFrameProtocolOptions(SessionId));
WorkerWriter = new WorkerFrameWriter(_workerStream, new WorkerFrameProtocolOptions(SessionId));
}
public NamedPipeServerStream GatewayStream { get; }
public WorkerFrameReader WorkerReader { get; }
public WorkerFrameWriter WorkerWriter { get; }
public static async Task<PipePair> CreateAsync()
{
string pipeName = $"mxaccessgw-workerclient-tests-{Guid.NewGuid():N}";
NamedPipeServerStream gatewayStream = new(
pipeName,
PipeDirection.InOut,
maxNumberOfServerInstances: 1,
PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
NamedPipeClientStream workerStream = new(
".",
pipeName,
PipeDirection.InOut,
PipeOptions.Asynchronous);
Task waitForConnectionTask = gatewayStream.WaitForConnectionAsync();
await workerStream.ConnectAsync();
await waitForConnectionTask;
return new PipePair(gatewayStream, workerStream);
}
public async ValueTask DisposeWorkerSideAsync()
{
if (_workerSideDisposed)
{
return;
}
await _workerStream.DisposeAsync();
_workerSideDisposed = true;
}
public async ValueTask DisposeAsync()
{
await DisposeWorkerSideAsync();
await GatewayStream.DisposeAsync();
}
}
}
src/MxGateway.Tests/Gateway/Workers/WorkerProcessLauncherTests.cs
+307
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using System.Diagnostics;
using Microsoft.Extensions.Options;
using MxGateway.Contracts;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
using MxGateway.Server.Workers;
namespace MxGateway.Tests.Gateway.Workers;
public sealed class WorkerProcessLauncherTests
{
private const string SessionId = "session-1";
private const string PipeName = "mxaccess-gateway-123-session-1";
private const string Nonce = "super-secret-nonce";
[Fact]
public async Task LaunchAsync_WithValidWorker_StartsProcessWithBootstrapArgumentsAndNonceEnvironment()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = directory.CreateWorkerExecutable(machine: 0x014c);
FakeWorkerProcess process = new(processId: 1234);
FakePipeReservation pipeReservation = new();
FakeWorkerProcessFactory processFactory = new(process);
GatewayMetrics metrics = new();
WorkerProcessLauncher launcher = CreateLauncher(executablePath, processFactory, new SucceedingStartupProbe(), metrics);
using WorkerProcessHandle handle = await launcher.LaunchAsync(CreateRequest(pipeReservation));
Assert.Equal(1234, handle.ProcessId);
Assert.Same(process, handle.Process);
Assert.NotNull(processFactory.LastStartInfo);
Assert.Equal(Path.GetFullPath(executablePath), processFactory.LastStartInfo.FileName);
Assert.False(processFactory.LastStartInfo.UseShellExecute);
Assert.True(processFactory.LastStartInfo.CreateNoWindow);
Assert.Equal(
["--session-id", SessionId, "--pipe-name", PipeName, "--protocol-version", "1"],
processFactory.LastStartInfo.ArgumentList);
Assert.Equal(Nonce, processFactory.LastStartInfo.Environment[WorkerProcessLauncher.WorkerNonceEnvironmentVariableName]);
Assert.DoesNotContain(Nonce, handle.CommandLine.ToString(), StringComparison.Ordinal);
Assert.DoesNotContain(Nonce, string.Join(" ", handle.CommandLine.Arguments), StringComparison.Ordinal);
Assert.False(pipeReservation.DisposeCalled);
Assert.Equal(1, metrics.GetSnapshot().WorkersRunning);
}
[Fact]
public async Task LaunchAsync_WhenStartupProbeFails_KillsAndDisposesWorker()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = directory.CreateWorkerExecutable(machine: 0x014c);
FakeWorkerProcess process = new(processId: 1234);
FakePipeReservation pipeReservation = new();
GatewayMetrics metrics = new();
WorkerProcessLauncher launcher = CreateLauncher(
executablePath,
new FakeWorkerProcessFactory(process),
new FailingStartupProbe(),
metrics);
WorkerProcessLaunchException exception =
await Assert.ThrowsAsync<WorkerProcessLaunchException>(
async () => await launcher.LaunchAsync(CreateRequest(pipeReservation)));
Assert.Equal(WorkerProcessLaunchErrorCode.StartupFailed, exception.ErrorCode);
Assert.True(process.KillCalled);
Assert.True(process.DisposeCalled);
Assert.True(pipeReservation.DisposeCalled);
Assert.Equal(1, metrics.GetSnapshot().WorkerKills);
}
[Fact]
public async Task LaunchAsync_WhenStartupTimesOut_KillsAndDisposesWorker()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = directory.CreateWorkerExecutable(machine: 0x014c);
FakeWorkerProcess process = new(processId: 1234);
GatewayMetrics metrics = new();
WorkerProcessLauncher launcher = CreateLauncher(
executablePath,
new FakeWorkerProcessFactory(process),
new WaitingStartupProbe(),
metrics,
startupTimeoutSeconds: 1);
WorkerProcessLaunchException exception =
await Assert.ThrowsAsync<WorkerProcessLaunchException>(
async () => await launcher.LaunchAsync(CreateRequest()));
Assert.Equal(WorkerProcessLaunchErrorCode.StartupTimeout, exception.ErrorCode);
Assert.True(process.KillCalled);
Assert.True(process.DisposeCalled);
Assert.Equal(1, metrics.GetSnapshot().WorkerKills);
}
[Fact]
public async Task LaunchAsync_WhenExecutableDoesNotExist_FailsBeforeStartingProcess()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = Path.Combine(directory.Path, "missing-worker.exe");
FakeWorkerProcessFactory processFactory = new(new FakeWorkerProcess(processId: 1234));
WorkerProcessLauncher launcher = CreateLauncher(executablePath, processFactory, new SucceedingStartupProbe());
WorkerProcessLaunchException exception =
await Assert.ThrowsAsync<WorkerProcessLaunchException>(
async () => await launcher.LaunchAsync(CreateRequest()));
Assert.Equal(WorkerProcessLaunchErrorCode.ExecutableNotFound, exception.ErrorCode);
Assert.Null(processFactory.LastStartInfo);
}
[Fact]
public async Task LaunchAsync_WhenExecutableArchitectureDoesNotMatch_FailsBeforeStartingProcess()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = directory.CreateWorkerExecutable(machine: 0x8664);
FakeWorkerProcessFactory processFactory = new(new FakeWorkerProcess(processId: 1234));
WorkerProcessLauncher launcher = CreateLauncher(executablePath, processFactory, new SucceedingStartupProbe());
WorkerProcessLaunchException exception =
await Assert.ThrowsAsync<WorkerProcessLaunchException>(
async () => await launcher.LaunchAsync(CreateRequest()));
Assert.Equal(WorkerProcessLaunchErrorCode.InvalidExecutable, exception.ErrorCode);
Assert.Null(processFactory.LastStartInfo);
}
[Fact]
public async Task LaunchAsync_WhenWorkerAlreadyExited_FailsAndDisposesWorkerWithoutKill()
{
using TestDirectory directory = TestDirectory.Create();
string executablePath = directory.CreateWorkerExecutable(machine: 0x014c);
FakeWorkerProcess process = new(processId: 1234)
{
HasExited = true,
ExitCode = 42,
};
WorkerProcessLauncher launcher = CreateLauncher(
executablePath,
new FakeWorkerProcessFactory(process),
new WorkerProcessStartedProbe());
WorkerProcessLaunchException exception =
await Assert.ThrowsAsync<WorkerProcessLaunchException>(
async () => await launcher.LaunchAsync(CreateRequest()));
Assert.Equal(WorkerProcessLaunchErrorCode.StartupFailed, exception.ErrorCode);
Assert.False(process.KillCalled);
Assert.True(process.DisposeCalled);
}
private static WorkerProcessLauncher CreateLauncher(
string executablePath,
IWorkerProcessFactory processFactory,
IWorkerStartupProbe startupProbe,
GatewayMetrics? metrics = null,
int startupTimeoutSeconds = 30)
{
GatewayOptions options = new()
{
Worker = new WorkerOptions
{
ExecutablePath = executablePath,
RequiredArchitecture = WorkerArchitecture.X86,
StartupTimeoutSeconds = startupTimeoutSeconds,
},
};
return new WorkerProcessLauncher(
Options.Create(options),
processFactory,
startupProbe,
metrics ?? new GatewayMetrics());
}
private static WorkerProcessLaunchRequest CreateRequest(IDisposable? pipeReservation = null)
{
return new WorkerProcessLaunchRequest(
SessionId,
PipeName,
GatewayContractInfo.WorkerProtocolVersion,
Nonce,
pipeReservation);
}
private sealed class FakeWorkerProcessFactory(IWorkerProcess process) : IWorkerProcessFactory
{
public ProcessStartInfo? LastStartInfo { get; private set; }
public IWorkerProcess Start(ProcessStartInfo startInfo)
{
LastStartInfo = startInfo;
return process;
}
}
private sealed class FakeWorkerProcess(int processId) : IWorkerProcess
{
public int Id { get; } = processId;
public bool HasExited { get; set; }
public int? ExitCode { get; set; }
public bool DisposeCalled { get; private set; }
public bool KillCalled { get; private set; }
public ValueTask WaitForExitAsync(CancellationToken cancellationToken)
{
return ValueTask.CompletedTask;
}
public void Kill(bool entireProcessTree)
{
Assert.True(entireProcessTree);
KillCalled = true;
HasExited = true;
}
public void Dispose()
{
DisposeCalled = true;
}
}
private sealed class SucceedingStartupProbe : IWorkerStartupProbe
{
public Task WaitUntilReadyAsync(
IWorkerProcess process,
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
}
private sealed class FailingStartupProbe : IWorkerStartupProbe
{
public Task WaitUntilReadyAsync(
IWorkerProcess process,
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
throw new InvalidOperationException("Fake worker startup failed.");
}
}
private sealed class WaitingStartupProbe : IWorkerStartupProbe
{
public async Task WaitUntilReadyAsync(
IWorkerProcess process,
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
await Task.Delay(Timeout.InfiniteTimeSpan, cancellationToken);
}
}
private sealed class FakePipeReservation : IDisposable
{
public bool DisposeCalled { get; private set; }
public void Dispose()
{
DisposeCalled = true;
}
}
private sealed class TestDirectory : IDisposable
{
private TestDirectory(string path)
{
Path = path;
}
public string Path { get; }
public static TestDirectory Create()
{
string path = System.IO.Path.Combine(System.IO.Path.GetTempPath(), $"mxgateway-tests-{Guid.NewGuid():N}");
Directory.CreateDirectory(path);
return new TestDirectory(path);
}
public string CreateWorkerExecutable(ushort machine)
{
string path = System.IO.Path.Combine(Path, "MxGateway.Worker.exe");
byte[] bytes = new byte[0x100];
bytes[0] = (byte)'M';
bytes[1] = (byte)'Z';
BitConverter.GetBytes(0x80).CopyTo(bytes, 0x3c);
bytes[0x80] = (byte)'P';
bytes[0x81] = (byte)'E';
bytes[0x82] = 0;
bytes[0x83] = 0;
BitConverter.GetBytes(machine).CopyTo(bytes, 0x84);
File.WriteAllBytes(path, bytes);
return path;
}
public void Dispose()
{
Directory.Delete(Path, recursive: true);
}
}
}
src/MxGateway.Tests/Security/Authentication/ApiKeyAdminCliRunnerTests.cs
+242
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using System.Text.Json;
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.DependencyInjection;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Tests.Security.Authentication;
public sealed class ApiKeyAdminCliRunnerTests
{
[Fact]
public async Task CreateKeyAsync_CreatesAuthenticatingKeyAndAudits()
{
await using ServiceProvider services = BuildServices(CreateTempDatabasePath());
ApiKeyAdminCliRunner runner = services.GetRequiredService<ApiKeyAdminCliRunner>();
StringWriter output = new();
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.CreateKey,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: "operator01",
DisplayName: "Operator",
Scopes: new HashSet<string>(StringComparer.Ordinal) { "session:open", "events:read" }),
output,
CancellationToken.None);
string apiKey = ReadApiKey(output.ToString());
IApiKeyVerifier verifier = services.GetRequiredService<IApiKeyVerifier>();
ApiKeyVerificationResult verification = await verifier.VerifyAsync($"Bearer {apiKey}", CancellationToken.None);
Assert.True(verification.Succeeded);
Assert.NotNull(verification.Identity);
Assert.Equal("operator01", verification.Identity.KeyId);
Assert.Contains("session:open", verification.Identity.Scopes);
IReadOnlyList<ApiKeyAuditRecord> auditRecords = await services
.GetRequiredService<IApiKeyAuditStore>()
.ListRecentAsync(10, CancellationToken.None);
Assert.Contains(auditRecords, record => record.EventType == "create-key" && record.KeyId == "operator01");
}
[Fact]
public async Task ListKeysAsync_DoesNotPrintRawSecret()
{
await using ServiceProvider services = BuildServices(CreateTempDatabasePath());
ApiKeyAdminCliRunner runner = services.GetRequiredService<ApiKeyAdminCliRunner>();
string apiKey = await CreateKeyAsync(runner, "operator01");
StringWriter listOutput = new();
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.ListKeys,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: null,
DisplayName: null,
Scopes: new HashSet<string>(StringComparer.Ordinal)),
listOutput,
CancellationToken.None);
string listJson = listOutput.ToString();
Assert.Contains("operator01", listJson, StringComparison.Ordinal);
Assert.DoesNotContain(apiKey, listJson, StringComparison.Ordinal);
Assert.DoesNotContain(ApiKeySecret(apiKey), listJson, StringComparison.Ordinal);
Assert.DoesNotContain("secret_hash", listJson, StringComparison.OrdinalIgnoreCase);
}
[Fact]
public async Task RevokeKeyAsync_RevokedKeyFailsVerificationAndAudits()
{
await using ServiceProvider services = BuildServices(CreateTempDatabasePath());
ApiKeyAdminCliRunner runner = services.GetRequiredService<ApiKeyAdminCliRunner>();
string apiKey = await CreateKeyAsync(runner, "operator01");
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.RevokeKey,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: "operator01",
DisplayName: null,
Scopes: new HashSet<string>(StringComparer.Ordinal)),
TextWriter.Null,
CancellationToken.None);
ApiKeyVerificationResult verification = await services
.GetRequiredService<IApiKeyVerifier>()
.VerifyAsync($"Bearer {apiKey}", CancellationToken.None);
Assert.False(verification.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.KeyRevoked, verification.Failure);
IReadOnlyList<ApiKeyAuditRecord> auditRecords = await services
.GetRequiredService<IApiKeyAuditStore>()
.ListRecentAsync(10, CancellationToken.None);
Assert.Contains(auditRecords, record => record.EventType == "revoke-key" && record.KeyId == "operator01");
}
[Fact]
public async Task RotateKeyAsync_PrintsNewSecretOnceAndInvalidatesOldSecret()
{
await using ServiceProvider services = BuildServices(CreateTempDatabasePath());
ApiKeyAdminCliRunner runner = services.GetRequiredService<ApiKeyAdminCliRunner>();
string oldApiKey = await CreateKeyAsync(runner, "operator01");
StringWriter rotateOutput = new();
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.RotateKey,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: "operator01",
DisplayName: null,
Scopes: new HashSet<string>(StringComparer.Ordinal)),
rotateOutput,
CancellationToken.None);
string rotateJson = rotateOutput.ToString();
string newApiKey = ReadApiKey(rotateJson);
Assert.NotEqual(oldApiKey, newApiKey);
Assert.Equal(1, CountOccurrences(rotateJson, newApiKey));
IApiKeyVerifier verifier = services.GetRequiredService<IApiKeyVerifier>();
ApiKeyVerificationResult oldVerification = await verifier.VerifyAsync($"Bearer {oldApiKey}", CancellationToken.None);
ApiKeyVerificationResult newVerification = await verifier.VerifyAsync($"Bearer {newApiKey}", CancellationToken.None);
Assert.False(oldVerification.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.SecretMismatch, oldVerification.Failure);
Assert.True(newVerification.Succeeded);
}
[Fact]
public async Task CreateKeyAsync_PrintsRawSecretExactlyOnce()
{
await using ServiceProvider services = BuildServices(CreateTempDatabasePath());
ApiKeyAdminCliRunner runner = services.GetRequiredService<ApiKeyAdminCliRunner>();
StringWriter output = new();
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.CreateKey,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: "operator01",
DisplayName: "Operator",
Scopes: new HashSet<string>(StringComparer.Ordinal)),
output,
CancellationToken.None);
string json = output.ToString();
string apiKey = ReadApiKey(json);
Assert.Equal(1, CountOccurrences(json, apiKey));
Assert.Equal(1, CountOccurrences(json, ApiKeySecret(apiKey)));
}
private static async Task<string> CreateKeyAsync(ApiKeyAdminCliRunner runner, string keyId)
{
StringWriter output = new();
await runner.RunAsync(
new ApiKeyAdminCommand(
Kind: ApiKeyAdminCommandKind.CreateKey,
Json: true,
SqlitePath: null,
Pepper: null,
KeyId: keyId,
DisplayName: "Operator",
Scopes: new HashSet<string>(StringComparer.Ordinal) { "session:open" }),
output,
CancellationToken.None);
return ReadApiKey(output.ToString());
}
private static ServiceProvider BuildServices(string databasePath)
{
IConfigurationRoot configuration = new ConfigurationBuilder()
.AddInMemoryCollection(
new Dictionary<string, string?>
{
["MxGateway:Authentication:SqlitePath"] = databasePath,
["MxGateway:ApiKeyPepper"] = "test-pepper"
})
.Build();
ServiceCollection services = new();
services.AddSingleton<IConfiguration>(configuration);
services.AddGatewayConfiguration();
services.AddSqliteAuthStore();
return services.BuildServiceProvider(validateScopes: true);
}
private static string CreateTempDatabasePath()
{
string directory = Path.Combine(Path.GetTempPath(), "mxgateway-auth-cli-tests", Guid.NewGuid().ToString("N"));
Directory.CreateDirectory(directory);
return Path.Combine(directory, "gateway-auth.db");
}
private static string ReadApiKey(string json)
{
using JsonDocument document = JsonDocument.Parse(json);
return document.RootElement.GetProperty("ApiKey").GetString()
?? throw new InvalidOperationException("API key was not present in command output.");
}
private static string ApiKeySecret(string apiKey)
{
string[] parts = apiKey.Split('_', 3);
return parts[2];
}
private static int CountOccurrences(string value, string pattern)
{
int count = 0;
int index = 0;
while ((index = value.IndexOf(pattern, index, StringComparison.Ordinal)) >= 0)
{
count++;
index += pattern.Length;
}
return count;
}
}
src/MxGateway.Tests/Security/Authentication/ApiKeyAdminCommandLineParserTests.cs
+70
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@@ -0,0 +1,70 @@
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Tests.Security.Authentication;
public sealed class ApiKeyAdminCommandLineParserTests
{
[Fact]
public void Parse_NonApiKeyCommand_ReturnsNotApiKeyCommand()
{
ApiKeyAdminParseResult result = ApiKeyAdminCommandLineParser.Parse(["--urls=http://localhost:5000"]);
Assert.False(result.IsApiKeyCommand);
Assert.Null(result.Command);
}
[Fact]
public void Parse_CreateKeyCommand_ReturnsOptions()
{
ApiKeyAdminParseResult result = ApiKeyAdminCommandLineParser.Parse(
[
"apikey",
"create-key",
"--key-id",
"operator01",
"--display-name",
"Operator",
"--scopes",
"session:open,events:read",
"--sqlite-path",
"auth.db",
"--pepper",
"pepper",
"--json"
]);
Assert.True(result.IsApiKeyCommand);
Assert.Null(result.Error);
Assert.NotNull(result.Command);
Assert.Equal(ApiKeyAdminCommandKind.CreateKey, result.Command.Kind);
Assert.True(result.Command.Json);
Assert.Equal("operator01", result.Command.KeyId);
Assert.Equal("Operator", result.Command.DisplayName);
Assert.Equal("auth.db", result.Command.SqlitePath);
Assert.Equal("pepper", result.Command.Pepper);
Assert.Contains("session:open", result.Command.Scopes);
Assert.Contains("events:read", result.Command.Scopes);
}
[Fact]
public void Parse_CreateKeyWithoutDisplayName_ReturnsError()
{
ApiKeyAdminParseResult result = ApiKeyAdminCommandLineParser.Parse(
["apikey", "create-key", "--key-id", "operator01"]);
Assert.True(result.IsApiKeyCommand);
Assert.Null(result.Command);
Assert.Contains("--display-name", result.Error, StringComparison.Ordinal);
}
[Fact]
public void Parse_KeyIdWithUnderscore_ReturnsError()
{
ApiKeyAdminParseResult result = ApiKeyAdminCommandLineParser.Parse(
["apikey", "revoke-key", "--key-id", "operator_01"]);
Assert.True(result.IsApiKeyCommand);
Assert.Null(result.Command);
Assert.Contains("letters, numbers, periods, and hyphens", result.Error, StringComparison.Ordinal);
}
}
src/MxGateway.Tests/Security/Authentication/ApiKeyParserTests.cs
+38
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@@ -0,0 +1,38 @@
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Tests.Security.Authentication;
public sealed class ApiKeyParserTests
{
[Fact]
public void TryParseAuthorizationHeader_ValidBearerToken_ReturnsKeyIdAndSecret()
{
ApiKeyParser parser = new();
bool parsed = parser.TryParseAuthorizationHeader(
"Bearer mxgw_operator01_secret_value",
out ParsedApiKey? apiKey);
Assert.True(parsed);
Assert.NotNull(apiKey);
Assert.Equal("operator01", apiKey.KeyId);
Assert.Equal("secret_value", apiKey.Secret);
}
[Theory]
[InlineData(null)]
[InlineData("")]
[InlineData("mxgw_operator01_secret")]
[InlineData("Bearer not-a-gateway-key")]
[InlineData("Bearer mxgw__secret")]
[InlineData("Bearer mxgw_operator01_")]
public void TryParseAuthorizationHeader_MalformedToken_ReturnsFalse(string? authorizationHeader)
{
ApiKeyParser parser = new();
bool parsed = parser.TryParseAuthorizationHeader(authorizationHeader, out ParsedApiKey? apiKey);
Assert.False(parsed);
Assert.Null(apiKey);
}
}
src/MxGateway.Tests/Security/Authentication/ApiKeySecretHasherTests.cs
+62
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@@ -0,0 +1,62 @@
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Tests.Security.Authentication;
public sealed class ApiKeySecretHasherTests
{
[Fact]
public void HashSecret_SamePepperAndSecret_ReturnsSameHash()
{
ApiKeySecretHasher hasher = CreateHasher("pepper-one");
byte[] firstHash = hasher.HashSecret("raw-secret");
byte[] secondHash = hasher.HashSecret("raw-secret");
Assert.Equal(firstHash, secondHash);
Assert.NotEqual("raw-secret"u8.ToArray(), firstHash);
}
[Fact]
public void HashSecret_DifferentPepper_ReturnsDifferentHash()
{
byte[] firstHash = CreateHasher("pepper-one").HashSecret("raw-secret");
byte[] secondHash = CreateHasher("pepper-two").HashSecret("raw-secret");
Assert.NotEqual(firstHash, secondHash);
}
[Fact]
public void HashSecret_MissingPepper_Throws()
{
ApiKeySecretHasher hasher = CreateHasher(pepper: null);
Assert.Throws<ApiKeyPepperUnavailableException>(() => hasher.HashSecret("raw-secret"));
}
private static ApiKeySecretHasher CreateHasher(string? pepper)
{
Dictionary<string, string?> values = [];
if (pepper is not null)
{
values["TestPepper"] = pepper;
}
IConfigurationRoot configuration = new ConfigurationBuilder()
.AddInMemoryCollection(values)
.Build();
GatewayOptions options = new()
{
Authentication = new AuthenticationOptions
{
PepperSecretName = "TestPepper"
}
};
return new ApiKeySecretHasher(configuration, Options.Create(options));
}
}
src/MxGateway.Tests/Security/Authentication/ApiKeyVerifierTests.cs
+193
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using System.Text.Json;
using Microsoft.Extensions.Configuration;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
namespace MxGateway.Tests.Security.Authentication;
public sealed class ApiKeyVerifierTests
{
[Fact]
public async Task VerifyAsync_ValidKey_ReturnsIdentityAndScopes()
{
ApiKeySecretHasher hasher = CreateHasher("pepper");
FakeApiKeyStore store = new(CreateRecord(hasher, revokedUtc: null));
ApiKeyVerifier verifier = new(new ApiKeyParser(), hasher, store);
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_operator01_correct-secret",
CancellationToken.None);
Assert.True(result.Succeeded);
Assert.NotNull(result.Identity);
Assert.Equal("operator01", result.Identity.KeyId);
Assert.Equal("Operator Key", result.Identity.DisplayName);
Assert.Contains("session:open", result.Identity.Scopes);
Assert.Contains("events:read", result.Identity.Scopes);
Assert.True(store.MarkedUsed);
}
[Fact]
public async Task VerifyAsync_ValidKey_DoesNotExposeRawSecretInResult()
{
ApiKeySecretHasher hasher = CreateHasher("pepper");
FakeApiKeyStore store = new(CreateRecord(hasher, revokedUtc: null));
ApiKeyVerifier verifier = new(new ApiKeyParser(), hasher, store);
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_operator01_correct-secret",
CancellationToken.None);
string serialized = JsonSerializer.Serialize(result);
Assert.DoesNotContain("correct-secret", serialized, StringComparison.Ordinal);
}
[Theory]
[InlineData(null)]
[InlineData("Bearer mxgw_operator01")]
[InlineData("Bearer wrong")]
public async Task VerifyAsync_MalformedKey_FailsUnauthenticated(string? authorizationHeader)
{
ApiKeyVerifier verifier = new(
new ApiKeyParser(),
CreateHasher("pepper"),
new FakeApiKeyStore(storedKey: null));
ApiKeyVerificationResult result = await verifier.VerifyAsync(
authorizationHeader,
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.MissingOrMalformedCredentials, result.Failure);
}
[Fact]
public async Task VerifyAsync_UnknownKey_Fails()
{
ApiKeyVerifier verifier = new(
new ApiKeyParser(),
CreateHasher("pepper"),
new FakeApiKeyStore(storedKey: null));
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_missing_secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.KeyNotFound, result.Failure);
}
[Fact]
public async Task VerifyAsync_WrongSecret_Fails()
{
ApiKeySecretHasher hasher = CreateHasher("pepper");
FakeApiKeyStore store = new(CreateRecord(hasher, revokedUtc: null));
ApiKeyVerifier verifier = new(new ApiKeyParser(), hasher, store);
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_operator01_wrong-secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.SecretMismatch, result.Failure);
Assert.False(store.MarkedUsed);
}
[Fact]
public async Task VerifyAsync_RevokedKey_Fails()
{
ApiKeySecretHasher hasher = CreateHasher("pepper");
FakeApiKeyStore store = new(CreateRecord(hasher, DateTimeOffset.UtcNow));
ApiKeyVerifier verifier = new(new ApiKeyParser(), hasher, store);
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_operator01_correct-secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.KeyRevoked, result.Failure);
Assert.False(store.MarkedUsed);
}
[Fact]
public async Task VerifyAsync_MissingPepper_Fails()
{
FakeApiKeyStore store = new(CreateRecord(CreateHasher("pepper"), revokedUtc: null));
ApiKeyVerifier verifier = new(new ApiKeyParser(), CreateHasher(pepper: null), store);
ApiKeyVerificationResult result = await verifier.VerifyAsync(
"Bearer mxgw_operator01_correct-secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Equal(ApiKeyVerificationFailure.PepperUnavailable, result.Failure);
}
private static ApiKeyRecord CreateRecord(ApiKeySecretHasher hasher, DateTimeOffset? revokedUtc)
{
return new ApiKeyRecord(
KeyId: "operator01",
KeyPrefix: "mxgw_operator01",
SecretHash: hasher.HashSecret("correct-secret"),
DisplayName: "Operator Key",
Scopes: new HashSet<string>(StringComparer.Ordinal)
{
"session:open",
"events:read"
},
CreatedUtc: DateTimeOffset.UtcNow,
LastUsedUtc: null,
RevokedUtc: revokedUtc);
}
private static ApiKeySecretHasher CreateHasher(string? pepper)
{
Dictionary<string, string?> values = [];
if (pepper is not null)
{
values["TestPepper"] = pepper;
}
IConfigurationRoot configuration = new ConfigurationBuilder()
.AddInMemoryCollection(values)
.Build();
GatewayOptions options = new()
{
Authentication = new AuthenticationOptions
{
PepperSecretName = "TestPepper"
}
};
return new ApiKeySecretHasher(configuration, Options.Create(options));
}
private sealed class FakeApiKeyStore(ApiKeyRecord? storedKey) : IApiKeyStore
{
public bool MarkedUsed { get; private set; }
public Task<ApiKeyRecord?> FindByKeyIdAsync(string keyId, CancellationToken cancellationToken)
{
return Task.FromResult(storedKey?.KeyId == keyId ? storedKey : null);
}
public Task<ApiKeyRecord?> FindActiveByKeyIdAsync(string keyId, CancellationToken cancellationToken)
{
return Task.FromResult(
storedKey?.KeyId == keyId && storedKey.RevokedUtc is null
? storedKey
: null);
}
public Task MarkKeyUsedAsync(string keyId, DateTimeOffset usedUtc, CancellationToken cancellationToken)
{
MarkedUsed = storedKey?.KeyId == keyId;
return Task.CompletedTask;
}
}
}
src/MxGateway.Tests/Security/Authorization/GatewayGrpcAuthorizationInterceptorTests.cs
+267
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using Grpc.Core;
using Microsoft.Extensions.Options;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Tests.Security.Authorization;
public sealed class GatewayGrpcAuthorizationInterceptorTests
{
[Fact]
public async Task UnaryServerHandler_MissingApiKey_ReturnsUnauthenticated()
{
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(ApiKeyVerificationResult.Fail(
ApiKeyVerificationFailure.MissingOrMalformedCredentials)),
new GatewayRequestIdentityAccessor());
RpcException exception = await Assert.ThrowsAsync<RpcException>(
() => interceptor.UnaryServerHandler(
new OpenSessionRequest(),
new TestServerCallContext([]),
(_, _) => Task.FromResult(new OpenSessionReply())));
Assert.Equal(StatusCode.Unauthenticated, exception.StatusCode);
Assert.DoesNotContain("secret", exception.Status.Detail, StringComparison.OrdinalIgnoreCase);
}
[Fact]
public async Task UnaryServerHandler_InvalidApiKey_DoesNotExposeRawCredentialInStatus()
{
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.SecretMismatch)),
new GatewayRequestIdentityAccessor());
RpcException exception = await Assert.ThrowsAsync<RpcException>(
() => interceptor.UnaryServerHandler(
new OpenSessionRequest(),
ContextWithAuthorization("Bearer mxgw_operator01_super-secret"),
(_, _) => Task.FromResult(new OpenSessionReply())));
Assert.Equal(StatusCode.Unauthenticated, exception.StatusCode);
Assert.DoesNotContain("super-secret", exception.Status.Detail, StringComparison.Ordinal);
}
[Fact]
public async Task UnaryServerHandler_ValidApiKeyMissingScope_ReturnsPermissionDenied()
{
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(SuccessWithScopes(GatewayScopes.EventsRead)),
new GatewayRequestIdentityAccessor());
RpcException exception = await Assert.ThrowsAsync<RpcException>(
() => interceptor.UnaryServerHandler(
new OpenSessionRequest(),
ContextWithAuthorization("Bearer mxgw_operator01_secret"),
(_, _) => Task.FromResult(new OpenSessionReply())));
Assert.Equal(StatusCode.PermissionDenied, exception.StatusCode);
Assert.Contains(GatewayScopes.SessionOpen, exception.Status.Detail, StringComparison.Ordinal);
}
[Fact]
public async Task UnaryServerHandler_ValidApiKeyWithScope_SetsRequestIdentity()
{
GatewayRequestIdentityAccessor identityAccessor = new();
ApiKeyIdentity? identitySeenByHandler = null;
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(SuccessWithScopes(GatewayScopes.SessionOpen)),
identityAccessor);
OpenSessionReply reply = await interceptor.UnaryServerHandler(
new OpenSessionRequest(),
ContextWithAuthorization("Bearer mxgw_operator01_secret"),
(_, _) =>
{
identitySeenByHandler = identityAccessor.Current;
return Task.FromResult(new OpenSessionReply { SessionId = "session-1" });
});
Assert.Equal("session-1", reply.SessionId);
Assert.NotNull(identitySeenByHandler);
Assert.Equal("operator01", identitySeenByHandler.KeyId);
Assert.Null(identityAccessor.Current);
}
[Fact]
public async Task ServerStreamingServerHandler_ValidApiKeyMissingScope_ReturnsPermissionDenied()
{
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(SuccessWithScopes(GatewayScopes.SessionOpen)),
new GatewayRequestIdentityAccessor());
RpcException exception = await Assert.ThrowsAsync<RpcException>(
() => interceptor.ServerStreamingServerHandler(
new StreamEventsRequest(),
new TestServerStreamWriter<MxEvent>(),
ContextWithAuthorization("Bearer mxgw_operator01_secret"),
(_, _, _) => Task.CompletedTask));
Assert.Equal(StatusCode.PermissionDenied, exception.StatusCode);
Assert.Contains(GatewayScopes.EventsRead, exception.Status.Detail, StringComparison.Ordinal);
}
[Fact]
public async Task ServerStreamingServerHandler_ValidApiKeyWithScope_AllowsStream()
{
GatewayRequestIdentityAccessor identityAccessor = new();
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
new FakeApiKeyVerifier(SuccessWithScopes(GatewayScopes.EventsRead)),
identityAccessor);
TestServerStreamWriter<MxEvent> streamWriter = new();
await interceptor.ServerStreamingServerHandler(
new StreamEventsRequest(),
streamWriter,
ContextWithAuthorization("Bearer mxgw_operator01_secret"),
async (_, writer, _) =>
{
Assert.Equal("operator01", identityAccessor.Current?.KeyId);
await writer.WriteAsync(new MxEvent { SessionId = "session-1" });
});
MxEvent eventMessage = Assert.Single(streamWriter.Messages);
Assert.Equal("session-1", eventMessage.SessionId);
Assert.Null(identityAccessor.Current);
}
[Fact]
public async Task UnaryServerHandler_AuthenticationDisabled_SkipsApiKeyVerification()
{
GatewayRequestIdentityAccessor identityAccessor = new();
FakeApiKeyVerifier verifier = new(ApiKeyVerificationResult.Fail(
ApiKeyVerificationFailure.MissingOrMalformedCredentials));
GatewayGrpcAuthorizationInterceptor interceptor = CreateInterceptor(
verifier,
identityAccessor,
AuthenticationMode.Disabled);
OpenSessionReply reply = await interceptor.UnaryServerHandler(
new OpenSessionRequest(),
new TestServerCallContext([]),
(_, _) => Task.FromResult(new OpenSessionReply { SessionId = "session-1" }));
Assert.Equal("session-1", reply.SessionId);
Assert.False(verifier.WasCalled);
Assert.Null(identityAccessor.Current);
}
private static GatewayGrpcAuthorizationInterceptor CreateInterceptor(
IApiKeyVerifier apiKeyVerifier,
IGatewayRequestIdentityAccessor identityAccessor,
AuthenticationMode authenticationMode = AuthenticationMode.ApiKey)
{
return new GatewayGrpcAuthorizationInterceptor(
apiKeyVerifier,
new GatewayGrpcScopeResolver(),
identityAccessor,
Options.Create(new GatewayOptions
{
Authentication = new AuthenticationOptions
{
Mode = authenticationMode
}
}));
}
private static ApiKeyVerificationResult SuccessWithScopes(params string[] scopes)
{
return ApiKeyVerificationResult.Success(new ApiKeyIdentity(
KeyId: "operator01",
KeyPrefix: "mxgw_operator01",
DisplayName: "Operator Key",
Scopes: new HashSet<string>(scopes, StringComparer.Ordinal)));
}
private static TestServerCallContext ContextWithAuthorization(string authorizationHeader)
{
return new TestServerCallContext([new Metadata.Entry("authorization", authorizationHeader)]);
}
private sealed class FakeApiKeyVerifier(ApiKeyVerificationResult result) : IApiKeyVerifier
{
public bool WasCalled { get; private set; }
public string? LastAuthorizationHeader { get; private set; }
public Task<ApiKeyVerificationResult> VerifyAsync(
string? authorizationHeader,
CancellationToken cancellationToken)
{
WasCalled = true;
LastAuthorizationHeader = authorizationHeader;
return Task.FromResult(result);
}
}
private sealed class TestServerStreamWriter<T> : IServerStreamWriter<T>
{
public List<T> Messages { get; } = [];
public WriteOptions? WriteOptions { get; set; }
public Task WriteAsync(T message)
{
Messages.Add(message);
return Task.CompletedTask;
}
}
private sealed class TestServerCallContext(
Metadata requestHeaders,
CancellationToken cancellationToken = default) : ServerCallContext
{
private readonly Metadata responseTrailers = [];
private readonly Dictionary<object, object> userState = [];
private Status status;
private WriteOptions? writeOptions;
protected override string MethodCore => "/mxaccess_gateway.v1.MxAccessGateway/Test";
protected override string HostCore => "localhost";
protected override string PeerCore => "ipv4:127.0.0.1:5000";
protected override DateTime DeadlineCore => DateTime.UtcNow.AddMinutes(1);
protected override Metadata RequestHeadersCore => requestHeaders;
protected override CancellationToken CancellationTokenCore => cancellationToken;
protected override Metadata ResponseTrailersCore => responseTrailers;
protected override Status StatusCore
{
get => status;
set => status = value;
}
protected override WriteOptions? WriteOptionsCore
{
get => writeOptions;
set => writeOptions = value;
}
protected override AuthContext AuthContextCore { get; } = new(
string.Empty,
new Dictionary<string, List<AuthProperty>>(StringComparer.Ordinal));
protected override IDictionary<object, object> UserStateCore => userState;
protected override Task WriteResponseHeadersAsyncCore(Metadata responseHeaders)
{
return Task.CompletedTask;
}
protected override ContextPropagationToken CreatePropagationTokenCore(
ContextPropagationOptions? options)
{
throw new NotSupportedException();
}
}
}
src/MxGateway.Tests/Security/Authorization/GatewayGrpcScopeResolverTests.cs
+54
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@@ -0,0 +1,54 @@
using MxGateway.Contracts.Proto;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Tests.Security.Authorization;
public sealed class GatewayGrpcScopeResolverTests
{
[Theory]
[InlineData(typeof(OpenSessionRequest), GatewayScopes.SessionOpen)]
[InlineData(typeof(CloseSessionRequest), GatewayScopes.SessionClose)]
[InlineData(typeof(StreamEventsRequest), GatewayScopes.EventsRead)]
public void ResolveRequiredScope_KnownRpcRequest_ReturnsExpectedScope(
Type requestType,
string expectedScope)
{
GatewayGrpcScopeResolver resolver = new();
object request = Activator.CreateInstance(requestType)!;
string scope = resolver.ResolveRequiredScope(request);
Assert.Equal(expectedScope, scope);
}
[Theory]
[InlineData(MxCommandKind.Register, GatewayScopes.InvokeRead)]
[InlineData(MxCommandKind.AddItem, GatewayScopes.InvokeRead)]
[InlineData(MxCommandKind.Advise, GatewayScopes.InvokeRead)]
[InlineData(MxCommandKind.Write, GatewayScopes.InvokeWrite)]
[InlineData(MxCommandKind.Write2, GatewayScopes.InvokeWrite)]
[InlineData(MxCommandKind.WriteSecured, GatewayScopes.InvokeSecure)]
[InlineData(MxCommandKind.WriteSecured2, GatewayScopes.InvokeSecure)]
[InlineData(MxCommandKind.AuthenticateUser, GatewayScopes.InvokeSecure)]
[InlineData(MxCommandKind.ArchestraUserToId, GatewayScopes.MetadataRead)]
[InlineData(MxCommandKind.GetSessionState, GatewayScopes.MetadataRead)]
[InlineData(MxCommandKind.GetWorkerInfo, GatewayScopes.MetadataRead)]
[InlineData(MxCommandKind.DrainEvents, GatewayScopes.EventsRead)]
[InlineData(MxCommandKind.ShutdownWorker, GatewayScopes.Admin)]
public void ResolveRequiredScope_InvokeCommand_ReturnsExpectedScope(
MxCommandKind commandKind,
string expectedScope)
{
GatewayGrpcScopeResolver resolver = new();
string scope = resolver.ResolveRequiredScope(new MxCommandRequest
{
Command = new MxCommand
{
Kind = commandKind
}
});
Assert.Equal(expectedScope, scope);
}
}
src/MxGateway.Worker.Tests/Bootstrap/MemoryWorkerEnvironment.cs
+37
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@@ -0,0 +1,37 @@
using System;
using System.Collections.Generic;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Tests.Bootstrap;
internal sealed class MemoryWorkerEnvironment : IWorkerEnvironment
{
private readonly Dictionary<string, string> _values = new();
private readonly Exception? _exception;
public MemoryWorkerEnvironment()
{
}
public MemoryWorkerEnvironment(Exception exception)
{
_exception = exception;
}
public void Set(string name, string value)
{
_values[name] = value;
}
public string? GetEnvironmentVariable(string name)
{
if (_exception is not null)
{
throw _exception;
}
return _values.TryGetValue(name, out string value)
? value
: null;
}
}
src/MxGateway.Worker.Tests/Bootstrap/MemoryWorkerLogEntry.cs
+22
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@@ -0,0 +1,22 @@
using System.Collections.Generic;
namespace MxGateway.Worker.Tests.Bootstrap;
internal sealed class MemoryWorkerLogEntry
{
public MemoryWorkerLogEntry(
string level,
string eventName,
IReadOnlyDictionary<string, object?> fields)
{
Level = level;
EventName = eventName;
Fields = fields;
}
public string Level { get; }
public string EventName { get; }
public IReadOnlyDictionary<string, object?> Fields { get; }
}
src/MxGateway.Worker.Tests/Bootstrap/MemoryWorkerLogger.cs
+19
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@@ -0,0 +1,19 @@
using System.Collections.Generic;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Tests.Bootstrap;
internal sealed class MemoryWorkerLogger : IWorkerLogger
{
public List<MemoryWorkerLogEntry> Entries { get; } = new();
public void Information(string eventName, IReadOnlyDictionary<string, object?> fields)
{
Entries.Add(new MemoryWorkerLogEntry("Information", eventName, WorkerLogRedactor.RedactFields(fields)));
}
public void Error(string eventName, IReadOnlyDictionary<string, object?> fields)
{
Entries.Add(new MemoryWorkerLogEntry("Error", eventName, WorkerLogRedactor.RedactFields(fields)));
}
}
src/MxGateway.Worker.Tests/Bootstrap/WorkerApplicationTests.cs
+164
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@@ -0,0 +1,164 @@
using System;
using System.Threading;
using System.Threading.Tasks;
using MxGateway.Contracts;
using MxGateway.Worker.Bootstrap;
using MxGateway.Worker.Ipc;
namespace MxGateway.Worker.Tests.Bootstrap;
public sealed class WorkerApplicationTests
{
[Fact]
public void Run_WithValidBootstrapArguments_ReturnsSuccessAndLogsRedactedNonce()
{
MemoryWorkerEnvironment environment = CreateEnvironment("nonce-secret");
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
ValidArgs(),
environment,
logger,
new SucceedingPipeClient());
Assert.Equal((int)WorkerExitCode.Success, exitCode);
Assert.Equal(2, logger.Entries.Count);
MemoryWorkerLogEntry entry = logger.Entries[0];
Assert.Equal("Information", entry.Level);
Assert.Equal("WorkerBootstrapSucceeded", entry.EventName);
Assert.Equal("session-1", entry.Fields["session_id"]);
Assert.Equal("mxaccess-gateway-123-session-1", entry.Fields["pipe_name"]);
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, entry.Fields["protocol_version"]);
Assert.Equal("[redacted]", entry.Fields["nonce"]);
Assert.Equal("WorkerPipeHandshakeSucceeded", logger.Entries[1].EventName);
}
[Fact]
public void Run_WithMissingRequiredArguments_ReturnsInvalidArguments()
{
MemoryWorkerEnvironment environment = CreateEnvironment("nonce-secret");
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
[],
environment,
logger);
Assert.Equal((int)WorkerExitCode.InvalidArguments, exitCode);
MemoryWorkerLogEntry entry = Assert.Single(logger.Entries);
Assert.Equal("Error", entry.Level);
Assert.Equal("WorkerBootstrapFailed", entry.EventName);
Assert.Equal(WorkerExitCode.InvalidArguments, entry.Fields["exit_code"]);
}
[Fact]
public void Run_WithInvalidProtocolVersion_ReturnsInvalidProtocolVersion()
{
MemoryWorkerEnvironment environment = CreateEnvironment("nonce-secret");
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
ValidArgs(protocolVersion: "999"),
environment,
logger);
Assert.Equal((int)WorkerExitCode.InvalidProtocolVersion, exitCode);
}
[Fact]
public void Run_WithMissingNonce_ReturnsMissingNonce()
{
MemoryWorkerEnvironment environment = new();
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
ValidArgs(),
environment,
logger);
Assert.Equal((int)WorkerExitCode.MissingNonce, exitCode);
}
[Fact]
public void Run_WithPipeProtocolFailure_ReturnsProtocolViolation()
{
MemoryWorkerEnvironment environment = CreateEnvironment("nonce-secret");
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
ValidArgs(),
environment,
logger,
new ThrowingPipeClient(new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.NonceMismatch,
"Bad nonce.")));
Assert.Equal((int)WorkerExitCode.ProtocolViolation, exitCode);
Assert.Equal("WorkerPipeProtocolFailure", logger.Entries[1].EventName);
}
[Fact]
public void Run_WithUnexpectedBootstrapFailure_ReturnsUnexpectedFailure()
{
MemoryWorkerEnvironment environment = new(new InvalidOperationException("environment failed"));
MemoryWorkerLogger logger = new();
int exitCode = MxGateway.Worker.WorkerApplication.Run(
ValidArgs(),
environment,
logger);
Assert.Equal((int)WorkerExitCode.UnexpectedFailure, exitCode);
MemoryWorkerLogEntry entry = Assert.Single(logger.Entries);
Assert.Equal("WorkerBootstrapUnexpectedFailure", entry.EventName);
Assert.Equal(WorkerExitCode.UnexpectedFailure, entry.Fields["exit_code"]);
Assert.Equal(typeof(InvalidOperationException).FullName, entry.Fields["exception_type"]);
}
private static string[] ValidArgs(string? protocolVersion = null)
{
return
[
"--session-id",
"session-1",
"--pipe-name",
"mxaccess-gateway-123-session-1",
"--protocol-version",
protocolVersion ?? GatewayContractInfo.WorkerProtocolVersion.ToString(),
];
}
private static MemoryWorkerEnvironment CreateEnvironment(string nonce)
{
MemoryWorkerEnvironment environment = new();
environment.Set(WorkerOptions.NonceEnvironmentVariableName, nonce);
return environment;
}
private sealed class SucceedingPipeClient : IWorkerPipeClient
{
public Task RunAsync(
WorkerOptions options,
CancellationToken cancellationToken = default)
{
return Task.CompletedTask;
}
}
private sealed class ThrowingPipeClient : IWorkerPipeClient
{
private readonly Exception _exception;
public ThrowingPipeClient(Exception exception)
{
_exception = exception;
}
public Task RunAsync(
WorkerOptions options,
CancellationToken cancellationToken = default)
{
throw _exception;
}
}
}
src/MxGateway.Worker.Tests/Bootstrap/WorkerConsoleLoggerTests.cs
+28
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@@ -0,0 +1,28 @@
using System.Collections.Generic;
using System.IO;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Tests.Bootstrap;
public sealed class WorkerConsoleLoggerTests
{
[Fact]
public void Information_RedactsNonceInStructuredOutput()
{
StringWriter writer = new();
WorkerConsoleLogger logger = new(writer);
logger.Information("WorkerBootstrapSucceeded", new Dictionary<string, object?>
{
["session_id"] = "session-1",
["nonce"] = "nonce-secret",
});
string output = writer.ToString();
Assert.Contains("event=WorkerBootstrapSucceeded", output);
Assert.Contains("session_id=session-1", output);
Assert.Contains("nonce=[redacted]", output);
Assert.DoesNotContain("nonce-secret", output);
}
}
src/MxGateway.Worker.Tests/Bootstrap/WorkerLogRedactorTests.cs
+32
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@@ -0,0 +1,32 @@
using System.Collections.Generic;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Tests.Bootstrap;
public sealed class WorkerLogRedactorTests
{
[Fact]
public void RedactFields_RedactsNonceSecretPasswordTokenCredentialAndApiKeyFields()
{
Dictionary<string, object?> fields = new()
{
["nonce"] = "nonce-secret",
["client_secret"] = "secret",
["password"] = "password",
["auth_token"] = "token",
["credential_value"] = "credential",
["api_key"] = "key",
["session_id"] = "session-1",
};
Dictionary<string, object?> redacted = WorkerLogRedactor.RedactFields(fields);
Assert.Equal("[redacted]", redacted["nonce"]);
Assert.Equal("[redacted]", redacted["client_secret"]);
Assert.Equal("[redacted]", redacted["password"]);
Assert.Equal("[redacted]", redacted["auth_token"]);
Assert.Equal("[redacted]", redacted["credential_value"]);
Assert.Equal("[redacted]", redacted["api_key"]);
Assert.Equal("session-1", redacted["session_id"]);
}
}
src/MxGateway.Worker.Tests/Bootstrap/WorkerOptionsParserTests.cs
+115
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using MxGateway.Contracts;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Tests.Bootstrap;
public sealed class WorkerOptionsParserTests
{
[Fact]
public void Parse_WithAllRequiredInputs_ReturnsWorkerOptions()
{
WorkerOptionsParser parser = new(CreateEnvironment("nonce-secret"));
WorkerBootstrapResult result = parser.Parse(ValidArgs());
Assert.True(result.Succeeded);
Assert.Equal(WorkerExitCode.Success, result.ExitCode);
Assert.NotNull(result.Options);
Assert.Equal("session-1", result.Options.SessionId);
Assert.Equal("mxaccess-gateway-123-session-1", result.Options.PipeName);
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, result.Options.ProtocolVersion);
Assert.Equal("nonce-secret", result.Options.Nonce);
}
[Fact]
public void Parse_WithMissingSessionId_ReturnsInvalidArguments()
{
WorkerOptionsParser parser = new(CreateEnvironment("nonce-secret"));
WorkerBootstrapResult result = parser.Parse(
[
"--pipe-name",
"mxaccess-gateway-123-session-1",
"--protocol-version",
GatewayContractInfo.WorkerProtocolVersion.ToString(),
]);
Assert.False(result.Succeeded);
Assert.Equal(WorkerExitCode.InvalidArguments, result.ExitCode);
Assert.Contains(result.Errors, error => error.Contains("--session-id"));
}
[Fact]
public void Parse_WithUnknownOption_ReturnsInvalidArguments()
{
WorkerOptionsParser parser = new(CreateEnvironment("nonce-secret"));
WorkerBootstrapResult result = parser.Parse(
[
"--session-id",
"session-1",
"--pipe-name",
"mxaccess-gateway-123-session-1",
"--protocol-version",
GatewayContractInfo.WorkerProtocolVersion.ToString(),
"--unexpected",
"value",
]);
Assert.Equal(WorkerExitCode.InvalidArguments, result.ExitCode);
Assert.Contains(result.Errors, error => error.Contains("Unknown option"));
}
[Fact]
public void Parse_WithNonNumericProtocolVersion_ReturnsInvalidProtocolVersion()
{
WorkerOptionsParser parser = new(CreateEnvironment("nonce-secret"));
WorkerBootstrapResult result = parser.Parse(ValidArgs(protocolVersion: "abc"));
Assert.False(result.Succeeded);
Assert.Equal(WorkerExitCode.InvalidProtocolVersion, result.ExitCode);
}
[Fact]
public void Parse_WithUnsupportedProtocolVersion_ReturnsInvalidProtocolVersion()
{
WorkerOptionsParser parser = new(CreateEnvironment("nonce-secret"));
WorkerBootstrapResult result = parser.Parse(ValidArgs(protocolVersion: "999"));
Assert.False(result.Succeeded);
Assert.Equal(WorkerExitCode.InvalidProtocolVersion, result.ExitCode);
}
[Fact]
public void Parse_WithMissingNonce_ReturnsMissingNonce()
{
WorkerOptionsParser parser = new(new MemoryWorkerEnvironment());
WorkerBootstrapResult result = parser.Parse(ValidArgs());
Assert.False(result.Succeeded);
Assert.Equal(WorkerExitCode.MissingNonce, result.ExitCode);
}
private static string[] ValidArgs(string? protocolVersion = null)
{
return
[
"--session-id",
"session-1",
"--pipe-name",
"mxaccess-gateway-123-session-1",
"--protocol-version",
protocolVersion ?? GatewayContractInfo.WorkerProtocolVersion.ToString(),
];
}
private static MemoryWorkerEnvironment CreateEnvironment(string nonce)
{
MemoryWorkerEnvironment environment = new();
environment.Set(WorkerOptions.NonceEnvironmentVariableName, nonce);
return environment;
}
}
src/MxGateway.Worker.Tests/Ipc/WorkerFrameProtocolTests.cs
+163
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using System;
using System.IO;
using System.Linq;
using System.Threading.Tasks;
using Google.Protobuf;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Worker.Ipc;
namespace MxGateway.Worker.Tests.Ipc;
public sealed class WorkerFrameProtocolTests
{
private const string SessionId = "session-1";
private const string Nonce = "nonce-secret";
[Fact]
public async Task WriteAndReadAsync_WithValidEnvelope_RoundTripsFrame()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream stream = new();
WorkerEnvelope original = CreateGatewayHelloEnvelope();
WorkerFrameWriter writer = new(stream, options);
await writer.WriteAsync(original);
stream.Position = 0;
WorkerFrameReader reader = new(stream, options);
WorkerEnvelope parsed = await reader.ReadAsync();
Assert.Equal(original, parsed);
}
[Fact]
public async Task ReadAsync_WithWrongProtocolVersion_ThrowsProtocolVersionMismatch()
{
WorkerFrameProtocolOptions options = CreateOptions();
WorkerEnvelope envelope = CreateGatewayHelloEnvelope();
envelope.ProtocolVersion++;
MemoryStream stream = new(CreateFrame(envelope));
WorkerFrameReader reader = new(stream, options);
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await reader.ReadAsync());
Assert.Equal(WorkerFrameProtocolErrorCode.ProtocolVersionMismatch, exception.ErrorCode);
}
[Fact]
public async Task ReadAsync_WithWrongSessionId_ThrowsSessionMismatch()
{
WorkerFrameProtocolOptions options = CreateOptions();
WorkerEnvelope envelope = CreateGatewayHelloEnvelope();
envelope.SessionId = "different-session";
MemoryStream stream = new(CreateFrame(envelope));
WorkerFrameReader reader = new(stream, options);
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await reader.ReadAsync());
Assert.Equal(WorkerFrameProtocolErrorCode.SessionMismatch, exception.ErrorCode);
}
[Fact]
public async Task ReadAsync_WithMalformedLength_ThrowsMalformedLength()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream stream = new(new byte[sizeof(uint)]);
WorkerFrameReader reader = new(stream, options);
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await reader.ReadAsync());
Assert.Equal(WorkerFrameProtocolErrorCode.MalformedLength, exception.ErrorCode);
}
[Fact]
public async Task ReadAsync_WithMalformedPayload_ThrowsInvalidEnvelope()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream stream = new(CreateFrame(new byte[] { 0x80 }));
WorkerFrameReader reader = new(stream, options);
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await reader.ReadAsync());
Assert.Equal(WorkerFrameProtocolErrorCode.InvalidEnvelope, exception.ErrorCode);
}
[Fact]
public async Task WriteAsync_WithConcurrentCalls_SerializesCompleteFrames()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream stream = new();
WorkerFrameWriter writer = new(stream, options);
await Task.WhenAll(
writer.WriteAsync(CreateGatewayHelloEnvelope(sequence: 1)),
writer.WriteAsync(CreateGatewayHelloEnvelope(sequence: 2)),
writer.WriteAsync(CreateGatewayHelloEnvelope(sequence: 3)));
stream.Position = 0;
WorkerFrameReader reader = new(stream, options);
WorkerEnvelope first = await reader.ReadAsync();
WorkerEnvelope second = await reader.ReadAsync();
WorkerEnvelope third = await reader.ReadAsync();
Assert.Equal(new ulong[] { 1, 2, 3 }, new[] { first.Sequence, second.Sequence, third.Sequence }.OrderBy(sequence => sequence));
}
private static WorkerFrameProtocolOptions CreateOptions()
{
return new WorkerFrameProtocolOptions(
SessionId,
GatewayContractInfo.WorkerProtocolVersion,
Nonce);
}
private static WorkerEnvelope CreateGatewayHelloEnvelope(ulong sequence = 1)
{
return new WorkerEnvelope
{
ProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
SessionId = SessionId,
Sequence = sequence,
GatewayHello = new GatewayHello
{
SupportedProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
Nonce = Nonce,
GatewayVersion = "test-gateway",
},
};
}
private static byte[] CreateFrame(IMessage message)
{
return CreateFrame(message.ToByteArray());
}
private static byte[] CreateFrame(byte[] payload)
{
byte[] frame = new byte[sizeof(uint) + payload.Length];
WriteUInt32LittleEndian(frame, (uint)payload.Length);
payload.CopyTo(frame, sizeof(uint));
return frame;
}
private static void WriteUInt32LittleEndian(
byte[] buffer,
uint value)
{
buffer[0] = (byte)value;
buffer[1] = (byte)(value >> 8);
buffer[2] = (byte)(value >> 16);
buffer[3] = (byte)(value >> 24);
}
}
src/MxGateway.Worker.Tests/Ipc/WorkerPipeClientTests.cs
+61
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using System;
using System.IO.Pipes;
using System.Threading.Tasks;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Worker.Bootstrap;
using MxGateway.Worker.Ipc;
namespace MxGateway.Worker.Tests.Ipc;
public sealed class WorkerPipeClientTests
{
[Fact]
public async Task RunAsync_ConnectsToPipeAndCompletesHandshake()
{
string pipeName = $"mxaccess-gateway-test-{Guid.NewGuid():N}";
WorkerOptions workerOptions = new(
"session-1",
pipeName,
GatewayContractInfo.WorkerProtocolVersion,
"nonce-secret");
WorkerFrameProtocolOptions frameOptions = new(workerOptions);
using NamedPipeServerStream server = new(
pipeName,
PipeDirection.InOut,
1,
PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
WorkerPipeClient client = new(connectTimeoutMilliseconds: 5000);
Task clientTask = client.RunAsync(workerOptions);
await Task.Factory.FromAsync(server.BeginWaitForConnection, server.EndWaitForConnection, null);
WorkerFrameReader reader = new(server, frameOptions);
WorkerFrameWriter writer = new(server, frameOptions);
await writer.WriteAsync(new WorkerEnvelope
{
ProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
SessionId = "session-1",
Sequence = 1,
GatewayHello = new GatewayHello
{
SupportedProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
Nonce = "nonce-secret",
GatewayVersion = "test-gateway",
},
});
WorkerEnvelope hello = await reader.ReadAsync();
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerHello, hello.BodyCase);
Assert.Equal("nonce-secret", hello.WorkerHello.Nonce);
WorkerEnvelope ready = await reader.ReadAsync();
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerReady, ready.BodyCase);
await clientTask;
}
}
src/MxGateway.Worker.Tests/Ipc/WorkerPipeSessionTests.cs
+192
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using System.Collections.Generic;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Worker.Ipc;
namespace MxGateway.Worker.Tests.Ipc;
public sealed class WorkerPipeSessionTests
{
private const string SessionId = "session-1";
private const string Nonce = "nonce-secret";
[Fact]
public async Task CompleteStartupHandshakeAsync_WithValidGatewayHello_SendsHelloThenReady()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream inbound = new();
await new WorkerFrameWriter(inbound, options).WriteAsync(CreateGatewayHelloEnvelope());
inbound.Position = 0;
MemoryStream outbound = new();
WorkerPipeSession session = CreateSession(inbound, outbound, options);
bool initialized = false;
await session.CompleteStartupHandshakeAsync(
_ =>
{
initialized = true;
return Task.CompletedTask;
});
Assert.True(initialized);
WorkerEnvelope[] written = ReadWrittenFrames(outbound, options);
Assert.Equal(2, written.Length);
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerHello, written[0].BodyCase);
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerReady, written[1].BodyCase);
Assert.Equal(Nonce, written[0].WorkerHello.Nonce);
}
[Fact]
public async Task CompleteStartupHandshakeAsync_WithWrongNonce_FaultsBeforeInitialization()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream inbound = new();
await new WorkerFrameWriter(inbound, options).WriteAsync(CreateGatewayHelloEnvelope(nonce: "wrong"));
inbound.Position = 0;
MemoryStream outbound = new();
WorkerPipeSession session = CreateSession(inbound, outbound, options);
bool initialized = false;
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await session.CompleteStartupHandshakeAsync(
_ =>
{
initialized = true;
return Task.CompletedTask;
}));
Assert.False(initialized);
Assert.Equal(WorkerFrameProtocolErrorCode.NonceMismatch, exception.ErrorCode);
WorkerEnvelope fault = Assert.Single(ReadWrittenFrames(outbound, options));
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerFault, fault.BodyCase);
Assert.Equal(WorkerFaultCategory.ProtocolViolation, fault.WorkerFault.Category);
}
[Fact]
public async Task CompleteStartupHandshakeAsync_WithWrongProtocol_FaultsBeforeInitialization()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream inbound = new();
await new WorkerFrameWriter(inbound, options).WriteAsync(CreateGatewayHelloEnvelope(supportedProtocolVersion: 999));
inbound.Position = 0;
MemoryStream outbound = new();
WorkerPipeSession session = CreateSession(inbound, outbound, options);
bool initialized = false;
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await session.CompleteStartupHandshakeAsync(
_ =>
{
initialized = true;
return Task.CompletedTask;
}));
Assert.False(initialized);
Assert.Equal(WorkerFrameProtocolErrorCode.ProtocolVersionMismatch, exception.ErrorCode);
WorkerEnvelope fault = Assert.Single(ReadWrittenFrames(outbound, options));
Assert.Equal(WorkerFaultCategory.ProtocolMismatch, fault.WorkerFault.Category);
}
[Fact]
public async Task CompleteStartupHandshakeAsync_WithMalformedFrame_WritesWorkerFault()
{
WorkerFrameProtocolOptions options = CreateOptions();
MemoryStream inbound = new(CreateFrame(new byte[] { 0x80 }));
MemoryStream outbound = new();
WorkerPipeSession session = CreateSession(inbound, outbound, options);
bool initialized = false;
WorkerFrameProtocolException exception =
await Assert.ThrowsAsync<WorkerFrameProtocolException>(
async () => await session.CompleteStartupHandshakeAsync(
_ =>
{
initialized = true;
return Task.CompletedTask;
}));
Assert.False(initialized);
Assert.Equal(WorkerFrameProtocolErrorCode.InvalidEnvelope, exception.ErrorCode);
WorkerEnvelope fault = Assert.Single(ReadWrittenFrames(outbound, options));
Assert.Equal(WorkerEnvelope.BodyOneofCase.WorkerFault, fault.BodyCase);
Assert.Equal(WorkerFaultCategory.ProtocolViolation, fault.WorkerFault.Category);
}
private static WorkerPipeSession CreateSession(
Stream inbound,
Stream outbound,
WorkerFrameProtocolOptions options)
{
return new WorkerPipeSession(
new WorkerFrameReader(inbound, options),
new WorkerFrameWriter(outbound, options),
options,
() => 1234);
}
private static WorkerFrameProtocolOptions CreateOptions()
{
return new WorkerFrameProtocolOptions(
SessionId,
GatewayContractInfo.WorkerProtocolVersion,
Nonce);
}
private static WorkerEnvelope CreateGatewayHelloEnvelope(
string nonce = Nonce,
uint supportedProtocolVersion = GatewayContractInfo.WorkerProtocolVersion)
{
return new WorkerEnvelope
{
ProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
SessionId = SessionId,
Sequence = 1,
GatewayHello = new GatewayHello
{
SupportedProtocolVersion = supportedProtocolVersion,
Nonce = nonce,
GatewayVersion = "test-gateway",
},
};
}
private static WorkerEnvelope[] ReadWrittenFrames(
MemoryStream stream,
WorkerFrameProtocolOptions options)
{
stream.Position = 0;
WorkerFrameReader reader = new(stream, options);
List<WorkerEnvelope> envelopes = new();
while (stream.Position < stream.Length)
{
envelopes.Add(reader.ReadAsync(CancellationToken.None).GetAwaiter().GetResult());
}
return envelopes.ToArray();
}
private static byte[] CreateFrame(byte[] payload)
{
byte[] frame = new byte[sizeof(uint) + payload.Length];
WriteUInt32LittleEndian(frame, (uint)payload.Length);
payload.CopyTo(frame, sizeof(uint));
return frame;
}
private static void WriteUInt32LittleEndian(
byte[] buffer,
uint value)
{
buffer[0] = (byte)value;
buffer[1] = (byte)(value >> 8);
buffer[2] = (byte)(value >> 16);
buffer[3] = (byte)(value >> 24);
}
}
src/MxGateway.Worker/Bootstrap/.gitkeep
-1
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@@ -1 +0,0 @@
src/MxGateway.Worker/Bootstrap/EnvironmentVariableWorkerEnvironment.cs
+11
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@@ -0,0 +1,11 @@
using System;
namespace MxGateway.Worker.Bootstrap;
public sealed class EnvironmentVariableWorkerEnvironment : IWorkerEnvironment
{
public string? GetEnvironmentVariable(string name)
{
return Environment.GetEnvironmentVariable(name);
}
}
src/MxGateway.Worker/Bootstrap/IWorkerEnvironment.cs
+6
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namespace MxGateway.Worker.Bootstrap;
public interface IWorkerEnvironment
{
string? GetEnvironmentVariable(string name);
}
src/MxGateway.Worker/Bootstrap/IWorkerLogger.cs
+10
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@@ -0,0 +1,10 @@
using System.Collections.Generic;
namespace MxGateway.Worker.Bootstrap;
public interface IWorkerLogger
{
void Information(string eventName, IReadOnlyDictionary<string, object?> fields);
void Error(string eventName, IReadOnlyDictionary<string, object?> fields);
}
src/MxGateway.Worker/Bootstrap/WorkerBootstrapResult.cs
+35
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using System.Collections.Generic;
using System.Linq;
namespace MxGateway.Worker.Bootstrap;
public sealed class WorkerBootstrapResult
{
private WorkerBootstrapResult(
WorkerExitCode exitCode,
WorkerOptions? options,
IReadOnlyList<string> errors)
{
ExitCode = exitCode;
Options = options;
Errors = errors;
}
public WorkerExitCode ExitCode { get; }
public WorkerOptions? Options { get; }
public IReadOnlyList<string> Errors { get; }
public bool Succeeded => ExitCode == WorkerExitCode.Success;
public static WorkerBootstrapResult Success(WorkerOptions options)
{
return new WorkerBootstrapResult(WorkerExitCode.Success, options, []);
}
public static WorkerBootstrapResult Failure(WorkerExitCode exitCode, IEnumerable<string> errors)
{
return new WorkerBootstrapResult(exitCode, null, errors.ToArray());
}
}
src/MxGateway.Worker/Bootstrap/WorkerConsoleLogger.cs
+44
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using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
namespace MxGateway.Worker.Bootstrap;
public sealed class WorkerConsoleLogger : IWorkerLogger
{
private readonly TextWriter _writer;
public WorkerConsoleLogger(TextWriter writer)
{
_writer = writer ?? throw new ArgumentNullException(nameof(writer));
}
public void Information(string eventName, IReadOnlyDictionary<string, object?> fields)
{
Write("Information", eventName, fields);
}
public void Error(string eventName, IReadOnlyDictionary<string, object?> fields)
{
Write("Error", eventName, fields);
}
private void Write(
string level,
string eventName,
IReadOnlyDictionary<string, object?> fields)
{
Dictionary<string, object?> redactedFields = WorkerLogRedactor.RedactFields(fields);
string fieldText = string.Join(
" ",
redactedFields.Select(field => $"{field.Key}={FormatValue(field.Value)}"));
_writer.WriteLine($"level={level} event={eventName} {fieldText}".TrimEnd());
}
private static string FormatValue(object? value)
{
return value?.ToString() ?? string.Empty;
}
}
src/MxGateway.Worker/Bootstrap/WorkerExitCode.cs
+12
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@@ -0,0 +1,12 @@
namespace MxGateway.Worker.Bootstrap;
public enum WorkerExitCode
{
Success = 0,
UnexpectedFailure = 1,
InvalidArguments = 2,
InvalidProtocolVersion = 3,
MissingNonce = 4,
PipeConnectionFailed = 5,
ProtocolViolation = 6,
}
src/MxGateway.Worker/Bootstrap/WorkerLogRedactor.cs
+50
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using System;
using System.Collections.Generic;
namespace MxGateway.Worker.Bootstrap;
public static class WorkerLogRedactor
{
public const string RedactedValue = "[redacted]";
private static readonly string[] SensitiveFieldNameParts =
[
"nonce",
"secret",
"password",
"token",
"credential",
"apikey",
"api_key",
];
public static Dictionary<string, object?> RedactFields(IReadOnlyDictionary<string, object?> fields)
{
Dictionary<string, object?> redactedFields = [];
foreach (KeyValuePair<string, object?> field in fields)
{
redactedFields[field.Key] = RedactValue(field.Key, field.Value);
}
return redactedFields;
}
public static object? RedactValue(string fieldName, object? value)
{
if (value is null)
{
return null;
}
foreach (string sensitiveFieldNamePart in SensitiveFieldNameParts)
{
if (fieldName.IndexOf(sensitiveFieldNamePart, StringComparison.OrdinalIgnoreCase) >= 0)
{
return RedactedValue;
}
}
return value;
}
}
src/MxGateway.Worker/Bootstrap/WorkerOptions.cs
+26
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namespace MxGateway.Worker.Bootstrap;
public sealed class WorkerOptions
{
public const string NonceEnvironmentVariableName = "MXGATEWAY_WORKER_NONCE";
public WorkerOptions(
string sessionId,
string pipeName,
uint protocolVersion,
string nonce)
{
SessionId = sessionId;
PipeName = pipeName;
ProtocolVersion = protocolVersion;
Nonce = nonce;
}
public string SessionId { get; }
public string PipeName { get; }
public uint ProtocolVersion { get; }
public string Nonce { get; }
}
src/MxGateway.Worker/Bootstrap/WorkerOptionsParser.cs
+101
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using System;
using System.Collections.Generic;
using MxGateway.Contracts;
namespace MxGateway.Worker.Bootstrap;
public sealed class WorkerOptionsParser
{
private const string SessionIdOptionName = "--session-id";
private const string PipeNameOptionName = "--pipe-name";
private const string ProtocolVersionOptionName = "--protocol-version";
private readonly IWorkerEnvironment _environment;
public WorkerOptionsParser(IWorkerEnvironment environment)
{
_environment = environment ?? throw new ArgumentNullException(nameof(environment));
}
public WorkerBootstrapResult Parse(string[] args)
{
if (args is null)
{
throw new ArgumentNullException(nameof(args));
}
Dictionary<string, string> values = new(StringComparer.OrdinalIgnoreCase);
List<string> errors = [];
for (int index = 0; index < args.Length; index++)
{
string arg = args[index];
if (!IsKnownOption(arg))
{
errors.Add($"Unknown option '{arg}'.");
continue;
}
if (index + 1 >= args.Length || args[index + 1].StartsWith("--", StringComparison.Ordinal))
{
errors.Add($"Option '{arg}' requires a value.");
continue;
}
values[arg] = args[index + 1];
index++;
}
string? sessionId = ReadRequired(values, SessionIdOptionName, errors);
string? pipeName = ReadRequired(values, PipeNameOptionName, errors);
string? protocolVersionText = ReadRequired(values, ProtocolVersionOptionName, errors);
if (errors.Count > 0)
{
return WorkerBootstrapResult.Failure(WorkerExitCode.InvalidArguments, errors);
}
if (!uint.TryParse(protocolVersionText, out uint protocolVersion)
|| protocolVersion != GatewayContractInfo.WorkerProtocolVersion)
{
return WorkerBootstrapResult.Failure(
WorkerExitCode.InvalidProtocolVersion,
[$"Unsupported protocol version '{protocolVersionText}'."]);
}
string? nonce = _environment.GetEnvironmentVariable(WorkerOptions.NonceEnvironmentVariableName);
if (string.IsNullOrWhiteSpace(nonce))
{
return WorkerBootstrapResult.Failure(
WorkerExitCode.MissingNonce,
["Required worker nonce environment variable is missing."]);
}
return WorkerBootstrapResult.Success(new WorkerOptions(
sessionId!,
pipeName!,
protocolVersion,
nonce!));
}
private static string? ReadRequired(
IReadOnlyDictionary<string, string> values,
string optionName,
List<string> errors)
{
if (!values.TryGetValue(optionName, out string value)
|| string.IsNullOrWhiteSpace(value))
{
errors.Add($"Required option '{optionName}' is missing.");
return null;
}
return value;
}
private static bool IsKnownOption(string optionName)
{
return optionName is SessionIdOptionName or PipeNameOptionName or ProtocolVersionOptionName;
}
}
src/MxGateway.Worker/Ipc/IWorkerPipeClient.cs
+12
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using System.Threading;
using System.Threading.Tasks;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Ipc;
public interface IWorkerPipeClient
{
Task RunAsync(
WorkerOptions options,
CancellationToken cancellationToken = default);
}
src/MxGateway.Worker/Ipc/WorkerEnvelopeValidator.cs
+33
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using System;
using MxGateway.Contracts.Proto;
namespace MxGateway.Worker.Ipc;
internal static class WorkerEnvelopeValidator
{
public static void Validate(
WorkerEnvelope envelope,
WorkerFrameProtocolOptions options)
{
if (envelope.ProtocolVersion != options.ProtocolVersion)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.ProtocolVersionMismatch,
$"Worker envelope protocol version {envelope.ProtocolVersion} does not match expected version {options.ProtocolVersion}.");
}
if (!string.Equals(envelope.SessionId, options.SessionId, StringComparison.Ordinal))
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.SessionMismatch,
"Worker envelope session id does not match the owning worker session.");
}
if (envelope.BodyCase == WorkerEnvelope.BodyOneofCase.None)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidEnvelope,
"Worker envelope must include a typed body.");
}
}
}
src/MxGateway.Worker/Ipc/WorkerFrameProtocolErrorCode.cs
+15
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@@ -0,0 +1,15 @@
namespace MxGateway.Worker.Ipc;
public enum WorkerFrameProtocolErrorCode
{
Unknown = 0,
InvalidConfiguration = 1,
EndOfStream = 2,
MalformedLength = 3,
MessageTooLarge = 4,
InvalidEnvelope = 5,
ProtocolVersionMismatch = 6,
SessionMismatch = 7,
NonceMismatch = 8,
UnexpectedEnvelopeBody = 9,
}
src/MxGateway.Worker/Ipc/WorkerFrameProtocolException.cs
+25
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using System;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerFrameProtocolException : Exception
{
public WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode errorCode,
string message)
: base(message)
{
ErrorCode = errorCode;
}
public WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode errorCode,
string message,
Exception innerException)
: base(message, innerException)
{
ErrorCode = errorCode;
}
public WorkerFrameProtocolErrorCode ErrorCode { get; }
}
src/MxGateway.Worker/Ipc/WorkerFrameProtocolOptions.cs
+86
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@@ -0,0 +1,86 @@
using System;
using MxGateway.Contracts;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerFrameProtocolOptions
{
public const int DefaultMaxMessageBytes = 16 * 1024 * 1024;
public WorkerFrameProtocolOptions(WorkerOptions options)
: this(
options?.SessionId ?? throw new ArgumentNullException(nameof(options)),
options.ProtocolVersion,
options.Nonce,
DefaultMaxMessageBytes)
{
}
public WorkerFrameProtocolOptions(
string sessionId,
uint protocolVersion,
string nonce)
: this(
sessionId,
protocolVersion,
nonce,
DefaultMaxMessageBytes)
{
}
public WorkerFrameProtocolOptions(
string sessionId,
uint protocolVersion,
string nonce,
int maxMessageBytes)
{
if (string.IsNullOrWhiteSpace(sessionId))
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidConfiguration,
"Worker frame protocol requires a session id.");
}
if (protocolVersion == 0)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidConfiguration,
"Worker frame protocol requires a non-zero protocol version.");
}
if (protocolVersion != GatewayContractInfo.WorkerProtocolVersion)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.ProtocolVersionMismatch,
$"Worker frame protocol version {protocolVersion} is not supported.");
}
if (string.IsNullOrWhiteSpace(nonce))
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidConfiguration,
"Worker frame protocol requires a nonce.");
}
if (maxMessageBytes <= 0)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidConfiguration,
"Worker frame protocol max message size must be greater than zero.");
}
SessionId = sessionId;
ProtocolVersion = protocolVersion;
Nonce = nonce;
MaxMessageBytes = maxMessageBytes;
}
public string SessionId { get; }
public uint ProtocolVersion { get; }
public string Nonce { get; }
public int MaxMessageBytes { get; }
}
src/MxGateway.Worker/Ipc/WorkerFrameReader.cs
+93
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@@ -0,0 +1,93 @@
using System;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using Google.Protobuf;
using MxGateway.Contracts.Proto;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerFrameReader
{
private readonly WorkerFrameProtocolOptions _options;
private readonly Stream _stream;
public WorkerFrameReader(
Stream stream,
WorkerFrameProtocolOptions options)
{
_stream = stream ?? throw new ArgumentNullException(nameof(stream));
_options = options ?? throw new ArgumentNullException(nameof(options));
}
public async Task<WorkerEnvelope> ReadAsync(CancellationToken cancellationToken = default)
{
byte[] lengthPrefix = new byte[sizeof(uint)];
await ReadExactlyOrThrowAsync(lengthPrefix, cancellationToken).ConfigureAwait(false);
uint payloadLength = ReadUInt32LittleEndian(lengthPrefix);
if (payloadLength == 0)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.MalformedLength,
"Worker frame payload length must be greater than zero.");
}
if (payloadLength > _options.MaxMessageBytes)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.MessageTooLarge,
$"Worker frame payload length {payloadLength} exceeds the configured maximum of {_options.MaxMessageBytes} bytes.");
}
byte[] payload = new byte[payloadLength];
await ReadExactlyOrThrowAsync(payload, cancellationToken).ConfigureAwait(false);
WorkerEnvelope envelope;
try
{
envelope = WorkerEnvelope.Parser.ParseFrom(payload);
}
catch (InvalidProtocolBufferException exception)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidEnvelope,
"Worker frame payload is not a valid WorkerEnvelope protobuf message.",
exception);
}
WorkerEnvelopeValidator.Validate(envelope, _options);
return envelope;
}
private static uint ReadUInt32LittleEndian(byte[] buffer)
{
return (uint)buffer[0]
| ((uint)buffer[1] << 8)
| ((uint)buffer[2] << 16)
| ((uint)buffer[3] << 24);
}
private async Task ReadExactlyOrThrowAsync(
byte[] buffer,
CancellationToken cancellationToken)
{
int offset = 0;
while (offset < buffer.Length)
{
int bytesRead = await _stream
.ReadAsync(buffer, offset, buffer.Length - offset, cancellationToken)
.ConfigureAwait(false);
if (bytesRead == 0)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.EndOfStream,
"Worker frame ended before the expected number of bytes were read.");
}
offset += bytesRead;
}
}
}
src/MxGateway.Worker/Ipc/WorkerFrameWriter.cs
+76
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@@ -0,0 +1,76 @@
using System;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using Google.Protobuf;
using MxGateway.Contracts.Proto;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerFrameWriter
{
private readonly WorkerFrameProtocolOptions _options;
private readonly SemaphoreSlim _writeLock = new(1, 1);
private readonly Stream _stream;
public WorkerFrameWriter(
Stream stream,
WorkerFrameProtocolOptions options)
{
_stream = stream ?? throw new ArgumentNullException(nameof(stream));
_options = options ?? throw new ArgumentNullException(nameof(options));
}
public async Task WriteAsync(
WorkerEnvelope envelope,
CancellationToken cancellationToken = default)
{
if (envelope is null)
{
throw new ArgumentNullException(nameof(envelope));
}
WorkerEnvelopeValidator.Validate(envelope, _options);
int payloadLength = envelope.CalculateSize();
if (payloadLength == 0)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.InvalidEnvelope,
"Worker envelope cannot serialize to an empty payload.");
}
if (payloadLength > _options.MaxMessageBytes)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.MessageTooLarge,
$"Worker envelope payload length {payloadLength} exceeds the configured maximum of {_options.MaxMessageBytes} bytes.");
}
byte[] payload = envelope.ToByteArray();
byte[] lengthPrefix = new byte[sizeof(uint)];
WriteUInt32LittleEndian(lengthPrefix, (uint)payloadLength);
await _writeLock.WaitAsync(cancellationToken).ConfigureAwait(false);
try
{
await _stream.WriteAsync(lengthPrefix, 0, lengthPrefix.Length, cancellationToken).ConfigureAwait(false);
await _stream.WriteAsync(payload, 0, payload.Length, cancellationToken).ConfigureAwait(false);
await _stream.FlushAsync(cancellationToken).ConfigureAwait(false);
}
finally
{
_writeLock.Release();
}
}
private static void WriteUInt32LittleEndian(
byte[] buffer,
uint value)
{
buffer[0] = (byte)value;
buffer[1] = (byte)(value >> 8);
buffer[2] = (byte)(value >> 16);
buffer[3] = (byte)(value >> 24);
}
}
src/MxGateway.Worker/Ipc/WorkerPipeClient.cs
+67
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@@ -0,0 +1,67 @@
using System;
using System.IO.Pipes;
using System.Threading;
using System.Threading.Tasks;
using MxGateway.Worker.Bootstrap;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerPipeClient : IWorkerPipeClient
{
public const int DefaultConnectTimeoutMilliseconds = 30000;
private readonly int _connectTimeoutMilliseconds;
public WorkerPipeClient()
: this(DefaultConnectTimeoutMilliseconds)
{
}
public WorkerPipeClient(int connectTimeoutMilliseconds)
{
if (connectTimeoutMilliseconds <= 0)
{
throw new ArgumentOutOfRangeException(
nameof(connectTimeoutMilliseconds),
"Worker pipe connect timeout must be greater than zero.");
}
_connectTimeoutMilliseconds = connectTimeoutMilliseconds;
}
public async Task RunAsync(
WorkerOptions options,
CancellationToken cancellationToken = default)
{
if (options is null)
{
throw new ArgumentNullException(nameof(options));
}
WorkerFrameProtocolOptions frameOptions = new(options);
using NamedPipeClientStream pipe = new(
".",
options.PipeName,
PipeDirection.InOut,
PipeOptions.Asynchronous);
await ConnectAsync(pipe, cancellationToken).ConfigureAwait(false);
WorkerPipeSession session = new(pipe, frameOptions);
await session.CompleteStartupHandshakeAsync(cancellationToken).ConfigureAwait(false);
}
private Task ConnectAsync(
NamedPipeClientStream pipe,
CancellationToken cancellationToken)
{
return Task.Run(
() =>
{
cancellationToken.ThrowIfCancellationRequested();
pipe.Connect(_connectTimeoutMilliseconds);
},
cancellationToken);
}
}
src/MxGateway.Worker/Ipc/WorkerPipeSession.cs
+218
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@@ -0,0 +1,218 @@
using System;
using System.Diagnostics;
using System.IO;
using System.Threading;
using System.Threading.Tasks;
using Google.Protobuf.WellKnownTypes;
using MxGateway.Contracts.Proto;
using MxGateway.Worker.MxAccess;
namespace MxGateway.Worker.Ipc;
public sealed class WorkerPipeSession
{
private readonly WorkerFrameProtocolOptions _options;
private readonly Func<int> _processIdProvider;
private readonly WorkerFrameReader _reader;
private readonly WorkerFrameWriter _writer;
private long _nextSequence;
public WorkerPipeSession(
Stream stream,
WorkerFrameProtocolOptions options)
: this(
new WorkerFrameReader(stream, options),
new WorkerFrameWriter(stream, options),
options,
() => Process.GetCurrentProcess().Id)
{
}
public WorkerPipeSession(
WorkerFrameReader reader,
WorkerFrameWriter writer,
WorkerFrameProtocolOptions options,
Func<int> processIdProvider)
{
_reader = reader ?? throw new ArgumentNullException(nameof(reader));
_writer = writer ?? throw new ArgumentNullException(nameof(writer));
_options = options ?? throw new ArgumentNullException(nameof(options));
_processIdProvider = processIdProvider ?? throw new ArgumentNullException(nameof(processIdProvider));
}
public Task CompleteStartupHandshakeAsync(CancellationToken cancellationToken = default)
{
return CompleteStartupHandshakeAsync(_ => Task.CompletedTask, cancellationToken);
}
public async Task CompleteStartupHandshakeAsync(
Func<CancellationToken, Task> initializeMxAccessAsync,
CancellationToken cancellationToken = default)
{
if (initializeMxAccessAsync is null)
{
throw new ArgumentNullException(nameof(initializeMxAccessAsync));
}
try
{
WorkerEnvelope envelope = await _reader.ReadAsync(cancellationToken).ConfigureAwait(false);
ValidateGatewayHello(envelope);
await WriteWorkerHelloAsync(cancellationToken).ConfigureAwait(false);
await initializeMxAccessAsync(cancellationToken).ConfigureAwait(false);
await WriteWorkerReadyAsync(cancellationToken).ConfigureAwait(false);
}
catch (WorkerFrameProtocolException exception)
{
await TryWriteFaultAsync(exception, cancellationToken).ConfigureAwait(false);
throw;
}
}
private void ValidateGatewayHello(WorkerEnvelope envelope)
{
if (envelope.BodyCase != WorkerEnvelope.BodyOneofCase.GatewayHello)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.UnexpectedEnvelopeBody,
"Worker expected GatewayHello during startup handshake.");
}
GatewayHello gatewayHello = envelope.GatewayHello;
if (gatewayHello.SupportedProtocolVersion != _options.ProtocolVersion)
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.ProtocolVersionMismatch,
$"GatewayHello supported protocol version {gatewayHello.SupportedProtocolVersion} does not match expected version {_options.ProtocolVersion}.");
}
if (!string.Equals(gatewayHello.Nonce, _options.Nonce, StringComparison.Ordinal))
{
throw new WorkerFrameProtocolException(
WorkerFrameProtocolErrorCode.NonceMismatch,
"GatewayHello nonce does not match the worker launch nonce.");
}
}
private Task WriteWorkerHelloAsync(CancellationToken cancellationToken)
{
return _writer.WriteAsync(
CreateEnvelope(new WorkerHello
{
ProtocolVersion = _options.ProtocolVersion,
Nonce = _options.Nonce,
WorkerProcessId = _processIdProvider(),
WorkerVersion = typeof(WorkerPipeSession).Assembly.GetName().Version?.ToString() ?? string.Empty,
}),
cancellationToken);
}
private Task WriteWorkerReadyAsync(CancellationToken cancellationToken)
{
return _writer.WriteAsync(
CreateEnvelope(new WorkerReady
{
WorkerProcessId = _processIdProvider(),
MxaccessProgid = MxAccessInteropInfo.ProgId,
MxaccessClsid = MxAccessInteropInfo.Clsid,
ReadyTimestamp = Timestamp.FromDateTime(DateTime.UtcNow),
}),
cancellationToken);
}
private async Task TryWriteFaultAsync(
WorkerFrameProtocolException exception,
CancellationToken cancellationToken)
{
try
{
await _writer
.WriteAsync(CreateEnvelope(CreateFault(exception)), cancellationToken)
.ConfigureAwait(false);
}
catch (Exception faultWriteException) when (
faultWriteException is IOException
|| faultWriteException is ObjectDisposedException
|| faultWriteException is WorkerFrameProtocolException)
{
// The original protocol failure is the actionable error.
}
}
private WorkerEnvelope CreateEnvelope(WorkerHello hello)
{
return CreateBaseEnvelope(hello);
}
private WorkerEnvelope CreateEnvelope(WorkerReady ready)
{
return CreateBaseEnvelope(ready);
}
private WorkerEnvelope CreateEnvelope(WorkerFault fault)
{
return CreateBaseEnvelope(fault);
}
private WorkerEnvelope CreateBaseEnvelope(WorkerHello body)
{
WorkerEnvelope envelope = CreateBaseEnvelope();
envelope.WorkerHello = body;
return envelope;
}
private WorkerEnvelope CreateBaseEnvelope(WorkerReady body)
{
WorkerEnvelope envelope = CreateBaseEnvelope();
envelope.WorkerReady = body;
return envelope;
}
private WorkerEnvelope CreateBaseEnvelope(WorkerFault body)
{
WorkerEnvelope envelope = CreateBaseEnvelope();
envelope.WorkerFault = body;
return envelope;
}
private WorkerEnvelope CreateBaseEnvelope()
{
return new WorkerEnvelope
{
ProtocolVersion = _options.ProtocolVersion,
SessionId = _options.SessionId,
Sequence = NextSequence(),
};
}
private ulong NextSequence()
{
return unchecked((ulong)Interlocked.Increment(ref _nextSequence));
}
private static WorkerFault CreateFault(WorkerFrameProtocolException exception)
{
return new WorkerFault
{
Category = MapFaultCategory(exception.ErrorCode),
ExceptionType = exception.GetType().FullName ?? string.Empty,
DiagnosticMessage = exception.Message,
ProtocolStatus = new ProtocolStatus
{
Code = ProtocolStatusCode.ProtocolViolation,
Message = exception.Message,
},
};
}
private static WorkerFaultCategory MapFaultCategory(WorkerFrameProtocolErrorCode errorCode)
{
return errorCode switch
{
WorkerFrameProtocolErrorCode.ProtocolVersionMismatch => WorkerFaultCategory.ProtocolMismatch,
WorkerFrameProtocolErrorCode.EndOfStream => WorkerFaultCategory.PipeDisconnected,
_ => WorkerFaultCategory.ProtocolViolation,
};
}
}
src/MxGateway.Worker/WorkerApplication.cs
+113 -1
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@@ -1,16 +1,128 @@
using System;
using System.Collections.Generic;
using System.IO;
using MxGateway.Worker.Bootstrap;
using MxGateway.Worker.Ipc;
namespace MxGateway.Worker;
public static class WorkerApplication
{
public static int Run(string[] args)
{
return Run(
args,
new EnvironmentVariableWorkerEnvironment(),
new WorkerConsoleLogger(Console.Error),
new WorkerPipeClient());
}
public static int Run(
string[] args,
IWorkerEnvironment environment,
IWorkerLogger logger)
{
return Run(
args,
environment,
logger,
new WorkerPipeClient());
}
public static int Run(
string[] args,
IWorkerEnvironment environment,
IWorkerLogger logger,
IWorkerPipeClient pipeClient)
{
if (args is null)
{
throw new ArgumentNullException(nameof(args));
}
return 0;
if (environment is null)
{
throw new ArgumentNullException(nameof(environment));
}
if (logger is null)
{
throw new ArgumentNullException(nameof(logger));
}
if (pipeClient is null)
{
throw new ArgumentNullException(nameof(pipeClient));
}
try
{
WorkerOptionsParser parser = new(environment);
WorkerBootstrapResult result = parser.Parse(args);
if (!result.Succeeded)
{
logger.Error("WorkerBootstrapFailed", new Dictionary<string, object?>
{
["exit_code"] = result.ExitCode,
["errors"] = string.Join(";", result.Errors),
});
return (int)result.ExitCode;
}
WorkerOptions options = result.Options
?? throw new InvalidOperationException("Successful bootstrap result did not include worker options.");
logger.Information("WorkerBootstrapSucceeded", new Dictionary<string, object?>
{
["session_id"] = options.SessionId,
["pipe_name"] = options.PipeName,
["protocol_version"] = options.ProtocolVersion,
["nonce"] = options.Nonce,
});
pipeClient.RunAsync(options).GetAwaiter().GetResult();
logger.Information("WorkerPipeHandshakeSucceeded", new Dictionary<string, object?>
{
["session_id"] = options.SessionId,
["pipe_name"] = options.PipeName,
["protocol_version"] = options.ProtocolVersion,
});
return (int)WorkerExitCode.Success;
}
catch (WorkerFrameProtocolException exception)
{
logger.Error("WorkerPipeProtocolFailure", new Dictionary<string, object?>
{
["exit_code"] = WorkerExitCode.ProtocolViolation,
["error_code"] = exception.ErrorCode,
["exception_type"] = exception.GetType().FullName,
});
return (int)WorkerExitCode.ProtocolViolation;
}
catch (Exception exception) when (exception is IOException or TimeoutException)
{
logger.Error("WorkerPipeConnectionFailed", new Dictionary<string, object?>
{
["exit_code"] = WorkerExitCode.PipeConnectionFailed,
["exception_type"] = exception.GetType().FullName,
});
return (int)WorkerExitCode.PipeConnectionFailed;
}
catch (Exception exception)
{
logger.Error("WorkerBootstrapUnexpectedFailure", new Dictionary<string, object?>
{
["exit_code"] = WorkerExitCode.UnexpectedFailure,
["exception_type"] = exception.GetType().FullName,
});
return (int)WorkerExitCode.UnexpectedFailure;
}
}
}