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merge into: dohertj2/mxaccessgw:agent-2/issue-7-implement-local-api-key-admin-cli
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
..
pull from: dohertj2/mxaccessgw:agent-2/issue-29-implement-event-sink-and-event-queue
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

50 Commits
agent-2/issue-7-implement-local-api-key-admin-cli .. agent-2/issue-29-implement-event-sink-and-event-queue

Author SHA1 Message Date
Joseph Doherty 647fe9a4b5 Merge remote-tracking branch 'origin/main' into agent-2/issue-29-implement-event-sink-and-event-queue 2026-04-26 19:05:31 -04:00
Joseph Doherty dd455089b4 Implement worker MXAccess event queue 2026-04-26 19:04:56 -04:00
dohertj2 d0bc4e3c01 Merge pull request #82 from agent-1/issue-36-publish-stable-client-proto-generation-inputs 
Issue #36: publish stable client proto generation inputs
 2026-04-26 18:56:37 -04:00
Joseph Doherty 6a40d26366 Publish stable client proto inputs 2026-04-26 18:52:39 -04:00
dohertj2 366f57198f Merge pull request #81 from agent-2/issue-28-implement-advise-unadvise-advisesupervisory 
Issue #28: implement Advise, UnAdvise, AdviseSupervisory
 2026-04-26 18:45:59 -04:00
dohertj2 aab41e04ab Merge pull request #80 from agent-1/issue-16-implement-blazor-server-dashboard 
Issue #16: implement Blazor Server dashboard
 2026-04-26 18:41:26 -04:00
Joseph Doherty 3be92a17bd Merge remote-tracking branch 'origin/main' into agent-2/issue-28-implement-advise-unadvise-advisesupervisory 2026-04-26 18:41:17 -04:00
Joseph Doherty a871f2f2e5 Implement worker advise commands 2026-04-26 18:41:10 -04:00
Joseph Doherty 7b86bab705 Merge remote-tracking branch 'origin/main' into agent-1/issue-16-implement-blazor-server-dashboard 2026-04-26 18:38:19 -04:00
Joseph Doherty 56886c3b4e Implement Blazor Server dashboard 2026-04-26 18:37:16 -04:00
dohertj2 a3ccd5c80b Merge pull request #79 from agent-3/issue-19-gateway-e2e-smoke-with-fake-worker 
Issue #19: gateway end-to-end smoke with fake worker
 2026-04-26 18:34:54 -04:00
dohertj2 0fd954d94c Merge pull request #78 from agent-2/issue-27-implement-additem-additem2-removeitem 
Issue #27: implement AddItem, AddItem2, RemoveItem
 2026-04-26 18:32:13 -04:00
Joseph Doherty 91f2d8dc14 Merge remote-tracking branch 'origin/main' into agent-3/issue-19-gateway-e2e-smoke-with-fake-worker 2026-04-26 18:31:49 -04:00
Joseph Doherty fb425da009 Add gateway fake worker end-to-end smoke 2026-04-26 18:30:11 -04:00
Joseph Doherty c7e4c4b614 Merge remote-tracking branch 'origin/main' into agent-2/issue-27-implement-additem-additem2-removeitem 2026-04-26 18:27:00 -04:00
Joseph Doherty 59c710d789 Implement worker AddItem commands 2026-04-26 18:26:44 -04:00
dohertj2 862f119b91 Merge pull request #77 from agent-3/issue-18-build-fake-worker-test-harness 
Issue #18: build fake worker test harness
 2026-04-26 18:25:00 -04:00
Joseph Doherty 35e4442c7b Build fake worker test harness 2026-04-26 18:20:45 -04:00
dohertj2 ed1018c3bb Merge pull request #76 from agent-1/issue-17-implement-dashboard-authentication 
Issue #17: implement dashboard authentication
 2026-04-26 18:18:43 -04:00
Joseph Doherty 2e4ba11a9f Merge remote-tracking branch 'origin/main' into agent-1/issue-17-implement-dashboard-authentication 2026-04-26 18:15:38 -04:00
Joseph Doherty ff86b3f0b0 Implement dashboard authentication 2026-04-26 18:15:22 -04:00
dohertj2 653f17c669 Merge pull request #75 from agent-2/issue-26-implement-register-and-unregister 
Issue #26: implement Register and Unregister
 2026-04-26 18:13:41 -04:00
Joseph Doherty 556c3bfa83 Implement worker register and unregister 2026-04-26 18:08:45 -04:00
dohertj2 9b3637257c Merge pull request #74 from agent-3/issue-14-implement-event-streaming-and-backpressure 
Issue #14: implement event streaming and backpressure
 2026-04-26 18:03:32 -04:00
Joseph Doherty 77eac95f33 Issue #14: implement event streaming and backpressure 2026-04-26 17:59:37 -04:00
dohertj2 015fa1f50d Merge pull request #73 from agent-1/issue-15-implement-dashboard-snapshot-service 
Issue #15: implement dashboard snapshot service
 2026-04-26 17:56:01 -04:00
dohertj2 dede407304 Merge pull request #72 from agent-2/issue-25-implement-sta-command-dispatcher 
Issue #25: implement STA command dispatcher
 2026-04-26 17:53:32 -04:00
Joseph Doherty 0d96963c99 Merge remote-tracking branch 'origin/main' into agent-1/issue-15-implement-dashboard-snapshot-service 2026-04-26 17:52:58 -04:00
Joseph Doherty 3661420f0a Issue #15: implement dashboard snapshot service 2026-04-26 17:49:59 -04:00
Joseph Doherty 14419853c7 Issue #25: implement sta command dispatcher 2026-04-26 17:49:01 -04:00
dohertj2 a20517f5ad Merge pull request #71 from agent-3/issue-13-implement-public-grpc-service 
Issue #13: implement public grpc service
 2026-04-26 17:48:35 -04:00
dohertj2 626e7762d9 Merge PR #70: Issue #31 implement MXSTATUS_PROXY and HRESULT conversion 
Verified after merging current main 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 17:43:08 -04:00
Joseph Doherty 8d6d3f6188 Issue #13: implement public grpc service 2026-04-26 17:42:46 -04:00
Joseph Doherty 276288ad87 Merge remote-tracking branch 'origin/main' into agent-2/issue-31-implement-mxstatus-proxy-and-hresult-conversion 2026-04-26 17:39:48 -04:00
dohertj2 76bd3de5a2 Merge PR #69: Issue #24 create MXAccess COM object on STA 
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 17:39:04 -04:00
Joseph Doherty 29455fc1f6 Issue #31: implement mxstatus proxy and hresult conversion 2026-04-26 17:35:30 -04:00
dohertj2 5511609880 Merge PR #68: Issue #12 implement session manager and registry 
Verified with dotnet build src\\MxGateway.sln and dotnet test src\\MxGateway.sln.
 2026-04-26 17:34:19 -04:00
Joseph Doherty 451dccf7e3 Issue #24: create mxaccess com object on sta 2026-04-26 17:34:12 -04:00
dohertj2 cde9c89386 Merge PR #67: Issue #30 implement value conversion 
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 17:30:19 -04:00
Joseph Doherty d496f1fd75 Issue #12: implement session manager and registry 2026-04-26 17:29:47 -04:00
Joseph Doherty 6559672fc1 Issue #30: implement value conversion 2026-04-26 17:26:36 -04:00
dohertj2 97c30b9d00 Merge PR #66: Issue #23 implement STA runtime and message pump 
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 17:23:02 -04:00
dohertj2 603aff7004 Merge PR #65: Issue #22 implement pipe client and frame protocol 
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 17:20:28 -04:00
Joseph Doherty e81682e367 Issue #23: implement sta runtime and message pump 2026-04-26 17:19:00 -04:00
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
166 changed files with 15917 additions and 336 deletions
Expand all files Collapse all files
clients/dotnet/generated/.gitkeep
+1
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@@ -0,0 +1 @@
clients/go/internal/generated/.gitkeep
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clients/java/src/main/generated/.gitkeep
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clients/proto/descriptors/mxaccessgw-client-v1.protoset
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clients/proto/fixtures/golden/on-data-change-event.json
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@@ -0,0 +1,28 @@
{
"family": "MX_EVENT_FAMILY_ON_DATA_CHANGE",
"sessionId": "session-fixture",
"serverHandle": 12,
"itemHandle": 34,
"value": {
"dataType": "MX_DATA_TYPE_INTEGER",
"variantType": "VT_I4",
"int32Value": 123
},
"quality": 192,
"sourceTimestamp": "2026-01-01T00:00:00Z",
"statuses": [
{
"success": 1,
"category": "MX_STATUS_CATEGORY_OK",
"detectedBy": "MX_STATUS_SOURCE_RESPONDING_LMX",
"detail": 0,
"rawCategory": 0,
"rawDetectedBy": 0,
"diagnosticText": "OK"
}
],
"workerSequence": "1",
"workerTimestamp": "2026-01-01T00:00:00.010Z",
"gatewayReceiveTimestamp": "2026-01-01T00:00:00.015Z",
"onDataChange": {}
}
clients/proto/fixtures/golden/open-session-reply.ok.json
+18
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@@ -0,0 +1,18 @@
{
"sessionId": "session-fixture",
"backendName": "mxaccess-worker",
"workerProcessId": 1234,
"workerProtocolVersion": 1,
"gatewayProtocolVersion": 1,
"capabilities": [
"unary-open-session",
"unary-close-session",
"unary-invoke",
"server-stream-events"
],
"defaultCommandTimeout": "30s",
"protocolStatus": {
"code": "PROTOCOL_STATUS_CODE_OK",
"message": "Session opened."
}
}
clients/proto/fixtures/golden/register-command-request.json
+10
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@@ -0,0 +1,10 @@
{
"sessionId": "session-fixture",
"clientCorrelationId": "fixture-register-1",
"command": {
"kind": "MX_COMMAND_KIND_REGISTER",
"register": {
"clientName": "fixture-client"
}
}
}
clients/proto/proto-inputs.json
+26
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@@ -0,0 +1,26 @@
{
"schemaVersion": 1,
"contractName": "mxaccess-gateway",
"gatewayProtocolVersion": 1,
"workerProtocolVersion": 1,
"protoRoot": "src/MxGateway.Contracts/Protos",
"sourceFiles": [
{
"path": "mxaccess_gateway.proto",
"role": "public_gateway"
},
{
"path": "mxaccess_worker.proto",
"role": "gateway_worker_ipc"
}
],
"descriptorSet": "clients/proto/descriptors/mxaccessgw-client-v1.protoset",
"fixtureRoot": "clients/proto/fixtures/golden",
"generatedOutputs": {
"dotnet": "clients/dotnet/generated",
"go": "clients/go/internal/generated",
"rust": "clients/rust/src/generated",
"python": "clients/python/src/mxgateway/generated",
"java": "clients/java/src/main/generated"
}
}
clients/python/src/mxgateway/generated/.gitkeep
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clients/rust/src/generated/.gitkeep
+1
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@@ -0,0 +1 @@
docs/Contracts.md
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@@ -18,6 +18,12 @@ event, value, and status shapes.
Generated C# output is written to `src/MxGateway.Contracts/Generated/`. Do not
hand-edit generated files.
Client generation inputs are published through
`clients/proto/proto-inputs.json` and the descriptor set under
`clients/proto/descriptors/`. See
[Client Proto Generation](./client-proto-generation.md) for language-specific
generation inputs, output directories, and golden protobuf JSON fixtures.
## Generation
Run the contracts build to regenerate C# protobuf and gRPC code:
@@ -39,8 +45,15 @@ gateway and test projects:
dotnet build src/MxGateway.sln
```
Regenerate the client descriptor after changing either `.proto` file:
```bash
powershell -ExecutionPolicy Bypass -File scripts/publish-client-proto-inputs.ps1
```
## Related Documentation
- [Client Proto Generation](./client-proto-generation.md)
- [Gateway Process Detailed Design](./gateway-process-design.md)
- [MXAccess Worker Instance Detailed Design](./mxaccess-worker-instance-design.md)
- [Protobuf Style Guide](./style-guides/ProtobufStyleGuide.md)
docs/GatewayTesting.md
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@@ -0,0 +1,58 @@
# Gateway Testing
Gateway tests run without installed MXAccess by using fake workers, fake
transports, and in-process gRPC service fakes. Live MXAccess verification belongs
in opt-in integration tests because it depends on installed COM components and
provider state.
## Fake Worker Harness
`FakeWorkerHarness` in `src/MxGateway.Tests/Gateway/Workers/Fakes/` provides an
in-process worker side for named-pipe IPC tests. It uses the same
`WorkerFrameReader`, `WorkerFrameWriter`, and `WorkerEnvelope` contract as the
gateway so tests exercise real frame validation and worker-client state changes.
Use the harness when a gateway or session test needs worker behavior without
starting `MxGateway.Worker.exe` or loading MXAccess COM. The harness scripts:
- `WorkerHello` and `WorkerReady` startup,
- command replies with matching correlation ids,
- ordered `WorkerEvent` frames,
- `WorkerFault` frames,
- shutdown acknowledgements,
- malformed protobuf payloads and oversized frame headers,
- slow or hung workers by withholding a reply.
Session-level tests can connect the harness to the pipe created by
`SessionWorkerClientFactory` with `ConnectToGatewayPipeAsync`. Lower-level
`WorkerClient` tests can use `CreateConnectedPairAsync` to create both pipe ends
inside the test.
`GatewayEndToEndFakeWorkerSmokeTests` composes the real gRPC service,
`SessionManager`, `SessionWorkerClientFactory`, `WorkerClient`, and
`EventStreamService` with a scripted fake worker launcher. The smoke test covers
`OpenSession`, `Register`, `AddItem`, `Advise`, one streamed `OnDataChange`
event, and `CloseSession` without loading MXAccess COM.
## Focused Commands
Run the fake worker tests after changing gateway worker IPC, session startup, or
event streaming behavior:
```bash
dotnet test src/MxGateway.Tests/MxGateway.Tests.csproj --filter FullyQualifiedName~FakeWorkerHarnessTests
dotnet test src/MxGateway.Tests/MxGateway.Tests.csproj --filter FullyQualifiedName~SessionWorkerClientFactoryFakeWorkerTests
dotnet test src/MxGateway.Tests/MxGateway.Tests.csproj --filter FullyQualifiedName~GatewayEndToEndFakeWorkerSmokeTests
```
Run the gateway test project after shared gateway test infrastructure changes:
```bash
dotnet test src/MxGateway.Tests/MxGateway.Tests.csproj
```
## Related Documentation
- [Gateway Process Design](./gateway-process-design.md)
- [Worker Frame Protocol](./WorkerFrameProtocol.md)
- [MXAccess Worker Instance Detailed Design](./mxaccess-worker-instance-design.md)
docs/client-libraries-design.md
+15
View File
@@ -26,6 +26,11 @@ Language-specific plans:
- `docs/clients-python-design.md`
- `docs/clients-java-design.md`
Shared generation inputs:
- `docs/client-proto-generation.md`
- `clients/proto/proto-inputs.json`
Language style guides:
| Client | Style guide |
@@ -365,6 +370,16 @@ examples/
Generated code should be reproducible from `src/MxGateway.Contracts/Protos/`.
Do not hand-edit generated code.
The stable client proto manifest defines the generated-code directories:
```text
clients/dotnet/generated
clients/go/internal/generated
clients/rust/src/generated
clients/python/src/mxgateway/generated
clients/java/src/main/generated
```
## Versioning
All clients should expose:
docs/client-proto-generation.md
+133
View File
@@ -0,0 +1,133 @@
# Client Proto Generation
This document defines the stable protobuf inputs that official clients use to
generate language-specific gRPC bindings. The checked-in `.proto` files remain
the source of truth so clients do not drift from the gateway and worker
contracts.
## Stable Inputs
The stable client input manifest is `clients/proto/proto-inputs.json`. It
records:
- the public gateway protocol version,
- the worker IPC protocol version,
- the protobuf import root,
- the public and worker source files,
- the descriptor set path,
- golden fixture locations,
- generated-code output directories for each planned client.
The source files listed by the manifest are:
- `src/MxGateway.Contracts/Protos/mxaccess_gateway.proto`
- `src/MxGateway.Contracts/Protos/mxaccess_worker.proto`
`mxaccess_gateway.proto` defines the public gRPC service and shared DTOs.
`mxaccess_worker.proto` is included in the descriptor because worker-aware
tests and fake-worker clients need the same command, reply, event, value, and
status shapes.
## Protocol Version
`GatewayContractInfo.GatewayProtocolVersion` is the public gateway protocol
version. `OpenSessionReply.gateway_protocol_version` returns the same value so
clients can compare their generated bindings against the gateway before issuing
MXAccess commands.
`GatewayContractInfo.WorkerProtocolVersion` remains the gateway-to-worker IPC
protocol version. It is also present in `OpenSessionReply` because parity
fixtures and fake-worker tests need to know the worker contract used by the
session.
## Descriptor Publishing
Run this command after changing either source `.proto` file or the client proto
manifest:
```powershell
scripts/publish-client-proto-inputs.ps1
```
The script writes
`clients/proto/descriptors/mxaccessgw-client-v1.protoset` with imports and
source information included. The descriptor is a generated artifact; do not edit
it by hand.
Use the check mode in CI or before committing:
```powershell
scripts/publish-client-proto-inputs.ps1 -Check
```
`-Check` rebuilds the descriptor in a temporary path and fails when the checked
in descriptor is stale.
## Output Directories
The manifest declares these generated-code directories:
| Client | Directory |
|--------|-----------|
| .NET | `clients/dotnet/generated` |
| Go | `clients/go/internal/generated` |
| Rust | `clients/rust/src/generated` |
| Python | `clients/python/src/mxgateway/generated` |
| Java | `clients/java/src/main/generated` |
Only generator output belongs in these directories. Handwritten client wrappers
belong in the language-specific source trees created by the client scaffold
issues.
## Language Generation Inputs
All generators use `src/MxGateway.Contracts/Protos` as the protobuf import
root. The checked-in descriptor is available when a language build prefers a
descriptor input, but the `.proto` files remain canonical.
.NET generation currently runs through the contracts project:
```powershell
dotnet build src/MxGateway.Contracts/MxGateway.Contracts.csproj
```
Future .NET client projects may either reference `MxGateway.Contracts` or
generate client-local files into `clients/dotnet/generated` with `Grpc.Tools`.
Go clients should generate `mxaccess_gateway.proto` and
`mxaccess_worker.proto` into `clients/go/internal/generated` with
`protoc-gen-go` and `protoc-gen-go-grpc`. Keep generated packages internal
unless the wrapper API intentionally exposes raw protobuf messages.
Rust clients should use `tonic-build` or the selected protobuf generator from
the Rust client build script, with generated modules placed under
`clients/rust/src/generated` or included from the build output according to the
client crate design.
Python clients should use `grpc_tools.protoc` and write generated modules under
`clients/python/src/mxgateway/generated` so imports stay separate from
handwritten async wrappers.
Java clients should use the Gradle protobuf plugin and write generated sources
under `clients/java/src/main/generated`. The Java client scaffold owns the
Gradle plugin versions and source-set wiring.
## Golden Fixtures
Golden protobuf JSON fixtures live in `clients/proto/fixtures/golden`. They
exercise payloads that every language client must parse:
- `open-session-reply.ok.json`
- `register-command-request.json`
- `on-data-change-event.json`
The fixtures use protobuf JSON field names and enum values. Contract tests parse
them with the generated C# types so schema drift is caught before client
generation work starts.
## Related Documentation
- [Protobuf Contracts](./Contracts.md)
- [Client Libraries Detailed Design](./client-libraries-design.md)
- [Client Libraries Implementation Plan](./implementation-plan-clients.md)
- [Protobuf Style Guide](./style-guides/ProtobufStyleGuide.md)
docs/gateway-dashboard-design.md
+46 -37
View File
@@ -34,9 +34,13 @@ SignalR circuit. Bootstrap is sufficient for a basic dashboard.
## Hosting Model
The dashboard is hosted by `MxGateway.Server` alongside the gRPC API.
The dashboard is hosted by `MxGateway.Server` alongside the gRPC API. When
`MxGateway:Dashboard:Enabled` is `true`, `MapGatewayDashboard()` maps the
configured `Dashboard:PathBase` to the Blazor Server app and maps the login,
logout, and access-denied HTTP endpoints beside it. When dashboard hosting is
disabled, those routes are not mapped.
Suggested endpoint layout:
Endpoint layout:
```text
/dashboard
@@ -45,7 +49,7 @@ Suggested endpoint layout:
/dashboard/workers
/dashboard/events
/dashboard/settings
/_blazor
/dashboard/_blazor
```
The app should redirect `/` to `/dashboard` only if the deployment wants the
@@ -59,9 +63,10 @@ MxGateway.Server
Components/
App.razor
Routes.razor
DashboardPageBase.cs
DashboardDisplay.cs
Layout/
DashboardLayout.razor
NavMenu.razor
Pages/
DashboardHome.razor
SessionsPage.razor
@@ -69,26 +74,21 @@ MxGateway.Server
WorkersPage.razor
EventsPage.razor
SettingsPage.razor
Components/
Shared/
MetricCard.razor
SessionTable.razor
WorkerTable.razor
EventRatePanel.razor
StatusBadge.razor
FaultList.razor
Services/
DashboardSnapshotService.cs
DashboardUpdateHub.cs
DashboardAuthorization.cs
Models/
DashboardSnapshot.cs
SessionSummary.cs
WorkerSummary.cs
MetricSummary.cs
DashboardSnapshotService.cs
DashboardAuthorizationHandler.cs
DashboardAuthenticator.cs
DashboardSnapshot.cs
DashboardSessionSummary.cs
DashboardWorkerSummary.cs
DashboardMetricSummary.cs
```
`DashboardUpdateHub` here means an internal application update service, not a
separate public SignalR hub unless implementation proves one is needed. Blazor
Server already uses SignalR for UI circuits.
Blazor Server provides the SignalR circuit for UI updates. The implementation
does not add a separate public dashboard hub.
## Dashboard Data Source
@@ -137,7 +137,7 @@ gateway internals.
Use Blazor Server component state updates for real-time dashboard refresh.
Recommended pattern:
Implemented pattern:
1. Page/component subscribes to `WatchSnapshotsAsync`.
2. Snapshot service emits updates from a bounded channel or timer.
@@ -147,10 +147,8 @@ Recommended pattern:
Default update cadence:
- immediate update on session create/close/fault,
- immediate update on worker fault,
- periodic metrics refresh every 1 second,
- event-rate windows updated every 1 second.
- event counters update on the next snapshot tick.
Avoid pushing every MXAccess data-change event to the dashboard. Aggregate event
counts and rates instead.
@@ -257,19 +255,18 @@ Do not show API key secrets or pepper values.
## Authentication And Authorization
Dashboard access should use the same API-key authentication model as gRPC where
Dashboard access uses the same API-key authentication model as gRPC where
practical.
Recommended v1 behavior:
Implemented v1 behavior:
- dashboard disabled by default unless configured,
- when enabled, require API key auth,
- require `admin` scope for dashboard access,
- accept API key through a secure cookie established by a simple login form, or
through reverse-proxy/header configuration for local deployments,
- do not put API keys in query strings.
- accept API key through a secure cookie established by a simple login form,
- do not put API keys in query strings,
- validate anti-forgery tokens for login and logout posts.
Simplest implementation path:
The implementation path is:
1. Add `/dashboard/login`.
2. User submits API key over HTTPS.
@@ -281,6 +278,13 @@ Simplest implementation path:
For local development, allow an explicit `Dashboard:AllowAnonymousLocalhost`
option. It must default to false.
`DashboardAuthenticator` keeps API-key validation outside UI components. It
formats the submitted key as a bearer authorization header for
`IApiKeyVerifier`, rejects non-admin keys when `Dashboard:RequireAdminScope` is
enabled, and creates the dashboard cookie principal without storing raw API key
material. `DashboardAuthorizationHandler` enforces the cookie, admin-scope, and
explicit loopback bypass decisions for all protected dashboard routes.
## Configuration
Suggested configuration:
@@ -314,7 +318,9 @@ Suggested configuration:
## Styling
Use Bootstrap utility classes and a small local stylesheet.
The dashboard serves Bootstrap 5.3.3 assets from
`src/MxGateway.Server/wwwroot/lib/bootstrap/` and local layout/status styling
from `src/MxGateway.Server/wwwroot/css/dashboard.css`.
Recommended visual language:
@@ -355,15 +361,18 @@ Integration tests should verify:
## Initial Implementation Slice
The first dashboard slice should implement:
The first dashboard slice implements:
1. Blazor Server hosting in `MxGateway.Server`.
2. Bootstrap static assets.
2. local Bootstrap static assets.
3. dashboard configuration binding.
4. dashboard auth using API key login and HTTP-only cookie.
5. read-only `DashboardSnapshotService`.
6. home page with metric cards.
7. sessions page with active session table.
7. sessions page with active session table and session details.
8. workers page with worker table.
9. 1-second realtime refresh through Blazor Server.
10. redaction tests for secrets.
9. events page with aggregate counters.
10. settings page with redacted effective configuration.
11. periodic realtime refresh through Blazor Server.
12. route-mapping tests, disabled-dashboard tests, auth tests, and snapshot
projection/redaction tests.
docs/gateway-process-design.md
+97 -14
View File
@@ -64,8 +64,8 @@ MxGateway.Server
Configuration
Grpc
MxAccessGatewayService
RequestReplyMapper
EventMapper
MxAccessGrpcRequestValidator
MxAccessGrpcMapper
Dashboard
Pages
Components
@@ -105,6 +105,15 @@ service MxAccessGateway {
}
```
`MxAccessGatewayService` implements these public RPCs in the gateway process.
It validates public requests with `MxAccessGrpcRequestValidator`, delegates
session lifecycle and command routing to `ISessionManager`, and maps worker
command replies and events through `MxAccessGrpcMapper`. Session lookup,
validation, and worker transport failures become gRPC status errors. MXAccess
method replies that reached the worker remain `MxCommandReply` payloads so
HRESULT values, status arrays, and method-specific reply fields survive
transport boundaries.
Add this later only after the command and event model is stable:
```protobuf
@@ -197,13 +206,23 @@ accounting and a clear fan-out policy.
Behavior:
1. Validate session id and authorize event access.
2. Attach a stream cursor to the session event channel.
3. Send events in worker sequence order.
4. Stop on client cancellation, session close, or session fault.
5. Emit a terminal status when the session faults if gRPC status alone cannot
2. Attach the single active subscriber lease for the session.
3. Read worker events into a bounded public stream queue.
4. Send events in worker sequence order.
5. Stop on client cancellation, session close, or session fault.
6. Emit a terminal status when the session faults if gRPC status alone cannot
preserve the required details.
The gateway must not reorder events from one worker.
`EventStreamService` owns subscriber tracking and public stream backpressure.
The default policy allows one active subscriber per session. A second subscriber
is rejected with `EventSubscriberAlreadyActive`. Stream cancellation releases
the subscriber lease so a later stream can attach to the session.
The gateway must not reorder events from one worker. `EventStreamService` writes
mapped events to a bounded first-in, first-out queue and faults the session with
`EventQueueOverflow` if the queue fills. The gateway does not synthesize
`OperationComplete`; it forwards that family only when the worker reports a
native MXAccess `OperationComplete` event.
## Web Dashboard
@@ -330,6 +349,20 @@ The worker remains authoritative for MXAccess handles. The gateway may keep a
shadow state for diagnostics, but it must not invent, rewrite, or recycle
MXAccess handles.
`SessionManager` owns the current in-memory session registry. It allocates a
session id, creates the worker pipe name and nonce, registers the session before
worker startup, and removes the session if startup fails. A successful
`OpenSession` attaches the ready `IWorkerClient` and transitions the session to
`Ready`.
Only `Ready` sessions accept command and event operations. `CloseSession` is
idempotent for sessions still known to the registry: the first close shuts down
the worker, and later closes return the final `Closed` state. Lease handling is
exposed as a session hook so a monitor can close expired sessions without
embedding lease policy in the worker client. Gateway shutdown walks the
registry, closes each known session, and kills a worker if graceful shutdown
fails.
## Worker Launch
The gateway should launch the worker using explicit configuration:
@@ -411,7 +444,7 @@ 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
@@ -419,6 +452,7 @@ public interface IWorkerClient : IAsyncDisposable
string SessionId { get; }
int? ProcessId { get; }
WorkerClientState State { get; }
DateTimeOffset LastHeartbeatAt { get; }
Task StartAsync(CancellationToken cancellationToken);
Task<WorkerCommandReply> InvokeAsync(
@@ -438,12 +472,17 @@ 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:
@@ -555,7 +594,8 @@ worker MXAccess event
-> worker outbound event queue
-> worker pipe writer
-> gateway read loop
-> session event channel
-> worker client event queue
-> EventStreamService bounded stream queue
-> gRPC StreamEvents
```
@@ -569,13 +609,15 @@ The gateway should record:
Default backpressure policy for parity testing should be fail-fast:
1. If the session event channel fills, fault the session.
1. If the worker client event queue fills, fault the worker client.
2. If the public stream queue fills, fault the gateway session.
2. Preserve the overflow details in logs and metrics.
3. Do not silently drop data-change events.
Do not set a production event-rate target before measurement. Emit event rate,
queue depth, stream send latency, and overflow metrics. Later production modes
may support explicit coalescing by item handle as an opt-in behavior.
Do not set a production event-rate target before measurement. `GatewayMetrics`
records received event counts by family, queue depth, stream disconnects, and
overflow counts. Later production modes may support explicit coalescing by item
handle as an opt-in behavior.
The gateway should not synthesize `OperationComplete` from write completion,
command replies, ASB completion queues, or completion-only status frames. Forward
@@ -612,6 +654,25 @@ hashes the presented secret, and compares the stored and presented hashes with
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.
Dashboard authentication reuses the API-key verifier and scope model. The
dashboard login endpoint accepts the key in a form post, checks `admin` scope
when `Dashboard:RequireAdminScope` is enabled, and signs in with the
`MxGateway.Dashboard` cookie scheme. The cookie is HTTP-only, secure, strict
SameSite, and scoped with the `__Host-MxGatewayDashboard` name. Logout clears
that cookie. Login and logout posts use anti-forgery validation, and dashboard
API keys are not accepted in query strings. `Dashboard:AllowAnonymousLocalhost`
allows only loopback requests to bypass the dashboard cookie requirement and
defaults to `false`.
Recommended scopes:
- `session:open`
@@ -677,6 +738,20 @@ 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:
@@ -816,9 +891,17 @@ behavior unless an explicit non-parity backend is designed.
Gateway tests should be able to run without installed MXAccess by using fake
workers and fake transports.
Use `FakeWorkerHarness` for tests that need real gateway-to-worker framing,
handshake, command, event, fault, or malformed-protocol behavior without loading
MXAccess COM. See [Gateway Testing](./GatewayTesting.md) for the harness scope
and focused test commands.
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/implementation-plan-mxaccess-worker.md
+6 -1
View File
@@ -189,6 +189,8 @@ Tests:
Labels: `area:worker`, `type:feature`, `priority:p0`
Status: implemented.
Deliverables:
- `Register`,
@@ -216,6 +218,8 @@ Live tests:
Labels: `area:worker`, `type:feature`, `priority:p0`
Status: implemented.
Deliverables:
- `AddItem`,
@@ -273,6 +277,8 @@ Live tests:
Labels: `area:worker`, `type:feature`, `priority:p0`
Status: implemented.
Deliverables:
- handlers for `OnDataChange`,
@@ -447,4 +453,3 @@ Acceptance criteria:
- each public method has planned parity fixture or documented gap,
- gateway results preserve HRESULT/status/value/event shape.
docs/mxaccess-worker-instance-design.md
+113 -3
View File
@@ -250,6 +250,17 @@ The loop should update a heartbeat timestamp after:
- finishing a command,
- processing an MXAccess event.
`StaRuntime` implements this runtime boundary in the worker. It starts one
background thread named `MxGateway.Worker.STA`, sets it to `ApartmentState.STA`,
initializes COM through `StaComApartmentInitializer`, and runs
`StaMessagePump`. Commands are scheduled through `InvokeAsync`; the command
queue signals an `AutoResetEvent` so `MsgWaitForMultipleObjectsEx` can wake the
STA without busy-waiting. `LastActivityUtc` records pump, command, startup, and
shutdown activity so the future heartbeat/watchdog can report whether the STA
is still responsive. Shutdown marks the runtime as closing, wakes the pump,
rejects new commands, cancels queued work, uninitializes COM on the STA, and
waits for the thread to exit.
## COM Creation
The MXAccess analysis source at `C:\Users\dohertj2\Desktop\mxaccess` identifies
@@ -278,6 +289,16 @@ The worker should reference the interop assembly and instantiate
`LMXProxyServerClass` on the dedicated STA thread. Keep the ProgID and assembly
path configurable for diagnostics, but this COM class is the v1 default.
`MxAccessStaSession` owns the initial COM creation path. It starts `StaRuntime`,
creates `LMXProxyServerClass` through `MxAccessComObjectFactory` on the STA,
attaches `MxAccessBaseEventSink`, and returns `WorkerReady` only after those
steps succeed. `MxAccessSession` keeps the raw COM object private, records the
STA managed thread id that created it, detaches the base event sink during
disposal, and releases the COM reference on the STA. After creation,
`MxAccessStaSession` owns a `StaCommandDispatcher` backed by
`MxAccessCommandExecutor`; `DispatchAsync` queues contract commands back to the
same STA instead of exposing the COM object to callers.
Creation rules:
- Create COM object only on the STA.
@@ -295,6 +316,11 @@ If COM creation fails, the worker should send a structured fault with:
- worker process id,
- session id.
`WorkerPipeSession` maps startup exceptions from this path to
`WorkerFaultCategory.MxaccessCreationFailed`, includes the captured HRESULT
when the exception exposes one, and does not send `WorkerReady` after a failed
COM creation attempt.
## Event Sink
The worker must subscribe to every public MXAccess event family:
@@ -322,9 +348,28 @@ Event handling rules:
- Enqueue to the outbound event queue.
- Return quickly to preserve message pumping.
If event conversion throws, catch it inside the event handler, enqueue a
structured `WorkerFault` or diagnostic event, and keep the worker alive only if
the fault policy allows it.
`MxAccessBaseEventSink` implements the COM connection-point handlers and keeps
the handlers limited to event argument conversion plus enqueue. It uses
`MxAccessEventMapper` to create `MxEvent` DTOs for `OnDataChange`,
`OnWriteComplete`, `OperationComplete`, and `OnBufferedDataChange`. The mapper
converts scalar and array values through `VariantConverter`, converts
`MXSTATUS_PROXY[]` through `MxStatusProxyConverter`, and maps installed
`MxDataType` values to the public protobuf enum while preserving the raw data
type on buffered events. `OperationComplete` is only emitted from the native
`OperationComplete` handler; write completion does not synthesize it.
`MxAccessEventQueue` is the bounded outbound event queue for one worker
session. It assigns the monotonic `WorkerSequence` and `WorkerTimestamp` when an
event is accepted, preserving the order in which MXAccess handlers enqueue
events. The default capacity is `10000`. When the queue reaches capacity it
records a `WorkerFaultCategory.QueueOverflow` fault and rejects further events.
The event handler catches conversion and enqueue failures, records the first
fault on the queue, and returns to the STA message pump instead of writing to
the pipe.
If event conversion throws, catch it inside the event handler, record a
structured `WorkerFault`, and keep the worker alive only if the fault policy
allows it.
## Command Queue
@@ -391,6 +436,60 @@ Diagnostics:
Implement method-specific dispatch instead of a generic string method invoker.
Parity tests need stable command-specific request and reply shapes.
`MxAccessCommandExecutor` implements the first command pair:
- `Register` calls `LMXProxyServerClass.Register` with the requested client
name and preserves the returned server handle in both `ReturnValue` and
`RegisterReply.ServerHandle`.
- `Unregister` calls `LMXProxyServerClass.Unregister` with the requested server
handle. The reply has no method-specific payload because the public MXAccess
method returns `void`.
Both commands set `Hresult` to `0` only after the COM call returns normally.
COM exceptions flow through `StaCommandDispatcher`, which captures the thrown
HRESULT and converts the reply to `ProtocolStatusCode.MxaccessFailure`.
`MxAccessStaSession.GetRegisteredServerHandlesAsync` returns an STA-read
snapshot of tracked server handles for diagnostics and future cleanup logic.
`MxAccessCommandExecutor` also implements the item lifecycle commands:
- `AddItem` calls `LMXProxyServerClass.AddItem` with the requested server
handle and item definition. It preserves the returned item handle in both
`ReturnValue` and `AddItemReply.ItemHandle`.
- `AddItem2` calls `LMXProxyServerClass.AddItem2` with the requested server
handle, item definition, and context string. The context string is passed to
MXAccess exactly as received.
- `RemoveItem` calls `LMXProxyServerClass.RemoveItem` with the requested server
handle and item handle. The reply has no method-specific payload because the
public MXAccess method returns `void`.
The worker records item handles only after `AddItem` or `AddItem2` returns
normally, and removes item handles only after `RemoveItem` returns normally.
The registry does not prevalidate server or item handles, so invalid and
cross-server handle behavior remains owned by MXAccess. COM exceptions continue
through `StaCommandDispatcher`, which preserves the HRESULT and leaves
diagnostic registry state unchanged for failed cleanup calls.
`MxAccessCommandExecutor` implements advice lifecycle commands on the same STA
path:
- `Advise` calls `LMXProxyServerClass.Advise` with the requested server handle
and item handle.
- `AdviseSupervisory` calls `LMXProxyServerClass.AdviseSupervisory` with the
requested server handle and item handle. This remains a distinct command from
plain `Advise` even though observed scalar captures share the same lower-level
subscription body.
- `UnAdvise` calls `LMXProxyServerClass.UnAdvise` with the requested server
handle and item handle.
The worker records plain and supervisory advice separately only after the COM
call returns normally. Successful `UnAdvise` removes all tracked advice for the
server and item pair because the public MXAccess cleanup method has no plain
versus supervisory selector. Successful `RemoveItem` and `Unregister` also clear
related advice state from the worker registry. Failed advice and cleanup calls
leave registry state unchanged so diagnostics continue to reflect the last
successful MXAccess-owned state transition.
## Handle Registry
The worker should track MXAccess state for diagnostics and cleanup, while still
@@ -411,6 +510,13 @@ Rules:
- Do not invent handles.
- Do not rewrite handles returned by MXAccess.
- Record server handles only after `Register` succeeds.
- Remove server handles only after `Unregister` succeeds.
- Record item handles only after `AddItem` or `AddItem2` succeeds.
- Remove item handles only after `RemoveItem` succeeds.
- Record advice state only after `Advise` or `AdviseSupervisory` succeeds.
- Remove advice state only after `UnAdvise`, `RemoveItem`, or `Unregister`
succeeds.
- Preserve invalid-handle behavior from MXAccess.
- Preserve cross-server handle behavior from MXAccess.
- Use registry state for cleanup and diagnostics, not semantic correction.
@@ -654,6 +760,10 @@ Live MXAccess tests:
Live tests should be opt-in and clearly marked because they depend on installed
MXAccess COM and provider state.
The worker test suite uses `MXGATEWAY_RUN_LIVE_MXACCESS_TESTS=1` for these
tests. `AddItem` uses `TestChildObject.TestInt` by default and accepts an
override through `MXGATEWAY_LIVE_MXACCESS_ITEM`; `AddItem2` uses the captured
parity fixture shape `AddItem2("TestInt", "TestChildObject")`.
## Initial Implementation Slice
gateway.md
+50 -11
View File
@@ -107,6 +107,24 @@ worker, correlation, command, and client identity fields with redaction applied
before values enter log state. `GatewayMetrics` exposes counters, gauges, and
histograms through .NET `Meter` and a snapshot API that dashboard services can
project without binding to a metrics exporter.
`DashboardSnapshotService` projects sessions, workers, metrics, faults, and
effective configuration into immutable DTOs for read-only dashboard rendering.
The Blazor Server dashboard renders those snapshots at `/dashboard`,
`/dashboard/sessions`, `/dashboard/workers`, `/dashboard/events`, and
`/dashboard/settings`. Components subscribe to
`IDashboardSnapshotService.WatchSnapshotsAsync()` and update on the configured
snapshot interval without mutating session or worker state. The dashboard uses
local Bootstrap CSS and JavaScript plus a small local stylesheet; it does not
use a Blazor UI component library.
Dashboard routes use the same API-key verifier as gRPC. `/dashboard/login`
accepts the API key in a form body, validates the configured `admin` scope,
and issues an HTTP-only secure cookie for subsequent dashboard requests.
`/dashboard/logout` clears that cookie. Login and logout posts validate
anti-forgery tokens, and API keys are never accepted through query strings.
`Dashboard:AllowAnonymousLocalhost` can bypass the cookie requirement for
loopback requests only when explicitly enabled. Setting
`MxGateway:Dashboard:Enabled` to `false` leaves the dashboard routes unmapped.
### Worker Process
@@ -518,11 +536,7 @@ Worker policy:
- bounded outbound event channel,
- never block MXAccess event handler on pipe writes,
- if the outbound channel is full, apply configured policy:
- disconnect session,
- drop oldest low-priority data-change events,
- coalesce data changes by item handle,
- or block briefly then fault.
- fail the worker session when the outbound channel is full.
For full parity testing, default should be fail-fast rather than silent drop.
For production high-rate telemetry, add explicit coalescing modes.
@@ -531,9 +545,15 @@ Gateway policy:
- one event sequencer per session,
- preserve per-session event order,
- support multiple client event subscribers only if explicitly required,
- apply backpressure from slow gRPC streams,
- disconnect or coalesce according to client-selected mode.
- allow one active client event subscriber per session,
- reject a second subscriber with a clear session error,
- use a bounded `EventStreamService` queue between worker events and gRPC
writes,
- fault the session when the bounded stream queue overflows,
- detach the subscriber when the stream is canceled.
The gateway forwards only events reported by the worker. It does not synthesize
`OperationComplete` from write completion, command replies, or status frames.
## Isolation And Fault Handling
@@ -566,9 +586,13 @@ 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:
@@ -795,6 +819,12 @@ Core operations:
- track worker state,
- close or kill worker.
The gateway implementation keeps sessions in an in-memory `SessionRegistry`
keyed by session id. `SessionManager` owns the state machine, creates
per-session pipe names and nonces, starts the worker through the worker-client
factory, gates commands to `Ready` sessions, exposes lease-close hooks, and
cleans up workers during gateway shutdown.
State machine:
```text
@@ -842,6 +872,15 @@ The gRPC layer should be thin:
Avoid embedding MXAccess-specific business logic in gRPC handlers. Keep the
translation code testable.
The gateway maps `MxAccessGateway` to `MxAccessGatewayService`. The service
implements `OpenSession`, `CloseSession`, `Invoke`, and `StreamEvents` by
validating public requests, delegating session work to `ISessionManager`, and
using explicit mapper code for public-to-worker commands and worker replies.
`StreamEvents` delegates subscriber ownership, ordering, and backpressure to
`EventStreamService`. Missing sessions and transport failures return gRPC
status errors; worker command replies preserve MXAccess HRESULT and status
details in the public reply.
## C# Worker Versus C++ Worker
Start with a C# .NET Framework 4.8 x86 worker.
scripts/publish-client-proto-inputs.ps1
+95
View File
@@ -0,0 +1,95 @@
[CmdletBinding()]
param(
[switch]$Check
)
Set-StrictMode -Version Latest
$ErrorActionPreference = "Stop"
$repoRoot = Resolve-Path (Join-Path $PSScriptRoot "..")
$protoRoot = Join-Path $repoRoot "src/MxGateway.Contracts/Protos"
$manifestPath = Join-Path $repoRoot "clients/proto/proto-inputs.json"
$descriptorPath = Join-Path $repoRoot "clients/proto/descriptors/mxaccessgw-client-v1.protoset"
function Resolve-Protoc {
$pathCommand = Get-Command "protoc.exe" -ErrorAction SilentlyContinue
if ($null -ne $pathCommand) {
return $pathCommand.Source
}
$documentedPath = Join-Path $env:LOCALAPPDATA "Microsoft/WinGet/Packages/Google.Protobuf_Microsoft.Winget.Source_8wekyb3d8bbwe/bin/protoc.exe"
if (Test-Path $documentedPath) {
return $documentedPath
}
throw "Could not find protoc.exe. See docs/toolchain-links.md for the documented protobuf toolchain path."
}
function Ensure-Directory {
param([string]$Path)
if (-not (Test-Path $Path)) {
New-Item -ItemType Directory -Path $Path | Out-Null
}
}
function Compare-FileBytes {
param(
[string]$ExpectedPath,
[string]$ActualPath
)
if (-not (Test-Path $ExpectedPath)) {
return $false
}
$expected = [System.IO.File]::ReadAllBytes($ExpectedPath)
$actual = [System.IO.File]::ReadAllBytes($ActualPath)
if ($expected.Length -ne $actual.Length) {
return $false
}
for ($index = 0; $index -lt $expected.Length; $index++) {
if ($expected[$index] -ne $actual[$index]) {
return $false
}
}
return $true
}
$manifest = Get-Content -Raw $manifestPath | ConvertFrom-Json
Ensure-Directory (Split-Path $descriptorPath -Parent)
foreach ($output in $manifest.generatedOutputs.PSObject.Properties.Value) {
Ensure-Directory (Join-Path $repoRoot $output)
}
$protoc = Resolve-Protoc
$outputPath = $descriptorPath
if ($Check) {
$outputPath = Join-Path ([System.IO.Path]::GetTempPath()) ("mxaccessgw-client-v1-" + [System.Guid]::NewGuid().ToString("N") + ".protoset")
}
try {
& $protoc `
"--proto_path=$protoRoot" `
"--include_imports" `
"--include_source_info" `
"--descriptor_set_out=$outputPath" `
"mxaccess_gateway.proto" `
"mxaccess_worker.proto"
if ($LASTEXITCODE -ne 0) {
throw "protoc failed with exit code $LASTEXITCODE."
}
if ($Check -and -not (Compare-FileBytes -ExpectedPath $descriptorPath -ActualPath $outputPath)) {
throw "Client proto descriptor is stale. Run scripts/publish-client-proto-inputs.ps1 and commit the updated descriptor."
}
}
finally {
if ($Check -and (Test-Path $outputPath)) {
Remove-Item -LiteralPath $outputPath
}
}
src/MxGateway.Contracts/GatewayContractInfo.cs
+2
View File
@@ -6,6 +6,8 @@ namespace MxGateway.Contracts;
/// </summary>
public static class GatewayContractInfo
{
public const uint GatewayProtocolVersion = 1;
public const uint WorkerProtocolVersion = 1;
public const string DefaultBackendName = "mxaccess-worker";
src/MxGateway.Contracts/Generated/MxaccessGateway.cs
+309 -267
View File
@@ -30,282 +30,282 @@ namespace MxGateway.Contracts.Proto {
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"WV9PSxACEh4KGk1YX1NUQVRVU19DQVRFR09SWV9QRU5ESU5HEAMSHgoaTVhf",
"U1RBVFVTX0NBVEVHT1JZX1dBUk5JTkcQBBIqCiZNWF9TVEFUVVNfQ0FURUdP",
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"ygIKDk14U3RhdHVzU291cmNlEiAKHE1YX1NUQVRVU19TT1VSQ0VfVU5TUEVD",
"SUZJRUQQABIcChhNWF9TVEFUVVNfU09VUkNFX1VOS05PV04QARIjCh9NWF9T",
"VEFUVVNfU09VUkNFX1JFUVVFU1RJTkdfTE1YEAISIwofTVhfU1RBVFVTX1NP",
"VVJDRV9SRVNQT05ESU5HX0xNWBADEiMKH01YX1NUQVRVU19TT1VSQ0VfUkVR",
"VUVTVElOR19OTVgQBBIjCh9NWF9TVEFUVVNfU09VUkNFX1JFU1BPTkRJTkdf",
"Tk1YEAUSMQotTVhfU1RBVFVTX1NPVVJDRV9SRVFVRVNUSU5HX0FVVE9NQVRJ",
"T05fT0JKRUNUEAYSMQotTVhfU1RBVFVTX1NPVVJDRV9SRVNQT05ESU5HX0FV",
"VE9NQVRJT05fT0JKRUNUEAcq3QQKCk14RGF0YVR5cGUSHAoYTVhfREFUQV9U",
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"ChRNWF9EQVRBX1RZUEVfTk9fREFUQRACEhgKFE1YX0RBVEFfVFlQRV9CT09M",
"RUFOEAMSGAoUTVhfREFUQV9UWVBFX0lOVEVHRVIQBBIWChJNWF9EQVRBX1RZ",
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"T0xfU1RBVFVTX0NPREVfVElNRU9VVBAGEiEKHVBST1RPQ09MX1NUQVRVU19D",
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"T0xfVklPTEFUSU9OEAgSKQolUFJPVE9DT0xfU1RBVFVTX0NPREVfTVhBQ0NF",
"U1NfRkFJTFVSRRAJKr8CCgxTZXNzaW9uU3RhdGUSHQoZU0VTU0lPTl9TVEFU",
"RV9VTlNQRUNJRklFRBAAEhoKFlNFU1NJT05fU1RBVEVfQ1JFQVRJTkcQARIh",
"Ch1TRVNTSU9OX1NUQVRFX1NUQVJUSU5HX1dPUktFUhACEiIKHlNFU1NJT05f",
"U1RBVEVfV0FJVElOR19GT1JfUElQRRADEh0KGVNFU1NJT05fU1RBVEVfSEFO",
"RFNIQUtJTkcQBBIlCiFTRVNTSU9OX1NUQVRFX0lOSVRJQUxJWklOR19XT1JL",
"RVIQBRIXChNTRVNTSU9OX1NUQVRFX1JFQURZEAYSGQoVU0VTU0lPTl9TVEFU",
"RV9DTE9TSU5HEAcSGAoUU0VTU0lPTl9TVEFURV9DTE9TRUQQCBIZChVTRVNT",
"SU9OX1NUQVRFX0ZBVUxURUQQCTKCAwoPTXhBY2Nlc3NHYXRld2F5El0KC09w",
"ZW5TZXNzaW9uEicubXhhY2Nlc3NfZ2F0ZXdheS52MS5PcGVuU2Vzc2lvblJl",
"cXVlc3QaJS5teGFjY2Vzc19nYXRld2F5LnYxLk9wZW5TZXNzaW9uUmVwbHkS",
"YAoMQ2xvc2VTZXNzaW9uEigubXhhY2Nlc3NfZ2F0ZXdheS52MS5DbG9zZVNl",
"c3Npb25SZXF1ZXN0GiYubXhhY2Nlc3NfZ2F0ZXdheS52MS5DbG9zZVNlc3Np",
"b25SZXBseRJUCgZJbnZva2USJS5teGFjY2Vzc19nYXRld2F5LnYxLk14Q29t",
"bWFuZFJlcXVlc3QaIy5teGFjY2Vzc19nYXRld2F5LnYxLk14Q29tbWFuZFJl",
"cGx5ElgKDFN0cmVhbUV2ZW50cxIoLm14YWNjZXNzX2dhdGV3YXkudjEuU3Ry",
"ZWFtRXZlbnRzUmVxdWVzdBocLm14YWNjZXNzX2dhdGV3YXkudjEuTXhFdmVu",
"dDABQhyqAhlNeEdhdGV3YXkuQ29udHJhY3RzLlByb3RvYgZwcm90bzM="));
descriptor = pbr::FileDescriptor.FromGeneratedCode(descriptorData,
new pbr::FileDescriptor[] { global::Google.Protobuf.WellKnownTypes.DurationReflection.Descriptor, global::Google.Protobuf.WellKnownTypes.TimestampReflection.Descriptor, },
new pbr::GeneratedClrTypeInfo(new[] {typeof(global::MxGateway.Contracts.Proto.MxCommandKind), typeof(global::MxGateway.Contracts.Proto.MxEventFamily), typeof(global::MxGateway.Contracts.Proto.MxStatusCategory), typeof(global::MxGateway.Contracts.Proto.MxStatusSource), typeof(global::MxGateway.Contracts.Proto.MxDataType), typeof(global::MxGateway.Contracts.Proto.ProtocolStatusCode), typeof(global::MxGateway.Contracts.Proto.SessionState), }, null, new pbr::GeneratedClrTypeInfo[] {
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.OpenSessionRequest), global::MxGateway.Contracts.Proto.OpenSessionRequest.Parser, new[]{ "RequestedBackend", "ClientSessionName", "ClientCorrelationId", "CommandTimeout" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.OpenSessionReply), global::MxGateway.Contracts.Proto.OpenSessionReply.Parser, new[]{ "SessionId", "BackendName", "WorkerProcessId", "WorkerProtocolVersion", "Capabilities", "DefaultCommandTimeout", "ProtocolStatus" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.OpenSessionReply), global::MxGateway.Contracts.Proto.OpenSessionReply.Parser, new[]{ "SessionId", "BackendName", "WorkerProcessId", "WorkerProtocolVersion", "Capabilities", "DefaultCommandTimeout", "ProtocolStatus", "GatewayProtocolVersion" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.CloseSessionRequest), global::MxGateway.Contracts.Proto.CloseSessionRequest.Parser, new[]{ "SessionId", "ClientCorrelationId" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.CloseSessionReply), global::MxGateway.Contracts.Proto.CloseSessionReply.Parser, new[]{ "SessionId", "FinalState", "ProtocolStatus" }, null, null, null, null),
new pbr::GeneratedClrTypeInfo(typeof(global::MxGateway.Contracts.Proto.StreamEventsRequest), global::MxGateway.Contracts.Proto.StreamEventsRequest.Parser, new[]{ "SessionId", "AfterWorkerSequence" }, null, null, null, null),
@@ -841,6 +841,7 @@ namespace MxGateway.Contracts.Proto {
capabilities_ = other.capabilities_.Clone();
defaultCommandTimeout_ = other.defaultCommandTimeout_ != null ? other.defaultCommandTimeout_.Clone() : null;
protocolStatus_ = other.protocolStatus_ != null ? other.protocolStatus_.Clone() : null;
gatewayProtocolVersion_ = other.gatewayProtocolVersion_;
_unknownFields = pb::UnknownFieldSet.Clone(other._unknownFields);
}
@@ -933,6 +934,23 @@ namespace MxGateway.Contracts.Proto {
}
}
/// <summary>Field number for the "gateway_protocol_version" field.</summary>
public const int GatewayProtocolVersionFieldNumber = 8;
private uint gatewayProtocolVersion_;
/// <summary>
/// Public gateway contract version implemented by this endpoint. Clients use
/// this value to reject incompatible generated-code inputs before issuing
/// command-specific MXAccess calls.
/// </summary>
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public uint GatewayProtocolVersion {
get { return gatewayProtocolVersion_; }
set {
gatewayProtocolVersion_ = value;
}
}
[global::System.Diagnostics.DebuggerNonUserCodeAttribute]
[global::System.CodeDom.Compiler.GeneratedCode("protoc", null)]
public override bool Equals(object other) {
@@ -955,6 +973,7 @@ namespace MxGateway.Contracts.Proto {
if(!capabilities_.Equals(other.capabilities_)) return false;
if (!object.Equals(DefaultCommandTimeout, other.DefaultCommandTimeout)) return false;
if (!object.Equals(ProtocolStatus, other.ProtocolStatus)) return false;
if (GatewayProtocolVersion != other.GatewayProtocolVersion) return false;
return Equals(_unknownFields, other._unknownFields);
}
@@ -969,6 +988,7 @@ namespace MxGateway.Contracts.Proto {
hash ^= capabilities_.GetHashCode();
if (defaultCommandTimeout_ != null) hash ^= DefaultCommandTimeout.GetHashCode();
if (protocolStatus_ != null) hash ^= ProtocolStatus.GetHashCode();
if (GatewayProtocolVersion != 0) hash ^= GatewayProtocolVersion.GetHashCode();
if (_unknownFields != null) {
hash ^= _unknownFields.GetHashCode();
}
@@ -1012,6 +1032,10 @@ namespace MxGateway.Contracts.Proto {
output.WriteRawTag(58);
output.WriteMessage(ProtocolStatus);
}
if (GatewayProtocolVersion != 0) {
output.WriteRawTag(64);
output.WriteUInt32(GatewayProtocolVersion);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(output);
}
@@ -1047,6 +1071,10 @@ namespace MxGateway.Contracts.Proto {
output.WriteRawTag(58);
output.WriteMessage(ProtocolStatus);
}
if (GatewayProtocolVersion != 0) {
output.WriteRawTag(64);
output.WriteUInt32(GatewayProtocolVersion);
}
if (_unknownFields != null) {
_unknownFields.WriteTo(ref output);
}
@@ -1076,6 +1104,9 @@ namespace MxGateway.Contracts.Proto {
if (protocolStatus_ != null) {
size += 1 + pb::CodedOutputStream.ComputeMessageSize(ProtocolStatus);
}
if (GatewayProtocolVersion != 0) {
size += 1 + pb::CodedOutputStream.ComputeUInt32Size(GatewayProtocolVersion);
}
if (_unknownFields != null) {
size += _unknownFields.CalculateSize();
}
@@ -1113,6 +1144,9 @@ namespace MxGateway.Contracts.Proto {
}
ProtocolStatus.MergeFrom(other.ProtocolStatus);
}
if (other.GatewayProtocolVersion != 0) {
GatewayProtocolVersion = other.GatewayProtocolVersion;
}
_unknownFields = pb::UnknownFieldSet.MergeFrom(_unknownFields, other._unknownFields);
}
@@ -1166,6 +1200,10 @@ namespace MxGateway.Contracts.Proto {
input.ReadMessage(ProtocolStatus);
break;
}
case 64: {
GatewayProtocolVersion = input.ReadUInt32();
break;
}
}
}
#endif
@@ -1219,6 +1257,10 @@ namespace MxGateway.Contracts.Proto {
input.ReadMessage(ProtocolStatus);
break;
}
case 64: {
GatewayProtocolVersion = input.ReadUInt32();
break;
}
}
}
}
src/MxGateway.Contracts/Protos/mxaccess_gateway.proto
+4
View File
@@ -30,6 +30,10 @@ message OpenSessionReply {
repeated string capabilities = 5;
google.protobuf.Duration default_command_timeout = 6;
ProtocolStatus protocol_status = 7;
// Public gateway contract version implemented by this endpoint. Clients use
// this value to reject incompatible generated-code inputs before issuing
// command-specific MXAccess calls.
uint32 gateway_protocol_version = 8;
}
message CloseSessionRequest {
src/MxGateway.Server/Dashboard/Components/App.razor
+34
View File
@@ -0,0 +1,34 @@
@inject IOptions<GatewayOptions> GatewayOptions
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<base href="@DashboardBaseHref" />
<link rel="stylesheet" href="/lib/bootstrap/css/bootstrap.min.css" />
<link rel="stylesheet" href="/css/dashboard.css" />
<HeadOutlet @rendermode="InteractiveServer" />
</head>
<body class="dashboard-body">
<Routes @rendermode="InteractiveServer" />
<script src="/lib/bootstrap/js/bootstrap.bundle.min.js"></script>
<script src="_framework/blazor.web.js"></script>
</body>
</html>
@code {
private string DashboardBaseHref
{
get
{
string pathBase = GatewayOptions.Value.Dashboard.PathBase.TrimEnd('/');
if (string.IsNullOrWhiteSpace(pathBase))
{
pathBase = "/dashboard";
}
return $"{pathBase}/";
}
}
}
src/MxGateway.Server/Dashboard/Components/DashboardDisplay.cs
+30
View File
@@ -0,0 +1,30 @@
namespace MxGateway.Server.Dashboard.Components;
public static class DashboardDisplay
{
public static string DateTime(DateTimeOffset? value)
{
return value.HasValue
? value.Value.UtcDateTime.ToString("yyyy-MM-dd HH:mm:ss 'UTC'", System.Globalization.CultureInfo.InvariantCulture)
: "-";
}
public static string Duration(TimeSpan value)
{
return value.TotalDays >= 1
? value.ToString(@"d\.hh\:mm\:ss", System.Globalization.CultureInfo.InvariantCulture)
: value.ToString(@"hh\:mm\:ss", System.Globalization.CultureInfo.InvariantCulture);
}
public static string Text(string? value)
{
return string.IsNullOrWhiteSpace(value) ? "-" : value;
}
public static long MetricValue(DashboardSnapshot snapshot, string name, string? dimension = null)
{
return snapshot.Metrics.FirstOrDefault(metric =>
string.Equals(metric.Name, name, StringComparison.Ordinal)
&& string.Equals(metric.Dimension, dimension, StringComparison.Ordinal))?.Value ?? 0;
}
}
src/MxGateway.Server/Dashboard/Components/DashboardPageBase.cs
+48
View File
@@ -0,0 +1,48 @@
using Microsoft.AspNetCore.Components;
namespace MxGateway.Server.Dashboard.Components;
public abstract class DashboardPageBase : ComponentBase, IAsyncDisposable
{
private readonly CancellationTokenSource _disposeCancellation = new();
private Task? _watchTask;
[Inject]
protected IDashboardSnapshotService SnapshotService { get; set; } = null!;
protected DashboardSnapshot? Snapshot { get; private set; }
protected override void OnInitialized()
{
_watchTask = WatchSnapshotsAsync();
}
public async ValueTask DisposeAsync()
{
await _disposeCancellation.CancelAsync().ConfigureAwait(false);
if (_watchTask is not null)
{
await _watchTask.ConfigureAwait(false);
}
_disposeCancellation.Dispose();
GC.SuppressFinalize(this);
}
private async Task WatchSnapshotsAsync()
{
try
{
await foreach (DashboardSnapshot snapshot in SnapshotService
.WatchSnapshotsAsync(_disposeCancellation.Token)
.ConfigureAwait(false))
{
Snapshot = snapshot;
await InvokeAsync(StateHasChanged).ConfigureAwait(false);
}
}
catch (OperationCanceledException) when (_disposeCancellation.IsCancellationRequested)
{
}
}
}
src/MxGateway.Server/Dashboard/Components/Layout/DashboardLayout.razor
+53
View File
@@ -0,0 +1,53 @@
@inherits LayoutComponentBase
@inject IOptions<GatewayOptions> GatewayOptions
<div class="dashboard-shell">
<nav class="navbar navbar-expand-lg bg-body border-bottom dashboard-navbar">
<div class="container-fluid">
<a class="navbar-brand" href="">MXAccess Gateway</a>
<button class="navbar-toggler" type="button" data-bs-toggle="collapse" data-bs-target="#dashboardNav"
aria-controls="dashboardNav" aria-expanded="false" aria-label="Toggle navigation">
<span class="navbar-toggler-icon"></span>
</button>
<div class="collapse navbar-collapse" id="dashboardNav">
<ul class="navbar-nav me-auto mb-2 mb-lg-0">
<li class="nav-item">
<NavLink class="nav-link" href="" Match="NavLinkMatch.All">Overview</NavLink>
</li>
<li class="nav-item">
<NavLink class="nav-link" href="sessions">Sessions</NavLink>
</li>
<li class="nav-item">
<NavLink class="nav-link" href="workers">Workers</NavLink>
</li>
<li class="nav-item">
<NavLink class="nav-link" href="events">Events</NavLink>
</li>
<li class="nav-item">
<NavLink class="nav-link" href="settings">Settings</NavLink>
</li>
</ul>
<form method="post" action="@DashboardPath("/logout")" class="d-flex">
<AntiforgeryToken />
<button class="btn btn-outline-secondary btn-sm" type="submit">Sign out</button>
</form>
</div>
</div>
</nav>
<main class="container-fluid dashboard-content">
@Body
</main>
</div>
@code {
private string DashboardPath(string relativePath)
{
string pathBase = GatewayOptions.Value.Dashboard.PathBase.TrimEnd('/');
if (string.IsNullOrWhiteSpace(pathBase))
{
pathBase = "/dashboard";
}
return $"{pathBase}{relativePath}";
}
}
src/MxGateway.Server/Dashboard/Components/Pages/DashboardHome.razor
+37
View File
@@ -0,0 +1,37 @@
@page "/"
@inherits DashboardPageBase
<PageTitle>MXAccess Gateway Dashboard</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading dashboard snapshot.</div>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Overview</h1>
<div class="text-secondary">Generated @DashboardDisplay.DateTime(Snapshot.GeneratedAt)</div>
</div>
<StatusBadge Text="@Snapshot.GatewayStatus" />
</div>
<section class="metric-grid">
<MetricCard Label="Uptime" Value="@DashboardDisplay.Duration(Snapshot.GatewayUptime)" Detail="@Snapshot.GatewayVersion" />
<MetricCard Label="Open Sessions" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.sessions.open").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Workers Running" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.workers.running").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Event Queue Depth" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.events.queue.depth").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Commands Failed" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.commands.failed").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Events Received" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.events.received").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Faults" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.faults").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Queue Overflows" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.queues.overflows").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
</section>
<section class="dashboard-section">
<div class="section-heading">
<h2>Recent Faults</h2>
</div>
<FaultList Faults="@Snapshot.Faults" />
</section>
}
src/MxGateway.Server/Dashboard/Components/Pages/EventsPage.razor
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@page "/events"
@inherits DashboardPageBase
<PageTitle>Dashboard Events</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading event diagnostics.</div>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Events</h1>
<div class="text-secondary">Generated @DashboardDisplay.DateTime(Snapshot.GeneratedAt)</div>
</div>
</div>
<section class="metric-grid compact">
<MetricCard Label="Events Received" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.events.received").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Event Queue Depth" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.events.queue.depth").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Queue Overflows" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.queues.overflows").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
<MetricCard Label="Stream Disconnects" Value="@DashboardDisplay.MetricValue(Snapshot, "mxgateway.grpc.streams.disconnected").ToString(System.Globalization.CultureInfo.InvariantCulture)" />
</section>
<section class="dashboard-section">
<div class="section-heading">
<h2>Event Families</h2>
</div>
@if (EventFamilyMetrics.Count == 0)
{
<div class="empty-state">No event family counters recorded.</div>
}
else
{
<div class="table-responsive">
<table class="table table-sm dashboard-table">
<thead>
<tr>
<th scope="col">Family</th>
<th scope="col">Count</th>
</tr>
</thead>
<tbody>
@foreach (DashboardMetricSummary metric in EventFamilyMetrics)
{
<tr>
<td>@metric.Dimension</td>
<td>@metric.Value</td>
</tr>
}
</tbody>
</table>
</div>
}
</section>
}
@code {
private IReadOnlyList<DashboardMetricSummary> EventFamilyMetrics => Snapshot?.Metrics
.Where(metric => metric.Name == "mxgateway.events.received" && metric.Dimension is not null)
.OrderBy(metric => metric.Dimension, StringComparer.OrdinalIgnoreCase)
.ToArray() ?? [];
}
src/MxGateway.Server/Dashboard/Components/Pages/SessionDetailsPage.razor
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@page "/sessions/{SessionId}"
@inherits DashboardPageBase
<PageTitle>Dashboard Session</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading session.</div>
}
else if (CurrentSession is null)
{
<section class="dashboard-section">
<h1 class="h4 mb-3">Session Not Found</h1>
<p class="mb-0">The session is not present in the current snapshot.</p>
</section>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Session Details</h1>
<div class="text-secondary"><code>@CurrentSession.SessionId</code></div>
</div>
<StatusBadge Text="@CurrentSession.State.ToString()" />
</div>
<section class="dashboard-section">
<div class="section-heading">
<h2>Session</h2>
</div>
<div class="table-responsive">
<table class="table table-sm dashboard-table details-table">
<tbody>
<tr><th scope="row">Backend</th><td>@CurrentSession.BackendName</td></tr>
<tr><th scope="row">Client identity</th><td>@DashboardDisplay.Text(CurrentSession.ClientIdentity)</td></tr>
<tr><th scope="row">Client session</th><td>@DashboardDisplay.Text(CurrentSession.ClientSessionName)</td></tr>
<tr><th scope="row">Client correlation</th><td>@DashboardDisplay.Text(CurrentSession.ClientCorrelationId)</td></tr>
<tr><th scope="row">Opened</th><td>@DashboardDisplay.DateTime(CurrentSession.OpenedAt)</td></tr>
<tr><th scope="row">Last activity</th><td>@DashboardDisplay.DateTime(CurrentSession.LastClientActivityAt)</td></tr>
<tr><th scope="row">Lease expires</th><td>@DashboardDisplay.DateTime(CurrentSession.LeaseExpiresAt)</td></tr>
<tr><th scope="row">Last fault</th><td>@DashboardDisplay.Text(CurrentSession.LastFault)</td></tr>
</tbody>
</table>
</div>
</section>
<section class="dashboard-section">
<div class="section-heading">
<h2>Worker</h2>
</div>
<div class="table-responsive">
<table class="table table-sm dashboard-table details-table">
<tbody>
<tr><th scope="row">Process id</th><td>@(CurrentSession.WorkerProcessId?.ToString(System.Globalization.CultureInfo.InvariantCulture) ?? "-")</td></tr>
<tr><th scope="row">State</th><td><StatusBadge Text="@(CurrentSession.WorkerState?.ToString() ?? "-")" /></td></tr>
<tr><th scope="row">Last heartbeat</th><td>@DashboardDisplay.DateTime(CurrentSession.LastWorkerHeartbeatAt)</td></tr>
</tbody>
</table>
</div>
</section>
}
@code {
[Parameter]
public string SessionId { get; set; } = string.Empty;
private DashboardSessionSummary? CurrentSession => Snapshot?.Sessions.FirstOrDefault(session =>
string.Equals(session.SessionId, SessionId, StringComparison.Ordinal));
}
src/MxGateway.Server/Dashboard/Components/Pages/SessionsPage.razor
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@page "/sessions"
@inherits DashboardPageBase
<PageTitle>Dashboard Sessions</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading sessions.</div>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Sessions</h1>
<div class="text-secondary">@Snapshot.Sessions.Count session rows</div>
</div>
</div>
<section class="dashboard-section">
@if (Snapshot.Sessions.Count == 0)
{
<div class="empty-state">No sessions are active or retained.</div>
}
else
{
<div class="table-responsive">
<table class="table table-sm align-middle dashboard-table">
<thead>
<tr>
<th scope="col">Session</th>
<th scope="col">State</th>
<th scope="col">Client</th>
<th scope="col">Backend</th>
<th scope="col">Worker</th>
<th scope="col">Opened</th>
<th scope="col">Activity</th>
<th scope="col">Heartbeat</th>
<th scope="col">Fault</th>
</tr>
</thead>
<tbody>
@foreach (DashboardSessionSummary session in Snapshot.Sessions)
{
<tr>
<td><NavLink href="@($"sessions/{Uri.EscapeDataString(session.SessionId)}")"><code>@session.SessionId</code></NavLink></td>
<td><StatusBadge Text="@session.State.ToString()" /></td>
<td>@DashboardDisplay.Text(session.ClientIdentity)</td>
<td>@session.BackendName</td>
<td>
@(session.WorkerProcessId?.ToString(System.Globalization.CultureInfo.InvariantCulture) ?? "-")
@if (session.WorkerState is not null)
{
<span class="ms-1"><StatusBadge Text="@session.WorkerState.ToString()" /></span>
}
</td>
<td>@DashboardDisplay.DateTime(session.OpenedAt)</td>
<td>@DashboardDisplay.DateTime(session.LastClientActivityAt)</td>
<td>@DashboardDisplay.DateTime(session.LastWorkerHeartbeatAt)</td>
<td>@DashboardDisplay.Text(session.LastFault)</td>
</tr>
}
</tbody>
</table>
</div>
}
</section>
}
src/MxGateway.Server/Dashboard/Components/Pages/SettingsPage.razor
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@page "/settings"
@inherits DashboardPageBase
<PageTitle>Dashboard Settings</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading settings.</div>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Settings</h1>
<div class="text-secondary">Effective gateway configuration</div>
</div>
</div>
<section class="dashboard-section">
<div class="table-responsive">
<table class="table table-sm dashboard-table details-table">
<tbody>
<tr><th scope="row">Authentication mode</th><td>@Snapshot.Configuration.Authentication.Mode</td></tr>
<tr><th scope="row">Auth database</th><td><code>@Snapshot.Configuration.Authentication.SqlitePath</code></td></tr>
<tr><th scope="row">Pepper secret</th><td>@Snapshot.Configuration.Authentication.PepperSecretName</td></tr>
<tr><th scope="row">Run migrations</th><td>@Snapshot.Configuration.Authentication.RunMigrationsOnStartup</td></tr>
<tr><th scope="row">Worker executable</th><td><code>@Snapshot.Configuration.Worker.ExecutablePath</code></td></tr>
<tr><th scope="row">Worker architecture</th><td>@Snapshot.Configuration.Worker.RequiredArchitecture</td></tr>
<tr><th scope="row">Startup timeout</th><td>@Snapshot.Configuration.Worker.StartupTimeoutSeconds seconds</td></tr>
<tr><th scope="row">Shutdown timeout</th><td>@Snapshot.Configuration.Worker.ShutdownTimeoutSeconds seconds</td></tr>
<tr><th scope="row">Heartbeat grace</th><td>@Snapshot.Configuration.Worker.HeartbeatGraceSeconds seconds</td></tr>
<tr><th scope="row">Default command timeout</th><td>@Snapshot.Configuration.Sessions.DefaultCommandTimeoutSeconds seconds</td></tr>
<tr><th scope="row">Max sessions</th><td>@Snapshot.Configuration.Sessions.MaxSessions</td></tr>
<tr><th scope="row">Event queue capacity</th><td>@Snapshot.Configuration.Events.QueueCapacity</td></tr>
<tr><th scope="row">Backpressure policy</th><td>@Snapshot.Configuration.Events.BackpressurePolicy</td></tr>
<tr><th scope="row">Dashboard enabled</th><td>@Snapshot.Configuration.Dashboard.Enabled</td></tr>
<tr><th scope="row">Dashboard path</th><td>@Snapshot.Configuration.Dashboard.PathBase</td></tr>
<tr><th scope="row">Require admin scope</th><td>@Snapshot.Configuration.Dashboard.RequireAdminScope</td></tr>
<tr><th scope="row">Anonymous localhost</th><td>@Snapshot.Configuration.Dashboard.AllowAnonymousLocalhost</td></tr>
<tr><th scope="row">Snapshot interval</th><td>@Snapshot.Configuration.Dashboard.SnapshotIntervalMilliseconds ms</td></tr>
<tr><th scope="row">Show tag values</th><td>@Snapshot.Configuration.Dashboard.ShowTagValues</td></tr>
<tr><th scope="row">Worker protocol</th><td>@Snapshot.Configuration.Protocol.WorkerProtocolVersion</td></tr>
</tbody>
</table>
</div>
</section>
}
src/MxGateway.Server/Dashboard/Components/Pages/WorkersPage.razor
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@page "/workers"
@inherits DashboardPageBase
<PageTitle>Dashboard Workers</PageTitle>
@if (Snapshot is null)
{
<div class="empty-state">Loading workers.</div>
}
else
{
<div class="dashboard-page-header">
<div>
<h1>Workers</h1>
<div class="text-secondary">@Snapshot.Workers.Count worker rows</div>
</div>
</div>
<section class="dashboard-section">
@if (Snapshot.Workers.Count == 0)
{
<div class="empty-state">No worker processes are attached.</div>
}
else
{
<div class="table-responsive">
<table class="table table-sm align-middle dashboard-table">
<thead>
<tr>
<th scope="col">Process</th>
<th scope="col">State</th>
<th scope="col">Session</th>
<th scope="col">Heartbeat</th>
<th scope="col">Fault</th>
</tr>
</thead>
<tbody>
@foreach (DashboardWorkerSummary worker in Snapshot.Workers)
{
<tr>
<td>@(worker.ProcessId?.ToString(System.Globalization.CultureInfo.InvariantCulture) ?? "-")</td>
<td><StatusBadge Text="@worker.State.ToString()" /></td>
<td><NavLink href="@($"sessions/{Uri.EscapeDataString(worker.SessionId)}")"><code>@worker.SessionId</code></NavLink></td>
<td>@DashboardDisplay.DateTime(worker.LastHeartbeatAt)</td>
<td>@DashboardDisplay.Text(worker.LastFault)</td>
</tr>
}
</tbody>
</table>
</div>
}
</section>
}
src/MxGateway.Server/Dashboard/Components/Routes.razor
+15
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<Router AppAssembly="@typeof(Routes).Assembly">
<Found Context="routeData">
<RouteView RouteData="@routeData" DefaultLayout="@typeof(DashboardLayout)" />
<FocusOnNavigate RouteData="@routeData" Selector="h1" />
</Found>
<NotFound>
<LayoutView Layout="@typeof(DashboardLayout)">
<PageTitle>Dashboard - Not Found</PageTitle>
<section class="dashboard-section">
<h1 class="h4 mb-3">Not Found</h1>
<p class="mb-0">The requested dashboard page does not exist.</p>
</section>
</LayoutView>
</NotFound>
</Router>
src/MxGateway.Server/Dashboard/Components/Shared/FaultList.razor
+39
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@if (Faults.Count == 0)
{
<div class="empty-state">No faults recorded.</div>
}
else
{
<div class="table-responsive">
<table class="table table-sm align-middle dashboard-table">
<thead>
<tr>
<th scope="col">Observed</th>
<th scope="col">Source</th>
<th scope="col">Session</th>
<th scope="col">Worker</th>
<th scope="col">State</th>
<th scope="col">Message</th>
</tr>
</thead>
<tbody>
@foreach (DashboardFaultSummary fault in Faults)
{
<tr>
<td>@DashboardDisplay.DateTime(fault.ObservedAt)</td>
<td>@fault.Source</td>
<td><code>@DashboardDisplay.Text(fault.SessionId)</code></td>
<td>@(fault.WorkerProcessId?.ToString(System.Globalization.CultureInfo.InvariantCulture) ?? "-")</td>
<td><StatusBadge Text="@fault.State" /></td>
<td>@fault.Message</td>
</tr>
}
</tbody>
</table>
</div>
}
@code {
[Parameter]
public IReadOnlyList<DashboardFaultSummary> Faults { get; set; } = [];
}
src/MxGateway.Server/Dashboard/Components/Shared/MetricCard.razor
+21
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<div class="card metric-card h-100">
<div class="card-body">
<div class="metric-label">@Label</div>
<div class="metric-value">@Value</div>
@if (!string.IsNullOrWhiteSpace(Detail))
{
<div class="metric-detail">@Detail</div>
}
</div>
</div>
@code {
[Parameter]
public string Label { get; set; } = string.Empty;
[Parameter]
public string Value { get; set; } = string.Empty;
[Parameter]
public string? Detail { get; set; }
}
src/MxGateway.Server/Dashboard/Components/Shared/StatusBadge.razor
+15
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<span class="badge @CssClass">@Text</span>
@code {
[Parameter]
public string? Text { get; set; }
private string CssClass => Text switch
{
"Ready" or "Healthy" => "text-bg-success",
"Creating" or "StartingWorker" or "WaitingForPipe" or "InitializingWorker" or "Closing" => "text-bg-info",
"Closed" => "text-bg-secondary",
"Faulted" => "text-bg-danger",
_ => "text-bg-light text-dark border"
};
}
src/MxGateway.Server/Dashboard/Components/_Imports.razor
+12
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@using Microsoft.AspNetCore.Components.Authorization
@using Microsoft.AspNetCore.Components.Forms
@using Microsoft.AspNetCore.Components.Routing
@using Microsoft.AspNetCore.Components.Web
@using Microsoft.Extensions.Options
@using MxGateway.Contracts.Proto
@using MxGateway.Server.Configuration
@using MxGateway.Server.Dashboard
@using MxGateway.Server.Dashboard.Components.Layout
@using MxGateway.Server.Dashboard.Components.Shared
@using MxGateway.Server.Workers
@using static Microsoft.AspNetCore.Components.Web.RenderMode
src/MxGateway.Server/Dashboard/DashboardAuthenticationDefaults.cs
+10
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namespace MxGateway.Server.Dashboard;
public static class DashboardAuthenticationDefaults
{
public const string AuthenticationScheme = "MxGateway.Dashboard";
public const string AuthorizationPolicy = "MxGateway.Dashboard";
public const string ScopeClaimType = "scope";
public const string KeyPrefixClaimType = "mxgateway:key_prefix";
public const string CookieName = "__Host-MxGatewayDashboard";
}
src/MxGateway.Server/Dashboard/DashboardAuthenticationResult.cs
+19
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using System.Security.Claims;
namespace MxGateway.Server.Dashboard;
public sealed record DashboardAuthenticationResult(
bool Succeeded,
ClaimsPrincipal? Principal,
string? FailureMessage)
{
public static DashboardAuthenticationResult Success(ClaimsPrincipal principal)
{
return new DashboardAuthenticationResult(true, principal, null);
}
public static DashboardAuthenticationResult Fail(string failureMessage)
{
return new DashboardAuthenticationResult(false, null, failureMessage);
}
}
src/MxGateway.Server/Dashboard/DashboardAuthenticator.cs
+81
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using System.Security.Claims;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Server.Dashboard;
public sealed class DashboardAuthenticator(
IApiKeyVerifier apiKeyVerifier,
IOptions<GatewayOptions> options) : IDashboardAuthenticator
{
private const string GenericFailureMessage = "The API key is invalid or is not authorized for dashboard access.";
public async Task<DashboardAuthenticationResult> AuthenticateAsync(
string? apiKey,
CancellationToken cancellationToken)
{
if (options.Value.Authentication.Mode == AuthenticationMode.Disabled)
{
return DashboardAuthenticationResult.Success(CreatePrincipal(new ApiKeyIdentity(
KeyId: "authentication-disabled",
KeyPrefix: "authentication-disabled",
DisplayName: "Authentication Disabled",
Scopes: new HashSet<string>([GatewayScopes.Admin], StringComparer.Ordinal))));
}
if (string.IsNullOrWhiteSpace(apiKey))
{
return DashboardAuthenticationResult.Fail(GenericFailureMessage);
}
ApiKeyVerificationResult verificationResult = await apiKeyVerifier
.VerifyAsync(FormatAuthorizationHeader(apiKey), cancellationToken)
.ConfigureAwait(false);
if (!verificationResult.Succeeded || verificationResult.Identity is null)
{
return DashboardAuthenticationResult.Fail(GenericFailureMessage);
}
if (options.Value.Dashboard.RequireAdminScope
&& !verificationResult.Identity.Scopes.Contains(GatewayScopes.Admin))
{
return DashboardAuthenticationResult.Fail(GenericFailureMessage);
}
return DashboardAuthenticationResult.Success(CreatePrincipal(verificationResult.Identity));
}
private static string FormatAuthorizationHeader(string apiKey)
{
string trimmedApiKey = apiKey.Trim();
return trimmedApiKey.StartsWith("Bearer ", StringComparison.OrdinalIgnoreCase)
? trimmedApiKey
: $"Bearer {trimmedApiKey}";
}
private static ClaimsPrincipal CreatePrincipal(ApiKeyIdentity identity)
{
List<Claim> claims =
[
new Claim(ClaimTypes.NameIdentifier, identity.KeyId),
new Claim(ClaimTypes.Name, identity.DisplayName),
new Claim(DashboardAuthenticationDefaults.KeyPrefixClaimType, identity.KeyPrefix)
];
claims.AddRange(identity.Scopes.Select(scope => new Claim(
DashboardAuthenticationDefaults.ScopeClaimType,
scope)));
ClaimsIdentity claimsIdentity = new(
claims,
DashboardAuthenticationDefaults.AuthenticationScheme,
ClaimTypes.Name,
DashboardAuthenticationDefaults.ScopeClaimType);
return new ClaimsPrincipal(claimsIdentity);
}
}
src/MxGateway.Server/Dashboard/DashboardAuthorizationHandler.cs
+59
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using System.Net;
using Microsoft.AspNetCore.Authorization;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Server.Dashboard;
public sealed class DashboardAuthorizationHandler(
IHttpContextAccessor httpContextAccessor,
IOptions<GatewayOptions> options) : AuthorizationHandler<DashboardAuthorizationRequirement>
{
protected override Task HandleRequirementAsync(
AuthorizationHandlerContext context,
DashboardAuthorizationRequirement requirement)
{
GatewayOptions gatewayOptions = options.Value;
if (gatewayOptions.Authentication.Mode == AuthenticationMode.Disabled)
{
context.Succeed(requirement);
return Task.CompletedTask;
}
if (gatewayOptions.Dashboard.AllowAnonymousLocalhost && IsLoopbackRequest())
{
context.Succeed(requirement);
return Task.CompletedTask;
}
if (context.User.Identity?.IsAuthenticated != true)
{
return Task.CompletedTask;
}
if (!gatewayOptions.Dashboard.RequireAdminScope || HasAdminScope(context))
{
context.Succeed(requirement);
}
return Task.CompletedTask;
}
private bool IsLoopbackRequest()
{
IPAddress? remoteAddress = httpContextAccessor.HttpContext?.Connection.RemoteIpAddress;
return remoteAddress is not null && IPAddress.IsLoopback(remoteAddress);
}
private static bool HasAdminScope(AuthorizationHandlerContext context)
{
return context.User.HasClaim(
DashboardAuthenticationDefaults.ScopeClaimType,
GatewayScopes.Admin);
}
}
src/MxGateway.Server/Dashboard/DashboardAuthorizationRequirement.cs
+5
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@@ -0,0 +1,5 @@
using Microsoft.AspNetCore.Authorization;
namespace MxGateway.Server.Dashboard;
public sealed class DashboardAuthorizationRequirement : IAuthorizationRequirement;
src/MxGateway.Server/Dashboard/DashboardEndpointRouteBuilderExtensions.cs
+197
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using System.Text.Encodings.Web;
using Microsoft.AspNetCore.Antiforgery;
using Microsoft.AspNetCore.Authentication;
using Microsoft.AspNetCore.Http.HttpResults;
using MxGateway.Server.Configuration;
using MxGateway.Server.Dashboard.Components;
namespace MxGateway.Server.Dashboard;
public static class DashboardEndpointRouteBuilderExtensions
{
public static IEndpointRouteBuilder MapGatewayDashboard(this IEndpointRouteBuilder endpoints)
{
IConfiguration configuration = endpoints.ServiceProvider.GetRequiredService<IConfiguration>();
IConfigurationSection dashboardSection = configuration
.GetSection($"{GatewayOptions.SectionName}:Dashboard");
if (bool.TryParse(dashboardSection["Enabled"], out bool enabled) && !enabled)
{
return endpoints;
}
string pathBase = NormalizePathBase(dashboardSection["PathBase"] ?? new DashboardOptions().PathBase);
RouteGroupBuilder dashboard = endpoints.MapGroup(pathBase);
dashboard.MapGet(
"/login",
(HttpContext httpContext, IAntiforgery antiforgery) => GetLoginAsync(httpContext, antiforgery, pathBase))
.AllowAnonymous()
.WithName("DashboardLogin");
dashboard.MapPost(
"/login",
(HttpContext httpContext, IAntiforgery antiforgery, IDashboardAuthenticator authenticator) =>
PostLoginAsync(httpContext, antiforgery, authenticator, pathBase))
.AllowAnonymous()
.WithName("DashboardLoginPost");
dashboard.MapPost(
"/logout",
(HttpContext httpContext, IAntiforgery antiforgery) => PostLogoutAsync(httpContext, antiforgery, pathBase))
.RequireAuthorization(DashboardAuthenticationDefaults.AuthorizationPolicy)
.WithName("DashboardLogout");
dashboard.MapGet("/denied", () => Results.Content(
RenderPage("Access denied", "<p>The signed-in API key is not authorized for dashboard access.</p>"),
"text/html"))
.AllowAnonymous()
.WithName("DashboardAccessDenied");
dashboard.MapRazorComponents<App>()
.AddInteractiveServerRenderMode()
.RequireAuthorization(DashboardAuthenticationDefaults.AuthorizationPolicy);
return endpoints;
}
private static Task<ContentHttpResult> GetLoginAsync(
HttpContext httpContext,
IAntiforgery antiforgery,
string pathBase)
{
string returnUrl = SanitizeReturnUrl(
httpContext.Request.Query["returnUrl"].ToString(),
pathBase);
return Task.FromResult(TypedResults.Content(
RenderLoginPage(httpContext, antiforgery, returnUrl, pathBase, failureMessage: null),
"text/html"));
}
private static async Task<IResult> PostLoginAsync(
HttpContext httpContext,
IAntiforgery antiforgery,
IDashboardAuthenticator authenticator,
string pathBase)
{
await antiforgery.ValidateRequestAsync(httpContext).ConfigureAwait(false);
IFormCollection form = await httpContext.Request
.ReadFormAsync(httpContext.RequestAborted)
.ConfigureAwait(false);
string returnUrl = SanitizeReturnUrl(
form["returnUrl"].ToString(),
pathBase);
DashboardAuthenticationResult result = await authenticator
.AuthenticateAsync(form["apiKey"].ToString(), httpContext.RequestAborted)
.ConfigureAwait(false);
if (!result.Succeeded || result.Principal is null)
{
return TypedResults.Content(
RenderLoginPage(httpContext, antiforgery, returnUrl, pathBase, result.FailureMessage),
"text/html",
statusCode: StatusCodes.Status401Unauthorized);
}
await httpContext
.SignInAsync(DashboardAuthenticationDefaults.AuthenticationScheme, result.Principal)
.ConfigureAwait(false);
return Results.LocalRedirect(returnUrl);
}
private static async Task<IResult> PostLogoutAsync(
HttpContext httpContext,
IAntiforgery antiforgery,
string pathBase)
{
await antiforgery.ValidateRequestAsync(httpContext).ConfigureAwait(false);
await httpContext
.SignOutAsync(DashboardAuthenticationDefaults.AuthenticationScheme)
.ConfigureAwait(false);
return Results.LocalRedirect($"{pathBase}/login");
}
private static string RenderLoginPage(
HttpContext httpContext,
IAntiforgery antiforgery,
string returnUrl,
string pathBase,
string? failureMessage)
{
AntiforgeryTokenSet tokens = antiforgery.GetAndStoreTokens(httpContext);
string requestToken = tokens.RequestToken ?? string.Empty;
string alert = string.IsNullOrWhiteSpace(failureMessage)
? string.Empty
: $"<p role=\"alert\">{HtmlEncoder.Default.Encode(failureMessage)}</p>";
string body = $"""
<section class="dashboard-login">
{alert}
<form method="post" action="{HtmlEncoder.Default.Encode(pathBase + "/login")}" class="card login-card">
<div class="card-body">
<input name="{tokens.FormFieldName}" type="hidden" value="{HtmlEncoder.Default.Encode(requestToken)}" />
<input name="returnUrl" type="hidden" value="{HtmlEncoder.Default.Encode(returnUrl)}" />
<div class="mb-3">
<label for="apiKey" class="form-label">API key</label>
<input id="apiKey" name="apiKey" type="password" autocomplete="off" class="form-control" />
</div>
<button type="submit" class="btn btn-primary">Sign in</button>
</div>
</form>
</section>
""";
return RenderPage("Dashboard Sign In", body);
}
private static string RenderPage(string title, string body)
{
return $"""
<!doctype html>
<html lang="en">
<head>
<meta charset="utf-8" />
<meta name="viewport" content="width=device-width, initial-scale=1" />
<title>{HtmlEncoder.Default.Encode(title)}</title>
<link rel="stylesheet" href="/lib/bootstrap/css/bootstrap.min.css" />
<link rel="stylesheet" href="/css/dashboard.css" />
</head>
<body class="dashboard-body">
<main class="container py-5">
<h1 class="h3 mb-4">{HtmlEncoder.Default.Encode(title)}</h1>
{body}
</main>
<script src="/lib/bootstrap/js/bootstrap.bundle.min.js"></script>
</body>
</html>
""";
}
private static string NormalizePathBase(string pathBase)
{
string normalized = pathBase.TrimEnd('/');
return string.IsNullOrWhiteSpace(normalized) || !normalized.StartsWith("/", StringComparison.Ordinal)
? "/dashboard"
: normalized;
}
private static string SanitizeReturnUrl(string? returnUrl, string pathBase)
{
if (string.IsNullOrWhiteSpace(returnUrl)
|| !returnUrl.StartsWith("/", StringComparison.Ordinal)
|| returnUrl.StartsWith("//", StringComparison.Ordinal)
|| !returnUrl.StartsWith(pathBase, StringComparison.OrdinalIgnoreCase)
|| Uri.TryCreate(returnUrl, UriKind.Absolute, out _))
{
return pathBase;
}
return returnUrl;
}
}
src/MxGateway.Server/Dashboard/DashboardFaultSummary.cs
+9
View File
@@ -0,0 +1,9 @@
namespace MxGateway.Server.Dashboard;
public sealed record DashboardFaultSummary(
string Source,
string? SessionId,
int? WorkerProcessId,
string State,
string Message,
DateTimeOffset ObservedAt);
src/MxGateway.Server/Dashboard/DashboardMetricSummary.cs
+6
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@@ -0,0 +1,6 @@
namespace MxGateway.Server.Dashboard;
public sealed record DashboardMetricSummary(
string Name,
long Value,
string? Dimension = null);
src/MxGateway.Server/Dashboard/DashboardRedactor.cs
+34
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@@ -0,0 +1,34 @@
using MxGateway.Server.Diagnostics;
namespace MxGateway.Server.Dashboard;
internal static class DashboardRedactor
{
private static readonly string[] SensitiveTextMarkers =
[
"apikey",
"api_key",
"authorization",
"credential",
"password",
"secret",
"token",
];
public static string? Redact(string? value)
{
if (string.IsNullOrWhiteSpace(value))
{
return value;
}
if (value.Contains("mxgw_", StringComparison.OrdinalIgnoreCase))
{
return GatewayLogRedactor.RedactClientIdentity(value);
}
return SensitiveTextMarkers.Any(marker => value.Contains(marker, StringComparison.OrdinalIgnoreCase))
? GatewayLogRedactor.RedactedValue
: value;
}
}
src/MxGateway.Server/Dashboard/DashboardServiceCollectionExtensions.cs
+56
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@@ -0,0 +1,56 @@
using Microsoft.AspNetCore.Authentication.Cookies;
using Microsoft.AspNetCore.Authorization;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
namespace MxGateway.Server.Dashboard;
public static class DashboardServiceCollectionExtensions
{
public static IServiceCollection AddGatewayDashboard(this IServiceCollection services)
{
services.AddSingleton<IDashboardSnapshotService, DashboardSnapshotService>();
services.AddSingleton<IDashboardAuthenticator, DashboardAuthenticator>();
services.AddHttpContextAccessor();
services.AddAntiforgery();
services.AddCascadingAuthenticationState();
services.AddRazorComponents()
.AddInteractiveServerComponents();
services
.AddAuthentication(DashboardAuthenticationDefaults.AuthenticationScheme)
.AddCookie(DashboardAuthenticationDefaults.AuthenticationScheme);
services.AddOptions<CookieAuthenticationOptions>(DashboardAuthenticationDefaults.AuthenticationScheme)
.Configure<IOptions<GatewayOptions>>(ConfigureCookieOptions);
services.AddAuthorization(options =>
{
options.AddPolicy(
DashboardAuthenticationDefaults.AuthorizationPolicy,
policy => policy.AddRequirements(new DashboardAuthorizationRequirement()));
});
services.AddSingleton<IAuthorizationHandler, DashboardAuthorizationHandler>();
return services;
}
private static void ConfigureCookieOptions(
CookieAuthenticationOptions cookieOptions,
IOptions<GatewayOptions> gatewayOptions)
{
string pathBase = gatewayOptions.Value.Dashboard.PathBase.TrimEnd('/');
if (string.IsNullOrWhiteSpace(pathBase))
{
pathBase = "/dashboard";
}
cookieOptions.Cookie.Name = DashboardAuthenticationDefaults.CookieName;
cookieOptions.Cookie.HttpOnly = true;
cookieOptions.Cookie.SecurePolicy = CookieSecurePolicy.Always;
cookieOptions.Cookie.SameSite = SameSiteMode.Strict;
cookieOptions.Cookie.Path = "/";
cookieOptions.LoginPath = $"{pathBase}/login";
cookieOptions.LogoutPath = $"{pathBase}/logout";
cookieOptions.AccessDeniedPath = $"{pathBase}/denied";
cookieOptions.ExpireTimeSpan = TimeSpan.FromHours(8);
cookieOptions.SlidingExpiration = true;
}
}
src/MxGateway.Server/Dashboard/DashboardSessionSummary.cs
+19
View File
@@ -0,0 +1,19 @@
using MxGateway.Contracts.Proto;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Dashboard;
public sealed record DashboardSessionSummary(
string SessionId,
string BackendName,
SessionState State,
string? ClientIdentity,
string? ClientSessionName,
string? ClientCorrelationId,
DateTimeOffset OpenedAt,
DateTimeOffset LastClientActivityAt,
DateTimeOffset? LeaseExpiresAt,
int? WorkerProcessId,
WorkerClientState? WorkerState,
DateTimeOffset? LastWorkerHeartbeatAt,
string? LastFault);
src/MxGateway.Server/Dashboard/DashboardSnapshot.cs
+15
View File
@@ -0,0 +1,15 @@
using MxGateway.Server.Configuration;
namespace MxGateway.Server.Dashboard;
public sealed record DashboardSnapshot(
DateTimeOffset GeneratedAt,
DateTimeOffset GatewayStartedAt,
TimeSpan GatewayUptime,
string GatewayStatus,
string GatewayVersion,
IReadOnlyList<DashboardSessionSummary> Sessions,
IReadOnlyList<DashboardWorkerSummary> Workers,
IReadOnlyList<DashboardMetricSummary> Metrics,
IReadOnlyList<DashboardFaultSummary> Faults,
EffectiveGatewayConfiguration Configuration);
src/MxGateway.Server/Dashboard/DashboardSnapshotService.cs
+196
View File
@@ -0,0 +1,196 @@
using System.Runtime.CompilerServices;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Dashboard;
public sealed class DashboardSnapshotService : IDashboardSnapshotService
{
private const string HealthyStatus = "Healthy";
private readonly ISessionRegistry _sessionRegistry;
private readonly GatewayMetrics _metrics;
private readonly IGatewayConfigurationProvider _configurationProvider;
private readonly TimeProvider _timeProvider;
private readonly DateTimeOffset _gatewayStartedAt;
private readonly TimeSpan _snapshotInterval;
private readonly int _recentFaultLimit;
private readonly int _recentSessionLimit;
public DashboardSnapshotService(
ISessionRegistry sessionRegistry,
GatewayMetrics metrics,
IGatewayConfigurationProvider configurationProvider,
IOptions<GatewayOptions> options,
TimeProvider? timeProvider = null)
{
_sessionRegistry = sessionRegistry ?? throw new ArgumentNullException(nameof(sessionRegistry));
_metrics = metrics ?? throw new ArgumentNullException(nameof(metrics));
_configurationProvider = configurationProvider ?? throw new ArgumentNullException(nameof(configurationProvider));
ArgumentNullException.ThrowIfNull(options);
_timeProvider = timeProvider ?? TimeProvider.System;
_gatewayStartedAt = _timeProvider.GetUtcNow();
_snapshotInterval = TimeSpan.FromMilliseconds(options.Value.Dashboard.SnapshotIntervalMilliseconds);
_recentFaultLimit = options.Value.Dashboard.RecentFaultLimit;
_recentSessionLimit = options.Value.Dashboard.RecentSessionLimit;
}
public DashboardSnapshot GetSnapshot()
{
DateTimeOffset generatedAt = _timeProvider.GetUtcNow();
IReadOnlyList<GatewaySession> sessions = _sessionRegistry.Snapshot()
.OrderByDescending(session => session.OpenedAt)
.ToArray();
IReadOnlyList<DashboardSessionSummary> sessionSummaries = sessions
.Take(ResolveLimit(_recentSessionLimit))
.Select(CreateSessionSummary)
.ToArray();
IReadOnlyList<DashboardWorkerSummary> workerSummaries = sessions
.Where(session => session.WorkerClient is not null)
.Select(CreateWorkerSummary)
.ToArray();
GatewayMetricsSnapshot metricsSnapshot = _metrics.GetSnapshot();
return new DashboardSnapshot(
GeneratedAt: generatedAt,
GatewayStartedAt: _gatewayStartedAt,
GatewayUptime: generatedAt - _gatewayStartedAt,
GatewayStatus: HealthyStatus,
GatewayVersion: typeof(DashboardSnapshotService).Assembly.GetName().Version?.ToString() ?? "unknown",
Sessions: sessionSummaries,
Workers: workerSummaries,
Metrics: CreateMetricSummaries(metricsSnapshot),
Faults: CreateFaultSummaries(sessions, generatedAt),
Configuration: _configurationProvider.GetEffectiveConfiguration());
}
public async IAsyncEnumerable<DashboardSnapshot> WatchSnapshotsAsync(
[EnumeratorCancellation] CancellationToken cancellationToken)
{
if (cancellationToken.IsCancellationRequested)
{
yield break;
}
yield return GetSnapshot();
using PeriodicTimer timer = new(_snapshotInterval, _timeProvider);
while (true)
{
bool hasNext;
try
{
hasNext = await timer.WaitForNextTickAsync(cancellationToken).ConfigureAwait(false);
}
catch (OperationCanceledException)
{
yield break;
}
if (!hasNext)
{
yield break;
}
yield return GetSnapshot();
}
}
private static DashboardSessionSummary CreateSessionSummary(GatewaySession session)
{
IWorkerClient? workerClient = session.WorkerClient;
return new DashboardSessionSummary(
SessionId: session.SessionId,
BackendName: session.BackendName,
State: session.State,
ClientIdentity: DashboardRedactor.Redact(session.ClientIdentity),
ClientSessionName: DashboardRedactor.Redact(session.ClientSessionName),
ClientCorrelationId: DashboardRedactor.Redact(session.ClientCorrelationId),
OpenedAt: session.OpenedAt,
LastClientActivityAt: session.LastClientActivityAt,
LeaseExpiresAt: session.LeaseExpiresAt,
WorkerProcessId: workerClient?.ProcessId,
WorkerState: workerClient?.State,
LastWorkerHeartbeatAt: workerClient?.LastHeartbeatAt,
LastFault: DashboardRedactor.Redact(session.FinalFault));
}
private static DashboardWorkerSummary CreateWorkerSummary(GatewaySession session)
{
IWorkerClient workerClient = session.WorkerClient!;
return new DashboardWorkerSummary(
SessionId: session.SessionId,
ProcessId: workerClient.ProcessId,
State: workerClient.State,
LastHeartbeatAt: workerClient.LastHeartbeatAt,
LastFault: DashboardRedactor.Redact(session.FinalFault));
}
private static IReadOnlyList<DashboardMetricSummary> CreateMetricSummaries(GatewayMetricsSnapshot snapshot)
{
List<DashboardMetricSummary> metrics =
[
new("mxgateway.sessions.open", snapshot.OpenSessions),
new("mxgateway.workers.running", snapshot.WorkersRunning),
new("mxgateway.events.queue.depth", snapshot.EventQueueDepth),
new("mxgateway.sessions.opened", snapshot.SessionsOpened),
new("mxgateway.sessions.closed", snapshot.SessionsClosed),
new("mxgateway.commands.started", snapshot.CommandsStarted),
new("mxgateway.commands.succeeded", snapshot.CommandsSucceeded),
new("mxgateway.commands.failed", snapshot.CommandsFailed),
new("mxgateway.events.received", snapshot.EventsReceived),
new("mxgateway.queues.overflows", snapshot.QueueOverflows),
new("mxgateway.faults", snapshot.Faults),
new("mxgateway.workers.killed", snapshot.WorkerKills),
new("mxgateway.workers.exited", snapshot.WorkerExits),
new("mxgateway.heartbeats.failed", snapshot.HeartbeatFailures),
new("mxgateway.grpc.streams.disconnected", snapshot.StreamDisconnects),
];
metrics.AddRange(snapshot.CommandFailuresByMethod
.OrderBy(entry => entry.Key, StringComparer.OrdinalIgnoreCase)
.Select(entry => new DashboardMetricSummary("mxgateway.commands.failed", entry.Value, entry.Key)));
metrics.AddRange(snapshot.EventsByFamily
.OrderBy(entry => entry.Key, StringComparer.OrdinalIgnoreCase)
.Select(entry => new DashboardMetricSummary("mxgateway.events.received", entry.Value, entry.Key)));
return metrics;
}
private IReadOnlyList<DashboardFaultSummary> CreateFaultSummaries(
IReadOnlyList<GatewaySession> sessions,
DateTimeOffset generatedAt)
{
return sessions
.Where(HasFault)
.Take(ResolveLimit(_recentFaultLimit))
.Select(session => new DashboardFaultSummary(
Source: session.WorkerClient?.State == WorkerClientState.Faulted ? "Worker" : "Session",
SessionId: session.SessionId,
WorkerProcessId: session.WorkerProcessId,
State: session.WorkerClient?.State == WorkerClientState.Faulted
? WorkerClientState.Faulted.ToString()
: session.State.ToString(),
Message: DashboardRedactor.Redact(session.FinalFault) ?? "Faulted",
ObservedAt: generatedAt))
.ToArray();
}
private static bool HasFault(GatewaySession session)
{
return session.State == MxGateway.Contracts.Proto.SessionState.Faulted
|| session.WorkerClient?.State == WorkerClientState.Faulted
|| !string.IsNullOrWhiteSpace(session.FinalFault);
}
private static int ResolveLimit(int configuredLimit)
{
return configuredLimit < 0 ? 0 : configuredLimit;
}
}
src/MxGateway.Server/Dashboard/DashboardWorkerSummary.cs
+10
View File
@@ -0,0 +1,10 @@
using MxGateway.Server.Workers;
namespace MxGateway.Server.Dashboard;
public sealed record DashboardWorkerSummary(
string SessionId,
int? ProcessId,
WorkerClientState State,
DateTimeOffset LastHeartbeatAt,
string? LastFault);
src/MxGateway.Server/Dashboard/IDashboardAuthenticator.cs
+8
View File
@@ -0,0 +1,8 @@
namespace MxGateway.Server.Dashboard;
public interface IDashboardAuthenticator
{
Task<DashboardAuthenticationResult> AuthenticateAsync(
string? apiKey,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Dashboard/IDashboardSnapshotService.cs
+8
View File
@@ -0,0 +1,8 @@
namespace MxGateway.Server.Dashboard;
public interface IDashboardSnapshotService
{
DashboardSnapshot GetSnapshot();
IAsyncEnumerable<DashboardSnapshot> WatchSnapshotsAsync(CancellationToken cancellationToken);
}
src/MxGateway.Server/GatewayApplication.cs
+17
View File
@@ -1,8 +1,12 @@
using MxGateway.Contracts;
using MxGateway.Server.Configuration;
using MxGateway.Server.Dashboard;
using MxGateway.Server.Diagnostics;
using MxGateway.Server.Grpc;
using MxGateway.Server.Metrics;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Server;
@@ -15,6 +19,10 @@ public static class GatewayApplication
WebApplication app = builder.Build();
app.UseGatewayRequestLoggingScope();
app.UseStaticFiles();
app.UseAuthentication();
app.UseAuthorization();
app.UseAntiforgery();
app.MapGatewayEndpoints();
return app;
@@ -26,9 +34,15 @@ public static class GatewayApplication
builder.Services.AddGatewayConfiguration();
builder.Services.AddSqliteAuthStore();
builder.Services.AddGatewayGrpcAuthorization();
builder.Services.AddHealthChecks();
builder.Services.AddSingleton<GatewayMetrics>();
builder.Services.AddSingleton<MxAccessGrpcMapper>();
builder.Services.AddSingleton<MxAccessGrpcRequestValidator>();
builder.Services.AddSingleton<IEventStreamService, EventStreamService>();
builder.Services.AddWorkerProcessLauncher();
builder.Services.AddGatewaySessions();
builder.Services.AddGatewayDashboard();
return builder;
}
@@ -45,6 +59,9 @@ public static class GatewayApplication
WorkerProtocolVersion: GatewayContractInfo.WorkerProtocolVersion)))
.WithName("LiveHealth");
endpoints.MapGrpcService<MxAccessGatewayService>();
endpoints.MapGatewayDashboard();
return endpoints;
}
}
src/MxGateway.Server/Grpc/EventStreamService.cs
+140
View File
@@ -0,0 +1,140 @@
using System.Runtime.CompilerServices;
using System.Threading.Channels;
using Microsoft.Extensions.Options;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Grpc;
public sealed class EventStreamService(
ISessionManager sessionManager,
IOptions<GatewayOptions> options,
MxAccessGrpcMapper mapper,
GatewayMetrics metrics,
ILogger<EventStreamService> logger) : IEventStreamService
{
public async IAsyncEnumerable<MxEvent> StreamEventsAsync(
StreamEventsRequest request,
[EnumeratorCancellation] CancellationToken cancellationToken)
{
if (!sessionManager.TryGetSession(request.SessionId, out GatewaySession session))
{
throw new SessionManagerException(
SessionManagerErrorCode.SessionNotFound,
$"Session {request.SessionId} was not found.");
}
using IDisposable subscriber = session.AttachEventSubscriber(
options.Value.Sessions.AllowMultipleEventSubscribers);
using CancellationTokenSource streamCts = CancellationTokenSource.CreateLinkedTokenSource(cancellationToken);
int streamQueueDepth = 0;
Channel<MxEvent> eventQueue = Channel.CreateBounded<MxEvent>(
new BoundedChannelOptions(options.Value.Events.QueueCapacity)
{
SingleReader = true,
SingleWriter = true,
FullMode = BoundedChannelFullMode.Wait,
AllowSynchronousContinuations = false,
});
Task producerTask = ProduceEventsAsync(
session,
request.AfterWorkerSequence,
eventQueue.Writer,
() =>
{
int depth = Interlocked.Increment(ref streamQueueDepth);
metrics.SetEventQueueDepth(depth);
},
streamCts.Token);
try
{
await foreach (MxEvent mxEvent in eventQueue.Reader.ReadAllAsync(cancellationToken).ConfigureAwait(false))
{
int depth = Math.Max(0, Interlocked.Decrement(ref streamQueueDepth));
metrics.SetEventQueueDepth(depth);
yield return mxEvent;
}
await producerTask.ConfigureAwait(false);
}
finally
{
await streamCts.CancelAsync().ConfigureAwait(false);
subscriber.Dispose();
metrics.StreamDisconnected("Detached");
try
{
await producerTask.ConfigureAwait(false);
}
catch (OperationCanceledException) when (streamCts.IsCancellationRequested)
{
}
catch (Exception exception)
{
logger.LogDebug(
exception,
"Event stream producer stopped for session {SessionId}.",
request.SessionId);
}
}
}
private async Task ProduceEventsAsync(
GatewaySession session,
ulong afterWorkerSequence,
ChannelWriter<MxEvent> writer,
Action eventQueued,
CancellationToken cancellationToken)
{
try
{
await foreach (WorkerEvent workerEvent in session
.ReadEventsAsync(cancellationToken)
.WithCancellation(cancellationToken)
.ConfigureAwait(false))
{
MxEvent publicEvent = mapper.MapEvent(workerEvent);
if (publicEvent.WorkerSequence <= afterWorkerSequence)
{
continue;
}
if (!writer.TryWrite(publicEvent))
{
string message = $"Session {session.SessionId} event stream queue overflowed.";
session.MarkFaulted(message);
metrics.QueueOverflow("grpc-event-stream");
metrics.Fault(SessionManagerErrorCode.EventQueueOverflow.ToString());
writer.TryComplete(new SessionManagerException(
SessionManagerErrorCode.EventQueueOverflow,
message));
return;
}
eventQueued();
}
writer.TryComplete();
}
catch (OperationCanceledException) when (cancellationToken.IsCancellationRequested)
{
writer.TryComplete();
}
catch (Exception exception)
{
if (exception is WorkerClientException)
{
session.MarkFaulted(exception.Message);
metrics.Fault(WorkerClientErrorCode.WorkerFaulted.ToString());
}
writer.TryComplete(exception);
}
}
}
src/MxGateway.Server/Grpc/IEventStreamService.cs
+10
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@@ -0,0 +1,10 @@
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Grpc;
public interface IEventStreamService
{
IAsyncEnumerable<MxEvent> StreamEventsAsync(
StreamEventsRequest request,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Grpc/MxAccessGatewayService.cs
+177
View File
@@ -0,0 +1,177 @@
using Grpc.Core;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Security.Authorization;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Grpc;
public sealed class MxAccessGatewayService(
ISessionManager sessionManager,
IGatewayRequestIdentityAccessor identityAccessor,
MxAccessGrpcRequestValidator requestValidator,
MxAccessGrpcMapper mapper,
IEventStreamService eventStreamService,
ILogger<MxAccessGatewayService> logger) : MxAccessGateway.MxAccessGatewayBase
{
public override async Task<OpenSessionReply> OpenSession(
OpenSessionRequest request,
ServerCallContext context)
{
try
{
requestValidator.ValidateOpenSession(request);
GatewaySession session = await sessionManager
.OpenSessionAsync(
SessionOpenRequest.FromContract(request),
ResolveClientIdentity(),
context.CancellationToken)
.ConfigureAwait(false);
OpenSessionReply reply = new()
{
SessionId = session.SessionId,
BackendName = session.BackendName,
WorkerProcessId = session.WorkerProcessId ?? 0,
WorkerProtocolVersion = GatewayContractInfo.WorkerProtocolVersion,
GatewayProtocolVersion = GatewayContractInfo.GatewayProtocolVersion,
DefaultCommandTimeout = Google.Protobuf.WellKnownTypes.Duration.FromTimeSpan(session.CommandTimeout),
ProtocolStatus = MxAccessGrpcMapper.Ok(),
};
reply.Capabilities.Add("unary-open-session");
reply.Capabilities.Add("unary-close-session");
reply.Capabilities.Add("unary-invoke");
reply.Capabilities.Add("server-stream-events");
return reply;
}
catch (Exception exception) when (exception is not RpcException)
{
throw MapException(exception);
}
}
public override async Task<CloseSessionReply> CloseSession(
CloseSessionRequest request,
ServerCallContext context)
{
try
{
requestValidator.ValidateCloseSession(request);
SessionCloseResult result = await sessionManager
.CloseSessionAsync(request.SessionId, context.CancellationToken)
.ConfigureAwait(false);
return new CloseSessionReply
{
SessionId = result.SessionId,
FinalState = result.FinalState,
ProtocolStatus = MxAccessGrpcMapper.Ok(result.AlreadyClosed ? "Session was already closed." : "Session closed."),
};
}
catch (Exception exception) when (exception is not RpcException)
{
throw MapException(exception);
}
}
public override async Task<MxCommandReply> Invoke(
MxCommandRequest request,
ServerCallContext context)
{
try
{
requestValidator.ValidateInvoke(request);
WorkerCommand workerCommand = mapper.MapCommand(request);
WorkerCommandReply workerReply = await sessionManager
.InvokeAsync(request.SessionId, workerCommand, context.CancellationToken)
.ConfigureAwait(false);
return mapper.MapCommandReply(workerReply);
}
catch (Exception exception) when (exception is not RpcException)
{
throw MapException(exception);
}
}
public override async Task StreamEvents(
StreamEventsRequest request,
IServerStreamWriter<MxEvent> responseStream,
ServerCallContext context)
{
try
{
requestValidator.ValidateStreamEvents(request);
await foreach (MxEvent publicEvent in eventStreamService
.StreamEventsAsync(request, context.CancellationToken)
.WithCancellation(context.CancellationToken)
.ConfigureAwait(false))
{
await responseStream.WriteAsync(publicEvent).ConfigureAwait(false);
}
}
catch (Exception exception) when (exception is not RpcException)
{
throw MapException(exception);
}
}
private string? ResolveClientIdentity()
{
return identityAccessor.Current?.DisplayName ?? identityAccessor.Current?.KeyId;
}
private RpcException MapException(Exception exception)
{
if (exception is OperationCanceledException)
{
return new RpcException(new Status(StatusCode.Cancelled, "gRPC request was canceled."));
}
if (exception is SessionManagerException sessionException)
{
return MapSessionException(sessionException);
}
if (exception is WorkerClientException workerClientException)
{
return MapWorkerClientException(workerClientException);
}
logger.LogWarning(exception, "Public gRPC request failed.");
return new RpcException(new Status(StatusCode.Unavailable, "Gateway request failed before an MXAccess reply was available."));
}
private static RpcException MapSessionException(SessionManagerException exception)
{
StatusCode statusCode = exception.ErrorCode switch
{
SessionManagerErrorCode.SessionNotFound => StatusCode.NotFound,
SessionManagerErrorCode.SessionNotReady => StatusCode.FailedPrecondition,
SessionManagerErrorCode.EventSubscriberAlreadyActive => StatusCode.ResourceExhausted,
SessionManagerErrorCode.EventQueueOverflow => StatusCode.ResourceExhausted,
SessionManagerErrorCode.SessionLimitExceeded => StatusCode.ResourceExhausted,
SessionManagerErrorCode.OpenFailed => StatusCode.Unavailable,
SessionManagerErrorCode.CloseFailed => StatusCode.Unavailable,
_ => StatusCode.Unavailable,
};
return new RpcException(new Status(statusCode, exception.Message));
}
private static RpcException MapWorkerClientException(WorkerClientException exception)
{
StatusCode statusCode = exception.ErrorCode switch
{
WorkerClientErrorCode.CommandTimeout => StatusCode.DeadlineExceeded,
WorkerClientErrorCode.GatewayShutdown => StatusCode.Cancelled,
WorkerClientErrorCode.InvalidState => StatusCode.FailedPrecondition,
WorkerClientErrorCode.ProtocolViolation => StatusCode.Internal,
_ => StatusCode.Unavailable,
};
return new RpcException(new Status(statusCode, exception.Message));
}
}
src/MxGateway.Server/Grpc/MxAccessGrpcMapper.cs
+124
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@@ -0,0 +1,124 @@
using Google.Protobuf.WellKnownTypes;
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Grpc;
public sealed class MxAccessGrpcMapper
{
private readonly TimeProvider _timeProvider;
public MxAccessGrpcMapper(TimeProvider? timeProvider = null)
{
_timeProvider = timeProvider ?? TimeProvider.System;
}
public WorkerCommand MapCommand(MxCommandRequest request)
{
ArgumentNullException.ThrowIfNull(request);
ArgumentNullException.ThrowIfNull(request.Command);
return new WorkerCommand
{
Command = request.Command.Clone(),
EnqueueTimestamp = Timestamp.FromDateTimeOffset(_timeProvider.GetUtcNow()),
};
}
public MxCommandReply MapCommandReply(WorkerCommandReply reply)
{
ArgumentNullException.ThrowIfNull(reply);
if (reply.Reply is null)
{
return new MxCommandReply
{
ProtocolStatus = ProtocolViolation("Worker command reply did not contain a public reply payload."),
};
}
return reply.Reply.Clone();
}
public MxEvent MapEvent(WorkerEvent workerEvent)
{
ArgumentNullException.ThrowIfNull(workerEvent);
return workerEvent.Event?.Clone() ?? new MxEvent
{
Family = MxEventFamily.Unspecified,
RawStatus = "Worker event did not contain a public event payload.",
};
}
public static ProtocolStatus Ok(string message = "OK")
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.Ok,
Message = message,
};
}
public static ProtocolStatus InvalidRequest(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.InvalidRequest,
Message = message,
};
}
public static ProtocolStatus SessionNotFound(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.SessionNotFound,
Message = message,
};
}
public static ProtocolStatus SessionNotReady(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.SessionNotReady,
Message = message,
};
}
public static ProtocolStatus WorkerUnavailable(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.WorkerUnavailable,
Message = message,
};
}
public static ProtocolStatus Timeout(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.Timeout,
Message = message,
};
}
public static ProtocolStatus Canceled(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.Canceled,
Message = message,
};
}
public static ProtocolStatus ProtocolViolation(string message)
{
return new ProtocolStatus
{
Code = ProtocolStatusCode.ProtocolViolation,
Message = message,
};
}
}
src/MxGateway.Server/Grpc/MxAccessGrpcRequestValidator.cs
+101
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@@ -0,0 +1,101 @@
using Grpc.Core;
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Grpc;
public sealed class MxAccessGrpcRequestValidator
{
public void ValidateOpenSession(OpenSessionRequest request)
{
ArgumentNullException.ThrowIfNull(request);
if (request.CommandTimeout is not null && request.CommandTimeout.ToTimeSpan() <= TimeSpan.Zero)
{
throw InvalidArgument("Command timeout must be greater than zero when provided.");
}
}
public void ValidateCloseSession(CloseSessionRequest request)
{
ArgumentNullException.ThrowIfNull(request);
RequireSessionId(request.SessionId);
}
public void ValidateStreamEvents(StreamEventsRequest request)
{
ArgumentNullException.ThrowIfNull(request);
RequireSessionId(request.SessionId);
}
public void ValidateInvoke(MxCommandRequest request)
{
ArgumentNullException.ThrowIfNull(request);
RequireSessionId(request.SessionId);
if (request.Command is null)
{
throw InvalidArgument("Invoke requires a command payload.");
}
if (request.Command.Kind is MxCommandKind.Unspecified)
{
throw InvalidArgument("Invoke requires a command kind.");
}
ValidateCommandPayload(request.Command);
}
private static void RequireSessionId(string sessionId)
{
if (string.IsNullOrWhiteSpace(sessionId))
{
throw InvalidArgument("Session id is required.");
}
}
private static void ValidateCommandPayload(MxCommand command)
{
MxCommand.PayloadOneofCase expectedPayload = ExpectedPayload(command.Kind);
if (command.PayloadCase != expectedPayload)
{
throw InvalidArgument(
$"Command kind {command.Kind} requires payload {expectedPayload} but received {command.PayloadCase}.");
}
}
private static MxCommand.PayloadOneofCase ExpectedPayload(MxCommandKind kind)
{
return kind switch
{
MxCommandKind.Register => MxCommand.PayloadOneofCase.Register,
MxCommandKind.Unregister => MxCommand.PayloadOneofCase.Unregister,
MxCommandKind.AddItem => MxCommand.PayloadOneofCase.AddItem,
MxCommandKind.AddItem2 => MxCommand.PayloadOneofCase.AddItem2,
MxCommandKind.RemoveItem => MxCommand.PayloadOneofCase.RemoveItem,
MxCommandKind.Advise => MxCommand.PayloadOneofCase.Advise,
MxCommandKind.UnAdvise => MxCommand.PayloadOneofCase.UnAdvise,
MxCommandKind.AdviseSupervisory => MxCommand.PayloadOneofCase.AdviseSupervisory,
MxCommandKind.AddBufferedItem => MxCommand.PayloadOneofCase.AddBufferedItem,
MxCommandKind.SetBufferedUpdateInterval => MxCommand.PayloadOneofCase.SetBufferedUpdateInterval,
MxCommandKind.Suspend => MxCommand.PayloadOneofCase.Suspend,
MxCommandKind.Activate => MxCommand.PayloadOneofCase.Activate,
MxCommandKind.Write => MxCommand.PayloadOneofCase.Write,
MxCommandKind.Write2 => MxCommand.PayloadOneofCase.Write2,
MxCommandKind.WriteSecured => MxCommand.PayloadOneofCase.WriteSecured,
MxCommandKind.WriteSecured2 => MxCommand.PayloadOneofCase.WriteSecured2,
MxCommandKind.AuthenticateUser => MxCommand.PayloadOneofCase.AuthenticateUser,
MxCommandKind.ArchestraUserToId => MxCommand.PayloadOneofCase.ArchestraUserToId,
MxCommandKind.Ping => MxCommand.PayloadOneofCase.Ping,
MxCommandKind.GetSessionState => MxCommand.PayloadOneofCase.GetSessionState,
MxCommandKind.GetWorkerInfo => MxCommand.PayloadOneofCase.GetWorkerInfo,
MxCommandKind.DrainEvents => MxCommand.PayloadOneofCase.DrainEvents,
MxCommandKind.ShutdownWorker => MxCommand.PayloadOneofCase.ShutdownWorker,
_ => MxCommand.PayloadOneofCase.None,
};
}
private static RpcException InvalidArgument(string detail)
{
return new RpcException(new Status(StatusCode.InvalidArgument, detail));
}
}
src/MxGateway.Server/MxGateway.Server.csproj
+1
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@@ -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/Security/Authorization/GatewayGrpcAuthorizationInterceptor.cs
+74
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@@ -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
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@@ -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
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@@ -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
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@@ -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
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@@ -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
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@@ -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/Sessions/GatewaySession.cs
+352
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@@ -0,0 +1,352 @@
using MxGateway.Contracts.Proto;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Sessions;
public sealed class GatewaySession
{
private readonly object _syncRoot = new();
private readonly SemaphoreSlim _closeLock = new(1, 1);
private IWorkerClient? _workerClient;
private SessionState _state = SessionState.Creating;
private string? _finalFault;
private DateTimeOffset _lastClientActivityAt;
private DateTimeOffset? _leaseExpiresAt;
private bool _closeStarted;
private int _activeEventSubscriberCount;
public GatewaySession(
string sessionId,
string backendName,
string pipeName,
string nonce,
string? clientIdentity,
string? clientSessionName,
string? clientCorrelationId,
TimeSpan commandTimeout,
TimeSpan startupTimeout,
TimeSpan shutdownTimeout,
DateTimeOffset openedAt)
{
if (string.IsNullOrWhiteSpace(sessionId))
{
throw new ArgumentException("Session id is required.", nameof(sessionId));
}
if (string.IsNullOrWhiteSpace(backendName))
{
throw new ArgumentException("Backend name is required.", nameof(backendName));
}
if (string.IsNullOrWhiteSpace(pipeName))
{
throw new ArgumentException("Pipe name is required.", nameof(pipeName));
}
if (string.IsNullOrWhiteSpace(nonce))
{
throw new ArgumentException("Nonce is required.", nameof(nonce));
}
SessionId = sessionId;
BackendName = backendName;
PipeName = pipeName;
Nonce = nonce;
ClientIdentity = clientIdentity;
ClientSessionName = clientSessionName;
ClientCorrelationId = clientCorrelationId;
CommandTimeout = commandTimeout;
StartupTimeout = startupTimeout;
ShutdownTimeout = shutdownTimeout;
OpenedAt = openedAt;
_lastClientActivityAt = openedAt;
}
public string SessionId { get; }
public string BackendName { get; }
public string PipeName { get; }
public string Nonce { get; }
public string? ClientIdentity { get; }
public string? ClientSessionName { get; }
public string? ClientCorrelationId { get; }
public TimeSpan CommandTimeout { get; }
public TimeSpan StartupTimeout { get; }
public TimeSpan ShutdownTimeout { get; }
public DateTimeOffset OpenedAt { get; }
public int? WorkerProcessId => _workerClient?.ProcessId;
public IWorkerClient? WorkerClient => _workerClient;
public SessionState State
{
get
{
lock (_syncRoot)
{
return _state;
}
}
}
public DateTimeOffset LastClientActivityAt
{
get
{
lock (_syncRoot)
{
return _lastClientActivityAt;
}
}
}
public DateTimeOffset? LeaseExpiresAt
{
get
{
lock (_syncRoot)
{
return _leaseExpiresAt;
}
}
}
public string? FinalFault
{
get
{
lock (_syncRoot)
{
return _finalFault;
}
}
}
public int ActiveEventSubscriberCount
{
get
{
lock (_syncRoot)
{
return _activeEventSubscriberCount;
}
}
}
public void AttachWorkerClient(IWorkerClient workerClient)
{
ArgumentNullException.ThrowIfNull(workerClient);
lock (_syncRoot)
{
_workerClient = workerClient;
}
}
public void TransitionTo(SessionState nextState)
{
lock (_syncRoot)
{
if (_state is SessionState.Closed)
{
return;
}
if (_state is SessionState.Faulted && nextState is not SessionState.Closed)
{
return;
}
_state = nextState;
}
}
public void MarkReady()
{
TransitionTo(SessionState.Ready);
}
public void MarkFaulted(string reason)
{
lock (_syncRoot)
{
if (_state is SessionState.Closed)
{
return;
}
_finalFault = reason;
_state = SessionState.Faulted;
}
}
public void TouchClientActivity(DateTimeOffset activityAt)
{
lock (_syncRoot)
{
_lastClientActivityAt = activityAt;
}
}
public void ExtendLease(DateTimeOffset leaseExpiresAt)
{
lock (_syncRoot)
{
_leaseExpiresAt = leaseExpiresAt;
}
}
public bool IsLeaseExpired(DateTimeOffset now)
{
lock (_syncRoot)
{
return _leaseExpiresAt is not null && _leaseExpiresAt <= now;
}
}
public IDisposable AttachEventSubscriber(bool allowMultipleSubscribers)
{
lock (_syncRoot)
{
if (_state != SessionState.Ready || _workerClient?.State != WorkerClientState.Ready)
{
throw new SessionManagerException(
SessionManagerErrorCode.SessionNotReady,
$"Session {SessionId} is not ready for event streaming. Current state is {_state}.");
}
if (!allowMultipleSubscribers && _activeEventSubscriberCount > 0)
{
throw new SessionManagerException(
SessionManagerErrorCode.EventSubscriberAlreadyActive,
$"Session {SessionId} already has an active event stream subscriber.");
}
_activeEventSubscriberCount++;
return new EventSubscriberLease(this);
}
}
public async Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
CancellationToken cancellationToken)
{
IWorkerClient workerClient = GetReadyWorkerClient();
TouchClientActivity(DateTimeOffset.UtcNow);
return await workerClient.InvokeAsync(command, CommandTimeout, cancellationToken).ConfigureAwait(false);
}
public IAsyncEnumerable<WorkerEvent> ReadEventsAsync(CancellationToken cancellationToken)
{
IWorkerClient workerClient = GetReadyWorkerClient();
TouchClientActivity(DateTimeOffset.UtcNow);
return workerClient.ReadEventsAsync(cancellationToken);
}
public async Task<SessionCloseResult> CloseAsync(
string reason,
CancellationToken cancellationToken)
{
await _closeLock.WaitAsync(cancellationToken).ConfigureAwait(false);
try
{
if (_state is SessionState.Closed)
{
return new SessionCloseResult(SessionId, SessionState.Closed, AlreadyClosed: true);
}
bool alreadyClosing = _closeStarted;
_closeStarted = true;
_state = SessionState.Closing;
if (_workerClient is not null)
{
try
{
await _workerClient.ShutdownAsync(ShutdownTimeout, cancellationToken).ConfigureAwait(false);
}
catch
{
_workerClient.Kill(reason);
throw;
}
}
_state = SessionState.Closed;
return new SessionCloseResult(SessionId, SessionState.Closed, alreadyClosing);
}
finally
{
_closeLock.Release();
}
}
public void KillWorker(string reason)
{
_workerClient?.Kill(reason);
TransitionTo(SessionState.Closed);
}
public async ValueTask DisposeAsync()
{
_closeLock.Dispose();
if (_workerClient is not null)
{
await _workerClient.DisposeAsync().ConfigureAwait(false);
}
}
private IWorkerClient GetReadyWorkerClient()
{
lock (_syncRoot)
{
if (_state != SessionState.Ready || _workerClient?.State != WorkerClientState.Ready)
{
throw new SessionManagerException(
SessionManagerErrorCode.SessionNotReady,
$"Session {SessionId} is not ready. Current state is {_state}.");
}
return _workerClient;
}
}
private void DetachEventSubscriber()
{
lock (_syncRoot)
{
if (_activeEventSubscriberCount > 0)
{
_activeEventSubscriberCount--;
}
}
}
private sealed class EventSubscriberLease(GatewaySession session) : IDisposable
{
private bool _disposed;
public void Dispose()
{
if (_disposed)
{
return;
}
session.DetachEventSubscriber();
_disposed = true;
}
}
}
src/MxGateway.Server/Sessions/ISessionManager.cs
+34
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@@ -0,0 +1,34 @@
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Sessions;
public interface ISessionManager
{
Task<GatewaySession> OpenSessionAsync(
SessionOpenRequest request,
string? clientIdentity,
CancellationToken cancellationToken);
bool TryGetSession(
string sessionId,
out GatewaySession session);
Task<WorkerCommandReply> InvokeAsync(
string sessionId,
WorkerCommand command,
CancellationToken cancellationToken);
IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
string sessionId,
CancellationToken cancellationToken);
Task<SessionCloseResult> CloseSessionAsync(
string sessionId,
CancellationToken cancellationToken);
Task<int> CloseExpiredLeasesAsync(
DateTimeOffset now,
CancellationToken cancellationToken);
Task ShutdownAsync(CancellationToken cancellationToken);
}
src/MxGateway.Server/Sessions/ISessionRegistry.cs
+16
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@@ -0,0 +1,16 @@
namespace MxGateway.Server.Sessions;
public interface ISessionRegistry
{
int Count { get; }
int ActiveCount { get; }
bool TryAdd(GatewaySession session);
bool TryGet(string sessionId, out GatewaySession session);
bool TryRemove(string sessionId, out GatewaySession session);
IReadOnlyCollection<GatewaySession> Snapshot();
}
src/MxGateway.Server/Sessions/ISessionWorkerClientFactory.cs
+8
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@@ -0,0 +1,8 @@
namespace MxGateway.Server.Sessions;
public interface ISessionWorkerClientFactory
{
Task<MxGateway.Server.Workers.IWorkerClient> CreateAsync(
GatewaySession session,
CancellationToken cancellationToken);
}
src/MxGateway.Server/Sessions/SessionCloseResult.cs
+8
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@@ -0,0 +1,8 @@
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Sessions;
public sealed record SessionCloseResult(
string SessionId,
SessionState FinalState,
bool AlreadyClosed);
src/MxGateway.Server/Sessions/SessionManager.cs
+287
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@@ -0,0 +1,287 @@
using System.Security.Cryptography;
using Google.Protobuf.WellKnownTypes;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Logging.Abstractions;
using Microsoft.Extensions.Options;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Sessions;
public sealed class SessionManager : ISessionManager
{
public const string DefaultCloseReason = "client-close";
public const string GatewayShutdownReason = "gateway-shutdown";
public const string LeaseExpiredReason = "lease-expired";
private readonly ISessionRegistry _registry;
private readonly ISessionWorkerClientFactory _workerClientFactory;
private readonly GatewayMetrics _metrics;
private readonly TimeProvider _timeProvider;
private readonly ILogger<SessionManager> _logger;
private readonly GatewayOptions _options;
public SessionManager(
ISessionRegistry registry,
ISessionWorkerClientFactory workerClientFactory,
IOptions<GatewayOptions> options,
GatewayMetrics metrics,
TimeProvider? timeProvider = null,
ILogger<SessionManager>? logger = null)
{
_registry = registry ?? throw new ArgumentNullException(nameof(registry));
_workerClientFactory = workerClientFactory ?? throw new ArgumentNullException(nameof(workerClientFactory));
ArgumentNullException.ThrowIfNull(options);
_metrics = metrics ?? throw new ArgumentNullException(nameof(metrics));
_timeProvider = timeProvider ?? TimeProvider.System;
_logger = logger ?? NullLogger<SessionManager>.Instance;
_options = options.Value;
}
public async Task<GatewaySession> OpenSessionAsync(
SessionOpenRequest request,
string? clientIdentity,
CancellationToken cancellationToken)
{
ArgumentNullException.ThrowIfNull(request);
EnsureSessionCapacity();
GatewaySession session = CreateSession(request, clientIdentity);
if (!_registry.TryAdd(session))
{
throw new SessionManagerException(
SessionManagerErrorCode.OpenFailed,
$"Session id collision while opening session {session.SessionId}.");
}
try
{
session.TransitionTo(SessionState.StartingWorker);
IWorkerClient workerClient = await _workerClientFactory
.CreateAsync(session, cancellationToken)
.ConfigureAwait(false);
session.AttachWorkerClient(workerClient);
session.MarkReady();
_metrics.SessionOpened();
return session;
}
catch (Exception exception)
{
session.MarkFaulted(exception.Message);
_registry.TryRemove(session.SessionId, out _);
await session.DisposeAsync().ConfigureAwait(false);
_metrics.Fault(SessionManagerErrorCode.OpenFailed.ToString());
_logger.LogWarning(
exception,
"Failed to open gateway session {SessionId}.",
session.SessionId);
throw new SessionManagerException(
SessionManagerErrorCode.OpenFailed,
$"Failed to open session {session.SessionId}.",
exception);
}
}
public bool TryGetSession(
string sessionId,
out GatewaySession session)
{
return _registry.TryGet(sessionId, out session);
}
public async Task<WorkerCommandReply> InvokeAsync(
string sessionId,
WorkerCommand command,
CancellationToken cancellationToken)
{
GatewaySession session = GetRequiredSession(sessionId);
try
{
return await session.InvokeAsync(command, cancellationToken).ConfigureAwait(false);
}
catch (SessionManagerException)
{
throw;
}
catch (Exception exception)
{
if (session.WorkerClient?.State == WorkerClientState.Faulted)
{
session.MarkFaulted(exception.Message);
}
throw;
}
}
public IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
string sessionId,
CancellationToken cancellationToken)
{
GatewaySession session = GetRequiredSession(sessionId);
return session.ReadEventsAsync(cancellationToken);
}
public async Task<SessionCloseResult> CloseSessionAsync(
string sessionId,
CancellationToken cancellationToken)
{
GatewaySession session = GetRequiredSession(sessionId);
SessionCloseResult result = await CloseSessionCoreAsync(
session,
DefaultCloseReason,
cancellationToken).ConfigureAwait(false);
return result;
}
public async Task<int> CloseExpiredLeasesAsync(
DateTimeOffset now,
CancellationToken cancellationToken)
{
int closedCount = 0;
foreach (GatewaySession session in _registry.Snapshot())
{
if (!session.IsLeaseExpired(now))
{
continue;
}
await CloseSessionCoreAsync(session, LeaseExpiredReason, cancellationToken).ConfigureAwait(false);
closedCount++;
}
return closedCount;
}
public async Task ShutdownAsync(CancellationToken cancellationToken)
{
foreach (GatewaySession session in _registry.Snapshot())
{
try
{
await CloseSessionCoreAsync(session, GatewayShutdownReason, cancellationToken).ConfigureAwait(false);
}
catch (Exception exception)
{
_logger.LogWarning(
exception,
"Graceful shutdown failed for session {SessionId}; killing worker.",
session.SessionId);
session.KillWorker(GatewayShutdownReason);
}
}
}
private async Task<SessionCloseResult> CloseSessionCoreAsync(
GatewaySession session,
string reason,
CancellationToken cancellationToken)
{
bool wasClosed = session.State == SessionState.Closed;
try
{
SessionCloseResult result = await session.CloseAsync(reason, cancellationToken).ConfigureAwait(false);
if (!wasClosed && !result.AlreadyClosed)
{
_metrics.SessionClosed();
}
return result;
}
catch (Exception exception)
{
session.MarkFaulted(exception.Message);
_metrics.Fault(SessionManagerErrorCode.CloseFailed.ToString());
throw new SessionManagerException(
SessionManagerErrorCode.CloseFailed,
$"Failed to close session {session.SessionId}.",
exception);
}
}
private GatewaySession GetRequiredSession(string sessionId)
{
if (!_registry.TryGet(sessionId, out GatewaySession session))
{
throw new SessionManagerException(
SessionManagerErrorCode.SessionNotFound,
$"Session {sessionId} was not found.");
}
return session;
}
private void EnsureSessionCapacity()
{
if (_registry.ActiveCount >= _options.Sessions.MaxSessions)
{
throw new SessionManagerException(
SessionManagerErrorCode.SessionLimitExceeded,
$"Gateway session limit {_options.Sessions.MaxSessions} has been reached.");
}
}
private GatewaySession CreateSession(
SessionOpenRequest request,
string? clientIdentity)
{
string sessionId = CreateSessionId();
string backendName = string.IsNullOrWhiteSpace(request.RequestedBackend)
? GatewayContractInfo.DefaultBackendName
: request.RequestedBackend!;
TimeSpan commandTimeout = ResolveCommandTimeout(request.CommandTimeout);
TimeSpan startupTimeout = TimeSpan.FromSeconds(_options.Worker.StartupTimeoutSeconds);
TimeSpan shutdownTimeout = TimeSpan.FromSeconds(_options.Worker.ShutdownTimeoutSeconds);
string pipeName = $"mxaccess-gateway-{Environment.ProcessId}-{sessionId}";
string nonce = CreateNonce();
DateTimeOffset openedAt = _timeProvider.GetUtcNow();
return new GatewaySession(
sessionId,
backendName,
pipeName,
nonce,
clientIdentity,
request.ClientSessionName,
request.ClientCorrelationId,
commandTimeout,
startupTimeout,
shutdownTimeout,
openedAt);
}
private TimeSpan ResolveCommandTimeout(Duration? requestedTimeout)
{
if (requestedTimeout is null)
{
return TimeSpan.FromSeconds(_options.Sessions.DefaultCommandTimeoutSeconds);
}
TimeSpan timeout = requestedTimeout.ToTimeSpan();
return timeout <= TimeSpan.Zero
? TimeSpan.FromSeconds(_options.Sessions.DefaultCommandTimeoutSeconds)
: timeout;
}
private static string CreateSessionId()
{
return $"session-{Guid.NewGuid():N}";
}
private static string CreateNonce()
{
Span<byte> bytes = stackalloc byte[32];
RandomNumberGenerator.Fill(bytes);
return Convert.ToBase64String(bytes);
}
}
src/MxGateway.Server/Sessions/SessionManagerErrorCode.cs
+12
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@@ -0,0 +1,12 @@
namespace MxGateway.Server.Sessions;
public enum SessionManagerErrorCode
{
SessionNotFound,
SessionNotReady,
EventSubscriberAlreadyActive,
EventQueueOverflow,
SessionLimitExceeded,
OpenFailed,
CloseFailed,
}
src/MxGateway.Server/Sessions/SessionManagerException.cs
+23
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@@ -0,0 +1,23 @@
namespace MxGateway.Server.Sessions;
public sealed class SessionManagerException : Exception
{
public SessionManagerException(
SessionManagerErrorCode errorCode,
string message)
: base(message)
{
ErrorCode = errorCode;
}
public SessionManagerException(
SessionManagerErrorCode errorCode,
string message,
Exception innerException)
: base(message, innerException)
{
ErrorCode = errorCode;
}
public SessionManagerErrorCode ErrorCode { get; }
}
src/MxGateway.Server/Sessions/SessionOpenRequest.cs
+22
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@@ -0,0 +1,22 @@
using Google.Protobuf.WellKnownTypes;
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Sessions;
public sealed record SessionOpenRequest(
string? RequestedBackend,
string? ClientSessionName,
string? ClientCorrelationId,
Duration? CommandTimeout)
{
public static SessionOpenRequest FromContract(OpenSessionRequest request)
{
ArgumentNullException.ThrowIfNull(request);
return new SessionOpenRequest(
request.RequestedBackend,
request.ClientSessionName,
request.ClientCorrelationId,
request.CommandTimeout);
}
}
src/MxGateway.Server/Sessions/SessionRegistry.cs
+39
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@@ -0,0 +1,39 @@
using System.Collections.Concurrent;
using MxGateway.Contracts.Proto;
namespace MxGateway.Server.Sessions;
public sealed class SessionRegistry : ISessionRegistry
{
private readonly ConcurrentDictionary<string, GatewaySession> _sessions = new(StringComparer.Ordinal);
public int Count => _sessions.Count;
public int ActiveCount => _sessions.Values.Count(session => session.State is not SessionState.Closed);
public bool TryAdd(GatewaySession session)
{
ArgumentNullException.ThrowIfNull(session);
return _sessions.TryAdd(session.SessionId, session);
}
public bool TryGet(
string sessionId,
out GatewaySession session)
{
return _sessions.TryGetValue(sessionId, out session!);
}
public bool TryRemove(
string sessionId,
out GatewaySession session)
{
return _sessions.TryRemove(sessionId, out session!);
}
public IReadOnlyCollection<GatewaySession> Snapshot()
{
return _sessions.Values.ToArray();
}
}
src/MxGateway.Server/Sessions/SessionServiceCollectionExtensions.cs
+13
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@@ -0,0 +1,13 @@
namespace MxGateway.Server.Sessions;
public static class SessionServiceCollectionExtensions
{
public static IServiceCollection AddGatewaySessions(this IServiceCollection services)
{
services.AddSingleton<ISessionRegistry, SessionRegistry>();
services.AddSingleton<ISessionWorkerClientFactory, SessionWorkerClientFactory>();
services.AddSingleton<ISessionManager, SessionManager>();
return services;
}
}
src/MxGateway.Server/Sessions/SessionWorkerClientFactory.cs
+144
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@@ -0,0 +1,144 @@
using System.IO.Pipes;
using Microsoft.Extensions.Logging;
using Microsoft.Extensions.Options;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Metrics;
using MxGateway.Server.Workers;
namespace MxGateway.Server.Sessions;
public sealed class SessionWorkerClientFactory : ISessionWorkerClientFactory
{
private readonly IWorkerProcessLauncher _workerProcessLauncher;
private readonly GatewayMetrics _metrics;
private readonly TimeProvider _timeProvider;
private readonly ILoggerFactory _loggerFactory;
private readonly GatewayOptions _options;
public SessionWorkerClientFactory(
IWorkerProcessLauncher workerProcessLauncher,
IOptions<GatewayOptions> options,
GatewayMetrics metrics,
ILoggerFactory loggerFactory,
TimeProvider? timeProvider = null)
{
_workerProcessLauncher = workerProcessLauncher ?? throw new ArgumentNullException(nameof(workerProcessLauncher));
ArgumentNullException.ThrowIfNull(options);
_metrics = metrics ?? throw new ArgumentNullException(nameof(metrics));
_loggerFactory = loggerFactory ?? throw new ArgumentNullException(nameof(loggerFactory));
_timeProvider = timeProvider ?? TimeProvider.System;
_options = options.Value;
}
public async Task<IWorkerClient> CreateAsync(
GatewaySession session,
CancellationToken cancellationToken)
{
ArgumentNullException.ThrowIfNull(session);
NamedPipeServerStream? pipe = CreatePipe(session.PipeName);
WorkerProcessHandle? processHandle = null;
IWorkerClient? workerClient = null;
try
{
session.TransitionTo(SessionState.StartingWorker);
processHandle = await _workerProcessLauncher
.LaunchAsync(
new WorkerProcessLaunchRequest(
session.SessionId,
session.PipeName,
GatewayContractInfo.WorkerProtocolVersion,
session.Nonce,
pipe),
cancellationToken)
.ConfigureAwait(false);
session.TransitionTo(SessionState.WaitingForPipe);
await WaitForPipeConnectionAsync(pipe, session.StartupTimeout, cancellationToken).ConfigureAwait(false);
session.TransitionTo(SessionState.Handshaking);
WorkerFrameProtocolOptions frameOptions = new(
session.SessionId,
GatewayContractInfo.WorkerProtocolVersion,
_options.Worker.MaxMessageBytes);
WorkerClientConnection connection = new(
session.SessionId,
session.Nonce,
pipe,
frameOptions,
processHandle);
WorkerClientOptions clientOptions = new()
{
HeartbeatGrace = TimeSpan.FromSeconds(_options.Worker.HeartbeatGraceSeconds),
HeartbeatCheckInterval = TimeSpan.FromSeconds(_options.Worker.HeartbeatIntervalSeconds),
EventChannelCapacity = _options.Events.QueueCapacity,
};
workerClient = new WorkerClient(
connection,
clientOptions,
_metrics,
_timeProvider,
_loggerFactory.CreateLogger<WorkerClient>());
pipe = null;
processHandle = null;
session.TransitionTo(SessionState.InitializingWorker);
await workerClient.StartAsync(cancellationToken).ConfigureAwait(false);
return workerClient;
}
catch
{
if (workerClient is not null)
{
await workerClient.DisposeAsync().ConfigureAwait(false);
}
else
{
if (processHandle is not null)
{
try
{
if (!processHandle.Process.HasExited)
{
processHandle.Process.Kill(entireProcessTree: true);
_metrics.WorkerKilled("OpenSessionFailed");
}
}
finally
{
processHandle.Dispose();
}
}
pipe?.Dispose();
}
throw;
}
}
private static NamedPipeServerStream CreatePipe(string pipeName)
{
return new NamedPipeServerStream(
pipeName,
PipeDirection.InOut,
maxNumberOfServerInstances: 1,
PipeTransmissionMode.Byte,
PipeOptions.Asynchronous);
}
private static async Task WaitForPipeConnectionAsync(
NamedPipeServerStream pipe,
TimeSpan startupTimeout,
CancellationToken cancellationToken)
{
using CancellationTokenSource timeout = CancellationTokenSource.CreateLinkedTokenSource(cancellationToken);
timeout.CancelAfter(startupTimeout);
await pipe.WaitForConnectionAsync(timeout.Token).ConfigureAwait(false);
}
}
src/MxGateway.Server/Workers/IWorkerClient.cs
+27
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@@ -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/WorkerClient.cs
+757
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@@ -0,0 +1,757 @@
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 int _eventQueueDepth;
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))
{
int queueDepth = Math.Max(0, Interlocked.Decrement(ref _eventQueueDepth));
_metrics?.SetEventQueueDepth(queueDepth);
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 (!_events.Writer.TryWrite(workerEvent))
{
_metrics?.QueueOverflow("worker-events");
SetFaulted(
WorkerClientErrorCode.ProtocolViolation,
"Worker event channel rejected an event.",
null);
return;
}
int queueDepth = Interlocked.Increment(ref _eventQueueDepth);
_metrics?.SetEventQueueDepth(queueDepth);
}
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
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@@ -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
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@@ -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
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@@ -0,0 +1,11 @@
namespace MxGateway.Server.Workers;
public enum WorkerClientState
{
Created,
Handshaking,
Ready,
Closing,
Closed,
Faulted,
}
src/MxGateway.Server/libman.json
+14
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@@ -0,0 +1,14 @@
{
"version": "1.0",
"defaultProvider": "cdnjs",
"libraries": [
{
"library": "bootstrap@5.3.3",
"destination": "wwwroot/lib/bootstrap/",
"files": [
"css/bootstrap.min.css",
"js/bootstrap.bundle.min.js"
]
}
]
}
src/MxGateway.Server/wwwroot/css/dashboard.css
+138
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@@ -0,0 +1,138 @@
:root {
--mxgw-surface: #f7f8fa;
--mxgw-border: #d8dee6;
--mxgw-ink-muted: #667085;
--mxgw-accent: #146c64;
}
.dashboard-body {
background: var(--mxgw-surface);
color: #1f2933;
}
.dashboard-navbar {
min-height: 3.5rem;
}
.dashboard-content {
padding: 1.25rem;
}
.dashboard-page-header {
align-items: center;
display: flex;
gap: 1rem;
justify-content: space-between;
margin-bottom: 1rem;
}
.dashboard-page-header h1,
.section-heading h2 {
font-size: 1.35rem;
font-weight: 650;
letter-spacing: 0;
margin: 0;
}
.section-heading {
margin-bottom: .75rem;
}
.dashboard-section {
background: #fff;
border-top: 1px solid var(--mxgw-border);
margin-top: 1rem;
padding: 1rem 0 0;
}
.metric-grid {
display: grid;
gap: .75rem;
grid-template-columns: repeat(auto-fit, minmax(12rem, 1fr));
}
.metric-grid.compact {
grid-template-columns: repeat(auto-fit, minmax(10rem, 1fr));
}
.metric-card {
border-color: var(--mxgw-border);
border-radius: .375rem;
box-shadow: none;
}
.metric-label {
color: var(--mxgw-ink-muted);
font-size: .78rem;
font-weight: 650;
letter-spacing: 0;
text-transform: uppercase;
}
.metric-value {
color: var(--mxgw-accent);
font-size: 1.7rem;
font-weight: 700;
letter-spacing: 0;
line-height: 1.25;
overflow-wrap: anywhere;
}
.metric-detail {
color: var(--mxgw-ink-muted);
font-size: .85rem;
overflow-wrap: anywhere;
}
.dashboard-table {
--bs-table-bg: #fff;
border-color: var(--mxgw-border);
margin-bottom: 0;
}
.dashboard-table th {
color: #344054;
font-weight: 650;
white-space: nowrap;
}
.dashboard-table td {
max-width: 24rem;
overflow-wrap: anywhere;
}
.details-table th {
width: 14rem;
}
.empty-state {
background: #fff;
border: 1px dashed var(--mxgw-border);
border-radius: .375rem;
color: var(--mxgw-ink-muted);
padding: 1rem;
}
.dashboard-login {
max-width: 28rem;
}
.login-card {
border-color: var(--mxgw-border);
border-radius: .375rem;
}
@media (max-width: 700px) {
.dashboard-content {
padding: .75rem;
}
.dashboard-page-header {
align-items: flex-start;
flex-direction: column;
}
.details-table th {
width: 9rem;
}
}
src/MxGateway.Server/wwwroot/lib/bootstrap/css/bootstrap.min.css
Vendored
+6
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src/MxGateway.Server/wwwroot/lib/bootstrap/js/bootstrap.bundle.min.js
Vendored
+7
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src/MxGateway.Tests/Contracts/ClientProtoInputTests.cs
+102
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@@ -0,0 +1,102 @@
using System.Text.Json;
using Google.Protobuf;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
namespace MxGateway.Tests.Contracts;
public sealed class ClientProtoInputTests
{
[Fact]
public void Manifest_DeclaresCurrentProtocolVersionsAndExistingInputs()
{
DirectoryInfo repositoryRoot = FindRepositoryRoot();
string manifestPath = Path.Combine(repositoryRoot.FullName, "clients", "proto", "proto-inputs.json");
using JsonDocument manifest = JsonDocument.Parse(File.ReadAllText(manifestPath));
JsonElement root = manifest.RootElement;
Assert.Equal(1, root.GetProperty("schemaVersion").GetInt32());
Assert.Equal(GatewayContractInfo.GatewayProtocolVersion, root.GetProperty("gatewayProtocolVersion").GetUInt32());
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, root.GetProperty("workerProtocolVersion").GetUInt32());
string protoRoot = Path.Combine(repositoryRoot.FullName, root.GetProperty("protoRoot").GetString()!);
foreach (JsonElement sourceFile in root.GetProperty("sourceFiles").EnumerateArray())
{
string sourcePath = Path.Combine(protoRoot, sourceFile.GetProperty("path").GetString()!);
Assert.True(File.Exists(sourcePath), $"Expected proto source file '{sourcePath}' to exist.");
}
foreach (JsonProperty output in root.GetProperty("generatedOutputs").EnumerateObject())
{
string outputPath = Path.Combine(repositoryRoot.FullName, output.Value.GetString()!);
Assert.True(Directory.Exists(outputPath), $"Expected generated output directory '{outputPath}' to exist.");
}
}
[Fact]
public void OpenSessionReplyFixture_ParsesWithCurrentContract()
{
OpenSessionReply reply = ParseFixture(
"open-session-reply.ok.json",
OpenSessionReply.Parser);
Assert.Equal(GatewayContractInfo.GatewayProtocolVersion, reply.GatewayProtocolVersion);
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, reply.WorkerProtocolVersion);
Assert.Equal(ProtocolStatusCode.Ok, reply.ProtocolStatus.Code);
}
[Fact]
public void RegisterCommandRequestFixture_ParsesWithCurrentContract()
{
MxCommandRequest request = ParseFixture(
"register-command-request.json",
MxCommandRequest.Parser);
Assert.Equal(MxCommandKind.Register, request.Command.Kind);
Assert.Equal("fixture-client", request.Command.Register.ClientName);
}
[Fact]
public void OnDataChangeEventFixture_ParsesWithCurrentContract()
{
MxEvent gatewayEvent = ParseFixture(
"on-data-change-event.json",
MxEvent.Parser);
Assert.Equal(MxEventFamily.OnDataChange, gatewayEvent.Family);
Assert.Equal(1ul, gatewayEvent.WorkerSequence);
Assert.Equal(MxDataType.Integer, gatewayEvent.Value.DataType);
Assert.Equal(MxEvent.BodyOneofCase.OnDataChange, gatewayEvent.BodyCase);
}
private static T ParseFixture<T>(
string fixtureName,
MessageParser<T> parser)
where T : IMessage<T>
{
DirectoryInfo repositoryRoot = FindRepositoryRoot();
string fixturePath = Path.Combine(repositoryRoot.FullName, "clients", "proto", "fixtures", "golden", fixtureName);
return parser.ParseJson(File.ReadAllText(fixturePath));
}
private static DirectoryInfo FindRepositoryRoot()
{
DirectoryInfo? current = new(AppContext.BaseDirectory);
while (current is not null)
{
if (File.Exists(Path.Combine(current.FullName, "AGENTS.md"))
&& Directory.Exists(Path.Combine(current.FullName, "src"))
&& Directory.Exists(Path.Combine(current.FullName, "clients")))
{
return current;
}
current = current.Parent;
}
throw new DirectoryNotFoundException("Could not locate the repository root from the test output directory.");
}
}
src/MxGateway.Tests/Contracts/GatewayContractInfoTests.cs
+6
View File
@@ -10,6 +10,12 @@ public sealed class GatewayContractInfoTests
Assert.Equal("mxaccess-worker", GatewayContractInfo.DefaultBackendName);
}
[Fact]
public void GatewayProtocolVersion_StartsAtVersionOne()
{
Assert.Equal(1u, GatewayContractInfo.GatewayProtocolVersion);
}
[Fact]
public void WorkerProtocolVersion_StartsAtVersionOne()
{
src/MxGateway.Tests/Gateway/Dashboard/DashboardAuthenticatorTests.cs
+113
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@@ -0,0 +1,113 @@
using System.Security.Claims;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Dashboard;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Tests.Gateway.Dashboard;
public sealed class DashboardAuthenticatorTests
{
[Fact]
public async Task AuthenticateAsync_AdminKey_ReturnsCookiePrincipal()
{
FakeApiKeyVerifier verifier = new(SuccessWithScopes(GatewayScopes.Admin));
DashboardAuthenticator authenticator = CreateAuthenticator(verifier);
DashboardAuthenticationResult result = await authenticator.AuthenticateAsync(
"mxgw_operator01_super-secret",
CancellationToken.None);
Assert.True(result.Succeeded);
Assert.NotNull(result.Principal);
Assert.Equal("operator01", result.Principal.FindFirst(ClaimTypes.NameIdentifier)?.Value);
Assert.Equal("Operator Key", result.Principal.FindFirst(ClaimTypes.Name)?.Value);
Assert.Contains(result.Principal.Claims, claim =>
claim.Type == DashboardAuthenticationDefaults.ScopeClaimType
&& claim.Value == GatewayScopes.Admin);
Assert.Equal("Bearer mxgw_operator01_super-secret", verifier.LastAuthorizationHeader);
}
[Fact]
public async Task AuthenticateAsync_NonAdminKey_ReturnsFailureWithoutRawApiKey()
{
DashboardAuthenticator authenticator = CreateAuthenticator(new FakeApiKeyVerifier(
SuccessWithScopes(GatewayScopes.EventsRead)));
DashboardAuthenticationResult result = await authenticator.AuthenticateAsync(
"mxgw_operator01_super-secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.Null(result.Principal);
Assert.DoesNotContain("super-secret", result.FailureMessage, StringComparison.Ordinal);
}
[Fact]
public async Task AuthenticateAsync_RequireAdminScopeFalse_AllowsAuthenticatedKey()
{
DashboardAuthenticator authenticator = CreateAuthenticator(
new FakeApiKeyVerifier(SuccessWithScopes(GatewayScopes.EventsRead)),
requireAdminScope: false);
DashboardAuthenticationResult result = await authenticator.AuthenticateAsync(
"mxgw_operator01_secret",
CancellationToken.None);
Assert.True(result.Succeeded);
Assert.NotNull(result.Principal);
}
[Fact]
public async Task AuthenticateAsync_InvalidKey_ReturnsGenericFailure()
{
DashboardAuthenticator authenticator = CreateAuthenticator(new FakeApiKeyVerifier(
ApiKeyVerificationResult.Fail(ApiKeyVerificationFailure.SecretMismatch)));
DashboardAuthenticationResult result = await authenticator.AuthenticateAsync(
"mxgw_operator01_super-secret",
CancellationToken.None);
Assert.False(result.Succeeded);
Assert.DoesNotContain("super-secret", result.FailureMessage, StringComparison.Ordinal);
}
private static DashboardAuthenticator CreateAuthenticator(
IApiKeyVerifier verifier,
bool requireAdminScope = true)
{
return new DashboardAuthenticator(
verifier,
Options.Create(new GatewayOptions
{
Dashboard = new DashboardOptions
{
RequireAdminScope = requireAdminScope
}
}));
}
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 sealed class FakeApiKeyVerifier(ApiKeyVerificationResult result) : IApiKeyVerifier
{
public string? LastAuthorizationHeader { get; private set; }
public Task<ApiKeyVerificationResult> VerifyAsync(
string? authorizationHeader,
CancellationToken cancellationToken)
{
LastAuthorizationHeader = authorizationHeader;
return Task.FromResult(result);
}
}
}
src/MxGateway.Tests/Gateway/Dashboard/DashboardAuthorizationHandlerTests.cs
+91
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@@ -0,0 +1,91 @@
using System.Net;
using System.Security.Claims;
using Microsoft.AspNetCore.Authorization;
using Microsoft.AspNetCore.Http;
using Microsoft.Extensions.Options;
using MxGateway.Server.Configuration;
using MxGateway.Server.Dashboard;
using MxGateway.Server.Security.Authorization;
namespace MxGateway.Tests.Gateway.Dashboard;
public sealed class DashboardAuthorizationHandlerTests
{
[Fact]
public async Task HandleAsync_UnauthenticatedRemoteRequest_DoesNotSucceed()
{
AuthorizationHandlerContext context = await AuthorizeAsync(
new ClaimsPrincipal(new ClaimsIdentity()),
IPAddress.Parse("10.0.0.5"),
allowAnonymousLocalhost: false);
Assert.False(context.HasSucceeded);
}
[Fact]
public async Task HandleAsync_AnonymousLocalhostAllowed_Succeeds()
{
AuthorizationHandlerContext context = await AuthorizeAsync(
new ClaimsPrincipal(new ClaimsIdentity()),
IPAddress.Loopback,
allowAnonymousLocalhost: true);
Assert.True(context.HasSucceeded);
}
[Fact]
public async Task HandleAsync_AuthenticatedWithoutAdminScope_DoesNotSucceed()
{
AuthorizationHandlerContext context = await AuthorizeAsync(
CreatePrincipal(GatewayScopes.EventsRead),
IPAddress.Loopback,
allowAnonymousLocalhost: false);
Assert.False(context.HasSucceeded);
}
[Fact]
public async Task HandleAsync_AuthenticatedWithAdminScope_Succeeds()
{
AuthorizationHandlerContext context = await AuthorizeAsync(
CreatePrincipal(GatewayScopes.Admin),
IPAddress.Parse("10.0.0.5"),
allowAnonymousLocalhost: false);
Assert.True(context.HasSucceeded);
}
private static async Task<AuthorizationHandlerContext> AuthorizeAsync(
ClaimsPrincipal principal,
IPAddress remoteAddress,
bool allowAnonymousLocalhost)
{
DashboardAuthorizationRequirement requirement = new();
DefaultHttpContext httpContext = new();
httpContext.Connection.RemoteIpAddress = remoteAddress;
DashboardAuthorizationHandler handler = new(
new HttpContextAccessor { HttpContext = httpContext },
Options.Create(new GatewayOptions
{
Dashboard = new DashboardOptions
{
AllowAnonymousLocalhost = allowAnonymousLocalhost,
RequireAdminScope = true
}
}));
AuthorizationHandlerContext context = new([requirement], principal, httpContext);
await handler.HandleAsync(context);
return context;
}
private static ClaimsPrincipal CreatePrincipal(string scope)
{
ClaimsIdentity identity = new(
[new Claim(DashboardAuthenticationDefaults.ScopeClaimType, scope)],
DashboardAuthenticationDefaults.AuthenticationScheme);
return new ClaimsPrincipal(identity);
}
}
src/MxGateway.Tests/Gateway/Dashboard/DashboardCookieOptionsTests.cs
+32
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@@ -0,0 +1,32 @@
using Microsoft.AspNetCore.Builder;
using Microsoft.AspNetCore.Authentication.Cookies;
using Microsoft.AspNetCore.Http;
using Microsoft.Extensions.DependencyInjection;
using Microsoft.Extensions.Options;
using MxGateway.Server;
using MxGateway.Server.Dashboard;
namespace MxGateway.Tests.Gateway.Dashboard;
public sealed class DashboardCookieOptionsTests
{
[Fact]
public void Build_ConfiguresSecureDashboardCookie()
{
WebApplication app = GatewayApplication.Build([]);
IOptionsMonitor<CookieAuthenticationOptions> optionsMonitor = app.Services
.GetRequiredService<IOptionsMonitor<CookieAuthenticationOptions>>();
CookieAuthenticationOptions options = optionsMonitor.Get(
DashboardAuthenticationDefaults.AuthenticationScheme);
Assert.Equal(DashboardAuthenticationDefaults.CookieName, options.Cookie.Name);
Assert.True(options.Cookie.HttpOnly);
Assert.Equal(CookieSecurePolicy.Always, options.Cookie.SecurePolicy);
Assert.Equal(SameSiteMode.Strict, options.Cookie.SameSite);
Assert.Equal("/", options.Cookie.Path);
Assert.Equal("/dashboard/login", options.LoginPath);
Assert.Equal("/dashboard/logout", options.LogoutPath);
Assert.Equal("/dashboard/denied", options.AccessDeniedPath);
}
}
src/MxGateway.Tests/Gateway/Dashboard/DashboardSnapshotServiceTests.cs
+290
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@@ -0,0 +1,290 @@
using Microsoft.Extensions.Options;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Dashboard;
using MxGateway.Server.Metrics;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Tests.Gateway.Dashboard;
public sealed class DashboardSnapshotServiceTests
{
[Fact]
public void GetSnapshot_WhenRegistryEmpty_ReturnsEmptyOperationalState()
{
using GatewayMetrics metrics = new();
DashboardSnapshotService service = CreateService(new SessionRegistry(), metrics);
DashboardSnapshot snapshot = service.GetSnapshot();
Assert.Empty(snapshot.Sessions);
Assert.Empty(snapshot.Workers);
Assert.Empty(snapshot.Faults);
Assert.Contains(snapshot.Metrics, metric => metric.Name == "mxgateway.sessions.open" && metric.Value == 0);
Assert.Equal("Healthy", snapshot.GatewayStatus);
Assert.NotNull(snapshot.Configuration);
}
[Fact]
public void GetSnapshot_ProjectsActiveAndFaultedSessionsWorkersMetricsAndFaults()
{
SessionRegistry registry = new();
GatewaySession activeSession = CreateSession(
"session-active",
"client-one",
DateTimeOffset.Parse("2026-04-26T10:00:00Z"));
activeSession.AttachWorkerClient(new FakeWorkerClient("session-active", 1201, WorkerClientState.Ready));
activeSession.MarkReady();
GatewaySession faultedSession = CreateSession(
"session-faulted",
"client-two",
DateTimeOffset.Parse("2026-04-26T10:01:00Z"));
faultedSession.AttachWorkerClient(new FakeWorkerClient("session-faulted", 1202, WorkerClientState.Faulted));
faultedSession.MarkFaulted("worker pipe disconnected");
registry.TryAdd(activeSession);
registry.TryAdd(faultedSession);
using GatewayMetrics metrics = new();
metrics.SessionOpened();
metrics.SessionOpened();
metrics.CommandStarted("Register");
metrics.CommandFailed("Register", "WorkerFaulted", TimeSpan.FromMilliseconds(7));
metrics.EventReceived("session-active", "OnDataChange");
metrics.Fault("WorkerFaulted");
DashboardSnapshotService service = CreateService(registry, metrics);
DashboardSnapshot snapshot = service.GetSnapshot();
Assert.Equal(2, snapshot.Sessions.Count);
Assert.Equal("session-faulted", snapshot.Sessions[0].SessionId);
Assert.Equal(SessionState.Faulted, snapshot.Sessions[0].State);
Assert.Equal(2, snapshot.Workers.Count);
Assert.Contains(snapshot.Metrics, metric => metric.Name == "mxgateway.commands.started" && metric.Value == 1);
Assert.Contains(
snapshot.Metrics,
metric => metric.Name == "mxgateway.events.received"
&& metric.Dimension == "OnDataChange"
&& metric.Value == 1);
DashboardFaultSummary fault = Assert.Single(snapshot.Faults);
Assert.Equal("Worker", fault.Source);
Assert.Equal("session-faulted", fault.SessionId);
Assert.Equal("worker pipe disconnected", fault.Message);
}
[Fact]
public void GetSnapshot_RedactsSecretsFromSessionAndFaultFields()
{
SessionRegistry registry = new();
GatewaySession session = CreateSession(
"session-redacted",
"Bearer mxgw_admin_super-secret",
DateTimeOffset.Parse("2026-04-26T10:00:00Z"),
clientSessionName: "password=hunter2",
clientCorrelationId: "token=abc123");
session.MarkFaulted("secret=credential-value");
registry.TryAdd(session);
using GatewayMetrics metrics = new();
DashboardSnapshotService service = CreateService(registry, metrics);
DashboardSnapshot snapshot = service.GetSnapshot();
DashboardSessionSummary summary = Assert.Single(snapshot.Sessions);
Assert.Equal("Bearer mxgw_admin_[redacted]", summary.ClientIdentity);
Assert.Equal("[redacted]", summary.ClientSessionName);
Assert.Equal("[redacted]", summary.ClientCorrelationId);
Assert.Equal("[redacted]", summary.LastFault);
Assert.Equal("[redacted]", Assert.Single(snapshot.Faults).Message);
Assert.Equal("[redacted]", snapshot.Configuration.Authentication.PepperSecretName);
}
[Fact]
public void GetSnapshot_DoesNotMutateSessionOrWorkerState()
{
SessionRegistry registry = new();
GatewaySession session = CreateSession(
"session-active",
"client-one",
DateTimeOffset.Parse("2026-04-26T10:00:00Z"));
FakeWorkerClient workerClient = new("session-active", 1201, WorkerClientState.Ready);
session.AttachWorkerClient(workerClient);
session.MarkReady();
registry.TryAdd(session);
using GatewayMetrics metrics = new();
DashboardSnapshotService service = CreateService(registry, metrics);
service.GetSnapshot();
service.GetSnapshot();
Assert.Equal(1, registry.ActiveCount);
Assert.Equal(SessionState.Ready, session.State);
Assert.Equal(WorkerClientState.Ready, workerClient.State);
Assert.Equal(0, workerClient.StartCount);
Assert.Equal(0, workerClient.ShutdownCount);
Assert.Equal(0, workerClient.KillCount);
}
[Fact]
public void GetSnapshot_AppliesRecentSessionAndFaultLimits()
{
SessionRegistry registry = new();
GatewaySession olderSession = CreateSession(
"session-older",
"client-one",
DateTimeOffset.Parse("2026-04-26T10:00:00Z"));
GatewaySession newerSession = CreateSession(
"session-newer",
"client-two",
DateTimeOffset.Parse("2026-04-26T10:01:00Z"));
olderSession.MarkFaulted("older fault");
newerSession.MarkFaulted("newer fault");
registry.TryAdd(olderSession);
registry.TryAdd(newerSession);
using GatewayMetrics metrics = new();
DashboardSnapshotService service = CreateService(
registry,
metrics,
new GatewayOptions
{
Dashboard = new DashboardOptions
{
SnapshotIntervalMilliseconds = 1,
RecentSessionLimit = 1,
RecentFaultLimit = 1,
},
});
DashboardSnapshot snapshot = service.GetSnapshot();
Assert.Equal("session-newer", Assert.Single(snapshot.Sessions).SessionId);
Assert.Equal("session-newer", Assert.Single(snapshot.Faults).SessionId);
}
[Fact]
public async Task WatchSnapshotsAsync_WhenSubscriberCancels_DisposesCleanly()
{
using GatewayMetrics metrics = new();
DashboardSnapshotService service = CreateService(
new SessionRegistry(),
metrics,
new GatewayOptions
{
Dashboard = new DashboardOptions
{
SnapshotIntervalMilliseconds = 1,
},
});
using CancellationTokenSource cancellation = new();
await using IAsyncEnumerator<DashboardSnapshot> enumerator = service
.WatchSnapshotsAsync(cancellation.Token)
.GetAsyncEnumerator();
Assert.True(await enumerator.MoveNextAsync().AsTask().WaitAsync(TimeSpan.FromSeconds(1)));
await cancellation.CancelAsync();
bool hasNext = await enumerator.MoveNextAsync().AsTask().WaitAsync(TimeSpan.FromSeconds(1));
Assert.False(hasNext);
}
private static DashboardSnapshotService CreateService(
SessionRegistry registry,
GatewayMetrics metrics,
GatewayOptions? options = null)
{
GatewayOptions resolvedOptions = options ?? new GatewayOptions
{
Dashboard = new DashboardOptions
{
SnapshotIntervalMilliseconds = 1,
},
};
GatewayConfigurationProvider configurationProvider = new(Options.Create(resolvedOptions));
return new DashboardSnapshotService(
registry,
metrics,
configurationProvider,
Options.Create(resolvedOptions));
}
private static GatewaySession CreateSession(
string sessionId,
string? clientIdentity,
DateTimeOffset openedAt,
string? clientSessionName = "test-session",
string? clientCorrelationId = "client-correlation")
{
return new GatewaySession(
sessionId,
"mxaccess",
$"mxaccess-gateway-1-{sessionId}",
"nonce",
clientIdentity,
clientSessionName,
clientCorrelationId,
TimeSpan.FromSeconds(30),
TimeSpan.FromSeconds(5),
TimeSpan.FromSeconds(5),
openedAt);
}
private sealed class FakeWorkerClient(
string sessionId,
int? processId,
WorkerClientState state) : IWorkerClient
{
public string SessionId { get; } = sessionId;
public int? ProcessId { get; } = processId;
public WorkerClientState State { get; private set; } = state;
public DateTimeOffset LastHeartbeatAt { get; } = DateTimeOffset.Parse("2026-04-26T10:02:00Z");
public int StartCount { get; private set; }
public int ShutdownCount { get; private set; }
public int KillCount { get; private set; }
public Task StartAsync(CancellationToken cancellationToken)
{
StartCount++;
return Task.CompletedTask;
}
public Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
TimeSpan timeout,
CancellationToken cancellationToken)
{
return Task.FromResult(new WorkerCommandReply());
}
public async IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
[System.Runtime.CompilerServices.EnumeratorCancellation] CancellationToken cancellationToken)
{
await Task.CompletedTask;
yield break;
}
public Task ShutdownAsync(
TimeSpan timeout,
CancellationToken cancellationToken)
{
ShutdownCount++;
State = WorkerClientState.Closed;
return Task.CompletedTask;
}
public void Kill(string reason)
{
KillCount++;
State = WorkerClientState.Faulted;
}
public ValueTask DisposeAsync()
{
return ValueTask.CompletedTask;
}
}
}
src/MxGateway.Tests/Gateway/GatewayApplicationTests.cs
+39
View File
@@ -33,6 +33,37 @@ public sealed class GatewayApplicationTests
Assert.NotNull(metrics);
}
[Fact]
public void Build_WhenDashboardEnabled_MapsBlazorDashboardAndAuthEndpoints()
{
WebApplication app = GatewayApplication.Build([]);
IReadOnlyList<RouteEndpoint> endpoints = GetRouteEndpoints(app);
Assert.Contains(endpoints, endpoint => endpoint.RoutePattern.RawText == "/dashboard/");
Assert.Contains(endpoints, endpoint => endpoint.RoutePattern.RawText == "/dashboard/sessions");
Assert.Contains(endpoints, endpoint => endpoint.RoutePattern.RawText == "/dashboard/workers");
Assert.Contains(endpoints, endpoint => endpoint.RoutePattern.RawText == "/dashboard/events");
Assert.Contains(endpoints, endpoint => endpoint.RoutePattern.RawText == "/dashboard/settings");
Assert.Contains(endpoints, endpoint =>
endpoint.Metadata.GetMetadata<IEndpointNameMetadata>()?.EndpointName == "DashboardLogin");
Assert.Contains(endpoints, endpoint =>
endpoint.Metadata.GetMetadata<IEndpointNameMetadata>()?.EndpointName == "DashboardLogout");
}
[Fact]
public void Build_WhenDashboardDisabled_DoesNotMapDashboardRoutes()
{
WebApplication app = GatewayApplication.Build(["--MxGateway:Dashboard:Enabled=false"]);
IReadOnlyList<RouteEndpoint> endpoints = GetRouteEndpoints(app);
Assert.DoesNotContain(endpoints, endpoint =>
endpoint.RoutePattern.RawText?.StartsWith("/dashboard", StringComparison.Ordinal) == true);
Assert.DoesNotContain(endpoints, endpoint =>
endpoint.Metadata.GetMetadata<IEndpointNameMetadata>()?.EndpointName?.StartsWith(
"Dashboard",
StringComparison.Ordinal) == true);
}
[Theory]
[InlineData(
"MxGateway:Worker:ExecutablePath",
@@ -65,4 +96,12 @@ public sealed class GatewayApplicationTests
exception.Failures,
failure => failure.Contains(expectedFailure, StringComparison.Ordinal));
}
private static IReadOnlyList<RouteEndpoint> GetRouteEndpoints(WebApplication app)
{
return ((IEndpointRouteBuilder)app).DataSources
.SelectMany(dataSource => dataSource.Endpoints)
.OfType<RouteEndpoint>()
.ToArray();
}
}
src/MxGateway.Tests/Gateway/GatewayEndToEndFakeWorkerSmokeTests.cs
+439
View File
@@ -0,0 +1,439 @@
using System.Collections.Concurrent;
using Google.Protobuf.WellKnownTypes;
using Grpc.Core;
using Microsoft.Extensions.Logging.Abstractions;
using Microsoft.Extensions.Options;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Grpc;
using MxGateway.Server.Metrics;
using MxGateway.Server.Security.Authorization;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
using MxGateway.Tests.Gateway.Workers.Fakes;
namespace MxGateway.Tests.Gateway;
public sealed class GatewayEndToEndFakeWorkerSmokeTests
{
private static readonly TimeSpan TestTimeout = TimeSpan.FromSeconds(5);
private const int ServerHandle = 1001;
private const int ItemHandle = 2002;
[Fact]
public async Task GatewayService_WithFakeWorker_CompletesSessionCommandEventAndClosePath()
{
ScriptedFakeWorkerProcessLauncher launcher = new();
await using GatewayServiceFixture fixture = new(launcher);
OpenSessionReply openReply = await fixture.Service.OpenSession(
new OpenSessionRequest
{
ClientSessionName = "fake-worker-e2e",
ClientCorrelationId = "open-correlation",
CommandTimeout = Duration.FromTimeSpan(TestTimeout),
},
new TestServerCallContext());
RecordingServerStreamWriter<MxEvent> eventWriter = new();
Task streamTask = fixture.Service.StreamEvents(
new StreamEventsRequest { SessionId = openReply.SessionId },
eventWriter,
new TestServerCallContext());
MxCommandReply registerReply = await fixture.Service.Invoke(
CreateRegisterRequest(openReply.SessionId),
new TestServerCallContext());
MxCommandReply addItemReply = await fixture.Service.Invoke(
CreateAddItemRequest(openReply.SessionId, registerReply.Register.ServerHandle),
new TestServerCallContext());
MxCommandReply adviseReply = await fixture.Service.Invoke(
CreateAdviseRequest(openReply.SessionId, registerReply.Register.ServerHandle, addItemReply.AddItem.ItemHandle),
new TestServerCallContext());
MxEvent dataChange = await eventWriter.WaitForFirstMessageAsync(TestTimeout);
CloseSessionReply closeReply = await fixture.Service.CloseSession(
new CloseSessionRequest
{
SessionId = openReply.SessionId,
ClientCorrelationId = "close-correlation",
},
new TestServerCallContext());
await streamTask.WaitAsync(TestTimeout);
await launcher.WorkerTask.WaitAsync(TestTimeout);
Assert.Equal(ProtocolStatusCode.Ok, openReply.ProtocolStatus.Code);
Assert.Equal(GatewayContractInfo.DefaultBackendName, openReply.BackendName);
Assert.Equal(ScriptedFakeWorkerProcessLauncher.ProcessId, openReply.WorkerProcessId);
Assert.Equal(ProtocolStatusCode.Ok, registerReply.ProtocolStatus.Code);
Assert.Equal(ServerHandle, registerReply.Register.ServerHandle);
Assert.Equal(ProtocolStatusCode.Ok, addItemReply.ProtocolStatus.Code);
Assert.Equal(ItemHandle, addItemReply.AddItem.ItemHandle);
Assert.Equal(ProtocolStatusCode.Ok, adviseReply.ProtocolStatus.Code);
Assert.Equal(MxEventFamily.OnDataChange, dataChange.Family);
Assert.Equal(openReply.SessionId, dataChange.SessionId);
Assert.Equal(ServerHandle, dataChange.ServerHandle);
Assert.Equal(ItemHandle, dataChange.ItemHandle);
Assert.Equal("scripted-value", dataChange.Value.StringValue);
Assert.Equal(ProtocolStatusCode.Ok, closeReply.ProtocolStatus.Code);
Assert.Equal(SessionState.Closed, closeReply.FinalState);
Assert.True(launcher.Process.HasExited);
Assert.Equal(
[MxCommandKind.Register, MxCommandKind.AddItem, MxCommandKind.Advise],
launcher.CommandKinds);
}
private static MxCommandRequest CreateRegisterRequest(string sessionId)
{
return new MxCommandRequest
{
SessionId = sessionId,
ClientCorrelationId = "register-correlation",
Command = new MxCommand
{
Kind = MxCommandKind.Register,
Register = new RegisterCommand { ClientName = "fake-worker-e2e-client" },
},
};
}
private static MxCommandRequest CreateAddItemRequest(
string sessionId,
int serverHandle)
{
return new MxCommandRequest
{
SessionId = sessionId,
ClientCorrelationId = "add-item-correlation",
Command = new MxCommand
{
Kind = MxCommandKind.AddItem,
AddItem = new AddItemCommand
{
ServerHandle = serverHandle,
ItemDefinition = "Galaxy.Tag.Value",
},
},
};
}
private static MxCommandRequest CreateAdviseRequest(
string sessionId,
int serverHandle,
int itemHandle)
{
return new MxCommandRequest
{
SessionId = sessionId,
ClientCorrelationId = "advise-correlation",
Command = new MxCommand
{
Kind = MxCommandKind.Advise,
Advise = new AdviseCommand
{
ServerHandle = serverHandle,
ItemHandle = itemHandle,
},
},
};
}
private sealed class GatewayServiceFixture : IAsyncDisposable
{
private readonly GatewayMetrics _metrics = new();
private readonly SessionRegistry _registry = new();
public GatewayServiceFixture(IWorkerProcessLauncher launcher)
{
IOptions<GatewayOptions> options = Options.Create(CreateOptions());
SessionWorkerClientFactory workerClientFactory = new(
launcher,
options,
_metrics,
NullLoggerFactory.Instance);
SessionManager sessionManager = new(
_registry,
workerClientFactory,
options,
_metrics,
logger: NullLogger<SessionManager>.Instance);
MxAccessGrpcMapper mapper = new();
EventStreamService eventStreamService = new(
sessionManager,
options,
mapper,
_metrics,
NullLogger<EventStreamService>.Instance);
Service = new MxAccessGatewayService(
sessionManager,
new GatewayRequestIdentityAccessor(),
new MxAccessGrpcRequestValidator(),
mapper,
eventStreamService,
NullLogger<MxAccessGatewayService>.Instance);
}
public MxAccessGatewayService Service { get; }
public async ValueTask DisposeAsync()
{
foreach (GatewaySession session in _registry.Snapshot())
{
await session.DisposeAsync();
}
_metrics.Dispose();
}
private static GatewayOptions CreateOptions()
{
return new GatewayOptions
{
Worker = new WorkerOptions
{
StartupTimeoutSeconds = 5,
ShutdownTimeoutSeconds = 5,
HeartbeatIntervalSeconds = 30,
HeartbeatGraceSeconds = 30,
MaxMessageBytes = WorkerFrameProtocolOptions.DefaultMaxMessageBytes,
},
Sessions = new SessionOptions
{
DefaultCommandTimeoutSeconds = 5,
MaxSessions = 4,
},
Events = new EventOptions
{
QueueCapacity = 16,
},
};
}
}
private sealed class ScriptedFakeWorkerProcessLauncher : IWorkerProcessLauncher
{
public const int ProcessId = 4680;
private readonly ConcurrentQueue<MxCommandKind> _commandKinds = new();
public FakeWorkerProcess Process { get; } = new(ProcessId);
public IReadOnlyCollection<MxCommandKind> CommandKinds => _commandKinds.ToArray();
public Task WorkerTask { get; private set; } = Task.CompletedTask;
public Task<WorkerProcessHandle> LaunchAsync(
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken = default)
{
WorkerTask = RunWorkerAsync(request, cancellationToken);
return Task.FromResult(new WorkerProcessHandle(
Process,
new WorkerProcessCommandLine("fake-worker.exe", []),
DateTimeOffset.UtcNow));
}
private async Task RunWorkerAsync(
WorkerProcessLaunchRequest request,
CancellationToken cancellationToken)
{
await using FakeWorkerHarness harness = await FakeWorkerHarness.ConnectToGatewayPipeAsync(
request.SessionId,
request.Nonce,
request.PipeName,
request.ProtocolVersion,
cancellationToken: cancellationToken).ConfigureAwait(false);
await harness.CompleteStartupAsync(ProcessId, cancellationToken: cancellationToken).ConfigureAwait(false);
while (!cancellationToken.IsCancellationRequested)
{
WorkerEnvelope envelope = await harness.ReadGatewayEnvelopeAsync(cancellationToken).ConfigureAwait(false);
if (envelope.BodyCase == WorkerEnvelope.BodyOneofCase.WorkerCommand)
{
await ReplyToCommandAsync(harness, envelope, cancellationToken).ConfigureAwait(false);
continue;
}
if (envelope.BodyCase == WorkerEnvelope.BodyOneofCase.WorkerShutdown)
{
await harness.SendShutdownAckAsync(cancellationToken: cancellationToken).ConfigureAwait(false);
Process.MarkExited(0);
return;
}
throw new InvalidOperationException($"Unexpected gateway envelope {envelope.BodyCase}.");
}
}
private async Task ReplyToCommandAsync(
FakeWorkerHarness harness,
WorkerEnvelope commandEnvelope,
CancellationToken cancellationToken)
{
MxCommand command = commandEnvelope.WorkerCommand.Command;
_commandKinds.Enqueue(command.Kind);
await harness.ReplyToCommandAsync(
commandEnvelope,
configureReply: reply => ConfigureReply(reply, command.Kind),
cancellationToken: cancellationToken).ConfigureAwait(false);
if (command.Kind == MxCommandKind.Advise)
{
await harness.EmitEventAsync(
MxEventFamily.OnDataChange,
cancellationToken,
mxEvent =>
{
mxEvent.ServerHandle = command.Advise.ServerHandle;
mxEvent.ItemHandle = command.Advise.ItemHandle;
mxEvent.Quality = 192;
mxEvent.Value = new MxValue
{
DataType = MxDataType.String,
StringValue = "scripted-value",
};
mxEvent.OnDataChange = new OnDataChangeEvent();
}).ConfigureAwait(false);
}
}
private static void ConfigureReply(
MxCommandReply reply,
MxCommandKind kind)
{
switch (kind)
{
case MxCommandKind.Register:
reply.Register = new RegisterReply { ServerHandle = ServerHandle };
break;
case MxCommandKind.AddItem:
reply.AddItem = new AddItemReply { ItemHandle = ItemHandle };
break;
}
}
}
private sealed class FakeWorkerProcess(int processId) : IWorkerProcess
{
public int Id { get; } = processId;
public bool HasExited { get; private set; }
public int? ExitCode { get; private set; }
public ValueTask WaitForExitAsync(CancellationToken cancellationToken)
{
HasExited = true;
ExitCode ??= 0;
return ValueTask.CompletedTask;
}
public void Kill(bool entireProcessTree)
{
MarkExited(-1);
}
public void Dispose()
{
}
public void MarkExited(int exitCode)
{
HasExited = true;
ExitCode = exitCode;
}
}
private sealed class RecordingServerStreamWriter<T> : IServerStreamWriter<T>
{
private readonly object _syncRoot = new();
private readonly TaskCompletionSource<T> _firstMessage = new(TaskCreationOptions.RunContinuationsAsynchronously);
private readonly List<T> _messages = [];
public IReadOnlyList<T> Messages
{
get
{
lock (_syncRoot)
{
return _messages.ToArray();
}
}
}
public WriteOptions? WriteOptions { get; set; }
public Task WriteAsync(T message)
{
lock (_syncRoot)
{
_messages.Add(message);
}
_firstMessage.TrySetResult(message);
return Task.CompletedTask;
}
public async Task<T> WaitForFirstMessageAsync(TimeSpan timeout)
{
return await _firstMessage.Task.WaitAsync(timeout).ConfigureAwait(false);
}
}
private sealed class TestServerCallContext(CancellationToken cancellationToken = default) : ServerCallContext
{
private readonly Metadata _requestHeaders = [];
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/Gateway/Grpc/EventStreamServiceTests.cs
+383
View File
@@ -0,0 +1,383 @@
using System.Runtime.CompilerServices;
using Grpc.Core;
using Microsoft.Extensions.Logging.Abstractions;
using Microsoft.Extensions.Options;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Configuration;
using MxGateway.Server.Grpc;
using MxGateway.Server.Metrics;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Tests.Gateway.Grpc;
public sealed class EventStreamServiceTests
{
private static readonly TimeSpan TestTimeout = TimeSpan.FromSeconds(5);
[Fact]
public async Task StreamEventsAsync_YieldsEventsInWorkerOrder()
{
FakeWorkerClient workerClient = new();
GatewaySession session = CreateReadySession(workerClient);
FakeSessionManager sessionManager = new(session);
using GatewayMetrics metrics = new();
EventStreamService service = CreateService(sessionManager, metrics: metrics);
workerClient.Events.Add(CreateWorkerEvent(sequence: 10, MxEventFamily.OnDataChange));
workerClient.Events.Add(CreateWorkerEvent(sequence: 11, MxEventFamily.OnWriteComplete));
workerClient.CompleteAfterConfiguredEvents = true;
List<MxEvent> events = await CollectEventsAsync(service, session.SessionId);
Assert.Equal([10UL, 11UL], events.Select(mxEvent => mxEvent.WorkerSequence).ToArray());
Assert.Equal(MxEventFamily.OnDataChange, events[0].Family);
Assert.Equal(MxEventFamily.OnWriteComplete, events[1].Family);
Assert.Equal(1, metrics.GetSnapshot().StreamDisconnects);
}
[Fact]
public async Task StreamEventsAsync_WhenSecondSubscriberStarts_RejectsClearly()
{
FakeWorkerClient workerClient = new();
GatewaySession session = CreateReadySession(workerClient);
EventStreamService service = CreateService(new FakeSessionManager(session));
using CancellationTokenSource firstSubscriberCancellation = new();
await using IAsyncEnumerator<MxEvent> firstSubscriber = service
.StreamEventsAsync(CreateRequest(session.SessionId), firstSubscriberCancellation.Token)
.GetAsyncEnumerator(firstSubscriberCancellation.Token);
Task<bool> firstMoveTask = firstSubscriber.MoveNextAsync().AsTask();
await WaitUntilAsync(() => session.ActiveEventSubscriberCount == 1);
await using IAsyncEnumerator<MxEvent> secondSubscriber = service
.StreamEventsAsync(CreateRequest(session.SessionId), CancellationToken.None)
.GetAsyncEnumerator();
SessionManagerException exception = await Assert.ThrowsAsync<SessionManagerException>(
async () => await secondSubscriber.MoveNextAsync().AsTask().WaitAsync(TestTimeout));
Assert.Equal(SessionManagerErrorCode.EventSubscriberAlreadyActive, exception.ErrorCode);
await firstSubscriberCancellation.CancelAsync();
await Assert.ThrowsAnyAsync<OperationCanceledException>(
async () => await firstMoveTask.WaitAsync(TestTimeout));
await firstSubscriber.DisposeAsync();
await WaitUntilAsync(() => session.ActiveEventSubscriberCount == 0);
}
[Fact]
public async Task StreamEventsAsync_WhenCanceled_DetachesSubscriber()
{
FakeWorkerClient workerClient = new();
GatewaySession session = CreateReadySession(workerClient);
EventStreamService service = CreateService(new FakeSessionManager(session));
using CancellationTokenSource cancellationTokenSource = new();
await using IAsyncEnumerator<MxEvent> subscriber = service
.StreamEventsAsync(CreateRequest(session.SessionId), cancellationTokenSource.Token)
.GetAsyncEnumerator(cancellationTokenSource.Token);
Task<bool> moveTask = subscriber.MoveNextAsync().AsTask();
await WaitUntilAsync(() => session.ActiveEventSubscriberCount == 1);
await cancellationTokenSource.CancelAsync();
await Assert.ThrowsAnyAsync<OperationCanceledException>(
async () => await moveTask.WaitAsync(TestTimeout));
await subscriber.DisposeAsync();
await WaitUntilAsync(() => session.ActiveEventSubscriberCount == 0);
}
[Fact]
public async Task StreamEventsAsync_WhenStreamQueueOverflows_FaultsSessionAndReportsOverflow()
{
FakeWorkerClient workerClient = new();
GatewaySession session = CreateReadySession(workerClient);
using GatewayMetrics metrics = new();
EventStreamService service = CreateService(
new FakeSessionManager(session),
metrics,
queueCapacity: 1);
workerClient.Events.Add(CreateWorkerEvent(sequence: 1, MxEventFamily.OnDataChange));
workerClient.Events.Add(CreateWorkerEvent(sequence: 2, MxEventFamily.OnDataChange));
workerClient.Events.Add(CreateWorkerEvent(sequence: 3, MxEventFamily.OnDataChange));
workerClient.CompleteAfterConfiguredEvents = true;
await using IAsyncEnumerator<MxEvent> subscriber = service
.StreamEventsAsync(CreateRequest(session.SessionId), CancellationToken.None)
.GetAsyncEnumerator();
Assert.True(await subscriber.MoveNextAsync().AsTask().WaitAsync(TestTimeout));
await WaitUntilAsync(() => session.State == SessionState.Faulted);
SessionManagerException exception = await Assert.ThrowsAsync<SessionManagerException>(
async () => await subscriber.MoveNextAsync().AsTask().WaitAsync(TestTimeout));
Assert.Equal(SessionManagerErrorCode.EventQueueOverflow, exception.ErrorCode);
Assert.Equal(SessionState.Faulted, session.State);
Assert.Equal(1, metrics.GetSnapshot().QueueOverflows);
Assert.Equal(1, metrics.GetSnapshot().Faults);
}
[Fact]
public async Task StreamEventsAsync_DoesNotSynthesizeOperationComplete()
{
FakeWorkerClient workerClient = new();
GatewaySession session = CreateReadySession(workerClient);
EventStreamService service = CreateService(new FakeSessionManager(session));
workerClient.Events.Add(CreateWorkerEvent(sequence: 10, MxEventFamily.OnWriteComplete));
workerClient.CompleteAfterConfiguredEvents = true;
List<MxEvent> events = await CollectEventsAsync(service, session.SessionId);
MxEvent mxEvent = Assert.Single(events);
Assert.Equal(MxEventFamily.OnWriteComplete, mxEvent.Family);
Assert.DoesNotContain(events, candidate => candidate.Family == MxEventFamily.OperationComplete);
}
[Fact]
public async Task StreamEventsAsync_WhenWorkerEventStreamFaults_PropagatesTerminalFault()
{
FakeWorkerClient workerClient = new()
{
TerminalException = new WorkerClientException(
WorkerClientErrorCode.WorkerFaulted,
"worker terminal fault"),
};
GatewaySession session = CreateReadySession(workerClient);
using GatewayMetrics metrics = new();
EventStreamService service = CreateService(new FakeSessionManager(session), metrics);
await using IAsyncEnumerator<MxEvent> subscriber = service
.StreamEventsAsync(CreateRequest(session.SessionId), CancellationToken.None)
.GetAsyncEnumerator();
WorkerClientException exception = await Assert.ThrowsAsync<WorkerClientException>(
async () => await subscriber.MoveNextAsync().AsTask().WaitAsync(TestTimeout));
Assert.Equal(WorkerClientErrorCode.WorkerFaulted, exception.ErrorCode);
Assert.Equal(SessionState.Faulted, session.State);
Assert.Equal(1, metrics.GetSnapshot().Faults);
}
private static EventStreamService CreateService(
FakeSessionManager sessionManager,
GatewayMetrics? metrics = null,
int queueCapacity = 8)
{
return new EventStreamService(
sessionManager,
Options.Create(new GatewayOptions
{
Events = new EventOptions
{
QueueCapacity = queueCapacity,
},
}),
new MxAccessGrpcMapper(),
metrics ?? new GatewayMetrics(),
NullLogger<EventStreamService>.Instance);
}
private static async Task<List<MxEvent>> CollectEventsAsync(
EventStreamService service,
string sessionId)
{
List<MxEvent> events = [];
await foreach (MxEvent mxEvent in service
.StreamEventsAsync(CreateRequest(sessionId), CancellationToken.None)
.WithCancellation(CancellationToken.None))
{
events.Add(mxEvent);
}
return events;
}
private static StreamEventsRequest CreateRequest(string sessionId)
{
return new StreamEventsRequest
{
SessionId = sessionId,
};
}
private static GatewaySession CreateReadySession(FakeWorkerClient workerClient)
{
GatewaySession session = new(
"session-events",
GatewayContractInfo.DefaultBackendName,
"pipe",
"nonce",
"client",
"client-session",
"client-correlation",
TimeSpan.FromSeconds(30),
TimeSpan.FromSeconds(30),
TimeSpan.FromSeconds(10),
DateTimeOffset.UtcNow);
session.AttachWorkerClient(workerClient);
session.MarkReady();
return session;
}
private static WorkerEvent CreateWorkerEvent(
ulong sequence,
MxEventFamily family)
{
MxEvent mxEvent = new()
{
SessionId = "session-events",
Family = family,
WorkerSequence = sequence,
};
switch (family)
{
case MxEventFamily.OnDataChange:
mxEvent.OnDataChange = new OnDataChangeEvent();
break;
case MxEventFamily.OnWriteComplete:
mxEvent.OnWriteComplete = new OnWriteCompleteEvent();
break;
case MxEventFamily.OperationComplete:
mxEvent.OperationComplete = new OperationCompleteEvent();
break;
case MxEventFamily.OnBufferedDataChange:
mxEvent.OnBufferedDataChange = new OnBufferedDataChangeEvent();
break;
}
return new WorkerEvent
{
Event = mxEvent,
};
}
private static async Task WaitUntilAsync(Func<bool> predicate)
{
using CancellationTokenSource cancellationTokenSource = new(TestTimeout);
while (!predicate())
{
await Task.Delay(TimeSpan.FromMilliseconds(10), cancellationTokenSource.Token);
}
}
private sealed class FakeSessionManager(GatewaySession session) : ISessionManager
{
public Task<GatewaySession> OpenSessionAsync(
SessionOpenRequest request,
string? clientIdentity,
CancellationToken cancellationToken)
{
return Task.FromResult(session);
}
public bool TryGetSession(
string sessionId,
out GatewaySession gatewaySession)
{
gatewaySession = session;
return string.Equals(sessionId, session.SessionId, StringComparison.Ordinal);
}
public Task<WorkerCommandReply> InvokeAsync(
string sessionId,
WorkerCommand command,
CancellationToken cancellationToken)
{
return Task.FromResult(new WorkerCommandReply());
}
public IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
string sessionId,
CancellationToken cancellationToken)
{
return session.ReadEventsAsync(cancellationToken);
}
public Task<SessionCloseResult> CloseSessionAsync(
string sessionId,
CancellationToken cancellationToken)
{
return Task.FromResult(new SessionCloseResult(sessionId, SessionState.Closed, AlreadyClosed: false));
}
public Task<int> CloseExpiredLeasesAsync(
DateTimeOffset now,
CancellationToken cancellationToken)
{
return Task.FromResult(0);
}
public Task ShutdownAsync(CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
}
private sealed class FakeWorkerClient : IWorkerClient
{
public List<WorkerEvent> Events { get; } = [];
public bool CompleteAfterConfiguredEvents { get; set; }
public Exception? TerminalException { get; init; }
public string SessionId { get; } = "session-events";
public int? ProcessId { get; } = 4321;
public WorkerClientState State { get; private set; } = WorkerClientState.Ready;
public DateTimeOffset LastHeartbeatAt { get; } = DateTimeOffset.UtcNow;
public Task StartAsync(CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
public Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
TimeSpan timeout,
CancellationToken cancellationToken)
{
return Task.FromResult(new WorkerCommandReply());
}
public async IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
[EnumeratorCancellation] CancellationToken cancellationToken)
{
foreach (WorkerEvent workerEvent in Events)
{
cancellationToken.ThrowIfCancellationRequested();
yield return workerEvent;
}
if (TerminalException is not null)
{
throw TerminalException;
}
if (CompleteAfterConfiguredEvents)
{
yield break;
}
await Task.Delay(Timeout.InfiniteTimeSpan, cancellationToken);
}
public Task ShutdownAsync(
TimeSpan timeout,
CancellationToken cancellationToken)
{
State = WorkerClientState.Closed;
return Task.CompletedTask;
}
public void Kill(string reason)
{
State = WorkerClientState.Faulted;
}
public ValueTask DisposeAsync()
{
return ValueTask.CompletedTask;
}
}
}
src/MxGateway.Tests/Gateway/Grpc/MxAccessGatewayServiceTests.cs
+486
View File
@@ -0,0 +1,486 @@
using System.Runtime.CompilerServices;
using Google.Protobuf.WellKnownTypes;
using Grpc.Core;
using Microsoft.Extensions.Logging.Abstractions;
using MxGateway.Contracts;
using MxGateway.Contracts.Proto;
using MxGateway.Server.Grpc;
using MxGateway.Server.Security.Authentication;
using MxGateway.Server.Security.Authorization;
using MxGateway.Server.Sessions;
using MxGateway.Server.Workers;
namespace MxGateway.Tests.Gateway.Grpc;
public sealed class MxAccessGatewayServiceTests
{
[Fact]
public async Task OpenSession_WithValidRequest_ReturnsSessionDetails()
{
GatewayRequestIdentityAccessor identityAccessor = new();
FakeSessionManager sessionManager = new()
{
OpenSessionResult = CreateSession("session-1", processId: 4321),
};
MxAccessGatewayService service = CreateService(sessionManager, identityAccessor);
using IDisposable identityScope = identityAccessor.Push(CreateIdentity());
OpenSessionReply reply = await service.OpenSession(
new OpenSessionRequest
{
ClientSessionName = "operator-session",
CommandTimeout = Duration.FromTimeSpan(TimeSpan.FromSeconds(7)),
},
new TestServerCallContext());
Assert.Equal("session-1", reply.SessionId);
Assert.Equal(GatewayContractInfo.DefaultBackendName, reply.BackendName);
Assert.Equal(4321, reply.WorkerProcessId);
Assert.Equal(GatewayContractInfo.WorkerProtocolVersion, reply.WorkerProtocolVersion);
Assert.Equal(GatewayContractInfo.GatewayProtocolVersion, reply.GatewayProtocolVersion);
Assert.Equal(ProtocolStatusCode.Ok, reply.ProtocolStatus.Code);
Assert.Contains("unary-invoke", reply.Capabilities);
Assert.Equal("Operator Key", sessionManager.LastClientIdentity);
Assert.Equal("operator-session", sessionManager.LastOpenRequest?.ClientSessionName);
}
[Fact]
public async Task Invoke_WhenSessionMissing_ThrowsNotFound()
{
FakeSessionManager sessionManager = new()
{
InvokeException = new SessionManagerException(
SessionManagerErrorCode.SessionNotFound,
"Session session-missing was not found."),
};
MxAccessGatewayService service = CreateService(sessionManager);
RpcException exception = await Assert.ThrowsAsync<RpcException>(
async () => await service.Invoke(
CreatePingRequest("session-missing"),
new TestServerCallContext()));
Assert.Equal(StatusCode.NotFound, exception.StatusCode);
Assert.Contains("session-missing", exception.Status.Detail, StringComparison.Ordinal);
}
[Fact]
public async Task Invoke_WithMismatchedPayload_ThrowsInvalidArgumentAndDoesNotCallSessionManager()
{
FakeSessionManager sessionManager = new();
MxAccessGatewayService service = CreateService(sessionManager);
MxCommandRequest request = new()
{
SessionId = "session-1",
Command = new MxCommand
{
Kind = MxCommandKind.AddItem,
Ping = new PingCommand { Message = "wrong-payload" },
},
};
RpcException exception = await Assert.ThrowsAsync<RpcException>(
async () => await service.Invoke(request, new TestServerCallContext()));
Assert.Equal(StatusCode.InvalidArgument, exception.StatusCode);
Assert.Equal(0, sessionManager.InvokeCount);
}
[Fact]
public async Task Invoke_WithWorkerReply_ReturnsHresultStatusAndMethodPayload()
{
const int hresult = unchecked((int)0x80004005);
FakeSessionManager sessionManager = new()
{
InvokeReply = new WorkerCommandReply
{
Reply = new MxCommandReply
{
SessionId = "session-1",
CorrelationId = "worker-correlation",
Kind = MxCommandKind.AddItem,
ProtocolStatus = MxAccessGrpcMapper.Ok(),
Hresult = hresult,
AddItem = new AddItemReply { ItemHandle = 42 },
DiagnosticMessage = "mxaccess diagnostic",
},
},
};
sessionManager.InvokeReply.Reply.Statuses.Add(new MxStatusProxy
{
Success = 0,
Category = MxStatusCategory.SoftwareError,
Detail = 1001,
DiagnosticText = "status detail",
});
MxAccessGatewayService service = CreateService(sessionManager);
MxCommandRequest request = new()
{
SessionId = "session-1",
ClientCorrelationId = "client-correlation",
Command = new MxCommand
{
Kind = MxCommandKind.AddItem,
AddItem = new AddItemCommand
{
ServerHandle = 12,
ItemDefinition = "Galaxy.Tag.Value",
},
},
};
MxCommandReply reply = await service.Invoke(request, new TestServerCallContext());
Assert.Equal(MxCommandKind.AddItem, sessionManager.LastWorkerCommand?.Command.Kind);
Assert.Equal("Galaxy.Tag.Value", sessionManager.LastWorkerCommand?.Command.AddItem.ItemDefinition);
Assert.NotNull(sessionManager.LastWorkerCommand?.EnqueueTimestamp);
Assert.Equal(hresult, reply.Hresult);
Assert.Equal(42, reply.AddItem.ItemHandle);
Assert.Equal("status detail", Assert.Single(reply.Statuses).DiagnosticText);
Assert.Equal("mxaccess diagnostic", reply.DiagnosticMessage);
}
[Fact]
public async Task StreamEvents_WithAfterSequence_WritesOnlyLaterEvents()
{
FakeSessionManager sessionManager = new();
sessionManager.Events.Add(CreateWorkerEvent("session-1", workerSequence: 1));
sessionManager.Events.Add(CreateWorkerEvent("session-1", workerSequence: 2));
MxAccessGatewayService service = CreateService(sessionManager);
TestServerStreamWriter<MxEvent> writer = new();
await service.StreamEvents(
new StreamEventsRequest
{
SessionId = "session-1",
AfterWorkerSequence = 1,
},
writer,
new TestServerCallContext());
MxEvent writtenEvent = Assert.Single(writer.Messages);
Assert.Equal((ulong)2, writtenEvent.WorkerSequence);
Assert.Equal("session-1", sessionManager.LastReadEventsSessionId);
}
[Fact]
public async Task CloseSession_WithBlankSessionId_ThrowsInvalidArgument()
{
MxAccessGatewayService service = CreateService(new FakeSessionManager());
RpcException exception = await Assert.ThrowsAsync<RpcException>(
async () => await service.CloseSession(
new CloseSessionRequest(),
new TestServerCallContext()));
Assert.Equal(StatusCode.InvalidArgument, exception.StatusCode);
}
private static MxAccessGatewayService CreateService(
FakeSessionManager sessionManager,
IGatewayRequestIdentityAccessor? identityAccessor = null)
{
return new MxAccessGatewayService(
sessionManager,
identityAccessor ?? new GatewayRequestIdentityAccessor(),
new MxAccessGrpcRequestValidator(),
new MxAccessGrpcMapper(),
new FakeEventStreamService(sessionManager),
NullLogger<MxAccessGatewayService>.Instance);
}
private static ApiKeyIdentity CreateIdentity()
{
return new ApiKeyIdentity(
KeyId: "operator01",
KeyPrefix: "mxgw_operator01",
DisplayName: "Operator Key",
Scopes: new HashSet<string>(StringComparer.Ordinal));
}
private static GatewaySession CreateSession(
string sessionId,
int processId)
{
GatewaySession session = new(
sessionId,
GatewayContractInfo.DefaultBackendName,
"pipe",
"nonce",
"Operator Key",
"operator-session",
"client-correlation",
TimeSpan.FromSeconds(7),
TimeSpan.FromSeconds(30),
TimeSpan.FromSeconds(10),
DateTimeOffset.UtcNow);
session.AttachWorkerClient(new FakeWorkerClient(processId));
session.MarkReady();
return session;
}
private static MxCommandRequest CreatePingRequest(string sessionId)
{
return new MxCommandRequest
{
SessionId = sessionId,
Command = new MxCommand
{
Kind = MxCommandKind.Ping,
Ping = new PingCommand { Message = "ping" },
},
};
}
private static WorkerEvent CreateWorkerEvent(
string sessionId,
ulong workerSequence)
{
return new WorkerEvent
{
Event = new MxEvent
{
Family = MxEventFamily.OnDataChange,
SessionId = sessionId,
WorkerSequence = workerSequence,
OnDataChange = new OnDataChangeEvent(),
},
};
}
private sealed class FakeSessionManager : ISessionManager
{
public GatewaySession? OpenSessionResult { get; init; }
public SessionOpenRequest? LastOpenRequest { get; private set; }
public string? LastClientIdentity { get; private set; }
public string? LastReadEventsSessionId { get; private set; }
public WorkerCommand? LastWorkerCommand { get; private set; }
public WorkerCommandReply InvokeReply { get; init; } = new()
{
Reply = new MxCommandReply
{
SessionId = "session-1",
Kind = MxCommandKind.Ping,
ProtocolStatus = MxAccessGrpcMapper.Ok(),
},
};
public Exception? InvokeException { get; init; }
public int InvokeCount { get; private set; }
public List<WorkerEvent> Events { get; } = [];
public void RecordReadEventsSessionId(string sessionId)
{
LastReadEventsSessionId = sessionId;
}
public Task<GatewaySession> OpenSessionAsync(
SessionOpenRequest request,
string? clientIdentity,
CancellationToken cancellationToken)
{
LastOpenRequest = request;
LastClientIdentity = clientIdentity;
return Task.FromResult(OpenSessionResult ?? CreateSession("session-1", processId: 1234));
}
public bool TryGetSession(
string sessionId,
out GatewaySession session)
{
session = OpenSessionResult ?? CreateSession(sessionId, processId: 1234);
return true;
}
public Task<WorkerCommandReply> InvokeAsync(
string sessionId,
WorkerCommand command,
CancellationToken cancellationToken)
{
InvokeCount++;
LastWorkerCommand = command;
if (InvokeException is not null)
{
throw InvokeException;
}
return Task.FromResult(InvokeReply);
}
public async IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
string sessionId,
[EnumeratorCancellation] CancellationToken cancellationToken)
{
LastReadEventsSessionId = sessionId;
foreach (WorkerEvent workerEvent in Events)
{
cancellationToken.ThrowIfCancellationRequested();
await Task.Yield();
yield return workerEvent;
}
}
public Task<SessionCloseResult> CloseSessionAsync(
string sessionId,
CancellationToken cancellationToken)
{
return Task.FromResult(new SessionCloseResult(sessionId, SessionState.Closed, AlreadyClosed: false));
}
public Task<int> CloseExpiredLeasesAsync(
DateTimeOffset now,
CancellationToken cancellationToken)
{
return Task.FromResult(0);
}
public Task ShutdownAsync(CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
}
private sealed class FakeEventStreamService(FakeSessionManager sessionManager) : IEventStreamService
{
public async IAsyncEnumerable<MxEvent> StreamEventsAsync(
StreamEventsRequest request,
[EnumeratorCancellation] CancellationToken cancellationToken)
{
sessionManager.RecordReadEventsSessionId(request.SessionId);
foreach (WorkerEvent workerEvent in sessionManager.Events)
{
cancellationToken.ThrowIfCancellationRequested();
await Task.Yield();
if (workerEvent.Event.WorkerSequence <= request.AfterWorkerSequence)
{
continue;
}
yield return workerEvent.Event;
}
}
}
private sealed class FakeWorkerClient(int processId) : IWorkerClient
{
public string SessionId { get; } = "session-1";
public int? ProcessId { get; } = processId;
public WorkerClientState State { get; } = WorkerClientState.Ready;
public DateTimeOffset LastHeartbeatAt { get; } = DateTimeOffset.UtcNow;
public Task StartAsync(CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
public Task<WorkerCommandReply> InvokeAsync(
WorkerCommand command,
TimeSpan timeout,
CancellationToken cancellationToken)
{
return Task.FromResult(new WorkerCommandReply());
}
public async IAsyncEnumerable<WorkerEvent> ReadEventsAsync(
[EnumeratorCancellation] CancellationToken cancellationToken)
{
await Task.CompletedTask;
yield break;
}
public Task ShutdownAsync(
TimeSpan timeout,
CancellationToken cancellationToken)
{
return Task.CompletedTask;
}
public void Kill(string reason)
{
}
public ValueTask DisposeAsync()
{
return ValueTask.CompletedTask;
}
}
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(CancellationToken cancellationToken = default) : ServerCallContext
{
private readonly Metadata requestHeaders = [];
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();
}
}
}

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