# Plan: Revision-Write Path (`AddRevisionValuesBegin/Value/End`) Status: **ARCHITECTURALLY BLOCKED — verified 2026-05-05.** Same root cause as `AddS2`: client-side cache rejects values for tags that weren't registered through a configured IO server / Application Server pipeline. Documented below; implementation deferred until / unless that prerequisite is removed. ## Empirical finding (2026-05-05) The native trace harness was extended with `--write-revision-values` to drive the revision flow: 1. `HistorianAccess.CreateHistorianDataValueList(HistorianDataCategory.NonStreamedOriginal)` succeeds — list is bound to the live `HistorianClient*` via `GetClient(ConnectionIndex.Process)`. 2. `HistorianDataValueList.NonStreamedValuesBegin()` succeeds — list batchID transitions 0 → 1. 3. `HistorianDataValueList.AddNonStreamedValue(value, validate=true, out error)` **fails** with `ErrorCode=TagNotFoundInCache (129)`, `ErrorDescription="error = 129 (Tag not found in cache)"` — the value is never added to the list (`Count` stays 0). 4. `HistorianDataValueList.AddNonStreamedValuesEnd()` returns void. 5. `HistorianAccess.SendValues(list, out error)` returns `true` with `ErrorCode=Success` — **but** no wire bytes left the client because the list is empty. (Inspecting captured WriteMessage stream confirms no `AddNonStreamValues*` Trx call appears.) The validation that rejects the value is the same gate that blocks `AddStreamedValue` (`AddS2`): the library's local tag cache only knows about tags that were: - Auto-populated from a configured IO server / Application Server pipeline, or - Read via the existing read flow (which hits the cache as a side effect) Tags created via `HistorianAccess.AddTag` populate `Runtime.dbo.Tag` but are not added to the in-memory cache that AddStreamedValue / AddNonStreamedValue consult. So writes from a managed client to a client-created tag fail at the validation gate before any wire bytes flow. ## Conclusion The revision-write path **does not bypass the AddS2 blocker** — it shares the same `TagNotFoundInCache` precondition. ### Follow-up probe (2026-05-05): SysTimeSec To narrow the gate's scope, the harness was extended with `--write-revision-target-tag ` (overrides the value's TagKey via SQL lookup). Probed `SysTimeSec` (an auto-populated system tag whose wwTagKey=12 is well-known in the runtime cache): ``` AddNonStreamedValue (TagKey=12 SysTimeSec): Result=False ErrorCode=TagNotFoundInCache ErrorDescription="error = 129 (Tag not found in cache)" ``` Same failure. Then probed with `--write-revision-skip-validate` to set the `validate` boolean to false on `AddNonStreamedValue` — same `TagNotFoundInCache` failure. The cache check is intrinsic to the function, not gated by the `validate` parameter. So the gate is **per-(client-session, tag)**, not per-(server-cache, tag): - Server-side, `SysTimeSec` IS in the runtime cache (it's auto-populated). - Client-side, the managed library has its own per-connection tag list that AddNonStreamedValue checks. That list is NOT populated by simply knowing the wwTagKey — something else (likely a `RegisterTags2` call during connection open, or the read flow as a side effect, or IO-server-driven registration) populates it. The harness opens with `ReadOnly=false` for the write scenario, which may suppress the read-flow side effect that would otherwise populate the local cache. Without further RE on what populates the local cache, no path is reachable for a managed client to write either streaming or revision values. ### Decisive blocker Both `AddStreamedValue` (AddS2) and `AddNonStreamedValue` (revision write) hit the same client-side cache gate. That gate isn't bypassed by: 1. Using a real wwTagKey from SQL 2. Targeting a server-cache-resident tag (SysTimeSec) 3. Setting `validate=false` on AddNonStreamedValue There is no managed-client path to a successful write against this server architecture without first reverse-engineering and exercising whatever populates the per-connection local cache. That's a much larger investigation — likely involving the WCF `RegisterTags2` op, HistorianClient C++ internals, and/or IO-server-driven cache registration that managed clients can't trigger directly. ## Decision Do **not** add public `WriteRevisionsAsync` / `BeginRevisionAsync` to the SDK. The contract methods already exist in `Wcf/Contracts/ITransactionServiceContract.cs` (`AddNonStreamValuesBegin/AddNonStreamValues/AddNonStreamValuesEnd`) for completeness, but the orchestrator and public surface stay absent. Revisit if either of these changes: 1. AVEVA documents (or a customer demonstrates) a code path that bypasses the cache validation for client-created tags. 2. The SDK's mission expands to include data correction for tags that ARE in the runtime cache (i.e., tags managed by a real IO server), in which case the harness extension below provides a starting point. ## Harness diagnostic (preserved) The `--write-revision-values` flag in `tools/AVEVA.Historian.NativeTraceHarness/Program.cs` reproduces the above failure deterministically. Re-run it any time to verify the blocker still holds: ```powershell dotnet run --no-build --project tools\AVEVA.Historian.NativeTraceHarness -- ` --scenario write ` --write-sandbox-tag RetestSdkWriteRevSandbox ` --write-data-type Float ` --write-skip-add-tag --write-skip-add-value ` --write-revision-values ``` Look for the `AddNonStreamedValue` row's `ErrorCode` field in the JSON output. ## Original plan (preserved for context if the blocker ever lifts) ## Context The Historian's "revision write" path is the documented mechanism for editing historized data after the fact (replaces the inferred `ModifyData` / `DeleteData` use cases that don't exist as WCF ops). Native managed surface (per Phase 1 findings of the write-commands plan): | Public method | Token | Purpose | |---|---|---| | `ArchestrA.HistorianAccess.AddRevisionValuesBegin` | `0x06006175` | Open a revision-edit transaction | | `ArchestrA.HistorianAccess.AddRevisionValue` | `0x06006176` | Append a value to the open transaction | | `ArchestrA.HistorianAccess.AddRevisionValuesEnd` | `0x06006177` | Commit the transaction | | `ArchestrA.HistorianAccess.AddRevisionValues` | `0x0600617F` | Single-shot variant | | `ArchestrA.HistorianAccess.AddVersionedStreamedValue` | `0x0600616F` | Push one versioned value (related path) | WCF surface is unknown — likely a new op group on `IHistoryServiceContract2` or `IRetrievalServiceContract4` or a new contract. ## Goal Public SDK API: ```csharp public Task BeginRevisionAsync(string tag, CancellationToken ct); // On the returned transaction: public Task AddRevisionValueAsync(HistorianSampleEdit sample, CancellationToken ct); public Task CommitAsync(CancellationToken ct); // IDisposable / IAsyncDisposable for cancellation rollback if such a thing exists ``` Or a single batch convenience: ```csharp public Task WriteRevisionsAsync(string tag, IReadOnlyList samples, CancellationToken ct); ``` The choice depends on the wire shape — if Begin/Value/End requires the caller to maintain a server handle between calls, the disposable transaction is necessary; if it's stateless, the batch convenience is fine. ## Workstreams ### A. Static analysis (1-2 hours) - Inspect IL for the four managed public methods to identify the underlying `CHistoryConnectionWCF.*` calls and their server-side WCF contract methods. - Add the contract methods to `Wcf/Contracts/IHistoryServiceContract2.cs` (or a new contract if appropriate) with `[OperationContract(Name = "...")]` + `[MessageParameter]` attributes once names are known. ### B. Native harness extension (2-3 hours) - Add `--scenario revision-write` to the harness. - Refer to existing `--scenario write` plumbing for the AddTag wrapper pattern. - Sequence: 1. Open connection (probably write-enabled mode `0x401`) 2. AddTag for sandbox tag (re-uses existing harness flow) 3. AddStreamedValue for the initial sample (currently blocked architecturally per Phase 2 findings — but may not be required if the revision path operates directly on the historian engine state) 4. AddRevisionValuesBegin / AddRevisionValue × N / AddRevisionValuesEnd 5. Read back via existing read path; verify the samples reflect the edits ### C. Wire capture (1 hour) - Same `instrument-wcf-writemessage` + `instrument-wcf-readmessage` IL-rewrite tooling already used for EnsT2 / DelT. - Capture both Begin/Value/End and the single-shot AddRevisionValues variant for byte-level diff. ### D. Decode + managed serializer (4-6 hours) - Walk the captured InBuff bytes against the native serializer IL. - The Begin payload likely seeds a server-side transaction handle that Value calls reference. Look for an `out`-returned handle in the Begin response. - Value payload structure is likely similar to `AddS2`'s pBuf (uint16 version + uint32 sampleCount + N × {tagId, FILETIME, quality, typed value bytes}) but may include a per-sample revision/version field. ### E. Public API + tests (4-6 hours) - New types: `HistorianSampleEdit` (sample + reason/version metadata), `HistorianRevisionTransaction` (disposable handle). - Public methods on `HistorianClient` per the Goal section. - Unit tests: golden-byte fixtures for Begin/Value/End/Commit payloads. - Live integration tests: write a known sample, edit it via the revision path, read back and assert the new value appears. ## Risks - **Server-cache prerequisite.** If the historian's revision path also requires the tag to be "live in the runtime cache" (the same blocker that killed `AddS2`), the entire path may be unimplementable for the same architectural reason. - **State across calls.** Begin/Value/End may store transaction state on the server keyed by the WCF session GUID. WCF's session model needs to be configured to keep the same channel alive across all three calls — which is a different lifecycle from the existing one-call-per-channel pattern in the SDK orchestrators. - **Concurrent edits.** Server may reject concurrent revision transactions on the same tag — needs probing. - **Time bounds.** Revision likely respects the same `RealTimeWindow` / `FutureTimeThreshold` system parameters as `AddS2`. Out-of-window edits silently drop or error — needs probing. ## Success Criteria - Public `BeginRevisionAsync` (or batch variant) live-verified against a sandbox tag created by `EnsureTagAsync`. - Round-trip test: write initial value → revise it → read back → verify the revised value persists in `History` extension table via SQL. - Golden-byte fixtures for Begin / Value / End / Commit captured against the sandbox tag. - Decision documented for whether the `AddRevisionValues` single-shot variant is exposed in addition to the Begin/Value/End sequence. ## Dependencies - Existing analog write surface (`EnsureTagAsync`) — done. - `AddS2` is **not** a prerequisite; the revision path may be an independent code path that bypasses the runtime-cache gate. If it doesn't, this plan is blocked the same way `AddS2` is. ## Out of scope - Editing event tags. Events come from AVEVA AnE; the SDK only reads them. - Bulk schema changes. Forbidden over the wire per the Historian's architecture. ## Trigger to start A customer-driven request, or a real need to expose historical data correction in the SDK's API. Without one, this remains the most substantive remaining write-path workstream but isn't worth the 1-2 days of focused work speculatively.