docs: map the 2020 WCF string-handle wall (R1.4 GETHI blocked)

Probed R1.4 GetHistorianInfo (GETHI) live against the local 2020 server. GETHI returns native error type 4 / code 1 for the exact native request shape across 5 handle formats (storage GUID, context GUID, uint decimal/X8/0x-hex) even with Stat.GetV ×2 priming. Its result is discarded (TryRun) in the only place it's used, so it was never actually verified to return data managed-side. This confirms a structural boundary on the 2020 WCF surface: ops taking a uint client handle work (the proven read/browse/metadata/status/event surface); ops taking a string GUID handle (ExeC, QTB, QTG, GETHI, GetTepByNm, ...) are blocked behind an unmapped native session/filter registration. Every remaining M1 *read* item (R1.1/R1.4/R1.5/R1.6) is string-handle -> all gated on that one RE target. Reachable uint-handle items: R1.7 event filters, R1.8/R1.9 summary modes. New: docs/reverse-engineering/wcf-string-handle-wall.md (full dichotomy + table). Roadmap R1.4/R1.5/R1.6 struck through; reachable items re-pointed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-20 15:32:15 -04:00
parent 2246fdd395
commit 84ec175f76
2 changed files with 81 additions and 11 deletions
@@ -32,11 +32,14 @@ HCAL replacement, built on the **2023 R2 gRPC transport**. Derived from
 >   the contract-3 string-handle ops require an unmapped native session/filter registration
 >   step (the `StartTagQuery` wall).
 >
-> Takeaway: the M1a "cheap surface" is *cheap only on the 2023 R2 gRPC front door*. On 2020 WCF,
+> Takeaway: the M1a "cheap surface" is *cheap only on the 2023 R2 gRPC front door*. On 2020 WCF
-> the genuinely reachable next items are those that reuse a **proven uint-handle Retrieval op or
+> the boundary is the **handle type** (see the string-handle wall note under §1b and
-> an already-wired call** — e.g. **R1.4 `GetHistorianInfoAsync`** (GETHI is already invoked in
+> `docs/reverse-engineering/wcf-string-handle-wall.md`): **`uint`-handle ops work, `string`-handle
-> the event chain) and the extended/localized-property reads (R1.5/R1.6) that ride
+> ops are blocked.** GETHI/GetTepByNm were probed and confirmed blocked (not, as first guessed,
-> `GetTagInfo*`-style ops. Prefer those before any string-handle (`ExeC`/`QTB`/`QTG`) op.
+> reachable). The genuinely reachable next items on 2020 WCF are the remaining **`uint`-handle**
 > ops: **R1.8/R1.9 StartQuery summary/state modes** and **R1.7 event filters** (filter bytes ride
 > the proven `uint`-handle `StartEventQuery`). Everything string-handle waits on one RE target:
 > the native session/filter registration.
 ## Guiding principles
@@ -86,15 +89,24 @@ read/browse/status surface is Windows-free and the gRPC stack is the default pat
 | R1.2 | `GetRuntimeParameterAsync` | `Status.GetRuntimeParameter` | mirror `GetSystemParameter` |
 | ~~R1.3~~ | ~~`GetServerTimeZoneAsync`~~ | `Status.GetSystemTimeZoneName` | ⚠ **gRPC/2023R2-only.** Verified 2026-06-20: over **2020 WCF** this op is a stub (rc=0, empty value) in the `GetServerTime` family — not shippable here. Build+verify only against a live 2023 R2 server. See `docs/reverse-engineering/wcf-status-localhost.md`. |
 > ⛔ **String-handle wall (2026-06-20).** R1.4/R1.5/R1.6 (and R1.1) are **all blocked on 2020
 > WCF** for the *same* reason: their ops take a **`string` GUID handle** and require an unmapped
 > native session/filter registration. Probed live — GETHI returns code 1 for the exact native
 > request shape across 5 handle formats + Stat.GetV priming; ExeC returns code 51. The proven
 > surface uses **`uint`-handle** ops only. **One RE target — the native string-handle session
 > registration — unblocks this whole sub-milestone.** Full analysis:
 > `docs/reverse-engineering/wcf-string-handle-wall.md`. R1.8/R1.9 (StartQuery summary/state modes)
 > are `uint`-handle and remain reachable on 2020 WCF.
 ### 1b. Bounded (decode one `bytes` payload; S–M each)
 | ID | Capability | gRPC op | Payload to decode | Depends |
 |---|---|---|---|---|
-| R1.4 | `GetHistorianInfoAsync` | `Status.GetHistorianInfo` | GETHI buffer (partly decoded; incl. `EventStorageMode`@514) | R0.5 |
+| ~~R1.4~~ | `GetHistorianInfoAsync` | `Status.GetHistorianInfo` | ⛔ **string-handle wall** — GETHI returns code 1 on 2020 WCF (all handle/priming variants). GETHI buffer incl. `EventStorageMode`@514. | string-handle RE |
-| R1.5 | Extended-property **read** | `Retrieval.GetTagExtendedPropertiesFromName` | TEP result buffer | R0.5 |
+| ~~R1.5~~ | Extended-property **read** | `Retrieval.GetTagExtendedPropertiesFromName` | ⛔ **string-handle wall** (GetTepByNm takes `string handle`). TEP result buffer. | string-handle RE |
-| R1.6 | Localized-property **read** | `Retrieval.GetTagLocalizedPropertiesFromName` | localized buffer | R0.5 |
+| ~~R1.6~~ | Localized-property **read** | `Retrieval.GetTagLocalizedPropertiesFromName` | ⛔ **string-handle wall** (same family). | string-handle RE |
-| R1.7 | Event **filters** | filter bytes in `Retrieval.StartEventQuery` | filter predicate encoding (name/op/value) | R0.5 |
+| R1.7 | Event **filters** | filter bytes in `Retrieval.StartEventQuery` | filter predicate encoding (name/op/value) — **`uint`-handle**, reachable | R0.5 |
-| R1.8 | Analog-summary query | `Retrieval.StartQuery` (summary mode) | summary row layout | — |
+| R1.8 | Analog-summary query | `Retrieval.StartQuery` (summary mode) | summary row layout — **`uint`-handle**, reachable | — |
-| R1.9 | State-summary query | `Retrieval.StartQuery` (state mode) | state-summary row layout | — |
+| R1.9 | State-summary query | `Retrieval.StartQuery` (state mode) | state-summary row layout — **`uint`-handle**, reachable | — |
 ### 1c. Bounded config writes (S–M each)
 | ID | Capability | gRPC op | Payload | Notes |
@@ -0,0 +1,58 @@
 # The 2020 WCF string-handle wall (2026-06-20)
 Live-probing the local **Historian 2020** (WCF, port 32568) for HCAL roadmap M1
 surfaced a clean structural boundary on what the pure-managed client can call. It
 explains why R1.1/R1.4/R1.5 all fail and identifies the single RE target that
 unblocks the rest of the M1 read surface.
 ## The dichotomy
 Retrieval/Status/History ops split by the **type of their first (handle) parameter**:
 | Handle type | Examples | Status on 2020 WCF |
 |---|---|---|
 | **`uint` client handle** (Open2 output) | `StartQuery2`, `GetNextQueryResultBuffer2`, `IsOriginalAllowed`, `GetTagInfosFromName`/`GetTagInfoFromName` (GetTgByNm), `GetSystemParameter`, `StartEventQuery`, `GetNextEventQueryResultBuffer`, `RegisterTags2`, `EnsureTags2`, `UpdateClientStatus3` | ✅ **work** — the proven read/browse/metadata/status-param/event/write surface |
 | **`string` GUID handle** | `ExecuteSqlCommand` (ExeC), `StartTagQuery` (QTB), `QueryTag` (QTG), `GetHistorianInfo` (GETHI), `GetTagExtendedPropertiesFromName` (GetTepByNm), `GetTagInfosFromName2` (GetTgByNm2), `GetTagidsByTagnameAndSource` | ⛔ **blocked** — native error type 4, code **51 (InvalidParameter)** or **1 (Failure)** |
 ## Evidence (this probe + prior notes)
 - **ExeC** → type 4 / code 51 for every handle variant (storageGuid, contextGuid).
  Matches `implementation-status.md` ~982 / ~1404 ("StartTagQuery depends on earlier
  native session/filter registration … do not wire through guessed calls").
 - **GETHI** (`HistorianVersion` param query — the *exact* native request shape from
  `BuildGetHistorianInfoRequest`, with `Stat.GetV ×2` priming) → type 4 / code **1**
  for all five handle formats tried: storage-session GUID, context GUID, uint as
  decimal, uint as `X8` hex, uint as `0x`-hex. In the only place GETHI is used (the
  event-priming chain) its result is wrapped in `TryRun` and **discarded**, so there
  was never evidence it actually returns data from the managed client.
 - **GetTepByNm / QTB / QTG / GetTgByNm2** all take a `string handle` → same family.
 ## Why
 The string-handle ops are keyed off a **native-side session/filter registration**
 that the C++ client performs but the managed replay does not reproduce. The uint
 client handle is the Open2 session token the server already trusts; the string GUID
 handle indexes a *different* per-service registration table that stays empty unless
 the native priming is replicated faithfully. `Stat.GetV ×2` alone is insufficient.
 ## Consequence for the roadmap
 Every remaining **M1 read** item is a string-handle op:
 - R1.1 `ExecuteSqlCommandAsync` (ExeC) — blocked
 - R1.4 `GetHistorianInfoAsync` (GETHI) — blocked
 - R1.5 extended-property read (GetTepByNm) — blocked (string handle, confirmed)
 - R1.6 localized-property read — same family
 So **M1 read-surface completion on 2020 WCF is gated entirely behind one RE target:
 the native session/filter registration for string-handle ops.** Reverse-engineer it
 once and the whole family unlocks. Until then, the alternatives are:
 1. **RE the registration** — instrument the native `CRetrievalConnectionWCF` /
   `CStatusConnectionWCF` priming between Open2 and the first successful string-handle
   call (capture-tier; the highest-leverage single RE task for M1).
 2. **2023 R2 gRPC server** — these ops are first-class on the gRPC front door, where
   the handle/envelope differs and the registration wall may not apply.
 Do **not** ship any string-handle op via guessed calls (project discipline:
 "leave them throwing until evidence supports an implementation").