Joseph Doherty 2b66cec582 Auto: s7-a3 — DTL/DT/S5TIME/TIME/TOD/DATE codecs ...

Adds S7DateTimeCodec static class implementing the six Siemens S7 date/time
wire formats:

  - DTL (12 bytes): UInt16 BE year + month/day/dow/h/m/s + UInt32 BE nanos
  - DATE_AND_TIME (8 bytes BCD): yy/mm/dd/hh/mm/ss + 3-digit BCD ms + dow
  - S5TIME (16 bits): 2-bit timebase + 3-digit BCD count → TimeSpan
  - TIME (Int32 ms BE, signed) → TimeSpan, allows negative durations
  - TOD (UInt32 ms BE, 0..86399999) → TimeSpan since midnight
  - DATE (UInt16 BE days since 1990-01-01) → DateTime

Mirrors the S7StringCodec pattern from PR-S7-A2 — codecs operate on raw byte
spans so each format can be locked with golden-byte unit tests without a
live PLC. New S7DataType members (Dtl, DateAndTime, S5Time, Time, TimeOfDay,
Date) are wired into S7Driver.ReadOneAsync/WriteOneAsync via byte-level
ReadBytesAsync/WriteBytesAsync calls — S7.Net's string-keyed Read/Write
overloads have no syntax for these widths.

Uninitialized PLC buffers (all-zero year+month for DTL/DT) reject as
InvalidDataException → BadOutOfRange to operators, rather than decoding as
year-0001 garbage.

S5TIME / TIME / TOD surface as Int32 ms (DriverDataType has no Duration);
DTL / DT / DATE surface as DriverDataType.DateTime.

Test coverage: 30 new golden-vector + round-trip + rejection tests,
including the all-zero buffer rejection paths and BCD-nibble validation.
Build clean, 115/115 S7 tests pass.

Closes #289

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>

2026-04-25 16:37:39 -04:00

..

S7AddressParserTests.cs

Auto: s7-a1 — 64-bit scalar types

2026-04-25 16:16:23 -04:00

S7DateTimeCodecTests.cs

Auto: s7-a3 — DTL/DT/S5TIME/TIME/TOD/DATE codecs

2026-04-25 16:37:39 -04:00

S7DiscoveryAndSubscribeTests.cs

Auto: s7-a1 — 64-bit scalar types

2026-04-25 16:16:23 -04:00

S7DriverReadWriteTests.cs

Phase 3 PR 64 -- S7 IReadable + IWritable via S7.Net string-based Plc.ReadAsync/WriteAsync. Adds IReadable + IWritable capability interfaces to S7Driver, routing reads/writes through S7netplus's string-address API (Plc.ReadAsync(string, ct) / Plc.WriteAsync(string, object, ct)). All operations serialize on the class's SemaphoreSlim Gate because S7netplus mandates one Plc connection per PLC with client-side serialization -- parallel reads against a single S7 CPU queue wire-side anyway and just eat connection-resource budget. Supported data types in this PR: Bool, Byte, Int16, UInt16, Int32, UInt32, Float32. S7.Net's string-based read returns UNSIGNED boxed values (DBX=bool, DBB=byte, DBW=ushort, DBD=uint); the driver reinterprets them into the requested S7DataType via the (DataType, Size, raw) switch: unchecked short-cast for Int16, unchecked int-cast for Int32, BitConverter.UInt32BitsToSingle for Float32. Writes inverse the conversion -- Int16 -> unchecked ushort cast, Int32 -> unchecked uint cast, Float32 -> BitConverter.SingleToUInt32Bits -- before handing to S7.Net's WriteAsync. This avoids a second PLC round-trip that a typed ReadAsync(DataType, db, offset, VarType, ...) overload would need. Int64, UInt64, Float64, String, DateTime throw NotSupportedException (-> BadNotSupported StatusCode); S7 STRING has non-trivial header semantics + LReal/DateTime need typed S7.Net API paths, both land in a follow-up PR when scope demands. InitializeAsync now parses every tag's Address string via S7AddressParser at init time. Bad addresses throw FormatException and flip health to Faulted -- callers can't register a broken driver. The parsed form goes into _parsedByName so Read/Write can consult Size/BitOffset without re-parsing per operation. StatusCode mapping in catch chain: unknown tag name -> BadNodeIdUnknown (0x80340000), unsupported data type -> BadNotSupported (0x803D0000), read-only tag write attempt -> BadNotWritable (0x803B0000), S7.Net PlcException (carries PUT/GET-disabled signal on S7-1200/1500) -> BadDeviceFailure (0x80550000) so operators see a TIA-Portal config problem rather than a transient-fault false flag per driver-specs.md \u00A75, any other runtime exception on read -> BadCommunicationError (0x80050000) to distinguish socket/timeout from tag-level faults. Write generic-exception path stays BadInternalError because write failures can legitimately be driver-side value-range problems. Unit tests (S7DriverReadWriteTests, 3 facts): Initialize_rejects_invalid_tag_address_and_fails_fast -- Tags with a malformed address must throw at InitializeAsync rather than producing a half-healthy driver; ReadAsync_without_initialize_throws_InvalidOperationException + WriteAsync_without_initialize_throws_InvalidOperationException -- pre-init calls hit RequirePlc and throw the uniform 'not initialized' message. Wire-level round-trip coverage (integration test against a live S7-1500 or a mock S7 server) is deferred -- S7.Net doesn't ship an in-process fake and a conformant mock is non-trivial. 53/53 Modbus.Driver.S7.Tests pass (50 parser + 3 read/write). dotnet build clean.

2026-04-19 00:10:41 -04:00

S7DriverScaffoldTests.cs

Phase 3 PR 62 -- Siemens S7 native driver project scaffold (S7comm via S7netplus). First non-Modbus in-process driver. Creates src/ZB.MOM.WW.OtOpcUa.Driver.S7 (.NET 10, x64 -- S7netplus is managed, no bitness constraint like MXAccess) + tests/ZB.MOM.WW.OtOpcUa.Driver.S7.Tests + slnx entries. Depends on S7netplus 0.20.0 which is the latest version on NuGet resolvable in this cache (0.21.0 per driver-specs.md is not yet published; 0.20.0 covers the same Plc+CpuType+ReadAsync surface). S7DriverOptions captures the connection settings documented in driver-specs.md \u00A75: Host, Port (default 102 ISO-on-TCP), CpuType (default S71500 per most-common deployment), Rack=0, Slot=0 (S7-1200/1500 onboard PN convention; S7-300/400 operators must override to slot 2 or 3), Timeout=5s, Tags list + Probe settings with default MW0 probe address. S7TagDefinition uses S7.Net-style address strings (DB1.DBW0, M0.0, I0.0, QD4) with an S7DataType enum (Bool, Byte, Int16, UInt16, Int32, UInt32, Int64, UInt64, Float32, Float64, String, DateTime -- the full type matrix from the spec); StringLength defaults to 254 (S7 STRING max). S7Driver implements the IDriver-only subset per the PR plan: InitializeAsync opens a managed Plc with the configured CpuType + Host + Rack + Slot, pins WriteTimeout / ReadTimeout on the underlying TcpClient, awaits Plc.OpenAsync with a linked CTS bounded by Options.Timeout so the ISO handshake itself respects the configured bound; health transitions Unknown -> Initializing -> Healthy on success or Unknown -> Initializing -> Faulted on handshake failure, with a best-effort Plc.Close() on the faulted path so retries don't leak the TcpClient. ShutdownAsync closes the Plc and flips health back to Unknown. DisposeAsync routes through ShutdownAsync + disposes the SemaphoreSlim. Internal Gate + Plc accessors are exposed to the test project (InternalsVisibleTo) so PRs 63-65 can stack read/write/subscribe on the same serialization semaphore per the S7netplus documented 'one Plc per PLC, SemaphoreSlim-serialized' pattern. ITagDiscovery, IReadable, IWritable, ISubscribable, IHostConnectivityProbe are all deliberately omitted from this PR -- they depend on the S7AddressParser (PR 63) and land sequenced in PRs 64-65. Unit tests (S7DriverScaffoldTests, 5 facts): default options target S7-1500 / port 102 / slot 0, default probe interval 5s, tag defaults to writable with StringLength 254, driver reports DriverType=S7 + Unknown health pre-init, Initialize against RFC-5737 reserved IP 192.0.2.1 with 250ms timeout transitions to Faulted and throws (tests the connect-failure path doesn't leave the driver in an ambiguous state). 5/5 pass. dotnet build ZB.MOM.WW.OtOpcUa.slnx: 0 errors. No regression in Modbus / Galaxy suites. PR 63 ships S7AddressParser next, PR 64 wires IReadable/IWritable over S7netplus, PR 65 adds discovery + polling-overlay subscribe + probe.

2026-04-19 00:03:09 -04:00

S7StringCodecTests.cs

Auto: s7-a2 — STRING/WSTRING/CHAR/WCHAR

2026-04-25 16:26:05 -04:00

ZB.MOM.WW.OtOpcUa.Driver.S7.Tests.csproj

Phase 3 PR 62 -- Siemens S7 native driver project scaffold (S7comm via S7netplus). First non-Modbus in-process driver. Creates src/ZB.MOM.WW.OtOpcUa.Driver.S7 (.NET 10, x64 -- S7netplus is managed, no bitness constraint like MXAccess) + tests/ZB.MOM.WW.OtOpcUa.Driver.S7.Tests + slnx entries. Depends on S7netplus 0.20.0 which is the latest version on NuGet resolvable in this cache (0.21.0 per driver-specs.md is not yet published; 0.20.0 covers the same Plc+CpuType+ReadAsync surface). S7DriverOptions captures the connection settings documented in driver-specs.md \u00A75: Host, Port (default 102 ISO-on-TCP), CpuType (default S71500 per most-common deployment), Rack=0, Slot=0 (S7-1200/1500 onboard PN convention; S7-300/400 operators must override to slot 2 or 3), Timeout=5s, Tags list + Probe settings with default MW0 probe address. S7TagDefinition uses S7.Net-style address strings (DB1.DBW0, M0.0, I0.0, QD4) with an S7DataType enum (Bool, Byte, Int16, UInt16, Int32, UInt32, Int64, UInt64, Float32, Float64, String, DateTime -- the full type matrix from the spec); StringLength defaults to 254 (S7 STRING max). S7Driver implements the IDriver-only subset per the PR plan: InitializeAsync opens a managed Plc with the configured CpuType + Host + Rack + Slot, pins WriteTimeout / ReadTimeout on the underlying TcpClient, awaits Plc.OpenAsync with a linked CTS bounded by Options.Timeout so the ISO handshake itself respects the configured bound; health transitions Unknown -> Initializing -> Healthy on success or Unknown -> Initializing -> Faulted on handshake failure, with a best-effort Plc.Close() on the faulted path so retries don't leak the TcpClient. ShutdownAsync closes the Plc and flips health back to Unknown. DisposeAsync routes through ShutdownAsync + disposes the SemaphoreSlim. Internal Gate + Plc accessors are exposed to the test project (InternalsVisibleTo) so PRs 63-65 can stack read/write/subscribe on the same serialization semaphore per the S7netplus documented 'one Plc per PLC, SemaphoreSlim-serialized' pattern. ITagDiscovery, IReadable, IWritable, ISubscribable, IHostConnectivityProbe are all deliberately omitted from this PR -- they depend on the S7AddressParser (PR 63) and land sequenced in PRs 64-65. Unit tests (S7DriverScaffoldTests, 5 facts): default options target S7-1500 / port 102 / slot 0, default probe interval 5s, tag defaults to writable with StringLength 254, driver reports DriverType=S7 + Unknown health pre-init, Initialize against RFC-5737 reserved IP 192.0.2.1 with 250ms timeout transitions to Faulted and throws (tests the connect-failure path doesn't leave the driver in an ambiguous state). 5/5 pass. dotnet build ZB.MOM.WW.OtOpcUa.slnx: 0 errors. No regression in Modbus / Galaxy suites. PR 63 ships S7AddressParser next, PR 64 wires IReadable/IWritable over S7netplus, PR 65 adds discovery + polling-overlay subscribe + probe.

2026-04-19 00:03:09 -04:00