138 lines
5.3 KiB
Markdown
138 lines
5.3 KiB
Markdown
# SP PRO serial protocol
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This documents the Selectronic SP PRO serial "memory" protocol as implemented in
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`src/sppro.c`. It is a **port of the open-source Python project
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[neerolyte/selpi](https://github.com/neerolyte/selpi)** (`memory/*.py`), cross-checked
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against the Go project [angus-g/splink-influx](https://github.com/angus-g/splink-influx).
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> **Note on PyAware.** The project README pointed at PyAware as prior art. PyAware
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> (PyPI, by Ampcontrol Group) is **not open source** — its PyPI metadata references a
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> private SVN repository — so it could not be ported directly. `selpi` implements the
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> same wire protocol and is fully open, so it was used as the reference instead.
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## Physical layer
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| Setting | Value |
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|---|---|
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| Interface | **RS-232** (not RS-485), DB9 or RJ45 jack on the SP PRO |
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| Baud | **57600** (Port 1; Port 2 defaults to 9600) |
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| Framing | 8 data bits, no parity, 1 stop bit (8N1) |
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| Flow control | none |
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See [HARDWARE.md](HARDWARE.md) for pinout and ESP32 wiring.
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## Frames
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All multi-byte fields are **little-endian**. A frame is built from an 8-byte header:
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```
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byte 0 message type: 'Q' (0x51) query/read, or 'W' (0x57) write
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byte 1 word count minus one (0x00 = 1 word, 0xff = 256 words)
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bytes 2..5 memory address (uint32, little-endian)
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bytes 6..7 CRC-16 over bytes 0..5 (little-endian)
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```
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### Query (read)
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Request is just the 8-byte header. The response echoes those 8 bytes, appends the
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requested data (`words * 2` bytes), then a final CRC-16 over the whole response:
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```
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request : Q | len-1 | addr[4] | crc[2]
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response: Q | len-1 | addr[4] | crc[2] | data[words*2] | crc[2]
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```
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Worked example (documented in selpi) — read 1 word at `0xa000`:
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```
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request : 51 00 00 a0 00 00 9d 4b
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response: 51 00 00 a0 00 00 9d 4b 01 00 d8 19 -> data word = 0x0001
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```
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### Write
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Header (with its own CRC over bytes 0..5), then the data words, then a CRC-16 over the
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whole message. The device echoes the entire request back to confirm:
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```
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request : W | len-1 | addr[4] | crc[2] | data[words*2] | crc[2]
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response: <exact echo of the request>
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```
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### CRC-16
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Reflected CRC-CCITT ("Kermit"): 256-entry table, init `0x0000`,
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`crc = (crc >> 8) ^ table[(crc ^ byte) & 0xff]`, emitted little-endian. A received
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frame is valid when the CRC computed over the **entire** message (data + trailing CRC)
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equals `0`. Implemented as `sppro_crc16()`.
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## Login (MD5 challenge / response)
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Reading data registers requires authenticating first:
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1. **Query** 8 words (16 bytes) at `0x1F0000` → challenge `seed`.
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2. Build `md5( seed[16] + password_padded_to_32_bytes )`. The password is the SP PRO's
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serial-port password (blank if none); it is padded/truncated to 32 bytes with
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**spaces**.
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3. **Swap each adjacent byte pair** of the 16-byte digest (a Selectronic endianness
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quirk) → 16-byte response.
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4. **Write** the 16-byte response back to `0x1F0000`.
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5. **Query** 1 word at `0x1F0010`; value `1` means authenticated.
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Pure helper: `sppro_login_response()`. Full handshake: `sppro_session_login()`.
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## Scaling
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Raw register words are integers; engineering units come from per-device scale factors
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read once at startup from six consecutive words at `41000`:
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| Address | Name |
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|---|---|
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| 41000 | CommonScaleForAcVolts |
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| 41001 | CommonScaleForAcCurrent |
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| 41002 | CommonScaleForDcVolts |
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| 41003 | CommonScaleForDcCurrent |
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| 41004 | CommonScaleForTemperature |
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| 41005 | CommonScaleForInternalVoltages |
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With `MAGIC = 32768.0` (from selpi `memory/converter.py`):
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| Conversion | Formula |
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| `ac_w` | `raw * AcVolts * AcCurrent / (MAGIC * 800)` |
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| `ac_w_signed` | `raw * AcVolts * AcCurrent / (MAGIC * 100)` |
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| `ac_wh` | `raw * 24 * AcVolts * AcCurrent / (MAGIC * 100)` |
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| `dc_w` | `raw * DcVolts * DcCurrent / (MAGIC * 100)` |
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| `dc_wh` | `raw * 24 * DcVolts * DcCurrent / (MAGIC * 100)` |
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| `dc_v` | `raw * DcVolts / (MAGIC * 10)` |
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| `temperature` | `raw * Temperature / MAGIC` |
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| `percent` | `raw / 256` |
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| `shunt_name` | enum → string (`sppro_shunt_name`) |
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## Register map
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The curated subset shipped in `SPPRO_REGISTERS` (transcribed from selpi `memory/variable.py`):
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| Name | Address | Type | Conversion | Units |
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| BatteryVolts | 0xa05c | u16 | dc_v | V |
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| BatteryTemperature | 0xa03c | u16 | temperature | C |
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| DCBatteryPower | 0xa02f | s32 | dc_w | W |
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| BattSocPercent | 41089 | u16 | percent | % |
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| LoadAcPower | 41107 | u32 | ac_w | W |
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| CombinedKacoAcPowerHiRes | 0xa3a8 | u32 | ac_w | W (AC solar) |
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| ACGeneratorPower | 41098 | s16 | ac_w_signed | W |
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| Shunt1Power / Shunt2Power | 0xa088 / 0xa089 | s16 | dc_w | W |
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| Shunt1Name / Shunt2Name | 0xc109 / 0xc10a | s16 | shunt_name | — |
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| DCkWhInToday / DCkWhOutToday | 41135 / 41137 | u32 | dc_wh | Wh |
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| BattInkWhTotalAcc / BattOutkWhTotalAcc | 41354 / 41381 | u32 | dc_wh | Wh |
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| ACLoadkWhTotalAcc | 41438 | u32 | ac_wh | Wh |
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| TotalKacokWhTotalAcc | 41519 | u32 | ac_wh | Wh |
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selpi's `memory/variable.py` lists many more accumulators (7/30/365-day, yearly,
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resettable); add rows to `SPPRO_REGISTERS` as needed — the table is the single source
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of truth and decoding is data-driven.
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## Credits
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- [neerolyte/selpi](https://github.com/neerolyte/selpi) — primary reference (MIT-style, see repo).
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- [angus-g/splink-influx](https://github.com/angus-g/splink-influx) — independent confirmation.
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