Refresh README and add firmware requirements for Rust port

2026-02-16 14:38:50 +01:00
parent 6ea8d9d5fc
commit ee849433c8
2 changed files with 511 additions and 80 deletions
--- a/README.md
+++ b/README.md
@@ -1,104 +1,100 @@
 # DD3-LoRa-Bridge-MultiSender
-Firmware for LilyGO T3 v1.6.1 (`ESP32 + SX1276 + SSD1306`) that runs as either:
+Firmware for LilyGO T3 v1.6.1 (`ESP32 + SX1276 + SSD1306`) that runs in two roles:
- `Sender` (PIN `GPIO14` HIGH): reads one IEC 62056-21 meter, batches samples, sends over LoRa.
+- `Sender` (`GPIO14` HIGH): reads one IEC 62056-21 meter, builds 30-slot sparse batches, sends via LoRa.
- `Receiver` (PIN `GPIO14` LOW): receives/ACKs batches, publishes MQTT, serves web UI, logs to SD.
+- `Receiver` (`GPIO14` LOW): receives/ACKs batches, publishes MQTT, serves web UI, logs to SD.
-## Current Architecture
+## Architecture Summary
- Single codebase, role selected at boot via `detect_role()` (`include/config.h`, `src/config.cpp`).
+- Single codebase, role selected at boot by `detect_role()` (`src/config.cpp`).
- LoRa link uses explicit CRC16 frame protection in firmware (`src/lora_transport.cpp`).
+- LoRa transport is wrapped with firmware-level CRC16-CCITT (`src/lora_transport.cpp`).
- Sender batches up to `30` samples and retries on missing ACK (`BATCH_MAX_RETRIES=2`, retry policy `Keep`).
+- Sender meter ingest is decoupled from LoRa waits via FreeRTOS meter reader task + queue on ESP32 (`src/main.cpp`).
- Sender meter parsing is decoupled from LoRa ACK waits using a dedicated FreeRTOS reader task + queue (`src/main.cpp`).
+- Batch payload codec is schema `v3` with a 30-bit `present_mask` over `[t_last-29, t_last]` (`src/payload_codec.cpp`).
- Batch payload codec is schema v3 and uses a sparse `present_mask` over a 30-second window (no schema v2 compatibility).
+- Sender only starts normal metering/transmit flow after valid time bootstrap from receiver ACK.
- Sender derives epoch timestamps from meter Sekundenindex (`0-0:96.8.0*255`) using an epoch anchor when time is synced.
+- Receiver runs STA mode if stored config is valid and connects, otherwise AP fallback.
 - Receiver uses STA mode when config is valid, otherwise AP fallback with web config.
 - No debug auto-reboot timer is active in normal firmware loops.
-## LoRa Frame Protocol (Current)
+## LoRa Protocol
-On-air frame format:
+On-air frame:
 `[msg_kind:1][device_short_id:2][payload...][crc16:2]`
 `msg_kind`:
- `0` = `BatchUp`
+- `0`: `BatchUp`
- `1` = `AckDown`
+- `1`: `AckDown`
-### `BatchUp`
+### BatchUp
-Transport is chunked (`batch_id`, `chunk_index`, `chunk_count`, `total_len`) and reassembled before payload decode.
+Transport layer chunks payload into:
-Payload codec (`src/payload_codec.cpp`) currently uses:
+`[batch_id_le:2][chunk_index:1][chunk_count:1][total_len_le:2][chunk_payload...]`
 - `kMagic=0xDDB3`
 - `kSchema=3`
 - metadata: sender, batch, `t_last`, `present_mask`, battery, fault counters
 - data arrays: `energy_wh[]`, `p1_w[]`, `p2_w[]`, `p3_w[]`
-`present_mask` is a 30-bit second map in the `[t_last-29, t_last]` window.
+Receiver reassembles all chunks before decode.
 Only set bits carry samples, so missing seconds are explicitly represented.
-`n == 0` is valid for sync request packets (`present_mask == 0`).
+Payload codec (`schema=3`, magic `0xDDB3`) carries:
 - metadata: sender ID, batch ID, `t_last`, `present_mask`, battery mV, error counters
 - arrays per present sample: `energy_wh[]`, `p1_w[]`, `p2_w[]`, `p3_w[]`
-### `AckDown` (7 bytes)
+`n == 0` with `present_mask == 0` is valid and used for sync request packets.
 ### AckDown (7 bytes payload)
 `[flags:1][batch_id_be:2][epoch_utc_be:4]`
 - `flags bit0`: `time_valid`
- Receiver repeats ACK (`ACK_REPEAT_COUNT=3`, `ACK_REPEAT_DELAY_MS=200`).
+- ACK is repeated (`ACK_REPEAT_COUNT=3`, `ACK_REPEAT_DELAY_MS=200`)
- Sender accepts time only if `time_valid=1` and `epoch >= MIN_ACCEPTED_EPOCH_UTC` (`2026-02-01 00:00:00 UTC`).
+- Sender sets local time only if `time_valid=1` and `epoch >= MIN_ACCEPTED_EPOCH_UTC` (`2026-02-01 00:00:00 UTC`)
-## Time Bootstrap Guardrail
+## Time Bootstrap and Timezone
-On sender boot:
+Sender boot starts in sync-only mode:
 - `g_time_acquired=false`
- no normal sampling/transmit yet
+- sends sync requests every `SYNC_REQUEST_INTERVAL_MS` (`15s`)
- sync request every `SYNC_REQUEST_INTERVAL_MS` (15s)
+- does not run normal 1 Hz sample/batch flow yet
-Only after valid ACK time is received:
+After valid ACK time:
- system time is set
+- `time_set_utc()` is called
- normal 1 Hz sampling and periodic LoRa batch transmit start
+- `g_time_acquired=true`
 - normal 1 Hz sampling + periodic batch transmission starts
-This blocks pre-threshold timestamps from MQTT/SD paths.
+Timezone:
-
+- `TIMEZONE_TZ` from `include/config.h` is applied in `time_manager`.
-Timezone handling:
+- Web/OLED local-time rendering uses this timezone.
- Local time rendering uses `TIMEZONE_TZ` from `include/config.h`.
+- Default: `CET-1CEST,M3.5.0/2,M10.5.0/3`.
 - Default value is `CET-1CEST,M3.5.0/2,M10.5.0/3` and can be changed at compile time.
 ## Sender Meter Path
-Implemented in `src/meter_driver.cpp` + sender loop in `src/main.cpp`:
+Implemented by `src/meter_driver.cpp` and sender loop in `src/main.cpp`:
 - UART: `Serial2`, `GPIO34`, `9600 7E1`
 - ESP32 RX buffer enlarged to `8192`
 - Frame detection `/ ... !`, timeout `METER_FRAME_TIMEOUT_MS=3000`
 - Parsed OBIS fields:
  - `0-0:96.8.0*255` meter Sekundenindex (hex u32)
  - `1-0:1.8.0` total energy (auto scales Wh -> kWh when unit is Wh)
  - `1-0:16.7.0` total active power
  - `1-0:36.7.0`, `56.7.0`, `76.7.0` phase powers
- UART: `Serial2`, RX pin `GPIO34` (`PIN_METER_RX`), `9600 7E1`
+Timestamp derivation:
- ESP32 RX buffer is enlarged to `8192` bytes to survive long LoRa blocking sections.
+- anchor offset: `epoch_offset = epoch_now - meter_seconds`
- Frame detection: starts at `'/'`, ends at `'!'`, timeout protection included (`METER_FRAME_TIMEOUT_MS=3000`).
+- sample epoch: `ts_utc = meter_seconds + epoch_offset`
- Parsing runs in a dedicated sender task and is handed to the main sender loop via queue.
+- jump checks: rollback, wall-time delta mismatch, anchor drift
 - Parsed OBIS values:
  - `0-0:96.8.0*255` (meter Sekundenindex, 4-byte hex)
  - `1-0:1.8.0` (total energy)
  - `1-0:16.7.0` (total power)
  - `1-0:36.7.0`, `56.7.0`, `76.7.0` (phase powers)
 - `1-0:1.8.0*Wh` is automatically scaled to kWh
-Timestamping/validation on sender:
+Sender builds sparse 30-slot windows and sends every `METER_SEND_INTERVAL_MS` (`30s`).
 - Anchor when time is valid: `epoch_offset = epoch_now - meter_seconds`.
 - Derived sample time: `ts_utc = meter_seconds + epoch_offset`.
 - Meter-time checks: monotonicity and `delta_meter_seconds` vs elapsed wall time (with tolerance) plus anchor drift checks.
 - On detected jump/drift, sender records meter fault and resulting timestamp discontinuities propagate through `present_mask` to receiver.
 Sender samples every second and transmits batches every 30 seconds.
 ## Receiver Behavior
-For valid `BatchUp` decode:
+For decoded `BatchUp`:
-1. Reassemble chunks and decode payload.
+1. Reassemble and decode.
 2. Send `AckDown` immediately.
-3. Drop duplicate batches per sender (`batch_id` tracking).
+3. Track duplicates per configured sender (`EXPECTED_SENDER_IDS`).
-4. Track duplicate stats per sender: absolute duplicates, total received, duplicate percentage, last duplicate timestamp.
+4. If duplicate: update duplicate counters/time, skip data write/publish.
-5. If `n==0`: treat as sync request only.
+5. If `n==0`: sync request path only.
-6. Else reconstruct timestamps from `t_last` + `present_mask`, preserving skipped seconds, then log to SD, update web UI, publish MQTT.
+6. Else reconstruct each sample timestamp from `t_last + present_mask`, then:
   - append to SD CSV
   - publish MQTT state
   - update web status and last batch table
-## MQTT Topics and Payloads
+## MQTT
 State topic:
 - `smartmeter/<device_id>/state`
@@ -106,29 +102,43 @@ State topic:
 Fault topic (retained):
 - `smartmeter/<device_id>/faults`
-State JSON fields (`src/json_codec.cpp`):
+State JSON (`src/json_codec.cpp`) includes:
 - `id`, `ts`, `e_kwh`
 - `p_w`, `p1_w`, `p2_w`, `p3_w`
 - `bat_v`, `bat_pct`
- optional link fields: `rssi`, `snr`
+- optional link: `rssi`, `snr`
- fault/reject fields: `err_last`, `rx_reject`, `rx_reject_text` (+ non-zero counters)
+- `err_last`, `rx_reject`, `rx_reject_text`
 - non-zero fault counters when available
-Home Assistant discovery is enabled (`ENABLE_HA_DISCOVERY=true`) and publishes config topics under:
+Home Assistant discovery:
- `homeassistant/sensor/<device_id>/<key>/config`
+- enabled by `ENABLE_HA_DISCOVERY=true`
 - publishes to `homeassistant/sensor/<device_id>/<key>/config`
-## Web UI, Wi-Fi, Storage
+## Web UI, Wi-Fi, SD
- Wi-Fi/MQTT/NTP/web-auth config persists in Preferences (`wifi_manager`).
+- Wi-Fi/MQTT/NTP/web-auth config is stored in Preferences.
 - AP fallback SSID prefix: `DD3-Bridge-`.
 - Default web credentials: `admin/admin`.
- SD logging enabled (`ENABLE_SD_LOGGING=true`).
+- AP auth requirement is controlled by `WEB_AUTH_REQUIRE_AP` (default `false`).
- Sender-specific web status includes duplicate-batch counters and the last duplicate time.
+- STA auth requirement is controlled by `WEB_AUTH_REQUIRE_STA` (default `true`).
- Sender-specific OLED page shows duplicate rate as `pct (absolute)` and last duplicate as `HH:MM`.
+
 Web timestamp display:
 - human-facing timestamps show `epoch (HH:MM:SS TZ)` in local configured timezone.
 SD CSV logging (`src/sd_logger.cpp`):
 - header: `ts_utc,ts_hms_utc,p_w,p1_w,p2_w,p3_w,e_kwh,bat_v,bat_pct,rssi,snr,err_m,err_d,err_tx,err_last`
 - `ts_hms_utc` is UTC `HH:MM:SS`
 History parser (`src/web_server.cpp`):
 - expects the current CSV layout above
 - legacy CSV layouts are not parsed (no backward compatibility)
 OLED duplicate display:
 - receiver sender-pages show duplicate rate as `pct (absolute)` and last duplicate as `HH:MM`.
 ## Build Environments
 From `platformio.ini`:
 - `lilygo-t3-v1-6-1`
 - `lilygo-t3-v1-6-1-test`
 - `lilygo-t3-v1-6-1-868`
@@ -141,10 +151,12 @@ From `platformio.ini`:
 Example:
 ```bash
-~/.platformio/penv/bin/pio run -e lilygo-t3-v1-6-1
+python -m platformio run -e lilygo-t3-v1-6-1
 ```
 ## Test Mode
-`ENABLE_TEST_MODE` replaces normal sender/receiver loops with dedicated test loops (`src/test_mode.cpp`).
+`ENABLE_TEST_MODE` replaces normal loops with `test_sender_loop` / `test_receiver_loop` (`src/test_mode.cpp`):
-It sends/receives JSON test frames and publishes to `smartmeter/<device_id>/test`.
+- Sender emits periodic JSON test payloads over LoRa.
 - Receiver decodes test payloads, updates display test codes, publishes MQTT to:
  - `smartmeter/<device_id>/test`
--- a/Requirements.md
+++ b/Requirements.md
@@ -0,0 +1,419 @@
 # Firmware Requirements (Rust Port Preparation)
 ## 1. Scope
 This document defines the behavior that must be preserved when recreating this firmware in another language (target: Rust).  
 It is based on the current `lora-refactor` code state and captures:
 - functional behavior
 - protocol/data contracts
 - module and function responsibilities
 - runtime state-machine requirements
 Function names below are C++ references. Rust naming/layout may differ, but the behavior must remain equivalent.
 ## 2. System-Level Requirements
 - Role selection:
  - `Sender` when `GPIO14` reads HIGH.
  - `Receiver` when `GPIO14` reads LOW.
 - Device identity:
  - derive `short_id` from MAC bytes 4/5.
  - canonical `device_id` format: `dd3-XXXX` uppercase hex.
 - LoRa transport:
  - frame format: `[msg_kind][short_id_be][payload][crc16_ccitt]`.
  - reject invalid CRC/msg-kind/length.
 - Payload codec:
  - schema `3` with `present_mask` (30-bit sparse second map).
  - support `n==0` sync-request packets.
 - Time bootstrap guardrail:
  - sender must not run normal sampling/transmit until valid ACK time received.
  - accept ACK time only if `time_valid=1` and `epoch >= MIN_ACCEPTED_EPOCH_UTC`.
 - Sampling/transmit cadence:
  - sender sample cadence 1 Hz.
  - sender batch cadence 30 s.
  - sync-request cadence 15 s while unsynced.
 - Receiver behavior:
  - decode/reconstruct sparse timestamps.
  - ACK each decoded batch promptly.
  - update MQTT, web status, SD logging.
 - Persistence:
  - Wi-Fi/MQTT/NTP/web credentials in Preferences namespace `dd3cfg`.
 - Web and display time rendering:
  - local timezone from `TIMEZONE_TZ`.
 - SD logging:
  - CSV columns include both `ts_utc` and `ts_hms_utc`.
  - history parser expects this current layout.
 ## 3. Protocol and Data Contracts
 - `LoraMsgKind`:
  - `BatchUp=0`
  - `AckDown=1`
 - `AckDown` payload fixed length `7` bytes:
  - `[flags:1][batch_id_be:2][epoch_utc_be:4]`
  - `flags bit0 = time_valid`
 - `BatchInput`:
  - fixed arrays length `30` (`energy_wh`, `p1_w`, `p2_w`, `p3_w`)
  - `present_mask` must satisfy: only low 30 bits used and `bit_count == n`
 - Timestamp constraints:
  - receiver rejects decoded data whose timestamps are below `MIN_ACCEPTED_EPOCH_UTC`
 - CSV header (current required layout):
  - `ts_utc,ts_hms_utc,p_w,p1_w,p2_w,p3_w,e_kwh,bat_v,bat_pct,rssi,snr,err_m,err_d,err_tx,err_last`
 ## 4. Module and Function Requirements
 ## `src/config.cpp`
 - `DeviceRole detect_role()`
  - configure role pin input pulldown and map to sender/receiver role.
 ## `src/data_model.cpp`
 - `void init_device_ids(uint16_t&, char*, size_t)`
  - read MAC, derive short ID, format canonical device ID.
 - `const char *rx_reject_reason_text(RxRejectReason)`
  - stable mapping for diagnostics and payloads.
 ## `src/html_util.cpp`
 - `String html_escape(const String&)`
  - escape `& < > " '`.
 - `String url_encode_component(const String&)`
  - percent-encode non-safe characters.
 - `bool sanitize_device_id(const String&, String&)`
  - accept `XXXX` or `dd3-XXXX`; reject path traversal, `%`, invalid hex.
 - Internal helpers to preserve behavior:
  - `is_hex_char`
  - `to_upper_hex4`
 ## `src/meter_driver.cpp`
 - `void meter_init()`
  - configure `Serial2` at `9600 7E1`, RX pin `PIN_METER_RX`, RX buffer size `8192` on ESP32.
 - `bool meter_poll_frame(const char *&, size_t&)`
  - incremental frame collector with start `/`, end `!`, timeout, overflow handling.
 - `bool meter_parse_frame(const char*, size_t, MeterData&)`
  - parse OBIS values and set meter data fields.
 - `bool meter_read(MeterData&)`
  - compatibility wrapper around poll+parse.
 - Internal parse helpers to preserve numeric behavior:
  - `parse_obis_ascii_value`
  - `parse_obis_ascii_unit_scale`
  - `hex_nibble`
  - `parse_obis_hex_u32`
  - `meter_debug_log`
 ## `src/power_manager.cpp`
 - `void power_sender_init()`
  - sender low-power setup (CPU freq, Wi-Fi/BT off, ADC setup).
 - `void power_receiver_init()`
  - receiver power setup.
 - `void power_configure_unused_pins_sender()`
  - configure known-unused pins with pulldown.
 - `void read_battery(MeterData&)`
  - averaged ADC conversion and voltage calibration.
 - `uint8_t battery_percent_from_voltage(float)`
  - LUT + interpolation.
 - `void light_sleep_ms(uint32_t)`
  - timer-based light sleep.
 - `void go_to_deep_sleep(uint32_t)`
  - timer-based deep sleep.
 ## `src/time_manager.cpp`
 - `void time_receiver_init(const char*, const char*)`
  - configure NTP servers and timezone env.
 - `uint32_t time_get_utc()`
  - return epoch or `0` when not plausible.
 - `bool time_is_synced()`
  - sync status helper.
 - `void time_set_utc(uint32_t)`
  - set system time and sync flags.
 - `void time_get_local_hhmm(char*, size_t)`
  - timezone-based local `HH:MM` output.
 - `uint32_t time_get_last_sync_utc()`
 - `uint32_t time_get_last_sync_age_sec()`
 - Internal behavior-critical helpers:
  - `note_last_sync`
  - `ensure_timezone_set`
 ## `src/lora_transport.cpp`
 - `void lora_init()`
  - initialize SX1276 with configured LoRa params.
 - `bool lora_send(const LoraPacket&)`
  - frame pack + CRC append + transmit.
 - `bool lora_receive(LoraPacket&, uint32_t timeout_ms)`
  - parse frame, validate, return metadata including RSSI/SNR.
 - `RxRejectReason lora_get_last_rx_reject_reason()`
  - consume-and-clear reject reason.
 - `bool lora_get_last_rx_signal(int16_t&, float&)`
  - access last RX signal snapshot.
 - `void lora_idle()`
 - `void lora_sleep()`
 - `void lora_receive_continuous()`
 - `bool lora_receive_window(LoraPacket&, uint32_t)`
 - `uint32_t lora_airtime_ms(size_t)`
  - compute packet airtime from SF/BW/CR/preamble.
 - Internal behavior-critical helpers:
  - `note_reject`
  - `crc16_ccitt`
 ## `src/payload_codec.cpp`
 - `bool encode_batch(const BatchInput&, uint8_t*, size_t, size_t*)`
  - schema v3 encoder with metadata, sparse present mask, delta coding.
 - `bool decode_batch(const uint8_t*, size_t, BatchInput*)`
  - strict schema/magic/flags decode + bounds checks.
 - Varint primitives:
  - `uleb128_encode`, `uleb128_decode`
  - `zigzag32`, `unzigzag32`
  - `svarint_encode`, `svarint_decode`
 - Internal helpers:
  - `write_u16_le`, `write_u32_le`
  - `read_u16_le`, `read_u32_le`
  - `ensure_capacity`
  - `bit_count32`
 - Optional self-test:
  - `payload_codec_self_test` (when `PAYLOAD_CODEC_TEST`).
 ## `src/json_codec.cpp`
 - `bool meterDataToJson(const MeterData&, String&)`
  - create MQTT state JSON with stable field semantics.
 - Internal numeric formatting helpers:
  - `round2`
  - `round_to_i32`
  - `short_id_from_device_id`
  - `format_float_2`
  - `set_int_or_null`
 ## `src/mqtt_client.cpp`
 - `void mqtt_init(const WifiMqttConfig&, const char*)`
 - `void mqtt_loop()`
 - `bool mqtt_is_connected()`
 - `bool mqtt_publish_state(const MeterData&)`
 - `bool mqtt_publish_faults(const char*, const FaultCounters&, FaultType, uint32_t)`
 - `bool mqtt_publish_discovery(const char*)`
 - `bool mqtt_publish_test(const char*, const String&)` (test mode only)
 - Internal behavior-critical helpers:
  - `fault_text`
  - `mqtt_connect`
  - `publish_discovery_sensor`
 ## `src/wifi_manager.cpp`
 - `void wifi_manager_init()`
 - `bool wifi_load_config(WifiMqttConfig&)`
 - `bool wifi_save_config(const WifiMqttConfig&)`
 - `bool wifi_connect_sta(const WifiMqttConfig&, uint32_t timeout_ms)`
 - `void wifi_start_ap(const char*, const char*)`
 - `bool wifi_is_connected()`
 - `String wifi_get_ssid()`
 ## `src/sd_logger.cpp`
 - `void sd_logger_init()`
 - `bool sd_logger_is_ready()`
 - `void sd_logger_log_sample(const MeterData&, bool include_error_text)`
  - append/create per-day CSV under `/dd3/<device_id>/YYYY-MM-DD.csv`.
 - Internal behavior-critical helpers:
  - `fault_text`
  - `ensure_dir`
  - `format_date_utc`
  - `format_hms_utc`
 ## `src/display_ui.cpp`
 Public display API that must remain behavior-equivalent:
 - `display_power_down`
 - `display_init`
 - `display_set_role`
 - `display_set_self_ids`
 - `display_set_sender_statuses`
 - `display_set_last_meter`
 - `display_set_last_read`
 - `display_set_last_tx`
 - `display_set_sender_queue`
 - `display_set_sender_batches`
 - `display_set_last_error`
 - `display_set_receiver_status`
 - `display_set_test_code` (test mode)
 - `display_set_test_code_for_sender` (test mode)
 - `display_tick`
 Internal rendering helpers to preserve behavior:
 - `oled_set_power`
 - `age_seconds`
 - `round_power_w`
 - `render_last_error_line`
 - `render_last_sync_line`
 - `render_sender_status`
 - `render_sender_measurement`
 - `render_receiver_status`
 - `render_receiver_sender`
 ## `src/web_server.cpp`
 Public web API:
 - `web_server_set_config`
 - `web_server_set_sender_faults`
 - `web_server_set_last_batch`
 - `web_server_begin_ap`
 - `web_server_begin_sta`
 - `web_server_loop`
 Internal route/state functions to preserve behavior:
 - `format_local_hms`
 - `format_epoch_local_hms`
 - `timestamp_age_seconds`
 - `round_power_w`
 - `auth_required`
 - `fault_text`
 - `ensure_auth`
 - `html_header`
 - `html_footer`
 - `format_faults`
 - `sanitize_sd_download_path`
 - `checkbox_checked`
 - `sanitize_history_device_id`
 - `sanitize_download_filename`
 - `history_reset`
 - `history_date_from_epoch`
 - `history_open_next_file`
 - `history_parse_line`
 - `history_tick`
 - `render_sender_block`
 - `append_sd_listing`
 - `handle_root`
 - `handle_wifi_get`
 - `handle_wifi_post`
 - `handle_sender`
 - `handle_manual`
 - `handle_history_start`
 - `handle_history_data`
 - `handle_sd_download`
 ## `src/test_mode.cpp` (`ENABLE_TEST_MODE`)
 - `test_sender_loop`
  - periodic JSON test frame transmit.
 - `test_receiver_loop`
  - decode test JSON, update display test markers, publish MQTT test topic.
 ## `src/main.cpp` (Core Orchestration)
 These functions define end-to-end firmware behavior and must have equivalents:
 - Logging/utilities:
  - `serial_debug_printf`
  - `bit_count32`
  - `abs_diff_u32`
 - Meter-time anchoring and ingest:
  - `meter_time_update_snapshot`
  - `set_last_meter_sample`
  - `parse_meter_frame_sample`
  - `meter_queue_push_latest`
  - `meter_reader_task_entry`
  - `meter_reader_start`
  - `meter_reader_pump`
 - Sender/receiver state setup and shared state:
  - `init_sender_statuses`
  - `update_battery_cache`
  - `battery_sample_due`
 - Queue and sample batching:
  - `batch_queue_drop_oldest`
  - `sender_note_rx_reject`
  - `batch_queue_peek`
  - `batch_queue_enqueue`
  - `reset_build_counters`
  - `append_meter_sample`
  - `last_sample_ts`
 - Fault tracking/publish:
  - `note_fault`
  - `age_seconds`
  - `counters_changed`
  - `publish_faults_if_needed`
 - Watchdog:
  - `watchdog_init`
  - `watchdog_kick`
 - Binary helpers and ID conversion:
  - `write_u16_le`
  - `read_u16_le`
  - `write_u16_be`
  - `read_u16_be`
  - `write_u32_be`
  - `read_u32_be`
  - `sender_id_from_short_id`
  - `short_id_from_sender_id`
 - Numeric normalization/sanitization:
  - `kwh_to_wh_from_float`
  - `float_to_i16_w`
  - `float_to_i16_w_clamped`
  - `battery_mv_from_voltage`
 - Timeout and airtime-driven scheduling:
  - `compute_batch_rx_timeout_ms`
  - `compute_batch_ack_timeout_ms`
 - LoRa TX pipeline:
  - `send_batch_payload`
  - `send_batch_ack`
  - `prepare_inflight_from_queue`
  - `send_inflight_batch`
  - `send_meter_batch`
  - `send_sync_request`
  - `resend_inflight_batch`
  - `finish_inflight_batch`
 - LoRa RX reassembly/decode:
  - `reset_batch_rx`
  - `process_batch_packet`
 - Role loop orchestration:
  - `setup`
  - `sender_loop`
  - `receiver_loop`
  - `loop`
 ## 5. Rust Porting Constraints and Recommendations
 - Preserve wire compatibility first:
  - LoRa frame byte layout, CRC16, ACK format, payload schema v3.
 - Preserve persistent storage keys:
  - Preferences keys (`ssid`, `pass`, `mqhost`, `mqport`, `mquser`, `mqpass`, `ntp1`, `ntp2`, `webuser`, `webpass`, `valid`).
 - Preserve timing constants and acceptance thresholds:
  - bootstrap guardrail, retry counts, schedule intervals, min accepted epoch.
 - Preserve CSV output layout exactly:
  - consumers (history parser and external tooling) depend on it.
 - Preserve enum meanings:
  - `FaultType`, `RxRejectReason`, `LoraMsgKind`.
 Suggested Rust module split:
 - `config`, `ids`, `meter`, `power`, `time`, `lora_transport`, `payload_codec`, `batch`, `mqtt`, `wifi_cfg`, `sd_log`, `web`, `display`, `runtime`.
 Suggested Rust primitives:
 - async task for meter reader + bounded channel (drop-oldest behavior).
 - explicit state structs for sender/receiver loops.
 - serde-free/manual codec for wire compatibility where needed.
 ## 6. Port Validation Checklist
 - Sender unsynced boot sends only sync requests.
 - ACK time bootstrap unlocks normal sender sampling.
 - Sparse present-mask encode/decode round-trip matches C++.
 - Receiver reconstructs timestamps correctly for gaps.
 - Duplicate batch handling updates counters and suppresses duplicate publish/log.
 - Web UI shows `epoch (HH:MM:SS TZ)` local time.
 - SD CSV header/fields match expected order.
 - History endpoint reads only current CSV layout successfully.
 - MQTT state/fault payload fields match existing names and semantics.