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Code Issues Projects Releases Packages Wiki Activity Actions 10
Ruview/firmware/esp32-csi-node/provision.py
rUv 2b8a7cc458
feat: happiness scoring pipeline + ESP32 swarm with Cognitum Seed (#285) 
* feat: happiness scoring pipeline with ESP32 swarm + Cognitum Seed coordinator

ADR-065: Hotel guest happiness scoring from WiFi CSI physiological proxies.
ADR-066: ESP32 swarm with Cognitum Seed as coordinator for multi-zone analytics.

Firmware:
- swarm_bridge.c/h: FreeRTOS task on Core 0, HTTP client with Bearer auth,
  registers with Seed, sends heartbeats (30s) and happiness vectors (5s)
- nvs_config: seed_url, seed_token, zone_name, swarm intervals
- provision.py: --seed-url, --seed-token, --zone CLI args
- esp32-hello-world: capability discovery firmware for 4MB ESP32-S3 variant

WASM edge modules:
- exo_happiness_score.rs: 8-dim happiness vector from gait speed, stride
  regularity, movement fluidity, breathing calm, posture, dwell time
  (events 690-694, 11 tests, ESP32-optimized buffers + event decimation)
- ghost_hunter.rs standalone binary: 5.7 KB WASM, feature-gated default pipeline

RuView Live:
- --mode happiness dashboard with bar visualization
- --seed flag for Cognitum Seed bridge (urllib, background POST)
- HappinessScorer + SeedBridge classes (stdlib only, no deps)

Examples:
- seed_query.py: CLI tool (status, search, witness, monitor, report)
- provision_swarm.sh: batch provisioning for multi-node deployment
- happiness_vector_schema.json: 8-dim vector format documentation

Verified live: ESP32 on COM5 (4MB flash) registered with Seed at 10.1.10.236,
vectors flowing, witness chain growing (epoch 455, chain 1108).

Co-Authored-By: claude-flow <ruv@ruv.net>

* ci: raise firmware binary size gate to 1100 KB for HTTP client stack

The swarm bridge (ADR-066) adds esp_http_client for Seed communication,
which pulls in the HTTP/TLS stack (~150 KB). Binary grew from ~978 KB to
~1077 KB. Raise the gate from 950 KB to 1100 KB. Still fits comfortably
in both 4MB (1856 KB OTA slot, 43% free) and 8MB flash variants.

Co-Authored-By: claude-flow <ruv@ruv.net>
2026-03-20 18:46:34 -04:00

297 lines
13 KiB
Python
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#!/usr/bin/env python3
"""
ESP32-S3 CSI Node Provisioning Script
Writes WiFi credentials and aggregator target to the ESP32's NVS partition
so users can configure a pre-built firmware binary without recompiling.
Usage:
python provision.py --port COM7 --ssid "MyWiFi" --password "secret" --target-ip 192.168.1.20
Requirements:
pip install esptool nvs-partition-gen
(or use the nvs_partition_gen.py bundled with ESP-IDF)
"""
import argparse
import csv
import io
import os
import struct
import subprocess
import sys
import tempfile
# NVS partition table offset — default for ESP-IDF 4MB flash with standard
# partition scheme. The "nvs" partition starts at 0x9000 (36864) and is
# 0x6000 (24576) bytes.
NVS_PARTITION_OFFSET = 0x9000
NVS_PARTITION_SIZE = 0x6000 # 24 KiB
def build_nvs_csv(args):
"""Build an NVS CSV string for the csi_cfg namespace."""
buf = io.StringIO()
writer = csv.writer(buf)
writer.writerow(["key", "type", "encoding", "value"])
writer.writerow(["csi_cfg", "namespace", "", ""])
if args.ssid:
writer.writerow(["ssid", "data", "string", args.ssid])
if args.password is not None:
writer.writerow(["password", "data", "string", args.password])
if args.target_ip:
writer.writerow(["target_ip", "data", "string", args.target_ip])
if args.target_port is not None:
writer.writerow(["target_port", "data", "u16", str(args.target_port)])
if args.node_id is not None:
writer.writerow(["node_id", "data", "u8", str(args.node_id)])
# TDM mesh settings
if args.tdm_slot is not None:
writer.writerow(["tdm_slot", "data", "u8", str(args.tdm_slot)])
if args.tdm_total is not None:
writer.writerow(["tdm_nodes", "data", "u8", str(args.tdm_total)])
# Edge intelligence settings (ADR-039)
if args.edge_tier is not None:
writer.writerow(["edge_tier", "data", "u8", str(args.edge_tier)])
if args.pres_thresh is not None:
writer.writerow(["pres_thresh", "data", "u16", str(args.pres_thresh)])
if args.fall_thresh is not None:
writer.writerow(["fall_thresh", "data", "u16", str(args.fall_thresh)])
if args.vital_win is not None:
writer.writerow(["vital_win", "data", "u16", str(args.vital_win)])
if args.vital_int is not None:
writer.writerow(["vital_int", "data", "u16", str(args.vital_int)])
if args.subk_count is not None:
writer.writerow(["subk_count", "data", "u8", str(args.subk_count)])
# ADR-060: Channel override and MAC filter
if args.channel is not None:
writer.writerow(["csi_channel", "data", "u8", str(args.channel)])
if args.filter_mac is not None:
mac_bytes = bytes(int(b, 16) for b in args.filter_mac.split(":"))
# NVS blob: write as hex-encoded string for CSV compatibility
writer.writerow(["filter_mac", "data", "hex2bin", mac_bytes.hex()])
# ADR-066: Swarm bridge configuration
if args.seed_url is not None:
writer.writerow(["seed_url", "data", "string", args.seed_url])
if args.seed_token is not None:
writer.writerow(["seed_token", "data", "string", args.seed_token])
if args.zone is not None:
writer.writerow(["zone_name", "data", "string", args.zone])
if args.swarm_hb is not None:
writer.writerow(["swarm_hb", "data", "u16", str(args.swarm_hb)])
if args.swarm_ingest is not None:
writer.writerow(["swarm_ingest", "data", "u16", str(args.swarm_ingest)])
return buf.getvalue()
def generate_nvs_binary(csv_content, size):
"""Generate an NVS partition binary from CSV using nvs_partition_gen.py."""
with tempfile.NamedTemporaryFile(mode="w", suffix=".csv", delete=False) as f_csv:
f_csv.write(csv_content)
csv_path = f_csv.name
bin_path = csv_path.replace(".csv", ".bin")
try:
# Method 1: subprocess invocation (most reliable across package versions)
for module_name in ["esp_idf_nvs_partition_gen", "nvs_partition_gen"]:
try:
subprocess.check_call(
[sys.executable, "-m", module_name, "generate",
csv_path, bin_path, hex(size)],
stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL,
)
with open(bin_path, "rb") as f:
return f.read()
except (subprocess.CalledProcessError, FileNotFoundError):
continue
# Method 2: ESP-IDF bundled script
idf_path = os.environ.get("IDF_PATH", "")
gen_script = os.path.join(idf_path, "components", "nvs_flash",
"nvs_partition_generator", "nvs_partition_gen.py")
if os.path.isfile(gen_script):
subprocess.check_call([
sys.executable, gen_script, "generate",
csv_path, bin_path, hex(size)
])
with open(bin_path, "rb") as f:
return f.read()
raise RuntimeError(
"NVS partition generator not available. "
"Install: pip install esp-idf-nvs-partition-gen"
)
finally:
for p in (csv_path, bin_path):
if os.path.isfile(p):
os.unlink(p)
def flash_nvs(port, baud, nvs_bin):
"""Flash the NVS partition binary to the ESP32."""
with tempfile.NamedTemporaryFile(suffix=".bin", delete=False) as f:
f.write(nvs_bin)
bin_path = f.name
try:
cmd = [
sys.executable, "-m", "esptool",
"--chip", "esp32s3",
"--port", port,
"--baud", str(baud),
"write_flash",
hex(NVS_PARTITION_OFFSET), bin_path,
]
print(f"Flashing NVS partition ({len(nvs_bin)} bytes) to {port}...")
subprocess.check_call(cmd)
print("NVS provisioning complete!")
finally:
os.unlink(bin_path)
def main():
parser = argparse.ArgumentParser(
description="Provision ESP32-S3 CSI Node with WiFi and aggregator settings",
epilog="Example: python provision.py --port COM7 --ssid MyWiFi --password secret --target-ip 192.168.1.20",
)
parser.add_argument("--port", required=True, help="Serial port (e.g. COM7, /dev/ttyUSB0)")
parser.add_argument("--baud", type=int, default=460800, help="Flash baud rate (default: 460800)")
parser.add_argument("--ssid", help="WiFi SSID")
parser.add_argument("--password", help="WiFi password")
parser.add_argument("--target-ip", help="Aggregator host IP (e.g. 192.168.1.20)")
parser.add_argument("--target-port", type=int, help="Aggregator UDP port (default: 5005)")
parser.add_argument("--node-id", type=int, help="Node ID 0-255 (default: 1)")
# TDM mesh settings
parser.add_argument("--tdm-slot", type=int, help="TDM slot index for this node (0-based)")
parser.add_argument("--tdm-total", type=int, help="Total number of TDM nodes in mesh")
# Edge intelligence settings (ADR-039)
parser.add_argument("--edge-tier", type=int, choices=[0, 1, 2],
help="Edge processing tier: 0=off, 1=stats, 2=vitals")
parser.add_argument("--pres-thresh", type=int, help="Presence detection threshold (default: 50)")
parser.add_argument("--fall-thresh", type=int, help="Fall detection threshold in milli-units "
"(value/1000 = rad/s²). Default: 15000 → 15.0 rad/s². "
"Raise to reduce false positives in high-traffic areas.")
parser.add_argument("--vital-win", type=int, help="Phase history window in frames (default: 300)")
parser.add_argument("--vital-int", type=int, help="Vitals packet interval in ms (default: 1000)")
parser.add_argument("--subk-count", type=int, help="Top-K subcarrier count (default: 32)")
# ADR-060: Channel override and MAC filter
parser.add_argument("--channel", type=int, help="CSI channel (1-14 for 2.4GHz, 36-177 for 5GHz). "
"Overrides auto-detection from connected AP.")
parser.add_argument("--filter-mac", type=str, help="MAC address to filter CSI frames (AA:BB:CC:DD:EE:FF)")
# ADR-066: Swarm bridge
parser.add_argument("--seed-url", type=str, help="Cognitum Seed base URL (e.g. http://10.1.10.236)")
parser.add_argument("--seed-token", type=str, help="Seed Bearer token (from pairing)")
parser.add_argument("--zone", type=str, help="Zone name for this node (e.g. lobby, hallway)")
parser.add_argument("--swarm-hb", type=int, help="Swarm heartbeat interval in seconds (default 30)")
parser.add_argument("--swarm-ingest", type=int, help="Swarm vector ingest interval in seconds (default 5)")
parser.add_argument("--dry-run", action="store_true", help="Generate NVS binary but don't flash")
args = parser.parse_args()
has_value = any([
args.ssid, args.password is not None, args.target_ip,
args.target_port, args.node_id is not None,
args.tdm_slot is not None, args.tdm_total is not None,
args.edge_tier is not None, args.pres_thresh is not None,
args.fall_thresh is not None, args.vital_win is not None,
args.vital_int is not None, args.subk_count is not None,
args.channel is not None, args.filter_mac is not None,
args.seed_url is not None, args.zone is not None,
])
if not has_value:
parser.error("At least one config value must be specified")
# Validate TDM: if one is given, both should be
if (args.tdm_slot is not None) != (args.tdm_total is not None):
parser.error("--tdm-slot and --tdm-total must be specified together")
if args.tdm_slot is not None and args.tdm_slot >= args.tdm_total:
parser.error(f"--tdm-slot ({args.tdm_slot}) must be less than --tdm-total ({args.tdm_total})")
# ADR-060: Validate channel and MAC filter
if args.channel is not None:
if not ((1 <= args.channel <= 14) or (36 <= args.channel <= 177)):
parser.error(f"--channel must be 1-14 (2.4GHz) or 36-177 (5GHz), got {args.channel}")
if args.filter_mac is not None:
parts = args.filter_mac.split(":")
if len(parts) != 6:
parser.error(f"--filter-mac must be in AA:BB:CC:DD:EE:FF format, got '{args.filter_mac}'")
try:
for p in parts:
val = int(p, 16)
if val < 0 or val > 255:
raise ValueError
except ValueError:
parser.error(f"--filter-mac contains invalid hex bytes: '{args.filter_mac}'")
print("Building NVS configuration:")
if args.ssid:
print(f" WiFi SSID: {args.ssid}")
if args.password is not None:
print(f" WiFi Password: {'*' * len(args.password)}")
if args.target_ip:
print(f" Target IP: {args.target_ip}")
if args.target_port:
print(f" Target Port: {args.target_port}")
if args.node_id is not None:
print(f" Node ID: {args.node_id}")
if args.tdm_slot is not None:
print(f" TDM Slot: {args.tdm_slot} of {args.tdm_total}")
if args.edge_tier is not None:
tier_desc = {0: "off (raw CSI)", 1: "stats", 2: "vitals"}
print(f" Edge Tier: {args.edge_tier} ({tier_desc.get(args.edge_tier, '?')})")
if args.pres_thresh is not None:
print(f" Pres Thresh: {args.pres_thresh}")
if args.fall_thresh is not None:
print(f" Fall Thresh: {args.fall_thresh}")
if args.vital_win is not None:
print(f" Vital Window: {args.vital_win} frames")
if args.vital_int is not None:
print(f" Vital Interval:{args.vital_int} ms")
if args.subk_count is not None:
print(f" Top-K Subcarr: {args.subk_count}")
if args.channel is not None:
print(f" CSI Channel: {args.channel}")
if args.filter_mac is not None:
print(f" Filter MAC: {args.filter_mac}")
if args.seed_url is not None:
print(f" Seed URL: {args.seed_url}")
if args.zone is not None:
print(f" Zone: {args.zone}")
if args.swarm_hb is not None:
print(f" Swarm HB: {args.swarm_hb}s")
if args.swarm_ingest is not None:
print(f" Swarm Ingest: {args.swarm_ingest}s")
csv_content = build_nvs_csv(args)
try:
nvs_bin = generate_nvs_binary(csv_content, NVS_PARTITION_SIZE)
except Exception as e:
print(f"\nError generating NVS binary: {e}", file=sys.stderr)
print("\nFallback: save CSV and flash manually with ESP-IDF tools.", file=sys.stderr)
fallback_path = "nvs_config.csv"
with open(fallback_path, "w") as f:
f.write(csv_content)
print(f"Saved NVS CSV to {fallback_path}", file=sys.stderr)
print(f"Flash with: python $IDF_PATH/components/nvs_flash/"
f"nvs_partition_generator/nvs_partition_gen.py generate "
f"{fallback_path} nvs.bin 0x6000", file=sys.stderr)
sys.exit(1)
if args.dry_run:
out = "nvs_provision.bin"
with open(out, "wb") as f:
f.write(nvs_bin)
print(f"NVS binary saved to {out} ({len(nvs_bin)} bytes)")
print(f"Flash manually: python -m esptool --chip esp32s3 --port {args.port} "
f"write_flash 0x9000 {out}")
return
flash_nvs(args.port, args.baud, nvs_bin)
if __name__ == "__main__":
main()
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