# Camera Stream Simulator Implementation Plan > **For agentic workers:** REQUIRED SUB-SKILL: Use superpowers:subagent-driven-development (recommended) or superpowers:executing-plans to implement this plan task-by-task. Steps use checkbox (`- [ ]`) syntax for tracking. **Goal:** Add dev tooling that loops phone-recorded mp4 files as local RTSP streams so Vigilar's real camera pipeline can run end-to-end without physical cameras. **Architecture:** One bash script (`scripts/sim_cameras.sh`) starts MediaMTX on `127.0.0.1:8554` and spawns one `ffmpeg -stream_loop -1 -re` per camera defined in `config/vigilar.toml`, publishing each video as `rtsp://127.0.0.1:8554/`. A generated `config/vigilar.sim.toml` rewrites camera URLs to the local endpoints. A second script downloads the MediaMTX static binary on demand. The real config is never mutated. **Tech Stack:** bash, ffmpeg, MediaMTX (static Go binary), pytest (for the syntax-check guard). **Spec:** `docs/superpowers/specs/2026-04-05-camera-stream-simulator-design.md` --- ## File Inventory **Create:** - `scripts/sim_cameras.sh` — main simulator script - `scripts/download_mediamtx.sh` — one-time MediaMTX binary installer - `tests/unit/test_sim_script.py` — syntax check + optional shellcheck **Modify:** - `.gitignore` — add `videos/`, `.sim/`, `config/vigilar.sim.toml` **Not touched:** Any file under `vigilar/`. The simulator is fully external to the package. --- ## Task 1: .gitignore entries **Files:** - Modify: `.gitignore` - [ ] **Step 1: Append simulator entries** Append to `.gitignore` (before the final "WireGuard keys" block or at the very end — order doesn't matter): ``` # Camera stream simulator (dev tooling) videos/ .sim/ config/vigilar.sim.toml ``` - [ ] **Step 2: Verify** Run: `git check-ignore -v videos/ .sim/ config/vigilar.sim.toml` Expected: each path prints a match against the new lines. - [ ] **Step 3: Commit** ```bash git add .gitignore git commit -m "chore(gitignore): ignore camera simulator working files" ``` --- ## Task 2: MediaMTX downloader **Files:** - Create: `scripts/download_mediamtx.sh` This script is a one-time installer. No test — it hits the network. Verified manually. - [ ] **Step 1: Create the script** Write `scripts/download_mediamtx.sh`: ```bash #!/usr/bin/env bash # Download the MediaMTX static binary used by scripts/sim_cameras.sh. # One-time setup. Re-run to upgrade. set -euo pipefail VERSION="${MEDIAMTX_VERSION:-1.9.3}" REPO_ROOT="$(cd "$(dirname "${BASH_SOURCE[0]}")/.." && pwd)" DEST_DIR="${REPO_ROOT}/.sim" DEST="${DEST_DIR}/mediamtx" case "$(uname -s)_$(uname -m)" in Linux_x86_64) ASSET="mediamtx_v${VERSION}_linux_amd64.tar.gz" ;; Linux_aarch64) ASSET="mediamtx_v${VERSION}_linux_arm64v8.tar.gz" ;; Darwin_x86_64) ASSET="mediamtx_v${VERSION}_darwin_amd64.tar.gz" ;; Darwin_arm64) ASSET="mediamtx_v${VERSION}_darwin_arm64.tar.gz" ;; *) echo "Unsupported platform: $(uname -s) $(uname -m)" >&2 exit 1 ;; esac URL="https://github.com/bluenviron/mediamtx/releases/download/v${VERSION}/${ASSET}" mkdir -p "${DEST_DIR}" TMP="$(mktemp -d)" trap 'rm -rf "${TMP}"' EXIT echo "Downloading ${ASSET}..." curl -fsSL "${URL}" -o "${TMP}/mediamtx.tar.gz" echo "Extracting..." tar -xzf "${TMP}/mediamtx.tar.gz" -C "${TMP}" mv "${TMP}/mediamtx" "${DEST}" chmod +x "${DEST}" echo "Installed: ${DEST}" "${DEST}" --version || true ``` - [ ] **Step 2: Make executable** ```bash chmod +x scripts/download_mediamtx.sh ``` - [ ] **Step 3: Syntax check** Run: `bash -n scripts/download_mediamtx.sh` Expected: no output, exit 0. - [ ] **Step 4: Commit** ```bash git add scripts/download_mediamtx.sh git commit -m "feat(sim): add MediaMTX binary downloader" ``` --- ## Task 3: Syntax-check test (TDD guard) **Files:** - Create: `tests/unit/test_sim_script.py` This test guards both shell scripts against syntax regressions. It runs `bash -n` (always) and `shellcheck` (if installed). Written before `sim_cameras.sh` exists — it must fail initially, then pass once Task 4 creates the file. - [ ] **Step 1: Write the failing test** Create `tests/unit/test_sim_script.py`: ```python """Guard shell scripts in scripts/ against syntax regressions.""" from __future__ import annotations import shutil import subprocess from pathlib import Path import pytest REPO_ROOT = Path(__file__).resolve().parents[2] SCRIPTS = [ REPO_ROOT / "scripts" / "sim_cameras.sh", REPO_ROOT / "scripts" / "download_mediamtx.sh", ] @pytest.mark.parametrize("script", SCRIPTS, ids=lambda p: p.name) def test_script_exists(script: Path) -> None: assert script.is_file(), f"missing script: {script}" @pytest.mark.parametrize("script", SCRIPTS, ids=lambda p: p.name) def test_bash_syntax(script: Path) -> None: result = subprocess.run( ["bash", "-n", str(script)], capture_output=True, text=True, ) assert result.returncode == 0, f"bash -n failed:\n{result.stderr}" @pytest.mark.parametrize("script", SCRIPTS, ids=lambda p: p.name) def test_shellcheck(script: Path) -> None: if shutil.which("shellcheck") is None: pytest.skip("shellcheck not installed") result = subprocess.run( ["shellcheck", "--severity=warning", str(script)], capture_output=True, text=True, ) assert result.returncode == 0, f"shellcheck failed:\n{result.stdout}\n{result.stderr}" ``` - [ ] **Step 2: Run test to verify it fails** Run: `pytest tests/unit/test_sim_script.py -v` Expected: `test_script_exists[sim_cameras.sh]` and `test_bash_syntax[sim_cameras.sh]` FAIL (file does not yet exist). Tests for `download_mediamtx.sh` pass. - [ ] **Step 3: Commit the failing test** ```bash git add tests/unit/test_sim_script.py git commit -m "test(sim): guard simulator shell scripts with bash -n + shellcheck" ``` Note: committing a red test is intentional here — Task 4 makes it green. --- ## Task 4: sim_cameras.sh — the simulator itself **Files:** - Create: `scripts/sim_cameras.sh` This is the main deliverable. Written in one pass because the script is tightly coupled (trap cleanup, PID tracking, prereq checks all reference each other). After writing, the Task 3 tests go green. - [ ] **Step 1: Write the script** Create `scripts/sim_cameras.sh`: ```bash #!/usr/bin/env bash # Simulate RTSP cameras by looping mp4 files through MediaMTX + ffmpeg. # # Usage: ./scripts/sim_cameras.sh # # Reads camera ids from config/vigilar.toml, expects videos/.mp4 for each, # starts MediaMTX on 127.0.0.1:8554, spawns one ffmpeg per camera, and writes # config/vigilar.sim.toml with rtsp_urls rewritten to the local endpoints. # Ctrl-C tears everything down. set -euo pipefail REPO_ROOT="$(cd "$(dirname "${BASH_SOURCE[0]}")/.." && pwd)" REAL_CONFIG="${REPO_ROOT}/config/vigilar.toml" SIM_CONFIG="${REPO_ROOT}/config/vigilar.sim.toml" VIDEOS_DIR="${REPO_ROOT}/videos" SIM_DIR="${REPO_ROOT}/.sim" LOG_DIR="${SIM_DIR}/logs" MEDIAMTX_BIN="${SIM_DIR}/mediamtx" RTSP_HOST="127.0.0.1" RTSP_PORT="8554" MEDIAMTX_PID="" FFMPEG_PIDS=() cleanup() { local pid for pid in "${FFMPEG_PIDS[@]}"; do if [[ -n "${pid}" ]] && kill -0 "${pid}" 2>/dev/null; then kill "${pid}" 2>/dev/null || true fi done if [[ -n "${MEDIAMTX_PID}" ]] && kill -0 "${MEDIAMTX_PID}" 2>/dev/null; then kill "${MEDIAMTX_PID}" 2>/dev/null || true fi # Give children a moment to exit, then force sleep 0.3 for pid in "${FFMPEG_PIDS[@]}" "${MEDIAMTX_PID}"; do if [[ -n "${pid}" ]] && kill -0 "${pid}" 2>/dev/null; then kill -9 "${pid}" 2>/dev/null || true fi done rm -rf "${SIM_DIR:?}/logs" } trap cleanup EXIT INT TERM die() { echo "error: $*" >&2; exit 1; } # --- prereq checks --------------------------------------------------------- command -v ffmpeg >/dev/null 2>&1 || die "ffmpeg not found on PATH. Install it and retry." [[ -x "${MEDIAMTX_BIN}" ]] || die "MediaMTX binary not found at ${MEDIAMTX_BIN}. Run: scripts/download_mediamtx.sh" [[ -f "${REAL_CONFIG}" ]] || die "config file not found: ${REAL_CONFIG}" [[ -d "${VIDEOS_DIR}" ]] || die "videos directory not found: ${VIDEOS_DIR} (create it and drop .mp4 files inside)" # --- parse camera ids from vigilar.toml ------------------------------------ # Grab every `id = "..."` line that sits inside a [[cameras]] block. # Simple state machine in awk — no TOML parser needed. mapfile -t CAMERA_IDS < <(awk ' /^\[\[cameras\]\]/ { in_cams = 1; next } /^\[/ && !/^\[\[cameras\]\]/ { in_cams = 0 } in_cams && /^[[:space:]]*id[[:space:]]*=/ { match($0, /"([^"]+)"/, m) if (m[1] != "") print m[1] } ' "${REAL_CONFIG}") [[ ${#CAMERA_IDS[@]} -gt 0 ]] || die "no [[cameras]] blocks with an id field found in ${REAL_CONFIG}" # --- verify every camera has a matching video ----------------------------- MISSING=() for id in "${CAMERA_IDS[@]}"; do [[ -f "${VIDEOS_DIR}/${id}.mp4" ]] || MISSING+=("${VIDEOS_DIR}/${id}.mp4") done if [[ ${#MISSING[@]} -gt 0 ]]; then echo "error: missing video files for cameras:" >&2 for f in "${MISSING[@]}"; do echo " - ${f}" >&2; done exit 1 fi # --- start MediaMTX -------------------------------------------------------- mkdir -p "${LOG_DIR}" echo "Starting MediaMTX on ${RTSP_HOST}:${RTSP_PORT}..." "${MEDIAMTX_BIN}" >"${LOG_DIR}/mediamtx.log" 2>&1 & MEDIAMTX_PID=$! # Wait for the RTSP port to be listening (max ~3s) for _ in $(seq 1 30); do if (exec 3<>"/dev/tcp/${RTSP_HOST}/${RTSP_PORT}") 2>/dev/null; then exec 3<&- 3>&- break fi sleep 0.1 done if ! (exec 3<>"/dev/tcp/${RTSP_HOST}/${RTSP_PORT}") 2>/dev/null; then echo "MediaMTX failed to bind ${RTSP_HOST}:${RTSP_PORT}. Log tail:" >&2 tail -n 20 "${LOG_DIR}/mediamtx.log" >&2 || true exit 1 fi exec 3<&- 3>&- 2>/dev/null || true # --- spawn one ffmpeg per camera ------------------------------------------- for id in "${CAMERA_IDS[@]}"; do video="${VIDEOS_DIR}/${id}.mp4" url="rtsp://${RTSP_HOST}:${RTSP_PORT}/${id}" echo "Publishing ${video} -> ${url}" ffmpeg -nostdin -loglevel warning \ -stream_loop -1 -re -i "${video}" \ -c copy -f rtsp "${url}" \ >"${LOG_DIR}/${id}.log" 2>&1 & FFMPEG_PIDS+=($!) done # --- write the sim config -------------------------------------------------- # Copy vigilar.toml, rewrite each `rtsp_url = "..."` line to point at the # local MediaMTX endpoint for that camera. We rely on `id` preceding # `rtsp_url` within each [[cameras]] block (the standing convention in # config/vigilar.toml). awk -v host="${RTSP_HOST}" -v port="${RTSP_PORT}" ' /^\[\[cameras\]\]/ { in_cams = 1; current_id = ""; print; next } /^\[/ && !/^\[\[cameras\]\]/ { in_cams = 0; print; next } in_cams && /^[[:space:]]*id[[:space:]]*=/ { match($0, /"([^"]+)"/, m) current_id = m[1] print next } in_cams && /^[[:space:]]*rtsp_url[[:space:]]*=/ && current_id != "" { printf "rtsp_url = \"rtsp://%s:%s/%s\"\n", host, port, current_id next } { print } ' "${REAL_CONFIG}" > "${SIM_CONFIG}" # --- summary --------------------------------------------------------------- echo echo "Simulator running. ${#CAMERA_IDS[@]} stream(s):" for id in "${CAMERA_IDS[@]}"; do echo " rtsp://${RTSP_HOST}:${RTSP_PORT}/${id}" done echo echo "Sim config written to: ${SIM_CONFIG}" echo "Start Vigilar in another terminal:" echo " vigilar start --config ${SIM_CONFIG#${REPO_ROOT}/}" echo echo "Press Ctrl-C to stop." wait ``` - [ ] **Step 2: Make executable** ```bash chmod +x scripts/sim_cameras.sh ``` - [ ] **Step 3: Run the Task 3 tests, expect green** Run: `pytest tests/unit/test_sim_script.py -v` Expected: all non-skipped tests PASS. If `shellcheck` is installed, those tests also pass; if not, they skip. If `shellcheck` reports real issues, fix them in the script and re-run. (Common ones: unquoted variables, `[[ ]]` vs `[ ]`, array expansion.) - [ ] **Step 4: Manual smoke test — prereq errors** Run: `./scripts/sim_cameras.sh` (with no `videos/` directory present) Expected: exits non-zero with a clear "videos directory not found" message and does not leave any mediamtx or ffmpeg processes running (`pgrep mediamtx; pgrep -f "ffmpeg.*stream_loop"` both empty). - [ ] **Step 5: Manual smoke test — happy path** Prereqs: run `./scripts/download_mediamtx.sh` once. Then create `videos/` and drop one `.mp4` matching a camera id from `config/vigilar.toml`. (Any short mp4 works — even a few seconds of test footage.) If only one video is ready, temporarily comment out the other `[[cameras]]` blocks in a scratch copy, or add placeholder mp4s for each. Run: `./scripts/sim_cameras.sh` Expected: - Prints "Publishing ..." for each camera - Prints "Simulator running. N stream(s):" with URLs - `ffprobe rtsp://127.0.0.1:8554/` in another terminal returns stream info - `config/vigilar.sim.toml` exists and every `rtsp_url` in it points at `rtsp://127.0.0.1:8554/...` Ctrl-C, then verify cleanup: `pgrep mediamtx` and `pgrep -f "ffmpeg.*stream_loop"` are both empty. - [ ] **Step 6: Commit** ```bash git add scripts/sim_cameras.sh git commit -m "feat(sim): add camera stream simulator script" ``` --- ## Task 5: End-to-end verification with Vigilar No code changes. This is the acceptance checkpoint from the spec. Skip if you're running the plan in a subagent that can't launch Vigilar; in that case, mark this task complete only after a human runs it. - [ ] **Step 1: Start the simulator** ```bash ./scripts/sim_cameras.sh ``` Leave it running in its own terminal. - [ ] **Step 2: Start Vigilar against the sim config** In a second terminal: ```bash vigilar start --config config/vigilar.sim.toml ``` - [ ] **Step 3: Verify in the web UI** Open the Vigilar web UI. Expected: - Every simulated camera appears as a tile with live HLS playback. - Motion in the source footage produces motion events in the event log. - [ ] **Step 4: Verify reconnect path** Find one ffmpeg PID from the simulator's terminal (or `pgrep -f "ffmpeg.*stream_loop"`) and `kill` it. Expected: - Vigilar marks that camera disconnected. - Reconnect loop retries periodically (check logs). - Re-running `./scripts/sim_cameras.sh` (after Ctrl-C'ing the current one) restores all streams. - [ ] **Step 5: Verify clean shutdown** Ctrl-C the simulator. Run `pgrep mediamtx` and `pgrep -f "ffmpeg.*stream_loop"` — both empty. `.sim/logs/` is gone (the binary at `.sim/mediamtx` stays — it's the installed artifact). - [ ] **Step 6: No commit** Task 5 is verification only. If any step fails, return to Task 4 and fix. --- ## Done criteria - All 5 tasks checked off. - `pytest tests/unit/test_sim_script.py -v` is green. - A human has completed the Task 5 acceptance walk-through at least once. - `git status` is clean; nothing from `.sim/`, `videos/`, or `config/vigilar.sim.toml` is tracked.