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tduhamel42 943bc9a114 Release v0.7.3 - Android workflows, LiteLLM integration, ARM64 support (#32 )

* ci: add worker validation and Docker build checks

Add automated validation to prevent worker-related issues:

**Worker Validation Script:**
- New script: .github/scripts/validate-workers.sh
- Validates all workers in docker-compose.yml exist
- Checks required files: Dockerfile, requirements.txt, worker.py
- Verifies files are tracked by git (not gitignored)
- Detects gitignore issues that could hide workers

**CI Workflow Updates:**
- Added validate-workers job (runs on every PR)
- Added build-workers job (runs if workers/ modified)
- Uses Docker Buildx for caching
- Validates Docker images build successfully
- Updated test-summary to check validation results

**PR Template:**
- New pull request template with comprehensive checklist
- Specific section for worker-related changes
- Reminds contributors to validate worker files
- Includes documentation and changelog reminders

These checks would have caught the secrets worker gitignore issue.

Implements Phase 1 improvements from CI/CD quality assessment.

* fix: add dev branch to test workflow triggers

The test workflow was configured for 'develop' but the actual branch is named 'dev'.
This caused tests not to run on PRs to dev branch.

Now tests will run on:
- PRs to: main, master, dev, develop
- Pushes to: main, master, dev, develop, feature/**

* fix: properly detect worker file changes in CI

The previous condition used invalid GitHub context field.
Now uses git diff to properly detect changes to workers/ or docker-compose.yml.

Behavior:
- Job always runs the check step
- Detects if workers/ or docker-compose.yml modified
- Only builds Docker images if workers actually changed
- Shows clear skip message when no worker changes detected

* feat: Add Python SAST workflow with three security analysis tools

Implements Issue #5 - Python SAST workflow that combines:
- Dependency scanning (pip-audit) for CVE detection
- Security linting (Bandit) for vulnerability patterns
- Type checking (Mypy) for type safety issues

## Changes

**New Modules:**
- `DependencyScanner`: Scans Python dependencies for known CVEs using pip-audit
- `BanditAnalyzer`: Analyzes Python code for security issues using Bandit
- `MypyAnalyzer`: Checks Python code for type safety issues using Mypy

**New Workflow:**
- `python_sast`: Temporal workflow that orchestrates all three SAST tools
  - Runs tools in parallel for fast feedback (3-5 min vs hours for fuzzing)
  - Generates unified SARIF report with findings from all tools
  - Supports configurable severity/confidence thresholds

**Updates:**
- Added SAST dependencies to Python worker (bandit, pip-audit, mypy)
- Updated module __init__.py files to export new analyzers
- Added type_errors.py test file to vulnerable_app for Mypy validation

## Testing

Workflow tested successfully on vulnerable_app:
- ✅ Bandit: Detected 9 security issues (command injection, unsafe functions)
- ✅ Mypy: Detected 5 type errors
- ✅ DependencyScanner: Ran successfully (no CVEs in test dependencies)
- ✅ SARIF export: Generated valid SARIF with 14 total findings

* fix: Remove unused imports to pass linter

* fix: resolve live monitoring bug, remove deprecated parameters, and auto-start Python worker

- Fix live monitoring style error by calling _live_monitor() helper directly
- Remove default_parameters duplication from 10 workflow metadata files
- Remove deprecated volume_mode parameter from 26 files across CLI, SDK, backend, and docs
- Configure Python worker to start automatically with docker compose up
- Clean up constants, validation, completion, and example files

Fixes #
- Live monitoring now works correctly with --live flag
- Workflow metadata follows JSON Schema standard
- Cleaner codebase without deprecated volume_mode
- Python worker (most commonly used) starts by default

* fix: resolve linter errors and optimize CI worker builds

- Remove unused Literal import from backend findings model
- Remove unnecessary f-string prefixes in CLI findings command
- Optimize GitHub Actions to build only modified workers
  - Detect specific worker changes (python, secrets, rust, android, ossfuzz)
  - Build only changed workers instead of all 5
  - Build all workers if docker-compose.yml changes
  - Significantly reduces CI build time

* feat: Add Android static analysis workflow with Jadx, OpenGrep, and MobSF

Comprehensive Android security testing workflow converted from Prefect to Temporal architecture:

Modules (3):
- JadxDecompiler: APK to Java source code decompilation
- OpenGrepAndroid: Static analysis with Android-specific security rules
- MobSFScanner: Comprehensive mobile security framework integration

Custom Rules (13):
- clipboard-sensitive-data, hardcoded-secrets, insecure-data-storage
- insecure-deeplink, insecure-logging, intent-redirection
- sensitive_data_sharedPreferences, sqlite-injection
- vulnerable-activity, vulnerable-content-provider, vulnerable-service
- webview-javascript-enabled, webview-load-arbitrary-url

Workflow:
- 6-phase Temporal workflow: download → Jadx → OpenGrep → MobSF → SARIF → upload
- 4 activities: decompile_with_jadx, scan_with_opengrep, scan_with_mobsf, generate_android_sarif
- SARIF output combining findings from all security tools

Docker Worker:
- ARM64 Mac compatibility via amd64 platform emulation
- Pre-installed: Android SDK, Jadx 1.4.7, OpenGrep 1.45.0, MobSF 3.9.7
- MobSF runs as background service with API key auto-generation
- Added aiohttp for async HTTP communication

Test APKs:
- BeetleBug.apk and shopnest.apk for workflow validation

* fix(android): correct activity names and MobSF API key generation

- Fix activity names in workflow.py (get_target, upload_results, cleanup_cache)
- Fix MobSF API key generation in Dockerfile startup script (cut delimiter)
- Update activity parameter signatures to match actual implementations
- Workflow now executes successfully with Jadx and OpenGrep

* feat: add platform-aware worker architecture with ARM64 support

Implement platform-specific Dockerfile selection and graceful tool degradation to support both x86_64 and ARM64 (Apple Silicon) platforms.

**Backend Changes:**
- Add system info API endpoint (/system/info) exposing host filesystem paths
- Add FUZZFORGE_HOST_ROOT environment variable to backend service
- Add graceful degradation in MobSF activity for ARM64 platforms

**CLI Changes:**
- Implement multi-strategy path resolution (backend API, .fuzzforge marker, env var)
- Add platform detection (linux/amd64 vs linux/arm64)
- Add worker metadata.yaml reading for platform capabilities
- Auto-select appropriate Dockerfile based on detected platform
- Pass platform-specific env vars to docker-compose

**Worker Changes:**
- Create workers/android/metadata.yaml defining platform capabilities
- Rename Dockerfile -> Dockerfile.amd64 (full toolchain with MobSF)
- Create Dockerfile.arm64 (excludes MobSF due to Rosetta 2 incompatibility)
- Update docker-compose.yml to use ${ANDROID_DOCKERFILE} variable

**Workflow Changes:**
- Handle MobSF "skipped" status gracefully in workflow
- Log clear warnings when tools are unavailable on platform

**Key Features:**
- Automatic platform detection and Dockerfile selection
- Graceful degradation when tools unavailable (MobSF on ARM64)
- Works from any directory (backend API provides paths)
- Manual override via environment variables
- Clear user feedback about platform and selected Dockerfile

**Benefits:**
- Android workflow now works on Apple Silicon Macs
- No code changes needed for other workflows
- Convention established for future platform-specific workers

Closes: MobSF Rosetta 2 incompatibility issue
Implements: Platform-aware worker architecture (Option B)

* fix: make MobSFScanner import conditional for ARM64 compatibility

- Add try-except block to conditionally import MobSFScanner in modules/android/__init__.py
- Allows Android worker to start on ARM64 without MobSF dependencies (aiohttp)
- MobSF activity gracefully skips on ARM64 with clear warning message
- Remove workflow path detection logic (not needed - workflows receive directories)

Platform-aware architecture fully functional on ARM64:
- CLI detects ARM64 and selects Dockerfile.arm64 automatically
- Worker builds and runs without MobSF on ARM64
- Jadx successfully decompiles APKs (4145 files from BeetleBug.apk)
- OpenGrep finds security vulnerabilities (8 issues found)
- MobSF gracefully skips with warning on ARM64
- Graceful degradation working as designed

Tested with:
  ff workflow run android_static_analysis test_projects/android_test/ \
    --wait --no-interactive apk_path=BeetleBug.apk decompile_apk=true

Results: 8 security findings (1 ERROR, 7 WARNINGS)

* docs: update CHANGELOG with Android workflow and ARM64 support

Added [Unreleased] section documenting:
- Android Static Analysis Workflow (Jadx, OpenGrep, MobSF)
- Platform-Aware Worker Architecture with ARM64 support
- Python SAST Workflow
- CI/CD improvements and worker validation
- CLI enhancements
- Bug fixes and technical changes

Fixed date typo: 2025-01-16 → 2025-10-16

* fix: resolve linter errors in Android modules

- Remove unused imports from mobsf_scanner.py (asyncio, hashlib, json, Optional)
- Remove unused variables from opengrep_android.py (start_col, end_col)
- Remove duplicate Path import from workflow.py

* ci: support multi-platform Dockerfiles in worker validation

Updated worker validation script to accept both:
- Single Dockerfile pattern (existing workers)
- Multi-platform Dockerfile pattern (Dockerfile.amd64, Dockerfile.arm64, etc.)

This enables platform-aware worker architectures like the Android worker
which uses different Dockerfiles for x86_64 and ARM64 platforms.

* Feature/litellm proxy (#27)

* feat: seed governance config and responses routing

* Add env-configurable timeout for proxy providers

* Integrate LiteLLM OTEL collector and update docs

* Make .env.litellm optional for LiteLLM proxy

* Add LiteLLM proxy integration with model-agnostic virtual keys

Changes:
- Bootstrap generates 3 virtual keys with individual budgets (CLI: $100, Task-Agent: $25, Cognee: $50)
- Task-agent loads config at runtime via entrypoint script to wait for bootstrap completion
- All keys are model-agnostic by default (no LITELLM_DEFAULT_MODELS restrictions)
- Bootstrap handles database/env mismatch after docker prune by deleting stale aliases
- CLI and Cognee configured to use LiteLLM proxy with virtual keys
- Added comprehensive documentation in volumes/env/README.md

Technical details:
- task-agent entrypoint waits for keys in .env file before starting uvicorn
- Bootstrap creates/updates TASK_AGENT_API_KEY, COGNEE_API_KEY, and OPENAI_API_KEY
- Removed hardcoded API keys from docker-compose.yml
- All services route through http://localhost:10999 proxy

* Fix CLI not loading virtual keys from global .env

Project .env files with empty OPENAI_API_KEY values were overriding
the global virtual keys. Updated _load_env_file_if_exists to only
override with non-empty values.

* Fix agent executor not passing API key to LiteLLM

The agent was initializing LiteLlm without api_key or api_base,
causing authentication errors when using the LiteLLM proxy. Now
reads from OPENAI_API_KEY/LLM_API_KEY and LLM_ENDPOINT environment
variables and passes them to LiteLlm constructor.

* Auto-populate project .env with virtual key from global config

When running 'ff init', the command now checks for a global
volumes/env/.env file and automatically uses the OPENAI_API_KEY
virtual key if found. This ensures projects work with LiteLLM
proxy out of the box without manual key configuration.

* docs: Update README with LiteLLM configuration instructions

Add note about LITELLM_GEMINI_API_KEY configuration and clarify that OPENAI_API_KEY default value should not be changed as it's used for the LLM proxy.

* Refactor workflow parameters to use JSON Schema defaults

Consolidates parameter defaults into JSON Schema format, removing the separate default_parameters field. Adds extract_defaults_from_json_schema() helper to extract defaults from the standard schema structure. Updates LiteLLM proxy config to use LITELLM_OPENAI_API_KEY environment variable.

* Remove .env.example from task_agent

* Fix MDX syntax error in llm-proxy.md

* fix: apply default parameters from metadata.yaml automatically

Fixed TemporalManager.run_workflow() to correctly apply default parameter
values from workflow metadata.yaml files when parameters are not provided
by the caller.

Previous behavior:
- When workflow_params was empty {}, the condition
  `if workflow_params and 'parameters' in metadata` would fail
- Parameters would not be extracted from schema, resulting in workflows
  receiving only target_id with no other parameters

New behavior:
- Removed the `workflow_params and` requirement from the condition
- Now explicitly checks for defaults in parameter spec
- Applies defaults from metadata.yaml automatically when param not provided
- Workflows receive all parameters with proper fallback:
  provided value > metadata default > None

This makes metadata.yaml the single source of truth for parameter defaults,
removing the need for workflows to implement defensive default handling.

Affected workflows:
- llm_secret_detection (was failing with KeyError)
- All other workflows now benefit from automatic default application

Co-authored-by: tduhamel42 <tduhamel@fuzzinglabs.com>

* fix: add default values to llm_analysis workflow parameters

Resolves validation error where agent_url was None when not explicitly provided. The TemporalManager applies defaults from metadata.yaml, not from module input schemas, so all parameters need defaults in the workflow metadata.

Changes:
- Add default agent_url, llm_model (gpt-5-mini), llm_provider (openai)
- Expand file_patterns to 45 comprehensive patterns covering code, configs, secrets, and Docker files
- Increase default limits: max_files (10), max_file_size (100KB), timeout (90s)

* refactor: replace .env.example with .env.template in documentation

- Remove volumes/env/.env.example file
- Update all documentation references to use .env.template instead
- Update bootstrap script error message
- Update .gitignore comment

* feat(cli): add worker management commands with improved progress feedback

Add comprehensive CLI commands for managing Temporal workers:
- ff worker list - List workers with status and uptime
- ff worker start <name> - Start specific worker with optional rebuild
- ff worker stop - Safely stop all workers without affecting core services

Improvements:
- Live progress display during worker startup with Rich Status spinner
- Real-time elapsed time counter and container state updates
- Health check status tracking (starting → unhealthy → healthy)
- Helpful contextual hints at 10s, 30s, 60s intervals
- Better timeout messages showing last known state

Worker management enhancements:
- Use 'docker compose' (space) instead of 'docker-compose' (hyphen)
- Stop workers individually with 'docker stop' to avoid stopping core services
- Platform detection and Dockerfile selection (ARM64/AMD64)

Documentation:
- Updated docker-setup.md with CLI commands as primary method
- Created comprehensive cli-reference.md with all commands and examples
- Added worker management best practices

* fix: MobSF scanner now properly parses files dict structure

MobSF returns 'files' as a dict (not list):
{"filename": "line_numbers"}

The parser was treating it as a list, causing zero findings
to be extracted. Now properly iterates over the dict and
creates one finding per affected file with correct line numbers
and metadata (CWE, OWASP, MASVS, CVSS).

Fixed in both code_analysis and behaviour sections.

* chore: bump version to 0.7.3

* docs: fix broken documentation links in cli-reference

* chore: add worker startup documentation and cleanup .gitignore

- Add workflow-to-worker mapping tables across documentation
- Update troubleshooting guide with worker requirements section
- Enhance getting started guide with worker examples
- Add quick reference to docker setup guide
- Add WEEK_SUMMARY*.md pattern to .gitignore

* docs: update CHANGELOG with missing versions and recent changes

- Add Unreleased section for post-v0.7.3 documentation updates
- Add v0.7.2 entry with bug fixes and worker improvements
- Document that v0.7.1 was re-tagged as v0.7.2
- Fix v0.6.0 date to "Undocumented" (no tag exists)
- Add version comparison links for easier navigation

* chore: bump all package versions to 0.7.3 for consistency

* Update GitHub link to fuzzforge_ai

---------

Co-authored-by: Songbird99 <150154823+Songbird99@users.noreply.github.com>
Co-authored-by: Songbird <Songbirdx99@gmail.com>

2025-11-06 11:07:50 +01:00

android

Release v0.7.3 - Android workflows, LiteLLM integration, ARM64 support (#32 )

2025-11-06 11:07:50 +01:00

ossfuzz

CI/CD Integration with Ephemeral Deployment Model (#14 )

2025-10-14 10:13:45 +02:00

python

Release v0.7.3 - Android workflows, LiteLLM integration, ARM64 support (#32 )

2025-11-06 11:07:50 +01:00

rust

CI/CD Integration with Ephemeral Deployment Model (#14 )

2025-10-14 10:13:45 +02:00

secrets

fix: add missing secrets worker to repository

2025-10-22 08:39:20 +02:00

README.md

CI/CD Integration with Ephemeral Deployment Model (#14 )

2025-10-14 10:13:45 +02:00

README.md

FuzzForge Vertical Workers

This directory contains vertical-specific worker implementations for the Temporal architecture.

Architecture

Each vertical worker is a long-lived container pre-built with domain-specific security toolchains:

workers/
├── rust/           # Rust/Native security (AFL++, cargo-fuzz, gdb, valgrind)
├── android/        # Android security (apktool, Frida, jadx, MobSF)
├── web/            # Web security (OWASP ZAP, semgrep, eslint)
├── ios/            # iOS security (class-dump, Clutch, Frida)
├── blockchain/     # Smart contract security (mythril, slither, echidna)
└── go/             # Go security (go-fuzz, staticcheck, gosec)

How It Works

Worker Startup: Worker discovers workflows from /app/toolbox/workflows
Filtering: Only loads workflows where metadata.yaml has vertical: <name>
Dynamic Import: Dynamically imports workflow Python modules
Registration: Registers discovered workflows with Temporal
Processing: Polls Temporal task queue for work

Adding a New Vertical

Step 1: Create Worker Directory

mkdir -p workers/my_vertical
cd workers/my_vertical

Step 2: Create Dockerfile

# workers/my_vertical/Dockerfile
FROM python:3.11-slim

# Install your vertical-specific tools
RUN apt-get update && apt-get install -y \
    tool1 \
    tool2 \
    tool3 \
    && rm -rf /var/lib/apt/lists/*

# Install Python dependencies
COPY requirements.txt /tmp/
RUN pip install --no-cache-dir -r /tmp/requirements.txt

# Copy worker files
COPY worker.py /app/worker.py
COPY activities.py /app/activities.py

WORKDIR /app
ENV PYTHONPATH="/app:/app/toolbox:${PYTHONPATH}"
ENV PYTHONUNBUFFERED=1

CMD ["python", "worker.py"]

Step 3: Copy Worker Files

# Copy from rust worker as template
cp workers/rust/worker.py workers/my_vertical/
cp workers/rust/activities.py workers/my_vertical/
cp workers/rust/requirements.txt workers/my_vertical/

Note: The worker.py and activities.py are generic and work for all verticals. You only need to customize the Dockerfile with your tools.

Step 4: Add to docker-compose.yml

Add profiles to prevent auto-start:

worker-my-vertical:
  build:
    context: ./workers/my_vertical
    dockerfile: Dockerfile
  container_name: fuzzforge-worker-my-vertical
  profiles:          # ← Prevents auto-start (saves RAM)
    - workers
    - my_vertical
  depends_on:
    temporal:
      condition: service_healthy
    minio:
      condition: service_healthy
  environment:
    TEMPORAL_ADDRESS: temporal:7233
    WORKER_VERTICAL: my_vertical  # ← Important: matches metadata.yaml
    WORKER_TASK_QUEUE: my-vertical-queue
    MAX_CONCURRENT_ACTIVITIES: 5
    # MinIO configuration (same for all workers)
    STORAGE_BACKEND: s3
    S3_ENDPOINT: http://minio:9000
    S3_ACCESS_KEY: fuzzforge
    S3_SECRET_KEY: fuzzforge123
    S3_BUCKET: targets
    CACHE_DIR: /cache
  volumes:
    - ./backend/toolbox:/app/toolbox:ro
    - worker_my_vertical_cache:/cache
  networks:
    - fuzzforge-network
  restart: "no"      # ← Don't auto-restart

Why profiles? Workers are pre-built but don't auto-start, saving ~1-2GB RAM per worker when idle.

Step 5: Add Volume

volumes:
  worker_my_vertical_cache:
    name: fuzzforge_worker_my_vertical_cache

Step 6: Create Workflows for Your Vertical

mkdir -p backend/toolbox/workflows/my_workflow

metadata.yaml:

name: my_workflow
version: 1.0.0
vertical: my_vertical  # ← Must match WORKER_VERTICAL

workflow.py:

from temporalio import workflow
from datetime import timedelta

@workflow.defn
class MyWorkflow:
    @workflow.run
    async def run(self, target_id: str) -> dict:
        # Download target
        target_path = await workflow.execute_activity(
            "get_target",
            target_id,
            start_to_close_timeout=timedelta(minutes=5)
        )

        # Your analysis logic here
        results = {"status": "success"}

        # Cleanup
        await workflow.execute_activity(
            "cleanup_cache",
            target_path,
            start_to_close_timeout=timedelta(minutes=1)
        )

        return results

Step 7: Test

# Start services
docker-compose -f docker-compose.temporal.yaml up -d

# Check worker logs
docker logs -f fuzzforge-worker-my-vertical

# You should see:
# "Discovered workflow: MyWorkflow from my_workflow (vertical: my_vertical)"

Worker Components

worker.py

Generic worker entrypoint. Handles:

Workflow discovery from mounted /app/toolbox
Dynamic import of workflow modules
Connection to Temporal
Task queue polling

No customization needed - works for all verticals.

activities.py

Common activities available to all workflows:

get_target(target_id: str) -> str: Download target from MinIO
cleanup_cache(target_path: str) -> None: Remove cached target
upload_results(workflow_id, results, format) -> str: Upload results to MinIO

Can be extended with vertical-specific activities:

# workers/my_vertical/activities.py

from temporalio import activity

@activity.defn(name="my_custom_activity")
async def my_custom_activity(input_data: str) -> str:
    # Your vertical-specific logic
    return "result"

# Add to worker.py activities list:
# activities=[..., my_custom_activity]

Dockerfile

Only component that needs customization for each vertical. Install your tools here.

Configuration

Environment Variables

All workers support these environment variables:

Variable	Default	Description
`TEMPORAL_ADDRESS`	`localhost:7233`	Temporal server address
`TEMPORAL_NAMESPACE`	`default`	Temporal namespace
`WORKER_VERTICAL`	`rust`	Vertical name (must match metadata.yaml)
`WORKER_TASK_QUEUE`	`{vertical}-queue`	Task queue name
`MAX_CONCURRENT_ACTIVITIES`	`5`	Max concurrent activities per worker
`S3_ENDPOINT`	`http://minio:9000`	MinIO/S3 endpoint
`S3_ACCESS_KEY`	`fuzzforge`	S3 access key
`S3_SECRET_KEY`	`fuzzforge123`	S3 secret key
`S3_BUCKET`	`targets`	Bucket for uploaded targets
`CACHE_DIR`	`/cache`	Local cache directory
`CACHE_MAX_SIZE`	`10GB`	Max cache size (not enforced yet)
`LOG_LEVEL`	`INFO`	Logging level

Scaling

Vertical Scaling (More Work Per Worker)

Increase concurrent activities:

environment:
  MAX_CONCURRENT_ACTIVITIES: 10  # Handle 10 tasks at once

Horizontal Scaling (More Workers)

# Scale to 3 workers for rust vertical
docker-compose -f docker-compose.temporal.yaml up -d --scale worker-rust=3

# Each worker polls the same task queue
# Temporal automatically load balances

Troubleshooting

Worker Not Discovering Workflows

Check:

Volume mount is correct: ./backend/toolbox:/app/toolbox:ro
Workflow has metadata.yaml with correct vertical: field
Workflow has workflow.py with @workflow.defn decorated class
Worker logs show discovery attempt

Cannot Connect to Temporal

Check:

Temporal container is healthy: docker ps
Network connectivity: docker exec worker-rust ping temporal
TEMPORAL_ADDRESS environment variable is correct

Cannot Download from MinIO

Check:

MinIO is healthy: docker ps
Buckets exist: docker exec fuzzforge-minio mc ls fuzzforge/targets
S3 credentials are correct
Target was uploaded: Check MinIO console at http://localhost:9001

Activity Timeouts

Increase timeout in workflow:

await workflow.execute_activity(
    "my_activity",
    args,
    start_to_close_timeout=timedelta(hours=2)  # Increase from default
)

Best Practices

Keep Dockerfiles lean: Only install necessary tools
Use multi-stage builds: Reduce final image size
Pin tool versions: Ensure reproducibility
Log liberally: Helps debugging workflow issues
Handle errors gracefully: Don't fail workflow for non-critical issues
Test locally first: Use docker-compose before deploying

On-Demand Worker Management

Workers use Docker Compose profiles and CLI-managed lifecycle for resource optimization.

How It Works

Build Time: docker-compose build creates all worker images
Startup: Workers DON'T auto-start with docker-compose up -d
On Demand: CLI starts workers automatically when workflows need them
Shutdown: Optional auto-stop after workflow completion

Manual Control

# Start specific worker
docker start fuzzforge-worker-ossfuzz

# Stop specific worker
docker stop fuzzforge-worker-ossfuzz

# Check worker status
docker ps --filter "name=fuzzforge-worker"

CLI Auto-Management

# Auto-start enabled by default
ff workflow run ossfuzz_campaign . project_name=zlib

# Disable auto-start
ff workflow run ossfuzz_campaign . project_name=zlib --no-auto-start

# Auto-stop after completion
ff workflow run ossfuzz_campaign . project_name=zlib --wait --auto-stop

Resource Savings

Before: All workers running = ~8GB RAM
After: Only core services running = ~1.2GB RAM
Savings: ~6-7GB RAM when idle

Examples

See existing verticals for examples:

workers/rust/ - Complete working example
backend/toolbox/workflows/rust_test/ - Simple test workflow