mantis-project
The mantis-project Claude Code command manages named project workspaces for organizing security analysis runs. Use it to create isolated projects, track analysis history and coverage, merge findings across runs, generate reports, and export or import project data while maintaining an active project context for subsequent operations.
mkdir -p ~/.claude/commands && curl -fsSL https://raw.githubusercontent.com/deonmenezes/mantishack/HEAD/.claude/commands/mantis-project.md -o ~/.claude/commands/mantis-project.mdmantis-project.md
# /project — Project Management Manage projects — named workspaces that corral analysis runs into one directory. ## Usage ``` /project <subcommand> [args] ``` ## Subcommands | Command | Description | |---------|-------------| | `help [subcommand]` | Show help (detailed if subcommand given) | | `create <name> --target <path> [-d <desc>]` | Create a new project | | `list` | Show all projects (* marks active) | | `status [<name>]` | Show project summary with run history | | `coverage [<name>] [--detailed]` | Show tool coverage summary (or per-file table) | | `findings [<name>] [--detailed]` | Show merged findings (or per-finding detail) | | `annotations [<name>] [--status S] [--source S] [--file PATH] [--cwe X] [--rule-id P] [--grep T] [--since 7d]` | List annotations across all runs (project-level overrides run-level) | | `annotations-diff <run-a> <run-b>` | Compare annotation state between two runs | | `none` | Clear the active project | | `use [<name>]` | Set active project (no arg = show current, `none` = clear) | | `delete <name> [--purge] [--yes]` | Remove project (--purge also deletes output) | | `rename <old> <new>` | Rename a project | | `notes <name> [<text>] [--file <path>]` | View or update notes | | `description <name> [<text>]` | View or update description | | `add <name> <dir> [--target <path>]` | Add existing runs to a project | | `remove <name> <run> --to <path>` | Move a run out of the project | | `report [<name>]` | Generate merged report across all runs | | `diff <name> <run1> <run2>` | Compare findings between two runs | | `merge [<name>] [--type <type>] [--yes]` | Merge runs per command type (destructive) | | `clean [<name>] [--keep <n>] [--dry-run] [--yes]` | Delete old runs, keep latest n | | `export <name> <path> [--force]` | Export project as zip (prints sha256) | | `import <path> [--force] [--sha256 <hash>]` | Import project from zip | ## Execution Run project commands via the Bash tool: ```bash libexec/mantishack-project-manager <subcommand> [args] ``` For destructive commands (`merge`, `clean`, `delete --purge`), confirm with the user before running with `--yes`. ## Output Run the command via Bash, then output the result verbatim in a fenced code block. Do not summarise, truncate, or paraphrase — the user needs exact run names, paths, sizes, and status values. ## Active project When a project is active (via `/project use <name>`), subsequent commands write their output to the project directory instead of generating timestamped dirs under `out/`. ARGUMENTS: $ARGS
Use this agent when the target is a LIVE REST or GraphQL API you are authorized to test and the question is "can I tamper request bodies, headers, ids, and tokens to read or act on data that isn't mine?" — active, request-driven abuse of the API contract, not static code review. It drives REAL HTTP at the endpoints: BOLA/IDOR object-id enumeration (increment/swap/UUID-shuffle the id and diff the access decision), broken function-level authz (replay an admin verb/path with a low-priv token), mass-assignment (inject role/is_admin/is_verified/owner_id into the JSON body), excessive-data-exposure (the response over-returns fields the UI never shows), GraphQL introspection + alias/batch amplification + nested-query DoS, content-type and HTTP-verb tampering (POST→PUT/PATCH/DELETE, application/json→text/plain→x-www-form-urlencoded), JWT/session/token swap across two users, and rate-limit / idempotency-key bypass. It proves every finding with a behavioral oracle — a status/length/timing/field-set diff between the authorized baseline and the tampered request — never a guess. Prefer this agent over a code reader when you hold a base URL or a schema and want to mutate live traffic methodically.\n\n<example>\nContext: The user has a running API with numeric resource ids and two test accounts.\nuser: "Here's our staging API at https://api.staging.acme.test and tokens for user A and user B — can user A read user B's orders?"\nassistant: "That's textbook BOLA: same endpoint, swap the object id (or the bearer token) and diff the access decision. I'll use the Task tool to launch the api-abuse-fuzzer agent to enumerate /orders/{id} with A's token against B's ids and prove the cross-tenant read with a status + ownership-field oracle."\n<agent_launch>\nDelegating to api-abuse-fuzzer: a live authorized API + two tokens + object-id enumeration is its core BOLA/IDOR mission.\n</agent_launch>\n</example>\n\n<example>\nContext: The user exposes a GraphQL endpoint and isn't sure introspection or query batching is locked down.\nuser: "Our /graphql is behind auth but I want to know if a low-priv user can pull admin fields, brute force via aliases, or knock it over with a deep nested query."\nassistant: "GraphQL abuse surface: introspect the schema, alias-batch a login/lookup to bypass per-request rate limits, and send a bounded cyclic nested query as a timing oracle. I'll launch the api-abuse-fuzzer agent to tamper the operation and measure the depth/timing oracle."\n<agent_launch>\nDelegating to api-abuse-fuzzer for GraphQL introspection, alias/batch amplification, and nested-query DoS against the live endpoint.\n</agent_launch>\n</example>\n\nProactively suggest using this agent when: a live base URL + an OpenAPI/Swagger/GraphQL schema (or a captured request) is in hand and the target is authorized in-scope; endpoints take a resource identifier in the path/query/body (/users/{id}, ?account=, {"order_id": ...}) — BOLA/IDOR territory; the user holds 2+ accounts or tokens (low-priv + high-priv, tenant A + tenant B) to run an authorization differential; there are admin/privileged verbs (DELETE, PUT /admin/*, role-changing mutations) and you want to hit them as a non-admin; a write endpoint accepts a JSON object — test mass-assignment of role/is_admin/verified/balance/owner_id; a /graphql endpoint exists (introspection, alias/batch abuse, nested-query DoS, field-level authz); or the user mentions rate limiting, coupon/OTP brute force, idempotency keys, BOLA, BFLA, mass assignment, or "excessive data exposure".
Use this agent when a codebase, PR, or service needs its IMPLICIT TRUST ASSUMPTIONS enumerated and attacked — every place the code silently trusts a header, an "internal-only" route, an "already-validated-upstream" input, an ID that "belongs to the caller," or a value that "can't be null/negative." It specializes in confused-deputy (CWE-441), mass-assignment (CWE-915), input-validation gaps (CWE-20), and second-order/stored injection (CWE-89/CWE-79). This is the agent for trust-boundary audits, multi-service request paths, ORM/serializer review, and proxy/gateway/header-forwarding code.\n\n<example>\nContext: User has a multi-service backend where an edge proxy forwards auth context downstream.\nuser: "Our gateway sets X-User-Id from the JWT and the internal services read it to authorize. Can you check this?"\nassistant: "This is a classic confused-deputy / trust-boundary surface — the downstream services trust a header they can't verify. I'll use the Task tool to launch the assumption-pressure-test agent to enumerate every internal endpoint that reads X-User-Id and prove whether an attacker can reach it directly and forge it."\n<agent_launch>\nDelegating to assumption-pressure-test: the request hinges on an implicit 'this header is trusted because the gateway set it' assumption that must be attacked.\n</agent_launch>\n</example>\n\n<example>\nContext: User just merged an ORM update endpoint.\nuser: "Here's the new profile update handler: User.objects.filter(id=request.user.id).update(**request.data)"\nassistant: "That `**request.data` spread is a mass-assignment sink — it trusts that the request body only contains the fields you intended. I'll launch the assumption-pressure-test agent to map which model columns (is_admin, balance, role) become attacker-writable and confirm reachability."\n<agent_launch>\nDelegating to assumption-pressure-test for the CWE-915 mass-assignment and the implicit 'the body only has safe fields' assumption.\n</agent_launch>\n</example>\n\nProactively suggest using this agent when:\n- Code reads request headers (X-Forwarded-For, X-User-Id, X-Real-IP, X-Internal-*, Host) for trust or authorization decisions\n- A serializer/ORM uses bulk binding: `**req.body`, `Object.assign`, `ModelMapper`, `BeanUtils.copyProperties`, `update_attributes`, `params.permit!`\n- Comments or names assert trust: "internal only", "already validated", "trusted", "comes from gateway", "sanitized upstream"\n- Data is stored then later concatenated into SQL/HTML/shell (second-order injection)\n- An endpoint takes an `id`/`uuid`/`account`/`order` param that maps to a resource (IDOR / object ownership)
Generate gcov coverage data for a code repository.
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Multi-stage pipeline to validate vulnerability findings are real, reachable, and exploitable
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