41 Commits

Author SHA1 Message Date
dextmorgn
82925bec38 fix(deploy): serve prod from pre-built images
Frontend baked VITE_API_URL into the bundle at build time, so
published images pointed at whatever URL CI had — "fail to fetch"
for every other deployment. Bundle now defaults to same-origin
relative URLs and the frontend nginx proxies /api/ to the api
service over the Docker network; CORS becomes irrelevant.

- docker-compose.prod.yml: use ghcr images (FLOWSINT_VERSION,
  default latest), drop build sections; bind postgres/redis/neo4j/
  api ports to 127.0.0.1 — only 5173 faces the network
- nginx: /api/ reverse proxy, request-time DNS resolution, SSE
  support (proxy_buffering off)
- Makefile: prod pulls instead of building; remove dead deploy
  targets referencing nonexistent docker-compose.deploy.yml
- README: network/server deployment section (secrets checklist,
  version pinning, TLS via reverse proxy)
2026-06-05 14:04:16 +02:00
dextmorgn
f38d5d500d Merge pull request #174 from reconurge/chore/security-dependency-upgrades
fix(deps): upgrade Python dependencies to patch 27 known vulnerabilities
2026-06-05 13:21:03 +02:00
dextmorgn
9fcc60ca63 fix(deps): upgrade Python dependencies to patch 27 known vulnerabilities
pip-audit reported 27 vulnerabilities across 12 packages, including
cryptography PYSEC-2026-36 (CVSS 9.8) used by the vault, a starlette
Host-header path bypass, and python-multipart arbitrary file write.

- cryptography 45.0.7 -> 46.0.7 (pin was capped at <46)
- fastapi 0.115 -> 0.136, pulling starlette 0.46 -> 1.2
- python-multipart 0.0.20 -> 0.0.32
- pyjwt, urllib3, aiohttp, lxml, idna, mako and transitive bumps
- dev tools: pytest 8 -> 9 (requires pytest-httpx >=0.36), black 25 -> 26

All four module test suites pass (458 tests). pip-audit now reports
no known vulnerabilities.
2026-06-05 08:57:19 +02:00
dextmorgn
5cdfe727b4 Merge pull request #172 from melihdaskiran/fix/zip-and-vault-bugs
Fix zip alignment mismatch, phone validation return value, and vault …
2026-06-05 08:24:39 +02:00
Melih Daskiran
25eb3a0400 Fix zip alignment mismatch, phone validation return value, and vault owner_id type matching 2026-06-04 21:46:44 +03:00
dextmorgn
259019f23c fix(build): force LF on container files via .gitattributes
Windows checkouts with core.autocrlf=true convert entrypoint.sh to
CRLF, which Docker copies into the image. The shebang then reads
#!/bin/sh\r and exec fails with 'no such file or directory'.
Also covers .env.example (trailing \r in env values) and Makefile.
2026-06-04 18:23:53 +02:00
dextmorgn
7c082d733e docs(readme): make Windows install commands cmd-compatible
PowerShell foreach/Test-Path loop fails when pasted into cmd.exe.
Plain copy commands work in both shells.
2026-06-04 18:05:19 +02:00
dextmorgn
de93ae3059 docs(readme): add Windows install path without Make
Windows users hit failures with make-based install. Replicate
check-env + build + up targets as plain PowerShell/docker compose
commands for prod and dev.
2026-06-04 18:00:35 +02:00
dextmorgn
c6eaf08b66 Merge pull request #163 from Mubashirrrr/fix/json-import-apostrophe-corruption
fix(import): preserve apostrophes in valid JSON imports
2026-06-03 20:34:42 +02:00
dextmorgn
f380674955 Merge pull request #165 from reconurge/fix/sse-auth-header
fix(sse): auth header
2026-06-03 13:42:17 +02:00
Mubashir Rahim
1fdbdbd094 fix(import): preserve apostrophes in valid JSON imports
parse_json unconditionally replaced every single quote with a double
quote (`.replace("'", '"')`) before calling json.loads. This corrupted
any valid JSON string value containing an apostrophe, e.g. a person's
surname "Sarah O'Brien" became "Sarah O"Brien", causing the parse to
fail with "Invalid JSON" and the whole import to be rejected.

Parse strict JSON first so well-formed payloads (including apostrophes
in string values) import correctly, and only fall back to the lenient
single-quote replacement for Python-dict-style payloads that are not
valid JSON on their own.

Adds regression tests covering an apostrophe-bearing JSON value and the
retained single-quoted fallback.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-06-03 14:34:22 +05:00
dextmorgn
b317e08e57 feat(api): authenticate SSE via header, drop query-param auth and dead route 2026-06-03 11:28:41 +02:00
dextmorgn
9db1e675d6 test(api): SSE auth-gate and endpoint-removal tests (red) 2026-06-03 11:22:58 +02:00
dextmorgn
4a75d6a924 refactor(app): stream graph status via connectSSE (token out of URL) 2026-06-03 11:08:11 +02:00
dextmorgn
d7f21e9384 refactor(app): stream logs via connectSSE (token out of URL) 2026-06-03 10:56:32 +02:00
dextmorgn
0b60c81361 Merge pull request #155 from Ghraven/fix-investigation-aware-timestamp
fix: use aware timestamp for investigation updates
2026-06-03 09:30:35 +02:00
dextmorgn
6e5f26aaf0 feat(app): add connectSSE helper with header auth and backoff 2026-06-03 09:28:49 +02:00
Ghraven
60cfa16b8d fix: use aware timestamp for investigation updates 2026-06-03 08:37:45 +08:00
dextmorgn
078ac77eee build(app): add fetch-event-source + vitest test runner 2026-06-02 22:45:36 +02:00
dextmorgn
ed8bfc5248 Merge pull request #149 from Ghraven/fix/timezone-aware-service-timestamps
Use timezone-aware UTC timestamps in core services
2026-06-02 21:11:45 +02:00
dextmorgn
438bbe18c4 Merge pull request #150 from Ghraven/fix-social-enricher-output-encoding
fix: read social enricher outputs as utf-8
2026-06-02 21:10:12 +02:00
Ghraven
4e14df6c61 fix: read social enricher outputs as utf-8 2026-06-01 00:32:48 +08:00
dextmorgn
249374e6d7 chore: update .gitignore 2026-05-31 14:53:34 +02:00
dextmorgn
a15ee54af0 chore: update skill name 2026-05-31 14:52:37 +02:00
Ghraven
b707961e68 fix: use timezone-aware service timestamps 2026-05-31 02:35:11 +08:00
dextmorgn
cc829704e5 Merge pull request #148 from reconurge/fix/phase1-critical
fix: security issues
2026-05-30 19:47:55 +02:00
dextmorgn
e8ca7b39bf fix(types): apply extra=allow via Pydantic v2 model_config
FlowsintType declared an inner `class ConfigDict: extra = "allow"`, which
Pydantic v2 treats as an ordinary nested class and ignores entirely. The
base therefore fell back to the default extra="ignore", silently dropping
user-supplied extra properties on every entity type. Replaced with
model_config = ConfigDict(extra="allow"). Extra keys are now retained.

flowsint-types (44), flowsint-enrichers (12) and flowsint-core (390) suites pass.
2026-05-30 19:03:30 +02:00
dextmorgn
1d409d7929 fix(scan): persist results to existing details column, errors to error column
The Scan model exposes details (JSON) and error (Text) columns, but the
enricher/flow tasks assigned to scan.results — a non-mapped attribute.
SQLAlchemy accepted the assignment silently, so commit() never persisted
it and the data was lost. Success paths now write scan.details; failure
paths write scan.error. ScanCreate.results renamed to details to match.

Scan repository tests pass.
2026-05-30 19:02:14 +02:00
dextmorgn
ee06d6cf3e fix(api): restrict CORS origins via ALLOWED_ORIGINS env
allow_origins was ["*"] together with allow_credentials=True, which is
both insecure and rejected by browsers for credentialed requests. Read a
comma-separated ALLOWED_ORIGINS env var instead, defaulting to the Vite
dev origin http://localhost:5173. Documented in .env.example.
2026-05-30 18:49:44 +02:00
dextmorgn
dd00bae9ce fix(api): run production container as non-root flowsint user
The production stage created the flowsint user and chowned all app
files to it, but the USER directive was commented out, so the API
ran as root. Uncommented it. Verified: image builds, container reports
whoami=flowsint and /health returns 200.
2026-05-30 18:49:43 +02:00
dextmorgn
c9d594a8e7 fix(api): load AUTH_SECRET from validated core.auth source
deps.py read AUTH_SECRET via os.getenv() before load_dotenv() ran,
yielding None when the secret was only present in .env. Import the
already-validated AUTH_SECRET from core.auth (loads dotenv first and
raises if unset) instead of re-reading it. Removes the dup + ordering bug.
2026-05-30 18:44:07 +02:00
dextmorgn
de4f4ea87f Update README with new image links
Added additional image links to the README.
2026-05-28 00:00:13 +02:00
dextmorgn
67ba8cfcc6 feat(chore): update SKILL.md 2026-05-21 11:09:28 +02:00
dextmorgn
8fbcf0c025 chore(skills): add flowsint-transform-builder claude skill
Project-scoped Claude Code skill guiding enricher and type creation.
Whitelists .claude/skills/flowsint-transform-builder/ in .gitignore so
the skill ships with the repo while keeping the rest of .claude/ ignored.
2026-05-15 18:55:56 +02:00
dextmorgn
d431ef4fae docs: sync with flowsint-types and flowsint-enrichers (v1.2.8)
- available-enrichers.mdx: add 17 missing enrichers, drop phantom entries
- managing-enrichers.mdx: fix stale Troubleshooting referencing EnricherRegistry.register()
- managing-types.mdx: note 8 registered-but-uncategorized types
- bump all frontmatter to version 1.2.8 / 2026-05-15
2026-05-15 18:55:25 +02:00
dextmorgn
5be480d4f5 Merge pull request #138 from z3rodaycve/feature/collection-enrichers
Release of my collection of Flowsint enrichers
2026-05-10 17:58:55 +02:00
dextmorgn
431d3997f4 Merge pull request #142 from harmsolo13/fix/celery-healthcheck
fix: replace celery container's inherited curl-based healthcheck
2026-04-29 11:35:17 +02:00
harmsolo13
d4dbe8d0fe fix: replace celery container's inherited curl-based healthcheck
The celery container builds from flowsint-api/Dockerfile which carries
a HEALTHCHECK directive that does `curl -f http://localhost:5001/health`.
The API container has an HTTP server on 5001 — celery doesn't, it's a
worker. So the inherited healthcheck always fails and `docker ps` shows
celery as (unhealthy) even when the worker is actively processing jobs.

This is cosmetic noise today but bites in two real ways: (1) restart
policies that key off health won't re-up celery on a real failure
because Docker can't tell good unhealthy from bad unhealthy, (2) any
service that adds `depends_on: celery: condition: service_healthy`
will refuse to start.

Fix: add a service-level healthcheck on celery in both compose files
(prod and dev) that uses celery's own `inspect ping` primitive
against the worker's broker. Compose-level healthcheck overrides the
Dockerfile-level one, so no Dockerfile change needed.

Smoke-tested locally: container goes from (unhealthy) to (healthy)
within ~30s of restart with no other changes.

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
2026-04-29 18:13:26 +09:30
z3rodaycve
f79403d361 Fixed to_ssl enricher to use httpX Docker Tool 2026-04-24 19:49:20 +02:00
z3rodaycve
0d04423b59 Release of DeHashed, httpX, veriphone, scamalytics enrichers 2026-04-21 16:49:12 +02:00
dextmorgn
62e34c6e9b chore: update README.md with discord link 2026-04-19 13:18:55 +02:00
73 changed files with 6896 additions and 1671 deletions

View File

@@ -0,0 +1,178 @@
---
name: flowsint-enricher-builder
description: Expert guidance for building Flowsint enrichers and their supporting types. Use when the user wants to add a new enricher, create a new Flowsint type, wire a new external API/tool into Flowsint, debug type/enricher discovery, or design a pivot from entity A to entity B. Knows where types live, how the enricher base class works, how vault secrets and params resolve, and when to recommend creating a new type instead of forcing data into an existing one.
---
# Flowsint Enricher Builder
You build enrichers and types for Flowsint. You do not memorize the catalog — you know where to look and how the pieces fit. Always read source before generating code: type definitions and existing enrichers are the ground truth.
## Authoritative source paths
Read these first. Never assume signatures or fields — open the file.
| What | Path |
|---|---|
| Type definitions | `flowsint-types/src/flowsint_types/<name>.py` |
| Type registry + decorator | `flowsint-types/src/flowsint_types/registry.py` |
| Type package exports | `flowsint-types/src/flowsint_types/__init__.py` |
| Enricher base class | `flowsint-core/src/flowsint_core/core/enricher_base.py` |
| Enricher registry + decorator | `flowsint-enrichers/src/flowsint_enrichers/registry.py` |
| Existing enrichers (templates) | `flowsint-enrichers/src/flowsint_enrichers/<input_type>/to_<output>.py` |
| UI category mapping | `flowsint-core/src/flowsint_core/core/services/type_registry_service.py` (`_get_category_definitions`) |
| Vault interface | `flowsint-core/src/flowsint_core/core/vault.py` |
| Logger interface | `flowsint-core/src/flowsint_core/core/logger.py` |
| Tools (external CLI/API wrappers) | `tools/` (top-level), e.g. `tools.network.subfinder.SubfinderTool` |
| Doc — types tutorial | `docs/developers/managing-types.mdx` |
| Doc — enrichers tutorial | `docs/developers/managing-enrichers.mdx` |
| Doc — enricher catalog | `docs/sources/available-enrichers.mdx` |
## The first question: new type or reuse?
When the user describes a enricher, decide before writing code:
1. **List the entities involved** — input data, output data, intermediate fields you'll attach.
2. **For each, check `flowsint-types/src/flowsint_types/`** — open the closest candidate file and read its fields.
3. **Decide:**
- **Reuse** if existing type covers all required fields (extras allowed — `ConfigDict.extra = "allow"`).
- **Extend an existing type** if 12 fields are missing — propose adding optional fields to the existing model.
- **Create new type** if the entity is conceptually distinct (different primary key, different label semantics, different graph role).
4. **Never cram data into a wrong type.** If a "Domain" enricher returns risk scores, a `RiskProfile` exists — don't stuff scores into `Domain` metadata. If nothing fits, propose a new type and tell the user why.
Surface the decision to the user before generating code: list candidate types you found, what's missing, and your recommendation.
## Anatomy of an enricher
Minimum surface (read `enricher_base.py` for the full contract):
```python
from typing import List
from flowsint_core.core.enricher_base import Enricher
from flowsint_core.core.logger import Logger
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types import Domain, Ip # or whatever types
@flowsint_enricher
class MyEnricher(Enricher):
"""[Source name] One-line purpose."""
InputType = Domain # base type, not List[Domain]
OutputType = Ip
@classmethod
def name(cls) -> str: return "domain_to_ip" # snake_case, unique
@classmethod
def category(cls) -> str: return "Domain" # see note on casing below
@classmethod
def key(cls) -> str: return "domain" # primary field of InputType
@classmethod
def get_params_schema(cls): # optional, only if params needed
return [...]
async def scan(self, data: List[InputType]) -> List[OutputType]:
...
def postprocess(self, results, input_data):
for src, dst in zip(input_data, results):
self.create_node(src)
self.create_node(dst)
self.create_relationship(src, dst, "RESOLVES_TO")
return results
InputType = MyEnricher.InputType
OutputType = MyEnricher.OutputType
```
**File location:** `flowsint-enrichers/src/flowsint_enrichers/<input_type>/to_<target>.py`. The directory matches the input type's lowercase name. If no directory exists for your input type, create it (no `__init__.py` needed — auto-discovery walks the tree).
**Registration:** the `@flowsint_enricher` decorator does it. Do not edit any `registry.py`. API restart picks up new files via `load_all_enrichers()`.
## Params and secrets
Defined via `get_params_schema()` classmethod. Each entry is a dict:
| Field | Required | Notes |
|---|---|---|
| `name` | yes | Param key; for `vaultSecret`, also the default vault key name |
| `type` | yes | One of `string`, `number`, `select`, `url`, `vaultSecret` |
| `description` | yes | Shown in UI |
| `required` | no | Defaults to `false` |
| `default` | no | Default value |
| `options` | for `select` | List of `{"label": ..., "value": ...}` |
Read params inside `scan()`:
```python
mode = self.params.get("mode", "passive")
api_key = self.get_secret("MY_API_KEY") # vault-resolved during async_init
```
**Vault resolution flow** (see `Enricher.resolve_params` in `enricher_base.py`):
1. If user passed a vault ID in params → vault looked up by that ID.
2. Else → vault looked up by the param name (e.g. `MY_API_KEY`).
3. If `required: true` and nothing found → `Exception("Required vault secret 'MY_API_KEY' is missing...")`.
**Never hardcode keys.** Always declare a `vaultSecret` param. Document the expected vault key name in the docstring.
## Graph operations (postprocess)
`create_node(obj)` and `create_relationship(from_obj, to_obj, rel_label="IS_RELATED_TO")` take Pydantic objects directly. Don't manually construct node dicts — pass the typed instance.
Relationship label convention: `UPPER_SNAKE_CASE` verb phrase (`HAS_DOMAIN`, `RESOLVES_TO`, `FOUND_IN_BREACH`). Be consistent with existing enrichers — grep before inventing a new label.
`self.log_graph_message("...")` for graph-related progress logs. `Logger.info / error / warn(self.sketch_id, {"message": "..."})` for general logs.
## Creating a new type — checklist
When you decide a new type is warranted:
1. **File**: `flowsint-types/src/flowsint_types/<snake_case>.py`.
2. **Class**: `PascalCase`, inherit from `FlowsintType`, decorate with `@flowsint_type`.
3. **Exactly one primary field**: `Field(..., json_schema_extra={"primary": True})`. Must uniquely identify the entity (used as Neo4j MERGE key).
4. **`compute_label`**: `@model_validator(mode='after')`, sets `self.nodeLabel`, returns `self`. Handle `None` for optional fields.
5. **Export in `__init__.py`**: add import + entry in `__all__`.
6. **Category** (optional but recommended): add a `("MyType", "primary_field_name", icon)` tuple in `_get_category_definitions()` in `type_registry_service.py`. Without this, the type works as an enricher I/O but doesn't show in the UI type picker.
7. **Reinstall**: `cd flowsint-types && poetry install` (or `make prod` from repo root).
8. **Test**: write a `tests/test_<name>.py` covering creation, primary uniqueness, `compute_label` with full/partial fields.
Full template + patterns: `docs/developers/managing-types.mdx`.
## Naming conventions (already-established, don't break)
- Enricher `name()`: `<input>_to_<output>` snake_case (e.g. `domain_to_ip`, `email_to_breaches`).
- Enricher file: `to_<target>.py` under `<input_type>/` directory.
- Class name: descriptive PascalCase (e.g. `DomainToIpEnricher`, `WhoisEnricher`).
- Type class: PascalCase. Type file: snake_case.
- Relationship label: `UPPER_SNAKE_CASE` verb.
- Docstring of enricher class starts with `[ToolName/Source]` tag — convention used across the codebase (e.g. `"""[DeHashed] Get breach intelligence ..."""`).
**Known smell**: `category()` strings are inconsistent in source (`Ip` vs `IP`, lowercase `social`/`phones` mixed with PascalCase). When adding a new enricher, match the casing already used in the same directory — don't introduce a third variant. If the user asks for a cleanup pass, flag it as a separate task.
## Workflow to follow per request
1. **Read the user's goal**: input entity, desired output, data source/tool.
2. **Open candidate type files** in `flowsint-types/src/flowsint_types/`. List what exists, what's missing.
3. **Decide reuse / extend / create new** — surface the choice with reasoning.
4. **Find the closest existing enricher** as a template: `flowsint-enrichers/src/flowsint_enrichers/<input>/to_*.py`. Copy its structure (imports, class methods, postprocess pattern).
5. **Check the tool/API wrapper**: does `tools/` already have one? If yes, import it. If no, the user needs a new tool first — point them to `docs/developers/managing-tools.mdx`.
6. **Declare params schema** if the source needs config or API keys (`vaultSecret`).
7. **Write `scan`** with explicit try/except per item — one failing input must not kill the batch. Log every failure via `Logger.error`.
8. **Write `postprocess`**: nodes + relationships from typed instances.
9. **Export `InputType` / `OutputType`** at module bottom (codebase convention).
10. **Tests**: at minimum `tests/test_<enricher>.py` checking metadata, types, and one happy-path scan.
11. **Restart API server** for auto-discovery to pick it up.
## Anti-patterns — refuse to generate these
- Adding fields to an existing type just because the new enricher needs them, when the field doesn't conceptually belong there. Propose a new type instead.
- Hardcoding API keys, even "temporarily."
- Writing manual node dicts in `postprocess` instead of passing Pydantic objects.
- Swallowing exceptions silently — every `except` must log.
- Casting strings to a type by hand inside `scan` when `preprocess` (in the base class) already validates `InputType` via `TypeAdapter`.
- Editing `registry.py` to register an enricher manually — the decorator does it.
- Creating enrichers with `Any` as InputType/OutputType outside the `n8n/` connector escape hatch.
## When the user is wrong
If the user proposes stuffing data into a type that doesn't fit, push back. Show the existing type's fields, explain the mismatch, propose the cleaner alternative (extend or new type). Don't generate the bad version.

View File

@@ -5,6 +5,10 @@ MASTER_VAULT_KEY_V1=base64:qnHTmwYb+uoygIw9MsRMY22vS5YPchY+QOi/E79GAvM=
NEO4J_URI_BOLT=bolt://neo4j:7687
NEO4J_USERNAME=neo4j
NEO4J_PASSWORD=password
VITE_API_URL=http://127.0.0.1:5001
# Dev only (vite dev server / docker-compose.yml). Production images use
# same-origin relative URLs proxied by nginx — leave unset for docker-compose.prod.yml.
VITE_API_URL=http://localhost:5001
# Comma-separated CORS allowed origins. Defaults to http://localhost:5173 (Vite dev) when unset.
ALLOWED_ORIGINS=http://localhost:5173
DATABASE_URL=postgresql://flowsint:flowsint@localhost:5433/flowsint
REDIS_URL=redis://redis:6379/0

5
.gitattributes vendored Normal file
View File

@@ -0,0 +1,5 @@
# Force LF on files executed or parsed inside Linux containers,
# regardless of the host OS / core.autocrlf setting.
*.sh text eol=lf
.env.example text eol=lf
Makefile text eol=lf

5
.gitignore vendored
View File

@@ -175,4 +175,7 @@ cython_debug/
.pypirc
/certs
.claude/
.claude/*
!.claude/skills/
.claude/skills/*
!.claude/skills/flowsint-enricher-builder/

View File

@@ -2,18 +2,17 @@ PROJECT_ROOT := $(shell pwd)
COMPOSE_DEV := docker compose -f docker-compose.dev.yml
COMPOSE_PROD := docker compose -f docker-compose.prod.yml
COMPOSE_DEPLOY := docker compose -f docker-compose.deploy.yml
.PHONY: \
dev prod deploy \
build-dev build-prod \
up-dev up-prod up-deploy down \
dev prod \
build-dev \
up-dev up-prod down \
infra-dev infra-prod infra-stop-dev infra-stop-prod \
migrate-dev migrate-prod \
alembic-upgrade alembic-downgrade alembic-revision \
api frontend celery \
test install clean check-env open-browser-dev open-browser-prod \
logs-dev logs-prod logs-deploy status \
logs-dev logs-prod status \
regenerate-router
ENV_DIRS := . flowsint-api flowsint-core flowsint-app
@@ -63,18 +62,14 @@ open-browser-dev:
echo "Frontend ready at http://localhost:5173"
prod:
@echo "Starting PROD environment..."
@echo "Starting PROD environment (pre-built images)..."
$(MAKE) check-env
$(MAKE) build-prod
$(COMPOSE_PROD) pull
$(MAKE) up-prod
@echo ""
@echo "Production started!"
@echo " Frontend: http://localhost:5173"
@echo " API: http://localhost:5001"
build-prod:
@echo "Building PROD images..."
$(COMPOSE_PROD) build
@echo " API: http://localhost:5173/api (proxied)"
up-prod:
$(COMPOSE_PROD) up -d
@@ -91,27 +86,11 @@ logs-prod:
$(COMPOSE_PROD) logs -f
open-browser-prod:
@echo "Waiting for frontend on port 80 (Traefik)..."
@bash -c 'until curl -s http://localhost > /dev/null 2>&1; do sleep 2; done'
@open http://localhost 2>/dev/null || \
xdg-open http://localhost 2>/dev/null || \
echo "Frontend ready at http://localhost"
deploy:
@echo "Starting DEPLOY environment (GHCR images)..."
$(MAKE) check-env
$(COMPOSE_DEPLOY) pull
$(COMPOSE_DEPLOY) up -d
@echo ""
@echo "Deploy started!"
@echo " Frontend: http://localhost (via Traefik)"
@echo " API: http://localhost/api"
up-deploy:
$(COMPOSE_DEPLOY) up -d
logs-deploy:
$(COMPOSE_DEPLOY) logs -f
@echo "Waiting for frontend on port 5173..."
@bash -c 'until curl -s http://localhost:5173 > /dev/null 2>&1; do sleep 2; done'
@open http://localhost:5173 2>/dev/null || \
xdg-open http://localhost:5173 2>/dev/null || \
echo "Frontend ready at http://localhost:5173"
migrate-dev:
@echo "Running DEV migrations..."
@@ -177,7 +156,6 @@ status:
down:
-$(COMPOSE_DEV) down
-$(COMPOSE_PROD) down
-$(COMPOSE_DEPLOY) down
clean:
@echo "This will remove ALL Docker data. Continue? [y/N]"
@@ -185,7 +163,6 @@ clean:
if [ "$$confirm" != "y" ]; then exit 1; fi
-$(COMPOSE_DEV) down -v --rmi all --remove-orphans
-$(COMPOSE_PROD) down -v --rmi all --remove-orphans
-$(COMPOSE_DEPLOY) down -v --rmi all --remove-orphans
rm -rf flowsint-app/node_modules
rm -rf .venv
@@ -203,17 +180,11 @@ help:
@echo " make logs-dev - Follow DEV logs"
@echo " make infra-dev - Start only infra (postgres/redis/neo4j)"
@echo ""
@echo "Production (local build):"
@echo " make prod - Start PROD environment (local build + Traefik)"
@echo " make build-prod - Build PROD images"
@echo "Production (pre-built GHCR images):"
@echo " make prod - Pull images and start PROD environment"
@echo " make up-prod - Start PROD containers"
@echo " make logs-prod - Follow PROD logs"
@echo ""
@echo "Deploy (GHCR images):"
@echo " make deploy - Start with GHCR images (no build)"
@echo " make up-deploy - Start DEPLOY containers"
@echo " make logs-deploy - Follow DEPLOY logs"
@echo ""
@echo "Local (no Docker):"
@echo " make api - Run API locally"
@echo " make frontend - Run frontend locally"

View File

@@ -4,6 +4,7 @@
[![Ethical Software](https://img.shields.io/badge/ethical-use-blue.svg)](./ETHICS.md)
[![Buy Me A Coffee](https://img.shields.io/badge/Buy%20Me%20a%20coffee-support-FFDD00?logo=buy-me-a-coffee&logoColor=black)](https://www.buymeacoffee.com/dextmorgn)
[![Ko-fi](https://img.shields.io/badge/Ko--fi-support-F16061?logo=ko-fi&logoColor=white)](https://ko-fi.com/P5P01W3GPJ)
[![Discord](https://img.shields.io/badge/Discord-Join%20Server-5865F2?logo=discord&logoColor=white)](https://discord.gg/aST9HMQr)
Flowsint is an open-source OSINT graph exploration tool designed for ethical investigation, transparency, and verification.
@@ -11,8 +12,16 @@ Flowsint is an open-source OSINT graph exploration tool designed for ethical inv
**Ethics:** Please read [ETHICS.md](./ETHICS.md) for responsible use guidelines.
<img width="1439" height="899" alt="hero-dark" src="https://github.com/user-attachments/assets/01eb128e-bef4-486e-9276-c4da58f829ae" />
<img width="1511" height="946" alt="Capture décran 2026-01-13 à 09 15 58" src="https://github.com/user-attachments/assets/d1a9eca6-9ec4-4402-93f4-303c3dc30de1" />
<img width="1511" height="948" alt="Capture décran 2026-01-13 à 09 19 45" src="https://github.com/user-attachments/assets/6d9e9e6d-d8c7-4ed2-8b8c-53a945b28d05" />
https://github.com/user-attachments/assets/eaabfa81-d7b3-414d-8cf7-f69b4e37bab6
https://github.com/user-attachments/assets/7457d94a-cf1d-4a97-949f-f9b1d8d92644
https://github.com/user-attachments/assets/65c3f26e-7132-4853-be45-21b8933688bd
## Contributing
@@ -22,6 +31,8 @@ Flowsint is still in early development and definetly needs the help of the commu
Don't want to read ? Got it. Here's your install instructions:
### Linux / macOS
#### 1. Install pre-requisites
- Docker
@@ -35,11 +46,76 @@ cd flowsint
make prod
```
### Windows
No Make needed. Works in both **Command Prompt (cmd)** and **PowerShell**.
#### 1. Install pre-requisites
- [Docker Desktop](https://docs.docker.com/desktop/setup/install/windows-install/) (make sure it is **running** before the next step)
- Git
#### 2. Clone and set up environment files
```bat
git clone https://github.com/reconurge/flowsint.git
cd flowsint
copy .env.example .env
copy .env.example flowsint-api\.env
copy .env.example flowsint-core\.env
copy .env.example flowsint-app\.env
```
#### 3. Start
```bat
docker compose -f docker-compose.prod.yml up -d
```
This pulls the pre-built images from GitHub Container Registry — no local build needed.
### First login
Then go to [http://localhost:5173/register](http://localhost:5173/register) and create an account. There are no credentials or account by default.
> ✅ OSINT investigations need a high level of privacy. Everything is stored on your machine.
### Deploy on a network (team / server)
The same setup works out of the box on a server: the frontend serves the UI **and** proxies all API calls internally, so no extra configuration is needed for clients.
```bash
git clone https://github.com/reconurge/flowsint.git
cd flowsint
cp .env.example .env
# Edit .env — see "Before exposing to a network" below
docker compose -f docker-compose.prod.yml up -d
```
Anyone on the network can then access Flowsint at `http://<server-ip>:5173`.
**Before exposing to a network, change the default secrets in `.env`:**
- `AUTH_SECRET` — signs authentication tokens. Generate one: `openssl rand -hex 32`
- `MASTER_VAULT_KEY_V1` — encrypts stored API keys. Generate one: `python3 -c "import os, base64; print('base64:' + base64.b64encode(os.urandom(32)).decode())"`
- `NEO4J_PASSWORD` — Neo4j database password.
Only port `5173` is exposed to the network. PostgreSQL, Redis, Neo4j and the API are bound to `127.0.0.1` on the server and reachable only through the frontend proxy.
To pin a specific version instead of `latest`, set `FLOWSINT_VERSION` in `.env` (e.g. `FLOWSINT_VERSION=1.2.10`).
**HTTPS (recommended beyond a trusted LAN):** put any reverse proxy in front of port 5173. Example with [Caddy](https://caddyserver.com/):
```
flowsint.example.com {
reverse_proxy 127.0.0.1:5173
}
```
When fronting with a reverse proxy, also bind the app port to localhost in `docker-compose.prod.yml` (`"127.0.0.1:5173:8080"`) so clients can only go through HTTPS.
## What is it?
@@ -135,12 +211,19 @@ flowsint-types (types)
### Run
Make sure you have **Make** installed.
**Linux / macOS** (requires **Make**):
```bash
make dev
```
**Windows** (cmd or PowerShell, no Make — create the `.env` files first, see [Get started](#windows)):
```bat
docker compose -f docker-compose.dev.yml up -d --build
docker compose -f docker-compose.dev.yml logs -f
```
### Development
The app is accessible at [http://localhost:5173](http://localhost:5173).

View File

@@ -123,6 +123,14 @@ services:
- REDIS_URL=redis://redis:6379/0
- SKIP_MIGRATIONS=true
- AUTH_SECRET=${AUTH_SECRET}
healthcheck:
# Celery has no HTTP server — Dockerfile's curl-based healthcheck always fails.
# Use celery's own ping primitive instead.
test: ["CMD-SHELL", "celery -A flowsint_core.core.celery inspect ping -d celery@$$HOSTNAME || exit 1"]
interval: 30s
timeout: 10s
retries: 3
start_period: 30s
depends_on:
postgres:
condition: service_healthy

View File

@@ -10,7 +10,8 @@ services:
POSTGRES_PASSWORD: ${POSTGRES_PASSWORD:-flowsint}
POSTGRES_DB: ${POSTGRES_DB:-flowsint}
ports:
- "5433:5432"
# Bound to localhost: host-only debugging access, never exposed to the network.
- "127.0.0.1:5433:5432"
volumes:
- pg_data_prod:/var/lib/postgresql/data
networks:
@@ -26,7 +27,7 @@ services:
container_name: flowsint-redis-prod
restart: always
ports:
- "6379:6379"
- "127.0.0.1:6379:6379"
networks:
- flowsint_network
healthcheck:
@@ -40,8 +41,8 @@ services:
container_name: flowsint-neo4j-prod
restart: always
ports:
- "7474:7474"
- "7687:7687"
- "127.0.0.1:7474:7474"
- "127.0.0.1:7687:7687"
environment:
- NEO4J_AUTH=${NEO4J_USERNAME}/${NEO4J_PASSWORD}
- NEO4J_PLUGINS=["apoc"]
@@ -62,14 +63,13 @@ services:
retries: 10
api:
build:
context: .
dockerfile: flowsint-api/Dockerfile
target: production
image: ghcr.io/reconurge/flowsint-api:${FLOWSINT_VERSION:-latest}
container_name: flowsint-api-prod
restart: always
ports:
- "5001:5001"
# The frontend's nginx proxies /api/ to this service over the Docker
# network — direct access is host-only, for debugging.
- "127.0.0.1:5001:5001"
volumes:
- /var/run/docker.sock:/var/run/docker.sock:ro
environment:
@@ -96,10 +96,7 @@ services:
- flowsint_network
celery:
build:
context: .
dockerfile: flowsint-api/Dockerfile
target: production
image: ghcr.io/reconurge/flowsint-api:${FLOWSINT_VERSION:-latest}
container_name: flowsint-celery-prod
restart: always
command:
@@ -123,6 +120,14 @@ services:
- REDIS_URL=redis://redis:6379/0
- SKIP_MIGRATIONS=true
- AUTH_SECRET=${AUTH_SECRET}
healthcheck:
# Celery has no HTTP server — Dockerfile's curl-based healthcheck always fails.
# Use celery's own ping primitive instead.
test: ["CMD-SHELL", "celery -A flowsint_core.core.celery inspect ping -d celery@$$HOSTNAME || exit 1"]
interval: 30s
timeout: 10s
retries: 3
start_period: 30s
depends_on:
postgres:
condition: service_healthy
@@ -136,14 +141,13 @@ services:
- flowsint_network
app:
build:
context: ./flowsint-app
dockerfile: Dockerfile
args:
- VITE_API_URL=${VITE_API_URL}
# Frontend bundle uses same-origin relative URLs; nginx inside the image
# proxies /api/ to the "api" service. No VITE_API_URL needed.
image: ghcr.io/reconurge/flowsint-app:${FLOWSINT_VERSION:-latest}
container_name: flowsint-app-prod
restart: always
ports:
# The only network-facing port. Serves the UI and proxies /api/ to the API.
- "5173:8080"
networks:
- flowsint_network

View File

@@ -0,0 +1,18 @@
---
title: "Getting started"
description: "This guide explains how you can contribute to Flowsint."
category: "Developers"
order: 7
author: "Flowsint Team"
tags: ["tutorial", "developers", "getting-started"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
## Contributing
Your contribution to Flowsint is highly encouraged !
You can create your own [Types](/docs/developers/managing-types), [Tools](/docs/developers/managing-tools), [Enrichers](/docs/developers/managing-enrichers) and Flows, and sharing them by proposing [pull requests](https://github.com/reconurge/flowsint/pulls).
Before diving in, you may also want to understand the [Graph format](/docs/developers/graph-format) to learn how nodes and edges are structured in the frontend visualization.

View File

@@ -0,0 +1,244 @@
---
title: "Graph format"
description: "Reference for the GraphNode and GraphEdge types used to represent entities and relationships in the Flowsint graph. Understanding these structures is essential for working with the frontend visualization and the graph database layer."
category: "Developers"
order: 11
author: "Flowsint Team"
tags: ["tutorial", "developers", "graph", "nodes", "edges"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
## Overview
Flowsint's graph visualization is built on two core data structures: **GraphNode** (representing entities) and **GraphEdge** (representing relationships between entities). These types are defined in `flowsint-app/src/types/graph.ts` and are used throughout the frontend for rendering, interaction, and data management.
Understanding these structures is important when:
- Building enrichers that create nodes and relationships
- Working on the frontend visualization
- Debugging graph rendering issues
- Extending the graph with new visual features
## GraphNode
A `GraphNode` represents a single entity in the graph (e.g., a domain, an IP address, a person). Every node created by an enricher's `create_node()` method ends up as a `GraphNode` in the frontend.
```typescript
type GraphNode = {
id: string
nodeType: string
nodeLabel: string
nodeProperties: NodeProperties
nodeSize: number
nodeColor: string | null
nodeIcon: keyof typeof LucideIcons | null
nodeImage: string | null
nodeFlag: flagColor | null
nodeShape: NodeShape | null
nodeMetadata: NodeMetadata
x: number
y: number
val?: number
neighbors?: any[]
links?: any[]
}
```
### Field reference
| Field | Type | Description |
|-------|------|-------------|
| `id` | `string` | Unique identifier for the node. Derived from the type's primary field value. |
| `nodeType` | `string` | The entity type (e.g., `"Domain"`, `"Ip"`, `"Email"`). Maps to the Pydantic type class name. |
| `nodeLabel` | `string` | Human-readable label displayed on the node. Set by the type's `compute_label()` method. |
| `nodeProperties` | `NodeProperties` | All properties of the entity as key-value pairs. Contains the serialized fields from the Pydantic type. |
| `nodeSize` | `number` | Visual size of the node in the graph. |
| `nodeColor` | `string \| null` | Custom color override for the node (CSS color string), or `null` for default. |
| `nodeIcon` | `keyof LucideIcons \| null` | Icon to display on the node, from the [Lucide icon set](https://lucide.dev/icons/), or `null` for default. |
| `nodeImage` | `string \| null` | URL to an image to display on the node (e.g., a profile picture), or `null`. |
| `nodeFlag` | `flagColor \| null` | Color flag for visual tagging (see Flag colors below), or `null`. |
| `nodeShape` | `NodeShape \| null` | Shape of the node (see Node shapes below), or `null` for default circle. |
| `nodeMetadata` | `NodeMetadata` | Additional metadata as key-value pairs. Used for internal tracking and extended features. |
| `x` | `number` | X coordinate position in the graph canvas. |
| `y` | `number` | Y coordinate position in the graph canvas. |
| `val` | `number` (optional) | Value used by the force-graph engine for sizing calculations. |
| `neighbors` | `any[]` (optional) | Adjacent nodes, populated by the graph engine at runtime. |
| `links` | `any[]` (optional) | Connected edges, populated by the graph engine at runtime. |
### NodeProperties
```typescript
type NodeProperties = {
[key: string]: any
}
```
A flexible key-value object containing all the entity's properties. When a Pydantic type is serialized into a node, its fields become entries in `nodeProperties`. For example, a `Domain` node would have `nodeProperties.domain`, `nodeProperties.root`, etc.
### NodeMetadata
```typescript
type NodeMetadata = {
[key: string]: any
}
```
Similar to `nodeProperties` but used for system-level metadata rather than entity data. This can include information like creation timestamps, source enricher, or other tracking data.
### Node shapes
Nodes can be rendered in four shapes:
```typescript
type NodeShape = 'circle' | 'square' | 'hexagon' | 'triangle'
```
| Shape | Use case |
|-------|----------|
| `circle` | Default shape for most entity types |
| `square` | Often used for infrastructure entities |
| `hexagon` | Used for grouped or aggregate entities |
| `triangle` | Used for alert or warning-related entities |
### Flag colors
Flags provide a visual tagging system for nodes. Users can flag nodes to highlight them during an investigation.
```typescript
type flagColor = 'red' | 'orange' | 'blue' | 'green' | 'yellow'
```
Each flag color maps to specific Tailwind CSS classes for consistent styling:
| Flag | Style |
|------|-------|
| `red` | `text-red-400 fill-red-200` |
| `orange` | `text-orange-400 fill-orange-200` |
| `blue` | `text-blue-400 fill-blue-200` |
| `green` | `text-green-400 fill-green-200` |
| `yellow` | `text-yellow-400 fill-yellow-200` |
## GraphEdge
A `GraphEdge` represents a relationship between two nodes (e.g., "RESOLVES_TO", "HAS_SUBDOMAIN", "FOUND_IN_BREACH"). Every relationship created by an enricher's `create_relationship()` method ends up as a `GraphEdge` in the frontend.
```typescript
type GraphEdge = {
source: GraphNode['id']
target: GraphNode['id']
date?: string
id: string
label: string
caption?: string
type?: string
weight?: number
confidence_level?: number | string
}
```
### Field reference
| Field | Type | Description |
|-------|------|-------------|
| `source` | `string` | ID of the source node (the "from" node in the relationship). |
| `target` | `string` | ID of the target node (the "to" node in the relationship). |
| `id` | `string` | Unique identifier for this edge. |
| `label` | `string` | Display label for the edge (e.g., `"RESOLVES_TO"`, `"HAS_EMAIL"`). This is the relationship type string passed to `create_relationship()`. |
| `date` | `string` (optional) | Timestamp associated with the relationship (ISO 8601 format). |
| `caption` | `string` (optional) | Additional descriptive text displayed on or near the edge. |
| `type` | `string` (optional) | Relationship classification type for filtering or styling. |
| `weight` | `number` (optional) | Numerical weight of the relationship, can be used for visual thickness or importance ranking. |
| `confidence_level` | `number \| string` (optional) | Confidence score for the relationship, indicating how reliable the connection is. |
## How enrichers map to the graph
When you write an enricher and call graph methods in `postprocess()`, here's how the data flows:
### Creating nodes
```python
# In your enricher's postprocess method
self.create_node(domain) # domain is a Pydantic Domain object
```
The graph service automatically:
1. Extracts the **type name** from the Pydantic class (e.g., `"Domain"`) -> `nodeType`
2. Reads the **primary field** value (e.g., `domain.domain`) -> used for `id`
3. Reads the **nodeLabel** field (set by `compute_label()`) -> `nodeLabel`
4. Serializes all fields into `nodeProperties`
5. Sets defaults for visual properties (`nodeSize`, `nodeColor`, etc.)
### Creating relationships
```python
# In your enricher's postprocess method
self.create_relationship(domain, ip, "RESOLVES_TO")
```
The graph service automatically:
1. Identifies the **source node** from `domain`'s type and primary field -> `source`
2. Identifies the **target node** from `ip`'s type and primary field -> `target`
3. Uses the relationship label `"RESOLVES_TO"` -> `label`
4. Generates a unique `id` for the edge
### Relationship naming conventions
Relationship labels follow these conventions:
- Use **UPPER_SNAKE_CASE** (e.g., `"RESOLVES_TO"`, `"HAS_SUBDOMAIN"`)
- Use **verb phrases** that describe the relationship direction (source -> target)
- The default relationship label is `"IS_RELATED_TO"` if none is specified
- Common patterns:
- `HAS_*` for ownership/containment (e.g., `"HAS_EMAIL"`, `"HAS_SUBDOMAIN"`)
- `RESOLVES_TO` for DNS-type lookups
- `FOUND_IN_*` for breach/leak associations
- `REGISTERED_BY` for WHOIS data
## Graph settings
The graph visualization is configurable through settings types:
### ForceGraphSetting
Controls the physics simulation of the force-directed graph layout:
```typescript
type ForceGraphSetting = {
value: any
min?: number
max?: number
step?: number
type?: string
description?: string
}
```
### ExtendedSetting
General-purpose settings with richer type information:
```typescript
type ExtendedSetting = {
value: any
type: string
min?: number
max?: number
step?: number
options?: { value: string; label: string }[]
description?: string
}
```
These settings allow users to customize graph behavior like node repulsion, link distance, simulation speed, and visual preferences.
## Reserved properties
When creating nodes, certain property names are reserved by the system and should not be used as field names in your custom types:
- `id` - Node identifier
- `x`, `y` - Position coordinates
- `nodeLabel` - Display label (set by `compute_label()`)
- `label` - Legacy label field
- `nodeType`, `type` - Entity type identifiers
- `nodeImage`, `nodeIcon`, `nodeColor`, `nodeSize` - Visual properties
- `created_at` - Creation timestamp
- `sketch_id` - Investigation sketch association

View File

@@ -0,0 +1,715 @@
---
title: "Managing enrichers"
description: "Quick start guide to creating Enricher for your OSINT investigations."
category: "Developers"
order: 10
author: "Flowsint Team"
tags: ["tutorial", "developers", "creating-a-new-enricher"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
## Understanding Enrichers
Enrichers are the high-level business logic layer in Flowsint. While types define data structures and tools wrap external utilities, enrichers orchestrate the entire intelligence gathering workflow. An enricher takes input data of one type, processes it through various tools or APIs, validates and enriches the results, creates graph database nodes and relationships, and returns structured output.
Every enricher in Flowsint follows a two-phase execution model. The scan phase contains the core enriching logic where tools are executed, APIs are called, and data is gathered. Then, the postprocessing phase creates Neo4j graph nodes and relationships while returning the processed results. Input validation and normalization happens automatically through Pydantic type validation.
Enrichers differ from tools in several fundamental ways. Tools are low-level wrappers that return raw data without knowledge of the Flowsint ecosystem. Enrichers are high-level workflows that understand types, create graph nodes, handle parameters, and orchestrate multiple tools. When you want to add a new data source, you create a tool. When you want to add a new intelligence workflow, you create an enricher.
## Enricher architecture
The enricher system is built around an abstract base class that defines the interface and execution flow. Every enricher you create inherits from this base class and implements specific methods.
### The Enricher base class
The base class lives at `flowsint-core/src/flowsint_core/core/enricher_base.py` and provides the framework for all enrichers. Here's what a minimal enricher looks like:
```python
from typing import List
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types import Domain, Ip
@flowsint_enricher
class MyEnricher(Enricher):
"""Description of what this enricher does."""
# Define input and output types as base types (not lists)
InputType = Domain
OutputType = Ip
@classmethod
def name(cls) -> str:
"""Unique identifier for this enricher."""
return "domain_to_ip"
@classmethod
def category(cls) -> str:
"""Category this enricher belongs to."""
return "Domain"
@classmethod
def key(cls) -> str:
"""Primary key field name for this enricher."""
return "domain"
async def scan(self, data: List[InputType]) -> List[OutputType]:
"""Core enriching logic."""
pass
def postprocess(self, results: List[OutputType], input_data: List[InputType]) -> List[OutputType]:
"""Create graph nodes and relationships."""
pass
# Export types for easy access
InputType = MyEnricher.InputType
OutputType = MyEnricher.OutputType
```
The `InputType` and `OutputType` class attributes define what data the enricher accepts and returns. These should be Pydantic types from the `flowsint-types` package defined as base types (e.g., `Domain`, not `List[Domain]`). The base class uses these type definitions to automatically generate JSON schemas for the API and handle validation automatically.
At the end of the file, you should export the types for easy access by other modules.
### The two phases
Understanding the two execution phases is crucial for writing effective enrichers.
**Scanning** is where the real work happens. This async method receives validated input data as a list of `InputType` instances and executes your intelligence gathering logic. You might instantiate tools, call external APIs, process results, and build up your output data. This phase should focus purely on gathering and processing data without worrying about the graph database. The base class automatically handles input validation through Pydantic before the scan phase begins.
**Postprocessing** creates the graph database structure. After scanning completes, this method receives both the results and the original input. It creates Neo4j nodes for each entity, establishes relationships between them, and returns the final results. This separation keeps graph logic separate from business logic.
## Creating a simple enricher
Let's walk through creating a complete enricher from scratch. We'll build an enricher that converts domains to IP addresses using DNS resolution.
### Setting up the file structure
Enrichers are organized by their input type. Create a new file in the appropriate directory under `flowsint-enrichers/src/flowsint_enrichers/`:
```bash
cd flowsint-enrichers/src/flowsint_enrichers/domain/
touch to_ip.py
```
If you're creating an enricher for a new input type, you may need to create a new directory first.
### Implementing the basic structure
Start with the imports and class definition:
```python
import socket
from typing import List
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.enricher_base import Enricher
from flowsint_core.core.logger import Logger
from flowsint_types import Domain, Ip
@flowsint_enricher
class DomainToIpEnricher(Enricher):
"""Resolves domain names to their IP addresses using DNS."""
# Define types as base types (not lists)
InputType = Domain
OutputType = Ip
@classmethod
def name(cls) -> str:
return "domain_to_ip"
@classmethod
def category(cls) -> str:
return "Domain"
@classmethod
def key(cls) -> str:
return "domain"
@classmethod
def documentation(cls) -> str:
return """
This enricher resolves domain names to their IP addresses using
standard DNS queries. It accepts a list of domains and returns
the corresponding IP addresses.
"""
# Export types at the end of the file
InputType = DomainToIpEnricher.InputType
OutputType = DomainToIpEnricher.OutputType
```
The `name()` method returns a unique identifier for this enricher. Use lowercase with underscores, following the pattern `inputtype_to_outputtype`. The `category()` groups related enrichers together in the UI. The `key()` specifies which field serves as the primary identifier, typically matching the input type.
### Implementing the scan logic
The scan method contains your core intelligence gathering logic. It receives a list of validated `InputType` instances and returns a list of `OutputType` instances.
```python
async def scan(self, data: List[InputType]) -> List[OutputType]:
"""
Resolve each domain to its IP address.
Args:
data: List of Domain objects to resolve
Returns:
List of Ip objects
"""
results: List[OutputType] = []
for domain in data:
try:
# Perform DNS resolution
ip_address = socket.gethostbyname(domain.domain)
# Create IP object
ip = Ip(address=ip_address)
results.append(ip)
# Log successful resolution
Logger.info(
self.sketch_id,
{"message": f"Resolved {domain.domain} to {ip_address}"}
)
except socket.gaierror as e:
# DNS resolution failed
Logger.info(
self.sketch_id,
{"message": f"Failed to resolve {domain.domain}: {e}"}
)
continue
except Exception as e:
# Unexpected error
Logger.error(
self.sketch_id,
{"message": f"Error resolving {domain.domain}: {e}"}
)
continue
return results
```
This implementation iterates through each domain, performs DNS resolution, creates an IP object for successful resolutions, and logs both successes and failures. The error handling ensures that failures don't crash the entire enricher, which is important when processing many domains.
The input data has already been validated by Pydantic before reaching the scan method, so you can trust that all items are proper `Domain` objects.
### Implementing postprocessing
The postprocess method creates graph database nodes and relationships using the new simplified API:
```python
def postprocess(self, results: List[OutputType], input_data: List[InputType] = None) -> List[OutputType]:
"""
Create graph nodes and relationships.
Args:
results: IP objects from scan phase
input_data: Original Domain objects (preprocessed input)
Returns:
IP objects (unchanged)
"""
# Create nodes and relationships
for domain, ip in zip(input_data, results):
# Create nodes by passing Pydantic objects directly
self.create_node(domain)
self.create_node(ip)
# Create relationship by passing Pydantic objects directly
self.create_relationship(domain, ip, "RESOLVES_TO")
# Log the operation
self.log_graph_message(
f"IP found for domain {domain.domain} -> {ip.address}"
)
return results
```
You can pass Pydantic objects directly to `create_node()` and `create_relationship()`. The methods automatically infer the node types, primary keys, and property values from the Pydantic models.
The `create_node()` method accepts a Pydantic object and automatically creates a Neo4j node with the correct label and properties. The `create_relationship()` method takes two Pydantic objects and a relationship type string, inferring all necessary information from the objects.
## Creating an enricher with tools
Most enrichers use external tools for data gathering. Let's create an enricher that uses the Subfinder tool for subdomain enumeration.
### Importing the tool
Start by importing the tool along with your other dependencies:
```python
from typing import List
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.logger import Logger
from flowsint_types import Domain
from tools.network.subfinder import SubfinderTool
@flowsint_enricher
class SubdomainEnricher(Enricher):
"""Enumerates subdomains for given domains using Subfinder."""
# Define types as base types
InputType = Domain
OutputType = Domain
@classmethod
def name(cls) -> str:
return "domain_to_subdomains"
@classmethod
def category(cls) -> str:
return "Domain"
@classmethod
def key(cls) -> str:
return "domain"
# Export types
InputType = SubdomainEnricher.InputType
OutputType = SubdomainEnricher.OutputType
```
### Using the tool in scan
The scan method instantiates and uses the tool:
```python
async def scan(self, data: List[InputType]) -> List[OutputType]:
"""
Find subdomains using Subfinder tool.
Args:
data: List of Domain objects
Returns:
List of discovered subdomain Domain objects
"""
results: List[OutputType] = []
# Instantiate the tool
subfinder = SubfinderTool()
for domain in data:
Logger.info(
self.sketch_id,
{"message": f"Enumerating subdomains for {domain.domain}"}
)
try:
# Launch the tool
subdomains = subfinder.launch(domain.domain)
# Convert strings to Domain objects
for subdomain in subdomains:
results.append(Domain(domain=subdomain, root=False))
Logger.info(
self.sketch_id,
{"message": f"Found {len(subdomains)} subdomains for {domain.domain}"}
)
except Exception as e:
Logger.error(
self.sketch_id,
{"message": f"Error enumerating subdomains for {domain.domain}: {e}"}
)
continue
return results
```
Notice how the tool returns raw strings, and the enricher converts them into proper Domain objects. This separation of concerns keeps tools simple while enrichers handle type conversion.
### Creating graph nodes and relationships
The postprocess phase creates parent-child relationships between domains and subdomains:
```python
def postprocess(self, results: List[OutputType], input_data: List[InputType]) -> List[OutputType]:
"""
Create graph nodes and relationships for domains and subdomains.
Args:
results: Discovered subdomain Domain objects
input_data: Original parent Domain objects
Returns:
Subdomain Domain objects
"""
# Create nodes for parent domains
for domain in input_data:
self.create_node(domain)
# Create nodes for subdomains and relationships
for subdomain in results:
self.create_node(subdomain)
# Extract parent domain name and create relationship
parent_domain_name = self._extract_parent_domain(subdomain.domain)
parent_domain = Domain(domain=parent_domain_name)
# Create relationship using Pydantic objects
self.create_relationship(parent_domain, subdomain, "HAS_SUBDOMAIN")
# Log the operation
self.log_graph_message(
f"Subdomain found: {parent_domain_name} -> {subdomain.domain}"
)
return results
def _extract_parent_domain(self, subdomain: str) -> str:
"""Extract parent domain from subdomain."""
parts = subdomain.split('.')
if len(parts) >= 2:
return '.'.join(parts[-2:])
return subdomain
```
## Adding parameters to enrichers
Many enrichers need user-configurable parameters. Let's create an enricher that scans ports with configurable options.
### Defining the parameter schema
The `get_params_schema()` class method defines what parameters your enricher accepts:
```python
from typing import List, Dict, Any, Optional
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.enricher_base import Enricher
from flowsint_types import Ip, Port
from tools.network.naabu import NaabuTool
@flowsint_enricher
class IpToPortsEnricher(Enricher):
"""Scans IP addresses for open ports."""
# Define types as base types
InputType = Ip
OutputType = Port
@classmethod
def name(cls) -> str:
return "ip_to_ports"
@classmethod
def category(cls) -> str:
return "IP"
@classmethod
def key(cls) -> str:
return "address"
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Define configurable parameters for this enricher."""
return [
{
"name": "mode",
"type": "select",
"description": "Scan mode: active scanning or passive enumeration",
"required": True,
"default": "passive",
"options": [
{"label": "Passive", "value": "passive"},
{"label": "Active", "value": "active"},
],
},
{
"name": "port_range",
"type": "string",
"description": "Port range to scan (e.g., '1-1000' or '80,443,8080')",
"required": False,
},
{
"name": "top_ports",
"type": "select",
"description": "Scan only the most common ports",
"required": False,
"options": [
{"label": "Top 100", "value": "100"},
{"label": "Top 1000", "value": "1000"},
],
},
{
"name": "PDCP_API_KEY",
"type": "vaultSecret",
"description": "ProjectDiscovery Cloud Platform API key for passive mode",
"required": False,
},
]
# Export types
InputType = IpToPortsEnricher.InputType
OutputType = IpToPortsEnricher.OutputType
```
The parameter schema defines the type, description, whether it's required, default values, and for select parameters, the available options. The `vaultSecret` type integrates with Flowsint's encrypted credential storage.
### Using parameters in your enricher
Parameters are accessed through `self.params` in your scan method:
```python
async def scan(self, data: List[InputType]) -> List[OutputType]:
"""
Scan IPs for open ports using configured parameters.
Args:
data: List of Ip objects to scan
Returns:
List of Port objects
"""
results: List[OutputType] = []
# Extract parameters
mode = self.params.get("mode", "passive")
port_range = self.params.get("port_range")
top_ports = self.params.get("top_ports")
api_key = self.get_secret("PDCP_API_KEY")
# Instantiate tool
naabu = NaabuTool()
for ip in data:
Logger.info(
self.sketch_id,
{"message": f"Scanning {ip.address} in {mode} mode"}
)
try:
# Launch tool with parameters
scan_results = naabu.launch(
target=ip.address,
mode=mode,
port_range=port_range,
top_ports=top_ports,
api_key=api_key
)
# Convert tool results to Port objects
for result in scan_results:
port = Port(
number=result.get("port"),
protocol=result.get("protocol", "tcp").upper(),
state="open",
service=result.get("service"),
banner=result.get("version")
)
results.append(port)
except Exception as e:
Logger.error(
self.sketch_id,
{"message": f"Error scanning {ip.address}: {e}"}
)
continue
return results
```
## Handling multiple output types
Some enrichers produce multiple types of results. You can define a custom return type using Pydantic:
```python
from pydantic import BaseModel
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.enricher_base import Enricher
from typing import List
from flowsint_types import Website, Email, Phone
class CrawlerResults(BaseModel):
"""Results from web crawler including multiple entity types."""
website: Website
emails: List[Email] = []
phones: List[Phone] = []
@flowsint_enricher
class WebsiteToCrawlerEnricher(Enricher):
"""Crawls websites to extract emails and phone numbers."""
# Define types as base types
InputType = Website
OutputType = CrawlerResults
async def scan(self, data: List[InputType]) -> List[OutputType]:
"""Crawl websites and extract contact information."""
from tools.network.reconcrawl import ReconCrawlTool
results: List[OutputType] = []
crawler_tool = ReconCrawlTool()
for website in data:
try:
# Launch crawler
crawl_data = crawler_tool.launch(website.url)
# Extract entities
emails = [Email(email=e) for e in crawl_data.get("emails", [])]
phones = [Phone(number=p) for p in crawl_data.get("phones", [])]
# Create result object
result = CrawlerResults(
website=website,
emails=emails,
phones=phones
)
results.append(result)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"Crawl error: {e}"})
return results
def postprocess(self, results: List[OutputType], input_data: List[InputType]) -> List[OutputType]:
"""Create nodes for all discovered entities."""
for result in results:
# Create website node using Pydantic object
self.create_node(result.website)
# Create email nodes and relationships
for email in result.emails:
self.create_node(email)
self.create_relationship(result.website, email, "HAS_EMAIL")
# Create phone nodes and relationships
for phone in result.phones:
self.create_node(phone)
self.create_relationship(result.website, phone, "HAS_PHONE")
self.log_graph_message(
f"Processed {len(result.emails)} emails and {len(result.phones)} phones from {result.website.url}"
)
return results
# Export types
InputType = WebsiteToCrawlerEnricher.InputType
OutputType = WebsiteToCrawlerEnricher.OutputType
```
## Registering your enricher
You don't need to register your enricher anywhere, adding the decorator `@flowsint_enricher` to your enricher class triggers the auto discovery.
```python
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.enricher_base import Enricher
@flowsint_enricher
class MyEnricher(Enricher):
...
```
## Testing your enricher
Creating tests helps ensure your enricher works correctly and makes debugging easier. Create a test file in `flowsint-enrichers/tests/`:
```python
# tests/test_domain_to_ip.py
import pytest
from flowsint_enrichers.domain.to_ip import DomainToIpEnricher
from flowsint_types import Domain, Ip
@pytest.mark.asyncio
async def test_enricher_metadata():
"""Test enricher metadata is correctly defined."""
assert DomainToIpEnricher.name() == "domain_to_ip"
assert DomainToIpEnricher.category() == "Domain"
assert DomainToIpEnricher.key() == "domain"
@pytest.mark.asyncio
async def test_type_definitions():
"""Test InputType and OutputType are correctly defined."""
assert DomainToIpEnricher.InputType == Domain
assert DomainToIpEnricher.OutputType == Ip
@pytest.mark.asyncio
async def test_scan():
"""Test DNS resolution works."""
enricher = DomainToIpEnricher(sketch_id="test", scan_id="test")
input_data = [Domain(domain="example.com")]
results = await enricher.scan(input_data)
assert len(results) > 0
assert isinstance(results[0], Ip)
assert results[0].address # Should have an IP address
```
These tests verify that your enricher's metadata is correct, type definitions are properly set, and the scan logic produces expected results. Input validation is handled automatically by Pydantic, so you don't need to test preprocessing separately.
## Best practices
When creating enrichers, think carefully about error handling. Intelligence gathering involves many external systems that can fail in unpredictable ways. Your enricher should handle errors gracefully, log failures clearly, and continue processing remaining items rather than crashing entirely.
Always use the Logger utility for tracking progress and errors. The logger integrates with Flowsint's monitoring system and helps users understand what's happening during long-running enrichers. Log successful operations at the info level and errors at the error level.
Define InputType and OutputType as base types (e.g., `Domain`, not `List[Domain]`). The base class automatically handles the list wrapping and validation. This makes the type definitions cleaner and more intuitive.
Always export your types at the end of the file using:
```python
InputType = YourEnricher.InputType
OutputType = YourEnricher.OutputType
```
Use the simplified graph API by passing Pydantic objects directly to `create_node()` and `create_relationship()`. This eliminates boilerplate code and reduces errors. The methods automatically infer node types, primary keys, and properties from your Pydantic models.
Separate concerns between the two phases. Scanning should focus on gathering and processing data. Postprocessing should create graph structures. Input validation happens automatically through Pydantic, so you don't need to handle it manually.
Use type hints everywhere. They provide automatic validation, better IDE support, and serve as inline documentation. The InputType and OutputType class attributes should always be Pydantic types from the flowsint-types package.
When working with tools, remember that they return raw data structures. Your enricher is responsible for converting tool output into proper Flowsint types. This type conversion is typically done in the scan phase.
Document your enricher thoroughly. The class docstring, documentation method, and parameter descriptions all appear in the UI. Clear documentation helps users understand what your enricher does and how to configure it.
### Handling API Rate Limits
When working with rate-limited APIs, add delays between requests:
```python
async def scan(self, data: InputType) -> OutputType:
"""Scan with rate limiting to respect API limits."""
import asyncio
results = []
delay_seconds = 1 # Delay between requests
for item in data:
result = await self._query_api(item)
if result:
results.append(result)
# Respect rate limits
await asyncio.sleep(delay_seconds)
return results
```
### Fallback data sources
Implement fallback logic when primary sources fail:
```python
async def scan(self, data: InputType) -> OutputType:
"""Try multiple data sources with fallback logic."""
results = []
for domain in data:
# Try primary source
result = self._query_primary_source(domain)
if not result:
# Fall back to secondary source
Logger.info(
self.sketch_id,
{"message": f"Primary source failed for {domain}, trying fallback"}
)
result = self._query_fallback_source(domain)
if result:
results.append(result)
return results
```
## Troubleshooting
If your enricher doesn't appear in the API, verify that you've applied the `@flowsint_enricher` decorator to your class, that the file lives under `flowsint-enrichers/src/flowsint_enrichers/`, and that you've restarted the API server. Auto-discovery via `load_all_enrichers()` runs at startup, so file additions require a restart.
For import errors, make sure all your dependencies are installed and the enricher file has no syntax errors. Check that you're importing from the correct packages.
If the scan method isn't finding any results, add logging statements to debug what's happening. Verify that tools are installed and accessible, API keys are valid if required, and input data is in the expected format.
When graph relationships aren't appearing, check that you're creating both nodes and relationships in the postprocess method. Verify that the relationship type name is correct and that you're passing the right node objects to `create_relationship()`.
## Next steps
Once you've created and registered your enricher, it becomes available through the API for users to run. Enrichers can be chained together into Flows where the output of one enricher feeds into the input of another. This enables complex intelligence gathering sequences.
Remember that enrichers are the heart of Flowsint's intelligence gathering capabilities. Well-designed enrichers that handle errors gracefully, log progress clearly, and create meaningful graph relationships make the entire platform more powerful and user-friendly.
If you create new enrichers that you think can help the community, it's highly appreciated that you open-source them. Help the community as much as it helps you !

View File

@@ -0,0 +1,512 @@
---
title: "Managing tools"
description: "This guide explains how to create a new tool in the Flowsint ecosystem. Tools are low-level wrappers around external utilities, Docker containers, and APIs that enrichers use to gather intelligence. Understanding the tool architecture will help you extend Flowsint's capabilities with new data sources and reconnaissance utilities."
category: "Developers"
order: 9
author: "Flowsint Team"
tags: ["tutorial", "developers", "creating-a-new-tool"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
## Understanding tools
Tools in Flowsint serve as abstraction layers between enrichers and external systems. They provide a consistent interface for executing Docker containers, calling APIs, or running python libraries. While enrichers handle high-level orchestration and graph database operations, tools focus exclusively on executing external commands and returning raw results.
Every tool implements a basic interface with methods for naming, categorization, and execution. Tools don't know anything about Pydantic types, Neo4j graphs, or the broader Flowsint architecture. They just wrap external functionality and return data.
Flowsint currently includes tools for subdomain enumeration, port scanning, DNS queries, WHOIS lookups, web crawling, and business intelligence.
## Tool architecture
The tool system has a two-tier inheritance structure. At the base level, you have the abstract `Tool` class that defines the interface every tool must implement. For tools that run in Docker containers, there's an intermediate `DockerTool` class that handles all the container lifecycle management.
### The Tool base class
Every tool inherits from the abstract `Tool` class, which lives at `flowsint-enrichers/src/tools/base.py`. Here's what it looks like:
```python
from abc import ABC, abstractmethod
from typing import Any
class Tool(ABC):
"""Abstract base class for all tools."""
@classmethod
@abstractmethod
def name(cls) -> str:
"""Return the tool name."""
pass
@classmethod
@abstractmethod
def category(cls) -> str:
"""Return the tool category."""
pass
@classmethod
@abstractmethod
def description(cls) -> str:
"""Return a description of what the tool does."""
pass
@classmethod
@abstractmethod
def version(cls) -> str:
"""Return the tool version."""
pass
@abstractmethod
def launch(self, value: str, *args, **kwargs) -> Any:
"""Execute the tool and return results."""
pass
```
Any tool you create must implement these five methods. The first four are class methods that provide metadata about the tool. The `launch` method is where the actual work happens.
### The DockerTool class
Most security and reconnaissance tools run in Docker containers for isolation and portability. The `DockerTool` class at `flowsint-enrichers/src/tools/dockertool.py` provides all the infrastructure for running containerized tools.
When you inherit from `DockerTool`, you get automatic image management, container execution, volume mounting, environment variable handling, and cleanup. You just specify the Docker image name and implement how to construct the command.
Here's a simplified view of what `DockerTool` provides:
```python
class DockerTool(Tool):
"""Base class for tools that run in Docker containers."""
def __init__(self, image: str, default_tag: str = "latest"):
"""Initialize with Docker image information."""
self.image = image
self.default_tag = default_tag
self.docker_client = docker.from_env()
def install(self) -> None:
"""Pull the Docker image if not already present."""
# Pulls image from Docker Hub
pass
def is_installed(self) -> bool:
"""Check if the Docker image exists locally."""
# Checks local images
pass
def launch(self, command: str, volumes: dict = None,
timeout: int = 30, environment: dict = None) -> Any:
"""Run a command in the Docker container."""
# Executes container and returns output
pass
```
The `launch` method in `DockerTool` handles container execution. It sets up the environment, mounts volumes if needed, runs the container, captures output, and cleans up afterward.
## Creating a simple API-based tool
Let's start with the simpler case of creating a tool that calls an external API. We'll create a hypothetical tool for querying a threat intelligence service.
### File structure
Create a new python file in the appropriate category directory under `flowsint-enrichers/src/tools/`. For a security-related tool, you might use `tools/security/`:
```bash
cd flowsint-enrichers/src/tools/security/
touch threat_intel.py
```
If the category directory doesn't exist, create it first and add an `__init__.py` file to make it a python package.
### Basic implementation
Here's a complete example of an API-based tool:
```python
from tools.base import Tool
from typing import Any, Dict, List, Optional
import requests
class ThreatIntelTool(Tool):
"""Query threat intelligence data from an external API."""
api_endpoint = "https://api.threatintel.example.com/v1"
@classmethod
def name(cls) -> str:
"""Return the tool name."""
return "threatintel"
@classmethod
def category(cls) -> str:
"""Return the category this tool belongs to."""
return "Threat Intelligence"
@classmethod
def description(cls) -> str:
"""Return a description of what this tool does."""
return "Queries threat intelligence data for IPs, domains, and hashes"
@classmethod
def version(cls) -> str:
"""Return the tool version."""
return "1.0.0"
def launch(
self,
indicator: str,
indicator_type: str = "ip",
api_key: Optional[str] = None
) -> List[Dict[str, Any]]:
"""
Query the threat intelligence API.
Args:
indicator: The indicator to query (IP, domain, hash, etc.)
indicator_type: Type of indicator (ip, domain, hash)
api_key: API key for authentication
Returns:
List of threat intelligence records
"""
if not api_key:
raise ValueError("API key is required")
headers = {
"Authorization": f"Bearer {api_key}",
"Content-Type": "application/json"
}
params = {
"indicator": indicator,
"type": indicator_type
}
try:
response = requests.get(
f"{self.api_endpoint}/query",
headers=headers,
params=params,
timeout=30
)
response.raise_for_status()
return response.json().get("results", [])
except requests.exceptions.RequestException as e:
print(f"Error querying threat intel API: {e}")
return []
```
This tool follows a straightforward pattern. The class methods provide metadata that enrichers and the registry use. The `launch` method implements the actual API interaction, handling authentication, making the request, and returning structured data.
Notice how the tool returns simple python data structures like lists and dictionaries. Tools don't know about Pydantic types or Flowsint models. That's the enricher's job.
## Creating a docker-based tool
Docker-based tools are more common in Flowsint because most reconnaissance utilities need specific dependencies and isolated environments. Let's walk through creating a tool that wraps a hypothetical Docker-based subdomain scanner.
### Setting up the class
Start by inheriting from `DockerTool` and providing the Docker image information:
```python
from tools.dockertool import DockerTool
from typing import List, Optional, Any
class MySubdomainTool(DockerTool):
"""Wrapper for a Docker-based subdomain enumeration tool."""
image = "org/subdomain-scanner"
default_tag = "latest"
def __init__(self):
"""Initialize the tool with Docker image information."""
super().__init__(self.image, self.default_tag)
```
The `image` and `default_tag` class attributes tell `DockerTool` which Docker image to use. When you instantiate the tool, it will automatically connect to the Docker daemon.
### Implementing the launch method
The `launch` method needs to construct the command that runs inside the container and handle the results:
```python
def launch(
self,
domain: str,
timeout: int = 300,
wordlist: Optional[str] = None
) -> List[str]:
"""
Enumerate subdomains for a given domain.
Args:
domain: Target domain to enumerate
timeout: Maximum execution time in seconds
wordlist: Optional path to custom wordlist file
Returns:
List of discovered subdomain strings
"""
# Ensure the Docker image is available
if not self.is_installed():
self.install()
# Build the command that runs inside the container
command = f"-d {domain}"
if wordlist:
command += f" -w {wordlist}"
# Add JSON output flag for easier parsing
command += " -json"
# Execute the container
try:
result = super().launch(
command=command,
timeout=timeout
)
# Parse the output
subdomains = self._parse_output(result)
return subdomains
except Exception as e:
print(f"Error running subdomain scanner: {e}")
return []
def _parse_output(self, output: str) -> List[str]:
"""Parse the tool output and extract subdomains."""
import json
subdomains = []
for line in output.strip().split('\n'):
if not line:
continue
try:
data = json.loads(line)
if 'subdomain' in data:
subdomains.append(data['subdomain'])
except json.JSONDecodeError:
continue
return list(set(subdomains)) # Remove duplicates
```
This implementation shows several important patterns. First, it checks if the Docker image is installed and pulls it if necessary. Second, it constructs the command string that will run inside the container. Third, it calls the parent class's `launch` method to handle the actual container execution. Finally, it parses the output into a clean python data structure.
### Handling volumes
Some tools need access to files on the host system. You can mount volumes when calling the parent's `launch` method:
```python
def launch(self, domain: str, wordlist_path: str = None) -> List[str]:
"""Run the tool with optional wordlist file."""
command = f"-d {domain}"
volumes = None
if wordlist_path:
# Mount the wordlist file into the container
volumes = {
wordlist_path: {
'bind': '/wordlist.txt',
'mode': 'ro' # read-only
}
}
command += " -w /wordlist.txt"
result = super().launch(
command=command,
volumes=volumes
)
return self._parse_output(result)
```
The volumes dictionary maps host paths to container paths. You can specify the mount mode as 'ro' for read-only or 'rw' for read-write.
### Using environment variables
For tools that need API keys or configuration through environment variables:
```python
def launch(self, domain: str, api_key: Optional[str] = None) -> List[str]:
"""Run the tool with optional API key for enhanced scanning."""
command = f"-d {domain}"
environment = {}
if api_key:
environment['API_KEY'] = api_key
result = super().launch(
command=command,
environment=environment
)
return self._parse_output(result)
```
## Testing your tool
Creating tests for your tool helps ensure it works correctly and makes it easier to catch regressions. Create a test file in `flowsint-enrichers/tests/tools/` that mirrors your tool's location:
```python
# tests/tools/security/test_threat_intel.py
from tools.security.threat_intel import ThreatIntelTool
import pytest
def test_tool_metadata():
"""Test that tool metadata is correctly defined."""
assert ThreatIntelTool.name() == "threatintel"
assert ThreatIntelTool.category() == "Threat Intelligence"
assert "threat" in ThreatIntelTool.description().lower()
def test_tool_launch_requires_api_key():
"""Test that launch method requires an API key."""
tool = ThreatIntelTool()
with pytest.raises(ValueError):
tool.launch("192.0.2.1")
def test_tool_launch_with_api_key(monkeypatch):
"""Test successful API query with mocked response."""
tool = ThreatIntelTool()
# Mock the requests.get call
def mock_get(*args, **kwargs):
class MockResponse:
def raise_for_status(self):
pass
def json(self):
return {"results": [{"indicator": "192.0.2.1", "threat_level": "high"}]}
return MockResponse()
monkeypatch.setattr("requests.get", mock_get)
results = tool.launch("192.0.2.1", api_key="test_key")
assert len(results) == 1
assert results[0]["indicator"] == "192.0.2.1"
```
For docker-based tools, your tests need Docker to be running:
```python
# tests/tools/network/test_my_subdomain_tool.py
from tools.network.my_subdomain_tool import MySubdomainTool
import pytest
@pytest.mark.docker
def test_tool_install():
"""Test that the Docker image can be pulled."""
tool = MySubdomainTool()
tool.install()
assert tool.is_installed()
@pytest.mark.docker
def test_tool_launch():
"""Test running the tool against a domain."""
tool = MySubdomainTool()
results = tool.launch("example.com")
assert isinstance(results, list)
```
The `@pytest.mark.docker` decorator helps you separate tests that require Docker from those that don't.
## Best practices
When creating tools, focus on simplicity and single responsibility. Each tool should wrap exactly one external utility or API. Don't try to combine multiple data sources in a single tool. That's what enrichers are for.
Always handle errors gracefully. Network requests fail, Docker containers crash, and APIs return unexpected data. Your tool should catch these errors, log them appropriately, and return empty results or raise clear exceptions rather than crashing.
Return simple data structures from the `launch` method. Use lists, dictionaries, strings, and numbers. Don't return Pydantic models or other complex objects. Remember that tools are low-level utilities that enrichers build upon.
For Docker tools, always check if the image is installed before running it. The pattern of checking `is_installed()` and calling `install()` if necessary ensures the tool works even on fresh installations.
When parsing tool output, be defensive. External tools can return unexpected formats, partial results, or garbage data. Validate and clean the output before returning it. Use try-except blocks around parsing logic.
Document your tool thoroughly. The docstrings and parameter descriptions help other developers understand how to use your tool. Future enrichers will rely on this documentation.
## Integrating your tool
Unlike types, tools don't need to be explicitly registered in a central registry. Enrichers import and use them directly. When you create an enricher that uses your new tool, you simply import it:
```python
# In an enricher file
from tools.security.threat_intel import ThreatIntelTool
class IpToThreatIntelEnricher(Enricher):
async def scan(self, data: List[Ip]) -> List[ThreatReport]:
tool = ThreatIntelTool()
results = []
for ip in data:
intel = tool.launch(
indicator=ip.address,
indicator_type="ip",
api_key=api_key
)
# Process results...
return results
```
The enricher instantiates your tool, calls its `launch` method with appropriate parameters, and processes the results into Flowsint types.
## Common patterns
Several patterns appear frequently in Flowsint tools. Understanding these will help you write tools that fit naturally into the ecosystem.
### The install-check pattern
Most Docker tools follow this pattern at the start of `launch`:
```python
def launch(self, ...):
if not self.is_installed():
self.install()
# Continue with execution
```
This ensures the docker image is available before trying to run it.
### The command builder pattern
Complex tools often build commands incrementally based on parameters:
```python
def launch(self, target: str, mode: str = "fast", verbose: bool = False):
command = f"-target {target}"
if mode == "thorough":
command += " --thorough"
if verbose:
command += " -v"
result = super().launch(command)
```
### The output parser pattern
Many tools separate execution from parsing:
```python
def launch(self, ...):
raw_output = super().launch(command)
return self._parse_output(raw_output)
def _parse_output(self, output: str) -> List[Dict]:
"""Parse raw tool output into structured data."""
# Parsing logic here
```
This separation makes the code easier to test and maintain.
## Next steps
Once you've created your tool and tested it, you can build enrichers that use it. Enrichers orchestrate one or more tools to gather intelligence, validate the results, convert them to Flowsint types, and create graph database nodes and relationships.
If your tool requires API keys or other secrets, enrichers can access them through the vault system. When you implement an enricher that uses your tool, you can define parameters of type `vaultSecret` that pull credentials from the user's encrypted vault.
Remember that tools are just one layer in the Flowsint architecture. They provide the raw capabilities, but enrichers provide the intelligence and graph-building logic that makes the platform powerful.

File diff suppressed because it is too large Load Diff

View File

@@ -0,0 +1,53 @@
---
title: "Enrichers"
description: "Quick start guide to using Enrichers for your OSINT investigations."
category: "Getting started"
order: 4
author: "Flowsint Team"
tags: ["tutorial", "getting-started", "enrichers"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### What is an Enricher?
An enricher is an operation that, starting from an input element A (source entity), produces one or more elements B (target entities) by applying a search or correlation method called a pivot.
Example:
```bash
A = my.domain.com (domain name)
p = “DNS resolution” (pivot)
B = 12.23.34.45 (IP address)
```
That said, a pivot is the method or technical process used to derive B from A. The pivot defines how the transformation obtains its result (e.g., DNS resolution, WHOIS lookup, API query, etc.).
Example:
```bash
DNS Resolution → domain → IP
WHOIS Lookup → IP → owner
Reverse Image Search → image → web pages containing that image
```
Flowsint comes with a bunch of prebuilt enrichers, divided into multiple categories. Those enrichers can use standard pivots that your machine can support by default (DNS resolution, WHOIS request, etc.) and some other that depend on external tools.
Those can be :
- Native : DNS resolutions, Whois, etc.
- Docker tools: [subfinder](https://github.com/projectdiscovery/subfinder), [asnmap](https://github.com/projectdiscovery/asnmap), etc.
- Python tools: [sherlock](https://github.com/sherlock-project/sherlock), [maigret](https://github.com/soxoj/maigret), [reconurge/recontrack](https://github.com/reconurge/recontrack), [reconurge/reconcrawl](https://github.com/reconurge/reconcrawl), [reconurge/reconspread](https://github.com/reconurge/reconspread), etc.
- External services (paid or free): [shodan](https://www.shodan.io/), [whoxy](https://www.whoxy.com/), [whoisxmlapi](https://www.whoisxmlapi.com), etc.
### Making your own enrichers
Creating your own enrichers invloves multiple steps, but is not that trivial.
If you plan on writting your own enrichers and think they could help the community, please contribute by making a pull request !
Please refer to [this section](/docs/developers/managing-enrichers) to start building your own enrichers.

View File

@@ -0,0 +1,159 @@
---
title: "Flows"
description: "Quick start guide to using Flows for your OSINT investigations."
category: "Getting started"
order: 5
author: "Flowsint Team"
tags: ["tutorial", "getting-started", "flows"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### What are Flows?
Flows are the chaining of multiple enrichers, where the output of one becomes the input of the next, allowing an investigation to be broadened or deepened.
Some enrichers can be chained together, to that they can provide a reproductible and scalable research flow that can be re-applied to other entities of the same type.
### Getting started with Flows
The best way to get started with flows is to go to [http://localhost:5173/dashboard/flows](http://localhost:5173/dashboard/flows) and create a new flow.
From that, you can start building your first flow; a flow consists of **one** input type, and multiple chained enrichers.
Start by drag & dropping your input type to the canva and start using the "**+**" button to add more enrichers to your flow.
Once you're satisfied with the flow, you can start viewing the execution order by pressing the "**compute**" button.
Make sure you give it a descriptive name and save ! (`crtl + s` or presse the save button).
Once it's done, go back to one of your sketches, right click on an item of the same type of the flow, and you should be able to launch it from the "flows" section.
### Flow schema
Every time a flow is launched, a log file is created at `flowsint_core/enricher_logs`.
```json
{
"sketch_id": "6aa808e4-1360-4c4a-b94f-4bed6c914836",
"scan_id": "52ba38a2-3f2c-4c8b-a7a5-42656f8fb845",
"created_at": "2025-10-26T15:57:52.243549",
"updated_at": "2025-10-26T15:57:52.424052",
"status": "completed",
"enricher_branches": [
{
"id": "branch-0",
"name": "Main Flow",
"steps": [
{
"nodeId": "Domain-1761469976169",
"params": {},
"type": "type",
"inputs": {},
"outputs": {
"domain": [
"example.com"
]
},
"status": "pending",
"branchId": "branch-0",
"depth": 0
},
{
"nodeId": "domain_to_ip-1761469978018",
"params": {},
"type": "enricher",
"inputs": {
"Domain": null
},
"outputs": {
"address": "example.com",
"latitude": "example.com",
"longitude": "example.com",
"country": "example.com",
"city": "example.com",
"isp": "example.com"
},
"status": "pending",
"branchId": "branch-0",
"depth": 1
}
]
}
],
"execution_log": [
{
"step_id": "branch-0_domain_to_ip-1761469978018",
"branch_id": "branch-0",
"branch_name": "Main Flow",
"node_id": "domain_to_ip-1761469978018",
"enricher_name": "domain_to_ip",
"inputs": [
"example.com"
],
"outputs": [
{
"address": "12.34.56.78",
"latitude": null,
"longitude": null,
"country": null,
"city": null,
"isp": null
}
],
"status": "completed",
"error": null,
"timestamp": "2025-10-26T15:57:52.274147",
"execution_time_ms": 144,
"cache_hit": false
}
],
"summary": {
"total_steps": 1,
"completed_steps": 1,
"failed_steps": 0,
"total_execution_time_ms": 144
},
"final_results": {
"initial_values": [
"example.com"
],
"branches": [
{
"id": "branch-0",
"name": "Main Flow",
"steps": [
{
"nodeId": "domain_to_ip-1761469978018",
"enricher": "domain_to_ip",
"status": "completed",
"outputs": [
{
"address": "12.34.56.78",
"latitude": null,
"longitude": null,
"country": null,
"city": null,
"isp": null
}
]
}
]
}
],
"results": {
"domain_to_ip-1761469978018": [
{
"address": "12.34.56.78",
"latitude": null,
"longitude": null,
"country": null,
"city": null,
"isp": null
}
]
},
"reference_mapping": {}
}
}
```

View File

@@ -0,0 +1,42 @@
---
title: "Installation"
description: "Quick start guide to using Flowsint for your OSINT investigations."
category: "Getting started"
order: 3
author: "Flowsint Team"
tags: ["tutorial", "quickstart", "installation"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### Prerequisites
Before installing Flowsint, ensure you have the following installed on your system:
- **Docker** and **Docker Compose**
- **Make** (for build automation)
- **Git**
### Installation
Clone the repo and run the start command.
```bash
git clone https://github.com/reconurge/flowsint.git
cd flowsint
make prod
```
Some enrichers require API keys. Check out [this section](/docs/getting-started/enrichers#api-keys) to learn more.
The application should automatically open at http://localhost:5173.
### Create your first investigation
Start by logging in or registering from the home page. From your dashboard, create a new investigation by clicking "New investigation." Add your first entity—such as a domain name—to the canvas. Right-click the entity to open the context menu and run an enricher. As results appear, explore the newly discovered entities and relationships directly in the graph.
### Running your first enricher
You could start by discovering subdomains for a domain for example.
Add a domain entity like `example.com` to your investigation, then right-click the domain node and select the "domain_to_subdomains" enricher. Wait for the enricher to complete; newly discovered subdomains will be added to your graph for you to review.

View File

@@ -0,0 +1,58 @@
---
title: "Vault"
description: "Quick start guide to using the Vault to secure your services API keys and secrets."
category: "Getting started"
order: 6
author: "Flowsint Team"
tags: ["tutorial", "getting-started", "vault"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
## What is the Vault
A good amount of the tools you'll be using in Flowsint require third party API keys.
The **Vault** (*"Coffre fort"* in french) is the place to centralize and securely store those API keys.
Weither you have a local instance of Flowsint or one fully deployed on a distributed system, you need to have your keys securely stored.
## Adding a key
In the Flowsint enricher ecosystem, the API keys follow a specific format, being in uppercase letters, and with a declarative name that follows `<service>_API_KEY`.
## Current limitations
For now, we cannot match a particular key from the Vault to an enricher **directly from the UI**. The enricher declares the API key variable name it requires, like the following in the core of the Enricher:
```python
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "PDCP_API_KEY",
"type": "vaultSecret",
"description": "The ProjectDiscovery Cloud Platform API key for asnmap.",
"required": True,
},
]
```
This is a known limitation and we are working on improving this.
In the meanwhile, here is a list of the needed keys to run Flowsint at it's full potential:
```bash
# for enrichers
WHOXY_API_KEY # Whoxy domain search engine [WHOXY]
PDCP_API_KEY # ProjectDiscovery Cloud Platform [ASNMAP], [NAABU] etc
HIBP_API_KEY # HaveIBeenPwned API key [HIBP]
ETHERSCAN_API_KEY # Etherscan crypto API key [ETHERSCAN]
# for Flo, AI assistant
MISTRAL_API_KEY
# but other providers will be supported soon (ChatGPT, etc.)
```
There are also some other tools that could need a bunch of other API keys like [Subfinder](https://github.com/projectdiscovery/subfinder). Configuring them is not possible for now, but will be soon.
Stay tuned for updates as those mechanisms may vary in the future, as the goal is to keep the user experience as smooth as possible.

59
docs/overview.mdx Normal file
View File

@@ -0,0 +1,59 @@
---
title: "Welcome to Flowsint"
description: "Complete documentation for Flowsint - a modular OSINT investigation platform."
category: "Overview"
order: 1
author: "Flowsint Team"
tags: ["documentation", "overview", "getting-started"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### What is Flowsint?
Flowsint is a modular investigation and reconnaissance platform focused on OSINT (Open Source Intelligence). It provides:
- Graph-based visualization of entity relationships
- 30+ automated enrichers for intelligence gathering
- Modular architecture with clean separation of concerns
- Privacy-first design with local data storage
- Extensible platform for custom enrichers
- Automated search flows (more on that [here](/docs/getting-started/flows))
<Alert variant="warning">
<AlertTitle>Disclaimer !</AlertTitle>
<AlertDescription>
The author(s) and contributor(s) of this tool assume no responsibility or liability for any damages, losses, or consequences that may result from the use or misuse of this software.
By using this tool, you acknowledge and agree that:
- You are solely responsible for your use of this software
- You will use this tool in compliance with all applicable laws and regulations
- You will obtain proper authorization before conducting any security testing or reconnaissance activities
- You understand the potential risks and legal implications of using security tools
</AlertDescription>
</Alert>
### Why Flowsint?
If you've already practiced some OSINT, you know that analysts often rely on a multitude of research tools: scripts, third-party services, specialized applications. But these tools often work **in silos** and quickly become obsolete if they're not maintained: a service disappears, an API changes, an access point closes. The analyst juggles with unstable tools and sometimes has to **manually adapt their data** to continue their investigation.
OSINT tools, for most, are **consumables**: they evolve, appear, and disappear. Research methods change, security mechanisms evolve. However, the fundamental need always remains the same: **to see, exploit, and analyze data in a clear and understandable way**. Analysts need to be able to list, centralize, and visualize connections to have a clear understanding of their investigation.
This is exactly what Flowsint was built for: a solid and durable foundation on which your investigations rest. Tools become simple extensions that plug in and unplug easily. A new tool comes out, and with a few manipulations it can be integrated into your investigation workflow.
**Flowsint is the stable infrastructure that allows you to stay agile in the face of constant evolution of methods and sources.**
Flowsint is a local tool, running on your machine only. This ensures a great level of confidentiality, but comes with responsabilities.
<Alert variant="warning">
<AlertTitle>At your own risk</AlertTitle>
<AlertDescription>
All enrichers run locally on your machine. This means you can get banned from some services or get flagged from infrastructures if you start making thousands of requests to the same service.
You need to always know what you are doing, and understand that gathering can go very fast in scale.
For example, you can very easily happen to be making DNS resolution requests for 10 000 IPs.
Know you infrastructure and your limits. Know how the tools used in the enrichers actually work. You can have a list of the available enrichers and tools [here](/docs/sources/available-enrichers).
</AlertDescription>
</Alert>
If all those points are clear for you, let's start investigating !

View File

@@ -0,0 +1,163 @@
---
title: "Enrichers catalog"
description: "Quick start guide to using Enrichers for your OSINT investigations."
category: "Sources"
order: 11
author: "Flowsint Team"
tags: ["tutorial", "getting-started", "enrichers"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### ASN
**asn_to_cidrs**: Given an ASN, enumerate its announced CIDR ranges.
Tools/Pivots: [asnmap](https://github.com/projectdiscovery/asnmap) (CLI), [jq](https://jqlang.github.io/jq/) (CLI)
### CIDR
**cidr_to_ips**: Expand a CIDR to IPs by PTR enumeration heuristics.
Tools/Pivots: [dnsx](https://github.com/projectdiscovery/dnsx) (CLI)
### Crypto
**cryptowallet_to_transactions**: Fetch ETH wallet transactions and map wallet-to-wallet relationships.
Tools/APIs: [Etherscan API](https://docs.etherscan.io/)
**cryptowallet_to_nfts**: Fetch ERC-721/1155 NFT transfers for a wallet.
Tools/APIs: [Etherscan API](https://docs.etherscan.io/)
### Domain
**domain_to_ip**: Resolve domains to IPv4 addresses.
Tools/Pivots: DNS resolution (socket)
**domain_to_subdomains**: Discover subdomains for a domain.
Tools/APIs: [subfinder](https://github.com/projectdiscovery/subfinder) (CLI), fallback to [crt.sh JSON API](https://crt.sh/?output=json)
**domain_to_whois**: Retrieve WHOIS registration data for a domain.
Tools/APIs: [python-whois](https://pypi.org/project/python-whois/)
**domain_to_asn**: Map a domain to its ASN by resolving and querying ASN data.
Tools/Pivots: system DNS, [asnmap](https://github.com/projectdiscovery/asnmap) (CLI)
**domain_to_root_domain**: Convert a subdomain to its registrable root.
Tools/Pivots: internal domain utils
**domain_to_history**: Retrieve historical WHOIS records and extract related entities (individuals, organizations, emails, phones, locations).
Tools/APIs: [Whoxy API](https://www.whoxy.com/api/)
**domain_to_website**: Convert a domain to a reachable website URL (HTTP/HTTPS), following redirects.
Tools/Pivots: HTTP HEAD requests
**domain_to_tls**: Retrieve TLS/SSL certificate information for a domain.
Tools/Pivots: [httpx](https://github.com/projectdiscovery/httpx) (CLI)
**domain_to_whois_history**: Retrieve historical WHOIS records for a domain and extract related entities (individuals, organizations, emails, locations).
Tools/APIs: [WhoisXML API](https://whois.whoisxmlapi.com/)
**domain_to_dehashed**: Get breach intelligence (credentials, related individuals) associated with a domain.
Tools/APIs: [DeHashed API](https://www.dehashed.com/docs)
### Email
**email_to_breaches**: Check whether an email appears in known breaches.
Tools/APIs: [Have I Been Pwned API](https://haveibeenpwned.com/API/v3)
**email_to_gravatar**: Check Gravatar existence and profile for an email (via MD5 hash).
Tools/APIs: [Gravatar endpoints](https://en.gravatar.com/site/implement/images/)
**email_to_domain**: Extract the domain part of an email address.
Tools/Pivots: internal email parser
**email_to_domains**: Find domains registered by a given email address; extract related contacts and entities.
Tools/APIs: [Whoxy API](https://www.whoxy.com/api/)
**email_to_username**: Extract the local-part of an email as a Username entity.
Tools/Pivots: internal email parser
**email_to_intelligence**: Get breach intelligence (credentials, related individuals) associated with an email.
Tools/APIs: [DeHashed API](https://www.dehashed.com/docs)
**email_to_device_hudsonrock**: Look up devices compromised by infostealers and associated with an email.
Tools/APIs: [HudsonRock API](https://www.hudsonrock.com/)
### Individual
**individual_to_domains**: Find domains registered by a specific person; extract related contacts and attributes.
Tools/APIs: [Whoxy API](https://www.whoxy.com/api/)
**individual_to_organization**: Find organizations related to a person in French registries.
Tools/APIs: SIRENE (via internal SireneTool) — see [INSEE Sirene API](https://api.insee.fr/catalogue/#/datasets/sirene)
### IP
**ip_to_domain**: Reverse-resolve IPs to domains via PTR and Certificate Transparency pivots.
Tools/APIs: DNS PTR (socket), [crt.sh JSON API](https://crt.sh/?output=json)
**ip_to_infos**: Enrich IPs with geolocation and ISP data.
Tools/APIs: [ip-api.com](https://ip-api.com/)
**ip_to_asn**: Map IPs to their ASN.
Tools/Pivots: AsnmapTool ([asnmap](https://github.com/projectdiscovery/asnmap))
**ip_to_ports**: Scan an IP for open ports and services.
Tools/Pivots: [naabu](https://github.com/projectdiscovery/naabu) (CLI)
**ip_to_fraudscore**: Compute a fraud risk score for an IP address.
Tools/APIs: [Scamalytics API](https://scamalytics.com/ip-api)
**ip_to_intelligence**: Get breach intelligence (credentials, related individuals) associated with an IP.
Tools/APIs: [DeHashed API](https://www.dehashed.com/docs)
### Organization
**org_to_domains**: Find domains registered by an organization; extract contacts and related entities.
Tools/APIs: [Whoxy API](https://www.whoxy.com/api/)
**org_to_infos**: Enrich organizations with French registry data and leaders.
Tools/APIs: SIRENE (SireneTool) — see [INSEE Sirene API](https://api.insee.fr/catalogue/#/datasets/sirene)
**org_to_asn**: Find ASNs associated with an organization name.
Tools/Pivots: [asnmap](https://github.com/projectdiscovery/asnmap) (CLI), [jq](https://jqlang.github.io/jq/) (CLI)
### Phone
**phone_to_infos**: Probe phone footprint across services (demo modules) and normalize number.
Tools/APIs: ignorant modules (Amazon, Snapchat, Instagram), [httpx](https://github.com/projectdiscovery/httpx)
**phone_to_carrier**: Look up carrier, country, and validity metadata for a phone number.
Tools/APIs: [Veriphone API](https://veriphone.io/)
**phone_to_device_hudsonrock**: Look up devices compromised by infostealers and associated with a phone number.
Tools/APIs: [HudsonRock API](https://www.hudsonrock.com/)
### Social
**username_to_socials_sherlock**: Enumerate social accounts for a username using Sherlock.
Tools/Pivots: [sherlock](https://github.com/sherlock-project/sherlock) (CLI)
**username_to_socials_maigret**: Enumerate social accounts for a username using Maigret and parse rich metadata.
Tools/Pivots: [maigret](https://github.com/soxoj/maigret) (CLI)
**username_to_dehashed**: Get breach intelligence (credentials, related individuals) associated with a username.
Tools/APIs: [DeHashed API](https://www.dehashed.com/docs)
**username_to_device_hudsonrock**: Look up devices compromised by infostealers and associated with a username.
Tools/APIs: [HudsonRock API](https://www.hudsonrock.com/)
### Website
**website_to_crawler**: Crawl a website to extract emails and phone numbers.
Tools/APIs: ReconCrawlTool (`reconcrawl`)
**website_to_domain**: Extract the domain name from a website URL.
Tools/Pivots: internal URL parser
**website_to_subdomains**: Find subdomains of a website's domain via external scan.
Tools/APIs: [c99.nl API](https://api.c99.nl/)
**website_to_links**: Crawl a website and collect internal/external links and domains.
Tools/APIs: reconspread Crawler
**website_to_text**: Fetch and extract visible text from a webpage.
Tools/APIs: HTTP GET, [BeautifulSoup](https://www.crummy.com/software/BeautifulSoup/bs4/doc/)
**website_to_webtrackers**: Extract analytics/ads tracking codes from a website.
Tools/APIs: recontrack TrackingCodeExtractor
---
Notes
- Some enrichers optionally depend on docker binaries: `subfinder`, `asnmap`, `dnsx`, `naabu`, `httpx`, and `jq` which are installed in the docker container.
- API-keyed enrichers read keys from params or environment (e.g., `HIBP_API_KEY`, `ETHERSCAN_API_KEY`, `WHOXY_API_KEY`, `WHOISXML_API_KEY`, `DEHASHED_API_KEY`, `SCAMALYTICS_API_KEY`, `VERIPHONE_API_KEY`, `C99_API_KEY`).
- Internal/test enrichers (`domain_to_dummy`, `ip_to_dummy_domains`, `n8n_connector`) are not listed here — they exist in the codebase but are not part of the public catalog.

73
docs/syllabus.mdx Normal file
View File

@@ -0,0 +1,73 @@
---
title: "Syllabus"
description: "Syllabus, just to make sure we speak the same language. Those definitions apply in the context of Flowsint platform."
category: "Overview"
order: 2
author: "Flowsint Team"
tags: ["documentation", "overview", "syllabus"]
version: "1.2.8"
last_updated_at: "2026-05-15"
---
### OSINT
Open Source Intelligence consists of collecting, analyzing, and exploiting **freely** and **openly** available information from search engines, images, social networks, public archives, etc.
### Investigation
A structured process aimed at collecting, correlating, and analyzing information from different sources and enrichers, in order to answer a question or solve a problem. An investigation can be **exploratory** (discovering unknown elements) or **targeted** (validating a hypothesis). An investigation can contain multiple **sketches** (each representing a different view or stage of the analysis) and one or more **analyses**.
### Sketch
Visual result produced by executing one or more enrichers on one or more entities. A sketch represents the current state of the graph derived from collected data at a given moment in the investigation. Multiple sketches can exist for the same investigation to capture different perspectives or stages.
### Analysis
Set of processing, interpretations, and verifications performed on data collected during the investigation. Analyses aim to identify trends, confirm or refute hypotheses, and produce actionable conclusions. They can be **quantitative** (measurements, statistics) or **qualitative** (contextual assessments, behavioral patterns).
### Enricher
An **enricher** is an operation that, from an input element **A** (*source entity*), allows obtaining one or more elements **B** (*target entities*) by applying a search or correlation method called a **pivot**.
> Example:
>
>
> A = `my.domain.com` (*domain name*)
>
> p = "DNS resolution" (*pivot*)
>
> B = `12.23.34.45` (*IP address*).
>
### Pivot
A **pivot** is the method or technical process used to derive **B** from **A**. The pivot defines **how** the enricher obtains its result (e.g., DNS resolution, WHOIS lookup, API query, etc.).
> Examples of pivots:
>
> DNS Resolution → domain → IP
> WHOIS Lookup → IP → owner
> Reverse Image Search → image → web pages containing this image
### Tool
A tool generally refers to a script, program, or service providing a **pivot**, i.e., a means to retrieve or enricher information from an input element.
### Entity
An identifiable object or element manipulated by enrichers (e.g., IP address, domain, email address, user identifier, file hash, etc.). An entity is always associated with a **Sketch**. In the graph, entities are represented as **nodes** (see [Graph format](/docs/developers/graph-format) for technical details).
### Relationship
Defines a link between two entities. This link is generally named (in uppercase) and can be unidirectional or bidirectional.
> Examples of relationships:
>
>
> A = `my.domain.com` → `RESOLVES_TO` → `12.23.34.45`
>
A relationship is always associated between a **source** node (*from*) and a **target** node (*to*). In the graph, relationships are represented as **edges** (see [Graph format](/docs/developers/graph-format) for technical details).
### Flow
The chaining of multiple enrichers, where the output of one becomes the input of the next, allowing to expand or deepen an investigation.

View File

@@ -110,7 +110,7 @@ WORKDIR /app/flowsint-api
RUN chmod +x entrypoint.sh
# Switch to non-root user
# USER flowsint
USER flowsint
EXPOSE 5001
@@ -120,4 +120,4 @@ HEALTHCHECK --interval=30s --timeout=5s --start-period=10s --retries=3 \
ENTRYPOINT ["./entrypoint.sh"]
# Production command (no reload)
CMD ["uvicorn", "app.main:app", "--host", "0.0.0.0", "--port", "5001"]
CMD ["uvicorn", "app.main:app", "--host", "0.0.0.0", "--port", "5001"]

View File

@@ -1,19 +1,10 @@
from fastapi import Depends, HTTPException, status, Request
from fastapi import Depends, HTTPException, status
from fastapi.security import OAuth2PasswordBearer
from jose import JWTError, jwt
from sqlalchemy.orm import Session
from flowsint_core.core.auth import ALGORITHM
from flowsint_core.core.auth import ALGORITHM, AUTH_SECRET
from flowsint_core.core.postgre_db import get_db
from flowsint_core.core.models import Profile
from typing import Optional
import os
from dotenv import load_dotenv
# Remplace avec ton URL de BDD
AUTH_SECRET = os.getenv("AUTH_SECRET")
load_dotenv()
oauth2_scheme = OAuth2PasswordBearer(tokenUrl="token")
@@ -37,42 +28,3 @@ def get_current_user(
if user is None:
raise credentials_exception
return user
def get_current_user_sse(
request: Request, db: Session = Depends(get_db)
) -> Profile:
"""
Alternative authentication for SSE endpoints that accepts token via query parameter.
EventSource API doesn't support custom headers, so we need to pass the token in the URL.
"""
credentials_exception = HTTPException(
status_code=status.HTTP_401_UNAUTHORIZED,
detail="Could not validate credentials",
)
# Try to get token from query parameter
token: Optional[str] = request.query_params.get("token")
# Fallback to Authorization header if query param not present
if not token:
auth_header = request.headers.get("Authorization")
if auth_header and auth_header.startswith("Bearer "):
token = auth_header.replace("Bearer ", "")
if not token:
raise credentials_exception
try:
payload = jwt.decode(token, AUTH_SECRET, algorithms=[ALGORITHM])
email: str = payload.get("sub")
if email is None:
raise credentials_exception
except JWTError:
raise credentials_exception
user = db.query(Profile).filter(Profile.email == email).first()
if user is None:
raise credentials_exception
return user

View File

@@ -14,7 +14,7 @@ from flowsint_core.core.services import (
PermissionDeniedError,
DatabaseError,
)
from app.api.deps import get_current_user, get_current_user_sse
from app.api.deps import get_current_user
router = APIRouter()
@@ -42,7 +42,7 @@ async def stream_events(
request: Request,
sketch_id: str,
db: Session = Depends(get_db),
current_user: Profile = Depends(get_current_user_sse),
current_user: Profile = Depends(get_current_user),
):
"""Stream events for a specific sketch in real-time."""
service = create_log_service(db)
@@ -58,7 +58,7 @@ async def stream_events(
channel = sketch_id
await event_emitter.subscribe(channel)
try:
yield 'data: {"event": "connected", "data": "Connected to log stream"}\n\n'
yield json.dumps({"event": "connected", "data": "Connected to log stream"})
while True:
if await request.is_disconnected():
break
@@ -115,7 +115,7 @@ async def stream_sketch_status(
request: Request,
sketch_id: str,
db: Session = Depends(get_db),
current_user: Profile = Depends(get_current_user_sse),
current_user: Profile = Depends(get_current_user),
):
"""Stream COMPLETED events for a specific sketch (for graph refresh)."""
service = create_log_service(db)
@@ -160,49 +160,3 @@ async def stream_sketch_status(
"X-Accel-Buffering": "no",
},
)
@router.get("/status/scan/{scan_id}/stream")
async def stream_status(
request: Request,
scan_id: str,
db: Session = Depends(get_db),
current_user: Profile = Depends(get_current_user_sse),
):
"""Stream status updates for a specific scan in real-time."""
service = create_log_service(db)
try:
service.get_scan_with_permission(scan_id, current_user.id)
except NotFoundError as e:
raise HTTPException(status_code=404, detail=str(e))
except PermissionDeniedError:
raise HTTPException(status_code=403, detail="Forbidden")
async def status_generator():
print("[EventEmitter] Start status generator")
await event_emitter.subscribe(f"scan_{scan_id}_status")
try:
yield 'data: {"event": "connected", "data": "Connected to status stream"}\n\n'
while True:
data = await event_emitter.get_message(f"scan_{scan_id}_status")
if data is None:
await asyncio.sleep(0.1)
continue
print(f"[EventEmitter] Received status data: {data}")
yield f"data: {data}\n\n"
except asyncio.CancelledError:
print(f"[EventEmitter] Client disconnected from status stream for scan_id: {scan_id}")
finally:
await event_emitter.unsubscribe(f"scan_{scan_id}_status")
return EventSourceResponse(
status_generator(),
media_type="text/event-stream",
headers={
"Cache-Control": "no-cache",
"Connection": "keep-alive",
"X-Accel-Buffering": "no",
},
)

View File

@@ -8,7 +8,7 @@ class ScanCreate(BaseModel):
values: Optional[List[str]] = None
sketch_id: Optional[UUID4] = None
status: Optional[str] = None
results: Optional[Any] = None
details: Optional[Any] = None
class ScanRead(ORMBase):

View File

@@ -1,3 +1,5 @@
import os
from fastapi import FastAPI
from fastapi.middleware.cors import CORSMiddleware
@@ -16,8 +18,12 @@ from app.api.routes import types
from app.api.routes import custom_types
from app.api.routes import enricher_templates
# Comma-separated list of allowed origins, e.g. "https://app.example.com,https://staging.example.com"
# Falls back to localhost dev origin when unset. Never use "*" with allow_credentials=True.
origins = [
"*",
o.strip()
for o in os.getenv("ALLOWED_ORIGINS", "http://localhost:5173").split(",")
if o.strip()
]

View File

@@ -101,7 +101,7 @@ def is_root_domain(domain: str) -> bool:
return False
def is_valid_number(phone: str, region: str = "FR") -> None:
def is_valid_number(phone: str, region: str = "FR") -> bool:
"""
Validates a phone number. Raises InvalidPhoneNumberError if invalid.
- `region` should be ISO 3166-1 alpha-2 country code (e.g., 'FR' for France)
@@ -113,6 +113,8 @@ def is_valid_number(phone: str, region: str = "FR") -> None:
except NumberParseException:
return False
return True
def parse_asn(asn: str) -> int:
if not is_valid_asn(asn):

View File

@@ -9,7 +9,7 @@ dependencies = [
"flowsint-core",
"flowsint-types",
"flowsint-enrichers",
"fastapi[standard]>=0.115.0,<0.116.0",
"fastapi[standard]>=0.115.0,<1.0.0",
"uvicorn>=0.32.0,<0.33.0",
"redis>=5.0,<6.0",
"celery>=5.3,<6.0",
@@ -28,14 +28,14 @@ dependencies = [
"networkx>=2.6.3,<3.0.0",
"email-validator>=2.2.0,<3.0.0",
"mistralai>=1.9.3,<2.0.0",
"python-multipart>=0.0.20,<0.0.21",
"python-multipart>=0.0.27,<0.1.0",
"openpyxl>=3.1.2,<4.0.0",
"jsonschema>=4.25.1,<5.0.0",
]
[dependency-groups]
dev = [
"black>=25.0,<26.0",
"black>=26.3.1,<27.0",
"isort>=6.0,<7.0",
"flake8>=7.0,<8.0",
"mypy>=1.17,<2.0",

View File

@@ -0,0 +1,38 @@
"""Pytest harness for flowsint-api. Provides a TestClient backed by an
in-memory SQLite database, overriding the real Postgres get_db dependency."""
import os
# Env required at import time by flowsint-core modules. Set before importing app.
os.environ.setdefault("AUTH_SECRET", "test-secret-please-ignore")
os.environ.setdefault(
"MASTER_VAULT_KEY_V1", "base64:qnHTmwYb+uoygIw9MsRMY22vS5YPchY+QOi/E79GAvM="
)
import pytest
from fastapi.testclient import TestClient
from sqlalchemy import create_engine
from sqlalchemy.orm import sessionmaker
from flowsint_core.core.models import Base
from flowsint_core.core.postgre_db import get_db
from app.main import app
@pytest.fixture
def db_session():
engine = create_engine(
"sqlite:///:memory:", connect_args={"check_same_thread": False}
)
Base.metadata.create_all(engine)
Session = sessionmaker(bind=engine)
session = Session()
yield session
session.close()
@pytest.fixture
def client(db_session):
app.dependency_overrides[get_db] = lambda: db_session
yield TestClient(app)
app.dependency_overrides.clear()

View File

@@ -0,0 +1,50 @@
"""Auth and shape contract for the SSE event endpoints."""
import importlib
import pytest
from flowsint_core.core.auth import create_access_token
from flowsint_core.core.models import Profile
def test_get_current_user_sse_is_removed():
"""The query-param SSE auth helper must no longer exist."""
deps = importlib.import_module("app.api.deps")
assert not hasattr(deps, "get_current_user_sse")
def test_log_stream_requires_auth_header(client):
"""No Authorization header -> 401 (no token in URL accepted)."""
res = client.get("/api/events/sketch/abc/stream")
assert res.status_code == 401
def test_status_stream_requires_auth_header(client):
res = client.get("/api/events/sketch/abc/status/stream")
assert res.status_code == 401
def test_log_stream_rejects_token_query_param(client):
"""A token in the URL must NOT authenticate the request anymore."""
token = create_access_token({"sub": "user@example.com"})
res = client.get(f"/api/events/sketch/abc/stream?token={token}")
assert res.status_code == 401
def test_dead_scan_stream_endpoint_removed(client):
"""The unused scan status stream endpoint must be gone."""
res = client.get("/api/events/status/scan/abc/stream")
assert res.status_code == 404
def test_get_current_user_accepts_valid_bearer(db_session):
"""The dependency the streams now use authenticates via a valid JWT."""
from app.api.deps import get_current_user
db_session.add(Profile(email="user@example.com", hashed_password="x"))
db_session.commit()
token = create_access_token({"sub": "user@example.com"})
user = get_current_user(token=token, db=db_session)
assert user.email == "user@example.com"

View File

@@ -10,8 +10,9 @@ RUN yarn install --network-timeout 100000
COPY . .
# Build argument for API URL (injected at build time)
ARG VITE_API_URL
# API URL baked at build time. Empty = same-origin relative URLs (/api/...),
# served through the nginx reverse proxy below. Only override for an external API origin.
ARG VITE_API_URL=""
ENV VITE_API_URL=${VITE_API_URL}
RUN yarn build

View File

@@ -57,6 +57,26 @@ http {
add_header X-XSS-Protection "1; mode=block" always;
add_header Referrer-Policy "strict-origin-when-cross-origin" always;
# API reverse proxy — same-origin, no CORS needed.
# Expects the API service to be reachable as "api:5001" on the Docker network.
location /api/ {
# Resolve at request time via Docker's embedded DNS: survives api
# container restarts and lets nginx boot before api is up.
resolver 127.0.0.11 valid=10s;
set $api_upstream http://api:5001;
proxy_pass $api_upstream;
proxy_http_version 1.1;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
# SSE support (event/chat streams)
proxy_set_header Connection "";
proxy_buffering off;
proxy_cache off;
proxy_read_timeout 3600s;
}
# Health check endpoint
location /health {
access_log off;

View File

@@ -11,6 +11,7 @@
"format": "prettier --write .",
"lint": "eslint . --ext .js,.jsx,.cjs,.mjs,.ts,.tsx,.cts,.mts --fix",
"typecheck": "tsc --noEmit",
"test": "vitest run",
"dev": "vite",
"build": "vite build",
"preview": "vite preview"
@@ -19,6 +20,7 @@
"@ai-sdk/react": "^3.0.79",
"@dagrejs/dagre": "^1.1.4",
"@hookform/resolvers": "^5.0.1",
"@microsoft/fetch-event-source": "^2.0.1",
"@monaco-editor/react": "^4.7.0",
"@radix-ui/react-accordion": "^1.2.11",
"@radix-ui/react-alert-dialog": "^1.1.14",
@@ -139,6 +141,7 @@
"react-dom": "^19.2.0",
"standard-version": "^9.5.0",
"typescript": "^5.5.2",
"vite": "^5.3.1"
"vite": "^5.3.1",
"vitest": "^2.1.9"
}
}

View File

@@ -1,6 +1,6 @@
import { useAuthStore } from '@/stores/auth-store'
const API_URL = import.meta.env.VITE_API_URL
const API_URL = import.meta.env.VITE_API_URL ?? ''
export async function fetchWithAuth(endpoint: string, options: RequestInit = {}): Promise<any> {
const token = useAuthStore.getState().token

View File

@@ -1,7 +1,7 @@
import { DefaultChatTransport } from 'ai'
import { useAuthStore } from '@/stores/auth-store'
const API_URL = import.meta.env.VITE_API_URL
const API_URL = import.meta.env.VITE_API_URL ?? ''
export function createChatTransport(chatId: string) {
return new DefaultChatTransport({

View File

@@ -0,0 +1,117 @@
import { describe, it, expect, vi, beforeEach } from 'vitest'
// Capture the options passed to fetchEventSource so we can drive its callbacks.
const calls: any[] = []
const fetchEventSourceMock = vi.fn((url: string, opts: any) => {
calls.push({ url, opts })
return new Promise(() => {}) // never resolves; we drive callbacks manually
})
vi.mock('@microsoft/fetch-event-source', () => ({
fetchEventSource: (url: string, opts: any) => fetchEventSourceMock(url, opts),
}))
vi.mock('@/stores/auth-store', () => ({
useAuthStore: { getState: () => ({ token: 'tok123' }) },
}))
import { connectSSE } from './sse'
const lastOpts = () => calls[calls.length - 1].opts
const fakeResponse = (status: number, contentType: string) =>
({ ok: status >= 200 && status < 300, status, headers: { get: () => contentType } } as any)
beforeEach(() => {
calls.length = 0
fetchEventSourceMock.mockClear()
})
describe('connectSSE', () => {
it('passes the URL and Authorization header from the store', () => {
connectSSE({ url: 'http://x/stream', onMessage: () => {} })
expect(calls[0].url).toBe('http://x/stream')
expect(lastOpts().headers).toEqual({ Authorization: 'Bearer tok123' })
})
it('forwards parsed envelopes and skips "connected"', () => {
const received: any[] = []
connectSSE({ url: 'http://x', onMessage: (m) => received.push(m) })
const o = lastOpts()
o.onmessage({ data: JSON.stringify({ event: 'connected', data: 'hi' }) })
o.onmessage({ data: JSON.stringify({ event: 'log', data: '{"msg":"a"}' }) })
expect(received).toEqual([{ event: 'log', data: '{"msg":"a"}' }])
})
it('ignores empty and malformed messages without throwing', () => {
const received: any[] = []
connectSSE({ url: 'http://x', onMessage: (m) => received.push(m) })
const o = lastOpts()
o.onmessage({ data: '' })
o.onmessage({ data: 'not-json' })
expect(received).toEqual([])
})
it('aborts the request when the disposer is called', () => {
const dispose = connectSSE({ url: 'http://x', onMessage: () => {} })
expect(lastOpts().signal.aborted).toBe(false)
dispose()
expect(lastOpts().signal.aborted).toBe(true)
})
it('throws (no retry) on a non-event-stream open', async () => {
connectSSE({ url: 'http://x', onMessage: () => {} })
await expect(lastOpts().onopen(fakeResponse(401, 'application/json'))).rejects.toThrow()
})
it('accepts a valid event-stream open', async () => {
connectSSE({ url: 'http://x', onMessage: () => {} })
await expect(
lastOpts().onopen(fakeResponse(200, 'text/event-stream'))
).resolves.toBeUndefined()
})
it('returns increasing backoff for transient errors', () => {
connectSSE({ url: 'http://x', onMessage: () => {} })
const o = lastOpts()
const first = o.onerror(new Error('network'))
const second = o.onerror(new Error('network'))
expect(first).toBe(2000)
expect(second).toBe(4000)
})
it('rethrows fatal errors from onerror to stop retrying', async () => {
connectSSE({ url: 'http://x', onMessage: () => {} })
const o = lastOpts()
let fatal: unknown
try {
await o.onopen(fakeResponse(403, 'application/json'))
} catch (e) {
fatal = e
}
expect(() => o.onerror(fatal)).toThrow()
})
it('ignores valid JSON that is not an envelope', () => {
const received: any[] = []
connectSSE({ url: 'http://x', onMessage: (m) => received.push(m) })
const o = lastOpts()
o.onmessage({ data: '42' })
o.onmessage({ data: 'null' })
o.onmessage({ data: '{"data":"no-event"}' })
expect(received).toEqual([])
})
it('calls onError once when the connection promise rejects (non-fatal)', async () => {
const errors: unknown[] = []
fetchEventSourceMock.mockImplementationOnce((url: string, opts: any) => {
calls.push({ url, opts })
return Promise.reject(new Error('boom'))
})
connectSSE({ url: 'http://x', onMessage: () => {}, onError: (e) => errors.push(e) })
await Promise.resolve()
await Promise.resolve()
expect(errors).toHaveLength(1)
expect((errors[0] as Error).message).toBe('boom')
})
})

View File

@@ -0,0 +1,72 @@
import { fetchEventSource } from '@microsoft/fetch-event-source'
import { useAuthStore } from '@/stores/auth-store'
/**
* Outer SSE envelope from the server. `data` is forwarded exactly as received;
* for the log/status streams it is itself a JSON-encoded string that the
* consumer parses (e.g. `JSON.parse(envelope.data)`).
*/
export type SSEEnvelope = { event: string; data: unknown }
/** Thrown to tell fetch-event-source to stop retrying (e.g. auth failure). */
class FatalSSEError extends Error {}
const MAX_BACKOFF_MS = 30000
/**
* Open an authenticated SSE connection.
* Reads the bearer token once at connect time and sends it via the
* Authorization header. Returns a disposer that aborts the connection.
*/
export function connectSSE(opts: {
url: string
onMessage: (msg: SSEEnvelope) => void
onError?: (err: unknown) => void
}): () => void {
const controller = new AbortController()
let retry = 0
const token = useAuthStore.getState().token
const headers: Record<string, string> = token
? { Authorization: `Bearer ${token}` }
: {}
fetchEventSource(opts.url, {
signal: controller.signal,
openWhenHidden: true,
headers,
onopen: async (res) => {
const contentType = res.headers.get('content-type') ?? ''
if (!res.ok || !contentType.includes('text/event-stream')) {
throw new FatalSSEError(`SSE open failed: ${res.status}`)
}
retry = 0
},
onmessage: (ev) => {
if (!ev.data) return
let envelope: SSEEnvelope
try {
envelope = JSON.parse(ev.data) as SSEEnvelope
} catch (error) {
console.error('[connectSSE] malformed envelope:', error, ev.data)
return
}
if (typeof envelope?.event !== 'string') return
if (envelope.event === 'connected') return
opts.onMessage(envelope)
},
onerror: (err) => {
if (err instanceof FatalSSEError) {
opts.onError?.(err)
throw err // stop: no retry on auth/protocol failure
}
// transient failure: retry silently with exponential backoff (onError is not called)
retry += 1
return Math.min(1000 * 2 ** retry, MAX_BACKOFF_MS)
},
}).catch((err) => {
if (!(err instanceof FatalSSEError)) opts.onError?.(err)
})
return () => controller.abort()
}

View File

@@ -3,8 +3,9 @@ import { useQuery } from '@tanstack/react-query'
import { logService } from '@/api/log-service'
import { queryKeys } from '@/api/query-keys'
import { useAuthStore } from '@/stores/auth-store'
import { connectSSE } from '@/api/sse'
const API_URL = import.meta.env.VITE_API_URL
const API_URL = import.meta.env.VITE_API_URL ?? ''
export function useEvents(sketch_id: string | undefined) {
@@ -30,45 +31,21 @@ export function useEvents(sketch_id: string | undefined) {
useEffect(() => {
if (!sketch_id || !token) return
const eventSource = new EventSource(
`${API_URL}/api/events/sketch/${sketch_id}/stream?token=${token}`
)
eventSource.onmessage = (e) => {
try {
// Handle malformed SSE data (connection message has extra "data: " prefix)
let dataStr = e.data
if (dataStr.startsWith('data: ')) {
dataStr = dataStr.substring(6) // Remove "data: " prefix
}
const raw = JSON.parse(dataStr) as any
// Ignore connection messages
if (raw.event === 'connected') {
return
}
const dispose = connectSSE({
url: `${API_URL}/api/events/sketch/${sketch_id}/stream`,
onMessage: (raw) => {
// Only process log events
if (raw.event !== 'log') {
return
if (raw.event !== 'log') return
try {
const event = JSON.parse(raw.data as string) as Event
setLiveLogs((prev) => [...prev.slice(-99), event])
} catch (error) {
console.error('[useSketchEvents] Failed to parse log payload:', error, raw.data)
}
},
})
const event = JSON.parse(raw.data) as Event
setLiveLogs((prev) => [...prev.slice(-99), event])
} catch (error) {
console.error('[useSketchEvents] Failed to parse SSE event:', error, e.data)
}
}
eventSource.onerror = (error) => {
console.error('[useSketchEvents] EventSource error:', error)
eventSource.close()
}
return () => {
eventSource.close()
}
return dispose
}, [sketch_id, token])
const logs = useMemo(

View File

@@ -2,8 +2,9 @@ import { useEffect, useRef } from 'react'
import { useGraphControls } from '@/stores/graph-controls-store'
import { useAuthStore } from '@/stores/auth-store'
import { EventLevel } from '@/types'
import { connectSSE } from '@/api/sse'
const API_URL = import.meta.env.VITE_API_URL
const API_URL = import.meta.env.VITE_API_URL ?? ''
export function useGraphRefresh(sketch_id: string | undefined) {
const refetchGraph = useGraphControls((s) => s.refetchGraph)
@@ -25,55 +26,35 @@ export function useGraphRefresh(sketch_id: string | undefined) {
useEffect(() => {
if (!sketch_id || !token) return
const eventSource = new EventSource(
`${API_URL}/api/events/sketch/${sketch_id}/status/stream?token=${token}`
)
eventSource.onmessage = (e) => {
try {
// Handle malformed SSE data (connection message has extra "data: " prefix)
let dataStr = e.data
if (dataStr.startsWith('data: ')) {
dataStr = dataStr.substring(6) // Remove "data: " prefix
}
const raw = JSON.parse(dataStr) as any
// Ignore connection messages
if (raw.event === 'connected') {
return
}
const dispose = connectSSE({
url: `${API_URL}/api/events/sketch/${sketch_id}/status/stream`,
onMessage: (raw) => {
// Only process status events
if (raw.event !== 'status') {
return
}
const event = JSON.parse(raw.data) as any
// Only handle COMPLETED events
if (event.type === EventLevel.COMPLETED) {
const refetch = refetchGraphRef.current
const regenerate = regenerateLayoutRef.current
const layoutType = currentLayoutTypeRef.current
if (raw.event !== 'status') return
try {
const event = JSON.parse(raw.data as string) as any
// Only handle COMPLETED events
if (event.type === EventLevel.COMPLETED) {
const refetch = refetchGraphRef.current
const regenerate = regenerateLayoutRef.current
const layoutType = currentLayoutTypeRef.current
if (typeof refetch !== 'function') {
return
if (typeof refetch !== 'function') return
// Refetch graph data, then regenerate layout if one is active
refetch(() => {
if (layoutType && typeof regenerate === 'function') {
regenerate(layoutType)
}
})
}
// Refetch graph data with callback to regenerate layout after
refetch(() => {
// After refetch completes, regenerate layout if we have one active
if (layoutType && typeof regenerate === 'function') {
regenerate(layoutType)
}
})
} catch (error) {
console.error('[useGraphRefresh] Failed to parse status payload:', error, raw.data)
}
} catch (error) {
console.error('[useGraphRefresh] Failed to parse SSE event:', error, e.data)
}
}
},
})
eventSource.onerror = () => {
eventSource.close()
}
return () => {
eventSource.close()
}
}, [sketch_id, token]) // Only reconnect when sketch_id or token changes
return dispose
}, [sketch_id, token])
}

View File

@@ -0,0 +1,13 @@
import { defineConfig } from 'vitest/config'
import { resolve } from 'path'
export default defineConfig({
resolve: {
alias: {
'@': resolve(__dirname, 'src'),
},
},
test: {
environment: 'node',
},
})

View File

@@ -23,18 +23,18 @@ dependencies = [
"sse-starlette>=1.8,<2.0",
"alembic==1.13.0",
"phonenumbers>=9.0.8,<10.0.0",
"python-multipart>=0.0.20,<0.0.21",
"python-multipart>=0.0.27,<0.1.0",
"docker>=7.1.0,<8.0.0",
"pytest>=8.4.2,<9.0.0",
"cryptography>=45.0.7,<46.0.0",
"pytest>=9.0.3,<10.0.0",
"cryptography>=46.0.7,<47.0.0",
"openpyxl>=3.1,<4.0",
]
[dependency-groups]
dev = [
"pytest-asyncio>=0.21,<0.22",
"pytest-httpx>=0.35,<0.36",
"black>=25.0,<26.0",
"pytest-asyncio>=0.21,<2.0",
"pytest-httpx>=0.36,<1.0",
"black>=26.3.1,<27.0",
"isort>=6.0,<7.0",
"flake8>=7.0,<8.0",
"mypy>=1.17,<2.0",

View File

@@ -2,9 +2,9 @@
Analysis service for managing analyses within investigations.
"""
from datetime import datetime, timezone
from typing import Any, Dict, List, Optional
from uuid import UUID, uuid4
from datetime import datetime
from sqlalchemy.orm import Session
@@ -64,8 +64,8 @@ class AnalysisService(BaseService):
content=content,
owner_id=owner_id,
investigation_id=investigation_id,
created_at=datetime.utcnow(),
last_updated_at=datetime.utcnow(),
created_at=datetime.now(timezone.utc),
last_updated_at=datetime.now(timezone.utc),
)
self._analysis_repo.add(new_analysis)
self._commit()
@@ -97,7 +97,7 @@ class AnalysisService(BaseService):
self._check_permission(user_id, investigation_id, ["update"])
analysis.investigation_id = investigation_id
analysis.last_updated_at = datetime.utcnow()
analysis.last_updated_at = datetime.now(timezone.utc)
self._commit()
self._refresh(analysis)
return analysis

View File

@@ -4,7 +4,7 @@ Chat service for managing chats and messages with AI integration.
import json
import os
from datetime import datetime
from datetime import datetime, timezone
from typing import Any, AsyncIterator, Dict, List, Optional
from uuid import UUID, uuid4
@@ -76,8 +76,8 @@ class ChatService(BaseService):
description=description,
owner_id=owner_id,
investigation_id=investigation_id,
created_at=datetime.utcnow(),
last_updated_at=datetime.utcnow(),
created_at=datetime.now(timezone.utc),
last_updated_at=datetime.now(timezone.utc),
)
self._chat_repo.add(new_chat)
self._commit()
@@ -103,7 +103,7 @@ class ChatService(BaseService):
if not chat:
raise NotFoundError("Chat not found")
chat.last_updated_at = datetime.utcnow()
chat.last_updated_at = datetime.now(timezone.utc)
user_message = ChatMessage(
id=uuid4(),
@@ -111,7 +111,7 @@ class ChatService(BaseService):
context=context,
chat_id=chat_id,
is_bot=False,
created_at=datetime.utcnow(),
created_at=datetime.now(timezone.utc),
)
self._chat_repo.add_message(user_message)
self._commit()
@@ -124,7 +124,7 @@ class ChatService(BaseService):
content=content,
chat_id=chat_id,
is_bot=True,
created_at=datetime.utcnow(),
created_at=datetime.now(timezone.utc),
)
self._chat_repo.add_message(chat_message)
self._commit()

View File

@@ -2,7 +2,7 @@
Flow service for managing flows and flow computations.
"""
from datetime import datetime
from datetime import datetime, timezone
from typing import Any, Dict, List, Optional
from uuid import UUID, uuid4
@@ -82,8 +82,8 @@ class FlowService(BaseService):
description=description,
category=category,
flow_schema=flow_schema,
created_at=datetime.utcnow(),
last_updated_at=datetime.utcnow(),
created_at=datetime.now(timezone.utc),
last_updated_at=datetime.now(timezone.utc),
)
self._flow_repo.add(new_flow)
self._commit()
@@ -101,7 +101,7 @@ class FlowService(BaseService):
value.append("Username")
setattr(flow, key, value)
flow.last_updated_at = datetime.utcnow()
flow.last_updated_at = datetime.now(timezone.utc)
self._commit()
self._refresh(flow)
return flow

View File

@@ -4,7 +4,7 @@ Investigation service for managing investigations and user roles.
from typing import List, Optional
from uuid import UUID, uuid4
from datetime import datetime
from datetime import datetime, timezone
from sqlalchemy.orm import Session
@@ -109,7 +109,7 @@ class InvestigationService(BaseService):
investigation.name = name
investigation.description = description
investigation.status = status
investigation.last_updated_at = datetime.utcnow()
investigation.last_updated_at = datetime.now(timezone.utc)
self._commit()
self._refresh(investigation)

View File

@@ -25,7 +25,7 @@ class Vault(VaultProtocol):
if not owner_id:
raise ValueError("owner_id is required to use the vault.")
self.db = db
self.owner_id = str(owner_id)
self.owner_id = owner_id
self.version = "V1"
def _get_master_key(self) -> bytes:
@@ -52,7 +52,7 @@ class Vault(VaultProtocol):
algorithm=hashes.SHA256(),
length=32,
salt=salt,
info=self.owner_id.encode("utf-8"),
info=str(self.owner_id).encode("utf-8"),
)
master_key = self._get_master_key()
return hkdf.derive(master_key)
@@ -72,7 +72,7 @@ class Vault(VaultProtocol):
ciphertext = aesgcm.encrypt(
iv,
plaintext.encode("utf-8"),
self.owner_id.encode("utf-8"), # AAD = links secret to user_id
str(self.owner_id).encode("utf-8"), # AAD = links secret to user_id
)
return {
@@ -92,7 +92,7 @@ class Vault(VaultProtocol):
plaintext = aesgcm.decrypt(
row.get("iv"),
row.get("ciphertext"),
self.owner_id.encode("utf-8"),
str(self.owner_id).encode("utf-8"),
)
return plaintext.decode("utf-8")

View File

@@ -23,8 +23,15 @@ def parse_json(
try:
file_bytes = file_bytes.lstrip()
entities: Dict[str, Entity] = {}
my_bytes_value = file_bytes.decode().replace("'", '"')
graph = json.loads(my_bytes_value)
decoded = file_bytes.decode()
# Parse strict JSON first so apostrophes inside string values (e.g.
# "Sarah O'Brien") are preserved. Only fall back to the lenient
# single-quote replacement for Python-dict-style payloads that are not
# valid JSON on their own.
try:
graph = json.loads(decoded)
except json.JSONDecodeError:
graph = json.loads(decoded.replace("'", '"'))
node_key = next((k for k in VALID_NODES_KEYS if k in graph), None)
edge_key = next((k for k in VALID_EDGES_KEYS if k in graph), None)
if node_key is None:

View File

@@ -69,10 +69,10 @@ def run_enricher(
results = asyncio.run(enricher.execute(values=serialized_objects))
scan.status = EventLevel.COMPLETED
scan.results = to_json_serializable(results)
scan.details = to_json_serializable(results)
session.commit()
return {"result": scan.results}
return {"result": scan.details}
except Exception as ex:
session.rollback()
@@ -82,7 +82,7 @@ def run_enricher(
scan = session.query(Scan).filter(Scan.id == uuid.UUID(self.request.id)).first()
if scan:
scan.status = EventLevel.FAILED
scan.results = {"error": error_logs}
scan.error = error_logs
session.commit()
self.update_state(state=states.FAILURE)
@@ -145,10 +145,10 @@ def run_template_enricher(
results = asyncio.run(enricher.execute(values=serialized_objects))
scan.status = EventLevel.COMPLETED
scan.results = to_json_serializable(results)
scan.details = to_json_serializable(results)
session.commit()
return {"result": scan.results}
return {"result": scan.details}
except Exception as ex:
session.rollback()
@@ -162,7 +162,7 @@ def run_template_enricher(
)
if scan:
scan.status = EventLevel.FAILED
scan.results = {"error": error_logs}
scan.error = error_logs
session.commit()
self.update_state(state=states.FAILURE)

View File

@@ -65,10 +65,10 @@ def run_flow(
results = enricher.scan(values=serialized_objects)
scan.status = EventLevel.COMPLETED
scan.results = to_json_serializable(results)
scan.details = to_json_serializable(results)
session.commit()
return {"result": scan.results}
return {"result": scan.details}
except Exception as ex:
session.rollback()
@@ -78,7 +78,7 @@ def run_flow(
scan = session.query(Scan).filter(Scan.id == uuid.UUID(self.request.id)).first()
if scan:
scan.status = EventLevel.FAILED
scan.results = {"error": error_logs}
scan.error = error_logs
session.commit()
self.update_state(state=states.FAILURE)

View File

@@ -65,3 +65,40 @@ def test_standard_json_import_without_label():
"""Test basic standard JSON import."""
results = parse_json(standard_json_without_label, max_preview_rows=100)
assert "Username" in results.entities
# Valid JSON whose string values contain apostrophes (very common in OSINT
# data, e.g. surnames like "O'Brien"). This is well-formed JSON and must import.
json_with_apostrophe = b"""{
"nodes": [
{"id": "1", "label": "Sarah O'Brien", "type": "individual"},
{"id": "2", "label": "Bob", "type": "individual"}
],
"edges": [
{"source": "1", "target": "2", "label": "KNOWS"}
]
}"""
def test_json_import_preserves_apostrophes_in_string_values():
"""Valid JSON with an apostrophe in a value must parse and keep the value.
Regression: the parser used to blindly replace every single quote with a
double quote, which corrupted valid JSON (turning "Sarah O'Brien" into
"Sarah O"Brien") and raised "Invalid JSON".
"""
results = parse_json(json_with_apostrophe, max_preview_rows=100)
assert "Individual" in results.entities
labels = {
str(preview.obj.nodeLabel)
for preview in results.entities["Individual"].results
}
assert "Sarah O'Brien" in labels
def test_json_import_still_accepts_single_quoted_payload():
"""Python-dict-style payloads (single-quoted) remain supported as fallback."""
single_quoted = b"{'nodes': [{'id': '1', 'label': 'Alice', 'type': 'individual'}], 'edges': []}"
results = parse_json(single_quoted, max_preview_rows=100)
assert "Individual" in results.entities

View File

@@ -0,0 +1,97 @@
"""Tests for timezone-aware service timestamps."""
from datetime import timezone
from unittest.mock import MagicMock
from uuid import uuid4
from flowsint_core.core.services.analysis_service import AnalysisService
from flowsint_core.core.services.chat_service import ChatService
from flowsint_core.core.services.flow_service import FlowService
from flowsint_core.core.services.investigation_service import InvestigationService
def _assert_utc(value):
assert value.tzinfo is not None
assert value.utcoffset() == timezone.utc.utcoffset(value)
def test_analysis_service_create_uses_timezone_aware_timestamps():
service = AnalysisService(
db=MagicMock(),
analysis_repo=MagicMock(),
investigation_repo=MagicMock(),
)
service._check_permission = MagicMock()
analysis = service.create(
title="Summary",
description=None,
content={},
investigation_id=uuid4(),
owner_id=uuid4(),
)
_assert_utc(analysis.created_at)
_assert_utc(analysis.last_updated_at)
def test_chat_service_create_uses_timezone_aware_timestamps():
service = ChatService(
db=MagicMock(),
chat_repo=MagicMock(),
vault_service=MagicMock(),
)
chat = service.create(
title="Investigation chat",
description=None,
investigation_id=uuid4(),
owner_id=uuid4(),
)
_assert_utc(chat.created_at)
_assert_utc(chat.last_updated_at)
def test_flow_service_create_uses_timezone_aware_timestamps():
service = FlowService(
db=MagicMock(),
flow_repo=MagicMock(),
custom_type_repo=MagicMock(),
sketch_repo=MagicMock(),
investigation_repo=MagicMock(),
)
flow = service.create(
name="Resolve domain",
description=None,
category=["Domain"],
flow_schema={"nodes": [], "edges": []},
)
_assert_utc(flow.created_at)
_assert_utc(flow.last_updated_at)
def test_investigation_service_update_uses_timezone_aware_timestamp():
investigation = MagicMock()
investigation_repo = MagicMock()
investigation_repo.get_by_id.return_value = investigation
service = InvestigationService(
db=MagicMock(),
investigation_repo=investigation_repo,
sketch_repo=MagicMock(),
analysis_repo=MagicMock(),
profile_repo=MagicMock(),
)
service._check_permission = MagicMock()
service.update(
investigation_id=uuid4(),
user_id=uuid4(),
name="Updated investigation",
description="Updated description",
status="active",
)
_assert_utc(investigation.last_updated_at)

View File

@@ -45,7 +45,7 @@ class TestVaultInitialization:
"""Test successful Vault initialization."""
vault = Vault(db=mock_db, owner_id=owner_id)
assert vault.db == mock_db
assert vault.owner_id == str(owner_id)
assert vault.owner_id == owner_id
assert vault.version == "V1"

View File

@@ -28,9 +28,9 @@ dependencies = [
[dependency-groups]
dev = [
"pytest>=8.4.2,<9.0.0",
"pytest-asyncio>=0.21,<0.22",
"black>=25.0,<26.0",
"pytest>=9.0.3,<10.0.0",
"pytest-asyncio>=0.21,<2.0",
"black>=26.3.1,<27.0",
"isort>=6.0,<7.0",
"flake8>=7.0,<8.0",
"mypy>=1.17,<2.0",

View File

@@ -33,6 +33,7 @@ class DomainToAsnEnricher(Enricher):
vault=vault,
params=params,
)
self.domain_asn_mapping: List[tuple[Domain, ASN]] = []
@classmethod
def required_params(cls) -> bool:
@@ -64,6 +65,7 @@ class DomainToAsnEnricher(Enricher):
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
self.domain_asn_mapping = []
asnmap = AsnmapTool()
# Retrieve API key from vault or environment
@@ -87,6 +89,7 @@ class DomainToAsnEnricher(Enricher):
description=asn_data.get("as_name", ""),
)
results.append(asn)
self.domain_asn_mapping.append((domain, asn))
Logger.info(
self.sketch_id,
@@ -115,8 +118,8 @@ class DomainToAsnEnricher(Enricher):
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
# Create Neo4j relationships between domains and their corresponding ASNs
if input_data and self._graph_service:
for domain, asn in zip(input_data, results):
if self._graph_service:
for domain, asn in self.domain_asn_mapping:
# Create domain node
self.create_node(domain)
# Create ASN node

View File

@@ -0,0 +1,161 @@
import json
import os
import requests
from typing import Any, Dict, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.domain import Domain
from flowsint_types.individual import Individual
from flowsint_core.core.logger import Logger
@flowsint_enricher
class DomainToDehashed(Enricher):
"""[DeHashed] Get breach intelligence from a domain."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Domain
OutputType = Individual
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "DEHASHED_API_KEY", # Get your API key from dehashed.com/api
"type": "vaultSecret",
"description": "Your Dehashed API key.",
"required": True,
}
]
@classmethod
def name(cls) -> str:
return "domain_to_dehashed"
@classmethod
def category(cls) -> str:
return "Domain"
@classmethod
def key(cls) -> str:
return "domain"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
api_key = self.get_secret("DEHASHED_API_KEY", os.getenv("DEHASHED_API_KEY"))
for domain in data:
try:
headers = {'Dehashed-Api-Key': api_key, 'Content-Type': 'application/json'}
raw_data = json.dumps({"query": f"domain:{domain.domain}"})
api_request = requests.post(f'https://api.dehashed.com/v2/search', data=raw_data, headers=headers, timeout=30)
if api_request.status_code != 200:
if api_request.status_code == 401:
Logger.error(
self.sketch_id,
{
"message": f"(DomainToDehashed) Enricher failed for the domain because API key does not have a valid subscription: '{domain.domain}': {api_request.text}"
},
)
elif api_request.status_code == 403:
Logger.error(
self.sketch_id,
{
"message": f"(DomainToDehashed) Enricher failed for the domain because request has malfunctioned (missing API_KEY): '{domain.domain}': {api_request.text}"
},
)
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(DomainToDehashed) Failed to parse JSON for {domain.domain}: {e}"})
continue
dehashed_entries = response_json.get("entries", [])
if not dehashed_entries:
Logger.error(
self.sketch_id,
{
"message": f"(DomainToDehashed) Enricher failed for the domain: '{domain.domain}': {api_request.text}"
},
)
continue
api_balance = response_json.get("balance")
if api_balance:
Logger.info(self.sketch_id, f'(DomainToDehashed) Your remaining API balance is {api_balance}.')
for entry in dehashed_entries:
entry_email = entry.get("email")
entry_phone = entry.get("phone")
entry_name = entry.get("name")
entry_socialmedia = entry.get("social")
entry_ip = entry.get("ip_address")
entry_username = entry.get("username")
entry_dob = entry.get("dob")
results.append(
Individual(
full_name=entry_name[0] if entry_name else None,
birth_date=entry_dob[0] if entry_dob else None,
email_addresses=entry_email if entry_email else None,
phone_numbers=entry_phone if entry_phone else None,
social_media_profiles=entry_socialmedia if entry_socialmedia else None,
ip_addresses=entry_ip if entry_ip else None,
usernames=entry_username if entry_username else None
)
)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(DomainToDehashed) Exception while querying {domain.domain}: {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
if input_data and self._graph_service:
for domain in input_data:
for individual in results:
self.create_node(domain)
self.create_node(individual)
# Create relationship
self.create_relationship(domain, individual, "CONNECTION_WITH")
self.log_graph_message(
f"(DomainToDehashed) Successfully found individual connections with {domain.domain}. "
)
return results
# Make types available at module level for easy access
InputType = DomainToDehashed.InputType
OutputType = DomainToDehashed.OutputType

View File

@@ -14,6 +14,10 @@ class ResolveEnricher(Enricher):
InputType = Domain
OutputType = Ip
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.domain_ip_mapping: List[tuple[Domain, Ip]] = []
@classmethod
def name(cls) -> str:
return "domain_to_ip"
@@ -33,10 +37,13 @@ class ResolveEnricher(Enricher):
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
self.domain_ip_mapping = []
for d in data:
try:
ip = socket.gethostbyname(d.domain)
results.append(Ip(address=ip))
ip_obj = Ip(address=ip)
results.append(ip_obj)
self.domain_ip_mapping.append((d, ip_obj))
except Exception as e:
Logger.info(
self.sketch_id,
@@ -46,7 +53,9 @@ class ResolveEnricher(Enricher):
return results
def postprocess(self, results: List[OutputType], original_input: List[InputType]) -> List[OutputType]:
for domain_obj, ip_obj in zip(original_input, results):
for domain_obj, ip_obj in self.domain_ip_mapping:
if not self._graph_service:
continue
self.create_node(domain_obj)
self.create_node(ip_obj)
self.create_relationship(

View File

@@ -0,0 +1,100 @@
import json
import os
import requests
from typing import Any, Dict, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.domain import Domain
from flowsint_types.website import Website
from flowsint_core.core.logger import Logger
from flowsint_types.address import Location
from tools.network.httpx import HttpxTool
@flowsint_enricher
class DomainToTLS(Enricher):
"""[httpX] Get TLS information from a domain."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Domain
OutputType = Website
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def name(cls) -> str:
return "domain_to_tls"
@classmethod
def category(cls) -> str:
return "Domain"
@classmethod
def key(cls) -> str:
return "domain"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
Logger.info(self.sketch_id, f"(DomainToTLS) Received {len(data)} inputs")
for domain in data:
try:
tool = HttpxTool()
httpx_results = tool.launch(
target=domain.domain,
args=["-tls-probe"]
)
if not httpx_results :
Logger.error(None, {"message": f"(DomainToTLS) No results for the domain '{domain.domain}'"})
continue
else:
for r_line in httpx_results :
web_url = r_line.get("url")
web_title = r_line.get("title")
web_content_type = r_line.get("content_type")
web_statuscode = r_line.get("status_code") # status_code is int
results.append(
Website(
url=web_url if web_url else None,
domain=domain,
active=True,
title=web_title if web_title else None,
content_type=web_content_type if web_content_type else None,
status_code=web_statuscode if web_statuscode else None
)
)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(DomainToTLS) Exception while querying the domain '{domain.domain}': {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
if input_data and self._graph_service:
for domain in input_data:
for website in results:
self.create_node(domain)
self.create_node(website)
# Create relationship
self.create_relationship(domain, website, "TLS_INFO")
self.log_graph_message(
f"(DomainToTLS) Successfully fetched TLS information for the domain '{domain.domain}'. "
)
return results
# Make types available at module level for easy access
InputType = DomainToTLS.InputType
OutputType = DomainToTLS.OutputType

View File

@@ -0,0 +1,161 @@
import json
import os
import requests
from typing import Any, Dict, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.email import Email
from flowsint_types.individual import Individual
from flowsint_core.core.logger import Logger
@flowsint_enricher
class EmailToDehashed(Enricher):
"""[DeHashed] Get breach intelligence from an email address."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Email
OutputType = Individual
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "DEHASHED_API_KEY", # Get your API key from dehashed.com/api
"type": "vaultSecret",
"description": "Your Dehashed API key.",
"required": True,
}
]
@classmethod
def name(cls) -> str:
return "email_to_intelligence"
@classmethod
def category(cls) -> str:
return "Email"
@classmethod
def key(cls) -> str:
return "email"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
api_key = self.get_secret("DEHASHED_API_KEY", os.getenv("DEHASHED_API_KEY"))
for email in data:
try:
headers = {'Dehashed-Api-Key': api_key, 'Content-Type': 'application/json'}
raw_data = json.dumps({"query": f"email:{email.email}"})
api_request = requests.post(f'https://api.dehashed.com/v2/search', data=raw_data, headers=headers, timeout=30)
if api_request.status_code != 200:
if api_request.status_code == 401:
Logger.error(
self.sketch_id,
{
"message": f"(EmailToDehashed) Enricher failed for the email because API key does not have a valid subscription: '{email.email}': {api_request.text}"
},
)
elif api_request.status_code == 403:
Logger.error(
self.sketch_id,
{
"message": f"(EmailToDehashed) Enricher failed for the email because request has malfunctioned (missing API_KEY): '{email.email}': {api_request.text}"
},
)
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(EmailToDehashed) Failed to parse JSON for {email.email}: {e}"})
continue
dehashed_entries = response_json.get("entries", [])
if not dehashed_entries:
Logger.error(
self.sketch_id,
{
"message": f"(EmailToDehashed) Enricher failed for the email: '{email.email}': {api_request.text}"
},
)
continue
api_balance = response_json.get("balance")
if api_balance:
Logger.info(self.sketch_id, f'(EmailToDehashed) Your remaining API balance is {api_balance}.')
for entry in dehashed_entries:
entry_email = entry.get("email")
entry_phone = entry.get("phone")
entry_name = entry.get("name")
entry_socialmedia = entry.get("social")
entry_ip = entry.get("ip_address")
entry_username = entry.get("username")
entry_dob = entry.get("dob")
results.append(
Individual(
full_name=entry_name[0] if entry_name else None,
birth_date=entry_dob[0] if entry_dob else None,
email_addresses=entry_email if entry_email else None,
phone_numbers=entry_phone if entry_phone else None,
social_media_profiles=entry_socialmedia if entry_socialmedia else None,
ip_addresses=entry_ip if entry_ip else None,
usernames=entry_username if entry_username else None
)
)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(EmailToDehashed) Exception while querying email {email.email}: {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
if input_data and self._graph_service:
for email in input_data:
for individual in results:
self.create_node(email)
self.create_node(individual)
# Create relationship
self.create_relationship(email, individual, "CONNECTION_WITH")
self.log_graph_message(
f"(EmailToDehashed) Successfully found individual connections with {email.email}. "
)
return results
# Make types available at module level for easy access
InputType = EmailToDehashed.InputType
OutputType = EmailToDehashed.OutputType

View File

@@ -15,6 +15,10 @@ class EmailToGravatarEnricher(Enricher):
InputType = Email
OutputType = Gravatar
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self.email_gravatar_mapping: List[tuple[Email, Gravatar]] = []
@classmethod
def name(cls) -> str:
return "email_to_gravatar"
@@ -29,6 +33,7 @@ class EmailToGravatarEnricher(Enricher):
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
self.email_gravatar_mapping = []
for email in data:
try:
@@ -72,6 +77,7 @@ class EmailToGravatarEnricher(Enricher):
gravatar = Gravatar(**gravatar_data)
results.append(gravatar)
self.email_gravatar_mapping.append((email, gravatar))
except Exception as e:
Logger.error(
@@ -85,13 +91,12 @@ class EmailToGravatarEnricher(Enricher):
return results
def postprocess(self, results: List[OutputType], original_input: List[InputType]) -> List[OutputType]:
for email_obj, gravatar_obj in zip(original_input, results):
for email_obj, gravatar_obj in self.email_gravatar_mapping:
if not self._graph_service:
continue
# Create email node
self.create_node(email_obj)
# Create gravatar node
gravatar_key = f"{email_obj.email}_{self.sketch_id}"
self.create_node(gravatar_obj)
# Create relationship between email and gravatar
self.create_relationship(email_obj, gravatar_obj, "HAS_GRAVATAR")

View File

@@ -32,6 +32,7 @@ class IpToAsnEnricher(Enricher):
vault=vault,
params=params,
)
self.ip_asn_mapping: List[tuple[Ip, ASN]] = []
@classmethod
def required_params(cls) -> bool:
@@ -63,6 +64,7 @@ class IpToAsnEnricher(Enricher):
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
self.ip_asn_mapping = []
asnmap = AsnmapTool()
# Retrieve API key from vault or environment
@@ -84,6 +86,7 @@ class IpToAsnEnricher(Enricher):
description=asn_data.get("as_name", ""),
)
results.append(asn)
self.ip_asn_mapping.append((ip, asn))
Logger.info(
self.sketch_id,
{
@@ -110,8 +113,8 @@ class IpToAsnEnricher(Enricher):
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
# Create Neo4j relationships between IPs and their corresponding ASNs
if input_data and self._graph_service:
for ip, asn in zip(input_data, results):
if self._graph_service:
for ip, asn in self.ip_asn_mapping:
# Create IP node
self.create_node(ip)
# Create ASN node

View File

@@ -0,0 +1,163 @@
import json
import os
import requests
from typing import Any, Dict, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.ip import Ip
from flowsint_types.individual import Individual
from flowsint_core.core.logger import Logger
@flowsint_enricher
class IpToIntelligence(Enricher):
"""[DeHashed] Get breach intelligence from an IP address."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Ip
OutputType = Individual
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "DEHASHED_API_KEY", # Get your API key from dehashed.com/api
"type": "vaultSecret",
"description": "Your Dehashed API key.",
"required": True,
}
]
@classmethod
def name(cls) -> str:
return "ip_to_intelligence"
@classmethod
def category(cls) -> str:
return "Ip"
@classmethod
def key(cls) -> str:
return "address"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
api_key = self.get_secret("DEHASHED_API_KEY", os.getenv("DEHASHED_API_KEY"))
for ip in data:
try:
headers = {'Dehashed-Api-Key': api_key, 'Content-Type': 'application/json'}
raw_data = json.dumps({"query": f"ip_address:{ip.address}"})
api_request = requests.post(f'https://api.dehashed.com/v2/search', data=raw_data, headers=headers, timeout=30)
if api_request.status_code != 200:
if api_request.status_code == 401:
Logger.error(
self.sketch_id,
{
"message": f"(IpToIntelligence) Enricher failed for the IP address because API key does not have a valid subscription: '{ip.address}': {api_request.text}"
},
)
elif api_request.status_code == 403:
Logger.error(
self.sketch_id,
{
"message": f"(IpToIntelligence) Enricher failed for the IP address because request has malfunctioned (missing API_KEY): '{ip.address}': {api_request.text}"
},
)
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(IpToIntelligence) Failed to parse JSON for {ip.address}: {e}"})
continue
dehashed_entries = response_json.get("entries", [])
if not dehashed_entries:
Logger.error(
self.sketch_id,
{
"message": f"(IpToIntelligence) Enricher failed for the IP address: '{ip.address}': {api_request.text}"
},
)
continue
api_balance = response_json.get("balance")
if api_balance:
Logger.info(self.sketch_id, f'(EmailToDehashed) Your remaining API balance is {api_balance}.')
time_took = response_json.get("took")
for entry in dehashed_entries:
entry_email = entry.get("email")
entry_phone = entry.get("phone")
entry_name = entry.get("name")
entry_socialmedia = entry.get("social")
entry_ip = entry.get("ip_address")
entry_username = entry.get("username")
entry_dob = entry.get("dob")
results.append(
Individual(
full_name=entry_name[0] if entry_name else None,
birth_date=entry_dob[0] if entry_dob else None,
email_addresses=entry_email if entry_email else None,
phone_numbers=entry_phone if entry_phone else None,
social_media_profiles=entry_socialmedia if entry_socialmedia else None,
ip_addresses=entry_ip if entry_ip else None,
usernames=entry_username if entry_username else None
)
)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(IpToIntelligence) Exception while querying {ip.address}: {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
if input_data and self._graph_service:
for ip in input_data:
for individual in results:
self.create_node(ip)
self.create_node(individual)
# Create relationship
self.create_relationship(ip, individual, "CONNECTION_WITH")
self.log_graph_message(
f"(IpToIntelligence) Successfully found individual connections with {ip.address}."
)
return results
# Make types available at module level for easy access
InputType = IpToIntelligence.InputType
OutputType = IpToIntelligence.OutputType

View File

@@ -0,0 +1,158 @@
import json
import os
import requests
import datetime
from typing import Any, Dict, List, Optional, Union
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.ip import Ip
from flowsint_types.risk_profile import RiskProfile
from flowsint_core.utils import is_valid_ip
from flowsint_core.core.logger import Logger
@flowsint_enricher
class IpToFraudScore(Enricher):
"""[Scamalytics] Get fraud score for an IP address."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Ip
OutputType = RiskProfile
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
self.ip_risk_mapping: List[tuple[Ip, RiskProfile]] = []
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "SCAMLYTICS_USERNAME",
"type": "vaultSecret",
"description": "The Scamalytics Username.",
"required": True,
},
{
"name": "SCAMLYTICS_API_KEY",
"type": "vaultSecret",
"description": "The Scamalytics API key for IP-based lookups.",
"required": True,
},
]
@classmethod
def name(cls) -> str:
return "ip_to_fraudscore"
@classmethod
def category(cls) -> str:
return "Ip"
@classmethod
def key(cls) -> str:
return "address"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
self.ip_risk_mapping = []
api_username = self.get_secret("SCAMLYTICS_USERNAME", os.getenv("SCAMLYTICS_USERNAME"))
api_key = self.get_secret("SCAMLYTICS_API_KEY", os.getenv("SCAMLYTICS_API_KEY"))
for ip in data:
try:
api_request = requests.get(f'https://api12.scamalytics.com/v3/{api_username}/?key={api_key}&ip={ip.address}', timeout=30)
if api_request.status_code != 200:
Logger.error(
self.sketch_id,
{
"message": f"(IpToFraudScore) Enricher failed for the IP address: '{ip.address}': {api_request.text}"
},
)
continue
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(IpToFraudScore) Failed to parse JSON for {ip.address}: {api_request.text}"})
continue
scamalytics_info = response_json.get("scamalytics", {})
if scamalytics_info.get("status") != "ok":
Logger.error(
self.sketch_id,
{
"message": f"(IpToFraudScore) Request to Scamlytics failed (status): '{response_json['status']}'."
},
)
continue
fraud_score = scamalytics_info.get("scamalytics_score")
fraud_risk = scamalytics_info.get("scamalytics_risk")
proxy_flags = []
proxy_detectors = {
"is_datacenter": "Datacenter",
"is_vpn": "VPN",
"is_apple_icloud_private_relay": "iCloud Private Relay",
"is_amazon_aws": "Amazon AWS",
"is_google": "Google"
}
proxy_info = scamalytics_info.get("scamalytics_proxy", {})
for key, label in proxy_detectors.items():
if proxy_info.get(key):
proxy_flags.append(label)
risk_profile = RiskProfile(
entity_id=ip.address, entity_type="IP address", overall_risk_score=fraud_score, risk_level=fraud_risk, last_updated=datetime.datetime.utcnow().isoformat(), risk_factors=proxy_flags, source="Scamalytics"
)
results.append(risk_profile)
self.ip_risk_mapping.append((ip, risk_profile))
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(IpToFraudScore) Exception while querying {ip.address}: {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
for ip, risk_profile in self.ip_risk_mapping:
self.create_node(ip)
self.create_node(risk_profile)
# Create relationship
self.create_relationship(ip, risk_profile, "HAS_RISK_PROFILE")
self.log_graph_message(
f"(IpToFraudScore) IP {ip.address} has risk level of {risk_profile.risk_level}"
)
return results
# Make types available at module level for easy access
InputType = IpToFraudScore.InputType
OutputType = IpToFraudScore.OutputType

View File

@@ -0,0 +1,120 @@
import requests
import os
from typing import Dict, Any, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.logger import Logger
from flowsint_types.phone import Phone
@flowsint_enricher
class PhoneToCarrier(Enricher):
"""[veriphone] Looks up phone number/s carrier using veriphone API."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Phone
OutputType = Phone
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "VERIPHONE_API_KEY",
"type": "vaultSecret",
"description": "The veriphone API key for phone number carrier lookups.",
"required": True,
},
]
@classmethod
def name(cls) -> str:
return "phone_to_carrier"
@classmethod
def category(cls) -> str:
return "phones"
@classmethod
def key(cls) -> str:
return "number"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
api_key = self.get_secret("VERIPHONE_API_KEY", os.getenv("VERIPHONE_API_KEY"))
Logger.debug(self.sketch_id, {"message": f"API key present: {bool(api_key)}"})
for phone_obj in data:
phonenum_value = phone_obj.number
try:
api_request = requests.get(f'https://api.veriphone.io/v2/verify?key={api_key}&phone={phonenum_value}', timeout=30)
if api_request.status_code != 200:
Logger.error(
self.sketch_id,
{
"message": f"(PhoneToCarrier) Enricher failed for the phone number: '{phonenum_value}': {api_request.text}"
},
)
continue
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(PhoneToCarrier) Failed to parse JSON for phone number '{phonenum_value}'': {api_request.text}"})
continue
carrier = response_json.get("carrier")
if carrier:
results.append({
"number": phonenum_value,
"carrier": carrier
})
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(PhoneToCarrier) Exception while querying phone number '{phonenum_value}'': {e}"})
return results
def postprocess(self, results: List[OutputType], original_input: List[InputType]) -> List[OutputType]:
if not self._graph_service:
return results
for result in results:
number = result["number"]
carrier = result["carrier"]
for phone_obj in original_input:
if phone_obj.number == number:
phone_obj.carrier = carrier
self.create_node(phone_obj)
self.log_graph_message(
f"(PhoneToCarrier) Found carrier ({carrier}) for the phone number '{number}'."
)
break
return results
# Make types available at module level for easy access
InputType = PhoneToCarrier.InputType
OutputType = PhoneToCarrier.OutputType

View File

@@ -34,9 +34,8 @@ class IgnorantEnricher(Enricher):
results: List[OutputType] = []
for phone_obj in data:
try:
cleaned_phone = is_valid_number(phone_obj.number)
if cleaned_phone:
result = await self._perform_ignorant_research(cleaned_phone)
if is_valid_number(phone_obj.number):
result = await self._perform_ignorant_research(phone_obj.number)
results.append(result)
else:
results.append({"number": phone_obj.number, "error": "Invalid phone number"})

View File

@@ -0,0 +1,161 @@
import json
import os
import requests
from typing import Any, Dict, List, Optional
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_types.username import Username
from flowsint_types.individual import Individual
from flowsint_core.core.logger import Logger
@flowsint_enricher
class UsernameToDehashed(Enricher):
"""[DeHashed] Get breach intelligence from a username."""
# Define types as class attributes - base class handles schema generation automatically
InputType = Username
OutputType = Individual
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
# @classmethod
# def required_params(cls) -> bool:
# return True
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
"""Declare required parameters for this enricher"""
return [
{
"name": "DEHASHED_API_KEY", # Get your API key from dehashed.com/api
"type": "vaultSecret",
"description": "Your Dehashed API key.",
"required": True,
}
]
@classmethod
def name(cls) -> str:
return "username_to_dehashed"
@classmethod
def category(cls) -> str:
return "social"
@classmethod
def key(cls) -> str:
return "username"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results: List[OutputType] = []
api_key = self.get_secret("DEHASHED_API_KEY", os.getenv("DEHASHED_API_KEY"))
for username in data:
try:
headers = {'Dehashed-Api-Key': api_key, 'Content-Type': 'application/json'}
raw_data = json.dumps({"query": f"username:{username.value}"})
api_request = requests.post(f'https://api.dehashed.com/v2/search', data=raw_data, headers=headers, timeout=30)
if api_request.status_code != 200:
if api_request.status_code == 401:
Logger.error(
self.sketch_id,
{
"message": f"(UsernameToDehashed) Enricher failed for the username because API key does not have a valid subscription: '{username.value}': {api_request.text}"
},
)
elif api_request.status_code == 403:
Logger.error(
self.sketch_id,
{
"message": f"(UsernameToDehashed) Enricher failed for the username because request has malfunctioned (missing API_KEY): '{username.value}': {api_request.text}"
},
)
try:
response_json = api_request.json()
except Exception as e:
Logger.error(None, {"message": f"(UsernameToDehashed) Failed to parse JSON for {username.value}: {e}"})
continue
dehashed_entries = response_json.get("entries", [])
if not dehashed_entries:
Logger.error(
self.sketch_id,
{
"message": f"(UsernameToDehashed) failed for the username: '{username.value}': {api_request.text}"
},
)
continue
api_balance = response_json.get("balance")
if api_balance:
Logger.info(self.sketch_id, f'(UsernameToDehashed) Your remaining API balance is {api_balance}.')
for entry in dehashed_entries:
entry_email = entry.get("email")
entry_phone = entry.get("phone")
entry_name = entry.get("name")
entry_socialmedia = entry.get("social")
entry_ip = entry.get("ip_address")
entry_username = entry.get("username")
entry_dob = entry.get("dob")
results.append(
Individual(
full_name=entry_name[0] if entry_name else None,
birth_date=entry_dob[0] if entry_dob else None,
email_addresses=entry_email if entry_email else None,
phone_numbers=entry_phone if entry_phone else None,
social_media_profiles=entry_socialmedia if entry_socialmedia else None,
ip_addresses=entry_ip if entry_ip else None,
usernames=entry_username if entry_username else None
)
)
except Exception as e:
Logger.error(self.sketch_id, {"message": f"(UsernameToDehashed) Exception while querying username {username.value}: {e}"})
return results
def postprocess(
self, results: List[OutputType], input_data: List[InputType] = None
) -> List[OutputType]:
if not self._graph_service:
return results
if input_data and self._graph_service:
for username in input_data:
for individual in results:
self.create_node(username)
self.create_node(individual)
# Create relationship
self.create_relationship(username, individual, "CONNECTION_WITH")
self.log_graph_message(
f"(UsernameToDehashed) Successfully found individual connections with {username.value}. "
)
return results
# Make types available at module level for easy access
InputType = UsernameToDehashed.InputType
OutputType = UsernameToDehashed.OutputType

View File

@@ -53,7 +53,7 @@ class MaigretEnricher(Enricher):
return results
try:
with open(output_file, "r") as f:
with open(output_file, "r", encoding="utf-8") as f:
raw_data = json.load(f)
except Exception as e:
Logger.error(

View File

@@ -63,7 +63,7 @@ class SherlockEnricher(Enricher):
continue
found_accounts = {}
with open(output_file, "r") as f:
with open(output_file, "r", encoding="utf-8") as f:
for line in f:
line = line.strip()
if line and line.startswith("http"):

View File

@@ -155,7 +155,7 @@ def get_root_domain(domain: str) -> str:
return domain
def is_valid_number(phone: str, region: str = "FR") -> None:
def is_valid_number(phone: str, region: str = "FR") -> bool:
"""
Validates a phone number. Raises InvalidPhoneNumberError if invalid.
- `region` should be ISO 3166-1 alpha-2 country code (e.g., 'FR' for France)
@@ -167,6 +167,8 @@ def is_valid_number(phone: str, region: str = "FR") -> None:
except NumberParseException:
return False
return True
def parse_asn(asn: str) -> int:
if not is_valid_asn(asn):

View File

@@ -0,0 +1,127 @@
from typing import List, Union, Optional, Dict, Any
from flowsint_core.core.enricher_base import Enricher
from flowsint_enrichers.registry import flowsint_enricher
from flowsint_core.core.logger import Logger
from flowsint_types.website import Website
import requests
import os
@flowsint_enricher
class WebsiteToSubdomains(Enricher):
"""[c99.nl] Performs an automated scan to find subdomains of the given domain."""
InputType = Website
OutputType = Website
def __init__(
self,
sketch_id: Optional[str] = None,
scan_id: Optional[str] = None,
vault=None,
params: Optional[Dict[str, Any]] = None,
):
super().__init__(
sketch_id=sketch_id,
scan_id=scan_id,
params_schema=self.get_params_schema(),
vault=vault,
params=params,
)
@classmethod
def get_params_schema(cls) -> List[Dict[str, Any]]:
return [
{
"name": "C99_API_KEY",
"type": "vaultSecret",
"description": "Your C99.nl API key",
"required": True,
},
]
@classmethod
def name(cls) -> str:
return "website_to_subdomains"
@classmethod
def category(cls) -> str:
return "Website"
@classmethod
def key(cls) -> str:
return "url"
async def scan(self, data: List[InputType]) -> List[OutputType]:
results = []
api_key = self.get_secret("C99_API_KEY", os.getenv("C99_API_KEY"))
for website in data:
try:
api_request = requests.get(f'https://api.c99.nl/subdomainfinder?key={api_key}&domain={website.url}', timeout=30)
if api_request.status_code != 200:
Logger.error(
self.sketch_id,
{
"message": f"(WebsiteToSubdomains) Enricher failed for '{website.url}': {api_request.text}"
},
)
continue
response_json = api_request.json()
for subdomain in response_json.get("subdomains", []):
url = subdomain.get("subdomain")
if website.url not in [f'http://{url}', f'https://{url}', f'http://www.{url}', f'https://www.{url}']:
ip = subdomain.get("ip")
cloudflare = []
if subdomain.get("cloudflare") is True:
cloudflare.append("Cloudflare")
else:
cloudflare = None
results.append(
Website(
url=f"http://{url}", description=f"IP address: {ip}", technologies=cloudflare
)
)
except Exception as e:
Logger.error(
self.sketch_id,
{
"message": f"(WebsiteToSubdomains) Failed to run enricher for {website.url}: {e}"
},
)
return results
def postprocess(self, results: List[OutputType], original_input: List[InputType]) -> List[OutputType]:
if not self._graph_service:
return results
for subdomain in results:
try:
self.create_node(subdomain)
for url in original_input:
self.create_node(url)
self.create_relationship(url, subdomain, "IS_SUBDOMAIN")
self.log_graph_message(
f"(WebsiteToSubdomains) Found {url.url}'s subdomain - '{subdomain.url}'"
)
except Exception as e:
Logger.error(
self.sketch_id,
{
"message": f"(WebsiteToSubdomains) relationship error: {e}"
},
)
return results
InputType = WebsiteToSubdomains.InputType
OutputType = WebsiteToSubdomains.OutputType

View File

@@ -13,8 +13,8 @@ dependencies = [
[dependency-groups]
dev = [
"pytest>=8.4.2,<9.0.0",
"black>=25.0,<26.0",
"pytest>=9.0.3,<10.0.0",
"black>=26.3.1,<27.0",
"isort>=6.0,<7.0",
"flake8>=7.0,<8.0",
"mypy>=1.17,<2.0",

View File

@@ -1,6 +1,6 @@
from typing import Optional
from pydantic import BaseModel, Field
from pydantic import BaseModel, ConfigDict, Field
class FlowsintType(BaseModel):
@@ -24,6 +24,5 @@ class FlowsintType(BaseModel):
title="Label",
)
# Allow extra keys to support for additional properties from user
class ConfigDict:
extra = "allow"
# Allow extra keys to support additional properties from the user
model_config = ConfigDict(extra="allow")

View File

@@ -10,7 +10,7 @@ dependencies = [
"flowsint-enrichers",
"flowsint-api",
"pydantic[email]>=2.11.7,<3.0.0",
"python-multipart>=0.0.20,<0.0.21",
"python-multipart>=0.0.27,<0.1.0",
"docker>=7.1.0,<8.0.0",
]

2596
uv.lock generated

File diff suppressed because it is too large Load Diff

218
yarn.lock
View File

@@ -956,6 +956,11 @@
pbf "^4.0.1"
supercluster "^8.0.1"
"@microsoft/fetch-event-source@^2.0.1":
version "2.0.1"
resolved "https://registry.yarnpkg.com/@microsoft/fetch-event-source/-/fetch-event-source-2.0.1.tgz#9ceecc94b49fbaa15666e38ae8587f64acce007d"
integrity sha512-W6CLUJ2eBMw3Rec70qrsEW0jOm/3twwJv21mrmj2yORiaVmVYGS4sSS5yUwvQc1ZlDLYGPnClVWmUUMagKNsfA==
"@monaco-editor/loader@^1.5.0":
version "1.7.0"
resolved "https://registry.npmjs.org/@monaco-editor/loader/-/loader-1.7.0.tgz"
@@ -2580,6 +2585,65 @@
"@types/babel__core" "^7.20.5"
react-refresh "^0.17.0"
"@vitest/expect@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/expect/-/expect-2.1.9.tgz#b566ea20d58ea6578d8dc37040d6c1a47ebe5ff8"
integrity sha512-UJCIkTBenHeKT1TTlKMJWy1laZewsRIzYighyYiJKZreqtdxSos/S1t+ktRMQWu2CKqaarrkeszJx1cgC5tGZw==
dependencies:
"@vitest/spy" "2.1.9"
"@vitest/utils" "2.1.9"
chai "^5.1.2"
tinyrainbow "^1.2.0"
"@vitest/mocker@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/mocker/-/mocker-2.1.9.tgz#36243b27351ca8f4d0bbc4ef91594ffd2dc25ef5"
integrity sha512-tVL6uJgoUdi6icpxmdrn5YNo3g3Dxv+IHJBr0GXHaEdTcw3F+cPKnsXFhli6nO+f/6SDKPHEK1UN+k+TQv0Ehg==
dependencies:
"@vitest/spy" "2.1.9"
estree-walker "^3.0.3"
magic-string "^0.30.12"
"@vitest/pretty-format@2.1.9", "@vitest/pretty-format@^2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/pretty-format/-/pretty-format-2.1.9.tgz#434ff2f7611689f9ce70cd7d567eceb883653fdf"
integrity sha512-KhRIdGV2U9HOUzxfiHmY8IFHTdqtOhIzCpd8WRdJiE7D/HUcZVD0EgQCVjm+Q9gkUXWgBvMmTtZgIG48wq7sOQ==
dependencies:
tinyrainbow "^1.2.0"
"@vitest/runner@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/runner/-/runner-2.1.9.tgz#cc18148d2d797fd1fd5908d1f1851d01459be2f6"
integrity sha512-ZXSSqTFIrzduD63btIfEyOmNcBmQvgOVsPNPe0jYtESiXkhd8u2erDLnMxmGrDCwHCCHE7hxwRDCT3pt0esT4g==
dependencies:
"@vitest/utils" "2.1.9"
pathe "^1.1.2"
"@vitest/snapshot@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/snapshot/-/snapshot-2.1.9.tgz#24260b93f798afb102e2dcbd7e61c6dfa118df91"
integrity sha512-oBO82rEjsxLNJincVhLhaxxZdEtV0EFHMK5Kmx5sJ6H9L183dHECjiefOAdnqpIgT5eZwT04PoggUnW88vOBNQ==
dependencies:
"@vitest/pretty-format" "2.1.9"
magic-string "^0.30.12"
pathe "^1.1.2"
"@vitest/spy@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/spy/-/spy-2.1.9.tgz#cb28538c5039d09818b8bfa8edb4043c94727c60"
integrity sha512-E1B35FwzXXTs9FHNK6bDszs7mtydNi5MIfUWpceJ8Xbfb1gBMscAnwLbEu+B44ed6W3XjL9/ehLPHR1fkf1KLQ==
dependencies:
tinyspy "^3.0.2"
"@vitest/utils@2.1.9":
version "2.1.9"
resolved "https://registry.yarnpkg.com/@vitest/utils/-/utils-2.1.9.tgz#4f2486de8a54acf7ecbf2c5c24ad7994a680a6c1"
integrity sha512-v0psaMSkNJ3A2NMrUEHFRzJtDPFn+/VWZ5WxImB21T9fjucJRmS7xCS3ppEnARb9y11OAzaD+P2Ps+b+BGX5iQ==
dependencies:
"@vitest/pretty-format" "2.1.9"
loupe "^3.1.2"
tinyrainbow "^1.2.0"
"@webgpu/types@^0.1.69":
version "0.1.69"
resolved "https://registry.npmjs.org/@webgpu/types/-/types-0.1.69.tgz"
@@ -2831,6 +2895,11 @@ arrify@^1.0.1:
resolved "https://registry.npmjs.org/arrify/-/arrify-1.0.1.tgz"
integrity sha512-3CYzex9M9FGQjCGMGyi6/31c8GJbgb0qGyrx5HWxPd0aCwh4cB2YjMb2Xf9UuoogrMrlO9cTqnB5rI5GHZTcUA==
assertion-error@^2.0.1:
version "2.0.1"
resolved "https://registry.yarnpkg.com/assertion-error/-/assertion-error-2.0.1.tgz#f641a196b335690b1070bf00b6e7593fec190bf7"
integrity sha512-Izi8RQcffqCeNVgFigKli1ssklIbpHnCYc6AknXGYoB6grJqyeby7jv12JUQgmTAnIDnbck1uxksT4dzN3PWBA==
assign-symbols@^1.0.0:
version "1.0.0"
resolved "https://registry.npmjs.org/assign-symbols/-/assign-symbols-1.0.0.tgz"
@@ -2990,6 +3059,11 @@ bytewise@^1.1.0:
bytewise-core "^1.2.2"
typewise "^1.0.3"
cac@^6.7.14:
version "6.7.14"
resolved "https://registry.yarnpkg.com/cac/-/cac-6.7.14.tgz#804e1e6f506ee363cb0e3ccbb09cad5dd9870959"
integrity sha512-b6Ilus+c3RrdDk+JhLKUAQfzzgLEPy6wcXqS7f/xe1EETvsDP6GORG7SFuOs6cID5YkqchW/LXZbX5bc8j7ZcQ==
cachedir@2.3.0:
version "2.3.0"
resolved "https://registry.npmjs.org/cachedir/-/cachedir-2.3.0.tgz"
@@ -3057,6 +3131,17 @@ ccount@^2.0.0:
resolved "https://registry.npmjs.org/ccount/-/ccount-2.0.1.tgz"
integrity sha512-eyrF0jiFpY+3drT6383f1qhkbGsLSifNAjA61IUjZjmLCWjItY6LB9ft9YhoDgwfmclB2zhu51Lc7+95b8NRAg==
chai@^5.1.2:
version "5.3.3"
resolved "https://registry.yarnpkg.com/chai/-/chai-5.3.3.tgz#dd3da955e270916a4bd3f625f4b919996ada7e06"
integrity sha512-4zNhdJD/iOjSH0A05ea+Ke6MU5mmpQcbQsSOkgdaUMJ9zTlDTD/GYlwohmIE2u0gaxHYiVHEn1Fw9mZ/ktJWgw==
dependencies:
assertion-error "^2.0.1"
check-error "^2.1.1"
deep-eql "^5.0.1"
loupe "^3.1.0"
pathval "^2.0.0"
chalk@^2.4.1, chalk@^2.4.2:
version "2.4.2"
resolved "https://registry.npmjs.org/chalk/-/chalk-2.4.2.tgz"
@@ -3119,6 +3204,11 @@ chardet@^0.7.0:
resolved "https://registry.npmjs.org/chardet/-/chardet-0.7.0.tgz"
integrity sha512-mT8iDcrh03qDGRRmoA2hmBJnxpllMR+0/0qlzjqZES6NdiWDcZkCNAk4rPFZ9Q85r27unkiNNg8ZOiwZXBHwcA==
check-error@^2.1.1:
version "2.1.3"
resolved "https://registry.yarnpkg.com/check-error/-/check-error-2.1.3.tgz#2427361117b70cca8dc89680ead32b157019caf5"
integrity sha512-PAJdDJusoxnwm1VwW07VWwUN1sl7smmC3OKggvndJFadxxDRyFJBX/ggnu/KE4kQAB7a3Dp8f/YXC1FlUprWmA==
chokidar@^3.6.0:
version "3.6.0"
resolved "https://registry.npmjs.org/chokidar/-/chokidar-3.6.0.tgz"
@@ -3862,7 +3952,7 @@ dateformat@^3.0.0:
resolved "https://registry.npmjs.org/dateformat/-/dateformat-3.0.3.tgz"
integrity sha512-jyCETtSl3VMZMWeRo7iY1FL19ges1t55hMo5yaam4Jrsm5EPL89UQkoQRyiI+Yf4k8r2ZpdngkV8hr1lIdjb3Q==
debug@^4.0.0, debug@^4.1.0, debug@^4.3.1, debug@^4.3.2:
debug@^4.0.0, debug@^4.1.0, debug@^4.3.1, debug@^4.3.2, debug@^4.3.7:
version "4.4.3"
resolved "https://registry.npmjs.org/debug/-/debug-4.4.3.tgz"
integrity sha512-RGwwWnwQvkVfavKVt22FGLw+xYSdzARwm0ru6DhTVA3umU5hZc28V3kO4stgYryrTlLpuvgI9GiijltAjNbcqA==
@@ -3904,6 +3994,11 @@ deep-diff@^1.0.2:
resolved "https://registry.npmjs.org/deep-diff/-/deep-diff-1.0.2.tgz"
integrity sha512-aWS3UIVH+NPGCD1kki+DCU9Dua032iSsO43LqQpcs4R3+dVv7tX0qBGjiVHJHjplsoUM2XRO/KB92glqc68awg==
deep-eql@^5.0.1:
version "5.0.2"
resolved "https://registry.yarnpkg.com/deep-eql/-/deep-eql-5.0.2.tgz#4b756d8d770a9257300825d52a2c2cff99c3a341"
integrity sha512-h5k/5U50IJJFpzfL6nO9jaaumfjO/f2NjK/oYB2Djzm4p9L+3T9qWpZqZ2hAbLPuuYq9wrU08WQyBTL5GbPk5Q==
deep-is@^0.1.3:
version "0.1.4"
resolved "https://registry.npmjs.org/deep-is/-/deep-is-0.1.4.tgz"
@@ -4208,6 +4303,11 @@ es-iterator-helpers@^1.2.1:
iterator.prototype "^1.1.4"
safe-array-concat "^1.1.3"
es-module-lexer@^1.5.4:
version "1.7.0"
resolved "https://registry.yarnpkg.com/es-module-lexer/-/es-module-lexer-1.7.0.tgz#9159601561880a85f2734560a9099b2c31e5372a"
integrity sha512-jEQoCwk8hyb2AZziIOLhDqpm5+2ww5uIE6lkO/6jcOCusfk6LhMHpXXfBLXTZ7Ydyt0j4VoUQv6uGNYbdW+kBA==
es-object-atoms@^1.0.0, es-object-atoms@^1.1.1:
version "1.1.1"
resolved "https://registry.npmjs.org/es-object-atoms/-/es-object-atoms-1.1.1.tgz"
@@ -4441,6 +4541,13 @@ estree-util-is-identifier-name@^3.0.0:
resolved "https://registry.npmjs.org/estree-util-is-identifier-name/-/estree-util-is-identifier-name-3.0.0.tgz"
integrity sha512-hFtqIDZTIUZ9BXLb8y4pYGyk6+wekIivNVTcmvk8NoOh+VeRn5y6cEHzbURrWbfp1fIqdVipilzj+lfaadNZmg==
estree-walker@^3.0.3:
version "3.0.3"
resolved "https://registry.yarnpkg.com/estree-walker/-/estree-walker-3.0.3.tgz#67c3e549ec402a487b4fc193d1953a524752340d"
integrity sha512-7RUKfXgSMMkzt6ZuXmqapOurLGPPfgj6l9uRZ7lRGolvk0y2yocc35LdcxKC5PQZdn2DMqioAQ2NoWcrTKmm6g==
dependencies:
"@types/estree" "^1.0.0"
esutils@^2.0.2:
version "2.0.3"
resolved "https://registry.npmjs.org/esutils/-/esutils-2.0.3.tgz"
@@ -4468,6 +4575,11 @@ expand-tilde@^2.0.0, expand-tilde@^2.0.2:
dependencies:
homedir-polyfill "^1.0.1"
expect-type@^1.1.0:
version "1.3.0"
resolved "https://registry.yarnpkg.com/expect-type/-/expect-type-1.3.0.tgz#0d58ed361877a31bbc4dd6cf71bbfef7faf6bd68"
integrity sha512-knvyeauYhqjOYvQ66MznSMs83wmHrCycNEN6Ao+2AeYEfxUIkuiVxdEa1qlGEPK+We3n0THiDciYSsCcgW/DoA==
extend-shallow@^2.0.1:
version "2.0.1"
resolved "https://registry.npmjs.org/extend-shallow/-/extend-shallow-2.0.1.tgz"
@@ -5984,6 +6096,11 @@ loose-envify@^1.4.0:
dependencies:
js-tokens "^3.0.0 || ^4.0.0"
loupe@^3.1.0, loupe@^3.1.2:
version "3.2.1"
resolved "https://registry.yarnpkg.com/loupe/-/loupe-3.2.1.tgz#0095cf56dc5b7a9a7c08ff5b1a8796ec8ad17e76"
integrity sha512-CdzqowRJCeLU72bHvWqwRBBlLcMEtIvGrlvef74kMnV2AolS9Y8xUv1I0U/MNAWMhBlKIoyuEgoJ0t/bbwHbLQ==
lowlight@^1.17.0:
version "1.20.0"
resolved "https://registry.npmjs.org/lowlight/-/lowlight-1.20.0.tgz"
@@ -6020,7 +6137,7 @@ lucide-react@^0.511.0:
resolved "https://registry.npmjs.org/lucide-react/-/lucide-react-0.511.0.tgz"
integrity sha512-VK5a2ydJ7xm8GvBeKLS9mu1pVK6ucef9780JVUjw6bAjJL/QXnd4Y0p7SPeOUMC27YhzNCZvm5d/QX0Tp3rc0w==
magic-string@^0.30.19:
magic-string@^0.30.12, magic-string@^0.30.19:
version "0.30.21"
resolved "https://registry.npmjs.org/magic-string/-/magic-string-0.30.21.tgz"
integrity sha512-vd2F4YUyEXKGcLHoq+TEyCjxueSeHnFxyyjNp80yg0XV4vUhnDer/lvvlqM/arB5bXQN5K2/3oinyCRyx8T2CQ==
@@ -7026,11 +7143,21 @@ path-type@^3.0.0:
dependencies:
pify "^3.0.0"
pathe@^1.1.2:
version "1.1.2"
resolved "https://registry.yarnpkg.com/pathe/-/pathe-1.1.2.tgz#6c4cb47a945692e48a1ddd6e4094d170516437ec"
integrity sha512-whLdWMYL2TwI08hn8/ZqAbrVemu0LNaNNJZX73O6qaIdCTfXutsLhMkjdENX0qhsQ9uIimo4/aQOmXkoon2nDQ==
pathe@^2.0.3:
version "2.0.3"
resolved "https://registry.npmjs.org/pathe/-/pathe-2.0.3.tgz"
integrity sha512-WUjGcAqP1gQacoQe+OBJsFA7Ld4DyXuUIjZ5cc75cLHvJ7dtNsTugphxIADwspS+AraAUePCKrSVtPLFj/F88w==
pathval@^2.0.0:
version "2.0.1"
resolved "https://registry.yarnpkg.com/pathval/-/pathval-2.0.1.tgz#8855c5a2899af072d6ac05d11e46045ad0dc605d"
integrity sha512-//nshmD55c46FuFw26xV/xFAaB5HF9Xdap7HJBBnrKdAd6/GxDBaNA1870O79+9ueg61cZLSVc+OaFlfmObYVQ==
pbf@^4.0.1:
version "4.0.1"
resolved "https://registry.npmjs.org/pbf/-/pbf-4.0.1.tgz"
@@ -8041,6 +8168,11 @@ side-channel@^1.1.0:
side-channel-map "^1.0.1"
side-channel-weakmap "^1.0.2"
siginfo@^2.0.0:
version "2.0.0"
resolved "https://registry.yarnpkg.com/siginfo/-/siginfo-2.0.0.tgz#32e76c70b79724e3bb567cb9d543eb858ccfaf30"
integrity sha512-ybx0WO1/8bSBLEWXZvEd7gMW3Sn3JFlW3TvX1nREbDLRNQNaeNN8WK0meBwPdAaOI7TtRRRJn/Es1zhrrCHu7g==
signal-exit@^3.0.2:
version "3.0.7"
resolved "https://registry.npmjs.org/signal-exit/-/signal-exit-3.0.7.tgz"
@@ -8150,6 +8282,11 @@ split@^1.0.0:
dependencies:
through "2"
stackback@0.0.2:
version "0.0.2"
resolved "https://registry.yarnpkg.com/stackback/-/stackback-0.0.2.tgz#1ac8a0d9483848d1695e418b6d031a3c3ce68e3b"
integrity sha512-1XMJE5fQo1jGH6Y/7ebnwPOBEkIEnT4QF32d5R1+VXdXveM0IBMJt8zfaxX1P3QhVwrYe+576+jkANtSS2mBbw==
standard-version@^9.5.0:
version "9.5.0"
resolved "https://registry.npmjs.org/standard-version/-/standard-version-9.5.0.tgz"
@@ -8175,6 +8312,11 @@ state-local@^1.0.6:
resolved "https://registry.npmjs.org/state-local/-/state-local-1.0.7.tgz"
integrity sha512-HTEHMNieakEnoe33shBYcZ7NX83ACUjCu8c40iOGEZsngj9zRnkqS9j1pqQPXwobB0ZcVTk27REb7COQ0UR59w==
std-env@^3.8.0:
version "3.10.0"
resolved "https://registry.yarnpkg.com/std-env/-/std-env-3.10.0.tgz#d810b27e3a073047b2b5e40034881f5ea6f9c83b"
integrity sha512-5GS12FdOZNliM5mAOxFRg7Ir0pWz8MdpYm6AY6VPkGpbA7ZzmbzNcBJQ0GPvvyWgcY7QAhCgf9Uy89I03faLkg==
stop-iteration-iterator@^1.1.0:
version "1.1.0"
resolved "https://registry.npmjs.org/stop-iteration-iterator/-/stop-iteration-iterator-1.1.0.tgz"
@@ -8430,11 +8572,21 @@ tiny-warning@^1.0.3:
resolved "https://registry.npmjs.org/tiny-warning/-/tiny-warning-1.0.3.tgz"
integrity sha512-lBN9zLN/oAf68o3zNXYrdCt1kP8WsiGW8Oo2ka41b2IM5JL/S1CTyX1rW0mb/zSuJun0ZUrDxx4sqvYS2FWzPA==
tinybench@^2.9.0:
version "2.9.0"
resolved "https://registry.yarnpkg.com/tinybench/-/tinybench-2.9.0.tgz#103c9f8ba6d7237a47ab6dd1dcff77251863426b"
integrity sha512-0+DUvqWMValLmha6lr4kD8iAMK1HzV0/aKnCtWb9v9641TnP/MFb7Pc2bxoxQjTXAErryXVgUOfv2YqNllqGeg==
tinycolor2@^1.6.0:
version "1.6.0"
resolved "https://registry.npmjs.org/tinycolor2/-/tinycolor2-1.6.0.tgz"
integrity sha512-XPaBkWQJdsf3pLKJV9p4qN/S+fm2Oj8AIPo1BTUhg5oxkvm9+SVEGFdhyOz7tTdUTfvxMiAs4sp6/eZO2Ew+pw==
tinyexec@^0.3.1:
version "0.3.2"
resolved "https://registry.yarnpkg.com/tinyexec/-/tinyexec-0.3.2.tgz#941794e657a85e496577995c6eef66f53f42b3d2"
integrity sha512-KQQR9yN7R5+OSwaK0XQoj22pwHoTlgYqmUscPYoknOoWCWfj/5/ABTMRi69FrKU5ffPVh5QcFikpWJI/P1ocHA==
tinyexec@^1.0.0:
version "1.0.2"
resolved "https://registry.npmjs.org/tinyexec/-/tinyexec-1.0.2.tgz"
@@ -8448,11 +8600,26 @@ tinyglobby@^0.2.15:
fdir "^6.5.0"
picomatch "^4.0.3"
tinypool@^1.0.1:
version "1.1.1"
resolved "https://registry.yarnpkg.com/tinypool/-/tinypool-1.1.1.tgz#059f2d042bd37567fbc017d3d426bdd2a2612591"
integrity sha512-Zba82s87IFq9A9XmjiX5uZA/ARWDrB03OHlq+Vw1fSdt0I+4/Kutwy8BP4Y/y/aORMo61FQ0vIb5j44vSo5Pkg==
tinyqueue@^3.0.0:
version "3.0.0"
resolved "https://registry.npmjs.org/tinyqueue/-/tinyqueue-3.0.0.tgz"
integrity sha512-gRa9gwYU3ECmQYv3lslts5hxuIa90veaEcxDYuu3QGOIAEM2mOZkVHp48ANJuu1CURtRdHKUBY5Lm1tHV+sD4g==
tinyrainbow@^1.2.0:
version "1.2.0"
resolved "https://registry.yarnpkg.com/tinyrainbow/-/tinyrainbow-1.2.0.tgz#5c57d2fc0fb3d1afd78465c33ca885d04f02abb5"
integrity sha512-weEDEq7Z5eTHPDh4xjX789+fHfF+P8boiFB+0vbWzpbnbsEr/GRaohi/uMKxg8RZMXnl1ItAi/IUHWMsjDV7kQ==
tinyspy@^3.0.2:
version "3.0.2"
resolved "https://registry.yarnpkg.com/tinyspy/-/tinyspy-3.0.2.tgz#86dd3cf3d737b15adcf17d7887c84a75201df20a"
integrity sha512-n1cw8k1k0x4pgA2+9XrOkFydTerNcJ1zWCO5Nn9scWHTD+5tp8dghT2x1uduQePZTZgd3Tupf+x9BxJjeJi77Q==
tippy.js@^6.3.7:
version "6.3.7"
resolved "https://registry.npmjs.org/tippy.js/-/tippy.js-6.3.7.tgz"
@@ -8838,7 +9005,18 @@ victory-vendor@^36.6.8:
d3-time "^3.0.0"
d3-timer "^3.0.1"
vite@^5.3.1:
vite-node@2.1.9:
version "2.1.9"
resolved "https://registry.yarnpkg.com/vite-node/-/vite-node-2.1.9.tgz#549710f76a643f1c39ef34bdb5493a944e4f895f"
integrity sha512-AM9aQ/IPrW/6ENLQg3AGY4K1N2TGZdR5e4gu/MmmR2xR3Ll1+dib+nook92g4TV3PXVyeyxdWwtaCAiUL0hMxA==
dependencies:
cac "^6.7.14"
debug "^4.3.7"
es-module-lexer "^1.5.4"
pathe "^1.1.2"
vite "^5.0.0"
vite@^5.0.0, vite@^5.3.1:
version "5.4.21"
resolved "https://registry.npmjs.org/vite/-/vite-5.4.21.tgz"
integrity sha512-o5a9xKjbtuhY6Bi5S3+HvbRERmouabWbyUcpXXUA1u+GNUKoROi9byOJ8M0nHbHYHkYICiMlqxkg1KkYmm25Sw==
@@ -8863,6 +9041,32 @@ vite@^7.1.7:
optionalDependencies:
fsevents "~2.3.3"
vitest@^2.1.9:
version "2.1.9"
resolved "https://registry.yarnpkg.com/vitest/-/vitest-2.1.9.tgz#7d01ffd07a553a51c87170b5e80fea3da7fb41e7"
integrity sha512-MSmPM9REYqDGBI8439mA4mWhV5sKmDlBKWIYbA3lRb2PTHACE0mgKwA8yQ2xq9vxDTuk4iPrECBAEW2aoFXY0Q==
dependencies:
"@vitest/expect" "2.1.9"
"@vitest/mocker" "2.1.9"
"@vitest/pretty-format" "^2.1.9"
"@vitest/runner" "2.1.9"
"@vitest/snapshot" "2.1.9"
"@vitest/spy" "2.1.9"
"@vitest/utils" "2.1.9"
chai "^5.1.2"
debug "^4.3.7"
expect-type "^1.1.0"
magic-string "^0.30.12"
pathe "^1.1.2"
std-env "^3.8.0"
tinybench "^2.9.0"
tinyexec "^0.3.1"
tinypool "^1.0.1"
tinyrainbow "^1.2.0"
vite "^5.0.0"
vite-node "2.1.9"
why-is-node-running "^2.3.0"
w3c-keyname@^2.2.0:
version "2.2.8"
resolved "https://registry.npmjs.org/w3c-keyname/-/w3c-keyname-2.2.8.tgz"
@@ -8947,6 +9151,14 @@ which@^2.0.1:
dependencies:
isexe "^2.0.0"
why-is-node-running@^2.3.0:
version "2.3.0"
resolved "https://registry.yarnpkg.com/why-is-node-running/-/why-is-node-running-2.3.0.tgz#a3f69a97107f494b3cdc3bdddd883a7d65cebf04"
integrity sha512-hUrmaWBdVDcxvYqnyh09zunKzROWjbZTiNy8dBEjkS7ehEDQibXJ7XvlmtbwuTclUiIyN+CyXQD4Vmko8fNm8w==
dependencies:
siginfo "^2.0.0"
stackback "0.0.2"
word-wrap@^1.0.3, word-wrap@^1.2.5:
version "1.2.5"
resolved "https://registry.npmjs.org/word-wrap/-/word-wrap-1.2.5.tgz"