- ArcGIS MCP Bridge
ArcGIS MCP Bridge
arcgis-mcp-bridge
100 declarative geoprocessing tools. Two isolated processes. One security floor.
A secure, local-first, asynchronous MCP server exposing ArcGIS Pro's ArcPy engine to Claude Desktop and other MCP hosts over stdio JSON-RPC.
Technical write-up: https://dev.to/muend/building-a-secure-mcp-bridge-for-arcgis-pro-and-arcpy-511g
📦 Installation
Install the official release of arcgis-mcp-bridge directly from PyPI:
# Traditional installation
pip install arcgis-mcp-bridge
# Modern, lightning-fast alternative
uv pip install arcgis-mcp-bridge
| Catalog | 100 tools · 10 verticals |
| Tests | 81 unit tests · 81/81 passing · arcpy mocked |
| Static analysis | Ruff clean · Mypy strict clean |
| Transport | JSON-RPC 2.0 over stdio |
| License | Apache-2.0 |
Why arcgis-mcp-bridge?
| Feature | arcgis-mcp-bridge | geo2004/MCP-ArcGISPro | nicogis (C#/.NET) |
|---|---|---|---|
| Tools | 100 | ~15 | ~10 |
| Dependency Sync | Deterministic (uv.lock) | Imperative (requirements.txt) | Native Nuget |
| Transport | stdio JSON-RPC | file-based IPC | Named Pipes |
| Security Architecture | Documented PathGuard sandbox | None specified / default host access | None specified / default host access |
| arcpy Isolation | Two-process architecture | Single process execution | Add-In in-process execution |
| CI (Offline Verification) | ✅ Supported | ❌ Not available | ❌ Not available |
| License | Apache-2.0 | MIT | MIT |
Highlight: Sketch → GIS Pipeline
Hand-drawn parcel boundary → photo → geodatabase feature class. ORB+RANSAC image registration, HSV ink segmentation, direct GDB commit. No manual digitizing required.
Demo coming soon. To preview the sketch-to-GIS pipeline:
- Draw a polygon on paper and photograph it.
- Ask Claude: "Use extract_sketch_to_gis to register this photo against my basemap and commit the result to my GDB."
- The feature class appears in ArcGIS Pro — no manual digitizing.
00 — Example Prompts
After health_check succeeds, talk to Claude naturally:
"Buffer all parcels in my GDB by 50 meters and save to scratch."
"List all feature classes in C:\GIS\city.gdb starting with 'road_'."
"Dissolve the neighborhoods layer by district_id."
"Run kernel density on crime_points with a 500-meter search radius."
"Calculate slope and aspect from the DEM at C:\GIS\dem.tif."
"Find the 3 nearest facilities to each incident in my network dataset."
"Check geometry on all feature classes in my GDB and repair errors."
01 — Core Architecture & Philosophy
Claude Desktop / Cursor
| JSON-RPC over stdio
v
Layer A · MCP Protocol Host
| NDJSON subprocess bridge
v
Layer B · ArcPy Worker
|
v
ArcGIS Pro / ArcPy Runtime
Layer A — Async Event-Driven Server (arcgis_mcp/server.py).
FastMCP on the bridge interpreter. Owns the stdio channel, validates every
request against frozen Pydantic v2 contracts, dispatches work via
asyncio.create_subprocess_exec — the event loop never blocks on a
geoprocessing call and never holds a thread lock. Layer A contains zero
module-level arcpy or cv2 imports (verified by grep in the audit
gate); it cannot crash on Esri's native code because it never touches it.
Layer B — Subprocess ArcPy Isolation Worker (arcgis_mcp/worker.py).
Spawned per job on the licensed ArcGIS Pro interpreter
(ARCPY_PYTHON_PATH). The only place import arcpy is legal; cv2 loads
lazily inside the one vision tool that needs it. Worker stdout is rebound
to stderr at startup — the single sanctioned stdout write is the final
NDJSON result frame, so native ArcObjects chatter can never corrupt the
JSON-RPC channel. A native crash terminates the worker, not the server:
the parent converts a non-zero exit into a structured error frame.
Declarative registry (arcgis_mcp/registry.py).
Each tool is one ToolSpec(name, category, description, input_model, worker_fn, destructive). One generic proxy factory materializes all 100
MCP endpoints in Layer A; one generic run_tool dispatcher serves them in
Layer B. Adding tool #101 touches two files — never the runtime loops.
Every failure crossing the process boundary is classified:
validation · security · license · geoprocessing (with the full
arcpy.GetMessages() stack) · internal.
02 — The 100-Tool Census Matrix
| # | Vertical | Tools | Key capabilities |
|---|---|---|---|
| 1 | map_layer_management | 10 | .aprx maps, layer order/visibility/symbology, camera, save |
| 2 | data_management | 22 | FC/GDB lifecycle, fields, Describe, Excel/GeoJSON/CSV exchange |
| 3 | geometry_analysis | 23 | Overlays, dissolve/merge, selections, joins, proximity, fishnet |
| 4 | coordinate_reference_projection | 4 | WKID-driven define/project for vector + raster, CRS lookup |
| 5 | raster_operations | 15 | Map algebra, zonal stats, DEM slope/aspect/hillshade, hydrology |
| 6 | vision_analytics | 1 | Sketch-to-GIS: ORB+RANSAC registration → HSV ink → GDB commit |
| 7 | export_layout | 9 | PDF/PNG plots, DPI control, map frames, text/legend, page size |
| 8 | editing_topology | 7 | Repair/check geometry, append, dedupe, diff, topology validation |
| 9 | network_analysis | 4 | Service areas, routing, OD cost matrix, closest facility |
| 10 | spatial_statistics | 5 | Mean center, ellipse, kernel density, Gi* hot spots, Moran's I |
| Total | 100 |
Esri extension licenses (Spatial, Network) are checked out through one
shared context manager and checked back in inside finally — a crash can
never leave a seat locked. Unavailable licenses return a structured frame,
not a process drop.
Destructive Mutation Safety Floor
Ten state-mutating tools refuse to run without an explicit
confirm: true payload token. The gate fires in the dispatcher before
the 10–30 s arcpy import is paid, and the registry refuses to even
register a destructive spec whose contract lacks a confirm field:
append_features calculate_field define_projection
delete_dataset delete_field delete_identical
extract_sketch_to_gis near_analysis remove_layer_from_map
repair_geometry
calculate_field carries an additional expression-channel floor: the
default expression_type is ARCADE (Esri's sandboxed expression
language), and PYTHON3 — which executes code inside the worker — is
rejected at the Layer-A contract boundary unless confirm: true is
explicitly supplied. raster_calculator expressions are constrained to a
pure map-algebra grammar (identifiers, numbers, operators; no quotes, no
dunder access) by a contract validator.
03 — Automated Quality Gate & Testing
Scope, stated plainly: the automated gate currently consists of
81 unit tests spanning the PathGuard boundary, the Pydantic contracts,
the generic registry path-guard and registration invariants, the worker's
error-boundary mapping, and Settings environment validation. It exercises
the catalog's structural contracts and every security-critical seam — it does
not claim multi-scenario validation of the 100 geoprocessing tools themselves,
which execute against a licensed ArcGIS runtime that no CI runner has.
In-memory test architecture. tests/conftest.py injects MagicMock
proxies into sys.modules["arcpy"] and sys.modules["arcpy.sa"] (with
CheckExtension answering "Available") before any package import
resolves. The entire suite executes in well under a second, with no ArcGIS
installation, no license checkout, and no Esri runtime — locally and in CI
identically.
Static analysis. Ruff enforces canonical formatting plus
E/W/F/I/B/RUF at 88 columns against a py311 floor. Mypy runs
strict = true with the Pydantic plugin across all 31 source files.
make format # ruff format + import sorting (mutates)
make lint # ruff check, mutates nothing
make type-check # mypy --strict over arcgis_mcp/
make security-audit # live registry inspection: path roles + confirm gates
make verify-all # lint + type-check + security-audit, one gate
python -m pytest # 81/81
04 — Security Framework (PathGuard Sandbox)
Every filesystem argument in every contract declares its role —
"read", "write", or "read_list" — in the model's path_fields
mapping. One shared enforcement function applies those declarations in
both processes: Layer A pre-checks before a worker is ever spawned;
Layer B re-validates because it never trusts its parent.
Two boundary controls:
validate_read(raw: str)— fully resolves the path (symlinks,.., relative segments collapsed before any comparison) and requires containment inside a configuredallowed_rootsdirectory. Existence is enforced via a deepest-existing-prefix strategy: the targeted path or its filesystem-resolvable geodatabase prefix must exist. This makes GDB-internal datasets (…\city.gdb\roads) first-class — the.gdbcontainer is validated on the filesystem, while the logical tail is constrained to plain dataset names only arcpy can resolve.validate_write(raw: str, *, overwrite: bool)— same resolution and containment, plus ArcGIS-legal dataset naming and overwrite discipline: an existing target is never replaced unless the request explicitly setsoverwrite: true.
Any escape pattern — traversal sequences, UNC shares, NUL bytes, reserved
device names, out-of-root targets — raises PathSecurityError
immediately: the request is answered with a structured security frame
and no subprocess is ever orchestrated for it.
05 — Environment Variables
| Variable | Required | Purpose |
|---|---|---|
ARCPY_PYTHON_PATH | yes | Layer B interpreter: licensed arcpy and Pydantic resolvable (use arcgis-mcp-env) |
ARCGIS_MCP_ALLOWED_ROOTS | no | ;-separated PathGuard boundary roots; defaults to ~/Documents/ArcGIS/Projects if unset |
ARCGIS_MCP_SCRATCH_GDB | no | Default output workspace; must already exist (startup fails fast if missing) |
ARCGIS_MCP_LOG_FILE / _LOG_LEVEL / _TOOL_TIMEOUT | no | Logging + per-job ceiling |
ARCGIS_MCP_MAX_WORKERS | no | Concurrent arcpy worker ceiling (default 2) — protects license seats and RAM |
Claude Desktop Configuration
ARCPY_PYTHON_PATH is required — it is the licensed worker interpreter
reported by arcgis-mcp-setup.
{
"mcpServers": {
"arcgis-mcp-bridge": {
"command": "arcgis-mcp-server",
"env": {
"ARCPY_PYTHON_PATH": "C:\\...\\envs\\arcgis-mcp-env\\python.exe",
"ARCGIS_MCP_ALLOWED_ROOTS": "C:\\GIS\\Data;C:\\Workspace",
"ARCGIS_MCP_MAX_WORKERS": "2"
}
}
}
}
After restart, call health_check first — it proves the full
server→worker pipeline without importing arcpy.
06 — Compatibility
| ArcGIS Pro | Python (arcgispro-py3) | Status |
|---|---|---|
| 3.1 | 3.9 | ✅ Tested |
| 3.2 | 3.9 | ✅ Tested |
| 3.3 | 3.11 | ✅ Tested — reference platform |
| 3.4 | 3.11 | ⚠ Community-reported, not CI-verified |
Windows only. ArcPy is Windows-exclusive. Layer A runs on any platform for development (MagicMock injection), but Layer B requires a licensed ArcGIS Pro installation on Windows.
07 — Links & License
- GitHub: https://github.com/muend/arcgis-mcp-bridge
- PyPI: https://pypi.org/project/arcgis-mcp-bridge/
- Smithery: https://smithery.ai/server/muend/arcgis-mcp-bridge
Apache License 2.0. See LICENSE.
Server Config
{
"mcpServers": {
"arcgis-mcp-bridge": {
"command": "arcgis-mcp-server",
"env": {
"ARCPY_PYTHON_PATH": "C:\\path\\to\\arcgis-mcp-env\\python.exe",
"ARCGIS_MCP_ALLOWED_ROOTS": "C:\\GIS\\Data",
"ARCGIS_MCP_MAX_WORKERS": "2"
}
}
}
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