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MCP server to debug microcontrollers from Claude through OpenOCD (flash, halt/step, memory/registers, breakpoints, variables and peripheral registers by name).

Project description

OpenOCD MCP Server

Debug microcontrollers directly from Claude. This is an MCP server that drives OpenOCD, letting Claude flash firmware, control execution, and inspect a running target — and read your variables and peripheral registers by name instead of raw addresses.

Description

Once connected to a target through a debug probe (ST-Link, J-Link, CMSIS-DAP, …), Claude can:

  • Flash firmware — program and verify .elf / .bin / .hex images
  • Control execution — halt, resume, single-step, reset
  • Inspect state — read/write CPU registers and memory
  • Set breakpoints — hardware & software, including conditional breakpoints (halt only when an expression is true) and hit-count breakpoints
  • Watch memory — hardware watchpoints that halt on read/write/access to an address
  • Read variables by name — from your firmware's .elf symbols (e.g. read_variable uart_rx_count)
  • Read peripheral registers by name — from a CMSIS-SVD file, decoded into named bitfields (e.g. RCC.CR, GPIOA.MODER)

The server is chip-agnostic — it works with any target OpenOCD supports; you point it at your chip's config and (optionally) SVD/ELF. It can also start OpenOCD for you and download OpenOCD automatically for your platform, so there's nothing else to install by hand.

Installation

Prerequisites: Python 3.10+, Claude Code, and a debug probe connected to your target.

Clone and install the package into a virtual environment:

git clone https://github.com/microhenrio/openocd-mcp
cd openocd-mcp
python -m venv .venv

Install it (creates the openocd-mcp command):

# Windows
.venv\Scripts\python -m pip install -e .

# macOS / Linux
.venv/bin/python -m pip install -e .

Register the server with Claude Code (user scope makes it available in every project):

# Windows
claude mcp add --scope user openocd -- "%CD%\.venv\Scripts\openocd-mcp.exe"

# macOS / Linux
claude mcp add --scope user openocd -- "$PWD/.venv/bin/openocd-mcp"

Windows shortcut: instead of the steps above you can just run setup.bat, which creates the environment, installs the package, and registers it.

Then restart Claude Code so it loads the server. Verify with:

claude mcp list      # openocd: ... ✓ Connected

OpenOCD is obtained automatically: a build for your OS/architecture is downloaded and cached on first connect (checksum-verified). You can also fetch it ahead of time with openocd-mcp install-openocd, or use an existing install by setting the OPENOCD_BIN environment variable.

How to work with it

1. Point it at your chip

Each firmware project tells the server which target it's debugging. Create an openocd-mcp.json in your project root (a template is in openocd-mcp.example.json):

{
  "target_cfg": "target/stm32g0x.cfg",
  "svd_file": "path/to/STM32G0B0.svd",
  "elf_file": "path/to/build/firmware.elf"
}
  • target_cfg / interface_cfg — OpenOCD configs (relative to its scripts dir). Defaults to an ST-Link probe; set target_cfg for your chip.
  • svd_file — CMSIS-SVD file for the chip (enables peripheral registers by name).
  • elf_file — your firmware build output (enables variables by name).

Or simply tell Claude the chip you're using and it will configure the session for you. show_config reports the active settings at any time.

2. Talk to Claude

With the board plugged in, describe what you want — Claude picks the right tools:

You say… What happens
"connect and halt the target" Starts OpenOCD if needed, attaches, halts the CPU
"what's the status?" Reports running/halted and the current program counter
"read the variable sensor_value" Looks it up in the .elf and reads it off the chip
"set motor_enabled to 1" Writes the variable by name
"read GPIOA.MODER" Reads the register and decodes its named bitfields
"list the RCC registers" Lists registers from the SVD
"break at 0x08001234, then reset and run" Sets a breakpoint and resets
"break at 0x08001234 when r0 is 42" Sets a conditional breakpoint (using [get_reg r0] == 42)
"break at 0x08001234 after 5 hits" Sets a hit-count breakpoint
"watch for writes to 0x20000000" Sets a hardware data watchpoint
"flash build/firmware.elf and run it" Programs, verifies, and restarts
"dump 64 bytes of RAM at 0x20000000" Reads memory

You don't call tools by name — describe the goal and Claude maps it to the underlying tools.

3. Conditional breakpoints & watchpoints

Conditional breakpoints halt only when a condition holds — useful for catching one specific case in code that runs constantly. Conditions are TCL expressions and can use two helpers:

  • get_reg <name> — a CPU register value (e.g. get_reg r0, get_reg pc)
  • get_mem <addr> [width] — a memory value (e.g. get_mem 0x20000000)

Just describe the intent to Claude; it builds the condition:

You say… Condition used
"break at 0x08001234 only when r0 > 100" expr {[get_reg r0] > 100}
"break at parse_packet when the byte at 0x20000005 is 0xFF" expr {[get_mem 0x20000005 8] == 0xFF}
"stop at 0x08001234 on the 10th time it's hit" incr ::hits; expr {$::hits >= 10}

When the condition is false the server resumes automatically and keeps going until it's true (or you stop it).

Watchpoints halt the CPU when it accesses a memory location — ideal for finding what corrupts a variable:

  • "watch for writes to 0x20000000"
  • "watch address 0x20000010 for any read or write"

The target must be halted to read registers, memory, or variables — Claude halts first when needed. The first connect of a session starts OpenOCD automatically.

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