Metadata-Version: 2.1
Name: pyocd
Version: 0.22.0
Summary: Cortex-M debugger for Python
Home-page: https://github.com/mbedmicro/pyOCD
Author: Chris Reed, Martin Kojtal, Russ Butler
Author-email: chris.reed@arm.com, martin.kojtal@arm.com, russ.butler@arm.com
License: Apache 2.0
Classifier: Development Status :: 4 - Beta
Classifier: License :: OSI Approved :: Apache Software License
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: 2
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3
Classifier: Programming Language :: Python :: 3.6
Classifier: Programming Language :: Python :: 3.7
Classifier: Topic :: Software Development :: Debuggers
Classifier: Topic :: Software Development :: Embedded Systems
Requires-Python: >=2.7.9, !=3.0.*, !=3.1.*, !=3.2.*, !=3.3.*
Description-Content-Type: text/markdown
License-File: LICENSE
Requires-Dist: cmsis-pack-manager >=0.2.7
Requires-Dist: colorama
Requires-Dist: intelhex <3.0,>=2.0
Requires-Dist: intervaltree <4.0,>=3.0.2
Requires-Dist: prettytable
Requires-Dist: pyelftools
Requires-Dist: pyusb <2.0,>=1.0.0b2
Requires-Dist: pyyaml <6.0,>=5.1
Requires-Dist: six <2.0,>=1.0
Requires-Dist: hidapi ; platform_system == "Darwin"
Requires-Dist: pywinusb >=0.4.0 ; platform_system == "Windows"
Requires-Dist: enum34 <2.0,>=1.0 ; python_version < "3.4"
Provides-Extra: dissassembler
Requires-Dist: capstone ; extra == 'dissassembler'

pyOCD
=====

pyOCD is an open source Python package for programming and debugging Arm Cortex-M microcontrollers
using multiple supported types of USB debug probes. It is fully cross-platform, with support for
Linux, macOS, and Windows.

A command line tool is provided that covers most use cases, or you can make use of the Python
API to enable low-level target control. A common use for the Python API is to run and control CI
tests.

Upwards of 70 popular MCUs are supported built-in. In addition, through the use of CMSIS-Packs,
nearly every Cortex-M device on the market is supported.

The `pyocd` command line tool gives you total control over your device with these subcommands:

- `gdbserver`: GDB remote server allows you to debug using gdb via either
    [GNU MCU Eclipse plug-in](https://gnu-mcu-eclipse.github.io/) or the console.
- `flash`: Program files of various formats into flash memory.
- `erase`: Erase part or all of an MCU's flash memory.
- `pack`: Manage [CMSIS Device Family Packs](http://arm-software.github.io/CMSIS_5/Pack/html/index.html)
    that provide additional target device support.
- `commander`: Interactive REPL control and inspection of the MCU.
- `list`: Show connected devices.

The API and tools provide these features:

-  halt, step, resume control
-  read/write memory
-  read/write core registers
-  set/remove hardware and software breakpoints
-  set/remove watchpoints
-  write to flash memory
-  load binary, hex, or ELF files into flash
-  reset control
-  access CoreSight DP and APs
-  SWO and SWV
-  and more!

Configuration and customization is supported through [config files](docs/configuration.md) and
[user scripts](docs/user_scripts.md).


Requirements
------------

- Python 2.7.9 or later, or Python 3.6.0 or later
- macOS, Linux, or Windows 7 or newer
- Microcontroller with an Arm Cortex-M CPU
- Supported debug probe
  - [CMSIS-DAP](http://www.keil.com/pack/doc/CMSIS/DAP/html/index.html) v1 (HID),
    such as:
    - An on-board debug probe using [DAPLink](https://os.mbed.com/handbook/DAPLink) firmware.
    - NXP LPC-LinkII
  - [CMSIS-DAP](http://www.keil.com/pack/doc/CMSIS/DAP/html/index.html) v2 (WinUSB),
    such as:
    - Cypress KitProg3
    - Keil ULINKplus
  - STLinkV2, either on-board or the standalone version.


Status
------

PyOCD is functionally reliable and fully useable.

The Python API is considered partially unstable as we are restructuring and cleaning it up prior to
releasing version 1.0.


Documentation
-------------

The pyOCD documentation is located in [the docs directory](docs/).

In addition to user guides, you can generate reference documentation using Doxygen with the
supplied [config file](docs/Doxyfile).


Installing
----------

The latest stable version of pyOCD may be installed via [pip](https://pip.pypa.io/en/stable/index.html)
as follows:

```
$ pip install -U pyocd
```

The latest pyOCD package is available [on PyPI](https://pypi.python.org/pypi/pyOCD/) as well as
[on GitHub](https://github.com/mbedmicro/pyOCD/releases).

To install the latest prerelease version from the HEAD of the master branch, you can do
the following:

```
$ pip install --pre -U https://github.com/mbedmicro/pyOCD/archive/master.zip
```

You can also install directly from the source by cloning the git repository and running:

```
$ python setup.py install
```

Note that, depending on your operating system, you may run into permissions issues running these commands.
You have a few options here:

1. Under Linux, run with `sudo -H` to install pyOCD and dependencies globally. (Installing with sudo
   should never be required for macOS.)
2. Specify the `--user` option to install local to your user.
3. Run the command in a [virtualenv](https://virtualenv.pypa.io/en/latest/)
   local to a specific project working set.

For notes about installing and using on non-x86 systems such as Raspberry Pi, see the
[relevant documentation](docs/installing_on_non_x86.md).

### libusb installation

[pyusb](https://github.com/pyusb/pyusb) and its backend library [libusb](https://libusb.info/) are
dependencies on all supported operating systems. pyusb is a regular Python package and will be
installed along with pyOCD. However, libusb is a binary shared library that does not get installed
automatically via pip dependency management.

How to install libusb depends on your OS:

- macOS: use Homebrew: `brew install libusb`
- Linux: should already be installed.
- Windows: download libusb from [libusb.info](https://libusb.info/) and place the DLL in your Python
  installation folder next to python.exe. Make sure to use the same 32- or 64-bit architecture as
  your Python installation. *Note: due to a
  [known issue](https://github.com/mbedmicro/pyOCD/issues/684), the current recommendation is to use
  [libusb version 1.0.21](https://github.com/libusb/libusb/releases/tag/v1.0.21) on Windows instead
  of the most recent version.*

### udev rules on Linux

On Linux, particularly Ubuntu 16.04+, you must configure udev rules to allow pyOCD to access debug
probes from user space. Otherwise you will need to run pyOCD as root, using sudo, which is very
highly discouraged. (You should _never_ run pyOCD as root on any OS.)

To help with this, example udev rules files are included with pyOCD in the
[udev](https://github.com/mbedmicro/pyOCD/tree/master/udev) folder. The
[readme](https://github.com/mbedmicro/pyOCD/tree/master/udev/README.md) in this folder has detailed
instructions.

### Target support

See the [target support documentation](docs/target_support.md) for information on how to check if
the MCU(s) you are using have built-in support, and how to install support for additional MCUs via
CMSIS-Packs.


Standalone GDB server
---------------------

After you install pyOCD via pip or setup.py, you will be able to execute the following in order to
start a GDB server powered by pyOCD:

```
$ pyocd gdbserver
```

You can get additional help by running ``pyocd gdbserver --help``.

Example command line GDB session showing how to connect to a running `pyocd gdbserver` and load
firmware:

```
$ arm-none-eabi-gdb application.elf

<gdb> target remote localhost:3333
<gdb> load
<gdb> monitor reset
```

The `pyocd gdbserver` subcommand is also usable as a drop in place replacement for OpenOCD in
existing setups. The primary difference is the set of gdb monitor commands.


Recommended GDB and IDE setup
-----------------------------

The recommended toolchain for embedded Arm Cortex-M development is [GNU Arm
Embedded](https://developer.arm.com/tools-and-software/open-source-software/gnu-toolchain/gnu-rm),
provided by Arm. GDB is included with this toolchain.

The GDB server works well with [Eclipse](https://www.eclipse.org/) and the [GNU MCU Eclipse
plug-ins](https://gnu-mcu-eclipse.github.io/). GNU MCU Eclipse fully supports pyOCD with an included
pyOCD debugging plugin.

To view peripheral register values either the built-in GNU MCU Eclipse register view can be used, or
the Embedded System Register Viewer plugin can be installed. These can be installed from inside
Eclipse using the following software update server addresses:

- GNU MCU Eclipse: http://gnu-mcu-eclipse.sourceforge.net/updates
- Embedded System Register Viewer: http://embsysregview.sourceforge.net/update

In Eclipse, select the "Help -> Install New Software..." menu item. Then either click the "Add..."
button and fill in the name and URL from above (once for each site), or simply copy the URL into the
field where it says "type or select a site". Then you can select the software to install and click
Next to start the process.


Development setup
-----------------

Please see the [Developers' Guide](docs/developers_guide.md) for instructions on how to set up a
development environment for pyOCD.


Contributions
-------------

We welcome contributions to pyOCD in any area. Please see the [contribution
guidelines](CONTRIBUTING.md) for detailed requirements for contributions.

To report bugs, please [create an issue](https://github.com/mbedmicro/pyOCD/issues/new) in the
GitHub project.


License
-------

PyOCD is licensed with the permissive Apache 2.0 license. See the [LICENSE](LICENSE) file for the
full text of the license.

Copyright © 2006-2019 Arm Ltd
