Python wrapper around the nrfjprog dynamic link libraries (DLL). Use of this API allows developers to program/debug nRF SOC and SIP devices from the interpreter, write simple scripts for a more efficient development work flow, or write automated test frameworks. It can also be used to create applications in Python (i.e. command-line tools).
- Maximizing development efficiency: i.e. a script to perform various operations every time an application is built and run (could be hooked into a Makefile or automated build system etc...).
- Automated testing: Testing Production Programming tools on nRF5 using pynrfjprog.
- PC Tools: nrfjprog.exe implemented via pynrfjprog and argparse.
"""
Detailed below is how our software is stacked. Each layer depends on the layer below.
"""
pynrfjprog # Imports and wraps the nrfjprog DLL in Python.
nrfjprogdll # A DLL that wraps SEGGER's JLink API for nRF5 devices.
JLinkARMDLL # A DLL provided by SEGGER that works with SEGGER debuggers. Performs all low level operations with target device.- J-Link Software and Documentation Pack will install the JLink libraries pynrfjprog depends on in the correct installation directory.
- The nrfjprog libraries are installed with pynrfjprog and are included in pynrfjprog/OPERATING_SYSTEM/.
pynrfjprog
├── pynrfjprog
│ ├──__init__.py # Package marker to make pynrfjprog a module. Also defines the version number
│ ├── API.py # Legacy name of LowLevel.py. It's kept for backward support
│ ├── APIError.py # Wrapper for the error return codes of the DLL
│ ├── Hex.py # Hex parsing library
│ ├── HighLevel.py # Wrapper for the nrfjprog highlevel DLL
│ ├── JLink.py # Finds the JLinkARM DLL required by pynrfjprog
│ ├── LowLevel.py # Wrapper for the nrfjprog DLL, previously API.py
│ ├── MultiAPI.py # Allow multiple devices (up to 128) to be programmed simultaneously with a LowLevel API
│ ├── lib_x64
│ │ └── # 64-bit nrfjprog libraries
│ ├── lib_x86
│ │ └── # 32-bit nrfjprog libraries
│ ├── docs
│ │ └── # Header files of the nrfjprog DLL to provide in-depth documentation of the functions that are wrapped
│ └── examples
│ └── # Example scripts to show off the different APIs
├── LICENSE
├── README.md
├── requirements.txt
└── setup.py
To install latest release from PyPI:
pip install pynrfjprog
To install from source navigate to pynrfjprog:
python setup.py install
Open the Python interpreter and connect nRF5 device to PC:
from pynrfjprog import API
api = API.API('NRF52')
api.open()
api.enum_emu_snr()
api.connect_to_emu_without_snr()
api.erase_all()
api.write_u32(ADDRESS, DATA, IS_FLASH)
api.disconnect_from_emu()
api.close()
To work with multiple nRF5 devices at once:
import MultiAPI as API
api = API.API('NRF52')
api.open()
api2 = API.API('NRF52')
api2.open()
api3 = API.API('NRF51')
api3.open()
api.close()
api2.close()
api3.close()
Note: MultiAPI has the same interface as API, it just allows you to create multiple instances of API.
To program hex files using the HighLevel API:
from pynrfjprog import HighLevel
api = HighLevel.API()
api.open()
# To program J-Link probe at snr <snr>:
probe = HighLevel.DebugProbe(api, <snr>)
probe.program(<hex_file>)
probe.close()
# To program MCUBoot target at serial port <serial>:
probe = HighLevel.MCUBootDFUProbe(api, <serial>)
probe.program(<hex_file>)
probe.close()
# To update LTE modem connected to J-Link prbe at snr <snr>:
probe = HighLevel.IPCDFUProbe(api, <snr>)
probe.program(<hex_file>)
probe.close()
api.close()
Note: Only one HighLevel API can be instantiated and opened at a time. But, several HighLevel probes can be opened from the same API at the same time, as long as you don't open two probes to the same target.
Contributing is encouraged along with the following coding standards.