rtcm Protocol Parser
Reason this release was yanked:
obsolete
Project description
pyrtcm
Current Status | Installation | Reading | Parsing | Generating | Serializing | Examples | Extensibility | Graphical Client | Author & License
pyrtcm
is an original Python 3 library for the RTCM3 © GPS/GNSS protocol, or more properly
the "RTCM STANDARD 10403.n DIFFERENTIAL GNSS (GLOBAL NAVIGATION SATELLITE SYSTEMS) SERVICES – VERSION 3".
RTCM3 is a proprietary GPS/GNSS protocol published by the Radio Technical Commission for Maritime Services.
The pyrtcm
homepage is located at https://github.com/semuconsulting/pyrtcm.
This is an independent project and we have no affiliation whatsoever with the Radio Technical Commission for Maritime Services.
FYI There are companion libraries which handle standard NMEA 0183 © and UBX © (u-blox) GNSS/GPS messages:
Current Status
Currently in development. Refer to the RTCM_PAYLOADS_GET
dictionary in rtcmtypes_get.py
for a list of message types currently implemented (but not necessarily tested). Additional message types can be readily added - see Extensibility).
Sphinx API Documentation in HTML format is available at https://www.semuconsulting.com/pyrtcm.
Contributions welcome - please refer to CONTRIBUTING.MD.
Bug reports and Feature requests - please use the templates provided.
Installation
The latest Alpha version is available in TEST PyPi and can be installed using pip
. Local installation is also available, provided you have the Python packages setuptools
and wheel
installed.
pyrtcm
is compatible with Python 3.6+ and has no third-party library dependencies.
In the following, python
& pip
refer to the Python 3 executables. You may need to type
python3
or pip3
, depending on your particular environment.
To install latest Alpha from TEST PyPi using pip:
python -m pip install --upgrade --index-url https://test.pypi.org/simple/ pyrtcm
To clone, build and install locally (requires setuptools and wheel):
git clone https://github.com/semuconsulting/pyrtcm.git
cd pyrtcm
python setup.py sdist bdist_wheel
python -m pip install dist/pyrtcm-0.1.1.tar.gz --user --force_reinstall
Reading (Streaming)
class pyrtcm.rtcmreader.RTCMReader(stream, **kwargs)
You can create a RTCMReader
object by calling the constructor with an active stream object.
The stream object can be any data stream which supports a read(n) -> bytes
method (e.g. File or Serial, with
or without a buffer wrapper).
Individual RTCM messages can then be read using the RTCMReader.read()
function, which returns both the raw binary data (as bytes) and the parsed data (as a RTCMMessage
, via the parse()
method). The function is thread-safe in so far as the incoming data stream object is thread-safe. RTCMReader
also implements an iterator.
Example - Serial input. This example will output both rtcm and NMEA messages:
>>> from serial import Serial
>>> from pyrtcm import RTCMReader
>>> stream = Serial('/dev/tty.usbmodem14101', 9600, timeout=3)
>>> rtr = RTCMReader(stream)
>>> (raw_data, parsed_data) = rtr.read()
>>> print(parsed_data)
Example - File input (using iterator).
>>> from pyrtcm import RTCMReader
>>> stream = open('rtcmdata.log', 'rb')
>>> rtr = rtcmReader(stream)
>>> for (raw_data, parsed_data) in rtr: print(parsed_data)
...
Parsing
You can parse individual RTCM messages using the static RTCMReader.parse(data)
function, which takes a bytes array containing a binary RTCM message payload and returns a RTCMMessage
object.
NB: Once instantiated, an RTCMMessage
object is immutable.
Example:
>>> from pyrtcm import RTCMReader
>>> msg = RTCMReader.parse(b"\xd3\x00\x13>\xd0\x00\x03\x8aX\xd9I<\x87/4\x10\x9d\x07\xd6\xafH Z\xd7\xf7")
>>> print(msg)
<RTCM(1005, DF002=1005, DF003=0, DF021=0, DF022=1, DF023=1, DF024=1, DF141=0, DF025=44440308028, DF142=1, DF001_1=0, DF026=30856712349, DF364=0, DF027=33666582560)>
The RTCMMessage
object exposes different public attributes depending on its message type or 'identity'. Attributes are defined as data fields ("DF002", "DF003", etc.) e.g. the 1005
message contains the following dasa fields:
>>> print(msg)
<RTCM(1005, DF002=1005, DF003=0, DF021=0, DF022=1, DF023=1, DF024=1, DF141=0, DF025=44440308028, DF142=1, DF001_1=0, DF026=30856712349, DF364=0, DF027=33666582560)>
>>> msg.identity
'1005'
>>> msg.DF024
1
A helper method datadesc(datafield)
is available to convert a data field to a descriptive string,
e.g. "DF004" -> "GPS Epoch Time (TOW)"
Attributes within repeating groups are parsed with a two-digit suffix (DF030_01, DF030_02, etc.). The payload
attribute always contains the raw payload as bytes.
Generating
class pyrtcm.rtcmmessage.RTCMMessage(payload, **kwargs)
You can create an RTCMMessage
object by calling the constructor with the following parameters:
- payload as bytes
Example:
>>> from pyrtcm import RTCMMessage
>>> msg = RTCMMessage(b">\xd0\x00\x03\x8aX\xd9I<\x87/4\x10\x9d\x07\xd6\xafH ")
>>> print(msg)
<RTCM(1005, DF002=1005, DF003=0, DF021=0, DF022=1, DF023=1, DF024=1, DF141=0, DF025=44440308028, DF142=1, DF001_1=0, DF026=30856712349, DF364=0, DF027=33666582560)>
Serializing
The RTCMMessage
class implements a serialize()
method to convert a RTCMMessage
object to a bytes array suitable for writing to an output stream.
e.g. to create and send a 1005
message type:
>>> from serial import Serial
>>> serialOut = Serial('COM7', 38400, timeout=5)
>>> from pyrtcm import RTCMMessage
>>> msg = RTCMMessage(b">\xd0\x00\x03\x8aX\xd9I<\x87/4\x10\x9d\x07\xd6\xafH ")
>>> print(msg)
<RTCM(1005, DF002=1005, DF003=0, DF021=0, DF022=1, DF023=1, DF024=1, DF141=0, DF025=44440308028, DF142=1, DF001_1=0, DF026=30856712349, DF364=0, DF027=33666582560)>
>>> output = msg.serialize()
>>> output
b'\xd3\x00\x13>\xd0\x00\x03\x8aX\xd9I<\x87/4\x10\x9d\x07\xd6\xafH Z\xd7\xf7'
>>> serialOut.write(output)
Examples
The following examples are available in the /examples folder:
rtcmfile.py
- stream RTCM data from binary log file.rtcmserial.py
- stream RTCM data from serial/UART port.
Extensibility
The RTCM protocol is principally defined in the modules rtcmtypes_core.py
and rtcmtypes_get.py
as a series of dictionaries. RTCM uses a series of pre-defined data fields ("DF002", DF003" etc.), each of which has a designated data type (UINT32, etc.). Message payload definitions must conform to the following rules:
1. attribute names must be unique within each message class
2. attribute types must be one of the valid data fields (DF026, DF059, etc.)
3. repeating or bitfield groups must be defined as a tuple ('numr', {dict}), where:
'numr' is either:
a. an integer representing a fixed number of repeats e.g. 32
b. a string representing the name of a preceding attribute containing the number of repeats e.g. 'DF029'
{dict} is the nested dictionary of repeating items or bitfield group
Repeating attribute names are parsed with a two-digit suffix (DF030_01, DF030_02, etc.). Nested repeating groups are supported.
Command Line Utility
TODO
Graphical Client
A python/tkinter graphical GPS client which supports NMEA, UBX and RTCM protocols is available at:
https://github.com/semuconsulting/PyGPSClient
Author & License Information
pyrtcm
is maintained entirely by volunteers. If you find it useful, a small donation would be greatly appreciated!
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