osrf_pycommon.process_utils.async_execute_process module
- class osrf_pycommon.process_utils.async_execute_process.AsyncSubprocessProtocol(stdin=None, stdout=None, stderr=None)
Bases:
SubprocessProtocolProtocol to subclass to get events from
async_execute_process().When subclassing this Protocol class, you should override these functions:
def on_stdout_received(self, data): # ... def on_stderr_received(self, data): # ... def on_process_exited(self, returncode): # ...
By default these functions just print the data received from stdout and stderr and does nothing when the process exits.
Data received by the
on_stdout_receivedandon_stderr_receivedfunctions is always inbytes. Therefore, it may be necessary to call.decode()on the data before printing to the screen.Additionally, the data received will not be stripped of new lines, so take that into consideration when printing the result.
You can also override these less commonly used functions:
def on_stdout_open(self): # ... def on_stdout_close(self, exc): # ... def on_stderr_open(self): # ... def on_stderr_close(self, exc): # ...
These functions are called when stdout/stderr are opened and closed, and can be useful when using pty’s for example. The
excparameter of the*_closefunctions is None unless there was an exception.In addition to the overridable functions this class has a few useful public attributes. The
stdinattribute is a reference to the PipeProto which follows theasyncio.WriteTransportinterface. Thestdoutandstderrattributes also reference their PipeProto. Thecompleteattribute is aasyncio.Futurewhich is set to complete when the process exits and its result is the return code.The
completeattribute can be used like this:import asyncio from osrf_pycommon.process_utils import async_execute_process from osrf_pycommon.process_utils import AsyncSubprocessProtocol from osrf_pycommon.process_utils import get_loop async def setup(): transport, protocol = await async_execute_process( AsyncSubprocessProtocol, ['ls', '-G', '/usr']) retcode = await protocol.complete print("Exited with", retcode) # This will block until the protocol.complete Future is done. get_loop().run_until_complete(setup()) get_loop().close()
- connection_made(transport)
Called when a connection is made.
The argument is the transport representing the pipe connection. To receive data, wait for data_received() calls. When the connection is closed, connection_lost() is called.
- on_process_exited(returncode)
- pipe_data_received(fd, data)
Called when the subprocess writes data into stdout/stderr pipe.
fd is int file descriptor. data is bytes object.
- process_exited()
Called when subprocess has exited.
- async osrf_pycommon.process_utils.async_execute_process.async_execute_process(protocol_class, cmd=None, cwd=None, env=None, shell=False, emulate_tty=False, stderr_to_stdout=True)
Coroutine to execute a subprocess and yield the output back asynchronously.
This function is meant to be used with the Python
asynciomodule, which is available in Python 3.5 or greater.Here is an example of how to use this function:
import asyncio from osrf_pycommon.process_utils import async_execute_process from osrf_pycommon.process_utils import AsyncSubprocessProtocol from osrf_pycommon.process_utils import get_loop async def setup(): transport, protocol = await async_execute_process( AsyncSubprocessProtocol, ['ls', '/usr']) returncode = await protocol.complete return returncode retcode = get_loop().run_until_complete(setup()) get_loop().close()
Tthe first argument is the default
AsyncSubprocessProtocolprotocol class, which simply prints output from stdout to stdout and output from stderr to stderr.If you want to capture and do something with the output or write to the stdin, then you need to subclass from the
AsyncSubprocessProtocolclass, and override theon_stdout_received,on_stderr_received, andon_process_exitedfunctions.See the documentation for the
AsyncSubprocessProtocolclass for more details, but here is an example which uses asyncio from Python 3.5:import asyncio from osrf_pycommon.process_utils import async_execute_process from osrf_pycommon.process_utils import AsyncSubprocessProtocol from osrf_pycommon.process_utils import get_loop class MyProtocol(AsyncSubprocessProtocol): def __init__(self, file_name, **kwargs): self.fh = open(file_name, 'w') AsyncSubprocessProtocol.__init__(self, **kwargs) def on_stdout_received(self, data): # Data has line endings intact, but is bytes in Python 3 self.fh.write(data.decode('utf-8')) def on_stderr_received(self, data): self.fh.write(data.decode('utf-8')) def on_process_exited(self, returncode): self.fh.write("Exited with return code: {0}".format(returncode)) self.fh.close() async def log_command_to_file(cmd, file_name): def create_protocol(**kwargs): return MyProtocol(file_name, **kwargs) transport, protocol = await async_execute_process( create_protocol, cmd) returncode = await protocol.complete return returncode get_loop().run_until_complete( log_command_to_file(['ls', '/'], '/tmp/out.txt')) get_loop().close()
See the
subprocess.Popenclass for more details on some of the parameters to this function likecwd,env, andshell.See the
osrf_pycommon.process_utils.execute_process()function for more details on theemulate_ttyparameter.- Parameters:
protocol_class (
AsyncSubprocessProtocolor a subclass) – Protocol class which handles subprocess callbackscmd (list) – list of arguments where the executable is the first item
cwd (str) – directory in which to run the command
env (dict) – a dictionary of environment variable names to values
shell (bool) – if True, the
cmdvariable is interpreted by a the shellemulate_tty (bool) – if True, pty’s are passed to the subprocess for stdout and stderr, see
osrf_pycommon.process_utils.execute_process().stderr_to_stdout (bool) – if True, stderr is directed to stdout, so they are not captured separately.
- osrf_pycommon.process_utils.async_execute_process.get_loop()
This function will return the proper event loop for the subprocess async calls.
On Unix this just returns
asyncio.get_event_loop(), but on Windows it will set and return aasyncio.ProactorEventLoopinstead.