openpilot1/msgq_repo/msgq/ipc_pyx.pyx

248 lines
5.4 KiB
Cython
Raw Permalink Normal View History

# distutils: language = c++
# cython: c_string_encoding=ascii, language_level=3
import sys
from libcpp.string cimport string
from libcpp.vector cimport vector
from libcpp cimport bool
from libc cimport errno
from libc.string cimport strerror
from cython.operator import dereference
from .ipc cimport Context as cppContext
from .ipc cimport SubSocket as cppSubSocket
from .ipc cimport PubSocket as cppPubSocket
from .ipc cimport Poller as cppPoller
from .ipc cimport Message as cppMessage
from .ipc cimport Event as cppEvent, SocketEventHandle as cppSocketEventHandle
class IpcError(Exception):
def __init__(self, endpoint=None):
suffix = f"with {endpoint.decode('utf-8')}" if endpoint else ""
message = f"Messaging failure {suffix}: {strerror(errno.errno).decode('utf-8')}"
super().__init__(message)
class MultiplePublishersError(IpcError):
pass
def toggle_fake_events(bool enabled):
cppSocketEventHandle.toggle_fake_events(enabled)
def set_fake_prefix(string prefix):
cppSocketEventHandle.set_fake_prefix(prefix)
def get_fake_prefix():
return cppSocketEventHandle.fake_prefix()
def delete_fake_prefix():
cppSocketEventHandle.set_fake_prefix(b"")
def wait_for_one_event(list events, int timeout=-1):
cdef vector[cppEvent] items
for event in events:
items.push_back(dereference(<cppEvent*><size_t>event.ptr))
return cppEvent.wait_for_one(items, timeout)
cdef class Event:
cdef cppEvent event;
def __cinit__(self):
pass
cdef setEvent(self, cppEvent event):
self.event = event
def set(self):
self.event.set()
def clear(self):
return self.event.clear()
def wait(self, int timeout=-1):
self.event.wait(timeout)
def peek(self):
return self.event.peek()
@property
def fd(self):
return self.event.fd()
@property
def ptr(self):
return <size_t><void*>&self.event
cdef class SocketEventHandle:
cdef cppSocketEventHandle * handle;
def __cinit__(self, string endpoint, string identifier, bool override):
self.handle = new cppSocketEventHandle(endpoint, identifier, override)
def __dealloc__(self):
del self.handle
@property
def enabled(self):
return self.handle.is_enabled()
@enabled.setter
def enabled(self, bool value):
self.handle.set_enabled(value)
@property
def recv_called_event(self):
e = Event()
e.setEvent(self.handle.recv_called())
return e
@property
def recv_ready_event(self):
e = Event()
e.setEvent(self.handle.recv_ready())
return e
cdef class Context:
cdef cppContext * context
def __cinit__(self):
self.context = cppContext.create()
def term(self):
del self.context
self.context = NULL
def __dealloc__(self):
pass
# Deleting the context will hang if sockets are still active
# TODO: Figure out a way to make sure the context is closed last
# del self.context
cdef class Poller:
cdef cppPoller * poller
cdef list sub_sockets
def __cinit__(self):
self.sub_sockets = []
self.poller = cppPoller.create()
def __dealloc__(self):
del self.poller
def registerSocket(self, SubSocket socket):
self.sub_sockets.append(socket)
self.poller.registerSocket(socket.socket)
def poll(self, timeout):
sockets = []
cdef int t = timeout
with nogil:
result = self.poller.poll(t)
for s in result:
socket = SubSocket()
socket.setPtr(s)
sockets.append(socket)
return sockets
cdef class SubSocket:
cdef cppSubSocket * socket
cdef bool is_owner
def __cinit__(self):
self.socket = cppSubSocket.create()
self.is_owner = True
if self.socket == NULL:
raise IpcError
def __dealloc__(self):
if self.is_owner:
del self.socket
cdef setPtr(self, cppSubSocket * ptr):
if self.is_owner:
del self.socket
self.is_owner = False
self.socket = ptr
def connect(self, Context context, string endpoint, string address=b"127.0.0.1", bool conflate=False):
r = self.socket.connect(context.context, endpoint, address, conflate)
if r != 0:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError(endpoint)
else:
raise IpcError(endpoint)
def setTimeout(self, int timeout):
self.socket.setTimeout(timeout)
def receive(self, bool non_blocking=False):
msg = self.socket.receive(non_blocking)
if msg == NULL:
# If a blocking read returns no message check errno if SIGINT was caught in the C++ code
if errno.errno == errno.EINTR:
print("SIGINT received, exiting")
sys.exit(1)
return None
else:
sz = msg.getSize()
m = msg.getData()[:sz]
del msg
return m
cdef class PubSocket:
cdef cppPubSocket * socket
def __cinit__(self):
self.socket = cppPubSocket.create()
if self.socket == NULL:
raise IpcError
def __dealloc__(self):
del self.socket
def connect(self, Context context, string endpoint):
r = self.socket.connect(context.context, endpoint)
if r != 0:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError(endpoint)
else:
raise IpcError(endpoint)
def send(self, bytes data):
length = len(data)
r = self.socket.send(<char*>data, length)
if r != length:
if errno.errno == errno.EADDRINUSE:
raise MultiplePublishersError
else:
raise IpcError
def all_readers_updated(self):
return self.socket.all_readers_updated()