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cdef __pipe_init_uv_handle(UVStream handle, Loop loop):
cdef int err
handle._handle = <uv.uv_handle_t*>PyMem_RawMalloc(sizeof(uv.uv_pipe_t))
if handle._handle is NULL:
handle._abort_init()
raise MemoryError()
# Initialize pipe handle with ipc=0.
# ipc=1 means that libuv will use recvmsg/sendmsg
# instead of recv/send.
err = uv.uv_pipe_init(handle._loop.uvloop,
<uv.uv_pipe_t*>handle._handle,
0)
# UV_HANDLE_READABLE allows calling uv_read_start() on this pipe
# even if it is O_WRONLY, see also #317, libuv/libuv#2058
handle._handle.flags |= uv.UV_INTERNAL_HANDLE_READABLE
if err < 0:
handle._abort_init()
raise convert_error(err)
handle._finish_init()
cdef __pipe_open(UVStream handle, int fd):
cdef int err
err = uv.uv_pipe_open(<uv.uv_pipe_t *>handle._handle,
<uv.uv_file>fd)
if err < 0:
exc = convert_error(err)
raise exc
cdef __pipe_get_socket(UVSocketHandle handle):
fileno = handle._fileno()
return PseudoSocket(uv.AF_UNIX, uv.SOCK_STREAM, 0, fileno)
@cython.no_gc_clear
cdef class UnixServer(UVStreamServer):
@staticmethod
cdef UnixServer new(Loop loop, object protocol_factory, Server server,
object backlog,
object ssl,
object ssl_handshake_timeout,
object ssl_shutdown_timeout):
cdef UnixServer handle
handle = UnixServer.__new__(UnixServer)
handle._init(loop, protocol_factory, server, backlog,
ssl, ssl_handshake_timeout, ssl_shutdown_timeout)
__pipe_init_uv_handle(<UVStream>handle, loop)
return handle
cdef _new_socket(self):
return __pipe_get_socket(<UVSocketHandle>self)
cdef _open(self, int sockfd):
self._ensure_alive()
__pipe_open(<UVStream>self, sockfd)
self._mark_as_open()
cdef bind(self, str path):
cdef int err
self._ensure_alive()
err = uv.uv_pipe_bind(<uv.uv_pipe_t *>self._handle,
path.encode())
if err < 0:
exc = convert_error(err)
self._fatal_error(exc, True)
return
self._mark_as_open()
cdef UVStream _make_new_transport(self, object protocol, object waiter,
object context):
cdef UnixTransport tr
tr = UnixTransport.new(self._loop, protocol, self._server, waiter,
context)
return <UVStream>tr
@cython.no_gc_clear
cdef class UnixTransport(UVStream):
@staticmethod
cdef UnixTransport new(Loop loop, object protocol, Server server,
object waiter, object context):
cdef UnixTransport handle
handle = UnixTransport.__new__(UnixTransport)
handle._init(loop, protocol, server, waiter, context)
__pipe_init_uv_handle(<UVStream>handle, loop)
return handle
cdef _new_socket(self):
return __pipe_get_socket(<UVSocketHandle>self)
cdef _open(self, int sockfd):
__pipe_open(<UVStream>self, sockfd)
cdef connect(self, char* addr):
cdef _PipeConnectRequest req
req = _PipeConnectRequest(self._loop, self)
req.connect(addr)
@cython.no_gc_clear
cdef class ReadUnixTransport(UVStream):
@staticmethod
cdef ReadUnixTransport new(Loop loop, object protocol, Server server,
object waiter):
cdef ReadUnixTransport handle
handle = ReadUnixTransport.__new__(ReadUnixTransport)
# This is only used in connect_read_pipe() and subprocess_shell/exec()
# directly, we could simply copy the current context.
handle._init(loop, protocol, server, waiter, Context_CopyCurrent())
__pipe_init_uv_handle(<UVStream>handle, loop)
return handle
cdef _new_socket(self):
return __pipe_get_socket(<UVSocketHandle>self)
cdef _open(self, int sockfd):
__pipe_open(<UVStream>self, sockfd)
def get_write_buffer_limits(self):
raise NotImplementedError
def set_write_buffer_limits(self, high=None, low=None):
raise NotImplementedError
def get_write_buffer_size(self):
raise NotImplementedError
def write(self, data):
raise NotImplementedError
def writelines(self, list_of_data):
raise NotImplementedError
def write_eof(self):
raise NotImplementedError
def can_write_eof(self):
raise NotImplementedError
def abort(self):
raise NotImplementedError
@cython.no_gc_clear
cdef class WriteUnixTransport(UVStream):
@staticmethod
cdef WriteUnixTransport new(Loop loop, object protocol, Server server,
object waiter):
cdef WriteUnixTransport handle
handle = WriteUnixTransport.__new__(WriteUnixTransport)
# We listen for read events on write-end of the pipe. When
# the read-end is close, the uv_stream_t.read callback will
# receive an error -- we want to silence that error, and just
# close the transport.
handle._close_on_read_error()
# This is only used in connect_write_pipe() and subprocess_shell/exec()
# directly, we could simply copy the current context.
handle._init(loop, protocol, server, waiter, Context_CopyCurrent())
__pipe_init_uv_handle(<UVStream>handle, loop)
return handle
cdef _new_socket(self):
return __pipe_get_socket(<UVSocketHandle>self)
cdef _open(self, int sockfd):
__pipe_open(<UVStream>self, sockfd)
def pause_reading(self):
raise NotImplementedError
def resume_reading(self):
raise NotImplementedError
cdef class _PipeConnectRequest(UVRequest):
cdef:
UnixTransport transport
uv.uv_connect_t _req_data
def __cinit__(self, loop, transport):
self.request = <uv.uv_req_t*> &self._req_data
self.request.data = <void*>self
self.transport = transport
cdef connect(self, char* addr):
# uv_pipe_connect returns void
uv.uv_pipe_connect(<uv.uv_connect_t*>self.request,
<uv.uv_pipe_t*>self.transport._handle,
addr,
__pipe_connect_callback)
cdef void __pipe_connect_callback(
uv.uv_connect_t* req,
int status,
) noexcept with gil:
cdef:
_PipeConnectRequest wrapper
UnixTransport transport
wrapper = <_PipeConnectRequest> req.data
transport = wrapper.transport
if status < 0:
exc = convert_error(status)
else:
exc = None
try:
transport._on_connect(exc)
except BaseException as ex:
wrapper.transport._fatal_error(ex, False)
finally:
wrapper.on_done()
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