# Copyright 2014 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
"""Python wrapper for C socket calls and data structures."""
import ctypes
import ctypes.util
import os
import socket
import struct
import cstruct
# Data structures.
# These aren't constants, they're classes. So, pylint: disable=invalid-name
CMsgHdr = cstruct.Struct("cmsghdr", "@Lii", "len level type")
Iovec = cstruct.Struct("iovec", "@LL", "base len")
MsgHdr = cstruct.Struct("msghdr", "@LLLLLLi",
"name namelen iov iovlen control msg_controllen flags")
SockaddrIn = cstruct.Struct("sockaddr_in", "=HH4sxxxxxxxx", "family port addr")
SockaddrIn6 = cstruct.Struct("sockaddr_in6", "=HHI16sI",
"family port flowinfo addr scope_id")
# Constants.
CMSG_ALIGNTO = struct.calcsize("@L") # The kernel defines this as sizeof(long).
MSG_CONFIRM = 0X800
# Find the C library.
libc = ctypes.CDLL(ctypes.util.find_library("c"), use_errno=True)
def PaddedLength(length):
return CMSG_ALIGNTO * ((length / CMSG_ALIGNTO) + (length % CMSG_ALIGNTO != 0))
def MaybeRaiseSocketError(ret):
if ret < 0:
errno = ctypes.get_errno()
raise socket.error(errno, os.strerror(errno))
def Sockaddr(addr):
if ":" in addr[0]:
family = socket.AF_INET6
if len(addr) == 4:
addr, port, flowinfo, scope_id = addr
else:
(addr, port), flowinfo, scope_id = addr, 0, 0
addr = socket.inet_pton(family, addr)
return SockaddrIn6((family, socket.ntohs(port), socket.ntohl(flowinfo),
addr, scope_id))
else:
family = socket.AF_INET
addr, port = addr
addr = socket.inet_pton(family, addr)
return SockaddrIn((family, socket.ntohs(port), addr))
def _MakeMsgControl(optlist):
"""Creates a msg_control blob from a list of cmsg attributes.
Takes a list of cmsg attributes. Each attribute is a tuple of:
- level: An integer, e.g., SOL_IPV6.
- type: An integer, the option identifier, e.g., IPV6_HOPLIMIT.
- data: The option data. This is either a string or an integer. If it's an
integer it will be written as an unsigned integer in host byte order. If
it's a string, it's used as is.
Data is padded to an integer multiple of CMSG_ALIGNTO.
Args:
optlist: A list of tuples describing cmsg options.
Returns:
A string, a binary blob usable as the control data for a sendmsg call.
Raises:
TypeError: Option data is neither an integer nor a string.
"""
msg_control = ""
for i, opt in enumerate(optlist):
msg_level, msg_type, data = opt
if isinstance(data, int):
data = struct.pack("=I", data)
elif not isinstance(data, str):
raise TypeError("unknown data type for opt %i: %s" % (i, type(data)))
datalen = len(data)
msg_len = len(CMsgHdr) + datalen
padding = "\x00" * (PaddedLength(datalen) - datalen)
msg_control += CMsgHdr((msg_len, msg_level, msg_type)).Pack()
msg_control += data + padding
return msg_control
def Bind(s, to):
"""Python wrapper for connect."""
ret = libc.bind(s.fileno(), to.CPointer(), len(to))
MaybeRaiseSocketError(ret)
return ret
def Connect(s, to):
"""Python wrapper for connect."""
ret = libc.connect(s.fileno(), to.CPointer(), len(to))
MaybeRaiseSocketError(ret)
return ret
def Sendmsg(s, to, data, control, flags):
"""Python wrapper for sendmsg.
Args:
s: A Python socket object. Becomes sockfd.
to: An address tuple, or a SockaddrIn[6] struct. Becomes msg->msg_name.
data: A string, the data to write. Goes into msg->msg_iov.
control: A list of cmsg options. Becomes msg->msg_control.
flags: An integer. Becomes msg->msg_flags.
Returns:
If sendmsg succeeds, returns the number of bytes written as an integer.
Raises:
socket.error: If sendmsg fails.
"""
# Create ctypes buffers and pointers from our structures. We need to hang on
# to the underlying Python objects, because we don't want them to be garbage
# collected and freed while we have C pointers to them.
# Convert the destination address into a struct sockaddr.
if to:
if isinstance(to, tuple):
to = Sockaddr(to)
msg_name = to.CPointer()
msg_namelen = len(to)
else:
msg_name = 0
msg_namelen = 0
# Convert the data to a data buffer and a struct iovec pointing at it.
if data:
databuf = ctypes.create_string_buffer(data)
iov = Iovec((ctypes.addressof(databuf), len(data)))
msg_iov = iov.CPointer()
msg_iovlen = 1
else:
msg_iov = 0
msg_iovlen = 0
# Marshal the cmsg options.
if control:
control = _MakeMsgControl(control)
controlbuf = ctypes.create_string_buffer(control)
msg_control = ctypes.addressof(controlbuf)
msg_controllen = len(control)
else:
msg_control = 0
msg_controllen = 0
# Assemble the struct msghdr.
msghdr = MsgHdr((msg_name, msg_namelen, msg_iov, msg_iovlen,
msg_control, msg_controllen, flags)).Pack()
# Call sendmsg.
ret = libc.sendmsg(s.fileno(), msghdr, 0)
MaybeRaiseSocketError(ret)
return ret