I'm trying to call io_submit using python ctypes. The code I'm writing is supposed to work on both 32 and 64-bit Intel/AMD architectures, but here I'll focus on 64 bits.
I have defined the following:
def PADDED64(type, name1, name2):
return [(name1, type), (name2, type)]
def PADDEDptr64(type, name1, name2):
return [(name1, type)]
def PADDEDul64(name1, name2):
return [(name1, ctypes.c_ulong)]
class IOVec(ctypes.Structure):
_fields_ = [("iov_base", ctypes.c_void_p), ("iov_len", ctypes.c_size_t)]
class IOCBDataCommon64(ctypes.Structure):
_fields_ = PADDEDptr64(ctypes.c_void_p, "buf", "__pad1") + \
PADDEDul64("nbytes", "__pad2") + \
[("offset", ctypes.c_longlong), ("__pad3", ctypes.c_longlong), ("flags", ctypes.c_uint), ("resfd", ctypes.c_uint)]
class IOCBDataVector(ctypes.Structure):
_fields_ = [("vec", ctypes.POINTER(IOVec)), ("nr", ctypes.c_int), ("offset", ctypes.c_longlong)]
class IOCBDataPoll64(ctypes.Structure):
_fields_ = PADDED64(ctypes.c_int, "events", "__pad1")
class SockAddr(ctypes.Structure):
_fields_ = [("sa_family", ctypes.c_ushort), ("sa_data", ctypes.c_char * 14)]
class IOCBDataSockAddr(ctypes.Structure):
_fields_ = [("addr", ctypes.POINTER(SockAddr)), ("len", ctypes.c_int)]
class IOCBDataUnion64(ctypes.Union):
_fields_ = [("c", IOCBDataCommon64), ("v", IOCBDataVector), ("poll", IOCBDataPoll64), ("saddr", IOCBDataSockAddr)]
class IOCB64(ctypes.Structure):
_fields_ = PADDEDptr64(ctypes.c_void_p, "data" , "__pad1") + \
PADDED64(ctypes.c_uint, "key", "__pad2") + \
[("aio_lio_opcode", ctypes.c_short), ("aio_reqprio", ctypes.c_short), ("aio_fildes", ctypes.c_int), ("u", IOCBDataUnion64)]
class Timespec(ctypes.Structure):
_fields_ = [("tv_sec", ctypes.c_long), ("tv_nsec", ctypes.c_long)]
class IOEvent64(ctypes.Structure):
_fields_ = PADDEDptr64(ctypes.c_void_p, "data", "__pad1") + \
PADDEDptr64(ctypes.POINTER(IOCB64), "obj", "__pad2") + \
PADDEDul64("res", "__pad3") + \
PADDEDul64("res2", "__pad4")
I have a wrapper class called AIOCommands:
class AIOCommands:
def __init__(self, aioCommandList):
self.__commandList = aioCommandList
self.__iocbs = (IOCB64 * len(self.__commandList))()
for i in range(len(self.__commandList)):
self.__commandList[i].initialize(self.__iocbs[i])
def size(self):
return len(self.__iocbs)
def getIOCBArray(self):
return self.__iocbs
I have defined the arguments and the return value of io_submit:
class Executor:
def __init__(self, aioLibraryPath):
self.__aio = ctypes.CDLL(aioLibraryPath)
self.__aio.io_submit.argtypes = [self.aio_context_t, ctypes.c_long, ctypes.POINTER(ctypes.POINTER(IOCB64))]
self.__aio.io_submit.restype = ctypes.c_long
Now, what should Executor.io_submit body look like? I tried:
def io_submit(self, aioContext, aioCommands):
iocbPtr = ctypes.cast(aioCommands.getIOCBArray(), ctypes.POINTER(self.iocb_t))
return self.__aio.io_submit(aioContext, aioCommands.size(), ctypes.byref(iocbPtr))
But I get a segmentation fault whenever the length of aioCommandList is greater than 1. When the list contains just 1 command, the code works as expected.
Could this be a problem with my structure definitions? I've tried to imitate the definitions in libaio.h (assuming only little-endian architectures will be supported):
#if defined(__i386__) /* little endian, 32 bits */
#define PADDED(x, y) x; unsigned y
#define PADDEDptr(x, y) x; unsigned y
#define PADDEDul(x, y) unsigned long x; unsigned y
#elif defined(__ia64__) || defined(__x86_64__) || defined(__alpha__)
#define PADDED(x, y) x, y
#define PADDEDptr(x, y) x
#define PADDEDul(x, y) unsigned long x
#elif defined(__powerpc64__) /* big endian, 64 bits */
#define PADDED(x, y) unsigned y; x
#define PADDEDptr(x,y) x
#define PADDEDul(x, y) unsigned long x
#elif defined(__PPC__) /* big endian, 32 bits */
#define PADDED(x, y) unsigned y; x
#define PADDEDptr(x, y) unsigned y; x
#define PADDEDul(x, y) unsigned y; unsigned long x
#el开发者_如何学JAVAif defined(__s390x__) /* big endian, 64 bits */
#define PADDED(x, y) unsigned y; x
#define PADDEDptr(x,y) x
#define PADDEDul(x, y) unsigned long x
#elif defined(__s390__) /* big endian, 32 bits */
#define PADDED(x, y) unsigned y; x
#define PADDEDptr(x, y) unsigned y; x
#define PADDEDul(x, y) unsigned y; unsigned long x
#else
#error endian?
#endif
struct io_iocb_poll {
PADDED(int events, __pad1);
}; /* result code is the set of result flags or -'ve errno */
struct io_iocb_sockaddr {
struct sockaddr *addr;
int len;
}; /* result code is the length of the sockaddr, or -'ve errno */
struct io_iocb_common {
PADDEDptr(void *buf, __pad1);
PADDEDul(nbytes, __pad2);
long long offset;
long long __pad3;
unsigned flags;
unsigned resfd;
}; /* result code is the amount read or -'ve errno */
struct io_iocb_vector {
const struct iovec *vec;
int nr;
long long offset;
}; /* result code is the amount read or -'ve errno */
struct iocb {
PADDEDptr(void *data, __pad1); /* Return in the io completion event */
PADDED(unsigned key, __pad2); /* For use in identifying io requests */
short aio_lio_opcode;
short aio_reqprio;
int aio_fildes;
union {
struct io_iocb_common c;
struct io_iocb_vector v;
struct io_iocb_poll poll;
struct io_iocb_sockaddr saddr;
} u;
};
Any help would be appreciated, I've been stuck on this for several hours.
The way I understand it is that the iocbpp argument to io_submit()
is an array of pointers to struct iocb.
This seems to be reinforced with the Linux-specific example here: http://voinici.ceata.org/~sana/blog/?p=248 and by the EINVAL error documentation here: http://linux.die.net/man/2/io_submit (array subscripting takes precedence over dereferencing)
What you have provided to io_submit()
is a reference to an array of struct iocb. You will surely get a segfault as io_submit
dereferences bogus memory addresses as it iterates through the iocbpp array. The first element (index 0) will work fine since there is no memory offset to access it.
edit Another example here: http://www.xmailserver.org/eventfd-aio-test.c
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