binutils-gdb/gprofng/libcollector/iotrace.c
H.J. Lu f4be26838d gprofng: Use symver attribute if available
Use symver attribute if available, instead of asm statement, to support
LTO build.

	PR gprof/28962
	* libcollector/dispatcher.c (timer_create@@GLIBC_2.3.3): Use
	SYMVER_ATTRIBUTE.
	(timer_create@GLIBC_2.2): Likewise.
	(timer_create@GLIBC_2.2.5): Likewise.
	(pthread_create@@GLIBC_2.1): Likewise.
	(pthread_create@GLIBC_2.0): Likewise.
	* libcollector/iotrace.c (open64@@GLIBC_2.2): Likewise.
	(open64@GLIBC_2.1): Likewise.
	(fopen@@GLIBC_2.1): Likewise.
	(fopen@GLIBC_2.0): Likewise.
	(fclose@@GLIBC_2.1): Likewise.
	(fclose@GLIBC_2.0): Likewise.
	(fdopen@@GLIBC_2.1): Likewise.
	(fdopen@GLIBC_2.0): Likewise.
	(pread@@GLIBC_2.2): Likewise.
	(pread@GLIBC_2.1): Likewise.
	(pwrite@@GLIBC_2.2): Likewise.
	(pwrite@GLIBC_2.1): Likewise.
	(pwrite64@@GLIBC_2.2): Likewise.
	(pwrite64@GLIBC_2.1): Likewise.
	(fgetpos@@GLIBC_2.2): Likewise.
	(fgetpos@GLIBC_2.0): Likewise.
	(fgetpos64@@GLIBC_2.2): Likewise.
	(fgetpos64@GLIBC_2.1): Likewise.
	(fsetpos@@GLIBC_2.2): Likewise.
	(fsetpos@GLIBC_2.0): Likewise.
	(fsetpos64@@GLIBC_2.2): Likewise.
	(fsetpos64@GLIBC_2.1): Likewise.
	* libcollector/linetrace.c (posix_spawn@@GLIBC_2.15): Likewise.
	(posix_spawn@GLIBC_2.2): Likewise.
	(posix_spawn@GLIBC_2.2.5): Likewise.
	(posix_spawnp@@GLIBC_2.15): Likewise.
	(posix_spawnp@GLIBC_2.2): Likewise.
	(posix_spawnp@GLIBC_2.2.5): Likewise.
	(popen@@GLIBC_2.1): Likewise.
	(popen@GLIBC_2.0): Likewise.
	(_popen@@GLIBC_2.1): Likewise.
	(_popen@GLIBC_2.0): Likewise.
	* libcollector/mmaptrace.c (dlopen@@GLIBC_2.1): Likewise.
	(dlopen@GLIBC_2.0): Likewise.
	* libcollector/synctrace.c (pthread_cond_wait@@GLIBC_2.3.2):
	Likewise.
	(pthread_cond_wait@GLIBC_2.0): Likewise.
	(pthread_cond_wait@GLIBC_2.2.5): Likewise.
	(pthread_cond_wait@GLIBC_2.2): Likewise.
	(pthread_cond_timedwait@@GLIBC_2.3.2): Likewise.
	(pthread_cond_timedwait@GLIBC_2.0): Likewise.
	(pthread_cond_timedwait@GLIBC_2.2.5): Likewise.
	(pthread_cond_timedwait@GLIBC_2.2): Likewise.
	(sem_wait@@GLIBC_2.1): Likewise.
	(sem_wait@GLIBC_2.0): Likewise.
	* src/collector_module.h (SYMVER_ATTRIBUTE): New.
2022-03-16 06:45:06 -07:00

3718 lines
112 KiB
C

/* Copyright (C) 2021 Free Software Foundation, Inc.
Contributed by Oracle.
This file is part of GNU Binutils.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 51 Franklin Street - Fifth Floor, Boston,
MA 02110-1301, USA. */
/*
* IO events
*/
#include "config.h"
#include <dlfcn.h>
#include <errno.h>
#include <stdarg.h>
#include <stdlib.h>
// create() and others are defined in fcntl.h.
// Our 'create' should not have the __nonnull attribute
#undef __nonnull
#define __nonnull(x)
#include <fcntl.h>
#include "gp-defs.h"
#include "collector_module.h"
#include "gp-experiment.h"
#include "data_pckts.h"
#include "tsd.h"
/* TprintfT(<level>,...) definitions. Adjust per module as needed */
#define DBG_LT0 0 // for high-level configuration, unexpected errors/warnings
#define DBG_LTT 0 // for interposition on GLIBC functions
#define DBG_LT1 1 // for configuration details, warnings
#define DBG_LT2 2
#define DBG_LT3 3
/* define the packet that will be written out */
typedef struct IOTrace_packet
{ /* IO tracing packet */
Common_packet comm;
IOTrace_type iotype; /* IO type */
int32_t fd; /* file descriptor */
Size_type nbyte; /* number of bytes */
hrtime_t requested; /* time of IO requested */
int32_t ofd; /* original file descriptor */
FileSystem_type fstype; /* file system type */
char fname; /* file name */
} IOTrace_packet;
typedef long long offset_t;
static int open_experiment (const char *);
static int start_data_collection (void);
static int stop_data_collection (void);
static int close_experiment (void);
static int detach_experiment (void);
static int init_io_intf ();
static ModuleInterface module_interface ={
SP_IOTRACE_FILE, /* description */
NULL, /* initInterface */
open_experiment, /* openExperiment */
start_data_collection, /* startDataCollection */
stop_data_collection, /* stopDataCollection */
close_experiment, /* closeExperiment */
detach_experiment /* detachExperiment (fork child) */
};
static CollectorInterface *collector_interface = NULL;
static struct Heap *io_heap = NULL;
static int io_mode = 0;
static CollectorModule io_hndl = COLLECTOR_MODULE_ERR;
static unsigned io_key = COLLECTOR_TSD_INVALID_KEY;
#define CHCK_REENTRANCE(x) (!io_mode || ((x) = collector_interface->getKey( io_key )) == NULL || (*(x) != 0))
#define RECHCK_REENTRANCE(x) (!io_mode || ((x) = collector_interface->getKey( io_key )) == NULL || (*(x) == 0))
#define PUSH_REENTRANCE(x) ((*(x))++)
#define POP_REENTRANCE(x) ((*(x))--)
#define CALL_REAL(x) (__real_##x)
#define NULL_PTR(x) (__real_##x == NULL)
#define gethrtime collector_interface->getHiResTime
#ifdef DEBUG
#define Tprintf(...) if (collector_interface) collector_interface->writeDebugInfo( 0, __VA_ARGS__ )
#define TprintfT(...) if (collector_interface) collector_interface->writeDebugInfo( 1, __VA_ARGS__ )
#else
#define Tprintf(...)
#define TprintfT(...)
#endif
/* interposition function handles */
static int (*__real_open)(const char *path, int oflag, ...) = NULL;
static int (*__real_fcntl)(int fildes, int cmd, ...) = NULL;
static int (*__real_openat)(int fildes, const char *path, int oflag, ...) = NULL;
static int (*__real_close)(int fildes) = NULL;
static FILE *(*__real_fopen)(const char *filename, const char *mode) = NULL;
static int (*__real_fclose)(FILE *stream) = NULL;
static int (*__real_dup)(int fildes) = NULL;
static int (*__real_dup2)(int fildes, int fildes2) = NULL;
static int (*__real_pipe)(int fildes[2]) = NULL;
static int (*__real_socket)(int domain, int type, int protocol) = NULL;
static int (*__real_mkstemp)(char *template) = NULL;
static int (*__real_mkstemps)(char *template, int slen) = NULL;
static int (*__real_creat)(const char *path, mode_t mode) = NULL;
static FILE *(*__real_fdopen)(int fildes, const char *mode) = NULL;
static ssize_t (*__real_read)(int fildes, void *buf, size_t nbyte) = NULL;
static ssize_t (*__real_write)(int fildes, const void *buf, size_t nbyte) = NULL;
static ssize_t (*__real_readv)(int fildes, const struct iovec *iov, int iovcnt) = NULL;
static ssize_t (*__real_writev)(int fildes, const struct iovec *iov, int iovcnt) = NULL;
static size_t (*__real_fread)(void *ptr, size_t size, size_t nitems, FILE *stream) = NULL;
static size_t (*__real_fwrite)(const void *ptr, size_t size, size_t nitems, FILE *stream) = NULL;
static ssize_t (*__real_pread)(int fildes, void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite)(int fildes, const void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite64)(int fildes, const void *buf, size_t nbyte, off64_t offset) = NULL;
static char *(*__real_fgets)(char *s, int n, FILE *stream) = NULL;
static int (*__real_fputs)(const char *s, FILE *stream) = NULL;
static int (*__real_fputc)(int c, FILE *stream) = NULL;
static int (*__real_fprintf)(FILE *stream, const char *format, ...) = NULL;
static int (*__real_vfprintf)(FILE *stream, const char *format, va_list ap) = NULL;
static off_t (*__real_lseek)(int fildes, off_t offset, int whence) = NULL;
static offset_t (*__real_llseek)(int fildes, offset_t offset, int whence) = NULL;
static int (*__real_chmod)(const char *path, mode_t mode) = NULL;
static int (*__real_access)(const char *path, int amode) = NULL;
static int (*__real_rename)(const char *old, const char *new) = NULL;
static int (*__real_mkdir)(const char *path, mode_t mode) = NULL;
static int (*__real_getdents)(int fildes, struct dirent *buf, size_t nbyte) = NULL;
static int (*__real_unlink)(const char *path) = NULL;
static int (*__real_fseek)(FILE *stream, long offset, int whence) = NULL;
static void (*__real_rewind)(FILE *stream) = NULL;
static long (*__real_ftell)(FILE *stream) = NULL;
static int (*__real_fgetpos)(FILE *stream, fpos_t *pos) = NULL;
static int (*__real_fsetpos)(FILE *stream, const fpos_t *pos) = NULL;
static int (*__real_fsync)(int fildes) = NULL;
static struct dirent *(*__real_readdir)(DIR *dirp) = NULL;
static int (*__real_flock)(int fd, int operation) = NULL;
static int (*__real_lockf)(int fildes, int function, off_t size) = NULL;
static int (*__real_fflush)(FILE *stream) = NULL;
#if WSIZE(32)
static int (*__real_open64)(const char *path, int oflag, ...) = NULL;
static int (*__real_creat64)(const char *path, mode_t mode) = NULL;
static int (*__real_fgetpos64)(FILE *stream, fpos64_t *pos) = NULL;
static int (*__real_fsetpos64)(FILE *stream, const fpos64_t *pos) = NULL;
#if ARCH(Intel)
static FILE *(*__real_fopen_2_1)(const char *filename, const char *mode) = NULL;
static int (*__real_fclose_2_1)(FILE *stream) = NULL;
static FILE *(*__real_fdopen_2_1)(int fildes, const char *mode) = NULL;
static int (*__real_fgetpos_2_2)(FILE *stream, fpos_t *pos) = NULL;
static int (*__real_fsetpos_2_2)(FILE *stream, const fpos_t *pos) = NULL;
static int (*__real_fgetpos64_2_2)(FILE *stream, fpos64_t *pos) = NULL;
static int (*__real_fsetpos64_2_2)(FILE *stream, const fpos64_t *pos) = NULL;
static int (*__real_open64_2_2)(const char *path, int oflag, ...) = NULL;
static ssize_t (*__real_pread_2_2)(int fildes, void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite_2_2)(int fildes, const void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite64_2_2)(int fildes, const void *buf, size_t nbyte, off64_t offset) = NULL;
static FILE *(*__real_fopen_2_0)(const char *filename, const char *mode) = NULL;
static int (*__real_fclose_2_0)(FILE *stream) = NULL;
static FILE *(*__real_fdopen_2_0)(int fildes, const char *mode) = NULL;
static int (*__real_fgetpos_2_0)(FILE *stream, fpos_t *pos) = NULL;
static int (*__real_fsetpos_2_0)(FILE *stream, const fpos_t *pos) = NULL;
static int (*__real_fgetpos64_2_1)(FILE *stream, fpos64_t *pos) = NULL;
static int (*__real_fsetpos64_2_1)(FILE *stream, const fpos64_t *pos) = NULL;
static int (*__real_open64_2_1)(const char *path, int oflag, ...) = NULL;
static ssize_t (*__real_pread_2_1)(int fildes, void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite_2_1)(int fildes, const void *buf, size_t nbyte, off_t offset) = NULL;
static ssize_t (*__real_pwrite64_2_1)(int fildes, const void *buf, size_t nbyte, off64_t offset) = NULL;
#endif /* ARCH() */
#endif /* WSIZE(32) */
static int
collector_align_pktsize (int sz)
{
int pktSize = sz;
if (sz <= 0)
return sz;
if ((sz % 8) != 0)
{
pktSize = (sz / 8) + 1;
pktSize *= 8;
}
return pktSize;
}
static void
collector_memset (void *s, int c, size_t n)
{
unsigned char *s1 = s;
while (n--)
*s1++ = (unsigned char) c;
}
static size_t
collector_strlen (const char *s)
{
if (s == NULL)
return 0;
int len = -1;
while (s[++len] != '\0')
;
return len;
}
static size_t
collector_strncpy (char *dst, const char *src, size_t dstsize)
{
size_t i;
for (i = 0; i < dstsize; i++)
{
dst[i] = src[i];
if (src[i] == '\0')
break;
}
return i;
}
static char *
collector_strchr (const char *s, int c)
{
do
{
if (*s == (char) c)
return ((char *) s);
}
while (*s++);
return (NULL);
}
static FileSystem_type
collector_fstype (const char *path)
{
return UNKNOWNFS_TYPE;
}
void
__collector_module_init (CollectorInterface *_collector_interface)
{
if (_collector_interface == NULL)
return;
collector_interface = _collector_interface;
Tprintf (0, "iotrace: __collector_module_init\n");
io_hndl = collector_interface->registerModule (&module_interface);
/* Initialize next module */
ModuleInitFunc next_init = (ModuleInitFunc) dlsym (RTLD_NEXT, "__collector_module_init");
if (next_init != NULL)
next_init (_collector_interface);
return;
}
static int
open_experiment (const char *exp)
{
if (collector_interface == NULL)
{
Tprintf (0, "iotrace: collector_interface is null.\n");
return COL_ERROR_IOINIT;
}
if (io_hndl == COLLECTOR_MODULE_ERR)
{
Tprintf (0, "iotrace: handle create failed.\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">data handle not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_IOINIT);
return COL_ERROR_IOINIT;
}
TprintfT (0, "iotrace: open_experiment %s\n", exp);
if (NULL_PTR (fopen))
init_io_intf ();
if (io_heap == NULL)
{
io_heap = collector_interface->newHeap ();
if (io_heap == NULL)
{
Tprintf (0, "iotrace: new heap failed.\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">new iotrace heap not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_IOINIT);
return COL_ERROR_IOINIT;
}
}
const char *params = collector_interface->getParams ();
while (params)
{
if ((params[0] == 'i') && (params[1] == ':'))
{
params += 2;
break;
}
params = collector_strchr (params, ';');
if (params)
params++;
}
if (params == NULL) /* IO data collection not specified */
return COL_ERROR_IOINIT;
io_key = collector_interface->createKey (sizeof ( int), NULL, NULL);
if (io_key == (unsigned) - 1)
{
Tprintf (0, "iotrace: TSD key create failed.\n");
collector_interface->writeLog ("<event kind=\"%s\" id=\"%d\">TSD key not created</event>\n",
SP_JCMD_CERROR, COL_ERROR_IOINIT);
return COL_ERROR_IOINIT;
}
collector_interface->writeLog ("<profile name=\"%s\">\n", SP_JCMD_IOTRACE);
collector_interface->writeLog (" <profdata fname=\"%s\"/>\n",
module_interface.description);
/* Record IOTrace_packet description */
IOTrace_packet *pp = NULL;
collector_interface->writeLog (" <profpckt kind=\"%d\" uname=\"IO tracing data\">\n", IOTRACE_PCKT);
collector_interface->writeLog (" <field name=\"LWPID\" uname=\"Lightweight process id\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.lwp_id, sizeof (pp->comm.lwp_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"THRID\" uname=\"Thread number\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.thr_id, sizeof (pp->comm.thr_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"CPUID\" uname=\"CPU id\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.cpu_id, sizeof (pp->comm.cpu_id) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"TSTAMP\" uname=\"High resolution timestamp\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.tstamp, sizeof (pp->comm.tstamp) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"FRINFO\" offset=\"%d\" type=\"%s\"/>\n",
&pp->comm.frinfo, sizeof (pp->comm.frinfo) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IOTYPE\" uname=\"IO trace function type\" offset=\"%d\" type=\"%s\"/>\n",
&pp->iotype, sizeof (pp->iotype) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IOFD\" uname=\"File descriptor\" offset=\"%d\" type=\"%s\"/>\n",
&pp->fd, sizeof (pp->fd) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IONBYTE\" uname=\"Number of bytes\" offset=\"%d\" type=\"%s\"/>\n",
&pp->nbyte, sizeof (pp->nbyte) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IORQST\" uname=\"Time of IO requested\" offset=\"%d\" type=\"%s\"/>\n",
&pp->requested, sizeof (pp->requested) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IOOFD\" uname=\"Original file descriptor\" offset=\"%d\" type=\"%s\"/>\n",
&pp->ofd, sizeof (pp->ofd) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IOFSTYPE\" uname=\"File system type\" offset=\"%d\" type=\"%s\"/>\n",
&pp->fstype, sizeof (pp->fstype) == 4 ? "INT32" : "INT64");
collector_interface->writeLog (" <field name=\"IOFNAME\" uname=\"File name\" offset=\"%d\" type=\"%s\"/>\n",
&pp->fname, "STRING");
collector_interface->writeLog (" </profpckt>\n");
collector_interface->writeLog ("</profile>\n");
return COL_ERROR_NONE;
}
static int
start_data_collection (void)
{
io_mode = 1;
Tprintf (0, "iotrace: start_data_collection\n");
return 0;
}
static int
stop_data_collection (void)
{
io_mode = 0;
Tprintf (0, "iotrace: stop_data_collection\n");
return 0;
}
static int
close_experiment (void)
{
io_mode = 0;
io_key = COLLECTOR_TSD_INVALID_KEY;
if (io_heap != NULL)
{
collector_interface->deleteHeap (io_heap);
io_heap = NULL;
}
Tprintf (0, "iotrace: close_experiment\n");
return 0;
}
static int
detach_experiment (void)
{
/* fork child. Clean up state but don't write to experiment */
io_mode = 0;
io_key = COLLECTOR_TSD_INVALID_KEY;
if (io_heap != NULL)
{
collector_interface->deleteHeap (io_heap);
io_heap = NULL;
}
Tprintf (0, "iotrace: detach_experiment\n");
return 0;
}
static int
init_io_intf ()
{
void *dlflag;
int rc = 0;
/* if we detect recursion/reentrance, SEGV so we can get a stack */
static int init_io_intf_started;
static int init_io_intf_finished;
init_io_intf_started++;
if (!init_io_intf_finished && init_io_intf_started >= 3)
{
/* pull the plug if recursion occurs... */
abort ();
}
/* lookup fprint to print fatal error message */
void *ptr = dlsym (RTLD_NEXT, "fprintf");
if (ptr)
__real_fprintf = (int (*)(FILE*, const char*, ...)) ptr;
else
abort ();
#if ARCH(Intel)
#if WSIZE(32)
#define SYS_FOPEN_X_VERSION "GLIBC_2.1"
#define SYS_FGETPOS_X_VERSION "GLIBC_2.2"
#define SYS_FGETPOS64_X_VERSION "GLIBC_2.2"
#define SYS_OPEN64_X_VERSION "GLIBC_2.2"
#define SYS_PREAD_X_VERSION "GLIBC_2.2"
#define SYS_PWRITE_X_VERSION "GLIBC_2.2"
#define SYS_PWRITE64_X_VERSION "GLIBC_2.2"
#else /* WSIZE(64) */
#define SYS_FOPEN_X_VERSION "GLIBC_2.2.5"
#define SYS_FGETPOS_X_VERSION "GLIBC_2.2.5"
#endif
#elif ARCH(SPARC)
#if WSIZE(32)
#define SYS_FOPEN_X_VERSION "GLIBC_2.1"
#define SYS_FGETPOS_X_VERSION "GLIBC_2.2"
#else /* WSIZE(64) */
#define SYS_FOPEN_X_VERSION "GLIBC_2.2"
#define SYS_FGETPOS_X_VERSION "GLIBC_2.2"
#endif
#elif ARCH(Aarch64)
#define SYS_FOPEN_X_VERSION "GLIBC_2.17"
#define SYS_FGETPOS_X_VERSION "GLIBC_2.17"
#endif /* ARCH() */
#if WSIZE(32)
dlflag = RTLD_NEXT;
__real_fopen = (FILE * (*)(const char*, const char*))dlvsym (dlflag, "fopen", SYS_FOPEN_X_VERSION);
if (__real_fopen == NULL)
{
/* We are probably dlopened after libc,
* try to search in the previously loaded objects
*/
__real_fopen = (FILE * (*)(const char*, const char*))dlvsym (RTLD_DEFAULT, "fopen", SYS_FOPEN_X_VERSION);
if (__real_fopen != NULL)
{
Tprintf (0, "iotrace: WARNING: init_io_intf() using RTLD_DEFAULT for Linux io routines\n");
dlflag = RTLD_DEFAULT;
}
else
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fopen\n");
rc = COL_ERROR_IOINIT;
}
}
__real_fclose = (int (*)(FILE*))dlvsym (dlflag, "fclose", SYS_FOPEN_X_VERSION);
if (__real_fclose == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fclose\n");
rc = COL_ERROR_IOINIT;
}
__real_fdopen = (FILE * (*)(int, const char*))dlvsym (dlflag, "fdopen", SYS_FOPEN_X_VERSION);
if (__real_fdopen == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fdopen\n");
rc = COL_ERROR_IOINIT;
}
__real_fgetpos = (int (*)(FILE*, fpos_t*))dlvsym (dlflag, "fgetpos", SYS_FGETPOS_X_VERSION);
if (__real_fgetpos == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos = (int (*)(FILE*, const fpos_t*))dlvsym (dlflag, "fsetpos", SYS_FGETPOS_X_VERSION);
if (__real_fsetpos == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos\n");
rc = COL_ERROR_IOINIT;
}
#if ARCH(Intel)
__real_fopen_2_1 = __real_fopen;
__real_fclose_2_1 = __real_fclose;
__real_fdopen_2_1 = __real_fdopen;
__real_fgetpos_2_2 = __real_fgetpos;
__real_fsetpos_2_2 = __real_fsetpos;
__real_fopen_2_0 = (FILE * (*)(const char*, const char*))dlvsym (dlflag, "fopen", "GLIBC_2.0");
if (__real_fopen_2_0 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fopen_2_0\n");
rc = COL_ERROR_IOINIT;
}
__real_fclose_2_0 = (int (*)(FILE*))dlvsym (dlflag, "fclose", "GLIBC_2.0");
if (__real_fclose_2_0 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fclose_2_0\n");
rc = COL_ERROR_IOINIT;
}
__real_fdopen_2_0 = (FILE * (*)(int, const char*))dlvsym (dlflag, "fdopen", "GLIBC_2.0");
if (__real_fdopen_2_0 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fdopen_2_0\n");
rc = COL_ERROR_IOINIT;
}
__real_fgetpos_2_0 = (int (*)(FILE*, fpos_t*))dlvsym (dlflag, "fgetpos", "GLIBC_2.0");
if (__real_fgetpos_2_0 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos_2_0\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos_2_0 = (int (*)(FILE*, const fpos_t*))dlvsym (dlflag, "fsetpos", "GLIBC_2.0");
if (__real_fsetpos_2_0 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos_2_0\n");
rc = COL_ERROR_IOINIT;
}
__real_fgetpos64_2_1 = (int (*)(FILE*, fpos64_t*))dlvsym (dlflag, "fgetpos64", "GLIBC_2.1");
if (__real_fgetpos64_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos64_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos64_2_1 = (int (*)(FILE*, const fpos64_t*))dlvsym (dlflag, "fsetpos64", "GLIBC_2.1");
if (__real_fsetpos64_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos64_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_open64_2_1 = (int (*)(const char*, int, ...))dlvsym (dlflag, "open64", "GLIBC_2.1");
if (__real_open64_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT open64_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_pread_2_1 = (int (*)(int fildes, void *buf, size_t nbyte, off_t offset))dlvsym (dlflag, "pread", "GLIBC_2.1");
if (__real_pread_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pread_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite_2_1 = (int (*)(int fildes, const void *buf, size_t nbyte, off_t offset))dlvsym (dlflag, "pwrite", "GLIBC_2.1");
if (__real_pwrite_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite64_2_1 = (int (*)(int fildes, const void *buf, size_t nbyte, off64_t offset))dlvsym (dlflag, "pwrite64", "GLIBC_2.1");
if (__real_pwrite64_2_1 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite64_2_1\n");
rc = COL_ERROR_IOINIT;
}
__real_fgetpos64_2_2 = (int (*)(FILE*, fpos64_t*))dlvsym (dlflag, "fgetpos64", SYS_FGETPOS64_X_VERSION);
if (__real_fgetpos64_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos64_2_2\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos64_2_2 = (int (*)(FILE*, const fpos64_t*))dlvsym (dlflag, "fsetpos64", SYS_FGETPOS64_X_VERSION);
if (__real_fsetpos64_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos64_2_2\n");
rc = COL_ERROR_IOINIT;
}
__real_open64_2_2 = (int (*)(const char*, int, ...))dlvsym (dlflag, "open64", SYS_OPEN64_X_VERSION);
if (__real_open64_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT open64_2_2\n");
rc = COL_ERROR_IOINIT;
}
__real_pread_2_2 = (int (*)(int fildes, void *buf, size_t nbyte, off_t offset))dlvsym (dlflag, "pread", SYS_PREAD_X_VERSION);
if (__real_pread_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pread_2_2\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite_2_2 = (int (*)(int fildes, const void *buf, size_t nbyte, off_t offset))dlvsym (dlflag, "pwrite", SYS_PWRITE_X_VERSION);
if (__real_pwrite_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite_2_2\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite64_2_2 = (int (*)(int fildes, const void *buf, size_t nbyte, off64_t offset))dlvsym (dlflag, "pwrite64", SYS_PWRITE64_X_VERSION);
if (__real_pwrite64_2_2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite64_2_2\n");
rc = COL_ERROR_IOINIT;
}
#endif
#else /* WSIZE(64) */
dlflag = RTLD_NEXT;
__real_fopen = (FILE * (*)(const char*, const char*))dlvsym (dlflag, "fopen", SYS_FOPEN_X_VERSION);
if (__real_fopen == NULL)
{
/* We are probably dlopened after libc,
* try to search in the previously loaded objects
*/
__real_fopen = (FILE * (*)(const char*, const char*))dlvsym (RTLD_DEFAULT, "fopen", SYS_FOPEN_X_VERSION);
if (__real_fopen != NULL)
{
Tprintf (0, "iotrace: WARNING: init_io_intf() using RTLD_DEFAULT for Linux io routines\n");
dlflag = RTLD_DEFAULT;
}
else
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fopen\n");
rc = COL_ERROR_IOINIT;
}
}
__real_fclose = (int (*)(FILE*))dlvsym (dlflag, "fclose", SYS_FOPEN_X_VERSION);
if (__real_fclose == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fclose\n");
rc = COL_ERROR_IOINIT;
}
__real_fdopen = (FILE * (*)(int, const char*))dlvsym (dlflag, "fdopen", SYS_FOPEN_X_VERSION);
if (__real_fdopen == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fdopen\n");
rc = COL_ERROR_IOINIT;
}
__real_fgetpos = (int (*)(FILE*, fpos_t*))dlvsym (dlflag, "fgetpos", SYS_FGETPOS_X_VERSION);
if (__real_fgetpos == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos = (int (*)(FILE*, const fpos_t*))dlvsym (dlflag, "fsetpos", SYS_FGETPOS_X_VERSION);
if (__real_fsetpos == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos\n");
rc = COL_ERROR_IOINIT;
}
#endif /* WSIZE(32) */
__real_open = (int (*)(const char*, int, ...))dlsym (dlflag, "open");
if (__real_open == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT open\n");
rc = COL_ERROR_IOINIT;
}
#if WSIZE(32)
__real_open64 = (int (*)(const char*, int, ...))dlsym (dlflag, "open64");
if (__real_open64 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT open64\n");
rc = COL_ERROR_IOINIT;
}
#endif
__real_fcntl = (int (*)(int, int, ...))dlsym (dlflag, "fcntl");
if (__real_fcntl == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fcntl\n");
rc = COL_ERROR_IOINIT;
}
__real_openat = (int (*)(int, const char*, int, ...))dlsym (dlflag, "openat");
if (__real_openat == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT openat\n");
rc = COL_ERROR_IOINIT;
}
__real_close = (int (*)(int))dlsym (dlflag, "close");
if (__real_close == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT close\n");
rc = COL_ERROR_IOINIT;
}
__real_dup = (int (*)(int))dlsym (dlflag, "dup");
if (__real_dup == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT dup\n");
rc = COL_ERROR_IOINIT;
}
__real_dup2 = (int (*)(int, int))dlsym (dlflag, "dup2");
if (__real_dup2 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT dup2\n");
rc = COL_ERROR_IOINIT;
}
__real_pipe = (int (*)(int[]))dlsym (dlflag, "pipe");
if (__real_pipe == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pipe\n");
rc = COL_ERROR_IOINIT;
}
__real_socket = (int (*)(int, int, int))dlsym (dlflag, "socket");
if (__real_socket == NULL)
{
__real_socket = (int (*)(int, int, int))dlsym (RTLD_NEXT, "socket");
if (__real_socket == NULL)
{
#if 0
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERXXX_IOINIT socket\n");
rc = COL_ERROR_IOINIT;
#endif
}
}
__real_mkstemp = (int (*)(char*))dlsym (dlflag, "mkstemp");
if (__real_mkstemp == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT mkstemp\n");
rc = COL_ERROR_IOINIT;
}
__real_mkstemps = (int (*)(char*, int))dlsym (dlflag, "mkstemps");
if (__real_mkstemps == NULL)
{
#if 0
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERXXX_IOINIT mkstemps\n");
rc = COL_ERROR_IOINIT;
#endif
}
__real_creat = (int (*)(const char*, mode_t))dlsym (dlflag, "creat");
if (__real_creat == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT creat\n");
rc = COL_ERROR_IOINIT;
}
#if WSIZE(32)
__real_creat64 = (int (*)(const char*, mode_t))dlsym (dlflag, "creat64");
if (__real_creat64 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT creat64\n");
rc = COL_ERROR_IOINIT;
}
#endif
__real_read = (ssize_t (*)(int, void*, size_t))dlsym (dlflag, "read");
if (__real_read == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT read\n");
rc = COL_ERROR_IOINIT;
}
__real_write = (ssize_t (*)(int, const void*, size_t))dlsym (dlflag, "write");
if (__real_write == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT write\n");
rc = COL_ERROR_IOINIT;
}
__real_readv = (ssize_t (*)(int, const struct iovec*, int))dlsym (dlflag, "readv");
if (__real_readv == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT readv\n");
rc = COL_ERROR_IOINIT;
}
__real_writev = (ssize_t (*)(int, const struct iovec*, int))dlsym (dlflag, "writev");
if (__real_writev == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT writev\n");
rc = COL_ERROR_IOINIT;
}
__real_fread = (size_t (*)(void*, size_t, size_t, FILE*))dlsym (dlflag, "fread");
if (__real_fread == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fread\n");
rc = COL_ERROR_IOINIT;
}
__real_fwrite = (size_t (*)(const void*, size_t, size_t, FILE*))dlsym (dlflag, "fwrite");
if (__real_fwrite == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fwrite\n");
rc = COL_ERROR_IOINIT;
}
__real_pread = (ssize_t (*)(int, void*, size_t, off_t))dlsym (dlflag, "pread");
if (__real_pread == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pread\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite = (ssize_t (*)(int, const void*, size_t, off_t))dlsym (dlflag, "pwrite");
if (__real_pwrite == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite\n");
rc = COL_ERROR_IOINIT;
}
__real_pwrite64 = (ssize_t (*)(int, const void*, size_t, off64_t))dlsym (dlflag, "pwrite64");
if (__real_pwrite64 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT pwrite64\n");
rc = COL_ERROR_IOINIT;
}
__real_fgets = (char* (*)(char*, int, FILE*))dlsym (dlflag, "fgets");
if (__real_fgets == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgets\n");
rc = COL_ERROR_IOINIT;
}
__real_fputs = (int (*)(const char*, FILE*))dlsym (dlflag, "fputs");
if (__real_fputs == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fputs\n");
rc = COL_ERROR_IOINIT;
}
__real_fputc = (int (*)(int, FILE*))dlsym (dlflag, "fputc");
if (__real_fputc == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fputc\n");
rc = COL_ERROR_IOINIT;
}
__real_vfprintf = (int (*)(FILE*, const char*, va_list))dlsym (dlflag, "vfprintf");
if (__real_vfprintf == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT vfprintf\n");
rc = COL_ERROR_IOINIT;
}
__real_lseek = (off_t (*)(int, off_t, int))dlsym (dlflag, "lseek");
if (__real_lseek == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT lseek\n");
rc = COL_ERROR_IOINIT;
}
__real_llseek = (offset_t (*)(int, offset_t, int))dlsym (dlflag, "llseek");
if (__real_llseek == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT llseek\n");
rc = COL_ERROR_IOINIT;
}
__real_chmod = (int (*)(const char*, mode_t))dlsym (dlflag, "chmod");
if (__real_chmod == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT chmod\n");
rc = COL_ERROR_IOINIT;
}
__real_access = (int (*)(const char*, int))dlsym (dlflag, "access");
if (__real_access == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT access\n");
rc = COL_ERROR_IOINIT;
}
__real_rename = (int (*)(const char*, const char*))dlsym (dlflag, "rename");
if (__real_rename == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT rename\n");
rc = COL_ERROR_IOINIT;
}
__real_mkdir = (int (*)(const char*, mode_t))dlsym (dlflag, "mkdir");
if (__real_mkdir == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT mkdir\n");
rc = COL_ERROR_IOINIT;
}
__real_getdents = (int (*)(int, struct dirent*, size_t))dlsym (dlflag, "getdents");
if (__real_getdents == NULL)
{
#if 0
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERXXX_IOINIT getdents\n");
rc = COL_ERROR_IOINIT;
#endif
}
__real_unlink = (int (*)(const char*))dlsym (dlflag, "unlink");
if (__real_unlink == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT unlink\n");
rc = COL_ERROR_IOINIT;
}
__real_fseek = (int (*)(FILE*, long, int))dlsym (dlflag, "fseek");
if (__real_fseek == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fseek\n");
rc = COL_ERROR_IOINIT;
}
__real_rewind = (void (*)(FILE*))dlsym (dlflag, "rewind");
if (__real_rewind == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT rewind\n");
rc = COL_ERROR_IOINIT;
}
__real_ftell = (long (*)(FILE*))dlsym (dlflag, "ftell");
if (__real_ftell == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT ftell\n");
rc = COL_ERROR_IOINIT;
}
__real_fsync = (int (*)(int))dlsym (dlflag, "fsync");
if (__real_fsync == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsync\n");
rc = COL_ERROR_IOINIT;
}
__real_readdir = (struct dirent * (*)(DIR*))dlsym (dlflag, "readdir");
if (__real_readdir == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT readdir\n");
rc = COL_ERROR_IOINIT;
}
__real_flock = (int (*)(int, int))dlsym (dlflag, "flock");
if (__real_flock == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT flock\n");
rc = COL_ERROR_IOINIT;
}
__real_lockf = (int (*)(int, int, off_t))dlsym (dlflag, "lockf");
if (__real_lockf == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT lockf\n");
rc = COL_ERROR_IOINIT;
}
__real_fflush = (int (*)(FILE*))dlsym (dlflag, "fflush");
if (__real_fflush == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fflush\n");
rc = COL_ERROR_IOINIT;
}
#if WSIZE(32)
__real_fgetpos64 = (int (*)(FILE*, fpos64_t*))dlsym (dlflag, "fgetpos64");
if (__real_fgetpos64 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fgetpos64\n");
rc = COL_ERROR_IOINIT;
}
__real_fsetpos64 = (int (*)(FILE*, const fpos64_t*))dlsym (dlflag, "fsetpos64");
if (__real_fsetpos64 == NULL)
{
CALL_REAL (fprintf)(stderr, "iotrace_init COL_ERROR_IOINIT fsetpos64\n");
rc = COL_ERROR_IOINIT;
}
#endif
init_io_intf_finished++;
return rc;
}
/*------------------------------------------------------------- open */
int
open (const char *path, int oflag, ...)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
mode_t mode;
va_list ap;
size_t sz;
unsigned pktSize;
va_start (ap, oflag);
mode = va_arg (ap, mode_t);
va_end (ap);
if (NULL_PTR (open))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (open)(path, oflag, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (open)(path, oflag, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (path);
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: open cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- open64 */
#if ARCH(Intel) && WSIZE(32)
// map interposed symbol versions
static int
__collector_open64_symver (int(real_open64) (const char *, int, ...),
const char *path, int oflag, mode_t mode);
SYMVER_ATTRIBUTE (__collector_open64_2_2, open64@@GLIBC_2.2)
int
__collector_open64_2_2 (const char *path, int oflag, ...)
{
mode_t mode;
va_list ap;
va_start (ap, oflag);
mode = va_arg (ap, mode_t);
va_end (ap);
TprintfT (DBG_LTT,
"iotrace: __collector_open64_2_2@%p(path=%s, oflag=0%o, mode=0%o\n",
CALL_REAL (open64_2_2), path ? path : "NULL", oflag, mode);
if (NULL_PTR (open64))
init_io_intf ();
return __collector_open64_symver (CALL_REAL (open64_2_2), path, oflag, mode);
}
SYMVER_ATTRIBUTE (__collector_open64_2_1, open64@GLIBC_2.1)
int
__collector_open64_2_1 (const char *path, int oflag, ...)
{
mode_t mode;
va_list ap;
va_start (ap, oflag);
mode = va_arg (ap, mode_t);
va_end (ap);
TprintfT (DBG_LTT,
"iotrace: __collector_open64_2_1@%p(path=%s, oflag=0%o, mode=0%o\n",
CALL_REAL (open64_2_1), path ? path : "NULL", oflag, mode);
if (NULL_PTR (open64))
init_io_intf ();
return __collector_open64_symver (CALL_REAL (open64_2_1), path, oflag, mode);
}
#endif /* ARCH(Intel) && WSIZE(32) */
#if WSIZE(32)
#if ARCH(Intel) && WSIZE(32)
static int
__collector_open64_symver (int(real_open64) (const char *, int, ...),
const char *path, int oflag, mode_t mode)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (open64))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return (real_open64) (path, oflag, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = real_open64 (path, oflag, mode);
#else /* ^ARCH(Intel) && WSIZE(32) */
int
open64 (const char *path, int oflag, ...)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
mode_t mode;
va_list ap;
size_t sz;
unsigned pktSize;
va_start (ap, oflag);
mode = va_arg (ap, mode_t);
va_end (ap);
if (NULL_PTR (open64))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (open64)(path, oflag, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (open64)(path, oflag, mode);
#endif /* ^ARCH(Intel) && WSIZE(32) */
if (RECHCK_REENTRANCE (guard) || path == NULL)
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (path);
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: open64 cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
#endif
#define F_ERROR_ARG 0
#define F_INT_ARG 1
#define F_LONG_ARG 2
#define F_VOID_ARG 3
/*
* The following macro is not defined in the
* older versions of Linux.
* #define F_DUPFD_CLOEXEC 1030
*
* Instead use the command that is defined below
* until we start compiling mpmt on the newer
* versions of Linux.
*/
#define TMP_F_DUPFD_CLOEXEC 1030
/*------------------------------------------------------------- fcntl */
int
fcntl (int fildes, int cmd, ...)
{
int *guard;
int fd = 0;
IOTrace_packet iopkt;
long long_arg = 0;
int int_arg = 0;
int which_arg = F_ERROR_ARG;
va_list ap;
switch (cmd)
{
case F_DUPFD:
case TMP_F_DUPFD_CLOEXEC:
case F_SETFD:
case F_SETFL:
case F_SETOWN:
case F_SETSIG:
case F_SETLEASE:
case F_NOTIFY:
case F_SETLK:
case F_SETLKW:
case F_GETLK:
va_start (ap, cmd);
long_arg = va_arg (ap, long);
va_end (ap);
which_arg = F_LONG_ARG;
break;
case F_GETFD:
case F_GETFL:
case F_GETOWN:
case F_GETLEASE:
case F_GETSIG:
which_arg = F_VOID_ARG;
break;
}
if (NULL_PTR (fcntl))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
{
switch (which_arg)
{
case F_INT_ARG:
return CALL_REAL (fcntl)(fildes, cmd, int_arg);
case F_LONG_ARG:
return CALL_REAL (fcntl)(fildes, cmd, long_arg);
case F_VOID_ARG:
return CALL_REAL (fcntl)(fildes, cmd);
case F_ERROR_ARG:
Tprintf (0, "iotrace: ERROR: Unsupported fcntl command\n");
return -1;
}
return -1;
}
if (cmd != F_DUPFD && cmd != TMP_F_DUPFD_CLOEXEC)
{
switch (which_arg)
{
case F_INT_ARG:
return CALL_REAL (fcntl)(fildes, cmd, int_arg);
case F_LONG_ARG:
return CALL_REAL (fcntl)(fildes, cmd, long_arg);
case F_VOID_ARG:
return CALL_REAL (fcntl)(fildes, cmd);
case F_ERROR_ARG:
Tprintf (0, "iotrace: ERROR: Unsupported fcntl command\n");
return -1;
}
return -1;
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
switch (cmd)
{
case F_DUPFD:
case TMP_F_DUPFD_CLOEXEC:
fd = CALL_REAL (fcntl)(fildes, cmd, long_arg);
break;
}
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (fd != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fd;
iopkt.ofd = fildes;
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- openat */
int
openat (int fildes, const char *path, int oflag, ...)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
mode_t mode;
va_list ap;
size_t sz;
unsigned pktSize;
va_start (ap, oflag);
mode = va_arg (ap, mode_t);
va_end (ap);
if (NULL_PTR (openat))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (openat)(fildes, path, oflag, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (openat)(fildes, path, oflag, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (path);
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: openat cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- creat */
int
creat (const char *path, mode_t mode)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (creat))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (creat)(path, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (creat)(path, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (path);
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: creat cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- creat64 */
#if WSIZE(32)
int
creat64 (const char *path, mode_t mode)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (creat64))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (creat64)(path, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (creat64)(path, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (path);
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: creat64 cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
#endif
/*------------------------------------------------------------- mkstemp */
int
mkstemp (char *template)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (mkstemp))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || template == NULL)
return CALL_REAL (mkstemp)(template);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (mkstemp)(template);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (template);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (template);
collector_strncpy (&(iopkt->fname), template, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: mkstemp cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- mkstemps */
int
mkstemps (char *template, int slen)
{
int *guard;
int fd;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (mkstemps))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || template == NULL)
return CALL_REAL (mkstemps)(template, slen);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (mkstemps)(template, slen);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (template);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fd != -1)
iopkt->iotype = OPEN_TRACE;
else
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = fd;
iopkt->fstype = collector_fstype (template);
collector_strncpy (&(iopkt->fname), template, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: mkstemps cannot allocate memory\n");
return -1;
}
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- close */
int
close (int fildes)
{
int *guard;
int stat;
IOTrace_packet iopkt;
if (NULL_PTR (close))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (close)(fildes);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
stat = CALL_REAL (close)(fildes);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return stat;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (stat == 0)
iopkt.iotype = CLOSE_TRACE;
else
iopkt.iotype = CLOSE_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return stat;
}
/*------------------------------------------------------------- fopen */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static FILE*
__collector_fopen_symver (FILE*(real_fopen) (), const char *filename, const char *mode);
SYMVER_ATTRIBUTE (__collector_fopen_2_1, fopen@@GLIBC_2.1)
FILE*
__collector_fopen_2_1 (const char *filename, const char *mode)
{
if (NULL_PTR (fopen))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fopen_2_1@%p\n", CALL_REAL (fopen_2_1));
return __collector_fopen_symver (CALL_REAL (fopen_2_1), filename, mode);
}
SYMVER_ATTRIBUTE (__collector_fopen_2_0, fopen@GLIBC_2.0)
FILE*
__collector_fopen_2_0 (const char *filename, const char *mode)
{
if (NULL_PTR (fopen))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fopen_2_0@%p\n", CALL_REAL (fopen_2_0));
return __collector_fopen_symver (CALL_REAL (fopen_2_0), filename, mode);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static FILE*
__collector_fopen_symver (FILE*(real_fopen) (), const char *filename, const char *mode)
{
#else
FILE*
fopen (const char *filename, const char *mode)
{
#endif
int *guard;
FILE *fp = NULL;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (fopen))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || filename == NULL)
{
#if ARCH(Intel) && WSIZE(32)
return (real_fopen) (filename, mode);
#else
return CALL_REAL (fopen)(filename, mode);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
fp = (real_fopen) (filename, mode);
#else
fp = CALL_REAL (fopen)(filename, mode);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fp;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (filename);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (fp != NULL)
{
iopkt->iotype = OPEN_TRACE;
iopkt->fd = fileno (fp);
}
else
{
iopkt->iotype = OPEN_TRACE_ERROR;
iopkt->fd = -1;
}
iopkt->fstype = collector_fstype (filename);
collector_strncpy (&(iopkt->fname), filename, sz);
#if ARCH(Intel) && WSIZE(32)
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: fopen cannot allocate memory\n");
return NULL;
}
POP_REENTRANCE (guard);
return fp;
}
/*------------------------------------------------------------- fclose */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fclose_symver (int(real_fclose) (), FILE *stream);
SYMVER_ATTRIBUTE (__collector_fclose_2_1, fclose@@GLIBC_2.1)
int
__collector_fclose_2_1 (FILE *stream)
{
if (NULL_PTR (fclose))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fclose_2_1@%p\n", CALL_REAL (fclose_2_1));
return __collector_fclose_symver (CALL_REAL (fclose_2_1), stream);
}
SYMVER_ATTRIBUTE (__collector_fclose_2_0, fclose@GLIBC_2.0)
int
__collector_fclose_2_0 (FILE *stream)
{
if (NULL_PTR (fclose))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fclose_2_0@%p\n", CALL_REAL (fclose_2_0));
return __collector_fclose_symver (CALL_REAL (fclose_2_0), stream);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fclose_symver (int(real_fclose) (), FILE *stream)
{
#else
int
fclose (FILE *stream)
{
#endif
int *guard;
int stat;
IOTrace_packet iopkt;
if (NULL_PTR (fclose))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
#if ARCH(Intel) && WSIZE(32)
return (real_fclose) (stream);
#else
return CALL_REAL (fclose)(stream);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
stat = (real_fclose) (stream);
#else
stat = CALL_REAL (fclose)(stream);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return stat;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (stat == 0)
iopkt.iotype = CLOSE_TRACE;
else
iopkt.iotype = CLOSE_TRACE_ERROR;
iopkt.fd = fileno (stream);
#if ARCH(Intel) && WSIZE(32)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return stat;
}
/*------------------------------------------------------------- fflush */
int
fflush (FILE *stream)
{
int *guard;
int stat;
IOTrace_packet iopkt;
if (NULL_PTR (fflush))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (fflush)(stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
stat = CALL_REAL (fflush)(stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return stat;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (stat == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
if (stream != NULL)
iopkt.fd = fileno (stream);
else
iopkt.fd = -1;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return stat;
}
/*------------------------------------------------------------- fdopen */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static FILE*
__collector_fdopen_symver (FILE*(real_fdopen) (), int fildes, const char *mode);
SYMVER_ATTRIBUTE (__collector_fdopen_2_1, fdopen@@GLIBC_2.1)
FILE*
__collector_fdopen_2_1 (int fildes, const char *mode)
{
if (NULL_PTR (fdopen))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fdopen_2_1@%p\n", CALL_REAL (fdopen_2_1));
return __collector_fdopen_symver (CALL_REAL (fdopen_2_1), fildes, mode);
}
SYMVER_ATTRIBUTE (__collector_fdopen_2_0, fdopen@GLIBC_2.0)
FILE*
__collector_fdopen_2_0 (int fildes, const char *mode)
{
if (NULL_PTR (fdopen))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fdopen_2_0@%p\n", CALL_REAL (fdopen_2_0));
return __collector_fdopen_symver (CALL_REAL (fdopen_2_0), fildes, mode);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static FILE*
__collector_fdopen_symver (FILE*(real_fdopen) (), int fildes, const char *mode)
{
#else
FILE*
fdopen (int fildes, const char *mode)
{
#endif
int *guard;
FILE *fp = NULL;
IOTrace_packet iopkt;
if (NULL_PTR (fdopen))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
{
#if ARCH(Intel) && WSIZE(32)
return (real_fdopen) (fildes, mode);
#else
return CALL_REAL (fdopen)(fildes, mode);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
fp = (real_fdopen) (fildes, mode);
#else
fp = CALL_REAL (fdopen)(fildes, mode);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fp;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (fp != NULL)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.fstype = UNKNOWNFS_TYPE;
#if ARCH(Intel) && WSIZE(32)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return fp;
}
/*------------------------------------------------------------- dup */
int
dup (int fildes)
{
int *guard;
int fd;
IOTrace_packet iopkt;
if (NULL_PTR (dup))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (dup)(fildes);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (dup)(fildes);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (fd != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fd;
iopkt.ofd = fildes;
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- dup2 */
int
dup2 (int fildes, int fildes2)
{
int *guard;
int fd;
IOTrace_packet iopkt;
if (NULL_PTR (dup2))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (dup2)(fildes, fildes2);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (dup2)(fildes, fildes2);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (fd != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fd;
iopkt.ofd = fildes;
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- pipe */
int
pipe (int fildes[2])
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (pipe))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (pipe)(fildes);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (pipe)(fildes);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fildes[0];
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fildes[1];
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- socket */
int
socket (int domain, int type, int protocol)
{
int *guard;
int fd;
IOTrace_packet iopkt;
if (NULL_PTR (socket))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (socket)(domain, type, protocol);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
fd = CALL_REAL (socket)(domain, type, protocol);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return fd;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (fd != -1)
iopkt.iotype = OPEN_TRACE;
else
iopkt.iotype = OPEN_TRACE_ERROR;
iopkt.fd = fd;
iopkt.fstype = UNKNOWNFS_TYPE;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return fd;
}
/*------------------------------------------------------------- read */
ssize_t
read (int fildes, void *buf, size_t nbyte)
{
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (read))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (read)(fildes, buf, nbyte);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (read)(fildes, buf, nbyte);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = READ_TRACE;
else
iopkt.iotype = READ_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- write */
ssize_t
write (int fildes, const void *buf, size_t nbyte)
{
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (write))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (write)(fildes, buf, nbyte);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (write)(fildes, buf, nbyte);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- readv */
ssize_t
readv (int fildes, const struct iovec *iov, int iovcnt)
{
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (readv))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (readv)(fildes, iov, iovcnt);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (readv)(fildes, iov, iovcnt);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = READ_TRACE;
else
iopkt.iotype = READ_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- writev */
ssize_t
writev (int fildes, const struct iovec *iov, int iovcnt)
{
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (writev))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (writev)(fildes, iov, iovcnt);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (writev)(fildes, iov, iovcnt);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fread */
size_t
fread (void *ptr, size_t size, size_t nitems, FILE *stream)
{
int *guard;
size_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (fread))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fread)(ptr, size, nitems, stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fread)(ptr, size, nitems, stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ferror (stream) == 0)
{
iopkt.iotype = READ_TRACE;
iopkt.nbyte = ret * size;
}
else
{
iopkt.iotype = READ_TRACE_ERROR;
iopkt.nbyte = 0;
}
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fwrite */
size_t
fwrite (const void *ptr, size_t size, size_t nitems, FILE *stream)
{
int *guard;
size_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (fwrite))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fwrite)(ptr, size, nitems, stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fwrite)(ptr, size, nitems, stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ferror (stream) == 0)
{
iopkt.iotype = WRITE_TRACE;
iopkt.nbyte = ret * size;
}
else
{
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.nbyte = 0;
}
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- pread */
#if ARCH(Intel) && WSIZE(32)
// map interposed symbol versions
static int
__collector_pread_symver (int(real_pread) (), int fildes, void *buf, size_t nbyte, off_t offset);
SYMVER_ATTRIBUTE (__collector_pread_2_2, pread@@GLIBC_2.2)
int
__collector_pread_2_2 (int fildes, void *buf, size_t nbyte, off_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pread_2_2@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pread_2_2), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pread))
init_io_intf ();
return __collector_pread_symver (CALL_REAL (pread_2_2), fildes, buf, nbyte, offset);
}
SYMVER_ATTRIBUTE (__collector_pread_2_1, pread@GLIBC_2.1)
int
__collector_pread_2_1 (int fildes, void *buf, size_t nbyte, off_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pread_2_1@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pread_2_1), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pread))
init_io_intf ();
return __collector_pread_symver (CALL_REAL (pread_2_1), fildes, buf, nbyte, offset);
}
static int
__collector_pread_symver (int(real_pread) (), int fildes, void *buf, size_t nbyte, off_t offset)
{
#else /* ^ARCH(Intel) && WSIZE(32) */
ssize_t
pread (int fildes, void *buf, size_t nbyte, off_t offset)
{
#endif
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (pread))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
{
#if ARCH(Intel) && WSIZE(32)
return (real_pread) (fildes, buf, nbyte, offset);
#else
return CALL_REAL (pread)(fildes, buf, nbyte, offset);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_pread) (fildes, buf, nbyte, offset);
#else
ret = CALL_REAL (pread)(fildes, buf, nbyte, offset);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = READ_TRACE;
else
iopkt.iotype = READ_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- pwrite */
#if ARCH(Intel) && WSIZE(32)
// map interposed symbol versions
static int
__collector_pwrite_symver (int(real_pwrite) (), int fildes, const void *buf, size_t nbyte, off_t offset);
SYMVER_ATTRIBUTE (__collector_pwrite_2_2, pwrite@@GLIBC_2.2)
int
__collector_pwrite_2_2 (int fildes, const void *buf, size_t nbyte, off_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pwrite_2_2@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pwrite_2_2), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pwrite))
init_io_intf ();
return __collector_pwrite_symver (CALL_REAL (pwrite_2_2), fildes, buf, nbyte, offset);
}
SYMVER_ATTRIBUTE (__collector_pwrite_2_1, pwrite@GLIBC_2.1)
int
__collector_pwrite_2_1 (int fildes, const void *buf, size_t nbyte, off_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pwrite_2_1@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pwrite_2_1), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pwrite))
init_io_intf ();
return __collector_pwrite_symver (CALL_REAL (pwrite_2_1), fildes, buf, nbyte, offset);
}
static int
__collector_pwrite_symver (int(real_pwrite) (), int fildes, const void *buf, size_t nbyte, off_t offset)
{
#else /* ^ARCH(Intel) && WSIZE(32) */
ssize_t
pwrite (int fildes, const void *buf, size_t nbyte, off_t offset)
{
#endif /* ^ARCH(Intel) && WSIZE(32) */
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (pwrite))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
{
#if ARCH(Intel) && WSIZE(32)
return (real_pwrite) (fildes, buf, nbyte, offset);
#else
return CALL_REAL (pwrite)(fildes, buf, nbyte, offset);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_pwrite) (fildes, buf, nbyte, offset);
#else
ret = CALL_REAL (pwrite)(fildes, buf, nbyte, offset);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- pwrite64 */
#if ARCH(Intel) && WSIZE(32)
// map interposed symbol versions
static int
__collector_pwrite64_symver (int(real_pwrite64) (), int fildes, const void *buf, size_t nbyte, off64_t offset);
SYMVER_ATTRIBUTE (__collector_pwrite64_2_2, pwrite64@@GLIBC_2.2)
int
__collector_pwrite64_2_2 (int fildes, const void *buf, size_t nbyte, off64_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pwrite64_2_2@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pwrite64_2_2), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pwrite64))
init_io_intf ();
return __collector_pwrite64_symver (CALL_REAL (pwrite64_2_2), fildes, buf, nbyte, offset);
}
SYMVER_ATTRIBUTE (__collector_pwrite64_2_1, pwrite64@GLIBC_2.1)
int
__collector_pwrite64_2_1 (int fildes, const void *buf, size_t nbyte, off64_t offset)
{
TprintfT (DBG_LTT, "iotrace: __collector_pwrite64_2_1@%p(fildes=%d, buf=%p, nbyte=%lld, offset=%lld)\n",
CALL_REAL (pwrite64_2_1), fildes, buf, (long long) nbyte, (long long) offset);
if (NULL_PTR (pwrite64))
init_io_intf ();
return __collector_pwrite64_symver (CALL_REAL (pwrite64_2_1), fildes, buf, nbyte, offset);
}
static int
__collector_pwrite64_symver (int(real_pwrite64) (), int fildes, const void *buf, size_t nbyte, off64_t offset)
{
#else /* ^ARCH(Intel) && WSIZE(32) */
ssize_t
pwrite64 (int fildes, const void *buf, size_t nbyte, off64_t offset)
{
#endif /* ^ARCH(Intel) && WSIZE(32) */
int *guard;
ssize_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (pwrite64))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
{
#if ARCH(Intel) && WSIZE(32)
return (real_pwrite64) (fildes, buf, nbyte, offset);
#else
return CALL_REAL (pwrite64)(fildes, buf, nbyte, offset);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_pwrite64) (fildes, buf, nbyte, offset);
#else
ret = CALL_REAL (pwrite64)(fildes, buf, nbyte, offset);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fgets */
char*
fgets (char *s, int n, FILE *stream)
{
int *guard;
char *ptr;
IOTrace_packet iopkt;
if (NULL_PTR (fgets))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fgets)(s, n, stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ptr = CALL_REAL (fgets)(s, n, stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ptr;
}
int error = errno;
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ptr != NULL)
{
iopkt.iotype = READ_TRACE;
iopkt.nbyte = collector_strlen (ptr);
}
else if (ptr == NULL && error != EAGAIN && error != EBADF && error != EINTR &&
error != EIO && error != EOVERFLOW && error != ENOMEM && error != ENXIO)
{
iopkt.iotype = READ_TRACE;
iopkt.nbyte = 0;
}
else
iopkt.iotype = READ_TRACE_ERROR;
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ptr;
}
/*------------------------------------------------------------- fputs */
int
fputs (const char *s, FILE *stream)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fputs))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fputs)(s, stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fputs)(s, stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != EOF)
{
iopkt.iotype = WRITE_TRACE;
iopkt.nbyte = ret;
}
else
{
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.nbyte = 0;
}
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fputc */
int
fputc (int c, FILE *stream)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fputc))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fputc)(c, stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fputc)(c, stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != EOF)
{
iopkt.iotype = WRITE_TRACE;
iopkt.nbyte = ret;
}
else
{
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.nbyte = 0;
}
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fprintf */
int
fprintf (FILE *stream, const char *format, ...)
{
int *guard;
int ret;
IOTrace_packet iopkt;
va_list ap;
va_start (ap, format);
if (NULL_PTR (fprintf))
init_io_intf ();
if (NULL_PTR (vfprintf))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (vfprintf)(stream, format, ap);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (vfprintf)(stream, format, ap);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fileno (stream);
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- vfprintf */
int
vfprintf (FILE *stream, const char *format, va_list ap)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (vfprintf))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (vfprintf)(stream, format, ap);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (vfprintf)(stream, format, ap);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret >= 0)
iopkt.iotype = WRITE_TRACE;
else
iopkt.iotype = WRITE_TRACE_ERROR;
iopkt.fd = fileno (stream);
iopkt.nbyte = ret;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- lseek */
off_t
lseek (int fildes, off_t offset, int whence)
{
int *guard;
off_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (lseek))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (lseek)(fildes, offset, whence);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (lseek)(fildes, offset, whence);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- llseek */
offset_t
llseek (int fildes, offset_t offset, int whence)
{
int *guard;
offset_t ret;
IOTrace_packet iopkt;
if (NULL_PTR (llseek))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (llseek)(fildes, offset, whence);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (llseek)(fildes, offset, whence);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- chmod */
int
chmod (const char *path, mode_t mode)
{
int *guard;
int ret;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (chmod))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (chmod)(path, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (chmod)(path, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (ret != -1)
iopkt->iotype = OTHERIO_TRACE;
else
iopkt->iotype = OTHERIO_TRACE_ERROR;
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: chmod cannot allocate memory\n");
return 0;
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- access */
int
access (const char *path, int amode)
{
int *guard;
int ret;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (access))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (access)(path, amode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (access)(path, amode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (ret != -1)
iopkt->iotype = OTHERIO_TRACE;
else
iopkt->iotype = OTHERIO_TRACE_ERROR;
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: access cannot allocate memory\n");
return 0;
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- rename */
int
rename (const char *old, const char *new)
{
int *guard;
int ret;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (rename))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || new == NULL)
return CALL_REAL (rename)(old, new);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (rename)(old, new);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (new);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (ret != -1)
iopkt->iotype = OTHERIO_TRACE;
else
iopkt->iotype = OTHERIO_TRACE_ERROR;
collector_strncpy (&(iopkt->fname), new, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: rename cannot allocate memory\n");
return 0;
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- mkdir */
int
mkdir (const char *path, mode_t mode)
{
int *guard;
int ret;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (mkdir))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (mkdir)(path, mode);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (mkdir)(path, mode);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (ret != -1)
iopkt->iotype = OTHERIO_TRACE;
else
iopkt->iotype = OTHERIO_TRACE_ERROR;
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: mkdir cannot allocate memory\n");
return 0;
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- getdents */
int
getdents (int fildes, struct dirent *buf, size_t nbyte)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (getdents))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (getdents)(fildes, buf, nbyte);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (getdents)(fildes, buf, nbyte);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- unlink */
int
unlink (const char *path)
{
int *guard;
int ret;
void *packet;
IOTrace_packet *iopkt;
size_t sz;
unsigned pktSize;
if (NULL_PTR (unlink))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || path == NULL)
return CALL_REAL (unlink)(path);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (unlink)(path);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
sz = collector_strlen (path);
pktSize = sizeof (IOTrace_packet) + sz;
pktSize = collector_align_pktsize (pktSize);
Tprintf (DBG_LT1, "iotrace allocating %u from io_heap\n", pktSize);
packet = collector_interface->allocCSize (io_heap, pktSize, 1);
if (packet != NULL)
{
iopkt = (IOTrace_packet *) packet;
collector_memset (iopkt, 0, pktSize);
iopkt->comm.tsize = pktSize;
iopkt->comm.tstamp = grnt;
iopkt->requested = reqt;
if (ret != -1)
iopkt->iotype = OTHERIO_TRACE;
else
iopkt->iotype = OTHERIO_TRACE_ERROR;
collector_strncpy (&(iopkt->fname), path, sz);
iopkt->comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt->comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) iopkt);
collector_interface->freeCSize (io_heap, packet, pktSize);
}
else
{
Tprintf (0, "iotrace: ERROR: unlink cannot allocate memory\n");
return 0;
}
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fseek */
int
fseek (FILE *stream, long offset, int whence)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fseek))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (fseek)(stream, offset, whence);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fseek)(stream, offset, whence);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- rewind */
void
rewind (FILE *stream)
{
int *guard;
IOTrace_packet iopkt;
if (NULL_PTR (rewind))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
CALL_REAL (rewind)(stream);
return;
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
CALL_REAL (rewind)(stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
iopkt.iotype = OTHERIO_TRACE;
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
}
/*------------------------------------------------------------- ftell */
long
ftell (FILE *stream)
{
int *guard;
long ret;
IOTrace_packet iopkt;
if (NULL_PTR (ftell))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
return CALL_REAL (ftell)(stream);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (ftell)(stream);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret != -1)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- fgetpos */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fgetpos_symver (int(real_fgetpos) (), FILE *stream, fpos_t *pos);
SYMVER_ATTRIBUTE (__collector_fgetpos_2_2, fgetpos@@GLIBC_2.2)
int
__collector_fgetpos_2_2 (FILE *stream, fpos_t *pos)
{
if (NULL_PTR (fgetpos))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fgetpos_2_2@%p\n", CALL_REAL (fgetpos_2_2));
return __collector_fgetpos_symver (CALL_REAL (fgetpos_2_2), stream, pos);
}
SYMVER_ATTRIBUTE (__collector_fgetpos_2_0, fgetpos@GLIBC_2.0)
int
__collector_fgetpos_2_0 (FILE *stream, fpos_t *pos)
{
if (NULL_PTR (fgetpos))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fgetpos_2_0@%p\n", CALL_REAL (fgetpos_2_0));
return __collector_fgetpos_symver (CALL_REAL (fgetpos_2_0), stream, pos);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fgetpos_symver (int(real_fgetpos) (), FILE *stream, fpos_t *pos)
{
#else
int
fgetpos (FILE *stream, fpos_t *pos)
{
#endif
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fgetpos))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
#if ARCH(Intel) && WSIZE(32)
return (real_fgetpos) (stream, pos);
#else
return CALL_REAL (fgetpos)(stream, pos);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_fgetpos) (stream, pos);
#else
ret = CALL_REAL (fgetpos)(stream, pos);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
#if ARCH(Intel) && WSIZE(32)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
#if WSIZE(32)
/*------------------------------------------------------------- fgetpos64 */
#if ARCH(Intel)
// map interposed symbol versions
static int
__collector_fgetpos64_symver (int(real_fgetpos64) (), FILE *stream, fpos64_t *pos);
SYMVER_ATTRIBUTE (__collector_fgetpos64_2_2, fgetpos64@@GLIBC_2.2)
int
__collector_fgetpos64_2_2 (FILE *stream, fpos64_t *pos)
{
TprintfT (DBG_LTT, "iotrace: __collector_fgetpos64_2_2@%p(stream=%p, pos=%p)\n",
CALL_REAL (fgetpos64_2_2), stream, pos);
if (NULL_PTR (fgetpos64))
init_io_intf ();
return __collector_fgetpos64_symver (CALL_REAL (fgetpos64_2_2), stream, pos);
}
SYMVER_ATTRIBUTE (__collector_fgetpos64_2_1, fgetpos64@GLIBC_2.1)
int
__collector_fgetpos64_2_1 (FILE *stream, fpos64_t *pos)
{
TprintfT (DBG_LTT, "iotrace: __collector_fgetpos64_2_1@%p(stream=%p, pos=%p)\n",
CALL_REAL (fgetpos64_2_1), stream, pos);
if (NULL_PTR (fgetpos64))
init_io_intf ();
return __collector_fgetpos64_symver (CALL_REAL (fgetpos64_2_1), stream, pos);
}
static int
__collector_fgetpos64_symver (int(real_fgetpos64) (), FILE *stream, fpos64_t *pos)
{
#else
int
fgetpos64 (FILE *stream, fpos64_t *pos)
{
#endif
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fgetpos64))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
#if ARCH(Intel)
return (real_fgetpos64) (stream, pos);
#else
return CALL_REAL (fgetpos64)(stream, pos);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel)
ret = (real_fgetpos64) (stream, pos);
#else
ret = CALL_REAL (fgetpos64)(stream, pos);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
#if ARCH(Intel)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
#endif
/*------------------------------------------------------------- fsetpos */
// map interposed symbol versions
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fsetpos_symver (int(real_fsetpos) (), FILE *stream, const fpos_t *pos);
SYMVER_ATTRIBUTE (__collector_fsetpos_2_2, fsetpos@@GLIBC_2.2)
int
__collector_fsetpos_2_2 (FILE *stream, const fpos_t *pos)
{
if (NULL_PTR (fsetpos))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fsetpos_2_2@%p\n", CALL_REAL (fsetpos_2_2));
return __collector_fsetpos_symver (CALL_REAL (fsetpos_2_2), stream, pos);
}
SYMVER_ATTRIBUTE (__collector_fsetpos_2_0, fsetpos@GLIBC_2.0)
int
__collector_fsetpos_2_0 (FILE *stream, const fpos_t *pos)
{
if (NULL_PTR (fsetpos))
init_io_intf ();
TprintfT (DBG_LTT, "iotrace: __collector_fsetpos_2_0@%p\n", CALL_REAL (fsetpos_2_0));
return __collector_fsetpos_symver (CALL_REAL (fsetpos_2_0), stream, pos);
}
#endif
#if ARCH(Intel) && WSIZE(32)
static int
__collector_fsetpos_symver (int(real_fsetpos) (), FILE *stream, const fpos_t *pos)
{
#else
int
fsetpos (FILE *stream, const fpos_t *pos)
{
#endif
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fsetpos))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
#if ARCH(Intel) && WSIZE(32)
return (real_fsetpos) (stream, pos);
#else
return CALL_REAL (fsetpos)(stream, pos);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_fsetpos) (stream, pos);
#else
ret = CALL_REAL (fsetpos)(stream, pos);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
#if ARCH(Intel) && WSIZE(32)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
#if WSIZE(32)
/*------------------------------------------------------------- fsetpos64 */
#if ARCH(Intel)
// map interposed symbol versions
static int
__collector_fsetpos64_symver (int(real_fsetpos64) (), FILE *stream, const fpos64_t *pos);
SYMVER_ATTRIBUTE (__collector_fsetpos64_2_2, fsetpos64@@GLIBC_2.2)
int
__collector_fsetpos64_2_2 (FILE *stream, const fpos64_t *pos)
{
TprintfT (DBG_LTT, "iotrace: __collector_fsetpos64_2_2@%p(stream=%p, pos=%p)\n",
CALL_REAL (fsetpos64_2_2), stream, pos);
if (NULL_PTR (fsetpos64))
init_io_intf ();
return __collector_fsetpos64_symver (CALL_REAL (fsetpos64_2_2), stream, pos);
}
SYMVER_ATTRIBUTE (__collector_fsetpos64_2_1, fsetpos64@GLIBC_2.1)
int
__collector_fsetpos64_2_1 (FILE *stream, const fpos64_t *pos)
{
TprintfT (DBG_LTT, "iotrace: __collector_fsetpos64_2_1@%p(stream=%p, pos=%p)\n",
CALL_REAL (fsetpos64_2_1), stream, pos);
if (NULL_PTR (fsetpos64))
init_io_intf ();
return __collector_fsetpos64_symver (CALL_REAL (fsetpos64_2_1), stream, pos);
}
static int
__collector_fsetpos64_symver (int(real_fsetpos64) (), FILE *stream, const fpos64_t *pos)
{
#else
int
fsetpos64 (FILE *stream, const fpos64_t *pos)
{
#endif
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fsetpos64))
init_io_intf ();
if (CHCK_REENTRANCE (guard) || stream == NULL)
{
#if ARCH(Intel) && WSIZE(32)
return (real_fsetpos64) (stream, pos);
#else
return CALL_REAL (fsetpos64)(stream, pos);
#endif
}
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
#if ARCH(Intel) && WSIZE(32)
ret = (real_fsetpos64) (stream, pos);
#else
ret = CALL_REAL (fsetpos64)(stream, pos);
#endif
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fileno (stream);
#if ARCH(Intel)
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK_ARG, &iopkt);
#else
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
#endif
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
#endif
/*------------------------------------------------------------- fsync */
int
fsync (int fildes)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (fsync))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (fsync)(fildes);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (fsync)(fildes);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- readdir */
struct dirent*
readdir (DIR *dirp)
{
int *guard;
struct dirent *ptr;
IOTrace_packet iopkt;
if (NULL_PTR (readdir))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (readdir)(dirp);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ptr = CALL_REAL (readdir)(dirp);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ptr;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof ( IOTrace_packet));
iopkt.comm.tsize = sizeof ( IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ptr != NULL)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ptr;
}
/*------------------------------------------------------------- flock */
int
flock (int fd, int operation)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (flock))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (flock)(fd, operation);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (flock)(fd, operation);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fd;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}
/*------------------------------------------------------------- lockf */
int
lockf (int fildes, int function, off_t size)
{
int *guard;
int ret;
IOTrace_packet iopkt;
if (NULL_PTR (lockf))
init_io_intf ();
if (CHCK_REENTRANCE (guard))
return CALL_REAL (lockf)(fildes, function, size);
PUSH_REENTRANCE (guard);
hrtime_t reqt = gethrtime ();
ret = CALL_REAL (lockf)(fildes, function, size);
if (RECHCK_REENTRANCE (guard))
{
POP_REENTRANCE (guard);
return ret;
}
hrtime_t grnt = gethrtime ();
collector_memset (&iopkt, 0, sizeof (IOTrace_packet));
iopkt.comm.tsize = sizeof (IOTrace_packet);
iopkt.comm.tstamp = grnt;
iopkt.requested = reqt;
if (ret == 0)
iopkt.iotype = OTHERIO_TRACE;
else
iopkt.iotype = OTHERIO_TRACE_ERROR;
iopkt.fd = fildes;
iopkt.comm.frinfo = collector_interface->getFrameInfo (io_hndl, iopkt.comm.tstamp, FRINFO_FROM_STACK, &iopkt);
collector_interface->writeDataRecord (io_hndl, (Common_packet*) & iopkt);
POP_REENTRANCE (guard);
return ret;
}