Add DRD suppression patterns for races triggered by std::ostream
[valgrind.git] / coregrind / m_libcfile.c
blobc43682111b228193097780aded2845c10e78e64e
1 /* -*- mode: C; c-basic-offset: 3; -*- */
3 /*--------------------------------------------------------------------*/
4 /*--- File- and socket-related libc stuff. m_libcfile.c ---*/
5 /*--------------------------------------------------------------------*/
7 /*
8 This file is part of Valgrind, a dynamic binary instrumentation
9 framework.
11 Copyright (C) 2000-2017 Julian Seward
12 jseward@acm.org
14 This program is free software; you can redistribute it and/or
15 modify it under the terms of the GNU General Public License as
16 published by the Free Software Foundation; either version 2 of the
17 License, or (at your option) any later version.
19 This program is distributed in the hope that it will be useful, but
20 WITHOUT ANY WARRANTY; without even the implied warranty of
21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
22 General Public License for more details.
24 You should have received a copy of the GNU General Public License
25 along with this program; if not, write to the Free Software
26 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
27 02111-1307, USA.
29 The GNU General Public License is contained in the file COPYING.
32 #include "pub_core_basics.h"
33 #include "pub_core_vki.h"
34 #include "pub_core_vkiscnums.h"
35 #include "pub_core_debuglog.h"
36 #include "pub_core_libcbase.h"
37 #include "pub_core_libcassert.h"
38 #include "pub_core_libcfile.h"
39 #include "pub_core_libcprint.h" // VG_(sprintf)
40 #include "pub_core_libcproc.h" // VG_(getpid), VG_(getppid)
41 #include "pub_core_clientstate.h" // VG_(fd_hard_limit)
42 #include "pub_core_mallocfree.h" // VG_(realloc)
43 #include "pub_core_syscall.h"
45 /* IMPORTANT: on Darwin it is essential to use the _nocancel versions
46 of syscalls rather than the vanilla version, if a _nocancel version
47 is available. See docs/internals/Darwin-notes.txt for the reason
48 why. */
50 /* ---------------------------------------------------------------------
51 File stuff
52 ------------------------------------------------------------------ */
54 /* Move an fd into the Valgrind-safe range */
55 Int VG_(safe_fd)(Int oldfd)
57 Int newfd;
59 vg_assert(VG_(fd_hard_limit) != -1);
61 newfd = VG_(fcntl)(oldfd, VKI_F_DUPFD, VG_(fd_hard_limit));
62 if (newfd != -1)
63 VG_(close)(oldfd);
65 /* Set the close-on-exec flag for this fd. */
66 VG_(fcntl)(newfd, VKI_F_SETFD, VKI_FD_CLOEXEC);
68 vg_assert(newfd >= VG_(fd_hard_limit));
69 return newfd;
72 /* Given a file descriptor, attempt to deduce its filename. To do
73 this, we use /proc/self/fd/<FD>. If this doesn't point to a file,
74 or if it doesn't exist, we return False.
75 Upon successful completion *result contains the filename. The
76 filename will be overwritten with the next invocation so callers
77 need to copy the filename if needed. *result is NULL if the filename
78 cannot be deduced. */
79 Bool VG_(resolve_filename) ( Int fd, const HChar** result )
81 # if defined(VGO_linux) || defined(VGO_solaris)
82 static HChar *buf = NULL;
83 static SizeT bufsiz = 0;
85 if (buf == NULL) { // first time
86 bufsiz = 500;
87 buf = VG_(malloc)("resolve_filename", bufsiz);
90 HChar tmp[64]; // large enough
92 # if defined(VGO_linux)
93 VG_(sprintf)(tmp, "/proc/self/fd/%d", fd);
94 # elif defined(VGO_solaris)
95 VG_(sprintf)(tmp, "/proc/self/path/%d", fd);
96 # endif
99 while (42) {
100 SSizeT res = VG_(readlink)(tmp, buf, bufsiz);
101 if (res < 0) break;
102 if (res == bufsiz) { // buffer too small; increase and retry
103 bufsiz += 500;
104 buf = VG_(realloc)("resolve_filename", buf, bufsiz);
105 continue;
107 vg_assert(bufsiz > res); // paranoia
108 if (buf[0] != '/') break;
110 buf[res] = '\0';
111 *result = buf;
112 return True;
114 // Failure
115 *result = NULL;
116 return False;
118 # elif defined(VGO_darwin)
119 HChar tmp[VKI_MAXPATHLEN+1];
120 if (0 == VG_(fcntl)(fd, VKI_F_GETPATH, (UWord)tmp)) {
121 static HChar *buf = NULL;
123 if (buf == NULL)
124 buf = VG_(malloc)("resolve_filename", VKI_MAXPATHLEN+1);
125 VG_(strcpy)( buf, tmp );
127 *result = buf;
128 if (buf[0] == '/') return True;
130 // Failure
131 *result = NULL;
132 return False;
134 # else
135 # error Unknown OS
136 # endif
139 SysRes VG_(mknod) ( const HChar* pathname, Int mode, UWord dev )
141 # if defined(VGP_arm64_linux)
142 /* ARM64 wants to use __NR_mknodat rather than __NR_mknod. */
143 SysRes res = VG_(do_syscall4)(__NR_mknodat,
144 VKI_AT_FDCWD, (UWord)pathname, mode, dev);
145 # elif defined(VGO_linux) || defined(VGO_darwin)
146 SysRes res = VG_(do_syscall3)(__NR_mknod,
147 (UWord)pathname, mode, dev);
148 # elif defined(VGO_solaris)
149 SysRes res = VG_(do_syscall4)(__NR_mknodat,
150 VKI_AT_FDCWD, (UWord)pathname, mode, dev);
151 # else
152 # error Unknown OS
153 # endif
154 return res;
157 SysRes VG_(open) ( const HChar* pathname, Int flags, Int mode )
159 # if defined(VGP_arm64_linux)
160 /* ARM64 wants to use __NR_openat rather than __NR_open. */
161 SysRes res = VG_(do_syscall4)(__NR_openat,
162 VKI_AT_FDCWD, (UWord)pathname, flags, mode);
163 # elif defined(VGO_linux)
164 SysRes res = VG_(do_syscall3)(__NR_open,
165 (UWord)pathname, flags, mode);
166 # elif defined(VGO_darwin)
167 SysRes res = VG_(do_syscall3)(__NR_open_nocancel,
168 (UWord)pathname, flags, mode);
169 # elif defined(VGO_solaris)
170 SysRes res = VG_(do_syscall4)(__NR_openat,
171 VKI_AT_FDCWD, (UWord)pathname, flags, mode);
172 # else
173 # error Unknown OS
174 # endif
175 return res;
178 Int VG_(fd_open) (const HChar* pathname, Int flags, Int mode)
180 SysRes sr;
181 sr = VG_(open) (pathname, flags, mode);
182 if (sr_isError (sr))
183 return -1;
184 else
185 return sr_Res (sr);
188 void VG_(close) ( Int fd )
190 /* Hmm. Return value is not checked. That's uncool. */
191 # if defined(VGO_linux) || defined(VGO_solaris)
192 (void)VG_(do_syscall1)(__NR_close, fd);
193 # elif defined(VGO_darwin)
194 (void)VG_(do_syscall1)(__NR_close_nocancel, fd);
195 # else
196 # error Unknown OS
197 # endif
200 Int VG_(read) ( Int fd, void* buf, Int count)
202 Int ret;
203 # if defined(VGO_linux) || defined(VGO_solaris)
204 SysRes res = VG_(do_syscall3)(__NR_read, fd, (UWord)buf, count);
205 # elif defined(VGO_darwin)
206 SysRes res = VG_(do_syscall3)(__NR_read_nocancel, fd, (UWord)buf, count);
207 # else
208 # error Unknown OS
209 # endif
210 if (sr_isError(res)) {
211 ret = - (Int)(Word)sr_Err(res);
212 vg_assert(ret < 0);
213 } else {
214 ret = (Int)(Word)sr_Res(res);
215 vg_assert(ret >= 0);
217 return ret;
220 Int VG_(write) ( Int fd, const void* buf, Int count)
222 Int ret;
223 # if defined(VGO_linux) || defined(VGO_solaris)
224 SysRes res = VG_(do_syscall3)(__NR_write, fd, (UWord)buf, count);
225 # elif defined(VGO_darwin)
226 SysRes res = VG_(do_syscall3)(__NR_write_nocancel, fd, (UWord)buf, count);
227 # else
228 # error "Unknown OS"
229 # endif
230 if (sr_isError(res)) {
231 ret = - (Int)(Word)sr_Err(res);
232 vg_assert(ret < 0);
233 } else {
234 ret = (Int)(Word)sr_Res(res);
235 vg_assert(ret >= 0);
237 return ret;
241 Int VG_(pipe) ( Int fd[2] )
243 # if defined(VGP_mips32_linux) || defined(VGP_mips64_linux)
244 /* __NR_pipe has a strange return convention on mips32-linux. */
245 SysRes res = VG_(do_syscall1)(__NR_pipe, (UWord)fd);
246 if (!sr_isError(res)) {
247 fd[0] = (Int)sr_Res(res);
248 fd[1] = (Int)sr_ResEx(res);
249 return 0;
250 } else {
251 return -1;
253 # elif defined(VGP_arm64_linux)
254 SysRes res = VG_(do_syscall2)(__NR_pipe2, (UWord)fd, 0);
255 return sr_isError(res) ? -1 : 0;
256 # elif defined(VGO_linux)
257 SysRes res = VG_(do_syscall1)(__NR_pipe, (UWord)fd);
258 return sr_isError(res) ? -1 : 0;
259 # elif defined(VGO_darwin)
260 /* __NR_pipe is UX64, so produces a double-word result */
261 SysRes res = VG_(do_syscall0)(__NR_pipe);
262 if (!sr_isError(res)) {
263 fd[0] = (Int)sr_Res(res);
264 fd[1] = (Int)sr_ResHI(res);
266 return sr_isError(res) ? -1 : 0;
267 # elif defined(VGO_solaris)
268 # if defined(SOLARIS_NEW_PIPE_SYSCALL)
269 SysRes res = VG_(do_syscall2)(__NR_pipe, (UWord)fd, 0);
270 return sr_isError(res) ? -1 : 0;
271 # else
272 SysRes res = VG_(do_syscall0)(__NR_pipe);
273 if (!sr_isError(res)) {
274 fd[0] = (Int)sr_Res(res);
275 fd[1] = (Int)sr_ResHI(res);
277 return sr_isError(res) ? -1 : 0;
278 # endif
279 # else
280 # error "Unknown OS"
281 # endif
284 Off64T VG_(lseek) ( Int fd, Off64T offset, Int whence )
286 # if defined(VGO_linux) || defined(VGP_amd64_darwin)
287 # if defined(__NR__llseek)
288 Off64T result;
289 SysRes res = VG_(do_syscall5)(__NR__llseek, fd,
290 offset >> 32, offset & 0xffffffff,
291 (UWord)&result, whence);
292 return sr_isError(res) ? (-1) : result;
293 # else
294 SysRes res = VG_(do_syscall3)(__NR_lseek, fd, offset, whence);
295 vg_assert(sizeof(Off64T) == sizeof(Word));
296 return sr_isError(res) ? (-1) : sr_Res(res);
297 # endif
298 # elif defined(VGP_x86_darwin)
299 SysRes res = VG_(do_syscall4)(__NR_lseek, fd,
300 offset & 0xffffffff, offset >> 32, whence);
301 return sr_isError(res) ? (-1) : sr_Res(res);
302 # elif defined(VGP_x86_solaris)
303 SysRes res = VG_(do_syscall4)(__NR_llseek, fd,
304 offset & 0xffffffff, offset >> 32, whence);
305 return sr_isError(res) ? (-1) : ((ULong)sr_ResHI(res) << 32 | sr_Res(res));
306 # elif defined(VGP_amd64_solaris)
307 SysRes res = VG_(do_syscall3)(__NR_lseek, fd, offset, whence);
308 vg_assert(sizeof(Off64T) == sizeof(Word));
309 return sr_isError(res) ? (-1) : sr_Res(res);
310 # else
311 # error "Unknown plat"
312 # endif
313 /* if you change the error-reporting conventions of this, also
314 change all usage points. */
318 /* stat/fstat support. It's uggerly. We have impedance-match into a
319 'struct vg_stat' in order to have a single structure that callers
320 can use consistently on all platforms. */
322 #define TRANSLATE_TO_vg_stat(_p_vgstat, _p_vkistat) \
323 do { \
324 (_p_vgstat)->dev = (ULong)( (_p_vkistat)->st_dev ); \
325 (_p_vgstat)->ino = (ULong)( (_p_vkistat)->st_ino ); \
326 (_p_vgstat)->nlink = (ULong)( (_p_vkistat)->st_nlink ); \
327 (_p_vgstat)->mode = (UInt) ( (_p_vkistat)->st_mode ); \
328 (_p_vgstat)->uid = (UInt) ( (_p_vkistat)->st_uid ); \
329 (_p_vgstat)->gid = (UInt) ( (_p_vkistat)->st_gid ); \
330 (_p_vgstat)->rdev = (ULong)( (_p_vkistat)->st_rdev ); \
331 (_p_vgstat)->size = (Long) ( (_p_vkistat)->st_size ); \
332 (_p_vgstat)->blksize = (ULong)( (_p_vkistat)->st_blksize ); \
333 (_p_vgstat)->blocks = (ULong)( (_p_vkistat)->st_blocks ); \
334 (_p_vgstat)->atime = (ULong)( (_p_vkistat)->st_atime ); \
335 (_p_vgstat)->atime_nsec = (ULong)( (_p_vkistat)->st_atime_nsec ); \
336 (_p_vgstat)->mtime = (ULong)( (_p_vkistat)->st_mtime ); \
337 (_p_vgstat)->mtime_nsec = (ULong)( (_p_vkistat)->st_mtime_nsec ); \
338 (_p_vgstat)->ctime = (ULong)( (_p_vkistat)->st_ctime ); \
339 (_p_vgstat)->ctime_nsec = (ULong)( (_p_vkistat)->st_ctime_nsec ); \
340 } while (0)
342 SysRes VG_(stat) ( const HChar* file_name, struct vg_stat* vgbuf )
344 SysRes res;
345 VG_(memset)(vgbuf, 0, sizeof(*vgbuf));
347 # if defined(VGO_linux) || defined(VGO_darwin)
348 /* First try with stat64. If that doesn't work out, fall back to
349 the vanilla version. */
350 # if defined(__NR_stat64)
351 { struct vki_stat64 buf64;
352 res = VG_(do_syscall2)(__NR_stat64, (UWord)file_name, (UWord)&buf64);
353 if (!(sr_isError(res) && sr_Err(res) == VKI_ENOSYS)) {
354 /* Success, or any failure except ENOSYS */
355 if (!sr_isError(res))
356 TRANSLATE_TO_vg_stat(vgbuf, &buf64);
357 return res;
360 # endif /* defined(__NR_stat64) */
361 /* This is the fallback ("vanilla version"). */
362 { struct vki_stat buf;
363 # if defined(VGP_arm64_linux)
364 res = VG_(do_syscall3)(__NR3264_fstatat, VKI_AT_FDCWD,
365 (UWord)file_name, (UWord)&buf);
366 # else
367 res = VG_(do_syscall2)(__NR_stat, (UWord)file_name, (UWord)&buf);
368 # endif
369 if (!sr_isError(res))
370 TRANSLATE_TO_vg_stat(vgbuf, &buf);
371 return res;
373 # elif defined(VGO_solaris)
375 # if defined(VGP_x86_solaris)
376 struct vki_stat64 buf64;
377 res = VG_(do_syscall4)(__NR_fstatat64, VKI_AT_FDCWD, (UWord)file_name,
378 (UWord)&buf64, 0);
379 # elif defined(VGP_amd64_solaris)
380 struct vki_stat buf64;
381 res = VG_(do_syscall4)(__NR_fstatat, VKI_AT_FDCWD, (UWord)file_name,
382 (UWord)&buf64, 0);
383 # else
384 # error "Unknown platform"
385 # endif
386 if (!sr_isError(res))
387 TRANSLATE_TO_vg_stat(vgbuf, &buf64);
388 return res;
390 # else
391 # error Unknown OS
392 # endif
395 Int VG_(fstat) ( Int fd, struct vg_stat* vgbuf )
397 SysRes res;
398 VG_(memset)(vgbuf, 0, sizeof(*vgbuf));
400 # if defined(VGO_linux) || defined(VGO_darwin)
401 /* First try with fstat64. If that doesn't work out, fall back to
402 the vanilla version. */
403 # if defined(__NR_fstat64)
404 { struct vki_stat64 buf64;
405 res = VG_(do_syscall2)(__NR_fstat64, (UWord)fd, (UWord)&buf64);
406 if (!(sr_isError(res) && sr_Err(res) == VKI_ENOSYS)) {
407 /* Success, or any failure except ENOSYS */
408 if (!sr_isError(res))
409 TRANSLATE_TO_vg_stat(vgbuf, &buf64);
410 return sr_isError(res) ? (-1) : 0;
413 # endif /* if defined(__NR_fstat64) */
414 { struct vki_stat buf;
415 res = VG_(do_syscall2)(__NR_fstat, (UWord)fd, (UWord)&buf);
416 if (!sr_isError(res))
417 TRANSLATE_TO_vg_stat(vgbuf, &buf);
418 return sr_isError(res) ? (-1) : 0;
420 # elif defined(VGO_solaris)
422 # if defined(VGP_x86_solaris)
423 struct vki_stat64 buf64;
424 res = VG_(do_syscall4)(__NR_fstatat64, (UWord)fd, 0, (UWord)&buf64, 0);
425 # elif defined(VGP_amd64_solaris)
426 struct vki_stat buf64;
427 res = VG_(do_syscall4)(__NR_fstatat, (UWord)fd, 0, (UWord)&buf64, 0);
428 # else
429 # error "Unknown platform"
430 # endif
431 if (!sr_isError(res))
432 TRANSLATE_TO_vg_stat(vgbuf, &buf64);
433 return sr_isError(res) ? (-1) : 0;
435 # else
436 # error Unknown OS
437 # endif
440 #undef TRANSLATE_TO_vg_stat
443 Long VG_(fsize) ( Int fd )
445 struct vg_stat buf;
446 Int res = VG_(fstat)( fd, &buf );
447 return (res == -1) ? (-1LL) : buf.size;
450 SysRes VG_(getxattr) ( const HChar* file_name, const HChar* attr_name, Addr attr_value, SizeT attr_value_len )
452 SysRes res;
453 #if defined(VGO_linux)
454 res = VG_(do_syscall4)(__NR_getxattr, (UWord)file_name, (UWord)attr_name,
455 attr_value, attr_value_len);
456 #else
457 res = VG_(mk_SysRes_Error)(VKI_ENOSYS);
458 #endif
459 return res;
462 Bool VG_(is_dir) ( const HChar* f )
464 struct vg_stat buf;
465 SysRes res = VG_(stat)(f, &buf);
466 return sr_isError(res) ? False
467 : VKI_S_ISDIR(buf.mode) ? True : False;
470 SysRes VG_(dup) ( Int oldfd )
472 # if defined(VGO_linux) || defined(VGO_darwin)
473 return VG_(do_syscall1)(__NR_dup, oldfd);
474 # elif defined(VGO_solaris)
475 return VG_(do_syscall3)(__NR_fcntl, oldfd, F_DUPFD, 0);
476 # else
477 # error Unknown OS
478 # endif
481 SysRes VG_(dup2) ( Int oldfd, Int newfd )
483 # if defined(VGP_arm64_linux)
484 /* We only have dup3, that means we have to mimic dup2.
485 The only real difference is when oldfd == newfd.
486 dup3 always returns an error, but dup2 returns only an
487 error if the fd is invalid, otherwise it returns newfd. */
488 if (oldfd == newfd) {
489 if (VG_(fcntl)(oldfd, VKI_F_GETFL, 0) == -1)
490 return VG_(mk_SysRes_Error)(VKI_EBADF);
491 return VG_(mk_SysRes_Success)(newfd);
493 return VG_(do_syscall3)(__NR_dup3, oldfd, newfd, 0);
494 # elif defined(VGO_linux) || defined(VGO_darwin)
495 return VG_(do_syscall2)(__NR_dup2, oldfd, newfd);
496 # elif defined(VGO_solaris)
497 return VG_(do_syscall3)(__NR_fcntl, oldfd, F_DUP2FD, newfd);
498 # else
499 # error Unknown OS
500 # endif
503 /* Returns -1 on error. */
504 Int VG_(fcntl) ( Int fd, Int cmd, Addr arg )
506 # if defined(VGO_linux) || defined(VGO_solaris)
507 SysRes res = VG_(do_syscall3)(__NR_fcntl, fd, cmd, arg);
508 # elif defined(VGO_darwin)
509 SysRes res = VG_(do_syscall3)(__NR_fcntl_nocancel, fd, cmd, arg);
510 # else
511 # error "Unknown OS"
512 # endif
513 return sr_isError(res) ? -1 : sr_Res(res);
516 Int VG_(rename) ( const HChar* old_name, const HChar* new_name )
518 # if defined(VGO_solaris) || defined(VGP_arm64_linux)
519 SysRes res = VG_(do_syscall4)(__NR_renameat, VKI_AT_FDCWD, (UWord)old_name,
520 VKI_AT_FDCWD, (UWord)new_name);
521 # elif defined(VGO_linux) || defined(VGO_darwin)
522 SysRes res = VG_(do_syscall2)(__NR_rename, (UWord)old_name, (UWord)new_name);
523 # else
524 # error "Unknown OS"
525 # endif
526 return sr_isError(res) ? (-1) : 0;
529 Int VG_(unlink) ( const HChar* file_name )
531 # if defined(VGP_arm64_linux)
532 SysRes res = VG_(do_syscall2)(__NR_unlinkat, VKI_AT_FDCWD,
533 (UWord)file_name);
534 # elif defined(VGO_linux) || defined(VGO_darwin)
535 SysRes res = VG_(do_syscall1)(__NR_unlink, (UWord)file_name);
536 # elif defined(VGO_solaris)
537 SysRes res = VG_(do_syscall3)(__NR_unlinkat, VKI_AT_FDCWD,
538 (UWord)file_name, 0);
539 # else
540 # error "Unknown OS"
541 # endif
542 return sr_isError(res) ? (-1) : 0;
545 /* The working directory at startup.
546 All that is really needed is to note the cwd at process startup.
547 Hence VG_(record_startup_wd) notes it (in a platform dependent way)
548 and VG_(get_startup_wd) produces the noted value. */
549 static HChar *startup_wd;
551 /* Record the process' working directory at startup. Is intended to
552 be called exactly once, at startup, before the working directory
553 changes. */
554 void VG_(record_startup_wd) ( void )
556 # if defined(VGO_linux) || defined(VGO_solaris)
557 /* Simple: just ask the kernel */
558 SysRes res;
559 SizeT szB = 0;
560 do {
561 szB += 500;
562 startup_wd = VG_(realloc)("startup_wd", startup_wd, szB);
563 VG_(memset)(startup_wd, 0, szB);
564 res = VG_(do_syscall2)(__NR_getcwd, (UWord)startup_wd, szB-1);
565 } while (sr_isError(res) && sr_Err(res) == VKI_ERANGE);
567 if (sr_isError(res)) {
568 VG_(free)(startup_wd);
569 startup_wd = NULL;
570 return;
573 vg_assert(startup_wd[szB-1] == 0);
575 # elif defined(VGO_darwin)
576 /* We can't ask the kernel, so instead rely on launcher-*.c to
577 tell us the startup path. Note the env var is keyed to the
578 parent's PID, not ours, since our parent is the launcher
579 process. */
580 { HChar envvar[100]; // large enough
581 HChar* wd;
582 VG_(memset)(envvar, 0, sizeof(envvar));
583 VG_(sprintf)(envvar, "VALGRIND_STARTUP_PWD_%d_XYZZY",
584 (Int)VG_(getppid)());
585 wd = VG_(getenv)( envvar );
586 if (wd == NULL)
587 return;
588 SizeT need = VG_(strlen)(wd) + 1;
589 startup_wd = VG_(malloc)("startup_wd", need);
590 VG_(strcpy)(startup_wd, wd);
592 # else
593 # error Unknown OS
594 # endif
597 /* Return the previously acquired startup_wd or NULL. */
598 const HChar *VG_(get_startup_wd) ( void )
600 return startup_wd;
603 SysRes VG_(poll) (struct vki_pollfd *fds, Int nfds, Int timeout)
605 SysRes res;
606 # if defined(VGP_arm64_linux)
607 /* ARM64 wants to use __NR_ppoll rather than __NR_poll. */
608 struct vki_timespec timeout_ts;
609 if (timeout >= 0) {
610 timeout_ts.tv_sec = timeout / 1000;
611 timeout_ts.tv_nsec = ((long)timeout % 1000) * 1000000;
613 res = VG_(do_syscall4)(__NR_ppoll,
614 (UWord)fds, nfds,
615 (UWord)(timeout >= 0 ? &timeout_ts : NULL),
616 (UWord)NULL);
617 # elif defined(VGO_linux)
618 res = VG_(do_syscall3)(__NR_poll, (UWord)fds, nfds, timeout);
619 # elif defined(VGO_darwin)
620 res = VG_(do_syscall3)(__NR_poll_nocancel, (UWord)fds, nfds, timeout);
621 # elif defined(VGO_solaris)
622 struct vki_timespec ts;
623 struct vki_timespec *tsp;
625 if (timeout < 0)
626 tsp = NULL;
627 else {
628 ts.tv_sec = timeout / 1000;
629 ts.tv_nsec = (timeout % 1000) * 1000000;
630 tsp = &ts;
633 res = VG_(do_syscall4)(__NR_pollsys, (UWord)fds, nfds, (UWord)tsp, 0);
634 # else
635 # error "Unknown OS"
636 # endif
637 return res;
641 /* Performs the readlink operation and puts the result into 'buf'.
642 Note, that the string in 'buf' is *not* null-terminated. The function
643 returns the number of characters put into 'buf' or -1 if an error
644 occurred. */
645 SSizeT VG_(readlink) (const HChar* path, HChar* buf, SizeT bufsiz)
647 SysRes res;
648 /* res = readlink( path, buf, bufsiz ); */
649 # if defined(VGP_arm64_linux)
650 res = VG_(do_syscall4)(__NR_readlinkat, VKI_AT_FDCWD,
651 (UWord)path, (UWord)buf, bufsiz);
652 # elif defined(VGO_linux) || defined(VGO_darwin)
653 res = VG_(do_syscall3)(__NR_readlink, (UWord)path, (UWord)buf, bufsiz);
654 # elif defined(VGO_solaris)
655 res = VG_(do_syscall4)(__NR_readlinkat, VKI_AT_FDCWD, (UWord)path,
656 (UWord)buf, bufsiz);
657 # else
658 # error "Unknown OS"
659 # endif
660 return sr_isError(res) ? -1 : sr_Res(res);
663 #if defined(VGO_linux) || defined(VGO_solaris)
664 Int VG_(getdents64) (Int fd, struct vki_dirent64 *dirp, UInt count)
666 SysRes res;
667 /* res = getdents( fd, dirp, count ); */
668 # if defined(VGP_amd64_solaris)
669 /* This silently assumes that dirent64 and dirent on amd64 are same, which
670 they should always be. */
671 res = VG_(do_syscall3)(__NR_getdents, fd, (UWord)dirp, count);
672 # else
673 res = VG_(do_syscall3)(__NR_getdents64, fd, (UWord)dirp, count);
674 # if defined(VGA_mips64)
675 /* The MIPS64 getdents64() system call is only present in 3.10+ kernels.
676 If the getdents64() system call is not available fall back to using
677 getdents() and modify the result to be compatible with getdents64(). */
678 if (sr_isError(res) && (sr_Err(res) == VKI_ENOSYS)) {
679 int r;
680 res = VG_(do_syscall3)(__NR_getdents, fd, (UWord)dirp, count);
681 r = sr_Res(res);
682 if (r > 0) {
683 char *p;
684 char type;
685 union dirents {
686 struct vki_dirent m;
687 struct vki_dirent64 d;
688 } *u;
689 p = (char *)dirp;
690 do {
691 u = (union dirents *)p;
692 /* This should not happen, but just in case... */
693 if (p + u->m.d_reclen > (char *)dirp + r)
694 break;
695 /* shuffle the dirent */
696 type = *(p + u->m.d_reclen - 1);
697 VG_(memmove)(u->d.d_name, u->m.d_name,
698 u->m.d_reclen - 2
699 - offsetof(struct vki_dirent, d_name) + 1);
700 u->d.d_type = type;
701 p += u->m.d_reclen;
702 } while (p < (char *)dirp + r);
705 # endif
706 # endif
707 return sr_isError(res) ? -1 : sr_Res(res);
709 #endif
711 /* Check accessibility of a file. Returns zero for access granted,
712 nonzero otherwise. */
713 Int VG_(access) ( const HChar* path, Bool irusr, Bool iwusr, Bool ixusr )
715 # if defined(VGO_linux)
716 /* Very annoyingly, I cannot find any definition for R_OK et al in
717 the kernel interfaces. Therefore I reluctantly resort to
718 hardwiring in these magic numbers that I determined by
719 experimentation. */
720 # define VKI_R_OK 4
721 # define VKI_W_OK 2
722 # define VKI_X_OK 1
723 # endif
725 UWord w = (irusr ? VKI_R_OK : 0)
726 | (iwusr ? VKI_W_OK : 0)
727 | (ixusr ? VKI_X_OK : 0);
728 # if defined(VGP_arm64_linux)
729 SysRes res = VG_(do_syscall3)(__NR_faccessat, VKI_AT_FDCWD, (UWord)path, w);
730 # elif defined(VGO_linux) || defined(VGO_darwin)
731 SysRes res = VG_(do_syscall2)(__NR_access, (UWord)path, w);
732 # elif defined(VGO_solaris)
733 SysRes res = VG_(do_syscall4)(__NR_faccessat, VKI_AT_FDCWD, (UWord)path,
734 w, 0);
735 # else
736 # error "Unknown OS"
737 # endif
738 return sr_isError(res) ? 1 : 0;
740 # if defined(VGO_linux)
741 # undef VKI_R_OK
742 # undef VKI_W_OK
743 # undef VKI_X_OK
744 # endif
748 Emulate the normal Unix permissions checking algorithm.
750 If owner matches, then use the owner permissions, else
751 if group matches, then use the group permissions, else
752 use other permissions.
754 Note that we can't deal properly with SUID/SGID. By default
755 (allow_setuid == False), we refuse to run them (otherwise the
756 executable may misbehave if it doesn't have the permissions it
757 thinks it does). However, the caller may indicate that setuid
758 executables are allowed, for example if we are going to exec them
759 but not trace into them (iow, client sys_execve when
760 clo_trace_children == False).
762 If VKI_EACCES is returned (iow, permission was refused), then
763 *is_setuid is set to True iff permission was refused because the
764 executable is setuid.
766 /* returns: 0 = success, non-0 is failure */
767 Int VG_(check_executable)(/*OUT*/Bool* is_setuid,
768 const HChar* f, Bool allow_setuid)
770 struct vg_stat st;
771 SysRes res = VG_(stat)(f, &st);
773 if (is_setuid)
774 *is_setuid = False;
776 if (sr_isError(res)) {
777 return sr_Err(res);
780 if ( VKI_S_ISDIR (st.mode) ) {
781 return VKI_EACCES;
784 if ( (st.mode & (VKI_S_ISUID | VKI_S_ISGID)) && !allow_setuid ) {
785 if (is_setuid)
786 *is_setuid = True;
787 return VKI_EACCES;
790 res = VG_(getxattr)(f, "security.capability", (Addr)0, 0);
791 if (!sr_isError(res) && !allow_setuid) {
792 if (is_setuid)
793 *is_setuid = True;
794 return VKI_EACCES;
797 if (VG_(geteuid)() == st.uid) {
798 if (!(st.mode & VKI_S_IXUSR))
799 return VKI_EACCES;
800 } else {
801 Int grpmatch = 0;
803 if (VG_(getegid)() == st.gid)
804 grpmatch = 1;
805 else {
806 UInt *groups = NULL;
807 Int ngrp;
809 /* Find out # groups, allocate large enough array and fetch groups */
810 ngrp = VG_(getgroups)(0, NULL);
811 if (ngrp != -1) {
812 groups = VG_(malloc)("check_executable", ngrp * sizeof *groups);
813 ngrp = VG_(getgroups)(ngrp, groups);
816 Int i;
817 /* ngrp will be -1 if VG_(getgroups) failed. */
818 for (i = 0; i < ngrp; i++) {
819 if (groups[i] == st.gid) {
820 grpmatch = 1;
821 break;
824 VG_(free)(groups);
827 if (grpmatch) {
828 if (!(st.mode & VKI_S_IXGRP)) {
829 return VKI_EACCES;
831 } else if (!(st.mode & VKI_S_IXOTH)) {
832 return VKI_EACCES;
836 return 0;
839 SysRes VG_(pread) ( Int fd, void* buf, Int count, OffT offset )
841 SysRes res;
842 // on 32 bits platforms, we receive a 32 bits OffT but
843 // we must extend it to pass a long long 64 bits.
844 # if defined(VGP_x86_linux)
845 vg_assert(sizeof(OffT) == 4);
846 res = VG_(do_syscall5)(__NR_pread64, fd, (UWord)buf, count,
847 offset, 0); // Little endian long long
848 return res;
849 # elif defined(VGP_arm_linux)
850 vg_assert(sizeof(OffT) == 4);
851 res = VG_(do_syscall5)(__NR_pread64, fd, (UWord)buf, count,
852 0, offset); // Big endian long long
853 return res;
854 # elif defined(VGP_ppc32_linux)
855 vg_assert(sizeof(OffT) == 4);
856 res = VG_(do_syscall6)(__NR_pread64, fd, (UWord)buf, count,
857 0, // Padding needed on PPC32
858 0, offset); // Big endian long long
859 return res;
860 # elif defined(VGP_mips32_linux) && (VKI_LITTLE_ENDIAN)
861 vg_assert(sizeof(OffT) == 4);
862 res = VG_(do_syscall6)(__NR_pread64, fd, (UWord)buf, count,
863 0, offset, 0);
864 return res;
865 # elif defined(VGP_mips32_linux) && (VKI_BIG_ENDIAN)
866 vg_assert(sizeof(OffT) == 4);
867 res = VG_(do_syscall6)(__NR_pread64, fd, (UWord)buf, count,
868 0, 0, offset);
869 return res;
870 # elif defined(VGP_amd64_linux) || defined(VGP_s390x_linux) \
871 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
872 || defined(VGP_mips64_linux) || defined(VGP_arm64_linux)
873 res = VG_(do_syscall4)(__NR_pread64, fd, (UWord)buf, count, offset);
874 return res;
875 # elif defined(VGP_amd64_darwin)
876 vg_assert(sizeof(OffT) == 8);
877 res = VG_(do_syscall4)(__NR_pread_nocancel, fd, (UWord)buf, count, offset);
878 return res;
879 # elif defined(VGP_x86_darwin)
880 vg_assert(sizeof(OffT) == 8);
881 res = VG_(do_syscall5)(__NR_pread_nocancel, fd, (UWord)buf, count,
882 offset & 0xffffffff, offset >> 32);
883 return res;
884 # elif defined(VGP_x86_solaris)
885 vg_assert(sizeof(OffT) == 4);
886 res = VG_(do_syscall4)(__NR_pread, fd, (UWord)buf, count, offset);
887 return res;
888 # elif defined(VGP_amd64_solaris)
889 vg_assert(sizeof(OffT) == 8);
890 res = VG_(do_syscall4)(__NR_pread, fd, (UWord)buf, count, offset);
891 return res;
892 # else
893 # error "Unknown platform"
894 # endif
897 /* Return the name of a directory for temporary files. */
898 const HChar *VG_(tmpdir)(void)
900 const HChar *tmpdir;
902 tmpdir = VG_(getenv)("TMPDIR");
903 if (tmpdir == NULL || *tmpdir == '\0') tmpdir = VG_TMPDIR;
904 if (tmpdir == NULL || *tmpdir == '\0') tmpdir = "/tmp"; /* fallback */
906 return tmpdir;
909 static const HChar mkstemp_format[] = "%s/valgrind_%s_%08x";
911 SizeT VG_(mkstemp_fullname_bufsz) ( SizeT part_of_name_len )
913 return VG_(strlen)(mkstemp_format)
914 + VG_(strlen)(VG_(tmpdir)()) - 2 // %s tmpdir
915 + part_of_name_len - 2 // %s part_of_name
916 + 8 - 4 // %08x
917 + 1; // trailing 0
921 Int VG_(mkstemp) ( const HChar* part_of_name, /*OUT*/HChar* fullname )
923 Int n, tries;
924 UInt seed;
925 SysRes sres;
926 const HChar *tmpdir;
928 vg_assert(part_of_name);
929 vg_assert(fullname);
930 n = VG_(strlen)(part_of_name);
931 vg_assert(n > 0 && n < 100);
933 seed = (VG_(getpid)() << 9) ^ VG_(getppid)();
935 /* Determine sensible location for temporary files */
936 tmpdir = VG_(tmpdir)();
938 tries = 0;
939 while (True) {
940 if (tries++ > 10)
941 return -1;
942 VG_(sprintf)( fullname, mkstemp_format,
943 tmpdir, part_of_name, VG_(random)( &seed ));
944 if (0)
945 VG_(printf)("VG_(mkstemp): trying: %s\n", fullname);
947 sres = VG_(open)(fullname,
948 VKI_O_CREAT|VKI_O_RDWR|VKI_O_EXCL|VKI_O_TRUNC,
949 VKI_S_IRUSR|VKI_S_IWUSR);
950 if (sr_isError(sres)) {
951 VG_(umsg)("VG_(mkstemp): failed to create temp file: %s\n", fullname);
952 continue;
954 /* VG_(safe_fd) doesn't return if it fails. */
955 return VG_(safe_fd)( sr_Res(sres) );
957 /* NOTREACHED */
961 /* ---------------------------------------------------------------------
962 Socket-related stuff.
963 ------------------------------------------------------------------ */
965 static
966 Int parse_inet_addr_and_port ( const HChar* str, UInt* ip_addr, UShort* port );
968 static
969 Int my_connect ( Int sockfd, struct vki_sockaddr_in* serv_addr, Int addrlen );
971 UInt VG_(htonl) ( UInt x )
973 # if defined(VG_BIGENDIAN)
974 return x;
975 # else
976 return
977 (((x >> 24) & 0xFF) << 0) | (((x >> 16) & 0xFF) << 8)
978 | (((x >> 8) & 0xFF) << 16) | (((x >> 0) & 0xFF) << 24);
979 # endif
982 UInt VG_(ntohl) ( UInt x )
984 # if defined(VG_BIGENDIAN)
985 return x;
986 # else
987 return
988 (((x >> 24) & 0xFF) << 0) | (((x >> 16) & 0xFF) << 8)
989 | (((x >> 8) & 0xFF) << 16) | (((x >> 0) & 0xFF) << 24);
990 # endif
993 UShort VG_(htons) ( UShort x )
995 # if defined(VG_BIGENDIAN)
996 return x;
997 # else
998 return
999 (((x >> 8) & 0xFF) << 0) | (((x >> 0) & 0xFF) << 8);
1000 # endif
1003 UShort VG_(ntohs) ( UShort x )
1005 # if defined(VG_BIGENDIAN)
1006 return x;
1007 # else
1008 return
1009 (((x >> 8) & 0xFF) << 0) | (((x >> 0) & 0xFF) << 8);
1010 # endif
1014 /* The main function.
1016 Supplied string contains either an ip address "192.168.0.1" or
1017 an ip address and port pair, "192.168.0.1:1500". Parse these,
1018 and return:
1019 -1 if there is a parse error
1020 -2 if no parse error, but specified host:port cannot be opened
1021 the relevant file (socket) descriptor, otherwise.
1022 is used.
1024 Int VG_(connect_via_socket)( const HChar* str )
1026 # if defined(VGO_linux) || defined(VGO_darwin) || defined(VGO_solaris)
1027 Int sd, res;
1028 struct vki_sockaddr_in servAddr;
1029 UInt ip = 0;
1030 UShort port = VG_CLO_DEFAULT_LOGPORT;
1031 Bool ok = parse_inet_addr_and_port(str, &ip, &port);
1032 if (!ok)
1033 return -1;
1035 //if (0)
1036 // VG_(printf)("ip = %d.%d.%d.%d, port %d\n",
1037 // (ip >> 24) & 0xFF, (ip >> 16) & 0xFF,
1038 // (ip >> 8) & 0xFF, ip & 0xFF,
1039 // (UInt)port );
1041 servAddr.sin_family = VKI_AF_INET;
1042 servAddr.sin_addr.s_addr = VG_(htonl)(ip);
1043 servAddr.sin_port = VG_(htons)(port);
1045 /* create socket */
1046 sd = VG_(socket)(VKI_AF_INET, VKI_SOCK_STREAM, 0 /* IPPROTO_IP ? */);
1047 if (sd < 0) {
1048 /* this shouldn't happen ... nevertheless */
1049 return -2;
1052 /* connect to server */
1053 res = my_connect(sd, &servAddr, sizeof(servAddr));
1054 if (res < 0) {
1055 /* connection failed */
1056 return -2;
1059 return sd;
1061 # else
1062 # error "Unknown OS"
1063 # endif
1067 /* Let d = one or more digits. Accept either:
1068 d.d.d.d or d.d.d.d:d
1070 static Int parse_inet_addr_and_port ( const HChar* str, UInt* ip_addr, UShort* port )
1072 # define GET_CH ((*str) ? (*str++) : 0)
1073 UInt ipa, i, j, c, any;
1074 ipa = 0;
1075 for (i = 0; i < 4; i++) {
1076 j = 0;
1077 any = 0;
1078 while (1) {
1079 c = GET_CH;
1080 if (c < '0' || c > '9') break;
1081 j = 10 * j + (int)(c - '0');
1082 any = 1;
1084 if (any == 0 || j > 255) goto syntaxerr;
1085 ipa = (ipa << 8) + j;
1086 if (i <= 2 && c != '.') goto syntaxerr;
1088 if (c == 0 || c == ':')
1089 *ip_addr = ipa;
1090 if (c == 0) goto ok;
1091 if (c != ':') goto syntaxerr;
1092 j = 0;
1093 any = 0;
1094 while (1) {
1095 c = GET_CH;
1096 if (c < '0' || c > '9') break;
1097 j = j * 10 + (int)(c - '0');
1098 any = 1;
1099 if (j > 65535) goto syntaxerr;
1101 if (any == 0 || c != 0) goto syntaxerr;
1102 if (j < 1024) goto syntaxerr;
1103 *port = (UShort)j;
1105 return 1;
1106 syntaxerr:
1107 return 0;
1108 # undef GET_CH
1111 // GrP fixme safe_fd?
1112 Int VG_(socket) ( Int domain, Int type, Int protocol )
1114 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1115 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1116 || defined(VGP_s390x_linux)
1117 SysRes res;
1118 UWord args[3];
1119 args[0] = domain;
1120 args[1] = type;
1121 args[2] = protocol;
1122 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_SOCKET, (UWord)&args);
1123 return sr_isError(res) ? -1 : sr_Res(res);
1125 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1126 || defined(VGP_mips32_linux) || defined(VGP_mips64_linux) \
1127 || defined(VGP_arm64_linux)
1128 SysRes res;
1129 res = VG_(do_syscall3)(__NR_socket, domain, type, protocol );
1130 return sr_isError(res) ? -1 : sr_Res(res);
1132 # elif defined(VGO_darwin)
1133 SysRes res;
1134 res = VG_(do_syscall3)(__NR_socket, domain, type, protocol);
1135 if (!sr_isError(res)) {
1136 // Set SO_NOSIGPIPE so write() returns EPIPE instead of raising SIGPIPE
1137 Int optval = 1;
1138 SysRes res2;
1139 res2 = VG_(do_syscall5)(__NR_setsockopt, sr_Res(res), VKI_SOL_SOCKET,
1140 VKI_SO_NOSIGPIPE, (UWord)&optval,
1141 sizeof(optval));
1142 // ignore setsockopt() error
1144 return sr_isError(res) ? -1 : sr_Res(res);
1146 # elif defined(VGO_solaris)
1147 /* XXX There doesn't seem to be an easy way to convince the send syscall to
1148 only return EPIPE instead of raising SIGPIPE. EPIPE is only returned if
1149 SM_KERNEL is set on the socket. Without serious hackery it looks we
1150 can't set this flag.
1152 Should we wrap the send syscall below into sigprocmask calls to block
1153 SIGPIPE?
1155 SysRes res;
1156 res = VG_(do_syscall5)(__NR_so_socket, domain, type, protocol,
1157 0 /*devpath*/, VKI_SOV_DEFAULT /*version*/);
1158 return sr_isError(res) ? -1 : sr_Res(res);
1160 # else
1161 # error "Unknown arch"
1162 # endif
1166 static
1167 Int my_connect ( Int sockfd, struct vki_sockaddr_in* serv_addr, Int addrlen )
1169 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1170 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1171 || defined(VGP_s390x_linux)
1172 SysRes res;
1173 UWord args[3];
1174 args[0] = sockfd;
1175 args[1] = (UWord)serv_addr;
1176 args[2] = addrlen;
1177 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_CONNECT, (UWord)&args);
1178 return sr_isError(res) ? -1 : sr_Res(res);
1180 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1181 || defined(VGP_mips32_linux) || defined(VGP_mips64_linux) \
1182 || defined(VGP_arm64_linux)
1183 SysRes res;
1184 res = VG_(do_syscall3)(__NR_connect, sockfd, (UWord)serv_addr, addrlen);
1185 return sr_isError(res) ? -1 : sr_Res(res);
1187 # elif defined(VGO_darwin)
1188 SysRes res;
1189 res = VG_(do_syscall3)(__NR_connect_nocancel,
1190 sockfd, (UWord)serv_addr, addrlen);
1191 return sr_isError(res) ? -1 : sr_Res(res);
1193 # elif defined(VGO_solaris)
1194 SysRes res;
1195 res = VG_(do_syscall4)(__NR_connect, sockfd, (UWord)serv_addr, addrlen,
1196 VKI_SOV_DEFAULT /*version*/);
1197 return sr_isError(res) ? -1 : sr_Res(res);
1199 # else
1200 # error "Unknown arch"
1201 # endif
1204 Int VG_(write_socket)( Int sd, const void *msg, Int count )
1206 /* This is actually send(). */
1208 /* For Linux, VKI_MSG_NOSIGNAL is a request not to send SIGPIPE on
1209 errors on stream oriented sockets when the other end breaks the
1210 connection. The EPIPE error is still returned.
1212 For Darwin, VG_(socket)() sets SO_NOSIGPIPE to get EPIPE instead of
1213 SIGPIPE */
1215 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1216 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1217 || defined(VGP_s390x_linux)
1218 SysRes res;
1219 UWord args[4];
1220 args[0] = sd;
1221 args[1] = (UWord)msg;
1222 args[2] = count;
1223 args[3] = VKI_MSG_NOSIGNAL;
1224 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_SEND, (UWord)&args);
1225 return sr_isError(res) ? -1 : sr_Res(res);
1227 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1228 || defined(VGP_mips32_linux) || defined(VGP_mips64_linux) \
1229 || defined(VGP_arm64_linux)
1230 SysRes res;
1231 res = VG_(do_syscall6)(__NR_sendto, sd, (UWord)msg,
1232 count, VKI_MSG_NOSIGNAL, 0,0);
1233 return sr_isError(res) ? -1 : sr_Res(res);
1235 # elif defined(VGP_x86_darwin) || defined(VGP_amd64_darwin)
1236 SysRes res;
1237 res = VG_(do_syscall3)(__NR_write_nocancel, sd, (UWord)msg, count);
1238 return sr_isError(res) ? -1 : sr_Res(res);
1240 # elif defined(VGO_solaris)
1241 SysRes res;
1242 res = VG_(do_syscall4)(__NR_send, sd, (UWord)msg, count, 0 /*flags*/);
1243 return sr_isError(res) ? -1 : sr_Res(res);
1245 # else
1246 # error "Unknown platform"
1247 # endif
1250 Int VG_(getsockname) ( Int sd, struct vki_sockaddr *name, Int *namelen)
1252 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1253 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1254 || defined(VGP_s390x_linux) \
1255 || defined(VGP_mips32_linux)
1256 SysRes res;
1257 UWord args[3];
1258 args[0] = sd;
1259 args[1] = (UWord)name;
1260 args[2] = (UWord)namelen;
1261 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_GETSOCKNAME, (UWord)&args);
1262 return sr_isError(res) ? -1 : sr_Res(res);
1264 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1265 || defined(VGP_mips64_linux) || defined(VGP_arm64_linux)
1266 SysRes res;
1267 res = VG_(do_syscall3)( __NR_getsockname,
1268 (UWord)sd, (UWord)name, (UWord)namelen );
1269 return sr_isError(res) ? -1 : sr_Res(res);
1271 # elif defined(VGO_darwin)
1272 SysRes res;
1273 res = VG_(do_syscall3)( __NR_getsockname,
1274 (UWord)sd, (UWord)name, (UWord)namelen );
1275 return sr_isError(res) ? -1 : sr_Res(res);
1277 # elif defined(VGO_solaris)
1278 SysRes res;
1279 res = VG_(do_syscall4)(__NR_getsockname, sd, (UWord)name, (UWord)namelen,
1280 VKI_SOV_DEFAULT /*version*/);
1281 return sr_isError(res) ? -1 : sr_Res(res);
1283 # else
1284 # error "Unknown platform"
1285 # endif
1288 Int VG_(getpeername) ( Int sd, struct vki_sockaddr *name, Int *namelen)
1290 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1291 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1292 || defined(VGP_s390x_linux) \
1293 || defined(VGP_mips32_linux)
1294 SysRes res;
1295 UWord args[3];
1296 args[0] = sd;
1297 args[1] = (UWord)name;
1298 args[2] = (UWord)namelen;
1299 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_GETPEERNAME, (UWord)&args);
1300 return sr_isError(res) ? -1 : sr_Res(res);
1302 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1303 || defined(VGP_mips64_linux) || defined(VGP_arm64_linux)
1304 SysRes res;
1305 res = VG_(do_syscall3)( __NR_getpeername,
1306 (UWord)sd, (UWord)name, (UWord)namelen );
1307 return sr_isError(res) ? -1 : sr_Res(res);
1309 # elif defined(VGO_darwin)
1310 SysRes res;
1311 res = VG_(do_syscall3)( __NR_getpeername,
1312 (UWord)sd, (UWord)name, (UWord)namelen );
1313 return sr_isError(res) ? -1 : sr_Res(res);
1315 # elif defined(VGO_solaris)
1316 SysRes res;
1317 res = VG_(do_syscall4)(__NR_getpeername, sd, (UWord)name, (UWord)namelen,
1318 VKI_SOV_DEFAULT /*version*/);
1319 return sr_isError(res) ? -1 : sr_Res(res);
1321 # else
1322 # error "Unknown platform"
1323 # endif
1326 Int VG_(getsockopt) ( Int sd, Int level, Int optname, void *optval,
1327 Int *optlen)
1329 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1330 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1331 || defined(VGP_s390x_linux)
1332 SysRes res;
1333 UWord args[5];
1334 args[0] = sd;
1335 args[1] = level;
1336 args[2] = optname;
1337 args[3] = (UWord)optval;
1338 args[4] = (UWord)optlen;
1339 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_GETSOCKOPT, (UWord)&args);
1340 return sr_isError(res) ? -1 : sr_Res(res);
1342 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1343 || defined(VGP_mips32_linux) || defined(VGP_mips64_linux) \
1344 || defined(VGP_arm64_linux)
1345 SysRes res;
1346 res = VG_(do_syscall5)( __NR_getsockopt,
1347 (UWord)sd, (UWord)level, (UWord)optname,
1348 (UWord)optval, (UWord)optlen );
1349 return sr_isError(res) ? -1 : sr_Res(res);
1351 # elif defined(VGO_darwin)
1352 SysRes res;
1353 res = VG_(do_syscall5)( __NR_getsockopt,
1354 (UWord)sd, (UWord)level, (UWord)optname,
1355 (UWord)optval, (UWord)optlen );
1356 return sr_isError(res) ? -1 : sr_Res(res);
1358 # elif defined(VGO_solaris)
1359 SysRes res;
1360 res = VG_(do_syscall6)(__NR_getsockopt, sd, level, optname, (UWord)optval,
1361 (UWord)optlen, VKI_SOV_DEFAULT /*version*/);
1362 return sr_isError(res) ? -1 : sr_Res(res);
1364 # else
1365 # error "Unknown platform"
1366 # endif
1370 Int VG_(setsockopt) ( Int sd, Int level, Int optname, void *optval,
1371 Int optlen)
1373 # if defined(VGP_x86_linux) || defined(VGP_ppc32_linux) \
1374 || defined(VGP_ppc64be_linux) || defined(VGP_ppc64le_linux) \
1375 || defined(VGP_s390x_linux)
1376 SysRes res;
1377 UWord args[5];
1378 args[0] = sd;
1379 args[1] = level;
1380 args[2] = optname;
1381 args[3] = (UWord)optval;
1382 args[4] = (UWord)optlen;
1383 res = VG_(do_syscall2)(__NR_socketcall, VKI_SYS_SETSOCKOPT, (UWord)&args);
1384 return sr_isError(res) ? -1 : sr_Res(res);
1386 # elif defined(VGP_amd64_linux) || defined(VGP_arm_linux) \
1387 || defined(VGP_mips32_linux) || defined(VGP_mips64_linux) \
1388 || defined(VGP_arm64_linux)
1389 SysRes res;
1390 res = VG_(do_syscall5)( __NR_setsockopt,
1391 (UWord)sd, (UWord)level, (UWord)optname,
1392 (UWord)optval, (UWord)optlen );
1393 return sr_isError(res) ? -1 : sr_Res(res);
1395 # elif defined(VGO_darwin)
1396 SysRes res;
1397 res = VG_(do_syscall5)( __NR_setsockopt,
1398 (UWord)sd, (UWord)level, (UWord)optname,
1399 (UWord)optval, (UWord)optlen );
1400 return sr_isError(res) ? -1 : sr_Res(res);
1402 # elif defined(VGO_solaris)
1403 SysRes res;
1404 res = VG_(do_syscall6)( __NR_setsockopt,
1405 (UWord)sd, (UWord)level, (UWord)optname,
1406 (UWord)optval, (UWord)optlen,
1407 VKI_SOV_DEFAULT /*version*/ );
1408 return sr_isError(res) ? -1 : sr_Res(res);
1410 # else
1411 # error "Unknown platform"
1412 # endif
1416 const HChar *VG_(basename)(const HChar *path)
1418 static HChar *buf = NULL;
1419 static SizeT buf_len = 0;
1420 const HChar *p, *end;
1422 if (path == NULL ||
1423 0 == VG_(strcmp)(path, ""))
1425 return ".";
1428 p = path + VG_(strlen)(path);
1429 while (p > path && *p == '/') {
1430 // skip all trailing '/'
1431 p--;
1434 if (p == path && *p == '/') return "/"; // all slashes
1436 end = p;
1438 while (p > path && *p != '/') {
1439 // now skip non '/'
1440 p--;
1443 if (*p == '/') p++;
1445 SizeT need = end-p+1 + 1;
1446 if (need > buf_len) {
1447 buf_len = (buf_len == 0) ? 500 : need;
1448 buf = VG_(realloc)("basename", buf, buf_len);
1450 VG_(strncpy)(buf, p, end-p+1);
1451 buf[end-p+1] = '\0';
1453 return buf;
1457 const HChar *VG_(dirname)(const HChar *path)
1459 static HChar *buf = NULL;
1460 static SizeT buf_len = 0;
1462 const HChar *p;
1464 if (path == NULL ||
1465 0 == VG_(strcmp)(path, "") ||
1466 0 == VG_(strcmp)(path, "/"))
1468 return ".";
1471 p = path + VG_(strlen)(path);
1472 while (p > path && *p == '/') {
1473 // skip all trailing '/'
1474 p--;
1477 while (p > path && *p != '/') {
1478 // now skip non '/'
1479 p--;
1482 if (p == path) {
1483 if (*p == '/') return "/"; // all slashes
1484 else return "."; // no slashes
1487 while (p > path && *p == '/') {
1488 // skip '/' again
1489 p--;
1492 SizeT need = p-path+1 + 1;
1493 if (need > buf_len) {
1494 buf_len = (buf_len == 0) ? 500 : need;
1495 buf = VG_(realloc)("dirname", buf, buf_len);
1497 VG_(strncpy)(buf, path, p-path+1);
1498 buf[p-path+1] = '\0';
1500 return buf;
1504 /*--------------------------------------------------------------------*/
1505 /*--- end ---*/
1506 /*--------------------------------------------------------------------*/