/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* Copyright (c) 1988 AT&T */ /* All Rights Reserved */ #include "synonyms.h" #include "mtlib.h" #include "file64.h" #define _iob __iob #include #include #include #include #include #include #include #include "stdiom.h" #include #include #include #include #include #undef end #define FILE_ARY_SZ 8 /* a nice size for FILE array & end_buffer_ptrs */ #ifdef _LP64 /* * Macros to declare and loop over a fp or fp/xfp combo to * avoid some of the _LP64 ifdef hell. */ #define FPDECL(fp) FILE *fp #define FIRSTFP(lp, fp) fp = lp->iobp #define NEXTFP(fp) fp++ #define FPLOCK(fp) &fp->_lock #define FPSTATE(fp) &fp->_state #define xFILE FILE #else #define FPDECL(fp) FILE *fp; xFILE *x##fp #define FIRSTFP(lp, fp) x##fp = lp->iobp; \ fp = x##fp ? &x##fp->_iob : &_iob[0] #define NEXTFP(fp) (x##fp ? fp = &(++x##fp)->_iob : ++fp) #define FPLOCK(fp) x##fp ? \ &x##fp->xlock : &_xftab[IOPIND(fp)]._lock #define FPSTATE(fp) x##fp ? \ &x##fp->xstate : &_xftab[IOPIND(fp)]._state /* The extended 32-bit file structure for use in link buffers */ typedef struct xFILE { FILE _iob; /* must be first! */ struct xFILEdata _xdat; } xFILE; #define xmagic _xdat._magic #define xend _xdat._end #define xlock _xdat._lock #define xstate _xdat._state #define FILEx(fp) ((struct xFILE *)(uintptr_t)fp) /* * The magic number stored is actually the pointer scrambled with * a magic number. Pointers to data items live everywhere in memory * so we scramble the pointer in order to avoid accidental collisions. */ #define XFILEMAGIC 0x63687367 #define XMAGIC(xfp) ((uintptr_t)(xfp) ^ XFILEMAGIC) #endif /* _LP64 */ struct _link_ /* manages a list of streams */ { xFILE *iobp; /* the array of (x)FILE's */ /* NULL for the __first_link in ILP32 */ int niob; /* length of the arrays */ struct _link_ *next; /* next in the list */ }; /* * With dynamic linking, iob may be in either the library or in the user's * a.out, so the run time linker fixes up the first entry in __first_link at * process startup time. * * In 32 bit processes, we don't have xFILE[FILE_ARY_SZ] but FILE[], * and _xftab[] instead; this is denoted by having iobp set to NULL in * 32 bit mode for the first link entry. */ struct _link_ __first_link = /* first in linked list */ { #if !defined(_LP64) NULL, #else &_iob[0], #endif _NFILE, NULL }; /* * Information cached to speed up searches. We remember where we * last found a free FILE* and we remember whether we saw any fcloses * in between. We also count the number of chunks we allocated, see * _findiop() for an explanation. * These variables are all protected by _first_link_lock. */ static struct _link_ *lastlink = NULL; static int fcloses; static int nchunks; static mutex_t _first_link_lock = DEFAULTMUTEX; static int _fflush_l_iops(void); static FILE *getiop(FILE *, rmutex_t *, mbstate_t *); /* * All functions that understand the linked list of iob's follow. */ #pragma weak _cleanup = __cleanup void __cleanup(void) /* called at process end to flush ouput streams */ { (void) fflush(NULL); } /* * For fork1-safety (see libc_prepare_atfork(), etc). */ void stdio_locks() { (void) mutex_lock(&_first_link_lock); /* * XXX: We should acquire all of the iob locks here. */ } void stdio_unlocks() { /* * XXX: We should release all of the iob locks here. */ (void) mutex_unlock(&_first_link_lock); } void _flushlbf(void) /* fflush() all line-buffered streams */ { FPDECL(fp); int i; struct _link_ *lp; /* Allow compiler to optimize the loop */ int threaded = __libc_threaded; if (threaded) cancel_safe_mutex_lock(&_first_link_lock); lp = &__first_link; do { FIRSTFP(lp, fp); for (i = lp->niob; --i >= 0; NEXTFP(fp)) { /* * The additional _IONBF check guards againsts * allocated but uninitialized iops (see _findiop). * We also automatically skip non allocated iop's. * Don't block on locks. */ if ((fp->_flag & (_IOLBF | _IOWRT | _IONBF)) == (_IOLBF | _IOWRT)) { if (threaded) { rmutex_t *lk = FPLOCK(fp); if (cancel_safe_mutex_trylock(lk) != 0) continue; /* Recheck after locking */ if ((fp->_flag & (_IOLBF | _IOWRT)) == (_IOLBF | _IOWRT)) { (void) _fflush_u(fp); } cancel_safe_mutex_unlock(lk); } else { (void) _fflush_u(fp); } } } } while ((lp = lp->next) != NULL); if (threaded) cancel_safe_mutex_unlock(&_first_link_lock); } /* allocate an unused stream; NULL if cannot */ FILE * _findiop(void) { struct _link_ *lp, **prev; /* used so there only needs to be one malloc() */ #ifdef _LP64 typedef struct { struct _link_ hdr; FILE iob[FILE_ARY_SZ]; } Pkg; #else typedef union { struct { /* Normal */ struct _link_ hdr; xFILE iob[FILE_ARY_SZ]; } Pkgn; struct { /* Reversed */ xFILE iob[FILE_ARY_SZ]; struct _link_ hdr; } Pkgr; } Pkg; uintptr_t delta; #endif Pkg *pkgp; struct _link_ *hdr; FPDECL(fp); int i; int threaded = __libc_threaded; if (threaded) cancel_safe_mutex_lock(&_first_link_lock); if (lastlink == NULL) { rescan: fcloses = 0; lastlink = &__first_link; } lp = lastlink; /* * lock to make testing of fp->_flag == 0 and acquiring the fp atomic * and for allocation of new links * low contention expected on _findiop(), hence coarse locking. * for finer granularity, use fp->_lock for allocating an iop * and make the testing of lp->next and allocation of new link atomic * using lp->_lock */ do { prev = &lp->next; FIRSTFP(lp, fp); for (i = lp->niob; --i >= 0; NEXTFP(fp)) { FILE *ret; if (threaded) { ret = getiop(fp, FPLOCK(fp), FPSTATE(fp)); if (ret != NULL) { cancel_safe_mutex_unlock( &_first_link_lock); return (ret); } } else { ret = getiop(fp, NULL, FPSTATE(fp)); if (ret != NULL) return (ret); } } } while ((lastlink = lp = lp->next) != NULL); /* * If there was a sufficient number of fcloses since we last started * at __first_link, we rescan all fp's again. We do not rescan for * all fcloses; that would simplify the algorithm but would make * search times near O(n) again. * Worst case behaviour would still be pretty bad (open a full set, * then continously opening and closing one FILE * gets you a full * scan each time). That's why we over allocate 1 FILE for each * 32 chunks. More over allocation is better; this is a nice * empirical value which doesn't cost a lot of memory, doesn't * overallocate until we reach 256 FILE *s and keeps the performance * pretty close to the optimum. */ if (fcloses > nchunks/32) goto rescan; /* * Need to allocate another and put it in the linked list. */ if ((pkgp = malloc(sizeof (Pkg))) == NULL) { if (threaded) cancel_safe_mutex_unlock(&_first_link_lock); return (NULL); } (void) memset(pkgp, 0, sizeof (Pkg)); #ifdef _LP64 hdr = &pkgp->hdr; hdr->iobp = &pkgp->iob[0]; #else /* * The problem with referencing a word after a FILE* is the possibility * of a SIGSEGV if a non-stdio issue FILE structure ends on a page * boundary. We run this check so we never need to run an expensive * check like mincore() in order to know whether it is * safe to dereference ((xFILE*)fp)->xmagic. * We allocate the block with two alternative layouts; if one * layout is not properly aligned for our purposes, the other layout * will be because the size of _link_ is small compared to * sizeof (xFILE). * The check performed is this: * If the distance from pkgp to the end of the page is * less than the the offset of the last xmagic field in the * xFILE structure, (the 0x1000 boundary is inside our just * allocated structure) and the distance modulo the size of xFILE * is identical to the offset of the first xmagic in the * structure (i.e., XXXXXX000 points to an xmagic field), * we need to use the reverse structure. */ if ((delta = 0x1000 - ((uintptr_t)pkgp & 0xfff)) <= offsetof(Pkg, Pkgn.iob[FILE_ARY_SZ-1].xmagic) && delta % sizeof (struct xFILE) == offsetof(Pkg, Pkgn.iob[0].xmagic)) { /* Use reversed structure */ hdr = &pkgp->Pkgr.hdr; hdr->iobp = &pkgp->Pkgr.iob[0]; } else { /* Use normal structure */ hdr = &pkgp->Pkgn.hdr; hdr->iobp = &pkgp->Pkgn.iob[0]; } #endif /* _LP64 */ hdr->niob = FILE_ARY_SZ; nchunks++; #ifdef _LP64 fp = hdr->iobp; for (i = 0; i < FILE_ARY_SZ; i++) mutex_init(&fp[i]._lock, USYNC_THREAD | LOCK_RECURSIVE, NULL); #else xfp = hdr->iobp; fp = &xfp->_iob; for (i = 0; i < FILE_ARY_SZ; i++) { xfp[i].xmagic = XMAGIC(&xfp[i]); mutex_init(&xfp[i].xlock, USYNC_THREAD | LOCK_RECURSIVE, NULL); } #endif /* _LP64 */ lastlink = *prev = hdr; fp->_ptr = 0; fp->_base = 0; fp->_flag = 0377; /* claim the fp by setting low 8 bits */ if (threaded) cancel_safe_mutex_unlock(&_first_link_lock); return (fp); } static void isseekable(FILE *iop) { struct stat64 fstatbuf; int save_errno; save_errno = errno; if (fstat64(GET_FD(iop), &fstatbuf) != 0) { /* * when we don't know what it is we'll * do the old behaviour and flush * the stream */ SET_SEEKABLE(iop); errno = save_errno; return; } /* * check for what is non-SEEKABLE * otherwise assume it's SEEKABLE so we get the old * behaviour and flush the stream */ if (S_ISFIFO(fstatbuf.st_mode) || S_ISCHR(fstatbuf.st_mode) || S_ISSOCK(fstatbuf.st_mode) || S_ISDOOR(fstatbuf.st_mode)) { CLEAR_SEEKABLE(iop); } else { SET_SEEKABLE(iop); } errno = save_errno; } #ifdef _LP64 void _setbufend(FILE *iop, Uchar *end) /* set the end pointer for this iop */ { iop->_end = end; isseekable(iop); } #undef _realbufend Uchar * _realbufend(FILE *iop) /* get the end pointer for this iop */ { return (iop->_end); } #else /* _LP64 */ /* * Awkward functions not needed for the sane 64 bit environment. */ /* * xmagic must not be aligned on a 4K boundary. We guarantee this in * _findiop(). */ #define VALIDXFILE(xfp) \ (((uintptr_t)&(xfp)->xmagic & 0xfff) && \ (xfp)->xmagic == XMAGIC(FILEx(xfp))) static struct xFILEdata * getxfdat(FILE *iop) { if (STDIOP(iop)) return (&_xftab[IOPIND(iop)]); else if (VALIDXFILE(FILEx(iop))) return (&FILEx(iop)->_xdat); else return (NULL); } void _setbufend(FILE *iop, Uchar *end) /* set the end pointer for this iop */ { struct xFILEdata *dat = getxfdat(iop); if (dat != NULL) dat->_end = end; isseekable(iop); /* * For binary compatibility with user programs using the * old _bufend macro. This is *so* broken, fileno() * is not the proper index. */ if (iop->_magic < _NFILE) _bufendtab[iop->_magic] = end; } Uchar * _realbufend(FILE *iop) /* get the end pointer for this iop */ { struct xFILEdata *dat = getxfdat(iop); if (dat != NULL) return (dat->_end); return (NULL); } /* * _reallock() is invoked in each stdio call through the IOB_LCK() macro, * it is therefor extremely performance sensitive. We get better performance * by inlining the STDIOP check in IOB_LCK and inlining a custom version * of getfxdat() here. */ rmutex_t * _reallock(FILE *iop) { if (VALIDXFILE(FILEx(iop))) return (&FILEx(iop)->xlock); return (NULL); } #endif /* _LP64 */ /* make sure _cnt, _ptr are correct */ void _bufsync(FILE *iop, Uchar *bufend) { ssize_t spaceleft; spaceleft = bufend - iop->_ptr; if (bufend < iop->_ptr) { iop->_ptr = bufend; iop->_cnt = 0; } else if (spaceleft < iop->_cnt) iop->_cnt = spaceleft; } /* really write out current buffer contents */ int _xflsbuf(FILE *iop) { ssize_t n; Uchar *base = iop->_base; Uchar *bufend; ssize_t num_wrote; /* * Hopefully, be stable with respect to interrupts... */ n = iop->_ptr - base; iop->_ptr = base; bufend = _bufend(iop); if (iop->_flag & (_IOLBF | _IONBF)) iop->_cnt = 0; /* always go to a flush */ else iop->_cnt = bufend - base; if (_needsync(iop, bufend)) /* recover from interrupts */ _bufsync(iop, bufend); if (n > 0) { int fd = GET_FD(iop); while ((num_wrote = write(fd, base, (size_t)n)) != n) { if (num_wrote <= 0) { if (!cancel_active()) iop->_flag |= _IOERR; return (EOF); } n -= num_wrote; base += num_wrote; } } return (0); } /* flush (write) buffer */ int fflush(FILE *iop) { int res; rmutex_t *lk; if (iop) { FLOCKFILE(lk, iop); res = _fflush_u(iop); FUNLOCKFILE(lk); } else { res = _fflush_l_iops(); /* flush all iops */ } return (res); } static int _fflush_l_iops(void) /* flush all buffers */ { FPDECL(iop); int i; struct _link_ *lp; int res = 0; rmutex_t *lk; /* Allow the compiler to optimize the load out of the loop */ int threaded = __libc_threaded; if (threaded) cancel_safe_mutex_lock(&_first_link_lock); lp = &__first_link; do { /* * We need to grab the file locks or file corruption * will happen. But we first check the flags field * knowing that when it is 0, it isn't allocated and * cannot be allocated while we're holding the * _first_link_lock. And when _IONBF is set (also the * case when _flag is 0377, or alloc in progress), we * also ignore it. * * Ignore locked streams; it will appear as if * concurrent updates happened after fflush(NULL). Note * that we even attempt to lock if the locking is set to * "by caller". We don't want to penalize callers of * __fsetlocking() by not flushing their files. Note: if * __fsetlocking() callers don't employ any locking, they * may still face corruption in fflush(NULL); but that's * no change from earlier releases. */ FIRSTFP(lp, iop); for (i = lp->niob; --i >= 0; NEXTFP(iop)) { unsigned int flag = iop->_flag; /* flag 0, flag 0377, or _IONBF set */ if (flag == 0 || (flag & _IONBF) != 0) continue; if (threaded) { lk = FPLOCK(iop); if (cancel_safe_mutex_trylock(lk) != 0) continue; } if (!(iop->_flag & _IONBF)) { /* * don't need to worry about the _IORW case * since the iop will also marked with _IOREAD * or _IOWRT whichever we are really doing */ if (iop->_flag & _IOWRT) { /* Flush write buffers */ res |= _fflush_u(iop); } else if (iop->_flag & _IOREAD) { /* * flush seekable read buffers * don't flush non-seekable read buffers */ if (GET_SEEKABLE(iop)) { res |= _fflush_u(iop); } } } if (threaded) cancel_safe_mutex_unlock(lk); } } while ((lp = lp->next) != NULL); if (threaded) cancel_safe_mutex_unlock(&_first_link_lock); return (res); } /* flush buffer */ int _fflush_u(FILE *iop) { int res = 0; /* this portion is always assumed locked */ if (!(iop->_flag & _IOWRT)) { (void) lseek64(GET_FD(iop), -iop->_cnt, SEEK_CUR); iop->_cnt = 0; /* needed for ungetc & multibyte pushbacks */ iop->_ptr = iop->_base; if (iop->_flag & _IORW) { iop->_flag &= ~_IOREAD; } return (0); } if (iop->_base != NULL && iop->_ptr > iop->_base) { res = _xflsbuf(iop); } if (iop->_flag & _IORW) { iop->_flag &= ~_IOWRT; iop->_cnt = 0; } return (res); } /* flush buffer and close stream */ int fclose(FILE *iop) { int res = 0; rmutex_t *lk; if (iop == NULL) { return (EOF); /* avoid passing zero to FLOCKFILE */ } FLOCKFILE(lk, iop); if (iop->_flag == 0) { FUNLOCKFILE(lk); return (EOF); } /* Is not unbuffered and opened for read and/or write ? */ if (!(iop->_flag & _IONBF) && (iop->_flag & (_IOWRT | _IOREAD | _IORW))) res = _fflush_u(iop); if (close(GET_FD(iop)) < 0) res = EOF; if (iop->_flag & _IOMYBUF) { (void) free((char *)iop->_base - PUSHBACK); } iop->_base = NULL; iop->_ptr = NULL; iop->_cnt = 0; iop->_flag = 0; /* marks it as available */ FUNLOCKFILE(lk); if (__libc_threaded) cancel_safe_mutex_lock(&_first_link_lock); fcloses++; if (__libc_threaded) cancel_safe_mutex_unlock(&_first_link_lock); return (res); } /* flush buffer, close fd but keep the stream used by freopen() */ int close_fd(FILE *iop) { int res = 0; mbstate_t *mb; if (iop == NULL || iop->_flag == 0) return (EOF); /* Is not unbuffered and opened for read and/or write ? */ if (!(iop->_flag & _IONBF) && (iop->_flag & (_IOWRT | _IOREAD | _IORW))) res = _fflush_u(iop); if (close(GET_FD(iop)) < 0) res = EOF; if (iop->_flag & _IOMYBUF) { (void) free((char *)iop->_base - PUSHBACK); } iop->_base = NULL; iop->_ptr = NULL; mb = _getmbstate(iop); if (mb != NULL) (void) memset(mb, 0, sizeof (mbstate_t)); iop->_cnt = 0; _setorientation(iop, _NO_MODE); return (res); } static FILE * getiop(FILE *fp, rmutex_t *lk, mbstate_t *mb) { if (lk != NULL && cancel_safe_mutex_trylock(lk) != 0) return (NULL); /* locked: fp in use */ if (fp->_flag == 0) { /* unused */ #ifndef _LP64 fp->__orientation = 0; #endif /* _LP64 */ fp->_cnt = 0; fp->_ptr = NULL; fp->_base = NULL; fp->_flag = 0377; /* claim the fp by setting low 8 bits */ (void) memset(mb, 0, sizeof (mbstate_t)); FUNLOCKFILE(lk); return (fp); } FUNLOCKFILE(lk); return (NULL); } #ifndef _LP64 /* * DESCRIPTION: * This function gets the pointer to the mbstate_t structure associated * with the specified iop. * * RETURNS: * If the associated mbstate_t found, the pointer to the mbstate_t is * returned. Otherwise, NULL is returned. */ mbstate_t * _getmbstate(FILE *iop) { struct xFILEdata *dat = getxfdat(iop); if (dat != NULL) return (&dat->_state); return (NULL); } /* * More 32-bit only functions. * They lookup/set large fd's for extended FILE support. */ /* * The negative value indicates that Extended fd FILE's has not * been enabled by the user. */ static int bad_fd = -1; int _file_get(FILE *iop) { int altfd; /* * Failure indicates a FILE * not allocated through stdio; * it means the flag values are probably bogus and that if * a file descriptor is set, it's in _magic. * Inline getxfdat() for performance reasons. */ if (STDIOP(iop)) altfd = _xftab[IOPIND(iop)]._altfd; else if (VALIDXFILE(FILEx(iop))) altfd = FILEx(iop)->_xdat._altfd; else return (iop->_magic); /* * if this is not an internal extended FILE then check * if _file is being changed from underneath us. * It should not be because if * it is then then we lose our ability to guard against * silent data corruption. */ if (!iop->__xf_nocheck && bad_fd > -1 && iop->_magic != bad_fd) { (void) fprintf(stderr, "Application violated extended FILE safety mechanism.\n" "Please read the man page for extendedFILE.\nAborting\n"); abort(); } return (altfd); } int _file_set(FILE *iop, int fd, const char *type) { struct xFILEdata *dat; int Fflag; /* Already known to contain at least one byte */ while (*++type != '\0') ; Fflag = type[-1] == 'F'; if (!Fflag && bad_fd < 0) { errno = EMFILE; return (-1); } dat = getxfdat(iop); iop->__extendedfd = 1; iop->__xf_nocheck = Fflag; dat->_altfd = fd; iop->_magic = (unsigned char)bad_fd; return (0); } /* * Activates extended fd's in FILE's */ static const int tries[] = {196, 120, 60, 3}; #define NTRIES (sizeof (tries)/sizeof (int)) int enable_extended_FILE_stdio(int fd, int action) { int i; if (action < 0) action = SIGABRT; /* default signal */ if (fd < 0) { /* * search for an available fd and make it the badfd */ for (i = 0; i < NTRIES; i++) { fd = fcntl(tries[i], F_BADFD, action); if (fd >= 0) break; } if (fd < 0) /* failed to find an available fd */ return (-1); } else { /* caller requests that fd be the chosen badfd */ int nfd = fcntl(fd, F_BADFD, action); if (nfd < 0 || nfd != fd) return (-1); } bad_fd = fd; return (0); } #endif