/* iobuf.c - file handling * Copyright (C) 1998, 1999, 2000, 2001, 2003 Free Software Foundation, Inc. * * This file is part of GnuPG. * * GnuPG 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 2 of the License, or * (at your option) any later version. * * GnuPG 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, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA */ #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_DOSISH_SYSTEM #include #endif #ifdef __riscos__ #include #include #endif /* __riscos__ */ #include "memory.h" #include "util.h" #include "iobuf.h" #undef FILE_FILTER_USES_STDIO #ifdef HAVE_DOSISH_SYSTEM #define USE_SETMODE 1 #endif #ifdef FILE_FILTER_USES_STDIO #define my_fileno(a) fileno ((a)) #define my_fopen_ro(a,b) fopen ((a),(b)) #define my_fopen(a,b) fopen ((a),(b)) typedef FILE *FILEP_OR_FD; #define INVALID_FP NULL #define FILEP_OR_FD_FOR_STDIN (stdin) #define FILEP_OR_FD_FOR_STDOUT (stdout) typedef struct { FILE *fp; /* open file handle */ int keep_open; int no_cache; int print_only_name; /* flags indicating that fname is not a real file */ char fname[1]; /* name of the file */ } file_filter_ctx_t; #else #define my_fileno(a) (a) #define my_fopen_ro(a,b) fd_cache_open ((a),(b)) #define my_fopen(a,b) direct_open ((a),(b)) #ifdef HAVE_DOSISH_SYSTEM typedef HANDLE FILEP_OR_FD; #define INVALID_FP ((HANDLE)-1) #define FILEP_OR_FD_FOR_STDIN (GetStdHandle (STD_INPUT_HANDLE)) #define FILEP_OR_FD_FOR_STDOUT (GetStdHandle (STD_OUTPUT_HANDLE)) #undef USE_SETMODE #else typedef int FILEP_OR_FD; #define INVALID_FP (-1) #define FILEP_OR_FD_FOR_STDIN (0) #define FILEP_OR_FD_FOR_STDOUT (1) #endif typedef struct { FILEP_OR_FD fp; /* open file handle */ int keep_open; int no_cache; int eof_seen; int print_only_name; /* flags indicating that fname is not a real file */ char fname[1]; /* name of the file */ } file_filter_ctx_t; struct close_cache_s { struct close_cache_s *next; FILEP_OR_FD fp; char fname[1]; }; typedef struct close_cache_s *CLOSE_CACHE; static CLOSE_CACHE close_cache; #endif #ifdef __MINGW32__ typedef struct { int sock; int keep_open; int no_cache; int eof_seen; int print_only_name; /* flags indicating that fname is not a real file */ char fname[1]; /* name of the file */ } sock_filter_ctx_t; #endif /*__MINGW32__*/ /* The first partial length header block must be of size 512 * to make it easier (and efficienter) we use a min. block size of 512 * for all chunks (but the last one) */ #define OP_MIN_PARTIAL_CHUNK 512 #define OP_MIN_PARTIAL_CHUNK_2POW 9 typedef struct { int use; size_t size; size_t count; int partial; /* 1 = partial header, 2 in last partial packet */ char *buffer; /* used for partial header */ size_t buflen; /* used size of buffer */ int first_c; /* of partial header (which is > 0) */ int eof; } block_filter_ctx_t; static int special_names_enabled; static int underflow (iobuf_t a); static int translate_file_handle (int fd, int for_write); #ifndef FILE_FILTER_USES_STDIO /* * Invalidate (i.e. close) a cached iobuf */ static void fd_cache_invalidate (const char *fname) { CLOSE_CACHE cc; assert (fname); if (DBG_IOBUF) log_debug ("fd_cache_invalidate (%s)\n", fname); for (cc = close_cache; cc; cc = cc->next) { if (cc->fp != INVALID_FP && !strcmp (cc->fname, fname)) { if (DBG_IOBUF) log_debug (" did (%s)\n", cc->fname); #ifdef HAVE_DOSISH_SYSTEM CloseHandle (cc->fp); #else close (cc->fp); #endif cc->fp = INVALID_FP; } } } static FILEP_OR_FD direct_open (const char *fname, const char *mode) { #ifdef HAVE_DOSISH_SYSTEM unsigned long da, cd, sm; HANDLE hfile; /* Note, that we do not handle all mode combinations */ /* According to the ReactOS source it seems that open() of the * standard MSW32 crt does open the file in share mode which is * something new for MS applications ;-) */ if (strchr (mode, '+')) { fd_cache_invalidate (fname); da = GENERIC_READ | GENERIC_WRITE; cd = OPEN_EXISTING; sm = FILE_SHARE_READ | FILE_SHARE_WRITE; } else if (strchr (mode, 'w')) { fd_cache_invalidate (fname); da = GENERIC_WRITE; cd = CREATE_ALWAYS; sm = FILE_SHARE_WRITE; } else { da = GENERIC_READ; cd = OPEN_EXISTING; sm = FILE_SHARE_READ; } hfile = CreateFile (fname, da, sm, NULL, cd, FILE_ATTRIBUTE_NORMAL, NULL); return hfile; #else int oflag; int cflag = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH | S_IWOTH; /* Note, that we do not handle all mode combinations */ if (strchr (mode, '+')) { fd_cache_invalidate (fname); oflag = O_RDWR; } else if (strchr (mode, 'w')) { fd_cache_invalidate (fname); oflag = O_WRONLY | O_CREAT | O_TRUNC; } else { oflag = O_RDONLY; } #ifdef O_BINARY if (strchr (mode, 'b')) oflag |= O_BINARY; #endif #ifndef __riscos__ return open (fname, oflag, cflag); #else { struct stat buf; int rc = stat (fname, &buf); /* Don't allow iobufs on directories */ if (!rc && S_ISDIR (buf.st_mode) && !S_ISREG (buf.st_mode)) return __set_errno (EISDIR); else return open (fname, oflag, cflag); } #endif #endif } /* * Instead of closing an FD we keep it open and cache it for later reuse * Note that this caching strategy only works if the process does not chdir. */ static void fd_cache_close (const char *fname, FILEP_OR_FD fp) { CLOSE_CACHE cc; assert (fp); if (!fname || !*fname) { #ifdef HAVE_DOSISH_SYSTEM CloseHandle (fp); #else close (fp); #endif if (DBG_IOBUF) log_debug ("fd_cache_close (%p) real\n", (void *) fp); return; } /* try to reuse a slot */ for (cc = close_cache; cc; cc = cc->next) { if (cc->fp == INVALID_FP && !strcmp (cc->fname, fname)) { cc->fp = fp; if (DBG_IOBUF) log_debug ("fd_cache_close (%s) used existing slot\n", fname); return; } } /* add a new one */ if (DBG_IOBUF) log_debug ("fd_cache_close (%s) new slot created\n", fname); cc = xcalloc (1, sizeof *cc + strlen (fname)); strcpy (cc->fname, fname); cc->fp = fp; cc->next = close_cache; close_cache = cc; } /* * Do an direct_open on FNAME but first try to reuse one from the fd_cache */ static FILEP_OR_FD fd_cache_open (const char *fname, const char *mode) { CLOSE_CACHE cc; assert (fname); for (cc = close_cache; cc; cc = cc->next) { if (cc->fp != INVALID_FP && !strcmp (cc->fname, fname)) { FILEP_OR_FD fp = cc->fp; cc->fp = INVALID_FP; if (DBG_IOBUF) log_debug ("fd_cache_open (%s) using cached fp\n", fname); #ifdef HAVE_DOSISH_SYSTEM if (SetFilePointer (fp, 0, NULL, FILE_BEGIN) == 0xffffffff) { log_error ("rewind file failed on handle %p: ec=%d\n", fp, (int) GetLastError ()); fp = INVALID_FP; } #else if (lseek (fp, 0, SEEK_SET) == (off_t) - 1) { log_error ("can't rewind fd %d: %s\n", fp, strerror (errno)); fp = INVALID_FP; } #endif return fp; } } if (DBG_IOBUF) log_debug ("fd_cache_open (%s) not cached\n", fname); return direct_open (fname, mode); } #endif /*FILE_FILTER_USES_STDIO */ /**************** * Read data from a file into buf which has an allocated length of *LEN. * return the number of read bytes in *LEN. OPAQUE is the FILE * of * the stream. A is not used. * control may be: * IOBUFCTRL_INIT: called just before the function is linked into the * list of function. This can be used to prepare internal * data structures of the function. * IOBUFCTRL_FREE: called just before the function is removed from the * list of functions and can be used to release internal * data structures or close a file etc. * IOBUFCTRL_UNDERFLOW: called by iobuf_underflow to fill the buffer * with new stuff. *RET_LEN is the available size of the * buffer, and should be set to the number of bytes * which were put into the buffer. The function * returns 0 to indicate success, -1 on EOF and * GPG_ERR_xxxxx for other errors. * * IOBUFCTRL_FLUSH: called by iobuf_flush() to write out the collected stuff. * *RET_LAN is the number of bytes in BUF. * * IOBUFCTRL_CANCEL: send to all filters on behalf of iobuf_cancel. The * filter may take appropriate action on this message. */ static int file_filter (void *opaque, int control, iobuf_t chain, byte * buf, size_t * ret_len) { file_filter_ctx_t *a = opaque; FILEP_OR_FD f = a->fp; size_t size = *ret_len; size_t nbytes = 0; int rc = 0; #ifdef FILE_FILTER_USES_STDIO if (control == IOBUFCTRL_UNDERFLOW) { assert (size); /* need a buffer */ if (feof (f)) { /* On terminals you could easiely read as many EOFs as you call */ rc = -1; /* fread() or fgetc() repeatly. Every call will block until you press */ *ret_len = 0; /* CTRL-D. So we catch this case before we call fread() again. */ } else { clearerr (f); nbytes = fread (buf, 1, size, f); if (feof (f) && !nbytes) { rc = -1; /* okay: we can return EOF now. */ } else if (ferror (f) && errno != EPIPE) { rc = gpg_error_from_errno (errno); log_error ("%s: read error: %s\n", a->fname, strerror (errno)); } *ret_len = nbytes; } } else if (control == IOBUFCTRL_FLUSH) { if (size) { clearerr (f); nbytes = fwrite (buf, 1, size, f); if (ferror (f)) { rc = gpg_error_from_errno (errno); log_error ("%s: write error: %s\n", a->fname, strerror (errno)); } } *ret_len = nbytes; } else if (control == IOBUFCTRL_INIT) { a->keep_open = a->no_cache = 0; } else if (control == IOBUFCTRL_DESC) { *(char **) buf = "file_filter"; } else if (control == IOBUFCTRL_FREE) { if (f != stdin && f != stdout) { if (DBG_IOBUF) log_debug ("%s: close fd %d\n", a->fname, fileno (f)); if (!a->keep_open) fclose (f); } f = NULL; xfree (a); /* we can free our context now */ } #else /* !stdio implementation */ if (control == IOBUFCTRL_UNDERFLOW) { assert (size); /* need a buffer */ if (a->eof_seen) { rc = -1; *ret_len = 0; } else { #ifdef HAVE_DOSISH_SYSTEM unsigned long nread; nbytes = 0; if (!ReadFile (f, buf, size, &nread, NULL)) { int ec = (int) GetLastError (); if (ec != ERROR_BROKEN_PIPE) { rc = gpg_error_from_errno (ec); log_error ("%s: read error: ec=%d\n", a->fname, ec); } } else if (!nread) { a->eof_seen = 1; rc = -1; } else { nbytes = nread; } #else int n; nbytes = 0; do { n = read (f, buf, size); } while (n == -1 && errno == EINTR); if (n == -1) { /* error */ if (errno != EPIPE) { rc = gpg_error_from_errno (errno); log_error ("%s: read error: %s\n", a->fname, strerror (errno)); } } else if (!n) { /* eof */ a->eof_seen = 1; rc = -1; } else { nbytes = n; } #endif *ret_len = nbytes; } } else if (control == IOBUFCTRL_FLUSH) { if (size) { #ifdef HAVE_DOSISH_SYSTEM byte *p = buf; unsigned long n; nbytes = size; do { if (size && !WriteFile (f, p, nbytes, &n, NULL)) { int ec = (int) GetLastError (); rc = gpg_error_from_errno (ec); log_error ("%s: write error: ec=%d\n", a->fname, ec); break; } p += n; nbytes -= n; } while (nbytes); nbytes = p - buf; #else byte *p = buf; int n; nbytes = size; do { do { n = write (f, p, nbytes); } while (n == -1 && errno == EINTR); if (n > 0) { p += n; nbytes -= n; } } while (n != -1 && nbytes); if (n == -1) { rc = gpg_error_from_errno (errno); log_error ("%s: write error: %s\n", a->fname, strerror (errno)); } nbytes = p - buf; #endif } *ret_len = nbytes; } else if (control == IOBUFCTRL_INIT) { a->eof_seen = 0; a->keep_open = 0; a->no_cache = 0; } else if (control == IOBUFCTRL_DESC) { *(char **) buf = "file_filter(fd)"; } else if (control == IOBUFCTRL_FREE) { #ifdef HAVE_DOSISH_SYSTEM if (f != FILEP_OR_FD_FOR_STDIN && f != FILEP_OR_FD_FOR_STDOUT) { if (DBG_IOBUF) log_debug ("%s: close handle %p\n", a->fname, f); if (!a->keep_open) fd_cache_close (a->no_cache ? NULL : a->fname, f); } #else if ((int) f != 0 && (int) f != 1) { if (DBG_IOBUF) log_debug ("%s: close fd %d\n", a->fname, f); if (!a->keep_open) fd_cache_close (a->no_cache ? NULL : a->fname, f); } f = INVALID_FP; #endif xfree (a); /* we can free our context now */ } #endif /* !stdio implementation */ return rc; } #ifdef __MINGW32__ /* Becuase sockets are an special object under Lose32 we have to * use a special filter */ static int sock_filter (void *opaque, int control, iobuf_t chain, byte * buf, size_t * ret_len) { sock_filter_ctx_t *a = opaque; size_t size = *ret_len; size_t nbytes = 0; int rc = 0; if (control == IOBUFCTRL_UNDERFLOW) { assert (size); /* need a buffer */ if (a->eof_seen) { rc = -1; *ret_len = 0; } else { int nread; nread = recv (a->sock, buf, size, 0); if (nread == SOCKET_ERROR) { int ec = (int) WSAGetLastError (); rc = gpg_error_from_errno (ec); log_error ("socket read error: ec=%d\n", ec); } else if (!nread) { a->eof_seen = 1; rc = -1; } else { nbytes = nread; } *ret_len = nbytes; } } else if (control == IOBUFCTRL_FLUSH) { if (size) { byte *p = buf; int n; nbytes = size; do { n = send (a->sock, p, nbytes, 0); if (n == SOCKET_ERROR) { int ec = (int) WSAGetLastError (); rc = gpg_error_from_errno (ec); log_error ("socket write error: ec=%d\n", ec); break; } p += n; nbytes -= n; } while (nbytes); nbytes = p - buf; } *ret_len = nbytes; } else if (control == IOBUFCTRL_INIT) { a->eof_seen = 0; a->keep_open = 0; a->no_cache = 0; } else if (control == IOBUFCTRL_DESC) { *(char **) buf = "sock_filter"; } else if (control == IOBUFCTRL_FREE) { if (!a->keep_open) closesocket (a->sock); xfree (a); /* we can free our context now */ } return rc; } #endif /*__MINGW32__*/ /**************** * This is used to implement the block write mode. * Block reading is done on a byte by byte basis in readbyte(), * without a filter */ static int block_filter (void *opaque, int control, iobuf_t chain, byte * buf, size_t * ret_len) { block_filter_ctx_t *a = opaque; size_t size = *ret_len; int c, needed, rc = 0; char *p; if (control == IOBUFCTRL_UNDERFLOW) { size_t n = 0; p = buf; assert (size); /* need a buffer */ if (a->eof) /* don't read any further */ rc = -1; while (!rc && size) { if (!a->size) { /* get the length bytes */ if (a->partial == 2) { a->eof = 1; if (!n) rc = -1; break; } else if (a->partial) { /* These OpenPGP introduced huffman like encoded length * bytes are really a mess :-( */ if (a->first_c) { c = a->first_c; a->first_c = 0; } else if ((c = iobuf_get (chain)) == -1) { log_error ("block_filter: 1st length byte missing\n"); rc = GPG_ERR_BAD_DATA; break; } if (c < 192) { a->size = c; a->partial = 2; if (!a->size) { a->eof = 1; if (!n) rc = -1; break; } } else if (c < 224) { a->size = (c - 192) * 256; if ((c = iobuf_get (chain)) == -1) { log_error ("block_filter: 2nd length byte missing\n"); rc = GPG_ERR_BAD_DATA; break; } a->size += c + 192; a->partial = 2; if (!a->size) { a->eof = 1; if (!n) rc = -1; break; } } else if (c == 255) { a->size = iobuf_get (chain) << 24; a->size |= iobuf_get (chain) << 16; a->size |= iobuf_get (chain) << 8; if ((c = iobuf_get (chain)) == -1) { log_error ("block_filter: invalid 4 byte length\n"); rc = GPG_ERR_BAD_DATA; break; } a->size |= c; } else { /* next partial body length */ a->size = 1 << (c & 0x1f); } /* log_debug("partial: ctx=%p c=%02x size=%u\n", a, c, a->size); */ } else { /* the gnupg partial length scheme - much better :-) */ c = iobuf_get (chain); a->size = c << 8; c = iobuf_get (chain); a->size |= c; if (c == -1) { log_error ("block_filter: error reading length info\n"); rc = GPG_ERR_BAD_DATA; } if (!a->size) { a->eof = 1; if (!n) rc = -1; break; } } } while (!rc && size && a->size) { needed = size < a->size ? size : a->size; c = iobuf_read (chain, p, needed); if (c < needed) { if (c == -1) c = 0; log_error ("block_filter %p: read error (size=%lu,a->size=%lu)\n", a, (ulong) size + c, (ulong) a->size + c); rc = GPG_ERR_BAD_DATA; } else { size -= c; a->size -= c; p += c; n += c; } } } *ret_len = n; } else if (control == IOBUFCTRL_FLUSH) { if (a->partial) { /* the complicated openpgp scheme */ size_t blen, n, nbytes = size + a->buflen; assert (a->buflen <= OP_MIN_PARTIAL_CHUNK); if (nbytes < OP_MIN_PARTIAL_CHUNK) { /* not enough to write a partial block out; so we store it */ if (!a->buffer) a->buffer = xmalloc (OP_MIN_PARTIAL_CHUNK); memcpy (a->buffer + a->buflen, buf, size); a->buflen += size; } else { /* okay, we can write out something */ /* do this in a loop to use the most efficient block lengths */ p = buf; do { /* find the best matching block length - this is limited * by the size of the internal buffering */ for (blen = OP_MIN_PARTIAL_CHUNK * 2, c = OP_MIN_PARTIAL_CHUNK_2POW + 1; blen <= nbytes; blen *= 2, c++) ; blen /= 2; c--; /* write the partial length header */ assert (c <= 0x1f); /*;-) */ c |= 0xe0; iobuf_put (chain, c); if ((n = a->buflen)) { /* write stuff from the buffer */ assert (n == OP_MIN_PARTIAL_CHUNK); if (iobuf_write (chain, a->buffer, n)) rc = gpg_error_from_errno (errno); a->buflen = 0; nbytes -= n; } if ((n = nbytes) > blen) n = blen; if (n && iobuf_write (chain, p, n)) rc = gpg_error_from_errno (errno); p += n; nbytes -= n; } while (!rc && nbytes >= OP_MIN_PARTIAL_CHUNK); /* store the rest in the buffer */ if (!rc && nbytes) { assert (!a->buflen); assert (nbytes < OP_MIN_PARTIAL_CHUNK); if (!a->buffer) a->buffer = xmalloc (OP_MIN_PARTIAL_CHUNK); memcpy (a->buffer, p, nbytes); a->buflen = nbytes; } } } else { /* the gnupg scheme (which is not openpgp compliant) */ size_t avail, n; for (p = buf; !rc && size;) { n = size; avail = a->size - a->count; if (!avail) { if (n > a->size) { iobuf_put (chain, (a->size >> 8) & 0xff); iobuf_put (chain, a->size & 0xff); avail = a->size; a->count = 0; } else { iobuf_put (chain, (n >> 8) & 0xff); iobuf_put (chain, n & 0xff); avail = n; a->count = a->size - n; } } if (n > avail) n = avail; if (iobuf_write (chain, p, n)) rc = gpg_error_from_errno (errno); a->count += n; p += n; size -= n; } } } else if (control == IOBUFCTRL_INIT) { if (DBG_IOBUF) log_debug ("init block_filter %p\n", a); if (a->partial) a->count = 0; else if (a->use == 1) a->count = a->size = 0; else a->count = a->size; /* force first length bytes */ a->eof = 0; a->buffer = NULL; a->buflen = 0; } else if (control == IOBUFCTRL_DESC) { *(char **) buf = "block_filter"; } else if (control == IOBUFCTRL_FREE) { if (a->use == 2) { /* write the end markers */ if (a->partial) { u32 len; /* write out the remaining bytes without a partial header * the length of this header may be 0 - but if it is * the first block we are not allowed to use a partial header * and frankly we can't do so, because this length must be * a power of 2. This is _really_ complicated because we * have to check the possible length of a packet prior * to it's creation: a chain of filters becomes complicated * and we need a lot of code to handle compressed packets etc. * :-((((((( */ /* construct header */ len = a->buflen; /*log_debug("partial: remaining length=%u\n", len ); */ if (len < 192) rc = iobuf_put (chain, len); else if (len < 8384) { if (!(rc = iobuf_put (chain, ((len - 192) / 256) + 192))) rc = iobuf_put (chain, ((len - 192) % 256)); } else { /* use a 4 byte header */ if (!(rc = iobuf_put (chain, 0xff))) if (!(rc = iobuf_put (chain, (len >> 24) & 0xff))) if (!(rc = iobuf_put (chain, (len >> 16) & 0xff))) if (!(rc = iobuf_put (chain, (len >> 8) & 0xff))) rc = iobuf_put (chain, len & 0xff); } if (!rc && len) rc = iobuf_write (chain, a->buffer, len); if (rc) { log_error ("block_filter: write error: %s\n", strerror (errno)); rc = gpg_error_from_errno (errno); } xfree (a->buffer); a->buffer = NULL; a->buflen = 0; } else { iobuf_writebyte (chain, 0); iobuf_writebyte (chain, 0); } } else if (a->size) { log_error ("block_filter: pending bytes!\n"); } if (DBG_IOBUF) log_debug ("free block_filter %p\n", a); xfree (a); /* we can free our context now */ } return rc; } static void print_chain (iobuf_t a) { if (!DBG_IOBUF) return; for (; a; a = a->chain) { size_t dummy_len = 0; const char *desc = "[none]"; if (a->filter) a->filter (a->filter_ov, IOBUFCTRL_DESC, NULL, (byte *) & desc, &dummy_len); log_debug ("iobuf chain: %d.%d `%s' filter_eof=%d start=%d len=%d\n", a->no, a->subno, desc, a->filter_eof, (int) a->d.start, (int) a->d.len); } } int iobuf_print_chain (iobuf_t a) { print_chain (a); return 0; } /**************** * Allocate a new io buffer, with no function assigned. * Use is the desired usage: 1 for input, 2 for output, 3 for temp buffer * BUFSIZE is a suggested buffer size. */ iobuf_t iobuf_alloc (int use, size_t bufsize) { iobuf_t a; static int number = 0; a = xcalloc (1, sizeof *a); a->use = use; a->d.buf = xmalloc (bufsize); a->d.size = bufsize; a->no = ++number; a->subno = 0; a->opaque = NULL; a->real_fname = NULL; return a; } int iobuf_close (iobuf_t a) { iobuf_t a2; size_t dummy_len = 0; int rc = 0; if (a && a->directfp) { fclose (a->directfp); xfree (a->real_fname); if (DBG_IOBUF) log_debug ("iobuf_close -> %p\n", a->directfp); return 0; } for (; a && !rc; a = a2) { a2 = a->chain; if (a->use == 2 && (rc = iobuf_flush (a))) log_error ("iobuf_flush failed on close: %s\n", gpg_strerror (rc)); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: close `%s'\n", a->no, a->subno, a->desc); if (a->filter && (rc = a->filter (a->filter_ov, IOBUFCTRL_FREE, a->chain, NULL, &dummy_len))) log_error ("IOBUFCTRL_FREE failed on close: %s\n", gpg_strerror (rc)); xfree (a->real_fname); if (a->d.buf) { memset (a->d.buf, 0, a->d.size); /* erase the buffer */ xfree (a->d.buf); } xfree (a); } return rc; } int iobuf_cancel (iobuf_t a) { const char *s; iobuf_t a2; int rc; #if defined(HAVE_DOSISH_SYSTEM) || defined(__riscos__) char *remove_name = NULL; #endif if (a && a->use == 2) { s = iobuf_get_real_fname (a); if (s && *s) { #if defined(HAVE_DOSISH_SYSTEM) || defined(__riscos__) remove_name = m_strdup (s); #else remove (s); #endif } } /* send a cancel message to all filters */ for (a2 = a; a2; a2 = a2->chain) { size_t dummy; if (a2->filter) a2->filter (a2->filter_ov, IOBUFCTRL_CANCEL, a2->chain, NULL, &dummy); } rc = iobuf_close (a); #if defined(HAVE_DOSISH_SYSTEM) || defined(__riscos__) if (remove_name) { /* Argg, MSDOS does not allow to remove open files. So * we have to do it here */ remove (remove_name); xfree (remove_name); } #endif return rc; } /**************** * create a temporary iobuf, which can be used to collect stuff * in an iobuf and later be written by iobuf_write_temp() to another * iobuf. */ iobuf_t iobuf_temp () { iobuf_t a; a = iobuf_alloc (3, 8192); return a; } iobuf_t iobuf_temp_with_content (const char *buffer, size_t length) { iobuf_t a; a = iobuf_alloc (3, length); memcpy (a->d.buf, buffer, length); a->d.len = length; return a; } void iobuf_enable_special_filenames (int yes) { special_names_enabled = yes; } /* * see whether the filename has the for "-&nnnn", where n is a * non-zero number. * Returns this number or -1 if it is not the case. */ static int check_special_filename (const char *fname) { if (special_names_enabled && fname && *fname == '-' && fname[1] == '&') { int i; fname += 2; for (i = 0; isdigit (fname[i]); i++) ; if (!fname[i]) return atoi (fname); } return -1; } /**************** * Create a head iobuf for reading from a file * returns: NULL if an error occures and sets errno */ iobuf_t iobuf_open (const char *fname) { iobuf_t a; FILEP_OR_FD fp; file_filter_ctx_t *fcx; size_t len; int print_only = 0; int fd; if (!fname || (*fname == '-' && !fname[1])) { fp = FILEP_OR_FD_FOR_STDIN; #ifdef USE_SETMODE setmode (my_fileno (fp), O_BINARY); #endif fname = "[stdin]"; print_only = 1; } else if ((fd = check_special_filename (fname)) != -1) return iobuf_fdopen (translate_file_handle (fd, 0), "rb"); else if ((fp = my_fopen_ro (fname, "rb")) == INVALID_FP) return NULL; a = iobuf_alloc (1, 8192); fcx = xmalloc (sizeof *fcx + strlen (fname)); fcx->fp = fp; fcx->print_only_name = print_only; strcpy (fcx->fname, fname); if (!print_only) a->real_fname = xstrdup (fname); a->filter = file_filter; a->filter_ov = fcx; file_filter (fcx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: open `%s' fd=%d\n", a->no, a->subno, fname, (int) my_fileno (fcx->fp)); return a; } /**************** * Create a head iobuf for reading from a file * returns: NULL if an error occures and sets errno */ iobuf_t iobuf_fdopen (int fd, const char *mode) { iobuf_t a; FILEP_OR_FD fp; file_filter_ctx_t *fcx; size_t len; #ifdef FILE_FILTER_USES_STDIO if (!(fp = fdopen (fd, mode))) return NULL; #else fp = (FILEP_OR_FD) fd; #endif a = iobuf_alloc (strchr (mode, 'w') ? 2 : 1, 8192); fcx = xmalloc (sizeof *fcx + 20); fcx->fp = fp; fcx->print_only_name = 1; sprintf (fcx->fname, "[fd %d]", fd); a->filter = file_filter; a->filter_ov = fcx; file_filter (fcx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: fdopen `%s'\n", a->no, a->subno, fcx->fname); iobuf_ioctl (a, 3, 1, NULL); /* disable fd caching */ return a; } iobuf_t iobuf_sockopen (int fd, const char *mode) { iobuf_t a; #ifdef __MINGW32__ sock_filter_ctx_t *scx; size_t len; a = iobuf_alloc (strchr (mode, 'w') ? 2 : 1, 8192); scx = m_alloc (sizeof *scx + 25); scx->sock = fd; scx->print_only_name = 1; sprintf (scx->fname, "[sock %d]", fd); a->filter = sock_filter; a->filter_ov = scx; sock_filter (scx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); sock_filter (scx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: sockopen `%s'\n", a->no, a->subno, scx->fname); iobuf_ioctl (a, 3, 1, NULL); /* disable fd caching */ #else a = iobuf_fdopen (fd, mode); #endif return a; } /**************** * create an iobuf for writing to a file; the file will be created. */ iobuf_t iobuf_create (const char *fname) { iobuf_t a; FILEP_OR_FD fp; file_filter_ctx_t *fcx; size_t len; int print_only = 0; int fd; if (!fname || (*fname == '-' && !fname[1])) { fp = FILEP_OR_FD_FOR_STDOUT; #ifdef USE_SETMODE setmode (my_fileno (fp), O_BINARY); #endif fname = "[stdout]"; print_only = 1; } else if ((fd = check_special_filename (fname)) != -1) return iobuf_fdopen (translate_file_handle (fd, 1), "wb"); else if ((fp = my_fopen (fname, "wb")) == INVALID_FP) return NULL; a = iobuf_alloc (2, 8192); fcx = xmalloc (sizeof *fcx + strlen (fname)); fcx->fp = fp; fcx->print_only_name = print_only; strcpy (fcx->fname, fname); if (!print_only) a->real_fname = xstrdup (fname); a->filter = file_filter; a->filter_ov = fcx; file_filter (fcx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: create `%s'\n", a->no, a->subno, a->desc); return a; } /**************** * append to an iobuf; if the file does not exist, create it. * cannot be used for stdout. * Note: This is not used. */ #if 0 /* not used */ iobuf_t iobuf_append (const char *fname) { iobuf_t a; FILE *fp; file_filter_ctx_t *fcx; size_t len; if (!fname) return NULL; else if (!(fp = my_fopen (fname, "ab"))) return NULL; a = iobuf_alloc (2, 8192); fcx = m_alloc (sizeof *fcx + strlen (fname)); fcx->fp = fp; strcpy (fcx->fname, fname); a->real_fname = m_strdup (fname); a->filter = file_filter; a->filter_ov = fcx; file_filter (fcx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: append `%s'\n", a->no, a->subno, a->desc); return a; } #endif iobuf_t iobuf_openrw (const char *fname) { iobuf_t a; FILEP_OR_FD fp; file_filter_ctx_t *fcx; size_t len; if (!fname) return NULL; else if ((fp = my_fopen (fname, "r+b")) == INVALID_FP) return NULL; a = iobuf_alloc (2, 8192); fcx = xmalloc (sizeof *fcx + strlen (fname)); fcx->fp = fp; strcpy (fcx->fname, fname); a->real_fname = xstrdup (fname); a->filter = file_filter; a->filter_ov = fcx; file_filter (fcx, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &len); file_filter (fcx, IOBUFCTRL_INIT, NULL, NULL, &len); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: openrw `%s'\n", a->no, a->subno, a->desc); return a; } int iobuf_ioctl (iobuf_t a, int cmd, int intval, void *ptrval) { if (cmd == 1) { /* keep system filepointer/descriptor open */ if (DBG_IOBUF) log_debug ("iobuf-%d.%d: ioctl `%s' keep=%d\n", a ? a->no : -1, a ? a->subno : -1, a ? a->desc : "?", intval); for (; a; a = a->chain) if (!a->chain && a->filter == file_filter) { file_filter_ctx_t *b = a->filter_ov; b->keep_open = intval; return 0; } #ifdef __MINGW32__ else if (!a->chain && a->filter == sock_filter) { sock_filter_ctx_t *b = a->filter_ov; b->keep_open = intval; return 0; } #endif } else if (cmd == 2) { /* invalidate cache */ if (DBG_IOBUF) log_debug ("iobuf-*.*: ioctl `%s' invalidate\n", ptrval ? (char *) ptrval : "?"); if (!a && !intval && ptrval) { #ifndef FILE_FILTER_USES_STDIO fd_cache_invalidate (ptrval); #endif return 0; } } else if (cmd == 3) { /* disallow/allow caching */ if (DBG_IOBUF) log_debug ("iobuf-%d.%d: ioctl `%s' no_cache=%d\n", a ? a->no : -1, a ? a->subno : -1, a ? a->desc : "?", intval); for (; a; a = a->chain) if (!a->chain && a->filter == file_filter) { file_filter_ctx_t *b = a->filter_ov; b->no_cache = intval; return 0; } #ifdef __MINGW32__ else if (!a->chain && a->filter == sock_filter) { sock_filter_ctx_t *b = a->filter_ov; b->no_cache = intval; return 0; } #endif } return -1; } /**************** * Register an i/o filter. */ int iobuf_push_filter (iobuf_t a, int (*f) (void *opaque, int control, iobuf_t chain, byte * buf, size_t * len), void *ov) { return iobuf_push_filter2 (a, f, ov, 0); } int iobuf_push_filter2 (iobuf_t a, int (*f) (void *opaque, int control, iobuf_t chain, byte * buf, size_t * len), void *ov, int rel_ov) { iobuf_t b; size_t dummy_len = 0; int rc = 0; if (a->directfp) BUG (); if (a->use == 2 && (rc = iobuf_flush (a))) return rc; /* make a copy of the current stream, so that * A is the new stream and B the original one. * The contents of the buffers are transferred to the * new stream. */ b = xmalloc (sizeof *b); memcpy (b, a, sizeof *b); /* fixme: it is stupid to keep a copy of the name at every level * but we need the name somewhere because the name known by file_filter * may have been released when we need the name of the file */ b->real_fname = a->real_fname ? xstrdup (a->real_fname) : NULL; /* remove the filter stuff from the new stream */ a->filter = NULL; a->filter_ov = NULL; a->filter_ov_owner = 0; a->filter_eof = 0; if (a->use == 3) a->use = 2; /* make a write stream from a temp stream */ if (a->use == 2) { /* allocate a fresh buffer for the original stream */ b->d.buf = xmalloc (a->d.size); b->d.len = 0; b->d.start = 0; } else { /* allocate a fresh buffer for the new stream */ a->d.buf = xmalloc (a->d.size); a->d.len = 0; a->d.start = 0; } /* disable nlimit for the new stream */ a->ntotal = b->ntotal + b->nbytes; a->nlimit = a->nbytes = 0; a->nofast &= ~1; /* make a link from the new stream to the original stream */ a->chain = b; a->opaque = b->opaque; /* setup the function on the new stream */ a->filter = f; a->filter_ov = ov; a->filter_ov_owner = rel_ov; a->subno = b->subno + 1; f (ov, IOBUFCTRL_DESC, NULL, (byte *) & a->desc, &dummy_len); if (DBG_IOBUF) { log_debug ("iobuf-%d.%d: push `%s'\n", a->no, a->subno, a->desc); print_chain (a); } /* now we can initialize the new function if we have one */ if (a->filter && (rc = a->filter (a->filter_ov, IOBUFCTRL_INIT, a->chain, NULL, &dummy_len))) log_error ("IOBUFCTRL_INIT failed: %s\n", gpg_strerror (rc)); return rc; } /**************** * Remove an i/o filter. */ int pop_filter (iobuf_t a, int (*f) (void *opaque, int control, iobuf_t chain, byte * buf, size_t * len), void *ov) { iobuf_t b; size_t dummy_len = 0; int rc = 0; if (a->directfp) BUG (); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: pop `%s'\n", a->no, a->subno, a->desc); if (!a->filter) { /* this is simple */ b = a->chain; assert (b); xfree (a->d.buf); xfree (a->real_fname); memcpy (a, b, sizeof *a); xfree (b); return 0; } for (b = a; b; b = b->chain) if (b->filter == f && (!ov || b->filter_ov == ov)) break; if (!b) log_bug ("pop_filter(): filter function not found\n"); /* flush this stream if it is an output stream */ if (a->use == 2 && (rc = iobuf_flush (b))) { log_error ("iobuf_flush failed in pop_filter: %s\n", gpg_strerror (rc)); return rc; } /* and tell the filter to free it self */ if (b->filter && (rc = b->filter (b->filter_ov, IOBUFCTRL_FREE, b->chain, NULL, &dummy_len))) { log_error ("IOBUFCTRL_FREE failed: %s\n", gpg_strerror (rc)); return rc; } if (b->filter_ov && b->filter_ov_owner) { xfree (b->filter_ov); b->filter_ov = NULL; } /* and see how to remove it */ if (a == b && !b->chain) log_bug ("can't remove the last filter from the chain\n"); else if (a == b) { /* remove the first iobuf from the chain */ /* everything from b is copied to a. This is save because * a flush has been done on the to be removed entry */ b = a->chain; xfree (a->d.buf); xfree (a->real_fname); memcpy (a, b, sizeof *a); xfree (b); if (DBG_IOBUF) log_debug ("iobuf-%d.%d: popped filter\n", a->no, a->subno); } else if (!b->chain) { /* remove the last iobuf from the chain */ log_bug ("Ohh jeee, trying to remove a head filter\n"); } else { /* remove an intermediate iobuf from the chain */ log_bug ("Ohh jeee, trying to remove an intermediate filter\n"); } return rc; } /**************** * read underflow: read more bytes into the buffer and return * the first byte or -1 on EOF. */ static int underflow (iobuf_t a) { size_t len; int rc; assert (a->d.start == a->d.len); if (a->use == 3) return -1; /* EOF because a temp buffer can't do an underflow */ if (a->filter_eof) { if (a->chain) { iobuf_t b = a->chain; if (DBG_IOBUF) log_debug ("iobuf-%d.%d: pop `%s' in underflow\n", a->no, a->subno, a->desc); xfree (a->d.buf); xfree (a->real_fname); memcpy (a, b, sizeof *a); xfree (b); print_chain (a); } else a->filter_eof = 0; /* for the top level filter */ if (DBG_IOBUF) log_debug ("iobuf-%d.%d: underflow: eof (due to filter eof)\n", a->no, a->subno); return -1; /* return one(!) EOF */ } if (a->error) { if (DBG_IOBUF) log_debug ("iobuf-%d.%d: error\n", a->no, a->subno); return -1; } if (a->directfp) { FILE *fp = a->directfp; len = fread (a->d.buf, 1, a->d.size, fp); if (len < a->d.size) { if (ferror (fp)) a->error = gpg_error_from_errno (errno); } a->d.len = len; a->d.start = 0; return len ? a->d.buf[a->d.start++] : -1; } if (a->filter) { len = a->d.size; if (DBG_IOBUF) log_debug ("iobuf-%d.%d: underflow: req=%lu\n", a->no, a->subno, (ulong) len); rc = a->filter (a->filter_ov, IOBUFCTRL_UNDERFLOW, a->chain, a->d.buf, &len); if (DBG_IOBUF) { log_debug ("iobuf-%d.%d: underflow: got=%lu rc=%d\n", a->no, a->subno, (ulong) len, rc); /* if( a->no == 1 ) */ /* log_hexdump (" data:", a->d.buf, len); */ } if (a->use == 1 && rc == -1) { /* EOF: we can remove the filter */ size_t dummy_len = 0; /* and tell the filter to free itself */ if ((rc = a->filter (a->filter_ov, IOBUFCTRL_FREE, a->chain, NULL, &dummy_len))) log_error ("IOBUFCTRL_FREE failed: %s\n", gpg_strerror (rc)); if (a->filter_ov && a->filter_ov_owner) { xfree (a->filter_ov); a->filter_ov = NULL; } a->filter = NULL; a->desc = NULL; a->filter_ov = NULL; a->filter_eof = 1; if (!len && a->chain) { iobuf_t b = a->chain; if (DBG_IOBUF) log_debug ("iobuf-%d.%d: pop `%s' in underflow (!len)\n", a->no, a->subno, a->desc); xfree (a->d.buf); xfree (a->real_fname); memcpy (a, b, sizeof *a); xfree (b); print_chain (a); } } else if (rc) a->error = rc; if (!len) { if (DBG_IOBUF) log_debug ("iobuf-%d.%d: underflow: eof\n", a->no, a->subno); return -1; } a->d.len = len; a->d.start = 0; return a->d.buf[a->d.start++]; } else { if (DBG_IOBUF) log_debug ("iobuf-%d.%d: underflow: eof (no filter)\n", a->no, a->subno); return -1; /* no filter; return EOF */ } } int iobuf_flush (iobuf_t a) { size_t len; int rc; if (a->directfp) return 0; if (a->use == 3) { /* increase the temp buffer */ char *newbuf; size_t newsize = a->d.size + 8192; if (DBG_IOBUF) log_debug ("increasing temp iobuf from %lu to %lu\n", (ulong) a->d.size, (ulong) newsize); newbuf = xmalloc (newsize); memcpy (newbuf, a->d.buf, a->d.len); xfree (a->d.buf); a->d.buf = newbuf; a->d.size = newsize; return 0; } else if (a->use != 2) log_bug ("flush on non-output iobuf\n"); else if (!a->filter) log_bug ("iobuf_flush: no filter\n"); len = a->d.len; rc = a->filter (a->filter_ov, IOBUFCTRL_FLUSH, a->chain, a->d.buf, &len); if (!rc && len != a->d.len) { log_info ("iobuf_flush did not write all!\n"); rc = GPG_ERR_INTERNAL; } else if (rc) a->error = rc; a->d.len = 0; return rc; } /**************** * Read a byte from the iobuf; returns -1 on EOF */ int iobuf_readbyte (iobuf_t a) { int c; /* nlimit does not work together with unget */ /* nbytes is also not valid! */ if (a->unget.buf) { if (a->unget.start < a->unget.len) return a->unget.buf[a->unget.start++]; xfree (a->unget.buf); a->unget.buf = NULL; a->nofast &= ~2; } if (a->nlimit && a->nbytes >= a->nlimit) return -1; /* forced EOF */ if (a->d.start < a->d.len) { c = a->d.buf[a->d.start++]; } else if ((c = underflow (a)) == -1) return -1; /* EOF */ a->nbytes++; return c; } int iobuf_read (iobuf_t a, byte * buf, unsigned buflen) { int c, n; if (a->unget.buf || a->nlimit) { /* handle special cases */ for (n = 0; n < buflen; n++) { if ((c = iobuf_readbyte (a)) == -1) { if (!n) return -1; /* eof */ break; } else if (buf) *buf = c; if (buf) buf++; } return n; } n = 0; do { if (n < buflen && a->d.start < a->d.len) { unsigned size = a->d.len - a->d.start; if (size > buflen - n) size = buflen - n; if (buf) memcpy (buf, a->d.buf + a->d.start, size); n += size; a->d.start += size; if (buf) buf += size; } if (n < buflen) { if ((c = underflow (a)) == -1) { a->nbytes += n; return n ? n : -1 /*EOF*/; } if (buf) *buf++ = c; n++; } } while (n < buflen); a->nbytes += n; return n; } /**************** * Have a look at the iobuf. * NOTE: This only works in special cases. */ int iobuf_peek (iobuf_t a, byte * buf, unsigned buflen) { int n = 0; if (a->filter_eof) return -1; if (!(a->d.start < a->d.len)) { if (underflow (a) == -1) return -1; /* and unget this character */ assert (a->d.start == 1); a->d.start = 0; } for (n = 0; n < buflen && (a->d.start + n) < a->d.len; n++, buf++) *buf = a->d.buf[n]; return n; } int iobuf_writebyte (iobuf_t a, unsigned c) { int rc; if (a->directfp) BUG (); if (a->d.len == a->d.size) if ((rc=iobuf_flush (a))) return rc; assert (a->d.len < a->d.size); a->d.buf[a->d.len++] = c; return 0; } int iobuf_write (iobuf_t a, byte * buf, unsigned buflen) { int rc; if (a->directfp) BUG (); do { if (buflen && a->d.len < a->d.size) { unsigned size = a->d.size - a->d.len; if (size > buflen) size = buflen; memcpy (a->d.buf + a->d.len, buf, size); buflen -= size; buf += size; a->d.len += size; } if (buflen) { rc = iobuf_flush (a); if (rc) return rc; } } while (buflen); return 0; } int iobuf_writestr (iobuf_t a, const char *buf) { int rc; for (; *buf; buf++) if ((rc=iobuf_writebyte (a, *buf))) return rc; return 0; } /**************** * copy the contents of TEMP to A. */ int iobuf_write_temp (iobuf_t a, iobuf_t temp) { while (temp->chain) pop_filter (temp, temp->filter, NULL); return iobuf_write (a, temp->d.buf, temp->d.len); } /**************** * copy the contents of the temp io stream to BUFFER. */ size_t iobuf_temp_to_buffer (iobuf_t a, byte * buffer, size_t buflen) { size_t n = a->d.len; if (n > buflen) n = buflen; memcpy (buffer, a->d.buf, n); return n; } /**************** * Call this function to terminate processing of the temp stream * without closing it. This removes all filters from the stream * makes sure that iobuf_get_temp_{buffer,length}() returns correct * values. */ void iobuf_flush_temp (iobuf_t temp) { while (temp->chain) pop_filter (temp, temp->filter, NULL); } /**************** * Set a limit on how many bytes may be read from the input stream A. * Setting the limit to 0 disables this feature. */ void iobuf_set_limit (iobuf_t a, off_t nlimit) { if (nlimit) a->nofast |= 1; else a->nofast &= ~1; a->nlimit = nlimit; a->ntotal += a->nbytes; a->nbytes = 0; } /**************** * Return the length of an open file */ off_t iobuf_get_filelength (iobuf_t a) { struct stat st; if (a->directfp) { FILE *fp = a->directfp; if (!fstat (fileno (fp), &st)) return st.st_size; log_error ("fstat() failed: %s\n", strerror (errno)); return 0; } /* Hmmm: file_filter may have already been removed */ for (; a; a = a->chain) if (!a->chain && a->filter == file_filter) { file_filter_ctx_t *b = a->filter_ov; FILEP_OR_FD fp = b->fp; #if defined(HAVE_DOSISH_SYSTEM) && !defined(FILE_FILTER_USES_STDIO) ulong size; if ((size = GetFileSize (fp, NULL)) != 0xffffffff) return size; log_error ("GetFileSize for handle %p failed: ec=%d\n", fp, (int) GetLastError ()); #else if (!fstat (my_fileno (fp), &st)) return st.st_size; log_error ("fstat() failed: %s\n", strerror (errno)); #endif break; } return 0; } /**************** * Tell the file position, where the next read will take place */ off_t iobuf_tell (iobuf_t a) { return a->ntotal + a->nbytes; } #if !defined(HAVE_FSEEKO) && !defined(fseeko) #ifdef HAVE_LIMITS_H # include #endif #ifndef LONG_MAX # define LONG_MAX ((long) ((unsigned long) -1 >> 1)) #endif #ifndef LONG_MIN # define LONG_MIN (-1 - LONG_MAX) #endif /**************** * A substitute for fseeko, for hosts that don't have it. */ static int fseeko (FILE * stream, off_t newpos, int whence) { while (newpos != (long) newpos) { long pos = newpos < 0 ? LONG_MIN : LONG_MAX; if (fseek (stream, pos, whence) != 0) return -1; newpos -= pos; whence = SEEK_CUR; } return fseek (stream, (long) newpos, whence); } #endif /**************** * This is a very limited implementation. It simply discards all internal * buffering and removes all filters but the first one. */ int iobuf_seek (iobuf_t a, off_t newpos) { file_filter_ctx_t *b = NULL; if (a->directfp) { FILE *fp = a->directfp; if (fseeko (fp, newpos, SEEK_SET)) { log_error ("can't seek: %s\n", strerror (errno)); return -1; } clearerr (fp); } else { for (; a; a = a->chain) { if (!a->chain && a->filter == file_filter) { b = a->filter_ov; break; } } if (!a) return -1; #ifdef FILE_FILTER_USES_STDIO if (fseeko (b->fp, newpos, SEEK_SET)) { log_error ("can't fseek: %s\n", strerror (errno)); return -1; } #else #ifdef HAVE_DOSISH_SYSTEM if (SetFilePointer (b->fp, newpos, NULL, FILE_BEGIN) == 0xffffffff) { log_error ("SetFilePointer failed on handle %p: ec=%d\n", b->fp, (int) GetLastError ()); return -1; } #else if (lseek (b->fp, newpos, SEEK_SET) == (off_t) - 1) { log_error ("can't lseek: %s\n", strerror (errno)); return -1; } #endif #endif } a->d.len = 0; /* discard buffer */ a->d.start = 0; a->nbytes = 0; a->nlimit = 0; a->nofast &= ~1; a->ntotal = newpos; a->error = 0; /* remove filters, but the last */ if (a->chain) log_debug ("pop_filter called in iobuf_seek - please report\n"); while (a->chain) pop_filter (a, a->filter, NULL); return 0; } /**************** * Retrieve the real filename */ const char * iobuf_get_real_fname (iobuf_t a) { if (a->real_fname) return a->real_fname; /* the old solution */ for (; a; a = a->chain) if (!a->chain && a->filter == file_filter) { file_filter_ctx_t *b = a->filter_ov; return b->print_only_name ? NULL : b->fname; } return NULL; } /**************** * Retrieve the filename */ const char * iobuf_get_fname (iobuf_t a) { for (; a; a = a->chain) if (!a->chain && a->filter == file_filter) { file_filter_ctx_t *b = a->filter_ov; return b->fname; } return NULL; } /**************** * Start the block write mode, see rfc1991.new for details. * A value of 0 for N stops this mode (flushes and writes * the end marker) */ void iobuf_set_block_mode (iobuf_t a, size_t n) { block_filter_ctx_t *ctx = xcalloc (1, sizeof *ctx); assert (a->use == 1 || a->use == 2); ctx->use = a->use; if (!n) { if (a->use == 1) log_debug ("pop_filter called in set_block_mode - please report\n"); pop_filter (a, block_filter, NULL); } else { ctx->size = n; /* only needed for use 2 */ iobuf_push_filter (a, block_filter, ctx); } } /**************** * enable partial block mode as described in the OpenPGP draft. * LEN is the first length byte on read, but ignored on writes. */ void iobuf_set_partial_block_mode (iobuf_t a, size_t len) { block_filter_ctx_t *ctx = xcalloc (1, sizeof *ctx); assert (a->use == 1 || a->use == 2); ctx->use = a->use; if (!len) { if (a->use == 1) log_debug ("pop_filter called in set_partial_block_mode" " - please report\n"); pop_filter (a, block_filter, NULL); } else { ctx->partial = 1; ctx->size = 0; ctx->first_c = len; iobuf_push_filter (a, block_filter, ctx); } } /**************** * Checks whether the stream is in block mode * Note: This does not work if other filters are pushed on the stream. */ int iobuf_in_block_mode (iobuf_t a) { if (a && a->filter == block_filter) return 1; /* yes */ return 0; /* no */ } /**************** * Same as fgets() but if the buffer is too short a larger one will * be allocated up to some limit *max_length. * A line is considered a byte stream ending in a LF. * Returns the length of the line. EOF is indicated by a line of * length zero. The last LF may be missing due to an EOF. * is max_length is zero on return, the line has been truncated. * * Note: The buffer is allocated with enough space to append a CR,LF,EOL */ unsigned int iobuf_read_line (iobuf_t a, byte ** addr_of_buffer, unsigned *length_of_buffer, unsigned *max_length) { int c; char *buffer = *addr_of_buffer; unsigned length = *length_of_buffer; unsigned nbytes = 0; unsigned maxlen = *max_length; char *p; if (!buffer) { /* must allocate a new buffer */ length = 256; buffer = xmalloc (length); *addr_of_buffer = buffer; *length_of_buffer = length; } length -= 3; /* reserve 3 bytes (cr,lf,eol) */ p = buffer; while ((c = iobuf_get (a)) != -1) { if (nbytes == length) { /* increase the buffer */ if (length > maxlen) { /* this is out limit */ /* skip the rest of the line */ while (c != '\n' && (c = iobuf_get (a)) != -1) ; *p++ = '\n'; /* always append a LF (we have reserved space) */ nbytes++; *max_length = 0; /* indicate truncation */ break; } length += 3; /* correct for the reserved byte */ length += length < 1024 ? 256 : 1024; buffer = xrealloc (buffer, length); *addr_of_buffer = buffer; *length_of_buffer = length; length -= 3; /* and reserve again */ p = buffer + nbytes; } *p++ = c; nbytes++; if (c == '\n') break; } *p = 0; /* make sure the line is a string */ return nbytes; } /* This is the non iobuf specific function */ int iobuf_translate_file_handle (int fd, int for_write) { #ifdef __MINGW32__ { int x; if (fd <= 2) return fd; /* do not do this for error, stdin, stdout, stderr */ x = _open_osfhandle (fd, for_write ? 1 : 0); if (x == -1) log_error ("failed to translate osfhandle %p\n", (void *) fd); else { /*log_info ("_open_osfhandle %p yields %d%s\n", (void*)fd, x, for_write? " for writing":"" ); */ fd = x; } } #endif return fd; } static int translate_file_handle (int fd, int for_write) { #ifdef __MINGW32__ #ifdef FILE_FILTER_USES_STDIO fd = iobuf_translate_file_handle (fd, for_write); #else { int x; if (fd == 0) x = (int) GetStdHandle (STD_INPUT_HANDLE); else if (fd == 1) x = (int) GetStdHandle (STD_OUTPUT_HANDLE); else if (fd == 2) x = (int) GetStdHandle (STD_ERROR_HANDLE); else x = fd; if (x == -1) log_debug ("GetStdHandle(%d) failed: ec=%d\n", fd, (int) GetLastError ()); fd = x; } #endif #endif return fd; }