Mercurial > gnulib
view lib/striconveh.c @ 40143:648fa64e008c
striconveh: Fix use of uninitialized iconv_t.
Reported by Tim Rühsen <tim.ruehsen@gmx.de> in
<https://lists.gnu.org/archive/html/bug-libunistring/2019-01/msg00000.html>.
* lib/striconveh.c (iconveh_open): Correct the iconv_close argument.
| author | Bruno Haible <bruno@clisp.org> |
|---|---|
| date | Sat, 26 Jan 2019 21:46:40 +0100 |
| parents | b06060465f09 |
| children |
line wrap: on
line source
/* Character set conversion with error handling. Copyright (C) 2001-2019 Free Software Foundation, Inc. Written by Bruno Haible and Simon Josefsson. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <https://www.gnu.org/licenses/>. */ #include <config.h> /* Specification. */ #include "striconveh.h" #include <errno.h> #include <stdbool.h> #include <stdlib.h> #include <string.h> #if HAVE_ICONV # include <iconv.h> # include "unistr.h" #endif #include "c-strcase.h" #include "c-strcaseeq.h" #ifndef SIZE_MAX # define SIZE_MAX ((size_t) -1) #endif #if HAVE_ICONV /* The caller must provide an iconveh_t, not just an iconv_t, because when a conversion error occurs, we may have to determine the Unicode representation of the inconvertible character. */ int iconveh_open (const char *to_codeset, const char *from_codeset, iconveh_t *cdp) { iconv_t cd; iconv_t cd1; iconv_t cd2; /* Avoid glibc-2.1 bug with EUC-KR. */ # if ((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ && !defined _LIBICONV_VERSION if (c_strcasecmp (from_codeset, "EUC-KR") == 0 || c_strcasecmp (to_codeset, "EUC-KR") == 0) { errno = EINVAL; return -1; } # endif cd = iconv_open (to_codeset, from_codeset); if (STRCASEEQ (from_codeset, "UTF-8", 'U','T','F','-','8',0,0,0,0)) cd1 = (iconv_t)(-1); else { cd1 = iconv_open ("UTF-8", from_codeset); if (cd1 == (iconv_t)(-1)) { int saved_errno = errno; if (cd != (iconv_t)(-1)) iconv_close (cd); errno = saved_errno; return -1; } } if (STRCASEEQ (to_codeset, "UTF-8", 'U','T','F','-','8',0,0,0,0) # if (((__GLIBC__ == 2 && __GLIBC_MINOR__ >= 2) || __GLIBC__ > 2) \ && !defined __UCLIBC__) \ || _LIBICONV_VERSION >= 0x0105 || c_strcasecmp (to_codeset, "UTF-8//TRANSLIT") == 0 # endif ) cd2 = (iconv_t)(-1); else { cd2 = iconv_open (to_codeset, "UTF-8"); if (cd2 == (iconv_t)(-1)) { int saved_errno = errno; if (cd1 != (iconv_t)(-1)) iconv_close (cd1); if (cd != (iconv_t)(-1)) iconv_close (cd); errno = saved_errno; return -1; } } cdp->cd = cd; cdp->cd1 = cd1; cdp->cd2 = cd2; return 0; } int iconveh_close (const iconveh_t *cd) { if (cd->cd2 != (iconv_t)(-1) && iconv_close (cd->cd2) < 0) { /* Return -1, but preserve the errno from iconv_close. */ int saved_errno = errno; if (cd->cd1 != (iconv_t)(-1)) iconv_close (cd->cd1); if (cd->cd != (iconv_t)(-1)) iconv_close (cd->cd); errno = saved_errno; return -1; } if (cd->cd1 != (iconv_t)(-1) && iconv_close (cd->cd1) < 0) { /* Return -1, but preserve the errno from iconv_close. */ int saved_errno = errno; if (cd->cd != (iconv_t)(-1)) iconv_close (cd->cd); errno = saved_errno; return -1; } if (cd->cd != (iconv_t)(-1) && iconv_close (cd->cd) < 0) return -1; return 0; } /* iconv_carefully is like iconv, except that it stops as soon as it encounters a conversion error, and it returns in *INCREMENTED a boolean telling whether it has incremented the input pointers past the error location. */ # if !defined _LIBICONV_VERSION && !(defined __GLIBC__ && !defined __UCLIBC__) /* Irix iconv() inserts a NUL byte if it cannot convert. NetBSD iconv() inserts a question mark if it cannot convert. Only GNU libiconv and GNU libc are known to prefer to fail rather than doing a lossy conversion. */ static size_t iconv_carefully (iconv_t cd, const char **inbuf, size_t *inbytesleft, char **outbuf, size_t *outbytesleft, bool *incremented) { const char *inptr = *inbuf; const char *inptr_end = inptr + *inbytesleft; char *outptr = *outbuf; size_t outsize = *outbytesleft; const char *inptr_before; size_t res; do { size_t insize; inptr_before = inptr; res = (size_t)(-1); for (insize = 1; inptr + insize <= inptr_end; insize++) { res = iconv (cd, (ICONV_CONST char **) &inptr, &insize, &outptr, &outsize); if (!(res == (size_t)(-1) && errno == EINVAL)) break; /* iconv can eat up a shift sequence but give EINVAL while attempting to convert the first character. E.g. libiconv does this. */ if (inptr > inptr_before) { res = 0; break; } } if (res == 0) { *outbuf = outptr; *outbytesleft = outsize; } } while (res == 0 && inptr < inptr_end); *inbuf = inptr; *inbytesleft = inptr_end - inptr; if (res != (size_t)(-1) && res > 0) { /* iconv() has already incremented INPTR. We cannot go back to a previous INPTR, otherwise the state inside CD would become invalid, if FROM_CODESET is a stateful encoding. So, tell the caller that *INBUF has already been incremented. */ *incremented = (inptr > inptr_before); errno = EILSEQ; return (size_t)(-1); } else { *incremented = false; return res; } } # else # define iconv_carefully(cd, inbuf, inbytesleft, outbuf, outbytesleft, incremented) \ (*(incremented) = false, \ iconv (cd, (ICONV_CONST char **) (inbuf), inbytesleft, outbuf, outbytesleft)) # endif /* iconv_carefully_1 is like iconv_carefully, except that it stops after converting one character or one shift sequence. */ static size_t iconv_carefully_1 (iconv_t cd, const char **inbuf, size_t *inbytesleft, char **outbuf, size_t *outbytesleft, bool *incremented) { const char *inptr_before = *inbuf; const char *inptr = inptr_before; const char *inptr_end = inptr_before + *inbytesleft; char *outptr = *outbuf; size_t outsize = *outbytesleft; size_t res = (size_t)(-1); size_t insize; for (insize = 1; inptr_before + insize <= inptr_end; insize++) { inptr = inptr_before; res = iconv (cd, (ICONV_CONST char **) &inptr, &insize, &outptr, &outsize); if (!(res == (size_t)(-1) && errno == EINVAL)) break; /* iconv can eat up a shift sequence but give EINVAL while attempting to convert the first character. E.g. libiconv does this. */ if (inptr > inptr_before) { res = 0; break; } } *inbuf = inptr; *inbytesleft = inptr_end - inptr; # if !defined _LIBICONV_VERSION && !(defined __GLIBC__ && !defined __UCLIBC__) /* Irix iconv() inserts a NUL byte if it cannot convert. NetBSD iconv() inserts a question mark if it cannot convert. Only GNU libiconv and GNU libc are known to prefer to fail rather than doing a lossy conversion. */ if (res != (size_t)(-1) && res > 0) { /* iconv() has already incremented INPTR. We cannot go back to a previous INPTR, otherwise the state inside CD would become invalid, if FROM_CODESET is a stateful encoding. So, tell the caller that *INBUF has already been incremented. */ *incremented = (inptr > inptr_before); errno = EILSEQ; return (size_t)(-1); } # endif if (res != (size_t)(-1)) { *outbuf = outptr; *outbytesleft = outsize; } *incremented = false; return res; } /* utf8conv_carefully is like iconv, except that - it converts from UTF-8 to UTF-8, - it stops as soon as it encounters a conversion error, and it returns in *INCREMENTED a boolean telling whether it has incremented the input pointers past the error location, - if one_character_only is true, it stops after converting one character. */ static size_t utf8conv_carefully (bool one_character_only, const char **inbuf, size_t *inbytesleft, char **outbuf, size_t *outbytesleft, bool *incremented) { const char *inptr = *inbuf; size_t insize = *inbytesleft; char *outptr = *outbuf; size_t outsize = *outbytesleft; size_t res; res = 0; do { ucs4_t uc; int n; int m; n = u8_mbtoucr (&uc, (const uint8_t *) inptr, insize); if (n < 0) { errno = (n == -2 ? EINVAL : EILSEQ); n = u8_mbtouc (&uc, (const uint8_t *) inptr, insize); inptr += n; insize -= n; res = (size_t)(-1); *incremented = true; break; } if (outsize == 0) { errno = E2BIG; res = (size_t)(-1); *incremented = false; break; } m = u8_uctomb ((uint8_t *) outptr, uc, outsize); if (m == -2) { errno = E2BIG; res = (size_t)(-1); *incremented = false; break; } inptr += n; insize -= n; if (m == -1) { errno = EILSEQ; res = (size_t)(-1); *incremented = true; break; } outptr += m; outsize -= m; } while (!one_character_only && insize > 0); *inbuf = inptr; *inbytesleft = insize; *outbuf = outptr; *outbytesleft = outsize; return res; } static int mem_cd_iconveh_internal (const char *src, size_t srclen, iconv_t cd, iconv_t cd1, iconv_t cd2, enum iconv_ilseq_handler handler, size_t extra_alloc, size_t *offsets, char **resultp, size_t *lengthp) { /* When a conversion error occurs, we cannot start using CD1 and CD2 at this point: FROM_CODESET may be a stateful encoding like ISO-2022-KR. Instead, we have to start afresh from the beginning of SRC. */ /* Use a temporary buffer, so that for small strings, a single malloc() call will be sufficient. */ # define tmpbufsize 4096 /* The alignment is needed when converting e.g. to glibc's WCHAR_T or libiconv's UCS-4-INTERNAL encoding. */ union { unsigned int align; char buf[tmpbufsize]; } tmp; # define tmpbuf tmp.buf char *initial_result; char *result; size_t allocated; size_t length; size_t last_length = (size_t)(-1); /* only needed if offsets != NULL */ if (*resultp != NULL && *lengthp >= sizeof (tmpbuf)) { initial_result = *resultp; allocated = *lengthp; } else { initial_result = tmpbuf; allocated = sizeof (tmpbuf); } result = initial_result; /* Test whether a direct conversion is possible at all. */ if (cd == (iconv_t)(-1)) goto indirectly; if (offsets != NULL) { size_t i; for (i = 0; i < srclen; i++) offsets[i] = (size_t)(-1); last_length = (size_t)(-1); } length = 0; /* First, try a direct conversion, and see whether a conversion error occurs at all. */ { const char *inptr = src; size_t insize = srclen; /* Avoid glibc-2.1 bug and Solaris 2.7-2.9 bug. */ # if defined _LIBICONV_VERSION \ || !(((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ || defined __sun) /* Set to the initial state. */ iconv (cd, NULL, NULL, NULL, NULL); # endif while (insize > 0) { char *outptr = result + length; size_t outsize = allocated - extra_alloc - length; bool incremented; size_t res; bool grow; if (offsets != NULL) { if (length != last_length) /* ensure that offset[] be increasing */ { offsets[inptr - src] = length; last_length = length; } res = iconv_carefully_1 (cd, &inptr, &insize, &outptr, &outsize, &incremented); } else /* Use iconv_carefully instead of iconv here, because: - If TO_CODESET is UTF-8, we can do the error handling in this loop, no need for a second loop, - With iconv() implementations other than GNU libiconv and GNU libc, if we use iconv() in a big swoop, checking for an E2BIG return, we lose the number of irreversible conversions. */ res = iconv_carefully (cd, &inptr, &insize, &outptr, &outsize, &incremented); length = outptr - result; grow = (length + extra_alloc > allocated / 2); if (res == (size_t)(-1)) { if (errno == E2BIG) grow = true; else if (errno == EINVAL) break; else if (errno == EILSEQ && handler != iconveh_error) { if (cd2 == (iconv_t)(-1)) { /* TO_CODESET is UTF-8. */ /* Error handling can produce up to 1 byte of output. */ if (length + 1 + extra_alloc > allocated) { char *memory; allocated = 2 * allocated; if (length + 1 + extra_alloc > allocated) abort (); if (result == initial_result) memory = (char *) malloc (allocated); else memory = (char *) realloc (result, allocated); if (memory == NULL) { if (result != initial_result) free (result); errno = ENOMEM; return -1; } if (result == initial_result) memcpy (memory, initial_result, length); result = memory; grow = false; } /* The input is invalid in FROM_CODESET. Eat up one byte and emit a question mark. */ if (!incremented) { if (insize == 0) abort (); inptr++; insize--; } result[length] = '?'; length++; } else goto indirectly; } else { if (result != initial_result) { int saved_errno = errno; free (result); errno = saved_errno; } return -1; } } if (insize == 0) break; if (grow) { char *memory; allocated = 2 * allocated; if (result == initial_result) memory = (char *) malloc (allocated); else memory = (char *) realloc (result, allocated); if (memory == NULL) { if (result != initial_result) free (result); errno = ENOMEM; return -1; } if (result == initial_result) memcpy (memory, initial_result, length); result = memory; } } } /* Now get the conversion state back to the initial state. But avoid glibc-2.1 bug and Solaris 2.7 bug. */ #if defined _LIBICONV_VERSION \ || !(((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ || defined __sun) for (;;) { char *outptr = result + length; size_t outsize = allocated - extra_alloc - length; size_t res; res = iconv (cd, NULL, NULL, &outptr, &outsize); length = outptr - result; if (res == (size_t)(-1)) { if (errno == E2BIG) { char *memory; allocated = 2 * allocated; if (result == initial_result) memory = (char *) malloc (allocated); else memory = (char *) realloc (result, allocated); if (memory == NULL) { if (result != initial_result) free (result); errno = ENOMEM; return -1; } if (result == initial_result) memcpy (memory, initial_result, length); result = memory; } else { if (result != initial_result) { int saved_errno = errno; free (result); errno = saved_errno; } return -1; } } else break; } #endif /* The direct conversion succeeded. */ goto done; indirectly: /* The direct conversion failed. Use a conversion through UTF-8. */ if (offsets != NULL) { size_t i; for (i = 0; i < srclen; i++) offsets[i] = (size_t)(-1); last_length = (size_t)(-1); } length = 0; { const bool slowly = (offsets != NULL || handler == iconveh_error); # define utf8bufsize 4096 /* may also be smaller or larger than tmpbufsize */ char utf8buf[utf8bufsize + 1]; size_t utf8len = 0; const char *in1ptr = src; size_t in1size = srclen; bool do_final_flush1 = true; bool do_final_flush2 = true; /* Avoid glibc-2.1 bug and Solaris 2.7-2.9 bug. */ # if defined _LIBICONV_VERSION \ || !(((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ || defined __sun) /* Set to the initial state. */ if (cd1 != (iconv_t)(-1)) iconv (cd1, NULL, NULL, NULL, NULL); if (cd2 != (iconv_t)(-1)) iconv (cd2, NULL, NULL, NULL, NULL); # endif while (in1size > 0 || do_final_flush1 || utf8len > 0 || do_final_flush2) { char *out1ptr = utf8buf + utf8len; size_t out1size = utf8bufsize - utf8len; bool incremented1; size_t res1; int errno1; /* Conversion step 1: from FROM_CODESET to UTF-8. */ if (in1size > 0) { if (offsets != NULL && length != last_length) /* ensure that offset[] be increasing */ { offsets[in1ptr - src] = length; last_length = length; } if (cd1 != (iconv_t)(-1)) { if (slowly) res1 = iconv_carefully_1 (cd1, &in1ptr, &in1size, &out1ptr, &out1size, &incremented1); else res1 = iconv_carefully (cd1, &in1ptr, &in1size, &out1ptr, &out1size, &incremented1); } else { /* FROM_CODESET is UTF-8. */ res1 = utf8conv_carefully (slowly, &in1ptr, &in1size, &out1ptr, &out1size, &incremented1); } } else if (do_final_flush1) { /* Now get the conversion state of CD1 back to the initial state. But avoid glibc-2.1 bug and Solaris 2.7 bug. */ # if defined _LIBICONV_VERSION \ || !(((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ || defined __sun) if (cd1 != (iconv_t)(-1)) res1 = iconv (cd1, NULL, NULL, &out1ptr, &out1size); else # endif res1 = 0; do_final_flush1 = false; incremented1 = true; } else { res1 = 0; incremented1 = true; } if (res1 == (size_t)(-1) && !(errno == E2BIG || errno == EINVAL || errno == EILSEQ)) { if (result != initial_result) { int saved_errno = errno; free (result); errno = saved_errno; } return -1; } if (res1 == (size_t)(-1) && errno == EILSEQ && handler != iconveh_error) { /* The input is invalid in FROM_CODESET. Eat up one byte and emit a question mark. Room for the question mark was allocated at the end of utf8buf. */ if (!incremented1) { if (in1size == 0) abort (); in1ptr++; in1size--; } *out1ptr++ = '?'; res1 = 0; } errno1 = errno; utf8len = out1ptr - utf8buf; if (offsets != NULL || in1size == 0 || utf8len > utf8bufsize / 2 || (res1 == (size_t)(-1) && errno1 == E2BIG)) { /* Conversion step 2: from UTF-8 to TO_CODESET. */ const char *in2ptr = utf8buf; size_t in2size = utf8len; while (in2size > 0 || (in1size == 0 && !do_final_flush1 && do_final_flush2)) { char *out2ptr = result + length; size_t out2size = allocated - extra_alloc - length; bool incremented2; size_t res2; bool grow; if (in2size > 0) { if (cd2 != (iconv_t)(-1)) res2 = iconv_carefully (cd2, &in2ptr, &in2size, &out2ptr, &out2size, &incremented2); else /* TO_CODESET is UTF-8. */ res2 = utf8conv_carefully (false, &in2ptr, &in2size, &out2ptr, &out2size, &incremented2); } else /* in1size == 0 && !do_final_flush1 && in2size == 0 && do_final_flush2 */ { /* Now get the conversion state of CD1 back to the initial state. But avoid glibc-2.1 bug and Solaris 2.7 bug. */ # if defined _LIBICONV_VERSION \ || !(((__GLIBC__ == 2 && __GLIBC_MINOR__ <= 1) && !defined __UCLIBC__) \ || defined __sun) if (cd2 != (iconv_t)(-1)) res2 = iconv (cd2, NULL, NULL, &out2ptr, &out2size); else # endif res2 = 0; do_final_flush2 = false; incremented2 = true; } length = out2ptr - result; grow = (length + extra_alloc > allocated / 2); if (res2 == (size_t)(-1)) { if (errno == E2BIG) grow = true; else if (errno == EINVAL) break; else if (errno == EILSEQ && handler != iconveh_error) { /* Error handling can produce up to 10 bytes of ASCII output. But TO_CODESET may be UCS-2, UTF-16 or UCS-4, so use CD2 here as well. */ char scratchbuf[10]; size_t scratchlen; ucs4_t uc; const char *inptr; size_t insize; size_t res; if (incremented2) { if (u8_prev (&uc, (const uint8_t *) in2ptr, (const uint8_t *) utf8buf) == NULL) abort (); } else { int n; if (in2size == 0) abort (); n = u8_mbtouc_unsafe (&uc, (const uint8_t *) in2ptr, in2size); in2ptr += n; in2size -= n; } if (handler == iconveh_escape_sequence) { static char hex[16] = "0123456789ABCDEF"; scratchlen = 0; scratchbuf[scratchlen++] = '\\'; if (uc < 0x10000) scratchbuf[scratchlen++] = 'u'; else { scratchbuf[scratchlen++] = 'U'; scratchbuf[scratchlen++] = hex[(uc>>28) & 15]; scratchbuf[scratchlen++] = hex[(uc>>24) & 15]; scratchbuf[scratchlen++] = hex[(uc>>20) & 15]; scratchbuf[scratchlen++] = hex[(uc>>16) & 15]; } scratchbuf[scratchlen++] = hex[(uc>>12) & 15]; scratchbuf[scratchlen++] = hex[(uc>>8) & 15]; scratchbuf[scratchlen++] = hex[(uc>>4) & 15]; scratchbuf[scratchlen++] = hex[uc & 15]; } else { scratchbuf[0] = '?'; scratchlen = 1; } inptr = scratchbuf; insize = scratchlen; if (cd2 != (iconv_t)(-1)) res = iconv (cd2, (ICONV_CONST char **) &inptr, &insize, &out2ptr, &out2size); else { /* TO_CODESET is UTF-8. */ if (out2size >= insize) { memcpy (out2ptr, inptr, insize); out2ptr += insize; out2size -= insize; inptr += insize; insize = 0; res = 0; } else { errno = E2BIG; res = (size_t)(-1); } } length = out2ptr - result; if (res == (size_t)(-1) && errno == E2BIG) { char *memory; allocated = 2 * allocated; if (length + 1 + extra_alloc > allocated) abort (); if (result == initial_result) memory = (char *) malloc (allocated); else memory = (char *) realloc (result, allocated); if (memory == NULL) { if (result != initial_result) free (result); errno = ENOMEM; return -1; } if (result == initial_result) memcpy (memory, initial_result, length); result = memory; grow = false; out2ptr = result + length; out2size = allocated - extra_alloc - length; if (cd2 != (iconv_t)(-1)) res = iconv (cd2, (ICONV_CONST char **) &inptr, &insize, &out2ptr, &out2size); else { /* TO_CODESET is UTF-8. */ if (!(out2size >= insize)) abort (); memcpy (out2ptr, inptr, insize); out2ptr += insize; out2size -= insize; inptr += insize; insize = 0; res = 0; } length = out2ptr - result; } # if !defined _LIBICONV_VERSION && !(defined __GLIBC__ && !defined __UCLIBC__) /* Irix iconv() inserts a NUL byte if it cannot convert. NetBSD iconv() inserts a question mark if it cannot convert. Only GNU libiconv and GNU libc are known to prefer to fail rather than doing a lossy conversion. */ if (res != (size_t)(-1) && res > 0) { errno = EILSEQ; res = (size_t)(-1); } # endif if (res == (size_t)(-1)) { /* Failure converting the ASCII replacement. */ if (result != initial_result) { int saved_errno = errno; free (result); errno = saved_errno; } return -1; } } else { if (result != initial_result) { int saved_errno = errno; free (result); errno = saved_errno; } return -1; } } if (!(in2size > 0 || (in1size == 0 && !do_final_flush1 && do_final_flush2))) break; if (grow) { char *memory; allocated = 2 * allocated; if (result == initial_result) memory = (char *) malloc (allocated); else memory = (char *) realloc (result, allocated); if (memory == NULL) { if (result != initial_result) free (result); errno = ENOMEM; return -1; } if (result == initial_result) memcpy (memory, initial_result, length); result = memory; } } /* Move the remaining bytes to the beginning of utf8buf. */ if (in2size > 0) memmove (utf8buf, in2ptr, in2size); utf8len = in2size; } if (res1 == (size_t)(-1)) { if (errno1 == EINVAL) in1size = 0; else if (errno1 == EILSEQ) { if (result != initial_result) free (result); errno = errno1; return -1; } } } # undef utf8bufsize } done: /* Now the final memory allocation. */ if (result == tmpbuf) { size_t memsize = length + extra_alloc; if (*resultp != NULL && *lengthp >= memsize) result = *resultp; else { char *memory; memory = (char *) malloc (memsize > 0 ? memsize : 1); if (memory != NULL) result = memory; else { errno = ENOMEM; return -1; } } memcpy (result, tmpbuf, length); } else if (result != *resultp && length + extra_alloc < allocated) { /* Shrink the allocated memory if possible. */ size_t memsize = length + extra_alloc; char *memory; memory = (char *) realloc (result, memsize > 0 ? memsize : 1); if (memory != NULL) result = memory; } *resultp = result; *lengthp = length; return 0; # undef tmpbuf # undef tmpbufsize } int mem_cd_iconveh (const char *src, size_t srclen, const iconveh_t *cd, enum iconv_ilseq_handler handler, size_t *offsets, char **resultp, size_t *lengthp) { return mem_cd_iconveh_internal (src, srclen, cd->cd, cd->cd1, cd->cd2, handler, 0, offsets, resultp, lengthp); } char * str_cd_iconveh (const char *src, const iconveh_t *cd, enum iconv_ilseq_handler handler) { /* For most encodings, a trailing NUL byte in the input will be converted to a trailing NUL byte in the output. But not for UTF-7. So that this function is usable for UTF-7, we have to exclude the NUL byte from the conversion and add it by hand afterwards. */ char *result = NULL; size_t length = 0; int retval = mem_cd_iconveh_internal (src, strlen (src), cd->cd, cd->cd1, cd->cd2, handler, 1, NULL, &result, &length); if (retval < 0) { if (result != NULL) { int saved_errno = errno; free (result); errno = saved_errno; } return NULL; } /* Add the terminating NUL byte. */ result[length] = '\0'; return result; } #endif int mem_iconveh (const char *src, size_t srclen, const char *from_codeset, const char *to_codeset, enum iconv_ilseq_handler handler, size_t *offsets, char **resultp, size_t *lengthp) { if (srclen == 0) { /* Nothing to convert. */ *lengthp = 0; return 0; } else if (offsets == NULL && c_strcasecmp (from_codeset, to_codeset) == 0) { char *result; if (*resultp != NULL && *lengthp >= srclen) result = *resultp; else { result = (char *) malloc (srclen); if (result == NULL) { errno = ENOMEM; return -1; } } memcpy (result, src, srclen); *resultp = result; *lengthp = srclen; return 0; } else { #if HAVE_ICONV iconveh_t cd; char *result; size_t length; int retval; if (iconveh_open (to_codeset, from_codeset, &cd) < 0) return -1; result = *resultp; length = *lengthp; retval = mem_cd_iconveh (src, srclen, &cd, handler, offsets, &result, &length); if (retval < 0) { /* Close cd, but preserve the errno from str_cd_iconv. */ int saved_errno = errno; iconveh_close (&cd); errno = saved_errno; } else { if (iconveh_close (&cd) < 0) { /* Return -1, but free the allocated memory, and while doing that, preserve the errno from iconveh_close. */ int saved_errno = errno; if (result != *resultp && result != NULL) free (result); errno = saved_errno; return -1; } *resultp = result; *lengthp = length; } return retval; #else /* This is a different error code than if iconv_open existed but didn't support from_codeset and to_codeset, so that the caller can emit an error message such as "iconv() is not supported. Installing GNU libiconv and then reinstalling this package would fix this." */ errno = ENOSYS; return -1; #endif } } char * str_iconveh (const char *src, const char *from_codeset, const char *to_codeset, enum iconv_ilseq_handler handler) { if (*src == '\0' || c_strcasecmp (from_codeset, to_codeset) == 0) { char *result = strdup (src); if (result == NULL) errno = ENOMEM; return result; } else { #if HAVE_ICONV iconveh_t cd; char *result; if (iconveh_open (to_codeset, from_codeset, &cd) < 0) return NULL; result = str_cd_iconveh (src, &cd, handler); if (result == NULL) { /* Close cd, but preserve the errno from str_cd_iconv. */ int saved_errno = errno; iconveh_close (&cd); errno = saved_errno; } else { if (iconveh_close (&cd) < 0) { /* Return NULL, but free the allocated memory, and while doing that, preserve the errno from iconveh_close. */ int saved_errno = errno; free (result); errno = saved_errno; return NULL; } } return result; #else /* This is a different error code than if iconv_open existed but didn't support from_codeset and to_codeset, so that the caller can emit an error message such as "iconv() is not supported. Installing GNU libiconv and then reinstalling this package would fix this." */ errno = ENOSYS; return NULL; #endif } }