/* strfuncs.cc: string functions Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #include "winsup.h" #include #include #include #include #include "path.h" #include "fhandler.h" #include "dtable.h" #include "cygheap.h" /* Transform characters invalid for Windows filenames to the Unicode private use area in the U+f0XX range. The affected characters are all control chars 1 <= c <= 31, as well as the characters " * : < > ? |. The backslash is affected as well, but we can't transform it as long as we accept Win32 paths as input. */ static const WCHAR tfx_chars[] = { 0, 0xf000 | 1, 0xf000 | 2, 0xf000 | 3, 0xf000 | 4, 0xf000 | 5, 0xf000 | 6, 0xf000 | 7, 0xf000 | 8, 0xf000 | 9, 0xf000 | 10, 0xf000 | 11, 0xf000 | 12, 0xf000 | 13, 0xf000 | 14, 0xf000 | 15, 0xf000 | 16, 0xf000 | 17, 0xf000 | 18, 0xf000 | 19, 0xf000 | 20, 0xf000 | 21, 0xf000 | 22, 0xf000 | 23, 0xf000 | 24, 0xf000 | 25, 0xf000 | 26, 0xf000 | 27, 0xf000 | 28, 0xf000 | 29, 0xf000 | 30, 0xf000 | 31, ' ', '!', 0xf000 | '"', '#', '$', '%', '&', 39, '(', ')', 0xf000 | '*', '+', ',', '-', '.', '\\', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 0xf000 | ':', ';', 0xf000 | '<', '=', 0xf000 | '>', 0xf000 | '?', '@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '[', '\\', ']', '^', '_', '`', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '{', 0xf000 | '|', '}', '~', 127 }; /* This is the table for the reverse functionality in sys_cp_wcstombs. It differs deliberately in two code places (space and dot) to allow converting back space and dot on filesystems only supporting DOS filenames. */ static const WCHAR tfx_rev_chars[] = { 0, 0xf000 | 1, 0xf000 | 2, 0xf000 | 3, 0xf000 | 4, 0xf000 | 5, 0xf000 | 6, 0xf000 | 7, 0xf000 | 8, 0xf000 | 9, 0xf000 | 10, 0xf000 | 11, 0xf000 | 12, 0xf000 | 13, 0xf000 | 14, 0xf000 | 15, 0xf000 | 16, 0xf000 | 17, 0xf000 | 18, 0xf000 | 19, 0xf000 | 20, 0xf000 | 21, 0xf000 | 22, 0xf000 | 23, 0xf000 | 24, 0xf000 | 25, 0xf000 | 26, 0xf000 | 27, 0xf000 | 28, 0xf000 | 29, 0xf000 | 30, 0xf000 | 31, 0xf000 | ' ', '!', 0xf000 | '"', '#', '$', '%', '&', 39, '(', ')', 0xf000 | '*', '+', ',', '-', 0xf000 | '.', '\\', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 0xf000 | ':', ';', 0xf000 | '<', '=', 0xf000 | '>', 0xf000 | '?', '@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '[', '\\', ']', '^', '_', '`', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '{', 0xf000 | '|', '}', '~', 127 }; void transform_chars (PWCHAR path, PWCHAR path_end) { for (; path <= path_end; ++path) if (*path < 128) *path = tfx_chars[*path]; } /* The SJIS, JIS and eucJP conversion in newlib does not use UTF as wchar_t character representation. That's unfortunate for us since we require UTF for the OS. What we do here is to have our own implementation of the base functions for the conversion using the MulitByteToWideChar/WideCharToMultiByte functions. */ /* FIXME: We can't support JIS (ISO-2022-JP) at all right now. It's a stateful charset encoding. The translation from mbtowc to MulitByteToWideChar is quite complex. Given that we support SJIS and eucJP, the both most used Japanese charset encodings, this shouldn't be such a big problem. */ /* GBK, eucKR, and Big5 conversions are not available so far in newlib. */ static int __db_wctomb (struct _reent *r, char *s, wchar_t wchar, UINT cp) { if (s == NULL) return 0; if (wchar < 0x80) { *s = (char) wchar; return 1; } BOOL def_used = false; int ret = WideCharToMultiByte (cp, WC_NO_BEST_FIT_CHARS, &wchar, 1, s, 2, NULL, &def_used); if (ret > 0 && !def_used) return ret; r->_errno = EILSEQ; return -1; } extern "C" int __sjis_wctomb (struct _reent *r, char *s, wchar_t wchar, const char *charset, mbstate_t *state) { return __db_wctomb (r,s, wchar, 932); } extern "C" int __eucjp_wctomb (struct _reent *r, char *s, wchar_t wchar, const char *charset, mbstate_t *state) { /* Unfortunately, the Windows eucJP codepage 20932 is not really 100% compatible to eucJP. It's a cute approximation which makes it a doublebyte codepage. The JIS-X-0212 three byte codes (0x8f,0xa1-0xfe,0xa1-0xfe) are folded into two byte codes as follows: The 0x8f is stripped, the next byte is taken as is, the third byte is mapped into the lower 7-bit area by masking it with 0x7f. So, for instance, the eucJP code 0x8f,0xdd,0xf8 becomes 0xdd,0x78 in CP 20932. To be really eucJP compatible, we have to map the JIS-X-0212 characters between CP 20932 and eucJP ourselves. */ if (s == NULL) return 0; if (wchar < 0x80) { *s = (char) wchar; return 1; } BOOL def_used = false; int ret = WideCharToMultiByte (20932, WC_NO_BEST_FIT_CHARS, &wchar, 1, s, 3, NULL, &def_used); if (ret > 0 && !def_used) { /* CP20932 representation of JIS-X-0212 character? */ if (ret == 2 && (unsigned char) s[1] <= 0x7f) { /* Yes, convert to eucJP three byte sequence */ s[2] = s[1] | 0x80; s[1] = s[0]; s[0] = 0x8f; ++ret; } return ret; } r->_errno = EILSEQ; return -1; } extern "C" int __gbk_wctomb (struct _reent *r, char *s, wchar_t wchar, const char *charset, mbstate_t *state) { return __db_wctomb (r,s, wchar, 936); } extern "C" int __kr_wctomb (struct _reent *r, char *s, wchar_t wchar, const char *charset, mbstate_t *state) { return __db_wctomb (r,s, wchar, 949); } extern "C" int __big5_wctomb (struct _reent *r, char *s, wchar_t wchar, const char *charset, mbstate_t *state) { return __db_wctomb (r,s, wchar, 950); } static int __db_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, UINT cp, mbstate_t *state) { wchar_t dummy; int ret; if (s == NULL) return 0; /* not state-dependent */ if (n == 0) return -2; if (pwc == NULL) pwc = &dummy; if (state->__count == 0) { if (*(unsigned char *) s < 0x80) { *pwc = *(unsigned char *) s; return *s ? 1 : 0; } size_t cnt = MIN (n, 2); ret = MultiByteToWideChar (cp, MB_ERR_INVALID_CHARS, s, cnt, pwc, 1); if (ret) return cnt; if (n == 1) { state->__count = n; state->__value.__wchb[0] = *s; return -2; } /* These Win32 functions are really crappy. Assuming n is 2 but the first byte is a singlebyte charcode, the function does not convert that byte and return 1, rather it just returns 0. So, what we do here is to check if the first byte returns a valid value... */ else if (MultiByteToWideChar (cp, MB_ERR_INVALID_CHARS, s, 1, pwc, 1)) return 1; r->_errno = EILSEQ; return -1; } state->__value.__wchb[state->__count] = *s; ret = MultiByteToWideChar (cp, MB_ERR_INVALID_CHARS, (const char *) state->__value.__wchb, 2, pwc, 1); if (!ret) { r->_errno = EILSEQ; return -1; } state->__count = 0; return 1; } extern "C" int __sjis_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, const char *charset, mbstate_t *state) { return __db_mbtowc (r, pwc, s, n, 932, state); } extern "C" int __eucjp_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, const char *charset, mbstate_t *state) { /* See comment in __eucjp_wctomb above. */ wchar_t dummy; int ret = 0; if (s == NULL) return 0; /* not state-dependent */ if (n == 0) return -2; if (pwc == NULL) pwc = &dummy; if (state->__count == 0) { if (*(unsigned char *) s < 0x80) { *pwc = *(unsigned char *) s; return *s ? 1 : 0; } if (*(unsigned char *) s == 0x8f) /* JIS-X-0212 lead byte? */ { /* Yes. Store sequence in mbstate and handle in the __count != 0 case at the end of the function. */ size_t i; for (i = 0; i < 3 && i < n; i++) state->__value.__wchb[i] = s[i]; if ((state->__count = i) < 3) /* Incomplete sequence? */ return -2; ret = 3; goto jis_x_0212; } size_t cnt = MIN (n, 2); if (MultiByteToWideChar (20932, MB_ERR_INVALID_CHARS, s, cnt, pwc, 1)) return cnt; if (n == 1) { state->__count = 1; state->__value.__wchb[0] = *s; return -2; } else if (MultiByteToWideChar (20932, MB_ERR_INVALID_CHARS, s, 1, pwc, 1)) return 1; r->_errno = EILSEQ; return -1; } state->__value.__wchb[state->__count++] = *s; ret = 1; jis_x_0212: if (state->__value.__wchb[0] == 0x8f) { if (state->__count == 2) { if (n == 1) return -2; state->__value.__wchb[state->__count] = s[1]; ret = 2; } /* Ok, we have a full JIS-X-0212 sequence in mbstate. Convert it to the CP 20932 representation and feed it to MultiByteToWideChar. */ state->__value.__wchb[0] = state->__value.__wchb[1]; state->__value.__wchb[1] = state->__value.__wchb[2] & 0x7f; } if (!MultiByteToWideChar (20932, MB_ERR_INVALID_CHARS, (const char *) state->__value.__wchb, 2, pwc, 1)) { r->_errno = EILSEQ; return -1; } state->__count = 0; return ret; } extern "C" int __gbk_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, const char *charset, mbstate_t *state) { return __db_mbtowc (r, pwc, s, n, 936, state); } extern "C" int __kr_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, const char *charset, mbstate_t *state) { return __db_mbtowc (r, pwc, s, n, 949, state); } extern "C" int __big5_mbtowc (struct _reent *r, wchar_t *pwc, const char *s, size_t n, const char *charset, mbstate_t *state) { return __db_mbtowc (r, pwc, s, n, 950, state); } /* Our own sys_wcstombs/sys_mbstowcs functions differ from the wcstombs/mbstowcs API in three ways: - The UNICODE private use area is used in filenames to specify characters not allowed in Windows filenames ('*', '?', etc). The sys_wcstombs converts characters in the private use area back to the corresponding ASCII chars. - If a wide character in a filename has no representation in the current multibyte charset, then usually you wouldn't be able to access the file. To fix this problem, sys_wcstombs creates a replacement multibyte sequences for the non-representable wide-char. The sequence starts with an ASCII CAN (0x18, Ctrl-X), followed by the UTF-8 representation of the character. The sys_(cp_)mbstowcs function detects ASCII CAN characters in the input multibyte string and converts the following multibyte sequence in by treating it as an UTF-8 char. If that fails, the ASCII CAN was probably standalone and it gets just copied over as ASCII CAN. - Three cases have to be distinguished for the return value: - dst == NULL; len is ignored, the return value is the number of bytes required for the string without the trailing NUL, just like the return value of the wcstombs function. - dst != NULL, len == (size_t) -1; the return value is the size in bytes of the destination string without the trailing NUL. If the incoming wide char string was not NUL-terminated, the target string won't be NUL-terminated either. - dst != NULL; len != (size_t) -1; the return value is the size in bytes of the destination string without the trailing NUL. The target string will be NUL-terminated, no matter what. If the result is truncated due to buffer size, it's a bug in Cygwin and the buffer in the calling function should be raised. */ size_t __reg3 sys_cp_wcstombs (wctomb_p f_wctomb, const char *charset, char *dst, size_t len, const wchar_t *src, size_t nwc) { char buf[10]; char *ptr = dst; wchar_t *pwcs = (wchar_t *) src; size_t n = 0; mbstate_t ps; save_errno save; memset (&ps, 0, sizeof ps); if (dst == NULL) len = (size_t) -1; while (n < len && nwc-- > 0) { wchar_t pw = *pwcs; int bytes; unsigned char cwc; /* Convert UNICODE private use area. Reverse functionality for the ASCII area <= 0x7f (only for path names) is transform_chars above. Reverse functionality for invalid bytes in a multibyte sequence is in sys_cp_mbstowcs below. */ if ((pw & 0xff00) == 0xf000 && (((cwc = (pw & 0xff)) <= 0x7f && tfx_rev_chars[cwc] >= 0xf000) || (cwc >= 0x80 && MB_CUR_MAX > 1))) { buf[0] = (char) cwc; bytes = 1; } else { bytes = f_wctomb (_REENT, buf, pw, charset, &ps); if (bytes == -1 && *charset != 'U'/*TF-8*/) { /* Convert chars invalid in the current codepage to a sequence ASCII CAN; UTF-8 representation of invalid char. */ buf[0] = 0x18; /* ASCII CAN */ bytes = __utf8_wctomb (_REENT, buf + 1, pw, charset, &ps); if (bytes == -1) { ++pwcs; ps.__count = 0; continue; } ++bytes; /* Add the ASCII CAN to the byte count. */ if (ps.__count == -4 && nwc > 0) { /* First half of a surrogate pair. */ ++pwcs; if ((*pwcs & 0xfc00) != 0xdc00) /* Invalid second half. */ { ++pwcs; ps.__count = 0; continue; } bytes += __utf8_wctomb (_REENT, buf + bytes, *pwcs, charset, &ps); nwc--; } } } if (n + bytes <= len) { if (dst) { for (int i = 0; i < bytes; ++i) *ptr++ = buf[i]; } if (*pwcs++ == 0x00) break; n += bytes; } else break; } if (n && dst && len != (size_t) -1) { n = (n < len) ? n : len - 1; dst[n] = '\0'; } return n; } size_t __reg3 sys_wcstombs (char *dst, size_t len, const wchar_t * src, size_t nwc) { return sys_cp_wcstombs (cygheap->locale.wctomb, cygheap->locale.charset, dst, len, src, nwc); } /* Allocate a buffer big enough for the string, always including the terminating '\0'. The buffer pointer is returned in *dst_p, the return value is the number of bytes written to the buffer, as usual. The "type" argument determines where the resulting buffer is stored. It's either one of the cygheap_types values, or it's "HEAP_NOTHEAP". In the latter case the allocation uses simple calloc. Note that this code is shared by cygserver (which requires it via __small_vsprintf) and so when built there plain calloc is the only choice. */ size_t __reg3 sys_wcstombs_alloc (char **dst_p, int type, const wchar_t *src, size_t nwc) { size_t ret; ret = sys_wcstombs (NULL, (size_t) -1, src, nwc); if (ret > 0) { size_t dlen = ret + 1; if (type == HEAP_NOTHEAP) *dst_p = (char *) calloc (dlen, sizeof (char)); else *dst_p = (char *) ccalloc ((cygheap_types) type, dlen, sizeof (char)); if (!*dst_p) return 0; ret = sys_wcstombs (*dst_p, dlen, src, nwc); } return ret; } /* sys_cp_mbstowcs is actually most of the time called as sys_mbstowcs with a 0 codepage. If cp is not 0, the codepage is evaluated and used for the conversion. This is so that fhandler_console can switch to an alternate charset, which is the charset returned by GetConsoleCP (). Most of the time this is used for box and line drawing characters. */ size_t __reg3 sys_cp_mbstowcs (mbtowc_p f_mbtowc, const char *charset, wchar_t *dst, size_t dlen, const char *src, size_t nms) { wchar_t *ptr = dst; unsigned const char *pmbs = (unsigned const char *) src; size_t count = 0; size_t len = dlen; int bytes; mbstate_t ps; save_errno save; memset (&ps, 0, sizeof ps); if (dst == NULL) len = (size_t)-1; while (len > 0 && nms > 0) { /* ASCII CAN handling. */ if (*pmbs == 0x18) { /* Sanity check: If this is a lead CAN byte for a following UTF-8 sequence, there must be at least two more bytes left, and the next byte must be a valid UTF-8 start byte. If the charset isn't UTF-8 anyway, try to convert the following bytes as UTF-8 sequence. */ if (nms > 2 && pmbs[1] >= 0xc2 && pmbs[1] <= 0xf4 && *charset != 'U'/*TF-8*/) { bytes = __utf8_mbtowc (_REENT, ptr, (const char *) pmbs + 1, nms - 1, charset, &ps); if (bytes < 0) { /* Invalid UTF-8 sequence? Treat the ASCII CAN character as stand-alone ASCII CAN char. */ bytes = 1; if (dst) *ptr = 0x18; memset (&ps, 0, sizeof ps); } else { ++bytes; /* Count CAN byte */ if (bytes > 1 && ps.__count == 4) { /* First half of a surrogate. */ wchar_t *ptr2 = dst ? ptr + 1 : NULL; int bytes2 = __utf8_mbtowc (_REENT, ptr2, (const char *) pmbs + bytes, nms - bytes, charset, &ps); if (bytes2 < 0) memset (&ps, 0, sizeof ps); else { bytes += bytes2; ++count; ptr = dst ? ptr + 1 : NULL; --len; } } } } /* Otherwise it's just a simple ASCII CAN. */ else { bytes = 1; if (dst) *ptr = 0x18; } } else if ((bytes = f_mbtowc (_REENT, ptr, (const char *) pmbs, nms, charset, &ps)) < 0) { /* The technique is based on a discussion here: http://www.mail-archive.com/linux-utf8@nl.linux.org/msg00080.html Invalid bytes in a multibyte secuence are converted to the private use area which is already used to store ASCII chars invalid in Windows filenames. This technque allows to store them in a symmetric way. */ bytes = 1; if (dst) *ptr = L'\xf000' | *pmbs; memset (&ps, 0, sizeof ps); } if (bytes > 0) { pmbs += bytes; nms -= bytes; ++count; ptr = dst ? ptr + 1 : NULL; --len; } else { if (bytes == 0) ++count; break; } } if (count && dst) { count = (count < dlen) ? count : dlen - 1; dst[count] = L'\0'; } return count; } size_t __reg3 sys_mbstowcs (wchar_t * dst, size_t dlen, const char *src, size_t nms) { return sys_cp_mbstowcs (cygheap->locale.mbtowc, cygheap->locale.charset, dst, dlen, src, nms); } /* Same as sys_wcstombs_alloc, just backwards. */ size_t __reg3 sys_mbstowcs_alloc (wchar_t **dst_p, int type, const char *src, size_t nms) { size_t ret; ret = sys_mbstowcs (NULL, (size_t) -1, src, nms); if (ret > 0) { size_t dlen = ret + 1; if (type == HEAP_NOTHEAP) *dst_p = (wchar_t *) calloc (dlen, sizeof (wchar_t)); else *dst_p = (wchar_t *) ccalloc ((cygheap_types) type, dlen, sizeof (wchar_t)); if (!*dst_p) return 0; ret = sys_mbstowcs (*dst_p, dlen, src, nms); } return ret; } /* Copy string, until c or is encountered. NUL-terminate the destination string (s1). Return pointer to terminating byte in dst string. */ char * __stdcall strccpy (char *__restrict s1, const char **__restrict s2, char c) { while (**s2 && **s2 != c) *s1++ = *((*s2)++); *s1 = 0; MALLOC_CHECK; return s1; } static WCHAR hex_wchars[] = L"0123456789abcdef"; NTSTATUS NTAPI RtlInt64ToHexUnicodeString (ULONGLONG value, PUNICODE_STRING dest, BOOLEAN append) { USHORT len = append ? dest->Length : 0; if (dest->MaximumLength - len < 16 * (int) sizeof (WCHAR)) return STATUS_BUFFER_OVERFLOW; wchar_t *end = (PWCHAR) ((PBYTE) dest->Buffer + len); register PWCHAR p = end + 16; while (p-- > end) { *p = hex_wchars[value & 0xf]; value >>= 4; } dest->Length += 16 * sizeof (WCHAR); return STATUS_SUCCESS; }