/* Unix SMB/CIFS implementation. Samba utility functions Copyright (C) Andrew Tridgell 1992-2001 Copyright (C) Simo Sorce 2001 Copyright (C) Jeremy Allison 2005 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 . */ #include "includes.h" #ifndef MAXUNI #define MAXUNI 1024 #endif /* these 3 tables define the unicode case handling. They are loaded at startup either via mmap() or read() from the lib directory */ static smb_ucs2_t *upcase_table; static smb_ucs2_t *lowcase_table; static uint8 *valid_table; static bool upcase_table_use_unmap; static bool lowcase_table_use_unmap; static bool valid_table_use_unmap; /** * Destroy global objects allocated by load_case_tables() **/ void gfree_case_tables(void) { if ( upcase_table ) { if ( upcase_table_use_unmap ) unmap_file(upcase_table, 0x20000); else SAFE_FREE(upcase_table); } if ( lowcase_table ) { if ( lowcase_table_use_unmap ) unmap_file(lowcase_table, 0x20000); else SAFE_FREE(lowcase_table); } if ( valid_table ) { if ( valid_table_use_unmap ) unmap_file(valid_table, 0x10000); else SAFE_FREE(valid_table); } } /** * Load or generate the case handling tables. * * The case tables are defined in UCS2 and don't depend on any * configured parameters, so they never need to be reloaded. **/ void load_case_tables(void) { static int initialised; char *old_locale = NULL, *saved_locale = NULL; int i; TALLOC_CTX *frame = NULL; if (initialised) { return; } initialised = 1; frame = talloc_stackframe(); upcase_table = (smb_ucs2_t *)map_file(data_path("upcase.dat"), 0x20000); upcase_table_use_unmap = ( upcase_table != NULL ); lowcase_table = (smb_ucs2_t *)map_file(data_path("lowcase.dat"), 0x20000); lowcase_table_use_unmap = ( lowcase_table != NULL ); #ifdef HAVE_SETLOCALE /* Get the name of the current locale. */ old_locale = setlocale(LC_ALL, NULL); if (old_locale) { /* Save it as it is in static storage. */ saved_locale = SMB_STRDUP(old_locale); } /* We set back the locale to C to get ASCII-compatible toupper/lower functions. */ setlocale(LC_ALL, "C"); #endif /* we would like Samba to limp along even if these tables are not available */ if (!upcase_table) { DEBUG(1,("creating lame upcase table\n")); upcase_table = (smb_ucs2_t *)SMB_MALLOC(0x20000); for (i=0;i<0x10000;i++) { smb_ucs2_t v; SSVAL(&v, 0, i); upcase_table[v] = i; } for (i=0;i<256;i++) { smb_ucs2_t v; SSVAL(&v, 0, UCS2_CHAR(i)); upcase_table[v] = UCS2_CHAR(islower(i)?toupper(i):i); } } if (!lowcase_table) { DEBUG(1,("creating lame lowcase table\n")); lowcase_table = (smb_ucs2_t *)SMB_MALLOC(0x20000); for (i=0;i<0x10000;i++) { smb_ucs2_t v; SSVAL(&v, 0, i); lowcase_table[v] = i; } for (i=0;i<256;i++) { smb_ucs2_t v; SSVAL(&v, 0, UCS2_CHAR(i)); lowcase_table[v] = UCS2_CHAR(isupper(i)?tolower(i):i); } } #ifdef HAVE_SETLOCALE /* Restore the old locale. */ if (saved_locale) { setlocale (LC_ALL, saved_locale); SAFE_FREE(saved_locale); } #endif TALLOC_FREE(frame); } static int check_dos_char_slowly(smb_ucs2_t c) { char buf[10]; smb_ucs2_t c2 = 0; int len1, len2; len1 = convert_string(CH_UTF16LE, CH_DOS, &c, 2, buf, sizeof(buf),False); if (len1 == 0) { return 0; } len2 = convert_string(CH_DOS, CH_UTF16LE, buf, len1, &c2, 2,False); if (len2 != 2) { return 0; } return (c == c2); } /** * Load the valid character map table from valid.dat or * create from the configured codepage. * * This function is called whenever the configuration is reloaded. * However, the valid character table is not changed if it's loaded * from a file, because we can't unmap files. **/ void init_valid_table(void) { static int mapped_file; int i; const char *allowed = ".!#$%&'()_-@^`~"; uint8 *valid_file; if (mapped_file) { /* Can't unmap files, so stick with what we have */ return; } valid_file = (uint8 *)map_file(data_path("valid.dat"), 0x10000); if (valid_file) { valid_table = valid_file; mapped_file = 1; valid_table_use_unmap = True; return; } /* Otherwise, we're using a dynamically created valid_table. * It might need to be regenerated if the code page changed. * We know that we're not using a mapped file, so we can * free() the old one. */ SAFE_FREE(valid_table); /* use free rather than unmap */ valid_table_use_unmap = False; DEBUG(2,("creating default valid table\n")); valid_table = (uint8 *)SMB_MALLOC(0x10000); SMB_ASSERT(valid_table != NULL); for (i=0;i<128;i++) { valid_table[i] = isalnum(i) || strchr(allowed,i); } lazy_initialize_conv(); for (;i<0x10000;i++) { smb_ucs2_t c; SSVAL(&c, 0, i); valid_table[i] = check_dos_char_slowly(c); } } /******************************************************************* Write a string in (little-endian) unicode format. src is in the current DOS codepage. len is the length in bytes of the string pointed to by dst. if null_terminate is True then null terminate the packet (adds 2 bytes) the return value is the length in bytes consumed by the string, including the null termination if applied ********************************************************************/ size_t dos_PutUniCode(char *dst,const char *src, size_t len, bool null_terminate) { int flags = null_terminate ? STR_UNICODE|STR_NOALIGN|STR_TERMINATE : STR_UNICODE|STR_NOALIGN; return push_ucs2(NULL, dst, src, len, flags); } /******************************************************************* Skip past a unicode string, but not more than len. Always move past a terminating zero if found. ********************************************************************/ char *skip_unibuf(char *src, size_t len) { char *srcend = src + len; while (src < srcend && SVAL(src,0)) { src += 2; } if(!SVAL(src,0)) { src += 2; } return src; } /* Copy a string from little-endian or big-endian unicode source (depending * on flags) to internal samba format destination */ int rpcstr_pull(char* dest, void *src, int dest_len, int src_len, int flags) { if (!src) { dest[0] = 0; return 0; } if(dest_len==-1) { dest_len=MAXUNI-3; } return pull_ucs2(NULL, dest, src, dest_len, src_len, flags|STR_UNICODE|STR_NOALIGN); } /* Copy a string from little-endian or big-endian unicode source (depending * on flags) to internal samba format destination. Allocates on talloc ctx. */ int rpcstr_pull_talloc(TALLOC_CTX *ctx, char **dest, void *src, int src_len, int flags) { return pull_ucs2_base_talloc(ctx, NULL, dest, src, src_len, flags|STR_UNICODE|STR_NOALIGN); } /* Copy a string from a unistr2 source to internal samba format destination. Use this instead of direct calls to rpcstr_pull() to avoid having to determine whether the source string is null terminated. */ int rpcstr_pull_unistr2_fstring(char *dest, UNISTR2 *src) { return pull_ucs2(NULL, dest, src->buffer, sizeof(fstring), src->uni_str_len * 2, 0); } /* Helper function to return a talloc'ed string. I have implemented it with a * copy because I don't really know how pull_ucs2 and friends calculate the * target size. If this turns out to be a major bottleneck someone with deeper * multi-byte knowledge needs to revisit this. * I just did (JRA :-). No longer uses copy. * My (VL) use is dsr_getdcname, which returns 6 strings, the alternative would * have been to manually talloc_strdup them in rpc_client/cli_netlogon.c. */ char *rpcstr_pull_unistr2_talloc(TALLOC_CTX *ctx, const UNISTR2 *src) { char *dest = NULL; size_t dest_len; if (!convert_string_talloc(ctx, CH_UTF16LE, CH_UNIX, src->buffer, src->uni_str_len * 2, (void *)&dest, &dest_len, true)) { return NULL; } /* Ensure we're returning a null terminated string. */ if (dest_len) { /* Did we already process the terminating zero ? */ if (dest[dest_len-1] != 0) { size_t size = talloc_get_size(dest); /* Have we got space to append the '\0' ? */ if (size <= dest_len) { /* No, realloc. */ dest = TALLOC_REALLOC_ARRAY(ctx, dest, char, dest_len+1); if (!dest) { /* talloc fail. */ dest_len = (size_t)-1; return NULL; } } /* Yay - space ! */ dest[dest_len] = '\0'; dest_len++; } } else if (dest) { dest[0] = 0; } return dest; } /* Converts a string from internal samba format to unicode */ int rpcstr_push(void *dest, const char *src, size_t dest_len, int flags) { return push_ucs2(NULL, dest, src, dest_len, flags|STR_UNICODE|STR_NOALIGN); } /* Converts a string from internal samba format to unicode. Always terminates. * Actually just a wrapper round push_ucs2_talloc(). */ int rpcstr_push_talloc(TALLOC_CTX *ctx, smb_ucs2_t **dest, const char *src) { size_t size; if (push_ucs2_talloc(ctx, dest, src, &size)) return size; else return -1; } /******************************************************************* Convert a (little-endian) UNISTR2 structure to an ASCII string. ********************************************************************/ void unistr2_to_ascii(char *dest, const UNISTR2 *str, size_t maxlen) { if ((str == NULL) || (str->uni_str_len == 0)) { *dest='\0'; return; } pull_ucs2(NULL, dest, str->buffer, maxlen, str->uni_str_len*2, STR_NOALIGN); } #if 0 /******************************************************************* Convert a (little-endian) UNISTR3 structure to an ASCII string. ********************************************************************/ void unistr3_to_ascii(char *dest, const UNISTR3 *str, size_t maxlen) { if ((str == NULL) || (str->uni_str_len == 0)) { *dest='\0'; return; } pull_ucs2(NULL, dest, str->str.buffer, maxlen, str->uni_str_len*2, STR_NOALIGN); } #endif /******************************************************************* Duplicate a UNISTR2 string into a null terminated char* using a talloc context. ********************************************************************/ char *unistr2_to_ascii_talloc(TALLOC_CTX *ctx, const UNISTR2 *str) { char *s = NULL; if (!str || !str->buffer) { return NULL; } if (pull_ucs2_base_talloc(ctx, NULL, &s, str->buffer, str->uni_str_len*2, STR_NOALIGN) == (size_t)-1) { return NULL; } return s; } /******************************************************************* Return a string for displaying a UNISTR2. Guarentees to return a valid string - "" if nothing else. Changed to use talloc_tos() under the covers.... JRA. ********************************************************************/ const char *unistr2_static(const UNISTR2 *str) { char *dest = NULL; if ((str == NULL) || (str->uni_str_len == 0)) { return ""; } dest = unistr2_to_ascii_talloc(talloc_tos(), str); if (!dest) { return ""; } return dest; } /******************************************************************* Convert a wchar to upper case. ********************************************************************/ smb_ucs2_t toupper_w(smb_ucs2_t val) { return upcase_table[SVAL(&val,0)]; } /******************************************************************* Convert a wchar to lower case. ********************************************************************/ smb_ucs2_t tolower_w( smb_ucs2_t val ) { return lowcase_table[SVAL(&val,0)]; } /******************************************************************* Determine if a character is lowercase. ********************************************************************/ bool islower_w(smb_ucs2_t c) { return upcase_table[SVAL(&c,0)] != c; } /******************************************************************* Determine if a character is uppercase. ********************************************************************/ bool isupper_w(smb_ucs2_t c) { return lowcase_table[SVAL(&c,0)] != c; } /******************************************************************* Determine if a character is valid in a 8.3 name. ********************************************************************/ bool isvalid83_w(smb_ucs2_t c) { return valid_table[SVAL(&c,0)] != 0; } /******************************************************************* Count the number of characters in a smb_ucs2_t string. ********************************************************************/ size_t strlen_w(const smb_ucs2_t *src) { size_t len; smb_ucs2_t c; for(len = 0; *(COPY_UCS2_CHAR(&c,src)); src++, len++) { ; } return len; } /******************************************************************* Count up to max number of characters in a smb_ucs2_t string. ********************************************************************/ size_t strnlen_w(const smb_ucs2_t *src, size_t max) { size_t len; smb_ucs2_t c; for(len = 0; (len < max) && *(COPY_UCS2_CHAR(&c,src)); src++, len++) { ; } return len; } /******************************************************************* Wide strchr(). ********************************************************************/ smb_ucs2_t *strchr_w(const smb_ucs2_t *s, smb_ucs2_t c) { smb_ucs2_t cp; while (*(COPY_UCS2_CHAR(&cp,s))) { if (c == cp) { return (smb_ucs2_t *)s; } s++; } if (c == cp) { return (smb_ucs2_t *)s; } return NULL; } smb_ucs2_t *strchr_wa(const smb_ucs2_t *s, char c) { return strchr_w(s, UCS2_CHAR(c)); } /******************************************************************* Wide strrchr(). ********************************************************************/ smb_ucs2_t *strrchr_w(const smb_ucs2_t *s, smb_ucs2_t c) { smb_ucs2_t cp; const smb_ucs2_t *p = s; int len = strlen_w(s); if (len == 0) { return NULL; } p += (len - 1); do { if (c == *(COPY_UCS2_CHAR(&cp,p))) { return (smb_ucs2_t *)p; } } while (p-- != s); return NULL; } /******************************************************************* Wide version of strrchr that returns after doing strrchr 'n' times. ********************************************************************/ smb_ucs2_t *strnrchr_w(const smb_ucs2_t *s, smb_ucs2_t c, unsigned int n) { smb_ucs2_t cp; const smb_ucs2_t *p = s; int len = strlen_w(s); if (len == 0 || !n) { return NULL; } p += (len - 1); do { if (c == *(COPY_UCS2_CHAR(&cp,p))) { n--; } if (!n) { return (smb_ucs2_t *)p; } } while (p-- != s); return NULL; } /******************************************************************* Wide strstr(). ********************************************************************/ smb_ucs2_t *strstr_w(const smb_ucs2_t *s, const smb_ucs2_t *ins) { smb_ucs2_t *r; size_t inslen; if (!s || !*s || !ins || !*ins) { return NULL; } inslen = strlen_w(ins); r = (smb_ucs2_t *)s; while ((r = strchr_w(r, *ins))) { if (strncmp_w(r, ins, inslen) == 0) { return r; } r++; } return NULL; } /******************************************************************* Convert a string to lower case. return True if any char is converted ********************************************************************/ bool strlower_w(smb_ucs2_t *s) { smb_ucs2_t cp; bool ret = False; while (*(COPY_UCS2_CHAR(&cp,s))) { smb_ucs2_t v = tolower_w(cp); if (v != cp) { COPY_UCS2_CHAR(s,&v); ret = True; } s++; } return ret; } /******************************************************************* Convert a string to upper case. return True if any char is converted ********************************************************************/ bool strupper_w(smb_ucs2_t *s) { smb_ucs2_t cp; bool ret = False; while (*(COPY_UCS2_CHAR(&cp,s))) { smb_ucs2_t v = toupper_w(cp); if (v != cp) { COPY_UCS2_CHAR(s,&v); ret = True; } s++; } return ret; } /******************************************************************* Convert a string to "normal" form. ********************************************************************/ void strnorm_w(smb_ucs2_t *s, int case_default) { if (case_default == CASE_UPPER) { strupper_w(s); } else { strlower_w(s); } } int strcmp_w(const smb_ucs2_t *a, const smb_ucs2_t *b) { smb_ucs2_t cpa, cpb; while ((*(COPY_UCS2_CHAR(&cpb,b))) && (*(COPY_UCS2_CHAR(&cpa,a)) == cpb)) { a++; b++; } return (*(COPY_UCS2_CHAR(&cpa,a)) - *(COPY_UCS2_CHAR(&cpb,b))); /* warning: if *a != *b and both are not 0 we return a random greater or lesser than 0 number not realted to which string is longer */ } int strncmp_w(const smb_ucs2_t *a, const smb_ucs2_t *b, size_t len) { smb_ucs2_t cpa, cpb; size_t n = 0; while ((n < len) && (*(COPY_UCS2_CHAR(&cpb,b))) && (*(COPY_UCS2_CHAR(&cpa,a)) == cpb)) { a++; b++; n++; } return (len - n)?(*(COPY_UCS2_CHAR(&cpa,a)) - *(COPY_UCS2_CHAR(&cpb,b))):0; } /******************************************************************* Case insensitive string comparison. ********************************************************************/ int strcasecmp_w(const smb_ucs2_t *a, const smb_ucs2_t *b) { smb_ucs2_t cpa, cpb; while ((*COPY_UCS2_CHAR(&cpb,b)) && toupper_w(*(COPY_UCS2_CHAR(&cpa,a))) == toupper_w(cpb)) { a++; b++; } return (tolower_w(*(COPY_UCS2_CHAR(&cpa,a))) - tolower_w(*(COPY_UCS2_CHAR(&cpb,b)))); } /******************************************************************* Case insensitive string comparison, length limited. ********************************************************************/ int strncasecmp_w(const smb_ucs2_t *a, const smb_ucs2_t *b, size_t len) { smb_ucs2_t cpa, cpb; size_t n = 0; while ((n < len) && *COPY_UCS2_CHAR(&cpb,b) && (toupper_w(*(COPY_UCS2_CHAR(&cpa,a))) == toupper_w(cpb))) { a++; b++; n++; } return (len - n)?(tolower_w(*(COPY_UCS2_CHAR(&cpa,a))) - tolower_w(*(COPY_UCS2_CHAR(&cpb,b)))):0; } /******************************************************************* Compare 2 strings. ********************************************************************/ bool strequal_w(const smb_ucs2_t *s1, const smb_ucs2_t *s2) { if (s1 == s2) { return(True); } if (!s1 || !s2) { return(False); } return(strcasecmp_w(s1,s2)==0); } /******************************************************************* Compare 2 strings up to and including the nth char. ******************************************************************/ bool strnequal_w(const smb_ucs2_t *s1,const smb_ucs2_t *s2,size_t n) { if (s1 == s2) { return(True); } if (!s1 || !s2 || !n) { return(False); } return(strncasecmp_w(s1,s2,n)==0); } /******************************************************************* Duplicate string. ********************************************************************/ smb_ucs2_t *strdup_w(const smb_ucs2_t *src) { return strndup_w(src, 0); } /* if len == 0 then duplicate the whole string */ smb_ucs2_t *strndup_w(const smb_ucs2_t *src, size_t len) { smb_ucs2_t *dest; if (!len) { len = strlen_w(src); } dest = SMB_MALLOC_ARRAY(smb_ucs2_t, len + 1); if (!dest) { DEBUG(0,("strdup_w: out of memory!\n")); return NULL; } memcpy(dest, src, len * sizeof(smb_ucs2_t)); dest[len] = 0; return dest; } /******************************************************************* Copy a string with max len. ********************************************************************/ smb_ucs2_t *strncpy_w(smb_ucs2_t *dest, const smb_ucs2_t *src, const size_t max) { smb_ucs2_t cp; size_t len; if (!dest || !src) { return NULL; } for (len = 0; (*COPY_UCS2_CHAR(&cp,(src+len))) && (len < max); len++) { cp = *COPY_UCS2_CHAR(dest+len,src+len); } cp = 0; for ( /*nothing*/ ; len < max; len++ ) { cp = *COPY_UCS2_CHAR(dest+len,&cp); } return dest; } /******************************************************************* Append a string of len bytes and add a terminator. ********************************************************************/ smb_ucs2_t *strncat_w(smb_ucs2_t *dest, const smb_ucs2_t *src, const size_t max) { size_t start; size_t len; smb_ucs2_t z = 0; if (!dest || !src) { return NULL; } start = strlen_w(dest); len = strnlen_w(src, max); memcpy(&dest[start], src, len*sizeof(smb_ucs2_t)); z = *COPY_UCS2_CHAR(dest+start+len,&z); return dest; } smb_ucs2_t *strcat_w(smb_ucs2_t *dest, const smb_ucs2_t *src) { size_t start; size_t len; smb_ucs2_t z = 0; if (!dest || !src) { return NULL; } start = strlen_w(dest); len = strlen_w(src); memcpy(&dest[start], src, len*sizeof(smb_ucs2_t)); z = *COPY_UCS2_CHAR(dest+start+len,&z); return dest; } /******************************************************************* Replace any occurence of oldc with newc in unicode string. ********************************************************************/ void string_replace_w(smb_ucs2_t *s, smb_ucs2_t oldc, smb_ucs2_t newc) { smb_ucs2_t cp; for(;*(COPY_UCS2_CHAR(&cp,s));s++) { if(cp==oldc) { COPY_UCS2_CHAR(s,&newc); } } } /******************************************************************* Trim unicode string. ********************************************************************/ bool trim_string_w(smb_ucs2_t *s, const smb_ucs2_t *front, const smb_ucs2_t *back) { bool ret = False; size_t len, front_len, back_len; if (!s) { return False; } len = strlen_w(s); if (front && *front) { front_len = strlen_w(front); while (len && strncmp_w(s, front, front_len) == 0) { memmove(s, (s + front_len), (len - front_len + 1) * sizeof(smb_ucs2_t)); len -= front_len; ret = True; } } if (back && *back) { back_len = strlen_w(back); while (len && strncmp_w((s + (len - back_len)), back, back_len) == 0) { s[len - back_len] = 0; len -= back_len; ret = True; } } return ret; } /* The *_wa() functions take a combination of 7 bit ascii and wide characters They are used so that you can use string functions combining C string constants with ucs2 strings The char* arguments must NOT be multibyte - to be completely sure of this only pass string constants */ int strcmp_wa(const smb_ucs2_t *a, const char *b) { smb_ucs2_t cp = 0; while (*b && *(COPY_UCS2_CHAR(&cp,a)) == UCS2_CHAR(*b)) { a++; b++; } return (*(COPY_UCS2_CHAR(&cp,a)) - UCS2_CHAR(*b)); } int strncmp_wa(const smb_ucs2_t *a, const char *b, size_t len) { smb_ucs2_t cp = 0; size_t n = 0; while ((n < len) && *b && *(COPY_UCS2_CHAR(&cp,a)) == UCS2_CHAR(*b)) { a++; b++; n++; } return (len - n)?(*(COPY_UCS2_CHAR(&cp,a)) - UCS2_CHAR(*b)):0; } smb_ucs2_t *strpbrk_wa(const smb_ucs2_t *s, const char *p) { smb_ucs2_t cp; while (*(COPY_UCS2_CHAR(&cp,s))) { int i; for (i=0; p[i] && cp != UCS2_CHAR(p[i]); i++) ; if (p[i]) { return (smb_ucs2_t *)s; } s++; } return NULL; } smb_ucs2_t *strstr_wa(const smb_ucs2_t *s, const char *ins) { smb_ucs2_t *r; size_t inslen; if (!s || !ins) { return NULL; } inslen = strlen(ins); r = (smb_ucs2_t *)s; while ((r = strchr_w(r, UCS2_CHAR(*ins)))) { if (strncmp_wa(r, ins, inslen) == 0) return r; r++; } return NULL; } /******************************************************************* Returns the length in number of wide characters. ******************************************************************/ int unistrlen(uint16 *s) { int len; if (!s) { return -1; } for (len=0; SVAL(s,0); s++,len++) { ; } return len; } /******************************************************************* Strcpy for unicode strings. Returns length (in num of wide chars). Not odd align safe. ********************************************************************/ int unistrcpy(uint16 *dst, uint16 *src) { int num_wchars = 0; while (SVAL(src,0)) { *dst++ = *src++; num_wchars++; } *dst = 0; return num_wchars; } /** * Samba ucs2 type to UNISTR2 conversion * * @param ctx Talloc context to create the dst strcture (if null) and the * contents of the unicode string. * @param dst UNISTR2 destination. If equals null, then it's allocated. * @param src smb_ucs2_t source. * @param max_len maximum number of unicode characters to copy. If equals * null, then null-termination of src is taken * * @return copied UNISTR2 destination **/ UNISTR2* ucs2_to_unistr2(TALLOC_CTX *ctx, UNISTR2* dst, smb_ucs2_t* src) { size_t len; if (!src) { return NULL; } len = strlen_w(src); /* allocate UNISTR2 destination if not given */ if (!dst) { dst = TALLOC_P(ctx, UNISTR2); if (!dst) return NULL; } if (!dst->buffer) { dst->buffer = TALLOC_ARRAY(ctx, uint16, len + 1); if (!dst->buffer) return NULL; } /* set UNISTR2 parameters */ dst->uni_max_len = len + 1; dst->offset = 0; dst->uni_str_len = len; /* copy the actual unicode string */ strncpy_w(dst->buffer, src, dst->uni_max_len); return dst; } /************************************************************* ascii only toupper - saves the need for smbd to be in C locale. *************************************************************/ int toupper_ascii(int c) { smb_ucs2_t uc = toupper_w(UCS2_CHAR(c)); return UCS2_TO_CHAR(uc); } /************************************************************* ascii only tolower - saves the need for smbd to be in C locale. *************************************************************/ int tolower_ascii(int c) { smb_ucs2_t uc = tolower_w(UCS2_CHAR(c)); return UCS2_TO_CHAR(uc); } /************************************************************* ascii only isupper - saves the need for smbd to be in C locale. *************************************************************/ int isupper_ascii(int c) { return isupper_w(UCS2_CHAR(c)); } /************************************************************* ascii only islower - saves the need for smbd to be in C locale. *************************************************************/ int islower_ascii(int c) { return islower_w(UCS2_CHAR(c)); }