/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2011 Nexenta Systems, Inc. All rights reserved. * Copyright 2010 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifdef _KERNEL #include #include #else #include #include #include #include #endif #include #include #include #include #include #include #define UNICODE_N_ENTRIES (sizeof (a_unicode) / sizeof (a_unicode[0])) /* * Global pointer to the current codepage: defaults to ASCII, * and a flag indicating whether the codepage is Unicode or ASCII. */ static const smb_codepage_t *current_codepage = usascii_codepage; static boolean_t is_unicode = B_FALSE; static smb_codepage_t *smb_unicode_init(void); /* * strsubst * * Scan a string replacing all occurrences of orgchar with newchar. * Returns a pointer to s, or null of s is null. */ char * strsubst(char *s, char orgchar, char newchar) { char *p = s; if (p == 0) return (0); while (*p) { if (*p == orgchar) *p = newchar; ++p; } return (s); } /* * strcanon * * Normalize a string by reducing all the repeated characters in * buf as defined by class. For example; * * char *buf = strdup("/d1//d2//d3\\\\d4\\\\f1.txt"); * strcanon(buf, "/\\"); * * Would result in buf containing the following string: * * /d1/d2/d3\d4\f1.txt * * This function modifies the contents of buf in place and returns * a pointer to buf. */ char * strcanon(char *buf, const char *class) { char *p = buf; char *q = buf; char *r; while (*p) { *q++ = *p; if ((r = strchr(class, *p)) != 0) { while (*p == *r) ++p; } else ++p; } *q = '\0'; return (buf); } void smb_codepage_init(void) { const smb_codepage_t *cp; if (is_unicode) return; if ((cp = smb_unicode_init()) != NULL) { current_codepage = cp; is_unicode = B_TRUE; } else { current_codepage = usascii_codepage; is_unicode = B_FALSE; } } /* * Determine whether or not a character is an uppercase character. * This function operates on the current codepage table. Returns * non-zero if the character is uppercase. Otherwise returns zero. */ int smb_isupper(int c) { uint16_t mask = is_unicode ? 0xffff : 0xff; return (current_codepage[c & mask].ctype & CODEPAGE_ISUPPER); } /* * Determine whether or not a character is an lowercase character. * This function operates on the current codepage table. Returns * non-zero if the character is lowercase. Otherwise returns zero. */ int smb_islower(int c) { uint16_t mask = is_unicode ? 0xffff : 0xff; return (current_codepage[c & mask].ctype & CODEPAGE_ISLOWER); } /* * Convert individual characters to their uppercase equivalent value. * If the specified character is lowercase, the uppercase value will * be returned. Otherwise the original value will be returned. */ int smb_toupper(int c) { uint16_t mask = is_unicode ? 0xffff : 0xff; return (current_codepage[c & mask].upper); } /* * Convert individual characters to their lowercase equivalent value. * If the specified character is uppercase, the lowercase value will * be returned. Otherwise the original value will be returned. */ int smb_tolower(int c) { uint16_t mask = is_unicode ? 0xffff : 0xff; return (current_codepage[c & mask].lower); } /* * Convert a string to uppercase using the appropriate codepage. The * string is converted in place. A pointer to the string is returned. * There is an assumption here that uppercase and lowercase values * always result encode to the same length. */ char * smb_strupr(char *s) { smb_wchar_t c; char *p = s; while (*p) { if (smb_isascii(*p)) { *p = smb_toupper(*p); p++; } else { if (smb_mbtowc(&c, p, MTS_MB_CHAR_MAX) < 0) return (0); if (c == 0) break; c = smb_toupper(c); p += smb_wctomb(p, c); } } return (s); } /* * Convert a string to lowercase using the appropriate codepage. The * string is converted in place. A pointer to the string is returned. * There is an assumption here that uppercase and lowercase values * always result encode to the same length. */ char * smb_strlwr(char *s) { smb_wchar_t c; char *p = s; while (*p) { if (smb_isascii(*p)) { *p = smb_tolower(*p); p++; } else { if (smb_mbtowc(&c, p, MTS_MB_CHAR_MAX) < 0) return (0); if (c == 0) break; c = smb_tolower(c); p += smb_wctomb(p, c); } } return (s); } /* * Returns 1 if string contains NO uppercase chars 0 otherwise. However, * -1 is returned if "s" is not a valid multi-byte string. */ int smb_isstrlwr(const char *s) { smb_wchar_t c; int n; const char *p = s; while (*p) { if (smb_isascii(*p) && smb_isupper(*p)) return (0); else { if ((n = smb_mbtowc(&c, p, MTS_MB_CHAR_MAX)) < 0) return (-1); if (c == 0) break; if (smb_isupper(c)) return (0); p += n; } } return (1); } /* * Returns 1 if string contains NO lowercase chars 0 otherwise. However, * -1 is returned if "s" is not a valid multi-byte string. */ int smb_isstrupr(const char *s) { smb_wchar_t c; int n; const char *p = s; while (*p) { if (smb_isascii(*p) && smb_islower(*p)) return (0); else { if ((n = smb_mbtowc(&c, p, MTS_MB_CHAR_MAX)) < 0) return (-1); if (c == 0) break; if (smb_islower(c)) return (0); p += n; } } return (1); } /* * Compare the null-terminated strings s1 and s2 and return an integer * greater than, equal to or less than 0 dependent on whether s1 is * lexicographically greater than, equal to or less than s2 after * translation of each character to lowercase. The original strings * are not modified. * * If n is non-zero, at most n bytes are compared. Otherwise, the strings * are compared until a null terminator is encountered. * * Out: 0 if strings are equal * < 0 if first string < second string * > 0 if first string > second string */ int smb_strcasecmp(const char *s1, const char *s2, size_t n) { int err = 0; int rc; rc = u8_strcmp(s1, s2, n, U8_STRCMP_CI_LOWER, U8_UNICODE_LATEST, &err); if (err != 0) return (-1); return (rc); } /* * First build a codepage based on cp_unicode.h. Then build the unicode * codepage from this interim codepage by copying the entries over while * fixing them and filling in the gaps. */ static smb_codepage_t * smb_unicode_init(void) { smb_codepage_t *unicode; uint32_t a = 0; uint32_t b = 0; unicode = MEM_ZALLOC("unicode", sizeof (smb_codepage_t) << 16); if (unicode == NULL) return (NULL); while (b != 0xffff) { /* * If there is a gap in the standard, * fill in the gap with no-case entries. */ if (UNICODE_N_ENTRIES <= a || a_unicode[a].val > b) { unicode[b].ctype = CODEPAGE_ISNONE; unicode[b].upper = (smb_wchar_t)b; unicode[b].lower = (smb_wchar_t)b; b++; continue; } /* * Copy the entry and fixup as required. */ switch (a_unicode[a].ctype) { case CODEPAGE_ISNONE: /* * Replace 0xffff in upper/lower fields with its val. */ unicode[b].ctype = CODEPAGE_ISNONE; unicode[b].upper = (smb_wchar_t)b; unicode[b].lower = (smb_wchar_t)b; break; case CODEPAGE_ISUPPER: /* * Some characters may have case yet not have * case conversion. Treat them as no-case. */ if (a_unicode[a].lower == 0xffff) { unicode[b].ctype = CODEPAGE_ISNONE; unicode[b].upper = (smb_wchar_t)b; unicode[b].lower = (smb_wchar_t)b; } else { unicode[b].ctype = CODEPAGE_ISUPPER; unicode[b].upper = (smb_wchar_t)b; unicode[b].lower = a_unicode[a].lower; } break; case CODEPAGE_ISLOWER: /* * Some characters may have case yet not have * case conversion. Treat them as no-case. */ if (a_unicode[a].upper == 0xffff) { unicode[b].ctype = CODEPAGE_ISNONE; unicode[b].upper = (smb_wchar_t)b; unicode[b].lower = (smb_wchar_t)b; } else { unicode[b].ctype = CODEPAGE_ISLOWER; unicode[b].upper = a_unicode[a].upper; unicode[b].lower = (smb_wchar_t)b; } break; default: MEM_FREE("unicode", unicode); return (NULL); } a++; b++; }; return (unicode); } /* * Parse a UNC path (\\server\share\path) into its components. * Although a standard UNC path starts with two '\', in DFS * all UNC paths start with one '\'. So, this function only * checks for one. * * A valid UNC must at least contain two components i.e. server * and share. The path is parsed to: * * unc_server server or domain name with no leading/trailing '\' * unc_share share name with no leading/trailing '\' * unc_path relative path to the share with no leading/trailing '\' * it is valid for unc_path to be NULL. * * Upon successful return of this function, smb_unc_free() * MUST be called when returned 'unc' is no longer needed. * * Returns 0 on success, otherwise returns an errno code. */ int smb_unc_init(const char *path, smb_unc_t *unc) { char *p; if (path == NULL || unc == NULL || (*path != '\\' && *path != '/')) return (EINVAL); bzero(unc, sizeof (smb_unc_t)); #ifdef _KERNEL unc->unc_buf = smb_mem_strdup(path); #else if ((unc->unc_buf = strdup(path)) == NULL) return (ENOMEM); #endif (void) strsubst(unc->unc_buf, '\\', '/'); (void) strcanon(unc->unc_buf, "/"); unc->unc_server = unc->unc_buf + 1; if (*unc->unc_server == '\0') { smb_unc_free(unc); return (EINVAL); } if ((p = strchr(unc->unc_server, '/')) == NULL) { smb_unc_free(unc); return (EINVAL); } *p++ = '\0'; unc->unc_share = p; if (*unc->unc_share == '\0') { smb_unc_free(unc); return (EINVAL); } unc->unc_path = strchr(unc->unc_share, '/'); if ((p = unc->unc_path) == NULL) return (0); unc->unc_path++; *p = '\0'; /* remove the last '/' if any */ if ((p = strchr(unc->unc_path, '\0')) != NULL) { if (*(--p) == '/') *p = '\0'; } return (0); } void smb_unc_free(smb_unc_t *unc) { if (unc == NULL) return; #ifdef _KERNEL smb_mem_free(unc->unc_buf); #else free(unc->unc_buf); #endif unc->unc_buf = NULL; }