Wed, 15 Mar 2023 19:46:02 +0100
minimal support for ldap groups
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2008 Sun Microsystems, Inc. All rights reserved. * * THE BSD LICENSE * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * Neither the name of the nor the names of its contributors may be * used to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER * OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifdef XP_WIN32 #define _MBCS #include <windows.h> #include <mbctype.h> #endif #include "util.h" #include "pool.h" //include "frame/conf_api.h" //include "support/stringvalue.h" #ifdef XP_WIN32 static PRBool _getfullpathname = -1; #endif /* XP_WIN32 */ /* --------------------------- util_uri_is_evil --------------------------- */ static inline int allow_dbcs_uri() { /* static int flagDbcsUri = -1; if (flagDbcsUri == -1) { flagDbcsUri = StringValue::getBoolean(conf_findGlobal("DbcsUri")); } return flagDbcsUri; */ return PR_TRUE; } #ifdef XP_WIN32 void set_fullpathname(PRBool b) { _getfullpathname = b; } #endif /*XP_WIN32*/ NSAPI_PUBLIC int util_uri_is_evil_internal(const char *t, int allow_tilde, int allow_dot_dir) { #ifdef XP_WIN32 int flagDbcsUri = allow_dbcs_uri(); #endif // XP_WIN32 PRBool flagEmptySegment = PR_FALSE; int x; for (x = 0; t[x]; ++x) { if (t[x] == '/') { if (flagEmptySegment) return 1; // "/;a/b" #ifdef XP_WIN32 if (t[x+1] == '/' && x != 0) #else if (t[x+1] == '/') #endif return 1; if (t[x+1] == ';') flagEmptySegment = PR_TRUE; // "/;a/b" is evil, "/a/;b" is not if (t[x+1] == '.') { /* "." at end of line is always prohibited */ if (t[x+2] == '\0') return 1; /* "." as a path segment is prohibited conditionally */ if (!allow_dot_dir && (t[x+2] == '/' || t[x+2] == ';')) return 1; /* ".." as a path segment is always prohibited */ if (t[x+2] == '.' && (t[x+3] == '/' || t[x+3] == ';' || t[x+3] == '\0')) return 1; } } #ifdef XP_WIN32 // Don't allow '~' in the filename. On some filesystems a long name // (e.g. longfilename.htm) can be accessed using '~' bypassing any ACL // checks (e.g. longfi~1.htm). if (!allow_tilde && (t[x] == '~')) { return 1; } // Do not allow ':' apart from drive letter. Windows filestream // will treat filename::$DATA as a plain file & display content. // So block it to prevent source viewing vulnerability. if ((t[x] == ':') && x > 1) { return 1; } // On NT, the directory "abc...." is the same as "abc" // The only cheap way to catch this globally is to disallow // names with the trailing "."s. Hopefully this is not over // restrictive. // Also trailing spaces in names can wreak havoc on ACL checks // and name resolution. Therefore, ban them on the end of a // name. if (((t[x] == '.') || (t[x] == ' ')) && ((t[x+1] == ';') || (t[x+1] == '/') || (t[x+1] == '\0'))) { return 1; } // Skip past the second byte of two byte DBCS characters. Bug 353999 if (flagDbcsUri && t[x+1] && IsDBCSLeadByte(t[x])) x++; #endif // XP_WIN32 } return 0; } NSAPI_PUBLIC int util_uri_is_evil(const char *t) { return util_uri_is_evil_internal(t, 0, 0); } /* -------------------- util_uri_unescape_and_normalize -------------------- */ #ifdef XP_WIN32 /* The server calls this function to unescape the URI and also normalize * the uri. Normalizing the uri converts all "\" characters in the URI * and pathinfo portion to "/". Does not touch "\" in query strings. */ NSAPI_PUBLIC int util_uri_unescape_and_normalize(pool_handle_t *pool, char *s, char *unnormalized) { if(!(util_uri_unescape_strict(s))) return 0; if (unnormalized) strcpy(unnormalized, s); if (_getfullpathname == -1) _getfullpathname = (_getmbcp() != 0); /* Get canonical filename Bugid: 4672869 */ if(_getfullpathname && strcmp(s, "*") && (*s == '/' ) ) { char *pzAbsPath = NULL; int pathlen = 0; int len = 0; int ret = 0; if(!(pzAbsPath = util_canonicalize_uri(pool, s, strlen(s), NULL))) { //Error canonicalizing; possibly pointing out of docroot return 0; } char *pzPath = (char *)MALLOC(MAX_PATH + 1); /* reserved byte for trailing slash */ char *pzFilename = NULL; /* If required length of the buffer(pzPath) is more than the allocated one i.e. MAX_PATH(neglecting the reserved byte for trailing slash), return BAD REQUEST. This will happen if length of uri is more than the specified uri length(257) for MBCS windows */ if(!(ret = GetFullPathName(pzAbsPath, MAX_PATH, pzPath, &pzFilename)) || ( ret > MAX_PATH)){ FREE(pzAbsPath); FREE(pzPath); return 0; } len = strlen(pzAbsPath); pathlen = strlen( pzPath ); /* GetFullPathName behaves differently in case of WINNT and WIN2K */ /* o/p string doesn't contain the trailing slash in case of WINNT */ /* if i/p is /foo/, we get o/p as c:\foo instead of c:\foo\ */ /* Checking if i/p has trailing slash and o/p doesn't have, then */ /* adding slash */ if ( pzAbsPath[len-1] == '/' && pzPath[pathlen-1] != '\\') strcat( pzPath, "\\"); FREE(pzAbsPath); pzFilename = strchr(pzPath, '\\'); if(!pzFilename) { FREE(pzPath); return 0; } strcpy(s, pzFilename); FREE(pzPath); } util_uri_normalize_slashes(s); return 1; } #endif /* XP_WIN32 */ /* ---------------------- util_uri_normalize_slashes ---------------------- */ void util_uri_normalize_slashes(char *s) { #ifdef XP_WIN32 int flagDbcsUri = allow_dbcs_uri(); while (*s) { if (*s == '\\') { // Normalize '\\' to '/' *s = '/'; } else if (flagDbcsUri && s[1] && IsDBCSLeadByte(s[0])) { // Skip past two byte DBCS characters. Bug 353999 s++; } s++; } #endif } /* --------------------------- util_uri_escape ---------------------------- */ NSAPI_PUBLIC char *util_uri_escape(char *od, const char *s) { int flagDbcsUri = allow_dbcs_uri(); char *d; if (!od) od = (char *) MALLOC((strlen(s)*3) + 1); d = od; while (*s) { if (strchr("% ?#:+&*\"'<>\r\n", *s)) { util_sprintf(d, "%%%02x", (unsigned char)*s); ++s; d += 3; } #ifdef XP_WIN32 else if (flagDbcsUri && s[1] && IsDBCSLeadByte(s[0])) #else // Treat any character with the high bit set as a DBCS lead byte else if (flagDbcsUri && s[1] && (s[0] & 0x80)) #endif { // Escape the second byte of DBCS characters. The first byte will // have been escaped already. IE translates all unescaped '\\'s // into '/'. // Bug 353999 util_sprintf(d, "%%%02x%%%02x", (unsigned char)s[0], (unsigned char)s[1]); s += 2; d += 6; } else if (0x80 & *s) { util_sprintf(d, "%%%02x", (unsigned char)*s); ++s; d += 3; } else { *d++ = *s++; } } *d = '\0'; return od; } /* --------------------------- util_url_escape ---------------------------- */ NSAPI_PUBLIC char *util_url_escape(char *od, const char *s) { int flagDbcsUri = allow_dbcs_uri(); char *d; if (!od) od = (char *) MALLOC((strlen(s)*3) + 1); d = od; while (*s) { if (strchr("% +*\"'<>\r\n", *s)) { util_sprintf(d, "%%%02x", (unsigned char)*s); ++s; d += 3; } #ifdef XP_WIN32 else if (flagDbcsUri && s[1] && IsDBCSLeadByte(s[0])) #else // Treat any character with the high bit set as a DBCS lead byte else if (flagDbcsUri && s[1] && (s[0] & 0x80)) #endif { // Escape the second byte of DBCS characters. The first byte will // have been escaped already. IE translates all unescaped '\\'s // into '/'. // Bug 353999 util_sprintf(d, "%%%02x%%%02x", (unsigned char)s[0], (unsigned char)s[1]); s += 2; d += 6; } else if (0x80 & *s) { util_sprintf(d, "%%%02x", (unsigned char)*s); ++s; d += 3; } else { *d++ = *s++; } } *d = '\0'; return od; } /* ------------------------- util_uri_strip_params ------------------------- */ NSAPI_PUBLIC char* util_uri_strip_params(char *uri) { // As per RFC2396, URI path segments can contain parameters beginning with // ';'. These parameters must be removed from the ppath. Bug 418271 char* out; if((out = strchr(uri, ';'))) { char* in = out; while (*in) { if (*in == ';') { // Skip past parameter do in++; while (*in && *in != '/'); } else { // Copy non-parameter path data *out++ = *in++; } } *out = 0; } return uri; } /* ------------------------ util_canonicalize_uri ------------------------- */ /* * rewrite rules: * // -> '/' * /./ -> '/' * /.\0 -> '/' * /foo/../ -> '/' * /foo/..\0 -> '/' * * Allocate a new string, as otherwise replacing in-line would impact the * RequestURI, i.e. original URI in the request. * Some guidelines in: http://www.ietf.org/rfc/rfc2396.txt * Uniform Resource Identifiers (URI): Generic Syntax */ NSAPI_PUBLIC char* util_canonicalize_uri(pool_handle_t *pool, const char *uri, int len, int *pcanonlen) { PRBool success = PR_TRUE; const char *in_ptr = uri; int in = 0; int in_len = len; //PR_ASSERT(uri != NULL); // TODO char* canonPath = (char *)pool_malloc(pool, in_len+1); char* out_ptr = canonPath; if (!canonPath) { success = PR_FALSE; goto done; } /* in goes from 0 .. sURIPath.len-1; out_ptr points to * space where next char from input would be copied to */ while (in < in_len) { /* If the character isn't '/' then copy it out and move on*/ if (in_ptr[0] != '/') { *out_ptr++ = *in_ptr++; in++; continue; } /* found '/' and reached end of sURIPath, done */ if (in+1 >= in_len) { *out_ptr++ = *in_ptr++; in++; break; } /* we have '/' and there are more chars in the string */ switch(in_ptr[1]) { case '/': /* '//' => '/' */ in_ptr++; in++; break; case '.': /* we have "/." so far */ if (in+2 >= in_len) { /* the string ends after this; basically ignore '.' * make sure the ending / is transferred to output. */ *out_ptr++ = *in_ptr++; goto done; } /* more chars after "/."; see if it is a '/' */ if (in_ptr[2] == '/') { /* in deed, compact "/./" => "/"; */ in_ptr += 2; in += 2; break; } if (in_ptr[2] != '.') { /* "/.x" where x is not '.'; copy as is */ *out_ptr++ = *in_ptr++; in++; break; } /* we have "/.." so far. see if we have either string * ending after this or '/' following. */ if (in+3 < in_len && in_ptr[3] != '/' && in_ptr[3] != ';') { /* we have "/..x" here; so copy as is */ *out_ptr++ = *in_ptr++; in++; } else { /* we have "foo/../" or "foo/.." at the end; */ if (out_ptr == canonPath) { /* oops, we found "/../" pointing out of docroot */ success = PR_FALSE; goto done; } /* remove the previous segment in the output */ for (out_ptr--; out_ptr != canonPath && out_ptr[0] != '/'; out_ptr--); /* Empty Loop */ /* point to '/' if the last segment ended with .. then * leave the '/' before the previous segment. */ if(in+3 == in_len) out_ptr++; /* skip the input as well */ in_ptr += 3; in += 3; } break; default: /* If we already have '/' at out_ptr we donot need to copy */ if (out_ptr == canonPath || *(out_ptr-1) != '/') *out_ptr++ = *in_ptr; in_ptr++; in++; break; } } done: if (success) { /* the path looks fine; return the canonicalized form */ unsigned canonLen = (unsigned) (out_ptr - canonPath); canonPath[canonLen] = '\0'; if (pcanonlen) *pcanonlen = (int) canonLen; } else { /* error canonicalizing */ pool_free(pool, canonPath); canonPath = NULL; if (pcanonlen) *pcanonlen = 0; } return canonPath; } /* ---------------------- util_canonicalize_redirect ---------------------- */ NSAPI_PUBLIC char* util_canonicalize_redirect(pool_handle_t *pool, const char *baseUri, const char *newUri) { //PR_ASSERT(baseUri != NULL); // TODO if (*newUri == '/') return util_canonicalize_uri(pool, newUri, strlen(newUri), NULL); int bLen = strlen(baseUri); if (bLen > 0 && baseUri[bLen - 1] != '/') { while (bLen > 0 && baseUri[bLen - 1] != '/') bLen--; } int pLen = strlen(newUri) + bLen + 1; // 1 for slash char *pUri = (char *)pool_malloc(pool, pLen + 1); if (!pUri) return PR_FALSE; memcpy(pUri, baseUri, bLen); pUri[bLen] = '/'; strcpy(pUri + bLen + 1, newUri); char *rval = util_canonicalize_uri(pool, pUri, pLen, NULL); pool_free(pool, pUri); return rval; } /* ------------------------ util_host_port_suffix ------------------------- */ NSAPI_PUBLIC const char *util_host_port_suffix(const char *h) { /* Return a pointer to the colon preceding the port number in a hostname. * * util_host_port_suffix("foo.com:80") = ":80" * util_host_port_suffix("foo.com") = NULL * util_host_port_suffix("[::]:80") = ":80" * util_host_port_suffix("[::]") = NULL */ if (h == NULL) return h; for (;;) { /* Find end of host, beginning of ":port", or an IPv6 address */ for (;;) { char c = *h; if (c == '\0') return NULL; /* end of host, no port found */ if (c == '/') return NULL; /* end of host, no port found */ if (c == ':') return h; /* found port */ if (c == '[') break; /* skip IPv6 address */ h++; } /* Skip IPv6 address */ while (*h != '\0' && *h != ']') h++; } }