/* * Copyright (c) 1997 - 2004 Kungliga Tekniska Högskolan * (Royal Institute of Technology, Stockholm, Sweden). * All rights reserved. * * Portions Copyright (c) 2009 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. 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. * * 3. Neither the name of the Institute 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 INSTITUTE 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 INSTITUTE 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. */ #include "baselocl.h" #include #include #include #if defined(HAVE_FRAMEWORK_COREFOUNDATION) #include #endif /* Gaah! I want a portable funopen */ struct fileptr { heim_context context; const char *s; FILE *f; }; static char * config_fgets(char *str, size_t len, struct fileptr *ptr) { /* XXX this is not correct, in that they don't do the same if the line is longer than len */ if(ptr->f != NULL) return fgets(str, len, ptr->f); else { /* this is almost strsep_copy */ const char *p; ssize_t l; if(*ptr->s == '\0') return NULL; p = ptr->s + strcspn(ptr->s, "\n"); if(*p == '\n') p++; l = min(len, (size_t)(p - ptr->s)); if(len > 0) { memcpy(str, ptr->s, l); str[l] = '\0'; } ptr->s = p; return str; } } static heim_error_code parse_section(char *p, heim_config_section **s, heim_config_section **res, const char **err_message); static heim_error_code parse_binding(struct fileptr *f, unsigned *lineno, char *p, heim_config_binding **b, heim_config_binding **parent, const char **err_message); static heim_error_code parse_list(struct fileptr *f, unsigned *lineno, heim_config_binding **parent, const char **err_message); heim_config_section * heim_config_get_entry(heim_config_section **parent, const char *name, int type) { heim_config_section **q; for (q = parent; *q != NULL; q = &(*q)->next) if (type == heim_config_list && (unsigned)type == (*q)->type && strcmp(name, (*q)->name) == 0) return *q; *q = calloc(1, sizeof(**q)); if (*q == NULL) return NULL; (*q)->name = strdup(name); (*q)->type = type; if ((*q)->name == NULL) { free(*q); *q = NULL; return NULL; } return *q; } /* * Parse a section: * * [section] * foo = bar * b = { * a * } * ... * * starting at the line in `p', storing the resulting structure in * `s' and hooking it into `parent'. * Store the error message in `err_message'. */ static heim_error_code parse_section(char *p, heim_config_section **s, heim_config_section **parent, const char **err_message) { char *p1; heim_config_section *tmp; p1 = strchr (p + 1, ']'); if (p1 == NULL) { *err_message = "missing ]"; return HEIM_ERR_CONFIG_BADFORMAT; } *p1 = '\0'; tmp = heim_config_get_entry(parent, p + 1, heim_config_list); if(tmp == NULL) { *err_message = "out of memory"; return HEIM_ERR_CONFIG_BADFORMAT; } *s = tmp; return 0; } /* * Parse a brace-enclosed list from `f', hooking in the structure at * `parent'. * Store the error message in `err_message'. */ static heim_error_code parse_list(struct fileptr *f, unsigned *lineno, heim_config_binding **parent, const char **err_message) { char buf[2048]; heim_error_code ret; heim_config_binding *b = NULL; unsigned beg_lineno = *lineno; while(config_fgets(buf, sizeof(buf), f) != NULL) { char *p; ++*lineno; buf[strcspn(buf, "\r\n")] = '\0'; p = buf; while(isspace((unsigned char)*p)) ++p; if (*p == '#' || *p == ';' || *p == '\0') continue; while(isspace((unsigned char)*p)) ++p; if (*p == '}') return 0; if (*p == '\0') continue; ret = parse_binding (f, lineno, p, &b, parent, err_message); if (ret) return ret; } *lineno = beg_lineno; *err_message = "unclosed {"; return HEIM_ERR_CONFIG_BADFORMAT; } /* * */ static heim_error_code parse_binding(struct fileptr *f, unsigned *lineno, char *p, heim_config_binding **b, heim_config_binding **parent, const char **err_message) { heim_config_binding *tmp; char *p1, *p2; heim_error_code ret = 0; p1 = p; while (*p && *p != '=' && !isspace((unsigned char)*p)) ++p; if (*p == '\0') { *err_message = "missing ="; return HEIM_ERR_CONFIG_BADFORMAT; } p2 = p; while (isspace((unsigned char)*p)) ++p; if (*p != '=') { *err_message = "missing ="; return HEIM_ERR_CONFIG_BADFORMAT; } ++p; while(isspace((unsigned char)*p)) ++p; *p2 = '\0'; if (*p == '{') { tmp = heim_config_get_entry(parent, p1, heim_config_list); if (tmp == NULL) { *err_message = "out of memory"; return HEIM_ERR_CONFIG_BADFORMAT; } ret = parse_list (f, lineno, &tmp->u.list, err_message); } else { tmp = heim_config_get_entry(parent, p1, heim_config_string); if (tmp == NULL) { *err_message = "out of memory"; return HEIM_ERR_CONFIG_BADFORMAT; } p1 = p; p = p1 + strlen(p1); while(p > p1 && isspace((unsigned char)*(p-1))) --p; *p = '\0'; tmp->u.string = strdup(p1); } *b = tmp; return ret; } #if defined(HAVE_FRAMEWORK_COREFOUNDATION) #if MAC_OS_X_VERSION_MIN_REQUIRED >= 1060 #define HAVE_CFPROPERTYLISTCREATEWITHSTREAM 1 #endif static char * cfstring2cstring(CFStringRef string) { CFIndex len; char *str; str = (char *) CFStringGetCStringPtr(string, kCFStringEncodingUTF8); if (str) return strdup(str); len = CFStringGetLength(string); len = 1 + CFStringGetMaximumSizeForEncoding(len, kCFStringEncodingUTF8); str = malloc(len); if (str == NULL) return NULL; if (!CFStringGetCString (string, str, len, kCFStringEncodingUTF8)) { free (str); return NULL; } return str; } static void convert_content(const void *key, const void *value, void *context) { heim_config_section *tmp, **parent = context; char *k; if (CFGetTypeID(key) != CFStringGetTypeID()) return; k = cfstring2cstring(key); if (k == NULL) return; if (CFGetTypeID(value) == CFStringGetTypeID()) { tmp = heim_config_get_entry(parent, k, heim_config_string); tmp->u.string = cfstring2cstring(value); } else if (CFGetTypeID(value) == CFDictionaryGetTypeID()) { tmp = heim_config_get_entry(parent, k, heim_config_list); CFDictionaryApplyFunction(value, convert_content, &tmp->u.list); } else { /* log */ } free(k); } static heim_error_code parse_plist_config(heim_context context, const char *path, heim_config_section **parent) { CFReadStreamRef s; CFDictionaryRef d; CFURLRef url; url = CFURLCreateFromFileSystemRepresentation(kCFAllocatorDefault, (UInt8 *)path, strlen(path), 0); if (url == NULL) { heim_clear_error_message(context); return ENOMEM; } s = CFReadStreamCreateWithFile(kCFAllocatorDefault, url); CFRelease(url); if (s == NULL) { heim_clear_error_message(context); return ENOMEM; } if (!CFReadStreamOpen(s)) { CFRelease(s); heim_clear_error_message(context); return ENOENT; } #ifdef HAVE_CFPROPERTYLISTCREATEWITHSTREAM d = (CFDictionaryRef)CFPropertyListCreateWithStream(NULL, s, 0, kCFPropertyListImmutable, NULL, NULL); #else d = (CFDictionaryRef)CFPropertyListCreateFromStream(NULL, s, 0, kCFPropertyListImmutable, NULL, NULL); #endif CFRelease(s); if (d == NULL) { heim_clear_error_message(context); return ENOENT; } CFDictionaryApplyFunction(d, convert_content, parent); CFRelease(d); return 0; } #endif static int is_absolute_path(const char *path) { /* * An absolute path is one that refers to an explicit object * without ambiguity. */ #ifdef WIN32 size_t len = strlen(path); /* UNC path is by definition absolute */ if (len > 2 && ISPATHSEP(path[0]) && ISPATHSEP(path[1])) return 1; /* A drive letter path might be absolute */ if (len > 3 && isalpha(path[0]) && path[1] == ':' && ISPATHSEP(path[2])) return 1; /* * if no drive letter but first char is a path * separator then the drive letter must be obtained * from the including file. */ #else /* UNIX is easy, first char '/' is absolute */ if (ISPATHSEP(path[0])) return 1; #endif return 0; } /* * Parse the config file `fname', generating the structures into `res' * returning error messages in `err_message' */ static heim_error_code heim_config_parse_debug(struct fileptr *f, heim_config_section **res, unsigned *lineno, const char **err_message) { heim_config_section *s = NULL; heim_config_binding *b = NULL; char buf[2048]; heim_error_code ret; *lineno = 0; *err_message = ""; while (config_fgets(buf, sizeof(buf), f) != NULL) { char *p; ++*lineno; buf[strcspn(buf, "\r\n")] = '\0'; p = buf; while(isspace((unsigned char)*p)) ++p; if (*p == '#' || *p == ';') continue; if (*p == '[') { ret = parse_section(p, &s, res, err_message); if (ret) return ret; b = NULL; } else if (*p == '}') { *err_message = "unmatched }"; return 2048; } else if (strncmp(p, "include", sizeof("include") - 1) == 0 && isspace(p[sizeof("include") - 1])) { p += sizeof("include"); while (isspace(*p)) p++; if (!is_absolute_path(p)) { heim_set_error_message(f->context, HEIM_ERR_CONFIG_BADFORMAT, "Configuration include path must be " "absolute"); return HEIM_ERR_CONFIG_BADFORMAT; } ret = heim_config_parse_file_multi(f->context, p, res); if (ret) return ret; } else if (strncmp(p, "includedir", sizeof("includedir") - 1) == 0 && isspace(p[sizeof("includedir") - 1])) { p += sizeof("includedir"); while (isspace(*p)) p++; if (!is_absolute_path(p)) { heim_set_error_message(f->context, HEIM_ERR_CONFIG_BADFORMAT, "Configuration includedir path must be " "absolute"); return HEIM_ERR_CONFIG_BADFORMAT; } ret = heim_config_parse_dir_multi(f->context, p, res); if (ret) return ret; } else if(*p != '\0') { if (s == NULL) { *err_message = "binding before section"; return 2048; } ret = parse_binding(f, lineno, p, &b, &s->u.list, err_message); if (ret) return ret; } } return 0; } static int is_plist_file(const char *fname) { size_t len = strlen(fname); char suffix[] = ".plist"; if (len < sizeof(suffix)) return 0; if (strcasecmp(&fname[len - (sizeof(suffix) - 1)], suffix) != 0) return 0; return 1; } /** * Parse configuration files in the given directory and add the result * into res. Only files whose names consist only of alphanumeric * characters, hyphen, and underscore, will be parsed, though files * ending in ".conf" will also be parsed. * * This interface can be used to parse several configuration directories * into one resulting heim_config_section by calling it repeatably. * * @param context a Kerberos 5 context. * @param dname a directory name to a Kerberos configuration file * @param res the returned result, must be free with heim_free_config_files(). * @return Return an error code or 0, see heim_get_error_message(). * * @ingroup heim_support */ heim_error_code heim_config_parse_dir_multi(heim_context context, const char *dname, heim_config_section **res) { struct dirent *entry; heim_error_code ret; DIR *d; if ((d = opendir(dname)) == NULL) return errno; while ((entry = readdir(d)) != NULL) { char *p = entry->d_name; char *path; int is_valid = 1; while (*p) { /* * Here be dragons. The call to heim_config_parse_file_multi() * below expands path tokens. Because of the limitations here * on file naming, we can't have path tokens in the file name, * so we're safe. Anyone changing this if condition here should * be aware. */ if (!isalnum(*p) && *p != '_' && *p != '-' && strcmp(p, ".conf") != 0) { is_valid = 0; break; } p++; } if (!is_valid) continue; if (asprintf(&path, "%s/%s", dname, entry->d_name) == -1 || path == NULL) { (void) closedir(d); return heim_enomem(context); } ret = heim_config_parse_file_multi(context, path, res); free(path); if (ret == ENOMEM) { (void) closedir(d); return ENOMEM; } /* Ignore malformed config files so we don't lock out admins, etc... */ } (void) closedir(d); return 0; } /** * Parse a configuration file and add the result into res. This * interface can be used to parse several configuration files into one * resulting heim_config_section by calling it repeatably. * * @param context a Kerberos 5 context. * @param fname a file name to a Kerberos configuration file * @param res the returned result, must be free with heim_free_config_files(). * @return Return an error code or 0, see heim_get_error_message(). * * @ingroup heim_support */ HEIMDAL_THREAD_LOCAL int config_include_depth = 0; heim_error_code heim_config_parse_file_multi(heim_context context, const char *fname, heim_config_section **res) { const char *str; char *newfname = NULL; unsigned lineno = 0; heim_error_code ret = 0; struct fileptr f; struct stat st; if (config_include_depth > 5) { heim_warnx(context, "Maximum config file include depth reached; " "not including %s", fname); return 0; } config_include_depth++; /** * If the fname starts with "~/" parse configuration file in the * current users home directory. The behavior can be disabled and * enabled by calling heim_set_home_dir_access(). */ if (ISTILDE(fname[0]) && ISPATHSEP(fname[1])) { if (!heim_context_get_homedir_access(context)) { heim_set_error_message(context, EPERM, "Access to home directory not allowed"); ret = EPERM; goto out; } if (asprintf(&newfname, "%%{USERCONFIG}%s", &fname[1]) < 0 || newfname == NULL) { ret = heim_enomem(context); goto out; } fname = newfname; } if (is_plist_file(fname)) { #if defined(HAVE_FRAMEWORK_COREFOUNDATION) ret = parse_plist_config(context, fname, res); if (ret) { heim_set_error_message(context, ret, "Failed to parse plist %s", fname); goto out; } #else heim_set_error_message(context, ENOENT, "no support for plist configuration files"); ret = ENOENT; goto out; #endif } else { char *exp_fname = NULL; /* * Note that heim_config_parse_dir_multi() doesn't want tokens * expanded here, but it happens to limit the names of files to * include such that there can be no tokens to expand. Don't * add token expansion for tokens using _, say. */ ret = heim_expand_path_tokens(context, fname, 1, &exp_fname, NULL); if (ret) goto out; free(newfname); fname = newfname = exp_fname; f.context = context; f.f = fopen(fname, "r"); f.s = NULL; if (f.f == NULL || fstat(fileno(f.f), &st) == -1) { if (f.f != NULL) (void) fclose(f.f); ret = errno; heim_set_error_message(context, ret, "open or stat %s: %s", fname, strerror(ret)); goto out; } if (!S_ISREG(st.st_mode)) { (void) fclose(f.f); heim_set_error_message(context, EISDIR, "not a regular file %s: %s", fname, strerror(EISDIR)); ret = EISDIR; goto out; } ret = heim_config_parse_debug(&f, res, &lineno, &str); fclose(f.f); if (ret) { if (ret != HEIM_ERR_CONFIG_BADFORMAT) ret = HEIM_ERR_CONFIG_BADFORMAT; heim_set_error_message(context, ret, "%s:%u: %s", fname, lineno, str); goto out; } } out: config_include_depth--; if (ret == HEIM_ERR_CONFIG_BADFORMAT || (ret && config_include_depth > 0)) { heim_warn(context, ret, "Ignoring"); if (config_include_depth > 0) ret = 0; } free(newfname); return ret; } heim_error_code heim_config_parse_file(heim_context context, const char *fname, heim_config_section **res) { *res = NULL; return heim_config_parse_file_multi(context, fname, res); } static void free_binding(heim_context context, heim_config_binding *b) { heim_config_binding *next_b; while (b) { free (b->name); assert(b->type == heim_config_string || b->type == heim_config_list); if (b->type == heim_config_string) free (b->u.string); else free_binding (context, b->u.list); next_b = b->next; free (b); b = next_b; } } /** * Free configuration file section, the result of * heim_config_parse_file() and heim_config_parse_file_multi(). * * @param context A Kerberos 5 context * @param s the configuration section to free * * @return returns 0 on successes, otherwise an error code, see * heim_get_error_message() * * @ingroup heim_support */ heim_error_code heim_config_file_free(heim_context context, heim_config_section *s) { free_binding (context, s); return 0; } #ifndef HEIMDAL_SMALLER heim_error_code heim_config_copy(heim_context context, heim_config_section *c, heim_config_section **head) { heim_config_binding *d, *previous = NULL; *head = NULL; while (c) { d = calloc(1, sizeof(*d)); if (*head == NULL) *head = d; d->name = strdup(c->name); d->type = c->type; assert(d->type == heim_config_string || d->type == heim_config_list); if (d->type == heim_config_string) d->u.string = strdup(c->u.string); else heim_config_copy (context, c->u.list, &d->u.list); if (previous) previous->next = d; previous = d; c = c->next; } return 0; } #endif /* HEIMDAL_SMALLER */ const void * heim_config_get_next(heim_context context, const heim_config_section *c, const heim_config_binding **pointer, int type, ...) { const char *ret; va_list args; va_start(args, type); ret = heim_config_vget_next(context, c, pointer, type, args); va_end(args); return ret; } static const void * vget_next(heim_context context, const heim_config_binding *b, const heim_config_binding **pointer, int type, const char *name, va_list args) { const char *p = va_arg(args, const char *); while (b != NULL) { if (strcmp(b->name, name) == 0) { if (b->type == (unsigned)type && p == NULL) { *pointer = b; return b->u.generic; } else if (b->type == heim_config_list && p != NULL) { return vget_next(context, b->u.list, pointer, type, p, args); } } b = b->next; } return NULL; } const void * heim_config_vget_next(heim_context context, const heim_config_section *c, const heim_config_binding **pointer, int type, va_list args) { const heim_config_binding *b; const char *p; if (c == NULL) return NULL; if (*pointer == NULL) { /* first time here, walk down the tree looking for the right section */ p = va_arg(args, const char *); if (p == NULL) return NULL; return vget_next(context, c, pointer, type, p, args); } /* we were called again, so just look for more entries with the same name and type */ for (b = (*pointer)->next; b != NULL; b = b->next) { if(strcmp(b->name, (*pointer)->name) == 0 && b->type == (unsigned)type) { *pointer = b; return b->u.generic; } } return NULL; } const void * heim_config_get(heim_context context, const heim_config_section *c, int type, ...) { const void *ret; va_list args; va_start(args, type); ret = heim_config_vget(context, c, type, args); va_end(args); return ret; } const void * heim_config_vget(heim_context context, const heim_config_section *c, int type, va_list args) { const heim_config_binding *foo = NULL; return heim_config_vget_next(context, c, &foo, type, args); } /** * Get a list of configuration binding list for more processing * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param ... a list of names, terminated with NULL. * * @return NULL if configuration list is not found, a list otherwise * * @ingroup heim_support */ const heim_config_binding * heim_config_get_list(heim_context context, const heim_config_section *c, ...) { const heim_config_binding *ret; va_list args; va_start(args, c); ret = heim_config_vget_list(context, c, args); va_end(args); return ret; } /** * Get a list of configuration binding list for more processing * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param args a va_list of arguments * * @return NULL if configuration list is not found, a list otherwise * * @ingroup heim_support */ const heim_config_binding * heim_config_vget_list(heim_context context, const heim_config_section *c, va_list args) { return heim_config_vget(context, c, heim_config_list, args); } /** * Returns a "const char *" to a string in the configuration database. * The string may not be valid after a reload of the configuration * database so a caller should make a local copy if it needs to keep * the string. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param ... a list of names, terminated with NULL. * * @return NULL if configuration string not found, a string otherwise * * @ingroup heim_support */ const char * heim_config_get_string(heim_context context, const heim_config_section *c, ...) { const char *ret; va_list args; va_start(args, c); ret = heim_config_vget_string(context, c, args); va_end(args); return ret; } /** * Like heim_config_get_string(), but uses a va_list instead of ... * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param args a va_list of arguments * * @return NULL if configuration string not found, a string otherwise * * @ingroup heim_support */ const char * heim_config_vget_string(heim_context context, const heim_config_section *c, va_list args) { return heim_config_vget(context, c, heim_config_string, args); } /** * Like heim_config_vget_string(), but instead of returning NULL, * instead return a default value. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param args a va_list of arguments * * @return a configuration string * * @ingroup heim_support */ const char * heim_config_vget_string_default(heim_context context, const heim_config_section *c, const char *def_value, va_list args) { const char *ret; ret = heim_config_vget_string(context, c, args); if (ret == NULL) ret = def_value; return ret; } /** * Like heim_config_get_string(), but instead of returning NULL, * instead return a default value. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param ... a list of names, terminated with NULL. * * @return a configuration string * * @ingroup heim_support */ const char * heim_config_get_string_default(heim_context context, const heim_config_section *c, const char *def_value, ...) { const char *ret; va_list args; va_start(args, def_value); ret = heim_config_vget_string_default (context, c, def_value, args); va_end(args); return ret; } static char * next_component_string(char * begin, const char * delims, char **state) { char * end; if (begin == NULL) begin = *state; if (*begin == '\0') return NULL; end = begin; while (*end == '"') { char * t = strchr(end + 1, '"'); if (t) end = ++t; else end += strlen(end); } if (*end != '\0') { size_t pos; pos = strcspn(end, delims); end = end + pos; } if (*end != '\0') { *end = '\0'; *state = end + 1; if (*begin == '"' && *(end - 1) == '"' && begin + 1 < end) { begin++; *(end - 1) = '\0'; } return begin; } *state = end; if (*begin == '"' && *(end - 1) == '"' && begin + 1 < end) { begin++; *(end - 1) = '\0'; } return begin; } /** * Get a list of configuration strings, free the result with * heim_config_free_strings(). * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param args a va_list of arguments * * @return TRUE or FALSE * * @ingroup heim_support */ char ** heim_config_vget_strings(heim_context context, const heim_config_section *c, va_list args) { char **strings = NULL; size_t nstr = 0; const heim_config_binding *b = NULL; const char *p; while((p = heim_config_vget_next(context, c, &b, heim_config_string, args))) { char *tmp = strdup(p); char *pos = NULL; char *s; if(tmp == NULL) goto cleanup; s = next_component_string(tmp, " \t", &pos); while(s){ char **tmp2 = realloc(strings, (nstr + 1) * sizeof(*strings)); if(tmp2 == NULL) { free(tmp); goto cleanup; } strings = tmp2; strings[nstr] = strdup(s); nstr++; if(strings[nstr-1] == NULL) { free(tmp); goto cleanup; } s = next_component_string(NULL, " \t", &pos); } free(tmp); } if(nstr){ char **tmp = realloc(strings, (nstr + 1) * sizeof(*strings)); if(tmp == NULL) goto cleanup; strings = tmp; strings[nstr] = NULL; } return strings; cleanup: while(nstr--) free(strings[nstr]); free(strings); return NULL; } /** * Get a list of configuration strings, free the result with * heim_config_free_strings(). * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param ... a list of names, terminated with NULL. * * @return TRUE or FALSE * * @ingroup heim_support */ char ** heim_config_get_strings(heim_context context, const heim_config_section *c, ...) { va_list ap; char **ret; va_start(ap, c); ret = heim_config_vget_strings(context, c, ap); va_end(ap); return ret; } /** * Free the resulting strings from heim_config-get_strings() and * heim_config_vget_strings(). * * @param strings strings to free * * @ingroup heim_support */ void heim_config_free_strings(char **strings) { char **s = strings; while (s && *s) { free(*s); s++; } free(strings); } /** * Like heim_config_get_bool_default() but with a va_list list of * configuration selection. * * Configuration value to a boolean value, where yes/true and any * non-zero number means TRUE and other value is FALSE. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param args a va_list of arguments * * @return TRUE or FALSE * * @ingroup heim_support */ int heim_config_vget_bool_default(heim_context context, const heim_config_section *c, int def_value, va_list args) { const char *str; str = heim_config_vget_string(context, c, args); if (str == NULL) return def_value; return !!(strcasecmp(str, "yes") == 0 || strcasecmp(str, "true") == 0 || atoi(str)); } /** * heim_config_get_bool() will convert the configuration * option value to a boolean value, where yes/true and any non-zero * number means TRUE and other value is FALSE. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param args a va_list of arguments * * @return TRUE or FALSE * * @ingroup heim_support */ int heim_config_vget_bool(heim_context context, const heim_config_section *c, va_list args) { return heim_config_vget_bool_default(context, c, 0, args); } /** * heim_config_get_bool_default() will convert the configuration * option value to a boolean value, where yes/true and any non-zero * number means TRUE and other value is FALSE. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param ... a list of names, terminated with NULL. * * @return TRUE or FALSE * * @ingroup heim_support */ int heim_config_get_bool_default(heim_context context, const heim_config_section *c, int def_value, ...) { va_list ap; int ret; va_start(ap, def_value); ret = heim_config_vget_bool_default(context, c, def_value, ap); va_end(ap); return ret; } /** * Like heim_config_get_bool() but with a va_list list of * configuration selection. * * Configuration value to a boolean value, where yes/true and any * non-zero number means TRUE and other value is FALSE. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param ... a list of names, terminated with NULL. * * @return TRUE or FALSE * * @ingroup heim_support */ int heim_config_get_bool(heim_context context, const heim_config_section *c, ...) { va_list ap; int ret; va_start(ap, c); ret = heim_config_vget_bool (context, c, ap); va_end(ap); return ret; } /** * Get the time from the configuration file using a relative time. * * Like heim_config_get_time_default() but with a va_list list of * configuration selection. * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param args a va_list of arguments * * @return parsed the time (or def_value on parse error) * * @ingroup heim_support */ time_t heim_config_vget_time_default(heim_context context, const heim_config_section *c, int def_value, va_list args) { const char *str; time_t t = -1; if ((str = heim_config_vget_string(context, c, args))) t = parse_time(str, "s"); return t != -1 ? t : def_value; } /** * Get the time from the configuration file using a relative time, for example: 1h30s * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param args a va_list of arguments * * @return parsed the time or -1 on error * * @ingroup heim_support */ time_t heim_config_vget_time(heim_context context, const heim_config_section *c, va_list args) { return heim_config_vget_time_default(context, c, -1, args); } /** * Get the time from the configuration file using a relative time, for example: 1h30s * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param def_value the default value to return if no configuration * found in the database. * @param ... a list of names, terminated with NULL. * * @return parsed the time (or def_value on parse error) * * @ingroup heim_support */ time_t heim_config_get_time_default(heim_context context, const heim_config_section *c, int def_value, ...) { va_list ap; time_t ret; va_start(ap, def_value); ret = heim_config_vget_time_default(context, c, def_value, ap); va_end(ap); return ret; } /** * Get the time from the configuration file using a relative time, for example: 1h30s * * @param context A Kerberos 5 context. * @param c a configuration section, or NULL to use the section from context * @param ... a list of names, terminated with NULL. * * @return parsed the time or -1 on error * * @ingroup heim_support */ time_t heim_config_get_time(heim_context context, const heim_config_section *c, ...) { va_list ap; int ret; va_start(ap, c); ret = heim_config_vget_time(context, c, ap); va_end(ap); return ret; } int heim_config_vget_int_default(heim_context context, const heim_config_section *c, int def_value, va_list args) { const char *str; str = heim_config_vget_string (context, c, args); if(str == NULL) return def_value; else { char *endptr; long l; l = strtol(str, &endptr, 0); if (endptr == str) return def_value; else return l; } } int heim_config_vget_int(heim_context context, const heim_config_section *c, va_list args) { return heim_config_vget_int_default(context, c, -1, args); } int heim_config_get_int_default(heim_context context, const heim_config_section *c, int def_value, ...) { va_list ap; int ret; va_start(ap, def_value); ret = heim_config_vget_int_default(context, c, def_value, ap); va_end(ap); return ret; } int heim_config_get_int(heim_context context, const heim_config_section *c, ...) { va_list ap; int ret; va_start(ap, c); ret = heim_config_vget_int (context, c, ap); va_end(ap); return ret; } #ifndef HEIMDAL_SMALLER heim_error_code heim_config_parse_string_multi(heim_context context, const char *string, heim_config_section **res) { const char *str; unsigned lineno = 0; heim_error_code ret; struct fileptr f; f.context = context; f.f = NULL; f.s = string; ret = heim_config_parse_debug(&f, res, &lineno, &str); if (ret) { if (ret != HEIM_ERR_CONFIG_BADFORMAT) { ret = HEIM_ERR_CONFIG_BADFORMAT; heim_set_error_message(context, ret, "%s:%u: %s", "", lineno, str); } return ret; } return 0; } #endif