/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * This file contains functions to initialize the gssapi library and * load mechanism libraries. * * It also contain functions requiring direct access to the mechanism's * list (gss_inidicate_mechs and gss_release_oid) as well as support * functions which translate the mechanism strings to oids and vise versa. * * The mechanism libraries are loaded on demand. This is triggered * through the get_mechanism function call. * * Updates to the mechList are performed with the following restrictions: * - once a library is loaded, none of the fields are updated * - existing entiries for non-loaded mechs, will have the * library and kernel module names updated only * (i.e. the mech oid and mech name will not be updated) */ #include #include #include #include #include #include #include #include #include #include #include #ifndef TEXT_DOMAIN #error TEXT_DOMAIN not defined #endif #define MECH_CONF "/etc/gss/mech" #define MECH_LIB_PREFIX1 "/usr/lib/" /* * This #ifdef mess figures out if we are to be compiled into * a sparcv9/lp64 binary for the purposes of figuring the absolute location * of gss-api mechanism modules. */ #ifdef _LP64 #ifdef __sparc #define MECH_LIB_PREFIX2 "sparcv9/" #elif defined(__amd64) #define MECH_LIB_PREFIX2 "amd64/" #else /* __sparc */ you need to define where under /usr the LP64 libraries live for this platform #endif /* __sparc */ #else /* _LP64 */ #define MECH_LIB_PREFIX2 "" #endif /* _LP64 */ #define MECH_LIB_DIR "gss/" #define MECH_LIB_PREFIX MECH_LIB_PREFIX1 MECH_LIB_PREFIX2 MECH_LIB_DIR #ifndef MECH_SYM #define MECH_SYM "gss_mech_initialize" #endif #define M_DEFAULT "default" /* Local functions */ static gss_mech_info searchMechList(const gss_OID); static void loadConfigFile(const char *); static void updateMechList(void); /* * list of mechanism libraries and their entry points. * the list also maintains state of the mech libraries (loaded or not). */ static gss_mech_info g_mechList = NULL; static gss_mech_info g_mechListTail = NULL; static mutex_t g_mechListLock; static time_t g_confFileModTime = (time_t)0; /* * function used to reclaim the memory used by a gss_OID structure. * This routine requires direct access to the mechList. */ OM_uint32 gss_release_oid(minor_status, oid) OM_uint32 *minor_status; gss_OID *oid; { OM_uint32 major; gss_mech_info aMech = g_mechList; if (minor_status == NULL) return (GSS_S_CALL_INACCESSIBLE_WRITE); *minor_status = 0; while (aMech != NULL) { /* * look through the loaded mechanism libraries for * gss_internal_release_oid until one returns success. * gss_internal_release_oid will only return success when * the OID was recognized as an internal mechanism OID. if no * mechanisms recognize the OID, then call the generic version. */ /* * we can walk the mechanism list without a mutex, because we * are only looking at fields which once read will never change. * Mechanism entries are always added to the end, and as * complete entries. */ if (aMech->mech && aMech->mech->gss_internal_release_oid) { major = aMech->mech->gss_internal_release_oid( aMech->mech->context, minor_status, oid); if (major == GSS_S_COMPLETE) return (GSS_S_COMPLETE); } aMech = aMech->next; } /* while */ return (generic_gss_release_oid(minor_status, oid)); } /* gss_release_oid */ /* * this function will return an oid set indicating available mechanisms. * The set returned is based on configuration file entries and * NOT on the loaded mechanisms. This function does not check if any * of these can actually be loaded. * This routine needs direct access to the mechanism list. * To avoid reading the configuration file each call, we will save a * a mech oid set, and only update it once the file has changed. */ static time_t g_mechSetTime = (time_t)0; static gss_OID_set_desc g_mechSet = { 0, NULL }; static mutex_t g_mechSetLock; OM_uint32 gss_indicate_mechs(minorStatus, mechSet) OM_uint32 *minorStatus; gss_OID_set *mechSet; { gss_mech_info mList; char *fileName; struct stat fileInfo; int count, i, j; gss_OID curItem; if (!minorStatus) return (GSS_S_CALL_INACCESSIBLE_WRITE); *minorStatus = 0; /* check output parameter */ if (mechSet == NULL) return (GSS_S_CALL_INACCESSIBLE_WRITE); fileName = MECH_CONF; /* * If we have already computed the mechanisms supported and if it * is still valid; make a copy and return to caller, * otherwise build it first. */ if ((stat(fileName, &fileInfo) == 0 && fileInfo.st_mtime > g_mechSetTime)) { /* * lock the mutex since we will be updating * the mechList structure * we need to keep the lock while we build the mechanism list * since we are accessing parts of the mechList which could be * modified. */ (void) mutex_lock(&g_mechListLock); /* * this checks for the case when we need to re-construct the * g_mechSet structure, but the mechanism list is upto date * (because it has been read by someone calling * __gss_get_mechanism) */ if (fileInfo.st_mtime > g_confFileModTime) { g_confFileModTime = fileInfo.st_mtime; loadConfigFile(fileName); } /* * we need to lock the mech set so that no one else will * try to read it as we are re-creating it */ (void) mutex_lock(&g_mechSetLock); /* if the oid list already exists we must free it first */ if (g_mechSet.count != 0) { for (i = 0; i < g_mechSet.count; i++) free(g_mechSet.elements[i].elements); free(g_mechSet.elements); g_mechSet.elements = NULL; g_mechSet.count = 0; } /* determine how many elements to have in the list */ mList = g_mechList; count = 0; while (mList != NULL) { count++; mList = mList->next; } /* this should always be true, but.... */ if (count > 0) { g_mechSet.elements = (gss_OID) calloc(count, sizeof (gss_OID_desc)); if (g_mechSet.elements == NULL) { (void) mutex_unlock(&g_mechSetLock); (void) mutex_unlock(&g_mechListLock); return (GSS_S_FAILURE); } (void) memset(g_mechSet.elements, 0, count * sizeof (gss_OID_desc)); /* now copy each oid element */ g_mechSet.count = count; count = 0; mList = g_mechList; while (mList != NULL) { curItem = &(g_mechSet.elements[count]); curItem->elements = (void*) malloc(mList->mech_type->length); if (curItem->elements == NULL) { /* * this is nasty - we must delete the * part of the array already copied */ for (i = 0; i < count; i++) { free(g_mechSet.elements[i]. elements); } free(g_mechSet.elements); g_mechSet.count = 0; g_mechSet.elements = NULL; (void) mutex_unlock(&g_mechSetLock); (void) mutex_unlock(&g_mechListLock); return (GSS_S_FAILURE); } g_OID_copy(curItem, mList->mech_type); count++; mList = mList->next; } } g_mechSetTime = fileInfo.st_mtime; (void) mutex_unlock(&g_mechSetLock); (void) mutex_unlock(&g_mechListLock); } /* if g_mechSet is out of date or not initialized */ /* * the mech set is created and it is up to date * so just copy it to caller */ if ((*mechSet = (gss_OID_set) malloc(sizeof (gss_OID_set_desc))) == NULL) { return (GSS_S_FAILURE); } /* * need to lock the g_mechSet in case someone tries to update it while * I'm copying it. */ (void) mutex_lock(&g_mechSetLock); /* allocate space for the oid structures */ if (((*mechSet)->elements = (void*) calloc(g_mechSet.count, sizeof (gss_OID_desc))) == NULL) { (void) mutex_unlock(&g_mechSetLock); free(*mechSet); *mechSet = NULL; return (GSS_S_FAILURE); } /* now copy the oid structures */ (void) memcpy((*mechSet)->elements, g_mechSet.elements, g_mechSet.count * sizeof (gss_OID_desc)); (*mechSet)->count = g_mechSet.count; /* still need to copy each of the oid elements arrays */ for (i = 0; i < (*mechSet)->count; i++) { curItem = &((*mechSet)->elements[i]); curItem->elements = (void *) malloc(g_mechSet.elements[i].length); if (curItem->elements == NULL) { (void) mutex_unlock(&g_mechSetLock); /* * must still free the allocated elements for * each allocated gss_OID_desc */ for (j = 0; j < i; j++) { free((*mechSet)->elements[j].elements); } free((*mechSet)->elements); free(mechSet); *mechSet = NULL; return (GSS_S_FAILURE); } g_OID_copy(curItem, &g_mechSet.elements[i]); } (void) mutex_unlock(&g_mechSetLock); return (GSS_S_COMPLETE); } /* gss_indicate_mechs */ /* * this function has been added for use by modules that need to * know what (if any) optional parameters are supplied in the * config file (MECH_CONF). * It will return the option string for a specified mechanism. * caller is responsible for freeing the memory */ char * __gss_get_modOptions(oid) const gss_OID oid; { gss_mech_info aMech; char *modOptions = NULL; /* make sure we have fresh data */ (void) mutex_lock(&g_mechListLock); updateMechList(); (void) mutex_unlock(&g_mechListLock); /* searching the list does not require a lock */ if ((aMech = searchMechList(oid)) == NULL || aMech->optionStr == NULL) { return (NULL); } /* * need to obtain a lock on this structure in case someone else * will try to update it during the copy */ (void) mutex_lock(&g_mechListLock); if (aMech->optionStr) modOptions = strdup(aMech->optionStr); (void) mutex_unlock(&g_mechListLock); return (modOptions); } /* __gss_get_modOptions */ /* * this function has been added for use by gssd. * It will return the kernel module name for a specified mechanism. * caller is responsible for freeing the memory */ char * __gss_get_kmodName(oid) const gss_OID oid; { gss_mech_info aMech; char *kmodName = NULL; /* make sure we have fresh data */ (void) mutex_lock(&g_mechListLock); updateMechList(); (void) mutex_unlock(&g_mechListLock); /* searching the list does not require a lock */ if ((aMech = searchMechList(oid)) == NULL || aMech->kmodName == NULL) { return (NULL); } /* * need to obtain a lock on this structure in case someone else * will try to update it during the copy */ (void) mutex_lock(&g_mechListLock); if (aMech->kmodName) kmodName = strdup(aMech->kmodName); (void) mutex_unlock(&g_mechListLock); return (kmodName); } /* __gss_get_kmodName */ /* * given a mechanism string return the mechanism oid */ OM_uint32 __gss_mech_to_oid(const char *mechStr, gss_OID* oid) { gss_mech_info aMech; if (oid == NULL) return (GSS_S_CALL_INACCESSIBLE_WRITE); *oid = GSS_C_NULL_OID; if ((mechStr == NULL) || (strlen(mechStr) == 0) || (strcasecmp(mechStr, M_DEFAULT) == 0)) return (GSS_S_COMPLETE); /* ensure we have fresh data */ (void) mutex_lock(&g_mechListLock); updateMechList(); (void) mutex_unlock(&g_mechListLock); aMech = g_mechList; /* no lock required - only looking at fields that are not updated */ while (aMech != NULL) { if ((aMech->mechNameStr) && strcmp(aMech->mechNameStr, mechStr) == 0) { *oid = aMech->mech_type; return (GSS_S_COMPLETE); } aMech = aMech->next; } return (GSS_S_FAILURE); } /* __gss_mech_to_oid */ /* * Given the mechanism oid, return the readable mechanism name * associated with that oid from the mech config file * (/etc/gss/mech). */ const char * __gss_oid_to_mech(const gss_OID oid) { gss_mech_info aMech; if (oid == GSS_C_NULL_OID) return (M_DEFAULT); /* ensure we have fresh data */ (void) mutex_lock(&g_mechListLock); updateMechList(); (void) mutex_unlock(&g_mechListLock); if ((aMech = searchMechList(oid)) == NULL) return (NULL); return (aMech->mechNameStr); } /* __gss_oid_to_mech */ /* * return a list of mechanism strings supported * upon return the array is terminated with a NULL entry */ OM_uint32 __gss_get_mechanisms(char *mechArray[], int arrayLen) { gss_mech_info aMech; int i; if (mechArray == NULL || arrayLen < 1) return (GSS_S_CALL_INACCESSIBLE_WRITE); /* ensure we have fresh data */ (void) mutex_lock(&g_mechListLock); updateMechList(); (void) mutex_unlock(&g_mechListLock); aMech = g_mechList; /* no lock required - only looking at fields that are not updated */ for (i = 1; i < arrayLen; i++) { if (aMech != NULL) { *mechArray = aMech->mechNameStr; mechArray++; aMech = aMech->next; } else break; } *mechArray = NULL; return (GSS_S_COMPLETE); } /* gss_get_mechanisms */ /* * determines if the mechList needs to be updated from file * and performs the update. * this functions must be called with a lock of g_mechListLock */ static void updateMechList(void) { char *fileName; struct stat fileInfo; fileName = MECH_CONF; /* check if mechList needs updating */ if (stat(fileName, &fileInfo) == 0 && (fileInfo.st_mtime > g_confFileModTime)) { loadConfigFile(fileName); g_confFileModTime = fileInfo.st_mtime; } } /* updateMechList */ /* * given the mechanism type, return the mechanism structure * containing the mechanism library entry points. * will return NULL if mech type is not found * This function will also trigger the loading of the mechanism * module if it has not been already loaded. */ gss_mechanism __gss_get_mechanism(oid) const gss_OID oid; { gss_mech_info aMech; gss_mechanism (*sym)(const gss_OID); void *dl; /* check if the mechanism is already loaded */ if ((aMech = searchMechList(oid)) != NULL && aMech->mech) { return (aMech->mech); } /* * might need to re-read the configuration file before loading * the mechanism to ensure we have the latest info. */ (void) mutex_lock(&g_mechListLock); updateMechList(); aMech = searchMechList(oid); /* is the mechanism present in the list ? */ if (aMech == NULL) { (void) mutex_unlock(&g_mechListLock); return ((gss_mechanism)NULL); } /* has another thread loaded the mech */ if (aMech->mech) { (void) mutex_unlock(&g_mechListLock); return (aMech->mech); } /* we found the mechanism, but it is not loaded */ if ((dl = dlopen(aMech->uLibName, RTLD_NOW)) == NULL) { (void) syslog(LOG_INFO, "libgss dlopen(%s): %s\n", aMech->uLibName, dlerror()); (void) mutex_unlock(&g_mechListLock); return ((gss_mechanism)NULL); } if ((sym = (gss_mechanism (*)(const gss_OID))dlsym(dl, MECH_SYM)) == NULL) { (void) dlclose(dl); (void) syslog(LOG_INFO, "unable to initialize mechanism" " library [%s]\n", aMech->uLibName); (void) mutex_unlock(&g_mechListLock); return ((gss_mechanism)NULL); } /* Call the symbol to get the mechanism table */ aMech->mech = (*sym)(aMech->mech_type); if (aMech->mech == NULL) { (void) dlclose(dl); (void) syslog(LOG_INFO, "unable to initialize mechanism" " library [%s]\n", aMech->uLibName); (void) mutex_unlock(&g_mechListLock); return ((gss_mechanism)NULL); } aMech->dl_handle = dl; (void) mutex_unlock(&g_mechListLock); return (aMech->mech); } /* __gss_get_mechanism */ gss_mechanism_ext __gss_get_mechanism_ext(oid) const gss_OID oid; { gss_mech_info aMech; gss_mechanism_ext mech_ext; /* check if the mechanism is already loaded */ if ((aMech = searchMechList(oid)) != NULL && aMech->mech_ext != NULL) return (aMech->mech_ext); if (__gss_get_mechanism(oid) == NULL) return (NULL); if (aMech->dl_handle == NULL) return (NULL); /* Load the gss_config_ext struct for this mech */ mech_ext = (gss_mechanism_ext)malloc(sizeof (struct gss_config_ext)); if (mech_ext == NULL) return (NULL); /* * dlsym() the mech's 'method' functions for the extended APIs * * NOTE: Until the void *context argument is removed from the * SPI method functions' signatures it will be necessary to have * different function pointer typedefs and function names for * the SPI methods than for the API. When this argument is * removed it will be possible to rename gss_*_sfct to gss_*_fct * and and gssspi_* to gss_*. */ mech_ext->gss_acquire_cred_with_password = (gss_acquire_cred_with_password_sfct)dlsym(aMech->dl_handle, "gssspi_acquire_cred_with_password"); /* Set aMech->mech_ext */ (void) mutex_lock(&g_mechListLock); if (aMech->mech_ext == NULL) aMech->mech_ext = mech_ext; else free(mech_ext); /* we raced and lost; don't leak */ (void) mutex_unlock(&g_mechListLock); return (aMech->mech_ext); } /* __gss_get_mechanism_ext */ /* * this routine is used for searching the list of mechanism data. * it needs not be mutex protected because we only add new structures * from the end and they are fully initialized before being added. */ static gss_mech_info searchMechList(oid) const gss_OID oid; { gss_mech_info aMech = g_mechList; /* if oid is null -> then get default which is the first in the list */ if (oid == GSS_C_NULL_OID) return (aMech); while (aMech != NULL) { if (g_OID_equal(aMech->mech_type, oid)) return (aMech); aMech = aMech->next; } /* none found */ return ((gss_mech_info) NULL); } /* searchMechList */ /* * loads the configuration file * this is called while having a mutex lock on the mechanism list * entries for libraries that have been loaded can't be modified * mechNameStr and mech_type fields are not updated during updates */ static void loadConfigFile(fileName) const char *fileName; { char buffer[BUFSIZ], *oidStr, *oid, *sharedLib, *kernMod, *endp; char *modOptions; char sharedPath[sizeof (MECH_LIB_PREFIX) + BUFSIZ]; char *tmpStr; FILE *confFile; gss_OID mechOid; gss_mech_info aMech, tmp; OM_uint32 minor; gss_buffer_desc oidBuf; if ((confFile = fopen(fileName, "r")) == NULL) { return; } (void) memset(buffer, 0, sizeof (buffer)); while (fgets(buffer, BUFSIZ, confFile) != NULL) { /* ignore lines beginning with # */ if (*buffer == '#') continue; /* * find the first white-space character after * the mechanism name */ oidStr = buffer; for (oid = buffer; *oid && !isspace(*oid); oid++); /* Now find the first non-white-space character */ if (*oid) { *oid = '\0'; oid++; while (*oid && isspace(*oid)) oid++; } /* * If that's all, then this is a corrupt entry. Skip it. */ if (! *oid) continue; /* Find the end of the oid and make sure it is NULL-ended */ for (endp = oid; *endp && !isspace(*endp); endp++) ; if (*endp) { *endp = '\0'; } /* * check if an entry for this oid already exists * if it does, and the library is already loaded then * we can't modify it, so skip it */ oidBuf.value = (void *)oid; oidBuf.length = strlen(oid); if (generic_gss_str_to_oid(&minor, &oidBuf, &mechOid) != GSS_S_COMPLETE) { (void) syslog(LOG_INFO, "invalid mechanism oid" " [%s] in configuration file", oid); continue; } aMech = searchMechList(mechOid); if (aMech && aMech->mech) { free(mechOid->elements); free(mechOid); continue; } /* Find the start of the shared lib name */ for (sharedLib = endp+1; *sharedLib && isspace(*sharedLib); sharedLib++) ; /* * If that's all, then this is a corrupt entry. Skip it. */ if (! *sharedLib) { free(mechOid->elements); free(mechOid); continue; } /* * Find the end of the shared lib name and make sure it is * NULL-terminated. */ for (endp = sharedLib; *endp && !isspace(*endp); endp++) ; if (*endp) { *endp = '\0'; } /* Find the start of the optional kernel module lib name */ for (kernMod = endp+1; *kernMod && isspace(*kernMod); kernMod++) ; /* * If this item starts with a bracket "[", then * it is not a kernel module, but is a list of * options for the user module to parse later. */ if (*kernMod && *kernMod != '[') { /* * Find the end of the shared lib name and make sure * it is NULL-terminated. */ for (endp = kernMod; *endp && !isspace(*endp); endp++) ; if (*endp) { *endp = '\0'; } } else kernMod = NULL; /* Find the start of the optional module options list */ for (modOptions = endp+1; *modOptions && isspace(*modOptions); modOptions++); if (*modOptions == '[') { /* move past the opening bracket */ for (modOptions = modOptions+1; *modOptions && isspace(*modOptions); modOptions++); /* Find the closing bracket */ for (endp = modOptions; *endp && *endp != ']'; endp++); if (endp) *endp = '\0'; } else { modOptions = NULL; } (void) strcpy(sharedPath, MECH_LIB_PREFIX); (void) strcat(sharedPath, sharedLib); /* * are we creating a new mechanism entry or * just modifying existing (non loaded) mechanism entry */ if (aMech) { /* * delete any old values and set new * mechNameStr and mech_type are not modified */ if (aMech->kmodName) { free(aMech->kmodName); aMech->kmodName = NULL; } if (aMech->optionStr) { free(aMech->optionStr); aMech->optionStr = NULL; } if ((tmpStr = strdup(sharedPath)) != NULL) { if (aMech->uLibName) free(aMech->uLibName); aMech->uLibName = tmpStr; } if (kernMod) /* this is an optional parameter */ aMech->kmodName = strdup(kernMod); if (modOptions) /* optional module options */ aMech->optionStr = strdup(modOptions); /* the oid is already set */ free(mechOid->elements); free(mechOid); continue; } /* adding a new entry */ aMech = malloc(sizeof (struct gss_mech_config)); if (aMech == NULL) { free(mechOid->elements); free(mechOid); continue; } (void) memset(aMech, 0, sizeof (struct gss_mech_config)); aMech->mech_type = mechOid; aMech->uLibName = strdup(sharedPath); aMech->mechNameStr = strdup(oidStr); /* check if any memory allocations failed - bad news */ if (aMech->uLibName == NULL || aMech->mechNameStr == NULL) { if (aMech->uLibName) free(aMech->uLibName); if (aMech->mechNameStr) free(aMech->mechNameStr); free(mechOid->elements); free(mechOid); free(aMech); continue; } if (kernMod) /* this is an optional parameter */ aMech->kmodName = strdup(kernMod); if (modOptions) aMech->optionStr = strdup(modOptions); /* * add the new entry to the end of the list - make sure * that only complete entries are added because other * threads might currently be searching the list. */ tmp = g_mechListTail; g_mechListTail = aMech; if (tmp != NULL) tmp->next = aMech; if (g_mechList == NULL) g_mechList = aMech; } /* while */ (void) fclose(confFile); } /* loadConfigFile */