/* * 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 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" #include #include #include #include #include #include #include #include #include #include #include #include #include "cryptoadm.h" static int err; /* to store the value of errno in case being overwritten */ static int check_hardware_provider(char *, char *, int *, int *); /* * Display the mechanism list for a kernel software provider. */ int list_mechlist_for_soft(char *provname) { mechlist_t *pmechlist; int rc; if (provname == NULL) { return (FAILURE); } rc = get_soft_info(provname, &pmechlist); if (rc == SUCCESS) { (void) filter_mechlist(&pmechlist, RANDOM); print_mechlist(provname, pmechlist); free_mechlist(pmechlist); } else { cryptoerror(LOG_STDERR, gettext( "failed to retrieve the mechanism list for %s."), provname); } return (rc); } /* * Display the mechanism list for a kernel hardware provider. */ int list_mechlist_for_hard(char *provname) { mechlist_t *pmechlist; char devname[MAXNAMELEN]; int inst_num; int count; int rc = SUCCESS; if (provname == NULL) { return (FAILURE); } /* * Check if the provider is valid. If it is valid, get the number of * mechanisms also. */ if (check_hardware_provider(provname, devname, &inst_num, &count) == FAILURE) { return (FAILURE); } /* Get the mechanism list for the kernel hardware provider */ if ((rc = get_dev_info(devname, inst_num, count, &pmechlist)) == SUCCESS) { (void) filter_mechlist(&pmechlist, RANDOM); print_mechlist(provname, pmechlist); free_mechlist(pmechlist); } return (rc); } /* * Display the policy information for a kernel software provider. */ int list_policy_for_soft(char *provname) { int rc; entry_t *pent = NULL; mechlist_t *pmechlist; boolean_t has_random = B_FALSE; boolean_t has_mechs = B_FALSE; if (provname == NULL) { return (FAILURE); } if ((pent = getent_kef(provname)) == NULL) { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } rc = get_soft_info(provname, &pmechlist); if (rc == SUCCESS) { has_random = filter_mechlist(&pmechlist, RANDOM); if (pmechlist != NULL) { has_mechs = B_TRUE; free_mechlist(pmechlist); } } else { cryptoerror(LOG_STDERR, gettext( "failed to retrieve the mechanism list for %s."), provname); return (rc); } print_kef_policy(pent, has_random, has_mechs); free_entry(pent); return (SUCCESS); } /* * Display the policy information for a kernel hardware provider. */ int list_policy_for_hard(char *provname) { entry_t *pent; boolean_t is_active; mechlist_t *pmechlist; char devname[MAXNAMELEN]; int inst_num; int count; int rc = SUCCESS; boolean_t has_random = B_FALSE; boolean_t has_mechs = B_FALSE; if (provname == NULL) { return (FAILURE); } /* * Check if the provider is valid. If it is valid, get the number of * mechanisms also. */ if (check_hardware_provider(provname, devname, &inst_num, &count) == FAILURE) { return (FAILURE); } /* Get the mechanism list for the kernel hardware provider */ if ((rc = get_dev_info(devname, inst_num, count, &pmechlist)) == SUCCESS) { has_random = filter_mechlist(&pmechlist, RANDOM); if (pmechlist != NULL) { has_mechs = B_TRUE; free_mechlist(pmechlist); } } else { cryptoerror(LOG_STDERR, gettext( "failed to retrieve the mechanism list for %s."), devname); return (rc); } /* * If the hardware provider has an entry in the kcf.conf file, * some of its mechanisms must have been disabled. Print out * the disabled list from the config file entry. Otherwise, * if it is active, then all the mechanisms for it are enabled. */ if ((pent = getent_kef(provname)) != NULL) { print_kef_policy(pent, has_random, has_mechs); free_entry(pent); return (SUCCESS); } else { if (check_active_for_hard(provname, &is_active) == FAILURE) { return (FAILURE); } else if (is_active == B_TRUE) { (void) printf(gettext( "%s: all mechanisms are enabled."), provname); if (has_random) /* * TRANSLATION_NOTE: * "random" is a keyword and not to be * translated. */ (void) printf(gettext(" %s is enabled.\n"), "random"); else (void) printf("\n"); return (SUCCESS); } else { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } } } int disable_kef_hardware(char *provname, boolean_t rndflag, boolean_t allflag, mechlist_t *dislist) { crypto_load_dev_disabled_t *pload_dev_dis; mechlist_t *infolist; entry_t *pent; boolean_t new_dev_entry = B_FALSE; char devname[MAXNAMELEN]; int inst_num; int count; int fd; int rc = SUCCESS; if (provname == NULL) { return (FAILURE); } /* * Check if the provider is valid. If it is valid, get the number of * mechanisms also. */ if (check_hardware_provider(provname, devname, &inst_num, &count) == FAILURE) { return (FAILURE); } /* Get the mechanism list for the kernel hardware provider */ if (get_dev_info(devname, inst_num, count, &infolist) == FAILURE) { return (FAILURE); } /* * Get the entry of this hardware provider from the config file. * If there is no entry yet, create one for it. */ if ((pent = getent_kef(provname)) == NULL) { if ((pent = malloc(sizeof (entry_t))) == NULL) { cryptoerror(LOG_STDERR, gettext("out of memory.")); free_mechlist(infolist); return (FAILURE); } new_dev_entry = B_TRUE; (void) strlcpy(pent->name, provname, MAXNAMELEN); pent->suplist = NULL; pent->sup_count = 0; pent->dislist = NULL; pent->dis_count = 0; } /* * kCF treats random as an internal mechanism. So, we need to * filter it from the mechanism list here, if we are NOT disabling * or enabling the random feature. Note that we map random feature at * cryptoadm(1M) level to the "random" mechanism in kCF. */ if (!rndflag) { (void) filter_mechlist(&dislist, RANDOM); } /* Calculate the new disabled list */ if (disable_mechs(&pent, infolist, allflag, dislist) == FAILURE) { free_mechlist(infolist); free_entry(pent); return (FAILURE); } free_mechlist(infolist); /* If no mechanisms are to be disabled, return */ if (pent->dis_count == 0) { free_entry(pent); return (SUCCESS); } /* Update the config file with the new entry or the updated entry */ if (new_dev_entry) { rc = update_kcfconf(pent, ADD_MODE); } else { rc = update_kcfconf(pent, MODIFY_MODE); } if (rc == FAILURE) { free_entry(pent); return (FAILURE); } /* Inform kernel about the new disabled mechanism list */ if ((pload_dev_dis = setup_dev_dis(pent)) == NULL) { free_entry(pent); return (FAILURE); } free_entry(pent); if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { cryptoerror(LOG_STDERR, gettext("failed to open %s: %s"), ADMIN_IOCTL_DEVICE, strerror(errno)); free(pload_dev_dis); return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_DEV_DISABLED, pload_dev_dis) == -1) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl failed: %s", strerror(errno)); free(pload_dev_dis); (void) close(fd); return (FAILURE); } if (pload_dev_dis->dd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl return_value = " "%d", pload_dev_dis->dd_return_value); free(pload_dev_dis); (void) close(fd); return (FAILURE); } free(pload_dev_dis); (void) close(fd); return (SUCCESS); } int disable_kef_software(char *provname, boolean_t rndflag, boolean_t allflag, mechlist_t *dislist) { crypto_load_soft_disabled_t *pload_soft_dis = NULL; mechlist_t *infolist; entry_t *pent; boolean_t is_active; int fd; if (provname == NULL) { return (FAILURE); } /* Get the entry of this provider from the config file. */ if ((pent = getent_kef(provname)) == NULL) { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } /* * Check if the kernel software provider is currently unloaded. * If it is unloaded, return FAILURE, because the disable subcommand * can not perform on inactive (unloaded) providers. */ if (check_active_for_soft(provname, &is_active) == FAILURE) { free_entry(pent); return (FAILURE); } else if (is_active == B_FALSE) { /* * TRANSLATION_NOTE: * "disable" is a keyword and not to be translated. */ cryptoerror(LOG_STDERR, gettext("can not do %1$s on an unloaded " "kernel software provider -- %2$s."), "disable", provname); free_entry(pent); return (FAILURE); } /* Get the mechanism list for the software provider */ if (get_soft_info(provname, &infolist) == FAILURE) { free(pent); return (FAILURE); } /* See comments in disable_kef_hardware() */ if (!rndflag) { (void) filter_mechlist(&infolist, RANDOM); } /* Calculate the new disabled list */ if (disable_mechs(&pent, infolist, allflag, dislist) == FAILURE) { free_entry(pent); free_mechlist(infolist); return (FAILURE); } /* infolist is no longer needed; free it */ free_mechlist(infolist); /* Update the kcf.conf file with the updated entry */ if (update_kcfconf(pent, MODIFY_MODE) == FAILURE) { free_entry(pent); return (FAILURE); } /* Inform kernel about the new disabled list. */ if ((pload_soft_dis = setup_soft_dis(pent)) == NULL) { free_entry(pent); return (FAILURE); } /* pent is no longer needed; free it. */ free_entry(pent); if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { cryptoerror(LOG_STDERR, gettext("failed to open %s for RW: %s"), ADMIN_IOCTL_DEVICE, strerror(errno)); free(pload_soft_dis); return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_SOFT_DISABLED, pload_soft_dis) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl failed: %s", strerror(errno)); free(pload_soft_dis); (void) close(fd); return (FAILURE); } if (pload_soft_dis->sd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl return_value = " "%d", pload_soft_dis->sd_return_value); free(pload_soft_dis); (void) close(fd); return (FAILURE); } free(pload_soft_dis); (void) close(fd); return (SUCCESS); } int enable_kef(char *provname, boolean_t rndflag, boolean_t allflag, mechlist_t *mlist) { crypto_load_soft_disabled_t *pload_soft_dis = NULL; crypto_load_dev_disabled_t *pload_dev_dis = NULL; entry_t *pent; boolean_t redo_flag = B_FALSE; int fd; int rc = SUCCESS; /* Get the entry with the provider name from the kcf.conf file */ pent = getent_kef(provname); if (is_device(provname)) { if (pent == NULL) { /* * This device doesn't have an entry in the config * file, therefore nothing is disabled. */ cryptoerror(LOG_STDERR, gettext( "all mechanisms are enabled already for %s."), provname); return (SUCCESS); } } else { /* a software module */ if (pent == NULL) { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } else if (pent->dis_count == 0) { /* nothing to be enabled. */ cryptoerror(LOG_STDERR, gettext( "all mechanisms are enabled already for %s."), provname); free_entry(pent); return (SUCCESS); } } if (!rndflag) { /* See comments in disable_kef_hardware() */ redo_flag = filter_mechlist(&pent->dislist, RANDOM); if (redo_flag) pent->dis_count--; } /* Update the entry by enabling mechanisms for this provider */ if ((rc = enable_mechs(&pent, allflag, mlist)) != SUCCESS) { free_entry(pent); return (rc); } if (redo_flag) { mechlist_t *tmp; if ((tmp = create_mech(RANDOM)) == NULL) { free_entry(pent); return (FAILURE); } tmp->next = pent->dislist; pent->dislist = tmp; pent->dis_count++; } /* * Update the kcf.conf file with the updated entry. * For a hardware provider, if there is no more disabled mechanism, * the entire entry in the config file should be removed. */ if (is_device(pent->name) && (pent->dis_count == 0)) { rc = update_kcfconf(pent, DELETE_MODE); } else { rc = update_kcfconf(pent, MODIFY_MODE); } if (rc == FAILURE) { free_entry(pent); return (FAILURE); } /* Inform Kernel about the policy change */ if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { cryptoerror(LOG_STDERR, gettext("failed to open %s: %s"), ADMIN_IOCTL_DEVICE, strerror(errno)); return (FAILURE); } if (is_device(provname)) { /* LOAD_DEV_DISABLED */ if ((pload_dev_dis = setup_dev_dis(pent)) == NULL) { return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_DEV_DISABLED, pload_dev_dis) == -1) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl failed: " "%s", strerror(errno)); free(pload_dev_dis); (void) close(fd); return (FAILURE); } if (pload_dev_dis->dd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl " "return_value = %d", pload_dev_dis->dd_return_value); free(pload_dev_dis); (void) close(fd); return (FAILURE); } } else { /* LOAD_SOFT_DISABLED */ if ((pload_soft_dis = setup_soft_dis(pent)) == NULL) { return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_SOFT_DISABLED, pload_soft_dis) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl failed: " "%s", strerror(errno)); free(pload_soft_dis); (void) close(fd); return (FAILURE); } if (pload_soft_dis->sd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl " "return_value = %d", pload_soft_dis->sd_return_value); free(pload_soft_dis); (void) close(fd); return (FAILURE); } } (void) close(fd); return (SUCCESS); } /* * Install a software module with the specified mechanism list into the system. * This routine adds an entry into the config file for this software module * first, then makes a CRYPTO_LOAD_SOFT_CONFIG ioctl call to inform kernel * about the new addition. */ int install_kef(char *provname, mechlist_t *mlist) { crypto_load_soft_config_t *pload_soft_conf = NULL; boolean_t found; entry_t *pent; FILE *pfile; FILE *pfile_tmp; char tmpfile_name[MAXPATHLEN]; char *ptr; char *str; char *name; char buffer[BUFSIZ]; char buffer2[BUFSIZ]; int found_count; int fd; int rc = SUCCESS; if ((provname == NULL) || (mlist == NULL)) { return (FAILURE); } /* Check if the provider already exists */ if ((pent = getent_kef(provname)) != NULL) { cryptoerror(LOG_STDERR, gettext("%s exists already."), provname); free_entry(pent); return (FAILURE); } /* Create an entry with provname and mlist. */ if ((pent = malloc(sizeof (entry_t))) == NULL) { cryptoerror(LOG_STDERR, gettext("out of memory.")); return (FAILURE); } (void) strlcpy(pent->name, provname, MAXNAMELEN); pent->sup_count = get_mech_count(mlist); pent->suplist = mlist; pent->dis_count = 0; pent->dislist = NULL; /* Append an entry for this software module to the kcf.conf file. */ if ((str = ent2str(pent)) == NULL) { free_entry(pent); return (FAILURE); } if ((pfile = fopen(_PATH_KCF_CONF, "r+")) == NULL) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to open %s for write.", _PATH_KCF_CONF); free_entry(pent); return (FAILURE); } if (lockf(fileno(pfile), F_TLOCK, 0) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to lock the configuration - %s"), strerror(err)); free_entry(pent); (void) fclose(pfile); return (FAILURE); } /* * Create a temporary file in the /etc/crypto directory. */ (void) strlcpy(tmpfile_name, TMPFILE_TEMPLATE, sizeof (tmpfile_name)); if (mkstemp(tmpfile_name) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to create a temporary file - %s"), strerror(err)); free_entry(pent); (void) fclose(pfile); return (FAILURE); } if ((pfile_tmp = fopen(tmpfile_name, "w")) == NULL) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to open %s - %s"), tmpfile_name, strerror(err)); free_entry(pent); (void) fclose(pfile); return (FAILURE); } /* * Loop thru the config file. If the provider was reserved within a * package bracket, just uncomment it. Otherwise, append it at * the end. The resulting file will be saved in the temp file first. */ found_count = 0; rc = SUCCESS; while (fgets(buffer, BUFSIZ, pfile) != NULL) { found = B_FALSE; if (buffer[0] == '#') { (void) strlcpy(buffer2, buffer, BUFSIZ); ptr = buffer2; ptr++; if ((name = strtok(ptr, SEP_COLON)) == NULL) { rc = FAILURE; break; } else if (strcmp(provname, name) == 0) { found = B_TRUE; found_count++; } } if (found == B_FALSE) { if (fputs(buffer, pfile_tmp) == EOF) { rc = FAILURE; } } else { if (found_count == 1) { if (fputs(str, pfile_tmp) == EOF) { rc = FAILURE; } } else { /* * Found a second entry with #libname. * Should not happen. The kcf.conf ffile * is corrupted. Give a warning and skip * this entry. */ cryptoerror(LOG_STDERR, gettext( "(Warning) Found an additional reserved " "entry for %s."), provname); } } if (rc == FAILURE) { break; } } (void) fclose(pfile); if (rc == FAILURE) { cryptoerror(LOG_STDERR, gettext("write error.")); (void) fclose(pfile_tmp); if (unlink(tmpfile_name) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } free_entry(pent); return (FAILURE); } if (found_count == 0) { /* * This libname was not in package before, append it to the * end of the temp file. */ if (fputs(str, pfile_tmp) == EOF) { cryptoerror(LOG_STDERR, gettext( "failed to write to %s: %s"), tmpfile_name, strerror(errno)); (void) fclose(pfile_tmp); if (unlink(tmpfile_name) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } free_entry(pent); return (FAILURE); } } if (fclose(pfile_tmp) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to close %s: %s"), tmpfile_name, strerror(err)); return (FAILURE); } if (rename(tmpfile_name, _PATH_KCF_CONF) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to rename %s to %s: %s", tmpfile_name, _PATH_KCF_CONF, strerror(err)); rc = FAILURE; } else if (chmod(_PATH_KCF_CONF, S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to chmod to %s: %s", _PATH_KCF_CONF, strerror(err)); rc = FAILURE; } else { rc = SUCCESS; } if (rc == FAILURE) { if (unlink(tmpfile_name) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } return (FAILURE); } /* Inform kernel of this new software module. */ if ((pload_soft_conf = setup_soft_conf(pent)) == NULL) { free_entry(pent); return (FAILURE); } if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { cryptoerror(LOG_STDERR, gettext("failed to open %s: %s"), ADMIN_IOCTL_DEVICE, strerror(errno)); free_entry(pent); free(pload_soft_conf); return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_SOFT_CONFIG, pload_soft_conf) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl failed: %s", strerror(errno)); free_entry(pent); free(pload_soft_conf); (void) close(fd); return (FAILURE); } if (pload_soft_conf->sc_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl failed, " "return_value = %d", pload_soft_conf->sc_return_value); free_entry(pent); free(pload_soft_conf); (void) close(fd); return (FAILURE); } free_entry(pent); free(pload_soft_conf); (void) close(fd); return (SUCCESS); } /* * Uninstall the software module. This routine first unloads the software * module with 3 ioctl calls, then deletes its entry from the config file. * Removing an entry from the config file needs to be done last to ensure * that there is still an entry if the earlier unload failed for any reason. */ int uninstall_kef(char *provname) { entry_t *pent; boolean_t is_active; boolean_t in_package; boolean_t found; FILE *pfile; FILE *pfile_tmp; char tmpfile_name[MAXPATHLEN]; char *name; char strbuf[BUFSIZ]; char buffer[BUFSIZ]; char buffer2[BUFSIZ]; char *str; int len; int rc = SUCCESS; /* Check if it is in the kcf.conf file first. */ if ((pent = getent_kef(provname)) == NULL) { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } /* * Get rid of the disabled list for the provider and get the converted * string for the entry. This is to prepare the string for a provider * that is in a package. */ free_mechlist(pent->dislist); pent->dis_count = 0; pent->dislist = NULL; str = ent2str(pent); free_entry(pent); if (str == NULL) { cryptoerror(LOG_STDERR, gettext("internal error.")); return (FAILURE); } (void) snprintf(strbuf, sizeof (strbuf), "%s%s", "#", str); free(str); /* If it is not loaded, unload it first */ if (check_active_for_soft(provname, &is_active) == FAILURE) { return (FAILURE); } else if ((is_active == B_TRUE) && (unload_kef_soft(provname, B_TRUE) == FAILURE)) { cryptoerror(LOG_STDERR, gettext("failed to uninstall %s.\n"), provname); return (FAILURE); } /* * Remove the entry from the config file. If the provider to be * uninstalled is in a package, just comment it off. */ if ((pfile = fopen(_PATH_KCF_CONF, "r+")) == NULL) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to open %s for write.", _PATH_KCF_CONF); return (FAILURE); } if (lockf(fileno(pfile), F_TLOCK, 0) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to lock the configuration - %s"), strerror(err)); (void) fclose(pfile); return (FAILURE); } /* * Create a temporary file in the /etc/crypto directory to save * the new configuration file first. */ (void) strlcpy(tmpfile_name, TMPFILE_TEMPLATE, sizeof (tmpfile_name)); if (mkstemp(tmpfile_name) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to create a temporary file - %s"), strerror(err)); (void) fclose(pfile); return (FAILURE); } if ((pfile_tmp = fopen(tmpfile_name, "w")) == NULL) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to open %s - %s"), tmpfile_name, strerror(err)); if (unlink(tmpfile_name) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } (void) fclose(pfile); return (FAILURE); } /* * Loop thru the config file. If the kernel software provider * to be uninstalled is in a package, just comment it off. */ in_package = B_FALSE; while (fgets(buffer, BUFSIZ, pfile) != NULL) { found = B_FALSE; if (!(buffer[0] == ' ' || buffer[0] == '\n' || buffer[0] == '\t')) { if (strstr(buffer, " Start ") != NULL) { in_package = B_TRUE; } else if (strstr(buffer, " End ") != NULL) { in_package = B_FALSE; } else if (buffer[0] != '#') { (void) strlcpy(buffer2, buffer, BUFSIZ); /* get rid of trailing '\n' */ len = strlen(buffer2); if (buffer2[len-1] == '\n') { len--; } buffer2[len] = '\0'; if ((name = strtok(buffer2, SEP_COLON)) == NULL) { rc = FAILURE; break; } else if (strcmp(provname, name) == 0) { found = B_TRUE; } } } if (found) { if (in_package) { if (fputs(strbuf, pfile_tmp) == EOF) { rc = FAILURE; } } } else { if (fputs(buffer, pfile_tmp) == EOF) { rc = FAILURE; } } if (rc == FAILURE) { break; } } if (rc == FAILURE) { cryptoerror(LOG_STDERR, gettext("write error.")); (void) fclose(pfile); (void) fclose(pfile_tmp); if (unlink(tmpfile_name) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } return (FAILURE); } (void) fclose(pfile); if (fclose(pfile_tmp) != 0) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to close %s: %s"), tmpfile_name, strerror(err)); return (FAILURE); } /* Now update the real config file */ if (rename(tmpfile_name, _PATH_KCF_CONF) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to rename %1$s to %2$s: %3$s", tmpfile, _PATH_KCF_CONF, strerror(err)); rc = FAILURE; } else if (chmod(_PATH_KCF_CONF, S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to update the configuration - %s"), strerror(err)); cryptodebug("failed to chmod to %s: %s", _PATH_KCF_CONF, strerror(err)); rc = FAILURE; } else { rc = SUCCESS; } if ((rc == FAILURE) && (unlink(tmpfile_name) != 0)) { err = errno; cryptoerror(LOG_STDERR, gettext( "(Warning) failed to remove %s: %s"), tmpfile_name, strerror(err)); } return (rc); } int refresh(void) { crypto_get_soft_list_t *psoftlist_kernel = NULL; crypto_load_soft_config_t *pload_soft_conf = NULL; crypto_load_soft_disabled_t *pload_soft_dis = NULL; crypto_load_dev_disabled_t *pload_dev_dis = NULL; entrylist_t *pdevlist = NULL; entrylist_t *psoftlist = NULL; entrylist_t *ptr; boolean_t found; char *psoftname; int fd; int rc = SUCCESS; int i; if (get_soft_list(&psoftlist_kernel) == FAILURE) { cryptoerror(LOG_ERR, gettext("Failed to retrieve the " "software provider list from kernel.")); return (FAILURE); } if (get_kcfconf_info(&pdevlist, &psoftlist) == FAILURE) { cryptoerror(LOG_ERR, "failed to retrieve the providers' " "information from the configuration file - %s.", _PATH_KCF_CONF); return (FAILURE); } /* * If a kernel software provider is in kernel, but it is not in the * kcf.conf file, it must have been pkgrm'ed and needs to be unloaded * now. */ if (psoftlist_kernel->sl_soft_count > 0) { psoftname = psoftlist_kernel->sl_soft_names; for (i = 0; i < psoftlist_kernel->sl_soft_count; i++) { ptr = psoftlist; found = B_FALSE; while (ptr != NULL) { if (strcmp(psoftname, ptr->pent->name) == 0) { found = B_TRUE; break; } ptr = ptr->next; } if (!found) { rc = unload_kef_soft(psoftname, B_FALSE); if (rc == FAILURE) { cryptoerror(LOG_ERR, gettext( "WARNING - the provider %s is " "still in kernel."), psoftname); } } psoftname = psoftname + strlen(psoftname) + 1; } } free(psoftlist_kernel); if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to open %s: %s"), ADMIN_IOCTL_DEVICE, strerror(err)); free(psoftlist); free(pdevlist); return (FAILURE); } /* * For each software module, pass two sets of information to kernel * - the supported list and the disabled list */ ptr = psoftlist; while (ptr != NULL) { /* load the supported list */ if ((pload_soft_conf = setup_soft_conf(ptr->pent)) == NULL) { rc = FAILURE; break; } if (ioctl(fd, CRYPTO_LOAD_SOFT_CONFIG, pload_soft_conf) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl failed: %s", strerror(errno)); free(pload_soft_conf); rc = FAILURE; break; } if (pload_soft_conf->sc_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl " "return_value = %d", pload_soft_conf->sc_return_value); free(pload_soft_conf); rc = FAILURE; break; } /* load the disabled list */ if (ptr->pent->dis_count != 0) { pload_soft_dis = setup_soft_dis(ptr->pent); if (pload_soft_dis == NULL) { rc = FAILURE; break; } if (ioctl(fd, CRYPTO_LOAD_SOFT_DISABLED, pload_soft_dis) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl " "failed: %s", strerror(errno)); free(pload_soft_dis); rc = FAILURE; break; } if (pload_soft_dis->sd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl " "return_value = %d", pload_soft_dis->sd_return_value); free(pload_soft_dis); rc = FAILURE; break; } free(pload_soft_dis); } free(pload_soft_conf); ptr = ptr->next; } if (rc != SUCCESS) { (void) close(fd); return (rc); } /* Pass the disabledlist information for Device to kernel */ ptr = pdevlist; while (ptr != NULL) { /* load the disabled list */ if (ptr->pent->dis_count != 0) { pload_dev_dis = setup_dev_dis(ptr->pent); if (pload_dev_dis == NULL) { rc = FAILURE; break; } if (ioctl(fd, CRYPTO_LOAD_DEV_DISABLED, pload_dev_dis) == -1) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl " "failed: %s", strerror(errno)); free(pload_dev_dis); rc = FAILURE; break; } if (pload_dev_dis->dd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_DEV_DISABLED ioctl " "return_value = %d", pload_dev_dis->dd_return_value); free(pload_dev_dis); rc = FAILURE; break; } free(pload_dev_dis); } ptr = ptr->next; } (void) close(fd); return (rc); } /* * Unload the kernel software provider. Before calling this function, the * caller should check if the provider is in the config file and if it * is kernel. This routine makes 3 ioctl calls to remove it from kernel * completely. The argument do_check set to B_FALSE means that the * caller knows the provider is not the config file and hence the check * is skipped. */ int unload_kef_soft(char *provname, boolean_t do_check) { crypto_unload_soft_module_t *punload_soft = NULL; crypto_load_soft_config_t *pload_soft_conf = NULL; crypto_load_soft_disabled_t *pload_soft_dis = NULL; entry_t *pent = NULL; int fd; if (provname == NULL) { cryptoerror(LOG_STDERR, gettext("internal error.")); return (FAILURE); } if (!do_check) { /* Construct an entry using the provname */ pent = calloc(1, sizeof (entry_t)); if (pent == NULL) { cryptoerror(LOG_STDERR, gettext("out of memory.")); return (FAILURE); } (void) strlcpy(pent->name, provname, MAXNAMELEN); } else if ((pent = getent_kef(provname)) == NULL) { cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); return (FAILURE); } /* Open the admin_ioctl_device */ if ((fd = open(ADMIN_IOCTL_DEVICE, O_RDWR)) == -1) { err = errno; cryptoerror(LOG_STDERR, gettext("failed to open %s: %s"), ADMIN_IOCTL_DEVICE, strerror(err)); return (FAILURE); } /* Inform kernel to unload this software module */ if ((punload_soft = setup_unload_soft(pent)) == NULL) { (void) close(fd); return (FAILURE); } if (ioctl(fd, CRYPTO_UNLOAD_SOFT_MODULE, punload_soft) == -1) { cryptodebug("CRYPTO_UNLOAD_SOFT_MODULE ioctl failed: %s", strerror(errno)); free_entry(pent); free(punload_soft); (void) close(fd); return (FAILURE); } if (punload_soft->sm_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_UNLOAD_SOFT_MODULE ioctl return_value = " "%d", punload_soft->sm_return_value); /* * If the return value is CRYPTO_UNKNOWN_PRIVDER, it means * that the provider is not registered yet. Should just * continue. */ if (punload_soft->sm_return_value != CRYPTO_UNKNOWN_PROVIDER) { free_entry(pent); free(punload_soft); (void) close(fd); return (FAILURE); } } free(punload_soft); /* * Inform kernel to remove the configuration of this software * module. */ free_mechlist(pent->suplist); pent->suplist = NULL; pent->sup_count = 0; if ((pload_soft_conf = setup_soft_conf(pent)) == NULL) { free_entry(pent); (void) close(fd); return (FAILURE); } if (ioctl(fd, CRYPTO_LOAD_SOFT_CONFIG, pload_soft_conf) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl failed: %s", strerror(errno)); free_entry(pent); free(pload_soft_conf); (void) close(fd); return (FAILURE); } if (pload_soft_conf->sc_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_CONFIG ioctl return_value = " "%d", pload_soft_conf->sc_return_value); free_entry(pent); free(pload_soft_conf); (void) close(fd); return (FAILURE); } free(pload_soft_conf); /* Inform kernel to remove the disabled entries if any */ if (pent->dis_count == 0) { free_entry(pent); (void) close(fd); return (SUCCESS); } else { free_mechlist(pent->dislist); pent->dislist = NULL; pent->dis_count = 0; } if ((pload_soft_dis = setup_soft_dis(pent)) == NULL) { free_entry(pent); (void) close(fd); return (FAILURE); } /* pent is no longer needed; free it */ free_entry(pent); if (ioctl(fd, CRYPTO_LOAD_SOFT_DISABLED, pload_soft_dis) == -1) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl failed: %s", strerror(errno)); free(pload_soft_dis); (void) close(fd); return (FAILURE); } if (pload_soft_dis->sd_return_value != CRYPTO_SUCCESS) { cryptodebug("CRYPTO_LOAD_SOFT_DISABLED ioctl return_value = " "%d", pload_soft_dis->sd_return_value); free(pload_soft_dis); (void) close(fd); return (FAILURE); } free(pload_soft_dis); (void) close(fd); return (SUCCESS); } /* * Check if a hardware provider is valid. If it is valid, returns its device * name, instance number and the number of mechanisms it supports. */ static int check_hardware_provider(char *provname, char *pname, int *pnum, int *pcount) { crypto_get_dev_list_t *dev_list = NULL; int i; if (provname == NULL) { return (FAILURE); } /* First, get the device name and the instance number from provname */ if (split_hw_provname(provname, pname, pnum) == FAILURE) { return (FAILURE); } /* * Get the complete device list from kernel and check if this provider * is in the list. */ if (get_dev_list(&dev_list) == FAILURE) { return (FAILURE); } for (i = 0; i < dev_list->dl_dev_count; i++) { if ((strcmp(dev_list->dl_devs[i].le_dev_name, pname) == 0) && (dev_list->dl_devs[i].le_dev_instance == *pnum)) { break; } } if (i == dev_list->dl_dev_count) { /* didn't find this provider in the kernel device list */ cryptoerror(LOG_STDERR, gettext("%s does not exist."), provname); free(dev_list); return (FAILURE); } /* This provider is valid. Get its mechanism count */ *pcount = dev_list->dl_devs[i].le_mechanism_count; free(dev_list); return (SUCCESS); }