/*- * Copyright (c) 2012 The FreeBSD Foundation * All rights reserved. * * This software was developed by Edward Tomasz Napierala under sponsorship * from the FreeBSD Foundation. * * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR 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 AUTHOR 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. * * $FreeBSD$ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "ctld.h" static volatile bool sighup_received = false; static volatile bool sigterm_received = false; static volatile bool sigalrm_received = false; static int nchildren = 0; static void usage(void) { fprintf(stderr, "usage: ctld [-d][-f config-file]\n"); exit(1); } char * checked_strdup(const char *s) { char *c; c = strdup(s); if (c == NULL) log_err(1, "strdup"); return (c); } struct conf * conf_new(void) { struct conf *conf; conf = calloc(1, sizeof(*conf)); if (conf == NULL) log_err(1, "calloc"); TAILQ_INIT(&conf->conf_targets); TAILQ_INIT(&conf->conf_auth_groups); TAILQ_INIT(&conf->conf_portal_groups); conf->conf_debug = 0; conf->conf_timeout = 60; conf->conf_maxproc = 30; return (conf); } void conf_delete(struct conf *conf) { struct target *targ, *tmp; struct auth_group *ag, *cagtmp; struct portal_group *pg, *cpgtmp; assert(conf->conf_pidfh == NULL); TAILQ_FOREACH_SAFE(targ, &conf->conf_targets, t_next, tmp) target_delete(targ); TAILQ_FOREACH_SAFE(ag, &conf->conf_auth_groups, ag_next, cagtmp) auth_group_delete(ag); TAILQ_FOREACH_SAFE(pg, &conf->conf_portal_groups, pg_next, cpgtmp) portal_group_delete(pg); free(conf->conf_pidfile_path); free(conf); } static struct auth * auth_new(struct auth_group *ag) { struct auth *auth; auth = calloc(1, sizeof(*auth)); if (auth == NULL) log_err(1, "calloc"); auth->a_auth_group = ag; TAILQ_INSERT_TAIL(&ag->ag_auths, auth, a_next); return (auth); } static void auth_delete(struct auth *auth) { TAILQ_REMOVE(&auth->a_auth_group->ag_auths, auth, a_next); free(auth->a_user); free(auth->a_secret); free(auth->a_mutual_user); free(auth->a_mutual_secret); free(auth); } const struct auth * auth_find(struct auth_group *ag, const char *user) { const struct auth *auth; TAILQ_FOREACH(auth, &ag->ag_auths, a_next) { if (strcmp(auth->a_user, user) == 0) return (auth); } return (NULL); } static void auth_check_secret_length(struct auth *auth) { size_t len; len = strlen(auth->a_secret); if (len > 16) { if (auth->a_auth_group->ag_name != NULL) log_warnx("secret for user \"%s\", auth-group \"%s\", " "is too long; it should be at most 16 characters " "long", auth->a_user, auth->a_auth_group->ag_name); else log_warnx("secret for user \"%s\", target \"%s\", " "is too long; it should be at most 16 characters " "long", auth->a_user, auth->a_auth_group->ag_target->t_iqn); } if (len < 12) { if (auth->a_auth_group->ag_name != NULL) log_warnx("secret for user \"%s\", auth-group \"%s\", " "is too short; it should be at least 12 characters " "long", auth->a_user, auth->a_auth_group->ag_name); else log_warnx("secret for user \"%s\", target \"%s\", " "is too short; it should be at least 16 characters " "long", auth->a_user, auth->a_auth_group->ag_target->t_iqn); } if (auth->a_mutual_secret != NULL) { len = strlen(auth->a_secret); if (len > 16) { if (auth->a_auth_group->ag_name != NULL) log_warnx("mutual secret for user \"%s\", " "auth-group \"%s\", is too long; it should " "be at most 16 characters long", auth->a_user, auth->a_auth_group->ag_name); else log_warnx("mutual secret for user \"%s\", " "target \"%s\", is too long; it should " "be at most 16 characters long", auth->a_user, auth->a_auth_group->ag_target->t_iqn); } if (len < 12) { if (auth->a_auth_group->ag_name != NULL) log_warnx("mutual secret for user \"%s\", " "auth-group \"%s\", is too short; it " "should be at least 12 characters long", auth->a_user, auth->a_auth_group->ag_name); else log_warnx("mutual secret for user \"%s\", " "target \"%s\", is too short; it should be " "at least 16 characters long", auth->a_user, auth->a_auth_group->ag_target->t_iqn); } } } const struct auth * auth_new_chap(struct auth_group *ag, const char *user, const char *secret) { struct auth *auth; if (ag->ag_type == AG_TYPE_UNKNOWN) ag->ag_type = AG_TYPE_CHAP; if (ag->ag_type != AG_TYPE_CHAP) { if (ag->ag_name != NULL) log_warnx("cannot mix \"chap\" authentication with " "other types for auth-group \"%s\"", ag->ag_name); else log_warnx("cannot mix \"chap\" authentication with " "other types for target \"%s\"", ag->ag_target->t_iqn); return (NULL); } auth = auth_new(ag); auth->a_user = checked_strdup(user); auth->a_secret = checked_strdup(secret); auth_check_secret_length(auth); return (auth); } const struct auth * auth_new_chap_mutual(struct auth_group *ag, const char *user, const char *secret, const char *user2, const char *secret2) { struct auth *auth; if (ag->ag_type == AG_TYPE_UNKNOWN) ag->ag_type = AG_TYPE_CHAP_MUTUAL; if (ag->ag_type != AG_TYPE_CHAP_MUTUAL) { if (ag->ag_name != NULL) log_warnx("cannot mix \"chap-mutual\" authentication " "with other types for auth-group \"%s\"", ag->ag_name); else log_warnx("cannot mix \"chap-mutual\" authentication " "with other types for target \"%s\"", ag->ag_target->t_iqn); return (NULL); } auth = auth_new(ag); auth->a_user = checked_strdup(user); auth->a_secret = checked_strdup(secret); auth->a_mutual_user = checked_strdup(user2); auth->a_mutual_secret = checked_strdup(secret2); auth_check_secret_length(auth); return (auth); } const struct auth_name * auth_name_new(struct auth_group *ag, const char *name) { struct auth_name *an; an = calloc(1, sizeof(*an)); if (an == NULL) log_err(1, "calloc"); an->an_auth_group = ag; an->an_initator_name = checked_strdup(name); TAILQ_INSERT_TAIL(&ag->ag_names, an, an_next); return (an); } static void auth_name_delete(struct auth_name *an) { TAILQ_REMOVE(&an->an_auth_group->ag_names, an, an_next); free(an->an_initator_name); free(an); } bool auth_name_defined(const struct auth_group *ag) { if (TAILQ_EMPTY(&ag->ag_names)) return (false); return (true); } const struct auth_name * auth_name_find(const struct auth_group *ag, const char *name) { const struct auth_name *auth_name; TAILQ_FOREACH(auth_name, &ag->ag_names, an_next) { if (strcmp(auth_name->an_initator_name, name) == 0) return (auth_name); } return (NULL); } const struct auth_portal * auth_portal_new(struct auth_group *ag, const char *portal) { struct auth_portal *ap; ap = calloc(1, sizeof(*ap)); if (ap == NULL) log_err(1, "calloc"); ap->ap_auth_group = ag; ap->ap_initator_portal = checked_strdup(portal); TAILQ_INSERT_TAIL(&ag->ag_portals, ap, ap_next); return (ap); } static void auth_portal_delete(struct auth_portal *ap) { TAILQ_REMOVE(&ap->ap_auth_group->ag_portals, ap, ap_next); free(ap->ap_initator_portal); free(ap); } bool auth_portal_defined(const struct auth_group *ag) { if (TAILQ_EMPTY(&ag->ag_portals)) return (false); return (true); } const struct auth_portal * auth_portal_find(const struct auth_group *ag, const char *portal) { const struct auth_portal *auth_portal; TAILQ_FOREACH(auth_portal, &ag->ag_portals, ap_next) { if (strcmp(auth_portal->ap_initator_portal, portal) == 0) return (auth_portal); } return (NULL); } struct auth_group * auth_group_new(struct conf *conf, const char *name) { struct auth_group *ag; if (name != NULL) { ag = auth_group_find(conf, name); if (ag != NULL) { log_warnx("duplicated auth-group \"%s\"", name); return (NULL); } } ag = calloc(1, sizeof(*ag)); if (ag == NULL) log_err(1, "calloc"); if (name != NULL) ag->ag_name = checked_strdup(name); TAILQ_INIT(&ag->ag_auths); TAILQ_INIT(&ag->ag_names); TAILQ_INIT(&ag->ag_portals); ag->ag_conf = conf; TAILQ_INSERT_TAIL(&conf->conf_auth_groups, ag, ag_next); return (ag); } void auth_group_delete(struct auth_group *ag) { struct auth *auth, *auth_tmp; struct auth_name *auth_name, *auth_name_tmp; struct auth_portal *auth_portal, *auth_portal_tmp; TAILQ_REMOVE(&ag->ag_conf->conf_auth_groups, ag, ag_next); TAILQ_FOREACH_SAFE(auth, &ag->ag_auths, a_next, auth_tmp) auth_delete(auth); TAILQ_FOREACH_SAFE(auth_name, &ag->ag_names, an_next, auth_name_tmp) auth_name_delete(auth_name); TAILQ_FOREACH_SAFE(auth_portal, &ag->ag_portals, ap_next, auth_portal_tmp) auth_portal_delete(auth_portal); free(ag->ag_name); free(ag); } struct auth_group * auth_group_find(struct conf *conf, const char *name) { struct auth_group *ag; TAILQ_FOREACH(ag, &conf->conf_auth_groups, ag_next) { if (ag->ag_name != NULL && strcmp(ag->ag_name, name) == 0) return (ag); } return (NULL); } static struct portal * portal_new(struct portal_group *pg) { struct portal *portal; portal = calloc(1, sizeof(*portal)); if (portal == NULL) log_err(1, "calloc"); TAILQ_INIT(&portal->p_targets); portal->p_portal_group = pg; TAILQ_INSERT_TAIL(&pg->pg_portals, portal, p_next); return (portal); } static void portal_delete(struct portal *portal) { TAILQ_REMOVE(&portal->p_portal_group->pg_portals, portal, p_next); freeaddrinfo(portal->p_ai); free(portal->p_listen); free(portal); } struct portal_group * portal_group_new(struct conf *conf, const char *name) { struct portal_group *pg; pg = portal_group_find(conf, name); if (pg != NULL) { log_warnx("duplicated portal-group \"%s\"", name); return (NULL); } pg = calloc(1, sizeof(*pg)); if (pg == NULL) log_err(1, "calloc"); pg->pg_name = checked_strdup(name); TAILQ_INIT(&pg->pg_portals); pg->pg_conf = conf; conf->conf_last_portal_group_tag++; pg->pg_tag = conf->conf_last_portal_group_tag; TAILQ_INSERT_TAIL(&conf->conf_portal_groups, pg, pg_next); return (pg); } void portal_group_delete(struct portal_group *pg) { struct portal *portal, *tmp; TAILQ_REMOVE(&pg->pg_conf->conf_portal_groups, pg, pg_next); TAILQ_FOREACH_SAFE(portal, &pg->pg_portals, p_next, tmp) portal_delete(portal); free(pg->pg_name); free(pg); } struct portal_group * portal_group_find(struct conf *conf, const char *name) { struct portal_group *pg; TAILQ_FOREACH(pg, &conf->conf_portal_groups, pg_next) { if (strcmp(pg->pg_name, name) == 0) return (pg); } return (NULL); } int portal_group_add_listen(struct portal_group *pg, const char *value, bool iser) { struct addrinfo hints; struct portal *portal; char *addr, *ch, *arg; const char *port; int error, colons = 0; #ifndef ICL_KERNEL_PROXY if (iser) { log_warnx("ctld(8) compiled without ICL_KERNEL_PROXY " "does not support iSER protocol"); return (-1); } #endif portal = portal_new(pg); portal->p_listen = checked_strdup(value); portal->p_iser = iser; arg = portal->p_listen; if (arg[0] == '\0') { log_warnx("empty listen address"); free(portal->p_listen); free(portal); return (1); } if (arg[0] == '[') { /* * IPv6 address in square brackets, perhaps with port. */ arg++; addr = strsep(&arg, "]"); if (arg == NULL) { log_warnx("invalid listen address %s", portal->p_listen); free(portal->p_listen); free(portal); return (1); } if (arg[0] == '\0') { port = "3260"; } else if (arg[0] == ':') { port = arg + 1; } else { log_warnx("invalid listen address %s", portal->p_listen); free(portal->p_listen); free(portal); return (1); } } else { /* * Either IPv6 address without brackets - and without * a port - or IPv4 address. Just count the colons. */ for (ch = arg; *ch != '\0'; ch++) { if (*ch == ':') colons++; } if (colons > 1) { addr = arg; port = "3260"; } else { addr = strsep(&arg, ":"); if (arg == NULL) port = "3260"; else port = arg; } } memset(&hints, 0, sizeof(hints)); hints.ai_family = PF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_PASSIVE; error = getaddrinfo(addr, port, &hints, &portal->p_ai); if (error != 0) { log_warnx("getaddrinfo for %s failed: %s", portal->p_listen, gai_strerror(error)); free(portal->p_listen); free(portal); return (1); } /* * XXX: getaddrinfo(3) may return multiple addresses; we should turn * those into multiple portals. */ return (0); } static bool valid_hex(const char ch) { switch (ch) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case 'a': case 'A': case 'b': case 'B': case 'c': case 'C': case 'd': case 'D': case 'e': case 'E': case 'f': case 'F': return (true); default: return (false); } } bool valid_iscsi_name(const char *name) { int i; if (strlen(name) >= MAX_NAME_LEN) { log_warnx("overlong name for target \"%s\"; max length allowed " "by iSCSI specification is %d characters", name, MAX_NAME_LEN); return (false); } /* * In the cases below, we don't return an error, just in case the admin * was right, and we're wrong. */ if (strncasecmp(name, "iqn.", strlen("iqn.")) == 0) { for (i = strlen("iqn."); name[i] != '\0'; i++) { /* * XXX: We should verify UTF-8 normalisation, as defined * by 3.2.6.2: iSCSI Name Encoding. */ if (isalnum(name[i])) continue; if (name[i] == '-' || name[i] == '.' || name[i] == ':') continue; log_warnx("invalid character \"%c\" in target name " "\"%s\"; allowed characters are letters, digits, " "'-', '.', and ':'", name[i], name); break; } /* * XXX: Check more stuff: valid date and a valid reversed domain. */ } else if (strncasecmp(name, "eui.", strlen("eui.")) == 0) { if (strlen(name) != strlen("eui.") + 16) log_warnx("invalid target name \"%s\"; the \"eui.\" " "should be followed by exactly 16 hexadecimal " "digits", name); for (i = strlen("eui."); name[i] != '\0'; i++) { if (!valid_hex(name[i])) { log_warnx("invalid character \"%c\" in target " "name \"%s\"; allowed characters are 1-9 " "and A-F", name[i], name); break; } } } else if (strncasecmp(name, "naa.", strlen("naa.")) == 0) { if (strlen(name) > strlen("naa.") + 32) log_warnx("invalid target name \"%s\"; the \"naa.\" " "should be followed by at most 32 hexadecimal " "digits", name); for (i = strlen("naa."); name[i] != '\0'; i++) { if (!valid_hex(name[i])) { log_warnx("invalid character \"%c\" in target " "name \"%s\"; allowed characters are 1-9 " "and A-F", name[i], name); break; } } } else { log_warnx("invalid target name \"%s\"; should start with " "either \".iqn\", \"eui.\", or \"naa.\"", name); } return (true); } struct target * target_new(struct conf *conf, const char *iqn) { struct target *targ; int i, len; targ = target_find(conf, iqn); if (targ != NULL) { log_warnx("duplicated target \"%s\"", iqn); return (NULL); } if (valid_iscsi_name(iqn) == false) { log_warnx("target name \"%s\" is invalid", iqn); return (NULL); } targ = calloc(1, sizeof(*targ)); if (targ == NULL) log_err(1, "calloc"); targ->t_iqn = checked_strdup(iqn); /* * RFC 3722 requires us to normalize the name to lowercase. */ len = strlen(iqn); for (i = 0; i < len; i++) targ->t_iqn[i] = tolower(targ->t_iqn[i]); TAILQ_INIT(&targ->t_luns); targ->t_conf = conf; TAILQ_INSERT_TAIL(&conf->conf_targets, targ, t_next); return (targ); } void target_delete(struct target *targ) { struct lun *lun, *tmp; TAILQ_REMOVE(&targ->t_conf->conf_targets, targ, t_next); TAILQ_FOREACH_SAFE(lun, &targ->t_luns, l_next, tmp) lun_delete(lun); free(targ->t_iqn); free(targ); } struct target * target_find(struct conf *conf, const char *iqn) { struct target *targ; TAILQ_FOREACH(targ, &conf->conf_targets, t_next) { if (strcasecmp(targ->t_iqn, iqn) == 0) return (targ); } return (NULL); } struct lun * lun_new(struct target *targ, int lun_id) { struct lun *lun; lun = lun_find(targ, lun_id); if (lun != NULL) { log_warnx("duplicated lun %d for target \"%s\"", lun_id, targ->t_iqn); return (NULL); } lun = calloc(1, sizeof(*lun)); if (lun == NULL) log_err(1, "calloc"); lun->l_lun = lun_id; TAILQ_INIT(&lun->l_options); lun->l_target = targ; TAILQ_INSERT_TAIL(&targ->t_luns, lun, l_next); return (lun); } void lun_delete(struct lun *lun) { struct lun_option *lo, *tmp; TAILQ_REMOVE(&lun->l_target->t_luns, lun, l_next); TAILQ_FOREACH_SAFE(lo, &lun->l_options, lo_next, tmp) lun_option_delete(lo); free(lun->l_backend); free(lun->l_device_id); free(lun->l_path); free(lun->l_serial); free(lun); } struct lun * lun_find(struct target *targ, int lun_id) { struct lun *lun; TAILQ_FOREACH(lun, &targ->t_luns, l_next) { if (lun->l_lun == lun_id) return (lun); } return (NULL); } void lun_set_backend(struct lun *lun, const char *value) { free(lun->l_backend); lun->l_backend = checked_strdup(value); } void lun_set_blocksize(struct lun *lun, size_t value) { lun->l_blocksize = value; } void lun_set_device_id(struct lun *lun, const char *value) { free(lun->l_device_id); lun->l_device_id = checked_strdup(value); } void lun_set_path(struct lun *lun, const char *value) { free(lun->l_path); lun->l_path = checked_strdup(value); } void lun_set_serial(struct lun *lun, const char *value) { free(lun->l_serial); lun->l_serial = checked_strdup(value); } void lun_set_size(struct lun *lun, size_t value) { lun->l_size = value; } void lun_set_ctl_lun(struct lun *lun, uint32_t value) { lun->l_ctl_lun = value; } struct lun_option * lun_option_new(struct lun *lun, const char *name, const char *value) { struct lun_option *lo; lo = lun_option_find(lun, name); if (lo != NULL) { log_warnx("duplicated lun option %s for lun %d, target \"%s\"", name, lun->l_lun, lun->l_target->t_iqn); return (NULL); } lo = calloc(1, sizeof(*lo)); if (lo == NULL) log_err(1, "calloc"); lo->lo_name = checked_strdup(name); lo->lo_value = checked_strdup(value); lo->lo_lun = lun; TAILQ_INSERT_TAIL(&lun->l_options, lo, lo_next); return (lo); } void lun_option_delete(struct lun_option *lo) { TAILQ_REMOVE(&lo->lo_lun->l_options, lo, lo_next); free(lo->lo_name); free(lo->lo_value); free(lo); } struct lun_option * lun_option_find(struct lun *lun, const char *name) { struct lun_option *lo; TAILQ_FOREACH(lo, &lun->l_options, lo_next) { if (strcmp(lo->lo_name, name) == 0) return (lo); } return (NULL); } void lun_option_set(struct lun_option *lo, const char *value) { free(lo->lo_value); lo->lo_value = checked_strdup(value); } static struct connection * connection_new(struct portal *portal, int fd, const char *host) { struct connection *conn; conn = calloc(1, sizeof(*conn)); if (conn == NULL) log_err(1, "calloc"); conn->conn_portal = portal; conn->conn_socket = fd; conn->conn_initiator_addr = checked_strdup(host); /* * Default values, from RFC 3720, section 12. */ conn->conn_max_data_segment_length = 8192; conn->conn_max_burst_length = 262144; conn->conn_immediate_data = true; return (conn); } #if 0 static void conf_print(struct conf *conf) { struct auth_group *ag; struct auth *auth; struct auth_name *auth_name; struct auth_portal *auth_portal; struct portal_group *pg; struct portal *portal; struct target *targ; struct lun *lun; struct lun_option *lo; TAILQ_FOREACH(ag, &conf->conf_auth_groups, ag_next) { fprintf(stderr, "auth-group %s {\n", ag->ag_name); TAILQ_FOREACH(auth, &ag->ag_auths, a_next) fprintf(stderr, "\t chap-mutual %s %s %s %s\n", auth->a_user, auth->a_secret, auth->a_mutual_user, auth->a_mutual_secret); TAILQ_FOREACH(auth_name, &ag->ag_names, an_next) fprintf(stderr, "\t initiator-name %s\n", auth_name->an_initator_name); TAILQ_FOREACH(auth_portal, &ag->ag_portals, an_next) fprintf(stderr, "\t initiator-portal %s\n", auth_portal->an_initator_portal); fprintf(stderr, "}\n"); } TAILQ_FOREACH(pg, &conf->conf_portal_groups, pg_next) { fprintf(stderr, "portal-group %s {\n", pg->pg_name); TAILQ_FOREACH(portal, &pg->pg_portals, p_next) fprintf(stderr, "\t listen %s\n", portal->p_listen); fprintf(stderr, "}\n"); } TAILQ_FOREACH(targ, &conf->conf_targets, t_next) { fprintf(stderr, "target %s {\n", targ->t_iqn); if (targ->t_alias != NULL) fprintf(stderr, "\t alias %s\n", targ->t_alias); TAILQ_FOREACH(lun, &targ->t_luns, l_next) { fprintf(stderr, "\tlun %d {\n", lun->l_lun); fprintf(stderr, "\t\tpath %s\n", lun->l_path); TAILQ_FOREACH(lo, &lun->l_options, lo_next) fprintf(stderr, "\t\toption %s %s\n", lo->lo_name, lo->lo_value); fprintf(stderr, "\t}\n"); } fprintf(stderr, "}\n"); } } #endif static int conf_verify_lun(struct lun *lun) { const struct lun *lun2; const struct target *targ2; if (lun->l_backend == NULL) lun_set_backend(lun, "block"); if (strcmp(lun->l_backend, "block") == 0) { if (lun->l_path == NULL) { log_warnx("missing path for lun %d, target \"%s\"", lun->l_lun, lun->l_target->t_iqn); return (1); } } else if (strcmp(lun->l_backend, "ramdisk") == 0) { if (lun->l_size == 0) { log_warnx("missing size for ramdisk-backed lun %d, " "target \"%s\"", lun->l_lun, lun->l_target->t_iqn); return (1); } if (lun->l_path != NULL) { log_warnx("path must not be specified " "for ramdisk-backed lun %d, target \"%s\"", lun->l_lun, lun->l_target->t_iqn); return (1); } } if (lun->l_lun < 0 || lun->l_lun > 255) { log_warnx("invalid lun number for lun %d, target \"%s\"; " "must be between 0 and 255", lun->l_lun, lun->l_target->t_iqn); return (1); } if (lun->l_blocksize == 0) { lun_set_blocksize(lun, DEFAULT_BLOCKSIZE); } else if (lun->l_blocksize < 0) { log_warnx("invalid blocksize for lun %d, target \"%s\"; " "must be larger than 0", lun->l_lun, lun->l_target->t_iqn); return (1); } if (lun->l_size != 0 && lun->l_size % lun->l_blocksize != 0) { log_warnx("invalid size for lun %d, target \"%s\"; " "must be multiple of blocksize", lun->l_lun, lun->l_target->t_iqn); return (1); } TAILQ_FOREACH(targ2, &lun->l_target->t_conf->conf_targets, t_next) { TAILQ_FOREACH(lun2, &targ2->t_luns, l_next) { if (lun == lun2) continue; if (lun->l_path != NULL && lun2->l_path != NULL && strcmp(lun->l_path, lun2->l_path) == 0) { log_debugx("WARNING: path \"%s\" duplicated " "between lun %d, target \"%s\", and " "lun %d, target \"%s\"", lun->l_path, lun->l_lun, lun->l_target->t_iqn, lun2->l_lun, lun2->l_target->t_iqn); } } } return (0); } int conf_verify(struct conf *conf) { struct auth_group *ag; struct portal_group *pg; struct target *targ; struct lun *lun; bool found_lun0; int error; if (conf->conf_pidfile_path == NULL) conf->conf_pidfile_path = checked_strdup(DEFAULT_PIDFILE); TAILQ_FOREACH(targ, &conf->conf_targets, t_next) { if (targ->t_auth_group == NULL) { log_warnx("missing authentication for target \"%s\"; " "must specify either \"auth-group\", \"chap\", " "or \"chap-mutual\"", targ->t_iqn); return (1); } if (targ->t_portal_group == NULL) { targ->t_portal_group = portal_group_find(conf, "default"); assert(targ->t_portal_group != NULL); } found_lun0 = false; TAILQ_FOREACH(lun, &targ->t_luns, l_next) { error = conf_verify_lun(lun); if (error != 0) return (error); if (lun->l_lun == 0) found_lun0 = true; } if (!found_lun0) { log_warnx("mandatory LUN 0 not configured " "for target \"%s\"", targ->t_iqn); return (1); } } TAILQ_FOREACH(pg, &conf->conf_portal_groups, pg_next) { assert(pg->pg_name != NULL); if (pg->pg_discovery_auth_group == NULL) { pg->pg_discovery_auth_group = auth_group_find(conf, "no-access"); assert(pg->pg_discovery_auth_group != NULL); } TAILQ_FOREACH(targ, &conf->conf_targets, t_next) { if (targ->t_portal_group == pg) break; } if (targ == NULL) { if (strcmp(pg->pg_name, "default") != 0) log_warnx("portal-group \"%s\" not assigned " "to any target", pg->pg_name); pg->pg_unassigned = true; } else pg->pg_unassigned = false; } TAILQ_FOREACH(ag, &conf->conf_auth_groups, ag_next) { if (ag->ag_name == NULL) assert(ag->ag_target != NULL); else assert(ag->ag_target == NULL); TAILQ_FOREACH(targ, &conf->conf_targets, t_next) { if (targ->t_auth_group == ag) break; } if (targ == NULL && ag->ag_name != NULL && strcmp(ag->ag_name, "no-authentication") != 0 && strcmp(ag->ag_name, "no-access") != 0) { log_warnx("auth-group \"%s\" not assigned " "to any target", ag->ag_name); } } return (0); } static int conf_apply(struct conf *oldconf, struct conf *newconf) { struct target *oldtarg, *newtarg, *tmptarg; struct lun *oldlun, *newlun, *tmplun; struct portal_group *oldpg, *newpg; struct portal *oldp, *newp; pid_t otherpid; int changed, cumulated_error = 0, error; #ifndef ICL_KERNEL_PROXY int one = 1; #endif if (oldconf->conf_debug != newconf->conf_debug) { log_debugx("changing debug level to %d", newconf->conf_debug); log_init(newconf->conf_debug); } if (oldconf->conf_pidfh != NULL) { assert(oldconf->conf_pidfile_path != NULL); if (newconf->conf_pidfile_path != NULL && strcmp(oldconf->conf_pidfile_path, newconf->conf_pidfile_path) == 0) { newconf->conf_pidfh = oldconf->conf_pidfh; oldconf->conf_pidfh = NULL; } else { log_debugx("removing pidfile %s", oldconf->conf_pidfile_path); pidfile_remove(oldconf->conf_pidfh); oldconf->conf_pidfh = NULL; } } if (newconf->conf_pidfh == NULL && newconf->conf_pidfile_path != NULL) { log_debugx("opening pidfile %s", newconf->conf_pidfile_path); newconf->conf_pidfh = pidfile_open(newconf->conf_pidfile_path, 0600, &otherpid); if (newconf->conf_pidfh == NULL) { if (errno == EEXIST) log_errx(1, "daemon already running, pid: %jd.", (intmax_t)otherpid); log_err(1, "cannot open or create pidfile \"%s\"", newconf->conf_pidfile_path); } } TAILQ_FOREACH_SAFE(oldtarg, &oldconf->conf_targets, t_next, tmptarg) { /* * First, remove any targets present in the old configuration * and missing in the new one. */ newtarg = target_find(newconf, oldtarg->t_iqn); if (newtarg == NULL) { TAILQ_FOREACH_SAFE(oldlun, &oldtarg->t_luns, l_next, tmplun) { log_debugx("target %s not found in the " "configuration file; removing its lun %d, " "backed by CTL lun %d", oldtarg->t_iqn, oldlun->l_lun, oldlun->l_ctl_lun); error = kernel_lun_remove(oldlun); if (error != 0) { log_warnx("failed to remove lun %d, " "target %s, CTL lun %d", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); cumulated_error++; } lun_delete(oldlun); } target_delete(oldtarg); continue; } /* * Second, remove any LUNs present in the old target * and missing in the new one. */ TAILQ_FOREACH_SAFE(oldlun, &oldtarg->t_luns, l_next, tmplun) { newlun = lun_find(newtarg, oldlun->l_lun); if (newlun == NULL) { log_debugx("lun %d, target %s, CTL lun %d " "not found in the configuration file; " "removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); error = kernel_lun_remove(oldlun); if (error != 0) { log_warnx("failed to remove lun %d, " "target %s, CTL lun %d", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); cumulated_error++; } lun_delete(oldlun); continue; } /* * Also remove the LUNs changed by more than size. */ changed = 0; assert(oldlun->l_backend != NULL); assert(newlun->l_backend != NULL); if (strcmp(newlun->l_backend, oldlun->l_backend) != 0) { log_debugx("backend for lun %d, target %s, " "CTL lun %d changed; removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); changed = 1; } if (oldlun->l_blocksize != newlun->l_blocksize) { log_debugx("blocksize for lun %d, target %s, " "CTL lun %d changed; removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); changed = 1; } if (newlun->l_device_id != NULL && (oldlun->l_device_id == NULL || strcmp(oldlun->l_device_id, newlun->l_device_id) != 0)) { log_debugx("device-id for lun %d, target %s, " "CTL lun %d changed; removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); changed = 1; } if (newlun->l_path != NULL && (oldlun->l_path == NULL || strcmp(oldlun->l_path, newlun->l_path) != 0)) { log_debugx("path for lun %d, target %s, " "CTL lun %d, changed; removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); changed = 1; } if (newlun->l_serial != NULL && (oldlun->l_serial == NULL || strcmp(oldlun->l_serial, newlun->l_serial) != 0)) { log_debugx("serial for lun %d, target %s, " "CTL lun %d changed; removing", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); changed = 1; } if (changed) { error = kernel_lun_remove(oldlun); if (error != 0) { log_warnx("failed to remove lun %d, " "target %s, CTL lun %d", oldlun->l_lun, oldtarg->t_iqn, oldlun->l_ctl_lun); cumulated_error++; } lun_delete(oldlun); continue; } lun_set_ctl_lun(newlun, oldlun->l_ctl_lun); } } /* * Now add new targets or modify existing ones. */ TAILQ_FOREACH(newtarg, &newconf->conf_targets, t_next) { oldtarg = target_find(oldconf, newtarg->t_iqn); TAILQ_FOREACH(newlun, &newtarg->t_luns, l_next) { if (oldtarg != NULL) { oldlun = lun_find(oldtarg, newlun->l_lun); if (oldlun != NULL) { if (newlun->l_size != oldlun->l_size) { log_debugx("resizing lun %d, " "target %s, CTL lun %d", newlun->l_lun, newtarg->t_iqn, newlun->l_ctl_lun); error = kernel_lun_resize(newlun); if (error != 0) { log_warnx("failed to " "resize lun %d, " "target %s, " "CTL lun %d", newlun->l_lun, newtarg->t_iqn, newlun->l_lun); cumulated_error++; } } continue; } } log_debugx("adding lun %d, target %s", newlun->l_lun, newtarg->t_iqn); error = kernel_lun_add(newlun); if (error != 0) { log_warnx("failed to add lun %d, target %s", newlun->l_lun, newtarg->t_iqn); cumulated_error++; } } } /* * Go through the new portals, opening the sockets as neccessary. */ TAILQ_FOREACH(newpg, &newconf->conf_portal_groups, pg_next) { if (newpg->pg_unassigned) { log_debugx("not listening on portal-group \"%s\", " "not assigned to any target", newpg->pg_name); continue; } TAILQ_FOREACH(newp, &newpg->pg_portals, p_next) { /* * Try to find already open portal and reuse * the listening socket. We don't care about * what portal or portal group that was, what * matters is the listening address. */ TAILQ_FOREACH(oldpg, &oldconf->conf_portal_groups, pg_next) { TAILQ_FOREACH(oldp, &oldpg->pg_portals, p_next) { if (strcmp(newp->p_listen, oldp->p_listen) == 0 && oldp->p_socket > 0) { newp->p_socket = oldp->p_socket; oldp->p_socket = 0; break; } } } if (newp->p_socket > 0) { /* * We're done with this portal. */ continue; } #ifdef ICL_KERNEL_PROXY log_debugx("listening on %s, portal-group \"%s\" using ICL proxy", newp->p_listen, newpg->pg_name); kernel_listen(newp->p_ai, newp->p_iser); #else assert(newp->p_iser == false); log_debugx("listening on %s, portal-group \"%s\"", newp->p_listen, newpg->pg_name); newp->p_socket = socket(newp->p_ai->ai_family, newp->p_ai->ai_socktype, newp->p_ai->ai_protocol); if (newp->p_socket < 0) { log_warn("socket(2) failed for %s", newp->p_listen); cumulated_error++; continue; } error = setsockopt(newp->p_socket, SOL_SOCKET, SO_REUSEADDR, &one, sizeof(one)); if (error != 0) { log_warn("setsockopt(SO_REUSEADDR) failed " "for %s", newp->p_listen); close(newp->p_socket); newp->p_socket = 0; cumulated_error++; continue; } error = bind(newp->p_socket, newp->p_ai->ai_addr, newp->p_ai->ai_addrlen); if (error != 0) { log_warn("bind(2) failed for %s", newp->p_listen); close(newp->p_socket); newp->p_socket = 0; cumulated_error++; continue; } error = listen(newp->p_socket, -1); if (error != 0) { log_warn("listen(2) failed for %s", newp->p_listen); close(newp->p_socket); newp->p_socket = 0; cumulated_error++; continue; } #endif /* !ICL_KERNEL_PROXY */ } } /* * Go through the no longer used sockets, closing them. */ TAILQ_FOREACH(oldpg, &oldconf->conf_portal_groups, pg_next) { TAILQ_FOREACH(oldp, &oldpg->pg_portals, p_next) { if (oldp->p_socket <= 0) continue; log_debugx("closing socket for %s, portal-group \"%s\"", oldp->p_listen, oldpg->pg_name); close(oldp->p_socket); oldp->p_socket = 0; } } return (cumulated_error); } bool timed_out(void) { return (sigalrm_received); } static void sigalrm_handler(int dummy __unused) { /* * It would be easiest to just log an error and exit. We can't * do this, though, because log_errx() is not signal safe, since * it calls syslog(3). Instead, set a flag checked by pdu_send() * and pdu_receive(), to call log_errx() there. Should they fail * to notice, we'll exit here one second later. */ if (sigalrm_received) { /* * Oh well. Just give up and quit. */ _exit(2); } sigalrm_received = true; } static void set_timeout(const struct conf *conf) { struct sigaction sa; struct itimerval itv; int error; if (conf->conf_timeout <= 0) { log_debugx("session timeout disabled"); return; } bzero(&sa, sizeof(sa)); sa.sa_handler = sigalrm_handler; sigfillset(&sa.sa_mask); error = sigaction(SIGALRM, &sa, NULL); if (error != 0) log_err(1, "sigaction"); /* * First SIGALRM will arive after conf_timeout seconds. * If we do nothing, another one will arrive a second later. */ bzero(&itv, sizeof(itv)); itv.it_interval.tv_sec = 1; itv.it_value.tv_sec = conf->conf_timeout; log_debugx("setting session timeout to %d seconds", conf->conf_timeout); error = setitimer(ITIMER_REAL, &itv, NULL); if (error != 0) log_err(1, "setitimer"); } static int wait_for_children(bool block) { pid_t pid; int status; int num = 0; for (;;) { /* * If "block" is true, wait for at least one process. */ if (block && num == 0) pid = wait4(-1, &status, 0, NULL); else pid = wait4(-1, &status, WNOHANG, NULL); if (pid <= 0) break; if (WIFSIGNALED(status)) { log_warnx("child process %d terminated with signal %d", pid, WTERMSIG(status)); } else if (WEXITSTATUS(status) != 0) { log_warnx("child process %d terminated with exit status %d", pid, WEXITSTATUS(status)); } else { log_debugx("child process %d terminated gracefully", pid); } num++; } return (num); } static void handle_connection(struct portal *portal, int fd, bool dont_fork) { struct connection *conn; #ifndef ICL_KERNEL_PROXY struct sockaddr_storage ss; socklen_t sslen = sizeof(ss); int error; #endif pid_t pid; char host[NI_MAXHOST + 1]; struct conf *conf; conf = portal->p_portal_group->pg_conf; if (dont_fork) { log_debugx("incoming connection; not forking due to -d flag"); } else { nchildren -= wait_for_children(false); assert(nchildren >= 0); while (conf->conf_maxproc > 0 && nchildren >= conf->conf_maxproc) { log_debugx("maxproc limit of %d child processes hit; " "waiting for child process to exit", conf->conf_maxproc); nchildren -= wait_for_children(true); assert(nchildren >= 0); } log_debugx("incoming connection; forking child process #%d", nchildren); nchildren++; pid = fork(); if (pid < 0) log_err(1, "fork"); if (pid > 0) { close(fd); return; } } pidfile_close(conf->conf_pidfh); #ifdef ICL_KERNEL_PROXY /* * XXX */ log_set_peer_addr("XXX"); #else error = getpeername(fd, (struct sockaddr *)&ss, &sslen); if (error != 0) log_err(1, "getpeername"); error = getnameinfo((struct sockaddr *)&ss, sslen, host, sizeof(host), NULL, 0, NI_NUMERICHOST); if (error != 0) log_errx(1, "getaddrinfo: %s", gai_strerror(error)); log_debugx("accepted connection from %s; portal group \"%s\"", host, portal->p_portal_group->pg_name); log_set_peer_addr(host); setproctitle("%s", host); #endif conn = connection_new(portal, fd, host); set_timeout(conf); kernel_capsicate(); login(conn); if (conn->conn_session_type == CONN_SESSION_TYPE_NORMAL) { kernel_handoff(conn); log_debugx("connection handed off to the kernel"); } else { assert(conn->conn_session_type == CONN_SESSION_TYPE_DISCOVERY); discovery(conn); } log_debugx("nothing more to do; exiting"); exit(0); } #ifndef ICL_KERNEL_PROXY static int fd_add(int fd, fd_set *fdset, int nfds) { /* * Skip sockets which we failed to bind. */ if (fd <= 0) return (nfds); FD_SET(fd, fdset); if (fd > nfds) nfds = fd; return (nfds); } #endif static void main_loop(struct conf *conf, bool dont_fork) { struct portal_group *pg; struct portal *portal; #ifdef ICL_KERNEL_PROXY int connection_id; #else fd_set fdset; int error, nfds, client_fd; #endif pidfile_write(conf->conf_pidfh); for (;;) { if (sighup_received || sigterm_received) return; #ifdef ICL_KERNEL_PROXY connection_id = kernel_accept(); if (connection_id == 0) continue; /* * XXX: This is obviously temporary. */ pg = TAILQ_FIRST(&conf->conf_portal_groups); portal = TAILQ_FIRST(&pg->pg_portals); handle_connection(portal, connection_id, dont_fork); #else FD_ZERO(&fdset); nfds = 0; TAILQ_FOREACH(pg, &conf->conf_portal_groups, pg_next) { TAILQ_FOREACH(portal, &pg->pg_portals, p_next) nfds = fd_add(portal->p_socket, &fdset, nfds); } error = select(nfds + 1, &fdset, NULL, NULL, NULL); if (error <= 0) { if (errno == EINTR) return; log_err(1, "select"); } TAILQ_FOREACH(pg, &conf->conf_portal_groups, pg_next) { TAILQ_FOREACH(portal, &pg->pg_portals, p_next) { if (!FD_ISSET(portal->p_socket, &fdset)) continue; client_fd = accept(portal->p_socket, NULL, 0); if (client_fd < 0) log_err(1, "accept"); handle_connection(portal, client_fd, dont_fork); break; } } #endif /* !ICL_KERNEL_PROXY */ } } static void sighup_handler(int dummy __unused) { sighup_received = true; } static void sigterm_handler(int dummy __unused) { sigterm_received = true; } static void register_signals(void) { struct sigaction sa; int error; bzero(&sa, sizeof(sa)); sa.sa_handler = sighup_handler; sigfillset(&sa.sa_mask); error = sigaction(SIGHUP, &sa, NULL); if (error != 0) log_err(1, "sigaction"); sa.sa_handler = sigterm_handler; error = sigaction(SIGTERM, &sa, NULL); if (error != 0) log_err(1, "sigaction"); sa.sa_handler = sigterm_handler; error = sigaction(SIGINT, &sa, NULL); if (error != 0) log_err(1, "sigaction"); } int main(int argc, char **argv) { struct conf *oldconf, *newconf, *tmpconf; const char *config_path = DEFAULT_CONFIG_PATH; int debug = 0, ch, error; bool dont_daemonize = false; while ((ch = getopt(argc, argv, "df:")) != -1) { switch (ch) { case 'd': dont_daemonize = true; debug++; break; case 'f': config_path = optarg; break; case '?': default: usage(); } } argc -= optind; if (argc != 0) usage(); log_init(debug); kernel_init(); oldconf = conf_new_from_kernel(); newconf = conf_new_from_file(config_path); if (newconf == NULL) log_errx(1, "configuration error, exiting"); if (debug > 0) { oldconf->conf_debug = debug; newconf->conf_debug = debug; } #ifdef ICL_KERNEL_PROXY log_debugx("enabling CTL iSCSI port"); error = kernel_port_on(); if (error != 0) log_errx(1, "failed to enable CTL iSCSI port, exiting"); #endif error = conf_apply(oldconf, newconf); if (error != 0) log_errx(1, "failed to apply configuration, exiting"); conf_delete(oldconf); oldconf = NULL; register_signals(); #ifndef ICL_KERNEL_PROXY log_debugx("enabling CTL iSCSI port"); error = kernel_port_on(); if (error != 0) log_errx(1, "failed to enable CTL iSCSI port, exiting"); #endif if (dont_daemonize == false) { log_debugx("daemonizing"); if (daemon(0, 0) == -1) { log_warn("cannot daemonize"); pidfile_remove(newconf->conf_pidfh); exit(1); } } for (;;) { main_loop(newconf, dont_daemonize); if (sighup_received) { sighup_received = false; log_debugx("received SIGHUP, reloading configuration"); tmpconf = conf_new_from_file(config_path); if (tmpconf == NULL) { log_warnx("configuration error, " "continuing with old configuration"); } else { if (debug > 0) tmpconf->conf_debug = debug; oldconf = newconf; newconf = tmpconf; error = conf_apply(oldconf, newconf); if (error != 0) log_warnx("failed to reload " "configuration"); conf_delete(oldconf); oldconf = NULL; } } else if (sigterm_received) { log_debugx("exiting on signal; " "reloading empty configuration"); log_debugx("disabling CTL iSCSI port " "and terminating all connections"); error = kernel_port_off(); if (error != 0) log_warnx("failed to disable CTL iSCSI port"); oldconf = newconf; newconf = conf_new(); if (debug > 0) newconf->conf_debug = debug; error = conf_apply(oldconf, newconf); if (error != 0) log_warnx("failed to apply configuration"); log_warnx("exiting on signal"); exit(0); } else { nchildren -= wait_for_children(false); assert(nchildren >= 0); } } /* NOTREACHED */ }