/* * Copyright (C) 2019-2022 by Sukchan Lee * * This file is part of Open5GS. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include "context.h" static bsf_context_t self; int __bsf_log_domain; static OGS_POOL(bsf_sess_pool, bsf_sess_t); static int context_initialized = 0; void bsf_context_init(void) { ogs_assert(context_initialized == 0); /* Initialize BSF context */ memset(&self, 0, sizeof(bsf_context_t)); ogs_log_install_domain(&__bsf_log_domain, "bsf", ogs_core()->log.level); ogs_pool_init(&bsf_sess_pool, ogs_app()->pool.sess); self.ipv4addr_hash = ogs_hash_make(); ogs_assert(self.ipv4addr_hash); self.ipv6prefix_hash = ogs_hash_make(); ogs_assert(self.ipv6prefix_hash); context_initialized = 1; } void bsf_context_final(void) { ogs_assert(context_initialized == 1); bsf_sess_remove_all(); ogs_assert(self.ipv4addr_hash); ogs_hash_destroy(self.ipv4addr_hash); ogs_assert(self.ipv6prefix_hash); ogs_hash_destroy(self.ipv6prefix_hash); ogs_pool_final(&bsf_sess_pool); context_initialized = 0; } bsf_context_t *bsf_self(void) { return &self; } static int bsf_context_prepare(void) { return OGS_OK; } static int bsf_context_validation(void) { return OGS_OK; } int bsf_context_parse_config(void) { int rv; yaml_document_t *document = NULL; ogs_yaml_iter_t root_iter; document = ogs_app()->document; ogs_assert(document); rv = bsf_context_prepare(); if (rv != OGS_OK) return rv; ogs_yaml_iter_init(&root_iter, document); while (ogs_yaml_iter_next(&root_iter)) { const char *root_key = ogs_yaml_iter_key(&root_iter); ogs_assert(root_key); if (!strcmp(root_key, "bsf")) { ogs_yaml_iter_t bsf_iter; ogs_yaml_iter_recurse(&root_iter, &bsf_iter); while (ogs_yaml_iter_next(&bsf_iter)) { const char *bsf_key = ogs_yaml_iter_key(&bsf_iter); ogs_assert(bsf_key); if (!strcmp(bsf_key, "sbi")) { /* handle config in sbi library */ } else if (!strcmp(bsf_key, "service_name")) { /* handle config in sbi library */ } else if (!strcmp(bsf_key, "discovery")) { /* handle config in sbi library */ } else ogs_warn("unknown key `%s`", bsf_key); } } } rv = bsf_context_validation(); if (rv != OGS_OK) return rv; return OGS_OK; } bsf_sess_t *bsf_sess_add_by_ip_address( char *ipv4addr_string, char *ipv6prefix_string) { bsf_sess_t *sess = NULL; ogs_assert(ipv4addr_string || ipv6prefix_string); ogs_pool_alloc(&bsf_sess_pool, &sess); if (!sess) { ogs_error("Maximum number of session[%lld] reached", (long long)ogs_app()->pool.sess); return NULL; } memset(sess, 0, sizeof *sess); if (ipv4addr_string && bsf_sess_set_ipv4addr(sess, ipv4addr_string) == false) { ogs_error("bsf_sess_set_ipv4addr[%s] failed", ipv4addr_string); ogs_pool_free(&bsf_sess_pool, sess); return NULL; } if (ipv6prefix_string && bsf_sess_set_ipv6prefix(sess, ipv6prefix_string) == false) { ogs_error("bsf_sess_set_ipv6prefix[%s] failed", ipv4addr_string); ogs_pool_free(&bsf_sess_pool, sess); return NULL; } /* SBI Features */ OGS_SBI_FEATURES_SET(sess->management_features, OGS_SBI_NBSF_MANAGEMENT_BINDING_UPDATE); sess->binding_id = ogs_msprintf("%d", (int)ogs_pool_index(&bsf_sess_pool, sess)); ogs_assert(sess->binding_id); ogs_list_add(&self.sess_list, sess); return sess; } void bsf_sess_remove(bsf_sess_t *sess) { int i; ogs_assert(sess); ogs_list_remove(&self.sess_list, sess); /* Free SBI object memory */ ogs_sbi_object_free(&sess->sbi); ogs_assert(sess->binding_id); ogs_free(sess->binding_id); if (sess->supi) ogs_free(sess->supi); if (sess->gpsi) ogs_free(sess->gpsi); if (sess->ipv4addr_string) { ogs_hash_set(self.ipv4addr_hash, &sess->ipv4addr, sizeof(sess->ipv4addr), NULL); ogs_free(sess->ipv4addr_string); } if (sess->ipv6prefix_string) { ogs_hash_set(self.ipv6prefix_hash, &sess->ipv6prefix, (sess->ipv6prefix.len >> 3) + 1, NULL); ogs_free(sess->ipv6prefix_string); } OpenAPI_clear_and_free_string_list(sess->ipv4_frame_route_list); OpenAPI_clear_and_free_string_list(sess->ipv6_frame_route_list); ogs_assert(sess->dnn); ogs_free(sess->dnn); if (sess->pcf_fqdn) ogs_free(sess->pcf_fqdn); for (i = 0; i < sess->num_of_pcf_ip; i++) { if (sess->pcf_ip[i].addr) ogs_free(sess->pcf_ip[i].addr); if (sess->pcf_ip[i].addr6) ogs_free(sess->pcf_ip[i].addr6); } sess->num_of_pcf_ip = 0; ogs_pool_free(&bsf_sess_pool, sess); } void bsf_sess_remove_all(void) { bsf_sess_t *sess = NULL, *next_sess = NULL; ogs_list_for_each_safe(&self.sess_list, next_sess, sess) bsf_sess_remove(sess); } bool bsf_sess_set_ipv4addr(bsf_sess_t *sess, char *ipv4addr_string) { int rv; ogs_assert(sess); ogs_assert(ipv4addr_string); if (sess->ipv4addr_string) { ogs_hash_set(self.ipv4addr_hash, &sess->ipv4addr, sizeof(sess->ipv4addr), NULL); ogs_free(sess->ipv4addr_string); } rv = ogs_ipv4_from_string(&sess->ipv4addr, ipv4addr_string); if (rv != OGS_OK) { ogs_error("ogs_ipv4_from_string() failed"); return false; } sess->ipv4addr_string = ogs_strdup(ipv4addr_string); if (!sess->ipv4addr_string) { ogs_error("ogs_strdup() failed"); return false; } ogs_hash_set(self.ipv4addr_hash, &sess->ipv4addr, sizeof(sess->ipv4addr), sess); return true; } bool bsf_sess_set_ipv6prefix(bsf_sess_t *sess, char *ipv6prefix_string) { int rv; ogs_assert(sess); ogs_assert(ipv6prefix_string); if (sess->ipv6prefix_string) { ogs_hash_set(self.ipv6prefix_hash, &sess->ipv6prefix, (sess->ipv6prefix.len >> 3) + 1, NULL); ogs_free(sess->ipv6prefix_string); } rv = ogs_ipv6prefix_from_string( sess->ipv6prefix.addr6, &sess->ipv6prefix.len, ipv6prefix_string); if (rv != OGS_OK) { ogs_error("ogs_ipv6prefix_from_string() failed"); return false; } ogs_assert(sess->ipv6prefix.len == OGS_IPV6_128_PREFIX_LEN); sess->ipv6prefix_string = ogs_strdup(ipv6prefix_string); if (!sess->ipv6prefix_string) { ogs_error("ogs_strdup() failed"); return false; } ogs_hash_set(self.ipv6prefix_hash, &sess->ipv6prefix, (sess->ipv6prefix.len >> 3) + 1, sess); return true; } bsf_sess_t *bsf_sess_find(uint32_t index) { return ogs_pool_find(&bsf_sess_pool, index); } bsf_sess_t *bsf_sess_find_by_snssai_and_dnn(ogs_s_nssai_t *s_nssai, char *dnn) { bsf_sess_t *sess = NULL; ogs_assert(s_nssai); ogs_assert(dnn); ogs_list_for_each(&self.sess_list, sess) if (sess->s_nssai.sst == s_nssai->sst && sess->dnn && ogs_strcasecmp(sess->dnn, dnn) == 0) return sess; return NULL; } bsf_sess_t *bsf_sess_find_by_binding_id(char *binding_id) { ogs_assert(binding_id); return bsf_sess_find(atoll(binding_id)); } bsf_sess_t *bsf_sess_find_by_ipv4addr(char *ipv4addr_string) { uint32_t ipv4addr; int rv; ogs_assert(ipv4addr_string); rv = ogs_ipv4_from_string(&ipv4addr, ipv4addr_string); if (rv != OGS_OK) { ogs_error("ogs_ipv4_from_string() failed"); return NULL; } return ogs_hash_get(self.ipv4addr_hash, &ipv4addr, sizeof(ipv4addr)); } bsf_sess_t *bsf_sess_find_by_ipv6prefix(char *ipv6prefix_string) { int rv; struct { uint8_t len; uint8_t addr6[OGS_IPV6_LEN]; } ipv6prefix; ogs_assert(ipv6prefix_string); rv = ogs_ipv6prefix_from_string( ipv6prefix.addr6, &ipv6prefix.len, ipv6prefix_string); ogs_assert(rv == OGS_OK); ogs_assert(ipv6prefix.len == OGS_IPV6_128_PREFIX_LEN); return ogs_hash_get(self.ipv6prefix_hash, &ipv6prefix, (ipv6prefix.len >> 3) + 1); } int get_sess_load() { return (((ogs_pool_size(&bsf_sess_pool) - ogs_pool_avail(&bsf_sess_pool)) * 100) / ogs_pool_size(&bsf_sess_pool)); }