/* * Copyright (C) 2012 Martin Willi * Copyright (C) 2012 revosec AG * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. See . * * 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. */ #include "stroke_counter.h" #include #include ENUM(stroke_counter_type_names, COUNTER_INIT_IKE_SA_REKEY, COUNTER_OUT_INFORMATIONAL_RSP, "ikeInitRekey", "ikeRspRekey", "ikeChildSaRekey", "ikeInInvalid", "ikeInInvalidSpi", "ikeInInitReq", "ikeInInitRsp", "ikeOutInitReq", "ikeOutInitRsp", "ikeInAuthReq", "ikeInAuthRsp", "ikeOutAuthReq", "ikeOutAuthRsp", "ikeInCrChildReq", "ikeInCrChildRsp", "ikeOutCrChildReq", "ikeOutCrChildRsp", "ikeInInfoReq", "ikeInInfoRsp", "ikeOutInfoReq", "ikeOutInfoRsp", ); typedef struct private_stroke_counter_t private_stroke_counter_t; /** * Private data of an stroke_counter_t object. */ struct private_stroke_counter_t { /** * Public stroke_counter_t interface. */ stroke_counter_t public; /** * Global counter values */ u_int64_t counter[COUNTER_MAX]; /** * Counters for specific connection names, char* => entry_t */ hashtable_t *conns; /** * Lock for counter values */ spinlock_t *lock; }; /** * Counters for a specific connection name */ typedef struct { /** connection name */ char *name; /** counter values for connection */ u_int64_t counter[COUNTER_MAX]; } entry_t; /** * Destroy named entry */ static void destroy_entry(entry_t *this) { free(this->name); free(this); } /** * Hashtable hash function */ static u_int hash(char *name) { return chunk_hash(chunk_from_str(name)); } /** * Hashtable equals function */ static bool equals(char *a, char *b) { return streq(a, b); } /** * Get the name of an IKE_SA, but return NULL if it is not known yet */ static char *get_ike_sa_name(ike_sa_t *ike_sa) { peer_cfg_t *peer_cfg; if (ike_sa) { peer_cfg = ike_sa->get_peer_cfg(ike_sa); if (peer_cfg) { return peer_cfg->get_name(peer_cfg); } } return NULL; } /** * Increase a counter for a named entry */ static void count_named(private_stroke_counter_t *this, ike_sa_t *ike_sa, stroke_counter_type_t type) { entry_t *entry; char *name; name = get_ike_sa_name(ike_sa); if (name) { entry = this->conns->get(this->conns, name); if (!entry) { INIT(entry, .name = strdup(name), ); this->conns->put(this->conns, entry->name, entry); } entry->counter[type]++; } } METHOD(listener_t, alert, bool, private_stroke_counter_t *this, ike_sa_t *ike_sa, alert_t alert, va_list args) { stroke_counter_type_t type; switch (alert) { case ALERT_INVALID_IKE_SPI: type = COUNTER_IN_INVALID_IKE_SPI; break; case ALERT_PARSE_ERROR_HEADER: case ALERT_PARSE_ERROR_BODY: type = COUNTER_IN_INVALID; break; default: return TRUE; } this->lock->lock(this->lock); this->counter[type]++; count_named(this, ike_sa, type); this->lock->unlock(this->lock); return TRUE; } METHOD(listener_t, ike_rekey, bool, private_stroke_counter_t *this, ike_sa_t *old, ike_sa_t *new) { stroke_counter_type_t type; ike_sa_id_t *id; id = new->get_id(new); if (id->is_initiator(id)) { type = COUNTER_INIT_IKE_SA_REKEY; } else { type = COUNTER_RESP_IKE_SA_REKEY; } this->lock->lock(this->lock); this->counter[type]++; count_named(this, old, type); this->lock->unlock(this->lock); return TRUE; } METHOD(listener_t, child_rekey, bool, private_stroke_counter_t *this, ike_sa_t *ike_sa, child_sa_t *old, child_sa_t *new) { this->lock->lock(this->lock); this->counter[COUNTER_CHILD_SA_REKEY]++; count_named(this, ike_sa, COUNTER_CHILD_SA_REKEY); this->lock->unlock(this->lock); return TRUE; } METHOD(listener_t, message_hook, bool, private_stroke_counter_t *this, ike_sa_t *ike_sa, message_t *message, bool incoming, bool plain) { stroke_counter_type_t type; bool request; if ((incoming && !plain) || (!incoming && !plain)) { /* handle each message only once */ return TRUE; } request = message->get_request(message); switch (message->get_exchange_type(message)) { case IKE_SA_INIT: if (incoming) { type = request ? COUNTER_IN_IKE_SA_INIT_REQ : COUNTER_IN_IKE_SA_INIT_RSP; } else { type = request ? COUNTER_OUT_IKE_SA_INIT_REQ : COUNTER_OUT_IKE_SA_INIT_RES; } break; case IKE_AUTH: if (incoming) { type = request ? COUNTER_IN_IKE_AUTH_REQ : COUNTER_IN_IKE_AUTH_RSP; } else { type = request ? COUNTER_OUT_IKE_AUTH_REQ : COUNTER_OUT_IKE_AUTH_RSP; } break; case CREATE_CHILD_SA: if (incoming) { type = request ? COUNTER_IN_CREATE_CHILD_SA_REQ : COUNTER_IN_CREATE_CHILD_SA_RSP; } else { type = request ? COUNTER_OUT_CREATE_CHILD_SA_REQ : COUNTER_OUT_CREATE_CHILD_SA_RSP; } break; case INFORMATIONAL: if (incoming) { type = request ? COUNTER_IN_INFORMATIONAL_REQ : COUNTER_IN_INFORMATIONAL_RSP; } else { type = request ? COUNTER_OUT_INFORMATIONAL_REQ : COUNTER_OUT_INFORMATIONAL_RSP; } break; default: return TRUE; } this->lock->lock(this->lock); this->counter[type]++; count_named(this, ike_sa, type); this->lock->unlock(this->lock); return TRUE; } /** * Print a single counter value to out */ static void print_counter(FILE *out, stroke_counter_type_t type, u_int64_t counter) { fprintf(out, "%-18N %12llu\n", stroke_counter_type_names, type, counter); } /** * Print IKE counters for a specific connection */ static void print_one(private_stroke_counter_t *this, FILE *out, char *name) { u_int64_t counter[COUNTER_MAX]; entry_t *entry; int i; this->lock->lock(this->lock); entry = this->conns->get(this->conns, name); if (entry) { for (i = 0; i < countof(this->counter); i++) { counter[i] = entry->counter[i]; } } this->lock->unlock(this->lock); if (entry) { fprintf(out, "\nList of IKE counters for '%s':\n\n", name); for (i = 0; i < countof(this->counter); i++) { print_counter(out, i, counter[i]); } } else { fprintf(out, "No IKE counters found for '%s'\n", name); } } /** * Print counters for all connections */ static void print_all(private_stroke_counter_t *this, FILE *out) { enumerator_t *enumerator; entry_t *entry; linked_list_t *list; char *name; list = linked_list_create(); this->lock->lock(this->lock); enumerator = this->conns->create_enumerator(this->conns); while (enumerator->enumerate(enumerator, &name, &entry)) { list->insert_last(list, strdup(name)); } enumerator->destroy(enumerator); this->lock->unlock(this->lock); enumerator = list->create_enumerator(list); while (enumerator->enumerate(enumerator, &name)) { print_one(this, out, name); } enumerator->destroy(enumerator); list->destroy_function(list, free); } /** * Print global counters */ static void print_global(private_stroke_counter_t *this, FILE *out) { u_int64_t counter[COUNTER_MAX]; int i; this->lock->lock(this->lock); for (i = 0; i < countof(this->counter); i++) { counter[i] = this->counter[i]; } this->lock->unlock(this->lock); fprintf(out, "\nList of IKE counters:\n\n"); for (i = 0; i < countof(this->counter); i++) { print_counter(out, i, counter[i]); } } METHOD(stroke_counter_t, print, void, private_stroke_counter_t *this, FILE *out, char *name) { if (name) { if (streq(name, "all")) { return print_all(this, out); } return print_one(this, out, name); } return print_global(this, out); } METHOD(stroke_counter_t, reset, void, private_stroke_counter_t *this, char *name) { this->lock->lock(this->lock); if (name) { entry_t *entry; entry = this->conns->remove(this->conns, name); if (entry) { destroy_entry(entry); } } else { memset(&this->counter, 0, sizeof(this->counter)); } this->lock->unlock(this->lock); } METHOD(stroke_counter_t, destroy, void, private_stroke_counter_t *this) { enumerator_t *enumerator; char *name; entry_t *entry; enumerator = this->conns->create_enumerator(this->conns); while (enumerator->enumerate(enumerator, &name, &entry)) { destroy_entry(entry); } enumerator->destroy(enumerator); this->conns->destroy(this->conns); this->lock->destroy(this->lock); free(this); } /** * See header */ stroke_counter_t *stroke_counter_create() { private_stroke_counter_t *this; INIT(this, .public = { .listener = { .alert = _alert, .ike_rekey = _ike_rekey, .child_rekey = _child_rekey, .message = _message_hook, }, .print = _print, .reset = _reset, .destroy = _destroy, }, .conns = hashtable_create((hashtable_hash_t)hash, (hashtable_equals_t)equals, 4), .lock = spinlock_create(), ); return &this->public; }