/* * Copyright (C) 2009-2016 Tobias Brunner * Copyright (C) 2008 Martin Willi * Hochschule fuer Technik Rapperswil * * 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 "library.h" #include #include #include #include #include #include #include #include #include #include #define CHECKSUM_LIBRARY IPSEC_LIB_DIR"/libchecksum.so" #ifndef STRONGSWAN_CONF #define STRONGSWAN_CONF NULL #endif typedef struct private_library_t private_library_t; /** * private data of library */ struct private_library_t { /** * public functions */ library_t public; /** * Hashtable with registered objects (name => object) */ hashtable_t *objects; /** * Integrity check failed? */ bool integrity_failed; #ifdef LEAK_DETECTIVE /** * Where to write leak detective output to */ FILE *ld_out; #endif /** * Number of times we have been initialized */ refcount_t ref; }; #define MAX_NAMESPACES 5 /** * Additional namespaces registered using __atrribute__((constructor)) */ static char *namespaces[MAX_NAMESPACES]; static int ns_count; /** * Described in header */ void library_add_namespace(char *ns) { if (ns_count < MAX_NAMESPACES - 1) { namespaces[ns_count] = ns; ns_count++; } else { fprintf(stderr, "failed to register additional namespace alias, please " "increase MAX_NAMESPACES"); } } /** * Register plugins if built statically */ #ifdef STATIC_PLUGIN_CONSTRUCTORS #include "plugin_constructors.c" #endif /** * library instance */ library_t *lib = NULL; #ifdef LEAK_DETECTIVE /** * Default leak report callback */ CALLBACK(report_leaks, void, private_library_t *this, int count, size_t bytes, backtrace_t *bt, bool detailed) { fprintf(this->ld_out, "%zu bytes total, %d allocations, %zu bytes average:\n", bytes, count, bytes / count); bt->log(bt, this->ld_out, detailed); } /** * Default leak report summary callback */ CALLBACK(sum_leaks, void, private_library_t *this, int count, size_t bytes, int whitelisted) { switch (count) { case 0: fprintf(this->ld_out, "No leaks detected"); break; case 1: fprintf(this->ld_out, "One leak detected"); break; default: fprintf(this->ld_out, "%d leaks detected, %zu bytes", count, bytes); break; } fprintf(this->ld_out, ", %d suppressed by whitelist\n", whitelisted); } #endif /* LEAK_DETECTIVE */ /** * Deinitialize library */ void library_deinit() { private_library_t *this = (private_library_t*)lib; bool detailed; if (!this || !ref_put(&this->ref)) { /* have more users */ return; } detailed = lib->settings->get_bool(lib->settings, "%s.leak_detective.detailed", TRUE, lib->ns); /* make sure the cache is clear before unloading plugins */ lib->credmgr->flush_cache(lib->credmgr, CERT_ANY); this->public.streams->destroy(this->public.streams); this->public.watcher->destroy(this->public.watcher); this->public.scheduler->destroy(this->public.scheduler); this->public.processor->destroy(this->public.processor); this->public.plugins->destroy(this->public.plugins); this->public.hosts->destroy(this->public.hosts); this->public.settings->destroy(this->public.settings); this->public.credmgr->destroy(this->public.credmgr); this->public.creds->destroy(this->public.creds); this->public.encoding->destroy(this->public.encoding); this->public.crypto->destroy(this->public.crypto); this->public.caps->destroy(this->public.caps); this->public.proposal->destroy(this->public.proposal); this->public.fetcher->destroy(this->public.fetcher); this->public.resolver->destroy(this->public.resolver); this->public.db->destroy(this->public.db); this->public.printf_hook->destroy(this->public.printf_hook); this->objects->destroy(this->objects); if (this->public.integrity) { this->public.integrity->destroy(this->public.integrity); } if (lib->leak_detective) { lib->leak_detective->report(lib->leak_detective, detailed); lib->leak_detective->destroy(lib->leak_detective); lib->leak_detective = NULL; } #ifdef LEAK_DETECTIVE if (this->ld_out && this->ld_out != stderr) { fclose(this->ld_out); } #endif /* LEAK_DETECTIVE */ backtrace_deinit(); arrays_deinit(); utils_deinit(); threads_deinit(); free(this->public.conf); free((void*)this->public.ns); free(this); lib = NULL; } METHOD(library_t, get, void*, private_library_t *this, char *name) { return this->objects->get(this->objects, name); } METHOD(library_t, set, bool, private_library_t *this, char *name, void *object) { if (object) { if (this->objects->get(this->objects, name)) { return FALSE; } this->objects->put(this->objects, name, object); return TRUE; } return this->objects->remove(this->objects, name) != NULL; } /** * Hashtable hash function */ static u_int hash(char *key) { return chunk_hash(chunk_create(key, strlen(key))); } /** * Hashtable equals function */ static bool equals(char *a, char *b) { return streq(a, b); } /** * Number of words we write and memwipe() in memwipe check */ #define MEMWIPE_WIPE_WORDS 16 #ifndef NO_CHECK_MEMWIPE /** * Write magic to memory, and try to clear it with memwipe() */ __attribute__((noinline)) static void do_magic(int *magic, int **out) { int buf[MEMWIPE_WIPE_WORDS], i; *out = buf; for (i = 0; i < countof(buf); i++) { buf[i] = *magic; } /* passing buf to dbg should make sure the compiler can't optimize out buf. * we use directly dbg(3), as DBG3() might be stripped with DEBUG_LEVEL. */ dbg(DBG_LIB, 3, "memwipe() pre: %b", buf, sizeof(buf)); memwipe(buf, sizeof(buf)); } /** * Check if memwipe works as expected */ static bool check_memwipe() { int magic = 0xCAFEBABE, *buf, i; do_magic(&magic, &buf); for (i = 0; i < MEMWIPE_WIPE_WORDS; i++) { if (buf[i] == magic) { DBG1(DBG_LIB, "memwipe() check failed: stackdir: %b", buf, MEMWIPE_WIPE_WORDS * sizeof(int)); return FALSE; } } return TRUE; } #endif /* * see header file */ bool library_init(char *settings, const char *namespace) { private_library_t *this; printf_hook_t *pfh; int i; if (lib) { /* already initialized, increase refcount */ this = (private_library_t*)lib; ref_get(&this->ref); return !this->integrity_failed; } chunk_hash_seed(); INIT(this, .public = { .get = _get, .set = _set, .ns = strdup(namespace ?: "libstrongswan"), .conf = strdupnull(settings ?: (getenv("STRONGSWAN_CONF") ?: STRONGSWAN_CONF)), }, .ref = 1, ); lib = &this->public; threads_init(); utils_init(); arrays_init(); backtrace_init(); #ifdef LEAK_DETECTIVE { FILE *out = NULL; char *log; log = getenv("LEAK_DETECTIVE_LOG"); if (log) { out = fopen(log, "a"); } this->ld_out = out ?: stderr; } lib->leak_detective = leak_detective_create(); if (lib->leak_detective) { lib->leak_detective->set_report_cb(lib->leak_detective, report_leaks, sum_leaks, this); } #endif /* LEAK_DETECTIVE */ pfh = printf_hook_create(); this->public.printf_hook = pfh; pfh->add_handler(pfh, 'b', mem_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_INT, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'B', chunk_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'H', host_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'N', enum_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_INT, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'T', time_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_INT, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'V', time_delta_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'Y', identification_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'R', traffic_selector_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); pfh->add_handler(pfh, 'P', proposal_printf_hook, PRINTF_HOOK_ARGTYPE_POINTER, PRINTF_HOOK_ARGTYPE_END); this->objects = hashtable_create((hashtable_hash_t)hash, (hashtable_equals_t)equals, 4); this->public.settings = settings_create(this->public.conf); /* add registered aliases */ for (i = 0; i < ns_count; ++i) { lib->settings->add_fallback(lib->settings, lib->ns, namespaces[i]); } /* all namespace settings may fall back to libstrongswan */ lib->settings->add_fallback(lib->settings, lib->ns, "libstrongswan"); this->public.hosts = host_resolver_create(); this->public.proposal = proposal_keywords_create(); this->public.caps = capabilities_create(); this->public.crypto = crypto_factory_create(); this->public.creds = credential_factory_create(); this->public.credmgr = credential_manager_create(); this->public.encoding = cred_encoding_create(); this->public.fetcher = fetcher_manager_create(); this->public.resolver = resolver_manager_create(); this->public.db = database_factory_create(); this->public.processor = processor_create(); this->public.scheduler = scheduler_create(); this->public.watcher = watcher_create(); this->public.streams = stream_manager_create(); this->public.plugins = plugin_loader_create(); #ifndef NO_CHECK_MEMWIPE if (!check_memwipe()) { return FALSE; } #endif if (lib->settings->get_bool(lib->settings, "%s.integrity_test", FALSE, lib->ns)) { #ifdef INTEGRITY_TEST this->public.integrity = integrity_checker_create(CHECKSUM_LIBRARY); if (!lib->integrity->check(lib->integrity, "libstrongswan", library_init)) { DBG1(DBG_LIB, "integrity check of libstrongswan failed"); this->integrity_failed = TRUE; } #else /* !INTEGRITY_TEST */ DBG1(DBG_LIB, "integrity test enabled, but not supported"); this->integrity_failed = TRUE; #endif /* INTEGRITY_TEST */ } diffie_hellman_init(); return !this->integrity_failed; }