/* * Copyright (C) 2010-2013 Andreas Steffen, * HSR 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 "tnc_imc.h" #ifndef WIN32 #include #endif #include #include #include #include #include typedef struct private_tnc_imc_t private_tnc_imc_t; /** * Private data of an imc_t object. */ struct private_tnc_imc_t { /** * Public members of imc_t. */ imc_t public; /** * Name of loaded IMC */ char *name; /** * Handle of loaded IMC */ void *handle; /** * ID of loaded IMC */ TNC_IMCID id; /** * list of additional IMC IDs */ linked_list_t *additional_ids; /** * List of message types supported by IMC - Vendor ID part */ TNC_VendorIDList supported_vids; /** * List of message types supported by IMC - Subtype part */ TNC_MessageSubtypeList supported_subtypes; /** * Number of supported message types */ TNC_UInt32 type_count; /** * mutex to lock the imc_t object */ mutex_t *mutex; }; METHOD(imc_t, set_id, void, private_tnc_imc_t *this, TNC_IMCID id) { this->id = id; } METHOD(imc_t, get_id, TNC_IMCID, private_tnc_imc_t *this) { return this->id; } METHOD(imc_t, add_id, void, private_tnc_imc_t *this, TNC_IMCID id) { void *pointer; /* store the scalar value in the pointer */ pointer = (void*)(uintptr_t)id; this->additional_ids->insert_last(this->additional_ids, pointer); } METHOD(imc_t, has_id, bool, private_tnc_imc_t *this, TNC_IMCID id) { enumerator_t *enumerator; TNC_IMCID additional_id; void *pointer; bool found = FALSE; /* check primary IMC ID */ if (id == this->id) { return TRUE; } /* return if there are no additional IMC IDs */ if (this->additional_ids->get_count(this->additional_ids) == 0) { return FALSE; } /* check additional IMC IDs */ enumerator = this->additional_ids->create_enumerator(this->additional_ids); while (enumerator->enumerate(enumerator, &pointer)) { /* interpret pointer as scalar value */ additional_id = (uintptr_t)pointer; if (id == additional_id) { found = TRUE; break; } } enumerator->destroy(enumerator); return found; } METHOD(imc_t, get_name, char*, private_tnc_imc_t *this) { return this->name; } METHOD(imc_t, set_message_types, void, private_tnc_imc_t *this, TNC_MessageTypeList supported_types, TNC_UInt32 type_count) { char buf[BUF_LEN]; char *pos = buf; int len = sizeof(buf); int i, written; size_t size; TNC_VendorID vid; TNC_MessageSubtype subtype; enum_name_t *pa_subtype_names; /* lock the imc_t instance */ this->mutex->lock(this->mutex); /* Free existing VendorID and MessageSubtype lists */ free(this->supported_vids); this->supported_vids = NULL; free(this->supported_subtypes); this->supported_subtypes = NULL; /* Store the new MessageType list */ this->type_count = type_count; if (type_count && supported_types) { size = type_count * sizeof(TNC_VendorID); this->supported_vids = malloc(size); size = type_count * sizeof(TNC_MessageSubtype); this->supported_subtypes = malloc(size); for (i = 0; i < type_count; i++) { vid = (supported_types[i] >> 8) & TNC_VENDORID_ANY; subtype = supported_types[i] & TNC_SUBTYPE_ANY; pa_subtype_names = get_pa_subtype_names(vid); if (pa_subtype_names) { written = snprintf(pos, len," '%N/%N' 0x%06x/0x%02x", pen_names, vid, pa_subtype_names, subtype, vid, subtype); } else { written = snprintf(pos, len," '%N' 0x%06x/0x%02x", pen_names, vid, vid, subtype); } if (written >= len) { break; } pos += written; len -= written; this->supported_vids[i] = vid; this->supported_subtypes[i] = subtype; } } *pos = '\0'; DBG2(DBG_TNC, "IMC %u supports %u message type%s:%s", this->id, type_count, (type_count == 1) ? "":"s", buf); /* unlock the imc_t instance */ this->mutex->unlock(this->mutex); } METHOD(imc_t, set_message_types_long, void, private_tnc_imc_t *this, TNC_VendorIDList supported_vids, TNC_MessageSubtypeList supported_subtypes, TNC_UInt32 type_count) { char buf[BUF_LEN]; char *pos = buf; int len = sizeof(buf); int i, written; size_t size; TNC_VendorID vid; TNC_MessageSubtype subtype; enum_name_t *pa_subtype_names; /* lock the imc_t instance */ this->mutex->lock(this->mutex); /* Free existing VendorID and MessageSubtype lists */ free(this->supported_vids); this->supported_vids = NULL; free(this->supported_subtypes); this->supported_subtypes = NULL; /* Store the new MessageType list */ this->type_count = type_count; if (type_count && supported_vids && supported_subtypes) { size = type_count * sizeof(TNC_VendorID); this->supported_vids = malloc(size); memcpy(this->supported_vids, supported_vids, size); size = type_count * sizeof(TNC_MessageSubtype); this->supported_subtypes = malloc(size); memcpy(this->supported_subtypes, supported_subtypes, size); for (i = 0; i < type_count; i++) { vid = supported_vids[i]; subtype = supported_subtypes[i]; pa_subtype_names = get_pa_subtype_names(vid); if (pa_subtype_names) { written = snprintf(pos, len," '%N/%N' 0x%06x/0x%08x", pen_names, vid, pa_subtype_names, subtype, vid, subtype); } else { written = snprintf(pos, len," '%N' 0x%06x/0x%08x", pen_names, vid, vid, subtype); } if (written >= len) { break; } pos += written; len -= written; } } *pos = '\0'; DBG2(DBG_TNC, "IMC %u supports %u message type%s:%s", this->id, type_count, (type_count == 1) ? "":"s", buf); /* unlock the imc_t instance */ this->mutex->unlock(this->mutex); } METHOD(imc_t, type_supported, bool, private_tnc_imc_t *this, TNC_VendorID msg_vid, TNC_MessageSubtype msg_subtype) { TNC_VendorID vid; TNC_MessageSubtype subtype; int i; for (i = 0; i < this->type_count; i++) { vid = this->supported_vids[i]; subtype = this->supported_subtypes[i]; if ((vid == TNC_VENDORID_ANY && subtype == TNC_SUBTYPE_ANY) || (vid == msg_vid && (subtype == TNC_SUBTYPE_ANY || subtype == msg_subtype))) { return TRUE; } } return FALSE; } METHOD(imc_t, destroy, void, private_tnc_imc_t *this) { if (this->handle && lib->settings->get_bool(lib->settings, "%s.plugins.tnc-imc.dlclose", TRUE, lib->ns)) { dlclose(this->handle); } this->mutex->destroy(this->mutex); this->additional_ids->destroy(this->additional_ids); free(this->supported_vids); free(this->supported_subtypes); free(this->name); free(this); } /** * Generic constructor */ static private_tnc_imc_t* tnc_imc_create_empty(char *name) { private_tnc_imc_t *this; INIT(this, .public = { .set_id = _set_id, .get_id = _get_id, .add_id = _add_id, .has_id = _has_id, .get_name = _get_name, .set_message_types = _set_message_types, .set_message_types_long = _set_message_types_long, .type_supported = _type_supported, .destroy = _destroy, }, .name = strdup(name), .additional_ids = linked_list_create(), .mutex = mutex_create(MUTEX_TYPE_DEFAULT), ); return this; } /** * See header */ imc_t* tnc_imc_create(char *name, char *path) { private_tnc_imc_t *this; int flag = RTLD_LAZY; this = tnc_imc_create_empty(name); if (lib->settings->get_bool(lib->settings, "%s.dlopen_use_rtld_now", lib->ns, FALSE)) { flag = RTLD_NOW; } this->handle = dlopen(path, flag); if (!this->handle) { DBG1(DBG_TNC, "IMC \"%s\" failed to load: %s", name, dlerror()); destroy(this); return NULL; } this->public.initialize = dlsym(this->handle, "TNC_IMC_Initialize"); if (!this->public.initialize) { DBG1(DBG_TNC, "could not resolve TNC_IMC_Initialize in %s: %s\n", path, dlerror()); destroy(this); return NULL; } this->public.notify_connection_change = dlsym(this->handle, "TNC_IMC_NotifyConnectionChange"); this->public.begin_handshake = dlsym(this->handle, "TNC_IMC_BeginHandshake"); if (!this->public.begin_handshake) { DBG1(DBG_TNC, "could not resolve TNC_IMC_BeginHandshake in %s: %s\n", path, dlerror()); destroy(this); return NULL; } this->public.receive_message = dlsym(this->handle, "TNC_IMC_ReceiveMessage"); this->public.receive_message_long = dlsym(this->handle, "TNC_IMC_ReceiveMessageLong"); this->public.batch_ending = dlsym(this->handle, "TNC_IMC_BatchEnding"); this->public.terminate = dlsym(this->handle, "TNC_IMC_Terminate"); this->public.provide_bind_function = dlsym(this->handle, "TNC_IMC_ProvideBindFunction"); if (!this->public.provide_bind_function) { DBG1(DBG_TNC, "could not resolve TNC_IMC_ProvideBindFunction in %s: %s\n", path, dlerror()); destroy(this); return NULL; } return &this->public; } /** * See header */ imc_t* tnc_imc_create_from_functions(char *name, TNC_IMC_InitializePointer initialize, TNC_IMC_NotifyConnectionChangePointer notify_connection_change, TNC_IMC_BeginHandshakePointer begin_handshake, TNC_IMC_ReceiveMessagePointer receive_message, TNC_IMC_ReceiveMessageLongPointer receive_message_long, TNC_IMC_BatchEndingPointer batch_ending, TNC_IMC_TerminatePointer terminate, TNC_IMC_ProvideBindFunctionPointer provide_bind_function) { private_tnc_imc_t *this; this = tnc_imc_create_empty(name); this->public.initialize = initialize; this->public.notify_connection_change = notify_connection_change; this->public.begin_handshake = begin_handshake; this->public.receive_message = receive_message; this->public.receive_message_long = receive_message_long; this->public.batch_ending = batch_ending; this->public.terminate = terminate; this->public.provide_bind_function = provide_bind_function; return &this->public; }