test
Fork of nRF51822 by
source/btle/btle_security.cpp
- Committer:
- vcoubard
- Date:
- 2016-01-11
- Revision:
- 597:bcd5e287c494
- Parent:
- 575:7023a8204a1b
- Child:
- 598:814c1ce92947
File content as of revision 597:bcd5e287c494:
/* mbed Microcontroller Library * Copyright (c) 2006-2013 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "btle.h" #include "nRF5xn.h" extern "C" { #include "pstorage.h" #include "device_manager.h" } #include "btle_security.h" static dm_application_instance_t applicationInstance; static ret_code_t dm_handler(dm_handle_t const *p_handle, dm_event_t const *p_event, ret_code_t event_result); // default security parameters static ble_gap_sec_params_t securityParameters = { .bond = true, /**< Perform bonding. */ .mitm = true, /**< Man In The Middle protection required. */ .io_caps = SecurityManager::IO_CAPS_NONE, /**< IO capabilities, see @ref BLE_GAP_IO_CAPS. */ .oob = 0, /**< Out Of Band data available. */ .min_key_size = 16, /**< Minimum encryption key size in octets between 7 and 16. If 0 then not applicable in this instance. */ .max_key_size = 16, /**< Maximum encryption key size in octets between min_key_size and 16. */ .kdist_periph = { .enc = 1, /**< Long Term Key and Master Identification. */ .id = 1, /**< Identity Resolving Key and Identity Address Information. */ .sign = 1, /**< Connection Signature Resolving Key. */ }, /**< Key distribution bitmap: keys that the peripheral device will distribute. */ }; ble_error_t btle_createWhitelistFromBonds(ble_gap_whitelist_t *p_whitelist) { ret_code_t err = dm_whitelist_create(&applicationInstance, p_whitelist); if (err == NRF_SUCCESS) { return BLE_ERROR_NONE; } else if (err == NRF_ERROR_NULL) { return BLE_ERROR_PARAM_OUT_OF_RANGE; } else { return BLE_ERROR_INVALID_STATE; } } ble_error_t btle_initializeSecurity(bool enableBonding, bool requireMITM, SecurityManager::SecurityIOCapabilities_t iocaps, const SecurityManager::Passkey_t passkey) { /* guard against multiple initializations */ static bool initialized = false; if (initialized) { return BLE_ERROR_NONE; } if (pstorage_init() != NRF_SUCCESS) { return BLE_ERROR_UNSPECIFIED; } ret_code_t rc; if (passkey) { ble_opt_t opts; opts.gap_opt.passkey.p_passkey = const_cast<uint8_t *>(passkey); if ((rc = sd_ble_opt_set(BLE_GAP_OPT_PASSKEY, &opts)) != NRF_SUCCESS) { switch (rc) { case BLE_ERROR_INVALID_CONN_HANDLE: case NRF_ERROR_INVALID_ADDR: case NRF_ERROR_INVALID_PARAM: default: return BLE_ERROR_INVALID_PARAM; case NRF_ERROR_INVALID_STATE: return BLE_ERROR_INVALID_STATE; case NRF_ERROR_BUSY: return BLE_STACK_BUSY; } } } dm_init_param_t dm_init_param = { .clear_persistent_data = false /* Set to true in case the module should clear all persistent data. */ }; if (dm_init(&dm_init_param) != NRF_SUCCESS) { return BLE_ERROR_UNSPECIFIED; } // update default security parameters with function call parameters securityParameters.bond = enableBonding; securityParameters.mitm = requireMITM; securityParameters.io_caps = iocaps; const dm_application_param_t dm_param = { .evt_handler = dm_handler, .service_type = DM_PROTOCOL_CNTXT_GATT_CLI_ID, .sec_param = securityParameters }; if ((rc = dm_register(&applicationInstance, &dm_param)) != NRF_SUCCESS) { switch (rc) { case NRF_ERROR_INVALID_STATE: return BLE_ERROR_INVALID_STATE; case NRF_ERROR_NO_MEM: return BLE_ERROR_NO_MEM; default: return BLE_ERROR_UNSPECIFIED; } } initialized = true; return BLE_ERROR_NONE; } ble_error_t btle_purgeAllBondingState(void) { ret_code_t rc; if ((rc = dm_device_delete_all(&applicationInstance)) == NRF_SUCCESS) { return BLE_ERROR_NONE; } switch (rc) { case NRF_ERROR_INVALID_STATE: return BLE_ERROR_INVALID_STATE; case NRF_ERROR_NO_MEM: return BLE_ERROR_NO_MEM; default: return BLE_ERROR_UNSPECIFIED; } } ble_error_t btle_getLinkSecurity(Gap::Handle_t connectionHandle, SecurityManager::LinkSecurityStatus_t *securityStatusP) { ret_code_t rc; dm_handle_t dmHandle = { .appl_id = applicationInstance, }; if ((rc = dm_handle_get(connectionHandle, &dmHandle)) != NRF_SUCCESS) { if (rc == NRF_ERROR_NOT_FOUND) { return BLE_ERROR_INVALID_PARAM; } else { return BLE_ERROR_UNSPECIFIED; } } if ((rc = dm_security_status_req(&dmHandle, reinterpret_cast<dm_security_status_t *>(securityStatusP))) != NRF_SUCCESS) { switch (rc) { case NRF_ERROR_INVALID_STATE: return BLE_ERROR_INVALID_STATE; case NRF_ERROR_NO_MEM: return BLE_ERROR_NO_MEM; default: return BLE_ERROR_UNSPECIFIED; } } return BLE_ERROR_NONE; } ble_error_t btle_setLinkSecurity(Gap::Handle_t connectionHandle, SecurityManager::SecurityMode_t securityMode) { // use default and updated parameters as starting point // and modify structure based on security mode. ble_gap_sec_params_t params = securityParameters; switch (securityMode) { case SecurityManager::SECURITY_MODE_ENCRYPTION_OPEN_LINK: /**< Require no protection, open link. */ securityParameters.bond = false; securityParameters.mitm = false; break; case SecurityManager::SECURITY_MODE_ENCRYPTION_NO_MITM: /**< Require encryption, but no MITM protection. */ securityParameters.bond = true; securityParameters.mitm = false; break; // not yet implemented security modes case SecurityManager::SECURITY_MODE_NO_ACCESS: case SecurityManager::SECURITY_MODE_ENCRYPTION_WITH_MITM: /**< Require encryption and MITM protection. */ case SecurityManager::SECURITY_MODE_SIGNED_NO_MITM: /**< Require signing or encryption, but no MITM protection. */ case SecurityManager::SECURITY_MODE_SIGNED_WITH_MITM: /**< Require signing or encryption, and MITM protection. */ default: return BLE_ERROR_NOT_IMPLEMENTED; } // update security settings for given connection uint32_t result = sd_ble_gap_authenticate(connectionHandle, ¶ms); if (result == NRF_SUCCESS) { return BLE_ERROR_NONE; } else { return BLE_ERROR_UNSPECIFIED; } } ret_code_t dm_handler(dm_handle_t const *p_handle, dm_event_t const *p_event, ret_code_t event_result) { nRF5xn &ble = nRF5xn::Instance(BLE::DEFAULT_INSTANCE); nRF5xSecurityManager &securityManager = (nRF5xSecurityManager &) ble.getSecurityManager(); switch (p_event->event_id) { case DM_EVT_SECURITY_SETUP: /* started */ { const ble_gap_sec_params_t *peerParams = &p_event->event_param.p_gap_param->params.sec_params_request.peer_params; securityManager.processSecuritySetupInitiatedEvent(p_event->event_param.p_gap_param->conn_handle, peerParams->bond, peerParams->mitm, (SecurityManager::SecurityIOCapabilities_t)peerParams->io_caps); break; } case DM_EVT_SECURITY_SETUP_COMPLETE: securityManager. processSecuritySetupCompletedEvent(p_event->event_param.p_gap_param->conn_handle, (SecurityManager::SecurityCompletionStatus_t)(p_event->event_param.p_gap_param->params.auth_status.auth_status)); break; case DM_EVT_LINK_SECURED: { unsigned securityMode = p_event->event_param.p_gap_param->params.conn_sec_update.conn_sec.sec_mode.sm; unsigned level = p_event->event_param.p_gap_param->params.conn_sec_update.conn_sec.sec_mode.lv; SecurityManager::SecurityMode_t resolvedSecurityMode = SecurityManager::SECURITY_MODE_NO_ACCESS; switch (securityMode) { case 1: switch (level) { case 1: resolvedSecurityMode = SecurityManager::SECURITY_MODE_ENCRYPTION_OPEN_LINK; break; case 2: resolvedSecurityMode = SecurityManager::SECURITY_MODE_ENCRYPTION_NO_MITM; break; case 3: resolvedSecurityMode = SecurityManager::SECURITY_MODE_ENCRYPTION_WITH_MITM; break; } break; case 2: switch (level) { case 1: resolvedSecurityMode = SecurityManager::SECURITY_MODE_SIGNED_NO_MITM; break; case 2: resolvedSecurityMode = SecurityManager::SECURITY_MODE_SIGNED_WITH_MITM; break; } break; } securityManager.processLinkSecuredEvent(p_event->event_param.p_gap_param->conn_handle, resolvedSecurityMode); break; } case DM_EVT_DEVICE_CONTEXT_STORED: securityManager.processSecurityContextStoredEvent(p_event->event_param.p_gap_param->conn_handle); break; default: break; } return NRF_SUCCESS; }