High level Bluetooth Low Energy API and radio abstraction layer
Dependents: BLE_ANCS_SDAPI BLE_temperature BLE_HeartRate BLE_ANCS_SDAPI_IRC ... more
Overview
The BLE_API is a high level abstraction for using Bluetooth Low Energy on multiple platforms. For details and examples using the BLE_API please see the BLE_API Summary Page. Or click on the API Documentation tab above.
Supported Services
Supported services can be found in the BLE_API/services folder.
ble/services/URIBeaconConfigService.h
- Committer:
- vcoubard
- Date:
- 2016-01-11
- Revision:
- 1053:ec4a5b9b254e
- Parent:
- 1042:21a86ac7f5b1
File content as of revision 1053:ec4a5b9b254e:
/* 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. */ #ifndef SERVICES_URIBEACONCONFIGSERVICE_H_ #define SERVICES_URIBEACONCONFIGSERVICE_H_ #include "ble/BLE.h" #ifdef YOTTA_CFG_MBED_OS #include "mbed-drivers/mbed.h" #else #include "mbed.h" #endif extern const uint8_t UUID_URI_BEACON_SERVICE[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_LOCK_STATE_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_LOCK_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_UNLOCK_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_URI_DATA_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_FLAGS_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_ADV_POWER_LEVELS_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_TX_POWER_MODE_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_BEACON_PERIOD_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t UUID_RESET_CHAR[UUID::LENGTH_OF_LONG_UUID]; extern const uint8_t BEACON_UUID[sizeof(UUID::ShortUUIDBytes_t)]; /** * @class URIBeaconConfigService * @brief UriBeacon Configuration Service. Can be used to set URL, adjust power levels, and set flags. * See http://uribeacon.org * */ class URIBeaconConfigService { public: /** * @brief Transmission power modes for UriBeacon. */ static const uint8_t TX_POWER_MODE_LOWEST = 0; /*!< Lowest TX power mode. */ static const uint8_t TX_POWER_MODE_LOW = 1; /*!< Low TX power mode. */ static const uint8_t TX_POWER_MODE_MEDIUM = 2; /*!< Medium TX power mode. */ static const uint8_t TX_POWER_MODE_HIGH = 3; /*!< High TX power mode. */ static const unsigned NUM_POWER_MODES = 4; /*!< Number of power modes defined. */ static const int ADVERTISING_INTERVAL_MSEC = 1000; // Advertising interval for config service. static const int SERVICE_DATA_MAX = 31; // Maximum size of service data in ADV packets. typedef uint8_t Lock_t[16]; /* 128 bits. */ typedef int8_t PowerLevels_t[NUM_POWER_MODES]; static const int URI_DATA_MAX = 18; typedef uint8_t UriData_t[URI_DATA_MAX]; struct Params_t { Lock_t lock; uint8_t uriDataLength; UriData_t uriData; uint8_t flags; PowerLevels_t advPowerLevels; // Current value of AdvertisedPowerLevels. uint8_t txPowerMode; // Firmware power levels used with setTxPower(). uint16_t beaconPeriod; }; /** * @param[ref] ble * BLE object for the underlying controller. * @param[in/out] paramsIn * Reference to application-visible beacon state, loaded * from persistent storage at startup. * @paramsP[in] resetToDefaultsFlag * Applies to the state of the 'paramsIn' parameter. * If true, it indicates that paramsIn is potentially * un-initialized, and default values should be used * instead. Otherwise, paramsIn overrides the defaults. * @param[in] defaultUriDataIn * Default un-encoded URI. Applies only if the resetToDefaultsFlag is true. * @param[in] defaultAdvPowerLevelsIn * Default power-levels array. Applies only if the resetToDefaultsFlag is true. */ URIBeaconConfigService(BLE &bleIn, Params_t ¶msIn, bool resetToDefaultsFlag, const char *defaultURIDataIn, PowerLevels_t &defaultAdvPowerLevelsIn) : ble(bleIn), params(paramsIn), defaultUriDataLength(), defaultUriData(), defaultAdvPowerLevels(defaultAdvPowerLevelsIn), initSucceeded(false), resetFlag(), lockedStateChar(UUID_LOCK_STATE_CHAR, &lockedState), lockChar(UUID_LOCK_CHAR, ¶ms.lock), uriDataChar(UUID_URI_DATA_CHAR, params.uriData, 0, URI_DATA_MAX, GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_READ | GattCharacteristic::BLE_GATT_CHAR_PROPERTIES_WRITE), unlockChar(UUID_UNLOCK_CHAR, ¶ms.lock), flagsChar(UUID_FLAGS_CHAR, ¶ms.flags), advPowerLevelsChar(UUID_ADV_POWER_LEVELS_CHAR, ¶ms.advPowerLevels), txPowerModeChar(UUID_TX_POWER_MODE_CHAR, ¶ms.txPowerMode), beaconPeriodChar(UUID_BEACON_PERIOD_CHAR, ¶ms.beaconPeriod), resetChar(UUID_RESET_CHAR, &resetFlag) { encodeURI(defaultURIDataIn, defaultUriData, defaultUriDataLength); if (defaultUriDataLength > URI_DATA_MAX) { return; } if (!resetToDefaultsFlag && (params.uriDataLength > URI_DATA_MAX)) { resetToDefaultsFlag = true; } if (resetToDefaultsFlag) { resetToDefaults(); } else { updateCharacteristicValues(); } lockedState = isLocked(); lockChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::lockAuthorizationCallback); unlockChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::unlockAuthorizationCallback); uriDataChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::uriDataWriteAuthorizationCallback); flagsChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::basicAuthorizationCallback<uint8_t>); advPowerLevelsChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::basicAuthorizationCallback<PowerLevels_t>); txPowerModeChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::powerModeAuthorizationCallback); beaconPeriodChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::basicAuthorizationCallback<uint16_t>); resetChar.setWriteAuthorizationCallback(this, &URIBeaconConfigService::basicAuthorizationCallback<uint8_t>); static GattCharacteristic *charTable[] = { &lockedStateChar, &lockChar, &unlockChar, &uriDataChar, &flagsChar, &advPowerLevelsChar, &txPowerModeChar, &beaconPeriodChar, &resetChar }; GattService configService(UUID_URI_BEACON_SERVICE, charTable, sizeof(charTable) / sizeof(GattCharacteristic *)); ble.addService(configService); ble.onDataWritten(this, &URIBeaconConfigService::onDataWrittenCallback); setupURIBeaconConfigAdvertisements(); /* Set up advertising for the config service. */ initSucceeded = true; } bool configuredSuccessfully(void) const { return initSucceeded; } /* Start out by advertising the config service for a limited time after * startup. Then switch to the normal non-connectible beacon functionality. */ void setupURIBeaconConfigAdvertisements() { const char DEVICE_NAME[] = "mUriBeacon Config"; ble.gap().clearAdvertisingPayload(); ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE); // UUID is in different order in the ADV frame (!) uint8_t reversedServiceUUID[sizeof(UUID_URI_BEACON_SERVICE)]; for (unsigned int i = 0; i < sizeof(UUID_URI_BEACON_SERVICE); i++) { reversedServiceUUID[i] = UUID_URI_BEACON_SERVICE[sizeof(UUID_URI_BEACON_SERVICE) - i - 1]; } ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_128BIT_SERVICE_IDS, reversedServiceUUID, sizeof(reversedServiceUUID)); ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::GENERIC_TAG); ble.gap().accumulateScanResponse(GapAdvertisingData::COMPLETE_LOCAL_NAME, reinterpret_cast<const uint8_t *>(&DEVICE_NAME), sizeof(DEVICE_NAME)); ble.gap().accumulateScanResponse(GapAdvertisingData::TX_POWER_LEVEL, reinterpret_cast<uint8_t *>(&defaultAdvPowerLevels[URIBeaconConfigService::TX_POWER_MODE_LOW]), sizeof(uint8_t)); ble.gap().setTxPower(params.advPowerLevels[params.txPowerMode]); ble.gap().setDeviceName(reinterpret_cast<const uint8_t *>(&DEVICE_NAME)); ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_CONNECTABLE_UNDIRECTED); ble.gap().setAdvertisingInterval(GapAdvertisingParams::MSEC_TO_ADVERTISEMENT_DURATION_UNITS(ADVERTISING_INTERVAL_MSEC)); } /* Helper function to switch to the non-connectible normal mode for UriBeacon. This gets called after a timeout. */ void setupURIBeaconAdvertisements() { /* Reinitialize the BLE stack. This will clear away the existing services and advertising state. */ ble.shutdown(); ble.init(); // Fields from the service. unsigned beaconPeriod = params.beaconPeriod; unsigned txPowerMode = params.txPowerMode; unsigned uriDataLength = params.uriDataLength; URIBeaconConfigService::UriData_t &uriData = params.uriData; URIBeaconConfigService::PowerLevels_t &advPowerLevels = params.advPowerLevels; uint8_t flags = params.flags; extern void saveURIBeaconConfigParams(const Params_t *paramsP); /* Forward declaration; necessary to avoid a circular dependency. */ saveURIBeaconConfigParams(¶ms); ble.gap().clearAdvertisingPayload(); ble.gap().setTxPower(params.advPowerLevels[params.txPowerMode]); ble.gap().setAdvertisingType(GapAdvertisingParams::ADV_NON_CONNECTABLE_UNDIRECTED); ble.gap().setAdvertisingInterval(beaconPeriod); ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::BREDR_NOT_SUPPORTED | GapAdvertisingData::LE_GENERAL_DISCOVERABLE); ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::COMPLETE_LIST_16BIT_SERVICE_IDS, BEACON_UUID, sizeof(BEACON_UUID)); uint8_t serviceData[SERVICE_DATA_MAX]; unsigned serviceDataLen = 0; serviceData[serviceDataLen++] = BEACON_UUID[0]; serviceData[serviceDataLen++] = BEACON_UUID[1]; serviceData[serviceDataLen++] = flags; serviceData[serviceDataLen++] = advPowerLevels[txPowerMode]; for (unsigned j = 0; j < uriDataLength; j++) { serviceData[serviceDataLen++] = uriData[j]; } ble.gap().accumulateAdvertisingPayload(GapAdvertisingData::SERVICE_DATA, serviceData, serviceDataLen); } private: // True if the lock bits are non-zero. bool isLocked() { Lock_t testLock; memset(testLock, 0, sizeof(Lock_t)); return memcmp(params.lock, testLock, sizeof(Lock_t)); } /* * This callback is invoked when a GATT client attempts to modify any of the * characteristics of this service. These attempts are also applied to * the internal state of this service object. */ void onDataWrittenCallback(const GattWriteCallbackParams *writeParams) { uint16_t handle = writeParams->handle; if (handle == lockChar.getValueHandle()) { // Validated earlier, memcpy(params.lock, writeParams->data, sizeof(Lock_t)); // Use isLocked() in case bits are being set to all zeros. lockedState = isLocked(); } else if (handle == unlockChar.getValueHandle()) { // Validated earlier. memset(params.lock, 0, sizeof(Lock_t)); lockedState = false; } else if (handle == uriDataChar.getValueHandle()) { params.uriDataLength = writeParams->len; memcpy(params.uriData, writeParams->data, params.uriDataLength); } else if (handle == flagsChar.getValueHandle()) { params.flags = *(writeParams->data); } else if (handle == advPowerLevelsChar.getValueHandle()) { memcpy(params.advPowerLevels, writeParams->data, sizeof(PowerLevels_t)); } else if (handle == txPowerModeChar.getValueHandle()) { params.txPowerMode = *(writeParams->data); } else if (handle == beaconPeriodChar.getValueHandle()) { params.beaconPeriod = *((uint16_t *)(writeParams->data)); /* Remap beaconPeriod to within permissible bounds if necessary. */ if (params.beaconPeriod != 0) { bool paramsUpdated = false; if (params.beaconPeriod < ble.gap().getMinAdvertisingInterval()) { params.beaconPeriod = ble.gap().getMinAdvertisingInterval(); paramsUpdated = true; } else if (params.beaconPeriod > ble.gap().getMaxAdvertisingInterval()) { params.beaconPeriod = ble.gap().getMaxAdvertisingInterval(); paramsUpdated = true; } if (paramsUpdated) { ble.gattServer().write(beaconPeriodChar.getValueHandle(), reinterpret_cast<uint8_t *>(¶ms.beaconPeriod), sizeof(uint16_t)); } } } else if (handle == resetChar.getValueHandle()) { resetToDefaults(); } } /* * Reset the default values. */ void resetToDefaults(void) { lockedState = false; memset(params.lock, 0, sizeof(Lock_t)); memcpy(params.uriData, defaultUriData, URI_DATA_MAX); params.uriDataLength = defaultUriDataLength; params.flags = 0; memcpy(params.advPowerLevels, defaultAdvPowerLevels, sizeof(PowerLevels_t)); params.txPowerMode = TX_POWER_MODE_LOW; params.beaconPeriod = 1000; updateCharacteristicValues(); } /* * Internal helper function used to update the GATT database following any * change to the internal state of the service object. */ void updateCharacteristicValues(void) { ble.gattServer().write(lockedStateChar.getValueHandle(), &lockedState, 1); ble.gattServer().write(uriDataChar.getValueHandle(), params.uriData, params.uriDataLength); ble.gattServer().write(flagsChar.getValueHandle(), ¶ms.flags, 1); ble.gattServer().write(beaconPeriodChar.getValueHandle(), reinterpret_cast<uint8_t *>(¶ms.beaconPeriod), sizeof(uint16_t)); ble.gattServer().write(txPowerModeChar.getValueHandle(), ¶ms.txPowerMode, 1); ble.gattServer().write(advPowerLevelsChar.getValueHandle(), reinterpret_cast<uint8_t *>(params.advPowerLevels), sizeof(PowerLevels_t)); } protected: void lockAuthorizationCallback(GattWriteAuthCallbackParams *authParams) { if (lockedState) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INSUF_AUTHORIZATION; } else if (authParams->len != sizeof(Lock_t)) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_ATT_VAL_LENGTH; } else if (authParams->offset != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_OFFSET; } else { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } } void unlockAuthorizationCallback(GattWriteAuthCallbackParams *authParams) { if (!lockedState) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } else if (authParams->len != sizeof(Lock_t)) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_ATT_VAL_LENGTH; } else if (authParams->offset != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_OFFSET; } else if (memcmp(authParams->data, params.lock, sizeof(Lock_t)) != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INSUF_AUTHORIZATION; } else { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } } void uriDataWriteAuthorizationCallback(GattWriteAuthCallbackParams *authParams) { if (lockedState) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INSUF_AUTHORIZATION; } else if (authParams->offset != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_OFFSET; } else { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } } void powerModeAuthorizationCallback(GattWriteAuthCallbackParams *authParams) { if (lockedState) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INSUF_AUTHORIZATION; } else if (authParams->len != sizeof(uint8_t)) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_ATT_VAL_LENGTH; } else if (authParams->offset != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_OFFSET; } else if (*((uint8_t *)authParams->data) >= NUM_POWER_MODES) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_WRITE_NOT_PERMITTED; } else { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } } template <typename T> void basicAuthorizationCallback(GattWriteAuthCallbackParams *authParams) { if (lockedState) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INSUF_AUTHORIZATION; } else if (authParams->len != sizeof(T)) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_ATT_VAL_LENGTH; } else if (authParams->offset != 0) { authParams->authorizationReply = AUTH_CALLBACK_REPLY_ATTERR_INVALID_OFFSET; } else { authParams->authorizationReply = AUTH_CALLBACK_REPLY_SUCCESS; } } protected: BLE &ble; Params_t ¶ms; size_t defaultUriDataLength; // Default value that is restored on reset. UriData_t defaultUriData; // Default value that is restored on reset. PowerLevels_t &defaultAdvPowerLevels; // Default value that is restored on reset. uint8_t lockedState; bool initSucceeded; uint8_t resetFlag; ReadOnlyGattCharacteristic<uint8_t> lockedStateChar; WriteOnlyGattCharacteristic<Lock_t> lockChar; GattCharacteristic uriDataChar; WriteOnlyGattCharacteristic<Lock_t> unlockChar; ReadWriteGattCharacteristic<uint8_t> flagsChar; ReadWriteGattCharacteristic<PowerLevels_t> advPowerLevelsChar; ReadWriteGattCharacteristic<uint8_t> txPowerModeChar; ReadWriteGattCharacteristic<uint16_t> beaconPeriodChar; WriteOnlyGattCharacteristic<uint8_t> resetChar; public: /* * Encode a human-readable URI into the binary format defined by the UriBeacon spec (https://github.com/google/uribeacon/tree/master/specification). */ static void encodeURI(const char *uriDataIn, UriData_t uriDataOut, size_t &sizeofURIDataOut) { const char *prefixes[] = { "http://www.", "https://www.", "http://", "https://", "urn:uuid:" }; const size_t NUM_PREFIXES = sizeof(prefixes) / sizeof(char *); const char *suffixes[] = { ".com/", ".org/", ".edu/", ".net/", ".info/", ".biz/", ".gov/", ".com", ".org", ".edu", ".net", ".info", ".biz", ".gov" }; const size_t NUM_SUFFIXES = sizeof(suffixes) / sizeof(char *); sizeofURIDataOut = 0; memset(uriDataOut, 0, sizeof(UriData_t)); if ((uriDataIn == NULL) || (strlen(uriDataIn) == 0)) { return; } /* * handle prefix */ for (unsigned i = 0; i < NUM_PREFIXES; i++) { size_t prefixLen = strlen(prefixes[i]); if (strncmp(uriDataIn, prefixes[i], prefixLen) == 0) { uriDataOut[sizeofURIDataOut++] = i; uriDataIn += prefixLen; break; } } /* * Handle suffixes. */ while (*uriDataIn && (sizeofURIDataOut < URI_DATA_MAX)) { /* check for suffix match */ unsigned i; for (i = 0; i < NUM_SUFFIXES; i++) { size_t suffixLen = strlen(suffixes[i]); if (strncmp(uriDataIn, suffixes[i], suffixLen) == 0) { uriDataOut[sizeofURIDataOut++] = i; uriDataIn += suffixLen; break; /* From the for loop for checking against suffixes. */ } } /* This is the default case where we've got an ordinary character that doesn't match a suffix. */ if (i == NUM_SUFFIXES) { uriDataOut[sizeofURIDataOut++] = *uriDataIn; ++uriDataIn; } } } }; #endif // SERVICES_URIBEACONCONFIGSERVICE_H_