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source/nRF5xGap.h
- Committer:
- vcoubard
- Date:
- 2016-01-11
- Revision:
- 600:0978b5626451
- Parent:
- 598:814c1ce92947
- Child:
- 604:0f5c8725146c
File content as of revision 600:0978b5626451:
/* 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 __NRF5x_GAP_H__ #define __NRF5x_GAP_H__ #ifdef YOTTA_CFG_MBED_OS #include "mbed-drivers/mbed.h" #else #include "mbed.h" #endif #ifndef YOTTA_CFG_WHITELIST_MAX_SIZE #define YOTTA_CFG_WHITELIST_MAX_SIZE BLE_GAP_WHITELIST_ADDR_MAX_COUNT #elif YOTTA_CFG_WHITELIST_MAX_SIZE > BLE_GAP_WHITELIST_ADDR_MAX_COUNT #undef YOTTA_CFG_WHITELIST_MAX_SIZE #define YOTTA_CFG_WHITELIST_MAX_SIZE BLE_GAP_WHITELIST_ADDR_MAX_COUNT #endif #ifndef YOTTA_CFG_IRK_TABLE_MAX_SIZE #define YOTTA_CFG_IRK_TABLE_MAX_SIZE BLE_GAP_WHITELIST_IRK_MAX_COUNT #elif YOTTA_CFG_IRK_TABLE_MAX_SIZE > BLE_GAP_WHITELIST_IRK_MAX_COUNT #undef YOTTA_CFG_IRK_TABLE_MAX_SIZE #define YOTTA_CFG_IRK_TABLE_MAX_SIZE BLE_GAP_WHITELIST_IRK_MAX_COUNT #endif #include "ble/blecommon.h" #include "ble.h" #include "ble/GapAdvertisingParams.h" #include "ble/GapAdvertisingData.h" #include "ble/Gap.h" #include "ble/GapScanningParams.h" #include "nrf_soc.h" extern "C" { #include "ble_radio_notification.h" } #include "btle_security.h" void radioNotificationStaticCallback(bool param); /**************************************************************************/ /*! \brief */ /**************************************************************************/ class nRF5xGap : public Gap { public: /* Functions that must be implemented from Gap */ virtual ble_error_t setAddress(AddressType_t type, const Address_t address); virtual ble_error_t getAddress(AddressType_t *typeP, Address_t address); virtual ble_error_t setAdvertisingData(const GapAdvertisingData &, const GapAdvertisingData &); virtual uint16_t getMinAdvertisingInterval(void) const {return GapAdvertisingParams::ADVERTISEMENT_DURATION_UNITS_TO_MS(BLE_GAP_ADV_INTERVAL_MIN);} virtual uint16_t getMinNonConnectableAdvertisingInterval(void) const {return GapAdvertisingParams::ADVERTISEMENT_DURATION_UNITS_TO_MS(BLE_GAP_ADV_NONCON_INTERVAL_MIN);} virtual uint16_t getMaxAdvertisingInterval(void) const {return GapAdvertisingParams::ADVERTISEMENT_DURATION_UNITS_TO_MS(BLE_GAP_ADV_INTERVAL_MAX);} virtual ble_error_t startAdvertising(const GapAdvertisingParams &); virtual ble_error_t stopAdvertising(void); virtual ble_error_t connect(const Address_t, BLEProtocol::AddressType_t peerAddrType, const ConnectionParams_t *connectionParams, const GapScanningParams *scanParams); virtual ble_error_t disconnect(Handle_t connectionHandle, DisconnectionReason_t reason); virtual ble_error_t disconnect(DisconnectionReason_t reason); virtual ble_error_t setDeviceName(const uint8_t *deviceName); virtual ble_error_t getDeviceName(uint8_t *deviceName, unsigned *lengthP); virtual ble_error_t setAppearance(GapAdvertisingData::Appearance appearance); virtual ble_error_t getAppearance(GapAdvertisingData::Appearance *appearanceP); virtual ble_error_t setTxPower(int8_t txPower); virtual void getPermittedTxPowerValues(const int8_t **valueArrayPP, size_t *countP); void setConnectionHandle(uint16_t con_handle); uint16_t getConnectionHandle(void); virtual ble_error_t getPreferredConnectionParams(ConnectionParams_t *params); virtual ble_error_t setPreferredConnectionParams(const ConnectionParams_t *params); virtual ble_error_t updateConnectionParams(Handle_t handle, const ConnectionParams_t *params); virtual ble_error_t reset(void); /* * The following functions are part of the whitelisting experimental API. * Therefore, this functionality can change in the near future. */ virtual uint8_t getMaxWhitelistSize(void) const; virtual ble_error_t getWhitelist(Gap::Whitelist_t &whitelistOut) const; virtual ble_error_t setWhitelist(const Gap::Whitelist_t &whitelistIn); virtual ble_error_t setAdvertisingPolicyMode(AdvertisingPolicyMode_t mode); virtual ble_error_t setScanningPolicyMode(ScanningPolicyMode_t mode); virtual ble_error_t setInitiatorPolicyMode(InitiatorPolicyMode_t mode); virtual Gap::AdvertisingPolicyMode_t getAdvertisingPolicyMode(void) const; virtual Gap::ScanningPolicyMode_t getScanningPolicyMode(void) const; virtual Gap::InitiatorPolicyMode_t getInitiatorPolicyMode(void) const; virtual ble_error_t initRadioNotification(void) { if (ble_radio_notification_init(NRF_APP_PRIORITY_HIGH, NRF_RADIO_NOTIFICATION_DISTANCE_800US, radioNotificationStaticCallback) == NRF_SUCCESS) { return BLE_ERROR_NONE; } return BLE_ERROR_UNSPECIFIED; } /* Observer role is not supported by S110, return BLE_ERROR_NOT_IMPLEMENTED */ #if !defined(TARGET_MCU_NRF51_16K_S110) && !defined(TARGET_MCU_NRF51_32K_S110) virtual ble_error_t startRadioScan(const GapScanningParams &scanningParams); virtual ble_error_t stopScan(void); #endif private: /* * Whitelisting API related structures and helper functions. */ /* Policy modes set by the user. By default these are set to ignore the whitelist */ Gap::AdvertisingPolicyMode_t advertisingPolicyMode; Gap::ScanningPolicyMode_t scanningPolicyMode; /* Internal representation of a whitelist */ uint8_t whitelistAddressesSize; ble_gap_addr_t whitelistAddresses[YOTTA_CFG_WHITELIST_MAX_SIZE]; ble_gap_addr_t *whitelistAddressPtrs[YOTTA_CFG_WHITELIST_MAX_SIZE]; ble_gap_irk_t *whitelistIrkPtrs[YOTTA_CFG_IRK_TABLE_MAX_SIZE]; /* Structure used by the SoftDevice to represent a whitelist together with IRK table */ ble_gap_whitelist_t whitelist; /* * An internal function used to populate the ble_gap_whitelist_t that will be used by * the SoftDevice for filtering requests. This function is needed because for the BLE * API the whitelist is just a collection of keys, but for the stack it also includes * the IRK table. */ ble_error_t generateStackWhitelist(void); private: bool radioNotificationCallbackParam; /* parameter to be passed into the Timeout-generated radio notification callback. */ Timeout radioNotificationTimeout; /* * A helper function to post radio notification callbacks with low interrupt priority. */ void postRadioNotificationCallback(void) { #ifdef YOTTA_CFG_MBED_OS /* * In mbed OS, all user-facing BLE events (interrupts) are posted to the * MINAR scheduler to be executed as callbacks in thread mode. MINAR guards * its critical sections from interrupts by acquiring CriticalSectionLock, * which results in a call to sd_nvic_critical_region_enter(). Thus, it is * safe to invoke MINAR APIs from interrupt context as long as those * interrupts are blocked by sd_nvic_critical_region_enter(). * * Radio notifications are a special case for the above. The Radio * Notification IRQ is handled at a very high priority--higher than the * level blocked by sd_nvic_critical_region_enter(). Thus Radio Notification * events can preempt MINAR's critical sections. Using MINAR APIs (such as * posting an event) directly in processRadioNotification() may result in a * race condition ending in a hard-fault. * * The solution is to *not* call MINAR APIs directly from the Radio * Notification handling; i.e. to do the bulk of RadioNotification * processing at a reduced priority which respects MINAR's critical * sections. Unfortunately, on a cortex-M0, there is no clean way to demote * priority for the currently executing interrupt--we wouldn't want to * demote the radio notification handling anyway because it is sensitive to * timing, and the system expects to finish this handling very quickly. The * workaround is to employ a Timeout to trigger * postRadioNotificationCallback() after a very short delay (~0 us) and post * the MINAR callback that context. * * !!!WARNING!!! Radio notifications are very time critical events. The * current solution is expected to work under the assumption that * postRadioNotificationCalback() will be executed BEFORE the next radio * notification event is generated. */ minar::Scheduler::postCallback( mbed::util::FunctionPointer1<void, bool>(&radioNotificationCallback, &FunctionPointerWithContext<bool>::call).bind(radioNotificationCallbackParam) ); #else /* * In mbed classic, all user-facing BLE events execute callbacks in interrupt * mode. Radio Notifications are a special case because its IRQ is handled at * a very high priority. Thus Radio Notification events can preempt other * operations that require interaction with the SoftDevice such as advertising * payload updates and changing the Gap state. Therefore, executing a Radio * Notification callback directly from processRadioNotification() may result * in a race condition ending in a hard-fault. * * The solution is to *not* execute the Radio Notification callback directly * from the Radio Notification handling; i.e. to do the bulk of the * Radio Notification processing at a reduced priority. Unfortunately, on a * cortex-M0, there is no clean way to demote priority for the currently * executing interrupt--we wouldn't want to demote the radio notification * handling anyway because it is sensitive to timing, and the system expects * to finish this handling very quickly. The workaround is to employ a Timeout * to trigger postRadioNotificationCallback() after a very short delay (~0 us) * and execute the callback in that context. * * !!!WARNING!!! Radio notifications are very time critical events. The * current solution is expected to work under the assumption that * postRadioNotificationCalback() will be executed BEFORE the next radio * notification event is generated. */ radioNotificationCallback.call(radioNotificationCallbackParam); #endif /* #ifdef YOTTA_CFG_MBED_OS */ } /** * A helper function to process radio-notification events; to be called internally. * @param param [description] */ void processRadioNotificationEvent(bool param) { radioNotificationCallbackParam = param; radioNotificationTimeout.attach_us(this, &nRF5xGap::postRadioNotificationCallback, 0); } friend void radioNotificationStaticCallback(bool param); /* allow invocations of processRadioNotificationEvent() */ private: uint16_t m_connectionHandle; /* * Allow instantiation from nRF5xn when required. */ friend class nRF5xn; nRF5xGap() : advertisingPolicyMode(Gap::ADV_POLICY_IGNORE_WHITELIST), scanningPolicyMode(Gap::SCAN_POLICY_IGNORE_WHITELIST) { m_connectionHandle = BLE_CONN_HANDLE_INVALID; /* Reset the whitelist */ whitelist.addr_count = 0; whitelist.irk_count = 0; whitelist.pp_irks = whitelistIrkPtrs; whitelist.pp_addrs = whitelistAddressPtrs; whitelistAddressesSize = 0; } nRF5xGap(nRF5xGap const &); void operator=(nRF5xGap const &); }; #endif // ifndef __NRF5x_GAP_H__