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Diff: source/nRF5xGap.h
- Revision:
- 510:7dded1f7473c
- Parent:
- 509:7dc75f30064f
- Child:
- 511:2df149fad2cd
--- a/source/nRF5xGap.h Wed Dec 02 12:35:26 2015 +0000 +++ b/source/nRF5xGap.h Wed Dec 02 12:35:26 2015 +0000 @@ -26,7 +26,11 @@ #include "ble/GapScanningParams.h" #include "nrf_soc.h" + +extern "C" { #include "ble_radio_notification.h" +} + #include "btle_security.h" void radioNotificationStaticCallback(bool param); @@ -109,12 +113,64 @@ #endif private: +#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. + */ + + bool radioNotificationCallbackParam; /* parameter to be passed into the Timeout-generated radio notification callback. */ + Timeout radioNotificationTimeout; + + /* + * A helper function to post radio notification callbacks through MINAR when using mbed OS. + */ + void postRadioNotificationCallback(void) { + minar::Scheduler::postCallback( + mbed::util::FunctionPointer1<void, bool>(&radioNotificationCallback, &FunctionPointerWithContext<bool>::call).bind(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) { +#ifdef YOTTA_CFG_MBED_OS + /* When using mbed OS the callback to the user-defined function will be posted through minar */ + radioNotificationCallbackParam = param; + radioNotificationTimeout.attach_us(this, &nRF5xGap::postRadioNotificationCallback, 0); +#else radioNotificationCallback.call(param); +#endif } friend void radioNotificationStaticCallback(bool param); /* allow invocations of processRadioNotificationEvent() */