firmware/os/inc/syscallDo.h - device/google/contexthub - Git at Google

 /*
  * Copyright (C) 2016 The Android Open Source Project
  *
  * 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 _SYSCALL_DO_H_
 #define _SYSCALL_DO_H_


 #ifdef __cplusplus
 extern "C" {
 #endif

 #ifdef _OS_BUILD_
     #error "Syscalls should not be called from OS code"
 #endif

 #include <cpu/syscallDo.h>
 #include <sensors.h>
 #include <syscall.h>
 #include <stdarg.h>
 #include <gpio.h>
 #include <osApi.h>
 #include <seos.h>
 #include <util.h>

 #include <syscall_defs.h>


 //system syscalls live here
 static inline bool eOsEventSubscribe(uint32_t tid, uint32_t evtType)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_SUBCRIBE), tid, evtType);
 }

 static inline bool eOsEventUnsubscribe(uint32_t tid, uint32_t evtType)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_UNSUBCRIBE), tid, evtType);
 }

 static inline bool eOsEnqueueEvt(uint32_t evtType, void *evtData, uint32_t tidOfWhoWillFreeThisEvent) // tidOfWhoWillFreeThisEvent is likely your TID
 {
     return syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_ENQUEUE), evtType, evtData, tidOfWhoWillFreeThisEvent);
 }

 static inline bool eOsEnqueueEvtOrFree(uint32_t evtType, void *evtData, EventFreeF evtFreeF, uint32_t tidOfWhoWillFreeThisEvent) // tidOfWhoWillFreeThisEvent is likely your TID
 {
     bool success = eOsEnqueueEvt(evtType, evtData, tidOfWhoWillFreeThisEvent);
     if (!success && evtFreeF)
         evtFreeF(evtData);
     return success;
 }

 static inline bool eOsEnqueuePrivateEvt(uint32_t evtType, void *evtData, uint32_t tidOfWhoWillFreeThisEvent, uint32_t toTid)
 {
     return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_ENQUEUE_PRIVATE), evtType, evtData, tidOfWhoWillFreeThisEvent, toTid);
 }

 static inline bool eOsRetainCurrentEvent(TaggedPtr *evtFreeingInfoP)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_RETAIN_EVT), evtFreeingInfoP);
 }

 static inline bool eOsFreeRetainedEvent(uint32_t evtType, void *evtData, TaggedPtr *evtFreeingInfoP)
 {
     return syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_FREE_RETAINED), evtType, evtData, evtFreeingInfoP);
 }

 static inline void eOsLogvInternal(enum LogLevel level, const char *str, uintptr_t args_list)
 {
     (void)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_LOGGING, SYSCALL_OS_MAIN_LOG_LOGV), level, str, args_list);
 }

 static inline void eOsLogv(enum LogLevel level, const char *str, va_list vl)
 {
     eOsLogvInternal(level, str, VA_LIST_TO_INTEGER(vl));
 }

 static inline void eOsLog(enum LogLevel level, const char *str, ...)
 {
     va_list vl;

     va_start(vl, str);
     eOsLogvInternal(level, str, VA_LIST_TO_INTEGER(vl));
     va_end(vl);
 }

 static inline bool eOsSensorSignalInternalEvt(uint32_t handle, uint32_t intEvtNum, uint32_t value1, uint64_t value2)
 {
     uint32_t value2_lo = value2;
     uint32_t value2_hi = value2 >> 32;

     return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_SIGNAL), handle, intEvtNum, value1, value2_lo, value2_hi);
 }

 static inline uint32_t eOsSensorRegister(const struct SensorInfo *si, uint32_t tid, void *cookie, bool initComplete)
 {
     return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REG), si, tid, cookie, (int)initComplete);
 }

 static inline bool eOsSensorUnregister(uint32_t handle)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_UNREG), handle);
 }

 static inline bool eOsSensorRegisterInitComplete(uint32_t handle)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REG_INIT_COMP), handle);
 }

 static inline const struct SensorInfo* eOsSensorFind(uint32_t sensorType, uint32_t idx, uint32_t *handleP)
 {
     return (const struct SensorInfo*)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_FIND), sensorType, idx, handleP);
 }

 static inline bool eOsSensorRequest(uint32_t clientId, uint32_t sensorHandle, uint32_t rate, uint64_t latency)
 {
     uint32_t latency_lo = latency;
     uint32_t latency_hi = latency >> 32;

     return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REQUEST), clientId, sensorHandle, rate, latency_lo, latency_hi);
 }

 static inline bool eOsSensorRequestRateChange(uint32_t clientId, uint32_t sensorHandle, uint32_t newRate, uint64_t newLatency)
 {
     uint32_t newLatency_lo = newLatency;
     uint32_t newLatency_hi = newLatency >> 32;

     return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_RATE_CHG), clientId, sensorHandle, newRate, newLatency_lo, newLatency_hi);
 }

 static inline bool eOsSensorRelease(uint32_t clientId, uint32_t sensorHandle)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_RELEASE), clientId, sensorHandle);
 }

 static inline bool eOsSensorTriggerOndemand(uint32_t clientId, uint32_t sensorHandle)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_TRIGGER), clientId, sensorHandle);
 }

 static inline uint32_t eOsSensorGetCurRate(uint32_t sensorHandle)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_CUR_RATE), sensorHandle);
 }

 static inline uint64_t eOsSensorGetTime(void)
 {
     uint64_t timeNanos;
     syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_TIME), &timeNanos);
     return timeNanos;
 }

 static inline uint32_t eOsSensorGetReqRate(uint32_t sensorHandle)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_REQ_RATE), sensorHandle);
 }

 static inline uint64_t eOsTimGetTime(void)
 {
     uint64_t timeNanos;
     syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_GET_TIME), &timeNanos);
     return timeNanos;
 }

 static inline uint32_t eOsTimTimerSet(uint64_t length, uint32_t jitterPpm, uint32_t driftPpm, uint32_t tid, void* cookie, bool oneShot)
 {
     uint32_t lengthLo = length;
     uint32_t lengthHi = length >> 32;

     return syscallDoGeneric(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_SET_TIMER), lengthLo, lengthHi, jitterPpm, driftPpm, tid, cookie, (int)oneShot);
 }

 static inline bool eOsTimTimerCancel(uint32_t timerId)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_CANCEL_TIMER), timerId);
 }

 static inline void* eOsHeapAlloc(uint32_t sz)
 {
     return (void*)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HEAP, SYSCALL_OS_MAIN_HEAP_ALLOC), sz);
 }

 static inline void eOsHeapFree(void* ptr)
 {
     (void)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HEAP, SYSCALL_OS_MAIN_HEAP_FREE), ptr);
 }

 static inline struct SlabAllocator* eOsSlabAllocatorNew(uint32_t itemSz, uint32_t itemAlign, uint32_t numItems)
 {
     return (struct SlabAllocator*)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_NEW), itemSz, itemAlign, numItems);
 }

 static inline void eOsSlabAllocatorDestroy(struct SlabAllocator* allocator)
 {
     (void)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_DESTROY), allocator);
 }

 static inline void* eOsSlabAllocatorAlloc(struct SlabAllocator* allocator)
 {
     return (void *)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_ALLOC), allocator);
 }

 static inline void eOsSlabAllocatorFree(struct SlabAllocator* allocator, void* ptrP)
 {
     (void)syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_FREE), allocator, ptrP);
 }

 static inline uint64_t eOsHostGetTime(void)
 {
     uint64_t timeNanos;
     syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HOST, SYSCALL_OS_MAIN_HOST_GET_TIME), &timeNanos);
     return timeNanos;
 }

 static inline uint64_t eOsRtcGetTime(void)
 {
     uint64_t timeNanos;
     syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_RTC, SYSCALL_OS_MAIN_RTC_GET_TIME), &timeNanos);
     return timeNanos;
 }

 static inline struct Gpio* eOsGpioRequest(uint32_t gpioNum)
 {
     return (struct Gpio*)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_REQ), gpioNum);
 }

 static inline void eOsGpioRelease(struct Gpio* __restrict gpio)
 {
     syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_REL), gpio);
 }

 static inline void eOsGpioConfigInput(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull)
 {
     syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_IN), gpio, gpioSpeed, pull);
 }

 static inline void eOsGpioConfigOutput(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull, enum GpioOpenDrainMode odrMode, bool value)
 {
     syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_OUT), gpio, gpioSpeed, pull, odrMode, value);
 }

 static inline void eOsGpioConfigAlt(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull, enum GpioOpenDrainMode odrMode, uint32_t altFunc)
 {
     syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_ALT), gpio, gpioSpeed, pull, odrMode, altFunc);
 }

 static inline bool eOsGpioGet(const struct Gpio* __restrict gpio)
 {
     return !!syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_GET), gpio);
 }

 static inline void eOsGpioSet(const struct Gpio* __restrict gpio, bool value)
 {
     syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_SET), gpio, value);
 }

 static inline int eOsI2cMasterRequest(uint32_t busId, uint32_t speedInHz)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_REQ), busId, speedInHz);
 }

 static inline int eOsI2cMasterRelease(uint32_t busId)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_REL), busId);
 }

 static inline int eOsI2cMasterTxRx(uint32_t busId, uint32_t addr, const void *txBuf, size_t txSize, void *rxBuf, size_t rxSize, uint32_t cbkTid, void *cookie)
 {
     return syscallDoGeneric(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_TXRX), busId, addr, txBuf, txSize, rxBuf, rxSize, cbkTid, cookie);
 }

 static inline int eOsI2cSlaveRequest(uint32_t busId, uint32_t addr)
 {
     return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_REQ), busId, addr);
 }

 static inline int eOsI2cSlaveRelease(uint32_t busId)
 {
     return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_REL), busId);
 }

 static inline void eOsI2cSlaveEnableRx(uint32_t busId, void *rxBuf, size_t rxSize, uint32_t cbkTid, void *cookie)
 {
     syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_RX_EN), busId, rxBuf, rxSize, cbkTid, cookie);
 }

 static inline int eOsI2cSlaveTxPreamble(uint32_t busId, uint8_t byte, uint32_t cbkTid, void *cookie)
 {
     return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_TX_PRE), busId, byte, cbkTid, cookie);
 }

 static inline int eOsI2cSlaveTxPacket(uint32_t busId, const void *txBuf, size_t txSize, uint32_t cbkTid, void *cookie)
 {
     return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_TX_PKT), busId, txBuf, txSize, cbkTid, cookie);
 }

 #ifdef __cplusplus
 }
 #endif

 #endif
	/*
	* Copyright (C) 2016 The Android Open Source Project
	*
	* 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 _SYSCALL_DO_H_
	#define _SYSCALL_DO_H_


	#ifdef __cplusplus
	extern "C" {
	#endif

	#ifdef _OS_BUILD_
	#error "Syscalls should not be called from OS code"
	#endif

	#include <cpu/syscallDo.h>
	#include <sensors.h>
	#include <syscall.h>
	#include <stdarg.h>
	#include <gpio.h>
	#include <osApi.h>
	#include <seos.h>
	#include <util.h>

	#include <syscall_defs.h>


	//system syscalls live here
	static inline bool eOsEventSubscribe(uint32_t tid, uint32_t evtType)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_SUBCRIBE), tid, evtType);
	}

	static inline bool eOsEventUnsubscribe(uint32_t tid, uint32_t evtType)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_UNSUBCRIBE), tid, evtType);
	}

	static inline bool eOsEnqueueEvt(uint32_t evtType, void *evtData, uint32_t tidOfWhoWillFreeThisEvent) // tidOfWhoWillFreeThisEvent is likely your TID
	{
	return syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_ENQUEUE), evtType, evtData, tidOfWhoWillFreeThisEvent);
	}

	static inline bool eOsEnqueueEvtOrFree(uint32_t evtType, void *evtData, EventFreeF evtFreeF, uint32_t tidOfWhoWillFreeThisEvent) // tidOfWhoWillFreeThisEvent is likely your TID
	{
	bool success = eOsEnqueueEvt(evtType, evtData, tidOfWhoWillFreeThisEvent);
	if (!success && evtFreeF)
	evtFreeF(evtData);
	return success;
	}

	static inline bool eOsEnqueuePrivateEvt(uint32_t evtType, void *evtData, uint32_t tidOfWhoWillFreeThisEvent, uint32_t toTid)
	{
	return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_ENQUEUE_PRIVATE), evtType, evtData, tidOfWhoWillFreeThisEvent, toTid);
	}

	static inline bool eOsRetainCurrentEvent(TaggedPtr *evtFreeingInfoP)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_RETAIN_EVT), evtFreeingInfoP);
	}

	static inline bool eOsFreeRetainedEvent(uint32_t evtType, void evtData, TaggedPtr evtFreeingInfoP)
	{
	return syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_EVENTQ, SYSCALL_OS_MAIN_EVTQ_FREE_RETAINED), evtType, evtData, evtFreeingInfoP);
	}

	static inline void eOsLogvInternal(enum LogLevel level, const char *str, uintptr_t args_list)
	{
	(void)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_LOGGING, SYSCALL_OS_MAIN_LOG_LOGV), level, str, args_list);
	}

	static inline void eOsLogv(enum LogLevel level, const char *str, va_list vl)
	{
	eOsLogvInternal(level, str, VA_LIST_TO_INTEGER(vl));
	}

	static inline void eOsLog(enum LogLevel level, const char *str, ...)
	{
	va_list vl;

	va_start(vl, str);
	eOsLogvInternal(level, str, VA_LIST_TO_INTEGER(vl));
	va_end(vl);
	}

	static inline bool eOsSensorSignalInternalEvt(uint32_t handle, uint32_t intEvtNum, uint32_t value1, uint64_t value2)
	{
	uint32_t value2_lo = value2;
	uint32_t value2_hi = value2 >> 32;

	return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_SIGNAL), handle, intEvtNum, value1, value2_lo, value2_hi);
	}

	static inline uint32_t eOsSensorRegister(const struct SensorInfo si, uint32_t tid, void cookie, bool initComplete)
	{
	return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REG), si, tid, cookie, (int)initComplete);
	}

	static inline bool eOsSensorUnregister(uint32_t handle)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_UNREG), handle);
	}

	static inline bool eOsSensorRegisterInitComplete(uint32_t handle)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REG_INIT_COMP), handle);
	}

	static inline const struct SensorInfo* eOsSensorFind(uint32_t sensorType, uint32_t idx, uint32_t *handleP)
	{
	return (const struct SensorInfo*)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_FIND), sensorType, idx, handleP);
	}

	static inline bool eOsSensorRequest(uint32_t clientId, uint32_t sensorHandle, uint32_t rate, uint64_t latency)
	{
	uint32_t latency_lo = latency;
	uint32_t latency_hi = latency >> 32;

	return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_REQUEST), clientId, sensorHandle, rate, latency_lo, latency_hi);
	}

	static inline bool eOsSensorRequestRateChange(uint32_t clientId, uint32_t sensorHandle, uint32_t newRate, uint64_t newLatency)
	{
	uint32_t newLatency_lo = newLatency;
	uint32_t newLatency_hi = newLatency >> 32;

	return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_RATE_CHG), clientId, sensorHandle, newRate, newLatency_lo, newLatency_hi);
	}

	static inline bool eOsSensorRelease(uint32_t clientId, uint32_t sensorHandle)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_RELEASE), clientId, sensorHandle);
	}

	static inline bool eOsSensorTriggerOndemand(uint32_t clientId, uint32_t sensorHandle)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_TRIGGER), clientId, sensorHandle);
	}

	static inline uint32_t eOsSensorGetCurRate(uint32_t sensorHandle)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_CUR_RATE), sensorHandle);
	}

	static inline uint64_t eOsSensorGetTime(void)
	{
	uint64_t timeNanos;
	syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_TIME), &timeNanos);
	return timeNanos;
	}

	static inline uint32_t eOsSensorGetReqRate(uint32_t sensorHandle)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SENSOR, SYSCALL_OS_MAIN_SENSOR_GET_REQ_RATE), sensorHandle);
	}

	static inline uint64_t eOsTimGetTime(void)
	{
	uint64_t timeNanos;
	syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_GET_TIME), &timeNanos);
	return timeNanos;
	}

	static inline uint32_t eOsTimTimerSet(uint64_t length, uint32_t jitterPpm, uint32_t driftPpm, uint32_t tid, void* cookie, bool oneShot)
	{
	uint32_t lengthLo = length;
	uint32_t lengthHi = length >> 32;

	return syscallDoGeneric(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_SET_TIMER), lengthLo, lengthHi, jitterPpm, driftPpm, tid, cookie, (int)oneShot);
	}

	static inline bool eOsTimTimerCancel(uint32_t timerId)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_TIME, SYSCALL_OS_MAIN_TIME_CANCEL_TIMER), timerId);
	}

	static inline void* eOsHeapAlloc(uint32_t sz)
	{
	return (void*)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HEAP, SYSCALL_OS_MAIN_HEAP_ALLOC), sz);
	}

	static inline void eOsHeapFree(void* ptr)
	{
	(void)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HEAP, SYSCALL_OS_MAIN_HEAP_FREE), ptr);
	}

	static inline struct SlabAllocator* eOsSlabAllocatorNew(uint32_t itemSz, uint32_t itemAlign, uint32_t numItems)
	{
	return (struct SlabAllocator*)syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_NEW), itemSz, itemAlign, numItems);
	}

	static inline void eOsSlabAllocatorDestroy(struct SlabAllocator* allocator)
	{
	(void)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_DESTROY), allocator);
	}

	static inline void* eOsSlabAllocatorAlloc(struct SlabAllocator* allocator)
	{
	return (void *)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_ALLOC), allocator);
	}

	static inline void eOsSlabAllocatorFree(struct SlabAllocator* allocator, void* ptrP)
	{
	(void)syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_SLAB, SYSCALL_OS_MAIN_SLAB_FREE), allocator, ptrP);
	}

	static inline uint64_t eOsHostGetTime(void)
	{
	uint64_t timeNanos;
	syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_HOST, SYSCALL_OS_MAIN_HOST_GET_TIME), &timeNanos);
	return timeNanos;
	}

	static inline uint64_t eOsRtcGetTime(void)
	{
	uint64_t timeNanos;
	syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_MAIN, SYSCALL_OS_MAIN_RTC, SYSCALL_OS_MAIN_RTC_GET_TIME), &timeNanos);
	return timeNanos;
	}

	static inline struct Gpio* eOsGpioRequest(uint32_t gpioNum)
	{
	return (struct Gpio*)syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_REQ), gpioNum);
	}

	static inline void eOsGpioRelease(struct Gpio* __restrict gpio)
	{
	syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_REL), gpio);
	}

	static inline void eOsGpioConfigInput(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull)
	{
	syscallDo3P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_IN), gpio, gpioSpeed, pull);
	}

	static inline void eOsGpioConfigOutput(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull, enum GpioOpenDrainMode odrMode, bool value)
	{
	syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_OUT), gpio, gpioSpeed, pull, odrMode, value);
	}

	static inline void eOsGpioConfigAlt(const struct Gpio* __restrict gpio, int32_t gpioSpeed, enum GpioPullMode pull, enum GpioOpenDrainMode odrMode, uint32_t altFunc)
	{
	syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_CFG_ALT), gpio, gpioSpeed, pull, odrMode, altFunc);
	}

	static inline bool eOsGpioGet(const struct Gpio* __restrict gpio)
	{
	return !!syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_GET), gpio);
	}

	static inline void eOsGpioSet(const struct Gpio* __restrict gpio, bool value)
	{
	syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_GPIO, SYSCALL_OS_DRV_GPIO_SET), gpio, value);
	}

	static inline int eOsI2cMasterRequest(uint32_t busId, uint32_t speedInHz)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_REQ), busId, speedInHz);
	}

	static inline int eOsI2cMasterRelease(uint32_t busId)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_REL), busId);
	}

	static inline int eOsI2cMasterTxRx(uint32_t busId, uint32_t addr, const void txBuf, size_t txSize, void rxBuf, size_t rxSize, uint32_t cbkTid, void *cookie)
	{
	return syscallDoGeneric(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_MASTER, SYSCALL_OS_DRV_I2CM_TXRX), busId, addr, txBuf, txSize, rxBuf, rxSize, cbkTid, cookie);
	}

	static inline int eOsI2cSlaveRequest(uint32_t busId, uint32_t addr)
	{
	return syscallDo2P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_REQ), busId, addr);
	}

	static inline int eOsI2cSlaveRelease(uint32_t busId)
	{
	return syscallDo1P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_REL), busId);
	}

	static inline void eOsI2cSlaveEnableRx(uint32_t busId, void rxBuf, size_t rxSize, uint32_t cbkTid, void cookie)
	{
	syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_RX_EN), busId, rxBuf, rxSize, cbkTid, cookie);
	}

	static inline int eOsI2cSlaveTxPreamble(uint32_t busId, uint8_t byte, uint32_t cbkTid, void *cookie)
	{
	return syscallDo4P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_TX_PRE), busId, byte, cbkTid, cookie);
	}

	static inline int eOsI2cSlaveTxPacket(uint32_t busId, const void txBuf, size_t txSize, uint32_t cbkTid, void cookie)
	{
	return syscallDo5P(SYSCALL_NO(SYSCALL_DOMAIN_OS, SYSCALL_OS_DRIVERS, SYSCALL_OS_DRV_I2C_SLAVE, SYSCALL_OS_DRV_I2CS_TX_PKT), busId, txBuf, txSize, cbkTid, cookie);
	}

	#ifdef __cplusplus
	}
	#endif

	#endif