/*
 * 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 _OS_API_H_
#define _OS_API_H_

#include <stdint.h>
#include <slab.h>

#include <seos_priv.h>

//EXTERNAL API
//level 1 indices in the OS table
#define SYSCALL_OS_MAIN                   0
#define SYSCALL_OS_DRIVERS                1
#define SYSCALL_OS_LAST                   2 // always last. holes are allowed, but not immediately before this

//level 2 indices in the OS.drivers table
#define SYSCALL_OS_DRV_GPIO               0
#define SYSCALL_OS_DRV_I2C_MASTER         1
#define SYSCALL_OS_DRV_I2C_SLAVE          2
#define SYSCALL_OS_DRV_LAST               3 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.drivers.gpio table
/* more thing here eventually */
#define SYSCALL_OS_DRV_GPIO_REQ           0 // (uint32_t gpioNum) -> void* handle
#define SYSCALL_OS_DRV_GPIO_REL           1 // (handle) -> void
#define SYSCALL_OS_DRV_GPIO_CFG_IN        2 // (handle, i32 gpioSpeed, GpioPullMode pull) -> void
#define SYSCALL_OS_DRV_GPIO_CFG_OUT       3 // (handle, i32 gpioSpeed, GpioPullMode pull, GpioOpenDrainMode output, bool value) -> void
#define SYSCALL_OS_DRV_GPIO_CFG_ALT       4 // (handle, i32 gpioSpeed, GpioPullMode pull, GpioOpenDrainMode output, u32 altFunc) -> void
#define SYSCALL_OS_DRV_GPIO_GET           5 // (handle) -> bool isHigh
#define SYSCALL_OS_DRV_GPIO_SET           6 // (handle, bool value) -> void
#define SYSCALL_OS_DRV_GPIO_LAST          7 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.drivers.i2cM table
#define SYSCALL_OS_DRV_I2CM_REQ           0 // (I2cBus busId, I2cSpeed speed) -> int status
#define SYSCALL_OS_DRV_I2CM_REL           1 // (I2cBus busId) -> int status
#define SYSCALL_OS_DRV_I2CM_TXRX          2 // (I2cBus busId, I2cAddr addr, const void *txBuf, size_t txSize, void *rxBuf, size_t rxSize, uint32_t yourTidForEvts, void *cookie) -> int status
#define SYSCALL_OS_DRV_I2CM_LAST          3 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.drivers.i2cS table
#define SYSCALL_OS_DRV_I2CS_REQ           0 // (I2cBus busId, I2cAddr addr) -> int status
#define SYSCALL_OS_DRV_I2CS_REL           1 // (I2cBus busId) -> int status
#define SYSCALL_OS_DRV_I2CS_RX_EN         2 // (I2cBus busId, void *rxBuf, size_t rxSize, uint32_t yourTidForEvts, void *cookie) -> void
#define SYSCALL_OS_DRV_I2CS_TX_PRE        3 // (I2cBus busId, uint8_t byte, uint32_t yourTidForEvts, void *cookie) -> int status
#define SYSCALL_OS_DRV_I2CS_TX_PKT        4 // (I2cBus busId, const void *txBuf, size_t txSize, uint32_t yourTidForEvts, void *cookie) -> int status
#define SYSCALL_OS_DRV_I2CS_LAST          5 // always last. holes are allowed, but not immediately before this

//level 2 indices in the OS.main table
#define SYSCALL_OS_MAIN_EVENTQ            0
#define SYSCALL_OS_MAIN_LOGGING           1
#define SYSCALL_OS_MAIN_SENSOR            2
#define SYSCALL_OS_MAIN_TIME              3
#define SYSCALL_OS_MAIN_HEAP              4
#define SYSCALL_OS_MAIN_SLAB              5
#define SYSCALL_OS_MAIN_HOST              6
#define SYSCALL_OS_MAIN_RTC               7
#define SYSCALL_OS_MAIN_LAST              8 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.event_queue table
#define SYSCALL_OS_MAIN_EVTQ_SUBCRIBE        0 // (uint32_t tid, uint32_t evtType) -> bool success
#define SYSCALL_OS_MAIN_EVTQ_UNSUBCRIBE      1 // ((uint32_t tid, uint32_t evtType) -> bool success
#define SYSCALL_OS_MAIN_EVTQ_ENQUEUE         2 // (uint32_t evtType, void *evtData, uint32_t tidForFreeEvt) -> bool success
#define SYSCALL_OS_MAIN_EVTQ_ENQUEUE_PRIVATE 3 // (uint32_t evtType, void *evtData, uint32_t tidForFreeEvt, uint32_t toTid) -> bool success
#define SYSCALL_OS_MAIN_EVTQ_RETAIN_EVT      4 // (TaggedPtr *evtFreeingInfoP) -> bool success
#define SYSCALL_OS_MAIN_EVTQ_FREE_RETAINED   5 // (uint32_t evtType, void *evtData, TaggedPtr *evtFreeingInfoP) -> void
#define SYSCALL_OS_MAIN_EVTQ_LAST            6 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.logging table
#define SYSCALL_OS_MAIN_LOG_LOGV         0 // (enum LogLevel level, const char *str, va_list *) -> void
#define SYSCALL_OS_MAIN_LOG_LAST         1 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.sensors table
#define SYSCALL_OS_MAIN_SENSOR_SIGNAL        0 // (uint32_t handle, uint32_t intEvtNum, uint32_t value1, uint32_t value2_lo, uint32_t value2_hi) -> bool /* used by sensor-provding apps */
#define SYSCALL_OS_MAIN_SENSOR_REG           1 // (const struct SensorInfo *si, uint32_t tid) -> u32 handle
#define SYSCALL_OS_MAIN_SENSOR_UNREG         2 // (uint32_t handle) -> bool
#define SYSCALL_OS_MAIN_SENSOR_REG_INIT_COMP 3 // (uint32_t handle) -> bool
#define SYSCALL_OS_MAIN_SENSOR_FIND          4 // (uint32_t sensorType, uint32_t idx, uint32_t *handleP) -> const struct SensorInfo* or NULL
#define SYSCALL_OS_MAIN_SENSOR_REQUEST       5 // (uint32_t clientId, uint32_t sensorHandle, uint32_t rate) -> bool success
#define SYSCALL_OS_MAIN_SENSOR_RATE_CHG      6 // (uint32_t clientId, uint32_t sensorHandle, uint32_t newRate) -> bool success
#define SYSCALL_OS_MAIN_SENSOR_RELEASE       7 // (uint32_t clientId, uint32_t sensorHandle) -> bool success
#define SYSCALL_OS_MAIN_SENSOR_TRIGGER       8 // (uint32_t clientId, uint32_t sensorHandle) -> bool success
#define SYSCALL_OS_MAIN_SENSOR_GET_RATE      9 // (uint32_t sensorHandle) -> uint32_t rate
#define SYSCALL_OS_MAIN_SENSOR_GET_TIME     10 // (uint64_t *timeNanos) -> void
#define SYSCALL_OS_MAIN_SENSOR_LAST         11 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.timer table
#define SYSCALL_OS_MAIN_TIME_GET_TIME     0 // (uint64_t *timeNanos) -> void
#define SYSCALL_OS_MAIN_TIME_SET_TIMER    1 // (uint32_t len_lo, uint32_t len_hi, uint32_t jitterPpm, uint32_t driftPpm, uint32_t tidForTimerEvt, void *cookie, bool oneshot) -> u32 timerId
#define SYSCALL_OS_MAIN_TIME_CANCEL_TIMER 2 // (uint32_t timer_id) -> bool success
#define SYSCALL_OS_MAIN_TIME_LAST         3 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.heap table
#define SYSCALL_OS_MAIN_HEAP_ALLOC        0 // (uint32_t sz) -> void *mem
#define SYSCALL_OS_MAIN_HEAP_FREE         1 // (void *mem) -> void
#define SYSCALL_OS_MAIN_HEAP_LAST         2 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.slab table
#define SYSCALL_OS_MAIN_SLAB_NEW          0 // (uint32_t itemSz, uint32_t itemAlign, uint32_t numItems) -> struct SlabAllocator *slab
#define SYSCALL_OS_MAIN_SLAB_DESTROY      1 // (struct SlabAllocator *slab) -> void
#define SYSCALL_OS_MAIN_SLAB_ALLOC        2 // (struct SlabAllocator *slab) -> void *mem
#define SYSCALL_OS_MAIN_SLAB_FREE         3 // (struct SlabAllocator *slab, void *mem) -> void
#define SYSCALL_OS_MAIN_SLAB_LAST         4 // always last. holes are allowed, but not immediately before this

//level 3 indices in the OS.main.host table
#define SYSCALL_OS_MAIN_HOST_GET_TIME     0 // (uint64_t *timeNanos) -> void
#define SYSCALL_OS_MAIN_HOST_LAST         1

//level 3 indices in the OS.main.rtc table
#define SYSCALL_OS_MAIN_RTC_GET_TIME      0 // (uint64_t *timeNanos) -> void
#define SYSCALL_OS_MAIN_RTC_LAST          1

//called by os entry point to export the api
void osApiExport(struct SlabAllocator *mainSlubAllocator);




#endif