firmware/os/inc/eventnums.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 EVENTNUMS_H
 #define EVENTNUMS_H

 #include <stdint.h>
 #include "toolchain.h"

 /* These define ranges of reserved events */
 // local events are 16-bit always
 #define EVT_NO_FIRST_USER_EVENT          0x00000100    //all events lower than this are reserved for the OS. all of them are nondiscardable necessarily!
 #define EVT_NO_FIRST_SENSOR_EVENT        0x00000200    //sensor type SENSOR_TYPE_x produces events of type EVT_NO_FIRST_SENSOR_EVENT + SENSOR_TYPE_x for all Google-defined sensors
 #define EVT_NO_SENSOR_CONFIG_EVENT       0x00000300    //event to configure sensors
 #define EVT_APP_START                    0x00000400    //sent when an app can actually start
 #define EVT_APP_TO_HOST                  0x00000401    //app data to host. Type is struct HostHubRawPacket
 #define EVT_MARSHALLED_SENSOR_DATA       0x00000402    //marshalled event data. Type is MarshalledUserEventData
 #define EVT_RESET_REASON                 0x00000403    //reset reason to host.
 #define EVT_APP_TO_SENSOR_HAL_DATA       0x00000404    //sensor driver out of band data update to sensor hal
 #define EVT_APP_STARTED                  0x00000405    //sent when a app has successfully started
 #define EVT_APP_STOPPED                  0x00000406    //sent when a app has stopped
 #define EVT_DEBUG_LOG                    0x00007F01    //send message payload to Linux kernel log
 #define EVT_MASK                         0x0000FFFF

 // host-side events are 32-bit

 // DEBUG_LOG_EVT is normally undefined, or defined with a special value, recognized by nanohub driver: 0x3B474F4C
 // if defined with this value, the log message payload will appear in Linux kernel message log.
 // If defined with other value, it will still be sent to nanohub driver, and then forwarded to userland
 // verbatim, where it could be logged by nanohub HAL (by turning on it's logging via 'setprop persist.nanohub.debug 1'
 #ifdef DEBUG_LOG_EVT
 #define HOST_EVT_DEBUG_LOG               DEBUG_LOG_EVT
 #endif

 #define HOST_HUB_RAW_PACKET_MAX_LEN      128

 SET_PACKED_STRUCT_MODE_ON
 struct HostHubRawPacket {
     uint64_t appId;
     uint8_t dataLen; //not incl this header, 128 bytes max
     //raw data in unspecified format here
 }ATTRIBUTE_PACKED;
 SET_PACKED_STRUCT_MODE_OFF

 SET_PACKED_STRUCT_MODE_ON
 struct NanohubMsgChreHdrV10 {
     uint8_t size;
     uint32_t appEvent;
 }ATTRIBUTE_PACKED;
 SET_PACKED_STRUCT_MODE_OFF

 SET_PACKED_STRUCT_MODE_ON
 struct NanohubMsgChreHdr {
     uint8_t size;
     uint32_t appEvent;
     uint16_t endpoint;
 }ATTRIBUTE_PACKED;
 SET_PACKED_STRUCT_MODE_OFF

 SET_PACKED_STRUCT_MODE_ON
 struct MarshalledUserEventData {
     //for matching
     uint32_t origEvtType;

     int32_t dataLen;  //use negative here to indicate marshalling error.
     //raw data in unspecified format here

 }ATTRIBUTE_PACKED;
 SET_PACKED_STRUCT_MODE_OFF


 /*
  * When sensor drivers use EVT_APP_TO_HOST, e.g. for reporting calibration data,
  * the data segment of struct HostHubRawPacket is strongly recommended to begin
  * with this header to allow for common parsing. But this is not a requirement,
  * as these messages are inherently application-specific.
  */
 SET_PACKED_STRUCT_MODE_ON
 struct SensorAppEventHeader {
     uint8_t msgId;
     uint8_t sensorType;
     uint8_t status; // 0 for success, else application-specific error code
 }ATTRIBUTE_PACKED;
 SET_PACKED_STRUCT_MODE_OFF

 #define SENSOR_APP_EVT_STATUS_SUCCESS    0x00
 #define SENSOR_APP_EVT_STATUS_ERROR      0x01 // General failure
 #define SENSOR_APP_EVT_STATUS_BUSY       0x02

 #define SENSOR_APP_MSG_ID_CAL_RESULT     0x00 // Status of calibration, with resulting biases
 #define SENSOR_APP_MSG_ID_TEST_RESULT    0x01 // Status of self-test

 /*
  * These events are in private OS-reserved range, and are sent targettedly
  * to one app. This is OK since real OS-reserved internal events will never
  * go to apps, as that region is reserved for them. We thus achieve succesful
  * overloading of the range.
  */

 //for all apps
 #define EVT_APP_FREE_EVT_DATA            0x000000FF    //sent to an external app when its event has been marked for freeing. Data: struct AppEventFreeData
 // this event is never enqueued; it goes directly to the app.
 // It notifies app that have outstanding IO, that is is about to end;
 // Expected app behavior is to not send any more events to system;
 // any events sent after this point will be silently ignored by the system;
 // any outstanding events will be allowed to proceed to completion. (this is SIG_STOP)
 #define EVT_APP_STOP                     0x000000FE
 // Internal event, with task pointer as event data;
 // system ends the task unconditionally; no further checks performed (this is SIG_KILL)
 #define EVT_APP_END                      0x000000FD
 #define EVT_APP_BEGIN                    0x000000FC
 //for host comms
 #define EVT_APP_FROM_HOST_CHRE           0x000000F9    //host data to an app. Type is struct HostMsgHdrChre
 #define EVT_APP_FROM_HOST                0x000000F8    //host data to an app. Type is struct HostMsgHdr

 //for apps that use I2C
 #define EVT_APP_I2C_CBK                  0x000000F0    //data pointer points to struct I2cEventData

 //for apps that claim to be a sensor
 #define EVT_APP_SENSOR_POWER             0x000000EF    //data pointer is not a pointer, it is a bool encoded as (void*)
 #define EVT_APP_SENSOR_FW_UPLD           0x000000EE
 #define EVT_APP_SENSOR_SET_RATE          0x000000ED    //data pointer points to a "const struct SensorSetRateEvent"
 #define EVT_APP_SENSOR_FLUSH             0x000000EC
 #define EVT_APP_SENSOR_TRIGGER           0x000000EB
 #define EVT_APP_SENSOR_CALIBRATE         0x000000EA
 #define EVT_APP_SENSOR_CFG_DATA          0x000000E9
 #define EVT_APP_SENSOR_SEND_ONE_DIR_EVT  0x000000E8
 #define EVT_APP_SENSOR_MARSHALL          0x000000E7    // for external sensors that send events of "user type"
 #define EVT_APP_SENSOR_SELF_TEST         0x000000E6

 //for timers
 #define EVT_APP_TIMER                    0x000000DF

 #endif /* EVENTNUMS_H */
	/*
	* 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 EVENTNUMS_H
	#define EVENTNUMS_H

	#include <stdint.h>
	#include "toolchain.h"

	/* These define ranges of reserved events */
	// local events are 16-bit always
	#define EVT_NO_FIRST_USER_EVENT 0x00000100 //all events lower than this are reserved for the OS. all of them are nondiscardable necessarily!
	#define EVT_NO_FIRST_SENSOR_EVENT 0x00000200 //sensor type SENSOR_TYPE_x produces events of type EVT_NO_FIRST_SENSOR_EVENT + SENSOR_TYPE_x for all Google-defined sensors
	#define EVT_NO_SENSOR_CONFIG_EVENT 0x00000300 //event to configure sensors
	#define EVT_APP_START 0x00000400 //sent when an app can actually start
	#define EVT_APP_TO_HOST 0x00000401 //app data to host. Type is struct HostHubRawPacket
	#define EVT_MARSHALLED_SENSOR_DATA 0x00000402 //marshalled event data. Type is MarshalledUserEventData
	#define EVT_RESET_REASON 0x00000403 //reset reason to host.
	#define EVT_APP_TO_SENSOR_HAL_DATA 0x00000404 //sensor driver out of band data update to sensor hal
	#define EVT_APP_STARTED 0x00000405 //sent when a app has successfully started
	#define EVT_APP_STOPPED 0x00000406 //sent when a app has stopped
	#define EVT_DEBUG_LOG 0x00007F01 //send message payload to Linux kernel log
	#define EVT_MASK 0x0000FFFF

	// host-side events are 32-bit

	// DEBUG_LOG_EVT is normally undefined, or defined with a special value, recognized by nanohub driver: 0x3B474F4C
	// if defined with this value, the log message payload will appear in Linux kernel message log.
	// If defined with other value, it will still be sent to nanohub driver, and then forwarded to userland
	// verbatim, where it could be logged by nanohub HAL (by turning on it's logging via 'setprop persist.nanohub.debug 1'
	#ifdef DEBUG_LOG_EVT
	#define HOST_EVT_DEBUG_LOG DEBUG_LOG_EVT
	#endif

	#define HOST_HUB_RAW_PACKET_MAX_LEN 128

	SET_PACKED_STRUCT_MODE_ON
	struct HostHubRawPacket {
	uint64_t appId;
	uint8_t dataLen; //not incl this header, 128 bytes max
	//raw data in unspecified format here
	}ATTRIBUTE_PACKED;
	SET_PACKED_STRUCT_MODE_OFF

	SET_PACKED_STRUCT_MODE_ON
	struct NanohubMsgChreHdrV10 {
	uint8_t size;
	uint32_t appEvent;
	}ATTRIBUTE_PACKED;
	SET_PACKED_STRUCT_MODE_OFF

	SET_PACKED_STRUCT_MODE_ON
	struct NanohubMsgChreHdr {
	uint8_t size;
	uint32_t appEvent;
	uint16_t endpoint;
	}ATTRIBUTE_PACKED;
	SET_PACKED_STRUCT_MODE_OFF

	SET_PACKED_STRUCT_MODE_ON
	struct MarshalledUserEventData {
	//for matching
	uint32_t origEvtType;

	int32_t dataLen; //use negative here to indicate marshalling error.
	//raw data in unspecified format here

	}ATTRIBUTE_PACKED;
	SET_PACKED_STRUCT_MODE_OFF


	/*
	* When sensor drivers use EVT_APP_TO_HOST, e.g. for reporting calibration data,
	* the data segment of struct HostHubRawPacket is strongly recommended to begin
	* with this header to allow for common parsing. But this is not a requirement,
	* as these messages are inherently application-specific.
	*/
	SET_PACKED_STRUCT_MODE_ON
	struct SensorAppEventHeader {
	uint8_t msgId;
	uint8_t sensorType;
	uint8_t status; // 0 for success, else application-specific error code
	}ATTRIBUTE_PACKED;
	SET_PACKED_STRUCT_MODE_OFF

	#define SENSOR_APP_EVT_STATUS_SUCCESS 0x00
	#define SENSOR_APP_EVT_STATUS_ERROR 0x01 // General failure
	#define SENSOR_APP_EVT_STATUS_BUSY 0x02

	#define SENSOR_APP_MSG_ID_CAL_RESULT 0x00 // Status of calibration, with resulting biases
	#define SENSOR_APP_MSG_ID_TEST_RESULT 0x01 // Status of self-test

	/*
	* These events are in private OS-reserved range, and are sent targettedly
	* to one app. This is OK since real OS-reserved internal events will never
	* go to apps, as that region is reserved for them. We thus achieve succesful
	* overloading of the range.
	*/

	//for all apps
	#define EVT_APP_FREE_EVT_DATA 0x000000FF //sent to an external app when its event has been marked for freeing. Data: struct AppEventFreeData
	// this event is never enqueued; it goes directly to the app.
	// It notifies app that have outstanding IO, that is is about to end;
	// Expected app behavior is to not send any more events to system;
	// any events sent after this point will be silently ignored by the system;
	// any outstanding events will be allowed to proceed to completion. (this is SIG_STOP)
	#define EVT_APP_STOP 0x000000FE
	// Internal event, with task pointer as event data;
	// system ends the task unconditionally; no further checks performed (this is SIG_KILL)
	#define EVT_APP_END 0x000000FD
	#define EVT_APP_BEGIN 0x000000FC
	//for host comms
	#define EVT_APP_FROM_HOST_CHRE 0x000000F9 //host data to an app. Type is struct HostMsgHdrChre
	#define EVT_APP_FROM_HOST 0x000000F8 //host data to an app. Type is struct HostMsgHdr

	//for apps that use I2C
	#define EVT_APP_I2C_CBK 0x000000F0 //data pointer points to struct I2cEventData

	//for apps that claim to be a sensor
	#define EVT_APP_SENSOR_POWER 0x000000EF //data pointer is not a pointer, it is a bool encoded as (void*)
	#define EVT_APP_SENSOR_FW_UPLD 0x000000EE
	#define EVT_APP_SENSOR_SET_RATE 0x000000ED //data pointer points to a "const struct SensorSetRateEvent"
	#define EVT_APP_SENSOR_FLUSH 0x000000EC
	#define EVT_APP_SENSOR_TRIGGER 0x000000EB
	#define EVT_APP_SENSOR_CALIBRATE 0x000000EA
	#define EVT_APP_SENSOR_CFG_DATA 0x000000E9
	#define EVT_APP_SENSOR_SEND_ONE_DIR_EVT 0x000000E8
	#define EVT_APP_SENSOR_MARSHALL 0x000000E7 // for external sensors that send events of "user type"
	#define EVT_APP_SENSOR_SELF_TEST 0x000000E6

	//for timers
	#define EVT_APP_TIMER 0x000000DF

	#endif /* EVENTNUMS_H */