inc/chre_re.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 _CHRE_RE_H_
 #define _CHRE_RE_H_

 /**
  * Some of the core Runtime Environment utilities of the Context Hub
  * Runtime Environment.
  *
  * This includes functions for memory allocation, logging, and timers.
  */

 #include <stdarg.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <stdlib.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * The instance ID for the CHRE.
  *
  * This ID is used to identify events generated by the CHRE (as
  * opposed to events generated by another nanoapp).
  */
 #define CHRE_INSTANCE_ID  UINT32_C(0)

 /**
  * A timer ID representing an invalid timer.
  *
  * This valid is returned by chreTimerSet() if a timer cannot be
  * started.
  */
 #define CHRE_TIMER_INVALID  UINT32_C(-1)


 /**
  * Logging levels used to indicate severity level of logging messages.
  *
  * CHRE_LOG_ERROR: Something fatal has happened, i.e. something that will have
  *     user-visible consequences and won't be recoverable without explicitly
  *     deleting some data, uninstalling applications, wiping the data
  *     partitions or reflashing the entire phone (or worse).
  * CHRE_LOG_WARN: Something that will have user-visible consequences but is
  *     likely to be recoverable without data loss by performing some explicit
  *     action, ranging from waiting or restarting an app all the way to
  *     re-downloading a new version of an application or rebooting the device.
  * CHRE_LOG_INFO: Something interesting to most people happened, i.e. when a
  *     situation is detected that is likely to have widespread impact, though
  *     isn't necessarily an error.
  * CHRE_LOG_DEBUG: Used to further note what is happening on the device that
  *     could be relevant to investigate and debug unexpected behaviors. You
  *     should log only what is needed to gather enough information about what
  *     is going on about your component.
  *
  * There is currently no API to turn on/off logging by level, but we anticipate
  * adding such in future releases.
  *
  * @see chreLog
  */
 enum chreLogLevel {
     CHRE_LOG_ERROR,
     CHRE_LOG_WARN,
     CHRE_LOG_INFO,
     CHRE_LOG_DEBUG
 };


 /**
  * Get the application ID.
  *
  * The application ID is set by the loader of the nanoapp.  This is not
  * assured to be unique among all nanoapps running in the system.
  *
  * @returns The application ID.
  */
 uint64_t chreGetAppId(void);

 /**
  * Get the instance ID.
  *
  * The instance ID is the CHRE handle to this nanoapp.  This is assured
  * to be unique among all nanoapps running in the system, and to be
  * different from the CHRE_INSTANCE_ID.  This is the ID used to communicate
  * between nanoapps.
  *
  * @returns The instance ID
  */
 uint32_t chreGetInstanceId(void);

 /**
  * A method for logging information about the system.
  *
  * A log entry can have a variety of levels (@see LogLevel).  This function
  * allows a variable number of arguments, in a printf-style format.
  *
  * A nanoapp needs to be able to rely upon consistent printf format
  * recognition across any platform, and thus we establish formats which
  * are required to be handled by every CHRE implementation.  Some of the
  * integral formats may seem obscure, but this API heavily uses types like
  * uint32_t and uint16_t.  The platform independent macros for those printf
  * formats, like PRId32 or PRIx16, end up using some of these "obscure"
  * formats on some platforms, and thus are required.
  *
  * For the initial N release, our emphasis is on correctly getting information
  * into the log, and minimizing the requirements for CHRE implementations
  * beyond that.  We're not as concerned about how the information is visually
  * displayed.  As a result, there are a number of format sub-specifiers which
  * are "OPTIONAL" for the N implementation.  "OPTIONAL" in this context means
  * that a CHRE implementation is allowed to essentially ignore the specifier,
  * but it must understand the specifier enough in order to properly skip it.
  *
  * For a nanoapp author, an OPTIONAL format means you might not get exactly
  * what you want on every CHRE implementation, but you will always get
  * something sane.
  *
  * To be clearer, here's an example with the OPTIONAL 0-padding for integers
  * for different hypothetical CHRE implementations.
  * Compliant, chose to implement OPTIONAL format:
  *   chreLog(level, "%04x", 20) ==> "0014"
  * Compliant, chose not to implement OPTIONAL format:
  *   chreLog(level, "%04x", 20) ==> "14"
  * Non-compliant, discarded format because the '0' was assumed to be incorrect:
  *   chreLog(level, "%04x", 20) ==> ""
  *
  * Note that some of the OPTIONAL specifiers will probably become
  * required in future APIs.
  *
  * We also have NOT_SUPPORTED specifiers.  Nanoapp authors should not use any
  * NOT_SUPPORTED specifiers, as unexpected things could happen on any given
  * CHRE implementation.  A CHRE implementation is allowed to support this
  * (for example, when using shared code which already supports this), but
  * nanoapp authors need to avoid these.
  *
  *
  * Unless specifically noted as OPTIONAL or NOT_SUPPORTED, format
  * (sub-)specifiers listed below are required.
  *
  * OPTIONAL format sub-specifiers:
  * - '-' (left-justify within the given field width)
  * - '+' (preceed the result with a '+' sign if it is positive)
  * - ' ' (preceed the result with a blank space if no sign is going to be
  *        output)
  * - '#' (For 'o', 'x' or 'X', preceed output with "0", "0x" or "0X",
  *        respectively.  For floating point, unconditionally output a decimal
  *        point.)
  * - '0' (left pad the number with zeroes instead of spaces when <width>
  *        needs padding)
  * - <width> (A number representing the minimum number of characters to be
  *            output, left-padding with blank spaces if needed to meet the
  *            minimum)
  * - '.'<precision> (A number which has different meaning depending on context.)
  *    - Integer context: Minimum number of digits to output, padding with
  *          leading zeros if needed to meet the minimum.
  *    - 'f' context: Number of digits to output after the decimal
  *          point (to the right of it).
  *    - 's' context: Maximum number of characters to output.
  *
  * Integral format specifiers:
  * - 'd' (signed)
  * - 'u' (unsigned)
  * - 'o' (octal)
  * - 'x' (hexadecimal, lower case)
  * - 'X' (hexadecimal, upper case)
  *
  * Integral format sub-specifiers (as prefixes to an above integral format):
  * - 'hh' (char)
  * - 'h' (short)
  * - 'l' (long)
  * - 'll' (long long)
  * - 'z' (size_t)
  * - 't' (ptrdiff_t)
  *
  * Other format specifiers:
  * - 'f' (floating point)
  * - 'c' (character)
  * - 's' (character string, terminated by '\0')
  * - 'p' (pointer)
  * - '%' (escaping the percent sign (i.e. "%%" becomes "%"))
  *
  * NOT_SUPPORTED specifiers:
  * - 'n' (output nothing, but fill in a given pointer with the number
  *        of characters written so far)
  * - '*' (indicates that the width/precision value comes from one of the
  *        arguments to the function)
  * - 'e', 'E' (scientific notation output)
  * - 'g', 'G' (Shortest floating point representation)
  *
  * @param level  The severity level for this message.
  * @param formatStr  Either the entirety of the message, or a printf-style
  *     format string of the format documented above.
  * @param ...  A variable number of arguments necessary for the given
  *     'formatStr' (there may be no additional arguments for some 'formatStr's).
  */
 void chreLog(enum chreLogLevel level, const char *formatStr, ...);

 /**
  * Get the system time.
  *
  * This returns a time in nanoseconds in reference to some arbitrary
  * time in the past.  This method is only useful for determining timing
  * between events on the system, and is not useful for determining
  * any sort of absolute time.
  *
  * This value must always increase (and must never roll over).  This
  * value has no meaning across CHRE reboots.
  *
  * @returns The system time, in nanoseconds.
  */
 uint64_t chreGetTime(void);

 /**
  * Set a timer.
  *
  * When the timer fires, nanoappHandleEvent will be invoked with
  * CHRE_EVENT_TIMER and with the given 'cookie'.
  *
  * A CHRE implementation is required to provide at least 32
  * timers.  However, there's no assurance there will be any available
  * for any given nanoapp (if it's loaded late, etc).
  *
  * @param duration  Time, in nanoseconds, before the timer fires.
  * @param cookie  Argument that will be sent to nanoappHandleEvent upon the
  *     timer firing.  This is allowed to be NULL and does not need to be
  *     a valid pointer (assuming the nanoappHandleEvent code is expecting such).
  * @param oneShot  If true, the timer will just fire once.  If false, the
  *     timer will continue to refire every 'duration', until this timer is
  *     canceled (@see chreTimerCancel).
  *
  * @returns  The timer ID.  If the system is unable to set a timer
  *     (no more available timers, etc.) then CHRE_TIMER_INVALID will
  *     be returned.
  *
  * @see nanoappHandleEvent
  */
 uint32_t chreTimerSet(uint64_t duration, const void* cookie, bool oneShot);

 /**
  * Cancel a timer.
  *
  * After this method returns, the CHRE assures there will be no more
  * events sent from this timer, and any enqueued events from this timer
  * will need to be evicted from the queue by the CHRE.
  *
  * @param timerId  A timer ID obtained by this nanoapp via chreTimerSet().
  * @returns true if the timer was cancelled, false otherwise.  We may
  *     fail to cancel the timer if it's a one shot which (just) fired,
  *     or if the given timer ID is not owned by the calling app.
  */
 bool chreTimerCancel(uint32_t timerId);

 /**
  * Terminate this nanoapp.
  *
  * This takes effect immediately.
  *
  * The CHRE will no longer execute this nanoapp.  The CHRE will not invoke
  * nanoappEnd(), nor will it call any memory free callbacks in the nanoapp.
  *
  * The CHRE will unload/evict this nanoapp's code.
  *
  * @param abortCode  A value indicating the reason for aborting.  (Note that
  *    in this version of the API, there is no way for anyone to access this
  *    code, but future APIs may expose it.)
  * @returns Never.  This method does not return, as the CHRE stops nanoapp
  *    execution immediately.
  */
 void chreAbort(uint32_t abortCode);

 /**
  * Allocate a given number of bytes from the system heap.
  *
  * The nanoapp is required to free this memory via chreHeapFree() prior to
  * the nanoapp ending.
  *
  * While the CHRE implementation is required to free up heap resources of
  * a nanoapp when unloading it, future requirements and tests focused on
  * nanoapps themselves may check for memory leaks, and will require nanoapps
  * to properly manage their heap resources.
  *
  * @param bytes  The number of bytes requested.
  * @returns  A pointer to 'bytes' contiguous bytes of heap memory, or NULL
  *     if the allocation could not be performed.  This pointer must be suitably
  *     aligned for any kind of variable.
  *
  * @see chreHeapFree.
  */
 void* chreHeapAlloc(uint32_t bytes);

 /**
  * Free a heap allocation.
  *
  * This allocation must be from a value returned from a chreHeapAlloc() call
  * made by this nanoapp.  In other words, it is illegal to free memory
  * allocated by another nanoapp (or the CHRE).
  *
  * @param ptr  'ptr' is required to be a value returned from chreHeapAlloc().
  *     Note that since chreHeapAlloc can return NULL, CHRE
  *     implementations must safely handle 'ptr' being NULL.
  *
  * @see chreHeapAlloc.
  */
 void chreHeapFree(void* ptr);


 #ifdef __cplusplus
 }
 #endif

 #endif  /* _CHRE_RE_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 _CHRE_RE_H_
	#define _CHRE_RE_H_

	/**
	* Some of the core Runtime Environment utilities of the Context Hub
	* Runtime Environment.
	*
	* This includes functions for memory allocation, logging, and timers.
	*/

	#include <stdarg.h>
	#include <stdbool.h>
	#include <stdint.h>
	#include <stdlib.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* The instance ID for the CHRE.
	*
	* This ID is used to identify events generated by the CHRE (as
	* opposed to events generated by another nanoapp).
	*/
	#define CHRE_INSTANCE_ID UINT32_C(0)

	/**
	* A timer ID representing an invalid timer.
	*
	* This valid is returned by chreTimerSet() if a timer cannot be
	* started.
	*/
	#define CHRE_TIMER_INVALID UINT32_C(-1)



	/**
	* Logging levels used to indicate severity level of logging messages.
	*
	* CHRE_LOG_ERROR: Something fatal has happened, i.e. something that will have
	* user-visible consequences and won't be recoverable without explicitly
	* deleting some data, uninstalling applications, wiping the data
	* partitions or reflashing the entire phone (or worse).
	* CHRE_LOG_WARN: Something that will have user-visible consequences but is
	* likely to be recoverable without data loss by performing some explicit
	* action, ranging from waiting or restarting an app all the way to
	* re-downloading a new version of an application or rebooting the device.
	* CHRE_LOG_INFO: Something interesting to most people happened, i.e. when a
	* situation is detected that is likely to have widespread impact, though
	* isn't necessarily an error.
	* CHRE_LOG_DEBUG: Used to further note what is happening on the device that
	* could be relevant to investigate and debug unexpected behaviors. You
	* should log only what is needed to gather enough information about what
	* is going on about your component.
	*
	* There is currently no API to turn on/off logging by level, but we anticipate
	* adding such in future releases.
	*
	* @see chreLog
	*/
	enum chreLogLevel {
	CHRE_LOG_ERROR,
	CHRE_LOG_WARN,
	CHRE_LOG_INFO,
	CHRE_LOG_DEBUG
	};



	/**
	* Get the application ID.
	*
	* The application ID is set by the loader of the nanoapp. This is not
	* assured to be unique among all nanoapps running in the system.
	*
	* @returns The application ID.
	*/
	uint64_t chreGetAppId(void);

	/**
	* Get the instance ID.
	*
	* The instance ID is the CHRE handle to this nanoapp. This is assured
	* to be unique among all nanoapps running in the system, and to be
	* different from the CHRE_INSTANCE_ID. This is the ID used to communicate
	* between nanoapps.
	*
	* @returns The instance ID
	*/
	uint32_t chreGetInstanceId(void);

	/**
	* A method for logging information about the system.
	*
	* A log entry can have a variety of levels (@see LogLevel). This function
	* allows a variable number of arguments, in a printf-style format.
	*
	* A nanoapp needs to be able to rely upon consistent printf format
	* recognition across any platform, and thus we establish formats which
	* are required to be handled by every CHRE implementation. Some of the
	* integral formats may seem obscure, but this API heavily uses types like
	* uint32_t and uint16_t. The platform independent macros for those printf
	* formats, like PRId32 or PRIx16, end up using some of these "obscure"
	* formats on some platforms, and thus are required.
	*
	* For the initial N release, our emphasis is on correctly getting information
	* into the log, and minimizing the requirements for CHRE implementations
	* beyond that. We're not as concerned about how the information is visually
	* displayed. As a result, there are a number of format sub-specifiers which
	* are "OPTIONAL" for the N implementation. "OPTIONAL" in this context means
	* that a CHRE implementation is allowed to essentially ignore the specifier,
	* but it must understand the specifier enough in order to properly skip it.
	*
	* For a nanoapp author, an OPTIONAL format means you might not get exactly
	* what you want on every CHRE implementation, but you will always get
	* something sane.
	*
	* To be clearer, here's an example with the OPTIONAL 0-padding for integers
	* for different hypothetical CHRE implementations.
	* Compliant, chose to implement OPTIONAL format:
	* chreLog(level, "%04x", 20) ==> "0014"
	* Compliant, chose not to implement OPTIONAL format:
	* chreLog(level, "%04x", 20) ==> "14"
	* Non-compliant, discarded format because the '0' was assumed to be incorrect:
	* chreLog(level, "%04x", 20) ==> ""
	*
	* Note that some of the OPTIONAL specifiers will probably become
	* required in future APIs.
	*
	* We also have NOT_SUPPORTED specifiers. Nanoapp authors should not use any
	* NOT_SUPPORTED specifiers, as unexpected things could happen on any given
	* CHRE implementation. A CHRE implementation is allowed to support this
	* (for example, when using shared code which already supports this), but
	* nanoapp authors need to avoid these.
	*
	*
	* Unless specifically noted as OPTIONAL or NOT_SUPPORTED, format
	* (sub-)specifiers listed below are required.
	*
	* OPTIONAL format sub-specifiers:
	* - '-' (left-justify within the given field width)
	* - '+' (preceed the result with a '+' sign if it is positive)
	* - ' ' (preceed the result with a blank space if no sign is going to be
	* output)
	* - '#' (For 'o', 'x' or 'X', preceed output with "0", "0x" or "0X",
	* respectively. For floating point, unconditionally output a decimal
	* point.)
	* - '0' (left pad the number with zeroes instead of spaces when <width>
	* needs padding)
	* - <width> (A number representing the minimum number of characters to be
	* output, left-padding with blank spaces if needed to meet the
	* minimum)
	* - '.'<precision> (A number which has different meaning depending on context.)
	* - Integer context: Minimum number of digits to output, padding with
	* leading zeros if needed to meet the minimum.
	* - 'f' context: Number of digits to output after the decimal
	* point (to the right of it).
	* - 's' context: Maximum number of characters to output.
	*
	* Integral format specifiers:
	* - 'd' (signed)
	* - 'u' (unsigned)
	* - 'o' (octal)
	* - 'x' (hexadecimal, lower case)
	* - 'X' (hexadecimal, upper case)
	*
	* Integral format sub-specifiers (as prefixes to an above integral format):
	* - 'hh' (char)
	* - 'h' (short)
	* - 'l' (long)
	* - 'll' (long long)
	* - 'z' (size_t)
	* - 't' (ptrdiff_t)
	*
	* Other format specifiers:
	* - 'f' (floating point)
	* - 'c' (character)
	* - 's' (character string, terminated by '\0')
	* - 'p' (pointer)
	* - '%' (escaping the percent sign (i.e. "%%" becomes "%"))
	*
	* NOT_SUPPORTED specifiers:
	* - 'n' (output nothing, but fill in a given pointer with the number
	* of characters written so far)
	* - '*' (indicates that the width/precision value comes from one of the
	* arguments to the function)
	* - 'e', 'E' (scientific notation output)
	* - 'g', 'G' (Shortest floating point representation)
	*
	* @param level The severity level for this message.
	* @param formatStr Either the entirety of the message, or a printf-style
	* format string of the format documented above.
	* @param ... A variable number of arguments necessary for the given
	* 'formatStr' (there may be no additional arguments for some 'formatStr's).
	*/
	void chreLog(enum chreLogLevel level, const char *formatStr, ...);

	/**
	* Get the system time.
	*
	* This returns a time in nanoseconds in reference to some arbitrary
	* time in the past. This method is only useful for determining timing
	* between events on the system, and is not useful for determining
	* any sort of absolute time.
	*
	* This value must always increase (and must never roll over). This
	* value has no meaning across CHRE reboots.
	*
	* @returns The system time, in nanoseconds.
	*/
	uint64_t chreGetTime(void);

	/**
	* Set a timer.
	*
	* When the timer fires, nanoappHandleEvent will be invoked with
	* CHRE_EVENT_TIMER and with the given 'cookie'.
	*
	* A CHRE implementation is required to provide at least 32
	* timers. However, there's no assurance there will be any available
	* for any given nanoapp (if it's loaded late, etc).
	*
	* @param duration Time, in nanoseconds, before the timer fires.
	* @param cookie Argument that will be sent to nanoappHandleEvent upon the
	* timer firing. This is allowed to be NULL and does not need to be
	* a valid pointer (assuming the nanoappHandleEvent code is expecting such).
	* @param oneShot If true, the timer will just fire once. If false, the
	* timer will continue to refire every 'duration', until this timer is
	* canceled (@see chreTimerCancel).
	*
	* @returns The timer ID. If the system is unable to set a timer
	* (no more available timers, etc.) then CHRE_TIMER_INVALID will
	* be returned.
	*
	* @see nanoappHandleEvent
	*/
	uint32_t chreTimerSet(uint64_t duration, const void* cookie, bool oneShot);

	/**
	* Cancel a timer.
	*
	* After this method returns, the CHRE assures there will be no more
	* events sent from this timer, and any enqueued events from this timer
	* will need to be evicted from the queue by the CHRE.
	*
	* @param timerId A timer ID obtained by this nanoapp via chreTimerSet().
	* @returns true if the timer was cancelled, false otherwise. We may
	* fail to cancel the timer if it's a one shot which (just) fired,
	* or if the given timer ID is not owned by the calling app.
	*/
	bool chreTimerCancel(uint32_t timerId);

	/**
	* Terminate this nanoapp.
	*
	* This takes effect immediately.
	*
	* The CHRE will no longer execute this nanoapp. The CHRE will not invoke
	* nanoappEnd(), nor will it call any memory free callbacks in the nanoapp.
	*
	* The CHRE will unload/evict this nanoapp's code.
	*
	* @param abortCode A value indicating the reason for aborting. (Note that
	* in this version of the API, there is no way for anyone to access this
	* code, but future APIs may expose it.)
	* @returns Never. This method does not return, as the CHRE stops nanoapp
	* execution immediately.
	*/
	void chreAbort(uint32_t abortCode);

	/**
	* Allocate a given number of bytes from the system heap.
	*
	* The nanoapp is required to free this memory via chreHeapFree() prior to
	* the nanoapp ending.
	*
	* While the CHRE implementation is required to free up heap resources of
	* a nanoapp when unloading it, future requirements and tests focused on
	* nanoapps themselves may check for memory leaks, and will require nanoapps
	* to properly manage their heap resources.
	*
	* @param bytes The number of bytes requested.
	* @returns A pointer to 'bytes' contiguous bytes of heap memory, or NULL
	* if the allocation could not be performed. This pointer must be suitably
	* aligned for any kind of variable.
	*
	* @see chreHeapFree.
	*/
	void* chreHeapAlloc(uint32_t bytes);

	/**
	* Free a heap allocation.
	*
	* This allocation must be from a value returned from a chreHeapAlloc() call
	* made by this nanoapp. In other words, it is illegal to free memory
	* allocated by another nanoapp (or the CHRE).
	*
	* @param ptr 'ptr' is required to be a value returned from chreHeapAlloc().
	* Note that since chreHeapAlloc can return NULL, CHRE
	* implementations must safely handle 'ptr' being NULL.
	*
	* @see chreHeapAlloc.
	*/
	void chreHeapFree(void* ptr);


	#ifdef __cplusplus
	}
	#endif

	#endif /* _CHRE_RE_H_ */