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flipperzero-firmware/core/furi/valuemutex.h
DrZlo13 8f9b2513ff
[FL-140] Core api dynamic records (#296) 
* SYSTEM: tickless mode with deep sleep.
* Move FreeRTOS ticks to lptim2
* API: move all sumbodules init routines to one place. Timebase: working lptim2 at tick source.
* API Timebase: lp-timer routines, timer access safe zones prediction and synchronization. FreeRTOS: adjust configuration for tickless mode.
* NFC: support for tickless mode.
* API Timebase: improve tick error handling in IRQ. Apploader: use insomnia mode to run applications.
* BLE: prevent sleep while core2 starting
* HAL: nap while in insomnia mode
* init records work
* try to implement record delete
* tests and flapp
* flapp subsystem
* new core functions to get app stat, simplify core code
* fix thread termination
* add strdup to core
* fix tests
* Refactoring: remove all unusued parts, update API usage, aggreagate API sources and headers, new record storage
* Refactoring: update furi record api usage, cleanup code
* Fix broken merge for freertos apps
* Core, Target: fix compilation warnings
* Drop firmware target local
* HAL Timebase, Power, Clock: semaphore guarded access to clock and power modes, better sleep mode.
* SD-Filesystem: wait for all deps to arrive before adding widget. Core, BLE: disable debug dump to serial.
* delete old app example-ipc
* delete old app fatfs list
* fix strobe app, add input header
* delete old display driver
* comment old app qr-code
* fix sd-card test, add forced widget update
* remove unused new core test
* increase heap to 128k
* comment and assert old core tests
* fix syntax

Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
2021-01-20 19:09:26 +03:00

149 lines
3.7 KiB
C
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#pragma once
#include <cmsis_os2.h>
#include <stdbool.h>
#ifdef __cplusplus
extern "C" {
#endif
/*
== ValueMutex ==
The most simple concept is ValueMutex.
It is wrapper around mutex and value pointer.
You can take and give mutex to work with value and read and write value.
*/
typedef struct {
void* value;
size_t size;
osMutexId_t mutex;
} ValueMutex;
/*
Creates ValueMutex.
*/
bool init_mutex(ValueMutex* valuemutex, void* value, size_t size);
/*
Free resources allocated by `init_mutex`.
This function doesn't free the memory occupied by `ValueMutex` itself.
*/
bool delete_mutex(ValueMutex* valuemutex);
/*
Call for work with data stored in mutex.
Returns pointer to data if success, NULL otherwise.
*/
void* acquire_mutex(ValueMutex* valuemutex, uint32_t timeout);
/*
Helper: infinitly wait for mutex
*/
static inline void* acquire_mutex_block(ValueMutex* valuemutex) {
return acquire_mutex(valuemutex, osWaitForever);
}
/*
* With statement for value mutex, acts as lambda
* @param name a resource name, const char*
* @param function_body a (){} lambda declaration,
* executed within you parent function context.
*/
#define with_value_mutex(value_mutex, function_body) \
{ \
void* p = acquire_mutex_block(value_mutex); \
furi_check(p); \
({ void __fn__ function_body __fn__; })(p); \
release_mutex(value_mutex, p); \
}
/*
Release mutex after end of work with data.
Call `release_mutex` and pass ValueData instance and pointer to data.
*/
bool release_mutex(ValueMutex* valuemutex, const void* value);
/*
Instead of take-access-give sequence you can use `read_mutex` and `write_mutex` functions.
Both functions return true in case of success, false otherwise.
*/
bool read_mutex(ValueMutex* valuemutex, void* data, size_t len, uint32_t timeout);
bool write_mutex(ValueMutex* valuemutex, void* data, size_t len, uint32_t timeout);
inline static bool write_mutex_block(ValueMutex* valuemutex, void* data, size_t len) {
return write_mutex(valuemutex, data, len, osWaitForever);
}
inline static bool read_mutex_block(ValueMutex* valuemutex, void* data, size_t len) {
return read_mutex(valuemutex, data, len, osWaitForever);
}
#ifdef __cplusplus
}
#endif
/*
Usage example
```C
// MANIFEST
// name="example-provider-app"
// stack=128
void provider_app(void* _p) {
// create record with mutex
uint32_t example_value = 0;
ValueMutex example_mutex;
// call `init_mutex`.
if(!init_mutex(&example_mutex, (void*)&example_value, sizeof(uint32_t))) {
printf("critical error\n");
flapp_exit(NULL);
}
furi_record_create("provider/example", (void*)&example_mutex);
// we are ready to provide record to other apps
flapp_ready();
// get value and increment it
while(1) {
uint32_t* value = acquire_mutex(&example_mutex, OsWaitForever);
if(value != NULL) {
value++;
}
release_mutex(&example_mutex, value);
osDelay(100);
}
}
// MANIFEST
// name="example-consumer-app"
// stack=128
// require="example-provider-app"
void consumer_app(void* _p) {
// this app run after flapp_ready call in all requirements app
// open mutex value
ValueMutex* counter_mutex = furi_record_open("provider/example");
if(counter_mutex == NULL) {
printf("critical error\n");
flapp_exit(NULL);
}
// continously read value every 1s
uint32_t counter;
while(1) {
if(read_mutex(counter_mutex, &counter, sizeof(counter), OsWaitForever)) {
printf("counter value: %d\n", counter);
}
osDelay(1000);
}
}
```
*/
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