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Tactility/components/furi/src/check.h
Ken Van Hoeylandt 8336316133
Added Lilygo T-Deck support & more (#4) 
* added lilygo t-deck

restructured boards
implemented HardwareConfig
implemented lilygo t-deck lcd and touch drivers
added sdkconfig defaults for supported boards

* cleanup

* added esp32s3 job

* build job names updated

* wip

* partial revert

* update readme and build.yml

* updated build.yaml with fix for quotes

* use esp-idf 5.1.2

* improvements and fixes

* fixes for display code

* made config const

* various improvements
2024-01-05 17:01:39 +01:00

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/**
* @file check.h
*
* Furi crash and assert functions.
*
* The main problem with crashing is that you can't do anything without disturbing registers,
* and if you disturb registers, you won't be able to see the correct register values in the debugger.
*
* Current solution works around it by passing the message through r12 and doing some magic with registers in crash function.
* r0-r10 are stored in the ram2 on crash routine start and restored at the end.
* The only register that is going to be lost is r11.
*
*/
#pragma once
#include <esp_log.h>
#include <m-core.h>
#ifdef __cplusplus
extern "C" {
#define FURI_NORETURN [[noreturn]]
#else
#include <stdnoreturn.h>
#define FURI_NORETURN noreturn
#endif
// Flags instead of pointers will save ~4 bytes on furi_assert and furi_check calls.
#define __FURI_ASSERT_MESSAGE_FLAG (0x01)
#define __FURI_CHECK_MESSAGE_FLAG (0x02)
/** Crash system */
FURI_NORETURN void __furi_crash_implementation();
/** Halt system */
FURI_NORETURN void __furi_halt_implementation();
/** Crash system with message. */
#define __furi_crash(message) \
do { \
ESP_LOGE("crash", "%s\n\tat %s:%d", ((message) ? ((const char*)message) : ""), __FILE__, __LINE__); \
__furi_crash_implementation(); \
} while (0)
/** Crash system
*
* @param optional message (const char*)
*/
#define furi_crash(...) M_APPLY(__furi_crash, M_IF_EMPTY(__VA_ARGS__)((NULL), (__VA_ARGS__)))
/** Halt system with message. */
#define __furi_halt(message) \
do { \
ESP_LOGE("halt", "%s\n\tat %s:%d", ((message) ? ((const char*)message) : ""), __FILE__, __LINE__); \
__furi_halt_implementation(); \
} while (0)
/** Halt system
*
* @param optional message (const char*)
*/
#define furi_halt(...) M_APPLY(__furi_halt, M_IF_EMPTY(__VA_ARGS__)((NULL), (__VA_ARGS__)))
/** Check condition and crash if check failed */
#define __furi_check(__e, __m) \
do { \
if (!(__e)) { \
ESP_LOGE("check", "%s", #__e); \
__furi_crash(#__m); \
} \
} while (0)
/** Check condition and crash if failed
*
* @param condition to check
* @param optional message (const char*)
*/
#define furi_check(...) \
M_APPLY(__furi_check, M_DEFAULT_ARGS(2, (__FURI_CHECK_MESSAGE_FLAG), __VA_ARGS__))
/** Only in debug build: Assert condition and crash if assert failed */
#ifdef FURI_DEBUG
#define __furi_assert(__e, __m) \
do { \
if (!(__e)) { \
ESP_LOGE("assert", "%s", #__e); \
__furi_crash(#__m); \
} \
} while (0)
#else
#define __furi_assert(__e, __m) \
do { \
((void)(__e)); \
((void)(__m)); \
} while (0)
#endif
/** Assert condition and crash if failed
*
* @warning only will do check if firmware compiled in debug mode
*
* @param condition to check
* @param optional message (const char*)
*/
#define furi_assert(...) \
M_APPLY(__furi_assert, M_DEFAULT_ARGS(2, (__FURI_ASSERT_MESSAGE_FLAG), __VA_ARGS__))
#ifdef __cplusplus
}
#endif
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