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arch :arc: add the ARC port

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Signed-off-by: Jingru <jingru@synopsys.com>
This commit is contained in:
Jingru
2020-03-17 15:16:14 +08:00
parent 9675ebb11d
commit 65f55e73e5
154 changed files with 47346 additions and 0 deletions
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126
arch/arc/nsim/common/include/tos_cpu.h Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#ifndef _TOS_CPU_H_
#define _TOS_CPU_H_
typedef struct cpu_context_st {
cpu_data_t pc;
cpu_data_t blink;
cpu_data_t status32;
cpu_data_t r0;
} cpu_context_t;
__API__ uint32_t tos_cpu_clz(uint32_t val);
__API__ void tos_cpu_int_disable(void);
__API__ void tos_cpu_int_enable(void);
__API__ cpu_cpsr_t tos_cpu_cpsr_save(void);
__API__ void tos_cpu_cpsr_restore(cpu_cpsr_t cpsr);
#if (TOS_CFG_CPU_HRTIMER_EN > 0u)
__API__ void tos_cpu_hrtimer_init(void);
__API__ cpu_hrtimer_t tos_cpu_hrtimer_read(void);
#endif
__KERNEL__ void cpu_init(void);
__KERNEL__ void cpu_reset(void);
__KERNEL__ void cpu_systick_init(k_cycle_t cycle_per_tick);
__KERNEL__ void cpu_sched_start(void);
__KERNEL__ void cpu_context_switch(void);
__KERNEL__ void cpu_irq_context_switch(void);
#if TOS_CFG_TASK_STACK_DRAUGHT_DEPTH_DETACT_EN > 0u
__KERNEL__ k_err_t cpu_task_stack_draught_depth(k_stack_t *stk_base, size_t stk_size, int *depth);
#endif
__KERNEL__ k_stack_t *cpu_task_stk_init(void *entry,
void *arg,
void *exit,
k_stack_t *stk_base,
size_t stk_size);
#if TOS_CFG_TICKLESS_EN > 0u
__KERNEL__ void cpu_systick_resume(void);
__KERNEL__ void cpu_systick_suspend(void);
__KERNEL__ void cpu_systick_reload_reset(void);
__KERNEL__ void cpu_systick_pending_reset(void);
__KERNEL__ k_time_t cpu_systick_max_delay_millisecond(void);
__KERNEL__ void cpu_systick_expires_set(k_time_t millisecond);
__KERNEL__ void cpu_systick_reset(void);
#endif
#if TOS_CFG_PWR_MGR_EN > 0u
__KERNEL__ void cpu_sleep_mode_enter(void);
__KERNEL__ void cpu_stop_mode_enter(void);
__KERNEL__ void cpu_standby_mode_enter(void);
#endif
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
__KERNEL__ void cpu_flush_fpu(void);
#endif /* TOS_CFG_CPU_ARM_FPU_EN */
__KERNEL__ void cpu_fault_diagnosis(void);
#endif
/* Allocates CPU status register word. */
#define TOS_CPU_CPSR_ALLOC() cpu_cpsr_t cpu_cpsr = (cpu_cpsr_t)0u
/* Save CPU status word & disable interrupts.*/
#define TOS_CPU_INT_DISABLE() \
do { \
cpu_cpsr = tos_cpu_cpsr_save(); \
} while (0)
/* Restore CPU status word. */
#define TOS_CPU_INT_ENABLE() \
do { \
__builtin_arc_seti(cpu_cpsr); \
} while (0)
#endif /* _TOS_CPU_H_ */

34
arch/arc/nsim/common/include/tos_cpu_def.h Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#ifndef _TOS_CPU_DEF_H_
#define _TOS_CPU_DEF_H_
enum CPU_WORD_SIZE {
CPU_WORD_SIZE_08,
CPU_WORD_SIZE_16,
CPU_WORD_SIZE_32,
CPU_WORD_SIZE_64,
};
enum CPU_STK_GROWTH {
CPU_STK_GROWTH_ASCENDING,
CPU_STK_GROWTH_DESCENDING,
};
#endif /* _TOS_CPU_DEF_H_ */

57
arch/arc/nsim/common/include/tos_cpu_types.h Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#ifndef _TOS_CPU_TYPES_H_
#define _TOS_CPU_TYPES_H_
/* CPU address type based on address bus size. */
#if (TOS_CFG_CPU_ADDR_SIZE == CPU_WORD_SIZE_32)
typedef uint32_t cpu_addr_t;
#elif (TOS_CFG_CPU_ADDR_SIZE == CPU_WORD_SIZE_16)
typedef uint16_t cpu_addr_t;
#else
typedef uint8_t cpu_addr_t;
#endif
/* CPU data type based on data bus size. */
#if (TOS_CFG_CPU_DATA_SIZE == CPU_WORD_SIZE_32)
typedef uint32_t cpu_data_t;
#elif (TOS_CFG_CPU_DATA_SIZE == CPU_WORD_SIZE_16)
typedef uint16_t cpu_data_t;
#else
typedef uint8_t cpu_data_t;
#endif
#if (TOS_CFG_CPU_HRTIMER_EN > 0)
#if (TOS_CFG_CPU_HRTIMER_SIZE == CPU_WORD_SIZE_08)
typedef uint8_t cpu_hrtimer_t;
#elif (TOS_CFG_CPU_HRTIMER_SIZE == CPU_WORD_SIZE_16)
typedef uint16_t cpu_hrtimer_t;
#elif (TOS_CFG_CPU_HRTIMER_SIZE == CPU_WORD_SIZE_64)
typedef uint64_t cpu_hrtimer_t;
#else
typedef uint32_t cpu_hrtimer_t;
#endif
#else
typedef uint32_t cpu_hrtimer_t;
#endif
//typedef cpu_addr_t size_t;
typedef cpu_addr_t cpu_cpsr_t;
#endif

236
arch/arc/nsim/common/include/tos_fault.h Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#ifndef _TOS_FAULT_H_
#define _TOS_FAULT_H_
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
typedef int (*k_fault_log_writer_t)(const char *format, ...);
#define K_FAULT_STACK_DUMP_DEPTH 10u
#define K_FAULT_CALL_STACK_BACKTRACE_DEPTH 5u
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
typedef struct fault_fpu_frame_st {
cpu_data_t s0;
cpu_data_t s1;
cpu_data_t s2;
cpu_data_t s3;
cpu_data_t s4;
cpu_data_t s5;
cpu_data_t s6;
cpu_data_t s7;
cpu_data_t s8;
cpu_data_t s9;
cpu_data_t s10;
cpu_data_t s11;
cpu_data_t s12;
cpu_data_t s13;
cpu_data_t s14;
cpu_data_t s15;
cpu_data_t fpscr;
} fault_fpu_frame_t;
#endif
typedef struct fault_cpu_frame_st {
cpu_data_t r0;
cpu_data_t r1;
cpu_data_t r2;
cpu_data_t r3;
cpu_data_t r12;
cpu_data_t lr;
cpu_data_t pc;
cpu_data_t spsr;
} fault_cpu_frame_t;
typedef struct fault_exc_frame_st {
fault_cpu_frame_t cpu_frame;
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
fault_fpu_frame_t fpu_frame;
#endif
} fault_exc_frame_t;
/**
* information we need to do fault backtrace
*/
typedef struct fault_information_st {
int is_thumb : 1; /**< whether it is thumb we use when we fall into fault? */
int is_on_task : 1; /**< whether we are on a task when fall into fault? */
int is_stk_ovrf : 1; /**< whether we get a stack overflow */
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
int is_ext_stk_frm : 1; /**< whether it is a extended stack frame?(whether the cpu has pushed fpu registers onto the stack) */
#endif
cpu_addr_t pc; /**< just where fault happens */
cpu_addr_t sp_before_fault; /**< original sp just before the cpu push the fault exception frame */
/**
* we need main_stack_start & main_stack_limit to do call stack backtrace
* when we fall into fault during a task, we should do the call stack backtrace on the task's stack
* but if not, which means we are in kernel, we should do the call stack backtrace on the main stack
* in arm v7-m, this should be the MSP's start and limit
* in arm v7-a, call stack backtrace is another story(much more elegant because we have FP).
*/
cpu_addr_t stack_start; /**< current sp start address we use. if on task, it'll be the task's stack, otherwise it'll be the msp */
cpu_addr_t stack_limit; /**< current sp limit address */
cpu_addr_t code_start; /**< current code start address */
cpu_addr_t code_limit; /**< current code limit address */
} fault_info_t;
#if defined(__CC_ARM) || (defined(__ARMCC_VERSION) && (__ARMCC_VERSION >= 6010050))
#define DEFAULT_CODE_SECTION_NAME ER_IROM1
#define DEFAULT_CSTACK_SECTION_NAME STACK
#define SECTION_START(_name_) _name_##$$Base
#define SECTION_END(_name_) _name_##$$Limit
#define IMAGE_SECTION_START(_name_) Image$$##_name_##$$Base
#define IMAGE_SECTION_END(_name_) Image$$##_name_##$$Limit
#define CSTACK_BLOCK_START(_name_) SECTION_START(_name_)
#define CSTACK_BLOCK_END(_name_) SECTION_END(_name_)
#define CODE_SECTION_START(_name_) IMAGE_SECTION_START(_name_)
#define CODE_SECTION_END(_name_) IMAGE_SECTION_END(_name_)
extern const int CSTACK_BLOCK_START(DEFAULT_CSTACK_SECTION_NAME);
extern const int CSTACK_BLOCK_END(DEFAULT_CSTACK_SECTION_NAME);
extern const int CODE_SECTION_START(DEFAULT_CODE_SECTION_NAME);
extern const int CODE_SECTION_END(DEFAULT_CODE_SECTION_NAME);
__STATIC_INLINE__ cpu_addr_t fault_code_start(void)
{
return (cpu_addr_t)&CODE_SECTION_START(DEFAULT_CODE_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_code_limit(void)
{
return (cpu_addr_t)&CODE_SECTION_END(DEFAULT_CODE_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_msp_start(void)
{
return (cpu_addr_t)&CSTACK_BLOCK_START(DEFAULT_CSTACK_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_msp_limit(void)
{
return (cpu_addr_t)&CSTACK_BLOCK_END(DEFAULT_CSTACK_SECTION_NAME);
}
#elif defined(__ICCARM__)
#define DEFAULT_CODE_SECTION_NAME ".text"
#define DEFAULT_CSTACK_SECTION_NAME "CSTACK"
#pragma section=DEFAULT_CSTACK_SECTION_NAME
#pragma section=DEFAULT_CODE_SECTION_NAME
__STATIC_INLINE__ cpu_addr_t fault_code_start(void)
{
return (cpu_addr_t)__section_begin(DEFAULT_CODE_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_code_limit(void)
{
return (cpu_addr_t)__section_end(DEFAULT_CODE_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_msp_start(void)
{
return (cpu_addr_t)__section_begin(DEFAULT_CSTACK_SECTION_NAME);
}
__STATIC_INLINE__ cpu_addr_t fault_msp_limit(void)
{
return (cpu_addr_t)__section_end(DEFAULT_CSTACK_SECTION_NAME);
}
#elif defined(__GNUC__)
/**
* if we are using keil(armcc) or mdk(iccarm), we probably use the defult link script supplied by the IDE.
* the way to locate the text/stack section start and limit is to find them in default link script.
* but if we build our project by makefile(or something like scons, cmake, etc), we probably need to write
* our own link scrpit, if so, we should do like this(just a demo):
*
_stext = .;
.text : {
*(.text.startup)
*(.text)
*(.text.*)
}
_etext = .;
__bss_start = .;
.bss : {
*(.bss)
*(.bss.*)
*(COMMON)
_sstack = .;
*(.cstack)
_estack = .;
}
__bss_end = .;
* by this, we can locate text/stack section start and limit by _stext/_etext and _sstack/_estack
*/
#define DEFAULT_CODE_SECTION_START _stext
#define DEFAULT_CODE_SECTION_END _etext
#define DEFAULT_CSTACK_SECTION_START _sstack
#define DEFAULT_CSTACK_SECTION_END _estack
extern const int DEFAULT_CODE_SECTION_START;
extern const int DEFAULT_CODE_SECTION_END;
extern const int DEFAULT_CSTACK_SECTION_START;
extern const int DEFAULT_CSTACK_SECTION_END;
__STATIC_INLINE__ cpu_addr_t fault_code_start(void)
{
return (cpu_addr_t)(&(DEFAULT_CODE_SECTION_START));
}
__STATIC_INLINE__ cpu_addr_t fault_code_limit(void)
{
return (cpu_addr_t)(&(DEFAULT_CODE_SECTION_END));
}
__STATIC_INLINE__ cpu_addr_t fault_msp_start(void)
{
return (cpu_addr_t)(&(DEFAULT_CSTACK_SECTION_START));
}
__STATIC_INLINE__ cpu_addr_t fault_msp_limit(void)
{
return (cpu_addr_t)(&(DEFAULT_CSTACK_SECTION_END));
}
#endif
__API__ void tos_fault_log_writer_set(k_fault_log_writer_t log_writer);
__KERNEL__ int fault_default_log_writer(const char *format, ...);
__KERNEL__ void fault_backtrace(cpu_addr_t lr, fault_exc_frame_t *frame);
#endif
#endif /* _TOS_FAULT_H_ */

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arch/arc/nsim/common/tos_cpu.c Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#include <tos_k.h>
#include "arc/arc_exception.h"
__API__ uint32_t tos_cpu_clz(uint32_t val)
{
uint32_t nbr_lead_zeros = 0;
if (!(val & 0XFFFF0000)) {
val <<= 16;
nbr_lead_zeros += 16;
}
if (!(val & 0XFF000000)) {
val <<= 8;
nbr_lead_zeros += 8;
}
if (!(val & 0XF0000000)) {
val <<= 4;
nbr_lead_zeros += 4;
}
if (!(val & 0XC0000000)) {
val <<= 2;
nbr_lead_zeros += 2;
}
if (!(val & 0X80000000)) {
nbr_lead_zeros += 1;
}
if (!val) {
nbr_lead_zeros += 1;
}
return (nbr_lead_zeros);
}
__API__ void tos_cpu_int_disable(void)
{
port_int_disable();
}
__API__ void tos_cpu_int_enable(void)
{
port_int_enable();
}
__API__ cpu_cpsr_t tos_cpu_cpsr_save(void)
{
return port_cpsr_save();
}
__API__ void tos_cpu_cpsr_restore(cpu_cpsr_t cpsr)
{
port_cpsr_restore(cpsr);
}
__KERNEL__ void cpu_init(void)
{
k_cpu_cycle_per_tick = TOS_CFG_CPU_CLOCK / k_cpu_tick_per_second;
cpu_systick_init(k_cpu_cycle_per_tick);
#if (TOS_CFG_CPU_HRTIMER_EN > 0)
tos_cpu_hrtimer_init();
#endif
}
__KERNEL__ void cpu_reset(void)
{
port_cpu_reset();
}
__KERNEL__ void cpu_sched_start(void) // 启动任务调度器
{
port_sched_start();
}
__KERNEL__ void cpu_context_switch(void)
{
port_context_switch();
}
__KERNEL__ void cpu_irq_context_switch(void)
{
// port_irq_context_switch();
// DO NOTHING
}
__KERNEL__ void cpu_systick_init(k_cycle_t cycle_per_tick)
{
port_systick_priority_set(TOS_CFG_CPU_SYSTICK_PRIO);
port_systick_config(cycle_per_tick);
}
#if TOS_CFG_TICKLESS_EN > 0u
/**
* @brief Set value to systick reload value register
*
* @param cycles The value set to register
*
* @return None
*/
__STATIC_INLINE__ void cpu_systick_reload(k_cycle_t cycle_per_tick)
{
port_systick_reload(cycle_per_tick);
}
/**
* @brief Enable systick interrupt
*
* @return None
*/
__KERNEL__ void cpu_systick_resume(void)
{
port_systick_resume();
}
/**
* @brief Disable systick interrupt
*
* @return None
*/
__KERNEL__ void cpu_systick_suspend(void)
{
port_systick_suspend();
}
__KERNEL__ k_time_t cpu_systick_max_delay_millisecond(void)
{
return port_systick_max_delay_millisecond();
}
__KERNEL__ void cpu_systick_expires_set(k_time_t millisecond)
{
k_cycle_t cycles;
cycles = (k_cycle_t)((uint64_t)millisecond * TOS_CFG_CPU_CLOCK / K_TIME_MILLISEC_PER_SEC); /* CLOCK means cycle per second */
cpu_systick_reload(cycles - 12); /* interrupt delay */
}
__KERNEL__ void cpu_systick_pending_reset(void)
{
port_systick_pending_reset();
}
__KERNEL__ void cpu_systick_reset(void)
{
cpu_systick_reload(k_cpu_cycle_per_tick);
}
#endif /* TOS_CFG_TICKLESS_EN */
#if TOS_CFG_PWR_MGR_EN > 0u
__KERNEL__ void cpu_sleep_mode_enter(void)
{
port_sleep_mode_enter();
}
__KERNEL__ void cpu_stop_mode_enter(void)
{
port_stop_mode_enter();
}
__KERNEL__ void cpu_standby_mode_enter(void)
{
port_standby_mode_enter();
}
#endif /* TOS_CFG_PWR_MGR_EN */
__KERNEL__ k_stack_t *cpu_task_stk_init(void *entry,
void *arg,
void *exit,
k_stack_t *stk_base,
size_t stk_size)
{
cpu_data_t *sp;
cpu_context_t *regs = 0;
sp = (cpu_data_t *)&stk_base[stk_size];
sp = (cpu_data_t *)((cpu_addr_t)sp & 0xFFFFFFFC);
sp -= (sizeof(cpu_context_t)/sizeof(cpu_data_t));
regs = (cpu_context_t*) sp;
/* auto-saved on exception(pendSV) by hardware */
regs->pc = (cpu_data_t)entry;
regs->blink = (cpu_data_t)exit;
regs->r0 = (cpu_data_t)arg;
regs->status32 = (cpu_data_t)(AUX_STATUS_MASK_IE | ((-1 - INT_PRI_MIN) << 1) | STATUS32_RESET_VALUE);
return (k_stack_t *)sp;
}
#if TOS_CFG_TASK_STACK_DRAUGHT_DEPTH_DETACT_EN > 0u
__KERNEL__ k_err_t cpu_task_stack_draught_depth(k_stack_t *stk_base, size_t stk_size, int *depth)
{
uint8_t *slot;
uint8_t *sp, *bp;
int the_depth = 0;
bp = (uint8_t *)&stk_base[0];
sp = &stk_base[stk_size];
sp = (uint8_t *)((cpu_addr_t)sp & 0xFFFFFFF8);
for (slot = sp - 1; slot >= bp; --slot) {
if (*slot != 0xCC) {
the_depth = sp - slot;
}
}
*depth = the_depth;
if (the_depth == stk_size) {
return K_ERR_TASK_STK_OVERFLOW;
}
return K_ERR_NONE;
}
#endif
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
__KERNEL__ void cpu_fault_diagnosis(void)
{
port_fault_diagnosis();
}
#endif /* TOS_CFG_FAULT_BACKTRACE_EN */

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arch/arc/nsim/common/tos_fault.c Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#include "tos_k.h"
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
__STATIC_INLINE__ void fault_spin(void)
{
tos_knl_sched_lock();
tos_cpu_int_disable();
while (K_TRUE) {
;
}
}
/* EXC_RETURN:
31 - 28 : EXC_RETURN flag
27 - 5 : reserved
4 : 1, basic stack frame; 0, extended stack frame
3 : 1, return to Thread mode; 0, return to Handler mode
2 : 1, return to PSP; 0, return to MSP
1 : reserved, 0
0 : reserved, 1
*/
__STATIC_INLINE__ int fault_is_on_task(cpu_data_t lr)
{
return (lr & (1u << 2)) != 0;
}
__STATIC_INLINE__ int fault_is_thumb(cpu_data_t psr)
{
return (psr & (1u << 24)) != 0;
}
__STATIC_INLINE__ int fault_is_code(fault_info_t *info, cpu_data_t value)
{
return value >= info->code_start && value <= info->code_limit;
}
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
__STATIC_INLINE__ int fault_is_extended_stack_frame(cpu_data_t lr)
{
return (lr & (1u << 4)) == 0;
}
__STATIC__ void fault_dump_fpu_frame(fault_fpu_frame_t *fpu_frame)
{
/*
* As known, v7-m has a feature named "LAZY PUSH", for the reason we do not do any float
* operation in fault_backtrace, cpu will not do the real fpu register push to the stack.
* that means the value we dump in fault_dump_fpu_frame will not be the correct value of
* each FPU register.
* We define a function here which access to FPSCR, if this function involved, cpu will do
* the real FPU register push so we will get the correct dump.
* I know it's ugly, but it works. If you know a better way, please tell me.
*/
cpu_flush_fpu();
k_fault_log_writer("\n\n====================== FPU Registers =======================\n");
k_fault_log_writer(" %s: %08x\n", "FPSCR", fpu_frame->fpscr);
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"S0 ", fpu_frame->s0,
"S1 ", fpu_frame->s1,
"S2 ", fpu_frame->s2,
"S3 ", fpu_frame->s3);
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"S4 ", fpu_frame->s4,
"S5 ", fpu_frame->s5,
"S6 ", fpu_frame->s6,
"S7 ", fpu_frame->s7);
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"S8 ", fpu_frame->s8,
"S9 ", fpu_frame->s9,
"S10", fpu_frame->s10,
"S11", fpu_frame->s11);
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"S12", fpu_frame->s12,
"S13", fpu_frame->s13,
"S14", fpu_frame->s14,
"S15", fpu_frame->s15);
}
#endif
__STATIC__ void fault_dump_cpu_frame(fault_cpu_frame_t *cpu_frame)
{
k_fault_log_writer("\n\n====================== CPU Registers =======================\n");
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"R0 ", cpu_frame->r0,
"R1 ", cpu_frame->r1,
"R2 ", cpu_frame->r2,
"R3 ", cpu_frame->r3);
k_fault_log_writer(" %s: %08x %s: %08x %s: %08x %s: %08x\n",
"R12", cpu_frame->r12,
"LR ", cpu_frame->lr,
"PC ", cpu_frame->pc,
"PSR", cpu_frame->spsr);
}
__STATIC__ void fault_dump_stack(fault_info_t *info, size_t depth)
{
cpu_addr_t sp = info->sp_before_fault;;
k_fault_log_writer("\nTASK STACK DUMP:\n");
while (sp <= info->stack_limit && depth--) {
k_fault_log_writer(" addr: %08x data: %08x\n", sp, (cpu_data_t)*(cpu_data_t *)sp);
sp += sizeof(cpu_addr_t);
}
}
__STATIC__ void fault_call_stack_backtrace(fault_info_t *info, size_t depth)
{
cpu_data_t value;
cpu_addr_t sp = info->sp_before_fault;
if (info->is_stk_ovrf) {
return;
}
k_fault_log_writer("\n\n====================== Dump Call Stack =====================\n");
k_fault_log_writer(" %x\n", info->pc);
/* walk through the stack, check every content on stack whether is a instruction(code) */
for (; sp < info->stack_limit && depth; sp += sizeof(cpu_addr_t)) {
value = *((cpu_addr_t *)sp) - sizeof(cpu_addr_t);
/* if thumb, a instruction's first bit must be 1 */
if (info->is_thumb && !(value & 1)) {
continue;
}
if (fault_is_code(info, value)) {
k_fault_log_writer(" %x\n", value);
--depth;
}
}
}
__STATIC__ void fault_dump_task(fault_info_t *info)
{
k_task_t *task;
if (!info->is_on_task) {
return;
}
task = k_curr_task;
k_fault_log_writer("\n\n====================== Fault on task =======================\n");
k_fault_log_writer(" TASK NAME: %s\n", task->name);
k_fault_log_writer(" STK BASE: %x\n", info->stack_start);
k_fault_log_writer(" STK SIZE: %x\n", task->stk_size * sizeof(k_stack_t));
k_fault_log_writer(" STK LIMIT: %x\n", info->stack_limit);
if (!info->is_stk_ovrf) {
fault_dump_stack(info, K_FAULT_STACK_DUMP_DEPTH);
}
}
__STATIC__ void fault_dump_information(fault_info_t *info)
{
k_fault_log_writer("\n\n================== Dump Fault Information ==================\n");
k_fault_log_writer(" THUMB: %s\n", info->is_thumb ? "TRUE" : "FALSE");
k_fault_log_writer(" ON TASK: %s\n", info->is_on_task? "TRUE" : "FALSE");
k_fault_log_writer(" STK OVRF: %s\n", info->is_stk_ovrf? "TRUE" : "FALSE");
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
k_fault_log_writer(" EXT STK: %s\n", info->is_ext_stk_frm? "TRUE" : "FALSE");
#endif
k_fault_log_writer(" PC: %08x\n", info->pc);
k_fault_log_writer(" SP: %08x\n", info->sp_before_fault);
k_fault_log_writer(" STK START: %08x\n", info->stack_start);
k_fault_log_writer(" STK LIMIT: %08x\n", info->stack_limit);
k_fault_log_writer(" COD START: %08x\n", info->code_start);
k_fault_log_writer(" COD LIMIT: %08x\n", info->code_limit);
}
__STATIC__ void fault_gather_information(cpu_data_t lr, fault_exc_frame_t *frame, fault_info_t *info)
{
info->is_thumb = fault_is_thumb(frame->cpu_frame.spsr);
info->is_on_task = fault_is_on_task(lr);
info->pc = frame->cpu_frame.pc;
info->sp_before_fault = (cpu_addr_t)frame + sizeof(fault_cpu_frame_t);
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
info->is_ext_stk_frm = fault_is_extended_stack_frame(lr);
if (info->is_ext_stk_frm) {
info->sp_before_fault += sizeof(fault_fpu_frame_t);
}
#endif
info->code_start = fault_code_start();
info->code_limit = fault_code_limit();
if (info->is_on_task) {
info->stack_start = (cpu_addr_t)k_curr_task->stk_base;
info->stack_limit = info->stack_start + k_curr_task->stk_size * sizeof(k_task_t);
} else {
info->stack_start = fault_msp_start();
info->stack_limit = fault_msp_limit();
}
info->is_stk_ovrf = (info->sp_before_fault < info->stack_start || info->sp_before_fault > info->stack_limit);
}
__KERNEL__ int fault_default_log_writer(const char *format, ...)
{
int len;
va_list ap;
va_start(ap, format);
len = vprintf(format, ap);
va_end(ap);
return len;
}
__API__ void tos_fault_log_writer_set(k_fault_log_writer_t log_writer)
{
k_fault_log_writer = log_writer;
}
__KERNEL__ void fault_backtrace(cpu_addr_t lr, fault_exc_frame_t *frame)
{
fault_info_t info;
fault_gather_information(lr, frame, &info);
fault_dump_information(&info);
fault_dump_task(&info);
fault_dump_cpu_frame(&frame->cpu_frame);
#if defined (TOS_CFG_CPU_ARM_FPU_EN) && (TOS_CFG_CPU_ARM_FPU_EN == 1U)
if (info.is_ext_stk_frm) {
fault_dump_fpu_frame(&frame->fpu_frame);
}
#endif
fault_call_stack_backtrace(&info, K_FAULT_CALL_STACK_BACKTRACE_DEPTH);
cpu_fault_diagnosis();
fault_spin();
}
#endif

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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
/*
* The MIT License (MIT)
*
* Copyright (c) 2016-2018 Armink (armink.ztl@gmail.com)
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* 'Software'), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#ifndef _PORT_H_
#define _PORT_H_
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
typedef struct port_fault_regs {
union {
/* System Handler Control and State Register (0xE000ED24) */
uint32_t value;
struct {
/* Read as 1 if memory management fault is active */
uint32_t MEMFAULTACT : 1;
/* Read as 1 if bus fault exception is active */
uint32_t BUSFAULTACT : 1;
uint32_t UnusedBits1 : 1;
/* Read as 1 if usage fault exception is active */
uint32_t USGFAULTACT : 1;
uint32_t UnusedBits2 : 3;
/* Read as 1 if SVC exception is active */
uint32_t SVCALLACT : 1;
/* Read as 1 if debug monitor exception is active */
uint32_t MONITORACT : 1;
uint32_t UnusedBits3 : 1;
/* Read as 1 if PendSV exception is active */
uint32_t PENDSVACT : 1;
/* Read as 1 if SYSTICK exception is active */
uint32_t SYSTICKACT : 1;
/* Usage fault pended; usage fault started but was replaced by a higher-priority exception */
uint32_t USGFAULTPENDED : 1;
/* Memory management fault pended; memory management fault started but was replaced by a
higher-priority exception */
uint32_t MEMFAULTPENDED : 1;
/* Bus fault pended; bus fault handler was started but was replaced by a higher-priority
exception */
uint32_t BUSFAULTPENDED : 1;
/* SVC pended; SVC was started but was replaced by a higher-priority exception */
uint32_t SVCALLPENDED : 1;
/* Memory management fault handler enable */
uint32_t MEMFAULTENA : 1;
/* Bus fault handler enable */
uint32_t BUSFAULTENA : 1;
/* Usage fault handler enable */
uint32_t USGFAULTENA : 1;
} bits;
} syshndctrl;
union {
uint32_t value;
struct {
union {
/* Memory Management Fault Status Register (0xE000ED28) */
uint8_t value;
struct {
/* Instruction access violation */
uint8_t IACCVIOL : 1;
/* Data access violation */
uint8_t DACCVIOL : 1;
uint8_t UnusedBits : 1;
/* Unstacking error */
uint8_t MUNSTKERR : 1;
/* Stacking error */
uint8_t MSTKERR : 1;
/* Floating-point lazy state preservation (M4/M7) */
uint8_t MLSPERR : 1;
uint8_t UnusedBits2 : 1;
/* Indicates the MMAR is valid */
uint8_t MMARVALID : 1;
} bits;
} mfsr;
union {
/* Bus Fault Status Register (0xE000ED29) */
uint8_t value;
struct {
/* Instruction access violation */
uint8_t IBUSERR : 1;
/* Precise data access violation */
uint8_t PRECISERR : 1;
/* Imprecise data access violation */
uint8_t IMPREISERR : 1;
/* Unstacking error */
uint8_t UNSTKERR : 1;
/* Stacking error */
uint8_t STKERR : 1;
/* Floating-point lazy state preservation (M4/M7) */
uint8_t LSPERR : 1;
uint8_t UnusedBits : 1;
/* Indicates BFAR is valid */
uint8_t BFARVALID : 1;
} bits;
} bfsr;
union {
/* Usage Fault Status Register (0xE000ED2A) */
uint16_t value;
struct {
/* Attempts to execute an undefined instruction */
uint16_t UNDEFINSTR : 1;
/* Attempts to switch to an invalid state (e.g., ARM) */
uint16_t INVSTATE : 1;
/* Attempts to do an exception with a bad value in the EXC_RETURN number */
uint16_t INVPC : 1;
/* Attempts to execute a coprocessor instruction */
uint16_t NOCP : 1;
uint16_t UnusedBits : 4;
/* Indicates that an unaligned access fault has taken place */
uint16_t UNALIGNED : 1;
/* Indicates a divide by zero has taken place (can be set only if DIV_0_TRP is set) */
uint16_t DIVBYZERO0 : 1;
} bits;
} ufsr;
} part;
} cfsr;
/* Memory Management Fault Address Register (0xE000ED34) */
uint32_t mmar;
/* Bus Fault Manage Address Register (0xE000ED38) */
uint32_t bfar;
union {
/* Hard Fault Status Register (0xE000ED2C) */
uint32_t value;
struct {
uint32_t UnusedBits : 1;
/* Indicates hard fault is caused by failed vector fetch */
uint32_t VECTBL : 1;
uint32_t UnusedBits2 : 28;
/* Indicates hard fault is taken because of bus fault/memory management fault/usage fault */
uint32_t FORCED : 1;
/* Indicates hard fault is triggered by debug event */
uint32_t DEBUGEVT : 1;
} bits;
} hfsr;
union {
/* Debug Fault Status Register (0xE000ED30) */
uint32_t value;
struct {
/* Halt requested in NVIC */
uint32_t HALTED : 1;
/* BKPT instruction executed */
uint32_t BKPT : 1;
/* DWT match occurred */
uint32_t DWTTRAP : 1;
/* Vector fetch occurred */
uint32_t VCATCH : 1;
/* EDBGRQ signal asserted */
uint32_t EXTERNAL : 1;
} bits;
} dfsr;
/* Auxiliary Fault Status Register (0xE000ED3C), Vendor controlled (optional) */
uint32_t afsr;
} port_fault_regs_t;
enum fault_info {
FAULT_INFO_ASSERT_ON_THREAD,
FAULT_INFO_HFSR_VECTBL,
FAULT_INFO_MFSR_IACCVIOL,
FAULT_INFO_MFSR_DACCVIOL,
FAULT_INFO_MFSR_MUNSTKERR,
FAULT_INFO_MFSR_MSTKERR,
FAULT_INFO_MFSR_MLSPERR,
FAULT_INFO_BFSR_IBUSERR,
FAULT_INFO_BFSR_PRECISERR,
FAULT_INFO_BFSR_IMPREISERR,
FAULT_INFO_BFSR_UNSTKERR,
FAULT_INFO_BFSR_STKERR,
FAULT_INFO_BFSR_LSPERR,
FAULT_INFO_UFSR_UNDEFINSTR,
FAULT_INFO_UFSR_INVSTATE,
FAULT_INFO_UFSR_INVPC,
FAULT_INFO_UFSR_NOCP,
FAULT_INFO_UFSR_UNALIGNED,
FAULT_INFO_UFSR_DIVBYZERO0,
FAULT_INFO_DFSR_HALTED,
FAULT_INFO_DFSR_BKPT,
FAULT_INFO_DFSR_DWTTRAP,
FAULT_INFO_DFSR_VCATCH,
FAULT_INFO_DFSR_EXTERNAL,
FAULT_INFO_MMAR,
FAULT_INFO_BFAR,
};
static const char *const fault_msg[] = {
[FAULT_INFO_ASSERT_ON_THREAD] = "Assert on thread %s\n",
[FAULT_INFO_HFSR_VECTBL] = "Hard fault is caused by failed vector fetch\n",
[FAULT_INFO_MFSR_IACCVIOL] = "Memory management fault: instruction access violation\n",
[FAULT_INFO_MFSR_DACCVIOL] = "Memory management fault: data access violation\n",
[FAULT_INFO_MFSR_MUNSTKERR] = "Memory management fault: unstacking error\n",
[FAULT_INFO_MFSR_MSTKERR] = "Memory management fault: stacking error\n",
[FAULT_INFO_MFSR_MLSPERR] = "Memory management fault: floating-point lazy state preservation\n",
[FAULT_INFO_BFSR_IBUSERR] = "Bus fault: instruction access violation\n",
[FAULT_INFO_BFSR_PRECISERR] = "Bus fault: precise data access violation\n",
[FAULT_INFO_BFSR_IMPREISERR] = "Bus fault: imprecise data access violation\n",
[FAULT_INFO_BFSR_UNSTKERR] = "Bus fault: unstacking error\n",
[FAULT_INFO_BFSR_STKERR] = "Bus fault: stacking error\n",
[FAULT_INFO_BFSR_LSPERR] = "Bus fault: floating-point lazy state preservation\n",
[FAULT_INFO_UFSR_UNDEFINSTR] = "Usage fault: undefined instruction\n",
[FAULT_INFO_UFSR_INVSTATE] = "Usage fault: invalid state (e.g., ARM)\n",
[FAULT_INFO_UFSR_INVPC] = "Usage fault: invalid EXC_RETURN\n",
[FAULT_INFO_UFSR_NOCP] = "Usage fault: coprocessor instruction\n",
[FAULT_INFO_UFSR_UNALIGNED] = "Usage fault: unaligned access\n",
[FAULT_INFO_UFSR_DIVBYZERO0] = "Usage fault: divide by zero(can be set only if DIV_0_TRP is set)\n",
[FAULT_INFO_DFSR_HALTED] = "Debug fault: halt requested in NVIC\n",
[FAULT_INFO_DFSR_BKPT] = "Debug fault: BKPT instruction executed\n",
[FAULT_INFO_DFSR_DWTTRAP] = "Debug fault: DWT match occurred\n",
[FAULT_INFO_DFSR_VCATCH] = "Debug fault: Vector fetch occurred\n",
[FAULT_INFO_DFSR_EXTERNAL] = "Debug fault: EDBGRQ signal asserted\n",
[FAULT_INFO_MMAR] = "The memory management fault occurred address is %08x\n",
[FAULT_INFO_BFAR] = "The bus fault occurred address is %08x\n",
};
__PORT__ void HardFault_Handler(void);
__PORT__ void port_fault_diagnosis(void);
#endif
#if defined(TOS_CFG_CPU_LEAD_ZEROS_ASM_PRESENT) && (TOS_CFG_CPU_LEAD_ZEROS_ASM_PRESENT == 1u)
__PORT__ uint32_t port_clz(uint32_t val);
#endif
__PORT__ void port_int_disable(void);
__PORT__ void port_int_enable(void);
__PORT__ cpu_cpsr_t port_cpsr_save(void);
__PORT__ void port_cpsr_restore(cpu_cpsr_t cpsr);
__PORT__ void port_cpu_reset(void);
__PORT__ void port_sched_start(void) __NO_RETURN__;
__PORT__ void port_context_switch(void);
__PORT__ void port_irq_context_switch(void);
__PORT__ void port_systick_config(uint32_t cycle_per_tick);
__PORT__ void port_systick_priority_set(uint32_t prio);
#if TOS_CFG_TICKLESS_EN > 0u
__PORT__ void port_systick_resume(void);
__PORT__ void port_systick_suspend(void);
__PORT__ void port_systick_reload(uint32_t cycle_per_tick);
__PORT__ void port_systick_pending_reset(void);
__PORT__ k_time_t port_systick_max_delay_millisecond(void);
#endif
#if TOS_CFG_PWR_MGR_EN > 0u
__PORT__ void port_sleep_mode_enter(void);
__PORT__ void port_stop_mode_enter(void);
__PORT__ void port_standby_mode_enter(void);
#endif
#endif /* _PORT_H_ */

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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
/*
* The MIT License (MIT)
*
* Copyright (c) 2016-2018 Armink (armink.ztl@gmail.com)
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
* 'Software'), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish,
* distribute, sublicense, and/or sell copies of the Software, and to
* permit persons to whom the Software is furnished to do so, subject to
* the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "tos_k.h"
#include "arc/arc_timer.h"
#include "board.h"
#include "arc/arc_exception.h"
__PORT__ void port_systick_config(uint32_t cycle_per_tick) // Configure SysTick to generate an interrupt every cycle_per_tick
{
timer_int_clear(0); // nsim #define BOARD_SYS_TIMER_ID TIMER_0
board_timer_update(cycle_per_tick); // board.c
}
__PORT__ void port_systick_priority_set(uint32_t prio) // Sets the int priority
{
int_pri_set(INTNO_TIMER0, prio); // get system tick from timer 0 arc_timer.h
}
#if TOS_CFG_TICKLESS_EN > 0u
__PORT__ k_time_t port_systick_max_delay_millisecond(void)
{
k_time_t max_millisecond;
uint32_t max_cycle;
max_cycle = arc_aux_read(AUX_TIMER0_LIMIT); // AUX_TIMER0_CNT, reset value 0x00FFFFFF
max_millisecond = (k_time_t)((uint64_t)max_cycle * K_TIME_MILLISEC_PER_SEC / TOS_CFG_CPU_CLOCK); // CLOCK: cycle per second
return max_millisecond;
}
__PORT__ void port_systick_resume(void)
{
arc_aux_write(AUX_TIMER0_CTRL, TIMER_CTRL_IE); // enables the generation of an interrupt after the timer has reached its limit
arc_aux_write(AUX_TIMER0_CNT, 0); //Writing to this register sets 0 for the timer, and restarts the timer
}
__PORT__ void port_systick_suspend(void)
{
arc_aux_write(AUX_TIMER0_CTRL, TIMER_CTRL_NH); // counting is suspended during host debugger interactions with the processor.
}
__PORT__ void port_systick_reload(uint32_t cycle_per_tick)
{
uint32_t max_cycle;
uint32_t systick_value;
max_cycle = arc_aux_read(AUX_TIMER0_LIMIT); // AUX_TIMER0_CNT, reset value 0x00FFFFFF
systick_value = arc_aux_read(AUX_TIMER0_CNT);
if (max_cycle - systick_value > cycle_per_tick - 1u) {
arc_aux_write(AUX_TIMER0_LIMIT, max_cycle);
} else {
arc_aux_write(AUX_TIMER0_LIMIT, (cycle_per_tick - 1u) + systick_value);
}
arc_aux_write(AUX_TIMER0_CNT, 0);
}
__PORT__ void port_systick_pending_reset(void)
{
// SCB->ICSR |= SCB_ICSR_PENDSTCLR_Msk;
arc_aux_write(AUX_TIMER0_CTRL, TIMER_CTRL_IP); // interrupt pending
}
#endif
#if TOS_CFG_PWR_MGR_EN > 0u
__PORT__ void port_sleep_mode_enter(void)
{
Asm("sleep");
}
__PORT__ void port_stop_mode_enter(void)
{
Asm("brk");
}
__PORT__ void port_standby_mode_enter(void)
{
Asm("nop");
}
#endif
#if TOS_CFG_FAULT_BACKTRACE_EN > 0u
__STATIC__ void port_fault_do_diagnosis(port_fault_regs_t *regs) // 硬件错误诊断
{
k_fault_log_writer("\n\n====================== Fault Diagnosis =====================\n");
}
__PORT__ void port_fault_diagnosis(void)
{
k_fault_log_writer("\n\n====================== Fault Diagnosis .. =====================\n");
}
__PORT__ void __NAKED__ HardFault_Handler(void)
{
k_fault_log_writer("\n\n====================== Fault Diagnosis Handler =====================\n");
}
#endif /* TOS_CFG_FAULT_BACKTRACE_EN */

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arch/arc/nsim/em/gcc/port_config.h Normal file
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/*----------------------------------------------------------------------------
* Tencent is pleased to support the open source community by making TencentOS
* available.
*
* Copyright (C) 2019 THL A29 Limited, a Tencent company. All rights reserved.
* If you have downloaded a copy of the TencentOS binary from Tencent, please
* note that the TencentOS binary is licensed under the BSD 3-Clause License.
*
* If you have downloaded a copy of the TencentOS source code from Tencent,
* please note that TencentOS source code is licensed under the BSD 3-Clause
* License, except for the third-party components listed below which are
* subject to different license terms. Your integration of TencentOS into your
* own projects may require compliance with the BSD 3-Clause License, as well
* as the other licenses applicable to the third-party components included
* within TencentOS.
*---------------------------------------------------------------------------*/
#ifndef _PORT_CONFIG_H_
#define _PORT_CONFIG_H_
#define TOS_CFG_CPU_ADDR_SIZE CPU_WORD_SIZE_32
#define TOS_CFG_CPU_DATA_SIZE CPU_WORD_SIZE_32
#define TOS_CFG_CPU_STK_GROWTH CPU_STK_GROWTH_DESCENDING
// #define TOS_CFG_CPU_HRTIMER_SIZE CPU_WORD_SIZE_32
#define TOS_CFG_CPU_HRTIMER_EN 0u
#define TOS_CFG_CPU_LEAD_ZEROS_ASM_PRESENT 1u
#if (defined(__VFP_FP__) && !defined(__SOFTFP__))
#define TOS_CFG_CPU_ARM_FPU_EN 1u
#else
#define TOS_CFG_CPU_ARM_FPU_EN 0u
#endif
#endif /* _PORT_CONFIG_H_ */

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arch/arc/nsim/em/gcc/port_s.S Normal file
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.global port_int_disable
.global port_int_enable
.global port_cpsr_save
.global port_cpsr_restore
.global port_sched_start
.global port_context_switch
.extern k_curr_task
.extern k_next_task
.text
.align 4
.type port_int_disable, %function
port_int_disable:
clri
j [blink]
.type port_int_enable, %function
port_int_enable:
seti
j [blink]
.type port_cpsr_save, %function
port_cpsr_save:
clri r0
j [blink]
.type port_cpsr_restore, %function
port_cpsr_restore:
seti r0
j [blink]
.type port_sched_start, %function
port_sched_start:
push_s blink
clri
mov r0, 0
mov r0, k_curr_task
mov r1, k_next_task
ld r2, [r1]
st r2, [r0] /* k_curr_task = k_next_task*/
ld sp, [r2]
seti
j [r0]
.type port_context_switch, %function
port_context_switch:
pop r15
pop r14
pop r13
pop blink
pop fp
pop gp
j [blink]
.type PendSV_Handler, %function
TaskSwitchContext:
clri
push gp
push fp
push blink
push r13
push r14
push r15
mov r2, dispatch_r
push r2
mov r5, k_curr_task
ld r6, [r5]
st r0, [r6]
mov r1, k_next_task
ld r2, [r1]
st r2, [r5]
ld r0, [r2]
ld sp, [r0]
seti
j [r0]
dispatch_r:
pop r15
pop r14
pop r13
pop blink
pop fp
pop gp
j [blink]