doxygen/html/arch__interface_8h_source.html

/*

 * Copyright (c) 2019 Intel Corporation.

 *

 * SPDX-License-Identifier: Apache-2.0

 */


#ifndef ZEPHYR_INCLUDE_SYS_ARCH_INTERFACE_H_

#define ZEPHYR_INCLUDE_SYS_ARCH_INTERFACE_H_


#ifndef _ASMLANGUAGE

#include <toolchain.h>

#include <stddef.h>

#include <zephyr/types.h>

#include <arch/cpu.h>

#include <irq_offload.h>


#ifdef __cplusplus

extern "C" {

#endif


/* NOTE: We cannot pull in kernel.h here, need some forward declarations  */

struct k_thread;

struct k_mem_domain;


typedef struct z_thread_stack_element k_thread_stack_t;


typedef void (*k_thread_entry_t)(void *p1, void *p2, void *p3);


static inline uint32_t arch_k_cycle_get_32(void);


static inline uint64_t arch_k_cycle_get_64(void);


void arch_cpu_idle(void);


void arch_cpu_atomic_idle(unsigned int key);


typedef FUNC_NORETURN void (*arch_cpustart_t)(void *data);


void arch_start_cpu(int cpu_num, k_thread_stack_t *stack, int sz,

                    arch_cpustart_t fn, void *arg);


bool arch_cpu_active(int cpu_num);


static inline unsigned int arch_irq_lock(void);


static inline void arch_irq_unlock(unsigned int key);


static inline bool arch_irq_unlocked(unsigned int key);


void arch_irq_disable(unsigned int irq);


void arch_irq_enable(unsigned int irq);


int arch_irq_is_enabled(unsigned int irq);


int arch_irq_connect_dynamic(unsigned int irq, unsigned int priority,

                             void (*routine)(const void *parameter),

                             const void *parameter, uint32_t flags);


#ifdef CONFIG_PCIE

#endif /* CONFIG_PCIE */


#ifndef CONFIG_PCIE_CONTROLLER

unsigned int arch_irq_allocate(void);


void arch_irq_set_used(unsigned int irq);


bool arch_irq_is_used(unsigned int irq);


#endif /* CONFIG_PCIE_CONTROLLER */


#ifdef CONFIG_IRQ_OFFLOAD

void arch_irq_offload(irq_offload_routine_t routine, const void *parameter);

#endif /* CONFIG_IRQ_OFFLOAD */


#ifdef CONFIG_SMP

static inline struct _cpu *arch_curr_cpu(void);


void arch_sched_ipi(void);

#endif /* CONFIG_SMP */


#ifdef CONFIG_USERSPACE

static inline uintptr_t arch_syscall_invoke0(uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke1(uintptr_t arg1,

                                             uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke2(uintptr_t arg1, uintptr_t arg2,

                                             uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke3(uintptr_t arg1, uintptr_t arg2,

                                             uintptr_t arg3,

                                             uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke4(uintptr_t arg1, uintptr_t arg2,

                                             uintptr_t arg3, uintptr_t arg4,

                                             uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke5(uintptr_t arg1, uintptr_t arg2,

                                             uintptr_t arg3, uintptr_t arg4,

                                             uintptr_t arg5,

                                             uintptr_t call_id);


static inline uintptr_t arch_syscall_invoke6(uintptr_t arg1, uintptr_t arg2,

                                             uintptr_t arg3, uintptr_t arg4,

                                             uintptr_t arg5, uintptr_t arg6,

                                             uintptr_t call_id);


static inline bool arch_is_user_context(void);


int arch_mem_domain_max_partitions_get(void);


#ifdef CONFIG_ARCH_MEM_DOMAIN_DATA

int arch_mem_domain_init(struct k_mem_domain *domain);

#endif /* CONFIG_ARCH_MEM_DOMAIN_DATA */


#ifdef CONFIG_ARCH_MEM_DOMAIN_SYNCHRONOUS_API

int arch_mem_domain_thread_add(struct k_thread *thread);


int arch_mem_domain_thread_remove(struct k_thread *thread);


int arch_mem_domain_partition_remove(struct k_mem_domain *domain,

                                     uint32_t partition_id);


int arch_mem_domain_partition_add(struct k_mem_domain *domain,

                                  uint32_t partition_id);

#endif /* CONFIG_ARCH_MEM_DOMAIN_SYNCHRONOUS_API */


int arch_buffer_validate(void *addr, size_t size, int write);


size_t arch_virt_region_align(uintptr_t phys, size_t size);


FUNC_NORETURN void arch_user_mode_enter(k_thread_entry_t user_entry,

                                        void *p1, void *p2, void *p3);


FUNC_NORETURN void arch_syscall_oops(void *ssf);


size_t arch_user_string_nlen(const char *s, size_t maxsize, int *err);

#endif /* CONFIG_USERSPACE */


#ifndef CONFIG_ARCH_HAS_COHERENCE

static inline bool arch_mem_coherent(void *ptr)

{

        ARG_UNUSED(ptr);

        return true;

}

#endif


#ifndef CONFIG_KERNEL_COHERENCE

static inline void arch_cohere_stacks(struct k_thread *old_thread,

                                      void *old_switch_handle,

                                      struct k_thread *new_thread)

{

        ARG_UNUSED(old_thread);

        ARG_UNUSED(old_switch_handle);

        ARG_UNUSED(new_thread);

}

#endif


#ifdef CONFIG_GDBSTUB

struct gdb_ctx;


void arch_gdb_init(void);


void arch_gdb_continue(void);


void arch_gdb_step(void);


size_t arch_gdb_reg_readall(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen);


size_t arch_gdb_reg_writeall(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen);


size_t arch_gdb_reg_readone(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen,

                            uint32_t regno);


size_t arch_gdb_reg_writeone(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen,

                             uint32_t regno);


int arch_gdb_add_breakpoint(struct gdb_ctx *ctx, uint8_t type,

                            uintptr_t addr, uint32_t kind);


int arch_gdb_remove_breakpoint(struct gdb_ctx *ctx, uint8_t type,

                               uintptr_t addr, uint32_t kind);


#endif

#if defined(CONFIG_CACHE_MANAGEMENT) && defined(CONFIG_HAS_ARCH_CACHE)

void arch_dcache_enable(void);


void arch_dcache_disable(void);


void arch_icache_enable(void);


void arch_dcache_disable(void);


int arch_dcache_all(int op);


int arch_dcache_range(void *addr, size_t size, int op);


int arch_icache_all(int op);


int arch_icache_range(void *addr, size_t size, int op);


#ifdef CONFIG_DCACHE_LINE_SIZE_DETECT

size_t arch_dcache_line_size_get(void);

#endif /* CONFIG_DCACHE_LINE_SIZE_DETECT */


#ifdef CONFIG_ICACHE_LINE_SIZE_DETECT

size_t arch_icache_line_size_get(void);

#endif /* CONFIG_ICACHE_LINE_SIZE_DETECT */


#endif /* CONFIG_CACHE_MANAGEMENT && CONFIG_HAS_ARCH_CACHE */


#ifdef CONFIG_TIMING_FUNCTIONS

#include <timing/types.h>


void arch_timing_init(void);


void arch_timing_start(void);


void arch_timing_stop(void);


timing_t arch_timing_counter_get(void);


uint64_t arch_timing_cycles_get(volatile timing_t *const start,

                                volatile timing_t *const end);


uint64_t arch_timing_freq_get(void);


uint64_t arch_timing_cycles_to_ns(uint64_t cycles);


uint64_t arch_timing_cycles_to_ns_avg(uint64_t cycles, uint32_t count);


uint32_t arch_timing_freq_get_mhz(void);


#endif /* CONFIG_TIMING_FUNCTIONS */


#ifdef CONFIG_PCIE_MSI_MULTI_VECTOR


struct msi_vector;

typedef struct msi_vector msi_vector_t;


uint8_t arch_pcie_msi_vectors_allocate(unsigned int priority,

                                       msi_vector_t *vectors,

                                       uint8_t n_vector);


bool arch_pcie_msi_vector_connect(msi_vector_t *vector,

                                  void (*routine)(const void *parameter),

                                  const void *parameter,

                                  uint32_t flags);


#endif /* CONFIG_PCIE_MSI_MULTI_VECTOR */


#ifdef __cplusplus

}

#endif /* __cplusplus */


#include <arch/arch_inlines.h>


#endif /* _ASMLANGUAGE */


#endif /* ZEPHYR_INCLUDE_SYS_ARCH_INTERFACE_H_ */

arch_inlines.h

k_thread_stack_t
struct z_thread_stack_element k_thread_stack_t
Typedef of struct z_thread_stack_element.
Definition: arch_interface.h:44

k_thread_entry_t
void(* k_thread_entry_t)(void *p1, void *p2, void *p3)
Thread entry point function type.
Definition: arch_interface.h:46

s
irp nz macro MOVR cc s mov cc s endm endr irp aw macro LDR aa s
Definition: asm-macro-32-bit-gnu.h:17

thread
static struct k_thread thread[2]
Definition: atomic.c:26

count
ZTEST_BMEM int count
Definition: main.c:33

arch_gdb_reg_writeall
size_t arch_gdb_reg_writeall(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen)
Take a hexadecimal string and update all registers.

arch_gdb_init
void arch_gdb_init(void)
Architecture layer debug start.

arch_gdb_step
void arch_gdb_step(void)
Continue with one step.

arch_gdb_reg_readall
size_t arch_gdb_reg_readall(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen)
Read all registers, and outputs as hexadecimal string.

arch_gdb_remove_breakpoint
int arch_gdb_remove_breakpoint(struct gdb_ctx *ctx, uint8_t type, uintptr_t addr, uint32_t kind)
Remove breakpoint or watchpoint.

arch_gdb_continue
void arch_gdb_continue(void)
Continue running program.

arch_gdb_reg_readone
size_t arch_gdb_reg_readone(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen, uint32_t regno)
Read one register, and outputs as hexadecimal string.

arch_gdb_add_breakpoint
int arch_gdb_add_breakpoint(struct gdb_ctx *ctx, uint8_t type, uintptr_t addr, uint32_t kind)
Add breakpoint or watchpoint.

arch_gdb_reg_writeone
size_t arch_gdb_reg_writeone(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen, uint32_t regno)
Take a hexadecimal string and update one register.

arch_irq_unlocked
static bool arch_irq_unlocked(unsigned int key)

arch_irq_disable
void arch_irq_disable(unsigned int irq)

arch_irq_lock
static unsigned int arch_irq_lock(void)

arch_irq_is_enabled
int arch_irq_is_enabled(unsigned int irq)

arch_irq_is_used
bool arch_irq_is_used(unsigned int irq)
Arch-specific hook for checking if an IRQ is being used already.

arch_irq_set_used
void arch_irq_set_used(unsigned int irq)
Arch-specific hook for declaring an IRQ being used.

arch_irq_enable
void arch_irq_enable(unsigned int irq)

arch_irq_unlock
static void arch_irq_unlock(unsigned int key)

arch_irq_connect_dynamic
int arch_irq_connect_dynamic(unsigned int irq, unsigned int priority, void(*routine)(const void *parameter), const void *parameter, uint32_t flags)

arch_irq_allocate
unsigned int arch_irq_allocate(void)
Arch-specific hook for allocating IRQs.

arch_cpu_atomic_idle
void arch_cpu_atomic_idle(unsigned int key)
Atomically re-enable interrupts and enter low power mode.

arch_cpu_idle
void arch_cpu_idle(void)
Power save idle routine.

arch_cpu_active
bool arch_cpu_active(int cpu_num)
Return CPU power status.

arch_cpustart_t
FUNC_NORETURN void(* arch_cpustart_t)(void *data)
Definition: arch_interface.h:202

arch_start_cpu
void arch_start_cpu(int cpu_num, k_thread_stack_t *stack, int sz, arch_cpustart_t fn, void *arg)
Start a numbered CPU on a MP-capable system.

arch_curr_cpu
static struct _cpu * arch_curr_cpu(void)

arch_sched_ipi
void arch_sched_ipi(void)

arch_timing_freq_get
uint64_t arch_timing_freq_get(void)
Get frequency of counter used (in Hz).

arch_timing_freq_get_mhz
uint32_t arch_timing_freq_get_mhz(void)
Get frequency of counter used (in MHz).

arch_timing_cycles_get
uint64_t arch_timing_cycles_get(volatile timing_t *const start, volatile timing_t *const end)
Get number of cycles between start and end.

arch_timing_stop
void arch_timing_stop(void)
Signal the end of the timing information gathering.

arch_timing_init
void arch_timing_init(void)
Initialize the timing subsystem.

arch_timing_cycles_to_ns
uint64_t arch_timing_cycles_to_ns(uint64_t cycles)
Convert number of cycles into nanoseconds.

arch_timing_cycles_to_ns_avg
uint64_t arch_timing_cycles_to_ns_avg(uint64_t cycles, uint32_t count)
Convert number of cycles into nanoseconds with averaging.

arch_k_cycle_get_32
static uint32_t arch_k_cycle_get_32(void)

arch_k_cycle_get_64
static uint64_t arch_k_cycle_get_64(void)

arch_timing_counter_get
timing_t arch_timing_counter_get(void)
Return timing counter.

arch_timing_start
void arch_timing_start(void)
Signal the start of the timing information gathering.

arch_syscall_invoke4
static uintptr_t arch_syscall_invoke4(uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t call_id)

arch_buffer_validate
int arch_buffer_validate(void *addr, size_t size, int write)
Check memory region permissions.

arch_user_string_nlen
size_t arch_user_string_nlen(const char *s, size_t maxsize, int *err)
Safely take the length of a potentially bad string.

arch_syscall_invoke2
static uintptr_t arch_syscall_invoke2(uintptr_t arg1, uintptr_t arg2, uintptr_t call_id)

arch_cohere_stacks
static void arch_cohere_stacks(struct k_thread *old_thread, void *old_switch_handle, struct k_thread *new_thread)
Ensure cache coherence prior to context switch.
Definition: arch_interface.h:845

arch_user_mode_enter
FUNC_NORETURN void arch_user_mode_enter(k_thread_entry_t user_entry, void *p1, void *p2, void *p3)

arch_virt_region_align
size_t arch_virt_region_align(uintptr_t phys, size_t size)

arch_syscall_invoke1
static uintptr_t arch_syscall_invoke1(uintptr_t arg1, uintptr_t call_id)

arch_syscall_invoke0
static uintptr_t arch_syscall_invoke0(uintptr_t call_id)

arch_mem_domain_max_partitions_get
int arch_mem_domain_max_partitions_get(void)
Get the maximum number of partitions for a memory domain.

arch_is_user_context
static bool arch_is_user_context(void)

arch_mem_coherent
static bool arch_mem_coherent(void *ptr)
Detect memory coherence type.
Definition: arch_interface.h:797

arch_syscall_invoke5
static uintptr_t arch_syscall_invoke5(uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t arg5, uintptr_t call_id)

arch_syscall_invoke3
static uintptr_t arch_syscall_invoke3(uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t call_id)

arch_syscall_invoke6
static uintptr_t arch_syscall_invoke6(uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t arg4, uintptr_t arg5, uintptr_t arg6, uintptr_t call_id)

arch_syscall_oops
FUNC_NORETURN void arch_syscall_oops(void *ssf)
Induce a kernel oops that appears to come from a specific location.

flags
flags
Definition: http_parser.h:131

types.h

timing_t
uint64_t timing_t
Definition: types.h:10

types.h

irq_offload.h
IRQ Offload interface.

irq_offload_routine_t
void(* irq_offload_routine_t)(const void *parameter)
Definition: irq_offload.h:18

hex
uint32_t hex
Definition: printk.c:77

ptr
void * ptr
Definition: printk.c:79

stack
char stack[2048]
Definition: main.c:22

key
static k_spinlock_key_t key
Definition: spinlock_error_case.c:14

uint32_t
__UINT32_TYPE__ uint32_t
Definition: stdint.h:60

uint64_t
__UINT64_TYPE__ uint64_t
Definition: stdint.h:61

uint8_t
__UINT8_TYPE__ uint8_t
Definition: stdint.h:58

uintptr_t
__UINTPTR_TYPE__ uintptr_t
Definition: stdint.h:75

gdb_ctx
Definition: gdbstub.h:78

k_mem_domain
Memory Domain.
Definition: mem_domain.h:80

k_thread
Definition: thread.h:216

msi_vector
Definition: msi.h:27

data
static fdata_t data[2]
Definition: test_fifo_contexts.c:15

toolchain.h
Macros to abstract toolchain specific capabilities.
	Zephyr API Documentation 3.0.0 A Scalable Open Source RTOS
3.0.0