Zephyr API 3.6.99
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arch_interface.h
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1/*
2 * Copyright (c) 2019 Intel Corporation.
3 *
4 * SPDX-License-Identifier: Apache-2.0
5 */
6
27#ifndef ZEPHYR_INCLUDE_ARCH_ARCH_INTERFACE_H_
28#define ZEPHYR_INCLUDE_ARCH_ARCH_INTERFACE_H_
29
30#ifndef _ASMLANGUAGE
31#include <zephyr/toolchain.h>
32#include <stddef.h>
33#include <zephyr/types.h>
34#include <zephyr/arch/cpu.h>
35#include <zephyr/irq_offload.h>
36
37#ifdef __cplusplus
38extern "C" {
39#endif
40
41/* NOTE: We cannot pull in kernel.h here, need some forward declarations */
42struct arch_esf;
43struct k_thread;
44struct k_mem_domain;
45
46typedef struct z_thread_stack_element k_thread_stack_t;
47
48typedef void (*k_thread_entry_t)(void *p1, void *p2, void *p3);
49
50__deprecated typedef struct arch_esf z_arch_esf_t;
51
72static inline uint32_t arch_k_cycle_get_32(void);
73
86static inline uint64_t arch_k_cycle_get_64(void);
87
187void arch_cpu_idle(void);
188
207void arch_cpu_atomic_idle(unsigned int key);
208
222typedef void (*arch_cpustart_t)(void *data);
223
244void arch_cpu_start(int cpu_num, k_thread_stack_t *stack, int sz,
245 arch_cpustart_t fn, void *arg);
246
252bool arch_cpu_active(int cpu_num);
253
267static inline unsigned int arch_irq_lock(void);
268
274static inline void arch_irq_unlock(unsigned int key);
275
283static inline bool arch_irq_unlocked(unsigned int key);
284
299void arch_irq_disable(unsigned int irq);
300
306void arch_irq_enable(unsigned int irq);
307
313int arch_irq_is_enabled(unsigned int irq);
314
326int arch_irq_connect_dynamic(unsigned int irq, unsigned int priority,
327 void (*routine)(const void *parameter),
328 const void *parameter, uint32_t flags);
329
344int arch_irq_disconnect_dynamic(unsigned int irq, unsigned int priority,
345 void (*routine)(const void *parameter),
346 const void *parameter, uint32_t flags);
347
354#ifdef CONFIG_PCIE
360#endif /* CONFIG_PCIE */
361
392#ifndef CONFIG_PCIE_CONTROLLER
402unsigned int arch_irq_allocate(void);
403
412void arch_irq_set_used(unsigned int irq);
413
421bool arch_irq_is_used(unsigned int irq);
422
423#endif /* CONFIG_PCIE_CONTROLLER */
424
440#ifdef CONFIG_IRQ_OFFLOAD
457void arch_irq_offload(irq_offload_routine_t routine, const void *parameter);
458
459
463void arch_irq_offload_init(void);
464
465#endif /* CONFIG_IRQ_OFFLOAD */
466
475#ifdef CONFIG_SMP
477static inline struct _cpu *arch_curr_cpu(void);
478
479
499static inline uint32_t arch_proc_id(void);
500
506void arch_sched_broadcast_ipi(void);
507
515void arch_sched_directed_ipi(uint32_t cpu_bitmap);
516
517int arch_smp_init(void);
518
519#endif /* CONFIG_SMP */
520
529static inline unsigned int arch_num_cpus(void);
530
540#ifdef CONFIG_USERSPACE
541#include <zephyr/arch/syscall.h>
542
564static inline uintptr_t arch_syscall_invoke0(uintptr_t call_id);
565
576static inline uintptr_t arch_syscall_invoke1(uintptr_t arg1,
577 uintptr_t call_id);
578
590static inline uintptr_t arch_syscall_invoke2(uintptr_t arg1, uintptr_t arg2,
591 uintptr_t call_id);
592
605static inline uintptr_t arch_syscall_invoke3(uintptr_t arg1, uintptr_t arg2,
606 uintptr_t arg3,
607 uintptr_t call_id);
608
622static inline uintptr_t arch_syscall_invoke4(uintptr_t arg1, uintptr_t arg2,
623 uintptr_t arg3, uintptr_t arg4,
624 uintptr_t call_id);
625
640static inline uintptr_t arch_syscall_invoke5(uintptr_t arg1, uintptr_t arg2,
641 uintptr_t arg3, uintptr_t arg4,
642 uintptr_t arg5,
643 uintptr_t call_id);
644
660static inline uintptr_t arch_syscall_invoke6(uintptr_t arg1, uintptr_t arg2,
661 uintptr_t arg3, uintptr_t arg4,
662 uintptr_t arg5, uintptr_t arg6,
663 uintptr_t call_id);
664
670static inline bool arch_is_user_context(void);
671
677int arch_mem_domain_max_partitions_get(void);
678
679#ifdef CONFIG_ARCH_MEM_DOMAIN_DATA
701int arch_mem_domain_init(struct k_mem_domain *domain);
702#endif /* CONFIG_ARCH_MEM_DOMAIN_DATA */
703
704#ifdef CONFIG_ARCH_MEM_DOMAIN_SYNCHRONOUS_API
722int arch_mem_domain_thread_add(struct k_thread *thread);
723
738int arch_mem_domain_thread_remove(struct k_thread *thread);
739
757int arch_mem_domain_partition_remove(struct k_mem_domain *domain,
758 uint32_t partition_id);
759
772int arch_mem_domain_partition_add(struct k_mem_domain *domain,
773 uint32_t partition_id);
774#endif /* CONFIG_ARCH_MEM_DOMAIN_SYNCHRONOUS_API */
775
804int arch_buffer_validate(const void *addr, size_t size, int write);
805
821size_t arch_virt_region_align(uintptr_t phys, size_t size);
822
841FUNC_NORETURN void arch_user_mode_enter(k_thread_entry_t user_entry,
842 void *p1, void *p2, void *p3);
843
858FUNC_NORETURN void arch_syscall_oops(void *ssf);
859
872size_t arch_user_string_nlen(const char *s, size_t maxsize, int *err);
873#endif /* CONFIG_USERSPACE */
874
889#ifndef CONFIG_ARCH_HAS_COHERENCE
890static inline bool arch_mem_coherent(void *ptr)
891{
892 ARG_UNUSED(ptr);
893 return true;
894}
895#endif
896
937#ifndef CONFIG_KERNEL_COHERENCE
938static inline void arch_cohere_stacks(struct k_thread *old_thread,
939 void *old_switch_handle,
940 struct k_thread *new_thread)
941{
942 ARG_UNUSED(old_thread);
943 ARG_UNUSED(old_switch_handle);
944 ARG_UNUSED(new_thread);
945}
946#endif
947
956#ifdef CONFIG_GDBSTUB
957struct gdb_ctx;
958
964void arch_gdb_init(void);
965
971void arch_gdb_continue(void);
972
978void arch_gdb_step(void);
979
993size_t arch_gdb_reg_readall(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen);
994
1008size_t arch_gdb_reg_writeall(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen);
1009
1024size_t arch_gdb_reg_readone(struct gdb_ctx *ctx, uint8_t *buf, size_t buflen,
1025 uint32_t regno);
1026
1041size_t arch_gdb_reg_writeone(struct gdb_ctx *ctx, uint8_t *hex, size_t hexlen,
1042 uint32_t regno);
1043
1056int arch_gdb_add_breakpoint(struct gdb_ctx *ctx, uint8_t type,
1057 uintptr_t addr, uint32_t kind);
1058
1071int arch_gdb_remove_breakpoint(struct gdb_ctx *ctx, uint8_t type,
1072 uintptr_t addr, uint32_t kind);
1073
1074#endif
1077#ifdef CONFIG_TIMING_FUNCTIONS
1078#include <zephyr/timing/types.h>
1079
1098void arch_timing_init(void);
1099
1112void arch_timing_start(void);
1113
1126void arch_timing_stop(void);
1127
1154timing_t arch_timing_counter_get(void);
1155
1170uint64_t arch_timing_cycles_get(volatile timing_t *const start,
1171 volatile timing_t *const end);
1172
1180uint64_t arch_timing_freq_get(void);
1181
1190uint64_t arch_timing_cycles_to_ns(uint64_t cycles);
1191
1201uint64_t arch_timing_cycles_to_ns_avg(uint64_t cycles, uint32_t count);
1202
1210uint32_t arch_timing_freq_get_mhz(void);
1211
1214#endif /* CONFIG_TIMING_FUNCTIONS */
1215
1216#ifdef CONFIG_PCIE_MSI_MULTI_VECTOR
1217
1218struct msi_vector;
1219typedef struct msi_vector msi_vector_t;
1220
1230uint8_t arch_pcie_msi_vectors_allocate(unsigned int priority,
1231 msi_vector_t *vectors,
1232 uint8_t n_vector);
1233
1244bool arch_pcie_msi_vector_connect(msi_vector_t *vector,
1245 void (*routine)(const void *parameter),
1246 const void *parameter,
1247 uint32_t flags);
1248
1249#endif /* CONFIG_PCIE_MSI_MULTI_VECTOR */
1250
1259void arch_spin_relax(void);
1260
1279typedef bool (*stack_trace_callback_fn)(void *cookie, unsigned long addr);
1280
1296void arch_stack_walk(stack_trace_callback_fn callback_fn, void *cookie,
1297 const struct k_thread *thread, const struct arch_esf *esf);
1298
1304#ifdef __cplusplus
1305}
1306#endif /* __cplusplus */
1307
1308#include <zephyr/arch/arch_inlines.h>
1309
1310#endif /* _ASMLANGUAGE */
1311
1312#endif /* ZEPHYR_INCLUDE_ARCH_ARCH_INTERFACE_H_ */
arch_irq_disable
#define arch_irq_disable(irq)
Definition irq.h:107
arch_irq_enable
#define arch_irq_enable(irq)
Definition irq.h:106
arch_irq_is_enabled
#define arch_irq_is_enabled(irq)
Definition irq.h:109
arch_inlines.h
k_thread_entry_t
void(* k_thread_entry_t)(void *p1, void *p2, void *p3)
Thread entry point function type.
Definition arch_interface.h:48
arch_spin_relax
void arch_spin_relax(void)
Perform architecture specific processing within spin loops.
k_thread_stack_t
struct z_thread_stack_element k_thread_stack_t
Typedef of struct z_thread_stack_element.
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
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)
Test if calling arch_irq_unlock() with this key would unlock irqs.
arch_irq_lock
static unsigned int arch_irq_lock(void)
Lock interrupts on the current CPU.
arch_irq_disconnect_dynamic
int arch_irq_disconnect_dynamic(unsigned int irq, unsigned int priority, void(*routine)(const void *parameter), const void *parameter, uint32_t flags)
Arch-specific hook to dynamically uninstall a shared interrupt.
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_unlock
static void arch_irq_unlock(unsigned int key)
Unlock interrupts on the current CPU.
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-specific hook to install a dynamic interrupt.
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_num_cpus
static unsigned int arch_num_cpus(void)
Returns the number of CPUs.
arch_cpu_start
void arch_cpu_start(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_cpustart_t
void(* arch_cpustart_t)(void *data)
Per-cpu entry function.
Definition arch_interface.h:222
arch_cpu_active
bool arch_cpu_active(int cpu_num)
Return CPU power status.
arch_smp_init
int arch_smp_init(void)
arch_sched_broadcast_ipi
void arch_sched_broadcast_ipi(void)
Broadcast an interrupt to all CPUs.
arch_curr_cpu
static struct _cpu * arch_curr_cpu(void)
Return the CPU struct for the currently executing CPU.
arch_proc_id
static uint32_t arch_proc_id(void)
Processor hardware ID.
arch_sched_directed_ipi
void arch_sched_directed_ipi(uint32_t cpu_bitmap)
Direct IPIs to the specified CPUs.
arch_stack_walk
void arch_stack_walk(stack_trace_callback_fn callback_fn, void *cookie, const struct k_thread *thread, const struct arch_esf *esf)
Architecture-specific function to walk the stack.
stack_trace_callback_fn
bool(* stack_trace_callback_fn)(void *cookie, unsigned long addr)
stack_trace_callback_fn - Callback for arch_stack_walk
Definition arch_interface.h:1279
arch_k_cycle_get_32
static uint32_t arch_k_cycle_get_32(void)
Obtain the current cycle count, in units specified by CONFIG_SYS_CLOCK_HW_CYCLES_PER_SEC.
arch_k_cycle_get_64
static uint64_t arch_k_cycle_get_64(void)
As for arch_k_cycle_get_32(), but with a 64 bit return value.
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)
Invoke a system call with 4 arguments.
arch_buffer_validate
int arch_buffer_validate(const 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)
Invoke a system call with 2 arguments.
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:938
arch_user_mode_enter
FUNC_NORETURN void arch_user_mode_enter(k_thread_entry_t user_entry, void *p1, void *p2, void *p3)
Perform a one-way transition from supervisor to user mode.
arch_virt_region_align
size_t arch_virt_region_align(uintptr_t phys, size_t size)
Get the optimal virtual region alignment to optimize the MMU table layout.
arch_syscall_invoke1
static uintptr_t arch_syscall_invoke1(uintptr_t arg1, uintptr_t call_id)
Invoke a system call with 1 argument.
arch_syscall_invoke0
static uintptr_t arch_syscall_invoke0(uintptr_t call_id)
Invoke a system call with 0 arguments.
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)
Indicate whether we are currently running in user mode.
arch_mem_coherent
static bool arch_mem_coherent(void *ptr)
Detect memory coherence type.
Definition arch_interface.h:890
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)
Invoke a system call with 5 arguments.
arch_syscall_invoke3
static uintptr_t arch_syscall_invoke3(uintptr_t arg1, uintptr_t arg2, uintptr_t arg3, uintptr_t call_id)
Invoke a system call with 3 arguments.
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)
Invoke a system call with 6 arguments.
arch_syscall_oops
FUNC_NORETURN void arch_syscall_oops(void *ssf)
Induce a kernel oops that appears to come from a specific location.
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_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.
timing_t
uint64_t timing_t
Definition types.h:10
irq_offload.h
IRQ Offload interface.
irq_offload_routine_t
void(* irq_offload_routine_t)(const void *parameter)
Definition irq_offload.h:18
flags
flags
Definition parser.h:96
bool
#define bool
Definition stdbool.h:13
uint32_t
__UINT32_TYPE__ uint32_t
Definition stdint.h:90
uint64_t
__UINT64_TYPE__ uint64_t
Definition stdint.h:91
uint8_t
__UINT8_TYPE__ uint8_t
Definition stdint.h:88
uintptr_t
__UINTPTR_TYPE__ uintptr_t
Definition stdint.h:105
arch_esf
Exception Stack Frame.
Definition exception.h:60
gdb_ctx
Architecture specific GDB context.
Definition gdbstub.h:61
k_mem_domain
Memory Domain.
Definition mem_domain.h:80
k_thread
Thread Structure.
Definition thread.h:259
msi_vector
Definition msi.h:51
toolchain.h
Macros to abstract toolchain specific capabilities.