/* * Copyright (c) 2016 Wind River Systems, Inc. * * SPDX-License-Identifier: Apache-2.0 */ /* * The purpose of this file is to provide essential/minimal kernel structure * definitions, so that they can be used without including kernel.h. * * The following rules must be observed: * 1. kernel_structs.h shall not depend on kernel.h both directly and * indirectly (i.e. it shall not include any header files that include * kernel.h in their dependency chain). * 2. kernel.h shall imply kernel_structs.h, such that it shall not be * necessary to include kernel_structs.h explicitly when kernel.h is * included. */ #ifndef ZEPHYR_KERNEL_INCLUDE_KERNEL_STRUCTS_H_ #define ZEPHYR_KERNEL_INCLUDE_KERNEL_STRUCTS_H_ #if !defined(_ASMLANGUAGE) #include #include #include #include #include #include #endif #define K_NUM_PRIORITIES \ (CONFIG_NUM_COOP_PRIORITIES + CONFIG_NUM_PREEMPT_PRIORITIES + 1) #define K_NUM_PRIO_BITMAPS ((K_NUM_PRIORITIES + 31) >> 5) /* * Bitmask definitions for the struct k_thread.thread_state field. * * Must be before kerneL_arch_data.h because it might need them to be already * defined. */ /* states: common uses low bits, arch-specific use high bits */ /* Not a real thread */ #define _THREAD_DUMMY (BIT(0)) /* Thread is waiting on an object */ #define _THREAD_PENDING (BIT(1)) /* Thread has not yet started */ #define _THREAD_PRESTART (BIT(2)) /* Thread has terminated */ #define _THREAD_DEAD (BIT(3)) /* Thread is suspended */ #define _THREAD_SUSPENDED (BIT(4)) /* Thread is being aborted (SMP only) */ #define _THREAD_ABORTING (BIT(5)) /* Thread was aborted in interrupt context (SMP only) */ #define _THREAD_ABORTED_IN_ISR (BIT(6)) /* Thread is present in the ready queue */ #define _THREAD_QUEUED (BIT(7)) /* end - states */ #ifdef CONFIG_STACK_SENTINEL /* Magic value in lowest bytes of the stack */ #define STACK_SENTINEL 0xF0F0F0F0 #endif /* lowest value of _thread_base.preempt at which a thread is non-preemptible */ #define _NON_PREEMPT_THRESHOLD 0x0080 /* highest value of _thread_base.preempt at which a thread is preemptible */ #define _PREEMPT_THRESHOLD (_NON_PREEMPT_THRESHOLD - 1) #if !defined(_ASMLANGUAGE) struct _ready_q { #ifndef CONFIG_SMP /* always contains next thread to run: cannot be NULL */ struct k_thread *cache; #endif #if defined(CONFIG_SCHED_DUMB) sys_dlist_t runq; #elif defined(CONFIG_SCHED_SCALABLE) struct _priq_rb runq; #elif defined(CONFIG_SCHED_MULTIQ) struct _priq_mq runq; #endif }; typedef struct _ready_q _ready_q_t; struct _cpu { /* nested interrupt count */ uint32_t nested; /* interrupt stack pointer base */ char *irq_stack; /* currently scheduled thread */ struct k_thread *current; /* one assigned idle thread per CPU */ struct k_thread *idle_thread; #if (CONFIG_NUM_METAIRQ_PRIORITIES > 0) && (CONFIG_NUM_COOP_PRIORITIES > 0) /* Coop thread preempted by current metairq, or NULL */ struct k_thread *metairq_preempted; #endif #ifdef CONFIG_TIMESLICING /* number of ticks remaining in current time slice */ int slice_ticks; #endif uint8_t id; #ifdef CONFIG_SMP /* True when _current is allowed to context switch */ uint8_t swap_ok; #endif }; typedef struct _cpu _cpu_t; struct z_kernel { struct _cpu cpus[CONFIG_MP_NUM_CPUS]; #ifdef CONFIG_SYS_CLOCK_EXISTS /* queue of timeouts */ sys_dlist_t timeout_q; #endif #ifdef CONFIG_SYS_POWER_MANAGEMENT int32_t idle; /* Number of ticks for kernel idling */ #endif /* * ready queue: can be big, keep after small fields, since some * assembly (e.g. ARC) are limited in the encoding of the offset */ struct _ready_q ready_q; #ifdef CONFIG_FPU_SHARING /* * A 'current_sse' field does not exist in addition to the 'current_fp' * field since it's not possible to divide the IA-32 non-integer * registers into 2 distinct blocks owned by differing threads. In * other words, given that the 'fxnsave/fxrstor' instructions * save/restore both the X87 FPU and XMM registers, it's not possible * for a thread to only "own" the XMM registers. */ /* thread that owns the FP regs */ struct k_thread *current_fp; #endif #if defined(CONFIG_THREAD_MONITOR) struct k_thread *threads; /* singly linked list of ALL threads */ #endif }; typedef struct z_kernel _kernel_t; extern struct z_kernel _kernel; #ifdef CONFIG_SMP /* True if the current context can be preempted and migrated to * another SMP CPU. */ bool z_smp_cpu_mobile(void); #define _current_cpu ({ __ASSERT_NO_MSG(!z_smp_cpu_mobile()); \ arch_curr_cpu(); }) #define _current k_current_get() #else #define _current_cpu (&_kernel.cpus[0]) #define _current _kernel.cpus[0].current #endif #define _timeout_q _kernel.timeout_q /* kernel wait queue record */ #ifdef CONFIG_WAITQ_SCALABLE typedef struct { struct _priq_rb waitq; } _wait_q_t; extern bool z_priq_rb_lessthan(struct rbnode *a, struct rbnode *b); #define Z_WAIT_Q_INIT(wait_q) { { { .lessthan_fn = z_priq_rb_lessthan } } } #else typedef struct { sys_dlist_t waitq; } _wait_q_t; #define Z_WAIT_Q_INIT(wait_q) { SYS_DLIST_STATIC_INIT(&(wait_q)->waitq) } #endif /* kernel timeout record */ struct _timeout; typedef void (*_timeout_func_t)(struct _timeout *t); struct _timeout { sys_dnode_t node; int32_t dticks; _timeout_func_t fn; }; /* kernel spinlock type */ struct k_spinlock { #ifdef CONFIG_SMP atomic_t locked; #endif #ifdef CONFIG_SPIN_VALIDATE /* Stores the thread that holds the lock with the locking CPU * ID in the bottom two bits. */ uintptr_t thread_cpu; #endif #if defined(CONFIG_CPLUSPLUS) && !defined(CONFIG_SMP) && \ !defined(CONFIG_SPIN_VALIDATE) /* If CONFIG_SMP and CONFIG_SPIN_VALIDATE are both not defined * the k_spinlock struct will have no members. The result * is that in C sizeof(k_spinlock) is 0 and in C++ it is 1. * * This size difference causes problems when the k_spinlock * is embedded into another struct like k_msgq, because C and * C++ will have different ideas on the offsets of the members * that come after the k_spinlock member. * * To prevent this we add a 1 byte dummy member to k_spinlock * when the user selects C++ support and k_spinlock would * otherwise be empty. */ char dummy; #endif }; /* kernel synchronized heap struct */ struct k_heap { struct sys_heap heap; _wait_q_t wait_q; struct k_spinlock lock; }; #endif /* _ASMLANGUAGE */ #endif /* ZEPHYR_KERNEL_INCLUDE_KERNEL_STRUCTS_H_ */