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akaros / upstream / 46cfc69bdb8606be7693f88fb235cd8bd85a83a4 / . / kern / include / kthread.h
blob: 85c2f19f2cccd1e3250a1559fc90fb6bf181421d [file] [log] [blame]
/* Copyright (c) 2010-13 The Regents of the University of California
* Barret Rhoden <brho@cs.berkeley.edu>
* See LICENSE for details.
*
* Kernel threading. These are for blocking within the kernel for whatever
* reason, usually during blocking IO operations. Check out
* Documentation/kthreads.txt for more info than you care about. */
#pragma once
#include <ros/common.h>
#include <ros/syscall.h>
#include <trap.h>
#include <sys/queue.h>
#include <atomic.h>
#include <setjmp.h>
struct errbuf {
struct jmpbuf jmpbuf;
};
struct proc;
struct kthread;
struct kth_db_info;
TAILQ_HEAD(kthread_tailq, kthread);
TAILQ_HEAD(kth_db_tailq, kth_db_info);
#define GENBUF_SZ 128 /* plan9 uses this as a scratch space, per syscall */
#define KTH_IS_KTASK (1 << 0)
#define KTH_SAVE_ADDR_SPACE (1 << 1)
#define KTH_IS_RCU_KTASK (1 << 2)
/* These flag sets are for toggling between ktasks and default/process ktasks */
/* These are the flags for *any* ktask */
#define KTH_KTASK_FLAGS (KTH_IS_KTASK)
/* These are the flags used for normal process context */
#define KTH_DEFAULT_FLAGS (KTH_SAVE_ADDR_SPACE)
/* This captures the essence of a kernel context that we want to suspend. When
* a kthread is running, we make sure its stacktop is the default kernel stack,
* meaning it will receive the interrupts from userspace. */
struct kthread {
struct jmpbuf context;
uintptr_t stacktop;
struct proc *proc;
struct syscall *sysc;
struct errbuf *errbuf;
TAILQ_ENTRY(kthread) link;
/* ID, other shit, etc */
int flags;
char *name;
char generic_buf[GENBUF_SZ];
int errno;
char errstr[MAX_ERRSTR_LEN];
struct systrace_record *strace;
};
#define KTH_DB_SEM 1
#define KTH_DB_CV 2
#ifdef CONFIG_SEMAPHORE_DEBUG
struct kth_db_info {
TAILQ_ENTRY(kth_db_info) link;
unsigned int type;
bool on_list;
};
#define KTH_DB_INIT .db = { .type = KTH_DB_SEM },
#else
struct kth_db_info {
};
#define KTH_DB_INIT
#endif
/* Semaphore for kthreads to sleep on. 0 or less means you need to sleep */
struct semaphore {
struct kth_db_info db;
struct kthread_tailq waiters;
int nr_signals;
spinlock_t lock;
};
#define SEMAPHORE_INITIALIZER(name, n) \
{ \
.waiters = TAILQ_HEAD_INITIALIZER((name).waiters), \
.nr_signals = (n), \
.lock = SPINLOCK_INITIALIZER, \
KTH_DB_INIT \
}
#define SEMAPHORE_INITIALIZER_IRQSAVE(name, n) \
{ \
.waiters = TAILQ_HEAD_INITIALIZER((name).waiters), \
.nr_signals = (n), \
.lock = SPINLOCK_INITIALIZER_IRQSAVE, \
KTH_DB_INIT \
}
struct cond_var {
struct kth_db_info db;
struct kthread_tailq waiters;
spinlock_t *lock; /* usually points to internal */
spinlock_t internal_lock;
unsigned long nr_waiters;
};
struct cv_lookup_elm {
TAILQ_ENTRY(cv_lookup_elm) link;
TAILQ_ENTRY(cv_lookup_elm) abortall_link;
struct cond_var *cv;
struct kthread *kthread;
struct syscall *sysc;
struct proc *proc;
atomic_t abort_in_progress; /* 0 = no */
};
TAILQ_HEAD(cv_lookup_tailq, cv_lookup_elm);
uintptr_t get_kstack(void);
void put_kstack(uintptr_t stacktop);
uintptr_t *kstack_bottom_addr(uintptr_t stacktop);
void kthread_init(void);
struct kthread *__kthread_zalloc(void);
void __use_real_kstack(void (*f)(void *arg));
void restart_kthread(struct kthread *kthread);
void kthread_runnable(struct kthread *kthread);
void kthread_yield(void);
void kthread_usleep(uint64_t usec);
void ktask(char *name, void (*fn)(void*), void *arg);
static inline bool is_ktask(struct kthread *kthread)
{
return kthread->flags & KTH_IS_KTASK;
}
static inline bool is_rcu_ktask(struct kthread *kthread)
{
return kthread->flags & KTH_IS_RCU_KTASK;
}
void sem_init(struct semaphore *sem, int signals);
void sem_init_irqsave(struct semaphore *sem, int signals);
bool sem_trydown_bulk(struct semaphore *sem, int nr_signals);
bool sem_trydown(struct semaphore *sem);
void sem_down_bulk(struct semaphore *sem, int nr_signals);
void sem_down(struct semaphore *sem);
bool sem_up(struct semaphore *sem);
bool sem_trydown_bulk_irqsave(struct semaphore *sem, int nr_signals);
bool sem_trydown_irqsave(struct semaphore *sem);
void sem_down_bulk_irqsave(struct semaphore *sem, int nr_signals);
void sem_down_irqsave(struct semaphore *sem);
bool sem_up_irqsave(struct semaphore *sem);
void print_db_blk_info(pid_t pid);
void cv_init(struct cond_var *cv);
void cv_init_irqsave(struct cond_var *cv);
void cv_init_with_lock(struct cond_var *cv, spinlock_t *lock);
void cv_init_irqsave_with_lock(struct cond_var *cv, spinlock_t *lock);
void cv_lock(struct cond_var *cv);
void cv_unlock(struct cond_var *cv);
void cv_lock_irqsave(struct cond_var *cv, int8_t *irq_state);
void cv_unlock_irqsave(struct cond_var *cv, int8_t *irq_state);
void cv_wait_and_unlock(struct cond_var *cv); /* does not mess with irqs */
void cv_wait(struct cond_var *cv);
void __cv_signal(struct cond_var *cv);
void __cv_broadcast(struct cond_var *cv);
void cv_signal(struct cond_var *cv);
void cv_broadcast(struct cond_var *cv);
void cv_signal_irqsave(struct cond_var *cv, int8_t *irq_state);
void cv_broadcast_irqsave(struct cond_var *cv, int8_t *irq_state);
bool abort_sysc(struct proc *p, uintptr_t sysc);
void abort_all_sysc(struct proc *p);
int abort_all_sysc_fd(struct proc *p, int fd);
void __reg_abortable_cv(struct cv_lookup_elm *cle, struct cond_var *cv);
void dereg_abortable_cv(struct cv_lookup_elm *cle);
bool should_abort(struct cv_lookup_elm *cle);
uintptr_t switch_to_ktask(void);
void switch_back_from_ktask(uintptr_t old_ret);
/* qlocks are plan9's binary sempahore, which are wrappers around our sems.
* Not sure if they'll need irqsave or normal sems. */
typedef struct semaphore qlock_t;
#define qlock_init(x) sem_init((x), 1)
#define qlock(x) sem_down(x)
#define qunlock(x) sem_up(x)
#define canqlock(x) sem_trydown(x)
#define QLOCK_INITIALIZER(name) SEMAPHORE_INITIALIZER(name, 1)