int *product; /* Largest product so far. */
struct lock *lock; /* Lock on access to `product'. */
struct semaphore done; /* Completion semaphore. */
- struct thread *thread; /* Thread. */
+ tid_t tid; /* Thread ID. */
};
static void sleeper (void *);
t->product = &product;
t->lock = &lock;
sema_init (&t->done, 0, name);
- t->thread = thread_create (name, sleeper, t);
+ t->tid = thread_create (name, sleeper, t);
}
/* Wait for all the threads to finish. */
for (i = 0; i < thread_cnt; i++)
{
#ifdef THREAD_JOIN_IMPLEMENTED
- thread_join (threads[i].thread);
+ thread_join (threads[i].tid);
#else
sema_down (&threads[i].done);
#endif
lock_release (t->lock);
printf ("%s: duration=%d, iteration=%d, product=%d\n",
- thread_name (thread_current ()),
- t->duration, i, new_product);
+ thread_name (), t->duration, i, new_product);
if (old_product > new_product)
printf ("%s: Out of order sleep completion (%d > %d)!\n",
- thread_name (thread_current ()),
- old_product, new_product);
+ thread_name (), old_product, new_product);
}
/* Signal completion. */
#include "threads/mmu.h"
#include "threads/palloc.h"
#include "threads/switch.h"
+#include "threads/synch.h"
#ifdef USERPROG
#include "userprog/gdt.h"
#endif
-/* Value for struct thread's `magic' member.
+/* Random value for struct thread's `magic' member.
Used to detect stack overflow. See the big comment at the top
of thread.h for details. */
-#define THREAD_MAGIC 0x1234abcdu
+#define THREAD_MAGIC 0xcd6abf4b
/* List of processes in THREAD_READY state, that is, processes
that are ready to run but not actually running. */
static struct list ready_list;
/* Idle thread. */
-static struct thread *idle_thread; /* Thread. */
-static void idle (void *aux UNUSED); /* Thread function. */
+static struct thread *idle_thread;
-/* Initial thread.
- This is the thread running main(). */
+/* Initial thread, the thread running init.c:main(). */
static struct thread *initial_thread;
+/* Lock used by allocate_tid(). */
+static struct lock tid_lock;
+
/* Stack frame for kernel_thread(). */
struct kernel_thread_frame
{
static void kernel_thread (thread_func *, void *aux);
+static void idle (void *aux UNUSED);
static struct thread *running_thread (void);
static struct thread *next_thread_to_run (void);
static struct thread *new_thread (const char *name);
static void destroy_thread (struct thread *);
static void schedule (void);
void schedule_tail (struct thread *prev);
+static tid_t allocate_tid (void);
/* Initializes the threading system by transforming the code
that's currently running into a thread. Note that this is
{
ASSERT (intr_get_level () == INTR_OFF);
+ lock_init (&tid_lock, "tid");
+
/* Set up a thread structure for the running thread. */
initial_thread = running_thread ();
init_thread (initial_thread, "main");
initial_thread->status = THREAD_RUNNING;
+ initial_thread->tid = allocate_tid ();
/* Initialize run queue. */
list_init (&ready_list);
void
thread_start (void)
{
- /* Create idle thread. */
- idle_thread = thread_create ("idle", idle, NULL);
- idle_thread->status = THREAD_BLOCKED;
-
- /* Enable interrupts. */
+ thread_create ("idle", idle, NULL);
intr_enable ();
}
/* Creates a new kernel thread named NAME, which executes
FUNCTION passing AUX as the argument, and adds it to the ready
queue. If thread_start() has been called, then the new thread
- may be scheduled before thread_create() returns. Use a
- semaphore or some other form of synchronization if you need to
- ensure ordering. */
-struct thread *
+ may be scheduled before thread_create() returns. It could
+ even exit before thread_create() returns. Use a semaphore or
+ some other form of synchronization if you need to ensure
+ ordering. Returns the thread identifier for the new thread,
+ or TID_ERROR if creation fails. */
+tid_t
thread_create (const char *name, thread_func *function, void *aux)
{
struct thread *t;
struct kernel_thread_frame *kf;
struct switch_entry_frame *ef;
struct switch_threads_frame *sf;
+ tid_t tid;
ASSERT (function != NULL);
t = new_thread (name);
+ if (t == NULL)
+ return TID_ERROR;
+ tid = t->tid = allocate_tid ();
/* Stack frame for kernel_thread(). */
kf = alloc_frame (t, sizeof *kf);
/* Add to run queue. */
thread_unblock (t);
- return t;
+ return tid;
}
#ifdef USERPROG
FILENAME, and adds it to the ready queue. If thread_start()
has been called, then new thread may be scheduled before
thread_execute() returns.*/
-bool
+tid_t
thread_execute (const char *filename)
{
struct thread *t;
struct switch_entry_frame *ef;
struct switch_threads_frame *sf;
void (*start) (void);
+ tid_t tid;
ASSERT (filename != NULL);
t = new_thread (filename);
if (t == NULL)
- return false;
+ return TID_ERROR;
+ tid = t->tid = allocate_tid ();
if (!addrspace_load (t, filename, &start))
PANIC ("%s: program load failed", filename);
/* Add to run queue. */
thread_unblock (t);
- return true;
+ return tid;
}
#endif
intr_set_level (old_level);
}
-/* Returns the name of thread T. */
+/* Returns the name of the running thread. */
const char *
-thread_name (struct thread *t)
+thread_name (void)
{
- ASSERT (is_thread (t));
- return t->name;
+ return thread_current ()->name;
}
/* Returns the running thread.
return t;
}
+/* Returns the running thread's tid. */
+tid_t
+thread_tid (void)
+{
+ return thread_current ()->tid;
+}
+
/* Deschedules the current thread and destroys it. Never
returns to the caller. */
void
static void
idle (void *aux UNUSED)
{
+ idle_thread = thread_current ();
+
for (;;)
{
- /* Wait for an interrupt. */
- DEBUG (idle, "idle");
- asm ("hlt");
-
/* Let someone else run. */
intr_disable ();
thread_block ();
intr_enable ();
+
+ /* Use CPU `hlt' instruction to wait for interrupt. */
+ asm ("hlt");
}
}
init_thread (struct thread *t, const char *name)
{
memset (t, 0, sizeof *t);
+ t->status = THREAD_BLOCKED;
strlcpy (t->name, name, sizeof t->name);
t->stack = (uint8_t *) t + PGSIZE;
- t->status = THREAD_BLOCKED;
t->magic = THREAD_MAGIC;
}
prev = switch_threads (cur, next);
schedule_tail (prev);
}
+
+/* Returns a tid to use for a new thread. */
+static tid_t
+allocate_tid (void)
+{
+ static tid_t next_tid = 1;
+ tid_t tid;
+
+ lock_acquire (&tid_lock);
+ tid = next_tid++;
+ lock_release (&tid_lock);
+
+ return tid;
+}
\f
/* Offset of `stack' member within `struct thread'.
Used by switch.S, which can't figure it out on its own. */
THREAD_DYING /* About to be destroyed. */
};
+/* Thread identifier type.
+ You can redefine this to whatever type you like. */
+typedef int tid_t;
+#define TID_ERROR ((tid_t) -1) /* Error value for tid_t. */
+
/* A kernel thread or user process.
Each thread structure is stored in its own 4 kB page. The
blocked state is on a semaphore wait list. */
struct thread
{
- /* These members are owned by the thread_*() functions. */
+ /* These members are owned by thread.c. */
+ tid_t tid; /* Thread identifier. */
enum thread_status status; /* Thread state. */
char name[16]; /* Name (for debugging purposes). */
uint8_t *stack; /* Saved stack pointer. */
+
+ /* Shared between thread.c and synch.c. */
list_elem elem; /* List element. */
#ifdef USERPROG
- /* These members are owned by the addrspace_*() functions. */
+ /* These members are owned by userprog/addrspace.c. */
uint32_t *pagedir; /* Page directory. */
#endif
void thread_start (void);
typedef void thread_func (void *aux);
-struct thread *thread_create (const char *name, thread_func *, void *);
+tid_t thread_create (const char *name, thread_func *, void *);
#ifdef USERPROG
-bool thread_execute (const char *filename);
+tid_t thread_execute (const char *filename);
#endif
void thread_unblock (struct thread *);
-const char *thread_name (struct thread *);
struct thread *thread_current (void);
+tid_t thread_tid (void);
+const char *thread_name (void);
void thread_exit (void) NO_RETURN;
void thread_yield (void);
void thread_block (void);
-void thread_join (struct thread *);
-void thread_set_priority (struct thread *, int);
-int thread_get_priority (const struct thread *);
+/* These functions will be implemented in project 1. */
+void thread_join (tid_t);
+void thread_set_priority (tid_t, int);
+int thread_get_priority (tid_t);
#endif /* threads/thread.h */
projects / pintos-anon / commitdiff