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  1. /*
  2.  * Copyright (C) 2001-2004 Jakub Jermar
  3.  * All rights reserved.
  4.  *
  5.  * Redistribution and use in source and binary forms, with or without
  6.  * modification, are permitted provided that the following conditions
  7.  * are met:
  8.  *
  9.  * - Redistributions of source code must retain the above copyright
  10.  *   notice, this list of conditions and the following disclaimer.
  11.  * - Redistributions in binary form must reproduce the above copyright
  12.  *   notice, this list of conditions and the following disclaimer in the
  13.  *   documentation and/or other materials provided with the distribution.
  14.  * - The name of the author may not be used to endorse or promote products
  15.  *   derived from this software without specific prior written permission.
  16.  *
  17.  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  18.  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  19.  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  20.  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  21.  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  22.  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  23.  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  24.  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  25.  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  26.  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  27.  */
  28.  
  29. #include <proc/scheduler.h>
  30. #include <proc/thread.h>
  31. #include <proc/task.h>
  32. #include <proc/uarg.h>
  33. #include <mm/frame.h>
  34. #include <mm/page.h>
  35. #include <arch/asm.h>
  36. #include <arch.h>
  37. #include <synch/synch.h>
  38. #include <synch/spinlock.h>
  39. #include <synch/waitq.h>
  40. #include <synch/rwlock.h>
  41. #include <cpu.h>
  42. #include <func.h>
  43. #include <context.h>
  44. #include <adt/btree.h>
  45. #include <adt/list.h>
  46. #include <typedefs.h>
  47. #include <time/clock.h>
  48. #include <adt/list.h>
  49. #include <config.h>
  50. #include <arch/interrupt.h>
  51. #include <smp/ipi.h>
  52. #include <arch/faddr.h>
  53. #include <atomic.h>
  54. #include <memstr.h>
  55. #include <print.h>
  56. #include <mm/slab.h>
  57. #include <debug.h>
  58. #include <main/uinit.h>
  59.  
  60. char *thread_states[] = {"Invalid", "Running", "Sleeping", "Ready", "Entering", "Exiting"}; /**< Thread states */
  61.  
  62. /** Lock protecting threads_head list. For locking rules, see declaration thereof. */
  63. SPINLOCK_INITIALIZE(threads_lock);
  64. btree_t threads_btree;          /**< B+tree of all threads. */
  65.  
  66. SPINLOCK_INITIALIZE(tidlock);
  67. __u32 last_tid = 0;
  68.  
  69. static slab_cache_t *thread_slab;
  70. #ifdef ARCH_HAS_FPU
  71. slab_cache_t *fpu_context_slab;
  72. #endif
  73.  
  74. /** Thread wrapper
  75.  *
  76.  * This wrapper is provided to ensure that every thread
  77.  * makes a call to thread_exit() when its implementing
  78.  * function returns.
  79.  *
  80.  * interrupts_disable() is assumed.
  81.  *
  82.  */
  83. static void cushion(void)
  84. {
  85.     void (*f)(void *) = THREAD->thread_code;
  86.     void *arg = THREAD->thread_arg;
  87.  
  88.     /* this is where each thread wakes up after its creation */
  89.     spinlock_unlock(&THREAD->lock);
  90.     interrupts_enable();
  91.  
  92.     f(arg);
  93.     thread_exit();
  94.     /* not reached */
  95. }
  96.  
  97. /** Initialization and allocation for thread_t structure */
  98. static int thr_constructor(void *obj, int kmflags)
  99. {
  100.     thread_t *t = (thread_t *)obj;
  101.     pfn_t pfn;
  102.     int status;
  103.  
  104.     spinlock_initialize(&t->lock, "thread_t_lock");
  105.     link_initialize(&t->rq_link);
  106.     link_initialize(&t->wq_link);
  107.     link_initialize(&t->th_link);
  108.    
  109. #ifdef ARCH_HAS_FPU
  110. #  ifdef CONFIG_FPU_LAZY
  111.     t->saved_fpu_context = NULL;
  112. #  else
  113.     t->saved_fpu_context = slab_alloc(fpu_context_slab,kmflags);
  114.     if (!t->saved_fpu_context)
  115.         return -1;
  116. #  endif
  117. #endif 
  118.  
  119.     pfn = frame_alloc_rc(STACK_FRAMES, FRAME_KA | kmflags,&status);
  120.     if (status) {
  121. #ifdef ARCH_HAS_FPU
  122.         if (t->saved_fpu_context)
  123.             slab_free(fpu_context_slab,t->saved_fpu_context);
  124. #endif
  125.         return -1;
  126.     }
  127.     t->kstack = (__u8 *)PA2KA(PFN2ADDR(pfn));
  128.  
  129.     return 0;
  130. }
  131.  
  132. /** Destruction of thread_t object */
  133. static int thr_destructor(void *obj)
  134. {
  135.     thread_t *t = (thread_t *)obj;
  136.  
  137.     frame_free(ADDR2PFN(KA2PA(t->kstack)));
  138. #ifdef ARCH_HAS_FPU
  139.     if (t->saved_fpu_context)
  140.         slab_free(fpu_context_slab,t->saved_fpu_context);
  141. #endif
  142.     return 1; /* One page freed */
  143. }
  144.  
  145. /** Initialize threads
  146.  *
  147.  * Initialize kernel threads support.
  148.  *
  149.  */
  150. void thread_init(void)
  151. {
  152.     THREAD = NULL;
  153.     atomic_set(&nrdy,0);
  154.     thread_slab = slab_cache_create("thread_slab",
  155.                     sizeof(thread_t),0,
  156.                     thr_constructor, thr_destructor, 0);
  157. #ifdef ARCH_HAS_FPU
  158.     fpu_context_slab = slab_cache_create("fpu_slab",
  159.                          sizeof(fpu_context_t),
  160.                          FPU_CONTEXT_ALIGN,
  161.                          NULL, NULL, 0);
  162. #endif
  163.  
  164.     btree_create(&threads_btree);
  165. }
  166.  
  167. /** Make thread ready
  168.  *
  169.  * Switch thread t to the ready state.
  170.  *
  171.  * @param t Thread to make ready.
  172.  *
  173.  */
  174. void thread_ready(thread_t *t)
  175. {
  176.     cpu_t *cpu;
  177.     runq_t *r;
  178.     ipl_t ipl;
  179.     int i, avg;
  180.  
  181.     ipl = interrupts_disable();
  182.  
  183.     spinlock_lock(&t->lock);
  184.  
  185.     ASSERT(! (t->state == Ready));
  186.  
  187.     i = (t->priority < RQ_COUNT -1) ? ++t->priority : t->priority;
  188.    
  189.     cpu = CPU;
  190.     if (t->flags & X_WIRED) {
  191.         cpu = t->cpu;
  192.     }
  193.     t->state = Ready;
  194.     spinlock_unlock(&t->lock);
  195.    
  196.     /*
  197.      * Append t to respective ready queue on respective processor.
  198.      */
  199.     r = &cpu->rq[i];
  200.     spinlock_lock(&r->lock);
  201.     list_append(&t->rq_link, &r->rq_head);
  202.     r->n++;
  203.     spinlock_unlock(&r->lock);
  204.  
  205.     atomic_inc(&nrdy);
  206.     avg = atomic_get(&nrdy) / config.cpu_active;
  207.     atomic_inc(&cpu->nrdy);
  208.  
  209.     interrupts_restore(ipl);
  210. }
  211.  
  212. /** Destroy thread memory structure
  213.  *
  214.  * Detach thread from all queues, cpus etc. and destroy it.
  215.  *
  216.  * Assume thread->lock is held!!
  217.  */
  218. void thread_destroy(thread_t *t)
  219. {
  220.     ASSERT(t->state == Exiting);
  221.     ASSERT(t->task);
  222.     ASSERT(t->cpu);
  223.  
  224.     spinlock_lock(&t->cpu->lock);
  225.     if(t->cpu->fpu_owner==t)
  226.         t->cpu->fpu_owner=NULL;
  227.     spinlock_unlock(&t->cpu->lock);
  228.  
  229.     /*
  230.      * Detach from the containing task.
  231.      */
  232.     spinlock_lock(&t->task->lock);
  233.     list_remove(&t->th_link);
  234.     spinlock_unlock(&t->task->lock);
  235.    
  236.     spinlock_unlock(&t->lock);
  237.    
  238.     spinlock_lock(&threads_lock);
  239.     btree_remove(&threads_btree, (__native) t, NULL);
  240.     spinlock_unlock(&threads_lock);
  241.    
  242.     slab_free(thread_slab, t);
  243. }
  244.  
  245. /** Create new thread
  246.  *
  247.  * Create a new thread.
  248.  *
  249.  * @param func  Thread's implementing function.
  250.  * @param arg   Thread's implementing function argument.
  251.  * @param task  Task to which the thread belongs.
  252.  * @param flags Thread flags.
  253.  * @param name  Symbolic name.
  254.  *
  255.  * @return New thread's structure on success, NULL on failure.
  256.  *
  257.  */
  258. thread_t *thread_create(void (* func)(void *), void *arg, task_t *task, int flags, char *name)
  259. {
  260.     thread_t *t;
  261.     ipl_t ipl;
  262.    
  263.     t = (thread_t *) slab_alloc(thread_slab, 0);
  264.     if (!t)
  265.         return NULL;
  266.  
  267.     thread_create_arch(t);
  268.    
  269.     /* Not needed, but good for debugging */
  270.     memsetb((__address)t->kstack, THREAD_STACK_SIZE * 1<<STACK_FRAMES, 0);
  271.    
  272.     ipl = interrupts_disable();
  273.     spinlock_lock(&tidlock);
  274.     t->tid = ++last_tid;
  275.     spinlock_unlock(&tidlock);
  276.     interrupts_restore(ipl);
  277.    
  278.     context_save(&t->saved_context);
  279.     context_set(&t->saved_context, FADDR(cushion), (__address) t->kstack, THREAD_STACK_SIZE);
  280.    
  281.     the_initialize((the_t *) t->kstack);
  282.    
  283.     ipl = interrupts_disable();
  284.     t->saved_context.ipl = interrupts_read();
  285.     interrupts_restore(ipl);
  286.    
  287.     memcpy(t->name, name, THREAD_NAME_BUFLEN);
  288.    
  289.     t->thread_code = func;
  290.     t->thread_arg = arg;
  291.     t->ticks = -1;
  292.     t->priority = -1;       /* start in rq[0] */
  293.     t->cpu = NULL;
  294.     t->flags = 0;
  295.     t->state = Entering;
  296.     t->call_me = NULL;
  297.     t->call_me_with = NULL;
  298.    
  299.     timeout_initialize(&t->sleep_timeout);
  300.     t->sleep_queue = NULL;
  301.     t->timeout_pending = 0;
  302.    
  303.     t->rwlock_holder_type = RWLOCK_NONE;
  304.        
  305.     t->task = task;
  306.    
  307.     t->fpu_context_exists = 0;
  308.     t->fpu_context_engaged = 0;
  309.    
  310.     /*
  311.      * Register this thread in the system-wide list.
  312.      */
  313.     ipl = interrupts_disable();
  314.     spinlock_lock(&threads_lock);
  315.     btree_insert(&threads_btree, (__native) t, (void *) t, NULL);
  316.     spinlock_unlock(&threads_lock);
  317.    
  318.     /*
  319.      * Attach to the containing task.
  320.      */
  321.     spinlock_lock(&task->lock);
  322.     list_append(&t->th_link, &task->th_head);
  323.     spinlock_unlock(&task->lock);
  324.    
  325.     interrupts_restore(ipl);
  326.    
  327.     return t;
  328. }
  329.  
  330. /** Make thread exiting
  331.  *
  332.  * End current thread execution and switch it to the exiting
  333.  * state. All pending timeouts are executed.
  334.  *
  335.  */
  336. void thread_exit(void)
  337. {
  338.     ipl_t ipl;
  339.  
  340. restart:
  341.     ipl = interrupts_disable();
  342.     spinlock_lock(&THREAD->lock);
  343.     if (THREAD->timeout_pending) { /* busy waiting for timeouts in progress */
  344.         spinlock_unlock(&THREAD->lock);
  345.         interrupts_restore(ipl);
  346.         goto restart;
  347.     }
  348.     THREAD->state = Exiting;
  349.     spinlock_unlock(&THREAD->lock);
  350.     scheduler();
  351. }
  352.  
  353.  
  354. /** Thread sleep
  355.  *
  356.  * Suspend execution of the current thread.
  357.  *
  358.  * @param sec Number of seconds to sleep.
  359.  *
  360.  */
  361. void thread_sleep(__u32 sec)
  362. {
  363.     thread_usleep(sec*1000000);
  364. }
  365.  
  366. /** Thread usleep
  367.  *
  368.  * Suspend execution of the current thread.
  369.  *
  370.  * @param usec Number of microseconds to sleep.
  371.  *
  372.  */
  373. void thread_usleep(__u32 usec)
  374. {
  375.     waitq_t wq;
  376.                  
  377.     waitq_initialize(&wq);
  378.  
  379.     (void) waitq_sleep_timeout(&wq, usec, SYNCH_NON_BLOCKING);
  380. }
  381.  
  382. /** Register thread out-of-context invocation
  383.  *
  384.  * Register a function and its argument to be executed
  385.  * on next context switch to the current thread.
  386.  *
  387.  * @param call_me      Out-of-context function.
  388.  * @param call_me_with Out-of-context function argument.
  389.  *
  390.  */
  391. void thread_register_call_me(void (* call_me)(void *), void *call_me_with)
  392. {
  393.     ipl_t ipl;
  394.    
  395.     ipl = interrupts_disable();
  396.     spinlock_lock(&THREAD->lock);
  397.     THREAD->call_me = call_me;
  398.     THREAD->call_me_with = call_me_with;
  399.     spinlock_unlock(&THREAD->lock);
  400.     interrupts_restore(ipl);
  401. }
  402.  
  403. /** Print list of threads debug info */
  404. void thread_print_list(void)
  405. {
  406.     link_t *cur;
  407.     ipl_t ipl;
  408.    
  409.     /* Messing with thread structures, avoid deadlock */
  410.     ipl = interrupts_disable();
  411.     spinlock_lock(&threads_lock);
  412.  
  413.     for (cur = threads_btree.leaf_head.next; cur != &threads_btree.leaf_head; cur = cur->next) {
  414.         btree_node_t *node;
  415.         int i;
  416.  
  417.         node = list_get_instance(cur, btree_node_t, leaf_link);
  418.         for (i = 0; i < node->keys; i++) {
  419.             thread_t *t;
  420.        
  421.             t = (thread_t *) node->value[i];
  422.             printf("%s: address=%P, tid=%d, state=%s, task=%P, code=%P, stack=%P, cpu=",
  423.                 t->name, t, t->tid, thread_states[t->state], t->task, t->thread_code, t->kstack);
  424.             if (t->cpu)
  425.                 printf("cpu%d ", t->cpu->id);
  426.             else
  427.                 printf("none");
  428.             printf("\n");
  429.         }
  430.     }
  431.  
  432.     spinlock_unlock(&threads_lock);
  433.     interrupts_restore(ipl);
  434. }
  435.  
  436. /** Check whether thread exists.
  437.  *
  438.  * Note that threads_lock must be already held and
  439.  * interrupts must be already disabled.
  440.  *
  441.  * @param t Pointer to thread.
  442.  *
  443.  * @return True if thread t is known to the system, false otherwise.
  444.  */
  445. bool thread_exists(thread_t *t)
  446. {
  447.     btree_node_t *leaf;
  448.    
  449.     return btree_search(&threads_btree, (__native) t, &leaf) != NULL;
  450. }
  451.  
  452. /** Process syscall to create new thread.
  453.  *
  454.  */
  455. __native sys_thread_create(uspace_arg_t *uspace_uarg, char *uspace_name)
  456. {
  457.         thread_t *t;
  458.         char namebuf[THREAD_NAME_BUFLEN];
  459.     uspace_arg_t *kernel_uarg;
  460.     __u32 tid;
  461.  
  462.         copy_from_uspace(namebuf, uspace_name, THREAD_NAME_BUFLEN);
  463.  
  464.     kernel_uarg = (uspace_arg_t *) malloc(sizeof(uspace_arg_t), 0);
  465.     copy_from_uspace(kernel_uarg, uspace_uarg, sizeof(uspace_arg_t));
  466.  
  467.         if ((t = thread_create(uinit, kernel_uarg, TASK, 0, namebuf))) {
  468.         tid = t->tid;
  469.                 thread_ready(t);
  470.         return (__native) tid;
  471.         } else {
  472.         free(kernel_uarg);
  473.         }
  474.  
  475.         return (__native) -1;
  476. }
  477.  
  478. /** Process syscall to terminate thread.
  479.  *
  480.  */
  481. __native sys_thread_exit(int uspace_status)
  482. {
  483.         thread_exit();
  484.         /* Unreachable */
  485.         return 0;
  486. }
  487.