root/kernel/fork.c

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DEFINITIONS

This source file includes following definitions.
  1. find_empty_process
  2. copy_fd
  3. dup_mmap
  4. copy_files
  5. copy_mm
  6. copy_fs
  7. sys_fork

   1 /*
   2  *  linux/kernel/fork.c
   3  *
   4  *  Copyright (C) 1991, 1992  Linus Torvalds
   5  */
   6 
   7 /*
   8  *  'fork.c' contains the help-routines for the 'fork' system call
   9  * (see also system_call.s).
  10  * Fork is rather simple, once you get the hang of it, but the memory
  11  * management can be a bitch. See 'mm/mm.c': 'copy_page_tables()'
  12  */
  13 
  14 #include <linux/errno.h>
  15 #include <linux/sched.h>
  16 #include <linux/kernel.h>
  17 #include <linux/mm.h>
  18 #include <linux/stddef.h>
  19 #include <linux/unistd.h>
  20 #include <linux/segment.h>
  21 #include <linux/ptrace.h>
  22 #include <linux/malloc.h>
  23 #include <linux/ldt.h>
  24 
  25 #include <asm/segment.h>
  26 #include <asm/system.h>
  27 
  28 asmlinkage void ret_from_sys_call(void) __asm__("ret_from_sys_call");
  29 
  30 /* These should maybe be in <linux/tasks.h> */
  31 
  32 #define MAX_TASKS_PER_USER (NR_TASKS/2)
  33 #define MIN_TASKS_LEFT_FOR_ROOT 4
  34 
  35 long last_pid=0;
  36 
  37 static int find_empty_process(void)
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  38 {
  39         int free_task;
  40         int i, tasks_free;
  41         int this_user_tasks;
  42 
  43 repeat:
  44         if ((++last_pid) & 0xffff8000)
  45                 last_pid=1;
  46         this_user_tasks = 0;
  47         tasks_free = 0;
  48         free_task = -EAGAIN;
  49         i = NR_TASKS;
  50         while (--i > 0) {
  51                 if (!task[i]) {
  52                         free_task = i;
  53                         tasks_free++;
  54                         continue;
  55                 }
  56                 if (task[i]->uid == current->uid)
  57                         this_user_tasks++;
  58                 if (task[i]->pid == last_pid || task[i]->pgrp == last_pid ||
  59                     task[i]->session == last_pid)
  60                         goto repeat;
  61         }
  62         if (tasks_free <= MIN_TASKS_LEFT_FOR_ROOT ||
  63             this_user_tasks > MAX_TASKS_PER_USER)
  64                 if (current->uid)
  65                         return -EAGAIN;
  66         return free_task;
  67 }
  68 
  69 static struct file * copy_fd(struct file * old_file)
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  70 {
  71         struct file * new_file = get_empty_filp();
  72         int error;
  73 
  74         if (new_file) {
  75                 memcpy(new_file,old_file,sizeof(struct file));
  76                 new_file->f_count = 1;
  77                 if (new_file->f_inode)
  78                         new_file->f_inode->i_count++;
  79                 if (new_file->f_op && new_file->f_op->open) {
  80                         error = new_file->f_op->open(new_file->f_inode,new_file);
  81                         if (error) {
  82                                 iput(new_file->f_inode);
  83                                 new_file->f_count = 0;
  84                                 new_file = NULL;
  85                         }
  86                 }
  87         }
  88         return new_file;
  89 }
  90 
  91 static int dup_mmap(struct task_struct * tsk)
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  92 {
  93         struct vm_area_struct * mpnt, **p, *tmp;
  94 
  95         tsk->mm->mmap = NULL;
  96         p = &tsk->mm->mmap;
  97         for (mpnt = current->mm->mmap ; mpnt ; mpnt = mpnt->vm_next) {
  98                 tmp = (struct vm_area_struct *) kmalloc(sizeof(struct vm_area_struct), GFP_KERNEL);
  99                 if (!tmp)
 100                         return -ENOMEM;
 101                 *tmp = *mpnt;
 102                 tmp->vm_task = tsk;
 103                 tmp->vm_next = NULL;
 104                 if (tmp->vm_inode)
 105                         tmp->vm_inode->i_count++;
 106                 if (tmp->vm_ops && tmp->vm_ops->open)
 107                         tmp->vm_ops->open(tmp);
 108                 *p = tmp;
 109                 p = &tmp->vm_next;
 110         }
 111         return 0;
 112 }
 113 
 114 /*
 115  * SHAREFD not yet implemented..
 116  */
 117 static void copy_files(unsigned long clone_flags, struct task_struct * p)
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 118 {
 119         int i;
 120         struct file * f;
 121 
 122         if (clone_flags & COPYFD) {
 123                 for (i=0; i<NR_OPEN;i++)
 124                         if ((f = p->files->fd[i]) != NULL)
 125                                 p->files->fd[i] = copy_fd(f);
 126         } else {
 127                 for (i=0; i<NR_OPEN;i++)
 128                         if ((f = p->files->fd[i]) != NULL)
 129                                 f->f_count++;
 130         }
 131 }
 132 
 133 /*
 134  * CLONEVM not yet correctly implemented: needs to clone the mmap
 135  * instead of duplicating it..
 136  */
 137 static int copy_mm(unsigned long clone_flags, struct task_struct * p)
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 138 {
 139         if (clone_flags & COPYVM) {
 140                 p->mm->swappable = 1;
 141                 p->mm->min_flt = p->mm->maj_flt = 0;
 142                 p->mm->cmin_flt = p->mm->cmaj_flt = 0;
 143                 if (copy_page_tables(p))
 144                         return 1;
 145                 return dup_mmap(p);
 146         } else {
 147                 if (clone_page_tables(p))
 148                         return 1;
 149                 return dup_mmap(p);             /* wrong.. */
 150         }
 151 }
 152 
 153 static void copy_fs(unsigned long clone_flags, struct task_struct * p)
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 154 {
 155         if (current->fs->pwd)
 156                 current->fs->pwd->i_count++;
 157         if (current->fs->root)
 158                 current->fs->root->i_count++;
 159 }
 160 
 161 #define IS_CLONE (regs.orig_eax == __NR_clone)
 162 
 163 /*
 164  *  Ok, this is the main fork-routine. It copies the system process
 165  * information (task[nr]) and sets up the necessary registers. It
 166  * also copies the data segment in its entirety.
 167  */
 168 asmlinkage int sys_fork(struct pt_regs regs)
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 169 {
 170         struct pt_regs * childregs;
 171         struct task_struct *p;
 172         int i,nr;
 173         unsigned long clone_flags = COPYVM | SIGCHLD;
 174 
 175         if(!(p = (struct task_struct*)__get_free_page(GFP_KERNEL)))
 176                 goto bad_fork;
 177         nr = find_empty_process();
 178         if (nr < 0)
 179                 goto bad_fork_free;
 180         task[nr] = p;
 181         *p = *current;
 182 
 183         if (p->exec_domain && p->exec_domain->use_count)
 184                 (*p->exec_domain->use_count)++;
 185         if (p->binfmt && p->binfmt->use_count)
 186                 (*p->binfmt->use_count)++;
 187 
 188         p->did_exec = 0;
 189         p->kernel_stack_page = 0;
 190         p->state = TASK_UNINTERRUPTIBLE;
 191         p->flags &= ~(PF_PTRACED|PF_TRACESYS);
 192         p->pid = last_pid;
 193         p->p_pptr = p->p_opptr = current;
 194         p->p_cptr = NULL;
 195         SET_LINKS(p);
 196         p->signal = 0;
 197         p->it_real_value = p->it_virt_value = p->it_prof_value = 0;
 198         p->it_real_incr = p->it_virt_incr = p->it_prof_incr = 0;
 199         p->leader = 0;          /* process leadership doesn't inherit */
 200         p->utime = p->stime = 0;
 201         p->cutime = p->cstime = 0;
 202         p->start_time = jiffies;
 203 /*
 204  * set up new TSS and kernel stack
 205  */
 206         if (!(p->kernel_stack_page = get_free_page(GFP_KERNEL)))
 207                 goto bad_fork_cleanup;
 208         *(unsigned long *)p->kernel_stack_page = STACK_MAGIC;
 209         p->tss.es = KERNEL_DS;
 210         p->tss.cs = KERNEL_CS;
 211         p->tss.ss = KERNEL_DS;
 212         p->tss.ds = KERNEL_DS;
 213         p->tss.fs = USER_DS;
 214         p->tss.gs = KERNEL_DS;
 215         p->tss.ss0 = KERNEL_DS;
 216         p->tss.esp0 = p->kernel_stack_page + PAGE_SIZE;
 217         p->tss.tr = _TSS(nr);
 218         childregs = ((struct pt_regs *) (p->kernel_stack_page + PAGE_SIZE)) - 1;
 219         p->tss.esp = (unsigned long) childregs;
 220         p->tss.eip = (unsigned long) ret_from_sys_call;
 221         *childregs = regs;
 222         childregs->eax = 0;
 223         p->tss.back_link = 0;
 224         p->tss.eflags = regs.eflags & 0xffffcfff;       /* iopl is always 0 for a new process */
 225         if (IS_CLONE) {
 226                 if (regs.ebx)
 227                         childregs->esp = regs.ebx;
 228                 clone_flags = regs.ecx;
 229                 if (childregs->esp == regs.esp)
 230                         clone_flags |= COPYVM;
 231         }
 232         p->exit_signal = clone_flags & CSIGNAL;
 233         p->tss.ldt = _LDT(nr);
 234         if (p->ldt) {
 235                 p->ldt = (struct desc_struct*) vmalloc(LDT_ENTRIES*LDT_ENTRY_SIZE);
 236                 if (p->ldt != NULL)
 237                         memcpy(p->ldt, current->ldt, LDT_ENTRIES*LDT_ENTRY_SIZE);
 238         }
 239         p->tss.bitmap = offsetof(struct tss_struct,io_bitmap);
 240         for (i = 0; i < IO_BITMAP_SIZE+1 ; i++) /* IO bitmap is actually SIZE+1 */
 241                 p->tss.io_bitmap[i] = ~0;
 242         if (last_task_used_math == current)
 243                 __asm__("clts ; fnsave %0 ; frstor %0":"=m" (p->tss.i387));
 244         if (copy_mm(clone_flags, p))
 245                 goto bad_fork_cleanup;
 246         p->semundo = NULL;
 247         copy_files(clone_flags, p);
 248         copy_fs(clone_flags, p);
 249         set_tss_desc(gdt+(nr<<1)+FIRST_TSS_ENTRY,&(p->tss));
 250         if (p->ldt)
 251                 set_ldt_desc(gdt+(nr<<1)+FIRST_LDT_ENTRY,p->ldt, 512);
 252         else
 253                 set_ldt_desc(gdt+(nr<<1)+FIRST_LDT_ENTRY,&default_ldt, 1);
 254 
 255         p->counter = current->counter >> 1;
 256         p->state = TASK_RUNNING;        /* do this last, just in case */
 257         return p->pid;
 258 bad_fork_cleanup:
 259         task[nr] = NULL;
 260         REMOVE_LINKS(p);
 261         free_page(p->kernel_stack_page);
 262 bad_fork_free:
 263         free_page((long) p);
 264 bad_fork:
 265         return -EAGAIN;
 266 }

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