sched.c

linux0.11 version(301k)

<!doctype html public "-//W3C//DTD HTML 3.2//EN">
<html>
<head>
<title>Linux/kernel/sched.c</title>
<meta http-equiv=Content-Type content="text/html; charset=gb2312">
<base href="http://oldlinux.org/lxr/http/">
</head>

<body bgcolor=white>
<div align=center>
   [<b><i>源代码浏览</i></b>] [<a href="diff/kernel/sched.c">区别标定</a>] [<a href="ident">标识符搜索</a>] [<a href="search">文本搜索</a>] [<a href="find">文件搜索</a>]
</div>

<h1 align=center>
  <a href="http:/"> 
    OldLinux</a>
  <a href="http:blurb.html">
    交叉引用</a><br>
  <a href="source/">Linux</a>/<a href="source/kernel/">kernel</a>/<a href="source/kernel/sched.c">sched.c</a>
</h1>

<div align=center>
  
  <b>版本:</b>
   [<a href="source/kernel/sched.c?v=1.0">1.0</a>] [<a href="source/kernel/sched.c?v=0.99.11">0.99.11</a>] [<a href="source/kernel/sched.c?v=0.99">0.99</a>] [<a href="source/kernel/sched.c?v=0.97">0.97</a>] [<a href="source/kernel/sched.c?v=0.96a">0.96a</a>] [<a href="source/kernel/sched.c?v=0.95">0.95</a>] [<a href="source/kernel/sched.c?v=0.12">0.12</a>] [<b><i>0.11</i></b>] [<a href="source/kernel/sched.c?v=0.01">0.01</a>]
  <br>
  <b>体系结构:</b>
   [<b><i>i386</i></b>]
  <br>
</div>
<hr>
<pre>  <a name=L1 href="source/kernel/sched.c#L1">1</a> <b><i>/*</i></b>
  <a name=L2 href="source/kernel/sched.c#L2">2</a> <b><i> *  linux/kernel/sched.c</i></b>
  <a name=L3 href="source/kernel/sched.c#L3">3</a> <b><i> *</i></b>
  <a name=L4 href="source/kernel/sched.c#L4">4</a> <b><i> *  (C) 1991  Linus Torvalds</i></b>
  <a name=L5 href="source/kernel/sched.c#L5">5</a> <b><i> */</i></b>
  <a name=L6 href="source/kernel/sched.c#L6">6</a> 
  <a name=L7 href="source/kernel/sched.c#L7">7</a> <b><i>/*</i></b>
  <a name=L8 href="source/kernel/sched.c#L8">8</a> <b><i> * 'sched.c' is the main kernel file. It contains scheduling primitives</i></b>
  <a name=L9 href="source/kernel/sched.c#L9">9</a> <b><i> * (sleep_on, wakeup, schedule etc) as well as a number of simple system</i></b>
 <a name=L10 href="source/kernel/sched.c#L10">10</a> <b><i> * call functions (type getpid(), which just extracts a field from</i></b>
 <a name=L11 href="source/kernel/sched.c#L11">11</a> <b><i> * current-task</i></b>
 <a name=L12 href="source/kernel/sched.c#L12">12</a> <b><i> */</i></b>
 <a name=L13 href="source/kernel/sched.c#L13">13</a> #include &lt;linux/sched.h&gt;
 <a name=L14 href="source/kernel/sched.c#L14">14</a> #include &lt;linux/kernel.h&gt;
 <a name=L15 href="source/kernel/sched.c#L15">15</a> #include &lt;linux/sys.h&gt;
 <a name=L16 href="source/kernel/sched.c#L16">16</a> #include &lt;linux/fdreg.h&gt;
 <a name=L17 href="source/kernel/sched.c#L17">17</a> #include &lt;asm/system.h&gt;
 <a name=L18 href="source/kernel/sched.c#L18">18</a> #include &lt;asm/io.h&gt;
 <a name=L19 href="source/kernel/sched.c#L19">19</a> #include &lt;asm/segment.h&gt;
 <a name=L20 href="source/kernel/sched.c#L20">20</a> 
 <a name=L21 href="source/kernel/sched.c#L21">21</a> #include &lt;signal.h&gt;
 <a name=L22 href="source/kernel/sched.c#L22">22</a> 
 <a name=L23 href="source/kernel/sched.c#L23">23</a> #define <a href="ident?i=_S">_S</a>(nr) (1&lt;&lt;((nr)-1))
 <a name=L24 href="source/kernel/sched.c#L24">24</a> #define <a href="ident?i=_BLOCKABLE">_BLOCKABLE</a> (~(<a href="ident?i=_S">_S</a>(<a href="ident?i=SIGKILL">SIGKILL</a>) | <a href="ident?i=_S">_S</a>(<a href="ident?i=SIGSTOP">SIGSTOP</a>)))
 <a name=L25 href="source/kernel/sched.c#L25">25</a> 
 <a name=L26 href="source/kernel/sched.c#L26">26</a> void <a href="ident?i=show_task">show_task</a>(int nr,struct <a href="ident?i=task_struct">task_struct</a> * p)
 <a name=L27 href="source/kernel/sched.c#L27">27</a> {
 <a name=L28 href="source/kernel/sched.c#L28">28</a>         int i,j = 4096-sizeof(struct <a href="ident?i=task_struct">task_struct</a>);
 <a name=L29 href="source/kernel/sched.c#L29">29</a> 
 <a name=L30 href="source/kernel/sched.c#L30">30</a>         <a href="ident?i=printk">printk</a>(<i>"%d: pid=%d, state=%d, "</i>,nr,p-&gt;pid,p-&gt;<a href="ident?i=state">state</a>);
 <a name=L31 href="source/kernel/sched.c#L31">31</a>         i=0;
 <a name=L32 href="source/kernel/sched.c#L32">32</a>         while (i&lt;j &amp;&amp; !((char *)(p+1))[i])
 <a name=L33 href="source/kernel/sched.c#L33">33</a>                 i++;
 <a name=L34 href="source/kernel/sched.c#L34">34</a>         <a href="ident?i=printk">printk</a>(<i>"%d (of %d) chars free in kernel stack\n\r"</i>,i,j);
 <a name=L35 href="source/kernel/sched.c#L35">35</a> }
 <a name=L36 href="source/kernel/sched.c#L36">36</a> 
 <a name=L37 href="source/kernel/sched.c#L37">37</a> void <a href="ident?i=show_stat">show_stat</a>(void)
 <a name=L38 href="source/kernel/sched.c#L38">38</a> {
 <a name=L39 href="source/kernel/sched.c#L39">39</a>         int i;
 <a name=L40 href="source/kernel/sched.c#L40">40</a> 
 <a name=L41 href="source/kernel/sched.c#L41">41</a>         for (i=0;i&lt;<a href="ident?i=NR_TASKS">NR_TASKS</a>;i++)
 <a name=L42 href="source/kernel/sched.c#L42">42</a>                 if (<a href="ident?i=task">task</a>[i])
 <a name=L43 href="source/kernel/sched.c#L43">43</a>                         <a href="ident?i=show_task">show_task</a>(i,<a href="ident?i=task">task</a>[i]);
 <a name=L44 href="source/kernel/sched.c#L44">44</a> }
 <a name=L45 href="source/kernel/sched.c#L45">45</a> 
 <a name=L46 href="source/kernel/sched.c#L46">46</a> #define <a href="ident?i=LATCH">LATCH</a> (1193180/<a href="ident?i=HZ">HZ</a>)
 <a name=L47 href="source/kernel/sched.c#L47">47</a> 
 <a name=L48 href="source/kernel/sched.c#L48">48</a> extern void <a href="ident?i=mem_use">mem_use</a>(void);
 <a name=L49 href="source/kernel/sched.c#L49">49</a> 
 <a name=L50 href="source/kernel/sched.c#L50">50</a> extern int <a href="ident?i=timer_interrupt">timer_interrupt</a>(void);
 <a name=L51 href="source/kernel/sched.c#L51">51</a> extern int <a href="ident?i=system_call">system_call</a>(void);
 <a name=L52 href="source/kernel/sched.c#L52">52</a> 
 <a name=L53 href="source/kernel/sched.c#L53">53</a> union <a href="ident?i=task_union">task_union</a> {
 <a name=L54 href="source/kernel/sched.c#L54">54</a>         struct <a href="ident?i=task_struct">task_struct</a> <a href="ident?i=task">task</a>;
 <a name=L55 href="source/kernel/sched.c#L55">55</a>         char stack[<a href="ident?i=PAGE_SIZE">PAGE_SIZE</a>];
 <a name=L56 href="source/kernel/sched.c#L56">56</a> };
 <a name=L57 href="source/kernel/sched.c#L57">57</a> 
 <a name=L58 href="source/kernel/sched.c#L58">58</a> static union <a href="ident?i=task_union">task_union</a> <a href="ident?i=init_task">init_task</a> = {<a href="ident?i=INIT_TASK">INIT_TASK</a>,};
 <a name=L59 href="source/kernel/sched.c#L59">59</a> 
 <a name=L60 href="source/kernel/sched.c#L60">60</a> long volatile <a href="ident?i=jiffies">jiffies</a>=0;
 <a name=L61 href="source/kernel/sched.c#L61">61</a> long <a href="ident?i=startup_time">startup_time</a>=0;
 <a name=L62 href="source/kernel/sched.c#L62">62</a> struct <a href="ident?i=task_struct">task_struct</a> *<a href="ident?i=current">current</a> = &amp;(<a href="ident?i=init_task">init_task</a>.<a href="ident?i=task">task</a>);
 <a name=L63 href="source/kernel/sched.c#L63">63</a> struct <a href="ident?i=task_struct">task_struct</a> *<a href="ident?i=last_task_used_math">last_task_used_math</a> = <a href="ident?i=NULL">NULL</a>;
 <a name=L64 href="source/kernel/sched.c#L64">64</a> 
 <a name=L65 href="source/kernel/sched.c#L65">65</a> struct <a href="ident?i=task_struct">task_struct</a> * <a href="ident?i=task">task</a>[<a href="ident?i=NR_TASKS">NR_TASKS</a>] = {&amp;(<a href="ident?i=init_task">init_task</a>.<a href="ident?i=task">task</a>), };
 <a name=L66 href="source/kernel/sched.c#L66">66</a> 
 <a name=L67 href="source/kernel/sched.c#L67">67</a> long <a href="ident?i=user_stack">user_stack</a> [ <a href="ident?i=PAGE_SIZE">PAGE_SIZE</a>&gt;&gt;2 ] ;
 <a name=L68 href="source/kernel/sched.c#L68">68</a> 
 <a name=L69 href="source/kernel/sched.c#L69">69</a> struct {
 <a name=L70 href="source/kernel/sched.c#L70">70</a>         long * a;
 <a name=L71 href="source/kernel/sched.c#L71">71</a>         short b;
 <a name=L72 href="source/kernel/sched.c#L72">72</a>         } stack_start = { &amp; <a href="ident?i=user_stack">user_stack</a> [<a href="ident?i=PAGE_SIZE">PAGE_SIZE</a>&gt;&gt;2] , 0x10 };
 <a name=L73 href="source/kernel/sched.c#L73">73</a> <b><i>/*</i></b>
 <a name=L74 href="source/kernel/sched.c#L74">74</a> <b><i> *  'math_state_restore()' saves the current math information in the</i></b>
 <a name=L75 href="source/kernel/sched.c#L75">75</a> <b><i> * old math state array, and gets the new ones from the current task</i></b>
 <a name=L76 href="source/kernel/sched.c#L76">76</a> <b><i> */</i></b>
 <a name=L77 href="source/kernel/sched.c#L77">77</a> void <a href="ident?i=math_state_restore">math_state_restore</a>()
 <a name=L78 href="source/kernel/sched.c#L78">78</a> {
 <a name=L79 href="source/kernel/sched.c#L79">79</a>         if (<a href="ident?i=last_task_used_math">last_task_used_math</a> == <a href="ident?i=current">current</a>)
 <a name=L80 href="source/kernel/sched.c#L80">80</a>                 return;
 <a name=L81 href="source/kernel/sched.c#L81">81</a>         __asm__(<i>"fwait"</i>);
 <a name=L82 href="source/kernel/sched.c#L82">82</a>         if (<a href="ident?i=last_task_used_math">last_task_used_math</a>) {
 <a name=L83 href="source/kernel/sched.c#L83">83</a>                 __asm__(<i>"fnsave %0"</i>::<i>"m"</i> (<a href="ident?i=last_task_used_math">last_task_used_math</a>-&gt;tss.i387));
 <a name=L84 href="source/kernel/sched.c#L84">84</a>         }
 <a name=L85 href="source/kernel/sched.c#L85">85</a>         <a href="ident?i=last_task_used_math">last_task_used_math</a>=<a href="ident?i=current">current</a>;
 <a name=L86 href="source/kernel/sched.c#L86">86</a>         if (<a href="ident?i=current">current</a>-&gt;used_math) {
 <a name=L87 href="source/kernel/sched.c#L87">87</a>                 __asm__(<i>"frstor %0"</i>::<i>"m"</i> (<a href="ident?i=current">current</a>-&gt;tss.i387));
 <a name=L88 href="source/kernel/sched.c#L88">88</a>         } else {
 <a name=L89 href="source/kernel/sched.c#L89">89</a>                 __asm__(<i>"fninit"</i>::);
 <a name=L90 href="source/kernel/sched.c#L90">90</a>                 <a href="ident?i=current">current</a>-&gt;used_math=1;
 <a name=L91 href="source/kernel/sched.c#L91">91</a>         }
 <a name=L92 href="source/kernel/sched.c#L92">92</a> }
 <a name=L93 href="source/kernel/sched.c#L93">93</a> 
 <a name=L94 href="source/kernel/sched.c#L94">94</a> <b><i>/*</i></b>
 <a name=L95 href="source/kernel/sched.c#L95">95</a> <b><i> *  'schedule()' is the scheduler function. This is GOOD CODE! There</i></b>
 <a name=L96 href="source/kernel/sched.c#L96">96</a> <b><i> * probably won't be any reason to change this, as it should work well</i></b>
 <a name=L97 href="source/kernel/sched.c#L97">97</a> <b><i> * in all circumstances (ie gives IO-bound processes good response etc).</i></b>
 <a name=L98 href="source/kernel/sched.c#L98">98</a> <b><i> * The one thing you might take a look at is the signal-handler code here.</i></b>
 <a name=L99 href="source/kernel/sched.c#L99">99</a> <b><i> *</i></b>
<a name=L100 href="source/kernel/sched.c#L100">100</a> <b><i> *   NOTE!!  Task 0 is the 'idle' task, which gets called when no other</i></b>
<a name=L101 href="source/kernel/sched.c#L101">101</a> <b><i> * tasks can run. It can not be killed, and it cannot sleep. The 'state'</i></b>
<a name=L102 href="source/kernel/sched.c#L102">102</a> <b><i> * information in task[0] is never used.</i></b>
<a name=L103 href="source/kernel/sched.c#L103">103</a> <b><i> */</i></b>
<a name=L104 href="source/kernel/sched.c#L104">104</a> void <a href="ident?i=schedule">schedule</a>(void)
<a name=L105 href="source/kernel/sched.c#L105">105</a> {
<a name=L106 href="source/kernel/sched.c#L106">106</a>         int i,next,c;
<a name=L107 href="source/kernel/sched.c#L107">107</a>         struct <a href="ident?i=task_struct">task_struct</a> ** p;
<a name=L108 href="source/kernel/sched.c#L108">108</a> 
<a name=L109 href="source/kernel/sched.c#L109">109</a> <b><i>/* check alarm, wake up any interruptible tasks that have got a signal */</i></b>
<a name=L110 href="source/kernel/sched.c#L110">110</a> 
<a name=L111 href="source/kernel/sched.c#L111">111</a>         for(p = &amp;<a href="ident?i=LAST_TASK">LAST_TASK</a> ; p &gt; &amp;<a href="ident?i=FIRST_TASK">FIRST_TASK</a> ; --p)
<a name=L112 href="source/kernel/sched.c#L112">112</a>                 if (*p) {
<a name=L113 href="source/kernel/sched.c#L113">113</a>                         if ((*p)-&gt;<a href="ident?i=alarm">alarm</a> &amp;&amp; (*p)-&gt;<a href="ident?i=alarm">alarm</a> &lt; <a href="ident?i=jiffies">jiffies</a>) {
<a name=L114 href="source/kernel/sched.c#L114">114</a>                                         (*p)-&gt;signal |= (1&lt;&lt;(<a href="ident?i=SIGALRM">SIGALRM</a>-1));
<a name=L115 href="source/kernel/sched.c#L115">115</a>                                         (*p)-&gt;<a href="ident?i=alarm">alarm</a> = 0;
<a name=L116 href="source/kernel/sched.c#L116">116</a>                                 }
<a name=L117 href="source/kernel/sched.c#L117">117</a>                         if (((*p)-&gt;signal &amp; ~(<a href="ident?i=_BLOCKABLE">_BLOCKABLE</a> &amp; (*p)-&gt;blocked)) &amp;&amp;
<a name=L118 href="source/kernel/sched.c#L118">118</a>                         (*p)-&gt;<a href="ident?i=state">state</a>==<a href="ident?i=TASK_INTERRUPTIBLE">TASK_INTERRUPTIBLE</a>)
<a name=L119 href="source/kernel/sched.c#L119">119</a>                                 (*p)-&gt;<a href="ident?i=state">state</a>=<a href="ident?i=TASK_RUNNING">TASK_RUNNING</a>;
<a name=L120 href="source/kernel/sched.c#L120">120</a>                 }
<a name=L121 href="source/kernel/sched.c#L121">121</a>