1 | // Mutex buffer is embedded in the nomutex executor to allow the executor to delete the workers without causing a |
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2 | // deadlock. If the executor is the monitor and the buffer is class, the thread calling the executor's destructor |
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3 | // (which is mutex) blocks when deleting the workers, preventing outstanding workers from calling remove to drain the |
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4 | // buffer. |
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5 | |
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6 | #include <bits/containers.hfa> |
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7 | #include <thread.hfa> |
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8 | #include <stdio.h> |
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9 | |
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10 | forall( dtype T ) |
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11 | monitor Buffer { // unbounded buffer |
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12 | __queue_t( T ) queue; // unbounded list of work requests |
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13 | condition delay; |
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14 | }; // Buffer |
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15 | forall( dtype T | is_node(T) ) { |
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16 | void insert( Buffer( T ) & mutex buf, T * elem ) with(buf) { |
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17 | append( queue, elem ); // insert element into buffer |
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18 | signal( delay ); // restart |
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19 | } // insert |
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20 | |
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21 | T * remove( Buffer( T ) & mutex buf ) with(buf) { |
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22 | if ( queue.head != 0 ) wait( delay ); // no request to process ? => wait |
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23 | // return pop_head( queue ); |
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24 | } // remove |
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25 | } // distribution |
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26 | |
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27 | struct WRequest { // client request, no return |
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28 | void (* action)( void ); |
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29 | WRequest * next; // intrusive queue field |
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30 | }; // WRequest |
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31 | |
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32 | WRequest *& get_next( WRequest & this ) { return this.next; } |
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33 | void ?{}( WRequest & req ) with(req) { action = 0; next = 0; } |
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34 | void ?{}( WRequest & req, void (* action)( void ) ) with(req) { req.action = action; next = 0; } |
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35 | bool stop( WRequest & req ) { return req.action == 0; } |
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36 | void doit( WRequest & req ) { req.action(); } |
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37 | |
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38 | // Each worker has its own work buffer to reduce contention between client and server. Hence, work requests arrive and |
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39 | // are distributed into buffers in a roughly round-robin order. |
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40 | |
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41 | thread Worker { |
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42 | Buffer( WRequest ) * requests; |
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43 | unsigned int start, range; |
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44 | }; // Worker |
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45 | |
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46 | void main( Worker & w ) with(w) { |
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47 | for ( int i = 0;; i = (i + 1) % range ) { |
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48 | WRequest * request = remove( requests[i + start] ); |
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49 | if ( ! request ) { yield(); continue; } |
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50 | if ( stop( *request ) ) break; |
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51 | doit( *request ); |
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52 | delete( request ); |
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53 | } // for |
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54 | } // Worker::main |
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55 | |
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56 | void ?{}( Worker & worker, cluster * wc, Buffer( WRequest ) * requests, unsigned int start, unsigned int range ) { |
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57 | (*get_thread(worker)){ *wc }; // create on given cluster |
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58 | worker.[requests, start, range] = [requests, start, range]; |
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59 | } // ?{} |
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60 | |
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61 | struct Executor { |
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62 | cluster * cluster; // if workers execute on separate cluster |
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63 | processor ** processors; // array of virtual processors adding parallelism for workers |
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64 | Buffer( WRequest ) * requests; // list of work requests |
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65 | Worker ** workers; // array of workers executing work requests |
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66 | unsigned int nprocessors, nworkers, nmailboxes; // number of mailboxes/workers/processor tasks |
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67 | bool sepClus; // use same or separate cluster for executor |
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68 | }; // Executor |
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69 | |
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70 | static thread_local unsigned int next; // demultiplexed across worker buffers |
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71 | unsigned int tickets( Executor & ex ) with(ex) { |
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72 | //return uFetchAdd( next, 1 ) % nmailboxes; |
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73 | return next++ % nmailboxes; // no locking, interference randomizes |
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74 | } // tickets |
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75 | |
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76 | void ?{}( Executor & ex, unsigned int np, unsigned int nw, unsigned int nm, bool sc = false ) with(ex) { |
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77 | [nprocessors, nworkers, nmailboxes, sepClus] = [np, nw, nm, sc]; |
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78 | assert( nmailboxes >= nworkers ); |
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79 | cluster = sepClus ? new( "Executor" ) : active_cluster(); |
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80 | processors = (processor **)anew( nprocessors ); |
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81 | requests = anew( nmailboxes ); |
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82 | workers = (Worker **)anew( nworkers ); |
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83 | |
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84 | for ( i; nprocessors ) { |
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85 | processors[ i ] = new( *cluster ); |
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86 | } // for |
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87 | |
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88 | unsigned int reqPerWorker = nmailboxes / nworkers, extras = nmailboxes % nworkers; |
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89 | for ( unsigned int i = 0, step = 0; i < nworkers; i += 1, step += reqPerWorker + ( i < extras ? 1 : 0 ) ) { |
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90 | workers[ i ] = new( cluster, requests, step, reqPerWorker + ( i < extras ? 1 : 0 ) ); |
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91 | } // for |
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92 | } // ?{} |
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93 | |
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94 | void ?{}( Executor & ex, unsigned int nprocessors, unsigned int nworkers, bool sepClus = false ) { |
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95 | ex{ nprocessors, nworkers, nworkers, sepClus }; |
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96 | } |
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97 | void ?{}( Executor & ex, unsigned int nprocessors, bool sepClus = false ) { |
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98 | ex{ nprocessors, nprocessors, nprocessors, sepClus }; |
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99 | } |
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100 | void ?{}( Executor & ex ) { // special for current cluster |
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101 | ex{ 0, active_cluster()->nprocessors, false }; |
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102 | } |
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103 | void ^?{}( Executor & ex ) with(ex) { |
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104 | // Add one sentinel per worker to stop them. Since in destructor, no new work should be queued. Cannot combine next |
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105 | // two loops and only have a single sentinel because workers arrive in arbitrary order, so worker1 may take the |
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106 | // single sentinel while waiting for worker 0 to end. |
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107 | |
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108 | WRequest sentinel[nworkers]; |
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109 | unsigned int reqPerWorker = nmailboxes / nworkers; |
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110 | for ( unsigned int i = 0, step = 0; i < nworkers; i += 1, step += reqPerWorker ) { |
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111 | insert( requests[step], &sentinel[i] ); // force eventually termination |
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112 | } // for |
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113 | for ( i; nworkers ) { |
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114 | delete( workers[ i ] ); |
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115 | } // for |
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116 | for ( i; nprocessors ) { |
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117 | delete( processors[ i ] ); |
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118 | } // for |
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119 | |
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120 | delete( workers ); |
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121 | delete( requests ); |
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122 | delete( processors ); |
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123 | if ( sepClus ) { delete( cluster ); } |
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124 | } // ^?{} |
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125 | |
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126 | void send( Executor & ex, void (* action)( void ) ) { // asynchronous call, no return value |
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127 | WRequest * node = new( action ); |
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128 | insert( ex.requests[tickets( ex )], node ); |
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129 | } // send |
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130 | |
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131 | int counter = 0; |
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132 | |
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133 | void workie( void ) { |
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134 | __atomic_add_fetch( &counter, 1, __ATOMIC_SEQ_CST ); |
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135 | // fprintf( stderr, "workie\n" ); |
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136 | } |
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137 | |
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138 | int main() { |
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139 | { |
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140 | Executor exector; |
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141 | for ( i; 3000 ) { |
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142 | send( exector, workie ); |
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143 | if ( i % 100 ) yield(); |
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144 | } // for |
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145 | } |
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146 | printf( "%d\n", counter ); |
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147 | } |
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148 | |
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149 | // Local Variables: // |
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150 | // compile-command: "cfa executor.cfa" // |
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151 | // End: // |
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