[2] | 1 | // %flair:license{
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[15] | 2 | // This file is part of the Flair framework distributed under the
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| 3 | // CECILL-C License, Version 1.0.
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[2] | 4 | // %flair:license}
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| 5 | // created: 2012/10/04
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| 6 | // filename: Thread_impl.cpp
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| 7 | //
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| 8 | // author: Guillaume Sanahuja
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| 9 | // Copyright Heudiasyc UMR UTC/CNRS 7253
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| 10 | //
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| 11 | // version: $Id: $
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| 12 | //
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| 13 | // purpose: classe implementant un thread rt ou non
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| 14 | //
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| 15 | //
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| 16 | /*********************************************************************/
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| 17 |
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| 18 | #include "Thread_impl.h"
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| 19 | #include "Thread.h"
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| 20 | #include "IODevice.h"
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| 21 | #include "IODevice_impl.h"
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| 22 | #include "ConditionVariable.h"
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| 23 | #include "config.h"
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| 24 | #include "FrameworkManager.h"
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| 25 | #include <string.h>
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| 26 | #ifdef __XENO__
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| 27 | #include <rtdk.h>
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[118] | 28 | #define TH_NAME getFrameworkManager()->ObjectName() + "-" + self->ObjectName()
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| 29 | #else//__XENO__
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[2] | 30 | #include <sys/resource.h>
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[38] | 31 | #include <unistd.h>
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| 32 | #include <sys/syscall.h>
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[118] | 33 | #endif//__XENO__
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[2] | 34 |
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| 35 | using std::string;
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| 36 | using namespace flair::core;
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| 37 |
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[213] | 38 | Thread_impl::Thread_impl(Thread *self, uint8_t priority,uint32_t stackSize) {
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[15] | 39 | isRunning = false;
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| 40 | tobestopped = false;
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| 41 | is_suspended = false;
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| 42 | period_set = false;
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[213] | 43 | this->stackSize = stackSize;
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[2] | 44 |
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[15] | 45 | this->self = self;
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| 46 | cond = new ConditionVariable(self, self->ObjectName());
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[2] | 47 |
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[15] | 48 | if (priority < MIN_THREAD_PRIORITY) {
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| 49 | priority = MIN_THREAD_PRIORITY;
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| 50 | // printf("Thread::Thread, %s: priority set to
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| 51 | // %i\n",self->ObjectName().c_str(), priority);
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| 52 | }
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| 53 | if (priority > MAX_THREAD_PRIORITY) {
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| 54 | priority = MAX_THREAD_PRIORITY;
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| 55 | self->Warn("priority set to %i\n", MAX_THREAD_PRIORITY);
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| 56 | }
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[2] | 57 |
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[15] | 58 | this->priority = priority;
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| 59 | period = 100 * 1000 * 1000; // 100ms par defaut
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[186] | 60 | min_latency = 1000 * 1000 * 1000;
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| 61 | max_latency = 0;
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| 62 | mean_latency = 0;
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[15] | 63 | last = 0;
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| 64 | cpt = 0;
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[118] | 65 |
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| 66 | #ifdef __XENO__
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| 67 | // Perform auto-init of rt_print buffers if the task doesn't do so
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| 68 | rt_print_auto_init(1);
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| 69 | // Initialise the rt_print buffer for this task explicitly
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| 70 | rt_print_init(512, (TH_NAME).c_str());
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| 71 | #endif //__XENO__
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[2] | 72 | }
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| 73 |
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[15] | 74 | Thread_impl::~Thread_impl() {
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| 75 | SafeStop();
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| 76 | Join();
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[2] | 77 | }
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| 78 |
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[15] | 79 | void Thread_impl::Start(void) {
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| 80 | int status;
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| 81 | isRunning = true;
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[20] | 82 | tobestopped = false;
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| 83 | is_suspended = false;
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[2] | 84 |
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[213] | 85 | Printf("Starting thread %s (priority=%i, stack size=%i bytes)\n",self->ObjectName().c_str(), priority,stackSize);
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[2] | 86 | #ifdef __XENO__
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[118] | 87 | string th_name =TH_NAME;
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[2] | 88 |
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[213] | 89 | status = rt_task_create(&task_rt, th_name.c_str(), stackSize,
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[15] | 90 | (int)priority, T_JOINABLE);
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[213] | 91 |
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[15] | 92 | if (status != 0) {
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[213] | 93 | char errorMsg[256];
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[133] | 94 | self->Err("rt_task_create error (%s)\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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[15] | 95 | } else {
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| 96 | //_printf("rt_task_create ok %s\n",th_name);
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| 97 | }
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[2] | 98 |
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[15] | 99 | status = rt_task_start(&task_rt, &main_rt, (void *)this);
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| 100 | if (status != 0) {
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[213] | 101 | char errorMsg[256];
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[133] | 102 | self->Err("rt_task_start error (%s)\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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[15] | 103 | } else {
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| 104 | //_printf("rt_task_start ok %s\n",th_name);
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| 105 | }
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[2] | 106 |
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| 107 | #else //__XENO__
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| 108 |
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[15] | 109 | // Initialize thread creation attributes
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| 110 | pthread_attr_t attr;
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| 111 | if (pthread_attr_init(&attr) != 0) {
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| 112 | self->Err("Error pthread_attr_init\n");
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| 113 | }
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[2] | 114 |
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[213] | 115 | if (pthread_attr_setstacksize(&attr, stackSize) != 0) {
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[15] | 116 | self->Err("Error pthread_attr_setstacksize\n");
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| 117 | }
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[2] | 118 |
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[15] | 119 | if (pthread_attr_setinheritsched(&attr, PTHREAD_EXPLICIT_SCHED) != 0) {
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| 120 | self->Err("Error pthread_attr_setinheritsched\n");
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| 121 | }
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[2] | 122 |
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[15] | 123 | if (pthread_attr_setschedpolicy(&attr, SCHED_FIFO) != 0) {
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| 124 | self->Err("Error pthread_attr_setschedpolicy\n");
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| 125 | }
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[2] | 126 |
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[15] | 127 | struct sched_param parm;
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| 128 | parm.sched_priority = priority;
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| 129 | if (pthread_attr_setschedparam(&attr, &parm) != 0) {
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| 130 | self->Err("Error pthread_attr_setschedparam\n");
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| 131 | }
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[2] | 132 |
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[15] | 133 | next_time = GetTime() + period;
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[2] | 134 |
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[15] | 135 | if (pthread_create(&task_nrt, &attr, main_nrt, (void *)this) != 0) {
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| 136 | self->Err("pthread_create error\n");
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| 137 | }
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[2] | 138 |
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[15] | 139 | if (pthread_attr_destroy(&attr) != 0) {
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| 140 | self->Err("Error pthread_attr_destroy\n");
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| 141 | }
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[2] | 142 |
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| 143 | #endif //__XENO__
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| 144 | }
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| 145 |
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| 146 | #ifdef __XENO__
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[15] | 147 | void Thread_impl::main_rt(void *arg) {
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| 148 | Thread_impl *caller = (Thread_impl *)arg;
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[2] | 149 |
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[15] | 150 | caller->self->Run();
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[243] | 151 | Printf("Stopping thread %s\n", caller->self->ObjectName().c_str());
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[15] | 152 | caller->PrintStats();
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[2] | 153 | }
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| 154 | #else
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[38] | 155 | void* Thread_impl::main_nrt(void * arg)
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| 156 | {
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| 157 | Thread_impl *caller = (Thread_impl*)arg;
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| 158 | /*string th_name=getFrameworkManager()->ObjectName()+ "-" + caller->self->ObjectName();
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| 159 | caller->self->Info("pthread '%s' created with TID %x\n",th_name.c_str(),(pid_t)syscall(SYS_gettid));*/
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[2] | 160 |
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[15] | 161 | caller->self->Run();
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[243] | 162 | Printf("Stopping thread %s\n", caller->self->ObjectName().c_str());
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[15] | 163 | caller->PrintStats();
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[2] | 164 |
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[15] | 165 | pthread_exit(0);
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[2] | 166 | }
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| 167 | #endif //__XENO__
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| 168 |
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| 169 | void Thread_impl::SetPeriodUS(uint32_t period) {
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[15] | 170 | if (period == 0) {
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| 171 | self->Err("Period must be>0\n");
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| 172 | return;
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| 173 | }
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[2] | 174 |
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| 175 | #ifdef __XENO__
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[15] | 176 | int status = rt_task_set_periodic(&task_rt, TM_NOW, period * 1000);
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[133] | 177 | if (status != 0) {
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| 178 | char errorMsg[256];
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| 179 | self->Err("Error rt_task_set_periodic %s\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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| 180 | }
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[2] | 181 | #else
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[250] | 182 | if (period_set) {
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| 183 | next_time -= period;
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| 184 | next_time += period * 1000;
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| 185 | } else next_time=GetTime()+period*1000;
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[2] | 186 | #endif
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[15] | 187 | this->period = period * 1000;
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| 188 | period_set = true;
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[2] | 189 | }
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| 190 |
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[15] | 191 | uint32_t Thread_impl::GetPeriodUS() const { return this->period / 1000; }
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[2] | 192 |
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| 193 | void Thread_impl::SetPeriodMS(uint32_t period) {
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[15] | 194 | if (period == 0) {
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| 195 | self->Err("Period must be>0\n");
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| 196 | return;
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| 197 | }
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[2] | 198 |
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| 199 | #ifdef __XENO__
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[15] | 200 | int status = rt_task_set_periodic(&task_rt, TM_NOW, period * 1000 * 1000);
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[133] | 201 | if (status != 0) {
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| 202 | char errorMsg[256];
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| 203 | self->Err("Error rt_task_set_periodic %s\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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| 204 | }
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[2] | 205 | #else
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[250] | 206 | if (period_set) {
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| 207 | next_time -= period;
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| 208 | next_time += period * 1000 * 1000;
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| 209 | } else next_time=GetTime()+period*1000*1000;
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[2] | 210 | #endif
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[15] | 211 | this->period = period * 1000 * 1000;
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| 212 | period_set = true;
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[2] | 213 | }
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| 214 |
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[15] | 215 | uint32_t Thread_impl::GetPeriodMS() const { return this->period / 1000 / 1000; }
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[2] | 216 |
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[15] | 217 | void Thread_impl::WaitPeriod(void) {
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| 218 | if (period_set == false) {
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| 219 | self->Err("Period must be set befaore calling this method\n");
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| 220 | return;
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| 221 | }
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[2] | 222 | #ifdef __XENO__
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[15] | 223 | unsigned long overruns_r;
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| 224 | int status = rt_task_wait_period(&overruns_r);
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[133] | 225 | if (status != 0) {
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| 226 | char errorMsg[256];
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| 227 | self->Err("Error rt_task_wait_period %s\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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| 228 | }
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[206] | 229 | //avoid spamming messages
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| 230 | /*
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[133] | 231 | if (status == -ETIMEDOUT) {
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[15] | 232 | self->Err("overrun: %lld\n", overruns_r);
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[206] | 233 | }*/
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[2] | 234 | #else
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[15] | 235 | self->SleepUntil(next_time);
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[202] | 236 | Time current = GetTime();
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[206] | 237 | //avoid spamming messages
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| 238 | //if(current>next_time+period) self->Err("overrun of %lld\n", current-next_time);
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[202] | 239 | while (next_time < current) {
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| 240 | next_time += period;
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| 241 | }
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[2] | 242 | #endif
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[186] | 243 | ComputeLatency(GetTime());
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[2] | 244 | }
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| 245 |
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| 246 | void Thread_impl::Suspend(void) {
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[15] | 247 | if (isRunning == false) {
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| 248 | self->Err("thread is not started\n");
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| 249 | return;
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| 250 | }
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[2] | 251 |
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[15] | 252 | cond->GetMutex(), is_suspended = true;
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| 253 | cond->CondWait();
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| 254 | is_suspended = false;
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| 255 | cond->ReleaseMutex();
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[2] | 256 | }
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| 257 |
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| 258 | bool Thread_impl::SuspendUntil(Time date) {
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[15] | 259 | if (isRunning == false) {
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| 260 | self->Err("thread is not started\n");
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| 261 | return false;
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| 262 | }
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[2] | 263 |
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[15] | 264 | cond->GetMutex(), is_suspended = true;
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| 265 | bool success = cond->CondWaitUntil(date);
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| 266 | is_suspended = false;
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| 267 | cond->ReleaseMutex();
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| 268 | return success;
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[2] | 269 | }
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| 270 |
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[15] | 271 | bool Thread_impl::IsSuspended(void) {
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| 272 | bool result;
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[2] | 273 |
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[15] | 274 | cond->GetMutex();
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| 275 | result = is_suspended;
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| 276 | cond->ReleaseMutex();
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[2] | 277 |
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[15] | 278 | return result;
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[2] | 279 | }
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| 280 |
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[15] | 281 | void Thread_impl::Resume(void) {
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| 282 | if (isRunning == false) {
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| 283 | self->Err("thread is not started\n");
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| 284 | return;
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| 285 | }
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[2] | 286 |
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[15] | 287 | cond->GetMutex();
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| 288 | if (is_suspended == true) {
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| 289 | cond->CondSignal();
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| 290 | } else {
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| 291 | self->Err("thread is not suspended\n");
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| 292 | }
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| 293 | cond->ReleaseMutex();
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[2] | 294 | }
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| 295 |
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[15] | 296 | int Thread_impl::WaitUpdate(const IODevice *device) {
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| 297 | int status = 0;
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[2] | 298 |
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[15] | 299 | if (IsSuspended() == true) {
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| 300 | self->Err("thread is already supended\n");
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| 301 | status = -1;
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| 302 | } else {
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| 303 | cond->GetMutex();
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| 304 |
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| 305 | if (device->pimpl_->SetToWake(self) == 0) {
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| 306 | is_suspended = true;
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| 307 | cond->CondWait();
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| 308 | is_suspended = false;
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| 309 | } else {
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| 310 | self->Err("%s is already waiting an update\n",
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| 311 | device->ObjectName().c_str());
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| 312 | status = -1;
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[2] | 313 | }
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| 314 |
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[15] | 315 | cond->ReleaseMutex();
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| 316 | }
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[2] | 317 |
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[15] | 318 | return status;
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[2] | 319 | }
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| 320 |
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[15] | 321 | void Thread_impl::PrintStats(void) {
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[2] | 322 | #ifdef __XENO__
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[15] | 323 | RT_TASK_INFO info;
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[2] | 324 |
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[15] | 325 | int status = rt_task_inquire(NULL, &info);
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| 326 | if (status != 0) {
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[133] | 327 | char errorMsg[256];
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| 328 | self->Err("Error rt_task_inquire %s\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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[15] | 329 | } else
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[2] | 330 | #endif
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[15] | 331 | {
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[2] | 332 | #ifndef __XENO__
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[186] | 333 | if(last!=0)
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[2] | 334 | #endif
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[213] | 335 | {
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[202] | 336 | if(period_set) {Printf(" period (ns): %lld\n", period);}}
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[2] | 337 | #ifdef __XENO__
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[15] | 338 | Printf(" number of context switches: %i\n", info.ctxswitches);
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| 339 | Printf(" number of primary->secondary mode switch: %i\n",
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| 340 | info.modeswitches);
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| 341 | // printf("number of page faults: %i\n",info.pagefaults);
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| 342 | Printf(" execution time (ms) in primary mode: %lld\n",
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| 343 | info.exectime / 1000000);
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[2] | 344 | #else
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| 345 | /*
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| 346 | struct rusage r_usage;
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| 347 | getrusage(RUSAGE_THREAD,&r_usage);
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| 348 | printf(" memory usage = %ld\n",r_usage.ru_maxrss);
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[15] | 349 | printf("RUSAGE :ru_utime => %lld [sec] : %lld [usec], :ru_stime => %lld
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| 350 | [sec] : %lld [usec] \n",
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[2] | 351 | (int64_t)r_usage.ru_utime.tv_sec, (int64_t)r_usage.ru_utime.tv_usec,
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[15] | 352 | (int64_t)r_usage.ru_stime.tv_sec,
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| 353 | (int64_t)r_usage.ru_stime.tv_usec);*/
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[2] | 354 | #endif
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[15] | 355 | if (last != 0) {
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[186] | 356 | Printf(" min latency (ns): %lld\n", min_latency);
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| 357 | Printf(" max latency (ns): %lld\n", max_latency);
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[250] | 358 | if (cpt) {
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| 359 | Printf(" latency moy (ns): %lld\n", mean_latency / cpt);
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| 360 | Printf(" iterations: %lld\n", cpt);
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| 361 | }
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[2] | 362 | }
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[15] | 363 | }
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[2] | 364 | }
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| 365 |
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[15] | 366 | void Thread_impl::Join(void) {
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| 367 | if (isRunning == true) {
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| 368 | int status;
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[213] | 369 |
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[2] | 370 | #ifdef __XENO__
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[15] | 371 | status = rt_task_join(&task_rt);
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[2] | 372 | #else
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[15] | 373 | status = pthread_join(task_nrt, NULL);
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[2] | 374 | #endif
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[213] | 375 | if (status != 0) {
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| 376 | char errorMsg[256];
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[133] | 377 | self->Err("error %s\n", strerror_r(-status, errorMsg, sizeof(errorMsg)));
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[213] | 378 | }
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[15] | 379 | isRunning = false;
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| 380 | }
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[2] | 381 | }
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| 382 |
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[186] | 383 | void Thread_impl::ComputeLatency(Time time) {
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[15] | 384 | Time diff, delta;
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| 385 | diff = time - last;
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[2] | 386 |
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[15] | 387 | if (diff >= period) {
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| 388 | delta = diff - period;
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| 389 | } else {
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| 390 | delta = period - diff;
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| 391 | }
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| 392 | // if(delta==0) rt_printf("%lld %lld\n",time,last);
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| 393 | last = time;
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| 394 | if (diff == time)
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| 395 | return;
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[2] | 396 |
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[186] | 397 | if (delta > max_latency)
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| 398 | max_latency = delta;
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| 399 | if (delta < min_latency)
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| 400 | min_latency = delta;
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| 401 | mean_latency += delta;
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[15] | 402 | cpt++;
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[2] | 403 |
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[186] | 404 | // Printf("Thread::%s latency moy (ns):
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| 405 | // %lld\n",self->ObjectName().c_str(),mean_latency/cpt);
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[2] | 406 | }
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| 407 |
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[15] | 408 | void Thread_impl::SafeStop(void) {
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| 409 | tobestopped = true;
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| 410 | if (IsSuspended())
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| 411 | Resume();
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[2] | 412 | }
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| 413 |
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[15] | 414 | bool Thread_impl::ToBeStopped(void) { return tobestopped; }
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