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vdr/thread.c

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/*
* thread.c: A simple thread base class
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* $Id: thread.c 1.43 2005/05/29 11:40:30 kls Exp $
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*/
#include "thread.h"
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#include <errno.h>
#include <malloc.h>
#include <stdarg.h>
#include <sys/resource.h>
#include <sys/time.h>
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#include <sys/wait.h>
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#include <unistd.h>
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#include "tools.h"
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static bool GetAbsTime(struct timespec *Abstime, int MillisecondsFromNow)
{
struct timeval now;
if (gettimeofday(&now, NULL) == 0) { // get current time
now.tv_usec += MillisecondsFromNow * 1000; // add the timeout
while (now.tv_usec >= 1000000) { // take care of an overflow
now.tv_sec++;
now.tv_usec -= 1000000;
}
Abstime->tv_sec = now.tv_sec; // seconds
Abstime->tv_nsec = now.tv_usec * 1000; // nano seconds
return true;
}
return false;
}
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// --- cCondWait -------------------------------------------------------------
cCondWait::cCondWait(void)
{
signaled = false;
pthread_mutex_init(&mutex, NULL);
pthread_cond_init(&cond, NULL);
}
cCondWait::~cCondWait()
{
pthread_cond_broadcast(&cond); // wake up any sleepers
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pthread_cond_destroy(&cond);
pthread_mutex_destroy(&mutex);
}
void cCondWait::SleepMs(int TimeoutMs)
{
cCondWait w;
w.Wait(max(TimeoutMs, 3)); // making sure the time is >2ms to avoid a possible busy wait
}
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bool cCondWait::Wait(int TimeoutMs)
{
pthread_mutex_lock(&mutex);
if (!signaled) {
if (TimeoutMs) {
struct timespec abstime;
if (GetAbsTime(&abstime, TimeoutMs)) {
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while (!signaled) {
if (pthread_cond_timedwait(&cond, &mutex, &abstime) == ETIMEDOUT)
break;
}
}
}
else
pthread_cond_wait(&cond, &mutex);
}
bool r = signaled;
signaled = false;
pthread_mutex_unlock(&mutex);
return r;
}
void cCondWait::Signal(void)
{
pthread_mutex_lock(&mutex);
signaled = true;
pthread_cond_broadcast(&cond);
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pthread_mutex_unlock(&mutex);
}
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// --- cCondVar --------------------------------------------------------------
cCondVar::cCondVar(void)
{
pthread_cond_init(&cond, 0);
}
cCondVar::~cCondVar()
{
pthread_cond_broadcast(&cond); // wake up any sleepers
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pthread_cond_destroy(&cond);
}
void cCondVar::Wait(cMutex &Mutex)
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{
if (Mutex.locked) {
int locked = Mutex.locked;
Mutex.locked = 0; // have to clear the locked count here, as pthread_cond_wait
// does an implizit unlock of the mutex
pthread_cond_wait(&cond, &Mutex.mutex);
Mutex.locked = locked;
}
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}
bool cCondVar::TimedWait(cMutex &Mutex, int TimeoutMs)
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{
bool r = true; // true = condition signaled false = timeout
if (Mutex.locked) {
struct timespec abstime;
if (GetAbsTime(&abstime, TimeoutMs)) {
int locked = Mutex.locked;
Mutex.locked = 0; // have to clear the locked count here, as pthread_cond_timedwait
// does an implizit unlock of the mutex.
if (pthread_cond_timedwait(&cond, &Mutex.mutex, &abstime) == ETIMEDOUT)
r = false;
Mutex.locked = locked;
}
}
return r;
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}
void cCondVar::Broadcast(void)
{
pthread_cond_broadcast(&cond);
}
// --- cRwLock ---------------------------------------------------------------
cRwLock::cRwLock(bool PreferWriter)
{
pthread_rwlockattr_t attr = { PreferWriter ? PTHREAD_RWLOCK_PREFER_WRITER_NP : PTHREAD_RWLOCK_PREFER_READER_NP };
pthread_rwlock_init(&rwlock, &attr);
}
cRwLock::~cRwLock()
{
pthread_rwlock_destroy(&rwlock);
}
bool cRwLock::Lock(bool Write, int TimeoutMs)
{
int Result = 0;
struct timespec abstime;
if (TimeoutMs) {
if (!GetAbsTime(&abstime, TimeoutMs))
TimeoutMs = 0;
}
if (Write)
Result = TimeoutMs ? pthread_rwlock_timedwrlock(&rwlock, &abstime) : pthread_rwlock_wrlock(&rwlock);
else
Result = TimeoutMs ? pthread_rwlock_timedrdlock(&rwlock, &abstime) : pthread_rwlock_rdlock(&rwlock);
return Result == 0;
}
void cRwLock::Unlock(void)
{
pthread_rwlock_unlock(&rwlock);
}
// --- cMutex ----------------------------------------------------------------
cMutex::cMutex(void)
{
locked = 0;
pthread_mutexattr_t attr = { PTHREAD_MUTEX_ERRORCHECK_NP };
pthread_mutex_init(&mutex, &attr);
}
cMutex::~cMutex()
{
pthread_mutex_destroy(&mutex);
}
void cMutex::Lock(void)
{
pthread_mutex_lock(&mutex);
locked++;
}
void cMutex::Unlock(void)
{
if (!--locked)
pthread_mutex_unlock(&mutex);
}
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// --- cThread ---------------------------------------------------------------
bool cThread::emergencyExitRequested = false;
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cThread::cThread(const char *Description)
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{
running = false;
childTid = 0;
description = NULL;
SetDescription(Description);
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}
cThread::~cThread()
{
free(description);
}
void cThread::SetPriority(int Priority)
{
if (setpriority(PRIO_PROCESS, 0, Priority) < 0)
LOG_ERROR;
}
void cThread::SetDescription(const char *Description, ...)
{
free(description);
description = NULL;
if (Description) {
va_list ap;
va_start(ap, Description);
vasprintf(&description, Description, ap);
va_end(ap);
}
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}
void *cThread::StartThread(cThread *Thread)
{
if (Thread->description)
dsyslog("%s thread started (pid=%d, tid=%ld)", Thread->description, getpid(), pthread_self());
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Thread->Action();
if (Thread->description)
dsyslog("%s thread ended (pid=%d, tid=%ld)", Thread->description, getpid(), pthread_self());
Thread->running = false;
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return NULL;
}
bool cThread::Start(void)
{
if (!running) {
running = true;
if (pthread_create(&childTid, NULL, (void *(*) (void *))&StartThread, (void *)this) == 0) {
pthread_detach(childTid); // auto-reap
pthread_setschedparam(childTid, SCHED_RR, 0);
}
else {
LOG_ERROR;
running = false;
return false;
}
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}
return true;
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}
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bool cThread::Active(void)
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{
if (running) {
//
// Single UNIX Spec v2 says:
//
// The pthread_kill() function is used to request
// that a signal be delivered to the specified thread.
//
// As in kill(), if sig is zero, error checking is
// performed but no signal is actually sent.
//
int err;
if ((err = pthread_kill(childTid, 0)) != 0) {
if (err != ESRCH)
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LOG_ERROR;
childTid = 0;
running = false;
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}
else
return true;
}
return false;
}
void cThread::Cancel(int WaitSeconds)
{
if (running) {
if (WaitSeconds > 0) {
for (time_t t0 = time(NULL) + WaitSeconds; time(NULL) < t0; ) {
if (!Active())
return;
cCondWait::SleepMs(10);
}
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esyslog("ERROR: thread %ld won't end (waited %d seconds) - canceling it...", childTid, WaitSeconds);
}
pthread_cancel(childTid);
childTid = 0;
running = false;
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}
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}
bool cThread::EmergencyExit(bool Request)
{
if (!Request)
return emergencyExitRequested;
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esyslog("initiating emergency exit");
return emergencyExitRequested = true; // yes, it's an assignment, not a comparison!
}
// --- cMutexLock ------------------------------------------------------------
cMutexLock::cMutexLock(cMutex *Mutex)
{
mutex = NULL;
locked = false;
Lock(Mutex);
}
cMutexLock::~cMutexLock()
{
if (mutex && locked)
mutex->Unlock();
}
bool cMutexLock::Lock(cMutex *Mutex)
{
if (Mutex && !mutex) {
mutex = Mutex;
Mutex->Lock();
locked = true;
return true;
}
return false;
}
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// --- cThreadLock -----------------------------------------------------------
cThreadLock::cThreadLock(cThread *Thread)
{
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thread = NULL;
locked = false;
Lock(Thread);
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}
cThreadLock::~cThreadLock()
{
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if (thread && locked)
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thread->Unlock();
}
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bool cThreadLock::Lock(cThread *Thread)
{
if (Thread && !thread) {
thread = Thread;
Thread->Lock();
locked = true;
return true;
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}
return false;
}
// --- cPipe -----------------------------------------------------------------
// cPipe::Open() and cPipe::Close() are based on code originally received from
// Andreas Vitting <Andreas@huji.de>
cPipe::cPipe(void)
{
pid = -1;
f = NULL;
}
cPipe::~cPipe()
{
Close();
}
bool cPipe::Open(const char *Command, const char *Mode)
{
int fd[2];
if (pipe(fd) < 0) {
LOG_ERROR;
return false;
}
if ((pid = fork()) < 0) { // fork failed
LOG_ERROR;
close(fd[0]);
close(fd[1]);
return false;
}
char *mode = "w";
int iopipe = 0;
if (pid > 0) { // parent process
if (strcmp(Mode, "r") == 0) {
mode = "r";
iopipe = 1;
}
close(fd[iopipe]);
f = fdopen(fd[1 - iopipe], mode);
if ((f = fdopen(fd[1 - iopipe], mode)) == NULL) {
LOG_ERROR;
close(fd[1 - iopipe]);
}
return f != NULL;
}
else { // child process
int iofd = STDOUT_FILENO;
if (strcmp(Mode, "w") == 0) {
mode = "r";
iopipe = 1;
iofd = STDIN_FILENO;
}
close(fd[iopipe]);
if (dup2(fd[1 - iopipe], iofd) == -1) { // now redirect
LOG_ERROR;
close(fd[1 - iopipe]);
_exit(-1);
}
else {
int MaxPossibleFileDescriptors = getdtablesize();
for (int i = STDERR_FILENO + 1; i < MaxPossibleFileDescriptors; i++)
close(i); //close all dup'ed filedescriptors
if (execl("/bin/sh", "sh", "-c", Command, NULL) == -1) {
LOG_ERROR_STR(Command);
close(fd[1 - iopipe]);
_exit(-1);
}
}
_exit(0);
}
}
int cPipe::Close(void)
{
int ret = -1;
if (f) {
fclose(f);
f = NULL;
}
if (pid > 0) {
int status = 0;
int i = 5;
while (i > 0) {
ret = waitpid(pid, &status, WNOHANG);
if (ret < 0) {
if (errno != EINTR && errno != ECHILD) {
LOG_ERROR;
break;
}
}
else if (ret == pid)
break;
i--;
cCondWait::SleepMs(100);
}
if (!i) {
kill(pid, SIGKILL);
ret = -1;
}
else if (ret == -1 || !WIFEXITED(status))
ret = -1;
pid = -1;
}
return ret;
}
// --- SystemExec ------------------------------------------------------------
int SystemExec(const char *Command)
{
pid_t pid;
if ((pid = fork()) < 0) { // fork failed
LOG_ERROR;
return -1;
}
if (pid > 0) { // parent process
int status;
if (waitpid(pid, &status, 0) < 0) {
LOG_ERROR;
return -1;
}
return status;
}
else { // child process
int MaxPossibleFileDescriptors = getdtablesize();
for (int i = STDERR_FILENO + 1; i < MaxPossibleFileDescriptors; i++)
close(i); //close all dup'ed filedescriptors
if (execl("/bin/sh", "sh", "-c", Command, NULL) == -1) {
LOG_ERROR_STR(Command);
_exit(-1);
}
_exit(0);
}
}