godot/thirdparty/embree/common/sys/thread.cpp

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// Copyright 2009-2020 Intel Corporation
// SPDX-License-Identifier: Apache-2.0
#include "thread.h"
#include "sysinfo.h"
#include "string.h"
#include <iostream>
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#if defined(__ARM_NEON)
#include "../math/SSE2NEON.h"
#else
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#include <xmmintrin.h>
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#endif
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#if defined(PTHREADS_WIN32)
#pragma comment (lib, "pthreadVC.lib")
#endif
////////////////////////////////////////////////////////////////////////////////
/// Windows Platform
////////////////////////////////////////////////////////////////////////////////
#if defined(__WIN32__)
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
namespace embree
{
/*! set the affinity of a given thread */
void setAffinity(HANDLE thread, ssize_t affinity)
{
typedef WORD (WINAPI *GetActiveProcessorGroupCountFunc)();
typedef DWORD (WINAPI *GetActiveProcessorCountFunc)(WORD);
typedef BOOL (WINAPI *SetThreadGroupAffinityFunc)(HANDLE, const GROUP_AFFINITY *, PGROUP_AFFINITY);
typedef BOOL (WINAPI *SetThreadIdealProcessorExFunc)(HANDLE, PPROCESSOR_NUMBER, PPROCESSOR_NUMBER);
HMODULE hlib = LoadLibrary("Kernel32");
GetActiveProcessorGroupCountFunc pGetActiveProcessorGroupCount = (GetActiveProcessorGroupCountFunc)GetProcAddress(hlib, "GetActiveProcessorGroupCount");
GetActiveProcessorCountFunc pGetActiveProcessorCount = (GetActiveProcessorCountFunc)GetProcAddress(hlib, "GetActiveProcessorCount");
SetThreadGroupAffinityFunc pSetThreadGroupAffinity = (SetThreadGroupAffinityFunc)GetProcAddress(hlib, "SetThreadGroupAffinity");
SetThreadIdealProcessorExFunc pSetThreadIdealProcessorEx = (SetThreadIdealProcessorExFunc)GetProcAddress(hlib, "SetThreadIdealProcessorEx");
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if (pGetActiveProcessorGroupCount && pGetActiveProcessorCount && pSetThreadGroupAffinity && pSetThreadIdealProcessorEx)
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{
int groups = pGetActiveProcessorGroupCount();
int totalProcessors = 0, group = 0, number = 0;
for (int i = 0; i<groups; i++) {
int processors = pGetActiveProcessorCount(i);
if (totalProcessors + processors > affinity) {
group = i;
number = (int)affinity - totalProcessors;
break;
}
totalProcessors += processors;
}
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GROUP_AFFINITY groupAffinity;
groupAffinity.Group = (WORD)group;
groupAffinity.Mask = (KAFFINITY)(uint64_t(1) << number);
groupAffinity.Reserved[0] = 0;
groupAffinity.Reserved[1] = 0;
groupAffinity.Reserved[2] = 0;
if (!pSetThreadGroupAffinity(thread, &groupAffinity, nullptr))
WARNING("SetThreadGroupAffinity failed"); // on purpose only a warning
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PROCESSOR_NUMBER processorNumber;
processorNumber.Group = group;
processorNumber.Number = number;
processorNumber.Reserved = 0;
if (!pSetThreadIdealProcessorEx(thread, &processorNumber, nullptr))
WARNING("SetThreadIdealProcessorEx failed"); // on purpose only a warning
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}
else
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{
if (!SetThreadAffinityMask(thread, DWORD_PTR(uint64_t(1) << affinity)))
WARNING("SetThreadAffinityMask failed"); // on purpose only a warning
if (SetThreadIdealProcessor(thread, (DWORD)affinity) == (DWORD)-1)
WARNING("SetThreadIdealProcessor failed"); // on purpose only a warning
}
}
/*! set affinity of the calling thread */
void setAffinity(ssize_t affinity) {
setAffinity(GetCurrentThread(), affinity);
}
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struct ThreadStartupData
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{
public:
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ThreadStartupData (thread_func f, void* arg)
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: f(f), arg(arg) {}
public:
thread_func f;
void* arg;
};
DWORD WINAPI threadStartup(LPVOID ptr)
{
ThreadStartupData* parg = (ThreadStartupData*) ptr;
_mm_setcsr(_mm_getcsr() | /*FTZ:*/ (1<<15) | /*DAZ:*/ (1<<6));
parg->f(parg->arg);
delete parg;
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parg = nullptr;
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return 0;
}
#if !defined(PTHREADS_WIN32)
/*! creates a hardware thread running on specific core */
thread_t createThread(thread_func f, void* arg, size_t stack_size, ssize_t threadID)
{
HANDLE thread = CreateThread(nullptr, stack_size, threadStartup, new ThreadStartupData(f,arg), 0, nullptr);
if (thread == nullptr) FATAL("CreateThread failed");
if (threadID >= 0) setAffinity(thread, threadID);
return thread_t(thread);
}
/*! the thread calling this function gets yielded */
void yield() {
SwitchToThread();
}
/*! waits until the given thread has terminated */
void join(thread_t tid) {
WaitForSingleObject(HANDLE(tid), INFINITE);
CloseHandle(HANDLE(tid));
}
/*! creates thread local storage */
tls_t createTls() {
return tls_t(size_t(TlsAlloc()));
}
/*! set the thread local storage pointer */
void setTls(tls_t tls, void* const ptr) {
TlsSetValue(DWORD(size_t(tls)), ptr);
}
/*! return the thread local storage pointer */
void* getTls(tls_t tls) {
return TlsGetValue(DWORD(size_t(tls)));
}
/*! destroys thread local storage identifier */
void destroyTls(tls_t tls) {
TlsFree(DWORD(size_t(tls)));
}
#endif
}
#endif
////////////////////////////////////////////////////////////////////////////////
/// Linux Platform
////////////////////////////////////////////////////////////////////////////////
#if defined(__LINUX__)
#include <fstream>
#include <sstream>
#include <algorithm>
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#if defined(__ANDROID__)
#include <pthread.h>
#endif
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namespace embree
{
static MutexSys mutex;
static std::vector<size_t> threadIDs;
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#if !defined(__ANDROID__) // TODO(LTE): Implement for Android target
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/* changes thread ID mapping such that we first fill up all thread on one core */
size_t mapThreadID(size_t threadID)
{
Lock<MutexSys> lock(mutex);
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if (threadIDs.size() == 0)
{
/* parse thread/CPU topology */
for (size_t cpuID=0;;cpuID++)
{
std::fstream fs;
std::string cpu = std::string("/sys/devices/system/cpu/cpu") + std::to_string((long long)cpuID) + std::string("/topology/thread_siblings_list");
fs.open (cpu.c_str(), std::fstream::in);
if (fs.fail()) break;
int i;
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while (fs >> i)
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{
if (std::none_of(threadIDs.begin(),threadIDs.end(),[&] (int id) { return id == i; }))
threadIDs.push_back(i);
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if (fs.peek() == ',')
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fs.ignore();
}
fs.close();
}
#if 0
for (size_t i=0;i<threadIDs.size();i++)
std::cout << i << " -> " << threadIDs[i] << std::endl;
#endif
/* verify the mapping and do not use it if the mapping has errors */
for (size_t i=0;i<threadIDs.size();i++) {
for (size_t j=0;j<threadIDs.size();j++) {
if (i != j && threadIDs[i] == threadIDs[j]) {
threadIDs.clear();
}
}
}
}
/* re-map threadIDs if mapping is available */
size_t ID = threadID;
if (threadID < threadIDs.size())
ID = threadIDs[threadID];
/* find correct thread to affinitize to */
cpu_set_t set;
if (pthread_getaffinity_np(pthread_self(), sizeof(set), &set) == 0)
{
for (int i=0, j=0; i<CPU_SETSIZE; i++)
{
if (!CPU_ISSET(i,&set)) continue;
if (j == ID) {
ID = i;
break;
}
j++;
}
}
return ID;
}
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#endif
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/*! set affinity of the calling thread */
void setAffinity(ssize_t affinity)
{
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#if defined(__ANDROID__)
// TODO(LTE): Implement
#else
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cpu_set_t cset;
CPU_ZERO(&cset);
size_t threadID = mapThreadID(affinity);
CPU_SET(threadID, &cset);
pthread_setaffinity_np(pthread_self(), sizeof(cset), &cset);
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#endif
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}
}
#endif
////////////////////////////////////////////////////////////////////////////////
/// FreeBSD Platform
////////////////////////////////////////////////////////////////////////////////
#if defined(__FreeBSD__)
#include <pthread_np.h>
namespace embree
{
/*! set affinity of the calling thread */
void setAffinity(ssize_t affinity)
{
cpuset_t cset;
CPU_ZERO(&cset);
CPU_SET(affinity, &cset);
pthread_setaffinity_np(pthread_self(), sizeof(cset), &cset);
}
}
#endif
////////////////////////////////////////////////////////////////////////////////
/// MacOSX Platform
////////////////////////////////////////////////////////////////////////////////
#if defined(__MACOSX__)
#include <mach/thread_act.h>
#include <mach/thread_policy.h>
#include <mach/mach_init.h>
namespace embree
{
/*! set affinity of the calling thread */
void setAffinity(ssize_t affinity)
{
thread_affinity_policy ap;
ap.affinity_tag = affinity;
if (thread_policy_set(mach_thread_self(),THREAD_AFFINITY_POLICY,(thread_policy_t)&ap,THREAD_AFFINITY_POLICY_COUNT) != KERN_SUCCESS)
WARNING("setting thread affinity failed"); // on purpose only a warning
}
}
#endif
////////////////////////////////////////////////////////////////////////////////
/// Unix Platform
////////////////////////////////////////////////////////////////////////////////
#if defined(__UNIX__) || defined(PTHREADS_WIN32)
#include <pthread.h>
#include <sched.h>
#if defined(__USE_NUMA__)
#include <numa.h>
#endif
namespace embree
{
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struct ThreadStartupData
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{
public:
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ThreadStartupData (thread_func f, void* arg, int affinity)
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: f(f), arg(arg), affinity(affinity) {}
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public:
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thread_func f;
void* arg;
ssize_t affinity;
};
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static void* threadStartup(ThreadStartupData* parg)
{
_mm_setcsr(_mm_getcsr() | /*FTZ:*/ (1<<15) | /*DAZ:*/ (1<<6));
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/*! Mac OS X does not support setting affinity at thread creation time */
#if defined(__MACOSX__)
if (parg->affinity >= 0)
setAffinity(parg->affinity);
#endif
parg->f(parg->arg);
delete parg;
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parg = nullptr;
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return nullptr;
}
/*! creates a hardware thread running on specific core */
thread_t createThread(thread_func f, void* arg, size_t stack_size, ssize_t threadID)
{
/* set stack size */
pthread_attr_t attr;
pthread_attr_init(&attr);
if (stack_size > 0) pthread_attr_setstacksize (&attr, stack_size);
/* create thread */
pthread_t* tid = new pthread_t;
if (pthread_create(tid,&attr,(void*(*)(void*))threadStartup,new ThreadStartupData(f,arg,threadID)) != 0) {
pthread_attr_destroy(&attr);
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delete tid;
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FATAL("pthread_create failed");
}
pthread_attr_destroy(&attr);
/* set affinity */
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#if defined(__LINUX__) && !defined(__ANDROID__)
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if (threadID >= 0) {
cpu_set_t cset;
CPU_ZERO(&cset);
threadID = mapThreadID(threadID);
CPU_SET(threadID, &cset);
pthread_setaffinity_np(*tid, sizeof(cset), &cset);
}
#elif defined(__FreeBSD__)
if (threadID >= 0) {
cpuset_t cset;
CPU_ZERO(&cset);
CPU_SET(threadID, &cset);
pthread_setaffinity_np(*tid, sizeof(cset), &cset);
}
#endif
return thread_t(tid);
}
/*! the thread calling this function gets yielded */
void yield() {
sched_yield();
}
/*! waits until the given thread has terminated */
void join(thread_t tid) {
if (pthread_join(*(pthread_t*)tid, nullptr) != 0)
FATAL("pthread_join failed");
delete (pthread_t*)tid;
}
/*! creates thread local storage */
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tls_t createTls()
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{
pthread_key_t* key = new pthread_key_t;
if (pthread_key_create(key,nullptr) != 0) {
delete key;
FATAL("pthread_key_create failed");
}
return tls_t(key);
}
/*! return the thread local storage pointer */
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void* getTls(tls_t tls)
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{
assert(tls);
return pthread_getspecific(*(pthread_key_t*)tls);
}
/*! set the thread local storage pointer */
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void setTls(tls_t tls, void* const ptr)
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{
assert(tls);
if (pthread_setspecific(*(pthread_key_t*)tls, ptr) != 0)
FATAL("pthread_setspecific failed");
}
/*! destroys thread local storage identifier */
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void destroyTls(tls_t tls)
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{
assert(tls);
if (pthread_key_delete(*(pthread_key_t*)tls) != 0)
FATAL("pthread_key_delete failed");
delete (pthread_key_t*)tls;
}
}
#endif