#include "TracySysTrace.hpp" #ifdef TRACY_HAS_SYSTEM_TRACING # if defined _WIN32 || defined __CYGWIN__ # define INITGUID # include # include # include # include # include # include # include # include # include "../common/TracyAlloc.hpp" # include "../common/TracySystem.hpp" # include "TracyProfiler.hpp" namespace tracy { TRACEHANDLE s_traceHandle; TRACEHANDLE s_traceHandle2; EVENT_TRACE_PROPERTIES* s_prop; struct CSwitch { uint32_t newThreadId; uint32_t oldThreadId; int8_t newThreadPriority; int8_t oldThreadPriority; uint8_t previousCState; int8_t spareByte; int8_t oldThreadWaitReason; int8_t oldThreadWaitMode; int8_t oldThreadState; int8_t oldThreadWaitIdealProcessor; uint32_t newThreadWaitTime; uint32_t reserved; }; struct ReadyThread { uint32_t threadId; int8_t adjustReason; int8_t adjustIncrement; int8_t flag; int8_t reserverd; }; void WINAPI EventRecordCallback( PEVENT_RECORD record ) { #ifdef TRACY_ON_DEMAND if( !GetProfiler().IsConnected() ) return; #endif const auto& hdr = record->EventHeader; if( hdr.EventDescriptor.Opcode == 36 ) { const auto cswitch = (const CSwitch*)record->UserData; Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::ContextSwitch ); MemWrite( &item->contextSwitch.time, hdr.TimeStamp.QuadPart ); memcpy( &item->contextSwitch.oldThread, &cswitch->oldThreadId, sizeof( cswitch->oldThreadId ) ); memcpy( &item->contextSwitch.newThread, &cswitch->newThreadId, sizeof( cswitch->newThreadId ) ); memset( ((char*)&item->contextSwitch.oldThread)+4, 0, 4 ); memset( ((char*)&item->contextSwitch.newThread)+4, 0, 4 ); MemWrite( &item->contextSwitch.cpu, record->BufferContext.ProcessorNumber ); MemWrite( &item->contextSwitch.reason, cswitch->oldThreadWaitReason ); MemWrite( &item->contextSwitch.state, cswitch->oldThreadState ); tail.store( magic + 1, std::memory_order_release ); } else if( hdr.EventDescriptor.Opcode == 50 ) { const auto rt = (const ReadyThread*)record->UserData; Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::ThreadWakeup ); MemWrite( &item->threadWakeup.time, hdr.TimeStamp.QuadPart ); memcpy( &item->threadWakeup.thread, &rt->threadId, sizeof( rt->threadId ) ); memset( ((char*)&item->threadWakeup.thread)+4, 0, 4 ); tail.store( magic + 1, std::memory_order_release ); } } bool SysTraceStart() { TOKEN_PRIVILEGES priv = {}; priv.PrivilegeCount = 1; priv.Privileges[0].Attributes = SE_PRIVILEGE_ENABLED; if( LookupPrivilegeValue( nullptr, SE_SYSTEM_PROFILE_NAME, &priv.Privileges[0].Luid ) == 0 ) return false; HANDLE pt; if( OpenProcessToken( GetCurrentProcess(), TOKEN_ADJUST_PRIVILEGES, &pt ) == 0 ) return false; const auto adjust = AdjustTokenPrivileges( pt, FALSE, &priv, 0, nullptr, nullptr ); CloseHandle( pt ); if( adjust == 0 ) return false; const auto status = GetLastError(); if( status != ERROR_SUCCESS ) return false; const auto psz = sizeof( EVENT_TRACE_PROPERTIES ) + sizeof( KERNEL_LOGGER_NAME ); s_prop = (EVENT_TRACE_PROPERTIES*)tracy_malloc( psz ); memset( s_prop, 0, sizeof( EVENT_TRACE_PROPERTIES ) ); s_prop->EnableFlags = EVENT_TRACE_FLAG_CSWITCH | EVENT_TRACE_FLAG_DISPATCHER; s_prop->LogFileMode = EVENT_TRACE_REAL_TIME_MODE; s_prop->Wnode.BufferSize = psz; s_prop->Wnode.Flags = WNODE_FLAG_TRACED_GUID; s_prop->Wnode.ClientContext = 3; s_prop->Wnode.Guid = SystemTraceControlGuid; s_prop->LoggerNameOffset = sizeof( EVENT_TRACE_PROPERTIES ); memcpy( ((char*)s_prop) + sizeof( EVENT_TRACE_PROPERTIES ), KERNEL_LOGGER_NAME, sizeof( KERNEL_LOGGER_NAME ) ); auto backup = tracy_malloc( psz ); memcpy( backup, s_prop, psz ); const auto controlStatus = ControlTrace( 0, KERNEL_LOGGER_NAME, s_prop, EVENT_TRACE_CONTROL_STOP ); if( controlStatus != ERROR_SUCCESS && controlStatus != ERROR_WMI_INSTANCE_NOT_FOUND ) { tracy_free( s_prop ); return false; } memcpy( s_prop, backup, psz ); tracy_free( backup ); const auto startStatus = StartTrace( &s_traceHandle, KERNEL_LOGGER_NAME, s_prop ); if( startStatus != ERROR_SUCCESS ) { tracy_free( s_prop ); return false; } #ifdef UNICODE WCHAR KernelLoggerName[sizeof( KERNEL_LOGGER_NAME )]; #else char KernelLoggerName[sizeof( KERNEL_LOGGER_NAME )]; #endif memcpy( KernelLoggerName, KERNEL_LOGGER_NAME, sizeof( KERNEL_LOGGER_NAME ) ); EVENT_TRACE_LOGFILE log = {}; log.LoggerName = KernelLoggerName; log.ProcessTraceMode = PROCESS_TRACE_MODE_REAL_TIME | PROCESS_TRACE_MODE_EVENT_RECORD | PROCESS_TRACE_MODE_RAW_TIMESTAMP; log.EventRecordCallback = EventRecordCallback; s_traceHandle2 = OpenTrace( &log ); if( s_traceHandle2 == (TRACEHANDLE)INVALID_HANDLE_VALUE ) { CloseTrace( s_traceHandle ); tracy_free( s_prop ); return false; } return true; } void SysTraceStop() { CloseTrace( s_traceHandle2 ); CloseTrace( s_traceHandle ); } void SysTraceWorker( void* ptr ) { SetThreadName( "Tracy SysTrace" ); ProcessTrace( &s_traceHandle2, 1, 0, 0 ); ControlTrace( 0, KERNEL_LOGGER_NAME, s_prop, EVENT_TRACE_CONTROL_STOP ); tracy_free( s_prop ); } #ifdef __CYGWIN__ extern "C" typedef DWORD (WINAPI *t_GetProcessIdOfThread)( HANDLE ); extern "C" typedef DWORD (WINAPI *t_GetProcessImageFileNameA)( HANDLE, LPSTR, DWORD ); # ifdef UNICODE t_GetProcessIdOfThread GetProcessIdOfThread = (t_GetProcessIdOfThread)GetProcAddress( GetModuleHandle( L"kernel32.dll" ), "GetProcessIdOfThread" ); t_GetProcessImageFileNameA GetProcessImageFileNameA = (t_GetProcessImageFileNameA)GetProcAddress( GetModuleHandle( L"kernel32.dll" ), "K32GetProcessImageFileNameA" ); # else t_GetProcessIdOfThread GetProcessIdOfThread = (t_GetProcessIdOfThread)GetProcAddress( GetModuleHandle( "kernel32.dll" ), "GetProcessIdOfThread" ); t_GetProcessImageFileNameA GetProcessImageFileNameA = (t_GetProcessImageFileNameA)GetProcAddress( GetModuleHandle( "kernel32.dll" ), "K32GetProcessImageFileNameA" ); # endif #endif extern "C" typedef NTSTATUS (WINAPI *t_NtQueryInformationThread)( HANDLE, THREADINFOCLASS, PVOID, ULONG, PULONG ); extern "C" typedef BOOL (WINAPI *t_EnumProcessModules)( HANDLE, HMODULE*, DWORD, LPDWORD ); extern "C" typedef BOOL (WINAPI *t_GetModuleInformation)( HANDLE, HMODULE, LPMODULEINFO, DWORD ); extern "C" typedef DWORD (WINAPI *t_GetModuleBaseNameA)( HANDLE, HMODULE, LPSTR, DWORD ); #ifdef UNICODE t_NtQueryInformationThread NtQueryInformationThread = (t_NtQueryInformationThread)GetProcAddress( GetModuleHandle( L"ntdll.dll" ), "NtQueryInformationThread" ); t_EnumProcessModules _EnumProcessModules = (t_EnumProcessModules)GetProcAddress( GetModuleHandle( L"kernel32.dll" ), "K32EnumProcessModules" ); t_GetModuleInformation _GetModuleInformation = (t_GetModuleInformation)GetProcAddress( GetModuleHandle( L"kernel32.dll" ), "K32GetModuleInformation" ); t_GetModuleBaseNameA _GetModuleBaseNameA = (t_GetModuleBaseNameA)GetProcAddress( GetModuleHandle( L"kernel32.dll" ), "K32GetModuleBaseNameA" ); #else t_NtQueryInformationThread NtQueryInformationThread = (t_NtQueryInformationThread)GetProcAddress( GetModuleHandle( "ntdll.dll" ), "NtQueryInformationThread" ); t_EnumProcessModules _EnumProcessModules = (t_EnumProcessModules)GetProcAddress( GetModuleHandle( "kernel32.dll" ), "K32EnumProcessModules" ); t_GetModuleInformation _GetModuleInformation = (t_GetModuleInformation)GetProcAddress( GetModuleHandle( "kernel32.dll" ), "K32GetModuleInformation" ); t_GetModuleBaseNameA _GetModuleBaseNameA = (t_GetModuleBaseNameA)GetProcAddress( GetModuleHandle( "kernel32.dll" ), "K32GetModuleBaseNameA" ); #endif void SysTraceSendExternalName( uint64_t thread ) { bool threadSent = false; auto hnd = OpenThread( THREAD_QUERY_INFORMATION, FALSE, DWORD( thread ) ); if( hnd == 0 ) { hnd = OpenThread( THREAD_QUERY_LIMITED_INFORMATION, FALSE, DWORD( thread ) ); } if( hnd != 0 ) { #if defined NTDDI_WIN10_RS2 && NTDDI_VERSION >= NTDDI_WIN10_RS2 PWSTR tmp; GetThreadDescription( hnd, &tmp ); char buf[256]; if( tmp ) { auto ret = wcstombs( buf, tmp, 256 ); if( ret != 0 ) { GetProfiler().SendString( thread, buf, QueueType::ExternalThreadName ); threadSent = true; } } #endif const auto pid = GetProcessIdOfThread( hnd ); if( !threadSent && NtQueryInformationThread && _EnumProcessModules && _GetModuleInformation && _GetModuleBaseNameA ) { void* ptr; ULONG retlen; auto status = NtQueryInformationThread( hnd, (THREADINFOCLASS)9 /*ThreadQuerySetWin32StartAddress*/, &ptr, sizeof( &ptr ), &retlen ); if( status == 0 ) { const auto phnd = OpenProcess( PROCESS_QUERY_INFORMATION | PROCESS_VM_READ, FALSE, pid ); if( phnd != INVALID_HANDLE_VALUE ) { HMODULE modules[1024]; DWORD needed; if( _EnumProcessModules( phnd, modules, 1024 * sizeof( HMODULE ), &needed ) != 0 ) { const auto sz = std::min( DWORD( needed / sizeof( HMODULE ) ), DWORD( 1024 ) ); for( int i=0; i= (uint64_t)info.lpBaseOfDll && (uint64_t)ptr <= (uint64_t)info.lpBaseOfDll + (uint64_t)info.SizeOfImage ) { char buf[1024]; if( _GetModuleBaseNameA( phnd, modules[i], buf, 1024 ) != 0 ) { GetProfiler().SendString( thread, buf, QueueType::ExternalThreadName ); threadSent = true; } } } } } CloseHandle( phnd ); } } } CloseHandle( hnd ); if( !threadSent ) { GetProfiler().SendString( thread, "???", QueueType::ExternalThreadName ); threadSent = true; } if( pid != 0 ) { { uint64_t _pid = pid; Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::TidToPid ); MemWrite( &item->tidToPid.tid, thread ); MemWrite( &item->tidToPid.pid, _pid ); tail.store( magic + 1, std::memory_order_release ); } if( pid == 4 ) { GetProfiler().SendString( thread, "System", QueueType::ExternalName ); return; } else { const auto phnd = OpenProcess( PROCESS_QUERY_LIMITED_INFORMATION, FALSE, pid ); if( phnd != INVALID_HANDLE_VALUE ) { char buf[1024]; const auto sz = GetProcessImageFileNameA( phnd, buf, 1024 ); CloseHandle( phnd ); if( sz != 0 ) { auto ptr = buf + sz - 1; while( ptr > buf && *ptr != '\\' ) ptr--; if( *ptr == '\\' ) ptr++; GetProfiler().SendString( thread, ptr, QueueType::ExternalName ); return; } } } } } if( !threadSent ) { GetProfiler().SendString( thread, "???", QueueType::ExternalThreadName ); } GetProfiler().SendString( thread, "???", QueueType::ExternalName ); } } # elif defined __linux__ # include # include # include # include # include # include # include # include # include # include # include # include "TracyProfiler.hpp" # ifdef __ANDROID__ # include "TracySysTracePayload.hpp" # endif namespace tracy { static const char BasePath[] = "/sys/kernel/debug/tracing/"; static const char TracingOn[] = "tracing_on"; static const char CurrentTracer[] = "current_tracer"; static const char TraceOptions[] = "trace_options"; static const char TraceClock[] = "trace_clock"; static const char SchedSwitch[] = "events/sched/sched_switch/enable"; static const char SchedWakeup[] = "events/sched/sched_wakeup/enable"; static const char TracePipe[] = "trace_pipe"; #ifdef __ANDROID__ static bool TraceWrite( const char* path, size_t psz, const char* val, size_t vsz ) { char tmp[256]; sprintf( tmp, "su -c 'echo \"%s\" > %s%s'", val, BasePath, path ); return system( tmp ) == 0; } #else static bool TraceWrite( const char* path, size_t psz, const char* val, size_t vsz ) { char tmp[256]; memcpy( tmp, BasePath, sizeof( BasePath ) - 1 ); memcpy( tmp + sizeof( BasePath ) - 1, path, psz ); int fd = open( tmp, O_WRONLY ); if( fd < 0 ) return false; for(;;) { ssize_t cnt = write( fd, val, vsz ); if( cnt == (ssize_t)vsz ) { close( fd ); return true; } if( cnt < 0 ) { close( fd ); return false; } vsz -= cnt; val += cnt; } } #endif #ifdef __ANDROID__ void SysTraceInjectPayload() { int pipefd[2]; if( pipe( pipefd ) == 0 ) { const auto pid = fork(); if( pid == 0 ) { // child close( pipefd[1] ); if( dup2( pipefd[0], STDIN_FILENO ) >= 0 ) { close( pipefd[0] ); execlp( "su", "su", "-c", "cat > /data/tracy_systrace", (char*)nullptr ); exit( 1 ); } } else if( pid > 0 ) { // parent close( pipefd[0] ); #ifdef __aarch64__ write( pipefd[1], tracy_systrace_aarch64_data, tracy_systrace_aarch64_size ); #else write( pipefd[1], tracy_systrace_armv7_data, tracy_systrace_armv7_size ); #endif close( pipefd[1] ); waitpid( pid, nullptr, 0 ); system( "su -c 'chmod 700 /data/tracy_systrace'" ); } } } #endif bool SysTraceStart() { if( !TraceWrite( TracingOn, sizeof( TracingOn ), "0", 2 ) ) return false; if( !TraceWrite( CurrentTracer, sizeof( CurrentTracer ), "nop", 4 ) ) return false; TraceWrite( TraceOptions, sizeof( TraceOptions ), "norecord-cmd", 13 ); TraceWrite( TraceOptions, sizeof( TraceOptions ), "norecord-tgid", 14 ); TraceWrite( TraceOptions, sizeof( TraceOptions ), "noirq-info", 11 ); #if defined TRACY_HW_TIMER && ( defined __i386 || defined _M_IX86 || defined __x86_64__ || defined _M_X64 ) if( !TraceWrite( TraceClock, sizeof( TraceClock ), "x86-tsc", 8 ) ) return false; #elif __ARM_ARCH >= 6 if( !TraceWrite( TraceClock, sizeof( TraceClock ), "mono_raw", 8 ) ) return false; #endif if( !TraceWrite( SchedSwitch, sizeof( SchedSwitch ), "1", 2 ) ) return false; if( !TraceWrite( SchedWakeup, sizeof( SchedWakeup ), "1", 2 ) ) return false; #if defined __ANDROID__ && ( defined __aarch64__ || defined __ARM_ARCH ) SysTraceInjectPayload(); #endif if( !TraceWrite( TracingOn, sizeof( TracingOn ), "1", 2 ) ) return false; return true; } void SysTraceStop() { TraceWrite( TracingOn, sizeof( TracingOn ), "0", 2 ); } static uint64_t ReadNumber( const char*& ptr ) { uint64_t val = 0; for(;;) { if( *ptr >= '0' && *ptr <= '9' ) { val = val * 10 + ( *ptr - '0' ); ptr++; } else { return val; } } } static uint8_t ReadState( char state ) { switch( state ) { case 'D': return 101; case 'I': return 102; case 'R': return 103; case 'S': return 104; case 'T': return 105; case 't': return 106; case 'W': return 107; case 'X': return 108; case 'Z': return 109; default: return 100; } } #if defined __ANDROID__ && defined __ANDROID_API__ && __ANDROID_API__ < 18 /*- * Copyright (c) 2011 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Christos Zoulas. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ ssize_t getdelim(char **buf, size_t *bufsiz, int delimiter, FILE *fp) { char *ptr, *eptr; if (*buf == NULL || *bufsiz == 0) { *bufsiz = BUFSIZ; if ((*buf = (char*)malloc(*bufsiz)) == NULL) return -1; } for (ptr = *buf, eptr = *buf + *bufsiz;;) { int c = fgetc(fp); if (c == -1) { if (feof(fp)) return ptr == *buf ? -1 : ptr - *buf; else return -1; } *ptr++ = c; if (c == delimiter) { *ptr = '\0'; return ptr - *buf; } if (ptr + 2 >= eptr) { char *nbuf; size_t nbufsiz = *bufsiz * 2; ssize_t d = ptr - *buf; if ((nbuf = (char*)realloc(*buf, nbufsiz)) == NULL) return -1; *buf = nbuf; *bufsiz = nbufsiz; eptr = nbuf + nbufsiz; ptr = nbuf + d; } } } ssize_t getline(char **buf, size_t *bufsiz, FILE *fp) { return getdelim(buf, bufsiz, '\n', fp); } #endif static void HandleTraceLine( const char* line ) { line += 24; const auto cpu = (uint8_t)ReadNumber( line ); line++; // ']' while( *line == ' ' ) line++; #if defined TRACY_HW_TIMER && ( defined __i386 || defined _M_IX86 || defined __x86_64__ || defined _M_X64 ) const auto time = ReadNumber( line ); #elif __ARM_ARCH >= 6 const auto ts = ReadNumber( line ); line++; // '.' const auto tus = ReadNumber( line ); const auto time = ts * 1000000000ll + tus * 1000ll; #endif line += 2; // ': ' if( memcmp( line, "sched_switch", 12 ) == 0 ) { line += 14; while( memcmp( line, "prev_pid", 8 ) != 0 ) line++; line += 9; const auto oldPid = ReadNumber( line ); line++; while( memcmp( line, "prev_state", 10 ) != 0 ) line++; line += 11; const auto oldState = (uint8_t)ReadState( *line ); line += 5; while( memcmp( line, "next_pid", 8 ) != 0 ) line++; line += 9; const auto newPid = ReadNumber( line ); uint8_t reason = 100; Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::ContextSwitch ); MemWrite( &item->contextSwitch.time, time ); MemWrite( &item->contextSwitch.oldThread, oldPid ); MemWrite( &item->contextSwitch.newThread, newPid ); MemWrite( &item->contextSwitch.cpu, cpu ); MemWrite( &item->contextSwitch.reason, reason ); MemWrite( &item->contextSwitch.state, oldState ); tail.store( magic + 1, std::memory_order_release ); } else if( memcmp( line, "sched_wakeup", 12 ) == 0 ) { line += 14; while( memcmp( line, "pid", 3 ) != 0 ) line++; line += 4; const auto pid = ReadNumber( line ); Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::ThreadWakeup ); MemWrite( &item->threadWakeup.time, time ); MemWrite( &item->threadWakeup.thread, pid ); tail.store( magic + 1, std::memory_order_release ); } } #ifdef __ANDROID__ static void ProcessTraceLines( int fd ) { // Linux pipe buffer is 64KB, additional 1KB is for unfinished lines char* buf = (char*)tracy_malloc( (64+1)*1024 ); char* line = buf; for(;;) { const auto rd = read( fd, line, 64*1024 ); if( rd <= 0 ) break; #ifdef TRACY_ON_DEMAND if( !GetProfiler().IsConnected() ) { if( rd < 64*1024 ) { assert( line[rd-1] == '\n' ); line = buf; std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) ); } else { const auto end = line + rd; line = end - 1; while( line > buf && *line != '\n' ) line--; if( line > buf ) { line++; const auto lsz = end - line; memmove( buf, line, lsz ); line = buf + lsz; } } continue; } #endif const auto end = line + rd; line = buf; for(;;) { auto next = line; while( next < end && *next != '\n' ) next++; next++; if( next >= end ) { const auto lsz = end - line; memmove( buf, line, lsz ); line = buf + lsz; break; } HandleTraceLine( line ); line = next; } if( rd < 64*1024 ) { std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) ); } } tracy_free( buf ); } void SysTraceWorker( void* ptr ) { SetThreadName( "Tracy SysTrace" ); int pipefd[2]; if( pipe( pipefd ) == 0 ) { const auto pid = fork(); if( pid == 0 ) { // child close( pipefd[0] ); dup2( pipefd[1], STDERR_FILENO ); if( dup2( pipefd[1], STDOUT_FILENO ) >= 0 ) { close( pipefd[1] ); #if defined __ANDROID__ && ( defined __aarch64__ || defined __ARM_ARCH ) execlp( "su", "su", "-c", "/data/tracy_systrace", (char*)nullptr ); #endif execlp( "su", "su", "-c", "cat /sys/kernel/debug/tracing/trace_pipe", (char*)nullptr ); exit( 1 ); } } else if( pid > 0 ) { // parent close( pipefd[1] ); ProcessTraceLines( pipefd[0] ); close( pipefd[0] ); } } } #else static void ProcessTraceLines( int fd ) { char* buf = (char*)tracy_malloc( 64*1024 ); struct pollfd pfd; pfd.fd = fd; pfd.events = POLLIN | POLLERR; for(;;) { while( poll( &pfd, 1, 0 ) <= 0 ) std::this_thread::sleep_for( std::chrono::milliseconds( 10 ) ); const auto rd = read( fd, buf, 64*1024 ); if( rd <= 0 ) break; #ifdef TRACY_ON_DEMAND if( !GetProfiler().IsConnected() ) continue; #endif auto line = buf; const auto end = buf + rd; for(;;) { auto next = line; while( next < end && *next != '\n' ) next++; if( next == end ) break; assert( *next == '\n' ); next++; HandleTraceLine( line ); line = next; } } tracy_free( buf ); } void SysTraceWorker( void* ptr ) { SetThreadName( "Tracy SysTrace" ); char tmp[256]; memcpy( tmp, BasePath, sizeof( BasePath ) - 1 ); memcpy( tmp + sizeof( BasePath ) - 1, TracePipe, sizeof( TracePipe ) ); int fd = open( tmp, O_RDONLY ); if( fd < 0 ) return; ProcessTraceLines( fd ); close( fd ); } #endif void SysTraceSendExternalName( uint64_t thread ) { FILE* f; char fn[256]; sprintf( fn, "/proc/%" PRIu64 "/comm", thread ); f = fopen( fn, "rb" ); if( f ) { char buf[256]; const auto sz = fread( buf, 1, 256, f ); if( sz > 0 && buf[sz-1] == '\n' ) buf[sz-1] = '\0'; GetProfiler().SendString( thread, buf, QueueType::ExternalThreadName ); fclose( f ); } else { GetProfiler().SendString( thread, "???", QueueType::ExternalThreadName ); } sprintf( fn, "/proc/%" PRIu64 "/status", thread ); f = fopen( fn, "rb" ); if( f ) { int pid = -1; size_t lsz = 1024; auto line = (char*)malloc( lsz ); for(;;) { auto rd = getline( &line, &lsz, f ); if( rd <= 0 ) break; if( memcmp( "Tgid:\t", line, 6 ) == 0 ) { pid = atoi( line + 6 ); break; } } free( line ); fclose( f ); if( pid >= 0 ) { { uint64_t _pid = pid; Magic magic; auto token = GetToken(); auto& tail = token->get_tail_index(); auto item = token->enqueue_begin( magic ); MemWrite( &item->hdr.type, QueueType::TidToPid ); MemWrite( &item->tidToPid.tid, thread ); MemWrite( &item->tidToPid.pid, _pid ); tail.store( magic + 1, std::memory_order_release ); } sprintf( fn, "/proc/%i/comm", pid ); f = fopen( fn, "rb" ); if( f ) { char buf[256]; const auto sz = fread( buf, 1, 256, f ); if( sz > 0 && buf[sz-1] == '\n' ) buf[sz-1] = '\0'; GetProfiler().SendString( thread, buf, QueueType::ExternalName ); fclose( f ); return; } } } GetProfiler().SendString( thread, "???", QueueType::ExternalName ); } } # endif #endif