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Diffstat (limited to 'sal/osl/unx/process.cxx')
-rw-r--r-- | sal/osl/unx/process.cxx | 1203 |
1 files changed, 1203 insertions, 0 deletions
diff --git a/sal/osl/unx/process.cxx b/sal/osl/unx/process.cxx new file mode 100644 index 0000000000..cebdc6f35f --- /dev/null +++ b/sal/osl/unx/process.cxx @@ -0,0 +1,1203 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + * + * This file incorporates work covered by the following license notice: + * + * Licensed to the Apache Software Foundation (ASF) under one or more + * contributor license agreements. See the NOTICE file distributed + * with this work for additional information regarding copyright + * ownership. The ASF licenses this file to you under the Apache + * License, Version 2.0 (the "License"); you may not use this file + * except in compliance with the License. You may obtain a copy of + * the License at http://www.apache.org/licenses/LICENSE-2.0 . + */ + +#include <sal/config.h> +#include <rtl/ustring.hxx> + +#include <cassert> +#include <fcntl.h> +#include <limits.h> +#include <sys/time.h> +#include <sys/wait.h> +#include <unistd.h> + +/* + * ToDo: + * - cleanup of process status things + * - cleanup of process spawning + * - cleanup of resource transfer + */ + +#if defined(__sun) + // The procfs may only be used without LFS in 32bits. +# ifdef _FILE_OFFSET_BITS +# undef _FILE_OFFSET_BITS +# endif +#endif + +#if defined(FREEBSD) || defined(NETBSD) || defined(DRAGONFLY) +#include <machine/param.h> +#endif + +#ifdef IOS +#include <signal.h> +#endif + +#include "system.hxx" +#include "unixerrnostring.hxx" +#if defined(__sun) +# include <sys/procfs.h> +#endif +#include <osl/diagnose.h> +#include <osl/mutex.h> +#include <osl/process.h> +#include <osl/conditn.h> +#include <osl/thread.h> +#include <osl/file.h> +#include <osl/file.hxx> +#include <sal/log.hxx> + +#include "createfilehandlefromfd.hxx" +#include "file_url.hxx" +#include "readwrite_helper.hxx" +#include "secimpl.hxx" + +#define MAX_ARGS 255 +#define MAX_ENVS 255 + +namespace +{ + +struct oslProcessImpl { + pid_t m_pid; + oslCondition m_terminated; + int m_status; + oslProcessImpl* m_pnext; +}; + +struct ProcessData +{ + const char* m_pszArgs[MAX_ARGS + 1]; + const char* m_pszDir; + char* m_pszEnv[MAX_ENVS + 1]; + uid_t m_uid; + gid_t m_gid; + char* m_name; + oslCondition m_started; + oslProcessImpl* m_pProcImpl; + oslFileHandle *m_pInputWrite; + oslFileHandle *m_pOutputRead; + oslFileHandle *m_pErrorRead; +}; + +oslProcessImpl* ChildList; +oslMutex ChildListMutex; + +} //Anonymous namespace + +static oslProcessError osl_psz_executeProcess(char *pszImageName, + char *pszArguments[], + oslProcessOption Options, + oslSecurity Security, + char *pszDirectory, + char *pszEnvironments[], + oslProcess *pProcess, + oslFileHandle *pInputWrite, + oslFileHandle *pOutputRead, + oslFileHandle *pErrorRead ); + +extern "C" { + +static void ChildStatusProc(void *pData) +{ + osl_setThreadName("osl_executeProcess"); + + pid_t pid = -1; + int status = 0; + int channel[2] = { -1, -1 }; + ProcessData data; + ProcessData *pdata; + int stdOutput[2] = { -1, -1 }, stdInput[2] = { -1, -1 }, stdError[2] = { -1, -1 }; + + pdata = static_cast<ProcessData *>(pData); + + /* make a copy of our data, because forking will only copy + our local stack of the thread, so the process data will not be accessible + in our child process */ + memcpy(&data, pData, sizeof(data)); + +#ifdef NO_CHILD_PROCESSES +#define fork() (errno = EINVAL, -1) +#endif + if (socketpair(AF_UNIX, SOCK_STREAM, 0, channel) == -1) + { + status = errno; + SAL_WARN("sal.osl", "executeProcess socketpair() errno " << status); + } + + (void) fcntl(channel[0], F_SETFD, FD_CLOEXEC); + (void) fcntl(channel[1], F_SETFD, FD_CLOEXEC); + + /* Create redirected IO pipes */ + if ( status == 0 && data.m_pInputWrite && pipe( stdInput ) == -1 ) + { + status = errno; + assert(status != 0); + SAL_WARN("sal.osl", "executeProcess pipe(stdInput) errno " << status); + } + + if ( status == 0 && data.m_pOutputRead && pipe( stdOutput ) == -1 ) + { + status = errno; + assert(status != 0); + SAL_WARN("sal.osl", "executeProcess pipe(stdOutput) errno " << status); + } + + if ( status == 0 && data.m_pErrorRead && pipe( stdError ) == -1 ) + { + status = errno; + assert(status != 0); + SAL_WARN("sal.osl", "executeProcess pipe(stdError) errno " << status); + } + + if ( (status == 0) && ((pid = fork()) == 0) ) + { + /* Child */ + int chstatus = 0; + int errno_copy; + + if (channel[0] != -1) close(channel[0]); + + if ((data.m_uid != uid_t(-1)) && ((data.m_uid != getuid()) || (data.m_gid != getgid()))) + { + OSL_ASSERT(geteuid() == 0); /* must be root */ + + if (! INIT_GROUPS(data.m_name, data.m_gid) || (setuid(data.m_uid) != 0)) + { + // ignore; can't do much about it here after fork + } + + unsetenv("HOME"); + } + + if (data.m_pszDir) + chstatus = chdir(data.m_pszDir); + + if (chstatus == 0 && ((data.m_uid == uid_t(-1)) || ((data.m_uid == getuid()) && (data.m_gid == getgid())))) + { + int i; + for (i = 0; data.m_pszEnv[i] != nullptr; i++) + { + if (strchr(data.m_pszEnv[i], '=') == nullptr) + { + unsetenv(data.m_pszEnv[i]); /*TODO: check error return*/ + } + else + { + putenv(data.m_pszEnv[i]); /*TODO: check error return*/ + } + } + + /* Connect std IO to pipe ends */ + + /* Write end of stdInput not used in child process */ + if (stdInput[1] != -1) close( stdInput[1] ); + + /* Read end of stdOutput not used in child process */ + if (stdOutput[0] != -1) close( stdOutput[0] ); + + /* Read end of stdError not used in child process */ + if (stdError[0] != -1) close( stdError[0] ); + + /* Redirect pipe ends to std IO */ + + if ( stdInput[0] != STDIN_FILENO ) + { + dup2( stdInput[0], STDIN_FILENO ); + if (stdInput[0] != -1) close( stdInput[0] ); + } + + if ( stdOutput[1] != STDOUT_FILENO ) + { + dup2( stdOutput[1], STDOUT_FILENO ); + if (stdOutput[1] != -1) close( stdOutput[1] ); + } + + if ( stdError[1] != STDERR_FILENO ) + { + dup2( stdError[1], STDERR_FILENO ); + if (stdError[1] != -1) close( stdError[1] ); + } + + // No need to check the return value of execv. If we return from + // it, an error has occurred. + execv(data.m_pszArgs[0], const_cast<char **>(data.m_pszArgs)); + } + + /* if we reach here, something went wrong */ + errno_copy = errno; + if ( !safeWrite(channel[1], &errno_copy, sizeof(errno_copy)) ) + { + // ignore; can't do much about it here after fork + } + + if ( channel[1] != -1 ) + close(channel[1]); + + _exit(255); + } + else + { /* Parent */ + int i = -1; + if (channel[1] != -1) close(channel[1]); + + /* Close unused pipe ends */ + if (stdInput[0] != -1) close( stdInput[0] ); + if (stdOutput[1] != -1) close( stdOutput[1] ); + if (stdError[1] != -1) close( stdError[1] ); + + if (pid > 0) + { + while ((i = read(channel[0], &status, sizeof(status))) < 0) + { + if (errno != EINTR) + break; + } + } + + if (channel[0] != -1) close(channel[0]); + + if ((pid > 0) && (i == 0)) + { + pid_t child_pid; + osl_acquireMutex(ChildListMutex); + + pdata->m_pProcImpl->m_pid = pid; + pdata->m_pProcImpl->m_pnext = ChildList; + ChildList = pdata->m_pProcImpl; + + /* Store used pipe ends in data structure */ + + if ( pdata->m_pInputWrite ) + *(pdata->m_pInputWrite) = osl::detail::createFileHandleFromFD( stdInput[1] ); + + if ( pdata->m_pOutputRead ) + *(pdata->m_pOutputRead) = osl::detail::createFileHandleFromFD( stdOutput[0] ); + + if ( pdata->m_pErrorRead ) + *(pdata->m_pErrorRead) = osl::detail::createFileHandleFromFD( stdError[0] ); + + osl_releaseMutex(ChildListMutex); + + osl_setCondition(pdata->m_started); + + do + { + child_pid = waitpid(pid, &status, 0); + } while ( 0 > child_pid && EINTR == errno ); + + if ( child_pid < 0) + { + SAL_WARN("sal.osl", "Failed to wait for child process: " << UnixErrnoString(errno)); + + /* + We got another error than EINTR. Anyway we have to wake up the + waiting thread under any circumstances */ + + child_pid = pid; + } + + if ( child_pid > 0 ) + { + oslProcessImpl* pChild; + + osl_acquireMutex(ChildListMutex); + + pChild = ChildList; + + /* check if it is one of our child processes */ + while (pChild != nullptr) + { + if (pChild->m_pid == child_pid) + { + if (WIFEXITED(status)) + pChild->m_status = WEXITSTATUS(status); + else if (WIFSIGNALED(status)) + pChild->m_status = 128 + WTERMSIG(status); + else + pChild->m_status = -1; + + // coverity[lock_order : FALSE] - incorrect report of lock order error + osl_setCondition(pChild->m_terminated); + } + + pChild = pChild->m_pnext; + } + + osl_releaseMutex(ChildListMutex); + } + } + else + { + SAL_WARN("sal.osl", "ChildStatusProc : starting '" << data.m_pszArgs[0] << "' failed"); + SAL_WARN("sal.osl", "Failed to launch child process, child reports " << UnixErrnoString(status)); + + /* Close pipe ends */ + if ( pdata->m_pInputWrite ) + *pdata->m_pInputWrite = nullptr; + + if ( pdata->m_pOutputRead ) + *pdata->m_pOutputRead = nullptr; + + if ( pdata->m_pErrorRead ) + *pdata->m_pErrorRead = nullptr; + + if (stdInput[1] != -1) close( stdInput[1] ); + if (stdOutput[0] != -1) close( stdOutput[0] ); + if (stdError[0] != -1) close( stdError[0] ); + + /* if pid > 0 then a process was created, even if it later failed + e.g. bash searching for a command to execute, and we still + need to clean it up to avoid "defunct" processes */ + if (pid > 0) + { + pid_t child_pid; + do + { + child_pid = waitpid(pid, &status, 0); + } while ( 0 > child_pid && EINTR == errno ); + } + + /* notify (and unblock) parent thread */ + osl_setCondition(pdata->m_started); + } + } +} + +} + +oslProcessError SAL_CALL osl_executeProcess_WithRedirectedIO( + rtl_uString *ustrImageName, + rtl_uString *ustrArguments[], + sal_uInt32 nArguments, + oslProcessOption Options, + oslSecurity Security, + rtl_uString *ustrWorkDir, + rtl_uString *ustrEnvironment[], + sal_uInt32 nEnvironmentVars, + oslProcess *pProcess, + oslFileHandle *pInputWrite, + oslFileHandle *pOutputRead, + oslFileHandle *pErrorRead + ) +{ + OUString image; + if (ustrImageName == nullptr) + { + if (nArguments == 0) + { + return osl_Process_E_InvalidError; + } + image = OUString::unacquired(ustrArguments); + } + else + { + osl::FileBase::RC e = osl::FileBase::getSystemPathFromFileURL( + OUString::unacquired(&ustrImageName), image); + if (e != osl::FileBase::E_None) + { + SAL_INFO( + "sal.osl", + "getSystemPathFromFileURL(" + << OUString::unacquired(&ustrImageName) + << ") failed with " << e); + return osl_Process_E_Unknown; + } + } + + if ((Options & osl_Process_SEARCHPATH) != 0) + { + OUString path; + if (osl::detail::find_in_PATH(image, path)) + { + image = path; + } + } + + oslProcessError Error; + char* pszWorkDir=nullptr; + char** pArguments=nullptr; + char** pEnvironment=nullptr; + unsigned int idx; + + char szImagePath[PATH_MAX] = ""; + if (!image.isEmpty() + && (UnicodeToText( + szImagePath, SAL_N_ELEMENTS(szImagePath), image.getStr(), + image.getLength()) + == 0)) + { + int e = errno; + SAL_INFO("sal.osl", "UnicodeToText(" << image << ") failed with " << e); + return osl_Process_E_Unknown; + } + + char szWorkDir[PATH_MAX] = ""; + if ( ustrWorkDir != nullptr && ustrWorkDir->length ) + { + oslFileError e = FileURLToPath( szWorkDir, PATH_MAX, ustrWorkDir ); + if (e != osl_File_E_None) + { + SAL_INFO( + "sal.osl", + "FileURLToPath(" << OUString::unacquired(&ustrWorkDir) + << ") failed with " << e); + return osl_Process_E_Unknown; + } + pszWorkDir = szWorkDir; + } + + if ( pArguments == nullptr && nArguments > 0 ) + { + pArguments = static_cast<char**>(malloc( ( nArguments + 2 ) * sizeof(char*) )); + } + + for ( idx = 0 ; idx < nArguments ; ++idx ) + { + rtl_String* strArg =nullptr; + + rtl_uString2String( &strArg, + rtl_uString_getStr(ustrArguments[idx]), + rtl_uString_getLength(ustrArguments[idx]), + osl_getThreadTextEncoding(), + OUSTRING_TO_OSTRING_CVTFLAGS ); + + pArguments[idx]=strdup(rtl_string_getStr(strArg)); + rtl_string_release(strArg); + pArguments[idx+1]=nullptr; + } + + for ( idx = 0 ; idx < nEnvironmentVars ; ++idx ) + { + rtl_String* strEnv=nullptr; + + if ( pEnvironment == nullptr ) + { + pEnvironment = static_cast<char**>(malloc( ( nEnvironmentVars + 2 ) * sizeof(char*) )); + } + + rtl_uString2String( &strEnv, + rtl_uString_getStr(ustrEnvironment[idx]), + rtl_uString_getLength(ustrEnvironment[idx]), + osl_getThreadTextEncoding(), + OUSTRING_TO_OSTRING_CVTFLAGS ); + + pEnvironment[idx]=strdup(rtl_string_getStr(strEnv)); + rtl_string_release(strEnv); + pEnvironment[idx+1]=nullptr; + } + + Error = osl_psz_executeProcess(szImagePath, + pArguments, + Options, + Security, + pszWorkDir, + pEnvironment, + pProcess, + pInputWrite, + pOutputRead, + pErrorRead + ); + + if ( pArguments != nullptr ) + { + for ( idx = 0 ; idx < nArguments ; ++idx ) + { + if ( pArguments[idx] != nullptr ) + { + free(pArguments[idx]); + } + } + free(pArguments); + } + + if ( pEnvironment != nullptr ) + { + for ( idx = 0 ; idx < nEnvironmentVars ; ++idx ) + { + if ( pEnvironment[idx] != nullptr ) + { + free(pEnvironment[idx]); + } + } + free(pEnvironment); + } + + return Error; +} + +oslProcessError SAL_CALL osl_executeProcess( + rtl_uString *ustrImageName, + rtl_uString *ustrArguments[], + sal_uInt32 nArguments, + oslProcessOption Options, + oslSecurity Security, + rtl_uString *ustrWorkDir, + rtl_uString *ustrEnvironment[], + sal_uInt32 nEnvironmentVars, + oslProcess *pProcess + ) +{ + return osl_executeProcess_WithRedirectedIO( + ustrImageName, + ustrArguments, + nArguments, + Options, + Security, + ustrWorkDir, + ustrEnvironment, + nEnvironmentVars, + pProcess, + nullptr, + nullptr, + nullptr + ); +} + +oslProcessError osl_psz_executeProcess(char *pszImageName, + char *pszArguments[], + oslProcessOption Options, + oslSecurity Security, + char *pszDirectory, + char *pszEnvironments[], + oslProcess *pProcess, + oslFileHandle *pInputWrite, + oslFileHandle *pOutputRead, + oslFileHandle *pErrorRead + ) +{ + int i; + ProcessData Data; + oslThread hThread; + + memset(&Data,0,sizeof(ProcessData)); + Data.m_pInputWrite = pInputWrite; + Data.m_pOutputRead = pOutputRead; + Data.m_pErrorRead = pErrorRead; + + OSL_ASSERT(pszImageName != nullptr); + + if ( pszImageName == nullptr ) + { + return osl_Process_E_NotFound; + } + + Data.m_pszArgs[0] = strdup(pszImageName); + Data.m_pszArgs[1] = nullptr; + + if ( pszArguments != nullptr ) + { + for (i = 0; ((i + 2) < MAX_ARGS) && (pszArguments[i] != nullptr); i++) + Data.m_pszArgs[i+1] = strdup(pszArguments[i]); + Data.m_pszArgs[i+2] = nullptr; + } + + Data.m_pszDir = (pszDirectory != nullptr) ? strdup(pszDirectory) : nullptr; + + if (pszEnvironments != nullptr) + { + for (i = 0; ((i + 1) < MAX_ENVS) && (pszEnvironments[i] != nullptr); i++) + Data.m_pszEnv[i] = strdup(pszEnvironments[i]); + Data.m_pszEnv[i+1] = nullptr; + } + else + Data.m_pszEnv[0] = nullptr; + + if (Security != nullptr) + { + Data.m_uid = static_cast<oslSecurityImpl*>(Security)->m_pPasswd.pw_uid; + Data.m_gid = static_cast<oslSecurityImpl*>(Security)->m_pPasswd.pw_gid; + Data.m_name = static_cast<oslSecurityImpl*>(Security)->m_pPasswd.pw_name; + } + else + Data.m_uid = uid_t(-1); + + Data.m_pProcImpl = static_cast<oslProcessImpl*>(malloc(sizeof(oslProcessImpl))); + Data.m_pProcImpl->m_pid = 0; + Data.m_pProcImpl->m_terminated = osl_createCondition(); + Data.m_pProcImpl->m_pnext = nullptr; + + if (ChildListMutex == nullptr) + ChildListMutex = osl_createMutex(); + + Data.m_started = osl_createCondition(); + + hThread = osl_createThread(ChildStatusProc, &Data); + + if (hThread != nullptr) + { + osl_waitCondition(Data.m_started, nullptr); + } + osl_destroyCondition(Data.m_started); + + for (i = 0; Data.m_pszArgs[i] != nullptr; i++) + free(const_cast<char *>(Data.m_pszArgs[i])); + + for (i = 0; Data.m_pszEnv[i] != nullptr; i++) + free(Data.m_pszEnv[i]); + + if ( Data.m_pszDir != nullptr ) + { + free(const_cast<char *>(Data.m_pszDir)); + } + + osl_destroyThread(hThread); + + if (Data.m_pProcImpl->m_pid != 0) + { + assert(hThread != nullptr); + + *pProcess = Data.m_pProcImpl; + + if (Options & osl_Process_WAIT) + osl_joinProcess(*pProcess); + + return osl_Process_E_None; + } + + osl_destroyCondition(Data.m_pProcImpl->m_terminated); + free(Data.m_pProcImpl); + + return osl_Process_E_Unknown; +} + +oslProcessError SAL_CALL osl_terminateProcess(oslProcess Process) +{ + if (Process == nullptr) + return osl_Process_E_Unknown; + + if (kill(static_cast<oslProcessImpl*>(Process)->m_pid, SIGKILL) != 0) + { + switch (errno) + { + case EPERM: + return osl_Process_E_NoPermission; + + case ESRCH: + return osl_Process_E_NotFound; + + default: + return osl_Process_E_Unknown; + } + } + + return osl_Process_E_None; +} + +oslProcess SAL_CALL osl_getProcess(oslProcessIdentifier Ident) +{ + oslProcessImpl *pProcImpl; + + if (kill(Ident, 0) != -1) + { + oslProcessImpl* pChild; + + if (ChildListMutex == nullptr) + ChildListMutex = osl_createMutex(); + + osl_acquireMutex(ChildListMutex); + + pChild = ChildList; + + /* check if it is one of our child processes */ + while (pChild != nullptr) + { + if (Ident == static_cast<sal_uInt32>(pChild->m_pid)) + break; + + pChild = pChild->m_pnext; + } + + pProcImpl = static_cast<oslProcessImpl*>(malloc(sizeof(oslProcessImpl))); + pProcImpl->m_pid = Ident; + pProcImpl->m_terminated = osl_createCondition(); + + if (pChild != nullptr) + { + /* process is a child so insert into list */ + pProcImpl->m_pnext = pChild->m_pnext; + pChild->m_pnext = pProcImpl; + + pProcImpl->m_status = pChild->m_status; + + // coverity[lock_order : FALSE] - incorrect report of lock order error + if (osl_checkCondition(pChild->m_terminated)) + { + // coverity[lock_order : FALSE] - incorrect report of lock order error + osl_setCondition(pProcImpl->m_terminated); + } + } + else + pProcImpl->m_pnext = nullptr; + + osl_releaseMutex(ChildListMutex); + } + else + pProcImpl = nullptr; + + return pProcImpl; +} + +void SAL_CALL osl_freeProcessHandle(oslProcess Process) +{ + if (Process == nullptr) + return; + + oslProcessImpl *pChild, *pPrev = nullptr; + + OSL_ASSERT(ChildListMutex != nullptr); + + if ( ChildListMutex == nullptr ) + { + return; + } + + osl_acquireMutex(ChildListMutex); + + pChild = ChildList; + + /* remove process from child list */ + while (pChild != nullptr) + { + if (pChild == static_cast<oslProcessImpl*>(Process)) + { + if (pPrev != nullptr) + pPrev->m_pnext = pChild->m_pnext; + else + ChildList = pChild->m_pnext; + + break; + } + + pPrev = pChild; + pChild = pChild->m_pnext; + } + + osl_releaseMutex(ChildListMutex); + + osl_destroyCondition(static_cast<oslProcessImpl*>(Process)->m_terminated); + + free(Process); +} + +#if defined(LINUX) +namespace { + +struct osl_procStat +{ + /* from 'stat' */ + pid_t pid; /* pid */ + char command[16]; /* 'argv[0]' */ /* mfe: it all right char comm[16] in kernel! */ + char state; /* state (running, stopped, ...) */ + pid_t ppid; /* parent pid */ + pid_t pgrp; /* parent group */ + int session; /* session ID */ + int tty; /* no of tty */ + pid_t tpgid; /* group of process owning the tty */ + unsigned long flags; /* flags dunno */ + unsigned long minflt; /* minor page faults */ + unsigned long cminflt; /* minor page faults with children */ + unsigned long majflt; /* major page faults */ + unsigned long cmajflt; /* major page faults with children */ + unsigned long utime; /* no of jiffies in user mode */ + unsigned long stime; /* no of jiffies in kernel mode */ + unsigned long cutime; /* no of jiffies in user mode with children */ + unsigned long cstime; /* no of jiffies in kernel mode with children */ + unsigned long priority; /* nice value + 15 (kernel scheduling prio)*/ + long nice; /* nice value */ + long timeout; /* no of jiffies of next process timeout */ + long itrealvalue; /* no jiffies before next SIGALRM */ + unsigned long starttime; /* process started this no of jiffies after boot */ + unsigned long vsize; /* virtual memory size (in bytes) */ + long rss; /* resident set size (in pages) */ + unsigned long rss_rlim; /* rss limit (in bytes) */ + unsigned long startcode; /* address above program text can run */ + unsigned long endcode; /* address below program text can run */ + unsigned long startstack; /* address of start of stack */ + unsigned long kstkesp; /* current value of 'esp' (stack pointer) */ + unsigned long kstkeip; /* current value of 'eip' (instruction pointer) */ + /* mfe: Linux > 2.1.7x have more signals (88) */ + char signal[24]; /* pending signals */ + char blocked[24]; /* blocked signals */ + char sigignore[24]; /* ignored signals */ + char sigcatch[24]; /* caught signals */ + unsigned long wchan; /* 'channel' the process is waiting in */ + unsigned long nswap; /* ? */ + unsigned long cnswap; /* ? */ + + /* from 'status' */ + int ruid; /* real uid */ + int euid; /* effective uid */ + int suid; /* saved uid */ + int fuid; /* file access uid */ + int rgid; /* real gid */ + int egid; /* effective gid */ + int sgid; /* saved gid */ + int fgid; /* file access gid */ + unsigned long vm_size; /* like vsize but on kb */ + unsigned long vm_lock; /* locked pages in kb */ + unsigned long vm_rss; /* like rss but in kb */ + unsigned long vm_data; /* data size */ + unsigned long vm_stack; /* stack size */ + unsigned long vm_exe; /* executable size */ + unsigned long vm_lib; /* library size */ +}; + +} + +static bool osl_getProcStat(pid_t pid, struct osl_procStat* procstat) +{ + int fd = 0; + bool bRet = false; + char name[PATH_MAX + 1]; + snprintf(name, sizeof(name), "/proc/%u/stat", pid); + + if ((fd = open(name,O_RDONLY)) >=0 ) + { + char* tmp=nullptr; + char prstatbuf[512]; + memset(prstatbuf,0,512); + bRet = safeRead(fd, prstatbuf, 511); + + close(fd); + + if (!bRet) + return false; + + tmp = strrchr(prstatbuf, ')'); + if(tmp) + { + *tmp = '\0'; + + memset(procstat->command, 0, sizeof(procstat->command)); + + sscanf(prstatbuf, "%d (%15c", &procstat->pid, procstat->command); + sscanf(tmp + 2, + "%c" + "%i %i %i %i %i" + "%lu %lu %lu %lu %lu" + "%lu %lu %lu %lu" + "%lu %li %li %li" + "%lu %lu %li %lu" + "%lu %lu %lu %lu %lu" + "%23s %23s %23s %23s" + "%lu %lu %lu", + &procstat->state, + &procstat->ppid, &procstat->pgrp, &procstat->session, &procstat->tty, &procstat->tpgid, + &procstat->flags, &procstat->minflt, &procstat->cminflt, &procstat->majflt, &procstat->cmajflt, + &procstat->utime, &procstat->stime, &procstat->cutime, &procstat->cstime, + &procstat->priority, &procstat->nice, &procstat->timeout, &procstat->itrealvalue, + &procstat->starttime, &procstat->vsize, &procstat->rss, &procstat->rss_rlim, + &procstat->startcode, &procstat->endcode, &procstat->startstack, &procstat->kstkesp, &procstat->kstkeip, + procstat->signal, procstat->blocked, procstat->sigignore, procstat->sigcatch, + &procstat->wchan, &procstat->nswap, &procstat->cnswap + ); + } + else + { + bRet = false; + } + } + return bRet; +} + +static bool osl_getProcStatus(pid_t pid, struct osl_procStat* procstat) +{ + int fd = 0; + char name[PATH_MAX + 1]; + bool bRet = false; + + snprintf(name, sizeof(name), "/proc/%u/status", pid); + + if ((fd = open(name,O_RDONLY)) >=0 ) + { + char* tmp=nullptr; + char prstatusbuf[512]; + memset(prstatusbuf,0,512); + bRet = safeRead(fd, prstatusbuf, 511); + + close(fd); + + if (!bRet) + return false; + + tmp = strstr(prstatusbuf,"Uid:"); + if(tmp) + { + sscanf(tmp,"Uid:\t%d\t%d\t%d\t%d", + &procstat->ruid, &procstat->euid, &procstat->suid, &procstat->fuid + ); + } + + tmp = strstr(prstatusbuf,"Gid:"); + if(tmp) + { + sscanf(tmp,"Gid:\t%d\t%d\t%d\t%d", + &procstat->rgid, &procstat->egid, &procstat->sgid, &procstat->fgid + ); + } + + tmp = strstr(prstatusbuf,"VmSize:"); + if(tmp) + { + sscanf(tmp, + "VmSize: %lu kB\n" + "VmLck: %lu kB\n" + "VmRSS: %lu kB\n" + "VmData: %lu kB\n" + "VmStk: %lu kB\n" + "VmExe: %lu kB\n" + "VmLib: %lu kB\n", + &procstat->vm_size, &procstat->vm_lock, &procstat->vm_rss, &procstat->vm_data, + &procstat->vm_stack, &procstat->vm_exe, &procstat->vm_lib + ); + } + + tmp = strstr(prstatusbuf,"SigPnd:"); + if(tmp) + { + sscanf(tmp, "SigPnd: %23s SigBlk: %23s SigIgn: %23s %*s %23s", + procstat->signal, procstat->blocked, procstat->sigignore, procstat->sigcatch + ); + } + } + return bRet; +} + +#endif + +oslProcessError SAL_CALL osl_getProcessInfo(oslProcess Process, oslProcessData Fields, oslProcessInfo* pInfo) +{ + pid_t pid; + + if (Process == nullptr) + pid = getpid(); + else + pid = static_cast<oslProcessImpl*>(Process)->m_pid; + + if (! pInfo || (pInfo->Size != sizeof(oslProcessInfo))) + return osl_Process_E_Unknown; + + pInfo->Fields = 0; + + if (Fields & osl_Process_IDENTIFIER) + { + pInfo->Ident = pid; + pInfo->Fields |= osl_Process_IDENTIFIER; + } + + if (Fields & osl_Process_EXITCODE) + { + if ((Process != nullptr) && + osl_checkCondition(static_cast<oslProcessImpl*>(Process)->m_terminated)) + { + pInfo->Code = static_cast<oslProcessImpl*>(Process)->m_status; + pInfo->Fields |= osl_Process_EXITCODE; + } + } + + if (Fields & (osl_Process_HEAPUSAGE | osl_Process_CPUTIMES)) + { + +#if defined(__sun) + + int fd; + char name[PATH_MAX + 1]; + + snprintf(name, sizeof(name), "/proc/%ld", (long)pid); + + if ((fd = open(name, O_RDONLY)) >= 0) + { + prstatus_t prstatus; + + if (ioctl(fd, PIOCSTATUS, &prstatus) >= 0) + { + if (Fields & osl_Process_CPUTIMES) + { + pInfo->UserTime.Seconds = prstatus.pr_utime.tv_sec; + pInfo->UserTime.Nanosec = prstatus.pr_utime.tv_nsec; + pInfo->SystemTime.Seconds = prstatus.pr_stime.tv_sec; + pInfo->SystemTime.Nanosec = prstatus.pr_stime.tv_nsec; + + pInfo->Fields |= osl_Process_CPUTIMES; + } + + if (Fields & osl_Process_HEAPUSAGE) + { + pInfo->HeapUsage = prstatus.pr_brksize; + + pInfo->Fields |= osl_Process_HEAPUSAGE; + } + + close(fd); + + return (pInfo->Fields == Fields) ? osl_Process_E_None : osl_Process_E_Unknown; + } + else + close(fd); + } + +#elif defined(LINUX) + + if ( (Fields & osl_Process_CPUTIMES) || (Fields & osl_Process_HEAPUSAGE) ) + { + struct osl_procStat procstat; + memset(&procstat,0,sizeof(procstat)); + + if ( (Fields & osl_Process_CPUTIMES) && osl_getProcStat(pid, &procstat) ) + { + /* + * mfe: + * We calculate only time of the process proper. + * Threads are processes, we do not consider their time here! + * (For this, cutime and cstime should be used, it seems not + * to work in 2.0.36) + */ + + long clktck; + unsigned long hz; + unsigned long userseconds; + unsigned long systemseconds; + + clktck = sysconf(_SC_CLK_TCK); + if (clktck <= 0) { + return osl_Process_E_Unknown; + } + hz = static_cast<unsigned long>(clktck); + + userseconds = procstat.utime/hz; + systemseconds = procstat.stime/hz; + + pInfo->UserTime.Seconds = userseconds; + pInfo->UserTime.Nanosec = procstat.utime - (userseconds * hz); + pInfo->SystemTime.Seconds = systemseconds; + pInfo->SystemTime.Nanosec = procstat.stime - (systemseconds * hz); + + pInfo->Fields |= osl_Process_CPUTIMES; + } + + if ( (Fields & osl_Process_HEAPUSAGE) && osl_getProcStatus(pid, &procstat) ) + { + /* + * mfe: + * vm_data (found in status) shows the size of the data segment + * it a rough approximation of the core heap size + */ + pInfo->HeapUsage = procstat.vm_data*1024; + + pInfo->Fields |= osl_Process_HEAPUSAGE; + } + } + + return (pInfo->Fields == Fields) ? osl_Process_E_None : osl_Process_E_Unknown; +#endif + + } + + return (pInfo->Fields == Fields) ? osl_Process_E_None : osl_Process_E_Unknown; +} + +/** Helper function for osl_joinProcessWithTimeout + */ + +static bool is_timeout(const struct timeval* tend) +{ + struct timeval tcurrent; + gettimeofday(&tcurrent, nullptr); + return (tcurrent.tv_sec >= tend->tv_sec); +} + +/* kill(pid, 0) is useful for checking if a + process is still alive, but remember that + kill even returns 0 if the process is already + a zombie. */ + +static bool is_process_dead(pid_t pid) +{ + return ((kill(pid, 0) == -1) && (ESRCH == errno)); +} + +oslProcessError SAL_CALL osl_joinProcessWithTimeout(oslProcess Process, const TimeValue* pTimeout) +{ + oslProcessImpl* pChild = ChildList; + oslProcessError osl_error = osl_Process_E_None; + + OSL_PRECOND(Process, "osl_joinProcess: Invalid parameter"); + OSL_ASSERT(ChildListMutex); + + if (Process == nullptr || ChildListMutex == nullptr) + return osl_Process_E_Unknown; + + osl_acquireMutex(ChildListMutex); + + /* check if process is a child of ours */ + while (pChild != nullptr) + { + if (pChild == static_cast<oslProcessImpl*>(Process)) + break; + + pChild = pChild->m_pnext; + } + + osl_releaseMutex(ChildListMutex); + + if (pChild != nullptr) + { + oslConditionResult cond_res = osl_waitCondition(pChild->m_terminated, pTimeout); + + if (cond_res == osl_cond_result_timeout) + osl_error = osl_Process_E_TimedOut; + else if (cond_res != osl_cond_result_ok) + osl_error = osl_Process_E_Unknown; + } + else /* alien process; StatusThread will not be able + to set the condition terminated */ + { + pid_t pid = static_cast<oslProcessImpl*>(Process)->m_pid; + + if (pTimeout) + { + bool timeout = false; + struct timeval tend; + + gettimeofday(&tend, nullptr); + + tend.tv_sec += pTimeout->Seconds; + + while (!is_process_dead(pid) && !(timeout = is_timeout(&tend))) + sleep(1); + + if (timeout) + osl_error = osl_Process_E_TimedOut; + } + else /* infinite */ + { + while (!is_process_dead(pid)) + sleep(1); + } + } + return osl_error; +} + +oslProcessError SAL_CALL osl_joinProcess(oslProcess Process) +{ + return osl_joinProcessWithTimeout(Process, nullptr); +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |