/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ // Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include #include #include #include #include #include #include #include #include #include #include #include #include "base/basictypes.h" #include "base/command_line.h" #include "base/eintr_wrapper.h" #include "base/logging.h" #include "base/platform_thread.h" #include "base/process_util.h" #include "base/time.h" #include "base/waitable_event.h" #include "base/dir_reader_posix.h" #include "mozilla/UniquePtr.h" #include "mozilla/Unused.h" // For PR_DuplicateEnvironment: #include "prenv.h" #include "prmem.h" #ifdef MOZ_ENABLE_FORKSERVER # include "mozilla/ipc/ForkServiceChild.h" #endif // We could configure-test for `waitid`, but it's been in POSIX for a // long time and OpenBSD seems to be the only Unix we target that // doesn't have it. Note that `waitid` is used to resolve a conflict // with the crash reporter, which isn't available on OpenBSD. #ifndef __OpenBSD__ # define HAVE_WAITID #endif namespace base { ProcessId GetCurrentProcId() { return getpid(); } ProcessHandle GetCurrentProcessHandle() { return GetCurrentProcId(); } bool OpenProcessHandle(ProcessId pid, ProcessHandle* handle) { // On Posix platforms, process handles are the same as PIDs, so we // don't need to do anything. *handle = pid; return true; } bool OpenPrivilegedProcessHandle(ProcessId pid, ProcessHandle* handle) { // On POSIX permissions are checked for each operation on process, // not when opening a "handle". return OpenProcessHandle(pid, handle); } void CloseProcessHandle(ProcessHandle process) { // See OpenProcessHandle, nothing to do. return; } ProcessId GetProcId(ProcessHandle process) { return process; } // Attempts to kill the process identified by the given process // entry structure. Ignores specified exit_code; posix can't force that. // Returns true if this is successful, false otherwise. bool KillProcess(ProcessHandle process_id, int exit_code) { // It's too easy to accidentally kill pid 0 (meaning the caller's // process group) or pid -1 (all other processes killable by this // user), and neither they nor other negative numbers (process // groups) are legitimately used by this function's callers, so // reject them all. if (process_id <= 0) { CHROMIUM_LOG(WARNING) << "base::KillProcess refusing to kill pid " << process_id; return false; } bool result = kill(process_id, SIGTERM) == 0; if (!result && (errno == ESRCH)) { result = true; } if (!result) DLOG(ERROR) << "Unable to terminate process."; return result; } #ifdef ANDROID typedef unsigned long int rlim_t; #endif // A class to handle auto-closing of DIR*'s. class ScopedDIRClose { public: inline void operator()(DIR* x) const { if (x) { closedir(x); } } }; typedef mozilla::UniquePtr ScopedDIR; void CloseSuperfluousFds(void* aCtx, bool (*aShouldPreserve)(void*, int)) { // DANGER: no calls to malloc (or locks, etc.) are allowed from now on: // https://crbug.com/36678 // Also, beware of STL iterators: https://crbug.com/331459 #if defined(ANDROID) static const rlim_t kSystemDefaultMaxFds = 1024; static const char kFDDir[] = "/proc/self/fd"; #elif defined(XP_LINUX) || defined(XP_SOLARIS) static const rlim_t kSystemDefaultMaxFds = 8192; static const char kFDDir[] = "/proc/self/fd"; #elif defined(XP_DARWIN) static const rlim_t kSystemDefaultMaxFds = 256; static const char kFDDir[] = "/dev/fd"; #elif defined(__DragonFly__) || defined(XP_FREEBSD) || defined(XP_NETBSD) || \ defined(XP_OPENBSD) // the getrlimit below should never fail, so whatever .. static const rlim_t kSystemDefaultMaxFds = 1024; // at least /dev/fd will exist static const char kFDDir[] = "/dev/fd"; #endif // Get the maximum number of FDs possible. struct rlimit nofile; rlim_t max_fds; if (getrlimit(RLIMIT_NOFILE, &nofile)) { // getrlimit failed. Take a best guess. max_fds = kSystemDefaultMaxFds; DLOG(ERROR) << "getrlimit(RLIMIT_NOFILE) failed: " << errno; } else { max_fds = nofile.rlim_cur; } if (max_fds > INT_MAX) max_fds = INT_MAX; DirReaderPosix fd_dir(kFDDir); if (!fd_dir.IsValid()) { // Fallback case: Try every possible fd. for (rlim_t i = 0; i < max_fds; ++i) { const int fd = static_cast(i); if (fd == STDIN_FILENO || fd == STDOUT_FILENO || fd == STDERR_FILENO || aShouldPreserve(aCtx, fd)) { continue; } // Since we're just trying to close anything we can find, // ignore any error return values of close(). close(fd); } return; } const int dir_fd = fd_dir.fd(); for (; fd_dir.Next();) { // Skip . and .. entries. if (fd_dir.name()[0] == '.') continue; char* endptr; errno = 0; const long int fd = strtol(fd_dir.name(), &endptr, 10); if (fd_dir.name()[0] == 0 || *endptr || fd < 0 || errno) continue; if (fd == dir_fd) continue; if (fd == STDIN_FILENO || fd == STDOUT_FILENO || fd == STDERR_FILENO || aShouldPreserve(aCtx, fd)) { continue; } // When running under Valgrind, Valgrind opens several FDs for its // own use and will complain if we try to close them. All of // these FDs are >= |max_fds|, so we can check against that here // before closing. See https://bugs.kde.org/show_bug.cgi?id=191758 if (fd < static_cast(max_fds)) { int ret = IGNORE_EINTR(close(fd)); if (ret != 0) { DLOG(ERROR) << "Problem closing fd"; } } } } bool IsProcessDead(ProcessHandle handle, bool blocking) { auto handleForkServer = [handle]() -> mozilla::Maybe { #ifdef MOZ_ENABLE_FORKSERVER if (errno == ECHILD && mozilla::ipc::ForkServiceChild::WasUsed()) { // We only know if a process exists, but not if it has crashed. // // Since content processes are not direct children of the chrome // process any more, it is impossible to use |waitpid()| to wait for // them. const int r = kill(handle, 0); // FIXME: for unexpected errors we should probably log a warning // and return true, so that the caller doesn't loop / hang / // try to kill the process. (Bug 1658072 will rewrite this code.) return mozilla::Some(r < 0 && errno == ESRCH); } #else mozilla::Unused << handle; #endif return mozilla::Nothing(); }; #ifdef HAVE_WAITID // We use `WNOWAIT` to read the process status without // side-effecting it, in case it's something unexpected like a // ptrace-stop for the crash reporter. If is an exit, the call is // reissued (see the end of this function) without that flag in // order to collect the process. siginfo_t si{}; const int wflags = WEXITED | WNOWAIT | (blocking ? 0 : WNOHANG); int result = HANDLE_EINTR(waitid(P_PID, handle, &si, wflags)); if (result == -1) { if (auto forkServerReturn = handleForkServer()) { return *forkServerReturn; } // This shouldn't happen, but sometimes it does. The error is // probably ECHILD and the reason is probably that a pid was // waited on again after a previous wait reclaimed its zombie. // (It could also occur if the process isn't a direct child, but // don't do that.) This is bad, because it risks interfering with // an unrelated child process if the pid is reused. // // So, lacking reliable information, we indicate that the process // is dead, in the hope that the caller will give up and stop // calling us. See also bug 943174 and bug 933680. CHROMIUM_LOG(ERROR) << "waitid failed pid:" << handle << " errno:" << errno; return true; } if (si.si_pid == 0) { // the child hasn't exited yet. return false; } DCHECK(si.si_pid == handle); switch (si.si_code) { case CLD_STOPPED: case CLD_CONTINUED: DCHECK(false) << "waitid returned an event type that it shouldn't have"; [[fallthrough]]; case CLD_TRAPPED: CHROMIUM_LOG(WARNING) << "ignoring non-exit event for process " << handle; return false; case CLD_KILLED: case CLD_DUMPED: CHROMIUM_LOG(WARNING) << "process " << handle << " exited on signal " << si.si_status; break; case CLD_EXITED: if (si.si_status != 0) { CHROMIUM_LOG(WARNING) << "process " << handle << " exited with status " << si.si_status; } break; default: CHROMIUM_LOG(ERROR) << "unexpected waitid si_code value: " << si.si_code; DCHECK(false); // This shouldn't happen, but assume that the process exited to // avoid the caller possibly ending up in a loop. } // Now consume the status / collect the dead process const int old_si_code = si.si_code; si.si_pid = 0; // In theory it shouldn't matter either way if we use `WNOHANG` at // this point, but just in case, avoid unexpected blocking. result = HANDLE_EINTR(waitid(P_PID, handle, &si, WEXITED | WNOHANG)); DCHECK(result == 0); DCHECK(si.si_pid == handle); DCHECK(si.si_code == old_si_code); return true; #else // no waitid int status; const int result = waitpid(handle, &status, blocking ? 0 : WNOHANG); if (result == -1) { if (auto forkServerReturn = handleForkServer()) { return *forkServerReturn; } CHROMIUM_LOG(ERROR) << "waitpid failed pid:" << handle << " errno:" << errno; return true; } if (result == 0) { return false; } if (WIFEXITED(status) && WEXITSTATUS(status) != 0) { CHROMIUM_LOG(WARNING) << "process " << handle << " exited with status " << WEXITSTATUS(status); } else if (WIFSIGNALED(status)) { CHROMIUM_LOG(WARNING) << "process " << handle << " exited on signal " << WTERMSIG(status); } return true; #endif // waitid } void FreeEnvVarsArray::operator()(char** array) { for (char** varPtr = array; *varPtr != nullptr; ++varPtr) { free(*varPtr); } delete[] array; } EnvironmentArray BuildEnvironmentArray(const environment_map& env_vars_to_set) { base::environment_map combined_env_vars = env_vars_to_set; char** environ = PR_DuplicateEnvironment(); for (char** varPtr = environ; *varPtr != nullptr; ++varPtr) { std::string varString = *varPtr; size_t equalPos = varString.find_first_of('='); std::string varName = varString.substr(0, equalPos); std::string varValue = varString.substr(equalPos + 1); if (combined_env_vars.find(varName) == combined_env_vars.end()) { combined_env_vars[varName] = varValue; } PR_Free(*varPtr); // PR_DuplicateEnvironment() uses PR_Malloc(). } PR_Free(environ); // PR_DuplicateEnvironment() uses PR_Malloc(). EnvironmentArray array(new char*[combined_env_vars.size() + 1]); size_t i = 0; for (const auto& key_val : combined_env_vars) { std::string entry(key_val.first); entry += "="; entry += key_val.second; array[i] = strdup(entry.c_str()); i++; } array[i] = nullptr; return array; } } // namespace base namespace mozilla { EnvironmentLog::EnvironmentLog(const char* varname, size_t len) { const char* e = getenv(varname); if (e && *e) { fname_ = e; } } void EnvironmentLog::print(const char* format, ...) { if (!fname_.size()) return; FILE* f; if (fname_.compare("-") == 0) { f = fdopen(dup(STDOUT_FILENO), "a"); } else { f = fopen(fname_.c_str(), "a"); } if (!f) return; va_list a; va_start(a, format); vfprintf(f, format, a); va_end(a); fclose(f); } } // namespace mozilla