1*b0d29bc4SBrooks Davis // Copyright 2010 The Kyua Authors. 2*b0d29bc4SBrooks Davis // All rights reserved. 3*b0d29bc4SBrooks Davis // 4*b0d29bc4SBrooks Davis // Redistribution and use in source and binary forms, with or without 5*b0d29bc4SBrooks Davis // modification, are permitted provided that the following conditions are 6*b0d29bc4SBrooks Davis // met: 7*b0d29bc4SBrooks Davis // 8*b0d29bc4SBrooks Davis // * Redistributions of source code must retain the above copyright 9*b0d29bc4SBrooks Davis // notice, this list of conditions and the following disclaimer. 10*b0d29bc4SBrooks Davis // * Redistributions in binary form must reproduce the above copyright 11*b0d29bc4SBrooks Davis // notice, this list of conditions and the following disclaimer in the 12*b0d29bc4SBrooks Davis // documentation and/or other materials provided with the distribution. 13*b0d29bc4SBrooks Davis // * Neither the name of Google Inc. nor the names of its contributors 14*b0d29bc4SBrooks Davis // may be used to endorse or promote products derived from this software 15*b0d29bc4SBrooks Davis // without specific prior written permission. 16*b0d29bc4SBrooks Davis // 17*b0d29bc4SBrooks Davis // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 18*b0d29bc4SBrooks Davis // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 19*b0d29bc4SBrooks Davis // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 20*b0d29bc4SBrooks Davis // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 21*b0d29bc4SBrooks Davis // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 22*b0d29bc4SBrooks Davis // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 23*b0d29bc4SBrooks Davis // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 24*b0d29bc4SBrooks Davis // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 25*b0d29bc4SBrooks Davis // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 26*b0d29bc4SBrooks Davis // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 27*b0d29bc4SBrooks Davis // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 28*b0d29bc4SBrooks Davis 29*b0d29bc4SBrooks Davis #include "utils/process/child.ipp" 30*b0d29bc4SBrooks Davis 31*b0d29bc4SBrooks Davis extern "C" { 32*b0d29bc4SBrooks Davis #include <sys/stat.h> 33*b0d29bc4SBrooks Davis #include <sys/wait.h> 34*b0d29bc4SBrooks Davis 35*b0d29bc4SBrooks Davis #include <fcntl.h> 36*b0d29bc4SBrooks Davis #include <signal.h> 37*b0d29bc4SBrooks Davis #include <unistd.h> 38*b0d29bc4SBrooks Davis } 39*b0d29bc4SBrooks Davis 40*b0d29bc4SBrooks Davis #include <cerrno> 41*b0d29bc4SBrooks Davis #include <iostream> 42*b0d29bc4SBrooks Davis #include <memory> 43*b0d29bc4SBrooks Davis 44*b0d29bc4SBrooks Davis #include "utils/defs.hpp" 45*b0d29bc4SBrooks Davis #include "utils/format/macros.hpp" 46*b0d29bc4SBrooks Davis #include "utils/fs/path.hpp" 47*b0d29bc4SBrooks Davis #include "utils/logging/macros.hpp" 48*b0d29bc4SBrooks Davis #include "utils/noncopyable.hpp" 49*b0d29bc4SBrooks Davis #include "utils/process/exceptions.hpp" 50*b0d29bc4SBrooks Davis #include "utils/process/fdstream.hpp" 51*b0d29bc4SBrooks Davis #include "utils/process/operations.hpp" 52*b0d29bc4SBrooks Davis #include "utils/process/system.hpp" 53*b0d29bc4SBrooks Davis #include "utils/process/status.hpp" 54*b0d29bc4SBrooks Davis #include "utils/sanity.hpp" 55*b0d29bc4SBrooks Davis #include "utils/signals/interrupts.hpp" 56*b0d29bc4SBrooks Davis 57*b0d29bc4SBrooks Davis 58*b0d29bc4SBrooks Davis namespace utils { 59*b0d29bc4SBrooks Davis namespace process { 60*b0d29bc4SBrooks Davis 61*b0d29bc4SBrooks Davis 62*b0d29bc4SBrooks Davis /// Private implementation fields for child objects. 63*b0d29bc4SBrooks Davis struct child::impl : utils::noncopyable { 64*b0d29bc4SBrooks Davis /// The process identifier. 65*b0d29bc4SBrooks Davis pid_t _pid; 66*b0d29bc4SBrooks Davis 67*b0d29bc4SBrooks Davis /// The input stream for the process' stdout and stderr. May be NULL. 68*b0d29bc4SBrooks Davis std::auto_ptr< process::ifdstream > _output; 69*b0d29bc4SBrooks Davis 70*b0d29bc4SBrooks Davis /// Initializes private implementation data. 71*b0d29bc4SBrooks Davis /// 72*b0d29bc4SBrooks Davis /// \param pid The process identifier. 73*b0d29bc4SBrooks Davis /// \param output The input stream. Grabs ownership of the pointer. 74*b0d29bc4SBrooks Davis impl(const pid_t pid, process::ifdstream* output) : 75*b0d29bc4SBrooks Davis _pid(pid), _output(output) {} 76*b0d29bc4SBrooks Davis }; 77*b0d29bc4SBrooks Davis 78*b0d29bc4SBrooks Davis 79*b0d29bc4SBrooks Davis } // namespace process 80*b0d29bc4SBrooks Davis } // namespace utils 81*b0d29bc4SBrooks Davis 82*b0d29bc4SBrooks Davis 83*b0d29bc4SBrooks Davis namespace fs = utils::fs; 84*b0d29bc4SBrooks Davis namespace process = utils::process; 85*b0d29bc4SBrooks Davis namespace signals = utils::signals; 86*b0d29bc4SBrooks Davis 87*b0d29bc4SBrooks Davis 88*b0d29bc4SBrooks Davis namespace { 89*b0d29bc4SBrooks Davis 90*b0d29bc4SBrooks Davis 91*b0d29bc4SBrooks Davis /// Exception-based version of dup(2). 92*b0d29bc4SBrooks Davis /// 93*b0d29bc4SBrooks Davis /// \param old_fd The file descriptor to duplicate. 94*b0d29bc4SBrooks Davis /// \param new_fd The file descriptor to use as the duplicate. This is 95*b0d29bc4SBrooks Davis /// closed if it was open before the copy happens. 96*b0d29bc4SBrooks Davis /// 97*b0d29bc4SBrooks Davis /// \throw process::system_error If the call to dup2(2) fails. 98*b0d29bc4SBrooks Davis static void 99*b0d29bc4SBrooks Davis safe_dup(const int old_fd, const int new_fd) 100*b0d29bc4SBrooks Davis { 101*b0d29bc4SBrooks Davis if (process::detail::syscall_dup2(old_fd, new_fd) == -1) { 102*b0d29bc4SBrooks Davis const int original_errno = errno; 103*b0d29bc4SBrooks Davis throw process::system_error(F("dup2(%s, %s) failed") % old_fd % new_fd, 104*b0d29bc4SBrooks Davis original_errno); 105*b0d29bc4SBrooks Davis } 106*b0d29bc4SBrooks Davis } 107*b0d29bc4SBrooks Davis 108*b0d29bc4SBrooks Davis 109*b0d29bc4SBrooks Davis /// Exception-based version of open(2) to open (or create) a file for append. 110*b0d29bc4SBrooks Davis /// 111*b0d29bc4SBrooks Davis /// \param filename The file to open in append mode. 112*b0d29bc4SBrooks Davis /// 113*b0d29bc4SBrooks Davis /// \return The file descriptor for the opened or created file. 114*b0d29bc4SBrooks Davis /// 115*b0d29bc4SBrooks Davis /// \throw process::system_error If the call to open(2) fails. 116*b0d29bc4SBrooks Davis static int 117*b0d29bc4SBrooks Davis open_for_append(const fs::path& filename) 118*b0d29bc4SBrooks Davis { 119*b0d29bc4SBrooks Davis const int fd = process::detail::syscall_open( 120*b0d29bc4SBrooks Davis filename.c_str(), O_CREAT | O_WRONLY | O_APPEND, 121*b0d29bc4SBrooks Davis S_IRUSR | S_IWUSR | S_IRGRP | S_IROTH); 122*b0d29bc4SBrooks Davis if (fd == -1) { 123*b0d29bc4SBrooks Davis const int original_errno = errno; 124*b0d29bc4SBrooks Davis throw process::system_error(F("Failed to create %s because open(2) " 125*b0d29bc4SBrooks Davis "failed") % filename, original_errno); 126*b0d29bc4SBrooks Davis } 127*b0d29bc4SBrooks Davis return fd; 128*b0d29bc4SBrooks Davis } 129*b0d29bc4SBrooks Davis 130*b0d29bc4SBrooks Davis 131*b0d29bc4SBrooks Davis /// Logs the execution of another program. 132*b0d29bc4SBrooks Davis /// 133*b0d29bc4SBrooks Davis /// \param program The binary to execute. 134*b0d29bc4SBrooks Davis /// \param args The arguments to pass to the binary, without the program name. 135*b0d29bc4SBrooks Davis static void 136*b0d29bc4SBrooks Davis log_exec(const fs::path& program, const process::args_vector& args) 137*b0d29bc4SBrooks Davis { 138*b0d29bc4SBrooks Davis std::string plain_command = program.str(); 139*b0d29bc4SBrooks Davis for (process::args_vector::const_iterator iter = args.begin(); 140*b0d29bc4SBrooks Davis iter != args.end(); ++iter) 141*b0d29bc4SBrooks Davis plain_command += F(" %s") % *iter; 142*b0d29bc4SBrooks Davis LD(F("Executing %s") % plain_command); 143*b0d29bc4SBrooks Davis } 144*b0d29bc4SBrooks Davis 145*b0d29bc4SBrooks Davis 146*b0d29bc4SBrooks Davis } // anonymous namespace 147*b0d29bc4SBrooks Davis 148*b0d29bc4SBrooks Davis 149*b0d29bc4SBrooks Davis /// Prints out a fatal error and aborts. 150*b0d29bc4SBrooks Davis void 151*b0d29bc4SBrooks Davis utils::process::detail::report_error_and_abort(void) 152*b0d29bc4SBrooks Davis { 153*b0d29bc4SBrooks Davis std::cerr << "Caught unknown exception\n"; 154*b0d29bc4SBrooks Davis std::abort(); 155*b0d29bc4SBrooks Davis } 156*b0d29bc4SBrooks Davis 157*b0d29bc4SBrooks Davis 158*b0d29bc4SBrooks Davis /// Prints out a fatal error and aborts. 159*b0d29bc4SBrooks Davis /// 160*b0d29bc4SBrooks Davis /// \param error The error to display. 161*b0d29bc4SBrooks Davis void 162*b0d29bc4SBrooks Davis utils::process::detail::report_error_and_abort(const std::runtime_error& error) 163*b0d29bc4SBrooks Davis { 164*b0d29bc4SBrooks Davis std::cerr << "Caught runtime_error: " << error.what() << '\n'; 165*b0d29bc4SBrooks Davis std::abort(); 166*b0d29bc4SBrooks Davis } 167*b0d29bc4SBrooks Davis 168*b0d29bc4SBrooks Davis 169*b0d29bc4SBrooks Davis /// Creates a new child. 170*b0d29bc4SBrooks Davis /// 171*b0d29bc4SBrooks Davis /// \param implptr A dynamically-allocated impl object with the contents of the 172*b0d29bc4SBrooks Davis /// new child. 173*b0d29bc4SBrooks Davis process::child::child(impl *implptr) : 174*b0d29bc4SBrooks Davis _pimpl(implptr) 175*b0d29bc4SBrooks Davis { 176*b0d29bc4SBrooks Davis } 177*b0d29bc4SBrooks Davis 178*b0d29bc4SBrooks Davis 179*b0d29bc4SBrooks Davis /// Destructor for child. 180*b0d29bc4SBrooks Davis process::child::~child(void) 181*b0d29bc4SBrooks Davis { 182*b0d29bc4SBrooks Davis } 183*b0d29bc4SBrooks Davis 184*b0d29bc4SBrooks Davis 185*b0d29bc4SBrooks Davis /// Helper function for fork(). 186*b0d29bc4SBrooks Davis /// 187*b0d29bc4SBrooks Davis /// Please note: if you update this function to change the return type or to 188*b0d29bc4SBrooks Davis /// raise different errors, do not forget to update fork() accordingly. 189*b0d29bc4SBrooks Davis /// 190*b0d29bc4SBrooks Davis /// \return In the case of the parent, a new child object returned as a 191*b0d29bc4SBrooks Davis /// dynamically-allocated object because children classes are unique and thus 192*b0d29bc4SBrooks Davis /// noncopyable. In the case of the child, a NULL pointer. 193*b0d29bc4SBrooks Davis /// 194*b0d29bc4SBrooks Davis /// \throw process::system_error If the calls to pipe(2) or fork(2) fail. 195*b0d29bc4SBrooks Davis std::auto_ptr< process::child > 196*b0d29bc4SBrooks Davis process::child::fork_capture_aux(void) 197*b0d29bc4SBrooks Davis { 198*b0d29bc4SBrooks Davis std::cout.flush(); 199*b0d29bc4SBrooks Davis std::cerr.flush(); 200*b0d29bc4SBrooks Davis 201*b0d29bc4SBrooks Davis int fds[2]; 202*b0d29bc4SBrooks Davis if (detail::syscall_pipe(fds) == -1) 203*b0d29bc4SBrooks Davis throw process::system_error("pipe(2) failed", errno); 204*b0d29bc4SBrooks Davis 205*b0d29bc4SBrooks Davis std::auto_ptr< signals::interrupts_inhibiter > inhibiter( 206*b0d29bc4SBrooks Davis new signals::interrupts_inhibiter); 207*b0d29bc4SBrooks Davis pid_t pid = detail::syscall_fork(); 208*b0d29bc4SBrooks Davis if (pid == -1) { 209*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 210*b0d29bc4SBrooks Davis ::close(fds[0]); 211*b0d29bc4SBrooks Davis ::close(fds[1]); 212*b0d29bc4SBrooks Davis throw process::system_error("fork(2) failed", errno); 213*b0d29bc4SBrooks Davis } else if (pid == 0) { 214*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 215*b0d29bc4SBrooks Davis ::setsid(); 216*b0d29bc4SBrooks Davis 217*b0d29bc4SBrooks Davis try { 218*b0d29bc4SBrooks Davis ::close(fds[0]); 219*b0d29bc4SBrooks Davis safe_dup(fds[1], STDOUT_FILENO); 220*b0d29bc4SBrooks Davis safe_dup(fds[1], STDERR_FILENO); 221*b0d29bc4SBrooks Davis ::close(fds[1]); 222*b0d29bc4SBrooks Davis } catch (const system_error& e) { 223*b0d29bc4SBrooks Davis std::cerr << F("Failed to set up subprocess: %s\n") % e.what(); 224*b0d29bc4SBrooks Davis std::abort(); 225*b0d29bc4SBrooks Davis } 226*b0d29bc4SBrooks Davis return std::auto_ptr< process::child >(NULL); 227*b0d29bc4SBrooks Davis } else { 228*b0d29bc4SBrooks Davis ::close(fds[1]); 229*b0d29bc4SBrooks Davis LD(F("Spawned process %s: stdout and stderr inherited") % pid); 230*b0d29bc4SBrooks Davis signals::add_pid_to_kill(pid); 231*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 232*b0d29bc4SBrooks Davis return std::auto_ptr< process::child >( 233*b0d29bc4SBrooks Davis new process::child(new impl(pid, new process::ifdstream(fds[0])))); 234*b0d29bc4SBrooks Davis } 235*b0d29bc4SBrooks Davis } 236*b0d29bc4SBrooks Davis 237*b0d29bc4SBrooks Davis 238*b0d29bc4SBrooks Davis /// Helper function for fork(). 239*b0d29bc4SBrooks Davis /// 240*b0d29bc4SBrooks Davis /// Please note: if you update this function to change the return type or to 241*b0d29bc4SBrooks Davis /// raise different errors, do not forget to update fork() accordingly. 242*b0d29bc4SBrooks Davis /// 243*b0d29bc4SBrooks Davis /// \param stdout_file The name of the file in which to store the stdout. 244*b0d29bc4SBrooks Davis /// If this has the magic value /dev/stdout, then the parent's stdout is 245*b0d29bc4SBrooks Davis /// reused without applying any redirection. 246*b0d29bc4SBrooks Davis /// \param stderr_file The name of the file in which to store the stderr. 247*b0d29bc4SBrooks Davis /// If this has the magic value /dev/stderr, then the parent's stderr is 248*b0d29bc4SBrooks Davis /// reused without applying any redirection. 249*b0d29bc4SBrooks Davis /// 250*b0d29bc4SBrooks Davis /// \return In the case of the parent, a new child object returned as a 251*b0d29bc4SBrooks Davis /// dynamically-allocated object because children classes are unique and thus 252*b0d29bc4SBrooks Davis /// noncopyable. In the case of the child, a NULL pointer. 253*b0d29bc4SBrooks Davis /// 254*b0d29bc4SBrooks Davis /// \throw process::system_error If the call to fork(2) fails. 255*b0d29bc4SBrooks Davis std::auto_ptr< process::child > 256*b0d29bc4SBrooks Davis process::child::fork_files_aux(const fs::path& stdout_file, 257*b0d29bc4SBrooks Davis const fs::path& stderr_file) 258*b0d29bc4SBrooks Davis { 259*b0d29bc4SBrooks Davis std::cout.flush(); 260*b0d29bc4SBrooks Davis std::cerr.flush(); 261*b0d29bc4SBrooks Davis 262*b0d29bc4SBrooks Davis std::auto_ptr< signals::interrupts_inhibiter > inhibiter( 263*b0d29bc4SBrooks Davis new signals::interrupts_inhibiter); 264*b0d29bc4SBrooks Davis pid_t pid = detail::syscall_fork(); 265*b0d29bc4SBrooks Davis if (pid == -1) { 266*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 267*b0d29bc4SBrooks Davis throw process::system_error("fork(2) failed", errno); 268*b0d29bc4SBrooks Davis } else if (pid == 0) { 269*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 270*b0d29bc4SBrooks Davis ::setsid(); 271*b0d29bc4SBrooks Davis 272*b0d29bc4SBrooks Davis try { 273*b0d29bc4SBrooks Davis if (stdout_file != fs::path("/dev/stdout")) { 274*b0d29bc4SBrooks Davis const int stdout_fd = open_for_append(stdout_file); 275*b0d29bc4SBrooks Davis safe_dup(stdout_fd, STDOUT_FILENO); 276*b0d29bc4SBrooks Davis ::close(stdout_fd); 277*b0d29bc4SBrooks Davis } 278*b0d29bc4SBrooks Davis if (stderr_file != fs::path("/dev/stderr")) { 279*b0d29bc4SBrooks Davis const int stderr_fd = open_for_append(stderr_file); 280*b0d29bc4SBrooks Davis safe_dup(stderr_fd, STDERR_FILENO); 281*b0d29bc4SBrooks Davis ::close(stderr_fd); 282*b0d29bc4SBrooks Davis } 283*b0d29bc4SBrooks Davis } catch (const system_error& e) { 284*b0d29bc4SBrooks Davis std::cerr << F("Failed to set up subprocess: %s\n") % e.what(); 285*b0d29bc4SBrooks Davis std::abort(); 286*b0d29bc4SBrooks Davis } 287*b0d29bc4SBrooks Davis return std::auto_ptr< process::child >(NULL); 288*b0d29bc4SBrooks Davis } else { 289*b0d29bc4SBrooks Davis LD(F("Spawned process %s: stdout=%s, stderr=%s") % pid % stdout_file % 290*b0d29bc4SBrooks Davis stderr_file); 291*b0d29bc4SBrooks Davis signals::add_pid_to_kill(pid); 292*b0d29bc4SBrooks Davis inhibiter.reset(NULL); // Unblock signals. 293*b0d29bc4SBrooks Davis return std::auto_ptr< process::child >( 294*b0d29bc4SBrooks Davis new process::child(new impl(pid, NULL))); 295*b0d29bc4SBrooks Davis } 296*b0d29bc4SBrooks Davis } 297*b0d29bc4SBrooks Davis 298*b0d29bc4SBrooks Davis 299*b0d29bc4SBrooks Davis /// Spawns a new binary and multiplexes and captures its stdout and stderr. 300*b0d29bc4SBrooks Davis /// 301*b0d29bc4SBrooks Davis /// If the subprocess cannot be completely set up for any reason, it attempts to 302*b0d29bc4SBrooks Davis /// dump an error message to its stderr channel and it then calls std::abort(). 303*b0d29bc4SBrooks Davis /// 304*b0d29bc4SBrooks Davis /// \param program The binary to execute. 305*b0d29bc4SBrooks Davis /// \param args The arguments to pass to the binary, without the program name. 306*b0d29bc4SBrooks Davis /// 307*b0d29bc4SBrooks Davis /// \return A new child object, returned as a dynamically-allocated object 308*b0d29bc4SBrooks Davis /// because children classes are unique and thus noncopyable. 309*b0d29bc4SBrooks Davis /// 310*b0d29bc4SBrooks Davis /// \throw process::system_error If the process cannot be spawned due to a 311*b0d29bc4SBrooks Davis /// system call error. 312*b0d29bc4SBrooks Davis std::auto_ptr< process::child > 313*b0d29bc4SBrooks Davis process::child::spawn_capture(const fs::path& program, const args_vector& args) 314*b0d29bc4SBrooks Davis { 315*b0d29bc4SBrooks Davis std::auto_ptr< child > child = fork_capture_aux(); 316*b0d29bc4SBrooks Davis if (child.get() == NULL) 317*b0d29bc4SBrooks Davis exec(program, args); 318*b0d29bc4SBrooks Davis log_exec(program, args); 319*b0d29bc4SBrooks Davis return child; 320*b0d29bc4SBrooks Davis } 321*b0d29bc4SBrooks Davis 322*b0d29bc4SBrooks Davis 323*b0d29bc4SBrooks Davis /// Spawns a new binary and redirects its stdout and stderr to files. 324*b0d29bc4SBrooks Davis /// 325*b0d29bc4SBrooks Davis /// If the subprocess cannot be completely set up for any reason, it attempts to 326*b0d29bc4SBrooks Davis /// dump an error message to its stderr channel and it then calls std::abort(). 327*b0d29bc4SBrooks Davis /// 328*b0d29bc4SBrooks Davis /// \param program The binary to execute. 329*b0d29bc4SBrooks Davis /// \param args The arguments to pass to the binary, without the program name. 330*b0d29bc4SBrooks Davis /// \param stdout_file The name of the file in which to store the stdout. 331*b0d29bc4SBrooks Davis /// \param stderr_file The name of the file in which to store the stderr. 332*b0d29bc4SBrooks Davis /// 333*b0d29bc4SBrooks Davis /// \return A new child object, returned as a dynamically-allocated object 334*b0d29bc4SBrooks Davis /// because children classes are unique and thus noncopyable. 335*b0d29bc4SBrooks Davis /// 336*b0d29bc4SBrooks Davis /// \throw process::system_error If the process cannot be spawned due to a 337*b0d29bc4SBrooks Davis /// system call error. 338*b0d29bc4SBrooks Davis std::auto_ptr< process::child > 339*b0d29bc4SBrooks Davis process::child::spawn_files(const fs::path& program, 340*b0d29bc4SBrooks Davis const args_vector& args, 341*b0d29bc4SBrooks Davis const fs::path& stdout_file, 342*b0d29bc4SBrooks Davis const fs::path& stderr_file) 343*b0d29bc4SBrooks Davis { 344*b0d29bc4SBrooks Davis std::auto_ptr< child > child = fork_files_aux(stdout_file, stderr_file); 345*b0d29bc4SBrooks Davis if (child.get() == NULL) 346*b0d29bc4SBrooks Davis exec(program, args); 347*b0d29bc4SBrooks Davis log_exec(program, args); 348*b0d29bc4SBrooks Davis return child; 349*b0d29bc4SBrooks Davis } 350*b0d29bc4SBrooks Davis 351*b0d29bc4SBrooks Davis 352*b0d29bc4SBrooks Davis /// Returns the process identifier of this child. 353*b0d29bc4SBrooks Davis /// 354*b0d29bc4SBrooks Davis /// \return A process identifier. 355*b0d29bc4SBrooks Davis int 356*b0d29bc4SBrooks Davis process::child::pid(void) const 357*b0d29bc4SBrooks Davis { 358*b0d29bc4SBrooks Davis return _pimpl->_pid; 359*b0d29bc4SBrooks Davis } 360*b0d29bc4SBrooks Davis 361*b0d29bc4SBrooks Davis 362*b0d29bc4SBrooks Davis /// Gets the input stream corresponding to the stdout and stderr of the child. 363*b0d29bc4SBrooks Davis /// 364*b0d29bc4SBrooks Davis /// \pre The child must have been started by fork_capture(). 365*b0d29bc4SBrooks Davis /// 366*b0d29bc4SBrooks Davis /// \return A reference to the input stream connected to the output of the test 367*b0d29bc4SBrooks Davis /// case. 368*b0d29bc4SBrooks Davis std::istream& 369*b0d29bc4SBrooks Davis process::child::output(void) 370*b0d29bc4SBrooks Davis { 371*b0d29bc4SBrooks Davis PRE(_pimpl->_output.get() != NULL); 372*b0d29bc4SBrooks Davis return *_pimpl->_output; 373*b0d29bc4SBrooks Davis } 374*b0d29bc4SBrooks Davis 375*b0d29bc4SBrooks Davis 376*b0d29bc4SBrooks Davis /// Blocks to wait for completion. 377*b0d29bc4SBrooks Davis /// 378*b0d29bc4SBrooks Davis /// \return The termination status of the child process. 379*b0d29bc4SBrooks Davis /// 380*b0d29bc4SBrooks Davis /// \throw process::system_error If the call to waitpid(2) fails. 381*b0d29bc4SBrooks Davis process::status 382*b0d29bc4SBrooks Davis process::child::wait(void) 383*b0d29bc4SBrooks Davis { 384*b0d29bc4SBrooks Davis return process::wait(_pimpl->_pid); 385*b0d29bc4SBrooks Davis } 386