/*============================================================================= pm_system =============================================================================== This is the library subroutine pm_system(). It is just like Standard C Library system(), except that you can supply routines for it to run to generate the Standard Input for the executed shell command and to accept the Standard Output from it. system(), by contrast, always sets up the current Standard Input and Standard Output as the Standard Input and Standard Output of the shell command. By Bryan Henderson, San Jose CA 2002.12.14. Contributed to the public domain. =============================================================================*/ #define _XOPEN_SOURCE #include #include #include #include #include #include #include #include #include "pm_c_util.h" #include "mallocvar.h" #include "pm.h" #include "pm_system.h" #define STDIN 0 #define STDOUT 1 static void closeUninheritableFds(int const stdinFd, int const stdoutFd) { /*---------------------------------------------------------------------------- Close all the file descriptors that we declare uninheritable -- files Parent has open that Child has no business accessing. Closing an extra file descriptor is essential to allow the file to close when Parent closes it. We define uninheritable as less than 64 and not Standard Input, Output, or Error, or 'stdinFd' or 'stdoutFd'. -----------------------------------------------------------------------------*/ int fd; for (fd = 0; fd < 64; ++fd) { if (fd == stdinFd) { } else if (fd == stdoutFd) { } else if (fd == STDIN_FILENO) { } else if (fd == STDOUT_FILENO) { } else if (fd == STDERR_FILENO) { } else { close(fd); } } } static void execProgram(const char * const progName, const char ** const argArray, int const stdinFd, int const stdoutFd) { /*---------------------------------------------------------------------------- Exec the program 'progName' with arguments argArray[], with 'stdinFd' as its Standard Input and 'stdoutFd' as its Standard Output. But if the exec fails, leave all file descriptors as we found them. Note that stdinFd or stdoutFd may actually be Standard Input and Standard Output already. -----------------------------------------------------------------------------*/ int stdinSaveFd, stdoutSaveFd; int rc; int execErrno; /* Make stdinFd Standard Input. Make stdoutFd Standard Output. */ if (stdinFd != STDIN) { stdinSaveFd = dup(STDIN); close(STDIN); dup2(stdinFd, STDIN); close(stdinFd); } if (stdoutFd != STDOUT) { stdoutSaveFd = dup(STDOUT); close(STDOUT); dup2(stdoutFd, STDOUT); close(stdoutFd); } rc = execvp(progName, (char **)argArray); execErrno = errno; if (stdinFd != STDIN) { close(STDIN); dup2(stdinSaveFd, STDIN); close(stdinSaveFd); } if (stdoutFd != STDOUT) { close(STDOUT); dup2(stdoutSaveFd, STDOUT); close(stdoutSaveFd); } if (rc < 0) pm_error("Unable to exec '%s' " "(i.e. the program did not run at all). " "execvp() errno=%d (%s)", progName, execErrno, strerror(execErrno)); else pm_error("INTERNAL ERROR. execvp() returns, but does not fail."); } static void createPipeFeeder(void pipeFeederRtn(int, void *), void * const feederParm, int * const fdP, pid_t * const pidP) { /*---------------------------------------------------------------------------- Create a process and a pipe. Have the process run program 'pipeFeederRtn' to fill the pipe and return the file descriptor of the other end of the pipe as *fdP. -----------------------------------------------------------------------------*/ int pipeToFeed[2]; pid_t rc; pipe(pipeToFeed); rc = fork(); if (rc < 0) { pm_error("fork() of stdin feeder failed. errno=%d (%s)", errno, strerror(errno)); } else if (rc == 0) { /* This is the child -- the stdin feeder process */ close(pipeToFeed[0]); (*pipeFeederRtn)(pipeToFeed[1], feederParm); exit(0); } else { /* This is the parent */ pid_t const feederPid = rc; close(pipeToFeed[1]); *fdP = pipeToFeed[0]; *pidP = feederPid; } } static void spawnProcessor(const char * const progName, const char ** const argArray, int const stdinFd, int * const stdoutFdP, pid_t * const pidP) { /*---------------------------------------------------------------------------- Create a process to run program 'progName' with arguments argArray[] (terminated by NULL element). Pass file descriptor 'stdinFd' to the shell as Standard Input. if 'stdoutFdP' is NULL, have that process write its Standard Output to the current process' Standard Output. If 'stdoutFdP' is non-NULL, set up a pipe and pass it to the new process as Standard Output. Return as *stdoutFdP the file descriptor of the other end of that pipe, from which Caller can suck the program's Standard Output. -----------------------------------------------------------------------------*/ bool const pipeStdout = !!stdoutFdP; int stdoutpipe[2]; pid_t rc; if (pipeStdout) pipe(stdoutpipe); rc = fork(); if (rc < 0) { pm_error("fork() of processor process failed. errno=%d (%s)", errno, strerror(errno)); } else if (rc == 0) { /* The program child */ int stdoutFd; if (pipeStdout) { close(stdoutpipe[0]); stdoutFd = stdoutpipe[1]; } else stdoutFd = STDOUT; closeUninheritableFds(stdinFd, stdoutFd); execProgram(progName, argArray, stdinFd, stdoutFd); close(stdinFd); close(stdoutpipe[1]); pm_error("INTERNAL ERROR: execProgram() returns."); } else { /* The parent */ pid_t const processorpid = rc; if (pipeStdout) { close(stdoutpipe[1]); *stdoutFdP = stdoutpipe[0]; } *pidP = processorpid; } } static const char * signalName(unsigned int const signalClass) { switch (signalClass) { case SIGHUP: /* POSIX.1 */ return "SIGHUP"; case SIGINT: /* POSIX.1 */ return "SIGINT"; case SIGQUIT: /* POSIX.1 */ return "SIGQUIT"; case SIGILL: /* POSIX.1 */ return "SIGILL"; case SIGTRAP: return "SIGTRAP"; case SIGABRT: /* POSIX.1 */ return "SIGABRT"; case SIGBUS: return "SIGBUS"; case SIGFPE: /* POSIX.1 */ return "SIGFPE"; case SIGKILL: /* POSIX.1 */ return "SIGKILL"; case SIGUSR1: /* POSIX.1 */ return "SIGUSR1"; case SIGSEGV: /* POSIX.1 */ return "SIGSEGV"; case SIGUSR2: /* POSIX.1 */ return "SIGUSR2"; case SIGPIPE: /* POSIX.1 */ return "SIGPIPE"; case SIGALRM: /* POSIX.1 */ return "SIGALRM"; case SIGTERM: /* POSIX.1 */ return "SIGTERM"; case SIGCHLD: /* POSIX.1 */ return "SIGCHLD"; case SIGCONT: /* POSIX.1 */ return "SIGCONT"; case SIGSTOP: /* POSIX.1 */ return "SIGSTOP"; case SIGTSTP: /* POSIX.1 */ return "SIGTSTP"; case SIGTTIN: /* POSIX.1 */ return "SIGTTIN"; case SIGTTOU: /* POSIX.1 */ return "SIGTTOU"; case SIGXCPU: return "SIGXCPU"; case SIGXFSZ: return "SIGXFSZ"; case SIGVTALRM: return "SIGVTALRM"; case SIGPROF: return "SIGPROF"; case SIGSYS: return "SIGSYS"; default: return "???"; /* There are various other signal classes on some systems, but not defined by POSIX and not on at least one system we know of for which someone wanted to compile Netpbm. The list includes: SIGPWR, SIGLOST, SIGINFO, SIGRTxx, SIGURG, SIGWINCH, SIGIO. */ } } static void cleanupProcessorProcess(pid_t const processorPid) { int terminationStatus; waitpid(processorPid, &terminationStatus, 0); if (WIFEXITED(terminationStatus)) { int const exitStatus = WEXITSTATUS(terminationStatus); if (exitStatus != 0) pm_message("Shell process exited with abnormal exit status %u. ", exitStatus); } else if (WIFSIGNALED(terminationStatus)) { pm_message("Shell process was killed by a Class %u (%s) signal.", WTERMSIG(terminationStatus), signalName(WTERMSIG(terminationStatus))); } else { pm_message("Shell process died, but its termination status " "0x%x doesn't make sense", terminationStatus); } } static void cleanupFeederProcess(pid_t const feederPid) { int status; waitpid(feederPid, &status, 0); if (WIFSIGNALED(status)) { if (WTERMSIG(status) == SIGPIPE) pm_message("WARNING: " "Standard Input feeder process was terminated by a " "SIGPIPE signal because the shell command closed its " "Standard Input before the Standard Input feeder was " "through feeding it."); else pm_message("WARNING: " "Standard Input feeder was terminated by a Signal %d.", WTERMSIG(status)); } else if (WIFEXITED(status)) { if (WEXITSTATUS(status) != 0) pm_message("WARNING: " "Standard Input feeder process ended abnormally. " "exit status = %d", WEXITSTATUS(status)); } else pm_message("WARNING: " "Unrecognized process completion status from " "Standard Input feeder: %d", status); } void pm_system_vp(const char * const progName, const char ** const argArray, void stdinFeeder(int, void *), void * const feederParm, void stdoutAccepter(int, void *), void * const accepterParm) { /*---------------------------------------------------------------------------- Run a program in a child process. Feed its Standard Input with a pipe, which is fed by the routine 'stdinFeeder' with parameter 'feederParm'. Process its Standard Output with the routine 'stdoutAccepter' with parameter 'accepterParm'. But if 'stdinFeeder' is NULL, just feed the program our own Standard Input. And if 'stdoutFeeder' is NULL, just send its Standard Output to our own Standard Output. Run the program 'progName' with arguments argArray[] (terminated by NULL element). That includes arg0. -----------------------------------------------------------------------------*/ /* If 'stdinFeeder' is non-NULL, we create a child process to run 'stdinFeeder' and create a pipe from that process as the program's Standard Input. We create another child process to run the program. If 'stdoutFeeder' is non-NULL, we create a pipe between the program process and the current process and have the program write its Standard Output to that pipe. The current process runs 'stdoutAccepter' to read the data from that pipe. But if 'stdoutFeeder' is NULL, we just tell the program process to write to the current process' Standard Output. So there are two processes when stdinFeeder is NULL and three when stdinFeeder is non-null. */ int progStdinFd; pid_t feederPid; pid_t processorPid; if (stdinFeeder) createPipeFeeder(stdinFeeder, feederParm, &progStdinFd, &feederPid); else { progStdinFd = STDIN; feederPid = 0; } if (stdoutAccepter) { int progStdoutFd; /* Make a child process to run the program and pipe back to us its Standard Output */ spawnProcessor(progName, argArray, progStdinFd, &progStdoutFd, &processorPid); /* The child process has cloned our 'progStdinFd'; we have no more use for our copy. */ close(progStdinFd); /* Dispose of the stdout from that child */ (*stdoutAccepter)(progStdoutFd, accepterParm); close(progStdoutFd); } else { /* Run a child process for the program that sends its Standard Output to our Standard Output */ spawnProcessor(progName, argArray, progStdinFd, NULL, &processorPid); } cleanupProcessorProcess(processorPid); if (feederPid) cleanupFeederProcess(feederPid); } void pm_system_lp(const char * const progName, void stdinFeeder(int, void *), void * const feederParm, void stdoutAccepter(int, void *), void * const accepterParm, ...) { /*---------------------------------------------------------------------------- same as pm_system_vp() except with arguments as variable arguments instead of an array. -----------------------------------------------------------------------------*/ va_list args; bool endOfArgs; const char ** argArray; unsigned int n; va_start(args, accepterParm); endOfArgs = FALSE; argArray = NULL; for (endOfArgs = FALSE, argArray = NULL, n = 0; !endOfArgs; ) { const char * const arg = va_arg(args, const char *); REALLOCARRAY(argArray, n+1); argArray[n++] = arg; if (!arg) endOfArgs = TRUE; } va_end(args); pm_system_vp(progName, argArray, stdinFeeder, feederParm, stdoutAccepter, accepterParm); free(argArray); } void pm_system(void stdinFeeder(int, void *), void * const feederParm, void stdoutAccepter(int, void *), void * const accepterParm, const char * const shellCommand) { /*---------------------------------------------------------------------------- Run a shell and have it run command 'shellCommand'. Feed its Standard Input with a pipe, which is fed by the routine 'stdinFeeder' with parameter 'feederParm'. Process its Standard Output with the routine 'stdoutAccepter' with parameter 'accepterParm'. But if 'stdinFeeder' is NULL, just feed the shell our own Standard Input. And if 'stdoutFeeder' is NULL, just send its Standard Output to our own Standard Output. -----------------------------------------------------------------------------*/ pm_system_lp("/bin/sh", stdinFeeder, feederParm, stdoutAccepter, accepterParm, "sh", "-c", shellCommand, NULL); } void pm_feed_from_memory(int const pipeToFeedFd, void * const feederParm) { struct bufferDesc * const inputBufferP = feederParm; FILE * const outfile = fdopen(pipeToFeedFd, "w"); int bytesTransferred; /* The following signals (and normally kills) the process with SIGPIPE if the pipe does not take all 'size' bytes. */ bytesTransferred = fwrite(inputBufferP->buffer, 1, inputBufferP->size, outfile); if (inputBufferP->bytesTransferredP) *(inputBufferP->bytesTransferredP) = bytesTransferred; fclose(outfile); } void pm_accept_to_memory(int const pipetosuckFd, void * const accepterParm ) { struct bufferDesc * const outputBufferP = accepterParm; FILE * const infile = fdopen(pipetosuckFd, "r"); int bytesTransferred; bytesTransferred = fread(outputBufferP->buffer, 1, outputBufferP->size, infile); fclose(infile); if (outputBufferP->bytesTransferredP) *(outputBufferP->bytesTransferredP) = bytesTransferred; }