/* * ======================================================================== * Copyright 2013-2021 Eduardo Chappa * Copyright 2006-2008 University of Washington * * Licensed 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 #include "err_desc.h" #include "canaccess.h" #include "temp_nam.h" #include "forkwait.h" #include "pipe.h" #include "../charconv/utf8.h" #include "../charconv/filesys.h" #include "../debug.h" #ifdef _WINDOWS #include "../../pico/osdep/mswin.h" #endif /*====================================================================== pipe Initiate I/O to and from a process. These functions used to be similar to popen and pclose, but both an incoming stream and an output file are provided. ====*/ /* * Global's to helpsignal handler tell us child's status has changed... */ static pid_t child_pid; /* * Internal Protos */ void zot_pipe(PIPE_S **); #ifdef _WINDOWS int pipe_mswin_exec_wrapper(char *, PIPE_S *, unsigned, void (*)(PIPE_S *, int, void *), void (*)(char *)); #else /* UNIX */ char *pipe_error_msg(char *, char *, char *); RETSIGTYPE pipe_alarm(int); #endif /* UNIX */ /*---------------------------------------------------------------------- Spawn a child process and optionally connect read/write pipes to it Args: command -- string to hand the shell outfile -- address of pointer containing file to receive output errfile -- address of pointer containing file to receive error output mode -- mode for type of shell, signal protection etc... Returns: pointer to alloc'd PIPE_S on success, NULL otherwise The outfile is either NULL, a pointer to a NULL value, or a pointer to the requested name for the output file. In the pointer-to-NULL case the caller doesn't care about the name, but wants to see the pipe's results so we make one up. It's up to the caller to make sure the free storage containing the name is cleaned up. Mode bits serve several purposes. PIPE_WRITE tells us we need to open a pipe to write the child's stdin. PIPE_READ tells us we need to open a pipe to read from the child's stdout/stderr. *NOTE* Having neither of the above set means we're not setting up any pipes, just forking the child and exec'ing the command. Also, this takes precedence over any named outfile. PIPE_STDERR means we're to tie the child's stderr to the same place stdout is going. *NOTE* This only makes sense then if PIPE_READ or an outfile is provided. Also, this takes precedence over any named errfile. PIPE_RESET means we reset the terminal mode to what it was before we started pine and then exec the command. In PC-Pine, _RESET was a shortcut for just executing a command. We'll try to pay attention to the above flags to make sure we do the right thing. PIPE_PROT means to protect the child from the usual nasty signals that might cause premature death. Otherwise, the default signals are set so the child can deal with the nasty signals in its own way. NOT USED UNDER WINDOWS PIPE_NOSHELL means we're to exec the command without the aid of a system shell. *NOTE* This negates the affect of PIPE_USER. NOT USED UNDER WINDOWS PIPE_USER means we're to try executing the command in the user's shell. Right now we only look in the environment, but that may get more sophisticated later. NOT USED UNDER WINDOWS PIPE_RUNNOW was added for WINDOWS for the case pipe is called to run a shell program (like for url viewing). This is the only option where we don't wait for child termination, and is only obeyed if PIPE_WRITE and PIPE_READ aren't set ----*/ PIPE_S * open_system_pipe(char *command, char **outfile, char **errfile, int mode, int timeout, void (*pipecb_f)(PIPE_S *, int, void *), void (*piperr_f)(char *)) { PIPE_S *syspipe = NULL; #ifdef _WINDOWS int exit_code = 0; char cmdbuf[1024]; unsigned flags = 0; #else char shellpath[MAXPATH+1], *shell; int p[2], oparentd = -1, ochildd = -1, iparentd = -1, ichildd = -1; #endif #ifdef _WINDOWS if(mode & PIPE_STDERR) flags |= MSWIN_EAW_CAPT_STDERR; /* * It'll be a lot more difficult to support READing and WRITing. * This was never supported, and there don't look to be any cases * that set both of these flags anymore for win32. * * errfile could probably be supported pretty easily */ if(errfile){ if(piperr_f) (*piperr_f)("Pipe arg not yet supported: Error File"); return(NULL); } if((mode & PIPE_RUNNOW) && !(mode & (PIPE_WRITE | PIPE_READ | PIPE_STDERR))){ if(mswin_shell_exec(command, NULL) == 0 && (syspipe = (PIPE_S *) malloc(sizeof(PIPE_S))) != NULL){ memset(syspipe, 0, sizeof(PIPE_S)); return(syspipe); } return(NULL); } strncpy(cmdbuf, command, sizeof(cmdbuf)); cmdbuf[sizeof(cmdbuf)-1] = '\0'; if((syspipe = (PIPE_S *) malloc(sizeof(PIPE_S))) == NULL) return(NULL); memset(syspipe, 0, sizeof(PIPE_S)); syspipe->mode = mode; if(!outfile){ syspipe->deloutfile = 1; if(mode & PIPE_READ){ syspipe->outfile = temp_nam(NULL, "po"); our_unlink(syspipe->outfile); } } else{ if(!*outfile) /* asked for, but not named? */ *outfile = temp_nam(NULL, "po"); our_unlink(*outfile); syspipe->outfile = (char *) malloc((strlen(*outfile)+1)*sizeof(char)); snprintf(syspipe->outfile, strlen(*outfile)+1, "%s", *outfile); } if(mode & PIPE_WRITE){ /* * Create tmp file to write, spawn child in close_pipe * after tmp file's written... */ syspipe->infile = temp_nam(NULL, "pw"); syspipe->out.f = our_fopen(syspipe->infile, "wb"); syspipe->command = (char *) malloc((strlen(cmdbuf)+1)*sizeof(char)); snprintf(syspipe->command, strlen(cmdbuf)+1, "%s", cmdbuf); dprint((1, "pipe write: %s", cmdbuf)); } else if(mode & PIPE_READ){ /* * Create a tmp file for command result, exec the command * here into temp file, and return file pointer to it... */ syspipe->command = (char *) malloc((strlen(cmdbuf)+1)*sizeof(char)); snprintf(syspipe->command, strlen(cmdbuf)+1, "%s", cmdbuf); dprint((1, "pipe read: %s", cmdbuf)); if(pipe_mswin_exec_wrapper("pipe command", syspipe, flags, pipecb_f, piperr_f)){ if(syspipe->outfile){ free((void *) syspipe->outfile); syspipe->outfile = NULL; } zot_pipe(&syspipe); } else{ syspipe->in.f = our_fopen(syspipe->outfile, "rb"); syspipe->exit_code = exit_code; } } else{ /* we just run the command taking outfile into account */ syspipe->command = (char *) malloc((strlen(cmdbuf)+1)*sizeof(char)); snprintf(syspipe->command, strlen(cmdbuf)+1, "%s", cmdbuf); if(pipe_mswin_exec_wrapper("pipe command", syspipe, flags, pipecb_f, piperr_f)){ if(syspipe->outfile){ free((void *) syspipe->outfile); syspipe->outfile = NULL; } zot_pipe(&syspipe); } else syspipe->exit_code = exit_code; } #else /* !_WINDOWS */ if((syspipe = (PIPE_S *) malloc(sizeof(PIPE_S))) == NULL) return(NULL); memset(syspipe, 0, sizeof(PIPE_S)); syspipe->mode = mode; /* * If we're not using the shell's command parsing smarts, build * argv by hand... */ if(mode & PIPE_NOSHELL){ char **ap, *p; size_t n; /* parse the arguments into argv */ for(p = command; *p && isspace((unsigned char)(*p)); p++) ; /* swallow leading ws */ if(*p){ int l = strlen(p); if((syspipe->args = (char *) malloc((l + 1) * sizeof(char))) != NULL){ strncpy(syspipe->args, p, l); syspipe->args[l] = '\0'; } else{ if(piperr_f) (*piperr_f)(pipe_error_msg("", "execute", "Can't allocate command string")); zot_pipe(&syspipe); return(NULL); } } else{ if(piperr_f) (*piperr_f)(pipe_error_msg("", "execute", "No command name found")); zot_pipe(&syspipe); return(NULL); } for(p = syspipe->args, n = 2; *p; p++) /* count the args */ if(isspace((unsigned char)(*p)) && *(p+1) && !isspace((unsigned char)(*(p+1)))) n++; if ((syspipe->argv = ap = (char **)malloc(n * sizeof(char *))) == NULL){ zot_pipe(&syspipe); return(NULL); } memset(syspipe->argv, 0, n * sizeof(char *)); for(p = syspipe->args; *p; ){ /* collect args */ while(*p && isspace((unsigned char)(*p))) *p++ = '\0'; *ap++ = (*p) ? p : NULL; while(*p && !isspace((unsigned char)(*p))) p++; } /* make sure argv[0] exists in $PATH */ if(can_access_in_path(getenv("PATH"), syspipe->argv[0], EXECUTE_ACCESS) < 0){ if(piperr_f) (*piperr_f)(pipe_error_msg(syspipe->argv[0], "access", error_description(errno))); zot_pipe(&syspipe); return(NULL); } } /* fill in any output filenames */ if(!(mode & PIPE_READ)){ if(outfile && !*outfile) *outfile = temp_nam(NULL, "pine_p"); /* asked for, but not named? */ if(errfile && !*errfile) *errfile = temp_nam(NULL, "pine_p"); /* ditto */ } /* create pipes */ if(mode & (PIPE_WRITE | PIPE_READ)){ if(mode & PIPE_WRITE){ pipe(p); /* alloc pipe to write child */ oparentd = p[STDOUT_FILENO]; ichildd = p[STDIN_FILENO]; } if(mode & PIPE_READ){ pipe(p); /* alloc pipe to read child */ iparentd = p[STDIN_FILENO]; ochildd = p[STDOUT_FILENO]; } } if(pipecb_f) /* let caller prep display */ (*pipecb_f)(syspipe, OSB_PRE_OPEN, NULL); if((syspipe->pid = vfork()) == 0){ /* reset child's handlers in requested fashion... */ (void)signal(SIGINT, (mode & PIPE_PROT) ? SIG_IGN : SIG_DFL); (void)signal(SIGQUIT, (mode & PIPE_PROT) ? SIG_IGN : SIG_DFL); (void)signal(SIGHUP, (mode & PIPE_PROT) ? SIG_IGN : SIG_DFL); #ifdef SIGCHLD (void) signal(SIGCHLD, SIG_DFL); #endif /* if parent isn't reading, and we have a filename to write */ if(!(mode & PIPE_READ) && outfile){ /* connect output to file */ int output = our_creat(*outfile, 0600); dup2(output, STDOUT_FILENO); if(mode & PIPE_STDERR) dup2(output, STDERR_FILENO); else if(errfile) dup2(our_creat(*errfile, 0600), STDERR_FILENO); } if(mode & PIPE_WRITE){ /* connect process input */ close(oparentd); dup2(ichildd, STDIN_FILENO); /* tie stdin to pipe */ close(ichildd); } if(mode & PIPE_READ){ /* connect process output */ close(iparentd); dup2(ochildd, STDOUT_FILENO); /* tie std{out,err} to pipe */ if(mode & PIPE_STDERR) dup2(ochildd, STDERR_FILENO); else if(errfile) dup2(our_creat(*errfile, 0600), STDERR_FILENO); close(ochildd); } if(mode & PIPE_NOSHELL){ execvp(syspipe->argv[0], syspipe->argv); } else{ if(mode & PIPE_USER){ char *env, *sh; if((env = getenv("SHELL")) && (sh = strrchr(env, '/'))){ shell = sh + 1; strncpy(shellpath, env, sizeof(shellpath)-1); shellpath[sizeof(shellpath)-1] = '\0'; } else{ shell = "csh"; strncpy(shellpath, "/bin/csh", sizeof(shellpath)-1); shellpath[sizeof(shellpath)-1] = '\0'; } } else{ shell = "sh"; strncpy(shellpath, "/bin/sh", sizeof(shellpath)-1); shellpath[sizeof(shellpath)-1] = '\0'; } execl(shellpath, shell, command ? "-c" : (char *)NULL, fname_to_locale(command), (char *)NULL); } fprintf(stderr, "Can't exec %s\nReason: %s", command, error_description(errno)); _exit(-1); } if((child_pid = syspipe->pid) > 0){ syspipe->isig = signal(SIGINT, SIG_IGN); /* Reset handlers to make */ syspipe->qsig = signal(SIGQUIT, SIG_IGN); /* sure we don't come to */ syspipe->hsig = signal(SIGHUP, SIG_IGN); /* a premature end... */ if((syspipe->timeout = timeout) != 0){ syspipe->alrm = signal(SIGALRM, pipe_alarm); syspipe->old_timeo = alarm(timeout); } if(mode & PIPE_WRITE){ close(ichildd); if(mode & PIPE_DESC) syspipe->out.d = oparentd; else syspipe->out.f = fdopen(oparentd, "w"); } if(mode & PIPE_READ){ close(ochildd); if(mode & PIPE_DESC) syspipe->in.d = iparentd; else syspipe->in.f = fdopen(iparentd, "r"); } } else{ if(mode & (PIPE_WRITE | PIPE_READ)){ if(mode & PIPE_WRITE){ close(oparentd); close(ichildd); } if(mode & PIPE_READ){ close(iparentd); close(ochildd); } } if(pipecb_f) /* let caller fixup display */ (*pipecb_f)(syspipe, OSB_POST_OPEN, NULL); if(outfile && *outfile){ our_unlink(*outfile); free((void *) *outfile); *outfile = NULL; } if(errfile && *errfile){ our_unlink(*errfile); free((void *) *errfile); *errfile = NULL; } if(piperr_f) (*piperr_f)(pipe_error_msg(command, "fork", error_description(errno))); zot_pipe(&syspipe); } #endif /* UNIX */ return(syspipe); } #ifndef _WINDOWS /*---------------------------------------------------------------------- Return appropriate error message Args: cmd -- command we were trying to exec op -- operation leading up to the exec res -- result of that operation ----*/ char * pipe_error_msg(char *cmd, char *op, char *res) { static char ebuf[512 + 16 + 1]; snprintf(ebuf, sizeof(ebuf), "Pipe can't %.256s \"%.32sb\": %.223s", op ? op : "?", cmd ? cmd : "?", res ? res : "?"); ebuf[sizeof(ebuf) - 1] = '\0'; return(ebuf); } #endif /* !_WINDOWS */ /*---------------------------------------------------------------------- Free resources associated with the given pipe struct Args: syspipe -- address of pointer to struct to clean up ----*/ void zot_pipe(PIPE_S **syspipe) { if((*syspipe)->args){ free((void *) (*syspipe)->args); (*syspipe)->args = NULL; } if((*syspipe)->argv){ free((void *) (*syspipe)->argv); (*syspipe)->argv = NULL; } if((*syspipe)->tmp){ free((void *) (*syspipe)->tmp); (*syspipe)->tmp = NULL; } #ifdef _WINDOWS if((*syspipe)->outfile){ free((void *) (*syspipe)->outfile); (*syspipe)->outfile = NULL; } if((*syspipe)->command){ free((void *) (*syspipe)->command); (*syspipe)->command = NULL; } #endif /* _WINDOWS */ free((void *) *syspipe); *syspipe = NULL; } /* * Returns: 0 if all went well, -1 otherwise */ int pipe_close_write(PIPE_S *syspipe) { int rv = 0; if(!syspipe || !syspipe->out.f) return -1; #ifdef _WINDOWS { unsigned flags = 0; if(syspipe->mode & PIPE_STDERR) flags |= MSWIN_EAW_CAPT_STDERR; rv = fclose(syspipe->out.f); syspipe->out.f = NULL; if(syspipe->mode & PIPE_WRITE){ /* * PIPE_WRITE should always be set if we're trying to close * the write end. * PIPE_WRITE can't start process till now, all the others * will have already run */ if(pipe_mswin_exec_wrapper("pipe command", syspipe, flags, NULL, NULL)) /* some horrible error just occurred */ rv = -1; else syspipe->in.f = our_fopen(syspipe->outfile, "rb"); } else rv = -1; } #else /* UNIX */ rv = fclose(syspipe->out.f) ? -1 : 0; syspipe->out.f = NULL; #endif return(rv); } /*---------------------------------------------------------------------- Close pipe previously allocated and wait for child's death Args: syspipe -- address of pointer to struct returned by open_system_pipe exitval -- return exit status here. Returns: Two modes of return values for backcompat. If exitval == NULL returns exit status of child or -1 if invalid syspipe If exitval != NULL returns -1 if invalid syspipe or 0 if ok. In that case, exitval of child is returned in exitval ----*/ int close_system_pipe(PIPE_S **syspipe, int *exitval, void (*pipecb_f) (PIPE_S *, int, void *)) { #ifdef _WINDOWS int rv = 0; unsigned flags = 0; if(!(syspipe && *syspipe)) return(-1); if((*syspipe)->mode & PIPE_STDERR) flags |= MSWIN_EAW_CAPT_STDERR; if(((*syspipe)->mode & PIPE_WRITE) && (*syspipe)->out.f){ fclose((*syspipe)->out.f); /* * PIPE_WRITE can't start process till now, all the others * will have already run */ if(pipe_mswin_exec_wrapper("pipe command", (*syspipe), flags, pipecb_f, NULL)) /* some horrible error just occurred */ rv = -1; } else if((*syspipe)->mode & PIPE_READ) if((*syspipe)->in.f) fclose((*syspipe)->in.f); if(exitval){ *exitval = (*syspipe)->exit_code; dprint((5, "Closed pipe: exitval=%d\n", *exitval)); } if((*syspipe)->infile) our_unlink((*syspipe)->infile); if((*syspipe)->outfile && (*syspipe)->deloutfile) our_unlink((*syspipe)->outfile); if(rv != -1 && !exitval) rv = (*syspipe)->exit_code; zot_pipe(syspipe); #ifdef DEBUG if(!exitval){ dprint((5, "Closed pipe: rv=%d\n", rv)); } #endif /* DEBUG */ return(rv); #else /* UNIX */ int status; if(!(syspipe && *syspipe)) return -1; if(((*syspipe)->mode) & PIPE_WRITE){ if(((*syspipe)->mode) & PIPE_DESC){ if((*syspipe)->out.d >= 0) close((*syspipe)->out.d); } else if((*syspipe)->out.f) fclose((*syspipe)->out.f); } if(((*syspipe)->mode) & PIPE_READ){ if(((*syspipe)->mode) & PIPE_DESC){ if((*syspipe)->in.d >= 0) close((*syspipe)->in.d); } else if((*syspipe)->in.f) fclose((*syspipe)->in.f); } if(pipecb_f) (*pipecb_f)(*syspipe, OSB_PRE_CLOSE, NULL); /* wait on the child */ (void) process_reap((*syspipe)->pid, &status, PR_NONE); /* restore original handlers... */ (void) signal(SIGINT, (*syspipe)->isig); (void) signal(SIGHUP, (*syspipe)->hsig); (void) signal(SIGQUIT, (*syspipe)->qsig); if((*syspipe)->timeout){ (void)signal(SIGALRM, (*syspipe)->alrm); alarm((*syspipe)->old_timeo); child_pid = 0; } if(pipecb_f) (*pipecb_f)(*syspipe, OSB_POST_CLOSE, NULL); zot_pipe(syspipe); if(exitval){ *exitval = status; return 0; } else{ return(status); } #endif /* UNIX */ } /* * process_reap - manage child demise and return exit status * * Args: pid -- id of process to reap * esp -- pointer to exist status * flags -- special reaping considerations * * Returns: * < 0 -- if there's a problem * 0 -- if no child to reap * > 0 -- process id of the child */ pid_t process_reap(pid_t pid, int *esp, int flags) { #ifdef _WINDOWS return 0; #else /* UNIX */ WAITSTATUS_T wstatus; pid_t rv; int wflags; #if HAVE_WAITPID wflags = 0; #ifdef WNOHANG if(flags & PR_NOHANG) wflags |= WNOHANG; #endif while (((rv = waitpid(pid, &wstatus, wflags)) < 0) && (errno != ECHILD)); #elif HAVE_WAIT4 wflags = 0; #ifdef WNOHANG if(flags & PR_NOHANG) wflags |= WNOHANG; #endif while (((rv = wait4(pid,&wstatus,wflags,NULL)) < 0) && (errno != ECHILD)); #elif HAVE_WAIT while (((rv = wait(&wstatus)) != pid) && ((rv > 0) || (errno != ECHILD))); #else /* BUG: BAIL */ #endif if(rv > 0) *esp = (WIFEXITED(wstatus)) ? (int) WEXITSTATUS(wstatus) : -1; return(rv); #endif /* UNIX */ } #ifndef _WINDOWS RETSIGTYPE pipe_alarm(int sig) { if(child_pid) kill(child_pid, SIGINT); } #endif /* !_WINDOWS */ #ifdef _WINDOWS /* * Wrapper around mswin_exec_and_wait() */ int pipe_mswin_exec_wrapper(char *whatsit, PIPE_S *syspipe, unsigned flags, void (*pipecb_f)(PIPE_S *, int, void *), void (*piperr_f)(char *)) { int rv; flags |= MSWIN_EAW_CTRL_C_CANCELS; if(pipecb_f) (*pipecb_f)(syspipe, OSB_PRE_OPEN, NULL); rv = mswin_exec_and_wait(whatsit, syspipe->command, syspipe->infile, syspipe->outfile, &syspipe->exit_code, flags); if(pipecb_f) (*pipecb_f)(syspipe, OSB_POST_OPEN, (void *)rv); return rv; } #endif