/************************************************************/ /* */ /* Module ID - vmesa.c */ /* */ /* Function - Provide operating system dependent process- */ /* ing for perl under VM/ESA. */ /* */ /* Parameters - See individual entry points. */ /* */ /* Called By - N/A - see individual entry points. */ /* */ /* Calling To - N/A - see individual entry points. */ /* */ /* Notes - (1) ....................................... */ /* */ /* (2) ....................................... */ /* */ /* Name - Neale Ferguson. */ /* */ /* Date - August, 1998. */ /* */ /* */ /* Associated - (1) Refer To ........................... */ /* Documentation */ /* (2) Refer To ........................... */ /* */ /************************************************************/ /************************************************************/ /* */ /* MODULE MAINTENANCE HISTORY */ /* -------------------------- */ /* */ static char REQ_REL_WHO [13] = /*-------------- -------------------------------------*/ "9999_99 NAF "; /* Original module */ /* */ /*============ End of Module Maintenance History ===========*/ /************************************************************/ /* */ /* DEFINES */ /* ------- */ /* */ /************************************************************/ #define FAIL 65280 /*=============== END OF DEFINES ===========================*/ /************************************************************/ /* */ /* INCLUDE STATEMENTS */ /* ------------------ */ /* */ /************************************************************/ #include #include #include #include #include #include #include #include "EXTERN.h" #include "perl.h" #pragma map(truncate, "@@TRUNC") /*================== End of Include Statements =============*/ /************************************************************/ /* */ /* Global Variables */ /* ---------------- */ /* */ /************************************************************/ static int Perl_stdin_fd = STDIN_FILENO, Perl_stdout_fd = STDOUT_FILENO; static long dl_retcode = 0; /*================== End of Global Variables ===============*/ /************************************************************/ /* */ /* FUNCTION PROTOTYPES */ /* ------------------- */ /* */ /************************************************************/ int do_aspawn(SV *, SV **, SV **); int do_spawn(char *, int); static int spawnit(char *); static pid_t spawn_cmd(char *, int, int); struct perl_thread * getTHR(void); /*================== End of Prototypes =====================*/ /************************************************************/ /* */ /* D O _ A S P A W N */ /* ----------------- */ /* */ /************************************************************/ int do_aspawn(SV* really, SV **mark, SV **sp) { char **a, *tmps; struct inheritance inherit; pid_t pid; int status, fd, nFd, fdMap[3]; SV *sv, **p_sv; STRLEN n_a; status = FAIL; if (sp > mark) { dTHR; New(401,PL_Argv, sp - mark + 1, char*); a = PL_Argv; while (++mark <= sp) { if (*mark) *a++ = SvPVx(*mark, n_a); else *a++ = ""; } inherit.flags = SPAWN_SETGROUP; inherit.pgroup = SPAWN_NEWPGROUP; fdMap[STDIN_FILENO] = Perl_stdin_fd; fdMap[STDOUT_FILENO] = Perl_stdout_fd; fdMap[STDERR_FILENO] = STDERR_FILENO; nFd = 3; *a = Nullch; /*-----------------------------------------------------*/ /* Will execvp() use PATH? */ /*-----------------------------------------------------*/ if (*PL_Argv[0] != '/') TAINT_ENV(); if (really && *(tmps = SvPV(really, n_a))) pid = spawnp(tmps, nFd, fdMap, &inherit, (const char **) PL_Argv, (const char **) environ); else pid = spawnp(PL_Argv[0], nFd, fdMap, &inherit, (const char **) PL_Argv, (const char **) environ); if (pid < 0) { status = FAIL; if (ckWARN(WARN_EXEC)) warner(WARN_EXEC,"Can't exec \"%s\": %s", PL_Argv[0], Strerror(errno)); } else { /*------------------------------------------------*/ /* If the file descriptors have been remapped then*/ /* we've been called following a my_popen request */ /* therefore we don't want to wait for spawnned */ /* program to complete. We need to set the fdpid */ /* value to the value of the spawnned process' pid*/ /*------------------------------------------------*/ fd = 0; if (Perl_stdin_fd != STDIN_FILENO) fd = Perl_stdin_fd; else if (Perl_stdout_fd != STDOUT_FILENO) fd = Perl_stdout_fd; if (fd != 0) { /*---------------------------------------------*/ /* Get the fd of the other end of the pipe, */ /* use this to reference the fdpid which will */ /* be used by my_pclose */ /*---------------------------------------------*/ close(fd); p_sv = av_fetch(PL_fdpid,fd,TRUE); fd = (int) SvIVX(*p_sv); SvREFCNT_dec(*p_sv); *p_sv = &PL_sv_undef; sv = *av_fetch(PL_fdpid,fd,TRUE); (void) SvUPGRADE(sv, SVt_IV); SvIVX(sv) = pid; status = 0; } else wait4pid(pid, &status, 0); } do_execfree(); } return (status); } /*===================== End of do_aspawn ===================*/ /************************************************************/ /* */ /* D O _ S P A W N */ /* --------------- */ /* */ /************************************************************/ int do_spawn(char *cmd, int execf) { char **a, *s, flags[10]; int status, nFd, fdMap[3]; struct inheritance inherit; pid_t pid; while (*cmd && isSPACE(*cmd)) cmd++; /*------------------------------------------------------*/ /* See if there are shell metacharacters in it */ /*------------------------------------------------------*/ if (*cmd == '.' && isSPACE(cmd[1])) return (spawnit(cmd)); else { if (strnEQ(cmd,"exec",4) && isSPACE(cmd[4])) return (spawnit(cmd)); else { /*------------------------------------------------*/ /* Catch VAR=val gizmo */ /*------------------------------------------------*/ for (s = cmd; *s && isALPHA(*s); s++); if (*s != '=') { for (s = cmd; *s; s++) { if (*s != ' ' && !isALPHA(*s) && strchr("$&*(){}[]'\";\\|?<>~`\n",*s)) { if (*s == '\n' && !s[1]) { *s = '\0'; break; } return(spawnit(cmd)); } } } } } New(402,PL_Argv, (s - cmd) / 2 + 2, char*); PL_Cmd = savepvn(cmd, s-cmd); a = PL_Argv; for (s = PL_Cmd; *s;) { while (*s && isSPACE(*s)) s++; if (*s) *(a++) = s; while (*s && !isSPACE(*s)) s++; if (*s) *s++ = '\0'; } *a = Nullch; fdMap[STDIN_FILENO] = Perl_stdin_fd; fdMap[STDOUT_FILENO] = Perl_stdout_fd; fdMap[STDERR_FILENO] = STDERR_FILENO; nFd = 3; inherit.flags = 0; if (PL_Argv[0]) { pid = spawnp(PL_Argv[0], nFd, fdMap, &inherit, (const char **) PL_Argv, (const char **) environ); if (pid < 0) { dTHR; status = FAIL; if (ckWARN(WARN_EXEC)) warner(WARN_EXEC,"Can't exec \"%s\": %s", PL_Argv[0], Strerror(errno)); } else wait4pid(pid, &status, 0); } do_execfree(); return (status); } /*===================== End of do_spawn ====================*/ /************************************************************/ /* */ /* Name - spawnit. */ /* */ /* Function - Spawn command and return status. */ /* */ /* On Entry - cmd - command to be spawned. */ /* */ /* On Exit - status returned. */ /* */ /************************************************************/ int spawnit(char *cmd) { pid_t pid; int status; pid = spawn_cmd(cmd, STDIN_FILENO, STDOUT_FILENO); if (pid < 0) status = FAIL; else wait4pid(pid, &status, 0); return (status); } /*===================== End of spawnit =====================*/ /************************************************************/ /* */ /* Name - spawn_cmd. */ /* */ /* Function - Spawn command and return pid. */ /* */ /* On Entry - cmd - command to be spawned. */ /* */ /* On Exit - pid returned. */ /* */ /************************************************************/ pid_t spawn_cmd(char *cmd, int inFd, int outFd) { struct inheritance inherit; pid_t pid; const char *argV[4] = {"/bin/sh","-c",NULL,NULL}; int nFd, fdMap[3]; argV[2] = cmd; fdMap[STDIN_FILENO] = inFd; fdMap[STDOUT_FILENO] = outFd; fdMap[STDERR_FILENO] = STDERR_FILENO; nFd = 3; inherit.flags = SPAWN_SETGROUP; inherit.pgroup = SPAWN_NEWPGROUP; pid = spawn(argV[0], nFd, fdMap, &inherit, argV, (const char **) environ); return (pid); } /*===================== End of spawnit =====================*/ /************************************************************/ /* */ /* Name - my_popen. */ /* */ /* Function - Use popen to execute a command return a */ /* file descriptor. */ /* */ /* On Entry - cmd - command to be executed. */ /* */ /* On Exit - FILE * returned. */ /* */ /************************************************************/ #include PerlIO * my_popen(char *cmd, char *mode) { FILE *fd; int pFd[2], this, that, pid; SV *sv; if (PerlProc_pipe(pFd) >= 0) { this = (*mode == 'w'); that = !this; /*-------------------------------------------------*/ /* If this is a read mode pipe */ /* - map the write end of the pipe to STDOUT */ /* - return the *FILE for the read end of the pipe */ /*-------------------------------------------------*/ if (!this) Perl_stdout_fd = pFd[that]; /*-------------------------------------------------*/ /* Else */ /* - map the read end of the pipe to STDIN */ /* - return the *FILE for the write end of the pipe*/ /*-------------------------------------------------*/ else Perl_stdin_fd = pFd[that]; if (strNE(cmd,"-")) { pid = spawn_cmd(cmd, Perl_stdin_fd, Perl_stdout_fd); if (pid >= 0) { sv = *av_fetch(PL_fdpid,pFd[this],TRUE); (void) SvUPGRADE(sv, SVt_IV); SvIVX(sv) = pid; fd = PerlIO_fdopen(pFd[this], mode); close(pFd[that]); } else fd = Nullfp; } else { sv = *av_fetch(PL_fdpid,pFd[that],TRUE); (void) SvUPGRADE(sv, SVt_IV); SvIVX(sv) = pFd[this]; fd = PerlIO_fdopen(pFd[this], mode); } } else fd = Nullfp; return (fd); } /*===================== End of my_popen ====================*/ /************************************************************/ /* */ /* Name - my_pclose. */ /* */ /* Function - Use pclose to terminate a piped command */ /* file stream. */ /* */ /* On Entry - fd - FILE pointer. */ /* */ /* On Exit - Status returned. */ /* */ /************************************************************/ long my_pclose(FILE *fp) { int pid, saveErrno, status; long rc, wRc; SV **sv; FILE *other; sv = av_fetch(PL_fdpid,PerlIO_fileno(fp),TRUE); pid = (int) SvIVX(*sv); SvREFCNT_dec(*sv); *sv = &PL_sv_undef; rc = PerlIO_close(fp); saveErrno = errno; do { wRc = waitpid(pid, &status, 0); } while ((wRc == -1) && (errno == EINTR)); Perl_stdin_fd = STDIN_FILENO; Perl_stdout_fd = STDOUT_FILENO; errno = saveErrno; if (rc != 0) SETERRNO(errno, garbage); return (rc); } /************************************************************/ /* */ /* Name - dlopen. */ /* */ /* Function - Load a DLL. */ /* */ /* On Exit - */ /* */ /************************************************************/ void * dlopen(const char *path) { dllhandle *handle; fprintf(stderr,"Loading %s\n",path); handle = dllload(path); dl_retcode = errno; fprintf(stderr,"Handle %08X %s\n",handle,strerror(errno)); return ((void *) handle); } /*===================== End of dlopen ======================*/ /************************************************************/ /* */ /* Name - dlsym. */ /* */ /* Function - Locate a DLL symbol. */ /* */ /* On Exit - */ /* */ /************************************************************/ void * dlsym(void *handle, const char *symbol) { void *symLoc; fprintf(stderr,"Finding %s\n",symbol); symLoc = dllqueryvar((dllhandle *) handle, (char *) symbol); if (symLoc == NULL) symLoc = (void *) dllqueryfn((dllhandle *) handle, (char *) symbol); dl_retcode = errno; return(symLoc); } /*===================== End of dlsym =======================*/ /************************************************************/ /* */ /* Name - dlerror. */ /* */ /* Function - Return the last errno pertaining to a DLL */ /* operation. */ /* */ /* On Exit - */ /* */ /************************************************************/ void * dlerror(void) { char * dlEmsg; dlEmsg = strerror(dl_retcode); dl_retcode = 0; return(dlEmsg); } /*===================== End of dlerror =====================*/ /************************************************************/ /* */ /* Name - TRUNCATE. */ /* */ /* Function - Truncate a file identified by 'path' to */ /* a given length. */ /* */ /* On Entry - path - Path of file to be truncated. */ /* length - length of truncated file. */ /* */ /* On Exit - retC - return code. */ /* */ /************************************************************/ int truncate(const unsigned char *path, off_t length) { int fd, retC; fd = open((const char *) path, O_RDWR); if (fd > 0) { retC = ftruncate(fd, length); close(fd); } else retC = fd; return(retC); } /*===================== End of trunc =======================*/