#include #define execl _execl #define execle _execle #define execv _execv #define execve _execve extern char **environ; /* environment pointer */ #define PTRSIZE (sizeof(char *)) _PROTOTYPE( char *_sbrk, (int _incr) ); #if _ANSI #include PUBLIC int execl(char *name, ...) { int retval; va_list ap; va_start(ap, name); retval = execve(name, (char **)ap, environ); va_end(ap); return retval; } #else PUBLIC int execl(name, arg0) char *name; char *arg0; { return(execve(name, &arg0, environ)); } #endif #if _ANSI PUBLIC int execle(char *name, ...) { int retval; va_list ap; char *p; va_start(ap, name); do { p = va_arg(ap, char *); } while(p); p = (char *)va_arg(ap, char **); va_end(ap); va_start(ap, name); retval = execve(name, (char **)ap, (char **) p); va_end(ap); return retval; } #else PUBLIC int execle(name, argv) char *name, *argv; { char **p; p = (char **) &argv; while (*p++) /* null statement */ ; return(execve(name, &argv, (char **) *p)); } #endif PUBLIC int execv(name, argv) char *name, *argv[]; { return(execve(name, argv, environ)); } PUBLIC int execve(path, argv, envp) char *path; /* pointer to name of file to be executed */ char *argv[]; /* pointer to argument array */ char *envp[]; /* pointer to environment */ { register char **argtop; register char **envtop; /* Count the argument pointers and environment pointers. */ for (argtop = argv; *argtop != (char *) NULL; ) argtop++; for (envtop = envp; *envtop != (char *) NULL; ) envtop++; return(__execve(path, argv, envp, (int)(argtop - argv), (int)(envtop - envp))); } PUBLIC int __execve(path, argv, envp, nargs, nenvps) char *path; /* pointer to name of file to be executed */ char *argv[]; /* pointer to argument array */ char *envp[]; /* pointer to environment */ int nargs; /* number of args */ int nenvps; /* number of environment strings */ { /* This is split off from execve to be called from execvp, so execvp does not * have to allocate up to ARG_MAX bytes just to prepend "sh" to the arg array. */ char *hp, **ap, *p; int i, stackbytes, npointers, overflow, temp; char *stack; /* Decide how big a stack is needed. Be paranoid about overflow. */ #if ARG_MAX > INT_MAX #error /* overflow checks and sbrk depend on sizes being ints */ #endif overflow = FALSE; npointers = 1 + nargs + 1 + nenvps + 1; /* 1's for argc and NULLs */ stackbytes = 0; /* changed because _len is used now */ if (nargs < 0 || nenvps < 0 || nargs+nenvps < 0 || npointers < 0) overflow = TRUE; for (i = PTRSIZE; i != 0; i--) { temp = stackbytes + npointers; if (temp < stackbytes) overflow = TRUE; stackbytes = temp; } for (i = 0, ap = argv; i < nargs; i++) { temp = stackbytes + _len(*ap++); if (temp < stackbytes) overflow = TRUE; stackbytes = temp; } for (i = 0, ap = envp; i < nenvps; i++) { temp = stackbytes + _len(*ap++); if (temp < stackbytes) overflow = TRUE; stackbytes = temp; } temp = stackbytes + PTRSIZE - 1; if (temp < stackbytes) overflow = TRUE; stackbytes = (temp / PTRSIZE) * PTRSIZE; /* Check for overflow before committing sbrk. */ if (overflow || stackbytes > ARG_MAX) { errno = E2BIG; return(-1); } /* Allocate the stack. */ stack = _sbrk(stackbytes); if (stack == (char *) -1) { errno = E2BIG; return(-1); } /* Prepare the stack vector and argc. */ ap = (char **) stack; hp = &stack[npointers * PTRSIZE]; *ap++ = (char *) nargs; /* Prepare the argument pointers and strings. */ for (i = 0; i < nargs; i++) { *ap++ = (char *) (hp - stack); p = *argv++; while ((*hp++ = *p++) != 0) ; } *ap++ = (char *) NULL; /* Prepare the environment pointers and strings. */ for (i = 0; i < nenvps; i++) { *ap++ = (char *) (hp - stack); p = *envp++; while ((*hp++ = *p++) != 0) ; } *ap++ = (char *) NULL; /* Do the real work. */ temp = _callm1(MM, EXEC, _len(path), stackbytes, 0, path, stack, NIL_PTR); _sbrk(-stackbytes); return(temp); }