.\" Copyright (c) 1980 Regents of the University of California. .\" All rights reserved. The Berkeley software License Agreement .\" specifies the terms and conditions for redistribution. .\" .\" @(#)execve.2 6.7 (Berkeley) 5/22/86 .\" .TH EXECVE 2 "May 22, 1986" .UC 4 .SH NAME execve \- execute a file .SH SYNOPSIS .nf .ft B #include int execve(const char *\fIname\fP, char *const \fIargv\fP[], char *const \fIenvp\fP[]) .ft R .fi .SH DESCRIPTION .B Execve transforms the calling process into a new process. The new process is constructed from an ordinary file called the \fInew process file\fP. This file is either an executable object file, or a file of data for an interpreter. An executable object file consists of an identifying header, followed by pages of data representing the initial program (text) and initialized data pages. Additional pages may be specified by the header to be initialized with zero data. See .BR a.out (5). .PP An interpreter file begins with a line of the form ``#! \fIinterpreter\fP''. When an interpreter file is .BR execve\| 'd, the system \fBexecve\fP\|'s the specified \fIinterpreter\fP, giving it the name of the originally exec'd file as an argument and shifting over the rest of the original arguments. .PP There can be no return from a successful \fBexecve\fP because the calling core image is lost. This is the mechanism whereby different process images become active. .PP The argument \fIargv\fP is a null-terminated array of character pointers to null-terminated character strings. These strings constitute the argument list to be made available to the new process. By convention, at least one argument must be present in this array, and the first element of this array should be the name of the executed program (i.e., the last component of \fIname\fP). .PP The argument \fIenvp\fP is also a null-terminated array of character pointers to null-terminated strings. These strings pass information to the new process that is not directly an argument to the command (see .BR environ (7)). .PP Descriptors open in the calling process remain open in the new process, except for those for which the close-on-exec flag is set (see .BR close (2)). Descriptors that remain open are unaffected by .BR execve . .PP Ignored signals remain ignored across an .BR execve , but signals that are caught are reset to their default values. Blocked signals remain blocked regardless of changes to the signal action. The signal stack is reset to be undefined (see .BR sigaction (2) for more information). .PP Each process has .I real user and group IDs and an .I effective user and group IDs. The .I real ID identifies the person using the system; the .I effective ID determines his access privileges. .B Execve changes the effective user and group ID to the owner of the executed file if the file has the \*(lqset-user-ID\*(rq or \*(lqset-group-ID\*(rq modes. The .I real user ID is not affected. .PP The new process also inherits the following attributes from the calling process: .PP .in +5n .nf .ta +2i process ID see \fBgetpid\fP\|(2) parent process ID see \fBgetppid\fP\|(2) process group ID see \fBgetpgrp\fP\|(2) access groups see \fBgetgroups\fP\|(2) working directory see \fBchdir\fP\|(2) root directory see \fBchroot\fP\|(2) control terminal see \fBtty\fP\|(4) alarm timer see \fBalarm\fP\|(2) file mode mask see \fBumask\fP\|(2) signal mask see \fBsigaction\fP\|(2), \fBsigprocmask\fP\|(2) .in -5n .fi .PP When the executed program begins, it is called as follows: .PP .RS .ft B .nf int main(int \fIargc\fP, char *const \fIargv\fP[], char *const \fIenvp\fP[]); exit(main(\fIargc\fP, \fIargv\fP, \fIenvp\fP)); .fi .ft R .RE .PP where .I argc is the number of elements in \fIargv\fP (the ``arg count'') and .I argv is the array of character pointers to the arguments themselves. .PP .I Envp is a pointer to an array of strings that constitute the .I environment of the process. A pointer to this array is also stored in the global variable ``environ''. Each string consists of a name, an \*(lq=\*(rq, and a null-terminated value. The array of pointers is terminated by a null pointer. The shell .BR sh (1) passes an environment entry for each global shell variable defined when the program is called. See .BR environ (7) for some conventionally used names. .SH "RETURN VALUE If .B execve returns to the calling process an error has occurred; the return value will be \-1 and the global variable .B errno will contain an error code. .SH ERRORS .B Execve will fail and return to the calling process if one or more of the following are true: .TP 15 [ENOTDIR] A component of the path prefix is not a directory. .TP 15 [ENAMETOOLONG] The path name exceeds PATH_MAX characters. .TP 15 [ENOENT] The new process file does not exist. .TP 15 [ELOOP] Too many symbolic links were encountered in translating the pathname. (Minix-vmd) .TP 15 [EACCES] Search permission is denied for a component of the path prefix. .TP 15 [EACCES] The new process file is not an ordinary file. .TP 15 [EACCES] The new process file mode denies execute permission. .TP 15 [ENOEXEC] The new process file has the appropriate access permission, but has an invalid magic number in its header. .TP 15 [ENOMEM] The new process requires more (virtual) memory than is currently available. .TP 15 [E2BIG] The number of bytes in the new process's argument list is larger than the system-imposed limit ARG_MAX. The limit in the system as released is 4096 bytes for 16-bit MINIX 3, 16384 bytes for 32-bit Minix, and unlimited for Minix-vmd. .TP 15 [EFAULT] \fIPath\fP\|, \fIargv\fP\|, or \fIenvp\fP point to an illegal address. .TP 15 [EIO] An I/O error occurred while reading from the file system. .SH CAVEATS If a program is .I setuid to a non-super-user, but is executed when the real \fBuid\fP is ``root'', then the program has some of the powers of a super-user as well. .SH "SEE ALSO" .BR exit (2), .BR fork (2), .BR execl (3), .BR environ (7).