EXECVE(2) | System Calls Manual | EXECVE(2) |
An interpreter file begins with a line of the form:
When an interpreter file is execve()d the system runs the specified interpreter. If the optional arg is specified, it becomes the first argument to the interpreter, and the name of the originally execve()d file becomes the second argument; otherwise, the name of the originally execve()d file becomes the first argument. The original arguments are shifted over to become the subsequent arguments. The zeroth argument, normally the name of the execve()d file, is left unchanged. The interpreter named by interpreter must not itself be an interpreter file. (See script(7) for a detailed discussion of interpreter file execution.)
The argument argv is a pointer to a null-terminated array of character pointers to null-terminated character strings. These strings construct the argument list to be made available to the new process. By custom, the first element should be the name of the executed program (for example, the last component of path).
The argument envp is also a pointer to a null-terminated array of character pointers to null-terminated strings. A pointer to this array is normally stored in the global variable environ. These strings pass information to the new process that is not directly an argument to the command (see environ(7)).
File descriptors open in the calling process image remain open in the new process image, except for those for which the close-on-exec flag is set (see close(2) and fcntl(2)). Descriptors that remain open are unaffected by execve().
In the case of a new setuid or setgid executable being executed, if file descriptors 0, 1, or 2 (representing stdin, stdout, and stderr) are currently unallocated, these descriptors will be opened to point to some system file like /dev/null. The intent is to ensure these descriptors are not unallocated, since many libraries make assumptions about the use of these 3 file descriptors.
Signals set to be ignored in the calling process are set to be ignored in the new process. Signals which are set to be caught in the calling process image are set to default action in the new process image. Blocked signals remain blocked regardless of changes to the signal action. The signal stack is reset to be undefined (see sigaction(2) for more information).
If the set-user-ID mode bit of the new process image file is set (see chmod(2)), the effective user ID of the new process image is set to the owner ID of the new process image file. If the set-group-ID mode bit of the new process image file is set, the effective group ID of the new process image is set to the group ID of the new process image file. (The effective group ID is the first element of the group list.) The real user ID, real group ID and other group IDs of the new process image remain the same as the calling process image. After any set-user-ID and set-group-ID processing, the effective user ID is recorded as the saved set-user-ID, and the effective group ID is recorded as the saved set-group-ID. These values may be used in changing the effective IDs later (see setuid(2)).
The new process also inherits the following attributes from the calling process:
process ID | see getpid(2) |
parent process ID | see getppid(2) |
process group ID | see getpgrp(2) |
access groups | see getgroups(2) |
working directory | see chdir(2) |
root directory | see chroot(2) |
control terminal | see termios(4) |
resource usages | see getrusage(2) |
interval timers | see getitimer(2) |
resource limits | see getrlimit(2) |
file mode mask | see umask(2) |
signal mask | see sigaction(2), sigprocmask(2) |
When a program is executed as a result of an execve() call, it is entered as follows:
main(argc, argv, envp) int argc; char **argv, **envp;
where argc is the number of elements in argv (the “arg count”) and argv points to the array of character pointers to the arguments themselves.
#!
and the script interpreter does not exist.February 24, 2008 | NetBSD 6.1 |