What does an "exec" command do?
man bash
says:
exec [-cl] [-a name] [command [arguments]]
If command is specified, it replaces the shell. No new process
is created. The arguments become the arguments to command. If
the -l option is supplied, the shell places a dash at the
beginning of the zeroth argument passed to command. This is
what login(1) does. The -c option causes command to be executed
with an empty environment. If -a is supplied, the shell passes
name as the zeroth argument to the executed command. If command
cannot be executed for some reason, a non-interactive shell
exits, unless the execfail shell option is enabled. In that
case, it returns failure. An interactive shell returns failure
if the file cannot be executed. If command is not specified,
any redirections take effect in the current shell, and the
return status is 0. If there is a redirection error, the return
status is 1.
The last two lines are what is important: If you run exec
by itself, without a command, it will simply make the redirections apply to the current shell. You probably know that when you run command > file
, the output of command
is written to file
instead of to your terminal (this is called a redirection). If you run exec > file
instead, then the redirection applies to the entire shell: Any output produced by the shell is written to file
instead of to your terminal. For example here
bash-3.2$ bash
bash-3.2$ exec > file
bash-3.2$ date
bash-3.2$ exit
bash-3.2$ cat file
Thu 18 Sep 2014 23:56:25 CEST
I first start a new bash
shell. Then, in this new shell I run exec > file
, so that all output is redirected to file
. Indeed, after that I run date
but I get no output, because the output is redirected to file
. Then I exit my shell (so that the redirection no longer applies) and I see that file
indeed contains the output of the date
command I ran earlier.
exec
is a command with two very distinct behaviors, depending on whether at least one argument is used with it, or no argument is used at all.
If at least one argument is passed, the first one is taken as a command name and
exec
try to execute it as a command passing the remaining arguments, if any, to that command and managing the redirections, if any.If the command passed as first argument doesn't exist, the current shell, not only the
exec
command, exits in error, unless the shell is interactive or the bash optionexecfail
is set (shopt -s execfail
). See also https://superuser.com/questions/992204/why-does-exec-non-existent-file-exits-the-shell-when-in-a-script-that-is-sourcIf the command exists and is executable, it replaces the current shell. That means that if
exec
appears in a script, the instructions following the exec call will never be executed (unlessexec
is itself in a subshell). A successfulexec
never returns. Shell traps like "EXIT" won't get triggered either.If no argument is passed,
exec
is only used to redefine the current shell file descriptors. The shell continue after theexec
, unlike with the previous case, but the standard input, output, error or whatever file descriptor has been redirected take effect.If some of the redirections uses
/dev/null
, any input from it will return EOF and any output to it will be discarded.You can close file descriptors by using
-
as source or destination, e.g.exec <&-
. Subsequent read or writes will then fail.
Here are two examples:
echo foo > /tmp/bar
exec < /tmp/bar # exec has no arguments, will only affect current shell descriptors, here stdin
cat # simple command that read stdin and write it to stdout
This script will output "foo" as the cat command, instead of waiting for user input as it would have done in the usual case will take its input from the /tmp/bar file which contains foo.
echo foo > /tmp/bar
exec wc -c < /tmp/bar # exec has two arguments, the control flow will switch to the wc command
cat
This script will display 4
(the number of bytes in /tmp/bar) and immediately ends. The cat
command won't be executed.
To understand exec
you need to first understand fork
. I am trying to keep it short.
When you come to a fork in the road you generally have two options. Linux programs reach this fork in the road when they hit a
fork()
system call.Normal programs are system commands that exist in a compiled form on your system. When such a program is executed, a new process is created. This child process has the same environment as its parent, only the process ID number is different. This procedure is called forking.
- Forking provides a way for an existing process to start a new one. However,
there may be situations where a child process is not the part of the same
program as parent process. In this case
exec
is used.exec
will replace the contents of the currently running process with the information from a program binary. - After the forking process, the address space of the child process is overwritten with the new process data. This is done through an exec call to the system.