8.8 KiB
Redirection
<wrap left todo>Fix me: To be continued</wrap>
Redirection makes it possible to control where the output of a command
goes to, and where the input of a command comes from. It's a mighty
tool that, together with pipelines, makes the shell powerful. The
redirection operators are checked whenever a simple command is about to
be executed.
Under normal circumstances, there are 3 files open, accessible by the file descriptors 0, 1 and 2, all connected to your terminal:
Name FD Description
stdin
0 standard input stream (e.g. keyboard)
stdout
1 standard output stream (e.g. monitor)
stderr
2 standard error output stream (usually also on monitor)
<wrap center info>The terms "monitor" and "keyboard" refer to the same device, the terminal here. Check your preferred UNIX(r)-FAQ for details, I'm too lazy to explain what a terminal is ;-) </wrap>
Both, stdout
and stderr
are output file descriptors. Their
difference is the convention that a program outputs payload on
stdout
and diagnostic- and error-messages on stderr
. If you write a
script that outputs error messages, please make sure you follow this
convention!
Whenever you name such a filedescriptor, i.e. you want to redirect this descriptor, you just use the number:
# this executes the cat-command and redirects its error messages (stderr) to the bit bucket
cat some_file.txt 2>/dev/null
Whenever you reference a descriptor, to point to its current target
file, then you use a "&
" followed by a the descriptor number:
# this executes the echo-command and redirects its normal output (stdout) to the standard error target
echo "There was an error" 1>&2
The redirection operation can be anywhere in a simple command, so these examples are equivalent:
cat foo.txt bar.txt >new.txt
cat >new.txt foo.txt bar.txt
>new.txt cat foo.txt bar.txt
<wrap center important>Every redirection operator takes one or two words as operands. If you have to use operands (e.g. filenames to redirect to) that contain spaces you must quote them!</wrap>
Valid redirection targets and sources
This syntax is recognized whenever a TARGET
or a SOURCE
specification (like below in the details descriptions) is used.
Syntax Description
FILENAME
references a normal, ordinary filename from the filesystem (which can of course be a FIFO, too. Simply everything you can reference in the filesystem)
&N
references the current target/source of the filedescriptor N
("duplicates" the filedescriptor)
&-
closes the redirected filedescriptor, useful instead of > /dev/null
constructs (> &-
)
/dev/fd/N
duplicates the filedescriptor N
, if N
is a valid integer
/dev/stdin
duplicates filedescriptor 0 (stdin
)
/dev/stdout
duplicates filedescriptor 1 (stdout
)
/dev/stderr
duplicates filedescriptor 2 (stderr
)
/dev/tcp/HOST/PORT
assuming HOST
is a valid hostname or IP address, and PORT
is a valid port number or service name: redirect from/to the corresponding TCP socket
/dev/udp/HOST/PORT
assuming HOST
is a valid hostname or IP address, and PORT
is a valid port number or service name: redirect from/to the corresponding UDP socket
If a target/source specification fails to open, the whole redirection operation fails. Avoid referencing file descriptors above 9, since you may collide with file descriptors Bash uses internally.
Redirecting output
N > TARGET
This redirects the file descriptor number N
to the target TARGET
. If
N
is omitted, stdout
is assumed (FD 1). The TARGET
is
truncated before writing starts.
If the option noclobber
is set with the set
builtin, with cause the redirection to fail,
when TARGET
names a regular file that already exists. You can manually
override that behaviour by forcing overwrite with the redirection
operator >|
instead of >
.
Appending redirected output
N >> TARGET
This redirects the file descriptor number N
to the target TARGET
. If
N
is omitted, stdout
is assumed (FD 1). The TARGET
is not
truncated before writing starts.
Redirecting output and error output
&> TARGET
>& TARGET
This special syntax redirects both, stdout
and stderr
to the
specified target. It's equivalent to
> TARGET 2>&1
Since Bash4, there's &>>TARGET
, which is equivalent to
>> TARGET 2>&1
.
<wrap center important>This syntax is deprecated and should not be used. See the page about obsolete and deprecated syntax.</wrap>
Appending redirected output and error output
To append the cumulative redirection of stdout
and stderr
to a file
you simply do
>> FILE 2>&1
&>> FILE
Transporting stdout and stderr through a pipe
COMMAND1 2>&1 | COMMAND2
COMMAND1 |& COMMAND2
Redirecting input
N < SOURCE
The input descriptor N
uses SOURCE
as its data source. If N
is
omitted, filedescriptor 0 (stdin
) is assumed.
Here documents
<BOOKMARK:tag_heredoc>
<<TAG
...
TAG
<<-TAG
...
TAG
A here-document is an input redirection using source data specified
directly at the command line (or in the script), no "external" source.
The redirection-operator <<
is used together with a tag TAG
that's
used to mark the end of input later:
# display help
cat <<EOF
Sorry...
No help available yet for $PROGRAM.
Hehe...
EOF
As you see, substitutions are possible. To be precise, the following substitutions and expansions are performed in the here-document data:
You can avoid that by quoting the tag:
cat <<"EOF"
This won't be expanded: $PATH
EOF
Last but not least, if the redirection operator <<
is followed by a
-
(dash), all leading TAB from the document data will be ignored.
This might be useful to have optical nice code also when using
here-documents.
The tag you use must be the only word in the line, to be recognized as end-of-here-document marker.
<wrap center info>It seems that here-documents (tested on versions
1.14.7
, 2.05b
and 3.1.17
) are correctly terminated when there is
an EOF before the end-of-here-document tag. The reason is unknown, but
it seems to be done on purpose. Bash 4 introduced a warning message when
end-of-file is seen before the tag is reached.</wrap>
Here strings
<<< WORD
The here-strings are a variation of the here-documents. The word WORD
is taken for the input redirection:
cat <<< "Hello world... $NAME is here..."
Just beware to quote the WORD
if it contains spaces. Otherwise the
rest will be given as normal parameters.
The here-string will append a newline (\n
) to the data.
Multiple redirections
More redirection operations can occur in a line of course. The order is
important! They're evaluated from left to right. If you want to
redirect both, stderr
and stdout
to the same file (like /dev/null
,
to hide it), this is the wrong way:
# { echo OUTPUT; echo ERRORS >&2; } is to simulate something that outputs to STDOUT and STDERR
# you can test with it
{ echo OUTPUT; echo ERRORS >&2; } 2>&1 1>/dev/null
Why? Relatively easy:
- initially,
stdout
points to your terminal (you read it) - same applies to
stderr
, it's connected to your terminal 2>&1
redirectsstderr
away from the terminal to the target forstdout
: the terminal (again...)1>/dev/null
redirectsstdout
away from your terminal to the file/dev/null
What remains? stdout
goes to /dev/null
, stderr
still (or better:
"again") goes to the terminal. You have to swap the order to make it
do what you want:
{ echo OUTPUT; echo ERRORS >&2; } 1>/dev/null 2>&1
Examples
How to make a program quiet (assuming all output goes to STDOUT
and
STDERR
?
command >/dev/null 2>&1
See also
- Internal: Illustrated Redirection Tutorial
- Internal: The noclobber option
- Internal: The exec builtin command
- Internal: Simple commands parsing and execution
- Internal: Process substitution syntax
- Internal: Obsolete and deprecated syntax
- Internal: Nonportable syntax and command uses