8

Okay, so I have a script processing the null-separated output of find, and I can easily process this using a bash shell like so:

#!/bin/sh
find "$1" -print0 | while read -rd '' path; do echo "$path"; done

Fairly silly example since it just converts the results to new-lines anyway, but it's just to give you an idea of what I'm looking to do. This basic method works great, and avoids potential issues due to files possibly containing new-lines on various file-systems.

However, I need to do the same thing on a non-bash shell, which means I lose support for read -d. So, without resorting to bash (or other shell) specific features, is there a way that I can process null-separated results similarly to the above?

If not, what is the best to protect myself against new-lines in results? I was thinking I could perhaps use the -exec option of find to replace new-lines in file names with some kind of escaped value, but I'm not sure of the best way to find and replace the new-lines (I can't use tr for example) or what replacement to use, which is why null-characters are the best option if available.

  • really frustrating answers to this question. i want to parse env -0 and modify variables, so xargs is a no go and find has nothing to do with my problem. all the answers here are find or xargs centric. I want to know how to iterate null separated results in a non-bash shell, not in some frelling subshell! answer the title, someone, please, i beg you. – rektide Dec 20 '16 at 1:02
  • @rektide The answer to the exact question in the title is that you can use read -rd '' in zsh, which is a non-bash shell. – michau Jul 2 '19 at 17:48
7

See How can I find and safely handle file names containing newlines, spaces or both?.

You can e.g. use find -exec:

find [...] -exec <command> {} \;

or xargs -0:

find [...] -print0 | xargs -r0 <command>

Note that in your above example you still need to set IFS or you will trim off leading/trailing whitespace:

while IFS= read -rd '' file; do
   do_something_with "${file}"
done

You are right, it's a real bummer that this read only properly works in bash. I usually don't give a damn about possible newlines in filenames and just make sure that otherwise portable code doesn't break if they occur (as opposed to ignoring the problem and your script exploding) which I believe suffices for most scenarios, e.g.

while IFS= read -r file; do
    [ -e "${file}" ] || continue # skip over truncated filenames due to newlines
    do_something_file "${file}"
done < <(find [...])

or use globbing (when possible) which behaves correctly:

for file in *.foo; do
    [ -e "${file}" ] || continue # or use nullglob
    do_something_file "${file}"
done
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  • 1
    @mklement0 Good catch, so is -print0 :-) That's why I, in most cases, do what I explained that I do which works in any POSIX-compatible shell (if you replace the process substitution by a find | while read loop) instead of bothering about null-separation. In the first example the [ -e ] is necessary to avoid processing truncated filenames due to possible newlines and the [ -e ] in the second example is needed because file might expand to the literal *.foo if there is are no matching files (since shopt -s nullglob is not portable either, I prefer the explicit test). – Adrian Frühwirth Mar 31 '14 at 13:59
  • 1
    I guess it comes down to what your requirements are, (non-)bash but GNU-userland vs. any of bash/ksh(/zsh) with POSIX-userland vs. a "plain" POSIX shell with a POSIX-userland. I personally don't like targetting the first scenario/environment. – Adrian Frühwirth Mar 31 '14 at 14:01
  • 1
    Thanks for all that; didn't know that -print0 is non-POSIX. Came so close, though :) "Other implementations have added other ways to get around this problem, notably a -print0 primary that wrote filenames with a null byte terminator. This was considered here, but not adopted." - man.cx/find That said, -print0 may be more widely implemented than xargs -r, judging by a sample of 1 other platform family :) - those with BSD heritage, which includes OSX. – mklement0 Mar 31 '14 at 14:04
  • 1
    I would have fully agreed but I gave it a quick google and it seems that all of NetBSD, OpenBSD and FreeBSD ship with an xargs that supports -r these days to be GNU-compatible, it's just Apple's old BSD implementation that doesn't ship with -r so I partly agree :) Just another reason why I avoid this mess by not trying to process filenames with newlines and just make my code failsafe so it wouldn't explode. – Adrian Frühwirth Mar 31 '14 at 14:08
  • 1
    Great answer, unfortunately I don't think I can support xargs at all on my targeted systems (Synology NASes really throw a spanner in the works for shell scripting). So I think I'll have to try your suggestion about double-checking the existence of file-names, but maybe use a look-ahead to try to "fix" file-names with new-lines instead. Also thanks for reminding me about the IFS=, I forgot that in my example! Actually, it just occurred me I might be able to exploit the structure of find results, since they should have a consistent start for valid lines (in my example the value of $1). – Haravikk Mar 31 '14 at 15:04
6

Adding to @Adrian Frühwirth's excellent answer:

Here is a strictly POSIX-compliant solution, both in terms of the shell code and the utilities and their options used:

find . -exec sh -c 'for f in "$@"; do echo "$f"; done' - {} +

This avoids both find's -print0 and read -d.

(There's a hypothetical chance that your shell code will be invoked more than once, namely when there are so many input filenames that they don't fit on a single command line.
getconf ARG_MAX tells you your platform's max. command-line length for invoking external utilities, but note that in practice the limit is lower; see http://www.in-ulm.de/~mascheck/various/argmax/)

|improve this answer|||||
  • Thanks for this addition, but I should probably have specified in my question that the reason I'm already using -exec is because I need to call a function, which find doesn't appear to be able to do (it has its own "clean" scope), but this is what I'd do if I could! – Haravikk Mar 31 '14 at 15:09
  • @Haravikk: Thanks for clarifying. (As an aside: if you were able to use bash (I know you can't, unfortunately), you could export functions with export -f, then find would see them too (when combined with -exec bash -c.) – mklement0 Mar 31 '14 at 15:15
  • +1, but can you elaborate on the chance of the -exec being invoked more than once? POSIX states that "The size of any set of two or more pathnames shall be limited such that execution of the utility does not cause the system's ARG_MAX limit to be exceeded." but that can also be interpreted as that it's OK to truncate/fail on hitting ARG_MAX and ... – Adrian Frühwirth Apr 1 '14 at 6:09
  • 1
    @AdrianFrühwirth: The source you quote also states "pathnames for which the primary is evaluated shall be aggregated into sets.". Together with what you quote I interpret this to mean that the sole reason to group the arguments into sets (plural) is to work around the ARG_MAX limitation - otherwise you could simply always use a single set and have it potentially break. (You only get in trouble should a single pathname be so long as to result in a command line whose length exceeds ARG_MAX.) – mklement0 Apr 1 '14 at 6:39
  • 1
    @AdrianFrühwirth: gerne; as for using globs - they're actually NOT subject to ARG_MAX per se ("[shell] expansion is only limited by the virtual memory system resources" - in-ulm.de/~mascheck/various/argmax) - ARG_MAX only comes into play when an external utility is invoked. – mklement0 Apr 1 '14 at 6:46
4

The topic is "How to Iterate Null Separated Results in non-Bash Shell". So far most answers offer special solutions for find . -print0 by actually circumventing iteration through a list of null separated strings (e.g. find . -exec ... or shell globbing).

The files "/proc/<pid>/environ" or "/proc/<pid>/cmdline" are good (Linux) examples which really require iterating through a list of null terminated strings. The only solution which will work correctly for a POSIX-only shell (e.g. dash) AFAIK is using xargs -0 (or similar tools like parallel -0) as already mentioned in the answers of Adrian Frühwirth and FatalError:

#!/bin/sh
xargs -0 sh -c 'for i; do printf "%s\n" "$i"; done' my_cmd </proc/1/environ

The above example requires to be run as "root". It also works for strings containing newline and other special characters.

|improve this answer|||||
2

One thing you could do is use the xargs -0 option to pass arguments to the other shell, e.g.:

$ find . -print0 | xargs -0 sh -c 'for f in "$@"; do echo "$f"; done'
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  • 1
    That works, but you could simplify it to find . -exec sh -c 'for f in "$@"; do echo "$f"; done' {} + – mklement0 Mar 31 '14 at 13:42
0

Adrian Frühwirth's answer is definitely the most correct and complete, but for those interested in this issue I just wanted to share the code that I've ended up using for now:

NL=$'\n'
read_path() {
    path=
    IFS=
    while [ -z "$path" ]; do
        read -r path || return $?
        while [ ! -e "$path" ]; do
            read -r path_next || { path=; return $?; }
            [ "${path_next:0:6}" != '~:/\/:' -o ! -e "$find_path_next" ] && path="$path$NL$path_next" || path="$path_next"
        done
    done
}

This works when you run find like so:

find . -exec printf '~:/\/:%s\n' {} \; | while read_path; do echo "$path"; done

Since the string being added at the start of results should never appear in actual file-names (if there's a simpler string, let me know!) then it should be safe to use it when deciding whether to join results together into a single string.

I'm going to use this in combination with a test for -print0 and read -d support, so I can use that for simplicity where possible, but the above should be safe, or at least it works in all of the environments I've tested thus far and seems to do the job when I can't use a prettier method; e.g - if I can't use globbing because I need more specific results from find or ls

|improve this answer|||||
  • The string you choose can appear in pathnames. Try this: mkdir -p \~:/\\/:./ && touch \~:/\\/:./abcd && find \~: -type f. However, there is another string that really cannot appear in pathnames: ././. – michau Jul 2 '19 at 15:35
  • Another problem: touch abcd $'abcd\n'. Since abcd exists, the code won't read next line, and won't be able to the file with a trailing newline. – michau Jul 2 '19 at 15:47
0

1. Use zsh

The simplest solution is to use zsh, which is a non-bash shell that supports reading null-separated values via read -d "" (since version 4.2, released in 2004) and the only mainstream shell that can store nulls in variables. Moreover, the last component of the pipeline is not run in subshell in zsh, so variables set there are not lost. We can simply write:

#!/usr/bin/env zsh
find . -print0 |while IFS="" read -r -d "" file; do
  echo "$file"
done

With zsh we can also easily avoid the problem of null separators altogether (at least in the case of find . -print) by using setopt globdots, which makes globs match hidden files, and **, which recurses into subdirectories. This works in basically all versions of zsh, even those older than 4.2:

#!/usr/bin/env zsh
setopt globdots
for file in **/*; do
  echo "$file"
done

2. Use a POSIX shell and od

2.1 Use pipes

A general, POSIX-compatible solution for iterating over null separated values needs to convert the input in a way that no information is lost and nulls are converted to something else that is easier to process. We can use od to dump octal values of all input bytes and easily convert the data back using printf:

#!/usr/bin/env sh

find . -print0 |od -An -vto1 |xargs printf ' %s' \
               |sed 's/ 000/@/g' |tr @ '\n' \
               |while IFS="" read -r file; do
  file=`printf '\134%s' $file`
  file=`printf "$file@"`
  file="${file%@}"
  echo "$file"
done

2.2 Use a variable to store intermediate results

Note that the while loop will be run in a subshell (at least in shells other than zsh and the original, non-public domain Korn shell), which means that variables set in that loop won't be visible in the rest of the code. If that's unacceptable, the while loop can be run from the main shell, and its input can be stored in a variable:

#!/usr/bin/env sh

VAR=`find . -print0 |od -An -vto1 |xargs printf ' %s' \
                     |sed 's/ 000/@/g' |tr @ '\n'`
while IFS="" read -r file; do
  file=`printf '\134%s' $file`
  file=`printf "$file@"`
  file="${file%@}"
  echo "$file"
done <<EOF
$VAR
EOF

2.3 Use a temporary file to store intermediate results

If the output of the find command is very long, the script will be unable to store the output in the variable, and may crash. Moreover, most shells use temporary files to implement heredocs, so instead of using a variable, we might as well explicitly write to a temporary file, and avoid problems with using variables for storing intermediate results.

#!/usr/bin/env sh

TMPFILE="/tmp/$$_`awk 'BEGIN{srand(); print rand()}'`"
find . -print0 |od -An -vto1 |xargs printf ' %s' \
               |sed 's/ 000/@/g' |tr @ '\n' >"$TMPFILE"
while IFS="" read -r file; do
  file=`printf '\134%s' $file`
  file=`printf "$file@"`
  file="${file%@}"
  echo "$file"
done <"$TMPFILE"
rm -f "$TMPFILE"

2.4 Use named pipes

We may use named pipes to solve the above two problems: now reading and writing can be done in parallel, and we don't need to store intermediate results in variables. Note, however, that this might not work in Cygwin.

#!/usr/bin/env sh

TMPFILE="/tmp/$$_`awk 'BEGIN{srand(); print rand()}'`"
mknod "$TMPFILE" p
{
  exec 3>"$TMPFILE"
  find . -print0 |od -An -vto1 |xargs printf ' %s' \
                 |sed 's/ 000/@/g' |tr @ '\n' >&3
} &
while IFS="" read -r file; do
  file=`printf '\134%s' $file`
  file=`printf "$file@"`
  file="${file%@}"
  echo "$file"
done <"$TMPFILE"
rm -f "$TMPFILE"

3. Modify the above solutions to work with the original Bourne shell

The above solutions should work in any POSIX shell, but fail in the original Bourne shell, which is the default /bin/sh in Solaris 10 and older. This shell doesn't support the %-substitution, and trailing newlines in filenames need to be preserved in another way, e.g.:

#!/usr/bin/env sh

TMPFILE="/tmp/$$_`awk 'BEGIN{srand(); print rand()}'`"
mknod "$TMPFILE" p
{
  exec 3>"$TMPFILE"
  find . -print0 |od -An -vto1 |xargs printf ' %s' \
                 |sed 's/ 000/@/g' |tr @ '\n' >&3
} &
while read -r file; do
  trailing_nl=""
  for char in $file; do
    if [ X"$char" = X"012" ]; then
      trailing_nl="${trailing_nl}
"
    else
      trailing_nl=""
    fi
  done
  file=`printf '\134%s' $file`
  file=`printf "$file"`
  file="$file$trailing_nl"
  echo "$file"
done <"$TMPFILE"
rm -f "$TMPFILE"

4. Use a separator other than null

As pointed out in the comments, Haravikk's answer is not completely correct. Here is a modified version of his code that handles all sorts of strange situations, such as paths beginning with ~:/\/: and trailing newlines in filenames. Note that it only works for relative pathnames; a similar trick can be done with absolute pathnames by prepending them with /./, but read_path() needs to be changed to handle that. This method is inspired by Rich’s sh (POSIX shell) tricks.

#!/usr/bin/env sh

read_path() {
    path=
    IFS=
    read -r path || return $?
    read -r path_next || return 0
    if [ X"$path" = X"././" ]; then
        path="./"
        read -r path_next || return 0
        return
    fi
    path="./$path"
    while [ X"$path_next" != X"././" ]; do
        path=`printf '%s\n%s' "$path" "$path_next"`
        read -r path_next || return 0
    done
}

find ././ |sed 's,^\./\./,&\n,' |while read_path; do
  echo "$path"
done
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