# Debugging a script ![](keywords>bash shell scripting bug debug debugging) These few lines are not intended as a full-fledged debugging tutorial, but as hints and comments about debugging a Bash script. ## Use a unique name for your script Do **not** name your script `test`, for example! *Why?* `test` is the name of a UNIX(r)-command, and [most likely built into your shell]{.underline} (it\'s a built-in in Bash) - so you won\'t be able to run a script with the name `test` in a normal way. **Don\'t laugh!** This is a classic mistake :-) ## Read the error messages Many people come into IRC and ask something like *\"Why does my script fail? I get an error!\"*. And when you ask them what the error message is, they don\'t even know. Beautiful. Reading and interpreting error messages is 50% of your job as debugger! Error messages actually **mean** something. At the very least, they can give you hints as to where to start debugging. **READ YOUR ERROR MESSAGES!** You may ask yourself why is this mentioned as debugging tip? Well, [you would be surprised how many shell users ignore the text of error messages!]{.underline} When I find some time, I\'ll paste 2 or 3 IRC log-snips here, just to show you that annoying fact. ## Use a good editor Your choice of editor is a matter of personal preference, but one with **Bash syntax highlighting** is highly recommended! Syntax highlighting helps you see (you guessed it) syntax errors, such as unclosed quotes and braces, typos, etc. From my personal experience, I can suggest `vim` or `GNU emacs`. ## Write logfiles For more complex scripts, it\'s useful to write to a log file, or to the system log. Nobody can debug your script without knowing what actually happened and what went wrong. An available syslog interface is `logger` ([online manpage](http://unixhelp.ed.ac.uk/CGI/man-cgi?logger+1)). ## Inject debugging code Insert **echos** everywhere you can, and print to `stderr`: echo "DEBUG: current i=$i" >&2 If you read input from **anywhere**, such as a file or [command substitution](/syntax/expansion/cmdsubst), print the debug output with literal quotes, to see leading and trailing spaces! pid=$(< fooservice.pid) echo "DEBUG: read from file: pid=\"$pid\"" >&2 Bash\'s [printf](/commands/builtin/printf) command has the `%q` format, which is handy for verifying whether strings are what they appear to be. foo=$(< inputfile) printf "DEBUG: foo is |%q|\n" "$foo" >&2 # exposes whitespace (such as CRs, see below) and non-printing characters ## Use shell debug output There are two useful debug outputs for that task (both are written to `stderr`): - `set -v` mode (`set -o verbose`) - print commands to be executed to `stderr` as if they were read from input (script file or keyboard) - print everything **before** any ([substitution and expansion](/syntax/expansion/intro), \...) is applied - `set -x` mode (`set -o xtrace`) - print everything as if it were executed, after [substitution and expansion](/syntax/expansion/intro) is applied - indicate the depth-level of the subshell (by default by prefixing a `+` (plus) sign to the displayed command) - indicate the recognized words after [word splitting](/syntax/expansion/wordsplit) by marking them like `'x y'` - in shell version 4.1, this debug output can be printed to a configurable file descriptor, rather than sdtout by setting the [BASH_XTRACEFD](/syntax/shellvars#BASH_XTRACEFD) variable. **[Hint:]{.underline}** These modes can be entered when calling Bash: - from commandline: `bash -vx ./myscript` - from shebang (OS dependant): `#!/bin/bash -vx` ### Simple example of how to interpret xtrace output Here\'s a simple command (a string comparison using the [classic test command](/commands/classictest)) executed while in `set -x` mode: set -x foo="bar baz" [ $foo = test ] That fails. Why? Let\'s see the `xtrace` output: + '[' bar baz = test ']' And now you see that it\'s (\"bar\" and \"baz\") recognized as two separate words (which you would have realized if you READ THE ERROR MESSAGES ;) ). Let\'s check it\... # next try [ "$foo" = test ] `xtrace` now gives + '[' 'bar baz' = test ']' ^ ^ word markers! ### Making xtrace more useful (by AnMaster) `xtrace` output would be more useful if it contained source file and line number. Add this assignment [PS4](/syntax/shellvars#PS4) at the beginning of your script to enable the inclusion of that information: export PS4='+(${BASH_SOURCE}:${LINENO}): ${FUNCNAME[0]:+${FUNCNAME[0]}(): }' **Be sure to use single quotes here!** The output would look like this when you trace code *outside a function*: +(somefile.bash:412): echo 'Hello world' \...and like this when you trace code *inside a function*: +(somefile.bash:412): myfunc(): echo 'Hello world' That helps a lot when the script is long, or when the main script sources many other files. #### Set flag variables with descriptive words If you test variables that flag the state of options, such as with `if [[ -n $option ]];`, consider using descriptive words rather than short codes, such as 0, 1, Y, N, because xtrace will show `[[ -n word ]]` rather than `[[ -n 1 ]]` when the option is set. ## Debugging commands depending on a set variable For general debugging purposes you can also define a function and a variable to use: debugme() { [[ $script_debug = 1 ]] && "$@" || : # be sure to append || : or || true here or use return 0, since the return code # of this function should always be 0 to not influence anything else with an unwanted # "false" return code (for example the script's exit code if this function is used # as the very last command in the script) } This function does nothing when `script_debug` is unset or empty, but it executes the given parameters as commands when `script_debug` is set. Use it like this: script_debug=1 # to turn it off, set script_debug=0 debugme logger "Sorting the database" database_sort debugme logger "Finished sorting the database, exit code $?" Of course this can be used to execute something other than echo during debugging: debugme set -x # ... some code ... debugme set +x ## Dry-run STDIN driven commands Imagine you have a script that runs FTP commands using the standard FTP client: ``` bash ftp user@host < delimited by end-of-file (wanted `') `` ### Unexpected end of file while looking for matching \... script.sh: line 50: unexpected EOF while looking for matching `"' script.sh: line 100: syntax error: unexpected end of file This one indicates the double-quote opened in line 50 does not have a matching closing quote. These *unmatched errors* occur with: - double-quote pairs - single-quote pairs (also `$'string'`!) - missing a closing `}` with [parameter expansion syntax](/syntax/pe) ### Too many arguments bash: test: too many arguments You most likely forgot to quote a variable expansion somewhere. See the example for `xtrace` output from above. External commands may display such an error message though in our example, it was the **internal** test-command that yielded the error. ### !\": event not found $ echo "Hello world!" bash: !": event not found This is not an error per se. It happens in interactive shells, when the C-Shell-styled history expansion (\"`!searchword`\") is enabled. This is the default. Disable it like this: set +H # or set +o histexpand ### syntax error near unexpected token \`(\' When this happens during a script **function definition** or on the commandline, e.g. $ foo () { echo "Hello world"; } bash: syntax error near unexpected token `(' you most likely have an alias defined with the same name as the function (here: `foo`). Alias expansion happens before the real language interpretion, thus the alias is expanded and makes your function definition invalid. ## The CRLF issue ### What is the CRLF issue? There\'s a big difference in the way that UNIX(r) and Microsoft(r) (and possibly others) handle the **line endings** of plain text files. The difference lies in the use of the CR (Carriage Return) and LF (Line Feed) characters. - MSDOS uses: `\r\n` (ASCII `CR` #13 `^M`, ASCII LF #10) - UNIX(r) uses: `\n` (ASCII `LF` #10) Keep in mind your script is a **plain text file**, and the `CR` character means nothing special to UNIX(r) - it is treated like any other character. If it\'s printed to your terminal, a carriage return will effectively place the cursor at the beginning of the *current* line. This can cause much confusion and many headaches, since lines containing CRs are not what they appear to be when printed. In summary, CRs are a pain. ### How did a CR end up in my file? Some possible sources of CRs: - a DOS/Windows text editor - a UNIX(r) text editor that is \"too smart\" when determining the file content type (and thinks \"*it\'s a DOS text file*\") - a direct copy and paste from certain webpages (some pastebins are known for this) ### Why do CRs hurt? CRs can be a nuisance in various ways. They are especially bad when present in the shebang/interpreter specified with `#!` in the very first line of a script. Consider the following script, written with a Windows(r) text editor (`^M` is a symbolic representation of the `CR` carriage return character!): #!/bin/bash^M ^M echo "Hello world"^M ... Here\'s what happens because of the `#!/bin/bash^M` in our shebang: - the file `/bin/bash^M` doesn\'t exist (hopefully) - So Bash prints an error message which (depending on the terminal, the Bash version, or custom patches!) may or may not expose the problem. - the script can\'t be executed The error message can vary. If you\'re lucky, you\'ll get: bash: ./testing.sh: /bin/bash^M: bad interpreter: No such file or directory which alerts you to the CR. But you may also get the following: : bad interpreter: No such file or directory Why? Because when printed literally, the `^M` makes the cursor go back to the beginning of the line. The whole error message is *printed*, but you *see* only part of it! \ It\'s easy to imagine the `^M` is bad in other places too. If you get weird and illogical messages from your script, rule out the possibility that`^M` is involved. Find and eliminate it! \ ### How can I find and eliminate them? **To display** CRs (these are only a few examples) - in VI/VIM: `:set list` - with `cat(1)`: `cat -v FILE` **To eliminate** them (only a few examples) - blindly with `tr(1)`: `tr -d '\r' FILE.new` - controlled with `recode(1)`: `recode MSDOS..latin1 FILE` - controlled with `dos2unix(1)`: `dos2unix FILE` ## See also - [the set builtin command](/commands/builtin/set) (for `-v` and `-x`) FIXME - DEBUG trap - BASH Debugger