recodex-wiki/Job-configuration.md

# Job configuration

Following description will cover configuration as seen from API point of view,
worker may have some optional items mandatory (they are filled by API
automatically). Bold items in lists describing the values are mandatory, italic
ones are optional.

## Variables

Because frontend does not know which worker gets the job, its necessary to be a
little general in configuration file. This means that some worker specific
things has to be transparent. Good example of this is that some (evaluation)
directories may be placed differently across all workers. To provide a solution,
variables were established. There are of course some restrictions where
variables can be used. Basically whenever filesystem paths can be used,
variables can be used.

Usage of variables in configuration is simple and kind of shell-like. Name of
variable is put inside braces which are preceded with dollar sign. Real usage is
then something like this: ${VAR}. There should be no quotes or apostrophes
around variable name, just simple text in braces. Parsing is simple and whenever
there is dollar sign with braces job execution unit automatically assumes that
this is a variable, so there is no chance to have this kind of substring
anywhere else.

List of usable variables in job configuration:

- **WORKER_ID** -- integral identification of worker, unique on server
- **JOB_ID** -- identification of this job
- **SOURCE_DIR** -- directory where source codes of job are stored
- **EVAL_DIR** -- evaluation directory which should point inside sandbox. Note,
  that some existing directory must be bound inside sanbox under **EVAL_DIR**
  name using _bound-directories_ directive inside limits section.
- **RESULT_DIR** -- results from job can be copied here, but only with internal
  task
- **TEMP_DIR** -- general temp directory which is not dependent on operating
  system
- **JUDGES_DIR** -- directory in which judges are stored (outside sandbox)

## Tasks

Task is an atomic piece of work executed by worker. There are two basic types of
tasks:

- **Execute external process** (optionally inside Isolate). External processes
  are meant for compilation, testing, or execution of external judges. Linux
  default is mandatory usage of isolate sandbox, this option is present because
  of Windows, where is currently no sandbox available.
- **Perform internal operation**. Internal operations comprise commands, which
  are typically related to file/directory maintenance and other evaluation
  management stuff. Few important examples:
	- Create/delete/move/rename file/directory
	- (un)zip/tar/gzip/bzip file(s)
	- fetch a file from the file repository (either from worker cache or
	  download it by HTTP GET).

Even though the internal operations may be handled by external executables
(`mv`, `tar`, `pkzip`, `wget`, ...), it might be better to keep them inside the
worker as it would simplify these operations and their portability among
platforms. Furthermore, it is quite easy to implement them using common
libraries (e.g., _zlib_, _curl_).

A task may be marked as essential; in such case, failure will immediately cause
termination of the whole job. Nice example usage is task with program
compilation. Without success it is obvious, that the job is broken and every
test will fail.

### Internal tasks

- **Archivate task** can be used for pack and compress a directory. Calling
  command is `archivate`. Requires two arguments:
	- path and name of the directory to be archived
	- path and name of the target archive. Only `.zip` format is supported.
- **Extract task** is opposite to archivate task. It can extract different types
  of archives. Supported formats are the same as supports `libarchive` library
  (see [libarchive wiki](https://github.com/libarchive/libarchive/wiki)), mainly
  `zip`, `tar`, `tar.gz`, `tar.bz2` and `7zip`. Please note, that system
  administrator may not install all packages needed, so some formats may not
  work. Please, consult your system administrator for more information. Archives
  could contain only regular files or directories (ie. no symlinks, block and
  character devices sockets or pipes allowed). Calling command is `extract` and
  requires two arguments:
	- path and name of the archive to extract
	- directory, where the archive will be extracted
- **Fetch task** will give you a file. It can be downloaded from remote file
   server or just copied from local cache if available. Calling comand is
   `fetch` with two arguments:
	- name of the requested file without path (file sources are set up in worker
	  configuratin file)
	- path and name on the destination. Providing a different destination name
	  can be used for easy rename.
- **Copy task** can copy files and directories. Detailed info can be found on
   reference page of
   [boost::filesystem::copy](http://www.boost.org/doc/libs/1_60_0/libs/filesystem/doc/reference.html#copy).
   Calling command is `cp` and require two arguments:
	- path and name of source target
	- path and name of destination targer
- **Make directory task** can create arbitrary number of directories. Calling
   command is `mkdir` and requires at least one argument. For each provided
   argument will be called
   [boost::filesystem::create_directories](http://www.boost.org/doc/libs/1_60_0/libs/filesystem/doc/reference.html#create_directories)
   command.
- **Rename task** will rename files and directories. Detailed bahavior can be
   found on reference page of
   [boost::filesystem::rename](http://www.boost.org/doc/libs/1_60_0/libs/filesystem/doc/reference.html#rename).
   Calling command is `rename` and require two arguments:
	- path and name of source target
	- path and name of destination target
- **Remove task** is for deleting files and directories. Calling command is `rm`
   and require at least one argument. For each provided one will be called
   [boost::filesystem::remove_all](http://www.boost.org/doc/libs/1_60_0/libs/filesystem/doc/reference.html#remove_all)
   command.

### External tasks

External tasks are arbitrary executables, typically ran inside isolate (with
given parameters) and the worker waits until they finish. The exit code
determines, whether the task succeeded (0) or failed (anything else).

- **stdin** -- can be configured to read from existing file or from `/dev/null`.
- **stdout** and **stderr** -- can be individually redirected to a file or
  discarded. If this output options are specified, than it is possible to upload
  output files with results by copying them into result directory.
- **limits** -- task has time and memory limits; if these limits are exceeded,
  the task is failed.

The task results (exit code, time, and memory consumption, etc.) are saved into
result yaml file and sent back to frontend application to address which was
specified on input.

## Judges

Judges are treated as normal external commands, so there is no special task type
for them. Binaries are installed alongside with worker executable in standard
directories (on both Linux and Windows systems).

Judges should be used for comparision of outputted files from execution tasks
and sample outputs fetched from fileserver. Results of this comparision should
be at least information if files are same or not. Extension for this is
percentual results based on correctness of given files. All of the judges
results have to be printed to standard output.

All packed judges are adopted from old CodEx with only very small modifications.
ReCodEx judges base directory is in `${JUDGES_DIR}` variable, which can be used
in job config file.

- **recodex-judge-normal** is base judge used by most of exercises. This judge
  compares two text files. It compares only text tokens regardless on amount of
  whitespace between them.
	```
	Usage: recodex-judge-normal [-r | -n | -rn] <file1> <file2>
	```
	- file1 and file2 are paths to files that will be compared
	- switch options `-r` and `-n` can be specified as a 1st optional argument.
		- `-n` judge will treat newlines as ordinary whitespace (it will ignore
		  line breaking)
		- `-r` judge will treat tokens as real numbers and compares them
		  accordingly (with some amount of error)

- **recodex-judge-filter** can be used for preprocess output files before real
  judging. This judge filters C-like comments from a text file. The comment
  starts with double slash sequence (`//`) and finishes with newline. If the
  comment takes whole line, then whole line is filtered.
	```
	Usage: recodex-judge-filter [inputFile [outputFile]]
	```
	- if `outputFile` is ommited, std. output is used instead.
	- if both files are ommited, application uses std. input and output.

- **recodex-judge-shuffle** is for judging results with semantics of set, where
  ordering is not important.  This judge compares two text files and returns 0
  if they matches (and 1 otherwise). Two files are compared with no regards for
  whitespace (whitespace acts just like token delimiter).
	```
	Usage: recodex-judge-shuffle [-[n][i][r]] <file1> <file2>
	```
	- `-n` ignore newlines (newline is considered only a whitespace)
	- `-i` ignore items order on the row (tokens on each row may be permutated)
	- `-r` ignore order of rows (rows may be permutated); this option has no
	  effect when `-n` is used

## Configuration items

- **submission** -- information about this particular submission
	- **job-id** -- textual ID which should be unique in whole recodex
	- _file-collector_ -- address from which fetch tasks will download data (API
	  will fill)
	- _log_ -- default is false, can be omitted, determines whether job
	  execution will be logged into one shared log
	- **hw-groups** -- list of hardware groups for which are specified limits in
	  this configuration
- **tasks** -- list (not map) of individual tasks
	- **task-id** -- unique identifier of task in scope of one submission
	- _priority_ -- higher number, higher priority, defaults to 1
	- _fatal-failure_ -- if true, than execution of whole job will be stopped
	  after failing of this one, defaults to false
	- _dependencies_ -- list of dependencies which have to be fulfilled before
	  this task, can be omitted if there is no dependencies
	- **cmd** -- description of command which will be executed
		- **bin** -- the binary itself (full path of external command or name of
		  internal task)
		- _args_ -- list of arguments which will be sent into execution unit
	- _test-id_ -- ID of the test this task is part of -- must be specified for
	  tasks which the particular test's result depends on
	- _type_ -- type of the task, can be omitted, default value is _inner_ --
	  possible values are: _inner_, _initiation_, _execution_, _evaluation_.
	  Each logical test must contain 0 or more _initiation_ tasks, at least one
	  task of type _execution_ (time and memory limits exceeded are presentet to
	  user) and exactly one of type _evaluation_ (typicaly judge). _Inner_ task
	  type is mainly for internal tasks, but can be used for external tasks,
	  which are not part of any test.
	- _sandbox_ -- wrapper for external tasks which will run in sandbox, if
	  defined task is automatically external
		- **name** -- name of used sandbox
		- _stdin_ -- file to which standard input will be redirected, can be
		  omitted
		- _stdout_ -- file to which standard output will be redirected, can be
		  omitted
		- _stderr_ -- file to which error output will be redirected, can be
		  omitted
		- _limits_ -- list of limits which can be passed to sandbox, can be
		  omitted, in that case defaults will be used
			- **hw-group-id** -- determines specific limits for specific
			  machines
			- _time_ -- time of execution in second
			- _wall-time_ -- wall time in seconds
			- _extra-time_ -- extra time which will be added to execution
			- _stack-size_ -- size of stack of executed program in kilobytes
			- _memory_ -- overall memory limit for application in kilobytes
			- _parallel_ -- integral number of processes which can run
			  simultaneously, time and memory limits are merged from all
			  potential processes/threads
			- _disk-size_ -- size of all IO operations from/to files in
			  kilobytes
			- _disk-files_ -- number of files which can be opened
			- _environ-variable_ -- wrapper for map of environmental variables,
			  union with default worker configuration
			- _chdir_ -- this will be working directory of executed application
			- _bound-directories_ -- list of structures representing directories
			  which will be visible inside sandbox, union with default worker
			  configuration. Contains 3 suboptions: **src** -- source pointing
			  to actual system directory, **dst** -- destination inside sandbox
			  which can have its own filesystem binding and **mode** --
			  determines connection mode of specified directory, one of values:
			  RW (allow read-write access), NOEXEC (disallow execution of
			  binaries), FS (mount device-less filesystem like `/proc`), MAYBE
			  (silently ignore the rule if the bound directory does not exist),
			  DEV (allow access to character and block devices).


## Configuration example

This configuration example serves only for demonstration purposes. Some items
can be omitted and defaults from worker configuration will be used.

```{.yml}
---
submission:  # happy hippoes fence
    job-id: hippoes
    file-collector: http://localhost:9999/exercises
    log: true
    hw-groups:
        - group1
tasks:
    - task-id: "compilation"
      priority: 2
      fatal-failure: true
      cmd:
          bin: "/usr/bin/gcc"
          args:
              - "solution.c"
              - "-o"
              - "a.out"
      sandbox:
          name: "isolate"
          limits:
              - hw-group-id: group1
                parallel: 0
                chdir: ${EVAL_DIR}
                bound-directories:
                    - src: ${SOURCE_DIR}
                      dst: ${EVAL_DIR}
                      mode: RW
    - task-id: "fetch_test_1"
      priority: 4
      fatal-failure: false
      dependencies:
          - compilation
      cmd:
          bin: "fetch"
          args:
              - "1.in"
              - "${SOURCE_DIR}/kuly.in"
    - task-id: "evaluation_test_1"
      priority: 5
      fatal-failure: false
      dependencies:
          - fetch_test_1
      cmd:
          bin: "a.out"
      sandbox:
          name: "isolate"
          limits:
              - hw-group-id: group1
                time: 0.5
                memory: 8192
                chdir: ${EVAL_DIR}
                bound-directories:
                    - src: ${SOURCE_DIR}
                      dst: ${EVAL_DIR}
                      mode: RW
    - task-id: "fetch_test_solution_1"
      priority: 6
      fatal-failure: false
      dependencies:
          - evaluation_test_1
      cmd:
          bin: "fetch"
          args:
              - "1.out"
              - "${SOURCE_DIR}/1.out"
    - task-id: "judging_test_1"
      priority: 7
      fatal-failure: false
      dependencies:
          - fetch_test_solution_1
      cmd:
          bin: "${JUDGES_DIR}/recodex-judge-normal"
          args:
              - "1.out"
              - "plot.out"
      sandbox:
          name: "isolate"
          limits:
              - hw-group-id: group1
                parallel: 0
                chdir: ${EVAL_DIR}
                bound-directories:
                    - src: ${SOURCE_DIR}
                      dst: ${EVAL_DIR}
                      mode: RW
    - task-id: "rm_junk_test_1"
      priority: 8
      fatal-failure: false
      dependencies:
          - judging_test_1
      cmd:
          bin: "rm"
          args:
              - "${SOURCE_DIR}/kuly.in"
              - "${SOURCE_DIR}/plot.out"
              - "${SOURCE_DIR}/1.out"
...
```

## Results

Results of tasks are sent back in YAML format compressed into archive. This
archive can contain further files, such as job logging information and files
which were explicitly copied into results directory. Results file contains job
identification and results of individual tasks.

### Results items

- **job-id** -- identification of job to which this results belongs
- **hw-group** -- Hardware group identifier of worker which performed the
  evaluation
- _error_message_ -- present only if whole execution failed and none of tasks
  were executed
- **results** -- list of tasks results
	- **task-id** -- unique identification of task in scope of this job
	- **status** -- three states: OK (execution of task was successful;
	  sandboxed program could be killed, but sandbox exited normally), FAILED
	  (error while executing task), SKIPPED (execution of task was skipped)
	- _error_message_ -- defined only in internal tasks on failure
	- _sandbox_results_ -- if defined than this task was external and was run in
	  sandbox
		- **exitcode** -- integer which executed program gave on exit
		- **time** -- time in seconds in which program exited
		- **wall-time** -- wall time in seconds
		- **memory** -- how much memory program used in kilobytes
		- **max-rss** -- maximum resident set size used in kilobytes
		- **status** -- two letter status code: OK (success), RE (runtime
		  error), SG (program died on signal), TO (timed out), XX (internal
		  error of the sandbox)
		- **exitsig** -- description of exit signal
		- **killed** -- boolean determining if program exited correctly or was
		  killed
		- **message** -- status message on failure

### Results example

```{.yml}
---
job-id: 5
hw-group: "group1"
results:
	- task-id: compile1
	  status: OK
	  sandbox_results:
		  exitcode: 0
		  time: 5
		  wall-time: 5
		  memory: 50000
		  max-rss: 50000
		  status: RE
		  exitsig: 1
		  killed: true
		  message: "Time limit exceeded"
	- task-id: eval1
	  status: FAILED
	  error_message: "Task failed, something very bad happend!"
	  .
	  .
	  .
...
```


<!---
// vim: set formatoptions=tqn flp+=\\\|^\\*\\s* textwidth=80 colorcolumn=+1:
-->