NAME

       Rinci::Undo - (DEPRECATED) Protocol for undo operations in functions

VERSION

       This document describes version 1.1.78 of Rinci::Undo (from Perl distribution Rinci),
       released on 2015-09-03.

SPECIFICATION VERSION

        1.1

STATUS

       This protocol (riundo for short) is now deprecated in favor of Rinci::Transaction (ritx
       for short) for several reasons:

       •   riundo is inherently unreliable

           Undo information is returned by function after the function has performed the action.
           If function dies in the middle of action, client does not have the information to undo
           the (partially completed) action. That is why in ritx, the TM asks the function first
           for undo information before asking the function to perform its action.

       •   ritx does not limit using the same function for undo

           In riundo, we must call the same function (passing the previously obtained undo data
           from the that function) to undo the information. This is sometimes slightly
           cumbersome. The undo action might be provided by other functions, but we still have to
           go through the same function first.

       •   ritx can also implement undo/redo

           So there is no need for maintaining two specifications.

SPECIFICATION

       This document describes the Rinci undo protocol. This protocol must be followed by
       functions that claim that they support undo (have their "undo" "feature" set to true).
       Such functions are from here on called undoable function (or just function, unless when
       ambiguous).

       The protocol is basically the non-OO version of the command pattern, a design pattern most
       commonly used to implement undo/redo functionality. In this case, each function behaves
       like a command object. You pass a special argument "-undo_action" with the value of "do"
       and "undo" to execute or undo a command, respectively. For "do" and "undo", the same set
       of arguments are passed.

   Requirements
       Function MUST check special argument "-undo_action" before it checks other arguments.
       Function MUST at least support the following undo action: "do", "undo". On
       unsupported/unknown undo action, function MUST return status 400, with message like
       "Unsupported undo action".

       If "-undo_action" is not set, it means caller does not care about undo.  Undoable function
       should execute as any normal function.

   Performing 'do'
       To indicate that we need undo, we call function by passing special argument "-undo_action"
       with the value of "do". Function should perform its operation and save undo data along the
       way. If "-undo_action" is not passed or false/undef, function should assume that caller
       does not need undo later, so function need not save any undo data. After completing
       operation successfully, function should return status 200, the result, and undo data. Undo
       data is returned in the result metadata (the fourth element of result envelope), example:

        [200, "OK", $result, {undo_data=>$undo_data}]

       Undo data should be serializable so it is easy to be made persistent if necessary (e.g. by
       some undo/transaction manager).

   Performing 'undo'
       To perform an undo, caller must call the function again with the same previous arguments,
       except "-undo_action" should be set to "undo" and "-undo_data" set to undo data previously
       given by the function. Function should perform the undo operation using the undo data.
       Upon success, it must return status 200, the result, and an undo data (in other words,
       redo data, since it can be used to undo the undo operation).

   Performing 'redo'
       To perform redo, caller can call the function again with <-undo_action> set to "undo" and
       "-undo_data" set to the redo data given in the undo step. Or, alternatively, caller can
       just perform a normal do (see above).

       An example:

        $SPEC{setenv} = {
            v => 1.1,
            summary  => 'Set environment variable',
            args     => {
                name  => {req=>1, schema=>'str*'},
                value => {req=>1, schema=>'str*'},
            },
            features => {undo=>1},
        };
        sub setenv {
            my %args        = @_;
            my $name        = $args{name};
            my $value       = $args{value};
            my $undo_action = $args{-undo_action} // '';
            my $undo_data   = $args{-undo_data};

            my $old;
            if ($undo_action) {
                # save original value and existence state
                $old = [exists($ENV{$name}), $ENV{$name}];
            }

            if ($undo_action eq 'undo') {
                if ($undo_data->[0]) {
                    $ENV{$name} = $undo_data->[1];
                } else {
                    delete $ENV{$name};
                }
            } else {
                $ENV{$name} = $value;
            }

            [200, "OK", undef, $undo_action ? {undo_data=>$old} : {}];
        }

       The above example declares an undoable command "setenv" to set an environment variable
       (%ENV).

       To perform command:

        my $res = setenv(name=>"DEBUG", value=>1, -undo_action=>"do");
        die "Failed: $res->[0] - $res->[1]" unless $res->[0] == 200;
        my $undo_data = $res->[3]{undo_data};

       To perform undo:

        $res = setenv(name=>"DEBUG", value=>1,
                      -undo_action="undo", -undo_data=>$undo_data);
        die "Can't undo: $res->[0] - $res->[1]" unless $res->[0] == 200;

       After this undo, DEBUG environment variable will be set to original value. If it did not
       exist previously, it will be deleted.

       To perform redo:

        my $redo_data = $res->[3]{undo_data};
        $res = setenv(name=>"DEBUG", value=>1,
                      -undo_action="undo", -undo_data=>$redo_data);

       or you can just do:

        $res = setenv(name=>"DEBUG", value=>1, -undo_action="do");

   Saving undo data in external storage
       Although the complete undo data can be returned by the function in the "undo_data" result
       metadata property, sometimes it is more efficient to just return a pointer to said undo
       data, while saving the actual undo data in some external storage.

       For example, if a function deletes a big file and wants to save undo data, it is more
       efficient to move the file to trash directory and return its path as the undo data,
       instead of reading the whole file content and its metadata to memory and return it in
       "undo_data" result metadata.

       Functions which require undo trash directory should specify this in its metadata, through
       the "undo_trash_dir" dependency clause. For example:

        deps => {
            ...
            trash_dir => 1,
        }

       When calling function, caller needs to provide path to undo trash directory via special
       argument "-trash_dir", for example:

        -trash_dir => "/home/.trash/2fe2f4ad-a494-0044-b2e0-94b2b338056e"

   What about non-undoable actions?
       Like in real life, not all actions are undoable. Examples of undoable/irreversible actions
       include wiping a file/directory (more generally speaking, any action to permanently
       delete/destroy something, without backing up the data first), sending an email (more
       generally speaking, any action that is sent to an external entity beyond our control,
       unless that external entity provides a way to undo the action).

       An undoable function MUST NOT mix undoable and non-undoable actions. For example:

        safe_delete(file=>'/path/to/file'); # puts file into Trash, undoable action
        safe_delete(file=>'/path/to/file', permanent=>1); # deletes file, non-undoable

       The "safe_delete" function above mixes undoable action (putting a file into Trash
       directory) and non-undoable action (permanently deleting a file without putting it in
       Trash). Without domain knowledge of the function, a caller cannot know whether a call will
       be undoable or not. This will also prevent the function from participating in a
       transaction, because transaction requires function call to always be undoable, for
       rollback purpose.

       The solution is to separate non-undoable action in another function, for example:

        trash(file=>'/path/to/file');  # undoable, can execute inside transaction
        delete(file=>'/path/to/file'); # non-undoable, executes outside transaction
        empty_trash();                 # non-undoable, executes outside transaction

       The non-undoable function is also non-transactional (it operates outside the scope of a
       transaction). But it can still be idempotent. And it can manipulate the transactions if it
       needs too. In the example, the empty_trash() function instructs the transaction manager to
       discard the trash() transactions, since after the trash is emptied, the trash()
       transactions cannot be undone anyway.

SEE ALSO

       Related specifications: Rinci::Transaction

HOMEPAGE

       Please visit the project's homepage at <https://metacpan.org/release/Rinci>.

SOURCE

       Source repository is at <https://github.com/perlancar/perl-Rinci>.

BUGS

       Please report any bugs or feature requests on the bugtracker website
       <https://rt.cpan.org/Public/Dist/Display.html?Name=Rinci>

       When submitting a bug or request, please include a test-file or a patch to an existing
       test-file that illustrates the bug or desired feature.

AUTHOR

       perlancar <perlancar@cpan.org>

COPYRIGHT AND LICENSE

       This software is copyright (c) 2015 by perlancar@cpan.org.

       This is free software; you can redistribute it and/or modify it under the same terms as
       the Perl 5 programming language system itself.