Name
App::Sqitch::Plan - Sqitch Deployment Plan
Synopsis
my $plan = App::Sqitch::Plan->new( sqitch => $sqitch );
while (my $change = $plan->next) {
say "Deploy ", $change->format_name;
}
Description
App::Sqitch::Plan provides the interface for a Sqitch plan. It parses a plan file and provides an iteration interface for working with the plan.
Interface
Constants
SYNTAX_VERSION
Returns the current version of the Sqitch plan syntax. Used for the %sytax-version
pragma.
Class Methods
name_regex
die "$this has no name" unless $this =~ App::Sqitch::Plan->name_regex;
Returns a regular expression that matches names. Note that it is not anchored, so if you need to make sure that a string is a valid name and nothing else, you will need to anchor it yourself, like so:
my $name_re = App::Sqitch::Plan->name_regex;
die "$this is not a valid name" if $this !~ /\A$name_re\z/;
Constructors
new
my $plan = App::Sqitch::Plan->new( sqitch => $sqitch );
Instantiates and returns a App::Sqitch::Plan object. Takes a single parameter: an App::Sqitch object.
Accessors
sqitch
my $sqitch = $cmd->sqitch;
Returns the App::Sqitch object that instantiated the plan.
position
Returns the current position of the iterator. This is an integer that's used as an index into plan. If next()
has not been called, or if reset()
has been called, the value will be -1, meaning it is outside of the plan. When next
returns undef
, the value will be the last index in the plan plus 1.
project
my $project = $plan->project;
Returns the name of the project as set via the %project
pragma in the plan file.
uri
my $uri = $plan->uri;
Returns the URI for the project as set via the %uri
pragma, which is optional. If it is not present, undef
will be returned.
syntax_version
my $syntax_version = $plan->syntax_version;
Returns the plan syntax version, which is always the latest version.
Instance Methods
index_of
my $index = $plan->index_of('6c2f28d125aff1deea615f8de774599acf39a7a1');
my $foo_index = $plan->index_of('@foo');
my $bar_index = $plan->index_of('bar');
my $bar1_index = $plan->index_of('bar@alpha')
my $bar2_index = $plan->index_of('bar@HEAD');
Returns the index of the specified change. Returns undef
if no such change exists. The argument may be any one of:
An ID
my $index = $plan->index_of('6c2f28d125aff1deea615f8de774599acf39a7a1');
This is the SHA1 hash of a change or tag. Currently, the full 40-character hexed hash string must be specified.
A change name
my $index = $plan->index_of('users_table');
The name of a change. Will throw an exception if the named change appears more than once in the list.
A tag name
my $index = $plan->index_of('@beta1');
The name of a tag, including the leading
@
.A tag-qualified change name
my $index = $plan->index_of('users_table@beta1');
The named change as it was last seen in the list before the specified tag.
get
my $change = $plan->get('6c2f28d125aff1deea615f8de774599acf39a7a1');
my $foo = $plan->get('@foo');
my $bar = $plan->get('bar');
my $bar1 = $plan->get('bar@alpha')
my $bar2 = $plan->get('bar@HEAD');
Returns the change corresponding to the specified ID or name. The argument may be in any of the formats described for index_of()
.
find
my $change = $plan->find('6c2f28d125aff1deea615f8de774599acf39a7a1');
my $foo = $plan->find('@foo');
my $bar = $plan->find('bar');
my $bar1 = $plan->find('bar@alpha')
my $bar2 = $plan->find('bar@HEAD');
Finds the change corresponding to the specified ID or name. The argument may be in any of the formats described for index_of()
. Unlike get()
, find()
will not throw an error if more than one change exists with the specified name, but will return the first instance.
first_index_of
my $index = $plan->first_index_of($change_name);
my $index = $plan->first_index_of($change_name, $change_or_tag_name);
Returns the index of the first instance of the named change in the plan. If a second argument is passed, the index of the first instance of the change after the the index of the second argument will be returned. This is useful for getting the index of a change as it was deployed after a particular tag, for example, to get the first index of the foo change since the @beta
tag, do this:
my $index = $plan->first_index_of('foo', '@beta');
You can also specify the first instance of a change after another change, including such a change at the point of a tag:
my $index = $plan->first_index_of('foo', 'users_table@beta1');
The second argument must unambiguously refer to a single change in the plan. As such, it should usually be a tag name or tag-qualified change name. Returns undef
if the change does not appear in the plan, or if it does not appear after the specified second argument change name.
last_tagged_change
my $change = $plan->last_tagged_change;
Returns the last tagged change object. Returns undef
if no changes have been tagged.
change_at
my $change = $plan->change_at($index);
Returns the change at the specified index.
seek
$plan->seek('@foo');
$plan->seek('bar');
Move the plan position to the specified change. Dies if the change cannot be found in the plan.
reset
$plan->reset;
Resets iteration. Same as $plan->position(-1)
, but better.
next
while (my $change = $plan->next) {
say "Deploy ", $change->format_name;
}
Returns the next change in the plan. Returns undef
if there are no more changes.
last
my $change = $plan->last;
Returns the last change in the plan. Does not change the current position.
current
my $change = $plan->current;
Returns the same change as was last returned by next()
. Returns undef
if next()
has not been called or if the plan has been reset.
peek
my $change = $plan->peek;
Returns the next change in the plan without incrementing the iterator. Returns undef
if there are no more changes beyond the current change.
changes
my @changes = $plan->changes;
Returns all of the changes in the plan. This constitutes the entire plan.
tags
my @tags = $plan->tags;
Returns all of the tags in the plan.
count
my $count = $plan->count;
Returns the number of changes in the plan.
lines
my @lines = $plan->lines;
Returns all of the lines in the plan. This includes all the changes, tags, pragmas, and blank lines.
do
$plan->do(sub { say $_[0]->name; return $_[0]; });
$plan->do(sub { say $_->name; return $_; });
Pass a code reference to this method to execute it for each change in the plan. Each change will be stored in $_
before executing the code reference, and will also be passed as the sole argument. If next()
has been called prior to the call to do()
, then only the remaining changes in the iterator will passed to the code reference. Iteration terminates when the code reference returns false, so be sure to have it return a true value if you want it to iterate over every change.
write_to
$plan->write_to($file);
$plan->write_to($file, $from, $to);
Write the plan to the named file, including notes and white space from the original plan file. If from
and/or $to
are provided, the plan will be written only with the pragmas headers and the lines between those specified changes.
open_script
my $file_handle = $plan->open_script( $change->deploy_file );
Opens the script file passed to it and returns a file handle for reading. The script file must be encoded in UTF-8.
load
my $plan_data = $plan->load;
Loads the plan data. Called internally, not meant to be called directly, as it parses the plan file and deploy scripts every time it's called. If you want the all of the changes, call changes()
instead.
check_changes
@changes = $plan->check_changes( $project, @changes );
@changes = $plan->check_changes( $project, { '@foo' => 1 }, @changes );
Checks a list of changes to validate their dependencies and returns them. If the second argument is a hash reference, its keys should be previously-seen change and tag names that can be assumed to be satisfied requirements for the succeeding changes.
tag
$plan->tag('whee');
Tags the most recent change in the plan. Exits with a fatal error if the tag already exists in the plan.
add
$plan->add( name => 'whatevs' );
$plan->add(
name => 'widgets',
requires => [qw(foo bar)],
conflicts => [qw(dr_evil)],
);
Adds a change to the plan. The supported parameters are the same as those passed to the App::Sqitch::Plan::Change constructor. Exits with a fatal error if the change already exists, or if the any of the dependencies are unknown.
rework
$plan->rework( 'whatevs' );
$plan->rework( 'widgets', [qw(foo bar)], [qw(dr_evil)] );
Reworks an existing change. Said change must already exist in the plan and be tagged or have a tag following it or an exception will be thrown. The previous occurrence of the change will have the suffix of the most recent tag added to it, and a new tag instance will be added to the list.
Plan File
A plan file describes the deployment changes to be run against a database, and is typically maintained using the add
and rework
commands. Its contents must be plain text encoded as UTF-8. Each line of a plan file may be one of four things:
A blank line. May include any amount of white space, which will be ignored.
A Pragma
Begins with a
%
, followed by a pragma name, optionally followed by=
and a value. Currently, the only pragma recognized by Sqitch issyntax-version
.A change.
A named change change as defined in sqitchchanges. A change may then also contain a space-delimited list of dependencies, which are the names of other changes or tags prefixed with a colon (
:
) for required changes or with an exclamation point (!
) for conflicting changes.Changes with a leading
-
are slated to be reverted, while changes with no character or a leading+
are to be deployed.A tag.
A named deployment tag, generally corresponding to a release name. Begins with a
@
, followed by one or more non-whitespace characters, excluding "@", ":", and "#". The first and last characters must not be punctuation characters.A note.
Begins with a
#
and goes to the end of the line. Preceding white space is ignored. May appear on a line after a pragma, change, or tag.
Here's an example of a plan file with a single deploy change and tag:
%syntax-version=1.0.0
+users_table
@alpha
There may, of course, be any number of tags and changes. Here's an expansion:
%syntax-version=1.0.0
+users_table
+insert_user
+update_user
+delete_user
@root
@alpha
Here we have four changes -- "users_table", "insert_user", "update_user", and "delete_user" -- followed by two tags: "@root" and "@alpha".
Most plans will have many changes and tags. Here's a longer example with three tagged deployment points, as well as a change that is deployed and later reverted:
%syntax-version=1.0.0
+users_table
+insert_user
+update_user
+delete_user
+dr_evil
@root
@alpha
+widgets_table
+list_widgets
@beta
-dr_evil
+ftw
@gamma
Using this plan, to deploy to the "beta" tag, all of the changes up to the "@root" and "@alpha" tags must be deployed, as must changes listed before the "@beta" tag. To then deploy to the "@gamma" tag, the "dr_evil" change must be reverted and the "ftw" change must be deployed. If you then choose to revert to "@alpha", then the "ftw" change will be reverted, the "dr_evil" change re-deployed, and the "@gamma" tag removed; then "list_widgets" must be reverted and the associated "@beta" tag removed, then the "widgets_table" change must be reverted.
Changes can only be repeated if one or more tags intervene. This allows Sqitch to distinguish between them. An example:
%syntax-version=1.0.0
+users_table
@alpha
+add_widget
+widgets_table
@beta
+add_user
@gamma
+widgets_created_at
@delta
+add_widget
Note that the "add_widget" change is repeated after the "@beta" tag, and at the end. Sqitch will notice the repetition when it parses this file, and allow it, because at least one tag "@beta" appears between the instances of "add_widget". When deploying, Sqitch will fetch the instance of the deploy script as of the "@delta" tag and apply it as the first change, and then, when it gets to the last change, retrieve the current instance of the deploy script. How does it find such files? The first instances files will either be named add_widget@delta.sql or (soon) findable in the VCS history as of a VCS "delta" tag.
Grammar
Here is the EBNF Grammar for the plan file:
plan-file = { <pragma> | <change-line> | <tag-line> | <note-line> | <blank-line> }* ;
blank-line = [ <blanks> ] <eol>;
note-line = <note> ;
change-line = <name> [ "[" { <requires> | <conflicts> } "]" ] ( <eol> | <note> ) ;
tag-line = <tag> ( <eol> | <note> ) ;
pragma = "%" [ <blanks> ] <name> [ <blanks> ] = [ <blanks> ] <value> ( <eol> | <note> ) ;
tag = "@" <name> ;
requires = <name> ;
conflicts = "!" <name> ;
name = <non-punct> [ [ ? non-blank and not "@", ":", or "#" characters ? ] <non-punct> ] ;
non-punct = ? non-punctuation, non-blank character ? ;
value = ? non-EOL or "#" characters ?
note = [ <blanks> ] "#" [ <string> ] <EOL> ;
eol = [ <blanks> ] <EOL> ;
blanks = ? blank characters ? ;
string = ? non-EOL characters ? ;
And written as regular expressions:
my $eol = qr/[[:blank:]]*$/
my $note = qr/(?:[[:blank:]]+)?[#].+$/;
my $punct = q{-!"#$%&'()*+,./:;<=>?@[\\]^`{|}~};
my $name = qr/[^$punct[:blank:]](?:(?:[^[:space:]:#@]+)?[^$punct[:blank:]])?/;
my $tag = qr/[@]$name/;
my $requires = qr/$name/;
my conflicts = qr/[!]$name/;
my $tag_line = qr/^$tag(?:$note|$eol)/;
my $change_line = qr/^$name(?:[[](?:$requires|$conflicts)+[]])?(?:$note|$eol)/;
my $note_line = qr/^$note/;
my $pragma = qr/^][[:blank:]]*[%][[:blank:]]*$name[[:blank:]]*=[[:blank:]].+?(?:$note|$eol)$/;
my $blank_line = qr/^$eol/;
my $plan = qr/(?:$pragma|$change_line|$tag_line|$note_line|$blank_line)+/ms;
See Also
- sqitch
-
The Sqitch command-line client.
Author
David E. Wheeler <david@justatheory.com>
License
Copyright (c) 2012-2013 iovation Inc.
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.