Distributed Reviews (add-on)

The Distributed Reviews add-on allows your team to create a Pull Request from one branch to another and to comment on pull requests and individual commits. Contrary to centralized code reviewing systems like GitHub, no dedicated server is required: all review metadata is stored in the Git repository itself and distributed the same way as your primary content/commits. This gives you all the benefits of Git: you can work offline and you can prepare your pull requests and comments locally and only push them when ready, or discard them if you change your mind, without affecting anyone else.

Initialization

To initialize the Review system for your local repository invoke Review|Configure.

SmartGit will query all currently configured remotes to see whether any of them already contains a Review database. If this is the case, SmartGit will clone this database and connect the local Review system to it. If none of the remotes contains a Review database, a completely new database will be created and the users database will be populated from the repository log.

For a shared repository (including all its clones), the initialization of a completely new database should only be done once, e.g. when starting to introduce the Review system for your project. This will usually happen in one of the clones. After the initialization of the local repository, invoke Review|Configure and select Initialize a Remote to push your Review database back to the selected remote, thus initializing this repository as well. From this point on, Review|Configure can be invoked in all other clones of the shared repository to clone and connect to the same Review database.

Workflows

Using a Pull Request to request a review or integration of a feature

Pull Requests are used to signal that you consider a feature branch as ‘ready’ and request someone else to review and integrate this branch into the main development line (usually master or develop in case of Git-Flow).

To create a Pull Request, select your feature branch in the Branches view and invoke Create Pull Request from the context menu. In the upcoming dialog, select the target branch and a Message describing the purpose of the Pull Request. It’s recommended to specify at least one Assignee, who is the right person to review and integrate this Pull Request. The Pull Request will be highlighted to all assignees in the Branches view (in the Project as well as the Log window).

Once the Pull Request has been created, it is in pending state and will show up in the Pull Requests category of the Branches view as local only. It will be published, i.e. sent to the remote repository, for the next time you invoke Push. Alternatively, you can manually force publishing the Pull Request using Review|Sync.

Reviewing and integrating a Pull Request

Once a Pull Request is published (i.e. present in the remote repository), it will be fetched by all other users for their next invocation of Pull or by doing Review|Sync manually. If you are amongst the Assignees of a Pull Request, it will be highlighted to you in the Branches view.

To review or integrate a Pull Request, open the Log and select and reveal the Pull Request from the Pull Requests category. The Pull Request is represented by a merge commit which connects its source (the feature branch) with the merge base between the source and the Pull Request’s target (probably master or develop). When selecting this Pull Request commit in the Commits graph, the Files view will show all affected files of the Pull Request and you can drill down to content changes in the Changes view.

  • If the Pull Request is not yet ready for merge and/or there is something to object to, you may leave a comment (see section Commenting changes) and Reject the Pull Request. At the same time, you will probably want to assign the Pull Request back to the author or someone else who you think can best deal with your comments. Comments may be applied to the Pull Request commit itself (either to the commit of the affected files’ changes) or to individual commits of the Pull Request, whatever suits your needs better.
  • If the Pull Request is fine, you may Integrate the Pull Request from the Branches view context menu. The Integrate dialog is similar to Git-Flow’s Finish Feature dialog: you can select how to integrate the commits and some optional cleanup tasks. Alternately, you may just Approve the Pull Request and assign it to someone who should finally Integrate the Pull Request.
  • If you don’t feel to be the right assignee for the Pull Request at all, you may simply Assign it to someone else who you think can deal with it better.

In either case it’s recommended to add an optional Comment which explains the reason for the reassignment. Such Pull Request Comments will show up in the Branches view directly below the Pull Request and they will be displayed in the Commit view as well, when selecting the corresponding Pull Request commit.

When you are done with the integration (or review), be sure to Sync your activity with the remote repository.

Commenting changes

A main feature of the Review system is attaching comments to changes. Usually, you will apply comments while doing a review of a Pull Request, however you can comment on arbitrary changes (commits) as well. Contrary to other reviewing systems, like GitHub, there is no difference between comments on Pull Request commits and comments on any other commits and thus the procedure is identical in both cases:

  • To comment on a commit in general, use Add Review Comment from the graph context menu.
  • To comment on an individual change in the Changes view, use Add Review Comment from the context menu on the corresponding line.

Comments will show up in the Commits graph, the Files table and Changes view. The Comments table will show all comments currently present in the repository and allows to Jump To a comment, or Edit or Delete a comment.

Inspecting a Pull Request history

Pull Requests include the information on all head commits they had ever been ‘on’. Especially, the current head of a Pull Request will change when Rebasing a Pull Request, e.g. to keep the corresponding feature branch up-to-date with master. By having access to all ‘historical’ heads, you will also have access to all (historical) comments for the Pull Request, thus being able to understand the history and development of a Pull Request.

By default, only the most recent head will show up in the Log Graph when toggling the pull request in the Branches view. To view details for the pull request, select the pull request commit in the Graph and switch to the Commit view. Here you will also be able to display older heads by clicking the Version links.

Closed Pull Requests

After integrating or closing a pull request, the pull request will still be present in the Review database, but by default be hidden from the Branches view. To display closed pull requests, select Review|Show Closed Pull Requests.

As long as a pull request is still present in the database, SmartGit maintains refs pointing to all of its heads, thus preventing Git from garbage collecting the corresponding commits, see Historic Commit Refs. Only by invoking Delete on a closed pull request, it will be removed from the database and correspondings refs will be deleted.

Users

Database structure

The entire review metadata is stored in a couple of special refs of your Git repository: the latest version of your local metadata is referenced by refs/meta/smartgit/reviews, the latest (fetched) metadata for each configured remote is referenced by refs/meta/smartgit/remotes/<remote-id>/reviews. <remote-id>s are unique identifiers of remotes and are defined in .git/config. Using IDs instead of the remotes’ names avoids problems when renaming a remote.

The metadata refs are pointing to an orphan tree structure which stores the metadata as a set of many small text files. The tree and file structure has been defined in a way to avoid possible content conflicts which would require a manual resolution by the user. (This could happen e.g. if two users have locally modified the same comment). The root of the metadata tree consists of following categories:

  • a README file which gives information about the purpose of this directory tree;
  • a commit category which contains comments attached to commits. The naming scheme for comments affecting the commit in general (not a particular file) is comments/<commit>/h/<comment-id>/<file-sha>. The scheme for comments affecting a particular file is comments/<commit>/f/<file-path>/<comment-id>/<file-sha>;
  • a ref category which contains pull requests. The naming scheme for a pull request is ref/<ref>/h/<pull-request-id>/<file-sha>;
  • a note category which contains comments on pull requests. The naming scheme for a pull request comments is note/<pull-request-id>/h/<comment-id>/<file-sha>.
  • a global category which contains information on users.

Thus, every comment or pull request is represented in the file system by its ID. From the user perspective a comment as well as pull request is exactly one entity. From a more low-level perspective all these entities are treated the same way and one entity actually comprises a set of immutable files which represent different versions of the entity and which have their own hash as filename.

If an entity is modified, this will result in the deletion of the file <old-file-sha> and the creation of a new file <new-file-sha> in the entities’ directory. <old-file-sha> as well as <new-file-sha> contain the entire old/new state of the entity and in addition <new-file-sha> will have a replaces: <old-file-sha>-information attached, so SmartGit will be able to interpret the new file as being a replacement of the old file.

Conflict Resolution

The immutable files design may look overly complex, however it has the crucial advantage of getting rid of conflicts on the core file-system (or syntactical) level, and instead moving these conflicts up to the semantical level.

Syntactical conflicts would occur e.g. when pulling or pushing review metadata and encountering the same file with modified content in both versions. Thus, the user would be forced to solve a conflict in such a core metadata file. The move up to the semantical level happens by simply having two versions of the entity alive, which will be stored in different <file-sha>-files.

Even better, changes which would have resulted in conflicts on the syntactical level, may be mergeable on the semantical level: e.g. if one users assigns a pull request to A and another user assigns the pull request to B, it will be ‘merged’ the safe way to have the pull request be assigned to A as well as B. This is similar for the content of a comment: if changed concurrently to X as well as Y, it will finally show up as X and Y. SmartGit knows about these ‘diverged’ versions of one entity and it will highlight this fact to the user, where necessary.

The resolution of these ‘conflicts’ is done by the user when editing the entity: in our example, it was unclear whether A or B should be the assignee, so either of these users might have a look at the pull request and if he does not feel a suitable assignee, he may remove himself from the list. In case of the diverged comment X and Y, keeping both comment versions might be fine. If not, one of them can simply be removed and the other one fixed to include some additional information from the removed one.

Local Review Data

From the difference between refs/meta/smartgit/reviews and refs/meta/smartgit/remotes/<remote-id>/reviews, SmartGit will derive which pull requests and comments (‘entities’) are local.

After pushing regular commits to a certain remote or when invoking Review|Sync, SmartGit will include only those entities for which their referred commits (or refs) are already present in the corresponding remote. In this way, you can create local commits together with local review data and push them only all at once. Before pushing local review data, SmartGit will squash all your local review tree commits into a single commit: this especially means that additions followed by deletions of certain entities or some back and forth while editing entities will be skipped. Thus, similar as for ‘normal’ Git commits, you have freedom in how to assemble your review data; only the final result will matter.

Historic Commit Refs

SmartGit maintains a list of special refs refs/meta/smartgit/commits/<sha> for all commits which are representing pull request heads (current heads as well as historic heads) and for all commits to which a comment is assigned. This happens to (1) make such commits pushable and pullable and (2) to preserve them from being garbage-collected by Git: while on the client-side, the reflog-files are usually preventing a garbage collection, this is by default not the case on the server-side.

By default, historic commit refs will be removed, once the corresponding entity will be removed from the database. To disabling pruning of such commits, you have to unset the prune-commit-refs option in the review database:

  • Create a new clone of your repository, initialize the review database for this clone and use this clone for subsequent operations
  • Checkout refs/meta/smartgit/reviews:
git checkout refs/meta/smartgit/reviews         

Now the working tree will contain the entire content of the review database; you may see top-level directories like ref, commit or global.

  • Create top-level directory options (if it does not exist yet)
  • From the repository root, invoke following command (on Windows, you have to use git bash):
git rm options/prune-commit-refs
git commit -m "configuration changed to prune obsolete commit refs"
git update-ref refs/meta/smartgit/reviews `git rev-parse HEAD` 
  • Finally, sync this change using SmartGit’s Review|Sync.

Once this change has been pulled to a different clone for which Distributed Reviews are enabled, obsolete refs won’t be removed anymore from now on. To confirm that the option actually works, you may invoke following command before adding and after removing a comment locally:

git show-ref | grep -c refs/meta/smartgit/commits        

If the displayed number remains increased after having removed the comment, you are done.

Disposing your local Review Database

Sometimes it may be desirable to reinitialize your local review database from the server’s database. For that, it’s necessary to first dispose your local database using Review|Configure and select Dispose Database there.

Note

To dispose the review database from command line (not recommended), invoke:

git update-ref -d refs/meta/smartgit/reviews

Disposing all Distributed Reviews data from your project

To get rid of Distributed Reviews data not just for your local clone, but also for the remote repository and all clones from this repository, following steps are required:

  • on the server, delete all refs/meta/smartgit/*-refs
    • usually there are no packed refs on the server, hence you can simply delete these refs from the file system
    • alternatively, if you do not have access to the server’s file system, you may use git push --delete <remote> <ref> to delete them remotely
  • on every clone, invoke Review|Configure and select Dispose Database

Customizing the pull request integration message

The default message which will be set for the Integrate Pull Request dialog can be customized by using a message template. The message template will be specified using Low-level property smartgit.reviews.integrateMessageTemplate. Following variables can be used:

  • ${id}: the short pull request ID
  • ${message}: the entire pull request message (including new lines)
  • ${source}: the pull request source branch
  • ${target}: the pull request target branch
  • ${creatorName}: the name of the user who has created the pull request
  • ${creatorEmail}: the email address of the user who has created the pull request
  • ${creationTime}: the creation time of the pull request

To introduce line breaks in the message, use \n in the message template.