7.0 KiB
Data model
The biggest problem when creating a distributed bug tracker is that there is no central authoritative server (doh!). This implies some constraints.
Anybody can create and edit bugs at the same time as you
To deal with this problem, you need a way to merge these changes in a meaningful way.
Instead of storing directly the final bug data, we store a series of edit Operation
. One of such operation could looks like this:
{
"type": "SET_TITLE",
"author": {
"name": "René Descartes",
"email": "rene@descartes.fr"
},
"timestamp": 1533640589,
"title": "This title is better"
}
Note: Json provided for readability. Internally it's a golang struct.
These Operation
are aggregated in an OperationPack
, a simple array. An OperationPack
represent an edit session of a bug. We store this pack in git as a git Blob
, that is arbitrary serialized data.
To reference our OperationPack
we create a git Tree
, that is a tree of reference (Blob
of sub-Tree
). If our edit operation include a media (for instance in a message), we can store that media as a Blob
and reference it here under "/media"
.
To complete the picture, we create a git Commit
that reference our Tree
. Each time we add more Operation
to our bug, we add a new Commit
with the same data-structure to form a chain of Commit
.
This chain of Commit
is made available as a git Reference
under refs/bugs/<bug-id>
. We can later use this reference to push our data to a git remote. As git will push any data needed as well, everything will be pushed to the remote including the medias.
For convenience and performance, each Tree
reference the very first OperationPack
of the bug under "/root"
. That way we can easily access the very first Operation
, the CREATE
operation. This operation contains important data for the bug like the author.
Here is the complete picture:
refs/bugs/<bug-id>
|
|
|
+-----------+ +-----------+ "ops" +-----------+
| Commit |----------> Tree |---------+------------| Blob | (OperationPack)
+-----------+ +-----------+ | +-----------+
| |
| |
| | "root" +-----------+
+-----------+ +-----------+ +------------| Blob | (OperationPack)
| Commit |----------> Tree |-- ... | +-----------+
+-----------+ +-----------+ |
| |
| | "media" +-----------+ +-----------+
| +------------| Tree |---+--->| Blob | bug.jpg
+-----------+ +-----------+ +-----------+ | +-----------+
| Commit |----------> Tree |-- ... |
+-----------+ +-----------+ | +-----------+
+--->| Blob | demo.mp4
+-----------+
Now that we have this, we can easily merge our bugs without conflict. When pulling bug's update from a remote, we will simply add our new operations (that is, new Commit
), if any, at the end of the chain. In git terms, it's just a rebase
.
You can't have a simple consecutive index for your bugs
The same way git can't have a simple counter as identifier for it's commit as SVN do, we can't have consecutive identifiers for bugs.
git-bug
use as identifier the hash of the first commit in the chain of commit of the bug. As this hash is ultimately computed with the content of the CREATE
operation that include title, message and a timestamp, it will be unique and prevent collision.
The same way as git does, this hash is displayed truncated to a 7 characters string to human user. Note that when specifying a bug id in a command, you can enter as few character as you want as long as there is no ambiguity. If multiple bugs match your prefix, git-bug
will complain and display the potential matches.
You can't rely on the time provided by other people (their clock might by off) for anything other than just display
When in the context of a single bug, events are already ordered without the need of a timestamp. An OperationPack
is an ordered array of operations. A chain of commit orders OperationPack
with each other.
Now, to be able to order bugs by creation or last edition time, git-bug
use a Lamport logical clock. A Lamport clock is a simple counter of event. When a new bug is created, its creation time will be the highest time value we are aware of plus one. This declare a causality in the event and allow to order bugs.
When bugs are push/pull to a git remote, it might happen that bugs get the same logical time. This means that they were created or edited concurrently. In this case, git-bug
will use the timestamp as a second layer of sorting. While the timestamp might be incorrect due to a badly set clock, the drift in sorting is bounded by the first sorting using the logical clock. That means that if users synchronize their bugs regularly, the timestamp will rarely be used, and should still provide a kinda accurate sorting when needed.
These clocks are stored in the chain of commit of each bug, as entries in each main git Tree
. The first commit will have both a creation time and edit time clock, while a later commit will only have an edit time clock. A naive way could be to serialize the clock in a git Blob
and reference it in the Tree
as "create-clock"
for example. The problem is that it would generate a lot of blobs that would need to be exchanged later for what is basically just a number.
Instead, the clock value is serialized directly in the Tree
entry name (for example: "create-clock-4"
). As a Tree entry need to reference something, we reference the git Blob
with an empty content. As all of these entries will reference the same Blob
, no network transfer is needed as long as you already have any bug in your repository.
Example of Tree of the first commit of a bug:
100644 blob e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 create-clock-14
100644 blob e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 edit-clock-137
100644 blob a020a85baa788e12699a4d83dd735578f0d78c75 ops
100644 blob a020a85baa788e12699a4d83dd735578f0d78c75 root
Note that both "ops"
and "root"
entry reference the same OperationPack as it's the first commit in the chain.
Example of Tree of a later commit of a bug:
100644 blob e69de29bb2d1d6434b8b29ae775ad8c2e48c5391 edit-clock-154
100644 blob 68383346c1a9503f28eec888efd300e9fc179ca0 ops
100644 blob a020a85baa788e12699a4d83dd735578f0d78c75 root
Note that the "root"
entry still reference the same root OperationPack. Also, all the clocks reference the same empty Blob
.