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Why not git tree objects?

We've been experimenting with (some variations of) the git tree and object format, and ultimately decided against using it as an internal format, and instead adapted the one documented in the other documents here.

While the tvix-store API protocol shares some similarities with the format used in git for trees and objects, the git one has shown some significant disadvantages:

The binary encoding itself

trees

The git tree object format is a very binary, error-prone and "made-to-be-read-and-written-from-C" format.

Tree objects are a combination of null-terminated strings, and fields of known length. References to other tree objects use the literal sha1 hash of another tree object in this encoding. Extensions of the format/changes are very hard to do right, because parsers are not aware they might be parsing something different.

The tvix-store protocol uses a canonical protobuf serialization, and uses the blake3 hash of that serialization to point to other Directory messages. It's both compact and with a wide range of libraries for encoders and decoders in many programming languages. The choice of protobuf makes it easy to add new fields, and make old clients aware of some unknown fields being detected 1.

blob

On disk, git blob objects start with a "blob" prefix, then the size of the payload, and then the data itself. The hash of a blob is the literal sha1sum over all of this - which makes it something very git specific to request for.

tvix-store simply uses the blake3 hash of the literal contents when referring to a file/blob, which makes it very easy to ask other data sources for the same data, as no git-specific payload is included in the hash. This also plays very well together with things like iroh, which plans to provide a way to substitute (large)blobs by their blake3 hash over the IPFS network.

In addition to that, blake3 makes it possible to do verified streaming, as already described in other parts of the documentation.

The git tree object format uses sha1 both for references to other trees and hashes of blobs, which isn't really a hash function to fundamentally base everything on in 2023. The migration to sha256 also has been dead for some years now, and it's unclear how a "blake3" version of this would even look like.

  1. Obviously, adding new fields will change hashes, but it's something that's easy to detect.