Mercurial > hg
view mercurial/help/internals/bundles.txt @ 37653:b2fa1591fb44
wireproto: add media type to version 2 capabilities response
This is useful to advertise because servers reject unsupported
media types. A client may wish to speak multiple media types and
choose the one the server supports.
I doubt we'll ever use multiple media types or negotiation in core.
But during the course of developing this protocol, I may end up
making extensions that backport and forward port protocol support
as needed to support Mercurial deploys in the wild. e.g. I may
deploy support for an older protocol on a server so old clients
can continue using it.
It's worth pursuing changing the SSH protocol's upgrade mechanism
to support multiple media types as well...
Differential Revision: https://phab.mercurial-scm.org/D3299
author | Gregory Szorc <gregory.szorc@gmail.com> |
---|---|
date | Fri, 13 Apr 2018 12:31:56 -0700 |
parents | 1fa35ca345a5 |
children |
line wrap: on
line source
A bundle is a container for repository data. Bundles are used as standalone files as well as the interchange format over the wire protocol used when two Mercurial peers communicate with each other. Headers ======= Bundles produced since Mercurial 0.7 (September 2005) have a 4 byte header identifying the major bundle type. The header always begins with ``HG`` and the follow 2 bytes indicate the bundle type/version. Some bundle types have additional data after this 4 byte header. The following sections describe each bundle header/type. HG10 ---- ``HG10`` headers indicate a *changegroup bundle*. This is the original bundle format, so it is sometimes referred to as *bundle1*. It has been present since version 0.7 (released September 2005). This header is followed by 2 bytes indicating the compression algorithm used for data that follows. All subsequent data following this compression identifier is compressed according to the algorithm/method specified. Supported algorithms include the following. ``BZ`` *bzip2* compression. Bzip2 compressors emit a leading ``BZ`` header. Mercurial uses this leading ``BZ`` as part of the bundle header. Therefore consumers of bzip2 bundles need to *seed* the bzip2 decompressor with ``BZ`` or seek the input stream back to the beginning of the algorithm component of the bundle header so that decompressor input is valid. This behavior is unique among supported compression algorithms. Supported since version 0.7 (released December 2006). ``GZ`` *zlib* compression. Supported since version 0.9.2 (released December 2006). ``UN`` *Uncompressed* or no compression. Unmodified changegroup data follows. Supported since version 0.9.2 (released December 2006). 3rd party extensions may implement their own compression. However, no authority reserves values for their compression algorithm identifiers. HG2X ---- ``HG2X`` headers (where ``X`` is any value) denote a *bundle2* bundle. Bundle2 bundles are a container format for various kinds of repository data and capabilities, beyond changegroup data (which was the only data supported by ``HG10`` bundles. ``HG20`` is currently the only defined bundle2 version. The ``HG20`` format is documented at :hg:`help internals.bundle2`. Initial ``HG20`` support was added in Mercurial 3.0 (released May 2014). However, bundle2 bundles were hidden behind an experimental flag until version 3.5 (released August 2015), when they were enabled in the wire protocol. Various commands (including ``hg bundle``) did not support generating bundle2 files until Mercurial 3.6 (released November 2015). HGS1 ---- *Experimental* A ``HGS1`` header indicates a *streaming clone bundle*. This is a bundle that contains raw revlog data from a repository store. (Typically revlog data is exchanged in the form of changegroups.) The purpose of *streaming clone bundles* are to *clone* repository data very efficiently. The ``HGS1`` header is always followed by 2 bytes indicating a compression algorithm of the data that follows. Only ``UN`` (uncompressed data) is currently allowed. ``HGS1UN`` support was added as an experimental feature in version 3.6 (released November 2015) as part of the initial offering of the *clone bundles* feature.