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git/Documentation/technical/protocol-capabilities.txt

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Git Protocol Capabilities
=========================
Servers SHOULD support all capabilities defined in this document.
On the very first line of the initial server response of either
receive-pack and upload-pack the first reference is followed by
a NUL byte and then a list of space delimited server capabilities.
These allow the server to declare what it can and cannot support
to the client.
Client will then send a space separated list of capabilities it wants
to be in effect. The client MUST NOT ask for capabilities the server
did not say it supports.
Server MUST diagnose and abort if capabilities it does not understand
was sent. Server MUST NOT ignore capabilities that client requested
and server advertised. As a consequence of these rules, server MUST
NOT advertise capabilities it does not understand.
The 'atomic', 'report-status', 'delete-refs', 'quiet', and 'push-cert'
capabilities are sent and recognized by the receive-pack (push to server)
process.
The 'ofs-delta' and 'side-band-64k' capabilities are sent and recognized
by both upload-pack and receive-pack protocols. The 'agent' capability
may optionally be sent in both protocols.
All other capabilities are only recognized by the upload-pack (fetch
from server) process.
multi_ack
---------
The 'multi_ack' capability allows the server to return "ACK obj-id
continue" as soon as it finds a commit that it can use as a common
base, between the client's wants and the client's have set.
By sending this early, the server can potentially head off the client
from walking any further down that particular branch of the client's
repository history. The client may still need to walk down other
branches, sending have lines for those, until the server has a
complete cut across the DAG, or the client has said "done".
Without multi_ack, a client sends have lines in --date-order until
the server has found a common base. That means the client will send
have lines that are already known by the server to be common, because
they overlap in time with another branch that the server hasn't found
a common base on yet.
For example suppose the client has commits in caps that the server
doesn't and the server has commits in lower case that the client
doesn't, as in the following diagram:
+---- u ---------------------- x
/ +----- y
/ /
a -- b -- c -- d -- E -- F
\
+--- Q -- R -- S
If the client wants x,y and starts out by saying have F,S, the server
doesn't know what F,S is. Eventually the client says "have d" and
the server sends "ACK d continue" to let the client know to stop
walking down that line (so don't send c-b-a), but it's not done yet,
it needs a base for x. The client keeps going with S-R-Q, until a
gets reached, at which point the server has a clear base and it all
ends.
Without multi_ack the client would have sent that c-b-a chain anyway,
interleaved with S-R-Q.
multi_ack_detailed
------------------
This is an extension of multi_ack that permits client to better
understand the server's in-memory state. See pack-protocol.txt,
section "Packfile Negotiation" for more information.
no-done
-------
This capability should only be used with the smart HTTP protocol. If
multi_ack_detailed and no-done are both present, then the sender is
free to immediately send a pack following its first "ACK obj-id ready"
message.
Without no-done in the smart HTTP protocol, the server session would
end and the client has to make another trip to send "done" before
the server can send the pack. no-done removes the last round and
thus slightly reduces latency.
thin-pack
---------
A thin pack is one with deltas which reference base objects not
contained within the pack (but are known to exist at the receiving
end). This can reduce the network traffic significantly, but it
requires the receiving end to know how to "thicken" these packs by
adding the missing bases to the pack.
The upload-pack server advertises 'thin-pack' when it can generate
and send a thin pack. A client requests the 'thin-pack' capability
when it understands how to "thicken" it, notifying the server that
it can receive such a pack. A client MUST NOT request the
'thin-pack' capability if it cannot turn a thin pack into a
self-contained pack.
Receive-pack, on the other hand, is assumed by default to be able to
handle thin packs, but can ask the client not to use the feature by
advertising the 'no-thin' capability. A client MUST NOT send a thin
pack if the server advertises the 'no-thin' capability.
The reasons for this asymmetry are historical. The receive-pack
program did not exist until after the invention of thin packs, so
historically the reference implementation of receive-pack always
understood thin packs. Adding 'no-thin' later allowed receive-pack
to disable the feature in a backwards-compatible manner.
side-band, side-band-64k
------------------------
This capability means that server can send, and client understand multiplexed
progress reports and error info interleaved with the packfile itself.
These two options are mutually exclusive. A modern client always
favors 'side-band-64k'.
Either mode indicates that the packfile data will be streamed broken
up into packets of up to either 1000 bytes in the case of 'side_band',
or 65520 bytes in the case of 'side_band_64k'. Each packet is made up
of a leading 4-byte pkt-line length of how much data is in the packet,
followed by a 1-byte stream code, followed by the actual data.
The stream code can be one of:
1 - pack data
2 - progress messages
3 - fatal error message just before stream aborts
The "side-band-64k" capability came about as a way for newer clients
that can handle much larger packets to request packets that are
actually crammed nearly full, while maintaining backward compatibility
for the older clients.
Further, with side-band and its up to 1000-byte messages, it's actually
999 bytes of payload and 1 byte for the stream code. With side-band-64k,
same deal, you have up to 65519 bytes of data and 1 byte for the stream
code.
The client MUST send only maximum of one of "side-band" and "side-
band-64k". Server MUST diagnose it as an error if client requests
both.
ofs-delta
---------
Server can send, and client understand PACKv2 with delta referring to
its base by position in pack rather than by an obj-id. That is, they can
send/read OBJ_OFS_DELTA (aka type 6) in a packfile.
agent
-----
The server may optionally send a capability of the form `agent=X` to
notify the client that the server is running version `X`. The client may
optionally return its own agent string by responding with an `agent=Y`
capability (but it MUST NOT do so if the server did not mention the
agent capability). The `X` and `Y` strings may contain any printable
ASCII characters except space (i.e., the byte range 32 < x < 127), and
are typically of the form "package/version" (e.g., "git/1.8.3.1"). The
agent strings are purely informative for statistics and debugging
purposes, and MUST NOT be used to programmatically assume the presence
or absence of particular features.
shallow
-------
This capability adds "deepen", "shallow" and "unshallow" commands to
the fetch-pack/upload-pack protocol so clients can request shallow
clones.
deepen-since
------------
This capability adds "deepen-since" command to fetch-pack/upload-pack
protocol so the client can request shallow clones that are cut at a
specific time, instead of depth. Internally it's equivalent of doing
"rev-list --max-age=<timestamp>" on the server side. "deepen-since"
cannot be used with "deepen".
deepen-not
----------
This capability adds "deepen-not" command to fetch-pack/upload-pack
protocol so the client can request shallow clones that are cut at a
specific revision, instead of depth. Internally it's equivalent of
doing "rev-list --not <rev>" on the server side. "deepen-not"
cannot be used with "deepen", but can be used with "deepen-since".
fetch, upload-pack: --deepen=N extends shallow boundary by N commits In git-fetch, --depth argument is always relative with the latest remote refs. This makes it a bit difficult to cover this use case, where the user wants to make the shallow history, say 3 levels deeper. It would work if remote refs have not moved yet, but nobody can guarantee that, especially when that use case is performed a couple months after the last clone or "git fetch --depth". Also, modifying shallow boundary using --depth does not work well with clones created by --since or --not. This patch fixes that. A new argument --deepen=<N> will add <N> more (*) parent commits to the current history regardless of where remote refs are. Have/Want negotiation is still respected. So if remote refs move, the server will send two chunks: one between "have" and "want" and another to extend shallow history. In theory, the client could send no "want"s in order to get the second chunk only. But the protocol does not allow that. Either you send no want lines, which means ls-remote; or you have to send at least one want line that carries deep-relative to the server.. The main work was done by Dongcan Jiang. I fixed it up here and there. And of course all the bugs belong to me. (*) We could even support --deepen=<N> where <N> is negative. In that case we can cut some history from the shallow clone. This operation (and --depth=<shorter depth>) does not require interaction with remote side (and more complicated to implement as a result). Helped-by: Duy Nguyen <pclouds@gmail.com> Helped-by: Eric Sunshine <sunshine@sunshineco.com> Helped-by: Junio C Hamano <gitster@pobox.com> Signed-off-by: Dongcan Jiang <dongcan.jiang@gmail.com> Signed-off-by: Nguyễn Thái Ngọc Duy <pclouds@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2016-06-12 12:54:09 +02:00
deepen-relative
---------------
If this capability is requested by the client, the semantics of
"deepen" command is changed. The "depth" argument is the depth from
the current shallow boundary, instead of the depth from remote refs.
no-progress
-----------
The client was started with "git clone -q" or something, and doesn't
want that side band 2. Basically the client just says "I do not
wish to receive stream 2 on sideband, so do not send it to me, and if
you did, I will drop it on the floor anyway". However, the sideband
channel 3 is still used for error responses.
include-tag
-----------
The 'include-tag' capability is about sending annotated tags if we are
sending objects they point to. If we pack an object to the client, and
a tag object points exactly at that object, we pack the tag object too.
In general this allows a client to get all new annotated tags when it
fetches a branch, in a single network connection.
Clients MAY always send include-tag, hardcoding it into a request when
the server advertises this capability. The decision for a client to
request include-tag only has to do with the client's desires for tag
data, whether or not a server had advertised objects in the
refs/tags/* namespace.
Servers MUST pack the tags if their referrant is packed and the client
has requested include-tags.
Clients MUST be prepared for the case where a server has ignored
include-tag and has not actually sent tags in the pack. In such
cases the client SHOULD issue a subsequent fetch to acquire the tags
that include-tag would have otherwise given the client.
The server SHOULD send include-tag, if it supports it, regardless
of whether or not there are tags available.
report-status
-------------
The receive-pack process can receive a 'report-status' capability,
which tells it that the client wants a report of what happened after
a packfile upload and reference update. If the pushing client requests
this capability, after unpacking and updating references the server
will respond with whether the packfile unpacked successfully and if
each reference was updated successfully. If any of those were not
successful, it will send back an error message. See pack-protocol.txt
for example messages.
delete-refs
-----------
If the server sends back the 'delete-refs' capability, it means that
it is capable of accepting a zero-id value as the target
value of a reference update. It is not sent back by the client, it
simply informs the client that it can be sent zero-id values
to delete references.
quiet
-----
If the receive-pack server advertises the 'quiet' capability, it is
capable of silencing human-readable progress output which otherwise may
be shown when processing the received pack. A send-pack client should
respond with the 'quiet' capability to suppress server-side progress
reporting if the local progress reporting is also being suppressed
(e.g., via `push -q`, or if stderr does not go to a tty).
atomic
------
If the server sends the 'atomic' capability it is capable of accepting
atomic pushes. If the pushing client requests this capability, the server
will update the refs in one atomic transaction. Either all refs are
updated or none.
push-options
------------
If the server sends the 'push-options' capability it is able to accept
push options after the update commands have been sent, but before the
packfile is streamed. If the pushing client requests this capability,
the server will pass the options to the pre- and post- receive hooks
that process this push request.
allow-tip-sha1-in-want
----------------------
If the upload-pack server advertises this capability, fetch-pack may
send "want" lines with SHA-1s that exist at the server but are not
advertised by upload-pack.
allow-reachable-sha1-in-want
----------------------------
If the upload-pack server advertises this capability, fetch-pack may
send "want" lines with SHA-1s that exist at the server but are not
advertised by upload-pack.
push-cert=<nonce>
-----------------
The receive-pack server that advertises this capability is willing
to accept a signed push certificate, and asks the <nonce> to be
included in the push certificate. A send-pack client MUST NOT
send a push-cert packet unless the receive-pack server advertises
this capability.
filter
------
If the upload-pack server advertises the 'filter' capability,
fetch-pack may send "filter" commands to request a partial clone
or partial fetch and request that the server omit various objects
from the packfile.