Documentation / technical / pack-protocol.txton commit Merge branch 'mm/rebase-i-exec-edit' into maint (57ded05)
   1Packfile transfer protocols
   2===========================
   3
   4Git supports transferring data in packfiles over the ssh://, git:// and
   5file:// transports.  There exist two sets of protocols, one for pushing
   6data from a client to a server and another for fetching data from a
   7server to a client.  All three transports (ssh, git, file) use the same
   8protocol to transfer data.
   9
  10The processes invoked in the canonical Git implementation are 'upload-pack'
  11on the server side and 'fetch-pack' on the client side for fetching data;
  12then 'receive-pack' on the server and 'send-pack' on the client for pushing
  13data.  The protocol functions to have a server tell a client what is
  14currently on the server, then for the two to negotiate the smallest amount
  15of data to send in order to fully update one or the other.
  16
  17Transports
  18----------
  19There are three transports over which the packfile protocol is
  20initiated.  The Git transport is a simple, unauthenticated server that
  21takes the command (almost always 'upload-pack', though Git
  22servers can be configured to be globally writable, in which 'receive-
  23pack' initiation is also allowed) with which the client wishes to
  24communicate and executes it and connects it to the requesting
  25process.
  26
  27In the SSH transport, the client just runs the 'upload-pack'
  28or 'receive-pack' process on the server over the SSH protocol and then
  29communicates with that invoked process over the SSH connection.
  30
  31The file:// transport runs the 'upload-pack' or 'receive-pack'
  32process locally and communicates with it over a pipe.
  33
  34Git Transport
  35-------------
  36
  37The Git transport starts off by sending the command and repository
  38on the wire using the pkt-line format, followed by a NUL byte and a
  39hostname parameter, terminated by a NUL byte.
  40
  41   0032git-upload-pack /project.git\0host=myserver.com\0
  42
  43--
  44   git-proto-request = request-command SP pathname NUL [ host-parameter NUL ]
  45   request-command   = "git-upload-pack" / "git-receive-pack" /
  46                       "git-upload-archive"   ; case sensitive
  47   pathname          = *( %x01-ff ) ; exclude NUL
  48   host-parameter    = "host=" hostname [ ":" port ]
  49--
  50
  51Only host-parameter is allowed in the git-proto-request. Clients
  52MUST NOT attempt to send additional parameters. It is used for the
  53git-daemon name based virtual hosting.  See --interpolated-path
  54option to git daemon, with the %H/%CH format characters.
  55
  56Basically what the Git client is doing to connect to an 'upload-pack'
  57process on the server side over the Git protocol is this:
  58
  59   $ echo -e -n \
  60     "0039git-upload-pack /schacon/gitbook.git\0host=example.com\0" |
  61     nc -v example.com 9418
  62
  63
  64SSH Transport
  65-------------
  66
  67Initiating the upload-pack or receive-pack processes over SSH is
  68executing the binary on the server via SSH remote execution.
  69It is basically equivalent to running this:
  70
  71   $ ssh git.example.com "git-upload-pack '/project.git'"
  72
  73For a server to support Git pushing and pulling for a given user over
  74SSH, that user needs to be able to execute one or both of those
  75commands via the SSH shell that they are provided on login.  On some
  76systems, that shell access is limited to only being able to run those
  77two commands, or even just one of them.
  78
  79In an ssh:// format URI, it's absolute in the URI, so the '/' after
  80the host name (or port number) is sent as an argument, which is then
  81read by the remote git-upload-pack exactly as is, so it's effectively
  82an absolute path in the remote filesystem.
  83
  84       git clone ssh://user@example.com/project.git
  85                    |
  86                    v
  87    ssh user@example.com "git-upload-pack '/project.git'"
  88
  89In a "user@host:path" format URI, its relative to the user's home
  90directory, because the Git client will run:
  91
  92     git clone user@example.com:project.git
  93                    |
  94                    v
  95  ssh user@example.com "git-upload-pack 'project.git'"
  96
  97The exception is if a '~' is used, in which case
  98we execute it without the leading '/'.
  99
 100      ssh://user@example.com/~alice/project.git,
 101                     |
 102                     v
 103   ssh user@example.com "git-upload-pack '~alice/project.git'"
 104
 105A few things to remember here:
 106
 107- The "command name" is spelled with dash (e.g. git-upload-pack), but
 108  this can be overridden by the client;
 109
 110- The repository path is always quoted with single quotes.
 111
 112Fetching Data From a Server
 113===========================
 114
 115When one Git repository wants to get data that a second repository
 116has, the first can 'fetch' from the second.  This operation determines
 117what data the server has that the client does not then streams that
 118data down to the client in packfile format.
 119
 120
 121Reference Discovery
 122-------------------
 123
 124When the client initially connects the server will immediately respond
 125with a listing of each reference it has (all branches and tags) along
 126with the object name that each reference currently points to.
 127
 128   $ echo -e -n "0039git-upload-pack /schacon/gitbook.git\0host=example.com\0" |
 129      nc -v example.com 9418
 130   00887217a7c7e582c46cec22a130adf4b9d7d950fba0 HEAD\0multi_ack thin-pack side-band side-band-64k ofs-delta shallow no-progress include-tag
 131   00441d3fcd5ced445d1abc402225c0b8a1299641f497 refs/heads/integration
 132   003f7217a7c7e582c46cec22a130adf4b9d7d950fba0 refs/heads/master
 133   003cb88d2441cac0977faf98efc80305012112238d9d refs/tags/v0.9
 134   003c525128480b96c89e6418b1e40909bf6c5b2d580f refs/tags/v1.0
 135   003fe92df48743b7bc7d26bcaabfddde0a1e20cae47c refs/tags/v1.0^{}
 136   0000
 137
 138Server SHOULD terminate each non-flush line using LF ("\n") terminator;
 139client MUST NOT complain if there is no terminator.
 140
 141The returned response is a pkt-line stream describing each ref and
 142its current value.  The stream MUST be sorted by name according to
 143the C locale ordering.
 144
 145If HEAD is a valid ref, HEAD MUST appear as the first advertised
 146ref.  If HEAD is not a valid ref, HEAD MUST NOT appear in the
 147advertisement list at all, but other refs may still appear.
 148
 149The stream MUST include capability declarations behind a NUL on the
 150first ref. The peeled value of a ref (that is "ref^{}") MUST be
 151immediately after the ref itself, if presented. A conforming server
 152MUST peel the ref if it's an annotated tag.
 153
 154----
 155  advertised-refs  =  (no-refs / list-of-refs)
 156                      flush-pkt
 157
 158  no-refs          =  PKT-LINE(zero-id SP "capabilities^{}"
 159                      NUL capability-list LF)
 160
 161  list-of-refs     =  first-ref *other-ref
 162  first-ref        =  PKT-LINE(obj-id SP refname
 163                      NUL capability-list LF)
 164
 165  other-ref        =  PKT-LINE(other-tip / other-peeled)
 166  other-tip        =  obj-id SP refname LF
 167  other-peeled     =  obj-id SP refname "^{}" LF
 168
 169  capability-list  =  capability *(SP capability)
 170  capability       =  1*(LC_ALPHA / DIGIT / "-" / "_")
 171  LC_ALPHA         =  %x61-7A
 172----
 173
 174Server and client MUST use lowercase for obj-id, both MUST treat obj-id
 175as case-insensitive.
 176
 177See protocol-capabilities.txt for a list of allowed server capabilities
 178and descriptions.
 179
 180Packfile Negotiation
 181--------------------
 182After reference and capabilities discovery, the client can decide to
 183terminate the connection by sending a flush-pkt, telling the server it can
 184now gracefully terminate, and disconnect, when it does not need any pack
 185data. This can happen with the ls-remote command, and also can happen when
 186the client already is up-to-date.
 187
 188Otherwise, it enters the negotiation phase, where the client and
 189server determine what the minimal packfile necessary for transport is,
 190by telling the server what objects it wants, its shallow objects
 191(if any), and the maximum commit depth it wants (if any).  The client
 192will also send a list of the capabilities it wants to be in effect,
 193out of what the server said it could do with the first 'want' line.
 194
 195----
 196  upload-request    =  want-list
 197                       *shallow-line
 198                       *1depth-request
 199                       flush-pkt
 200
 201  want-list         =  first-want
 202                       *additional-want
 203
 204  shallow-line      =  PKT_LINE("shallow" SP obj-id)
 205
 206  depth-request     =  PKT_LINE("deepen" SP depth)
 207
 208  first-want        =  PKT-LINE("want" SP obj-id SP capability-list LF)
 209  additional-want   =  PKT-LINE("want" SP obj-id LF)
 210
 211  depth             =  1*DIGIT
 212----
 213
 214Clients MUST send all the obj-ids it wants from the reference
 215discovery phase as 'want' lines. Clients MUST send at least one
 216'want' command in the request body. Clients MUST NOT mention an
 217obj-id in a 'want' command which did not appear in the response
 218obtained through ref discovery.
 219
 220The client MUST write all obj-ids which it only has shallow copies
 221of (meaning that it does not have the parents of a commit) as
 222'shallow' lines so that the server is aware of the limitations of
 223the client's history. Clients MUST NOT mention an obj-id which
 224it does not know exists on the server.
 225
 226The client now sends the maximum commit history depth it wants for
 227this transaction, which is the number of commits it wants from the
 228tip of the history, if any, as a 'deepen' line.  A depth of 0 is the
 229same as not making a depth request. The client does not want to receive
 230any commits beyond this depth, nor objects needed only to complete
 231those commits. Commits whose parents are not received as a result are
 232defined as shallow and marked as such in the server. This information
 233is sent back to the client in the next step.
 234
 235Once all the 'want's and 'shallow's (and optional 'deepen') are
 236transferred, clients MUST send a flush-pkt, to tell the server side
 237that it is done sending the list.
 238
 239Otherwise, if the client sent a positive depth request, the server
 240will determine which commits will and will not be shallow and
 241send this information to the client. If the client did not request
 242a positive depth, this step is skipped.
 243
 244----
 245  shallow-update   =  *shallow-line
 246                      *unshallow-line
 247                      flush-pkt
 248
 249  shallow-line     =  PKT-LINE("shallow" SP obj-id)
 250
 251  unshallow-line   =  PKT-LINE("unshallow" SP obj-id)
 252----
 253
 254If the client has requested a positive depth, the server will compute
 255the set of commits which are no deeper than the desired depth, starting
 256at the client's wants. The server writes 'shallow' lines for each
 257commit whose parents will not be sent as a result. The server writes
 258an 'unshallow' line for each commit which the client has indicated is
 259shallow, but is no longer shallow at the currently requested depth
 260(that is, its parents will now be sent). The server MUST NOT mark
 261as unshallow anything which the client has not indicated was shallow.
 262
 263Now the client will send a list of the obj-ids it has using 'have'
 264lines, so the server can make a packfile that only contains the objects
 265that the client needs. In multi_ack mode, the canonical implementation
 266will send up to 32 of these at a time, then will send a flush-pkt. The
 267canonical implementation will skip ahead and send the next 32 immediately,
 268so that there is always a block of 32 "in-flight on the wire" at a time.
 269
 270----
 271  upload-haves      =  have-list
 272                       compute-end
 273
 274  have-list         =  *have-line
 275  have-line         =  PKT-LINE("have" SP obj-id LF)
 276  compute-end       =  flush-pkt / PKT-LINE("done")
 277----
 278
 279If the server reads 'have' lines, it then will respond by ACKing any
 280of the obj-ids the client said it had that the server also has. The
 281server will ACK obj-ids differently depending on which ack mode is
 282chosen by the client.
 283
 284In multi_ack mode:
 285
 286  * the server will respond with 'ACK obj-id continue' for any common
 287    commits.
 288
 289  * once the server has found an acceptable common base commit and is
 290    ready to make a packfile, it will blindly ACK all 'have' obj-ids
 291    back to the client.
 292
 293  * the server will then send a 'NACK' and then wait for another response
 294    from the client - either a 'done' or another list of 'have' lines.
 295
 296In multi_ack_detailed mode:
 297
 298  * the server will differentiate the ACKs where it is signaling
 299    that it is ready to send data with 'ACK obj-id ready' lines, and
 300    signals the identified common commits with 'ACK obj-id common' lines.
 301
 302Without either multi_ack or multi_ack_detailed:
 303
 304 * upload-pack sends "ACK obj-id" on the first common object it finds.
 305   After that it says nothing until the client gives it a "done".
 306
 307 * upload-pack sends "NAK" on a flush-pkt if no common object
 308   has been found yet.  If one has been found, and thus an ACK
 309   was already sent, it's silent on the flush-pkt.
 310
 311After the client has gotten enough ACK responses that it can determine
 312that the server has enough information to send an efficient packfile
 313(in the canonical implementation, this is determined when it has received
 314enough ACKs that it can color everything left in the --date-order queue
 315as common with the server, or the --date-order queue is empty), or the
 316client determines that it wants to give up (in the canonical implementation,
 317this is determined when the client sends 256 'have' lines without getting
 318any of them ACKed by the server - meaning there is nothing in common and
 319the server should just send all of its objects), then the client will send
 320a 'done' command.  The 'done' command signals to the server that the client
 321is ready to receive its packfile data.
 322
 323However, the 256 limit *only* turns on in the canonical client
 324implementation if we have received at least one "ACK %s continue"
 325during a prior round.  This helps to ensure that at least one common
 326ancestor is found before we give up entirely.
 327
 328Once the 'done' line is read from the client, the server will either
 329send a final 'ACK obj-id' or it will send a 'NAK'. The server only sends
 330ACK after 'done' if there is at least one common base and multi_ack or
 331multi_ack_detailed is enabled. The server always sends NAK after 'done'
 332if there is no common base found.
 333
 334Then the server will start sending its packfile data.
 335
 336----
 337  server-response = *ack_multi ack / nak
 338  ack_multi       = PKT-LINE("ACK" SP obj-id ack_status LF)
 339  ack_status      = "continue" / "common" / "ready"
 340  ack             = PKT-LINE("ACK SP obj-id LF)
 341  nak             = PKT-LINE("NAK" LF)
 342----
 343
 344A simple clone may look like this (with no 'have' lines):
 345
 346----
 347   C: 0054want 74730d410fcb6603ace96f1dc55ea6196122532d\0multi_ack \
 348     side-band-64k ofs-delta\n
 349   C: 0032want 7d1665144a3a975c05f1f43902ddaf084e784dbe\n
 350   C: 0032want 5a3f6be755bbb7deae50065988cbfa1ffa9ab68a\n
 351   C: 0032want 7e47fe2bd8d01d481f44d7af0531bd93d3b21c01\n
 352   C: 0032want 74730d410fcb6603ace96f1dc55ea6196122532d\n
 353   C: 0000
 354   C: 0009done\n
 355
 356   S: 0008NAK\n
 357   S: [PACKFILE]
 358----
 359
 360An incremental update (fetch) response might look like this:
 361
 362----
 363   C: 0054want 74730d410fcb6603ace96f1dc55ea6196122532d\0multi_ack \
 364     side-band-64k ofs-delta\n
 365   C: 0032want 7d1665144a3a975c05f1f43902ddaf084e784dbe\n
 366   C: 0032want 5a3f6be755bbb7deae50065988cbfa1ffa9ab68a\n
 367   C: 0000
 368   C: 0032have 7e47fe2bd8d01d481f44d7af0531bd93d3b21c01\n
 369   C: [30 more have lines]
 370   C: 0032have 74730d410fcb6603ace96f1dc55ea6196122532d\n
 371   C: 0000
 372
 373   S: 003aACK 7e47fe2bd8d01d481f44d7af0531bd93d3b21c01 continue\n
 374   S: 003aACK 74730d410fcb6603ace96f1dc55ea6196122532d continue\n
 375   S: 0008NAK\n
 376
 377   C: 0009done\n
 378
 379   S: 0031ACK 74730d410fcb6603ace96f1dc55ea6196122532d\n
 380   S: [PACKFILE]
 381----
 382
 383
 384Packfile Data
 385-------------
 386
 387Now that the client and server have finished negotiation about what
 388the minimal amount of data that needs to be sent to the client is, the server
 389will construct and send the required data in packfile format.
 390
 391See pack-format.txt for what the packfile itself actually looks like.
 392
 393If 'side-band' or 'side-band-64k' capabilities have been specified by
 394the client, the server will send the packfile data multiplexed.
 395
 396Each packet starting with the packet-line length of the amount of data
 397that follows, followed by a single byte specifying the sideband the
 398following data is coming in on.
 399
 400In 'side-band' mode, it will send up to 999 data bytes plus 1 control
 401code, for a total of up to 1000 bytes in a pkt-line.  In 'side-band-64k'
 402mode it will send up to 65519 data bytes plus 1 control code, for a
 403total of up to 65520 bytes in a pkt-line.
 404
 405The sideband byte will be a '1', '2' or a '3'. Sideband '1' will contain
 406packfile data, sideband '2' will be used for progress information that the
 407client will generally print to stderr and sideband '3' is used for error
 408information.
 409
 410If no 'side-band' capability was specified, the server will stream the
 411entire packfile without multiplexing.
 412
 413
 414Pushing Data To a Server
 415========================
 416
 417Pushing data to a server will invoke the 'receive-pack' process on the
 418server, which will allow the client to tell it which references it should
 419update and then send all the data the server will need for those new
 420references to be complete.  Once all the data is received and validated,
 421the server will then update its references to what the client specified.
 422
 423Authentication
 424--------------
 425
 426The protocol itself contains no authentication mechanisms.  That is to be
 427handled by the transport, such as SSH, before the 'receive-pack' process is
 428invoked.  If 'receive-pack' is configured over the Git transport, those
 429repositories will be writable by anyone who can access that port (9418) as
 430that transport is unauthenticated.
 431
 432Reference Discovery
 433-------------------
 434
 435The reference discovery phase is done nearly the same way as it is in the
 436fetching protocol. Each reference obj-id and name on the server is sent
 437in packet-line format to the client, followed by a flush-pkt.  The only
 438real difference is that the capability listing is different - the only
 439possible values are 'report-status', 'delete-refs' and 'ofs-delta'.
 440
 441Reference Update Request and Packfile Transfer
 442----------------------------------------------
 443
 444Once the client knows what references the server is at, it can send a
 445list of reference update requests.  For each reference on the server
 446that it wants to update, it sends a line listing the obj-id currently on
 447the server, the obj-id the client would like to update it to and the name
 448of the reference.
 449
 450This list is followed by a flush-pkt and then the packfile that should
 451contain all the objects that the server will need to complete the new
 452references.
 453
 454----
 455  update-request    =  command-list [pack-file]
 456
 457  command-list      =  PKT-LINE(command NUL capability-list LF)
 458                       *PKT-LINE(command LF)
 459                       flush-pkt
 460
 461  command           =  create / delete / update
 462  create            =  zero-id SP new-id  SP name
 463  delete            =  old-id  SP zero-id SP name
 464  update            =  old-id  SP new-id  SP name
 465
 466  old-id            =  obj-id
 467  new-id            =  obj-id
 468
 469  pack-file         = "PACK" 28*(OCTET)
 470----
 471
 472If the receiving end does not support delete-refs, the sending end MUST
 473NOT ask for delete command.
 474
 475The pack-file MUST NOT be sent if the only command used is 'delete'.
 476
 477A pack-file MUST be sent if either create or update command is used,
 478even if the server already has all the necessary objects.  In this
 479case the client MUST send an empty pack-file.   The only time this
 480is likely to happen is if the client is creating
 481a new branch or a tag that points to an existing obj-id.
 482
 483The server will receive the packfile, unpack it, then validate each
 484reference that is being updated that it hasn't changed while the request
 485was being processed (the obj-id is still the same as the old-id), and
 486it will run any update hooks to make sure that the update is acceptable.
 487If all of that is fine, the server will then update the references.
 488
 489Report Status
 490-------------
 491
 492After receiving the pack data from the sender, the receiver sends a
 493report if 'report-status' capability is in effect.
 494It is a short listing of what happened in that update.  It will first
 495list the status of the packfile unpacking as either 'unpack ok' or
 496'unpack [error]'.  Then it will list the status for each of the references
 497that it tried to update.  Each line is either 'ok [refname]' if the
 498update was successful, or 'ng [refname] [error]' if the update was not.
 499
 500----
 501  report-status     = unpack-status
 502                      1*(command-status)
 503                      flush-pkt
 504
 505  unpack-status     = PKT-LINE("unpack" SP unpack-result LF)
 506  unpack-result     = "ok" / error-msg
 507
 508  command-status    = command-ok / command-fail
 509  command-ok        = PKT-LINE("ok" SP refname LF)
 510  command-fail      = PKT-LINE("ng" SP refname SP error-msg LF)
 511
 512  error-msg         = 1*(OCTECT) ; where not "ok"
 513----
 514
 515Updates can be unsuccessful for a number of reasons.  The reference can have
 516changed since the reference discovery phase was originally sent, meaning
 517someone pushed in the meantime.  The reference being pushed could be a
 518non-fast-forward reference and the update hooks or configuration could be
 519set to not allow that, etc.  Also, some references can be updated while others
 520can be rejected.
 521
 522An example client/server communication might look like this:
 523
 524----
 525   S: 007c74730d410fcb6603ace96f1dc55ea6196122532d refs/heads/local\0report-status delete-refs ofs-delta\n
 526   S: 003e7d1665144a3a975c05f1f43902ddaf084e784dbe refs/heads/debug\n
 527   S: 003f74730d410fcb6603ace96f1dc55ea6196122532d refs/heads/master\n
 528   S: 003f74730d410fcb6603ace96f1dc55ea6196122532d refs/heads/team\n
 529   S: 0000
 530
 531   C: 003e7d1665144a3a975c05f1f43902ddaf084e784dbe 74730d410fcb6603ace96f1dc55ea6196122532d refs/heads/debug\n
 532   C: 003e74730d410fcb6603ace96f1dc55ea6196122532d 5a3f6be755bbb7deae50065988cbfa1ffa9ab68a refs/heads/master\n
 533   C: 0000
 534   C: [PACKDATA]
 535
 536   S: 000eunpack ok\n
 537   S: 0018ok refs/heads/debug\n
 538   S: 002ang refs/heads/master non-fast-forward\n
 539----