# protocol.py -- Shared parts of the git protocols # Copyright (C) 2008 John Carr # Copyright (C) 2008-2012 Jelmer Vernooij # # SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later # Dulwich is dual-licensed under the Apache License, Version 2.0 and the GNU # General Public License as public by the Free Software Foundation; version 2.0 # or (at your option) any later version. You can redistribute it and/or # modify it under the terms of either of these two licenses. # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # # You should have received a copy of the licenses; if not, see # for a copy of the GNU General Public License # and for a copy of the Apache # License, Version 2.0. # """Generic functions for talking the git smart server protocol.""" from io import BytesIO from os import SEEK_END from typing import Optional import dulwich from .errors import GitProtocolError, HangupException TCP_GIT_PORT = 9418 # Git protocol version 0 is the original Git protocol, which lacked a # version number until Git protocol version 1 was introduced by Brandon # Williams in 2017. # # Protocol version 1 is simply the original v0 protocol with the addition of # a single packet line, which precedes the ref advertisement, indicating the # protocol version being used. This was done in preparation for protocol v2. # # Git protocol version 2 was first introduced by Brandon Williams in 2018 and # adds many features. See the gitprotocol-v2(5) manual page for details. # As of 2024, Git only implements version 2 during 'git fetch' and still uses # version 0 during 'git push'. GIT_PROTOCOL_VERSIONS = [0, 1, 2] DEFAULT_GIT_PROTOCOL_VERSION_FETCH = 2 DEFAULT_GIT_PROTOCOL_VERSION_SEND = 0 ZERO_SHA = b"0" * 40 SINGLE_ACK = 0 MULTI_ACK = 1 MULTI_ACK_DETAILED = 2 # pack data SIDE_BAND_CHANNEL_DATA = 1 # progress messages SIDE_BAND_CHANNEL_PROGRESS = 2 # fatal error message just before stream aborts SIDE_BAND_CHANNEL_FATAL = 3 CAPABILITY_ATOMIC = b"atomic" CAPABILITY_DEEPEN_SINCE = b"deepen-since" CAPABILITY_DEEPEN_NOT = b"deepen-not" CAPABILITY_DEEPEN_RELATIVE = b"deepen-relative" CAPABILITY_DELETE_REFS = b"delete-refs" CAPABILITY_INCLUDE_TAG = b"include-tag" CAPABILITY_MULTI_ACK = b"multi_ack" CAPABILITY_MULTI_ACK_DETAILED = b"multi_ack_detailed" CAPABILITY_NO_DONE = b"no-done" CAPABILITY_NO_PROGRESS = b"no-progress" CAPABILITY_OFS_DELTA = b"ofs-delta" CAPABILITY_QUIET = b"quiet" CAPABILITY_REPORT_STATUS = b"report-status" CAPABILITY_SHALLOW = b"shallow" CAPABILITY_SIDE_BAND = b"side-band" CAPABILITY_SIDE_BAND_64K = b"side-band-64k" CAPABILITY_THIN_PACK = b"thin-pack" CAPABILITY_AGENT = b"agent" CAPABILITY_SYMREF = b"symref" CAPABILITY_ALLOW_TIP_SHA1_IN_WANT = b"allow-tip-sha1-in-want" CAPABILITY_ALLOW_REACHABLE_SHA1_IN_WANT = b"allow-reachable-sha1-in-want" CAPABILITY_FETCH = b"fetch" CAPABILITY_FILTER = b"filter" # Magic ref that is used to attach capabilities to when # there are no refs. Should always be ste to ZERO_SHA. CAPABILITIES_REF = b"capabilities^{}" COMMON_CAPABILITIES = [ CAPABILITY_OFS_DELTA, CAPABILITY_SIDE_BAND, CAPABILITY_SIDE_BAND_64K, CAPABILITY_AGENT, CAPABILITY_NO_PROGRESS, ] KNOWN_UPLOAD_CAPABILITIES = set( [ *COMMON_CAPABILITIES, CAPABILITY_THIN_PACK, CAPABILITY_MULTI_ACK, CAPABILITY_MULTI_ACK_DETAILED, CAPABILITY_INCLUDE_TAG, CAPABILITY_DEEPEN_SINCE, CAPABILITY_SYMREF, CAPABILITY_SHALLOW, CAPABILITY_DEEPEN_NOT, CAPABILITY_DEEPEN_RELATIVE, CAPABILITY_ALLOW_TIP_SHA1_IN_WANT, CAPABILITY_ALLOW_REACHABLE_SHA1_IN_WANT, CAPABILITY_FETCH, ] ) KNOWN_RECEIVE_CAPABILITIES = set( [ *COMMON_CAPABILITIES, CAPABILITY_REPORT_STATUS, CAPABILITY_DELETE_REFS, CAPABILITY_QUIET, CAPABILITY_ATOMIC, ] ) DEPTH_INFINITE = 0x7FFFFFFF NAK_LINE = b"NAK\n" def agent_string(): return ("dulwich/" + ".".join(map(str, dulwich.__version__))).encode("ascii") def capability_agent(): return CAPABILITY_AGENT + b"=" + agent_string() def capability_symref(from_ref, to_ref): return CAPABILITY_SYMREF + b"=" + from_ref + b":" + to_ref def extract_capability_names(capabilities): return {parse_capability(c)[0] for c in capabilities} def parse_capability(capability): parts = capability.split(b"=", 1) if len(parts) == 1: return (parts[0], None) return tuple(parts) def symref_capabilities(symrefs): return [capability_symref(*k) for k in symrefs] COMMAND_DEEPEN = b"deepen" COMMAND_SHALLOW = b"shallow" COMMAND_UNSHALLOW = b"unshallow" COMMAND_DONE = b"done" COMMAND_WANT = b"want" COMMAND_HAVE = b"have" def format_cmd_pkt(cmd, *args): return cmd + b" " + b"".join([(a + b"\0") for a in args]) def parse_cmd_pkt(line): splice_at = line.find(b" ") cmd, args = line[:splice_at], line[splice_at + 1 :] assert args[-1:] == b"\x00" return cmd, args[:-1].split(b"\0") def pkt_line(data): """Wrap data in a pkt-line. Args: data: The data to wrap, as a str or None. Returns: The data prefixed with its length in pkt-line format; if data was None, returns the flush-pkt ('0000'). """ if data is None: return b"0000" return ("%04x" % (len(data) + 4)).encode("ascii") + data def pkt_seq(*seq): """Wrap a sequence of data in pkt-lines. Args: seq: An iterable of strings to wrap. """ return b"".join([pkt_line(s) for s in seq]) + pkt_line(None) def filter_ref_prefix(refs, prefixes): """Filter refs to only include those with a given prefix. Args: refs: A list of refs. prefix: The prefix to filter by. """ return {k: v for k, v in refs.items() if any(k.startswith(p) for p in prefixes)} class Protocol: """Class for interacting with a remote git process over the wire. Parts of the git wire protocol use 'pkt-lines' to communicate. A pkt-line consists of the length of the line as a 4-byte hex string, followed by the payload data. The length includes the 4-byte header. The special line '0000' indicates the end of a section of input and is called a 'flush-pkt'. For details on the pkt-line format, see the cgit distribution: Documentation/technical/protocol-common.txt """ def __init__(self, read, write, close=None, report_activity=None) -> None: self.read = read self.write = write self._close = close self.report_activity = report_activity self._readahead: Optional[BytesIO] = None def close(self) -> None: if self._close: self._close() def __enter__(self): return self def __exit__(self, exc_type, exc_val, exc_tb): self.close() def read_pkt_line(self): """Reads a pkt-line from the remote git process. This method may read from the readahead buffer; see unread_pkt_line. Returns: The next string from the stream, without the length prefix, or None for a flush-pkt ('0000') or delim-pkt ('0001'). """ if self._readahead is None: read = self.read else: read = self._readahead.read self._readahead = None try: sizestr = read(4) if not sizestr: raise HangupException size = int(sizestr, 16) if size == 0 or size == 1: # flush-pkt or delim-pkt if self.report_activity: self.report_activity(4, "read") return None if self.report_activity: self.report_activity(size, "read") pkt_contents = read(size - 4) except ConnectionResetError as exc: raise HangupException from exc except OSError as exc: raise GitProtocolError(str(exc)) from exc else: if len(pkt_contents) + 4 != size: raise GitProtocolError( f"Length of pkt read {len(pkt_contents) + 4:04x} does not match length prefix {size:04x}" ) return pkt_contents def eof(self) -> bool: """Test whether the protocol stream has reached EOF. Note that this refers to the actual stream EOF and not just a flush-pkt. Returns: True if the stream is at EOF, False otherwise. """ try: next_line = self.read_pkt_line() except HangupException: return True self.unread_pkt_line(next_line) return False def unread_pkt_line(self, data) -> None: """Unread a single line of data into the readahead buffer. This method can be used to unread a single pkt-line into a fixed readahead buffer. Args: data: The data to unread, without the length prefix. Raises: ValueError: If more than one pkt-line is unread. """ if self._readahead is not None: raise ValueError("Attempted to unread multiple pkt-lines.") self._readahead = BytesIO(pkt_line(data)) def read_pkt_seq(self): """Read a sequence of pkt-lines from the remote git process. Returns: Yields each line of data up to but not including the next flush-pkt. """ pkt = self.read_pkt_line() while pkt: yield pkt pkt = self.read_pkt_line() def write_pkt_line(self, line) -> None: """Sends a pkt-line to the remote git process. Args: line: A string containing the data to send, without the length prefix. """ try: line = pkt_line(line) self.write(line) if self.report_activity: self.report_activity(len(line), "write") except OSError as exc: raise GitProtocolError(str(exc)) from exc def write_sideband(self, channel, blob) -> None: """Write multiplexed data to the sideband. Args: channel: An int specifying the channel to write to. blob: A blob of data (as a string) to send on this channel. """ # a pktline can be a max of 65520. a sideband line can therefore be # 65520-5 = 65515 # WTF: Why have the len in ASCII, but the channel in binary. while blob: self.write_pkt_line(bytes(bytearray([channel])) + blob[:65515]) blob = blob[65515:] def send_cmd(self, cmd, *args) -> None: """Send a command and some arguments to a git server. Only used for the TCP git protocol (git://). Args: cmd: The remote service to access. args: List of arguments to send to remove service. """ self.write_pkt_line(format_cmd_pkt(cmd, *args)) def read_cmd(self): """Read a command and some arguments from the git client. Only used for the TCP git protocol (git://). Returns: A tuple of (command, [list of arguments]). """ line = self.read_pkt_line() return parse_cmd_pkt(line) _RBUFSIZE = 8192 # Default read buffer size. class ReceivableProtocol(Protocol): """Variant of Protocol that allows reading up to a size without blocking. This class has a recv() method that behaves like socket.recv() in addition to a read() method. If you want to read n bytes from the wire and block until exactly n bytes (or EOF) are read, use read(n). If you want to read at most n bytes from the wire but don't care if you get less, use recv(n). Note that recv(n) will still block until at least one byte is read. """ def __init__( self, recv, write, close=None, report_activity=None, rbufsize=_RBUFSIZE ) -> None: super().__init__(self.read, write, close=close, report_activity=report_activity) self._recv = recv self._rbuf = BytesIO() self._rbufsize = rbufsize def read(self, size): # From _fileobj.read in socket.py in the Python 2.6.5 standard library, # with the following modifications: # - omit the size <= 0 branch # - seek back to start rather than 0 in case some buffer has been # consumed. # - use SEEK_END instead of the magic number. # Copyright (c) 2001-2010 Python Software Foundation; All Rights # Reserved # Licensed under the Python Software Foundation License. # TODO: see if buffer is more efficient than cBytesIO. assert size > 0 # Our use of BytesIO rather than lists of string objects returned by # recv() minimizes memory usage and fragmentation that occurs when # rbufsize is large compared to the typical return value of recv(). buf = self._rbuf start = buf.tell() buf.seek(0, SEEK_END) # buffer may have been partially consumed by recv() buf_len = buf.tell() - start if buf_len >= size: # Already have size bytes in our buffer? Extract and return. buf.seek(start) rv = buf.read(size) self._rbuf = BytesIO() self._rbuf.write(buf.read()) self._rbuf.seek(0) return rv self._rbuf = BytesIO() # reset _rbuf. we consume it via buf. while True: left = size - buf_len # recv() will malloc the amount of memory given as its # parameter even though it often returns much less data # than that. The returned data string is short lived # as we copy it into a BytesIO and free it. This avoids # fragmentation issues on many platforms. data = self._recv(left) if not data: break n = len(data) if n == size and not buf_len: # Shortcut. Avoid buffer data copies when: # - We have no data in our buffer. # AND # - Our call to recv returned exactly the # number of bytes we were asked to read. return data if n == left: buf.write(data) del data # explicit free break assert n <= left, f"_recv({left}) returned {n} bytes" buf.write(data) buf_len += n del data # explicit free # assert buf_len == buf.tell() buf.seek(start) return buf.read() def recv(self, size): assert size > 0 buf = self._rbuf start = buf.tell() buf.seek(0, SEEK_END) buf_len = buf.tell() buf.seek(start) left = buf_len - start if not left: # only read from the wire if our read buffer is exhausted data = self._recv(self._rbufsize) if len(data) == size: # shortcut: skip the buffer if we read exactly size bytes return data buf = BytesIO() buf.write(data) buf.seek(0) del data # explicit free self._rbuf = buf return buf.read(size) def extract_capabilities(text): """Extract a capabilities list from a string, if present. Args: text: String to extract from Returns: Tuple with text with capabilities removed and list of capabilities """ if b"\0" not in text: return text, [] text, capabilities = text.rstrip().split(b"\0") return (text, capabilities.strip().split(b" ")) def extract_want_line_capabilities(text): """Extract a capabilities list from a want line, if present. Note that want lines have capabilities separated from the rest of the line by a space instead of a null byte. Thus want lines have the form: want obj-id cap1 cap2 ... Args: text: Want line to extract from Returns: Tuple with text with capabilities removed and list of capabilities """ split_text = text.rstrip().split(b" ") if len(split_text) < 3: return text, [] return (b" ".join(split_text[:2]), split_text[2:]) def ack_type(capabilities): """Extract the ack type from a capabilities list.""" if b"multi_ack_detailed" in capabilities: return MULTI_ACK_DETAILED elif b"multi_ack" in capabilities: return MULTI_ACK return SINGLE_ACK class BufferedPktLineWriter: """Writer that wraps its data in pkt-lines and has an independent buffer. Consecutive calls to write() wrap the data in a pkt-line and then buffers it until enough lines have been written such that their total length (including length prefix) reach the buffer size. """ def __init__(self, write, bufsize=65515) -> None: """Initialize the BufferedPktLineWriter. Args: write: A write callback for the underlying writer. bufsize: The internal buffer size, including length prefixes. """ self._write = write self._bufsize = bufsize self._wbuf = BytesIO() self._buflen = 0 def write(self, data) -> None: """Write data, wrapping it in a pkt-line.""" line = pkt_line(data) line_len = len(line) over = self._buflen + line_len - self._bufsize if over >= 0: start = line_len - over self._wbuf.write(line[:start]) self.flush() else: start = 0 saved = line[start:] self._wbuf.write(saved) self._buflen += len(saved) def flush(self) -> None: """Flush all data from the buffer.""" data = self._wbuf.getvalue() if data: self._write(data) self._len = 0 self._wbuf = BytesIO() class PktLineParser: """Packet line parser that hands completed packets off to a callback.""" def __init__(self, handle_pkt) -> None: self.handle_pkt = handle_pkt self._readahead = BytesIO() def parse(self, data) -> None: """Parse a fragment of data and call back for any completed packets.""" self._readahead.write(data) buf = self._readahead.getvalue() if len(buf) < 4: return while len(buf) >= 4: size = int(buf[:4], 16) if size == 0: self.handle_pkt(None) buf = buf[4:] elif size <= len(buf): self.handle_pkt(buf[4:size]) buf = buf[size:] else: break self._readahead = BytesIO() self._readahead.write(buf) def get_tail(self): """Read back any unused data.""" return self._readahead.getvalue() def format_capability_line(capabilities): return b"".join([b" " + c for c in capabilities]) def format_ref_line(ref, sha, capabilities=None): if capabilities is None: return sha + b" " + ref + b"\n" else: return sha + b" " + ref + b"\0" + format_capability_line(capabilities) + b"\n" def format_shallow_line(sha): return COMMAND_SHALLOW + b" " + sha def format_unshallow_line(sha): return COMMAND_UNSHALLOW + b" " + sha def format_ack_line(sha, ack_type=b""): if ack_type: ack_type = b" " + ack_type return b"ACK " + sha + ack_type + b"\n"