branchcache: add a "pure topological head" fast path
In a narrow but actually quick common case, all topological heads are all on
the same branch and all open. In this case, computing the branch map is very
simple. We can quickly detect situation where this situation will not change.
So we update the V3 format to be able to express this situation and upgrade the
update code to detect we remains in that mode.
The branch cache is populated with the actual value when the branch map is
accessed, but the update_disk method can do the update without needing to
populate it.
# revlogdeltas.py - constant used for revlog logic.
#
# Copyright 2005-2007 Olivia Mackall <olivia@selenic.com>
# Copyright 2018 Octobus <contact@octobus.net>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""Helper class to compute deltas stored inside revlogs"""
import struct
from ..interfaces import repository
from .. import revlogutils
### Internal utily constants
KIND_CHANGELOG = 1001 # over 256 to not be comparable with a bytes
KIND_MANIFESTLOG = 1002
KIND_FILELOG = 1003
KIND_OTHER = 1004
ALL_KINDS = {
KIND_CHANGELOG,
KIND_MANIFESTLOG,
KIND_FILELOG,
KIND_OTHER,
}
### Index entry key
#
#
# Internal details
# ----------------
#
# A large part of the revlog logic deals with revisions' "index entries", tuple
# objects that contains the same "items" whatever the revlog version.
# Different versions will have different ways of storing these items (sometimes
# not having them at all), but the tuple will always be the same. New fields
# are usually added at the end to avoid breaking existing code that relies
# on the existing order. The field are defined as follows:
# [0] offset:
# The byte index of the start of revision data chunk.
# That value is shifted up by 16 bits. use "offset = field >> 16" to
# retrieve it.
#
# flags:
# A flag field that carries special information or changes the behavior
# of the revision. (see `REVIDX_*` constants for details)
# The flag field only occupies the first 16 bits of this field,
# use "flags = field & 0xFFFF" to retrieve the value.
ENTRY_DATA_OFFSET = 0
# [1] compressed length:
# The size, in bytes, of the chunk on disk
ENTRY_DATA_COMPRESSED_LENGTH = 1
# [2] uncompressed length:
# The size, in bytes, of the full revision once reconstructed.
ENTRY_DATA_UNCOMPRESSED_LENGTH = 2
# [3] base rev:
# Either the base of the revision delta chain (without general
# delta), or the base of the delta (stored in the data chunk)
# with general delta.
ENTRY_DELTA_BASE = 3
# [4] link rev:
# Changelog revision number of the changeset introducing this
# revision.
ENTRY_LINK_REV = 4
# [5] parent 1 rev:
# Revision number of the first parent
ENTRY_PARENT_1 = 5
# [6] parent 2 rev:
# Revision number of the second parent
ENTRY_PARENT_2 = 6
# [7] node id:
# The node id of the current revision
ENTRY_NODE_ID = 7
# [8] sidedata offset:
# The byte index of the start of the revision's side-data chunk.
ENTRY_SIDEDATA_OFFSET = 8
# [9] sidedata chunk length:
# The size, in bytes, of the revision's side-data chunk.
ENTRY_SIDEDATA_COMPRESSED_LENGTH = 9
# [10] data compression mode:
# two bits that detail the way the data chunk is compressed on disk.
# (see "COMP_MODE_*" constants for details). For revlog version 0 and
# 1 this will always be COMP_MODE_INLINE.
ENTRY_DATA_COMPRESSION_MODE = 10
# [11] side-data compression mode:
# two bits that detail the way the sidedata chunk is compressed on disk.
# (see "COMP_MODE_*" constants for details)
ENTRY_SIDEDATA_COMPRESSION_MODE = 11
# [12] Revision rank:
# The number of revision under this one.
#
# Formally this is defined as : rank(X) = len(ancestors(X) + X)
#
# If rank == -1; then we do not have this information available.
# Only `null` has a rank of 0.
ENTRY_RANK = 12
RANK_UNKNOWN = -1
### main revlog header
# We cannot rely on Struct.format is inconsistent for python <=3.6 versus above
INDEX_HEADER_FMT = b">I"
INDEX_HEADER = struct.Struct(INDEX_HEADER_FMT)
## revlog version
REVLOGV0 = 0
REVLOGV1 = 1
# Dummy value until file format is finalized.
REVLOGV2 = 0xDEAD
# Dummy value until file format is finalized.
CHANGELOGV2 = 0xD34D
## global revlog header flags
# Shared across v1 and v2.
FLAG_INLINE_DATA = 1 << 16
# Only used by v1, implied by v2.
FLAG_GENERALDELTA = 1 << 17
REVLOG_DEFAULT_FLAGS = FLAG_INLINE_DATA
REVLOG_DEFAULT_FORMAT = REVLOGV1
REVLOG_DEFAULT_VERSION = REVLOG_DEFAULT_FORMAT | REVLOG_DEFAULT_FLAGS
REVLOGV0_FLAGS = 0
REVLOGV1_FLAGS = FLAG_INLINE_DATA | FLAG_GENERALDELTA
REVLOGV2_FLAGS = FLAG_INLINE_DATA
CHANGELOGV2_FLAGS = 0
### individual entry
## index v0:
# 4 bytes: offset
# 4 bytes: compressed length
# 4 bytes: base rev
# 4 bytes: link rev
# 20 bytes: parent 1 nodeid
# 20 bytes: parent 2 nodeid
# 20 bytes: nodeid
INDEX_ENTRY_V0 = struct.Struct(b">4l20s20s20s")
## index v1
# 6 bytes: offset
# 2 bytes: flags
# 4 bytes: compressed length
# 4 bytes: uncompressed length
# 4 bytes: base rev
# 4 bytes: link rev
# 4 bytes: parent 1 rev
# 4 bytes: parent 2 rev
# 32 bytes: nodeid
INDEX_ENTRY_V1 = struct.Struct(b">Qiiiiii20s12x")
assert INDEX_ENTRY_V1.size == 32 * 2
# 6 bytes: offset
# 2 bytes: flags
# 4 bytes: compressed length
# 4 bytes: uncompressed length
# 4 bytes: base rev
# 4 bytes: link rev
# 4 bytes: parent 1 rev
# 4 bytes: parent 2 rev
# 32 bytes: nodeid
# 8 bytes: sidedata offset
# 4 bytes: sidedata compressed length
# 1 bytes: compression mode (2 lower bit are data_compression_mode)
# 19 bytes: Padding to align to 96 bytes (see RevlogV2Plan wiki page)
INDEX_ENTRY_V2 = struct.Struct(b">Qiiiiii20s12xQiB19x")
assert INDEX_ENTRY_V2.size == 32 * 3, INDEX_ENTRY_V2.size
# 6 bytes: offset
# 2 bytes: flags
# 4 bytes: compressed length
# 4 bytes: uncompressed length
# 4 bytes: parent 1 rev
# 4 bytes: parent 2 rev
# 32 bytes: nodeid
# 8 bytes: sidedata offset
# 4 bytes: sidedata compressed length
# 1 bytes: compression mode (2 lower bit are data_compression_mode)
# 4 bytes: changeset rank (i.e. `len(::REV)`)
# 23 bytes: Padding to align to 96 bytes (see RevlogV2Plan wiki page)
INDEX_ENTRY_CL_V2 = struct.Struct(b">Qiiii20s12xQiBi23x")
assert INDEX_ENTRY_CL_V2.size == 32 * 3, INDEX_ENTRY_CL_V2.size
INDEX_ENTRY_V2_IDX_OFFSET = 0
INDEX_ENTRY_V2_IDX_COMPRESSED_LENGTH = 1
INDEX_ENTRY_V2_IDX_UNCOMPRESSED_LENGTH = 2
INDEX_ENTRY_V2_IDX_PARENT_1 = 3
INDEX_ENTRY_V2_IDX_PARENT_2 = 4
INDEX_ENTRY_V2_IDX_NODEID = 5
INDEX_ENTRY_V2_IDX_SIDEDATA_OFFSET = 6
INDEX_ENTRY_V2_IDX_SIDEDATA_COMPRESSED_LENGTH = 7
INDEX_ENTRY_V2_IDX_COMPRESSION_MODE = 8
INDEX_ENTRY_V2_IDX_RANK = 9
# revlog index flags
# For historical reasons, revlog's internal flags were exposed via the
# wire protocol and are even exposed in parts of the storage APIs.
# revision has censor metadata, must be verified
REVIDX_ISCENSORED = repository.REVISION_FLAG_CENSORED
# revision hash does not match data (narrowhg)
REVIDX_ELLIPSIS = repository.REVISION_FLAG_ELLIPSIS
# revision data is stored externally
REVIDX_EXTSTORED = repository.REVISION_FLAG_EXTSTORED
# revision changes files in a way that could affect copy tracing.
REVIDX_HASCOPIESINFO = repository.REVISION_FLAG_HASCOPIESINFO
REVIDX_DEFAULT_FLAGS = 0
# stable order in which flags need to be processed and their processors applied
REVIDX_FLAGS_ORDER = [
REVIDX_ISCENSORED,
REVIDX_ELLIPSIS,
REVIDX_EXTSTORED,
REVIDX_HASCOPIESINFO,
]
# bitmark for flags that could cause rawdata content change
REVIDX_RAWTEXT_CHANGING_FLAGS = REVIDX_ISCENSORED | REVIDX_EXTSTORED
## chunk compression mode constants:
# These constants are used in revlog version >=2 to denote the compression used
# for a chunk.
# Chunk use no compression, the data stored on disk can be directly use as
# chunk value. Without any header information prefixed.
COMP_MODE_PLAIN = 0
# Chunk use the "default compression" for the revlog (usually defined in the
# revlog docket). A header is still used.
#
# XXX: keeping a header is probably not useful and we should probably drop it.
#
# XXX: The value of allow mixed type of compression in the revlog is unclear
# and we should consider making PLAIN/DEFAULT the only available mode for
# revlog v2, disallowing INLINE mode.
COMP_MODE_DEFAULT = 1
# Chunk use a compression mode stored "inline" at the start of the chunk
# itself. This is the mode always used for revlog version "0" and "1"
COMP_MODE_INLINE = revlogutils.COMP_MODE_INLINE
SUPPORTED_FLAGS = {
REVLOGV0: REVLOGV0_FLAGS,
REVLOGV1: REVLOGV1_FLAGS,
REVLOGV2: REVLOGV2_FLAGS,
CHANGELOGV2: CHANGELOGV2_FLAGS,
}
_no = lambda flags: False
_yes = lambda flags: True
def _from_flag(flag):
return lambda flags: bool(flags & flag)
FEATURES_BY_VERSION = {
REVLOGV0: {
b'inline': _no,
b'generaldelta': _no,
b'sidedata': False,
b'docket': False,
},
REVLOGV1: {
b'inline': _from_flag(FLAG_INLINE_DATA),
b'generaldelta': _from_flag(FLAG_GENERALDELTA),
b'sidedata': False,
b'docket': False,
},
REVLOGV2: {
# The point of inline-revlog is to reduce the number of files used in
# the store. Using a docket defeat this purpose. So we needs other
# means to reduce the number of files for revlogv2.
b'inline': _no,
b'generaldelta': _yes,
b'sidedata': True,
b'docket': True,
},
CHANGELOGV2: {
b'inline': _no,
# General delta is useless for changelog since we don't do any delta
b'generaldelta': _no,
b'sidedata': True,
b'docket': True,
},
}
SPARSE_REVLOG_MAX_CHAIN_LENGTH = 1000
### What should be done with a cached delta and its base ?
# Ignore the cache when considering candidates.
#
# The cached delta might be used, but the delta base will not be scheduled for
# usage earlier than in "normal" order.
DELTA_BASE_REUSE_NO = 0
# Prioritize trying the cached delta base
#
# The delta base will be tested for validy first. So that the cached deltas get
# used when possible.
DELTA_BASE_REUSE_TRY = 1
DELTA_BASE_REUSE_FORCE = 2