Mercurial > hg
view mercurial/revlogutils/sidedata.py @ 51000:fb6593307e24
openvms: do not check for shebang in openvms script
It does not apply to them.
author | Pierre-Yves David <pierre-yves.david@octobus.net> |
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date | Thu, 03 Aug 2023 02:48:28 +0200 |
parents | 6000f5b25c9b |
children | f4733654f144 |
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# sidedata.py - Logic around store extra data alongside revlog revisions # # Copyright 2019 Pierre-Yves David <pierre-yves.david@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. """core code for "sidedata" support The "sidedata" are stored alongside the revision without actually being part of its content and not affecting its hash. It's main use cases is to cache important information related to a changesets. The current implementation is experimental and subject to changes. Do not rely on it in production. Sidedata are stored in the revlog itself, thanks to a new version of the revlog. The following format is currently used:: initial header: <number of sidedata; 2 bytes> sidedata (repeated N times): <sidedata-key; 2 bytes> <sidedata-entry-length: 4 bytes> <sidedata-content-sha1-digest: 20 bytes> <sidedata-content; X bytes> normal raw text: <all bytes remaining in the rawtext> This is a simple and effective format. It should be enough to experiment with the concept. """ import collections import struct from .. import error, requirements as requirementsmod from ..revlogutils import constants, flagutil from ..utils import hashutil ## sidedata type constant # reserve a block for testing purposes. SD_TEST1 = 1 SD_TEST2 = 2 SD_TEST3 = 3 SD_TEST4 = 4 SD_TEST5 = 5 SD_TEST6 = 6 SD_TEST7 = 7 # key to store copies related information SD_P1COPIES = 8 SD_P2COPIES = 9 SD_FILESADDED = 10 SD_FILESREMOVED = 11 SD_FILES = 12 # internal format constant SIDEDATA_HEADER = struct.Struct('>H') SIDEDATA_ENTRY = struct.Struct('>HL20s') def serialize_sidedata(sidedata): sidedata = list(sidedata.items()) sidedata.sort() buf = [SIDEDATA_HEADER.pack(len(sidedata))] for key, value in sidedata: digest = hashutil.sha1(value).digest() buf.append(SIDEDATA_ENTRY.pack(key, len(value), digest)) for key, value in sidedata: buf.append(value) buf = b''.join(buf) return buf def deserialize_sidedata(blob): sidedata = {} offset = 0 (nbentry,) = SIDEDATA_HEADER.unpack(blob[: SIDEDATA_HEADER.size]) offset += SIDEDATA_HEADER.size dataoffset = SIDEDATA_HEADER.size + (SIDEDATA_ENTRY.size * nbentry) for i in range(nbentry): nextoffset = offset + SIDEDATA_ENTRY.size key, size, storeddigest = SIDEDATA_ENTRY.unpack(blob[offset:nextoffset]) offset = nextoffset # read the data associated with that entry nextdataoffset = dataoffset + size entrytext = bytes(blob[dataoffset:nextdataoffset]) readdigest = hashutil.sha1(entrytext).digest() if storeddigest != readdigest: raise error.SidedataHashError(key, storeddigest, readdigest) sidedata[key] = entrytext dataoffset = nextdataoffset return sidedata def get_sidedata_helpers(repo, remote_sd_categories, pull=False): """ Returns a dictionary mapping revlog types to tuples of `(repo, computers, removers)`: * `repo` is used as an argument for computers * `computers` is a list of `(category, (keys, computer, flags)` that compute the missing sidedata categories that were asked: * `category` is the sidedata category * `keys` are the sidedata keys to be affected * `flags` is a bitmask (an integer) of flags to remove when removing the category. * `computer` is the function `(repo, store, rev, sidedata)` that returns a tuple of `(new sidedata dict, (flags to add, flags to remove))`. For example, it will return `({}, (0, 1 << 15))` to return no sidedata, with no flags to add and one flag to remove. * `removers` will remove the keys corresponding to the categories that are present, but not needed. If both `computers` and `removers` are empty, sidedata will simply not be transformed. """ # Computers for computing sidedata on-the-fly sd_computers = collections.defaultdict(list) # Computers for categories to remove from sidedata sd_removers = collections.defaultdict(list) to_generate = remote_sd_categories - repo._wanted_sidedata to_remove = repo._wanted_sidedata - remote_sd_categories if pull: to_generate, to_remove = to_remove, to_generate for revlog_kind, computers in repo._sidedata_computers.items(): for category, computer in computers.items(): if category in to_generate: sd_computers[revlog_kind].append(computer) if category in to_remove: sd_removers[revlog_kind].append(computer) sidedata_helpers = (repo, sd_computers, sd_removers) return sidedata_helpers def run_sidedata_helpers(store, sidedata_helpers, sidedata, rev): """Returns the sidedata for the given revision after running through the given helpers. - `store`: the revlog this applies to (changelog, manifest, or filelog instance) - `sidedata_helpers`: see `get_sidedata_helpers` - `sidedata`: previous sidedata at the given rev, if any - `rev`: affected rev of `store` """ repo, sd_computers, sd_removers = sidedata_helpers kind = store.revlog_kind flags_to_add = 0 flags_to_remove = 0 for _keys, sd_computer, _flags in sd_computers.get(kind, []): sidedata, flags = sd_computer(repo, store, rev, sidedata) flags_to_add |= flags[0] flags_to_remove |= flags[1] for keys, _computer, flags in sd_removers.get(kind, []): for key in keys: sidedata.pop(key, None) flags_to_remove |= flags return sidedata, (flags_to_add, flags_to_remove) def set_sidedata_spec_for_repo(repo): # prevent cycle metadata -> revlogutils.sidedata -> metadata from .. import metadata if requirementsmod.COPIESSDC_REQUIREMENT in repo.requirements: repo.register_wanted_sidedata(SD_FILES) repo.register_sidedata_computer( constants.KIND_CHANGELOG, SD_FILES, (SD_FILES,), metadata.copies_sidedata_computer, flagutil.REVIDX_HASCOPIESINFO, )