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828 строки
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Plaintext
828 строки
35 KiB
Plaintext
Git hash function transition
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============================
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Objective
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---------
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Migrate Git from SHA-1 to a stronger hash function.
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Background
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----------
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At its core, the Git version control system is a content addressable
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filesystem. It uses the SHA-1 hash function to name content. For
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example, files, directories, and revisions are referred to by hash
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values unlike in other traditional version control systems where files
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or versions are referred to via sequential numbers. The use of a hash
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function to address its content delivers a few advantages:
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* Integrity checking is easy. Bit flips, for example, are easily
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detected, as the hash of corrupted content does not match its name.
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* Lookup of objects is fast.
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Using a cryptographically secure hash function brings additional
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advantages:
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* Object names can be signed and third parties can trust the hash to
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address the signed object and all objects it references.
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* Communication using Git protocol and out of band communication
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methods have a short reliable string that can be used to reliably
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address stored content.
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Over time some flaws in SHA-1 have been discovered by security
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researchers. On 23 February 2017 the SHAttered attack
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(https://shattered.io) demonstrated a practical SHA-1 hash collision.
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Git v2.13.0 and later subsequently moved to a hardened SHA-1
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implementation by default, which isn't vulnerable to the SHAttered
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attack.
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Thus Git has in effect already migrated to a new hash that isn't SHA-1
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and doesn't share its vulnerabilities, its new hash function just
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happens to produce exactly the same output for all known inputs,
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except two PDFs published by the SHAttered researchers, and the new
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implementation (written by those researchers) claims to detect future
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cryptanalytic collision attacks.
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Regardless, it's considered prudent to move past any variant of SHA-1
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to a new hash. There's no guarantee that future attacks on SHA-1 won't
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be published in the future, and those attacks may not have viable
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mitigations.
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If SHA-1 and its variants were to be truly broken, Git's hash function
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could not be considered cryptographically secure any more. This would
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impact the communication of hash values because we could not trust
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that a given hash value represented the known good version of content
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that the speaker intended.
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SHA-1 still possesses the other properties such as fast object lookup
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and safe error checking, but other hash functions are equally suitable
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that are believed to be cryptographically secure.
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Goals
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-----
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1. The transition to SHA-256 can be done one local repository at a time.
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a. Requiring no action by any other party.
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b. A SHA-256 repository can communicate with SHA-1 Git servers
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(push/fetch).
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c. Users can use SHA-1 and SHA-256 identifiers for objects
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interchangeably (see "Object names on the command line", below).
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d. New signed objects make use of a stronger hash function than
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SHA-1 for their security guarantees.
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2. Allow a complete transition away from SHA-1.
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a. Local metadata for SHA-1 compatibility can be removed from a
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repository if compatibility with SHA-1 is no longer needed.
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3. Maintainability throughout the process.
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a. The object format is kept simple and consistent.
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b. Creation of a generalized repository conversion tool.
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Non-Goals
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---------
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1. Add SHA-256 support to Git protocol. This is valuable and the
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logical next step but it is out of scope for this initial design.
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2. Transparently improving the security of existing SHA-1 signed
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objects.
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3. Intermixing objects using multiple hash functions in a single
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repository.
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4. Taking the opportunity to fix other bugs in Git's formats and
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protocols.
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5. Shallow clones and fetches into a SHA-256 repository. (This will
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change when we add SHA-256 support to Git protocol.)
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6. Skip fetching some submodules of a project into a SHA-256
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repository. (This also depends on SHA-256 support in Git
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protocol.)
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Overview
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--------
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We introduce a new repository format extension. Repositories with this
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extension enabled use SHA-256 instead of SHA-1 to name their objects.
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This affects both object names and object content --- both the names
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of objects and all references to other objects within an object are
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switched to the new hash function.
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SHA-256 repositories cannot be read by older versions of Git.
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Alongside the packfile, a SHA-256 repository stores a bidirectional
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mapping between SHA-256 and SHA-1 object names. The mapping is generated
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locally and can be verified using "git fsck". Object lookups use this
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mapping to allow naming objects using either their SHA-1 and SHA-256 names
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interchangeably.
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"git cat-file" and "git hash-object" gain options to display an object
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in its sha1 form and write an object given its sha1 form. This
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requires all objects referenced by that object to be present in the
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object database so that they can be named using the appropriate name
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(using the bidirectional hash mapping).
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Fetches from a SHA-1 based server convert the fetched objects into
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SHA-256 form and record the mapping in the bidirectional mapping table
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(see below for details). Pushes to a SHA-1 based server convert the
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objects being pushed into sha1 form so the server does not have to be
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aware of the hash function the client is using.
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Detailed Design
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---------------
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Repository format extension
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~~~~~~~~~~~~~~~~~~~~~~~~~~~
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A SHA-256 repository uses repository format version `1` (see
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Documentation/technical/repository-version.txt) with extensions
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`objectFormat` and `compatObjectFormat`:
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[core]
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repositoryFormatVersion = 1
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[extensions]
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objectFormat = sha256
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compatObjectFormat = sha1
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The combination of setting `core.repositoryFormatVersion=1` and
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populating `extensions.*` ensures that all versions of Git later than
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`v0.99.9l` will die instead of trying to operate on the SHA-256
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repository, instead producing an error message.
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# Between v0.99.9l and v2.7.0
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$ git status
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fatal: Expected git repo version <= 0, found 1
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# After v2.7.0
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$ git status
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fatal: unknown repository extensions found:
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objectformat
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compatobjectformat
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See the "Transition plan" section below for more details on these
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repository extensions.
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Object names
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~~~~~~~~~~~~
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Objects can be named by their 40 hexadecimal digit sha1-name or 64
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hexadecimal digit sha256-name, plus names derived from those (see
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gitrevisions(7)).
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The sha1-name of an object is the SHA-1 of the concatenation of its
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type, length, a nul byte, and the object's sha1-content. This is the
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traditional <sha1> used in Git to name objects.
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The sha256-name of an object is the SHA-256 of the concatenation of its
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type, length, a nul byte, and the object's sha256-content.
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Object format
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~~~~~~~~~~~~~
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The content as a byte sequence of a tag, commit, or tree object named
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by sha1 and sha256 differ because an object named by sha256-name refers to
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other objects by their sha256-names and an object named by sha1-name
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refers to other objects by their sha1-names.
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The sha256-content of an object is the same as its sha1-content, except
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that objects referenced by the object are named using their sha256-names
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instead of sha1-names. Because a blob object does not refer to any
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other object, its sha1-content and sha256-content are the same.
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The format allows round-trip conversion between sha256-content and
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sha1-content.
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Object storage
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~~~~~~~~~~~~~~
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Loose objects use zlib compression and packed objects use the packed
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format described in Documentation/technical/pack-format.txt, just like
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today. The content that is compressed and stored uses sha256-content
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instead of sha1-content.
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Pack index
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~~~~~~~~~~
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Pack index (.idx) files use a new v3 format that supports multiple
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hash functions. They have the following format (all integers are in
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network byte order):
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- A header appears at the beginning and consists of the following:
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- The 4-byte pack index signature: '\377t0c'
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- 4-byte version number: 3
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- 4-byte length of the header section, including the signature and
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version number
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- 4-byte number of objects contained in the pack
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- 4-byte number of object formats in this pack index: 2
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- For each object format:
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- 4-byte format identifier (e.g., 'sha1' for SHA-1)
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- 4-byte length in bytes of shortened object names. This is the
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shortest possible length needed to make names in the shortened
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object name table unambiguous.
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- 4-byte integer, recording where tables relating to this format
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are stored in this index file, as an offset from the beginning.
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- 4-byte offset to the trailer from the beginning of this file.
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- Zero or more additional key/value pairs (4-byte key, 4-byte
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value). Only one key is supported: 'PSRC'. See the "Loose objects
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and unreachable objects" section for supported values and how this
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is used. All other keys are reserved. Readers must ignore
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unrecognized keys.
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- Zero or more NUL bytes. This can optionally be used to improve the
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alignment of the full object name table below.
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- Tables for the first object format:
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- A sorted table of shortened object names. These are prefixes of
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the names of all objects in this pack file, packed together
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without offset values to reduce the cache footprint of the binary
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search for a specific object name.
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- A table of full object names in pack order. This allows resolving
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a reference to "the nth object in the pack file" (from a
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reachability bitmap or from the next table of another object
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format) to its object name.
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- A table of 4-byte values mapping object name order to pack order.
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For an object in the table of sorted shortened object names, the
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value at the corresponding index in this table is the index in the
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previous table for that same object.
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This can be used to look up the object in reachability bitmaps or
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to look up its name in another object format.
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- A table of 4-byte CRC32 values of the packed object data, in the
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order that the objects appear in the pack file. This is to allow
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compressed data to be copied directly from pack to pack during
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repacking without undetected data corruption.
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- A table of 4-byte offset values. For an object in the table of
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sorted shortened object names, the value at the corresponding
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index in this table indicates where that object can be found in
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the pack file. These are usually 31-bit pack file offsets, but
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large offsets are encoded as an index into the next table with the
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most significant bit set.
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- A table of 8-byte offset entries (empty for pack files less than
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2 GiB). Pack files are organized with heavily used objects toward
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the front, so most object references should not need to refer to
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this table.
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- Zero or more NUL bytes.
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- Tables for the second object format, with the same layout as above,
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up to and not including the table of CRC32 values.
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- Zero or more NUL bytes.
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- The trailer consists of the following:
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- A copy of the 20-byte SHA-256 checksum at the end of the
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corresponding packfile.
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- 20-byte SHA-256 checksum of all of the above.
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Loose object index
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~~~~~~~~~~~~~~~~~~
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A new file $GIT_OBJECT_DIR/loose-object-idx contains information about
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all loose objects. Its format is
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# loose-object-idx
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(sha256-name SP sha1-name LF)*
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where the object names are in hexadecimal format. The file is not
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sorted.
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The loose object index is protected against concurrent writes by a
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lock file $GIT_OBJECT_DIR/loose-object-idx.lock. To add a new loose
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object:
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1. Write the loose object to a temporary file, like today.
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2. Open loose-object-idx.lock with O_CREAT | O_EXCL to acquire the lock.
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3. Rename the loose object into place.
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4. Open loose-object-idx with O_APPEND and write the new object
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5. Unlink loose-object-idx.lock to release the lock.
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To remove entries (e.g. in "git pack-refs" or "git-prune"):
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1. Open loose-object-idx.lock with O_CREAT | O_EXCL to acquire the
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lock.
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2. Write the new content to loose-object-idx.lock.
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3. Unlink any loose objects being removed.
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4. Rename to replace loose-object-idx, releasing the lock.
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Translation table
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~~~~~~~~~~~~~~~~~
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The index files support a bidirectional mapping between sha1-names
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and sha256-names. The lookup proceeds similarly to ordinary object
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lookups. For example, to convert a sha1-name to a sha256-name:
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1. Look for the object in idx files. If a match is present in the
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idx's sorted list of truncated sha1-names, then:
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a. Read the corresponding entry in the sha1-name order to pack
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name order mapping.
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b. Read the corresponding entry in the full sha1-name table to
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verify we found the right object. If it is, then
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c. Read the corresponding entry in the full sha256-name table.
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That is the object's sha256-name.
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2. Check for a loose object. Read lines from loose-object-idx until
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we find a match.
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Step (1) takes the same amount of time as an ordinary object lookup:
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O(number of packs * log(objects per pack)). Step (2) takes O(number of
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loose objects) time. To maintain good performance it will be necessary
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to keep the number of loose objects low. See the "Loose objects and
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unreachable objects" section below for more details.
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Since all operations that make new objects (e.g., "git commit") add
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the new objects to the corresponding index, this mapping is possible
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for all objects in the object store.
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Reading an object's sha1-content
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The sha1-content of an object can be read by converting all sha256-names
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its sha256-content references to sha1-names using the translation table.
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Fetch
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~~~~~
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Fetching from a SHA-1 based server requires translating between SHA-1
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and SHA-256 based representations on the fly.
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SHA-1s named in the ref advertisement that are present on the client
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can be translated to SHA-256 and looked up as local objects using the
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translation table.
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Negotiation proceeds as today. Any "have"s generated locally are
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converted to SHA-1 before being sent to the server, and SHA-1s
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mentioned by the server are converted to SHA-256 when looking them up
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locally.
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After negotiation, the server sends a packfile containing the
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requested objects. We convert the packfile to SHA-256 format using
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the following steps:
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1. index-pack: inflate each object in the packfile and compute its
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SHA-1. Objects can contain deltas in OBJ_REF_DELTA format against
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objects the client has locally. These objects can be looked up
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using the translation table and their sha1-content read as
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described above to resolve the deltas.
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2. topological sort: starting at the "want"s from the negotiation
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phase, walk through objects in the pack and emit a list of them,
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excluding blobs, in reverse topologically sorted order, with each
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object coming later in the list than all objects it references.
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(This list only contains objects reachable from the "wants". If the
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pack from the server contained additional extraneous objects, then
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they will be discarded.)
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3. convert to sha256: open a new (sha256) packfile. Read the topologically
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sorted list just generated. For each object, inflate its
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sha1-content, convert to sha256-content, and write it to the sha256
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pack. Record the new sha1<->sha256 mapping entry for use in the idx.
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4. sort: reorder entries in the new pack to match the order of objects
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in the pack the server generated and include blobs. Write a sha256 idx
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file
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5. clean up: remove the SHA-1 based pack file, index, and
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topologically sorted list obtained from the server in steps 1
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and 2.
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Step 3 requires every object referenced by the new object to be in the
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translation table. This is why the topological sort step is necessary.
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As an optimization, step 1 could write a file describing what non-blob
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objects each object it has inflated from the packfile references. This
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makes the topological sort in step 2 possible without inflating the
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objects in the packfile for a second time. The objects need to be
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inflated again in step 3, for a total of two inflations.
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Step 4 is probably necessary for good read-time performance. "git
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pack-objects" on the server optimizes the pack file for good data
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locality (see Documentation/technical/pack-heuristics.txt).
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Details of this process are likely to change. It will take some
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experimenting to get this to perform well.
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Push
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~~~~
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Push is simpler than fetch because the objects referenced by the
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pushed objects are already in the translation table. The sha1-content
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of each object being pushed can be read as described in the "Reading
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an object's sha1-content" section to generate the pack written by git
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send-pack.
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Signed Commits
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~~~~~~~~~~~~~~
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We add a new field "gpgsig-sha256" to the commit object format to allow
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signing commits without relying on SHA-1. It is similar to the
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existing "gpgsig" field. Its signed payload is the sha256-content of the
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commit object with any "gpgsig" and "gpgsig-sha256" fields removed.
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This means commits can be signed
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1. using SHA-1 only, as in existing signed commit objects
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2. using both SHA-1 and SHA-256, by using both gpgsig-sha256 and gpgsig
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fields.
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3. using only SHA-256, by only using the gpgsig-sha256 field.
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Old versions of "git verify-commit" can verify the gpgsig signature in
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cases (1) and (2) without modifications and view case (3) as an
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ordinary unsigned commit.
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Signed Tags
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~~~~~~~~~~~
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We add a new field "gpgsig-sha256" to the tag object format to allow
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signing tags without relying on SHA-1. Its signed payload is the
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sha256-content of the tag with its gpgsig-sha256 field and "-----BEGIN PGP
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SIGNATURE-----" delimited in-body signature removed.
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This means tags can be signed
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1. using SHA-1 only, as in existing signed tag objects
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2. using both SHA-1 and SHA-256, by using gpgsig-sha256 and an in-body
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signature.
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3. using only SHA-256, by only using the gpgsig-sha256 field.
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Mergetag embedding
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~~~~~~~~~~~~~~~~~~
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The mergetag field in the sha1-content of a commit contains the
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sha1-content of a tag that was merged by that commit.
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The mergetag field in the sha256-content of the same commit contains the
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sha256-content of the same tag.
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Submodules
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~~~~~~~~~~
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To convert recorded submodule pointers, you need to have the converted
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submodule repository in place. The translation table of the submodule
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can be used to look up the new hash.
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Loose objects and unreachable objects
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Fast lookups in the loose-object-idx require that the number of loose
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objects not grow too high.
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"git gc --auto" currently waits for there to be 6700 loose objects
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present before consolidating them into a packfile. We will need to
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measure to find a more appropriate threshold for it to use.
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"git gc --auto" currently waits for there to be 50 packs present
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before combining packfiles. Packing loose objects more aggressively
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may cause the number of pack files to grow too quickly. This can be
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mitigated by using a strategy similar to Martin Fick's exponential
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rolling garbage collection script:
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https://gerrit-review.googlesource.com/c/gerrit/+/35215
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"git gc" currently expels any unreachable objects it encounters in
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pack files to loose objects in an attempt to prevent a race when
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pruning them (in case another process is simultaneously writing a new
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object that refers to the about-to-be-deleted object). This leads to
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an explosion in the number of loose objects present and disk space
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usage due to the objects in delta form being replaced with independent
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loose objects. Worse, the race is still present for loose objects.
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Instead, "git gc" will need to move unreachable objects to a new
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packfile marked as UNREACHABLE_GARBAGE (using the PSRC field; see
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below). To avoid the race when writing new objects referring to an
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about-to-be-deleted object, code paths that write new objects will
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need to copy any objects from UNREACHABLE_GARBAGE packs that they
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refer to new, non-UNREACHABLE_GARBAGE packs (or loose objects).
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UNREACHABLE_GARBAGE are then safe to delete if their creation time (as
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indicated by the file's mtime) is long enough ago.
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To avoid a proliferation of UNREACHABLE_GARBAGE packs, they can be
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combined under certain circumstances. If "gc.garbageTtl" is set to
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greater than one day, then packs created within a single calendar day,
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UTC, can be coalesced together. The resulting packfile would have an
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mtime before midnight on that day, so this makes the effective maximum
|
|
ttl the garbageTtl + 1 day. If "gc.garbageTtl" is less than one day,
|
|
then we divide the calendar day into intervals one-third of that ttl
|
|
in duration. Packs created within the same interval can be coalesced
|
|
together. The resulting packfile would have an mtime before the end of
|
|
the interval, so this makes the effective maximum ttl equal to the
|
|
garbageTtl * 4/3.
|
|
|
|
This rule comes from Thirumala Reddy Mutchukota's JGit change
|
|
https://git.eclipse.org/r/90465.
|
|
|
|
The UNREACHABLE_GARBAGE setting goes in the PSRC field of the pack
|
|
index. More generally, that field indicates where a pack came from:
|
|
|
|
- 1 (PACK_SOURCE_RECEIVE) for a pack received over the network
|
|
- 2 (PACK_SOURCE_AUTO) for a pack created by a lightweight
|
|
"gc --auto" operation
|
|
- 3 (PACK_SOURCE_GC) for a pack created by a full gc
|
|
- 4 (PACK_SOURCE_UNREACHABLE_GARBAGE) for potential garbage
|
|
discovered by gc
|
|
- 5 (PACK_SOURCE_INSERT) for locally created objects that were
|
|
written directly to a pack file, e.g. from "git add ."
|
|
|
|
This information can be useful for debugging and for "gc --auto" to
|
|
make appropriate choices about which packs to coalesce.
|
|
|
|
Caveats
|
|
-------
|
|
Invalid objects
|
|
~~~~~~~~~~~~~~~
|
|
The conversion from sha1-content to sha256-content retains any
|
|
brokenness in the original object (e.g., tree entry modes encoded with
|
|
leading 0, tree objects whose paths are not sorted correctly, and
|
|
commit objects without an author or committer). This is a deliberate
|
|
feature of the design to allow the conversion to round-trip.
|
|
|
|
More profoundly broken objects (e.g., a commit with a truncated "tree"
|
|
header line) cannot be converted but were not usable by current Git
|
|
anyway.
|
|
|
|
Shallow clone and submodules
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
Because it requires all referenced objects to be available in the
|
|
locally generated translation table, this design does not support
|
|
shallow clone or unfetched submodules. Protocol improvements might
|
|
allow lifting this restriction.
|
|
|
|
Alternates
|
|
~~~~~~~~~~
|
|
For the same reason, a sha256 repository cannot borrow objects from a
|
|
sha1 repository using objects/info/alternates or
|
|
$GIT_ALTERNATE_OBJECT_REPOSITORIES.
|
|
|
|
git notes
|
|
~~~~~~~~~
|
|
The "git notes" tool annotates objects using their sha1-name as key.
|
|
This design does not describe a way to migrate notes trees to use
|
|
sha256-names. That migration is expected to happen separately (for
|
|
example using a file at the root of the notes tree to describe which
|
|
hash it uses).
|
|
|
|
Server-side cost
|
|
~~~~~~~~~~~~~~~~
|
|
Until Git protocol gains SHA-256 support, using SHA-256 based storage
|
|
on public-facing Git servers is strongly discouraged. Once Git
|
|
protocol gains SHA-256 support, SHA-256 based servers are likely not
|
|
to support SHA-1 compatibility, to avoid what may be a very expensive
|
|
hash re-encode during clone and to encourage peers to modernize.
|
|
|
|
The design described here allows fetches by SHA-1 clients of a
|
|
personal SHA-256 repository because it's not much more difficult than
|
|
allowing pushes from that repository. This support needs to be guarded
|
|
by a configuration option --- servers like git.kernel.org that serve a
|
|
large number of clients would not be expected to bear that cost.
|
|
|
|
Meaning of signatures
|
|
~~~~~~~~~~~~~~~~~~~~~
|
|
The signed payload for signed commits and tags does not explicitly
|
|
name the hash used to identify objects. If some day Git adopts a new
|
|
hash function with the same length as the current SHA-1 (40
|
|
hexadecimal digit) or SHA-256 (64 hexadecimal digit) objects then the
|
|
intent behind the PGP signed payload in an object signature is
|
|
unclear:
|
|
|
|
object e7e07d5a4fcc2a203d9873968ad3e6bd4d7419d7
|
|
type commit
|
|
tag v2.12.0
|
|
tagger Junio C Hamano <gitster@pobox.com> 1487962205 -0800
|
|
|
|
Git 2.12
|
|
|
|
Does this mean Git v2.12.0 is the commit with sha1-name
|
|
e7e07d5a4fcc2a203d9873968ad3e6bd4d7419d7 or the commit with
|
|
new-40-digit-hash-name e7e07d5a4fcc2a203d9873968ad3e6bd4d7419d7?
|
|
|
|
Fortunately SHA-256 and SHA-1 have different lengths. If Git starts
|
|
using another hash with the same length to name objects, then it will
|
|
need to change the format of signed payloads using that hash to
|
|
address this issue.
|
|
|
|
Object names on the command line
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
To support the transition (see Transition plan below), this design
|
|
supports four different modes of operation:
|
|
|
|
1. ("dark launch") Treat object names input by the user as SHA-1 and
|
|
convert any object names written to output to SHA-1, but store
|
|
objects using SHA-256. This allows users to test the code with no
|
|
visible behavior change except for performance. This allows
|
|
allows running even tests that assume the SHA-1 hash function, to
|
|
sanity-check the behavior of the new mode.
|
|
|
|
2. ("early transition") Allow both SHA-1 and SHA-256 object names in
|
|
input. Any object names written to output use SHA-1. This allows
|
|
users to continue to make use of SHA-1 to communicate with peers
|
|
(e.g. by email) that have not migrated yet and prepares for mode 3.
|
|
|
|
3. ("late transition") Allow both SHA-1 and SHA-256 object names in
|
|
input. Any object names written to output use SHA-256. In this
|
|
mode, users are using a more secure object naming method by
|
|
default. The disruption is minimal as long as most of their peers
|
|
are in mode 2 or mode 3.
|
|
|
|
4. ("post-transition") Treat object names input by the user as
|
|
SHA-256 and write output using SHA-256. This is safer than mode 3
|
|
because there is less risk that input is incorrectly interpreted
|
|
using the wrong hash function.
|
|
|
|
The mode is specified in configuration.
|
|
|
|
The user can also explicitly specify which format to use for a
|
|
particular revision specifier and for output, overriding the mode. For
|
|
example:
|
|
|
|
git --output-format=sha1 log abac87a^{sha1}..f787cac^{sha256}
|
|
|
|
Choice of Hash
|
|
--------------
|
|
In early 2005, around the time that Git was written, Xiaoyun Wang,
|
|
Yiqun Lisa Yin, and Hongbo Yu announced an attack finding SHA-1
|
|
collisions in 2^69 operations. In August they published details.
|
|
Luckily, no practical demonstrations of a collision in full SHA-1 were
|
|
published until 10 years later, in 2017.
|
|
|
|
Git v2.13.0 and later subsequently moved to a hardened SHA-1
|
|
implementation by default that mitigates the SHAttered attack, but
|
|
SHA-1 is still believed to be weak.
|
|
|
|
The hash to replace this hardened SHA-1 should be stronger than SHA-1
|
|
was: we would like it to be trustworthy and useful in practice for at
|
|
least 10 years.
|
|
|
|
Some other relevant properties:
|
|
|
|
1. A 256-bit hash (long enough to match common security practice; not
|
|
excessively long to hurt performance and disk usage).
|
|
|
|
2. High quality implementations should be widely available (e.g., in
|
|
OpenSSL and Apple CommonCrypto).
|
|
|
|
3. The hash function's properties should match Git's needs (e.g. Git
|
|
requires collision and 2nd preimage resistance and does not require
|
|
length extension resistance).
|
|
|
|
4. As a tiebreaker, the hash should be fast to compute (fortunately
|
|
many contenders are faster than SHA-1).
|
|
|
|
We choose SHA-256.
|
|
|
|
Transition plan
|
|
---------------
|
|
Some initial steps can be implemented independently of one another:
|
|
- adding a hash function API (vtable)
|
|
- teaching fsck to tolerate the gpgsig-sha256 field
|
|
- excluding gpgsig-* from the fields copied by "git commit --amend"
|
|
- annotating tests that depend on SHA-1 values with a SHA1 test
|
|
prerequisite
|
|
- using "struct object_id", GIT_MAX_RAWSZ, and GIT_MAX_HEXSZ
|
|
consistently instead of "unsigned char *" and the hardcoded
|
|
constants 20 and 40.
|
|
- introducing index v3
|
|
- adding support for the PSRC field and safer object pruning
|
|
|
|
|
|
The first user-visible change is the introduction of the objectFormat
|
|
extension (without compatObjectFormat). This requires:
|
|
- implementing the loose-object-idx
|
|
- teaching fsck about this mode of operation
|
|
- using the hash function API (vtable) when computing object names
|
|
- signing objects and verifying signatures
|
|
- rejecting attempts to fetch from or push to an incompatible
|
|
repository
|
|
|
|
Next comes introduction of compatObjectFormat:
|
|
- translating object names between object formats
|
|
- translating object content between object formats
|
|
- generating and verifying signatures in the compat format
|
|
- adding appropriate index entries when adding a new object to the
|
|
object store
|
|
- --output-format option
|
|
- ^{sha1} and ^{sha256} revision notation
|
|
- configuration to specify default input and output format (see
|
|
"Object names on the command line" above)
|
|
|
|
The next step is supporting fetches and pushes to SHA-1 repositories:
|
|
- allow pushes to a repository using the compat format
|
|
- generate a topologically sorted list of the SHA-1 names of fetched
|
|
objects
|
|
- convert the fetched packfile to sha256 format and generate an idx
|
|
file
|
|
- re-sort to match the order of objects in the fetched packfile
|
|
|
|
The infrastructure supporting fetch also allows converting an existing
|
|
repository. In converted repositories and new clones, end users can
|
|
gain support for the new hash function without any visible change in
|
|
behavior (see "dark launch" in the "Object names on the command line"
|
|
section). In particular this allows users to verify SHA-256 signatures
|
|
on objects in the repository, and it should ensure the transition code
|
|
is stable in production in preparation for using it more widely.
|
|
|
|
Over time projects would encourage their users to adopt the "early
|
|
transition" and then "late transition" modes to take advantage of the
|
|
new, more futureproof SHA-256 object names.
|
|
|
|
When objectFormat and compatObjectFormat are both set, commands
|
|
generating signatures would generate both SHA-1 and SHA-256 signatures
|
|
by default to support both new and old users.
|
|
|
|
In projects using SHA-256 heavily, users could be encouraged to adopt
|
|
the "post-transition" mode to avoid accidentally making implicit use
|
|
of SHA-1 object names.
|
|
|
|
Once a critical mass of users have upgraded to a version of Git that
|
|
can verify SHA-256 signatures and have converted their existing
|
|
repositories to support verifying them, we can add support for a
|
|
setting to generate only SHA-256 signatures. This is expected to be at
|
|
least a year later.
|
|
|
|
That is also a good moment to advertise the ability to convert
|
|
repositories to use SHA-256 only, stripping out all SHA-1 related
|
|
metadata. This improves performance by eliminating translation
|
|
overhead and security by avoiding the possibility of accidentally
|
|
relying on the safety of SHA-1.
|
|
|
|
Updating Git's protocols to allow a server to specify which hash
|
|
functions it supports is also an important part of this transition. It
|
|
is not discussed in detail in this document but this transition plan
|
|
assumes it happens. :)
|
|
|
|
Alternatives considered
|
|
-----------------------
|
|
Upgrading everyone working on a particular project on a flag day
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
Projects like the Linux kernel are large and complex enough that
|
|
flipping the switch for all projects based on the repository at once
|
|
is infeasible.
|
|
|
|
Not only would all developers and server operators supporting
|
|
developers have to switch on the same flag day, but supporting tooling
|
|
(continuous integration, code review, bug trackers, etc) would have to
|
|
be adapted as well. This also makes it difficult to get early feedback
|
|
from some project participants testing before it is time for mass
|
|
adoption.
|
|
|
|
Using hash functions in parallel
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
(e.g. https://lore.kernel.org/git/22708.8913.864049.452252@chiark.greenend.org.uk/ )
|
|
Objects newly created would be addressed by the new hash, but inside
|
|
such an object (e.g. commit) it is still possible to address objects
|
|
using the old hash function.
|
|
* You cannot trust its history (needed for bisectability) in the
|
|
future without further work
|
|
* Maintenance burden as the number of supported hash functions grows
|
|
(they will never go away, so they accumulate). In this proposal, by
|
|
comparison, converted objects lose all references to SHA-1.
|
|
|
|
Signed objects with multiple hashes
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
Instead of introducing the gpgsig-sha256 field in commit and tag objects
|
|
for sha256-content based signatures, an earlier version of this design
|
|
added "hash sha256 <sha256-name>" fields to strengthen the existing
|
|
sha1-content based signatures.
|
|
|
|
In other words, a single signature was used to attest to the object
|
|
content using both hash functions. This had some advantages:
|
|
* Using one signature instead of two speeds up the signing process.
|
|
* Having one signed payload with both hashes allows the signer to
|
|
attest to the sha1-name and sha256-name referring to the same object.
|
|
* All users consume the same signature. Broken signatures are likely
|
|
to be detected quickly using current versions of git.
|
|
|
|
However, it also came with disadvantages:
|
|
* Verifying a signed object requires access to the sha1-names of all
|
|
objects it references, even after the transition is complete and
|
|
translation table is no longer needed for anything else. To support
|
|
this, the design added fields such as "hash sha1 tree <sha1-name>"
|
|
and "hash sha1 parent <sha1-name>" to the sha256-content of a signed
|
|
commit, complicating the conversion process.
|
|
* Allowing signed objects without a sha1 (for after the transition is
|
|
complete) complicated the design further, requiring a "nohash sha1"
|
|
field to suppress including "hash sha1" fields in the sha256-content
|
|
and signed payload.
|
|
|
|
Lazily populated translation table
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
Some of the work of building the translation table could be deferred to
|
|
push time, but that would significantly complicate and slow down pushes.
|
|
Calculating the sha1-name at object creation time at the same time it is
|
|
being streamed to disk and having its sha256-name calculated should be
|
|
an acceptable cost.
|
|
|
|
Document History
|
|
----------------
|
|
|
|
2017-03-03
|
|
bmwill@google.com, jonathantanmy@google.com, jrnieder@gmail.com,
|
|
sbeller@google.com
|
|
|
|
Initial version sent to
|
|
http://lore.kernel.org/git/20170304011251.GA26789@aiede.mtv.corp.google.com
|
|
|
|
2017-03-03 jrnieder@gmail.com
|
|
Incorporated suggestions from jonathantanmy and sbeller:
|
|
* describe purpose of signed objects with each hash type
|
|
* redefine signed object verification using object content under the
|
|
first hash function
|
|
|
|
2017-03-06 jrnieder@gmail.com
|
|
* Use SHA3-256 instead of SHA2 (thanks, Linus and brian m. carlson).[1][2]
|
|
* Make sha3-based signatures a separate field, avoiding the need for
|
|
"hash" and "nohash" fields (thanks to peff[3]).
|
|
* Add a sorting phase to fetch (thanks to Junio for noticing the need
|
|
for this).
|
|
* Omit blobs from the topological sort during fetch (thanks to peff).
|
|
* Discuss alternates, git notes, and git servers in the caveats
|
|
section (thanks to Junio Hamano, brian m. carlson[4], and Shawn
|
|
Pearce).
|
|
* Clarify language throughout (thanks to various commenters,
|
|
especially Junio).
|
|
|
|
2017-09-27 jrnieder@gmail.com, sbeller@google.com
|
|
* use placeholder NewHash instead of SHA3-256
|
|
* describe criteria for picking a hash function.
|
|
* include a transition plan (thanks especially to Brandon Williams
|
|
for fleshing these ideas out)
|
|
* define the translation table (thanks, Shawn Pearce[5], Jonathan
|
|
Tan, and Masaya Suzuki)
|
|
* avoid loose object overhead by packing more aggressively in
|
|
"git gc --auto"
|
|
|
|
Later history:
|
|
|
|
See the history of this file in git.git for the history of subsequent
|
|
edits. This document history is no longer being maintained as it
|
|
would now be superfluous to the commit log
|
|
|
|
[1] http://lore.kernel.org/git/CA+55aFzJtejiCjV0e43+9oR3QuJK2PiFiLQemytoLpyJWe6P9w@mail.gmail.com/
|
|
[2] http://lore.kernel.org/git/CA+55aFz+gkAsDZ24zmePQuEs1XPS9BP_s8O7Q4wQ7LV7X5-oDA@mail.gmail.com/
|
|
[3] http://lore.kernel.org/git/20170306084353.nrns455dvkdsfgo5@sigill.intra.peff.net/
|
|
[4] http://lore.kernel.org/git/20170304224936.rqqtkdvfjgyezsht@genre.crustytoothpaste.net
|
|
[5] https://lore.kernel.org/git/CAJo=hJtoX9=AyLHHpUJS7fueV9ciZ_MNpnEPHUz8Whui6g9F0A@mail.gmail.com/
|