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Diffstat (limited to 'third_party/git/Documentation/git-filter-branch.txt')
-rw-r--r-- | third_party/git/Documentation/git-filter-branch.txt | 282 |
1 files changed, 30 insertions, 252 deletions
diff --git a/third_party/git/Documentation/git-filter-branch.txt b/third_party/git/Documentation/git-filter-branch.txt index 40ba4aa3e65b..6b53dd7e06a2 100644 --- a/third_party/git/Documentation/git-filter-branch.txt +++ b/third_party/git/Documentation/git-filter-branch.txt @@ -16,19 +16,6 @@ SYNOPSIS [--original <namespace>] [-d <directory>] [-f | --force] [--state-branch <branch>] [--] [<rev-list options>...] -WARNING -------- -'git filter-branch' has a plethora of pitfalls that can produce non-obvious -manglings of the intended history rewrite (and can leave you with little -time to investigate such problems since it has such abysmal performance). -These safety and performance issues cannot be backward compatibly fixed and -as such, its use is not recommended. Please use an alternative history -filtering tool such as https://github.com/newren/git-filter-repo/[git -filter-repo]. If you still need to use 'git filter-branch', please -carefully read <<SAFETY>> (and <<PERFORMANCE>>) to learn about the land -mines of filter-branch, and then vigilantly avoid as many of the hazards -listed there as reasonably possible. - DESCRIPTION ----------- Lets you rewrite Git revision history by rewriting the branches mentioned @@ -458,245 +445,36 @@ warned. (or if your git-gc is not new enough to support arguments to `--prune`, use `git repack -ad; git prune` instead). -[[PERFORMANCE]] -PERFORMANCE ------------ - -The performance of git-filter-branch is glacially slow; its design makes it -impossible for a backward-compatible implementation to ever be fast: - -* In editing files, git-filter-branch by design checks out each and - every commit as it existed in the original repo. If your repo has - `10^5` files and `10^5` commits, but each commit only modifies five - files, then git-filter-branch will make you do `10^10` modifications, - despite only having (at most) `5*10^5` unique blobs. - -* If you try and cheat and try to make git-filter-branch only work on - files modified in a commit, then two things happen - - ** you run into problems with deletions whenever the user is simply - trying to rename files (because attempting to delete files that - don't exist looks like a no-op; it takes some chicanery to remap - deletes across file renames when the renames happen via arbitrary - user-provided shell) - - ** even if you succeed at the map-deletes-for-renames chicanery, you - still technically violate backward compatibility because users - are allowed to filter files in ways that depend upon topology of - commits instead of filtering solely based on file contents or - names (though this has not been observed in the wild). - -* Even if you don't need to edit files but only want to e.g. rename or - remove some and thus can avoid checking out each file (i.e. you can - use --index-filter), you still are passing shell snippets for your - filters. This means that for every commit, you have to have a - prepared git repo where those filters can be run. That's a - significant setup. - -* Further, several additional files are created or updated per commit - by git-filter-branch. Some of these are for supporting the - convenience functions provided by git-filter-branch (such as map()), - while others are for keeping track of internal state (but could have - also been accessed by user filters; one of git-filter-branch's - regression tests does so). This essentially amounts to using the - filesystem as an IPC mechanism between git-filter-branch and the - user-provided filters. Disks tend to be a slow IPC mechanism, and - writing these files also effectively represents a forced - synchronization point between separate processes that we hit with - every commit. - -* The user-provided shell commands will likely involve a pipeline of - commands, resulting in the creation of many processes per commit. - Creating and running another process takes a widely varying amount - of time between operating systems, but on any platform it is very - slow relative to invoking a function. - -* git-filter-branch itself is written in shell, which is kind of slow. - This is the one performance issue that could be backward-compatibly - fixed, but compared to the above problems that are intrinsic to the - design of git-filter-branch, the language of the tool itself is a - relatively minor issue. - - ** Side note: Unfortunately, people tend to fixate on the - written-in-shell aspect and periodically ask if git-filter-branch - could be rewritten in another language to fix the performance - issues. Not only does that ignore the bigger intrinsic problems - with the design, it'd help less than you'd expect: if - git-filter-branch itself were not shell, then the convenience - functions (map(), skip_commit(), etc) and the `--setup` argument - could no longer be executed once at the beginning of the program - but would instead need to be prepended to every user filter (and - thus re-executed with every commit). - -The https://github.com/newren/git-filter-repo/[git filter-repo] tool is -an alternative to git-filter-branch which does not suffer from these -performance problems or the safety problems (mentioned below). For those -with existing tooling which relies upon git-filter-branch, 'git -repo-filter' also provides -https://github.com/newren/git-filter-repo/blob/master/contrib/filter-repo-demos/filter-lamely[filter-lamely], -a drop-in git-filter-branch replacement (with a few caveats). While -filter-lamely suffers from all the same safety issues as -git-filter-branch, it at least ameliorates the performance issues a -little. - -[[SAFETY]] -SAFETY ------- - -git-filter-branch is riddled with gotchas resulting in various ways to -easily corrupt repos or end up with a mess worse than what you started -with: - -* Someone can have a set of "working and tested filters" which they - document or provide to a coworker, who then runs them on a different - OS where the same commands are not working/tested (some examples in - the git-filter-branch manpage are also affected by this). - BSD vs. GNU userland differences can really bite. If lucky, error - messages are spewed. But just as likely, the commands either don't - do the filtering requested, or silently corrupt by making some - unwanted change. The unwanted change may only affect a few commits, - so it's not necessarily obvious either. (The fact that problems - won't necessarily be obvious means they are likely to go unnoticed - until the rewritten history is in use for quite a while, at which - point it's really hard to justify another flag-day for another - rewrite.) - -* Filenames with spaces are often mishandled by shell snippets since - they cause problems for shell pipelines. Not everyone is familiar - with find -print0, xargs -0, git-ls-files -z, etc. Even people who - are familiar with these may assume such flags are not relevant - because someone else renamed any such files in their repo back - before the person doing the filtering joined the project. And - often, even those familiar with handling arguments with spaces may - not do so just because they aren't in the mindset of thinking about - everything that could possibly go wrong. - -* Non-ascii filenames can be silently removed despite being in a - desired directory. Keeping only wanted paths is often done using - pipelines like `git ls-files | grep -v ^WANTED_DIR/ | xargs git rm`. - ls-files will only quote filenames if needed, so folks may not - notice that one of the files didn't match the regex (at least not - until it's much too late). Yes, someone who knows about - core.quotePath can avoid this (unless they have other special - characters like \t, \n, or "), and people who use ls-files -z with - something other than grep can avoid this, but that doesn't mean they - will. - -* Similarly, when moving files around, one can find that filenames - with non-ascii or special characters end up in a different - directory, one that includes a double quote character. (This is - technically the same issue as above with quoting, but perhaps an - interesting different way that it can and has manifested as a - problem.) - -* It's far too easy to accidentally mix up old and new history. It's - still possible with any tool, but git-filter-branch almost - invites it. If lucky, the only downside is users getting frustrated - that they don't know how to shrink their repo and remove the old - stuff. If unlucky, they merge old and new history and end up with - multiple "copies" of each commit, some of which have unwanted or - sensitive files and others which don't. This comes about in - multiple different ways: - - ** the default to only doing a partial history rewrite ('--all' is not - the default and few examples show it) - - ** the fact that there's no automatic post-run cleanup - - ** the fact that --tag-name-filter (when used to rename tags) doesn't - remove the old tags but just adds new ones with the new name - - ** the fact that little educational information is provided to inform - users of the ramifications of a rewrite and how to avoid mixing old - and new history. For example, this man page discusses how users - need to understand that they need to rebase their changes for all - their branches on top of new history (or delete and reclone), but - that's only one of multiple concerns to consider. See the - "DISCUSSION" section of the git filter-repo manual page for more - details. - -* Annotated tags can be accidentally converted to lightweight tags, - due to either of two issues: - - ** Someone can do a history rewrite, realize they messed up, restore - from the backups in refs/original/, and then redo their - git-filter-branch command. (The backup in refs/original/ is not a - real backup; it dereferences tags first.) - - ** Running git-filter-branch with either --tags or --all in your - <rev-list options>. In order to retain annotated tags as - annotated, you must use --tag-name-filter (and must not have - restored from refs/original/ in a previously botched rewrite). - -* Any commit messages that specify an encoding will become corrupted - by the rewrite; git-filter-branch ignores the encoding, takes the - original bytes, and feeds it to commit-tree without telling it the - proper encoding. (This happens whether or not --msg-filter is - used.) - -* Commit messages (even if they are all UTF-8) by default become - corrupted due to not being updated -- any references to other commit - hashes in commit messages will now refer to no-longer-extant - commits. - -* There are no facilities for helping users find what unwanted crud - they should delete, which means they are much more likely to have - incomplete or partial cleanups that sometimes result in confusion - and people wasting time trying to understand. (For example, folks - tend to just look for big files to delete instead of big directories - or extensions, and once they do so, then sometime later folks using - the new repository who are going through history will notice a build - artifact directory that has some files but not others, or a cache of - dependencies (node_modules or similar) which couldn't have ever been - functional since it's missing some files.) - -* If --prune-empty isn't specified, then the filtering process can - create hoards of confusing empty commits - -* If --prune-empty is specified, then intentionally placed empty - commits from before the filtering operation are also pruned instead - of just pruning commits that became empty due to filtering rules. - -* If --prune-empty is specified, sometimes empty commits are missed - and left around anyway (a somewhat rare bug, but it happens...) - -* A minor issue, but users who have a goal to update all names and - emails in a repository may be led to --env-filter which will only - update authors and committers, missing taggers. - -* If the user provides a --tag-name-filter that maps multiple tags to - the same name, no warning or error is provided; git-filter-branch - simply overwrites each tag in some undocumented pre-defined order - resulting in only one tag at the end. (A git-filter-branch - regression test requires this surprising behavior.) - -Also, the poor performance of git-filter-branch often leads to safety -issues: - -* Coming up with the correct shell snippet to do the filtering you - want is sometimes difficult unless you're just doing a trivial - modification such as deleting a couple files. Unfortunately, people - often learn if the snippet is right or wrong by trying it out, but - the rightness or wrongness can vary depending on special - circumstances (spaces in filenames, non-ascii filenames, funny - author names or emails, invalid timezones, presence of grafts or - replace objects, etc.), meaning they may have to wait a long time, - hit an error, then restart. The performance of git-filter-branch is - so bad that this cycle is painful, reducing the time available to - carefully re-check (to say nothing about what it does to the - patience of the person doing the rewrite even if they do technically - have more time available). This problem is extra compounded because - errors from broken filters may not be shown for a long time and/or - get lost in a sea of output. Even worse, broken filters often just - result in silent incorrect rewrites. - -* To top it all off, even when users finally find working commands, - they naturally want to share them. But they may be unaware that - their repo didn't have some special cases that someone else's does. - So, when someone else with a different repository runs the same - commands, they get hit by the problems above. Or, the user just - runs commands that really were vetted for special cases, but they - run it on a different OS where it doesn't work, as noted above. +NOTES +----- + +git-filter-branch allows you to make complex shell-scripted rewrites +of your Git history, but you probably don't need this flexibility if +you're simply _removing unwanted data_ like large files or passwords. +For those operations you may want to consider +http://rtyley.github.io/bfg-repo-cleaner/[The BFG Repo-Cleaner], +a JVM-based alternative to git-filter-branch, typically at least +10-50x faster for those use-cases, and with quite different +characteristics: + +* Any particular version of a file is cleaned exactly _once_. The BFG, + unlike git-filter-branch, does not give you the opportunity to + handle a file differently based on where or when it was committed + within your history. This constraint gives the core performance + benefit of The BFG, and is well-suited to the task of cleansing bad + data - you don't care _where_ the bad data is, you just want it + _gone_. + +* By default The BFG takes full advantage of multi-core machines, + cleansing commit file-trees in parallel. git-filter-branch cleans + commits sequentially (i.e. in a single-threaded manner), though it + _is_ possible to write filters that include their own parallelism, + in the scripts executed against each commit. + +* The http://rtyley.github.io/bfg-repo-cleaner/#examples[command options] + are much more restrictive than git-filter branch, and dedicated just + to the tasks of removing unwanted data- e.g: + `--strip-blobs-bigger-than 1M`. GIT --- |