1. 14 Sep, 2020 1 commit
  2. 09 Sep, 2020 1 commit
  3. 08 Sep, 2020 2 commits
  4. 01 Sep, 2020 1 commit
  5. 31 Aug, 2020 3 commits
  6. 28 Aug, 2020 1 commit
  7. 27 Aug, 2020 1 commit
  8. 24 Aug, 2020 4 commits
  9. 21 Aug, 2020 2 commits
  10. 18 Aug, 2020 1 commit
  11. 05 Aug, 2020 4 commits
    • zstream: handle Z_BUF_ERROR appropriately in get_output_chunk · 9bb61bad
      Our processing loop in git_zstream_get_output_chunk does not handle
      `Z_BUF_ERROR` appropriately at the end of a compressed window.
      
      From the zlib manual, inflate will return:
      
      > Z_BUF_ERROR if no progress was possible or if there was not enough
      > room in the output buffer when Z_FINISH is used. Note that Z_BUF_ERROR
      > is not fatal, and inflate() can be called again with more input and
      > more output space to continue decompressing.
      
      In our loop, we were waiting until we got the expected size, then
      ensuring that we were at `Z_STREAM_END`.  We are not guaranteed to be,
      since zlib may be in the `Z_BUF_ERROR` state where it has consumed a
      full window's worth of data, but it doesn't know that it's really at the
      end of the stream.  There _could_ be more compressed data, but it
      doesn't _know_ that there's not until we make a subsequent call.
      
      We can change the loop to look for the end of stream instead of our
      expected size.  This allows us to call inflate one last time when we are
      at the end of a window (and in the `Z_BUF_ERROR` state), allowing it to
      recognize the end of the stream, and move from the `Z_BUF_ERROR` state
      to the `Z_STREAM_END` state.
      
      If we do this, we need another exit condition: when `bytes == 0`, then
      no progress could be made and we should stop trying to inflate.  This
      will be an error case, caught by the size and/or end-of-stream test.
      Edward Thomson committed
  12. 03 Aug, 2020 5 commits
  13. 13 Jul, 2020 1 commit
    • config_entries: Avoid excessive map operations · f2400a9c
      When appending config entries, we currently always first get the
      currently existing map entry and then afterwards update the map to
      contain the current config value. In the common scenario where keys
      aren't being overridden, this is the best we can do. But in case a key
      gets set multiple times, then we'll also perform these two map
      operations. In extreme cases, hashing the map keys will thus start to
      dominate performance.
      
      Let's optimize the pattern by using a separately allocated map entry.
      Currently, we always put the current list entry into the map and update
      it to get any overridden multivar. As these list entries are also used
      to iterate config entries, we cannot update them in-place in the map and
      are thus forced to always set the map to contain the new entry. But with
      a separately allocated map entry, we can now create one once per config
      key and insert it into the map. Whenever appending a new config value
      with the same key, we can now just update the map entry in-place instead
      of having to replace the map entry completely.
      
      This reduces calls to the hashing function by half and trades the
      improved runtime for one more allocation per unique config key. Given
      that the refactoring arguably improves code readability by splitting
      concerns of the `config_entry_list` type and not having to track it in
      two different structures, this alone would already be reason enough to
      take the trade.
      
      Given a pathological case of a gitconfig with 100.000 repeated keys and
      a section of length 10.000 characters, this reduces runtime by half from
      approximately 14 seconds to 7 seconds as expected.
      Patrick Steinhardt committed
  14. 12 Jul, 2020 13 commits
    • Merge pull request #5396 from lhchavez/mwindow-file-limit · a83fd510
      mwindow: set limit on number of open files
      Edward Thomson committed
    • Minor nits and style formatting · 92d42eb3
      lhchavez committed
    • tests: verify renaming branch really updates worktree HEAD · ce4cb073
      In case where a branch is getting renamed, all HEADs of the main
      repository and of its worktrees that point to the old branch need to get
      updated to point to the new branch. We already do so and have a test for
      this, but the test only verifies that we're able to lookup the updated
      HEAD, not what it contains.
      
      Let's make the test more specific by verifying the updated HEAD also has
      the correct updated symbolic target.
      Patrick Steinhardt committed
    • refs: remove function to read HEAD directly · 5434f9a3
      With the last user of `git_reference__read_head` gone, let's remove it
      as it's been reading references without consulting the refdb backends.
      Patrick Steinhardt committed
    • repository: retrieve worktree HEAD via refdb · 65895410
      The function `git_repository_head_for_worktree` currently uses
      `git_reference__read_head` to directly read a given worktree's HEAD from
      the filesystem. This is broken in case the repository uses a different
      refdb implementation than the filesystem-based one, so let's instead
      open the worktree as a real repository and use `git_reference_lookup`.
      This also fixes the case where the worktree's HEAD is not a symref, but
      a detached HEAD, which would have resulted in an error previously.
      Patrick Steinhardt committed
    • repository: remove function to iterate over HEADs · d1f210fc
      The function `git_repository_foreach_head` is broken, as it directly
      interacts with the on-disk representation of the reference database,
      thus assuming that no other refdb is used for the given repository. As
      this is an internal function only and all users have been replaced,
      let's remove this function.
      Patrick Steinhardt committed
    • branch: determine whether a branch is checked out via refdb · ac5fbe31
      We currently determine whether a branch is checked out via
      `git_repository_foreach_head`. As this function reads references
      directly from the disk, it breaks our refdb abstraction in case the
      repository uses a different reference backend implementation than the
      filesystem-based one. So let's use `git_repository_foreach_worktree`
      instead -- while it's less efficient, it is at least correct in all
      corner cases.
      Patrick Steinhardt committed
    • refs: update HEAD references via refdb · 7216b048
      When renaming a reference, we need to iterate over every HEAD and
      potentially update it in case it is a symbolic reference pointing to the
      previous name of the renamed reference. Most importantly, this doesn't
      only include HEADs from the repo we're renaming the reference in, but we
      also need to iterate over HEADs from linked worktrees.
      
      In order to update the HEADs, we directly read them from the worktree's
      gitdir and thus assume that both repository and worktrees use the
      filesystem-based reference backend. But this breaks as soon as one got a
      repository with a different refdb and breaks our own abstractions. So
      let's instead update HEAD references via the refdb by first opening each
      worktree as a repository and then using the usual functions to read and
      update HEADs. This is a lot less efficient than the current code, but
      it's not like we can really help this: going via the refdb is mandatory.
      Patrick Steinhardt committed
    • repository: introduce new function to iterate over all worktrees · 2fcb4f28
      Given a Git repository, it's non-trivial to iterate over all worktrees
      that are associated with it, including the "main" repository. This
      commit adds a new internal function `git_repository_foreach_worktree`
      that does this for us.
      Patrick Steinhardt committed
    • Merge pull request #5570 from libgit2/pks/refdb-refactorings · 26b9e489
      refdb: a set of preliminary refactorings for the reftable backend
      Edward Thomson committed
    • refdb: avoid unlimited spinning in case of symref cycles · 34987447
      To determine whether another reflog entry needs to be written for HEAD
      on a reference update, we need to see whether HEAD directly or
      indirectly points to the reference we're updating. The resolve logic is
      currently completely unbounded except an error occurs, which effectively
      means that we'd be spinning forever in case we have a symref loop in the
      repository refdb.
      
      Let's fix the issue by using `git_refdb_resolve` instead, which is
      always bounded.
      Patrick Steinhardt committed
    • refs: replace reimplementation of reference resolver · b895547c
      The refs code currently has a second implementation that resolves
      references in order to find any final symbolic reference pointing to a
      nonexistent target branch. As we've just extended `git_refdb_resolve` to
      also return such references, let's use that one instead in order to
      reduce code duplication.
      Patrick Steinhardt committed
    • refdb: return resolved symbolic refs pointing to nonexistent refs · cf7dd05b
      In some cases, resolving references requires us to also know about the
      final symbolic reference that's pointing to a nonexistent branch, e.g.
      in an empty repository where the main branch is yet unborn but HEAD
      already points to it. Right now, the resolving logic is thus split up
      into two, where one is the new refdb implementation and the second one
      is an ad-hoc implementation inside "refs.c".
      
      Let's extend `git_refdb_resolve` to also return such final dangling
      references pointing to nonexistent branches so we can deduplicate the
      resolving logic.
      Patrick Steinhardt committed