summaryrefslogtreecommitdiff
path: root/packfile.c
AgeCommit message (Collapse)AuthorFilesLines
2021-04-13is_promisor_object(): free tree buffer after parsingLibravatar Jeff King1-0/+1
To get the list of all promisor objects, we not only include all objects in promisor packs, but also parse each of those objects to see which objects they reference. After parsing a tree object, the tree->buffer field will remain populated until we explicitly free it. So in a partial clone of blob:none, for example, we are essentially reading every tree in the repository (since they're all in the initial promisor pack), and keeping all of their uncompressed contents in memory at once. This patch frees the tree buffers after we've finished marking all of their reachable objects. We shouldn't need to do this for any other object type. While we are using some extra memory to store the structs, no other object type stores the whole contents in its parsed form (we do sometimes hold on to commit buffers, but less so these days due to commit graphs, plus most commands which care about promisor objects turn off the save_commit_buffer global). Even for a moderate-sized repository like git.git, this patch drops the peak heap (as measured by massif) for git-fsck from ~1.7GB to ~138MB. Fsck is a good candidate for measuring here because it doesn't interact with the promisor code except to call is_promisor_object(), so we can isolate just this problem. The added perf test shows only a tiny improvement on my machine for git.git, since 1.7GB isn't enough to cause any real memory pressure: Test HEAD^ HEAD -------------------------------------------------------------------------------- 5600.4: fsck 21.26(20.90+0.35) 20.84(20.79+0.04) -2.0% With linux.git the absolute change is a bit bigger, though still a small percentage: Test HEAD^ HEAD ----------------------------------------------------------------------------- 5600.4: fsck 262.26(259.13+3.12) 254.92(254.62+0.29) -2.8% I didn't have the patience to run it under massif with linux.git, but it's probably on the order of about 14GB improvement, since that's the sum of the sizes of all of the uncompressed trees (but still isn't enough to create memory pressure on this particular machine, which has 64GB of RAM). Smaller machines would probably see a bigger effect on runtime (and sadly our perf suite does not measure peak heap). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-04-08Merge branch 'tb/reverse-midx'Libravatar Junio C Hamano1-0/+3
An on-disk reverse-index to map the in-pack location of an object back to its object name across multiple packfiles is introduced. * tb/reverse-midx: midx.c: improve cache locality in midx_pack_order_cmp() pack-revindex: write multi-pack reverse indexes pack-write.c: extract 'write_rev_file_order' pack-revindex: read multi-pack reverse indexes Documentation/technical: describe multi-pack reverse indexes midx: make some functions non-static midx: keep track of the checksum midx: don't free midx_name early midx: allow marking a pack as preferred t/helper/test-read-midx.c: add '--show-objects' builtin/multi-pack-index.c: display usage on unrecognized command builtin/multi-pack-index.c: don't enter bogus cmd_mode builtin/multi-pack-index.c: split sub-commands builtin/multi-pack-index.c: define common usage with a macro builtin/multi-pack-index.c: don't handle 'progress' separately builtin/multi-pack-index.c: inline 'flags' with options
2021-04-01pack-revindex: read multi-pack reverse indexesLibravatar Taylor Blau1-0/+3
Implement reading for multi-pack reverse indexes, as described in the previous patch. Note that these functions don't yet have any callers, and won't until multi-pack reachability bitmaps are introduced in a later patch series. In the meantime, this patch implements some of the infrastructure necessary to support multi-pack bitmaps. There are three new functions exposed by the revindex API: - load_midx_revindex(): loads the reverse index corresponding to the given multi-pack index. - midx_to_pack_pos() and pack_pos_to_midx(): these convert between the multi-pack index and pseudo-pack order. load_midx_revindex() and pack_pos_to_midx() are both relatively straightforward. load_midx_revindex() needs a few functions to be exposed from the midx API. One to get the checksum of a midx, and another to get the .rev's filename. Similar to recent changes in the packed_git struct, three new fields are added to the multi_pack_index struct: one to keep track of the size, one to keep track of the mmap'd pointer, and another to point past the header and at the reverse index's data. pack_pos_to_midx() simply reads the corresponding entry out of the table. midx_to_pack_pos() is the trickiest, since it needs to find an object's position in the psuedo-pack order, but that order can only be recovered in the .rev file itself. This mapping can be implemented with a binary search, but note that the thing we're binary searching over isn't an array of values, but rather a permuted order of those values. So, when comparing two items, it's helpful to keep in mind the difference. Instead of a traditional binary search, where you are comparing two things directly, here we're comparing a (pack, offset) tuple with an index into the multi-pack index. That index describes another (pack, offset) tuple, and it is _those_ two tuples that are compared. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-03-24Merge branch 'tb/geometric-repack'Libravatar Junio C Hamano1-0/+67
"git repack" so far has been only capable of repacking everything under the sun into a single pack (or split by size). A cleverer strategy to reduce the cost of repacking a repository has been introduced. * tb/geometric-repack: builtin/pack-objects.c: ignore missing links with --stdin-packs builtin/repack.c: reword comment around pack-objects flags builtin/repack.c: be more conservative with unsigned overflows builtin/repack.c: assign pack split later t7703: test --geometric repack with loose objects builtin/repack.c: do not repack single packs with --geometric builtin/repack.c: add '--geometric' option packfile: add kept-pack cache for find_kept_pack_entry() builtin/pack-objects.c: rewrite honor-pack-keep logic p5303: measure time to repack with keep p5303: add missing &&-chains builtin/pack-objects.c: add '--stdin-packs' option revision: learn '--no-kept-objects' packfile: introduce 'find_kept_pack_entry()'
2021-03-13use CALLOC_ARRAYLibravatar René Scharfe1-1/+1
Add and apply a semantic patch for converting code that open-codes CALLOC_ARRAY to use it instead. It shortens the code and infers the element size automatically. Signed-off-by: René Scharfe <l.s.r@web.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-02-22packfile: add kept-pack cache for find_kept_pack_entry()Libravatar Jeff King1-43/+56
In a recent patch we added a function 'find_kept_pack_entry()' to look for an object only among kept packs. While this function avoids doing any lookup work in non-kept packs, it is still linear in the number of packs, since we have to traverse the linked list of packs once per object. Let's cache a reduced version of that list to save us time. Note that this cache will last the lifetime of the program. We could invalidate it on reprepare_packed_git(), but there's not much point in being rigorous here: - we might already fail to notice new .keep packs showing up after the program starts. We only reprepare_packed_git() when we fail to find an object. But adding a new pack won't cause that to happen. Somebody repacking could add a new pack and delete an old one, but most of the time we'd have a descriptor or mmap open to the old pack anyway, so we might not even notice. - in pack-objects we already cache the .keep state at startup, since 56dfeb6263 (pack-objects: compute local/ignore_pack_keep early, 2016-07-29). So this is just extending that concept further. - we don't have to worry about any packed_git being removed; we always keep the old structs around, even after reprepare_packed_git() We do defensively invalidate the cache in case the set of kept packs being asked for changes (e.g., only in-core kept packs were cached, but suddenly the caller also wants on-disk kept packs, too). In theory we could build all three caches and switch between them, but it's not necessary, since this patch (and series) never changes the set of kept packs that it wants to inspect from the cache. So that "optimization" is more about being defensive in the face of future changes than it is about asking for multiple kinds of kept packs in this patch. Here are p5303 results (as always, measured against the kernel): Test HEAD^ HEAD ----------------------------------------------------------------------------------------------- 5303.5: repack (1) 57.34(54.66+10.88) 56.98(54.36+10.98) -0.6% 5303.6: repack with kept (1) 57.38(54.83+10.49) 57.17(54.97+10.26) -0.4% 5303.11: repack (50) 71.70(88.99+4.74) 71.62(88.48+5.08) -0.1% 5303.12: repack with kept (50) 72.58(89.61+4.78) 71.56(88.80+4.59) -1.4% 5303.17: repack (1000) 217.19(491.72+14.25) 217.31(490.82+14.53) +0.1% 5303.18: repack with kept (1000) 246.12(520.07+14.93) 217.08(490.37+15.10) -11.8% and the --stdin-packs case, which scales a little bit better (although not by that much even at 1,000 packs): 5303.7: repack with --stdin-packs (1) 0.00(0.00+0.00) 0.00(0.00+0.00) = 5303.13: repack with --stdin-packs (50) 3.43(11.75+0.24) 3.43(11.69+0.30) +0.0% 5303.19: repack with --stdin-packs (1000) 130.50(307.15+7.66) 125.13(301.36+8.04) -4.1% Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-02-22packfile: introduce 'find_kept_pack_entry()'Libravatar Taylor Blau1-5/+59
Future callers will want a function to fill a 'struct pack_entry' for a given object id but _only_ from its position in any kept pack(s). In particular, an new 'git repack' mode which ensures the resulting packs form a geometric progress by object count will mark packs that it does not want to repack as "kept in-core", and it will want to halt a reachability traversal as soon as it visits an object in any of the kept packs. But, it does not want to halt the traversal at non-kept, or .keep packs. The obvious alternative is 'find_pack_entry()', but this doesn't quite suffice since it only returns the first pack it finds, which may or may not be kept (and the mru cache makes it unpredictable which one you'll get if there are options). Short of that, you could walk over all packs looking for the object in each one, but it scales with the number of packs, which may be prohibitive. Introduce 'find_kept_pack_entry()', a function which is like 'find_pack_entry()', but only fills in objects in the kept packs. Handle packs which have .keep files, as well as in-core kept packs separately, since certain callers will want to distinguish one from the other. (Though on-disk and in-core kept packs share the adjective "kept", it is best to think of the two sets as independent.) There is a gotcha when looking up objects that are duplicated in kept and non-kept packs, particularly when the MIDX stores the non-kept version and the caller asked for kept objects only. This could be resolved by teaching the MIDX to resolve duplicates by always favoring the kept pack (if one exists), but this breaks an assumption in existing MIDXs, and so it would require a format change. The benefit to changing the MIDX in this way is marginal, so we instead have a more thorough check here which is explained with a comment. Callers will be added in subsequent patches. Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Reviewed-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-25packfile: prepare for the existence of '*.rev' filesLibravatar Taylor Blau1-1/+12
Specify the format of the on-disk reverse index 'pack-*.rev' file, as well as prepare the code for the existence of such files. The reverse index maps from pack relative positions (i.e., an index into the array of object which is sorted by their offsets within the packfile) to their position within the 'pack-*.idx' file. Today, this is done by building up a list of (off_t, uint32_t) tuples for each object (the off_t corresponding to that object's offset, and the uint32_t corresponding to its position in the index). To convert between pack and index position quickly, this array of tuples is radix sorted based on its offset. This has two major drawbacks: First, the in-memory cost scales linearly with the number of objects in a pack. Each 'struct revindex_entry' is sizeof(off_t) + sizeof(uint32_t) + padding bytes for a total of 16. To observe this, force Git to load the reverse index by, for e.g., running 'git cat-file --batch-check="%(objectsize:disk)"'. When asking for a single object in a fresh clone of the kernel, Git needs to allocate 120+ MB of memory in order to hold the reverse index in memory. Second, the cost to sort also scales with the size of the pack. Luckily, this is a linear function since 'load_pack_revindex()' uses a radix sort, but this cost still must be paid once per pack per process. As an example, it takes ~60x longer to print the _size_ of an object as it does to print that entire object's _contents_: Benchmark #1: git.compile cat-file --batch <obj Time (mean ± σ): 3.4 ms ± 0.1 ms [User: 3.3 ms, System: 2.1 ms] Range (min … max): 3.2 ms … 3.7 ms 726 runs Benchmark #2: git.compile cat-file --batch-check="%(objectsize:disk)" <obj Time (mean ± σ): 210.3 ms ± 8.9 ms [User: 188.2 ms, System: 23.2 ms] Range (min … max): 193.7 ms … 224.4 ms 13 runs Instead, avoid computing and sorting the revindex once per process by writing it to a file when the pack itself is generated. The format is relatively straightforward. It contains an array of uint32_t's, the length of which is equal to the number of objects in the pack. The ith entry in this table contains the index position of the ith object in the pack, where "ith object in the pack" is determined by pack offset. One thing that the on-disk format does _not_ contain is the full (up to) eight-byte offset corresponding to each object. This is something that the in-memory revindex contains (it stores an off_t in 'struct revindex_entry' along with the same uint32_t that the on-disk format has). Omit it in the on-disk format, since knowing the index position for some object is sufficient to get a constant-time lookup in the pack-*.idx file to ask for an object's offset within the pack. This trades off between the on-disk size of the 'pack-*.rev' file for runtime to chase down the offset for some object. Even though the lookup is constant time, the constant is heavier, since it can potentially involve two pointer walks in v2 indexes (one to access the 4-byte offset table, and potentially a second to access the double wide offset table). Consider trying to map an object's pack offset to a relative position within that pack. In a cold-cache scenario, more page faults occur while switching between binary searching through the reverse index and searching through the *.idx file for an object's offset. Sure enough, with a cold cache (writing '3' into '/proc/sys/vm/drop_caches' after 'sync'ing), printing out the entire object's contents is still marginally faster than printing its size: Benchmark #1: git.compile cat-file --batch-check="%(objectsize:disk)" <obj >/dev/null Time (mean ± σ): 22.6 ms ± 0.5 ms [User: 2.4 ms, System: 7.9 ms] Range (min … max): 21.4 ms … 23.5 ms 41 runs Benchmark #2: git.compile cat-file --batch <obj >/dev/null Time (mean ± σ): 17.2 ms ± 0.7 ms [User: 2.8 ms, System: 5.5 ms] Range (min … max): 15.6 ms … 18.2 ms 45 runs (Numbers taken in the kernel after cheating and using the next patch to generate a reverse index). There are a couple of approaches to improve cold cache performance not pursued here: - We could include the object offsets in the reverse index format. Predictably, this does result in fewer page faults, but it triples the size of the file, while simultaneously duplicating a ton of data already available in the .idx file. (This was the original way I implemented the format, and it did show `--batch-check='%(objectsize:disk)'` winning out against `--batch`.) On the other hand, this increase in size also results in a large block-cache footprint, which could potentially hurt other workloads. - We could store the mapping from pack to index position in more cache-friendly way, like constructing a binary search tree from the table and writing the values in breadth-first order. This would result in much better locality, but the price you pay is trading O(1) lookup in 'pack_pos_to_index()' for an O(log n) one (since you can no longer directly index the table). So, neither of these approaches are taken here. (Thankfully, the format is versioned, so we are free to pursue these in the future.) But, cold cache performance likely isn't interesting outside of one-off cases like asking for the size of an object directly. In real-world usage, Git is often performing many operations in the revindex (i.e., asking about many objects rather than a single one). The trade-off is worth it, since we will avoid the vast majority of the cost of generating the revindex that the extra pointer chase will look like noise in the following patch's benchmarks. This patch describes the format and prepares callers (like in pack-revindex.c) to be able to read *.rev files once they exist. An implementation of the writer will appear in the next patch, and callers will gradually begin to start using the writer in the patches that follow after that. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-25Merge branch 'tb/pack-revindex-api'Libravatar Junio C Hamano1-24/+52
Abstract accesses to in-core revindex that allows enumerating objects stored in a packfile in the order they appear in the pack, in preparation for introducing an on-disk precomputed revindex. * tb/pack-revindex-api: (21 commits) for_each_object_in_pack(): clarify pack vs index ordering pack-revindex.c: avoid direct revindex access in 'offset_to_pack_pos()' pack-revindex: hide the definition of 'revindex_entry' pack-revindex: remove unused 'find_revindex_position()' pack-revindex: remove unused 'find_pack_revindex()' builtin/gc.c: guess the size of the revindex for_each_object_in_pack(): convert to new revindex API unpack_entry(): convert to new revindex API packed_object_info(): convert to new revindex API retry_bad_packed_offset(): convert to new revindex API get_delta_base_oid(): convert to new revindex API rebuild_existing_bitmaps(): convert to new revindex API try_partial_reuse(): convert to new revindex API get_size_by_pos(): convert to new revindex API show_objects_for_type(): convert to new revindex API bitmap_position_packfile(): convert to new revindex API check_object(): convert to new revindex API write_reused_pack_verbatim(): convert to new revindex API write_reused_pack_one(): convert to new revindex API write_reuse_object(): convert to new revindex API ...
2021-01-14for_each_object_in_pack(): clarify pack vs index orderingLibravatar Jeff King1-6/+18
We may return objects in one of two orders: how they appear in the .idx (sorted by object id) or how they appear in the packfile itself. To further complicate matters, we have two ordering variables, "i" and "pos", and it is not clear to which order they apply. Let's clarify this by using an unambiguous name where possible, and leaving a comment for the variable that does double-duty. Signed-off-by: Jeff King <peff@peff.net> Acked-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-13for_each_object_in_pack(): convert to new revindex APILibravatar Taylor Blau1-1/+1
Avoid looking at the 'revindex' pointer directly and instead call 'pack_pos_to_index()'. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-13unpack_entry(): convert to new revindex APILibravatar Taylor Blau1-8/+18
Remove direct manipulation of the 'struct revindex_entry' type as well as calls to the deprecated API in 'packfile.c:unpack_entry()'. Usual clean-up is performed (replacing '->nr' with calls to 'pack_pos_to_index()' and so on). Add an additional check to make sure that 'obj_offset()' points at a valid object. In the case this check is violated, we cannot call 'mark_bad_packed_object()' because we don't know the OID. At the top of the call stack is do_oid_object_info_extended() (via packed_object_info()), which does mark the object. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-13packed_object_info(): convert to new revindex APILibravatar Taylor Blau1-2/+9
Convert another call of 'find_pack_revindex()' to its replacement 'pack_pos_to_offset()'. Likewise: - Avoid manipulating `struct packed_git`'s `revindex` pointer directly by removing the pointer-as-array indexing. - Add an additional guard to check that the offset 'obj_offset()' points to a real object. This should be the case with well-behaved callers to 'packed_object_info()', but isn't guarenteed. Other blocks that fill in various other values from the 'struct object_info' request handle bad inputs by setting the type to 'OBJ_BAD' and jumping to 'out'. Do the same when given a bad offset here. The previous code would have segfaulted when given a bad 'obj_offset' value, since 'find_pack_revindex()' would return 'NULL', and then the line that fills 'oi->disk_sizep' would try to access 'NULL[1]' with a stride of 16 bytes (the width of 'struct revindex_entry)'. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-13retry_bad_packed_offset(): convert to new revindex APILibravatar Taylor Blau1-4/+3
Perform exactly the same conversion as in the previous commit to another caller within 'packfile.c'. Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-13get_delta_base_oid(): convert to new revindex APILibravatar Taylor Blau1-4/+4
Replace direct accesses to the 'struct revindex' type with a call to 'pack_pos_to_index()'. Likewise drop the old-style 'find_pack_revindex()' with its replacement 'offset_to_pack_pos()' (while continuing to perform the same error checking). Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2021-01-04hash-lookup: rename from sha1-lookupLibravatar Martin Ågren1-1/+1
Change all remnants of "sha1" in hash-lookup.c and .h and rename them to reflect that we're not just able to handle SHA-1 these days. Signed-off-by: Martin Ågren <martin.agren@gmail.com> Reviewed-by: Derrick Stolee <dstolee@microsoft.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-12-08Merge branch 'tb/idx-midx-race-fix'Libravatar Junio C Hamano1-17/+2
Processes that access packdata while the .idx file gets removed (e.g. while repacking) did not fail or fall back gracefully as they could. * tb/idx-midx-race-fix: midx.c: protect against disappearing packs packfile.c: protect against disappearing indexes
2020-11-25packfile.c: protect against disappearing indexesLibravatar Taylor Blau1-17/+2
In 17c35c8969 (packfile: skip loading index if in multi-pack-index, 2018-07-12) we stopped loading the .idx file for packs that are contained within a multi-pack index. This saves us the effort of loading an .idx and doing some lightweight validity checks by way of 'packfile.c:load_idx()', but introduces a race between processes that need to load the index (e.g., to generate a reverse index) and processes that can delete the index. For example, running the following in your shell: $ git init repo && cd repo $ git commit --allow-empty -m 'base' $ git repack -ad && git multi-pack-index write followed by: $ rm -f .git/objects/pack/pack-*.idx $ git rev-parse HEAD | git cat-file --batch-check='%(objectsize:disk)' will result in a segfault prior to this patch. What's happening here is that we notice that the pack is in the multi-pack index, and so don't check that it still has a .idx. When we then try and load that index to generate a reverse index, we don't have it, so the call to 'find_pack_revindex()' in 'packfile.c:packed_object_info()' returns NULL, and then dereferencing it causes a segfault. Of course, we don't ever expect someone to remove the index file by hand, or to be in a state where we never wrote it to begin with (yet find that pack in the multi-pack-index). But, this can happen in a timing race with 'git repack -ad', which removes all existing packs after writing a new pack containing all of their objects. Avoid this by reverting the hunk of 17c35c8969 which stops loading the index when the pack is contained in a MIDX. This makes the latter half of 17c35c8969 useless, since we'll always have a non-NULL 'p->index_data', in which case that if statement isn't guarding anything. These two together effectively revert 17c35c8969, and avoid the race explained above. Co-authored-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-11-16packfile: detect overflow in .idx file size checksLibravatar Jeff King1-3/+3
In load_idx(), we check that the .idx file is sized appropriately for the number of objects it claims to have. We recently fixed the case where the number of objects caused our expected size to overflow a 32-bit unsigned int, and we switched to size_t. On a 64-bit system, this is fine; our size_t covers any expected size. On a 32-bit system, though, it won't. The file may claim to have 2^31 objects, which will overflow even a size_t. This doesn't hurt us at all for a well-formed idx file. A 32-bit system would already have failed to mmap such a file, since it would be too big. But an .idx file which _claims_ to have 2^31 objects but is actually much smaller would fool our check. This is a broken file, and for the most part we don't care that much what happens. But: - it's a little friendlier to notice up front "woah, this file is broken" than it is to get nonsense results - later access of the data assumes that the loading function sanity-checked that we have at least enough bytes for the regular object-id table. A malformed .idx file could lead to an out-of-bounds read. So let's use our overflow-checking functions to make sure that we're not fooled by a malformed file. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-11-16use size_t to store pack .idx byte offsetsLibravatar Jeff King1-2/+2
We sometimes store the offset into a pack .idx file as an "unsigned long", but the mmap'd size of a pack .idx file can exceed 4GB. This is sufficient on LP64 systems like Linux, but will be too small on LLP64 systems like Windows, where "unsigned long" is still only 32 bits. Let's use size_t, which is a better type for an offset into a memory buffer. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-11-16compute pack .idx byte offsets using size_tLibravatar Jeff King1-6/+6
A pack and its matching .idx file are limited to 2^32 objects, because the pack format contains a 32-bit field to store the number of objects. Hence we use uint32_t in the code. But the byte count of even a .idx file can be much larger than that, because it stores at least a hash and an offset for each object. So using SHA-1, a v2 .idx file will cross the 4GB boundary at 153,391,650 objects. This confuses load_idx(), which computes the minimum size like this: unsigned long min_size = 8 + 4*256 + nr*(hashsz + 4 + 4) + hashsz + hashsz; Even though min_size will be big enough on most 64-bit platforms, the actual arithmetic is done as a uint32_t, resulting in a truncation. We actually exceed that min_size, but then we do: unsigned long max_size = min_size; if (nr) max_size += (nr - 1)*8; to account for the variable-sized table. That computation doesn't overflow quite so low, but with the truncation for min_size, we end up with a max_size that is much smaller than our actual size. So we complain that the idx is invalid, and can't find any of its objects. We can fix this case by casting "nr" to a size_t, which will do the multiplication in 64-bits (assuming you're on a 64-bit platform; this will never work on a 32-bit system since we couldn't map the whole .idx anyway). Likewise, we don't have to worry about further additions, because adding a smaller number to a size_t will convert the other side to a size_t. A few notes: - obviously we could just declare "nr" as a size_t in the first place (and likewise, packed_git.num_objects). But it's conceptually a uint32_t because of the on-disk format, and we correctly treat it that way in other contexts that don't need to compute byte offsets (e.g., iterating over the set of objects should and generally does use a uint32_t). Switching to size_t would make all of those other cases look wrong. - it could be argued that the proper type is off_t to represent the file offset. But in practice the .idx file must fit within memory, because we mmap the whole thing. And the rest of the code (including the idx_size variable we're comparing against) uses size_t. - we'll add the same cast to the max_size arithmetic line. Even though we're adding to a larger type, which will convert our result, the multiplication is still done as a 32-bit value and can itself overflow. I didn't check this with my test case, since it would need an even larger pack (~530M objects), but looking at compiler output shows that it works this way. The standard should agree, but I couldn't find anything explicit in 6.3.1.8 ("usual arithmetic conversions"). The case in load_idx() was the most immediate one that I was able to trigger. After fixing it, looking up actual objects (including the very last one in sha1 order) works in a test repo with 153,725,110 objects. That's because bsearch_hash() works with uint32_t entry indices, and the actual byte access: int cmp = hashcmp(table + mi * stride, sha1); is done with "stride" as a size_t, causing the uint32_t "mi" to be promoted to a size_t. This is the way most code will access the index data. However, I audited all of the other byte-wise accesses of packed_git.index_data, and many of the others are suspect (they are similar to the max_size one, where we are adding to a properly sized offset or directly to a pointer, but the multiplication in the sub-expression can overflow). I didn't trigger any of these in practice, but I believe they're potential problems, and certainly adding in the cast is not going to hurt anything here. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-10-04Merge branch 'mt/delta-base-cache-races'Libravatar Junio C Hamano1-19/+29
A race that leads to an access to a free'd data was corrected in the codepath that reads pack files. * mt/delta-base-cache-races: packfile: fix memory leak in add_delta_base_cache() packfile: fix race condition on unpack_entry()
2020-09-28packfile: fix memory leak in add_delta_base_cache()Libravatar Matheus Tavares1-2/+5
When add_delta_base_cache() is called with a base that is already in the cache, no operation is performed. But the check is done after allocating space for a new entry, so we end up leaking memory on the early return. In addition, the caller never free()'s the base as it expects the function to take ownership of it. But the base is not released when we skip insertion, so it also gets leaked. To fix these problems, move the allocation of a new entry further down in add_delta_base_cache(), and free() the base on early return. Signed-off-by: Matheus Tavares <matheus.bernardino@usp.br> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-09-28packfile: fix race condition on unpack_entry()Libravatar Matheus Tavares1-17/+24
The third phase of unpack_entry() performs the following sequence in a loop, until all the deltas enumerated in phase one are applied and the entry is fully reconstructed: 1. Add the current base entry to the delta base cache 2. Unpack the next delta 3. Patch the unpacked delta on top of the base When the optional object reading lock is enabled, the above steps will be performed while holding the lock. However, step 2. momentarily releases it so that inflation can be performed in parallel for increased performance. Because the `base` buffer inserted in the cache at 1. is not duplicated, another thread can potentially free() it while the lock is released at 2. (e.g. when there is no space left in the cache to insert another entry). In this case, the later attempt to dereference `base` at 3. will cause a segmentation fault. This problem was observed during a multithreaded git-grep execution on a repository with large objects. To fix the race condition (and later segmentation fault), let's reorder the aforementioned steps so that `base` is only added to the cache at the end. This will prevent the buffer from being released by another thread while it is still in use. An alternative solution which would not require the reordering would be to duplicate `base` before inserting it in the cache. However, as Phil Hord mentioned, memcpy()'ing large bases can negatively affect performance: in his experiments, this alternative approach slowed git-grep down by 10% to 20%. Reported-by: Phil Hord <phil.hord@gmail.com> Signed-off-by: Matheus Tavares <matheus.bernardino@usp.br> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-09-22Merge branch 'jk/dont-count-existing-objects-twice'Libravatar Junio C Hamano1-0/+1
There is a logic to estimate how many objects are in the repository, which is mean to run once per process invocation, but it ran every time the estimated value was requested. * jk/dont-count-existing-objects-twice: packfile: actually set approximate_object_count_valid
2020-09-17packfile: actually set approximate_object_count_validLibravatar Jeff King1-0/+1
The approximate_object_count() function tries to compute the count only once per process. But ever since it was introduced in 8e3f52d778 (find_unique_abbrev: move logic out of get_short_sha1(), 2016-10-03), we failed to actually set the "valid" flag, meaning we'd compute it fresh on every call. This turns out not to be _too_ bad, because we're only iterating through the packed_git list, and not making any system calls. But since it may get called for every abbreviated hash we output, even this can add up if you have many packs. Here are before-and-after timings for a new perf test which just asks rev-list to abbreviate each commit hash (the test repo is linux.git, with commit-graphs): Test origin HEAD ---------------------------------------------------------------------------- 5303.3: rev-list (1) 28.91(28.46+0.44) 29.03(28.65+0.38) +0.4% 5303.4: abbrev-commit (1) 1.18(1.06+0.11) 1.17(1.02+0.14) -0.8% 5303.7: rev-list (50) 28.95(28.56+0.38) 29.50(29.17+0.32) +1.9% 5303.8: abbrev-commit (50) 3.67(3.56+0.10) 3.57(3.42+0.15) -2.7% 5303.11: rev-list (1000) 30.34(29.89+0.43) 30.82(30.35+0.46) +1.6% 5303.12: abbrev-commit (1000) 86.82(86.52+0.29) 77.82(77.59+0.22) -10.4% 5303.15: load 10,000 packs 0.08(0.02+0.05) 0.08(0.02+0.06) +0.0% It doesn't help at all when we have 1 pack (5303.4), but we get a 10% speedup when there are 1000 packs (5303.12). That's a modest speedup for a case that's already slow and we'd hope to avoid in general (note how slow it is even after, because we have to look in each of those packs for abbreviations). But it's a one-line change that clearly matches the original intent, so it seems worth doing. The included perf test may also be useful for keeping an eye on any regressions in the overall abbreviation code. Reported-by: Rasmus Villemoes <rv@rasmusvillemoes.dk> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-08-28midx: traverse the local MIDX firstLibravatar Taylor Blau1-0/+11
When a repository has an alternate object directory configured, callers can traverse through each alternate's MIDX by walking the '->next' pointer. But, when 'prepare_multi_pack_index_one()' loads multiple MIDXs, it places the new ones at the front of this pointer chain, not at the end. This can be confusing for callers such as 'git repack -ad', causing test failures like in t7700.6 with 'GIT_TEST_MULTI_PACK_INDEX=1'. The occurs when dropping a pack known to the local MIDX with alternates configured that have their own MIDX. Since the alternate's MIDX is returned via 'get_multi_pack_index()', 'midx_contains_pack()' returns true (which is correct, since it traverses through the '->next' pointer to find the MIDX in the chain that does contain the requested object). But, we call 'clear_midx_file()' on 'the_repository', which drops the MIDX at the path of the first MIDX in the chain, which (in the case of t7700.6 is the one in the alternate). This patch addresses that by: - placing the local MIDX first in the chain when calling 'prepare_multi_pack_index_one()', and - introducing a new 'get_local_multi_pack_index()', which explicitly returns the repository-local MIDX, if any. Don't impose an additional order on the MIDX's '->next' pointer beyond that the first item in the chain must be local if one exists so that we avoid a quadratic insertion. Likewise, use 'get_local_multi_pack_index()' in 'remove_redundant_pack()' to fix the formerly broken t7700.6 when run with 'GIT_TEST_MULTI_PACK_INDEX=1'. Finally, note that the MIDX ordering invariant is only preserved by the insertion order in 'prepare_packed_git()', which traverses through the ODB's '->next' pointer, meaning we visit the local object store first. This fragility makes this an undesirable long-term solution if more callers are added, but it is acceptable for now since this is the only caller. Helped-by: Jeff King <peff@peff.net> Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Taylor Blau <me@ttaylorr.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-05-27packfile: compute and use the index CRC offsetLibravatar brian m. carlson1-0/+1
Both v2 pack index files and the v3 format specified as part of the NewHash work have similar data starting at the CRC table. Much of the existing code wants to read either this table or the offset entries following it, and in doing so computes the offset each time. In order to share as much code between v2 and v3, compute the offset of the CRC table and store it when the pack is opened. Use this value to compute offsets to not only the CRC table, but to the offset entries beyond it. Signed-off-by: brian m. carlson <sandals@crustytoothpaste.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-02-24packfile: drop nth_packed_object_sha1()Libravatar Jeff King1-16/+7
Once upon a time, nth_packed_object_sha1() was the primary way to get the oid of a packfile's index position. But these days we have the more type-safe nth_packed_object_id() wrapper, and all callers have been converted. Let's drop the "sha1" version (turning the safer wrapper into a single function) so that nobody is tempted to introduce new callers. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-02-24packed_object_info(): use object_id internally for delta baseLibravatar Jeff King1-17/+15
The previous commit changed the public interface of packed_object_info() to return a struct object_id rather than a bare hash. That enables us to convert our internal helper, as well. We can use nth_packed_object_id() directly for OFS_DELTA, but we'll still have to use oidread() to pull the hash for a REF_DELTA out of the packfile. There should be no additional cost, since we're copying directly into the object_id the caller provided us (just as we did before; it's just happening now via nth_packed_object_id()). Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-02-24packed_object_info(): use object_id for returning delta baseLibravatar Jeff King1-3/+3
If a caller sets the object_info.delta_base_sha1 to a non-NULL pointer, we'll write the oid of the object's delta base to it. But we can increase our type safety by switching this to a real object_id struct. All of our callers are just pointing into the hash member of an object_id anyway, so there's no inconvenience. Note that we do still keep it as a pointer-to-struct, because the NULL sentinel value tells us whether the caller is even interested in the information. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-02-24nth_packed_object_oid(): use customary integer returnLibravatar Jeff King1-9/+9
Our nth_packed_object_sha1() function returns NULL for error. So when we wrapped it with nth_packed_object_oid(), we kept the same semantics. But it's a bit funny, because the caller actually passes in an out parameter, and the pointer we return is just that same struct they passed to us (or NULL). It's not too terrible, but it does make the interface a little non-idiomatic. Let's switch to our usual "0 for success, negative for error" return value. Most callers either don't check it, or are trivially converted. The one that requires the biggest change is actually improved, as we can ditch an extra aliased pointer variable. Since we are changing the interface in a subtle way that the compiler wouldn't catch, let's also change the name to catch any topics in flight. We can drop the 'o' and make it nth_packed_object_id(). That's slightly shorter, but also less redundant since the 'o' stands for "object" already. Signed-off-by: Jeff King <peff@peff.net> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-02-14Merge branch 'mt/threaded-grep-in-object-store'Libravatar Junio C Hamano1-0/+34
Traditionally, we avoided threaded grep while searching in objects (as opposed to files in the working tree) as accesses to the object layer is not thread-safe. This limitation is getting lifted. * mt/threaded-grep-in-object-store: grep: use no. of cores as the default no. of threads grep: move driver pre-load out of critical section grep: re-enable threads in non-worktree case grep: protect packed_git [re-]initialization grep: allow submodule functions to run in parallel submodule-config: add skip_if_read option to repo_read_gitmodules() grep: replace grep_read_mutex by internal obj read lock object-store: allow threaded access to object reading replace-object: make replace operations thread-safe grep: fix racy calls in grep_objects() grep: fix race conditions at grep_submodule() grep: fix race conditions on userdiff calls
2020-02-14Merge branch 'jk/packfile-reuse-cleanup'Libravatar Junio C Hamano1-5/+5
The way "git pack-objects" reuses objects stored in existing pack to generate its result has been improved. * jk/packfile-reuse-cleanup: pack-bitmap: don't rely on bitmap_git->reuse_objects pack-objects: add checks for duplicate objects pack-objects: improve partial packfile reuse builtin/pack-objects: introduce obj_is_packed() pack-objects: introduce pack.allowPackReuse csum-file: introduce hashfile_total() pack-bitmap: simplify bitmap_has_oid_in_uninteresting() pack-bitmap: uninteresting oid can be outside bitmapped packfile pack-bitmap: introduce bitmap_walk_contains() ewah/bitmap: introduce bitmap_word_alloc() packfile: expose get_delta_base() builtin/pack-objects: report reused packfile objects
2020-01-17grep: protect packed_git [re-]initializationLibravatar Matheus Tavares1-0/+2
Some fields in struct raw_object_store are lazy initialized by the thread-unsafe packfile.c:prepare_packed_git(). Although this function is present in the call stack of git-grep threads, all paths to it are currently protected by obj_read_lock() (and the main thread usually indirectly calls it before firing the worker threads, anyway). However, it's possible that future modifications add new unprotected paths to it, introducing a race condition. Because errors derived from it wouldn't happen often, it could be hard to detect. So to prevent future headaches, let's force eager initialization of packed_git when setting git-grep up. There'll be a small overhead in the cases where we didn't really need to prepare packed_git during execution but this shouldn't be very noticeable. Also, packed_git may be re-initialized by packfile.c:reprepare_packed_git(). Again, all paths to it in git-grep are already protected by obj_read_lock() but it may suffer from the same problem in the future. So let's also internally protect it with obj_read_lock() (which is a recursive mutex). Signed-off-by: Matheus Tavares <matheus.bernardino@usp.br> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-01-17object-store: allow threaded access to object readingLibravatar Matheus Tavares1-0/+32
Allow object reading to be performed by multiple threads protecting it with an internal lock, the obj_read_mutex. The lock usage can be toggled with enable_obj_read_lock() and disable_obj_read_lock(). Currently, the functions which can be safely called in parallel are: read_object_file_extended(), repo_read_object_file(), read_object_file(), read_object_with_reference(), read_object(), oid_object_info() and oid_object_info_extended(). It's also possible to use obj_read_lock() and obj_read_unlock() to protect other sections that cannot execute in parallel with object reading. Probably there are many spots in the functions listed above that could be executed unlocked (and thus, in parallel). But, for now, we are most interested in allowing parallel access to zlib inflation. This is one of the sections where object reading spends most of the time in (e.g. up to one-third of git-grep's execution time in the chromium repo corresponds to inflation) and it's already thread-safe. So, to take advantage of that, the obj_read_mutex is released when calling git_inflate() and re-acquired right after, for every calling spot in oid_object_info_extended()'s call chain. We may refine this lock to also exploit other possible parallel spots in the future, but for now, threaded zlib inflation should already give great speedups for threaded object reading callers. Note that add_delta_base_cache() was also modified to skip adding already present entries to the cache. This wasn't possible before, but it would be now, with the parallel inflation. Take for example the following situation, where two threads - A and B - are executing the code at unpack_entry(): 1. Thread A is performing the decompression of a base O (which is not yet in the cache) at PHASE II. Thread B is simultaneously trying to unpack O, but just starting at PHASE I. 2. Since O is not yet in the cache, B will go to PHASE II to also perform the decompression. 3. When they finish decompressing, one of them will get the object reading mutex and go to PHASE III while the other waits for the mutex. Let’s say A got the mutex first. 4. Thread A will add O to the cache, go throughout the rest of PHASE III and return. 5. Thread B gets the mutex, also add O to the cache (if the check wasn't there) and returns. Finally, it is also important to highlight that the object reading lock can only ensure thread-safety in the mentioned functions thanks to two complementary mechanisms: the use of 'struct raw_object_store's replace_mutex, which guards sections in the object reading machinery that would otherwise be thread-unsafe; and the 'struct pack_window's inuse_cnt, which protects window reading operations (such as the one performed during the inflation of a packed object), allowing them to execute without the acquisition of the obj_read_mutex. Signed-off-by: Matheus Tavares <matheus.bernardino@usp.br> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2020-01-06Merge branch 'ew/packfile-syscall-optim'Libravatar Junio C Hamano1-14/+2
Code cleanup. * ew/packfile-syscall-optim: packfile: replace lseek+read with pread packfile: remove redundant fcntl F_GETFD/F_SETFD
2019-12-26packfile: replace lseek+read with preadLibravatar Eric Wong1-3/+2
We already have pread emulation for portability, so there's there's no reason to make two syscalls where one suffices. Furthermore, readers of the packfile will be using mmap (or pread to emulate mmap), anyways, so the file description offset does not matter in this case. Signed-off-by: Eric Wong <e@80x24.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-12-26packfile: remove redundant fcntl F_GETFD/F_SETFDLibravatar Eric Wong1-11/+0
git_open sets close-on-exec since cd66ada06588f797 ("sha1_file: open window into packfiles with O_CLOEXEC"). There's no reason to keep using fcntl to set the close-on-exec flag, anymore. Signed-off-by: Eric Wong <e@80x24.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-12-03packfile.c: speed up loading lots of packfilesLibravatar Colin Stolley1-9/+10
When loading packfiles on start-up, we traverse the internal packfile list once per file to avoid reloading packfiles that have already been loaded. This check runs in quadratic time, so for poorly maintained repos with a large number of packfiles, it can be pretty slow. Add a hashmap containing the packfile names as we load them so that the average runtime cost of checking for already-loaded packs becomes constant. Add a perf test to p5303 to show speed-up. The existing p5303 test runtimes are dominated by other factors and do not show an appreciable speed-up. The new test in p5303 clearly exposes a speed-up in bad cases. In this test we create 10,000 packfiles and measure the start-up time of git rev-parse, which does little else besides load in the packs. Here are the numbers for the new p5303 test: Test HEAD^ HEAD --------------------------------------------------------------------- 5303.12: load 10,000 packs 1.03(0.92+0.10) 0.12(0.02+0.09) -88.3% Signed-off-by: Colin Stolley <cstolley@runbox.com> Helped-by: Jeff King <peff@peff.net> [jc: squashed the change to call hashmap in install_packed_git() by peff] Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-15Merge branch 'ew/hashmap'Libravatar Junio C Hamano1-8/+14
Code clean-up of the hashmap API, both users and implementation. * ew/hashmap: hashmap_entry: remove first member requirement from docs hashmap: remove type arg from hashmap_{get,put,remove}_entry OFFSETOF_VAR macro to simplify hashmap iterators hashmap: introduce hashmap_free_entries hashmap: hashmap_{put,remove} return hashmap_entry * hashmap: use *_entry APIs for iteration hashmap_cmp_fn takes hashmap_entry params hashmap_get{,_from_hash} return "struct hashmap_entry *" hashmap: use *_entry APIs to wrap container_of hashmap_get_next returns "struct hashmap_entry *" introduce container_of macro hashmap_put takes "struct hashmap_entry *" hashmap_remove takes "const struct hashmap_entry *" hashmap_get takes "const struct hashmap_entry *" hashmap_add takes "struct hashmap_entry *" hashmap_get_next takes "const struct hashmap_entry *" hashmap_entry_init takes "struct hashmap_entry *" packfile: use hashmap_entry in delta_base_cache_entry coccicheck: detect hashmap_entry.hash assignment diff: use hashmap_entry_init on moved_entry.ent
2019-10-11Merge branch 'rs/dedup-includes'Libravatar Junio C Hamano1-1/+0
Code cleanup. * rs/dedup-includes: treewide: remove duplicate #include directives
2019-10-11Merge branch 'bc/object-id-part17'Libravatar Junio C Hamano1-2/+2
Preparation for SHA-256 upgrade continues. * bc/object-id-part17: (26 commits) midx: switch to using the_hash_algo builtin/show-index: replace sha1_to_hex rerere: replace sha1_to_hex builtin/receive-pack: replace sha1_to_hex builtin/index-pack: replace sha1_to_hex packfile: replace sha1_to_hex wt-status: convert struct wt_status to object_id cache: remove null_sha1 builtin/worktree: switch null_sha1 to null_oid builtin/repack: write object IDs of the proper length pack-write: use hash_to_hex when writing checksums sequencer: convert to use the_hash_algo bisect: switch to using the_hash_algo sha1-lookup: switch hard-coded constants to the_hash_algo config: use the_hash_algo in abbrev comparison combine-diff: replace GIT_SHA1_HEXSZ with the_hash_algo bundle: switch to use the_hash_algo connected: switch GIT_SHA1_HEXSZ to the_hash_algo show-index: switch hard-coded constants to the_hash_algo blame: remove needless comparison with GIT_SHA1_HEXSZ ...
2019-10-07hashmap_cmp_fn takes hashmap_entry paramsLibravatar Eric Wong1-2/+7
Another step in eliminating the requirement of hashmap_entry being the first member of a struct. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-07hashmap_get{,_from_hash} return "struct hashmap_entry *"Libravatar Eric Wong1-2/+3
Update callers to use hashmap_get_entry, hashmap_get_entry_from_hash or container_of as appropriate. This is another step towards eliminating the requirement of hashmap_entry being the first field in a struct. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-07hashmap_remove takes "const struct hashmap_entry *"Libravatar Eric Wong1-1/+1
This is less error-prone than "const void *" as the compiler now detects invalid types being passed. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-07hashmap_add takes "struct hashmap_entry *"Libravatar Eric Wong1-1/+1
This is less error-prone than "void *" as the compiler now detects invalid types being passed. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-07hashmap_entry_init takes "struct hashmap_entry *"Libravatar Eric Wong1-1/+1
C compilers do type checking to make life easier for us. So rely on that and update all hashmap_entry_init callers to take "struct hashmap_entry *" to avoid future bugs while improving safety and readability. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-07packfile: use hashmap_entry in delta_base_cache_entryLibravatar Eric Wong1-1/+1
This hashmap_entry_init function is intended to take a hashmap_entry struct pointer, not a hashmap struct pointer. This was not noticed because hashmap_entry_init takes a "void *" arg instead of "struct hashmap_entry *", and the hashmap struct is larger and can be cast into a hashmap_entry struct without data corruption. This has the beneficial side effect of reducing the size of a delta_base_cache_entry from 104 bytes to 72 bytes on 64-bit systems. Signed-off-by: Eric Wong <e@80x24.org> Reviewed-by: Derrick Stolee <stolee@gmail.com> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2019-10-04treewide: remove duplicate #include directivesLibravatar René Scharfe1-1/+0
Found with "git grep '^#include ' '*.c' | sort | uniq -d". Signed-off-by: René Scharfe <l.s.r@web.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>