6ee353d42f
The approach to "fsck" the incoming objects in "index-pack" is attractive for performance reasons (we have them already in core, inflated and ready to be inspected), but fundamentally cannot be applied fully when we receive more than one pack stream, as a tree object in one pack may refer to a blob object in another pack as ".gitmodules", when we want to inspect blobs that are used as ".gitmodules" file, for example. Teach "index-pack" to emit objects that must be inspected later and check them in the calling "fetch-pack" process. * jt/transfer-fsck-across-packs: fetch-pack: print and use dangling .gitmodules fetch-pack: with packfile URIs, use index-pack arg http-fetch: allow custom index-pack args http: allow custom index-pack args
510 lines
14 KiB
C
510 lines
14 KiB
C
#include "cache.h"
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#include "pack.h"
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#include "csum-file.h"
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#include "remote.h"
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void reset_pack_idx_option(struct pack_idx_option *opts)
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{
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memset(opts, 0, sizeof(*opts));
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opts->version = 2;
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opts->off32_limit = 0x7fffffff;
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}
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static int sha1_compare(const void *_a, const void *_b)
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{
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struct pack_idx_entry *a = *(struct pack_idx_entry **)_a;
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struct pack_idx_entry *b = *(struct pack_idx_entry **)_b;
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return oidcmp(&a->oid, &b->oid);
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}
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static int cmp_uint32(const void *a_, const void *b_)
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{
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uint32_t a = *((uint32_t *)a_);
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uint32_t b = *((uint32_t *)b_);
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return (a < b) ? -1 : (a != b);
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}
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static int need_large_offset(off_t offset, const struct pack_idx_option *opts)
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{
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uint32_t ofsval;
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if ((offset >> 31) || (opts->off32_limit < offset))
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return 1;
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if (!opts->anomaly_nr)
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return 0;
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ofsval = offset;
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return !!bsearch(&ofsval, opts->anomaly, opts->anomaly_nr,
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sizeof(ofsval), cmp_uint32);
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}
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/*
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* The *sha1 contains the pack content SHA1 hash.
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* The objects array passed in will be sorted by SHA1 on exit.
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*/
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const char *write_idx_file(const char *index_name, struct pack_idx_entry **objects,
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int nr_objects, const struct pack_idx_option *opts,
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const unsigned char *sha1)
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{
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struct hashfile *f;
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struct pack_idx_entry **sorted_by_sha, **list, **last;
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off_t last_obj_offset = 0;
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int i, fd;
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uint32_t index_version;
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if (nr_objects) {
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sorted_by_sha = objects;
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list = sorted_by_sha;
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last = sorted_by_sha + nr_objects;
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for (i = 0; i < nr_objects; ++i) {
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if (objects[i]->offset > last_obj_offset)
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last_obj_offset = objects[i]->offset;
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}
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QSORT(sorted_by_sha, nr_objects, sha1_compare);
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}
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else
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sorted_by_sha = list = last = NULL;
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if (opts->flags & WRITE_IDX_VERIFY) {
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assert(index_name);
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f = hashfd_check(index_name);
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} else {
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if (!index_name) {
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struct strbuf tmp_file = STRBUF_INIT;
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fd = odb_mkstemp(&tmp_file, "pack/tmp_idx_XXXXXX");
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index_name = strbuf_detach(&tmp_file, NULL);
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} else {
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unlink(index_name);
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fd = open(index_name, O_CREAT|O_EXCL|O_WRONLY, 0600);
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if (fd < 0)
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die_errno("unable to create '%s'", index_name);
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}
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f = hashfd(fd, index_name);
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}
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/* if last object's offset is >= 2^31 we should use index V2 */
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index_version = need_large_offset(last_obj_offset, opts) ? 2 : opts->version;
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/* index versions 2 and above need a header */
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if (index_version >= 2) {
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struct pack_idx_header hdr;
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hdr.idx_signature = htonl(PACK_IDX_SIGNATURE);
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hdr.idx_version = htonl(index_version);
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hashwrite(f, &hdr, sizeof(hdr));
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}
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/*
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* Write the first-level table (the list is sorted,
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* but we use a 256-entry lookup to be able to avoid
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* having to do eight extra binary search iterations).
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*/
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for (i = 0; i < 256; i++) {
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struct pack_idx_entry **next = list;
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while (next < last) {
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struct pack_idx_entry *obj = *next;
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if (obj->oid.hash[0] != i)
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break;
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next++;
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}
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hashwrite_be32(f, next - sorted_by_sha);
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list = next;
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}
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/*
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* Write the actual SHA1 entries..
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*/
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list = sorted_by_sha;
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for (i = 0; i < nr_objects; i++) {
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struct pack_idx_entry *obj = *list++;
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if (index_version < 2)
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hashwrite_be32(f, obj->offset);
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hashwrite(f, obj->oid.hash, the_hash_algo->rawsz);
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if ((opts->flags & WRITE_IDX_STRICT) &&
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(i && oideq(&list[-2]->oid, &obj->oid)))
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die("The same object %s appears twice in the pack",
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oid_to_hex(&obj->oid));
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}
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if (index_version >= 2) {
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unsigned int nr_large_offset = 0;
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/* write the crc32 table */
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list = sorted_by_sha;
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for (i = 0; i < nr_objects; i++) {
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struct pack_idx_entry *obj = *list++;
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hashwrite_be32(f, obj->crc32);
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}
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/* write the 32-bit offset table */
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list = sorted_by_sha;
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for (i = 0; i < nr_objects; i++) {
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struct pack_idx_entry *obj = *list++;
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uint32_t offset;
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offset = (need_large_offset(obj->offset, opts)
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? (0x80000000 | nr_large_offset++)
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: obj->offset);
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hashwrite_be32(f, offset);
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}
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/* write the large offset table */
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list = sorted_by_sha;
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while (nr_large_offset) {
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struct pack_idx_entry *obj = *list++;
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uint64_t offset = obj->offset;
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if (!need_large_offset(offset, opts))
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continue;
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hashwrite_be64(f, offset);
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nr_large_offset--;
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}
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}
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hashwrite(f, sha1, the_hash_algo->rawsz);
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finalize_hashfile(f, NULL, CSUM_HASH_IN_STREAM | CSUM_CLOSE |
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((opts->flags & WRITE_IDX_VERIFY)
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? 0 : CSUM_FSYNC));
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return index_name;
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}
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static int pack_order_cmp(const void *va, const void *vb, void *ctx)
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{
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struct pack_idx_entry **objects = ctx;
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off_t oa = objects[*(uint32_t*)va]->offset;
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off_t ob = objects[*(uint32_t*)vb]->offset;
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if (oa < ob)
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return -1;
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if (oa > ob)
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return 1;
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return 0;
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}
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static void write_rev_header(struct hashfile *f)
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{
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uint32_t oid_version;
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switch (hash_algo_by_ptr(the_hash_algo)) {
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case GIT_HASH_SHA1:
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oid_version = 1;
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break;
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case GIT_HASH_SHA256:
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oid_version = 2;
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break;
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default:
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die("write_rev_header: unknown hash version");
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}
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hashwrite_be32(f, RIDX_SIGNATURE);
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hashwrite_be32(f, RIDX_VERSION);
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hashwrite_be32(f, oid_version);
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}
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static void write_rev_index_positions(struct hashfile *f,
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struct pack_idx_entry **objects,
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uint32_t nr_objects)
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{
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uint32_t *pack_order;
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uint32_t i;
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ALLOC_ARRAY(pack_order, nr_objects);
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for (i = 0; i < nr_objects; i++)
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pack_order[i] = i;
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QSORT_S(pack_order, nr_objects, pack_order_cmp, objects);
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for (i = 0; i < nr_objects; i++)
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hashwrite_be32(f, pack_order[i]);
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free(pack_order);
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}
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static void write_rev_trailer(struct hashfile *f, const unsigned char *hash)
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{
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hashwrite(f, hash, the_hash_algo->rawsz);
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}
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const char *write_rev_file(const char *rev_name,
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struct pack_idx_entry **objects,
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uint32_t nr_objects,
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const unsigned char *hash,
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unsigned flags)
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{
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struct hashfile *f;
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int fd;
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if ((flags & WRITE_REV) && (flags & WRITE_REV_VERIFY))
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die(_("cannot both write and verify reverse index"));
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if (flags & WRITE_REV) {
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if (!rev_name) {
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struct strbuf tmp_file = STRBUF_INIT;
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fd = odb_mkstemp(&tmp_file, "pack/tmp_rev_XXXXXX");
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rev_name = strbuf_detach(&tmp_file, NULL);
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} else {
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unlink(rev_name);
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fd = open(rev_name, O_CREAT|O_EXCL|O_WRONLY, 0600);
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if (fd < 0)
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die_errno("unable to create '%s'", rev_name);
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}
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f = hashfd(fd, rev_name);
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} else if (flags & WRITE_REV_VERIFY) {
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struct stat statbuf;
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if (stat(rev_name, &statbuf)) {
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if (errno == ENOENT) {
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/* .rev files are optional */
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return NULL;
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} else
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die_errno(_("could not stat: %s"), rev_name);
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}
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f = hashfd_check(rev_name);
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} else
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return NULL;
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write_rev_header(f);
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write_rev_index_positions(f, objects, nr_objects);
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write_rev_trailer(f, hash);
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if (rev_name && adjust_shared_perm(rev_name) < 0)
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die(_("failed to make %s readable"), rev_name);
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finalize_hashfile(f, NULL, CSUM_HASH_IN_STREAM | CSUM_CLOSE |
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((flags & WRITE_IDX_VERIFY) ? 0 : CSUM_FSYNC));
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return rev_name;
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}
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off_t write_pack_header(struct hashfile *f, uint32_t nr_entries)
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{
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struct pack_header hdr;
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hdr.hdr_signature = htonl(PACK_SIGNATURE);
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hdr.hdr_version = htonl(PACK_VERSION);
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hdr.hdr_entries = htonl(nr_entries);
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hashwrite(f, &hdr, sizeof(hdr));
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return sizeof(hdr);
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}
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/*
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* Update pack header with object_count and compute new SHA1 for pack data
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* associated to pack_fd, and write that SHA1 at the end. That new SHA1
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* is also returned in new_pack_sha1.
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*
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* If partial_pack_sha1 is non null, then the SHA1 of the existing pack
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* (without the header update) is computed and validated against the
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* one provided in partial_pack_sha1. The validation is performed at
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* partial_pack_offset bytes in the pack file. The SHA1 of the remaining
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* data (i.e. from partial_pack_offset to the end) is then computed and
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* returned in partial_pack_sha1.
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*
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* Note that new_pack_sha1 is updated last, so both new_pack_sha1 and
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* partial_pack_sha1 can refer to the same buffer if the caller is not
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* interested in the resulting SHA1 of pack data above partial_pack_offset.
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*/
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void fixup_pack_header_footer(int pack_fd,
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unsigned char *new_pack_hash,
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const char *pack_name,
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uint32_t object_count,
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unsigned char *partial_pack_hash,
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off_t partial_pack_offset)
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{
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int aligned_sz, buf_sz = 8 * 1024;
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git_hash_ctx old_hash_ctx, new_hash_ctx;
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struct pack_header hdr;
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char *buf;
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ssize_t read_result;
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the_hash_algo->init_fn(&old_hash_ctx);
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the_hash_algo->init_fn(&new_hash_ctx);
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if (lseek(pack_fd, 0, SEEK_SET) != 0)
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die_errno("Failed seeking to start of '%s'", pack_name);
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read_result = read_in_full(pack_fd, &hdr, sizeof(hdr));
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if (read_result < 0)
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die_errno("Unable to reread header of '%s'", pack_name);
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else if (read_result != sizeof(hdr))
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die_errno("Unexpected short read for header of '%s'",
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pack_name);
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if (lseek(pack_fd, 0, SEEK_SET) != 0)
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die_errno("Failed seeking to start of '%s'", pack_name);
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the_hash_algo->update_fn(&old_hash_ctx, &hdr, sizeof(hdr));
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hdr.hdr_entries = htonl(object_count);
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the_hash_algo->update_fn(&new_hash_ctx, &hdr, sizeof(hdr));
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write_or_die(pack_fd, &hdr, sizeof(hdr));
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partial_pack_offset -= sizeof(hdr);
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buf = xmalloc(buf_sz);
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aligned_sz = buf_sz - sizeof(hdr);
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for (;;) {
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ssize_t m, n;
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m = (partial_pack_hash && partial_pack_offset < aligned_sz) ?
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partial_pack_offset : aligned_sz;
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n = xread(pack_fd, buf, m);
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if (!n)
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break;
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if (n < 0)
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die_errno("Failed to checksum '%s'", pack_name);
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the_hash_algo->update_fn(&new_hash_ctx, buf, n);
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aligned_sz -= n;
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if (!aligned_sz)
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aligned_sz = buf_sz;
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if (!partial_pack_hash)
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continue;
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the_hash_algo->update_fn(&old_hash_ctx, buf, n);
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partial_pack_offset -= n;
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if (partial_pack_offset == 0) {
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unsigned char hash[GIT_MAX_RAWSZ];
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the_hash_algo->final_fn(hash, &old_hash_ctx);
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if (!hasheq(hash, partial_pack_hash))
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die("Unexpected checksum for %s "
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"(disk corruption?)", pack_name);
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/*
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* Now let's compute the SHA1 of the remainder of the
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* pack, which also means making partial_pack_offset
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* big enough not to matter anymore.
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*/
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the_hash_algo->init_fn(&old_hash_ctx);
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partial_pack_offset = ~partial_pack_offset;
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partial_pack_offset -= MSB(partial_pack_offset, 1);
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}
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}
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free(buf);
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if (partial_pack_hash)
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the_hash_algo->final_fn(partial_pack_hash, &old_hash_ctx);
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the_hash_algo->final_fn(new_pack_hash, &new_hash_ctx);
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write_or_die(pack_fd, new_pack_hash, the_hash_algo->rawsz);
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fsync_or_die(pack_fd, pack_name);
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}
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char *index_pack_lockfile(int ip_out, int *is_well_formed)
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{
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char packname[GIT_MAX_HEXSZ + 6];
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const int len = the_hash_algo->hexsz + 6;
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/*
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* The first thing we expect from index-pack's output
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* is "pack\t%40s\n" or "keep\t%40s\n" (46 bytes) where
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* %40s is the newly created pack SHA1 name. In the "keep"
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* case, we need it to remove the corresponding .keep file
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* later on. If we don't get that then tough luck with it.
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*/
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if (read_in_full(ip_out, packname, len) == len && packname[len-1] == '\n') {
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const char *name;
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if (is_well_formed)
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*is_well_formed = 1;
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packname[len-1] = 0;
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if (skip_prefix(packname, "keep\t", &name))
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return xstrfmt("%s/pack/pack-%s.keep",
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get_object_directory(), name);
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return NULL;
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}
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if (is_well_formed)
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*is_well_formed = 0;
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return NULL;
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}
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/*
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* The per-object header is a pretty dense thing, which is
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* - first byte: low four bits are "size", then three bits of "type",
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* and the high bit is "size continues".
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* - each byte afterwards: low seven bits are size continuation,
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* with the high bit being "size continues"
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*/
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int encode_in_pack_object_header(unsigned char *hdr, int hdr_len,
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enum object_type type, uintmax_t size)
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{
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int n = 1;
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unsigned char c;
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if (type < OBJ_COMMIT || type > OBJ_REF_DELTA)
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die("bad type %d", type);
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c = (type << 4) | (size & 15);
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size >>= 4;
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while (size) {
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if (n == hdr_len)
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die("object size is too enormous to format");
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*hdr++ = c | 0x80;
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c = size & 0x7f;
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size >>= 7;
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n++;
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}
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*hdr = c;
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return n;
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}
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struct hashfile *create_tmp_packfile(char **pack_tmp_name)
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{
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struct strbuf tmpname = STRBUF_INIT;
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int fd;
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fd = odb_mkstemp(&tmpname, "pack/tmp_pack_XXXXXX");
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*pack_tmp_name = strbuf_detach(&tmpname, NULL);
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return hashfd(fd, *pack_tmp_name);
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}
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void finish_tmp_packfile(struct strbuf *name_buffer,
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const char *pack_tmp_name,
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struct pack_idx_entry **written_list,
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uint32_t nr_written,
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struct pack_idx_option *pack_idx_opts,
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unsigned char hash[])
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{
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const char *idx_tmp_name, *rev_tmp_name = NULL;
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int basename_len = name_buffer->len;
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if (adjust_shared_perm(pack_tmp_name))
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die_errno("unable to make temporary pack file readable");
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idx_tmp_name = write_idx_file(NULL, written_list, nr_written,
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pack_idx_opts, hash);
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if (adjust_shared_perm(idx_tmp_name))
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die_errno("unable to make temporary index file readable");
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rev_tmp_name = write_rev_file(NULL, written_list, nr_written, hash,
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pack_idx_opts->flags);
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strbuf_addf(name_buffer, "%s.pack", hash_to_hex(hash));
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if (rename(pack_tmp_name, name_buffer->buf))
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die_errno("unable to rename temporary pack file");
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strbuf_setlen(name_buffer, basename_len);
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strbuf_addf(name_buffer, "%s.idx", hash_to_hex(hash));
|
|
if (rename(idx_tmp_name, name_buffer->buf))
|
|
die_errno("unable to rename temporary index file");
|
|
|
|
strbuf_setlen(name_buffer, basename_len);
|
|
|
|
if (rev_tmp_name) {
|
|
strbuf_addf(name_buffer, "%s.rev", hash_to_hex(hash));
|
|
if (rename(rev_tmp_name, name_buffer->buf))
|
|
die_errno("unable to rename temporary reverse-index file");
|
|
}
|
|
|
|
strbuf_setlen(name_buffer, basename_len);
|
|
|
|
free((void *)idx_tmp_name);
|
|
}
|
|
|
|
void write_promisor_file(const char *promisor_name, struct ref **sought, int nr_sought)
|
|
{
|
|
int i, err;
|
|
FILE *output = xfopen(promisor_name, "w");
|
|
|
|
for (i = 0; i < nr_sought; i++)
|
|
fprintf(output, "%s %s\n", oid_to_hex(&sought[i]->old_oid),
|
|
sought[i]->name);
|
|
|
|
err = ferror(output);
|
|
err |= fclose(output);
|
|
if (err)
|
|
die(_("could not write '%s' promisor file"), promisor_name);
|
|
}
|