/* Copyright 2020 Google LLC Use of this source code is governed by a BSD-style license that can be found in the LICENSE file or at https://developers.google.com/open-source/licenses/bsd */ #include "reader.h" #include "system.h" #include "block.h" #include "constants.h" #include "generic.h" #include "iter.h" #include "record.h" #include "reftable-error.h" #include "reftable-generic.h" #include "tree.h" uint64_t block_source_size(struct reftable_block_source *source) { return source->ops->size(source->arg); } int block_source_read_block(struct reftable_block_source *source, struct reftable_block *dest, uint64_t off, uint32_t size) { int result = source->ops->read_block(source->arg, dest, off, size); dest->source = *source; return result; } void block_source_close(struct reftable_block_source *source) { if (!source->ops) { return; } source->ops->close(source->arg); source->ops = NULL; } static struct reftable_reader_offsets * reader_offsets_for(struct reftable_reader *r, uint8_t typ) { switch (typ) { case BLOCK_TYPE_REF: return &r->ref_offsets; case BLOCK_TYPE_LOG: return &r->log_offsets; case BLOCK_TYPE_OBJ: return &r->obj_offsets; } abort(); } static int reader_get_block(struct reftable_reader *r, struct reftable_block *dest, uint64_t off, uint32_t sz) { if (off >= r->size) return 0; if (off + sz > r->size) { sz = r->size - off; } return block_source_read_block(&r->source, dest, off, sz); } uint32_t reftable_reader_hash_id(struct reftable_reader *r) { return r->hash_id; } const char *reader_name(struct reftable_reader *r) { return r->name; } static int parse_footer(struct reftable_reader *r, uint8_t *footer, uint8_t *header) { uint8_t *f = footer; uint8_t first_block_typ; int err = 0; uint32_t computed_crc; uint32_t file_crc; if (memcmp(f, "REFT", 4)) { err = REFTABLE_FORMAT_ERROR; goto done; } f += 4; if (memcmp(footer, header, header_size(r->version))) { err = REFTABLE_FORMAT_ERROR; goto done; } f++; r->block_size = get_be24(f); f += 3; r->min_update_index = get_be64(f); f += 8; r->max_update_index = get_be64(f); f += 8; if (r->version == 1) { r->hash_id = GIT_SHA1_FORMAT_ID; } else { r->hash_id = get_be32(f); switch (r->hash_id) { case GIT_SHA1_FORMAT_ID: break; case GIT_SHA256_FORMAT_ID: break; default: err = REFTABLE_FORMAT_ERROR; goto done; } f += 4; } r->ref_offsets.index_offset = get_be64(f); f += 8; r->obj_offsets.offset = get_be64(f); f += 8; r->object_id_len = r->obj_offsets.offset & ((1 << 5) - 1); r->obj_offsets.offset >>= 5; r->obj_offsets.index_offset = get_be64(f); f += 8; r->log_offsets.offset = get_be64(f); f += 8; r->log_offsets.index_offset = get_be64(f); f += 8; computed_crc = crc32(0, footer, f - footer); file_crc = get_be32(f); f += 4; if (computed_crc != file_crc) { err = REFTABLE_FORMAT_ERROR; goto done; } first_block_typ = header[header_size(r->version)]; r->ref_offsets.is_present = (first_block_typ == BLOCK_TYPE_REF); r->ref_offsets.offset = 0; r->log_offsets.is_present = (first_block_typ == BLOCK_TYPE_LOG || r->log_offsets.offset > 0); r->obj_offsets.is_present = r->obj_offsets.offset > 0; err = 0; done: return err; } int init_reader(struct reftable_reader *r, struct reftable_block_source *source, const char *name) { struct reftable_block footer = { NULL }; struct reftable_block header = { NULL }; int err = 0; uint64_t file_size = block_source_size(source); /* Need +1 to read type of first block. */ uint32_t read_size = header_size(2) + 1; /* read v2 because it's larger. */ memset(r, 0, sizeof(struct reftable_reader)); if (read_size > file_size) { err = REFTABLE_FORMAT_ERROR; goto done; } err = block_source_read_block(source, &header, 0, read_size); if (err != read_size) { err = REFTABLE_IO_ERROR; goto done; } if (memcmp(header.data, "REFT", 4)) { err = REFTABLE_FORMAT_ERROR; goto done; } r->version = header.data[4]; if (r->version != 1 && r->version != 2) { err = REFTABLE_FORMAT_ERROR; goto done; } r->size = file_size - footer_size(r->version); r->source = *source; r->name = xstrdup(name); r->hash_id = 0; err = block_source_read_block(source, &footer, r->size, footer_size(r->version)); if (err != footer_size(r->version)) { err = REFTABLE_IO_ERROR; goto done; } err = parse_footer(r, footer.data, header.data); done: reftable_block_done(&footer); reftable_block_done(&header); return err; } struct table_iter { struct reftable_reader *r; uint8_t typ; uint64_t block_off; struct block_iter bi; int is_finished; }; #define TABLE_ITER_INIT \ { \ .bi = {.last_key = STRBUF_INIT } \ } static void table_iter_copy_from(struct table_iter *dest, struct table_iter *src) { dest->r = src->r; dest->typ = src->typ; dest->block_off = src->block_off; dest->is_finished = src->is_finished; block_iter_copy_from(&dest->bi, &src->bi); } static int table_iter_next_in_block(struct table_iter *ti, struct reftable_record *rec) { int res = block_iter_next(&ti->bi, rec); if (res == 0 && reftable_record_type(rec) == BLOCK_TYPE_REF) { ((struct reftable_ref_record *)rec->data)->update_index += ti->r->min_update_index; } return res; } static void table_iter_block_done(struct table_iter *ti) { if (!ti->bi.br) { return; } reftable_block_done(&ti->bi.br->block); FREE_AND_NULL(ti->bi.br); ti->bi.last_key.len = 0; ti->bi.next_off = 0; } static int32_t extract_block_size(uint8_t *data, uint8_t *typ, uint64_t off, int version) { int32_t result = 0; if (off == 0) { data += header_size(version); } *typ = data[0]; if (reftable_is_block_type(*typ)) { result = get_be24(data + 1); } return result; } int reader_init_block_reader(struct reftable_reader *r, struct block_reader *br, uint64_t next_off, uint8_t want_typ) { int32_t guess_block_size = r->block_size ? r->block_size : DEFAULT_BLOCK_SIZE; struct reftable_block block = { NULL }; uint8_t block_typ = 0; int err = 0; uint32_t header_off = next_off ? 0 : header_size(r->version); int32_t block_size = 0; if (next_off >= r->size) return 1; err = reader_get_block(r, &block, next_off, guess_block_size); if (err < 0) goto done; block_size = extract_block_size(block.data, &block_typ, next_off, r->version); if (block_size < 0) { err = block_size; goto done; } if (want_typ != BLOCK_TYPE_ANY && block_typ != want_typ) { err = 1; goto done; } if (block_size > guess_block_size) { reftable_block_done(&block); err = reader_get_block(r, &block, next_off, block_size); if (err < 0) { goto done; } } err = block_reader_init(br, &block, header_off, r->block_size, hash_size(r->hash_id)); done: reftable_block_done(&block); return err; } static int table_iter_next_block(struct table_iter *dest, struct table_iter *src) { uint64_t next_block_off = src->block_off + src->bi.br->full_block_size; struct block_reader br = { 0 }; int err = 0; dest->r = src->r; dest->typ = src->typ; dest->block_off = next_block_off; err = reader_init_block_reader(src->r, &br, next_block_off, src->typ); if (err > 0) { dest->is_finished = 1; return 1; } if (err != 0) return err; else { struct block_reader *brp = reftable_malloc(sizeof(struct block_reader)); *brp = br; dest->is_finished = 0; block_reader_start(brp, &dest->bi); } return 0; } static int table_iter_next(struct table_iter *ti, struct reftable_record *rec) { if (reftable_record_type(rec) != ti->typ) return REFTABLE_API_ERROR; while (1) { struct table_iter next = TABLE_ITER_INIT; int err = 0; if (ti->is_finished) { return 1; } err = table_iter_next_in_block(ti, rec); if (err <= 0) { return err; } err = table_iter_next_block(&next, ti); if (err != 0) { ti->is_finished = 1; } table_iter_block_done(ti); if (err != 0) { return err; } table_iter_copy_from(ti, &next); block_iter_close(&next.bi); } } static int table_iter_next_void(void *ti, struct reftable_record *rec) { return table_iter_next(ti, rec); } static void table_iter_close(void *p) { struct table_iter *ti = p; table_iter_block_done(ti); block_iter_close(&ti->bi); } static struct reftable_iterator_vtable table_iter_vtable = { .next = &table_iter_next_void, .close = &table_iter_close, }; static void iterator_from_table_iter(struct reftable_iterator *it, struct table_iter *ti) { assert(!it->ops); it->iter_arg = ti; it->ops = &table_iter_vtable; } static int reader_table_iter_at(struct reftable_reader *r, struct table_iter *ti, uint64_t off, uint8_t typ) { struct block_reader br = { 0 }; struct block_reader *brp = NULL; int err = reader_init_block_reader(r, &br, off, typ); if (err != 0) return err; brp = reftable_malloc(sizeof(struct block_reader)); *brp = br; ti->r = r; ti->typ = block_reader_type(brp); ti->block_off = off; block_reader_start(brp, &ti->bi); return 0; } static int reader_start(struct reftable_reader *r, struct table_iter *ti, uint8_t typ, int index) { struct reftable_reader_offsets *offs = reader_offsets_for(r, typ); uint64_t off = offs->offset; if (index) { off = offs->index_offset; if (off == 0) { return 1; } typ = BLOCK_TYPE_INDEX; } return reader_table_iter_at(r, ti, off, typ); } static int reader_seek_linear(struct reftable_reader *r, struct table_iter *ti, struct reftable_record *want) { struct reftable_record rec = reftable_new_record(reftable_record_type(want)); struct strbuf want_key = STRBUF_INIT; struct strbuf got_key = STRBUF_INIT; struct table_iter next = TABLE_ITER_INIT; int err = -1; reftable_record_key(want, &want_key); while (1) { err = table_iter_next_block(&next, ti); if (err < 0) goto done; if (err > 0) { break; } err = block_reader_first_key(next.bi.br, &got_key); if (err < 0) goto done; if (strbuf_cmp(&got_key, &want_key) > 0) { table_iter_block_done(&next); break; } table_iter_block_done(ti); table_iter_copy_from(ti, &next); } err = block_iter_seek(&ti->bi, &want_key); if (err < 0) goto done; err = 0; done: block_iter_close(&next.bi); reftable_record_destroy(&rec); strbuf_release(&want_key); strbuf_release(&got_key); return err; } static int reader_seek_indexed(struct reftable_reader *r, struct reftable_iterator *it, struct reftable_record *rec) { struct reftable_index_record want_index = { .last_key = STRBUF_INIT }; struct reftable_record want_index_rec = { NULL }; struct reftable_index_record index_result = { .last_key = STRBUF_INIT }; struct reftable_record index_result_rec = { NULL }; struct table_iter index_iter = TABLE_ITER_INIT; struct table_iter next = TABLE_ITER_INIT; int err = 0; reftable_record_key(rec, &want_index.last_key); reftable_record_from_index(&want_index_rec, &want_index); reftable_record_from_index(&index_result_rec, &index_result); err = reader_start(r, &index_iter, reftable_record_type(rec), 1); if (err < 0) goto done; err = reader_seek_linear(r, &index_iter, &want_index_rec); while (1) { err = table_iter_next(&index_iter, &index_result_rec); table_iter_block_done(&index_iter); if (err != 0) goto done; err = reader_table_iter_at(r, &next, index_result.offset, 0); if (err != 0) goto done; err = block_iter_seek(&next.bi, &want_index.last_key); if (err < 0) goto done; if (next.typ == reftable_record_type(rec)) { err = 0; break; } if (next.typ != BLOCK_TYPE_INDEX) { err = REFTABLE_FORMAT_ERROR; break; } table_iter_copy_from(&index_iter, &next); } if (err == 0) { struct table_iter empty = TABLE_ITER_INIT; struct table_iter *malloced = reftable_calloc(sizeof(struct table_iter)); *malloced = empty; table_iter_copy_from(malloced, &next); iterator_from_table_iter(it, malloced); } done: block_iter_close(&next.bi); table_iter_close(&index_iter); reftable_record_release(&want_index_rec); reftable_record_release(&index_result_rec); return err; } static int reader_seek_internal(struct reftable_reader *r, struct reftable_iterator *it, struct reftable_record *rec) { struct reftable_reader_offsets *offs = reader_offsets_for(r, reftable_record_type(rec)); uint64_t idx = offs->index_offset; struct table_iter ti = TABLE_ITER_INIT; int err = 0; if (idx > 0) return reader_seek_indexed(r, it, rec); err = reader_start(r, &ti, reftable_record_type(rec), 0); if (err < 0) return err; err = reader_seek_linear(r, &ti, rec); if (err < 0) return err; else { struct table_iter *p = reftable_malloc(sizeof(struct table_iter)); *p = ti; iterator_from_table_iter(it, p); } return 0; } static int reader_seek(struct reftable_reader *r, struct reftable_iterator *it, struct reftable_record *rec) { uint8_t typ = reftable_record_type(rec); struct reftable_reader_offsets *offs = reader_offsets_for(r, typ); if (!offs->is_present) { iterator_set_empty(it); return 0; } return reader_seek_internal(r, it, rec); } int reftable_reader_seek_ref(struct reftable_reader *r, struct reftable_iterator *it, const char *name) { struct reftable_ref_record ref = { .refname = (char *)name, }; struct reftable_record rec = { NULL }; reftable_record_from_ref(&rec, &ref); return reader_seek(r, it, &rec); } int reftable_reader_seek_log_at(struct reftable_reader *r, struct reftable_iterator *it, const char *name, uint64_t update_index) { struct reftable_log_record log = { .refname = (char *)name, .update_index = update_index, }; struct reftable_record rec = { NULL }; reftable_record_from_log(&rec, &log); return reader_seek(r, it, &rec); } int reftable_reader_seek_log(struct reftable_reader *r, struct reftable_iterator *it, const char *name) { uint64_t max = ~((uint64_t)0); return reftable_reader_seek_log_at(r, it, name, max); } void reader_close(struct reftable_reader *r) { block_source_close(&r->source); FREE_AND_NULL(r->name); } int reftable_new_reader(struct reftable_reader **p, struct reftable_block_source *src, char const *name) { struct reftable_reader *rd = reftable_calloc(sizeof(struct reftable_reader)); int err = init_reader(rd, src, name); if (err == 0) { *p = rd; } else { block_source_close(src); reftable_free(rd); } return err; } void reftable_reader_free(struct reftable_reader *r) { if (!r) return; reader_close(r); reftable_free(r); } static int reftable_reader_refs_for_indexed(struct reftable_reader *r, struct reftable_iterator *it, uint8_t *oid) { struct reftable_obj_record want = { .hash_prefix = oid, .hash_prefix_len = r->object_id_len, }; struct reftable_record want_rec = { NULL }; struct reftable_iterator oit = { NULL }; struct reftable_obj_record got = { NULL }; struct reftable_record got_rec = { NULL }; int err = 0; struct indexed_table_ref_iter *itr = NULL; /* Look through the reverse index. */ reftable_record_from_obj(&want_rec, &want); err = reader_seek(r, &oit, &want_rec); if (err != 0) goto done; /* read out the reftable_obj_record */ reftable_record_from_obj(&got_rec, &got); err = iterator_next(&oit, &got_rec); if (err < 0) goto done; if (err > 0 || memcmp(want.hash_prefix, got.hash_prefix, r->object_id_len)) { /* didn't find it; return empty iterator */ iterator_set_empty(it); err = 0; goto done; } err = new_indexed_table_ref_iter(&itr, r, oid, hash_size(r->hash_id), got.offsets, got.offset_len); if (err < 0) goto done; got.offsets = NULL; iterator_from_indexed_table_ref_iter(it, itr); done: reftable_iterator_destroy(&oit); reftable_record_release(&got_rec); return err; } static int reftable_reader_refs_for_unindexed(struct reftable_reader *r, struct reftable_iterator *it, uint8_t *oid) { struct table_iter ti_empty = TABLE_ITER_INIT; struct table_iter *ti = reftable_calloc(sizeof(struct table_iter)); struct filtering_ref_iterator *filter = NULL; struct filtering_ref_iterator empty = FILTERING_REF_ITERATOR_INIT; int oid_len = hash_size(r->hash_id); int err; *ti = ti_empty; err = reader_start(r, ti, BLOCK_TYPE_REF, 0); if (err < 0) { reftable_free(ti); return err; } filter = reftable_malloc(sizeof(struct filtering_ref_iterator)); *filter = empty; strbuf_add(&filter->oid, oid, oid_len); reftable_table_from_reader(&filter->tab, r); filter->double_check = 0; iterator_from_table_iter(&filter->it, ti); iterator_from_filtering_ref_iterator(it, filter); return 0; } int reftable_reader_refs_for(struct reftable_reader *r, struct reftable_iterator *it, uint8_t *oid) { if (r->obj_offsets.is_present) return reftable_reader_refs_for_indexed(r, it, oid); return reftable_reader_refs_for_unindexed(r, it, oid); } uint64_t reftable_reader_max_update_index(struct reftable_reader *r) { return r->max_update_index; } uint64_t reftable_reader_min_update_index(struct reftable_reader *r) { return r->min_update_index; } /* generic table interface. */ static int reftable_reader_seek_void(void *tab, struct reftable_iterator *it, struct reftable_record *rec) { return reader_seek(tab, it, rec); } static uint32_t reftable_reader_hash_id_void(void *tab) { return reftable_reader_hash_id(tab); } static uint64_t reftable_reader_min_update_index_void(void *tab) { return reftable_reader_min_update_index(tab); } static uint64_t reftable_reader_max_update_index_void(void *tab) { return reftable_reader_max_update_index(tab); } static struct reftable_table_vtable reader_vtable = { .seek_record = reftable_reader_seek_void, .hash_id = reftable_reader_hash_id_void, .min_update_index = reftable_reader_min_update_index_void, .max_update_index = reftable_reader_max_update_index_void, }; void reftable_table_from_reader(struct reftable_table *tab, struct reftable_reader *reader) { assert(!tab->ops); tab->ops = &reader_vtable; tab->table_arg = reader; } int reftable_reader_print_file(const char *tablename) { struct reftable_block_source src = { NULL }; int err = reftable_block_source_from_file(&src, tablename); struct reftable_reader *r = NULL; struct reftable_table tab = { NULL }; if (err < 0) goto done; err = reftable_new_reader(&r, &src, tablename); if (err < 0) goto done; reftable_table_from_reader(&tab, r); err = reftable_table_print(&tab); done: reftable_reader_free(r); return err; }