2 #include "chunk-format.h"
6 * When writing a chunk-based file format, collect the chunks in
7 * an array of chunk_info structs. The size stores the _expected_
8 * amount of data that will be written by write_fn.
13 chunk_write_fn write_fn
;
21 struct chunk_info
*chunks
;
26 struct chunkfile
*init_chunkfile(struct hashfile
*f
)
28 struct chunkfile
*cf
= xcalloc(1, sizeof(*cf
));
33 void free_chunkfile(struct chunkfile
*cf
)
41 int get_num_chunks(struct chunkfile
*cf
)
46 void add_chunk(struct chunkfile
*cf
,
51 ALLOC_GROW(cf
->chunks
, cf
->chunks_nr
+ 1, cf
->chunks_alloc
);
53 cf
->chunks
[cf
->chunks_nr
].id
= id
;
54 cf
->chunks
[cf
->chunks_nr
].write_fn
= fn
;
55 cf
->chunks
[cf
->chunks_nr
].size
= size
;
59 int write_chunkfile(struct chunkfile
*cf
, void *data
)
62 uint64_t cur_offset
= hashfile_total(cf
->f
);
64 trace2_region_enter("chunkfile", "write", the_repository
);
66 /* Add the table of contents to the current offset */
67 cur_offset
+= (cf
->chunks_nr
+ 1) * CHUNK_TOC_ENTRY_SIZE
;
69 for (i
= 0; i
< cf
->chunks_nr
; i
++) {
70 hashwrite_be32(cf
->f
, cf
->chunks
[i
].id
);
71 hashwrite_be64(cf
->f
, cur_offset
);
73 cur_offset
+= cf
->chunks
[i
].size
;
76 /* Trailing entry marks the end of the chunks */
77 hashwrite_be32(cf
->f
, 0);
78 hashwrite_be64(cf
->f
, cur_offset
);
80 for (i
= 0; i
< cf
->chunks_nr
; i
++) {
81 off_t start_offset
= hashfile_total(cf
->f
);
82 result
= cf
->chunks
[i
].write_fn(cf
->f
, data
);
87 if (hashfile_total(cf
->f
) - start_offset
!= cf
->chunks
[i
].size
)
88 BUG("expected to write %"PRId64
" bytes to chunk %"PRIx32
", but wrote %"PRId64
" instead",
89 cf
->chunks
[i
].size
, cf
->chunks
[i
].id
,
90 hashfile_total(cf
->f
) - start_offset
);
94 trace2_region_leave("chunkfile", "write", the_repository
);
98 int read_table_of_contents(struct chunkfile
*cf
,
99 const unsigned char *mfile
,
106 const unsigned char *table_of_contents
= mfile
+ toc_offset
;
108 ALLOC_GROW(cf
->chunks
, toc_length
, cf
->chunks_alloc
);
110 while (toc_length
--) {
111 uint64_t chunk_offset
, next_chunk_offset
;
113 chunk_id
= get_be32(table_of_contents
);
114 chunk_offset
= get_be64(table_of_contents
+ 4);
117 error(_("terminating chunk id appears earlier than expected"));
121 table_of_contents
+= CHUNK_TOC_ENTRY_SIZE
;
122 next_chunk_offset
= get_be64(table_of_contents
+ 4);
124 if (next_chunk_offset
< chunk_offset
||
125 next_chunk_offset
> mfile_size
- the_hash_algo
->rawsz
) {
126 error(_("improper chunk offset(s) %"PRIx64
" and %"PRIx64
""),
127 chunk_offset
, next_chunk_offset
);
131 for (i
= 0; i
< cf
->chunks_nr
; i
++) {
132 if (cf
->chunks
[i
].id
== chunk_id
) {
133 error(_("duplicate chunk ID %"PRIx32
" found"),
139 cf
->chunks
[cf
->chunks_nr
].id
= chunk_id
;
140 cf
->chunks
[cf
->chunks_nr
].start
= mfile
+ chunk_offset
;
141 cf
->chunks
[cf
->chunks_nr
].size
= next_chunk_offset
- chunk_offset
;
145 chunk_id
= get_be32(table_of_contents
);
147 error(_("final chunk has non-zero id %"PRIx32
""), chunk_id
);
154 static int pair_chunk_fn(const unsigned char *chunk_start
,
158 const unsigned char **p
= data
;
163 int pair_chunk(struct chunkfile
*cf
,
165 const unsigned char **p
)
167 return read_chunk(cf
, chunk_id
, pair_chunk_fn
, p
);
170 int read_chunk(struct chunkfile
*cf
,
177 for (i
= 0; i
< cf
->chunks_nr
; i
++) {
178 if (cf
->chunks
[i
].id
== chunk_id
)
179 return fn(cf
->chunks
[i
].start
, cf
->chunks
[i
].size
, data
);
182 return CHUNK_NOT_FOUND
;
