{
int64_t size = 0;
list<string> object_list;
+ const char *status = NULL; /* Status indicator printed out */
/* Look up this file in the old stat cache, if we can. If the stat
* information indicates that the file has not changed, do not bother
const ObjectReference &ref = *i;
if (!db->IsAvailable(ref)) {
cached = false;
+ status = "repack";
break;
}
}
/* If the file is new or changed, we must read in the contents a block at a
* time. */
if (!cached) {
- printf(" [new]\n");
-
SHA1Checksum hash;
while (true) {
ssize_t bytes = file_read(fd, block_buf, LBS_BLOCK_SIZE);
* Additionally, keep track of the age of the data by looking
* up the age of the block which was expired and using that
* instead of the current time. */
- if (db->IsOldObject(block_csum, bytes, &block_age))
+ if (db->IsOldObject(block_csum, bytes, &block_age)) {
o->set_group("compacted");
- else
+ if (status == NULL)
+ status = "partial";
+ } else {
o->set_group("data");
+ status = "new";
+ }
o->set_data(block_buf, bytes);
o->write(tss);
segment_list.insert(ref.get_segment());
db->UseObject(ref);
size += bytes;
+
+ if (status == NULL)
+ status = "old";
}
file_info["checksum"] = hash.checksum_str();
}
+ if (status != NULL)
+ printf(" [%s]\n", status);
+
statcache->Save(path, &stat_buf, file_info["checksum"], object_list);
/* For files that only need to be broken apart into a few objects, store
file_info["group"] += " (" + uri_encode(grp->gr_name) + ")";
}
+ if (stat_buf.st_nlink > 1 && (stat_buf.st_mode & S_IFMT) != S_IFDIR) {
+ file_info["links"] = encode_int(stat_buf.st_nlink);
+ file_info["inode"] = encode_int(major(stat_buf.st_dev))
+ + "/" + encode_int(minor(stat_buf.st_dev))
+ + "/" + encode_int(stat_buf.st_ino);
+ }
+
char inode_type;
switch (stat_buf.st_mode & S_IFMT) {
file_size = dumpfile(fd, file_info, path, stat_buf);
file_info["size"] = encode_int(file_size);
- close(fd);
if (file_size < 0)
return; // error occurred; do not dump file
int main(int argc, char *argv[])
{
- string backup_source = ".";
string backup_dest = "";
string localdb_dir = "";
string backup_scheme = "";
}
}
- if (argc < optind + 2) {
+ if (optind == argc) {
usage(argv[0]);
return 1;
}
searches.push_back(".");
- if (optind == argc) {
- add_include(".");
- } else {
- for (int i = optind; i < argc; i++)
- add_include(argv[i]);
- }
-
- backup_source = argv[optind];
+ for (int i = optind; i < argc; i++)
+ add_include(argv[i]);
if (backup_dest == "") {
fprintf(stderr,
printf(" %s\n", i->c_str());
}
- tss = new TarSegmentStore(backup_dest);
block_buf = new char[LBS_BLOCK_SIZE];
/* Store the time when the backup started, so it can be included in the
db->Open(database_path.c_str(), desc_buf,
backup_scheme.size() ? backup_scheme.c_str() : NULL);
+ tss = new TarSegmentStore(backup_dest, db);
+
/* Initialize the stat cache, for skipping over unchanged files. */
statcache = new StatCache;
- statcache->Open(localdb_dir.c_str(), desc_buf);
+ statcache->Open(localdb_dir.c_str(), desc_buf,
+ backup_scheme.size() ? backup_scheme.c_str() : NULL);
scanfile(".", false);
string backup_root = root->get_ref().to_string();
delete root;
- db->Close();
-
statcache->Close();
delete statcache;
tss->dump_stats();
delete tss;
+ db->Close();
+
/* Write a backup descriptor file, which says which segments are needed and
* where to start to restore this snapshot. The filename is based on the
* current time. */
desc_filename = desc_filename + desc_buf + ".lbs";
std::ofstream descriptor(desc_filename.c_str());
- descriptor << "Format: LBS Snapshot v0.1\n";
+ descriptor << "Format: LBS Snapshot v0.2\n";
descriptor << "Producer: LBS " << lbs_version << "\n";
strftime(desc_buf, sizeof(desc_buf), "%Y-%m-%d %H:%M:%S %z", &time_buf);
descriptor << "Date: " << desc_buf << "\n";