#include "localdb.h"
#include "store.h"
#include "sha1.h"
+#include "statcache.h"
using std::list;
using std::string;
* invocations to help in creating incremental snapshots. */
LocalDb *db;
+/* Stat cache, which stored data locally to speed the backup process by quickly
+ * skipping files which have not changed. */
+StatCache *statcache;
+
/* Contents of the root object. This will contain a set of indirect links to
* the metadata objects. */
std::ostringstream metadata_root;
/* Write current metadata information to a new object. */
LbsObject *meta = new LbsObject;
- meta->set_group("root");
+ meta->set_group("metadata");
meta->set_data(m.data(), m.size());
meta->write(tss);
meta->checksum();
/* Read the contents of a file (specified by an open file descriptor) and copy
* the data to the store. Returns the size of the file (number of bytes
* dumped), or -1 on error. */
-int64_t dumpfile(int fd, dictionary &file_info)
+int64_t dumpfile(int fd, dictionary &file_info, const string &path)
{
struct stat stat_buf;
fstat(fd, &stat_buf);
// Store a copy of the object if one does not yet exist
if (ref.get_segment().size() == 0) {
LbsObject *o = new LbsObject;
- o->set_group("data");
+
+ /* We might still have seen this checksum before, if the object was
+ * stored at some time in the past, but we have decided to clean
+ * the segment the object was originally stored in (FindObject will
+ * not return such objects). When rewriting the object contents,
+ * put it in a separate group, so that old objects get grouped
+ * together. The hope is that these old objects will continue to
+ * be used in the future, and we obtain segments which will
+ * continue to be well-utilized. */
+ if (db->IsOldObject(block_csum, bytes))
+ o->set_group("compacted");
+ else
+ o->set_group("data");
+
o->set_data(block_buf, bytes);
o->write(tss);
ref = o->get_ref();
file_info["checksum"] = hash.checksum_str();
+ statcache->Save(path, &stat_buf, file_info["checksum"], object_list);
+
/* For files that only need to be broken apart into a few objects, store
* the list of objects directly. For larger files, store the data
* out-of-line and provide a pointer to the indrect object. */
}
LbsObject *i = new LbsObject;
- i->set_group("indirect");
+ i->set_group("metadata");
i->set_data(blocklist.data(), blocklist.size());
i->write(tss);
file_info["data"] = "@" + i->get_name();
flags = fcntl(fd, F_GETFL);
fcntl(fd, F_SETFL, flags & ~O_NONBLOCK);
- file_size = dumpfile(fd, file_info);
+ file_size = dumpfile(fd, file_info, path);
file_info["size"] = encode_int(file_size);
close(fd);
while (1) {
static struct option long_options[] = {
- {"localdb", 1, 0, 0}, // 0
- {"exclude", 1, 0, 0}, // 1
+ {"localdb", 1, 0, 0}, // 0
+ {"exclude", 1, 0, 0}, // 1
+ {"filter", 1, 0, 0}, // 2
+ {"filter-extension", 1, 0, 0}, // 3
{NULL, 0, 0, 0},
};
case 1: // --exclude
excludes.push_back(optarg);
break;
+ case 2: // --filter
+ filter_program = optarg;
+ break;
+ case 3: // --filter-extension
+ filter_extension = optarg;
+ break;
default:
fprintf(stderr, "Unhandled long option!\n");
return 1;
localdb_dir = backup_dest;
}
- printf("Source: %s, Dest: %s\n",
- backup_source.c_str(), backup_dest.c_str());
+ printf("Source: %s\nDest: %s\nDatabase: %s\n\n",
+ backup_source.c_str(), backup_dest.c_str(), localdb_dir.c_str());
tss = new TarSegmentStore(backup_dest);
block_buf = new char[LBS_BLOCK_SIZE];
- /* 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. */
+ /* Store the time when the backup started, so it can be included in the
+ * snapshot name. */
time_t now;
struct tm time_buf;
char desc_buf[256];
time(&now);
localtime_r(&now, &time_buf);
strftime(desc_buf, sizeof(desc_buf), "%Y%m%dT%H%M%S", &time_buf);
- string desc_filename = backup_dest + "/" + desc_buf + ".lbs";
- std::ofstream descriptor(desc_filename.c_str());
/* Open the local database which tracks all objects that are stored
* remotely, for efficient incrementals. Provide it with the name of this
* snapshot. */
- string database_path = backup_dest + "/localdb.sqlite";
+ string database_path = localdb_dir + "/localdb.sqlite";
db = new LocalDb;
db->Open(database_path.c_str(), desc_buf);
+ /* Initialize the stat cache, for skipping over unchanged files. */
+ statcache = new StatCache;
+ statcache->Open(localdb_dir.c_str(), desc_buf);
+
try {
scanfile(".");
} catch (IOException e) {
const string md = metadata_root.str();
LbsObject *root = new LbsObject;
- root->set_group("root");
+ root->set_group("metadata");
root->set_data(md.data(), md.size());
root->write(tss);
root->checksum();
-
segment_list.insert(root->get_ref().get_segment());
- descriptor << "Root: " << root->get_ref().to_string() << "\n";
+
+ /* 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. */
+ string desc_filename = backup_dest + "/snapshot-" + desc_buf + ".lbs";
+ std::ofstream descriptor(desc_filename.c_str());
+
+ descriptor << "Format: LBS Snapshot v0.1\n";
strftime(desc_buf, sizeof(desc_buf), "%Y-%m-%d %H:%M:%S %z", &time_buf);
descriptor << "Date: " << desc_buf << "\n";
+ descriptor << "Root: " << root->get_ref().to_string() << "\n";
delete root;
db->Close();
+ statcache->Close();
+ delete statcache;
+
tss->sync();
delete tss;