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176 lines
7.8 KiB
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176 lines
7.8 KiB
Plaintext
= The Tahoe BackupDB =
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== Overview ==
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To speed up backup operations, Tahoe maintains a small database known as the
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"backupdb". This is used to avoid re-uploading files which have already been
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uploaded recently.
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This database lives in ~/.tahoe/private/backupdb.sqlite, and is a SQLite
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single-file database. It is used by the "tahoe backup" command. In the future,
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it will also be used by "tahoe mirror", and by "tahoe cp" when the
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--use-backupdb option is included.
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The purpose of this database is twofold: to manage the file-to-cap
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translation (the "upload" step) and the directory-to-cap translation (the
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"mkdir-immutable" step).
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The overall goal of optimizing backup is to reduce the work required when the
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source disk has not changed (much) since the last backup. In the ideal case,
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running "tahoe backup" twice in a row, with no intervening changes to the
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disk, will not require any network traffic. Minimal changes to the source
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disk should result in minimal traffic.
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This database is optional. If it is deleted, the worst effect is that a
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subsequent backup operation may use more effort (network bandwidth, CPU
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cycles, and disk IO) than it would have without the backupdb.
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The database uses sqlite3, which is included as part of the standard python
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library with python2.5 and later. For python2.4, Tahoe will try to install the
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"pysqlite" package at build-time, but this will succeed only if sqlite3 with
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development headers is already installed. On Debian and Debian derivatives
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you can install the "python-pysqlite2" package (which, despite the name,
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actually provides sqlite3 rather than sqlite2), but on old distributions such
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as Debian etch (4.0 "oldstable") or Ubuntu Edgy (6.10) the "python-pysqlite2"
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package won't work, but the "sqlite3-dev" package will.
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== Schema ==
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The database contains the following tables:
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CREATE TABLE version
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(
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version integer # contains one row, set to 1
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);
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CREATE TABLE local_files
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(
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path varchar(1024), PRIMARY KEY -- index, this is os.path.abspath(fn)
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size integer, -- os.stat(fn)[stat.ST_SIZE]
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mtime number, -- os.stat(fn)[stat.ST_MTIME]
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ctime number, -- os.stat(fn)[stat.ST_CTIME]
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fileid integer
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);
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CREATE TABLE caps
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(
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fileid integer PRIMARY KEY AUTOINCREMENT,
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filecap varchar(256) UNIQUE -- URI:CHK:...
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);
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CREATE TABLE last_upload
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(
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fileid INTEGER PRIMARY KEY,
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last_uploaded TIMESTAMP,
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last_checked TIMESTAMP
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);
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CREATE TABLE directories
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(
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dirhash varchar(256) PRIMARY KEY,
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dircap varchar(256),
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last_uploaded TIMESTAMP,
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last_checked TIMESTAMP
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);
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== Upload Operation ==
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The upload process starts with a pathname (like ~/.emacs) and wants to end up
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with a file-cap (like URI:CHK:...).
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The first step is to convert the path to an absolute form
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(/home/warner/.emacs) and do a lookup in the local_files table. If the path
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is not present in this table, the file must be uploaded. The upload process
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is:
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1. record the file's size, creation time, and modification time
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2. upload the file into the grid, obtaining an immutable file read-cap
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3. add an entry to the 'caps' table, with the read-cap, to get a fileid
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4. add an entry to the 'last_upload' table, with the current time
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5. add an entry to the 'local_files' table, with the fileid, the path,
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and the local file's size/ctime/mtime
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If the path *is* present in 'local_files', the easy-to-compute identifying
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information is compared: file size and ctime/mtime. If these differ, the file
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must be uploaded. The row is removed from the local_files table, and the
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upload process above is followed.
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If the path is present but ctime or mtime differs, the file may have changed.
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If the size differs, then the file has certainly changed. At this point, a
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future version of the "backup" command might hash the file and look for a
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match in an as-yet-defined table, in the hopes that the file has simply been
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moved from somewhere else on the disk. This enhancement requires changes to
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the Tahoe upload API before it can be significantly more efficient than
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simply handing the file to Tahoe and relying upon the normal convergence to
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notice the similarity.
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If ctime, mtime, or size is different, the client will upload the file, as
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above.
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If these identifiers are the same, the client will assume that the file is
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unchanged (unless the --ignore-timestamps option is provided, in which case
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the client always re-uploads the file), and it may be allowed to skip the
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upload. For safety, however, we require the client periodically perform a
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filecheck on these probably-already-uploaded files, and re-upload anything
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that doesn't look healthy. The client looks the fileid up in the
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'last_checked' table, to see how long it has been since the file was last
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checked.
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A "random early check" algorithm should be used, in which a check is
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performed with a probability that increases with the age of the previous
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results. E.g. files that were last checked within a month are not checked,
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files that were checked 5 weeks ago are re-checked with 25% probability, 6
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weeks with 50%, more than 8 weeks are always checked. This reduces the
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"thundering herd" of filechecks-on-everything that would otherwise result
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when a backup operation is run one month after the original backup. If a
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filecheck reveals the file is not healthy, it is re-uploaded.
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If the filecheck shows the file is healthy, or if the filecheck was skipped,
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the client gets to skip the upload, and uses the previous filecap (from the
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'caps' table) to add to the parent directory.
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If a new file is uploaded, a new entry is put in the 'caps' and 'last_upload'
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table, and an entry is made in the 'local_files' table to reflect the mapping
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from local disk pathname to uploaded filecap. If an old file is re-uploaded,
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the 'last_upload' entry is updated with the new timestamps. If an old file is
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checked and found healthy, the 'last_upload' entry is updated.
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Relying upon timestamps is a compromise between efficiency and safety: a file
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which is modified without changing the timestamp or size will be treated as
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unmodified, and the "tahoe backup" command will not copy the new contents
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into the grid. The --no-timestamps can be used to disable this optimization,
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forcing every byte of the file to be hashed and encoded.
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== Directory Operations ==
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Once the contents of a directory are known (a filecap for each file, and a
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dircap for each directory), the backup process must find or create a tahoe
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directory node with the same contents. The contents are hashed, and the hash
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is queried in the 'directories' table. If found, the last-checked timestamp
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is used to perform the same random-early-check algorithm described for files
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above, but no new upload is performed. Since "tahoe backup" creates immutable
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directories, it is perfectly safe to re-use a directory from a previous
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backup.
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If not found, the webapi "mkdir-immutable" operation is used to create a new
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directory, and an entry is stored in the table.
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The comparison operation ignores timestamps and metadata, and pays attention
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solely to the file names and contents.
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By using a directory-contents hash, the "tahoe backup" command is able to
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re-use directories from other places in the backed up data, or from old
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backups. This means that renaming a directory and moving a subdirectory to a
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new parent both count as "minor changes" and will result in minimal Tahoe
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operations and subsequent network traffic (new directories will be created
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for the modified directory and all of its ancestors). It also means that you
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can perform a backup ("#1"), delete a file or directory, perform a backup
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("#2"), restore it, and then the next backup ("#3") will re-use the
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directories from backup #1.
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The best case is a null backup, in which nothing has changed. This will
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result in minimal network bandwidth: one directory read and two modifies. The
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Archives/ directory must be read to locate the latest backup, and must be
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modified to add a new snapshot, and the Latest/ directory will be updated to
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point to that same snapshot.
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