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470 lines
14 KiB
Plaintext
470 lines
14 KiB
Plaintext
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-*- indented-text -*-
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Notes towards a new version of rsync
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Martin Pool <mbp@samba.org>, September 2001.
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Good things about the current implementation:
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- Widely known and adopted.
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- Fast/efficient, especially for moderately small sets of files over
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slow links (transoceanic or modem.)
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- Fairly reliable.
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- The choice of running over a plain TCP socket or tunneling over
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ssh.
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- rsync operations are idempotent: you can always run the same
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command twice to make sure it worked properly without any fear.
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(Are there any exceptions?)
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- Small changes to files cause small deltas.
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- There is a way to evolve the protocol to some extent.
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- rdiff and rsync --write-batch allow generation of standalone patch
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sets. rsync+ is pretty cheesy, though. xdelta seems cleaner.
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- Process triangle is creative, but seems to provoke OS bugs.
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- "Morning-after property": you don't need to know anything on the
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local machine about the state of the remote machine, or about
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transfers that have been done in the past.
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- You can easily push or pull simply by switching the order of
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files.
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- The "modules" system has some neat features compared to
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e.g. Apache's per-directory configuration. In particular, because
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you can set a userid and chroot directory, there is strong
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protection between different modules. I haven't seen any calls
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for a more flexible system.
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Bad things about the current implementation:
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- Persistent and hard-to-diagnose hang bugs remain
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- Protocol is sketchily documented, tied to this implementation, and
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hard to modify/extend
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- Both the program and the protocol assume a single non-interactive
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one-way transfer
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- A list of all files are held in memory for the entire transfer,
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which cripples scalability to large file trees
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- Opening a new socket for every operation causes problems,
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especially when running over SSH with password authentication.
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- Renamed files are not handled: the old file is removed, and the
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new file created from scratch.
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- The versioning approach assumes that future versions of the
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program know about all previous versions, and will do the right
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thing.
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- People always get confused about ':' vs '::'
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- Error messages can be cryptic.
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- Default behaviour is not intuitive: in too many cases rsync will
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happily do nothing. Perhaps -a should be the default?
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- People get confused by trailing slashes, though it's hard to think
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of another reasonable way to make this necessary distinction
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between a directory and its contents.
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Protocol philosophy:
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*The* big difference between protocols like HTTP, FTP, and NFS is
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that their fundamental operations are "read this file", "delete
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this file", and "make this directory", whereas rsync is "make this
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directory like this one".
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Questionable features:
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These are neat, but not necessarily clean or worth preserving.
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- The remote rsync can be wrapped by some other program, such as in
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tridge's rsync-mail scripts. The general feature of sending and
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retrieving mail over rsync is good, but this is perhaps not the
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right way to implement it.
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Desirable features:
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These don't really require architectural changes; they're just
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something to keep in mind.
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- Synchronize ACLs and extended attributes
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- Anonymous servers should be efficient
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- Code should be portable to non-UNIX systems
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- Should be possible to document the protocol in RFC form
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- --dry-run option
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- IPv6 support. Pretty straightforward.
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- Allow the basis and destination files to be different. For
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example, you could use this when you have a CD-ROM and want to
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download an updated image onto a hard drive.
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- Efficiently interrupt and restart a transfer. We can write a
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checkpoint file that says where we're up to in the filesystem.
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Alternatively, as long as transfers are idempotent, we can just
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restart the whole thing. [NFSv4]
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- Scripting support.
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- Propagate atimes and do not modify them. This is very ugly on
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Unix. It might be better to try to add O_NOATIME to kernels, and
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call that.
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- Unicode. Probably just use UTF-8 for everything.
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- Open authentication system. Can we use PAM? Is SASL an adequate
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mapping of PAM to the network, or useful in some other way?
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- Resume interrupted transfers without the --partial flag. We need
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to leave the temporary file behind, and then know to use it. This
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leaves a risk of large temporary files accumulating, which is not
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good. Perhaps it should be off by default.
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- tcpwrappers support. Should be trivial; can already be done
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through tcpd or inetd.
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- Socks support built in. It's not clear this is any better than
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just linking against the socks library, though.
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- When run over SSH, invoke with predictable command-line arguments,
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so that people can restrict what commands sshd will run. (Is this
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really required?)
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- Comparison mode: give a list of which files are new, gone, or
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different. Set return code depending on whether anything has
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changed.
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- Internationalized messages (gettext?)
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- Optionally use real regexps rather than globs?
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- Show overall progress. Pretty hard to do, especially if we insist
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on not scanning the directory tree up front.
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Regression testing:
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- Support automatic testing.
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- Have hard internal timeouts against hangs.
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- Be deterministic.
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- Measure performance.
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Hard links:
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At the moment, we can recreate hard links, but it's a bit
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inefficient: it depends on holding a list of all files in the tree.
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Every time we see a file with a linkcount >1, we need to search for
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another known name that has the same (fsid,inum) tuple. We could do
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that more efficiently by keeping a list of only files with
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linkcount>1, and removing files from that list as all their names
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become known.
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Command-line options:
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We have rather a lot at the moment. We might get more if the tool
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becomes more flexible. Do we need a .rc or configuration file?
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That wouldn't really fit with its pattern of use: cp and tar don't
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have them, though ssh does.
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Scripting issues:
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- Perhaps support multiple scripting languages: candidates include
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Perl, Python, Tcl, Scheme (guile?), sh, ...
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- Simply running a subprocess and looking at its stdout/exit code
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might be sufficient, though it could also be pretty slow if it's
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called often.
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- There are security issues about running remote code, at least if
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it's not running in the users own account. So we can either
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disallow it, or use some kind of sandbox system.
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- Python is a good language, but the syntax is not so good for
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giving small fragments on the command line.
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- Tcl is broken Lisp.
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- Lots of sysadmins know Perl, though Perl can give some bizarre or
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confusing errors. The built in stat operators and regexps might
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be useful.
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- Sadly probably not enough people know Scheme.
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- sh is hard to embed.
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Scripting hooks:
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- Whether to transfer a file
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- What basis file to use
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- Logging
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- Whether to allow transfers (for public servers)
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- Authentication
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- Locking
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- Cache
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- Generating backup path/name.
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- Post-processing of backups, e.g. to do compression.
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- After transfer, before replacement: so that we can spit out a diff
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of what was changed, or kick off some kind of reconciliation
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process.
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VFS:
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Rather than talking straight to the filesystem, rsyncd talks through
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an internal API. Samba has one. Is it useful?
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- Could be a tidy way to implement cached signatures.
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- Keep files compressed on disk?
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Interactive interface:
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- Something like ncFTP, or integration into GNOME-vfs. Probably
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hold a single socket connection open.
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- Can either call us as a separate process, or as a library.
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- The standalone process needs to produce output in a form easily
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digestible by a calling program, like the --emacs feature some
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have. Same goes for output: rpm outputs a series of hash symbols,
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which are easier for a GUI to handle than "\r30% complete"
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strings.
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- Yow! emacs support. (You could probably build that already, of
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course.) I'd like to be able to write a simple script on a remote
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machine that rsyncs it to my workstation, edits it there, then
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pushes it back up.
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Pie-in-the-sky features:
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These might have a severe impact on the protocol, and are not
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clearly in our core requirements. It looks like in many of them
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having scripting hooks will allow us
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- Transport over UDP multicast. The hard part is handling multiple
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destinations which have different basis files. We can look at
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multicast-TFTP for inspiration.
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- Conflict resolution. Possibly general scripting support will be
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sufficient.
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- Integrate with locking. It's hard to see a good general solution,
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because Unix systems have several locking mechanisms, and grabbing
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the lock from programs that don't expect it could cause deadlocks,
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timeouts, or other problems. Scripting support might help.
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- Replicate in place, rather than to a temporary file. This is
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dangerous in the case of interruption, and it also means that the
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delta can't refer to blocks that have already been overwritten.
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On the other hand we could semi-trivially do this at first by
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simply generating a delta with no copy instructions.
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- Replicate block devices. Most of the difficulties here are to do
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with replication in place, though on some systems we will also
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have to do I/O on block boundaries.
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- Peer to peer features. Flavour of the year. Can we think about
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ways for clients to smoothly and voluntarily become servers for
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content they receive?
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- Imagine a situation where the destination has a much faster link
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to the cloud than the source. In this case, Mojo Nation downloads
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interleaved blocks from several slower servers. The general
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situation might be a way for a master rsync process to farm out
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tasks to several subjobs. In this particular case they'd need
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different sockets. This might be related to multicast.
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Unlikely features:
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- Allow remote source and destination. If this can be cleanly
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designed into the protocol, perhaps with the remote machine acting
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as a kind of echo, then it's good. It's uncommon enough that we
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don't want to shape the whole protocol around it, though.
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In fact, in a triangle of machines there are two possibilities:
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all traffic passes from remote1 to remote2 through local, or local
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just sets up the transfer and then remote1 talks to remote2. FTP
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supports the second but it's not clearly good. There are some
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security problems with being able to instruct one machine to open
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a connection to another.
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In favour of evolving the protocol:
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- Keeping compatibility with existing rsync servers will help with
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adoption and testing.
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- We should at the very least be able to fall back to the new
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protocol.
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- Error handling is not so good.
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In favour of using a new protocol:
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- Maintaining compatibility might soak up development time that
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would better go into improving a new protocol.
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- If we start from scratch, it can be documented as we go, and we
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can avoid design decisions that make the protocol complex or
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implementation-bound.
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Error handling:
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- Errors should come back reliably, and be clearly associated with
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the particular file that caused the problem.
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- Some errors ought to cause the whole transfer to abort; some are
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just warnings. If any errors have occurred, then rsync ought to
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return an error.
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Concurrency:
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- We want to keep the CPU, filesystem, and network as full as
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possible as much of the time as possible.
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- We can do nonblocking network IO, but not so for disk.
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- It makes sense to on the destination be generating signatures and
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applying patches at the same time.
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- Can structure this with nonblocking, threads, separate processes,
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etc.
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Uses:
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- Mirroring software distributions:
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- Synchronizing laptop and desktop
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- NFS filesystem migration/replication. See
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http://www.ietf.org/proceedings/00jul/00july-133.htm#P24510_1276764
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- Sync with PDA
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- Network backup systems
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- CVS filemover
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Conflict resolution:
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- Requires application-specific knowledge. We want to provide
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policy, rather than mechanism.
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- Possibly allowing two-way migration across a single connection
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would be useful.
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Moved files: <http://rsync.samba.org/cgi-bin/rsync.fom?file=44>
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- There's no trivial way to detect renamed files, especially if they
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move between directories.
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- If we had a picture of the remote directory from last time on
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either machine, then the inode numbers might give us a hint about
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files which may have been renamed.
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- Files that are renamed and not modified can be detected by
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examining the directory listing, looking for files with the same
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size/date as the origin.
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Filesystem migration:
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NFSv4 probably wants to migrate file locks, but that's not really
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our problem.
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Atomic updates:
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The NFSv4 working group wants atomic migration. Most of the
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responsibility for this lies on the NFS server or OS.
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If migrating a whole tree, then we could do a nearly-atomic rename
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at the end. This ties in to having separate basis and destination
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files.
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There's no way in Unix to replace a whole set of files atomically.
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However, if we get them all onto the destination machine and then do
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the updates quickly it would greatly reduce the window.
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Scalability:
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We should aim to work well on machines in use in a year or two.
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That probably means transfers of many millions of files in one
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batch, and gigabytes or terabytes of data.
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For argument's sake: at the low end, we want to sync ten files for a
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total of 10kb across a 1kB/s link. At the high end, we want to sync
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1e9 files for 1TB of data across a 1GB/s link.
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On the whole CPU usage is not normally a limiting factor, if only
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because running over SSH burns a lot of cycles on encryption.
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Perhaps have resource throttling without relying on rlimit.
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Streaming:
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A big attraction of rsync is that there are few round-trip delays:
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basically only one to get started, and then everything is
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pipelined. This is a problem with FTP, and NFS (at least up to
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v3). NFSv4 can pipeline operations, but building on that is
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probably a bit complicated.
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Related work:
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- mirror.pl http://freshmeat.net/project/mirror/
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- ProFTPd
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- Apache
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- http://freshmeat.net/search/?site=Freshmeat&q=mirror§ion=projects
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- BitTorrent -- p2p mirroring
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http://bitconjurer.org/BitTorrent/
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