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Once files are added (or removed or moved), need to send those changes to
all the other git clones, at both the git level and the key/value level.
## action items
* on-disk transfers in progress information files (read/write/enumerate)
**done**
* locking for the files, so redundant transfer races can be detected,
and failed transfers noticed **done**
* transfer info for git-annex-shell **done**
* update files as transfers proceed. See [[progressbars]]
(updating for downloads is easy; for uploads is hard)
* add Transfer queue TChan **done**
* add TransferInfo Map to DaemonStatus for tracking transfers in progress.
**done**
* Poll transfer in progress info files for changes (use inotify again!
wow! hammer, meet nail..), and update the TransferInfo Map **done**
* enqueue Transfers (Uploads) as new files are added to the annex by
Watcher. **done**
* enqueue Tranferrs (Downloads) as new dangling symlinks are noticed by
Watcher. **done**
* Write basic Transfer handling thread. Multiple such threads need to be
able to be run at once. Each will need its own independant copy of the
Annex state monad. **done**
* Write transfer control thread, which decides when to launch transfers.
**done**
* Check that download transfer triggering code works (when a symlink appears
and the remote does *not* upload to us.
* At startup, and possibly periodically, look for files we have that
location tracking indicates remotes do not, and enqueue Uploads for
them. Also, enqueue Downloads for any files we're missing.
* Find a way to probe available outgoing bandwidth, to throttle so
we don't bufferbloat the network to death.
* git-annex needs a simple speed control knob, which can be plumbed
through to, at least, rsync. A good job for an hour in an
airport somewhere.
## git syncing
1. Can use `git annex sync`, which already handles bidirectional syncing.
When a change is committed, launch the part of `git annex sync` that pushes
out changes. **done**; changes are pushed out to all remotes in parallel
1. Watch `.git/refs/remotes/` for changes (which would be pushed in from
another node via `git annex sync`), and run the part of `git annex sync`
that merges in received changes, and follow it by the part that pushes out
changes (sending them to any other remotes).
[The watching can be done with the existing inotify code! This avoids needing
any special mechanism to notify a remote that it's been synced to.]
**done**
1. Periodically retry pushes that failed. **done** (every half an hour)
1. Also, detect if a push failed due to not being up-to-date, pull,
and repush. **done**
2. Use a git merge driver that adds both conflicting files,
so conflicts never break a sync. **done**
3. Investigate the XMPP approach like dvcs-autosync does, or other ways of
signaling a change out of band.
4. Add a hook, so when there's a change to sync, a program can be run
and do its own signaling.
5. --debug will show often unnecessary work being done. Optimise.
6. It would be nice if, when a USB drive is connected,
syncing starts automatically. Use dbus on Linux?
## misc todo
* --debug will show often unnecessary work being done. Optimise.
* It would be nice if, when a USB drive is connected,
syncing starts automatically. Use dbus on Linux?
## data syncing
There are two parts to data syncing. First, map the network and second,
decide what to sync when.
Mapping the network can reuse code in `git annex map`. Once the map is
built, we want to find paths through the network that reach all nodes
eventually, with the least cost. This is a minimum spanning tree problem,
except with a directed graph, so really a Arborescence problem.
With the map, we can determine which nodes to push new content to. Then we
need to control those data transfers, sending to the cheapest nodes first,
and with appropriate rate limiting and control facilities.
This probably will need lots of refinements to get working well.
### first pass: flood syncing
Before mapping the network, the best we can do is flood all files out to every
reachable remote. This is worth doing first, since it's the simplest way to
get the basic functionality of the assistant to work. And we'll need this
anyway.
## other considerations
This assumes the network is connected. It's often not, so the
[[cloud]] needs to be used to bridge between LANs.
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