This new component broadcasts metrics about the current size of the pinqueue,
which can in turn be used to inform allocations.
It has a weight_bucket_size option that serves to divide the actual size by a
given factor. This allows considering peers with similar queue sizes to have
the same weight.
Additionally, some changes have been made to the balanced allocator so that a
combination of tags, pinqueue sizes and free-spaces can be used. When
allocating by [<tag>, pinqueue, freespace], the allocator will prioritize
choosing peers with the smallest pin queue weight first, and of those with the
same weight, it will allocate based on freespace.
This commit fixes#810 and adds block streaming to the final destinations when
adding. This should add major performance gains when adding data to clusters.
Before, everytime cluster issued a block, it was broadcasted individually to
all destinations (new libp2p stream), where it was block/put to IPFS (a single
block/put http roundtrip per block).
Now, blocks are streamed all the way from the adder module to the ipfs daemon,
by making every block as it arrives a single part in a multipart block/put
request.
Before, block-broadcast needed to wait for all destinations to finish in order
to process the next block. Now, buffers allow some destinations to be faster
than others while sending and receiving blocks.
Before, if a block put request failed to be broadcasted everywhere, an error
would happen at that moment.
Now, we keep streaming until the end and only then report any errors. The
operation succeeds as long as at least one stream finished successfully.
Errors block/putting to IPFS will not abort streams. Instead, subsequent
blocks are retried with a new request, although the method will return an
error when the stream finishes if there were errors at any point.
This commit makes all the changes to make Peers() a streaming call.
While Peers is usually a non problematic call, for consistency, all calls
returning collections assembled through broadcast to cluster peers are now
streaming calls.
Fixes#1554
Fixes: peer names unset for remote peers
This adds an IPFS field to pin status information (PinInfoShort).
It has not been easy to add this, given that the IPFS ID is something that
comes from outside of cluster (unlike the peer name). After several tries I
have settled in the following things:
- Use the ping metric to send out peer names and IPFS IDs to the peers in the
cluster.
- Cache the latest known IPFS ID (if IPFS dies we should still be setting
the ID).
- Provide an RPC method for the Pintracker to obtain IPFS ID from the cache.
- Given we now know information for peernames and IPFS IDs from other peers,
we can use that information even if the requests to them error or we are not
contacting (i.e. peers allocated as remote are not queried for status). We can
use the information from the last received ping metric.
- This means we should keep metrics around even if peers go away, at least for
a while rather than deleting them as soon as we detect that they have expired.
Puting it all together we now have a system to gossip peer information around on top
of the ping metrics.
This removes mappintracker and sets stateless tracker as the default (and only) pintracker component.
Because the stateless tracker matches the cluster state with only ongoing operations being kept on memory, and additional information provided by ipfs-pin-ls, syncing operations are not necessary. Therefore the Sync/SyncAll operations are removed cluster-wide.
This introduces the possiblity of running Cluster with multiple informer components. The first one in the list is the used for "allocations". This is just groundwork for working with several informers in the future.
- Human-sizes for freespace metrics. Display whether if metric is
expires in something like "expires in 3m".
- When not passing metric name `ipfs-cluster-ctl health metrics` hits
the the metrics endpoint which returns a list of available metrics and
displays to user
- Humanize metrics output
- Sort metrics output
- cluster method, ipfs connector method, rpc and rest apis,
command, etc for repo gc
- Remove extra space from policy generator
- Added special timeout for `/repo/gc` call to IPFS
- Added `RepoGCLocal` cluster rpc method, which will be used to run gc
on local IPFS daemon
- Added peer name to the repo gc struct
- Sorted with peer ids, while formatting(only affects cli
results)
- Special timeout setting where timeout gets checked from last update
- Added `local` argument, which would run gc only on contacted peer