This takes advantange of the latest features in go-cid, peer.ID and
go-multiaddr and makes the Go types serializable by default.
This means we no longer need to copy between Pin <-> PinSerial, or ID <->
IDSerial etc. We can now efficiently binary-encode these types using short
field keys and without parsing/stringifying (in many cases it just a cast).
We still get the same json output as before (with minor modifications for
Cids).
This should greatly improve Cluster performance and memory usage when dealing
with large collections of items.
License: MIT
Signed-off-by: Hector Sanjuan <hector@protocol.ai>
This starts handling Metadata and UserAllocations in the PinOptions
object. The Pin protobuf has been modified to embed a PinOptions message which
is defined separately.
Query arguments for the Metadata map are declared by their "meta-" prefix:
"?meta-something=something&meta-something-else-b".
Additional tests have been added, along with an Equals() method for
PinOptions.
License: MIT
Signed-off-by: Hector Sanjuan <hector@protocol.ai>
Since the beginning, we have used a Go map to store the shared state (pinset)
in memory. The mapstate knew how to serialize itself so that libp2p-raft would
know how to write to disk when it:
* Saved snapshots of the state on shutdown
* Sent the state to a newcomer peer
hashicorp.Raft assumes an in-memory state which is snapshotted from time to
time and read from disk on boot.
This commit adds a `dsstate` implementation of the state interface using
`go-datastore`. This allows to effortlessly switch to a disk-backed state in
the future (as we will need), and also have at our disposal the different
implementations and utilities of Datastore for fine-tuning (caching, batching
etc.).
`mapstate` has been reworked to use dsstate. Ideally, we would not even need
`mapstate`, as it would suffice to initialize `dsstate` with a
`MapDatastore`. BUT, we still need it separate to be able to auto-migrate to
the new format.
This will be the last migration with the current system. Once this has been
released and users have been able to upgrade we will just remove `mapstate` as
it is now.
License: MIT
Signed-off-by: Hector Sanjuan <code@hector.link>
4 PinTypes specify how CID is pinned
Changes to Pin and Unpin to handle different PinTypes
Tests for different PinTypes
Migration for new state format using new Pin datastructures
Visibility of the PinTypes used internally limited by default
License: MIT
Signed-off-by: Wyatt Daviau <wdaviau@cs.stanford.edu>
GetTTL returns duration. SetTTL should take duration too, not seconds.
This removes the original SetTTL method which used seconds.
License: MIT
Signed-off-by: Hector Sanjuan <code@hector.link>
Added go tests
Refactored cluster connect graph to new file
Refactored dot file printing to new repo
Fixed code climate issues
Added sharness test
License: MIT
Signed-off-by: Wyatt Daviau <wdaviau@cs.stanford.edu>
This PR replaces ReplicationFactor with ReplicationFactorMax
and ReplicationFactor min.
This allows a CID to be pinned even though the desired
replication factor (max) is not reached, and prevents triggering
re-pinnings when the replication factor has not crossed the
lower threshold (min).
License: MIT
Signed-off-by: Hector Sanjuan <code@hector.link>
The multiaddresses protocols for websockets and dns are only registered
with init() function when loading the modules. ipfs-cluster-ctl
uses just the api, which did not load these modules so converting
from serialized types caused bad panics.
We have also ignored errors in the api library under the thinking that it
would only parse things serialized by us, but this has made parsing errors
to go unnoticed. From now, all errors are logged and some precautions
are taking to better handle the possibility of nil objects.
License: MIT
Signed-off-by: Hector Sanjuan <code@hector.link>
This adds a replication_factor query argument to the API
endpoint which allows to set a replication factor per Pin.
License: MIT
Signed-off-by: Hector Sanjuan <hector@protocol.ai>
CidArg used to be an internal name for an argument that carried a Cid.
Now it has surfaced to API level and makes no sense. It is a Pin. It
represents a Pin (Cid, Allocations, Replication Factor)
License: MIT
Signed-off-by: Hector Sanjuan <hector@protocol.ai>
New PeerManager, Allocator, Informer components have been added along
with a new "replication_factor" configuration option.
First, cluster peers collect and push metrics (Informer) to the Cluster
leader regularly. The Informer is an interface that can be implemented
in custom wayts to support custom metrics.
Second, on a pin operation, using the information from the collected metrics,
an Allocator can provide a list of preferences as to where the new pin
should be assigned. The Allocator is an interface allowing to provide
different allocation strategies.
Both Allocator and Informer are Cluster Componenets, and have access
to the RPC API.
The allocations are kept in the shared state. Cluster peer failure
detection is still missing and re-allocation is still missing, although
re-pinning something when a node is down/metrics missing does re-allocate
the pin somewhere else.
License: MIT
Signed-off-by: Hector Sanjuan <hector@protocol.ai>