a96241941e
License: MIT Signed-off-by: Hector Sanjuan <code@hector.link>
182 lines
7.0 KiB
Go
182 lines
7.0 KiB
Go
// Package ipfscluster implements a wrapper for the IPFS deamon which
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// allows to orchestrate pinning operations among several IPFS nodes.
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//
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// IPFS Cluster uses a go-libp2p-raft to keep a shared state between
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// the different cluster peers. It also uses LibP2P to enable
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// communication between its different components, which perform different
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// tasks like managing the underlying IPFS daemons, or providing APIs for
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// external control.
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package ipfscluster
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import (
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"context"
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"github.com/ipfs/ipfs-cluster/api"
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"github.com/ipfs/ipfs-cluster/state"
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rpc "github.com/hsanjuan/go-libp2p-gorpc"
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cid "github.com/ipfs/go-cid"
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peer "github.com/libp2p/go-libp2p-peer"
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protocol "github.com/libp2p/go-libp2p-protocol"
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)
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// RPCProtocol is used to send libp2p messages between cluster peers
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var RPCProtocol = protocol.ID("/ipfscluster/" + Version + "/rpc")
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// Component represents a piece of ipfscluster. Cluster components
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// usually run their own goroutines (a http server for example). They
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// communicate with the main Cluster component and other components
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// (both local and remote), using an instance of rpc.Client.
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type Component interface {
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SetClient(*rpc.Client)
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Shutdown() error
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}
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// Consensus is a component which keeps a shared state in
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// IPFS Cluster and triggers actions on updates to that state.
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// Currently, Consensus needs to be able to elect/provide a
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// Cluster Leader and the implementation is very tight to
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// the Cluster main component.
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type Consensus interface {
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Component
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// Returns a channel to signal that the consensus layer is ready
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// allowing the main component to wait for it during start.
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Ready() <-chan struct{}
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// Logs a pin operation
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LogPin(c api.Pin) error
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// Logs an unpin operation
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LogUnpin(c api.Pin) error
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AddPeer(p peer.ID) error
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RmPeer(p peer.ID) error
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State() (state.State, error)
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// Provide a node which is responsible to perform
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// specific tasks which must only run in 1 cluster peer
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Leader() (peer.ID, error)
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// Only returns when the consensus state has all log
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// updates applied to it
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WaitForSync() error
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// Clean removes all consensus data
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Clean() error
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// Peers returns the peerset participating in the Consensus
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Peers() ([]peer.ID, error)
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}
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// API is a component which offers an API for Cluster. This is
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// a base component.
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type API interface {
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Component
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}
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// IPFSConnector is a component which allows cluster to interact with
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// an IPFS daemon. This is a base component.
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type IPFSConnector interface {
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Component
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ID() (api.IPFSID, error)
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Pin(context.Context, *cid.Cid, int) error
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Unpin(context.Context, *cid.Cid) error
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PinLsCid(context.Context, *cid.Cid) (api.IPFSPinStatus, error)
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PinLs(ctx context.Context, typeFilter string) (map[string]api.IPFSPinStatus, error)
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// ConnectSwarms make sure this peer's IPFS daemon is connected to
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// other peers IPFS daemons.
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ConnectSwarms() error
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// SwarmPeers returns the IPFS daemon's swarm peers
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SwarmPeers() (api.SwarmPeers, error)
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// ConfigKey returns the value for a configuration key.
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// Subobjects are reached with keypaths as "Parent/Child/GrandChild...".
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ConfigKey(keypath string) (interface{}, error)
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// FreeSpace returns the amount of remaining space on the repo, calculated from
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//"repo stat"
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FreeSpace() (uint64, error)
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// RepoSize returns the current repository size as expressed
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// by "repo stat".
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RepoSize() (uint64, error)
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// BlockPut directly adds a block of data to the IPFS repo
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BlockPut(api.NodeWithMeta) error
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// BlockGet retrieves the raw data of an IPFS block
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BlockGet(*cid.Cid) ([]byte, error)
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}
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// Peered represents a component which needs to be aware of the peers
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// in the Cluster and of any changes to the peer set.
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type Peered interface {
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AddPeer(p peer.ID)
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RmPeer(p peer.ID)
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//SetPeers(peers []peer.ID)
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}
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// PinTracker represents a component which tracks the status of
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// the pins in this cluster and ensures they are in sync with the
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// IPFS daemon. This component should be thread safe.
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type PinTracker interface {
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Component
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// Track tells the tracker that a Cid is now under its supervision
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// The tracker may decide to perform an IPFS pin.
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Track(api.Pin) error
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// Untrack tells the tracker that a Cid is to be forgotten. The tracker
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// may perform an IPFS unpin operation.
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Untrack(*cid.Cid) error
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// StatusAll returns the list of pins with their local status.
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StatusAll() []api.PinInfo
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// Status returns the local status of a given Cid.
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Status(*cid.Cid) api.PinInfo
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// SyncAll makes sure that all tracked Cids reflect the real IPFS status.
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// It returns the list of pins which were updated by the call.
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SyncAll() ([]api.PinInfo, error)
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// Sync makes sure that the Cid status reflect the real IPFS status.
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// It returns the local status of the Cid.
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Sync(*cid.Cid) (api.PinInfo, error)
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// RecoverAll calls Recover() for all pins tracked.
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RecoverAll() ([]api.PinInfo, error)
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// Recover retriggers a Pin/Unpin operation in a Cids with error status.
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Recover(*cid.Cid) (api.PinInfo, error)
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}
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// Informer provides Metric information from a peer. The metrics produced by
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// informers are then passed to a PinAllocator which will use them to
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// determine where to pin content. The metric is agnostic to the rest of
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// Cluster.
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type Informer interface {
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Component
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Name() string
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GetMetric() api.Metric
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}
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// PinAllocator decides where to pin certain content. In order to make such
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// decision, it receives the pin arguments, the peers which are currently
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// allocated to the content and metrics available for all peers which could
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// allocate the content.
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type PinAllocator interface {
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Component
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// Allocate returns the list of peers that should be assigned to
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// Pin content in order of preference (from the most preferred to the
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// least). The "current" map contains valid metrics for peers
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// which are currently pinning the content. The candidates map
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// contains the metrics for all peers which are eligible for pinning
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// the content.
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Allocate(c *cid.Cid, current, candidates, priority map[peer.ID]api.Metric) ([]peer.ID, error)
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}
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// PeerMonitor is a component in charge of publishing a peer's metrics and
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// reading metrics from other peers in the cluster. The PinAllocator will
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// use the metrics provided by the monitor as candidates for Pin allocations.
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//
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// The PeerMonitor component also provides an Alert channel which is signaled
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// when a metric is no longer received and the monitor identifies it
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// as a problem.
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type PeerMonitor interface {
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Component
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// LogMetric stores a metric. It can be used to manually inject
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// a metric to a monitor.
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LogMetric(api.Metric) error
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// PublishMetric sends a metric to the rest of the peers.
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// How to send it, and to who, is to be decided by the implementation.
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PublishMetric(api.Metric) error
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// LatestMetrics returns a map with the latest metrics of matching name
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// for the current cluster peers.
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LatestMetrics(name string) []api.Metric
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// Alerts delivers alerts generated when this peer monitor detects
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// a problem (i.e. metrics not arriving as expected). Alerts can be used
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// to trigger self-healing measures or re-pinnings of content.
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Alerts() <-chan api.Alert
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}
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