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client.go
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client.go
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// Copyright 2018-2024 Burak Sezer
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package olric
import (
"context"
"time"
"github.com/buraksezer/olric/internal/dmap"
"github.com/buraksezer/olric/pkg/storage"
"github.com/buraksezer/olric/stats"
)
const DefaultScanCount = 10
// Member denotes a member of the Olric cluster.
type Member struct {
// Member name in the cluster. It's also host:port of the node.
Name string
// ID of the Member in the cluster. Hash of Name and Birthdate of the member
ID uint64
// Birthdate of the member in nanoseconds.
Birthdate int64
// Role of the member in the cluster. There is only one coordinator member
// in a healthy cluster.
Coordinator bool
}
// Iterator defines an interface to implement iterators on the distributed maps.
type Iterator interface {
// Next returns true if there is more key in the iterator implementation.
// Otherwise, it returns false.
Next() bool
// Key returns a key name from the distributed map.
Key() string
// Close stops the iteration and releases allocated resources.
Close()
}
// LockContext interface defines methods to manage locks on distributed maps.
type LockContext interface {
// Unlock releases an acquired lock for the given key. It returns ErrNoSuchLock
// if there is no lock for the given key.
Unlock(ctx context.Context) error
// Lease sets or updates the timeout of the acquired lock for the given key.
// It returns ErrNoSuchLock if there is no lock for the given key.
Lease(ctx context.Context, duration time.Duration) error
}
// PutOption is a function for define options to control behavior of the Put command.
type PutOption func(*dmap.PutConfig)
// EX sets the specified expire time, in seconds.
func EX(ex time.Duration) PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasEX = true
cfg.EX = ex
}
}
// PX sets the specified expire time, in milliseconds.
func PX(px time.Duration) PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasPX = true
cfg.PX = px
}
}
// EXAT sets the specified Unix time at which the key will expire, in seconds.
func EXAT(exat time.Duration) PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasEXAT = true
cfg.EXAT = exat
}
}
// PXAT sets the specified Unix time at which the key will expire, in milliseconds.
func PXAT(pxat time.Duration) PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasPXAT = true
cfg.PXAT = pxat
}
}
// NX only sets the key if it does not already exist.
func NX() PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasNX = true
}
}
// XX only sets the key if it already exists.
func XX() PutOption {
return func(cfg *dmap.PutConfig) {
cfg.HasXX = true
}
}
type dmapConfig struct {
storageEntryImplementation func() storage.Entry
}
// DMapOption is a function for defining options to control behavior of distributed map instances.
type DMapOption func(*dmapConfig)
// StorageEntryImplementation sets and encoder/decoder implementation for your choice of storage engine.
func StorageEntryImplementation(e func() storage.Entry) DMapOption {
return func(cfg *dmapConfig) {
cfg.storageEntryImplementation = e
}
}
// ScanOption is a function for defining options to control behavior of the SCAN command.
type ScanOption func(*dmap.ScanConfig)
// Count is the user specified the amount of work that should be done at every call in order to
// retrieve elements from the distributed map. This is just a hint for the implementation,
// however generally speaking this is what you could expect most of the time from the implementation.
// The default value is 10.
func Count(c int) ScanOption {
return func(cfg *dmap.ScanConfig) {
cfg.HasCount = true
cfg.Count = c
}
}
// Match is used for using regular expressions on keys. See https://pkg.go.dev/regexp
func Match(s string) ScanOption {
return func(cfg *dmap.ScanConfig) {
cfg.HasMatch = true
cfg.Match = s
}
}
// DMap defines methods to access and manipulate distributed maps.
type DMap interface {
// Name exposes name of the DMap.
Name() string
// Put sets the value for the given key. It overwrites any previous value for
// that key, and it's thread-safe. The key has to be a string. value type is arbitrary.
// It is safe to modify the contents of the arguments after Put returns but not before.
Put(ctx context.Context, key string, value interface{}, options ...PutOption) error
// Get gets the value for the given key. It returns ErrKeyNotFound if the DB
// does not contain the key. It's thread-safe. It is safe to modify the contents
// of the returned value. See GetResponse for the details.
Get(ctx context.Context, key string) (*GetResponse, error)
// Delete deletes values for the given keys. Delete will not return error
// if key doesn't exist. It's thread-safe. It is safe to modify the contents
// of the argument after Delete returns.
Delete(ctx context.Context, keys ...string) (int, error)
// Incr atomically increments the key by delta. The return value is the new value
// after being incremented or an error.
Incr(ctx context.Context, key string, delta int) (int, error)
// Decr atomically decrements the key by delta. The return value is the new value
// after being decremented or an error.
Decr(ctx context.Context, key string, delta int) (int, error)
// GetPut atomically sets the key to value and returns the old value stored at key. It returns nil if there is no
// previous value.
GetPut(ctx context.Context, key string, value interface{}) (*GetResponse, error)
// IncrByFloat atomically increments the key by delta. The return value is the new value
// after being incremented or an error.
IncrByFloat(ctx context.Context, key string, delta float64) (float64, error)
// Expire updates the expiry for the given key. It returns ErrKeyNotFound if
// the DB does not contain the key. It's thread-safe.
Expire(ctx context.Context, key string, timeout time.Duration) error
// Lock sets a lock for the given key. Acquired lock is only for the key in
// this dmap.
//
// It returns immediately if it acquires the lock for the given key. Otherwise,
// it waits until deadline.
//
// You should know that the locks are approximate, and only to be used for
// non-critical purposes.
Lock(ctx context.Context, key string, deadline time.Duration) (LockContext, error)
// LockWithTimeout sets a lock for the given key. If the lock is still unreleased
// the end of given period of time,
// it automatically releases the lock. Acquired lock is only for the key in
// this dmap.
//
// It returns immediately if it acquires the lock for the given key. Otherwise,
// it waits until deadline.
//
// You should know that the locks are approximate, and only to be used for
// non-critical purposes.
LockWithTimeout(ctx context.Context, key string, timeout, deadline time.Duration) (LockContext, error)
// Scan returns an iterator to loop over the keys.
//
// Available scan options:
//
// * Count
// * Match
Scan(ctx context.Context, options ...ScanOption) (Iterator, error)
// Destroy flushes the given DMap on the cluster. You should know that there
// is no global lock on DMaps. So if you call Put/PutEx and Destroy methods
// concurrently on the cluster, Put call may set new values to the DMap.
Destroy(ctx context.Context) error
// Pipeline is a mechanism to realise Redis Pipeline technique.
//
// Pipelining is a technique to extremely speed up processing by packing
// operations to batches, send them at once to Redis and read a replies in a
// singe step.
// See https://redis.io/topics/pipelining
//
// Pay attention, that Pipeline is not a transaction, so you can get unexpected
// results in case of big pipelines and small read/write timeouts.
// Redis client has retransmission logic in case of timeouts, pipeline
// can be retransmitted and commands can be executed more than once.
Pipeline(opts ...PipelineOption) (*DMapPipeline, error)
}
// PipelineOption is a function for defining options to control behavior of the Pipeline command.
type PipelineOption func(pipeline *DMapPipeline)
// PipelineConcurrency is a PipelineOption controlling the number of concurrent goroutines.
func PipelineConcurrency(concurrency int) PipelineOption {
return func(dp *DMapPipeline) {
dp.concurrency = concurrency
}
}
type statsConfig struct {
CollectRuntime bool
}
// StatsOption is a function for defining options to control behavior of the STATS command.
type StatsOption func(*statsConfig)
// CollectRuntime is a StatsOption for collecting Go runtime statistics from a cluster member.
func CollectRuntime() StatsOption {
return func(cfg *statsConfig) {
cfg.CollectRuntime = true
}
}
type pubsubConfig struct {
Address string
}
// ToAddress is a PubSubOption for using a specific cluster member to publish messages to a channel.
func ToAddress(addr string) PubSubOption {
return func(cfg *pubsubConfig) {
cfg.Address = addr
}
}
// PubSubOption is a function for defining options to control behavior of the Publish-Subscribe service.
type PubSubOption func(option *pubsubConfig)
// Client is an interface that denotes an Olric client.
type Client interface {
// NewDMap returns a new DMap client with the given options.
NewDMap(name string, options ...DMapOption) (DMap, error)
// NewPubSub returns a new PubSub client with the given options.
NewPubSub(options ...PubSubOption) (*PubSub, error)
// Stats returns stats.Stats with the given options.
Stats(ctx context.Context, address string, options ...StatsOption) (stats.Stats, error)
// Ping sends a ping message to an Olric node. Returns PONG if message is empty,
// otherwise return a copy of the message as a bulk. This command is often used to test
// if a connection is still alive, or to measure latency.
Ping(ctx context.Context, address, message string) (string, error)
// RoutingTable returns the latest version of the routing table.
RoutingTable(ctx context.Context) (RoutingTable, error)
// Members returns a thread-safe list of cluster members.
Members(ctx context.Context) ([]Member, error)
// RefreshMetadata fetches a list of available members and the latest routing
// table version. It also closes stale clients, if there are any.
RefreshMetadata(ctx context.Context) error
// Close stops background routines and frees allocated resources.
Close(ctx context.Context) error
}