package memcache import ( "context" "github.com/go-kratos/kratos/pkg/container/pool" xtime "github.com/go-kratos/kratos/pkg/time" ) const ( // Flag, 15(encoding) bit+ 17(compress) bit // FlagRAW default flag. FlagRAW = uint32(0) // FlagGOB gob encoding. FlagGOB = uint32(1) << 0 // FlagJSON json encoding. FlagJSON = uint32(1) << 1 // FlagProtobuf protobuf FlagProtobuf = uint32(1) << 2 _flagEncoding = uint32(0xFFFF8000) // FlagGzip gzip compress. FlagGzip = uint32(1) << 15 // left mv 31??? not work!!! flagLargeValue = uint32(1) << 30 ) // Item is an reply to be got or stored in a memcached server. type Item struct { // Key is the Item's key (250 bytes maximum). Key string // Value is the Item's value. Value []byte // Object is the Item's object for use codec. Object interface{} // Flags are server-opaque flags whose semantics are entirely // up to the app. Flags uint32 // Expiration is the cache expiration time, in seconds: either a relative // time from now (up to 1 month), or an absolute Unix epoch time. // Zero means the Item has no expiration time. Expiration int32 // Compare and swap ID. cas uint64 } // Conn represents a connection to a Memcache server. // Command Reference: https://github.com/memcached/memcached/wiki/Commands type Conn interface { // Close closes the connection. Close() error // Err returns a non-nil value if the connection is broken. The returned // value is either the first non-nil value returned from the underlying // network connection or a protocol parsing error. Applications should // close broken connections. Err() error // Add writes the given item, if no value already exists for its key. // ErrNotStored is returned if that condition is not met. Add(item *Item) error // Set writes the given item, unconditionally. Set(item *Item) error // Replace writes the given item, but only if the server *does* already // hold data for this key. Replace(item *Item) error // Get sends a command to the server for gets data. Get(key string) (*Item, error) // GetMulti is a batch version of Get. The returned map from keys to items // may have fewer elements than the input slice, due to memcache cache // misses. Each key must be at most 250 bytes in length. // If no error is returned, the returned map will also be non-nil. GetMulti(keys []string) (map[string]*Item, error) // Delete deletes the item with the provided key. // The error ErrNotFound is returned if the item didn't already exist in // the cache. Delete(key string) error // Increment atomically increments key by delta. The return value is the // new value after being incremented or an error. If the value didn't exist // in memcached the error is ErrNotFound. The value in memcached must be // an decimal number, or an error will be returned. // On 64-bit overflow, the new value wraps around. Increment(key string, delta uint64) (newValue uint64, err error) // Decrement atomically decrements key by delta. The return value is the // new value after being decremented or an error. If the value didn't exist // in memcached the error is ErrNotFound. The value in memcached must be // an decimal number, or an error will be returned. On underflow, the new // value is capped at zero and does not wrap around. Decrement(key string, delta uint64) (newValue uint64, err error) // CompareAndSwap writes the given item that was previously returned by // Get, if the value was neither modified or evicted between the Get and // the CompareAndSwap calls. The item's Key should not change between calls // but all other item fields may differ. ErrCASConflict is returned if the // value was modified in between the calls. // ErrNotStored is returned if the value was evicted in between the calls. CompareAndSwap(item *Item) error // Touch updates the expiry for the given key. The seconds parameter is // either a Unix timestamp or, if seconds is less than 1 month, the number // of seconds into the future at which time the item will expire. // ErrNotFound is returned if the key is not in the cache. The key must be // at most 250 bytes in length. Touch(key string, seconds int32) (err error) // Scan converts value read from the memcache into the following // common Go types and special types: // // *string // *[]byte // *interface{} // Scan(item *Item, v interface{}) (err error) // Add writes the given item, if no value already exists for its key. // ErrNotStored is returned if that condition is not met. AddContext(ctx context.Context, item *Item) error // Set writes the given item, unconditionally. SetContext(ctx context.Context, item *Item) error // Replace writes the given item, but only if the server *does* already // hold data for this key. ReplaceContext(ctx context.Context, item *Item) error // Get sends a command to the server for gets data. GetContext(ctx context.Context, key string) (*Item, error) // GetMulti is a batch version of Get. The returned map from keys to items // may have fewer elements than the input slice, due to memcache cache // misses. Each key must be at most 250 bytes in length. // If no error is returned, the returned map will also be non-nil. GetMultiContext(ctx context.Context, keys []string) (map[string]*Item, error) // Delete deletes the item with the provided key. // The error ErrNotFound is returned if the item didn't already exist in // the cache. DeleteContext(ctx context.Context, key string) error // Increment atomically increments key by delta. The return value is the // new value after being incremented or an error. If the value didn't exist // in memcached the error is ErrNotFound. The value in memcached must be // an decimal number, or an error will be returned. // On 64-bit overflow, the new value wraps around. IncrementContext(ctx context.Context, key string, delta uint64) (newValue uint64, err error) // Decrement atomically decrements key by delta. The return value is the // new value after being decremented or an error. If the value didn't exist // in memcached the error is ErrNotFound. The value in memcached must be // an decimal number, or an error will be returned. On underflow, the new // value is capped at zero and does not wrap around. DecrementContext(ctx context.Context, key string, delta uint64) (newValue uint64, err error) // CompareAndSwap writes the given item that was previously returned by // Get, if the value was neither modified or evicted between the Get and // the CompareAndSwap calls. The item's Key should not change between calls // but all other item fields may differ. ErrCASConflict is returned if the // value was modified in between the calls. // ErrNotStored is returned if the value was evicted in between the calls. CompareAndSwapContext(ctx context.Context, item *Item) error // Touch updates the expiry for the given key. The seconds parameter is // either a Unix timestamp or, if seconds is less than 1 month, the number // of seconds into the future at which time the item will expire. // ErrNotFound is returned if the key is not in the cache. The key must be // at most 250 bytes in length. TouchContext(ctx context.Context, key string, seconds int32) (err error) } // Config memcache config. type Config struct { *pool.Config Name string // memcache name, for trace Proto string Addr string DialTimeout xtime.Duration ReadTimeout xtime.Duration WriteTimeout xtime.Duration } // Memcache memcache client type Memcache struct { pool *Pool } // Reply is the result of Get type Reply struct { err error item *Item conn Conn closed bool } // Replies is the result of GetMulti type Replies struct { err error items map[string]*Item usedItems map[string]struct{} conn Conn closed bool } // New get a memcache client func New(cfg *Config) *Memcache { return &Memcache{pool: NewPool(cfg)} } // Close close connection pool func (mc *Memcache) Close() error { return mc.pool.Close() } // Conn direct get a connection func (mc *Memcache) Conn(ctx context.Context) Conn { return mc.pool.Get(ctx) } // Set writes the given item, unconditionally. func (mc *Memcache) Set(ctx context.Context, item *Item) (err error) { conn := mc.pool.Get(ctx) err = conn.SetContext(ctx, item) conn.Close() return } // Add writes the given item, if no value already exists for its key. // ErrNotStored is returned if that condition is not met. func (mc *Memcache) Add(ctx context.Context, item *Item) (err error) { conn := mc.pool.Get(ctx) err = conn.AddContext(ctx, item) conn.Close() return } // Replace writes the given item, but only if the server *does* already hold data for this key. func (mc *Memcache) Replace(ctx context.Context, item *Item) (err error) { conn := mc.pool.Get(ctx) err = conn.ReplaceContext(ctx, item) conn.Close() return } // CompareAndSwap writes the given item that was previously returned by Get func (mc *Memcache) CompareAndSwap(ctx context.Context, item *Item) (err error) { conn := mc.pool.Get(ctx) err = conn.CompareAndSwapContext(ctx, item) conn.Close() return } // Get sends a command to the server for gets data. func (mc *Memcache) Get(ctx context.Context, key string) *Reply { conn := mc.pool.Get(ctx) item, err := conn.GetContext(ctx, key) if err != nil { conn.Close() } return &Reply{err: err, item: item, conn: conn} } // Item get raw Item func (r *Reply) Item() *Item { return r.item } // Scan converts value, read from the memcache func (r *Reply) Scan(v interface{}) (err error) { if r.err != nil { return r.err } err = r.conn.Scan(r.item, v) if !r.closed { r.conn.Close() r.closed = true } return } // GetMulti is a batch version of Get func (mc *Memcache) GetMulti(ctx context.Context, keys []string) (*Replies, error) { conn := mc.pool.Get(ctx) items, err := conn.GetMultiContext(ctx, keys) rs := &Replies{err: err, items: items, conn: conn, usedItems: make(map[string]struct{}, len(keys))} if (err != nil) || (len(items) == 0) { rs.Close() } return rs, err } // Close close rows. func (rs *Replies) Close() (err error) { if !rs.closed { err = rs.conn.Close() rs.closed = true } return } // Item get Item from rows func (rs *Replies) Item(key string) *Item { return rs.items[key] } // Scan converts value, read from key in rows func (rs *Replies) Scan(key string, v interface{}) (err error) { if rs.err != nil { return rs.err } item, ok := rs.items[key] if !ok { rs.Close() return ErrNotFound } rs.usedItems[key] = struct{}{} err = rs.conn.Scan(item, v) if (err != nil) || (len(rs.items) == len(rs.usedItems)) { rs.Close() } return } // Keys keys of result func (rs *Replies) Keys() (keys []string) { keys = make([]string, 0, len(rs.items)) for key := range rs.items { keys = append(keys, key) } return } // Touch updates the expiry for the given key. func (mc *Memcache) Touch(ctx context.Context, key string, timeout int32) (err error) { conn := mc.pool.Get(ctx) err = conn.TouchContext(ctx, key, timeout) conn.Close() return } // Delete deletes the item with the provided key. func (mc *Memcache) Delete(ctx context.Context, key string) (err error) { conn := mc.pool.Get(ctx) err = conn.DeleteContext(ctx, key) conn.Close() return } // Increment atomically increments key by delta. func (mc *Memcache) Increment(ctx context.Context, key string, delta uint64) (newValue uint64, err error) { conn := mc.pool.Get(ctx) newValue, err = conn.IncrementContext(ctx, key, delta) conn.Close() return } // Decrement atomically decrements key by delta. func (mc *Memcache) Decrement(ctx context.Context, key string, delta uint64) (newValue uint64, err error) { conn := mc.pool.Get(ctx) newValue, err = conn.DecrementContext(ctx, key, delta) conn.Close() return }