package redis import ( "bufio" "context" "fmt" "net" "regexp" "strconv" "strings" "sync" "time" "github.com/redis/go-redis/v9/internal" "github.com/redis/go-redis/v9/internal/hscan" "github.com/redis/go-redis/v9/internal/proto" "github.com/redis/go-redis/v9/internal/util" ) type Cmder interface { // command name. // e.g. "set k v ex 10" -> "set", "cluster info" -> "cluster". Name() string // full command name. // e.g. "set k v ex 10" -> "set", "cluster info" -> "cluster info". FullName() string // all args of the command. // e.g. "set k v ex 10" -> "[set k v ex 10]". Args() []interface{} // format request and response string. // e.g. "set k v ex 10" -> "set k v ex 10: OK", "get k" -> "get k: v". String() string stringArg(int) string firstKeyPos() int8 SetFirstKeyPos(int8) readTimeout() *time.Duration readReply(rd *proto.Reader) error readRawReply(rd *proto.Reader) error SetErr(error) Err() error } func setCmdsErr(cmds []Cmder, e error) { for _, cmd := range cmds { if cmd.Err() == nil { cmd.SetErr(e) } } } func cmdsFirstErr(cmds []Cmder) error { for _, cmd := range cmds { if err := cmd.Err(); err != nil { return err } } return nil } func writeCmds(wr *proto.Writer, cmds []Cmder) error { for _, cmd := range cmds { if err := writeCmd(wr, cmd); err != nil { return err } } return nil } func writeCmd(wr *proto.Writer, cmd Cmder) error { return wr.WriteArgs(cmd.Args()) } func cmdFirstKeyPos(cmd Cmder) int { if pos := cmd.firstKeyPos(); pos != 0 { return int(pos) } switch cmd.Name() { case "eval", "evalsha", "eval_ro", "evalsha_ro": if cmd.stringArg(2) != "0" { return 3 } return 0 case "publish": return 1 case "memory": // https://github.com/redis/redis/issues/7493 if cmd.stringArg(1) == "usage" { return 2 } } return 1 } func cmdString(cmd Cmder, val interface{}) string { b := make([]byte, 0, 64) for i, arg := range cmd.Args() { if i > 0 { b = append(b, ' ') } b = internal.AppendArg(b, arg) } if err := cmd.Err(); err != nil { b = append(b, ": "...) b = append(b, err.Error()...) } else if val != nil { b = append(b, ": "...) b = internal.AppendArg(b, val) } return util.BytesToString(b) } //------------------------------------------------------------------------------ type baseCmd struct { ctx context.Context args []interface{} err error keyPos int8 rawVal interface{} _readTimeout *time.Duration } var _ Cmder = (*Cmd)(nil) func (cmd *baseCmd) Name() string { if len(cmd.args) == 0 { return "" } // Cmd name must be lower cased. return internal.ToLower(cmd.stringArg(0)) } func (cmd *baseCmd) FullName() string { switch name := cmd.Name(); name { case "cluster", "command": if len(cmd.args) == 1 { return name } if s2, ok := cmd.args[1].(string); ok { return name + " " + s2 } return name default: return name } } func (cmd *baseCmd) Args() []interface{} { return cmd.args } func (cmd *baseCmd) stringArg(pos int) string { if pos < 0 || pos >= len(cmd.args) { return "" } arg := cmd.args[pos] switch v := arg.(type) { case string: return v default: // TODO: consider using appendArg return fmt.Sprint(v) } } func (cmd *baseCmd) firstKeyPos() int8 { return cmd.keyPos } func (cmd *baseCmd) SetFirstKeyPos(keyPos int8) { cmd.keyPos = keyPos } func (cmd *baseCmd) SetErr(e error) { cmd.err = e } func (cmd *baseCmd) Err() error { return cmd.err } func (cmd *baseCmd) readTimeout() *time.Duration { return cmd._readTimeout } func (cmd *baseCmd) setReadTimeout(d time.Duration) { cmd._readTimeout = &d } func (cmd *baseCmd) readRawReply(rd *proto.Reader) (err error) { cmd.rawVal, err = rd.ReadReply() return err } //------------------------------------------------------------------------------ type Cmd struct { baseCmd val interface{} } func NewCmd(ctx context.Context, args ...interface{}) *Cmd { return &Cmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *Cmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *Cmd) SetVal(val interface{}) { cmd.val = val } func (cmd *Cmd) Val() interface{} { return cmd.val } func (cmd *Cmd) Result() (interface{}, error) { return cmd.val, cmd.err } func (cmd *Cmd) Text() (string, error) { if cmd.err != nil { return "", cmd.err } return toString(cmd.val) } func toString(val interface{}) (string, error) { switch val := val.(type) { case string: return val, nil default: err := fmt.Errorf("redis: unexpected type=%T for String", val) return "", err } } func (cmd *Cmd) Int() (int, error) { if cmd.err != nil { return 0, cmd.err } switch val := cmd.val.(type) { case int64: return int(val), nil case string: return strconv.Atoi(val) default: err := fmt.Errorf("redis: unexpected type=%T for Int", val) return 0, err } } func (cmd *Cmd) Int64() (int64, error) { if cmd.err != nil { return 0, cmd.err } return toInt64(cmd.val) } func toInt64(val interface{}) (int64, error) { switch val := val.(type) { case int64: return val, nil case string: return strconv.ParseInt(val, 10, 64) default: err := fmt.Errorf("redis: unexpected type=%T for Int64", val) return 0, err } } func (cmd *Cmd) Uint64() (uint64, error) { if cmd.err != nil { return 0, cmd.err } return toUint64(cmd.val) } func toUint64(val interface{}) (uint64, error) { switch val := val.(type) { case int64: return uint64(val), nil case string: return strconv.ParseUint(val, 10, 64) default: err := fmt.Errorf("redis: unexpected type=%T for Uint64", val) return 0, err } } func (cmd *Cmd) Float32() (float32, error) { if cmd.err != nil { return 0, cmd.err } return toFloat32(cmd.val) } func toFloat32(val interface{}) (float32, error) { switch val := val.(type) { case int64: return float32(val), nil case string: f, err := strconv.ParseFloat(val, 32) if err != nil { return 0, err } return float32(f), nil default: err := fmt.Errorf("redis: unexpected type=%T for Float32", val) return 0, err } } func (cmd *Cmd) Float64() (float64, error) { if cmd.err != nil { return 0, cmd.err } return toFloat64(cmd.val) } func toFloat64(val interface{}) (float64, error) { switch val := val.(type) { case int64: return float64(val), nil case string: return strconv.ParseFloat(val, 64) default: err := fmt.Errorf("redis: unexpected type=%T for Float64", val) return 0, err } } func (cmd *Cmd) Bool() (bool, error) { if cmd.err != nil { return false, cmd.err } return toBool(cmd.val) } func toBool(val interface{}) (bool, error) { switch val := val.(type) { case bool: return val, nil case int64: return val != 0, nil case string: return strconv.ParseBool(val) default: err := fmt.Errorf("redis: unexpected type=%T for Bool", val) return false, err } } func (cmd *Cmd) Slice() ([]interface{}, error) { if cmd.err != nil { return nil, cmd.err } switch val := cmd.val.(type) { case []interface{}: return val, nil default: return nil, fmt.Errorf("redis: unexpected type=%T for Slice", val) } } func (cmd *Cmd) StringSlice() ([]string, error) { slice, err := cmd.Slice() if err != nil { return nil, err } ss := make([]string, len(slice)) for i, iface := range slice { val, err := toString(iface) if err != nil { return nil, err } ss[i] = val } return ss, nil } func (cmd *Cmd) Int64Slice() ([]int64, error) { slice, err := cmd.Slice() if err != nil { return nil, err } nums := make([]int64, len(slice)) for i, iface := range slice { val, err := toInt64(iface) if err != nil { return nil, err } nums[i] = val } return nums, nil } func (cmd *Cmd) Uint64Slice() ([]uint64, error) { slice, err := cmd.Slice() if err != nil { return nil, err } nums := make([]uint64, len(slice)) for i, iface := range slice { val, err := toUint64(iface) if err != nil { return nil, err } nums[i] = val } return nums, nil } func (cmd *Cmd) Float32Slice() ([]float32, error) { slice, err := cmd.Slice() if err != nil { return nil, err } floats := make([]float32, len(slice)) for i, iface := range slice { val, err := toFloat32(iface) if err != nil { return nil, err } floats[i] = val } return floats, nil } func (cmd *Cmd) Float64Slice() ([]float64, error) { slice, err := cmd.Slice() if err != nil { return nil, err } floats := make([]float64, len(slice)) for i, iface := range slice { val, err := toFloat64(iface) if err != nil { return nil, err } floats[i] = val } return floats, nil } func (cmd *Cmd) BoolSlice() ([]bool, error) { slice, err := cmd.Slice() if err != nil { return nil, err } bools := make([]bool, len(slice)) for i, iface := range slice { val, err := toBool(iface) if err != nil { return nil, err } bools[i] = val } return bools, nil } func (cmd *Cmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadReply() return err } //------------------------------------------------------------------------------ type SliceCmd struct { baseCmd val []interface{} } var _ Cmder = (*SliceCmd)(nil) func NewSliceCmd(ctx context.Context, args ...interface{}) *SliceCmd { return &SliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *SliceCmd) SetVal(val []interface{}) { cmd.val = val } func (cmd *SliceCmd) Val() []interface{} { return cmd.val } func (cmd *SliceCmd) Result() ([]interface{}, error) { return cmd.val, cmd.err } func (cmd *SliceCmd) String() string { return cmdString(cmd, cmd.val) } // Scan scans the results from the map into a destination struct. The map keys // are matched in the Redis struct fields by the `redis:"field"` tag. func (cmd *SliceCmd) Scan(dst interface{}) error { if cmd.err != nil { return cmd.err } // Pass the list of keys and values. // Skip the first two args for: HMGET key var args []interface{} if cmd.args[0] == "hmget" { args = cmd.args[2:] } else { // Otherwise, it's: MGET field field ... args = cmd.args[1:] } return hscan.Scan(dst, args, cmd.val) } func (cmd *SliceCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadSlice() return err } //------------------------------------------------------------------------------ type StatusCmd struct { baseCmd val string } var _ Cmder = (*StatusCmd)(nil) func NewStatusCmd(ctx context.Context, args ...interface{}) *StatusCmd { return &StatusCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *StatusCmd) SetVal(val string) { cmd.val = val } func (cmd *StatusCmd) Val() string { return cmd.val } func (cmd *StatusCmd) Result() (string, error) { return cmd.val, cmd.err } func (cmd *StatusCmd) Bytes() ([]byte, error) { return util.StringToBytes(cmd.val), cmd.err } func (cmd *StatusCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *StatusCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadString() return err } //------------------------------------------------------------------------------ type IntCmd struct { baseCmd val int64 } var _ Cmder = (*IntCmd)(nil) func NewIntCmd(ctx context.Context, args ...interface{}) *IntCmd { return &IntCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *IntCmd) SetVal(val int64) { cmd.val = val } func (cmd *IntCmd) Val() int64 { return cmd.val } func (cmd *IntCmd) Result() (int64, error) { return cmd.val, cmd.err } func (cmd *IntCmd) Uint64() (uint64, error) { return uint64(cmd.val), cmd.err } func (cmd *IntCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *IntCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadInt() return err } //------------------------------------------------------------------------------ type IntSliceCmd struct { baseCmd val []int64 } var _ Cmder = (*IntSliceCmd)(nil) func NewIntSliceCmd(ctx context.Context, args ...interface{}) *IntSliceCmd { return &IntSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *IntSliceCmd) SetVal(val []int64) { cmd.val = val } func (cmd *IntSliceCmd) Val() []int64 { return cmd.val } func (cmd *IntSliceCmd) Result() ([]int64, error) { return cmd.val, cmd.err } func (cmd *IntSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *IntSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]int64, n) for i := 0; i < len(cmd.val); i++ { if cmd.val[i], err = rd.ReadInt(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type DurationCmd struct { baseCmd val time.Duration precision time.Duration } var _ Cmder = (*DurationCmd)(nil) func NewDurationCmd(ctx context.Context, precision time.Duration, args ...interface{}) *DurationCmd { return &DurationCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, precision: precision, } } func (cmd *DurationCmd) SetVal(val time.Duration) { cmd.val = val } func (cmd *DurationCmd) Val() time.Duration { return cmd.val } func (cmd *DurationCmd) Result() (time.Duration, error) { return cmd.val, cmd.err } func (cmd *DurationCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *DurationCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadInt() if err != nil { return err } switch n { // -2 if the key does not exist // -1 if the key exists but has no associated expire case -2, -1: cmd.val = time.Duration(n) default: cmd.val = time.Duration(n) * cmd.precision } return nil } //------------------------------------------------------------------------------ type TimeCmd struct { baseCmd val time.Time } var _ Cmder = (*TimeCmd)(nil) func NewTimeCmd(ctx context.Context, args ...interface{}) *TimeCmd { return &TimeCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *TimeCmd) SetVal(val time.Time) { cmd.val = val } func (cmd *TimeCmd) Val() time.Time { return cmd.val } func (cmd *TimeCmd) Result() (time.Time, error) { return cmd.val, cmd.err } func (cmd *TimeCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *TimeCmd) readReply(rd *proto.Reader) error { if err := rd.ReadFixedArrayLen(2); err != nil { return err } second, err := rd.ReadInt() if err != nil { return err } microsecond, err := rd.ReadInt() if err != nil { return err } cmd.val = time.Unix(second, microsecond*1000) return nil } //------------------------------------------------------------------------------ type BoolCmd struct { baseCmd val bool } var _ Cmder = (*BoolCmd)(nil) func NewBoolCmd(ctx context.Context, args ...interface{}) *BoolCmd { return &BoolCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *BoolCmd) SetVal(val bool) { cmd.val = val } func (cmd *BoolCmd) Val() bool { return cmd.val } func (cmd *BoolCmd) Result() (bool, error) { return cmd.val, cmd.err } func (cmd *BoolCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *BoolCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadBool() // `SET key value NX` returns nil when key already exists. But // `SETNX key value` returns bool (0/1). So convert nil to bool. if err == Nil { cmd.val = false err = nil } return err } //------------------------------------------------------------------------------ type StringCmd struct { baseCmd val string } var _ Cmder = (*StringCmd)(nil) func NewStringCmd(ctx context.Context, args ...interface{}) *StringCmd { return &StringCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *StringCmd) SetVal(val string) { cmd.val = val } func (cmd *StringCmd) Val() string { return cmd.val } func (cmd *StringCmd) Result() (string, error) { return cmd.val, cmd.err } func (cmd *StringCmd) Bytes() ([]byte, error) { return util.StringToBytes(cmd.val), cmd.err } func (cmd *StringCmd) Bool() (bool, error) { if cmd.err != nil { return false, cmd.err } return strconv.ParseBool(cmd.val) } func (cmd *StringCmd) Int() (int, error) { if cmd.err != nil { return 0, cmd.err } return strconv.Atoi(cmd.Val()) } func (cmd *StringCmd) Int64() (int64, error) { if cmd.err != nil { return 0, cmd.err } return strconv.ParseInt(cmd.Val(), 10, 64) } func (cmd *StringCmd) Uint64() (uint64, error) { if cmd.err != nil { return 0, cmd.err } return strconv.ParseUint(cmd.Val(), 10, 64) } func (cmd *StringCmd) Float32() (float32, error) { if cmd.err != nil { return 0, cmd.err } f, err := strconv.ParseFloat(cmd.Val(), 32) if err != nil { return 0, err } return float32(f), nil } func (cmd *StringCmd) Float64() (float64, error) { if cmd.err != nil { return 0, cmd.err } return strconv.ParseFloat(cmd.Val(), 64) } func (cmd *StringCmd) Time() (time.Time, error) { if cmd.err != nil { return time.Time{}, cmd.err } return time.Parse(time.RFC3339Nano, cmd.Val()) } func (cmd *StringCmd) Scan(val interface{}) error { if cmd.err != nil { return cmd.err } return proto.Scan([]byte(cmd.val), val) } func (cmd *StringCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *StringCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadString() return err } //------------------------------------------------------------------------------ type FloatCmd struct { baseCmd val float64 } var _ Cmder = (*FloatCmd)(nil) func NewFloatCmd(ctx context.Context, args ...interface{}) *FloatCmd { return &FloatCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *FloatCmd) SetVal(val float64) { cmd.val = val } func (cmd *FloatCmd) Val() float64 { return cmd.val } func (cmd *FloatCmd) Result() (float64, error) { return cmd.val, cmd.err } func (cmd *FloatCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *FloatCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = rd.ReadFloat() return err } //------------------------------------------------------------------------------ type FloatSliceCmd struct { baseCmd val []float64 } var _ Cmder = (*FloatSliceCmd)(nil) func NewFloatSliceCmd(ctx context.Context, args ...interface{}) *FloatSliceCmd { return &FloatSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *FloatSliceCmd) SetVal(val []float64) { cmd.val = val } func (cmd *FloatSliceCmd) Val() []float64 { return cmd.val } func (cmd *FloatSliceCmd) Result() ([]float64, error) { return cmd.val, cmd.err } func (cmd *FloatSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *FloatSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]float64, n) for i := 0; i < len(cmd.val); i++ { switch num, err := rd.ReadFloat(); { case err == Nil: cmd.val[i] = 0 case err != nil: return err default: cmd.val[i] = num } } return nil } //------------------------------------------------------------------------------ type StringSliceCmd struct { baseCmd val []string } var _ Cmder = (*StringSliceCmd)(nil) func NewStringSliceCmd(ctx context.Context, args ...interface{}) *StringSliceCmd { return &StringSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *StringSliceCmd) SetVal(val []string) { cmd.val = val } func (cmd *StringSliceCmd) Val() []string { return cmd.val } func (cmd *StringSliceCmd) Result() ([]string, error) { return cmd.val, cmd.err } func (cmd *StringSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *StringSliceCmd) ScanSlice(container interface{}) error { return proto.ScanSlice(cmd.Val(), container) } func (cmd *StringSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]string, n) for i := 0; i < len(cmd.val); i++ { switch s, err := rd.ReadString(); { case err == Nil: cmd.val[i] = "" case err != nil: return err default: cmd.val[i] = s } } return nil } //------------------------------------------------------------------------------ type KeyValue struct { Key string Value string } type KeyValueSliceCmd struct { baseCmd val []KeyValue } var _ Cmder = (*KeyValueSliceCmd)(nil) func NewKeyValueSliceCmd(ctx context.Context, args ...interface{}) *KeyValueSliceCmd { return &KeyValueSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *KeyValueSliceCmd) SetVal(val []KeyValue) { cmd.val = val } func (cmd *KeyValueSliceCmd) Val() []KeyValue { return cmd.val } func (cmd *KeyValueSliceCmd) Result() ([]KeyValue, error) { return cmd.val, cmd.err } func (cmd *KeyValueSliceCmd) String() string { return cmdString(cmd, cmd.val) } // Many commands will respond to two formats: // 1. 1) "one" // 2. (double) 1 // 2. 1) "two" // 2. (double) 2 // // OR: // 1. "two" // 2. (double) 2 // 3. "one" // 4. (double) 1 func (cmd *KeyValueSliceCmd) readReply(rd *proto.Reader) error { // nolint:dupl n, err := rd.ReadArrayLen() if err != nil { return err } // If the n is 0, can't continue reading. if n == 0 { cmd.val = make([]KeyValue, 0) return nil } typ, err := rd.PeekReplyType() if err != nil { return err } array := typ == proto.RespArray if array { cmd.val = make([]KeyValue, n) } else { cmd.val = make([]KeyValue, n/2) } for i := 0; i < len(cmd.val); i++ { if array { if err = rd.ReadFixedArrayLen(2); err != nil { return err } } if cmd.val[i].Key, err = rd.ReadString(); err != nil { return err } if cmd.val[i].Value, err = rd.ReadString(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type BoolSliceCmd struct { baseCmd val []bool } var _ Cmder = (*BoolSliceCmd)(nil) func NewBoolSliceCmd(ctx context.Context, args ...interface{}) *BoolSliceCmd { return &BoolSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *BoolSliceCmd) SetVal(val []bool) { cmd.val = val } func (cmd *BoolSliceCmd) Val() []bool { return cmd.val } func (cmd *BoolSliceCmd) Result() ([]bool, error) { return cmd.val, cmd.err } func (cmd *BoolSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *BoolSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]bool, n) for i := 0; i < len(cmd.val); i++ { if cmd.val[i], err = rd.ReadBool(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type MapStringStringCmd struct { baseCmd val map[string]string } var _ Cmder = (*MapStringStringCmd)(nil) func NewMapStringStringCmd(ctx context.Context, args ...interface{}) *MapStringStringCmd { return &MapStringStringCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringStringCmd) Val() map[string]string { return cmd.val } func (cmd *MapStringStringCmd) SetVal(val map[string]string) { cmd.val = val } func (cmd *MapStringStringCmd) Result() (map[string]string, error) { return cmd.val, cmd.err } func (cmd *MapStringStringCmd) String() string { return cmdString(cmd, cmd.val) } // Scan scans the results from the map into a destination struct. The map keys // are matched in the Redis struct fields by the `redis:"field"` tag. func (cmd *MapStringStringCmd) Scan(dest interface{}) error { if cmd.err != nil { return cmd.err } strct, err := hscan.Struct(dest) if err != nil { return err } for k, v := range cmd.val { if err := strct.Scan(k, v); err != nil { return err } } return nil } func (cmd *MapStringStringCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadMapLen() if err != nil { return err } cmd.val = make(map[string]string, n) for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return err } value, err := rd.ReadString() if err != nil { return err } cmd.val[key] = value } return nil } //------------------------------------------------------------------------------ type MapStringIntCmd struct { baseCmd val map[string]int64 } var _ Cmder = (*MapStringIntCmd)(nil) func NewMapStringIntCmd(ctx context.Context, args ...interface{}) *MapStringIntCmd { return &MapStringIntCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringIntCmd) SetVal(val map[string]int64) { cmd.val = val } func (cmd *MapStringIntCmd) Val() map[string]int64 { return cmd.val } func (cmd *MapStringIntCmd) Result() (map[string]int64, error) { return cmd.val, cmd.err } func (cmd *MapStringIntCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapStringIntCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadMapLen() if err != nil { return err } cmd.val = make(map[string]int64, n) for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return err } nn, err := rd.ReadInt() if err != nil { return err } cmd.val[key] = nn } return nil } // ------------------------------------------------------------------------------ type MapStringSliceInterfaceCmd struct { baseCmd val map[string][]interface{} } func NewMapStringSliceInterfaceCmd(ctx context.Context, args ...interface{}) *MapStringSliceInterfaceCmd { return &MapStringSliceInterfaceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringSliceInterfaceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapStringSliceInterfaceCmd) SetVal(val map[string][]interface{}) { cmd.val = val } func (cmd *MapStringSliceInterfaceCmd) Result() (map[string][]interface{}, error) { return cmd.val, cmd.err } func (cmd *MapStringSliceInterfaceCmd) Val() map[string][]interface{} { return cmd.val } func (cmd *MapStringSliceInterfaceCmd) readReply(rd *proto.Reader) (err error) { readType, err := rd.PeekReplyType() if err != nil { return err } cmd.val = make(map[string][]interface{}) if readType == proto.RespMap { n, err := rd.ReadMapLen() if err != nil { return err } for i := 0; i < n; i++ { k, err := rd.ReadString() if err != nil { return err } nn, err := rd.ReadArrayLen() if err != nil { return err } cmd.val[k] = make([]interface{}, nn) for j := 0; j < nn; j++ { value, err := rd.ReadReply() if err != nil { return err } cmd.val[k][j] = value } } } else if readType == proto.RespArray { // RESP2 response n, err := rd.ReadArrayLen() if err != nil { return err } for i := 0; i < n; i++ { // Each entry in this array is itself an array with key details itemLen, err := rd.ReadArrayLen() if err != nil { return err } key, err := rd.ReadString() if err != nil { return err } cmd.val[key] = make([]interface{}, 0, itemLen-1) for j := 1; j < itemLen; j++ { // Read the inner array for timestamp-value pairs data, err := rd.ReadReply() if err != nil { return err } cmd.val[key] = append(cmd.val[key], data) } } } return nil } //------------------------------------------------------------------------------ type StringStructMapCmd struct { baseCmd val map[string]struct{} } var _ Cmder = (*StringStructMapCmd)(nil) func NewStringStructMapCmd(ctx context.Context, args ...interface{}) *StringStructMapCmd { return &StringStructMapCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *StringStructMapCmd) SetVal(val map[string]struct{}) { cmd.val = val } func (cmd *StringStructMapCmd) Val() map[string]struct{} { return cmd.val } func (cmd *StringStructMapCmd) Result() (map[string]struct{}, error) { return cmd.val, cmd.err } func (cmd *StringStructMapCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *StringStructMapCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make(map[string]struct{}, n) for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return err } cmd.val[key] = struct{}{} } return nil } //------------------------------------------------------------------------------ type XMessage struct { ID string Values map[string]interface{} } type XMessageSliceCmd struct { baseCmd val []XMessage } var _ Cmder = (*XMessageSliceCmd)(nil) func NewXMessageSliceCmd(ctx context.Context, args ...interface{}) *XMessageSliceCmd { return &XMessageSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XMessageSliceCmd) SetVal(val []XMessage) { cmd.val = val } func (cmd *XMessageSliceCmd) Val() []XMessage { return cmd.val } func (cmd *XMessageSliceCmd) Result() ([]XMessage, error) { return cmd.val, cmd.err } func (cmd *XMessageSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XMessageSliceCmd) readReply(rd *proto.Reader) (err error) { cmd.val, err = readXMessageSlice(rd) return err } func readXMessageSlice(rd *proto.Reader) ([]XMessage, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } msgs := make([]XMessage, n) for i := 0; i < len(msgs); i++ { if msgs[i], err = readXMessage(rd); err != nil { return nil, err } } return msgs, nil } func readXMessage(rd *proto.Reader) (XMessage, error) { if err := rd.ReadFixedArrayLen(2); err != nil { return XMessage{}, err } id, err := rd.ReadString() if err != nil { return XMessage{}, err } v, err := stringInterfaceMapParser(rd) if err != nil { if err != proto.Nil { return XMessage{}, err } } return XMessage{ ID: id, Values: v, }, nil } func stringInterfaceMapParser(rd *proto.Reader) (map[string]interface{}, error) { n, err := rd.ReadMapLen() if err != nil { return nil, err } m := make(map[string]interface{}, n) for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return nil, err } value, err := rd.ReadString() if err != nil { return nil, err } m[key] = value } return m, nil } //------------------------------------------------------------------------------ type XStream struct { Stream string Messages []XMessage } type XStreamSliceCmd struct { baseCmd val []XStream } var _ Cmder = (*XStreamSliceCmd)(nil) func NewXStreamSliceCmd(ctx context.Context, args ...interface{}) *XStreamSliceCmd { return &XStreamSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XStreamSliceCmd) SetVal(val []XStream) { cmd.val = val } func (cmd *XStreamSliceCmd) Val() []XStream { return cmd.val } func (cmd *XStreamSliceCmd) Result() ([]XStream, error) { return cmd.val, cmd.err } func (cmd *XStreamSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XStreamSliceCmd) readReply(rd *proto.Reader) error { typ, err := rd.PeekReplyType() if err != nil { return err } var n int if typ == proto.RespMap { n, err = rd.ReadMapLen() } else { n, err = rd.ReadArrayLen() } if err != nil { return err } cmd.val = make([]XStream, n) for i := 0; i < len(cmd.val); i++ { if typ != proto.RespMap { if err = rd.ReadFixedArrayLen(2); err != nil { return err } } if cmd.val[i].Stream, err = rd.ReadString(); err != nil { return err } if cmd.val[i].Messages, err = readXMessageSlice(rd); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type XPending struct { Count int64 Lower string Higher string Consumers map[string]int64 } type XPendingCmd struct { baseCmd val *XPending } var _ Cmder = (*XPendingCmd)(nil) func NewXPendingCmd(ctx context.Context, args ...interface{}) *XPendingCmd { return &XPendingCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XPendingCmd) SetVal(val *XPending) { cmd.val = val } func (cmd *XPendingCmd) Val() *XPending { return cmd.val } func (cmd *XPendingCmd) Result() (*XPending, error) { return cmd.val, cmd.err } func (cmd *XPendingCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XPendingCmd) readReply(rd *proto.Reader) error { var err error if err = rd.ReadFixedArrayLen(4); err != nil { return err } cmd.val = &XPending{} if cmd.val.Count, err = rd.ReadInt(); err != nil { return err } if cmd.val.Lower, err = rd.ReadString(); err != nil && err != Nil { return err } if cmd.val.Higher, err = rd.ReadString(); err != nil && err != Nil { return err } n, err := rd.ReadArrayLen() if err != nil && err != Nil { return err } cmd.val.Consumers = make(map[string]int64, n) for i := 0; i < n; i++ { if err = rd.ReadFixedArrayLen(2); err != nil { return err } consumerName, err := rd.ReadString() if err != nil { return err } consumerPending, err := rd.ReadInt() if err != nil { return err } cmd.val.Consumers[consumerName] = consumerPending } return nil } //------------------------------------------------------------------------------ type XPendingExt struct { ID string Consumer string Idle time.Duration RetryCount int64 } type XPendingExtCmd struct { baseCmd val []XPendingExt } var _ Cmder = (*XPendingExtCmd)(nil) func NewXPendingExtCmd(ctx context.Context, args ...interface{}) *XPendingExtCmd { return &XPendingExtCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XPendingExtCmd) SetVal(val []XPendingExt) { cmd.val = val } func (cmd *XPendingExtCmd) Val() []XPendingExt { return cmd.val } func (cmd *XPendingExtCmd) Result() ([]XPendingExt, error) { return cmd.val, cmd.err } func (cmd *XPendingExtCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XPendingExtCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]XPendingExt, n) for i := 0; i < len(cmd.val); i++ { if err = rd.ReadFixedArrayLen(4); err != nil { return err } if cmd.val[i].ID, err = rd.ReadString(); err != nil { return err } if cmd.val[i].Consumer, err = rd.ReadString(); err != nil && err != Nil { return err } idle, err := rd.ReadInt() if err != nil && err != Nil { return err } cmd.val[i].Idle = time.Duration(idle) * time.Millisecond if cmd.val[i].RetryCount, err = rd.ReadInt(); err != nil && err != Nil { return err } } return nil } //------------------------------------------------------------------------------ type XAutoClaimCmd struct { baseCmd start string val []XMessage } var _ Cmder = (*XAutoClaimCmd)(nil) func NewXAutoClaimCmd(ctx context.Context, args ...interface{}) *XAutoClaimCmd { return &XAutoClaimCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XAutoClaimCmd) SetVal(val []XMessage, start string) { cmd.val = val cmd.start = start } func (cmd *XAutoClaimCmd) Val() (messages []XMessage, start string) { return cmd.val, cmd.start } func (cmd *XAutoClaimCmd) Result() (messages []XMessage, start string, err error) { return cmd.val, cmd.start, cmd.err } func (cmd *XAutoClaimCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XAutoClaimCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } switch n { case 2, // Redis 6 3: // Redis 7: // ok default: return fmt.Errorf("redis: got %d elements in XAutoClaim reply, wanted 2/3", n) } cmd.start, err = rd.ReadString() if err != nil { return err } cmd.val, err = readXMessageSlice(rd) if err != nil { return err } if n >= 3 { if err := rd.DiscardNext(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type XAutoClaimJustIDCmd struct { baseCmd start string val []string } var _ Cmder = (*XAutoClaimJustIDCmd)(nil) func NewXAutoClaimJustIDCmd(ctx context.Context, args ...interface{}) *XAutoClaimJustIDCmd { return &XAutoClaimJustIDCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XAutoClaimJustIDCmd) SetVal(val []string, start string) { cmd.val = val cmd.start = start } func (cmd *XAutoClaimJustIDCmd) Val() (ids []string, start string) { return cmd.val, cmd.start } func (cmd *XAutoClaimJustIDCmd) Result() (ids []string, start string, err error) { return cmd.val, cmd.start, cmd.err } func (cmd *XAutoClaimJustIDCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XAutoClaimJustIDCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } switch n { case 2, // Redis 6 3: // Redis 7: // ok default: return fmt.Errorf("redis: got %d elements in XAutoClaimJustID reply, wanted 2/3", n) } cmd.start, err = rd.ReadString() if err != nil { return err } nn, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]string, nn) for i := 0; i < nn; i++ { cmd.val[i], err = rd.ReadString() if err != nil { return err } } if n >= 3 { if err := rd.DiscardNext(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type XInfoConsumersCmd struct { baseCmd val []XInfoConsumer } type XInfoConsumer struct { Name string Pending int64 Idle time.Duration Inactive time.Duration } var _ Cmder = (*XInfoConsumersCmd)(nil) func NewXInfoConsumersCmd(ctx context.Context, stream string, group string) *XInfoConsumersCmd { return &XInfoConsumersCmd{ baseCmd: baseCmd{ ctx: ctx, args: []interface{}{"xinfo", "consumers", stream, group}, }, } } func (cmd *XInfoConsumersCmd) SetVal(val []XInfoConsumer) { cmd.val = val } func (cmd *XInfoConsumersCmd) Val() []XInfoConsumer { return cmd.val } func (cmd *XInfoConsumersCmd) Result() ([]XInfoConsumer, error) { return cmd.val, cmd.err } func (cmd *XInfoConsumersCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XInfoConsumersCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]XInfoConsumer, n) for i := 0; i < len(cmd.val); i++ { nn, err := rd.ReadMapLen() if err != nil { return err } var key string for f := 0; f < nn; f++ { key, err = rd.ReadString() if err != nil { return err } switch key { case "name": cmd.val[i].Name, err = rd.ReadString() case "pending": cmd.val[i].Pending, err = rd.ReadInt() case "idle": var idle int64 idle, err = rd.ReadInt() cmd.val[i].Idle = time.Duration(idle) * time.Millisecond case "inactive": var inactive int64 inactive, err = rd.ReadInt() cmd.val[i].Inactive = time.Duration(inactive) * time.Millisecond default: return fmt.Errorf("redis: unexpected content %s in XINFO CONSUMERS reply", key) } if err != nil { return err } } } return nil } //------------------------------------------------------------------------------ type XInfoGroupsCmd struct { baseCmd val []XInfoGroup } type XInfoGroup struct { Name string Consumers int64 Pending int64 LastDeliveredID string EntriesRead int64 Lag int64 } var _ Cmder = (*XInfoGroupsCmd)(nil) func NewXInfoGroupsCmd(ctx context.Context, stream string) *XInfoGroupsCmd { return &XInfoGroupsCmd{ baseCmd: baseCmd{ ctx: ctx, args: []interface{}{"xinfo", "groups", stream}, }, } } func (cmd *XInfoGroupsCmd) SetVal(val []XInfoGroup) { cmd.val = val } func (cmd *XInfoGroupsCmd) Val() []XInfoGroup { return cmd.val } func (cmd *XInfoGroupsCmd) Result() ([]XInfoGroup, error) { return cmd.val, cmd.err } func (cmd *XInfoGroupsCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XInfoGroupsCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]XInfoGroup, n) for i := 0; i < len(cmd.val); i++ { group := &cmd.val[i] nn, err := rd.ReadMapLen() if err != nil { return err } var key string for j := 0; j < nn; j++ { key, err = rd.ReadString() if err != nil { return err } switch key { case "name": group.Name, err = rd.ReadString() if err != nil { return err } case "consumers": group.Consumers, err = rd.ReadInt() if err != nil { return err } case "pending": group.Pending, err = rd.ReadInt() if err != nil { return err } case "last-delivered-id": group.LastDeliveredID, err = rd.ReadString() if err != nil { return err } case "entries-read": group.EntriesRead, err = rd.ReadInt() if err != nil && err != Nil { return err } case "lag": group.Lag, err = rd.ReadInt() // lag: the number of entries in the stream that are still waiting to be delivered // to the group's consumers, or a NULL(Nil) when that number can't be determined. if err != nil && err != Nil { return err } default: return fmt.Errorf("redis: unexpected key %q in XINFO GROUPS reply", key) } } } return nil } //------------------------------------------------------------------------------ type XInfoStreamCmd struct { baseCmd val *XInfoStream } type XInfoStream struct { Length int64 RadixTreeKeys int64 RadixTreeNodes int64 Groups int64 LastGeneratedID string MaxDeletedEntryID string EntriesAdded int64 FirstEntry XMessage LastEntry XMessage RecordedFirstEntryID string } var _ Cmder = (*XInfoStreamCmd)(nil) func NewXInfoStreamCmd(ctx context.Context, stream string) *XInfoStreamCmd { return &XInfoStreamCmd{ baseCmd: baseCmd{ ctx: ctx, args: []interface{}{"xinfo", "stream", stream}, }, } } func (cmd *XInfoStreamCmd) SetVal(val *XInfoStream) { cmd.val = val } func (cmd *XInfoStreamCmd) Val() *XInfoStream { return cmd.val } func (cmd *XInfoStreamCmd) Result() (*XInfoStream, error) { return cmd.val, cmd.err } func (cmd *XInfoStreamCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XInfoStreamCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadMapLen() if err != nil { return err } cmd.val = &XInfoStream{} for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "length": cmd.val.Length, err = rd.ReadInt() if err != nil { return err } case "radix-tree-keys": cmd.val.RadixTreeKeys, err = rd.ReadInt() if err != nil { return err } case "radix-tree-nodes": cmd.val.RadixTreeNodes, err = rd.ReadInt() if err != nil { return err } case "groups": cmd.val.Groups, err = rd.ReadInt() if err != nil { return err } case "last-generated-id": cmd.val.LastGeneratedID, err = rd.ReadString() if err != nil { return err } case "max-deleted-entry-id": cmd.val.MaxDeletedEntryID, err = rd.ReadString() if err != nil { return err } case "entries-added": cmd.val.EntriesAdded, err = rd.ReadInt() if err != nil { return err } case "first-entry": cmd.val.FirstEntry, err = readXMessage(rd) if err != nil && err != Nil { return err } case "last-entry": cmd.val.LastEntry, err = readXMessage(rd) if err != nil && err != Nil { return err } case "recorded-first-entry-id": cmd.val.RecordedFirstEntryID, err = rd.ReadString() if err != nil { return err } default: return fmt.Errorf("redis: unexpected key %q in XINFO STREAM reply", key) } } return nil } //------------------------------------------------------------------------------ type XInfoStreamFullCmd struct { baseCmd val *XInfoStreamFull } type XInfoStreamFull struct { Length int64 RadixTreeKeys int64 RadixTreeNodes int64 LastGeneratedID string MaxDeletedEntryID string EntriesAdded int64 Entries []XMessage Groups []XInfoStreamGroup RecordedFirstEntryID string } type XInfoStreamGroup struct { Name string LastDeliveredID string EntriesRead int64 Lag int64 PelCount int64 Pending []XInfoStreamGroupPending Consumers []XInfoStreamConsumer } type XInfoStreamGroupPending struct { ID string Consumer string DeliveryTime time.Time DeliveryCount int64 } type XInfoStreamConsumer struct { Name string SeenTime time.Time ActiveTime time.Time PelCount int64 Pending []XInfoStreamConsumerPending } type XInfoStreamConsumerPending struct { ID string DeliveryTime time.Time DeliveryCount int64 } var _ Cmder = (*XInfoStreamFullCmd)(nil) func NewXInfoStreamFullCmd(ctx context.Context, args ...interface{}) *XInfoStreamFullCmd { return &XInfoStreamFullCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *XInfoStreamFullCmd) SetVal(val *XInfoStreamFull) { cmd.val = val } func (cmd *XInfoStreamFullCmd) Val() *XInfoStreamFull { return cmd.val } func (cmd *XInfoStreamFullCmd) Result() (*XInfoStreamFull, error) { return cmd.val, cmd.err } func (cmd *XInfoStreamFullCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *XInfoStreamFullCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadMapLen() if err != nil { return err } cmd.val = &XInfoStreamFull{} for i := 0; i < n; i++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "length": cmd.val.Length, err = rd.ReadInt() if err != nil { return err } case "radix-tree-keys": cmd.val.RadixTreeKeys, err = rd.ReadInt() if err != nil { return err } case "radix-tree-nodes": cmd.val.RadixTreeNodes, err = rd.ReadInt() if err != nil { return err } case "last-generated-id": cmd.val.LastGeneratedID, err = rd.ReadString() if err != nil { return err } case "entries-added": cmd.val.EntriesAdded, err = rd.ReadInt() if err != nil { return err } case "entries": cmd.val.Entries, err = readXMessageSlice(rd) if err != nil { return err } case "groups": cmd.val.Groups, err = readStreamGroups(rd) if err != nil { return err } case "max-deleted-entry-id": cmd.val.MaxDeletedEntryID, err = rd.ReadString() if err != nil { return err } case "recorded-first-entry-id": cmd.val.RecordedFirstEntryID, err = rd.ReadString() if err != nil { return err } default: return fmt.Errorf("redis: unexpected key %q in XINFO STREAM FULL reply", key) } } return nil } func readStreamGroups(rd *proto.Reader) ([]XInfoStreamGroup, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } groups := make([]XInfoStreamGroup, 0, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return nil, err } group := XInfoStreamGroup{} for j := 0; j < nn; j++ { key, err := rd.ReadString() if err != nil { return nil, err } switch key { case "name": group.Name, err = rd.ReadString() if err != nil { return nil, err } case "last-delivered-id": group.LastDeliveredID, err = rd.ReadString() if err != nil { return nil, err } case "entries-read": group.EntriesRead, err = rd.ReadInt() if err != nil && err != Nil { return nil, err } case "lag": // lag: the number of entries in the stream that are still waiting to be delivered // to the group's consumers, or a NULL(Nil) when that number can't be determined. group.Lag, err = rd.ReadInt() if err != nil && err != Nil { return nil, err } case "pel-count": group.PelCount, err = rd.ReadInt() if err != nil { return nil, err } case "pending": group.Pending, err = readXInfoStreamGroupPending(rd) if err != nil { return nil, err } case "consumers": group.Consumers, err = readXInfoStreamConsumers(rd) if err != nil { return nil, err } default: return nil, fmt.Errorf("redis: unexpected key %q in XINFO STREAM FULL reply", key) } } groups = append(groups, group) } return groups, nil } func readXInfoStreamGroupPending(rd *proto.Reader) ([]XInfoStreamGroupPending, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } pending := make([]XInfoStreamGroupPending, 0, n) for i := 0; i < n; i++ { if err = rd.ReadFixedArrayLen(4); err != nil { return nil, err } p := XInfoStreamGroupPending{} p.ID, err = rd.ReadString() if err != nil { return nil, err } p.Consumer, err = rd.ReadString() if err != nil { return nil, err } delivery, err := rd.ReadInt() if err != nil { return nil, err } p.DeliveryTime = time.Unix(delivery/1000, delivery%1000*int64(time.Millisecond)) p.DeliveryCount, err = rd.ReadInt() if err != nil { return nil, err } pending = append(pending, p) } return pending, nil } func readXInfoStreamConsumers(rd *proto.Reader) ([]XInfoStreamConsumer, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } consumers := make([]XInfoStreamConsumer, 0, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return nil, err } c := XInfoStreamConsumer{} for f := 0; f < nn; f++ { cKey, err := rd.ReadString() if err != nil { return nil, err } switch cKey { case "name": c.Name, err = rd.ReadString() case "seen-time": seen, err := rd.ReadInt() if err != nil { return nil, err } c.SeenTime = time.UnixMilli(seen) case "active-time": active, err := rd.ReadInt() if err != nil { return nil, err } c.ActiveTime = time.UnixMilli(active) case "pel-count": c.PelCount, err = rd.ReadInt() case "pending": pendingNumber, err := rd.ReadArrayLen() if err != nil { return nil, err } c.Pending = make([]XInfoStreamConsumerPending, 0, pendingNumber) for pn := 0; pn < pendingNumber; pn++ { if err = rd.ReadFixedArrayLen(3); err != nil { return nil, err } p := XInfoStreamConsumerPending{} p.ID, err = rd.ReadString() if err != nil { return nil, err } delivery, err := rd.ReadInt() if err != nil { return nil, err } p.DeliveryTime = time.Unix(delivery/1000, delivery%1000*int64(time.Millisecond)) p.DeliveryCount, err = rd.ReadInt() if err != nil { return nil, err } c.Pending = append(c.Pending, p) } default: return nil, fmt.Errorf("redis: unexpected content %s "+ "in XINFO STREAM FULL reply", cKey) } if err != nil { return nil, err } } consumers = append(consumers, c) } return consumers, nil } //------------------------------------------------------------------------------ type ZSliceCmd struct { baseCmd val []Z } var _ Cmder = (*ZSliceCmd)(nil) func NewZSliceCmd(ctx context.Context, args ...interface{}) *ZSliceCmd { return &ZSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ZSliceCmd) SetVal(val []Z) { cmd.val = val } func (cmd *ZSliceCmd) Val() []Z { return cmd.val } func (cmd *ZSliceCmd) Result() ([]Z, error) { return cmd.val, cmd.err } func (cmd *ZSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ZSliceCmd) readReply(rd *proto.Reader) error { // nolint:dupl n, err := rd.ReadArrayLen() if err != nil { return err } // If the n is 0, can't continue reading. if n == 0 { cmd.val = make([]Z, 0) return nil } typ, err := rd.PeekReplyType() if err != nil { return err } array := typ == proto.RespArray if array { cmd.val = make([]Z, n) } else { cmd.val = make([]Z, n/2) } for i := 0; i < len(cmd.val); i++ { if array { if err = rd.ReadFixedArrayLen(2); err != nil { return err } } if cmd.val[i].Member, err = rd.ReadString(); err != nil { return err } if cmd.val[i].Score, err = rd.ReadFloat(); err != nil { return err } } return nil } //------------------------------------------------------------------------------ type ZWithKeyCmd struct { baseCmd val *ZWithKey } var _ Cmder = (*ZWithKeyCmd)(nil) func NewZWithKeyCmd(ctx context.Context, args ...interface{}) *ZWithKeyCmd { return &ZWithKeyCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ZWithKeyCmd) SetVal(val *ZWithKey) { cmd.val = val } func (cmd *ZWithKeyCmd) Val() *ZWithKey { return cmd.val } func (cmd *ZWithKeyCmd) Result() (*ZWithKey, error) { return cmd.val, cmd.err } func (cmd *ZWithKeyCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ZWithKeyCmd) readReply(rd *proto.Reader) (err error) { if err = rd.ReadFixedArrayLen(3); err != nil { return err } cmd.val = &ZWithKey{} if cmd.val.Key, err = rd.ReadString(); err != nil { return err } if cmd.val.Member, err = rd.ReadString(); err != nil { return err } if cmd.val.Score, err = rd.ReadFloat(); err != nil { return err } return nil } //------------------------------------------------------------------------------ type ScanCmd struct { baseCmd page []string cursor uint64 process cmdable } var _ Cmder = (*ScanCmd)(nil) func NewScanCmd(ctx context.Context, process cmdable, args ...interface{}) *ScanCmd { return &ScanCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, process: process, } } func (cmd *ScanCmd) SetVal(page []string, cursor uint64) { cmd.page = page cmd.cursor = cursor } func (cmd *ScanCmd) Val() (keys []string, cursor uint64) { return cmd.page, cmd.cursor } func (cmd *ScanCmd) Result() (keys []string, cursor uint64, err error) { return cmd.page, cmd.cursor, cmd.err } func (cmd *ScanCmd) String() string { return cmdString(cmd, cmd.page) } func (cmd *ScanCmd) readReply(rd *proto.Reader) error { if err := rd.ReadFixedArrayLen(2); err != nil { return err } cursor, err := rd.ReadUint() if err != nil { return err } cmd.cursor = cursor n, err := rd.ReadArrayLen() if err != nil { return err } cmd.page = make([]string, n) for i := 0; i < len(cmd.page); i++ { if cmd.page[i], err = rd.ReadString(); err != nil { return err } } return nil } // Iterator creates a new ScanIterator. func (cmd *ScanCmd) Iterator() *ScanIterator { return &ScanIterator{ cmd: cmd, } } //------------------------------------------------------------------------------ type ClusterNode struct { ID string Addr string NetworkingMetadata map[string]string } type ClusterSlot struct { Start int End int Nodes []ClusterNode } type ClusterSlotsCmd struct { baseCmd val []ClusterSlot } var _ Cmder = (*ClusterSlotsCmd)(nil) func NewClusterSlotsCmd(ctx context.Context, args ...interface{}) *ClusterSlotsCmd { return &ClusterSlotsCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ClusterSlotsCmd) SetVal(val []ClusterSlot) { cmd.val = val } func (cmd *ClusterSlotsCmd) Val() []ClusterSlot { return cmd.val } func (cmd *ClusterSlotsCmd) Result() ([]ClusterSlot, error) { return cmd.val, cmd.err } func (cmd *ClusterSlotsCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ClusterSlotsCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]ClusterSlot, n) for i := 0; i < len(cmd.val); i++ { n, err = rd.ReadArrayLen() if err != nil { return err } if n < 2 { return fmt.Errorf("redis: got %d elements in cluster info, expected at least 2", n) } start, err := rd.ReadInt() if err != nil { return err } end, err := rd.ReadInt() if err != nil { return err } // subtract start and end. nodes := make([]ClusterNode, n-2) for j := 0; j < len(nodes); j++ { nn, err := rd.ReadArrayLen() if err != nil { return err } if nn < 2 || nn > 4 { return fmt.Errorf("got %d elements in cluster info address, expected 2, 3, or 4", n) } ip, err := rd.ReadString() if err != nil { return err } port, err := rd.ReadString() if err != nil { return err } nodes[j].Addr = net.JoinHostPort(ip, port) if nn >= 3 { id, err := rd.ReadString() if err != nil { return err } nodes[j].ID = id } if nn >= 4 { metadataLength, err := rd.ReadMapLen() if err != nil { return err } networkingMetadata := make(map[string]string, metadataLength) for i := 0; i < metadataLength; i++ { key, err := rd.ReadString() if err != nil { return err } value, err := rd.ReadString() if err != nil { return err } networkingMetadata[key] = value } nodes[j].NetworkingMetadata = networkingMetadata } } cmd.val[i] = ClusterSlot{ Start: int(start), End: int(end), Nodes: nodes, } } return nil } //------------------------------------------------------------------------------ // GeoLocation is used with GeoAdd to add geospatial location. type GeoLocation struct { Name string Longitude, Latitude, Dist float64 GeoHash int64 } // GeoRadiusQuery is used with GeoRadius to query geospatial index. type GeoRadiusQuery struct { Radius float64 // Can be m, km, ft, or mi. Default is km. Unit string WithCoord bool WithDist bool WithGeoHash bool Count int // Can be ASC or DESC. Default is no sort order. Sort string Store string StoreDist string // WithCoord+WithDist+WithGeoHash withLen int } type GeoLocationCmd struct { baseCmd q *GeoRadiusQuery locations []GeoLocation } var _ Cmder = (*GeoLocationCmd)(nil) func NewGeoLocationCmd(ctx context.Context, q *GeoRadiusQuery, args ...interface{}) *GeoLocationCmd { return &GeoLocationCmd{ baseCmd: baseCmd{ ctx: ctx, args: geoLocationArgs(q, args...), }, q: q, } } func geoLocationArgs(q *GeoRadiusQuery, args ...interface{}) []interface{} { args = append(args, q.Radius) if q.Unit != "" { args = append(args, q.Unit) } else { args = append(args, "km") } if q.WithCoord { args = append(args, "withcoord") q.withLen++ } if q.WithDist { args = append(args, "withdist") q.withLen++ } if q.WithGeoHash { args = append(args, "withhash") q.withLen++ } if q.Count > 0 { args = append(args, "count", q.Count) } if q.Sort != "" { args = append(args, q.Sort) } if q.Store != "" { args = append(args, "store") args = append(args, q.Store) } if q.StoreDist != "" { args = append(args, "storedist") args = append(args, q.StoreDist) } return args } func (cmd *GeoLocationCmd) SetVal(locations []GeoLocation) { cmd.locations = locations } func (cmd *GeoLocationCmd) Val() []GeoLocation { return cmd.locations } func (cmd *GeoLocationCmd) Result() ([]GeoLocation, error) { return cmd.locations, cmd.err } func (cmd *GeoLocationCmd) String() string { return cmdString(cmd, cmd.locations) } func (cmd *GeoLocationCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.locations = make([]GeoLocation, n) for i := 0; i < len(cmd.locations); i++ { // only name if cmd.q.withLen == 0 { if cmd.locations[i].Name, err = rd.ReadString(); err != nil { return err } continue } // +name if err = rd.ReadFixedArrayLen(cmd.q.withLen + 1); err != nil { return err } if cmd.locations[i].Name, err = rd.ReadString(); err != nil { return err } if cmd.q.WithDist { if cmd.locations[i].Dist, err = rd.ReadFloat(); err != nil { return err } } if cmd.q.WithGeoHash { if cmd.locations[i].GeoHash, err = rd.ReadInt(); err != nil { return err } } if cmd.q.WithCoord { if err = rd.ReadFixedArrayLen(2); err != nil { return err } if cmd.locations[i].Longitude, err = rd.ReadFloat(); err != nil { return err } if cmd.locations[i].Latitude, err = rd.ReadFloat(); err != nil { return err } } } return nil } //------------------------------------------------------------------------------ // GeoSearchQuery is used for GEOSearch/GEOSearchStore command query. type GeoSearchQuery struct { Member string // Latitude and Longitude when using FromLonLat option. Longitude float64 Latitude float64 // Distance and unit when using ByRadius option. // Can use m, km, ft, or mi. Default is km. Radius float64 RadiusUnit string // Height, width and unit when using ByBox option. // Can be m, km, ft, or mi. Default is km. BoxWidth float64 BoxHeight float64 BoxUnit string // Can be ASC or DESC. Default is no sort order. Sort string Count int CountAny bool } type GeoSearchLocationQuery struct { GeoSearchQuery WithCoord bool WithDist bool WithHash bool } type GeoSearchStoreQuery struct { GeoSearchQuery // When using the StoreDist option, the command stores the items in a // sorted set populated with their distance from the center of the circle or box, // as a floating-point number, in the same unit specified for that shape. StoreDist bool } func geoSearchLocationArgs(q *GeoSearchLocationQuery, args []interface{}) []interface{} { args = geoSearchArgs(&q.GeoSearchQuery, args) if q.WithCoord { args = append(args, "withcoord") } if q.WithDist { args = append(args, "withdist") } if q.WithHash { args = append(args, "withhash") } return args } func geoSearchArgs(q *GeoSearchQuery, args []interface{}) []interface{} { if q.Member != "" { args = append(args, "frommember", q.Member) } else { args = append(args, "fromlonlat", q.Longitude, q.Latitude) } if q.Radius > 0 { if q.RadiusUnit == "" { q.RadiusUnit = "km" } args = append(args, "byradius", q.Radius, q.RadiusUnit) } else { if q.BoxUnit == "" { q.BoxUnit = "km" } args = append(args, "bybox", q.BoxWidth, q.BoxHeight, q.BoxUnit) } if q.Sort != "" { args = append(args, q.Sort) } if q.Count > 0 { args = append(args, "count", q.Count) if q.CountAny { args = append(args, "any") } } return args } type GeoSearchLocationCmd struct { baseCmd opt *GeoSearchLocationQuery val []GeoLocation } var _ Cmder = (*GeoSearchLocationCmd)(nil) func NewGeoSearchLocationCmd( ctx context.Context, opt *GeoSearchLocationQuery, args ...interface{}, ) *GeoSearchLocationCmd { return &GeoSearchLocationCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, opt: opt, } } func (cmd *GeoSearchLocationCmd) SetVal(val []GeoLocation) { cmd.val = val } func (cmd *GeoSearchLocationCmd) Val() []GeoLocation { return cmd.val } func (cmd *GeoSearchLocationCmd) Result() ([]GeoLocation, error) { return cmd.val, cmd.err } func (cmd *GeoSearchLocationCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *GeoSearchLocationCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]GeoLocation, n) for i := 0; i < n; i++ { _, err = rd.ReadArrayLen() if err != nil { return err } var loc GeoLocation loc.Name, err = rd.ReadString() if err != nil { return err } if cmd.opt.WithDist { loc.Dist, err = rd.ReadFloat() if err != nil { return err } } if cmd.opt.WithHash { loc.GeoHash, err = rd.ReadInt() if err != nil { return err } } if cmd.opt.WithCoord { if err = rd.ReadFixedArrayLen(2); err != nil { return err } loc.Longitude, err = rd.ReadFloat() if err != nil { return err } loc.Latitude, err = rd.ReadFloat() if err != nil { return err } } cmd.val[i] = loc } return nil } //------------------------------------------------------------------------------ type GeoPos struct { Longitude, Latitude float64 } type GeoPosCmd struct { baseCmd val []*GeoPos } var _ Cmder = (*GeoPosCmd)(nil) func NewGeoPosCmd(ctx context.Context, args ...interface{}) *GeoPosCmd { return &GeoPosCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *GeoPosCmd) SetVal(val []*GeoPos) { cmd.val = val } func (cmd *GeoPosCmd) Val() []*GeoPos { return cmd.val } func (cmd *GeoPosCmd) Result() ([]*GeoPos, error) { return cmd.val, cmd.err } func (cmd *GeoPosCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *GeoPosCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]*GeoPos, n) for i := 0; i < len(cmd.val); i++ { err = rd.ReadFixedArrayLen(2) if err != nil { if err == Nil { cmd.val[i] = nil continue } return err } longitude, err := rd.ReadFloat() if err != nil { return err } latitude, err := rd.ReadFloat() if err != nil { return err } cmd.val[i] = &GeoPos{ Longitude: longitude, Latitude: latitude, } } return nil } //------------------------------------------------------------------------------ type CommandInfo struct { Name string Arity int8 Flags []string ACLFlags []string FirstKeyPos int8 LastKeyPos int8 StepCount int8 ReadOnly bool } type CommandsInfoCmd struct { baseCmd val map[string]*CommandInfo } var _ Cmder = (*CommandsInfoCmd)(nil) func NewCommandsInfoCmd(ctx context.Context, args ...interface{}) *CommandsInfoCmd { return &CommandsInfoCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *CommandsInfoCmd) SetVal(val map[string]*CommandInfo) { cmd.val = val } func (cmd *CommandsInfoCmd) Val() map[string]*CommandInfo { return cmd.val } func (cmd *CommandsInfoCmd) Result() (map[string]*CommandInfo, error) { return cmd.val, cmd.err } func (cmd *CommandsInfoCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *CommandsInfoCmd) readReply(rd *proto.Reader) error { const numArgRedis5 = 6 const numArgRedis6 = 7 const numArgRedis7 = 10 n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make(map[string]*CommandInfo, n) for i := 0; i < n; i++ { nn, err := rd.ReadArrayLen() if err != nil { return err } switch nn { case numArgRedis5, numArgRedis6, numArgRedis7: // ok default: return fmt.Errorf("redis: got %d elements in COMMAND reply, wanted 6/7/10", nn) } cmdInfo := &CommandInfo{} if cmdInfo.Name, err = rd.ReadString(); err != nil { return err } arity, err := rd.ReadInt() if err != nil { return err } cmdInfo.Arity = int8(arity) flagLen, err := rd.ReadArrayLen() if err != nil { return err } cmdInfo.Flags = make([]string, flagLen) for f := 0; f < len(cmdInfo.Flags); f++ { switch s, err := rd.ReadString(); { case err == Nil: cmdInfo.Flags[f] = "" case err != nil: return err default: if !cmdInfo.ReadOnly && s == "readonly" { cmdInfo.ReadOnly = true } cmdInfo.Flags[f] = s } } firstKeyPos, err := rd.ReadInt() if err != nil { return err } cmdInfo.FirstKeyPos = int8(firstKeyPos) lastKeyPos, err := rd.ReadInt() if err != nil { return err } cmdInfo.LastKeyPos = int8(lastKeyPos) stepCount, err := rd.ReadInt() if err != nil { return err } cmdInfo.StepCount = int8(stepCount) if nn >= numArgRedis6 { aclFlagLen, err := rd.ReadArrayLen() if err != nil { return err } cmdInfo.ACLFlags = make([]string, aclFlagLen) for f := 0; f < len(cmdInfo.ACLFlags); f++ { switch s, err := rd.ReadString(); { case err == Nil: cmdInfo.ACLFlags[f] = "" case err != nil: return err default: cmdInfo.ACLFlags[f] = s } } } if nn >= numArgRedis7 { if err := rd.DiscardNext(); err != nil { return err } if err := rd.DiscardNext(); err != nil { return err } if err := rd.DiscardNext(); err != nil { return err } } cmd.val[cmdInfo.Name] = cmdInfo } return nil } //------------------------------------------------------------------------------ type cmdsInfoCache struct { fn func(ctx context.Context) (map[string]*CommandInfo, error) once internal.Once cmds map[string]*CommandInfo } func newCmdsInfoCache(fn func(ctx context.Context) (map[string]*CommandInfo, error)) *cmdsInfoCache { return &cmdsInfoCache{ fn: fn, } } func (c *cmdsInfoCache) Get(ctx context.Context) (map[string]*CommandInfo, error) { err := c.once.Do(func() error { cmds, err := c.fn(ctx) if err != nil { return err } // Extensions have cmd names in upper case. Convert them to lower case. for k, v := range cmds { lower := internal.ToLower(k) if lower != k { cmds[lower] = v } } c.cmds = cmds return nil }) return c.cmds, err } //------------------------------------------------------------------------------ type SlowLog struct { ID int64 Time time.Time Duration time.Duration Args []string // These are also optional fields emitted only by Redis 4.0 or greater: // https://redis.io/commands/slowlog#output-format ClientAddr string ClientName string } type SlowLogCmd struct { baseCmd val []SlowLog } var _ Cmder = (*SlowLogCmd)(nil) func NewSlowLogCmd(ctx context.Context, args ...interface{}) *SlowLogCmd { return &SlowLogCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *SlowLogCmd) SetVal(val []SlowLog) { cmd.val = val } func (cmd *SlowLogCmd) Val() []SlowLog { return cmd.val } func (cmd *SlowLogCmd) Result() ([]SlowLog, error) { return cmd.val, cmd.err } func (cmd *SlowLogCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *SlowLogCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]SlowLog, n) for i := 0; i < len(cmd.val); i++ { nn, err := rd.ReadArrayLen() if err != nil { return err } if nn < 4 { return fmt.Errorf("redis: got %d elements in slowlog get, expected at least 4", nn) } if cmd.val[i].ID, err = rd.ReadInt(); err != nil { return err } createdAt, err := rd.ReadInt() if err != nil { return err } cmd.val[i].Time = time.Unix(createdAt, 0) costs, err := rd.ReadInt() if err != nil { return err } cmd.val[i].Duration = time.Duration(costs) * time.Microsecond cmdLen, err := rd.ReadArrayLen() if err != nil { return err } if cmdLen < 1 { return fmt.Errorf("redis: got %d elements commands reply in slowlog get, expected at least 1", cmdLen) } cmd.val[i].Args = make([]string, cmdLen) for f := 0; f < len(cmd.val[i].Args); f++ { cmd.val[i].Args[f], err = rd.ReadString() if err != nil { return err } } if nn >= 5 { if cmd.val[i].ClientAddr, err = rd.ReadString(); err != nil { return err } } if nn >= 6 { if cmd.val[i].ClientName, err = rd.ReadString(); err != nil { return err } } } return nil } //----------------------------------------------------------------------- type MapStringInterfaceCmd struct { baseCmd val map[string]interface{} } var _ Cmder = (*MapStringInterfaceCmd)(nil) func NewMapStringInterfaceCmd(ctx context.Context, args ...interface{}) *MapStringInterfaceCmd { return &MapStringInterfaceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringInterfaceCmd) SetVal(val map[string]interface{}) { cmd.val = val } func (cmd *MapStringInterfaceCmd) Val() map[string]interface{} { return cmd.val } func (cmd *MapStringInterfaceCmd) Result() (map[string]interface{}, error) { return cmd.val, cmd.err } func (cmd *MapStringInterfaceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapStringInterfaceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadMapLen() if err != nil { return err } cmd.val = make(map[string]interface{}, n) for i := 0; i < n; i++ { k, err := rd.ReadString() if err != nil { return err } v, err := rd.ReadReply() if err != nil { if err == Nil { cmd.val[k] = Nil continue } if err, ok := err.(proto.RedisError); ok { cmd.val[k] = err continue } return err } cmd.val[k] = v } return nil } //----------------------------------------------------------------------- type MapStringStringSliceCmd struct { baseCmd val []map[string]string } var _ Cmder = (*MapStringStringSliceCmd)(nil) func NewMapStringStringSliceCmd(ctx context.Context, args ...interface{}) *MapStringStringSliceCmd { return &MapStringStringSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringStringSliceCmd) SetVal(val []map[string]string) { cmd.val = val } func (cmd *MapStringStringSliceCmd) Val() []map[string]string { return cmd.val } func (cmd *MapStringStringSliceCmd) Result() ([]map[string]string, error) { return cmd.val, cmd.err } func (cmd *MapStringStringSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapStringStringSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]map[string]string, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return err } cmd.val[i] = make(map[string]string, nn) for f := 0; f < nn; f++ { k, err := rd.ReadString() if err != nil { return err } v, err := rd.ReadString() if err != nil { return err } cmd.val[i][k] = v } } return nil } // ----------------------------------------------------------------------- // MapStringInterfaceCmd represents a command that returns a map of strings to interface{}. type MapMapStringInterfaceCmd struct { baseCmd val map[string]interface{} } func NewMapMapStringInterfaceCmd(ctx context.Context, args ...interface{}) *MapMapStringInterfaceCmd { return &MapMapStringInterfaceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapMapStringInterfaceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapMapStringInterfaceCmd) SetVal(val map[string]interface{}) { cmd.val = val } func (cmd *MapMapStringInterfaceCmd) Result() (map[string]interface{}, error) { return cmd.val, cmd.err } func (cmd *MapMapStringInterfaceCmd) Val() map[string]interface{} { return cmd.val } func (cmd *MapMapStringInterfaceCmd) readReply(rd *proto.Reader) (err error) { n, err := rd.ReadArrayLen() if err != nil { return err } data := make(map[string]interface{}, n/2) for i := 0; i < n; i += 2 { _, err := rd.ReadArrayLen() if err != nil { cmd.err = err } key, err := rd.ReadString() if err != nil { cmd.err = err } value, err := rd.ReadString() if err != nil { cmd.err = err } data[key] = value } cmd.val = data return nil } //----------------------------------------------------------------------- type MapStringInterfaceSliceCmd struct { baseCmd val []map[string]interface{} } var _ Cmder = (*MapStringInterfaceSliceCmd)(nil) func NewMapStringInterfaceSliceCmd(ctx context.Context, args ...interface{}) *MapStringInterfaceSliceCmd { return &MapStringInterfaceSliceCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *MapStringInterfaceSliceCmd) SetVal(val []map[string]interface{}) { cmd.val = val } func (cmd *MapStringInterfaceSliceCmd) Val() []map[string]interface{} { return cmd.val } func (cmd *MapStringInterfaceSliceCmd) Result() ([]map[string]interface{}, error) { return cmd.val, cmd.err } func (cmd *MapStringInterfaceSliceCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *MapStringInterfaceSliceCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]map[string]interface{}, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return err } cmd.val[i] = make(map[string]interface{}, nn) for f := 0; f < nn; f++ { k, err := rd.ReadString() if err != nil { return err } v, err := rd.ReadReply() if err != nil { if err != Nil { return err } } cmd.val[i][k] = v } } return nil } //------------------------------------------------------------------------------ type KeyValuesCmd struct { baseCmd key string val []string } var _ Cmder = (*KeyValuesCmd)(nil) func NewKeyValuesCmd(ctx context.Context, args ...interface{}) *KeyValuesCmd { return &KeyValuesCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *KeyValuesCmd) SetVal(key string, val []string) { cmd.key = key cmd.val = val } func (cmd *KeyValuesCmd) Val() (string, []string) { return cmd.key, cmd.val } func (cmd *KeyValuesCmd) Result() (string, []string, error) { return cmd.key, cmd.val, cmd.err } func (cmd *KeyValuesCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *KeyValuesCmd) readReply(rd *proto.Reader) (err error) { if err = rd.ReadFixedArrayLen(2); err != nil { return err } cmd.key, err = rd.ReadString() if err != nil { return err } n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]string, n) for i := 0; i < n; i++ { cmd.val[i], err = rd.ReadString() if err != nil { return err } } return nil } //------------------------------------------------------------------------------ type ZSliceWithKeyCmd struct { baseCmd key string val []Z } var _ Cmder = (*ZSliceWithKeyCmd)(nil) func NewZSliceWithKeyCmd(ctx context.Context, args ...interface{}) *ZSliceWithKeyCmd { return &ZSliceWithKeyCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ZSliceWithKeyCmd) SetVal(key string, val []Z) { cmd.key = key cmd.val = val } func (cmd *ZSliceWithKeyCmd) Val() (string, []Z) { return cmd.key, cmd.val } func (cmd *ZSliceWithKeyCmd) Result() (string, []Z, error) { return cmd.key, cmd.val, cmd.err } func (cmd *ZSliceWithKeyCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ZSliceWithKeyCmd) readReply(rd *proto.Reader) (err error) { if err = rd.ReadFixedArrayLen(2); err != nil { return err } cmd.key, err = rd.ReadString() if err != nil { return err } n, err := rd.ReadArrayLen() if err != nil { return err } typ, err := rd.PeekReplyType() if err != nil { return err } array := typ == proto.RespArray if array { cmd.val = make([]Z, n) } else { cmd.val = make([]Z, n/2) } for i := 0; i < len(cmd.val); i++ { if array { if err = rd.ReadFixedArrayLen(2); err != nil { return err } } if cmd.val[i].Member, err = rd.ReadString(); err != nil { return err } if cmd.val[i].Score, err = rd.ReadFloat(); err != nil { return err } } return nil } type Function struct { Name string Description string Flags []string } type Library struct { Name string Engine string Functions []Function Code string } type FunctionListCmd struct { baseCmd val []Library } var _ Cmder = (*FunctionListCmd)(nil) func NewFunctionListCmd(ctx context.Context, args ...interface{}) *FunctionListCmd { return &FunctionListCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *FunctionListCmd) SetVal(val []Library) { cmd.val = val } func (cmd *FunctionListCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *FunctionListCmd) Val() []Library { return cmd.val } func (cmd *FunctionListCmd) Result() ([]Library, error) { return cmd.val, cmd.err } func (cmd *FunctionListCmd) First() (*Library, error) { if cmd.err != nil { return nil, cmd.err } if len(cmd.val) > 0 { return &cmd.val[0], nil } return nil, Nil } func (cmd *FunctionListCmd) readReply(rd *proto.Reader) (err error) { n, err := rd.ReadArrayLen() if err != nil { return err } libraries := make([]Library, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return err } library := Library{} for f := 0; f < nn; f++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "library_name": library.Name, err = rd.ReadString() case "engine": library.Engine, err = rd.ReadString() case "functions": library.Functions, err = cmd.readFunctions(rd) case "library_code": library.Code, err = rd.ReadString() default: return fmt.Errorf("redis: function list unexpected key %s", key) } if err != nil { return err } } libraries[i] = library } cmd.val = libraries return nil } func (cmd *FunctionListCmd) readFunctions(rd *proto.Reader) ([]Function, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } functions := make([]Function, n) for i := 0; i < n; i++ { nn, err := rd.ReadMapLen() if err != nil { return nil, err } function := Function{} for f := 0; f < nn; f++ { key, err := rd.ReadString() if err != nil { return nil, err } switch key { case "name": if function.Name, err = rd.ReadString(); err != nil { return nil, err } case "description": if function.Description, err = rd.ReadString(); err != nil && err != Nil { return nil, err } case "flags": // resp set nx, err := rd.ReadArrayLen() if err != nil { return nil, err } function.Flags = make([]string, nx) for j := 0; j < nx; j++ { if function.Flags[j], err = rd.ReadString(); err != nil { return nil, err } } default: return nil, fmt.Errorf("redis: function list unexpected key %s", key) } } functions[i] = function } return functions, nil } // FunctionStats contains information about the scripts currently executing on the server, and the available engines // - Engines: // Statistics about the engine like number of functions and number of libraries // - RunningScript: // The script currently running on the shard we're connecting to. // For Redis Enterprise and Redis Cloud, this represents the // function with the longest running time, across all the running functions, on all shards // - RunningScripts // All scripts currently running in a Redis Enterprise clustered database. // Only available on Redis Enterprise type FunctionStats struct { Engines []Engine isRunning bool rs RunningScript allrs []RunningScript } func (fs *FunctionStats) Running() bool { return fs.isRunning } func (fs *FunctionStats) RunningScript() (RunningScript, bool) { return fs.rs, fs.isRunning } // AllRunningScripts returns all scripts currently running in a Redis Enterprise clustered database. // Only available on Redis Enterprise func (fs *FunctionStats) AllRunningScripts() []RunningScript { return fs.allrs } type RunningScript struct { Name string Command []string Duration time.Duration } type Engine struct { Language string LibrariesCount int64 FunctionsCount int64 } type FunctionStatsCmd struct { baseCmd val FunctionStats } var _ Cmder = (*FunctionStatsCmd)(nil) func NewFunctionStatsCmd(ctx context.Context, args ...interface{}) *FunctionStatsCmd { return &FunctionStatsCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *FunctionStatsCmd) SetVal(val FunctionStats) { cmd.val = val } func (cmd *FunctionStatsCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *FunctionStatsCmd) Val() FunctionStats { return cmd.val } func (cmd *FunctionStatsCmd) Result() (FunctionStats, error) { return cmd.val, cmd.err } func (cmd *FunctionStatsCmd) readReply(rd *proto.Reader) (err error) { n, err := rd.ReadMapLen() if err != nil { return err } var key string var result FunctionStats for f := 0; f < n; f++ { key, err = rd.ReadString() if err != nil { return err } switch key { case "running_script": result.rs, result.isRunning, err = cmd.readRunningScript(rd) case "engines": result.Engines, err = cmd.readEngines(rd) case "all_running_scripts": // Redis Enterprise only result.allrs, result.isRunning, err = cmd.readRunningScripts(rd) default: return fmt.Errorf("redis: function stats unexpected key %s", key) } if err != nil { return err } } cmd.val = result return nil } func (cmd *FunctionStatsCmd) readRunningScript(rd *proto.Reader) (RunningScript, bool, error) { err := rd.ReadFixedMapLen(3) if err != nil { if err == Nil { return RunningScript{}, false, nil } return RunningScript{}, false, err } var runningScript RunningScript for i := 0; i < 3; i++ { key, err := rd.ReadString() if err != nil { return RunningScript{}, false, err } switch key { case "name": runningScript.Name, err = rd.ReadString() case "duration_ms": runningScript.Duration, err = cmd.readDuration(rd) case "command": runningScript.Command, err = cmd.readCommand(rd) default: return RunningScript{}, false, fmt.Errorf("redis: function stats unexpected running_script key %s", key) } if err != nil { return RunningScript{}, false, err } } return runningScript, true, nil } func (cmd *FunctionStatsCmd) readEngines(rd *proto.Reader) ([]Engine, error) { n, err := rd.ReadMapLen() if err != nil { return nil, err } engines := make([]Engine, 0, n) for i := 0; i < n; i++ { engine := Engine{} engine.Language, err = rd.ReadString() if err != nil { return nil, err } err = rd.ReadFixedMapLen(2) if err != nil { return nil, fmt.Errorf("redis: function stats unexpected %s engine map length", engine.Language) } for i := 0; i < 2; i++ { key, err := rd.ReadString() switch key { case "libraries_count": engine.LibrariesCount, err = rd.ReadInt() case "functions_count": engine.FunctionsCount, err = rd.ReadInt() } if err != nil { return nil, err } } engines = append(engines, engine) } return engines, nil } func (cmd *FunctionStatsCmd) readDuration(rd *proto.Reader) (time.Duration, error) { t, err := rd.ReadInt() if err != nil { return time.Duration(0), err } return time.Duration(t) * time.Millisecond, nil } func (cmd *FunctionStatsCmd) readCommand(rd *proto.Reader) ([]string, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } command := make([]string, 0, n) for i := 0; i < n; i++ { x, err := rd.ReadString() if err != nil { return nil, err } command = append(command, x) } return command, nil } func (cmd *FunctionStatsCmd) readRunningScripts(rd *proto.Reader) ([]RunningScript, bool, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, false, err } runningScripts := make([]RunningScript, 0, n) for i := 0; i < n; i++ { rs, _, err := cmd.readRunningScript(rd) if err != nil { return nil, false, err } runningScripts = append(runningScripts, rs) } return runningScripts, len(runningScripts) > 0, nil } //------------------------------------------------------------------------------ // LCSQuery is a parameter used for the LCS command type LCSQuery struct { Key1 string Key2 string Len bool Idx bool MinMatchLen int WithMatchLen bool } // LCSMatch is the result set of the LCS command. type LCSMatch struct { MatchString string Matches []LCSMatchedPosition Len int64 } type LCSMatchedPosition struct { Key1 LCSPosition Key2 LCSPosition // only for withMatchLen is true MatchLen int64 } type LCSPosition struct { Start int64 End int64 } type LCSCmd struct { baseCmd // 1: match string // 2: match len // 3: match idx LCSMatch readType uint8 val *LCSMatch } func NewLCSCmd(ctx context.Context, q *LCSQuery) *LCSCmd { args := make([]interface{}, 3, 7) args[0] = "lcs" args[1] = q.Key1 args[2] = q.Key2 cmd := &LCSCmd{readType: 1} if q.Len { cmd.readType = 2 args = append(args, "len") } else if q.Idx { cmd.readType = 3 args = append(args, "idx") if q.MinMatchLen != 0 { args = append(args, "minmatchlen", q.MinMatchLen) } if q.WithMatchLen { args = append(args, "withmatchlen") } } cmd.baseCmd = baseCmd{ ctx: ctx, args: args, } return cmd } func (cmd *LCSCmd) SetVal(val *LCSMatch) { cmd.val = val } func (cmd *LCSCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *LCSCmd) Val() *LCSMatch { return cmd.val } func (cmd *LCSCmd) Result() (*LCSMatch, error) { return cmd.val, cmd.err } func (cmd *LCSCmd) readReply(rd *proto.Reader) (err error) { lcs := &LCSMatch{} switch cmd.readType { case 1: // match string if lcs.MatchString, err = rd.ReadString(); err != nil { return err } case 2: // match len if lcs.Len, err = rd.ReadInt(); err != nil { return err } case 3: // read LCSMatch if err = rd.ReadFixedMapLen(2); err != nil { return err } // read matches or len field for i := 0; i < 2; i++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "matches": // read array of matched positions if lcs.Matches, err = cmd.readMatchedPositions(rd); err != nil { return err } case "len": // read match length if lcs.Len, err = rd.ReadInt(); err != nil { return err } } } } cmd.val = lcs return nil } func (cmd *LCSCmd) readMatchedPositions(rd *proto.Reader) ([]LCSMatchedPosition, error) { n, err := rd.ReadArrayLen() if err != nil { return nil, err } positions := make([]LCSMatchedPosition, n) for i := 0; i < n; i++ { pn, err := rd.ReadArrayLen() if err != nil { return nil, err } if positions[i].Key1, err = cmd.readPosition(rd); err != nil { return nil, err } if positions[i].Key2, err = cmd.readPosition(rd); err != nil { return nil, err } // read match length if WithMatchLen is true if pn > 2 { if positions[i].MatchLen, err = rd.ReadInt(); err != nil { return nil, err } } } return positions, nil } func (cmd *LCSCmd) readPosition(rd *proto.Reader) (pos LCSPosition, err error) { if err = rd.ReadFixedArrayLen(2); err != nil { return pos, err } if pos.Start, err = rd.ReadInt(); err != nil { return pos, err } if pos.End, err = rd.ReadInt(); err != nil { return pos, err } return pos, nil } // ------------------------------------------------------------------------ type KeyFlags struct { Key string Flags []string } type KeyFlagsCmd struct { baseCmd val []KeyFlags } var _ Cmder = (*KeyFlagsCmd)(nil) func NewKeyFlagsCmd(ctx context.Context, args ...interface{}) *KeyFlagsCmd { return &KeyFlagsCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *KeyFlagsCmd) SetVal(val []KeyFlags) { cmd.val = val } func (cmd *KeyFlagsCmd) Val() []KeyFlags { return cmd.val } func (cmd *KeyFlagsCmd) Result() ([]KeyFlags, error) { return cmd.val, cmd.err } func (cmd *KeyFlagsCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *KeyFlagsCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } if n == 0 { cmd.val = make([]KeyFlags, 0) return nil } cmd.val = make([]KeyFlags, n) for i := 0; i < len(cmd.val); i++ { if err = rd.ReadFixedArrayLen(2); err != nil { return err } if cmd.val[i].Key, err = rd.ReadString(); err != nil { return err } flagsLen, err := rd.ReadArrayLen() if err != nil { return err } cmd.val[i].Flags = make([]string, flagsLen) for j := 0; j < flagsLen; j++ { if cmd.val[i].Flags[j], err = rd.ReadString(); err != nil { return err } } } return nil } // --------------------------------------------------------------------------------------------------- type ClusterLink struct { Direction string Node string CreateTime int64 Events string SendBufferAllocated int64 SendBufferUsed int64 } type ClusterLinksCmd struct { baseCmd val []ClusterLink } var _ Cmder = (*ClusterLinksCmd)(nil) func NewClusterLinksCmd(ctx context.Context, args ...interface{}) *ClusterLinksCmd { return &ClusterLinksCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ClusterLinksCmd) SetVal(val []ClusterLink) { cmd.val = val } func (cmd *ClusterLinksCmd) Val() []ClusterLink { return cmd.val } func (cmd *ClusterLinksCmd) Result() ([]ClusterLink, error) { return cmd.val, cmd.err } func (cmd *ClusterLinksCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ClusterLinksCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]ClusterLink, n) for i := 0; i < len(cmd.val); i++ { m, err := rd.ReadMapLen() if err != nil { return err } for j := 0; j < m; j++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "direction": cmd.val[i].Direction, err = rd.ReadString() case "node": cmd.val[i].Node, err = rd.ReadString() case "create-time": cmd.val[i].CreateTime, err = rd.ReadInt() case "events": cmd.val[i].Events, err = rd.ReadString() case "send-buffer-allocated": cmd.val[i].SendBufferAllocated, err = rd.ReadInt() case "send-buffer-used": cmd.val[i].SendBufferUsed, err = rd.ReadInt() default: return fmt.Errorf("redis: unexpected key %q in CLUSTER LINKS reply", key) } if err != nil { return err } } } return nil } // ------------------------------------------------------------------------------------------------------------------ type SlotRange struct { Start int64 End int64 } type Node struct { ID string Endpoint string IP string Hostname string Port int64 TLSPort int64 Role string ReplicationOffset int64 Health string } type ClusterShard struct { Slots []SlotRange Nodes []Node } type ClusterShardsCmd struct { baseCmd val []ClusterShard } var _ Cmder = (*ClusterShardsCmd)(nil) func NewClusterShardsCmd(ctx context.Context, args ...interface{}) *ClusterShardsCmd { return &ClusterShardsCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ClusterShardsCmd) SetVal(val []ClusterShard) { cmd.val = val } func (cmd *ClusterShardsCmd) Val() []ClusterShard { return cmd.val } func (cmd *ClusterShardsCmd) Result() ([]ClusterShard, error) { return cmd.val, cmd.err } func (cmd *ClusterShardsCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ClusterShardsCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]ClusterShard, n) for i := 0; i < n; i++ { m, err := rd.ReadMapLen() if err != nil { return err } for j := 0; j < m; j++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "slots": l, err := rd.ReadArrayLen() if err != nil { return err } for k := 0; k < l; k += 2 { start, err := rd.ReadInt() if err != nil { return err } end, err := rd.ReadInt() if err != nil { return err } cmd.val[i].Slots = append(cmd.val[i].Slots, SlotRange{Start: start, End: end}) } case "nodes": nodesLen, err := rd.ReadArrayLen() if err != nil { return err } cmd.val[i].Nodes = make([]Node, nodesLen) for k := 0; k < nodesLen; k++ { nodeMapLen, err := rd.ReadMapLen() if err != nil { return err } for l := 0; l < nodeMapLen; l++ { nodeKey, err := rd.ReadString() if err != nil { return err } switch nodeKey { case "id": cmd.val[i].Nodes[k].ID, err = rd.ReadString() case "endpoint": cmd.val[i].Nodes[k].Endpoint, err = rd.ReadString() case "ip": cmd.val[i].Nodes[k].IP, err = rd.ReadString() case "hostname": cmd.val[i].Nodes[k].Hostname, err = rd.ReadString() case "port": cmd.val[i].Nodes[k].Port, err = rd.ReadInt() case "tls-port": cmd.val[i].Nodes[k].TLSPort, err = rd.ReadInt() case "role": cmd.val[i].Nodes[k].Role, err = rd.ReadString() case "replication-offset": cmd.val[i].Nodes[k].ReplicationOffset, err = rd.ReadInt() case "health": cmd.val[i].Nodes[k].Health, err = rd.ReadString() default: return fmt.Errorf("redis: unexpected key %q in CLUSTER SHARDS node reply", nodeKey) } if err != nil { return err } } } default: return fmt.Errorf("redis: unexpected key %q in CLUSTER SHARDS reply", key) } } } return nil } // ----------------------------------------- type RankScore struct { Rank int64 Score float64 } type RankWithScoreCmd struct { baseCmd val RankScore } var _ Cmder = (*RankWithScoreCmd)(nil) func NewRankWithScoreCmd(ctx context.Context, args ...interface{}) *RankWithScoreCmd { return &RankWithScoreCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *RankWithScoreCmd) SetVal(val RankScore) { cmd.val = val } func (cmd *RankWithScoreCmd) Val() RankScore { return cmd.val } func (cmd *RankWithScoreCmd) Result() (RankScore, error) { return cmd.val, cmd.err } func (cmd *RankWithScoreCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *RankWithScoreCmd) readReply(rd *proto.Reader) error { if err := rd.ReadFixedArrayLen(2); err != nil { return err } rank, err := rd.ReadInt() if err != nil { return err } score, err := rd.ReadFloat() if err != nil { return err } cmd.val = RankScore{Rank: rank, Score: score} return nil } // -------------------------------------------------------------------------------------------------- // ClientFlags is redis-server client flags, copy from redis/src/server.h (redis 7.0) type ClientFlags uint64 const ( ClientSlave ClientFlags = 1 << 0 /* This client is a replica */ ClientMaster ClientFlags = 1 << 1 /* This client is a master */ ClientMonitor ClientFlags = 1 << 2 /* This client is a slave monitor, see MONITOR */ ClientMulti ClientFlags = 1 << 3 /* This client is in a MULTI context */ ClientBlocked ClientFlags = 1 << 4 /* The client is waiting in a blocking operation */ ClientDirtyCAS ClientFlags = 1 << 5 /* Watched keys modified. EXEC will fail. */ ClientCloseAfterReply ClientFlags = 1 << 6 /* Close after writing entire reply. */ ClientUnBlocked ClientFlags = 1 << 7 /* This client was unblocked and is stored in server.unblocked_clients */ ClientScript ClientFlags = 1 << 8 /* This is a non-connected client used by Lua */ ClientAsking ClientFlags = 1 << 9 /* Client issued the ASKING command */ ClientCloseASAP ClientFlags = 1 << 10 /* Close this client ASAP */ ClientUnixSocket ClientFlags = 1 << 11 /* Client connected via Unix domain socket */ ClientDirtyExec ClientFlags = 1 << 12 /* EXEC will fail for errors while queueing */ ClientMasterForceReply ClientFlags = 1 << 13 /* Queue replies even if is master */ ClientForceAOF ClientFlags = 1 << 14 /* Force AOF propagation of current cmd. */ ClientForceRepl ClientFlags = 1 << 15 /* Force replication of current cmd. */ ClientPrePSync ClientFlags = 1 << 16 /* Instance don't understand PSYNC. */ ClientReadOnly ClientFlags = 1 << 17 /* Cluster client is in read-only state. */ ClientPubSub ClientFlags = 1 << 18 /* Client is in Pub/Sub mode. */ ClientPreventAOFProp ClientFlags = 1 << 19 /* Don't propagate to AOF. */ ClientPreventReplProp ClientFlags = 1 << 20 /* Don't propagate to slaves. */ ClientPreventProp ClientFlags = ClientPreventAOFProp | ClientPreventReplProp ClientPendingWrite ClientFlags = 1 << 21 /* Client has output to send but a-write handler is yet not installed. */ ClientReplyOff ClientFlags = 1 << 22 /* Don't send replies to client. */ ClientReplySkipNext ClientFlags = 1 << 23 /* Set ClientREPLY_SKIP for next cmd */ ClientReplySkip ClientFlags = 1 << 24 /* Don't send just this reply. */ ClientLuaDebug ClientFlags = 1 << 25 /* Run EVAL in debug mode. */ ClientLuaDebugSync ClientFlags = 1 << 26 /* EVAL debugging without fork() */ ClientModule ClientFlags = 1 << 27 /* Non connected client used by some module. */ ClientProtected ClientFlags = 1 << 28 /* Client should not be freed for now. */ ClientExecutingCommand ClientFlags = 1 << 29 /* Indicates that the client is currently in the process of handling a command. usually this will be marked only during call() however, blocked clients might have this flag kept until they will try to reprocess the command. */ ClientPendingCommand ClientFlags = 1 << 30 /* Indicates the client has a fully * parsed command ready for execution. */ ClientTracking ClientFlags = 1 << 31 /* Client enabled keys tracking in order to perform client side caching. */ ClientTrackingBrokenRedir ClientFlags = 1 << 32 /* Target client is invalid. */ ClientTrackingBCAST ClientFlags = 1 << 33 /* Tracking in BCAST mode. */ ClientTrackingOptIn ClientFlags = 1 << 34 /* Tracking in opt-in mode. */ ClientTrackingOptOut ClientFlags = 1 << 35 /* Tracking in opt-out mode. */ ClientTrackingCaching ClientFlags = 1 << 36 /* CACHING yes/no was given, depending on optin/optout mode. */ ClientTrackingNoLoop ClientFlags = 1 << 37 /* Don't send invalidation messages about writes performed by myself.*/ ClientInTimeoutTable ClientFlags = 1 << 38 /* This client is in the timeout table. */ ClientProtocolError ClientFlags = 1 << 39 /* Protocol error chatting with it. */ ClientCloseAfterCommand ClientFlags = 1 << 40 /* Close after executing commands * and writing entire reply. */ ClientDenyBlocking ClientFlags = 1 << 41 /* Indicate that the client should not be blocked. currently, turned on inside MULTI, Lua, RM_Call, and AOF client */ ClientReplRDBOnly ClientFlags = 1 << 42 /* This client is a replica that only wants RDB without replication buffer. */ ClientNoEvict ClientFlags = 1 << 43 /* This client is protected against client memory eviction. */ ClientAllowOOM ClientFlags = 1 << 44 /* Client used by RM_Call is allowed to fully execute scripts even when in OOM */ ClientNoTouch ClientFlags = 1 << 45 /* This client will not touch LFU/LRU stats. */ ClientPushing ClientFlags = 1 << 46 /* This client is pushing notifications. */ ) // ClientInfo is redis-server ClientInfo, not go-redis *Client type ClientInfo struct { ID int64 // redis version 2.8.12, a unique 64-bit client ID Addr string // address/port of the client LAddr string // address/port of local address client connected to (bind address) FD int64 // file descriptor corresponding to the socket Name string // the name set by the client with CLIENT SETNAME Age time.Duration // total duration of the connection in seconds Idle time.Duration // idle time of the connection in seconds Flags ClientFlags // client flags (see below) DB int // current database ID Sub int // number of channel subscriptions PSub int // number of pattern matching subscriptions SSub int // redis version 7.0.3, number of shard channel subscriptions Multi int // number of commands in a MULTI/EXEC context Watch int // redis version 7.4 RC1, number of keys this client is currently watching. QueryBuf int // qbuf, query buffer length (0 means no query pending) QueryBufFree int // qbuf-free, free space of the query buffer (0 means the buffer is full) ArgvMem int // incomplete arguments for the next command (already extracted from query buffer) MultiMem int // redis version 7.0, memory is used up by buffered multi commands BufferSize int // rbs, usable size of buffer BufferPeak int // rbp, peak used size of buffer in last 5 sec interval OutputBufferLength int // obl, output buffer length OutputListLength int // oll, output list length (replies are queued in this list when the buffer is full) OutputMemory int // omem, output buffer memory usage TotalMemory int // tot-mem, total memory consumed by this client in its various buffers Events string // file descriptor events (see below) LastCmd string // cmd, last command played User string // the authenticated username of the client Redir int64 // client id of current client tracking redirection Resp int // redis version 7.0, client RESP protocol version LibName string // redis version 7.2, client library name LibVer string // redis version 7.2, client library version } type ClientInfoCmd struct { baseCmd val *ClientInfo } var _ Cmder = (*ClientInfoCmd)(nil) func NewClientInfoCmd(ctx context.Context, args ...interface{}) *ClientInfoCmd { return &ClientInfoCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ClientInfoCmd) SetVal(val *ClientInfo) { cmd.val = val } func (cmd *ClientInfoCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ClientInfoCmd) Val() *ClientInfo { return cmd.val } func (cmd *ClientInfoCmd) Result() (*ClientInfo, error) { return cmd.val, cmd.err } func (cmd *ClientInfoCmd) readReply(rd *proto.Reader) (err error) { txt, err := rd.ReadString() if err != nil { return err } // sds o = catClientInfoString(sdsempty(), c); // o = sdscatlen(o,"\n",1); // addReplyVerbatim(c,o,sdslen(o),"txt"); // sdsfree(o); cmd.val, err = parseClientInfo(strings.TrimSpace(txt)) return err } // fmt.Sscanf() cannot handle null values func parseClientInfo(txt string) (info *ClientInfo, err error) { info = &ClientInfo{} for _, s := range strings.Split(txt, " ") { kv := strings.Split(s, "=") if len(kv) != 2 { return nil, fmt.Errorf("redis: unexpected client info data (%s)", s) } key, val := kv[0], kv[1] switch key { case "id": info.ID, err = strconv.ParseInt(val, 10, 64) case "addr": info.Addr = val case "laddr": info.LAddr = val case "fd": info.FD, err = strconv.ParseInt(val, 10, 64) case "name": info.Name = val case "age": var age int if age, err = strconv.Atoi(val); err == nil { info.Age = time.Duration(age) * time.Second } case "idle": var idle int if idle, err = strconv.Atoi(val); err == nil { info.Idle = time.Duration(idle) * time.Second } case "flags": if val == "N" { break } for i := 0; i < len(val); i++ { switch val[i] { case 'S': info.Flags |= ClientSlave case 'O': info.Flags |= ClientSlave | ClientMonitor case 'M': info.Flags |= ClientMaster case 'P': info.Flags |= ClientPubSub case 'x': info.Flags |= ClientMulti case 'b': info.Flags |= ClientBlocked case 't': info.Flags |= ClientTracking case 'R': info.Flags |= ClientTrackingBrokenRedir case 'B': info.Flags |= ClientTrackingBCAST case 'd': info.Flags |= ClientDirtyCAS case 'c': info.Flags |= ClientCloseAfterCommand case 'u': info.Flags |= ClientUnBlocked case 'A': info.Flags |= ClientCloseASAP case 'U': info.Flags |= ClientUnixSocket case 'r': info.Flags |= ClientReadOnly case 'e': info.Flags |= ClientNoEvict case 'T': info.Flags |= ClientNoTouch default: return nil, fmt.Errorf("redis: unexpected client info flags(%s)", string(val[i])) } } case "db": info.DB, err = strconv.Atoi(val) case "sub": info.Sub, err = strconv.Atoi(val) case "psub": info.PSub, err = strconv.Atoi(val) case "ssub": info.SSub, err = strconv.Atoi(val) case "multi": info.Multi, err = strconv.Atoi(val) case "watch": info.Watch, err = strconv.Atoi(val) case "qbuf": info.QueryBuf, err = strconv.Atoi(val) case "qbuf-free": info.QueryBufFree, err = strconv.Atoi(val) case "argv-mem": info.ArgvMem, err = strconv.Atoi(val) case "multi-mem": info.MultiMem, err = strconv.Atoi(val) case "rbs": info.BufferSize, err = strconv.Atoi(val) case "rbp": info.BufferPeak, err = strconv.Atoi(val) case "obl": info.OutputBufferLength, err = strconv.Atoi(val) case "oll": info.OutputListLength, err = strconv.Atoi(val) case "omem": info.OutputMemory, err = strconv.Atoi(val) case "tot-mem": info.TotalMemory, err = strconv.Atoi(val) case "events": info.Events = val case "cmd": info.LastCmd = val case "user": info.User = val case "redir": info.Redir, err = strconv.ParseInt(val, 10, 64) case "resp": info.Resp, err = strconv.Atoi(val) case "lib-name": info.LibName = val case "lib-ver": info.LibVer = val default: return nil, fmt.Errorf("redis: unexpected client info key(%s)", key) } if err != nil { return nil, err } } return info, nil } // ------------------------------------------- type ACLLogEntry struct { Count int64 Reason string Context string Object string Username string AgeSeconds float64 ClientInfo *ClientInfo EntryID int64 TimestampCreated int64 TimestampLastUpdated int64 } type ACLLogCmd struct { baseCmd val []*ACLLogEntry } var _ Cmder = (*ACLLogCmd)(nil) func NewACLLogCmd(ctx context.Context, args ...interface{}) *ACLLogCmd { return &ACLLogCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *ACLLogCmd) SetVal(val []*ACLLogEntry) { cmd.val = val } func (cmd *ACLLogCmd) Val() []*ACLLogEntry { return cmd.val } func (cmd *ACLLogCmd) Result() ([]*ACLLogEntry, error) { return cmd.val, cmd.err } func (cmd *ACLLogCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *ACLLogCmd) readReply(rd *proto.Reader) error { n, err := rd.ReadArrayLen() if err != nil { return err } cmd.val = make([]*ACLLogEntry, n) for i := 0; i < n; i++ { cmd.val[i] = &ACLLogEntry{} entry := cmd.val[i] respLen, err := rd.ReadMapLen() if err != nil { return err } for j := 0; j < respLen; j++ { key, err := rd.ReadString() if err != nil { return err } switch key { case "count": entry.Count, err = rd.ReadInt() case "reason": entry.Reason, err = rd.ReadString() case "context": entry.Context, err = rd.ReadString() case "object": entry.Object, err = rd.ReadString() case "username": entry.Username, err = rd.ReadString() case "age-seconds": entry.AgeSeconds, err = rd.ReadFloat() case "client-info": txt, err := rd.ReadString() if err != nil { return err } entry.ClientInfo, err = parseClientInfo(strings.TrimSpace(txt)) if err != nil { return err } case "entry-id": entry.EntryID, err = rd.ReadInt() case "timestamp-created": entry.TimestampCreated, err = rd.ReadInt() case "timestamp-last-updated": entry.TimestampLastUpdated, err = rd.ReadInt() default: return fmt.Errorf("redis: unexpected key %q in ACL LOG reply", key) } if err != nil { return err } } } return nil } // LibraryInfo holds the library info. type LibraryInfo struct { LibName *string LibVer *string } // WithLibraryName returns a valid LibraryInfo with library name only. func WithLibraryName(libName string) LibraryInfo { return LibraryInfo{LibName: &libName} } // WithLibraryVersion returns a valid LibraryInfo with library version only. func WithLibraryVersion(libVer string) LibraryInfo { return LibraryInfo{LibVer: &libVer} } // ------------------------------------------- type InfoCmd struct { baseCmd val map[string]map[string]string } var _ Cmder = (*InfoCmd)(nil) func NewInfoCmd(ctx context.Context, args ...interface{}) *InfoCmd { return &InfoCmd{ baseCmd: baseCmd{ ctx: ctx, args: args, }, } } func (cmd *InfoCmd) SetVal(val map[string]map[string]string) { cmd.val = val } func (cmd *InfoCmd) Val() map[string]map[string]string { return cmd.val } func (cmd *InfoCmd) Result() (map[string]map[string]string, error) { return cmd.val, cmd.err } func (cmd *InfoCmd) String() string { return cmdString(cmd, cmd.val) } func (cmd *InfoCmd) readReply(rd *proto.Reader) error { val, err := rd.ReadString() if err != nil { return err } section := "" scanner := bufio.NewScanner(strings.NewReader(val)) moduleRe := regexp.MustCompile(`module:name=(.+?),(.+)$`) for scanner.Scan() { line := scanner.Text() if strings.HasPrefix(line, "#") { if cmd.val == nil { cmd.val = make(map[string]map[string]string) } section = strings.TrimPrefix(line, "# ") cmd.val[section] = make(map[string]string) } else if line != "" { if section == "Modules" { kv := moduleRe.FindStringSubmatch(line) if len(kv) == 3 { cmd.val[section][kv[1]] = kv[2] } } else { kv := strings.SplitN(line, ":", 2) if len(kv) == 2 { cmd.val[section][kv[0]] = kv[1] } } } } return nil } func (cmd *InfoCmd) Item(section, key string) string { if cmd.val == nil { return "" } else if cmd.val[section] == nil { return "" } else { return cmd.val[section][key] } } type MonitorStatus int const ( monitorStatusIdle MonitorStatus = iota monitorStatusStart monitorStatusStop ) type MonitorCmd struct { baseCmd ch chan string status MonitorStatus mu sync.Mutex } func newMonitorCmd(ctx context.Context, ch chan string) *MonitorCmd { return &MonitorCmd{ baseCmd: baseCmd{ ctx: ctx, args: []interface{}{"monitor"}, }, ch: ch, status: monitorStatusIdle, mu: sync.Mutex{}, } } func (cmd *MonitorCmd) String() string { return cmdString(cmd, nil) } func (cmd *MonitorCmd) readReply(rd *proto.Reader) error { ctx, cancel := context.WithCancel(cmd.ctx) go func(ctx context.Context) { for { select { case <-ctx.Done(): return default: err := cmd.readMonitor(rd, cancel) if err != nil { cmd.err = err return } } } }(ctx) return nil } func (cmd *MonitorCmd) readMonitor(rd *proto.Reader, cancel context.CancelFunc) error { for { cmd.mu.Lock() st := cmd.status pk, _ := rd.Peek(1) cmd.mu.Unlock() if len(pk) != 0 && st == monitorStatusStart { cmd.mu.Lock() line, err := rd.ReadString() cmd.mu.Unlock() if err != nil { return err } cmd.ch <- line } if st == monitorStatusStop { cancel() break } } return nil } func (cmd *MonitorCmd) Start() { cmd.mu.Lock() defer cmd.mu.Unlock() cmd.status = monitorStatusStart } func (cmd *MonitorCmd) Stop() { cmd.mu.Lock() defer cmd.mu.Unlock() cmd.status = monitorStatusStop }