package metric import ( "fmt" "hash/fnv" "sort" "time" "github.com/influxdata/telegraf" ) type metric struct { name string tags []*telegraf.Tag fields []*telegraf.Field tm time.Time tp telegraf.ValueType aggregate bool } func New( name string, tags map[string]string, fields map[string]interface{}, tm time.Time, tp ...telegraf.ValueType, ) (telegraf.Metric, error) { var vtype telegraf.ValueType if len(tp) > 0 { vtype = tp[0] } else { vtype = telegraf.Untyped } m := &metric{ name: name, tags: nil, fields: nil, tm: tm, tp: vtype, } if len(tags) > 0 { m.tags = make([]*telegraf.Tag, 0, len(tags)) for k, v := range tags { m.tags = append(m.tags, &telegraf.Tag{Key: k, Value: v}) } sort.Slice(m.tags, func(i, j int) bool { return m.tags[i].Key < m.tags[j].Key }) } if len(fields) > 0 { m.fields = make([]*telegraf.Field, 0, len(fields)) for k, v := range fields { v := convertField(v) if v == nil { continue } m.AddField(k, v) } } return m, nil } // FromMetric returns a deep copy of the metric with any tracking information // removed. func FromMetric(other telegraf.Metric) telegraf.Metric { m := &metric{ name: other.Name(), tags: make([]*telegraf.Tag, len(other.TagList())), fields: make([]*telegraf.Field, len(other.FieldList())), tm: other.Time(), tp: other.Type(), aggregate: other.IsAggregate(), } for i, tag := range other.TagList() { m.tags[i] = &telegraf.Tag{Key: tag.Key, Value: tag.Value} } for i, field := range other.FieldList() { m.fields[i] = &telegraf.Field{Key: field.Key, Value: field.Value} } return m } func (m *metric) String() string { return fmt.Sprintf("%s %v %v %d", m.name, m.Tags(), m.Fields(), m.tm.UnixNano()) } func (m *metric) Name() string { return m.name } func (m *metric) Tags() map[string]string { tags := make(map[string]string, len(m.tags)) for _, tag := range m.tags { tags[tag.Key] = tag.Value } return tags } func (m *metric) TagList() []*telegraf.Tag { return m.tags } func (m *metric) Fields() map[string]interface{} { fields := make(map[string]interface{}, len(m.fields)) for _, field := range m.fields { fields[field.Key] = field.Value } return fields } func (m *metric) FieldList() []*telegraf.Field { return m.fields } func (m *metric) Time() time.Time { return m.tm } func (m *metric) Type() telegraf.ValueType { return m.tp } func (m *metric) SetName(name string) { m.name = name } func (m *metric) AddPrefix(prefix string) { m.name = prefix + m.name } func (m *metric) AddSuffix(suffix string) { m.name = m.name + suffix } func (m *metric) AddTag(key, value string) { for i, tag := range m.tags { if key > tag.Key { continue } if key == tag.Key { tag.Value = value return } m.tags = append(m.tags, nil) copy(m.tags[i+1:], m.tags[i:]) m.tags[i] = &telegraf.Tag{Key: key, Value: value} return } m.tags = append(m.tags, &telegraf.Tag{Key: key, Value: value}) } func (m *metric) HasTag(key string) bool { for _, tag := range m.tags { if tag.Key == key { return true } } return false } func (m *metric) GetTag(key string) (string, bool) { for _, tag := range m.tags { if tag.Key == key { return tag.Value, true } } return "", false } func (m *metric) RemoveTag(key string) { for i, tag := range m.tags { if tag.Key == key { copy(m.tags[i:], m.tags[i+1:]) m.tags[len(m.tags)-1] = nil m.tags = m.tags[:len(m.tags)-1] return } } } func (m *metric) AddField(key string, value interface{}) { for i, field := range m.fields { if key == field.Key { m.fields[i] = &telegraf.Field{Key: key, Value: convertField(value)} return } } m.fields = append(m.fields, &telegraf.Field{Key: key, Value: convertField(value)}) } func (m *metric) HasField(key string) bool { for _, field := range m.fields { if field.Key == key { return true } } return false } func (m *metric) GetField(key string) (interface{}, bool) { for _, field := range m.fields { if field.Key == key { return field.Value, true } } return nil, false } func (m *metric) RemoveField(key string) { for i, field := range m.fields { if field.Key == key { copy(m.fields[i:], m.fields[i+1:]) m.fields[len(m.fields)-1] = nil m.fields = m.fields[:len(m.fields)-1] return } } } func (m *metric) SetTime(t time.Time) { m.tm = t } func (m *metric) Copy() telegraf.Metric { m2 := &metric{ name: m.name, tags: make([]*telegraf.Tag, len(m.tags)), fields: make([]*telegraf.Field, len(m.fields)), tm: m.tm, tp: m.tp, aggregate: m.aggregate, } for i, tag := range m.tags { m2.tags[i] = &telegraf.Tag{Key: tag.Key, Value: tag.Value} } for i, field := range m.fields { m2.fields[i] = &telegraf.Field{Key: field.Key, Value: field.Value} } return m2 } func (m *metric) SetAggregate(b bool) { m.aggregate = true } func (m *metric) IsAggregate() bool { return m.aggregate } func (m *metric) HashID() uint64 { h := fnv.New64a() h.Write([]byte(m.name)) h.Write([]byte("\n")) for _, tag := range m.tags { h.Write([]byte(tag.Key)) h.Write([]byte("\n")) h.Write([]byte(tag.Value)) h.Write([]byte("\n")) } return h.Sum64() } func (m *metric) Accept() { } func (m *metric) Reject() { } func (m *metric) Drop() { } // Convert field to a supported type or nil if unconvertible func convertField(v interface{}) interface{} { switch v := v.(type) { case float64: return v case int64: return v case string: return v case bool: return v case int: return int64(v) case uint: return uint64(v) case uint64: return uint64(v) case []byte: return string(v) case int32: return int64(v) case int16: return int64(v) case int8: return int64(v) case uint32: return uint64(v) case uint16: return uint64(v) case uint8: return uint64(v) case float32: return float64(v) case *float64: if v != nil { return *v } case *int64: if v != nil { return *v } case *string: if v != nil { return *v } case *bool: if v != nil { return *v } case *int: if v != nil { return int64(*v) } case *uint: if v != nil { return uint64(*v) } case *uint64: if v != nil { return uint64(*v) } case *[]byte: if v != nil { return string(*v) } case *int32: if v != nil { return int64(*v) } case *int16: if v != nil { return int64(*v) } case *int8: if v != nil { return int64(*v) } case *uint32: if v != nil { return uint64(*v) } case *uint16: if v != nil { return uint64(*v) } case *uint8: if v != nil { return uint64(*v) } case *float32: if v != nil { return float64(*v) } default: return nil } return nil }