package log import ( "fmt" golog "log" "github.com/micro/go-micro/debug/buffer" ) var ( // DefaultSize of the logger buffer DefaultSize = 1000 ) // defaultLog is default micro log type defaultLog struct { *buffer.Buffer } // NewLog returns default Logger with func NewLog(opts ...Option) Log { // get default options options := DefaultOptions() // apply requested options for _, o := range opts { o(&options) } return &defaultLog{ Buffer: buffer.New(options.Size), } } // Write writes logs into logger func (l *defaultLog) Write(r Record) { golog.Print(r.Value) l.Buffer.Put(fmt.Sprint(r.Value)) } // Read reads logs and returns them func (l *defaultLog) Read(opts ...ReadOption) []Record { options := ReadOptions{} // initialize the read options for _, o := range opts { o(&options) } var entries []*buffer.Entry // if Since options ha sbeen specified we honor it if !options.Since.IsZero() { entries = l.Buffer.Since(options.Since) } // only if we specified valid count constraint // do we end up doing some serious if-else kung-fu // if since constraint has been provided // we return *count* number of logs since the given timestamp; // otherwise we return last count number of logs if options.Count > 0 { switch len(entries) > 0 { case true: // if we request fewer logs than what since constraint gives us if options.Count < len(entries) { entries = entries[0:options.Count] } default: entries = l.Buffer.Get(options.Count) } } records := make([]Record, 0, len(entries)) for _, entry := range entries { record := Record{ Timestamp: entry.Timestamp, Value: entry.Value, } records = append(records, record) } return records } // Stream returns channel for reading log records func (l *defaultLog) Stream(stop chan bool) <-chan Record { // get stream channel from ring buffer stream := l.Buffer.Stream(stop) // make a buffered channel records := make(chan Record, 128) // get last 10 records last10 := l.Buffer.Get(10) // stream the log records go func() { // first send last 10 records for _, entry := range last10 { records <- Record{ Timestamp: entry.Timestamp, Value: entry.Value, Metadata: make(map[string]string), } } // now stream continuously for entry := range stream { records <- Record{ Timestamp: entry.Timestamp, Value: entry.Value, Metadata: make(map[string]string), } } }() return records }