package influx

import (
	"flag"
	"fmt"
	"io"
	"net/http"
	"runtime"
	"sync"
	"time"

	"github.com/VictoriaMetrics/VictoriaMetrics/app/vminsert/common"
	"github.com/VictoriaMetrics/VictoriaMetrics/app/vminsert/concurrencylimiter"
	"github.com/VictoriaMetrics/VictoriaMetrics/lib/bytesutil"
	"github.com/VictoriaMetrics/VictoriaMetrics/lib/storage"
	"github.com/VictoriaMetrics/metrics"
)

var (
	measurementFieldSeparator = flag.String("influxMeasurementFieldSeparator", "_", "Separator for `{measurement}{separator}{field_name}` metric name when inserted via Influx line protocol")
	skipSingleField           = flag.Bool("influxSkipSingleField", false, "Uses `{measurement}` instead of `{measurement}{separator}{field_name}` for metic name if Influx line contains only a single field")
)

var (
	rowsInserted  = metrics.NewCounter(`vm_rows_inserted_total{type="influx"}`)
	rowsPerInsert = metrics.NewSummary(`vm_rows_per_insert{type="influx"}`)
)

// InsertHandler processes remote write for influx line protocol.
//
// See https://github.com/influxdata/influxdb/blob/4cbdc197b8117fee648d62e2e5be75c6575352f0/tsdb/README.md
func InsertHandler(req *http.Request) error {
	return concurrencylimiter.Do(func() error {
		return insertHandlerInternal(req)
	})
}

func insertHandlerInternal(req *http.Request) error {
	influxReadCalls.Inc()

	r := req.Body
	if req.Header.Get("Content-Encoding") == "gzip" {
		zr, err := common.GetGzipReader(r)
		if err != nil {
			return fmt.Errorf("cannot read gzipped influx line protocol data: %s", err)
		}
		defer common.PutGzipReader(zr)
		r = zr
	}

	q := req.URL.Query()
	tsMultiplier := int64(1e6)
	switch q.Get("precision") {
	case "ns":
		tsMultiplier = 1e6
	case "u":
		tsMultiplier = 1e3
	case "ms":
		tsMultiplier = 1
	case "s":
		tsMultiplier = -1e3
	case "m":
		tsMultiplier = -1e3 * 60
	case "h":
		tsMultiplier = -1e3 * 3600
	}

	// Read db tag from https://docs.influxdata.com/influxdb/v1.7/tools/api/#write-http-endpoint
	db := q.Get("db")

	ctx := getPushCtx()
	defer putPushCtx(ctx)
	for ctx.Read(r, tsMultiplier) {
		if err := ctx.InsertRows(db); err != nil {
			return err
		}
	}
	return ctx.Error()
}

func (ctx *pushCtx) InsertRows(db string) error {
	rows := ctx.Rows.Rows
	rowsLen := 0
	for i := range rows {
		rowsLen += len(rows[i].Tags)
	}
	ic := &ctx.Common
	ic.Reset(rowsLen)
	rowsTotal := 0
	for i := range rows {
		r := &rows[i]
		ic.Labels = ic.Labels[:0]
		hasDBLabel := false
		for j := range r.Tags {
			tag := &r.Tags[j]
			if tag.Key == "db" {
				hasDBLabel = true
			}
			ic.AddLabel(tag.Key, tag.Value)
		}
		if len(db) > 0 && !hasDBLabel {
			ic.AddLabel("db", db)
		}
		ctx.metricNameBuf = storage.MarshalMetricNameRaw(ctx.metricNameBuf[:0], ic.Labels)
		ctx.metricGroupBuf = append(ctx.metricGroupBuf[:0], r.Measurement...)
		skipFieldKey := len(r.Fields) == 1 && *skipSingleField
		if len(ctx.metricGroupBuf) > 0 && !skipFieldKey {
			ctx.metricGroupBuf = append(ctx.metricGroupBuf, *measurementFieldSeparator...)
		}
		metricGroupPrefixLen := len(ctx.metricGroupBuf)
		for j := range r.Fields {
			f := &r.Fields[j]
			if !skipFieldKey {
				ctx.metricGroupBuf = append(ctx.metricGroupBuf[:metricGroupPrefixLen], f.Key...)
			}
			metricGroup := bytesutil.ToUnsafeString(ctx.metricGroupBuf)
			ic.Labels = ic.Labels[:0]
			ic.AddLabel("", metricGroup)
			ic.WriteDataPoint(ctx.metricNameBuf, ic.Labels[:1], r.Timestamp, f.Value)
		}
		rowsTotal += len(r.Fields)
	}
	rowsInserted.Add(rowsTotal)
	rowsPerInsert.Update(float64(rowsTotal))
	return ic.FlushBufs()
}

func (ctx *pushCtx) Read(r io.Reader, tsMultiplier int64) bool {
	if ctx.err != nil {
		return false
	}
	ctx.reqBuf, ctx.tailBuf, ctx.err = common.ReadLinesBlock(r, ctx.reqBuf, ctx.tailBuf)
	if ctx.err != nil {
		if ctx.err != io.EOF {
			influxReadErrors.Inc()
			ctx.err = fmt.Errorf("cannot read influx line protocol data: %s", ctx.err)
		}
		return false
	}
	ctx.Rows.Unmarshal(bytesutil.ToUnsafeString(ctx.reqBuf))

	// Adjust timestamps according to tsMultiplier
	currentTs := time.Now().UnixNano() / 1e6
	if tsMultiplier >= 1 {
		for i := range ctx.Rows.Rows {
			row := &ctx.Rows.Rows[i]
			if row.Timestamp == 0 {
				row.Timestamp = currentTs
			} else {
				row.Timestamp /= tsMultiplier
			}
		}
	} else if tsMultiplier < 0 {
		tsMultiplier = -tsMultiplier
		currentTs -= currentTs % tsMultiplier
		for i := range ctx.Rows.Rows {
			row := &ctx.Rows.Rows[i]
			if row.Timestamp == 0 {
				row.Timestamp = currentTs
			} else {
				row.Timestamp *= tsMultiplier
			}
		}
	}
	return true
}

var (
	influxReadCalls  = metrics.NewCounter(`vm_read_calls_total{name="influx"}`)
	influxReadErrors = metrics.NewCounter(`vm_read_errors_total{name="influx"}`)
)

type pushCtx struct {
	Rows   Rows
	Common common.InsertCtx

	reqBuf         []byte
	tailBuf        []byte
	metricNameBuf  []byte
	metricGroupBuf []byte

	err error
}

func (ctx *pushCtx) Error() error {
	if ctx.err == io.EOF {
		return nil
	}
	return ctx.err
}

func (ctx *pushCtx) reset() {
	ctx.Rows.Reset()
	ctx.Common.Reset(0)

	ctx.reqBuf = ctx.reqBuf[:0]
	ctx.tailBuf = ctx.tailBuf[:0]
	ctx.metricNameBuf = ctx.metricNameBuf[:0]
	ctx.metricGroupBuf = ctx.metricGroupBuf[:0]

	ctx.err = nil
}

func getPushCtx() *pushCtx {
	select {
	case ctx := <-pushCtxPoolCh:
		return ctx
	default:
		if v := pushCtxPool.Get(); v != nil {
			return v.(*pushCtx)
		}
		return &pushCtx{}
	}
}

func putPushCtx(ctx *pushCtx) {
	ctx.reset()
	select {
	case pushCtxPoolCh <- ctx:
	default:
		pushCtxPool.Put(ctx)
	}
}

var pushCtxPool sync.Pool
var pushCtxPoolCh = make(chan *pushCtx, runtime.GOMAXPROCS(-1))