mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
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95b8cf76f8
(cherry picked from commit 9289c7512d
)
336 lines
9.6 KiB
Go
336 lines
9.6 KiB
Go
package opentsdb
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import (
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"encoding/json"
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"fmt"
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"io"
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"log"
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"net/http"
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"strings"
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"time"
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)
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// Retention objects contain meta data about what to query for our run
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type Retention struct {
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/*
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OpenTSDB has two levels of aggregation,
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First, we aggregate any un-mentioned tags into the last result
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Second, we aggregate into buckets over time
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To simulate this with config, we have
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FirstOrder (e.g. sum/avg/max/etc.)
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SecondOrder (e.g. sum/avg/max/etc.)
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AggTime (e.g. 1m/10m/1d/etc.)
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This will build into m=<FirstOrder>:<AggTime>-<SecondOrder>-none:
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Or an example: m=sum:1m-avg-none
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*/
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FirstOrder string
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SecondOrder string
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AggTime string
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// The actual ranges will attempt to query (as offsets from now)
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QueryRanges []TimeRange
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}
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// RetentionMeta objects exist to pass smaller subsets (only one retention range) of a full Retention object around
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type RetentionMeta struct {
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FirstOrder string
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SecondOrder string
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AggTime string
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}
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// Client object holds general config about how queries should be performed
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type Client struct {
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Addr string
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// The meta query limit for series returned
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Limit int
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Retentions []Retention
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Filters []string
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Normalize bool
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HardTS int64
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MsecsTime bool
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c *http.Client
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}
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// Config contains fields required
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// for Client configuration
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type Config struct {
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Addr string
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Limit int
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Offset int64
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HardTS int64
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Retentions []string
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Filters []string
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Normalize bool
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MsecsTime bool
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Transport *http.Transport
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}
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// TimeRange contains data about time ranges to query
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type TimeRange struct {
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Start int64
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End int64
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}
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// MetaResults contains return data from search series lookup queries
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type MetaResults struct {
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Type string `json:"type"`
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Results []Meta `json:"results"`
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//metric string
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//tags interface{}
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//limit int
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//time int
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//startIndex int
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//totalResults int
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}
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// Meta A meta object about a metric
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// only contain the tags/etc. and no data
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type Meta struct {
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Metric string `json:"metric"`
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Tags map[string]string `json:"tags"`
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//tsuid string
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}
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// OtsdbMetric is a single series in OpenTSDB's returned format
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type OtsdbMetric struct {
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Metric string
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Tags map[string]string
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AggregateTags []string
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Dps map[int64]float64
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}
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// Metric holds the time series data in VictoriaMetrics format
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type Metric struct {
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Metric string
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Tags map[string]string
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Timestamps []int64
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Values []float64
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}
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// FindMetrics discovers all metrics that OpenTSDB knows about (given a filter)
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// e.g. /api/suggest?type=metrics&q=system&max=100000
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func (c Client) FindMetrics(q string) ([]string, error) {
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resp, err := c.c.Get(q)
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if err != nil {
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return nil, fmt.Errorf("failed to send GET request to %q: %s", q, err)
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}
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if resp.StatusCode != 200 {
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return nil, fmt.Errorf("Bad return from OpenTSDB: %q: %v", resp.StatusCode, resp)
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}
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defer func() { _ = resp.Body.Close() }()
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body, err := io.ReadAll(resp.Body)
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if err != nil {
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return nil, fmt.Errorf("could not retrieve metric data from %q: %s", q, err)
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}
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var metriclist []string
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err = json.Unmarshal(body, &metriclist)
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if err != nil {
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return nil, fmt.Errorf("failed to read response from %q: %s", q, err)
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}
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return metriclist, nil
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}
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// FindSeries discovers all series associated with a metric
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// e.g. /api/search/lookup?m=system.load5&limit=1000000
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func (c Client) FindSeries(metric string) ([]Meta, error) {
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q := fmt.Sprintf("%s/api/search/lookup?m=%s&limit=%d", c.Addr, metric, c.Limit)
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resp, err := c.c.Get(q)
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if err != nil {
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return nil, fmt.Errorf("failed to set GET request to %q: %s", q, err)
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}
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if resp.StatusCode != 200 {
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return nil, fmt.Errorf("Bad return from OpenTSDB: %q: %v", resp.StatusCode, resp)
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}
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defer func() { _ = resp.Body.Close() }()
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body, err := io.ReadAll(resp.Body)
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if err != nil {
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return nil, fmt.Errorf("could not retrieve series data from %q: %s", q, err)
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}
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var results MetaResults
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err = json.Unmarshal(body, &results)
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if err != nil {
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return nil, fmt.Errorf("failed to read response from %q: %s", q, err)
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}
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return results.Results, nil
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}
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// GetData actually retrieves data for a series at a specified time range
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// e.g. /api/query?start=1&end=200&m=sum:1m-avg-none:system.load5{host=host1}
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func (c Client) GetData(series Meta, rt RetentionMeta, start int64, end int64, mSecs bool) (Metric, error) {
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/*
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First, build our tag string.
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It's literally just key=value,key=value,...
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*/
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tagStr := ""
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for k, v := range series.Tags {
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tagStr += fmt.Sprintf("%s=%s,", k, v)
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}
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// obviously we don't want trailing commas...
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tagStr = strings.Trim(tagStr, ",")
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/*
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The aggregation policy should already be somewhat formatted:
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FirstOrder (e.g. sum/avg/max/etc.)
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SecondOrder (e.g. sum/avg/max/etc.)
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AggTime (e.g. 1m/10m/1d/etc.)
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This will build into m=<FirstOrder>:<AggTime>-<SecondOrder>-none:
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Or an example: m=sum:1m-avg-none
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*/
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aggPol := fmt.Sprintf("%s:%s-%s-none", rt.FirstOrder, rt.AggTime, rt.SecondOrder)
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/*
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Our actual query string:
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Start and End are just timestamps
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We then add the aggregation policy, the metric, and the tag set
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*/
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queryStr := fmt.Sprintf("start=%v&end=%v&m=%s:%s{%s}", start, end, aggPol,
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series.Metric, tagStr)
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q := fmt.Sprintf("%s/api/query?%s", c.Addr, queryStr)
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resp, err := c.c.Get(q)
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if err != nil {
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return Metric{}, fmt.Errorf("failed to send GET request to %q: %s", q, err)
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}
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/*
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There are three potential failures here, none of which should kill the entire
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migration run:
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1. bad response code
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2. failure to read response body
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3. bad format of response body
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*/
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if resp.StatusCode != 200 {
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log.Printf("bad response code from OpenTSDB query %v for %q...skipping", resp.StatusCode, q)
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return Metric{}, nil
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}
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defer func() { _ = resp.Body.Close() }()
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body, err := io.ReadAll(resp.Body)
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if err != nil {
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log.Println("couldn't read response body from OpenTSDB query...skipping")
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return Metric{}, nil
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}
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var output []OtsdbMetric
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err = json.Unmarshal(body, &output)
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if err != nil {
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log.Printf("couldn't marshall response body from OpenTSDB query (%s)...skipping", body)
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return Metric{}, nil
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}
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/*
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We expect results to look like:
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[
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{
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"metric": "zfs_filesystem.available",
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"tags": {
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"rack": "6",
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"replica": "1",
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"host": "c7-bfyii-115",
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"pool": "dattoarray",
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"row": "c",
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"dc": "us-west-3",
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"group": "legonode"
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},
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"aggregateTags": [],
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"dps": {
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"1626019200": 32490602877610.668,
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"1626033600": 32486439014058.668
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}
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}
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]
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There are two things that could be bad here:
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1. There are no actual stats returned (an empty array -> [])
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2. There are aggregate tags in the results
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An empty array doesn't cast to a OtsdbMetric struct well, and there's no reason to try, so we should just skip it
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Because we're trying to migrate data without transformations, seeing aggregate tags could mean
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we're dropping series on the floor.
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In all "bad" cases, we don't end the migration, we just don't process that particular message
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*/
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if len(output) < 1 {
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// no results returned...return an empty object without error
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return Metric{}, nil
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}
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if len(output) > 1 {
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// multiple series returned for a single query. We can't process this right, so...
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return Metric{}, nil
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}
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if len(output[0].AggregateTags) > 0 {
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// This failure means we've suppressed potential series somehow...
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return Metric{}, nil
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}
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data := Metric{}
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data.Metric = output[0].Metric
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data.Tags = output[0].Tags
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/*
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We evaluate data for correctness before formatting the actual values
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to skip a little bit of time if the series has invalid formatting
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*/
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data, err = modifyData(data, c.Normalize)
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if err != nil {
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return Metric{}, nil
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}
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/*
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Convert data from OpenTSDB's output format ([[ts,val],[ts,val]...])
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to VictoriaMetrics format: {"timestamps": [ts,ts,ts...], "values": [val,val,val...]}
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The nasty part here is that because an object in each array
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can be a float64, we have to initially cast _all_ objects that way
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then convert the timestamp back to something reasonable.
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*/
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for ts, val := range output[0].Dps {
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if !mSecs {
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data.Timestamps = append(data.Timestamps, ts*1000)
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} else {
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data.Timestamps = append(data.Timestamps, ts)
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}
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data.Values = append(data.Values, val)
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}
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return data, nil
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}
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// NewClient creates and returns OpenTSDB client
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// configured with passed Config
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func NewClient(cfg Config) (*Client, error) {
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var retentions []Retention
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offsetPrint := int64(time.Now().Unix())
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// convert a number of days to seconds
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offsetSecs := cfg.Offset * 24 * 60 * 60
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if cfg.MsecsTime {
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// 1000000 == Nanoseconds -> Milliseconds difference
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offsetPrint = int64(time.Now().UnixNano() / 1000000)
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// also bump offsetSecs to milliseconds
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offsetSecs = offsetSecs * 1000
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}
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if cfg.HardTS > 0 {
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/*
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HardTS is a specific timestamp we'll be starting at.
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Just present that if it is defined
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*/
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offsetPrint = cfg.HardTS
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} else if offsetSecs > 0 {
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/*
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Our "offset" is the number of days (in seconds) we should step
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back before starting to scan for data
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*/
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offsetPrint = offsetPrint - offsetSecs
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}
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log.Printf("Will collect data starting at TS %v", offsetPrint)
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for _, r := range cfg.Retentions {
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ret, err := convertRetention(r, offsetSecs, cfg.MsecsTime)
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if err != nil {
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return &Client{}, fmt.Errorf("Couldn't parse retention %q :: %v", r, err)
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}
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retentions = append(retentions, ret)
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}
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client := &Client{
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Addr: strings.Trim(cfg.Addr, "/"),
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Retentions: retentions,
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Limit: cfg.Limit,
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Filters: cfg.Filters,
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Normalize: cfg.Normalize,
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HardTS: cfg.HardTS,
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MsecsTime: cfg.MsecsTime,
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c: &http.Client{Transport: cfg.Transport},
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}
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return client, nil
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}
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