package cloudwatch import ( "fmt" "strings" "time" "github.com/aws/aws-sdk-go/aws" "github.com/aws/aws-sdk-go/service/cloudwatch" "github.com/influxdata/telegraf" "github.com/influxdata/telegraf/internal" influxaws "github.com/influxdata/telegraf/internal/config/aws" "github.com/influxdata/telegraf/plugins/inputs" ) type ( CloudWatch struct { influxaws.AwsCredentials Period internal.Duration `toml:"period"` Delay internal.Duration `toml:"delay"` Namespace string `toml:"namespace"` Metrics []*Metric `toml:"metrics"` CacheTTL internal.Duration `toml:"cache_ttl"` client cloudwatchClient metricCache *MetricCache } Metric struct { MetricNames []string `toml:"names"` Dimensions []*Dimension `toml:"dimensions"` } Dimension struct { Name string `toml:"name"` Value string `toml:"value"` } MetricCache struct { TTL time.Duration Fetched time.Time Metrics []*cloudwatch.Metric } cloudwatchClient interface { ListMetrics(*cloudwatch.ListMetricsInput) (*cloudwatch.ListMetricsOutput, error) GetMetricStatistics(*cloudwatch.GetMetricStatisticsInput) (*cloudwatch.GetMetricStatisticsOutput, error) } ) func (c *CloudWatch) SampleConfig() string { return ` ## Amazon Region region = 'us-east-1' ## Amazon Credentials ## Credentials are loaded in the following order ## 1) Assumed credentials via STS if role_arn is specified ## 2) explicit credentials from 'access_key' and 'secret_key' ## 3) shared profile from 'profile' ## 4) environment variables ## 5) shared credentials file ## 6) EC2 Instance Profile #access_key = "" #secret_key = "" ## Requested CloudWatch aggregation Period (required - must be a multiple of 60s) period = '1m' ## Collection Delay (required - must account for metrics availability via CloudWatch API) delay = '1m' ## Recomended: use metric 'interval' that is a multiple of 'period' to avoid ## gaps or overlap in pulled data interval = '1m' ## Configure the TTL for the internal cache of metrics. ## Defaults to 1 hr if not specified #cache_ttl = '10m' ## Metric Statistic Namespace (required) namespace = 'AWS/ELB' ## Metrics to Pull (optional) ## Defaults to all Metrics in Namespace if nothing is provided ## Refreshes Namespace available metrics every 1h #[[inputs.cloudwatch.metrics]] # names = ['Latency', 'RequestCount'] # # ## Dimension filters for Metric (optional) # [[inputs.cloudwatch.metrics.dimensions]] # name = 'LoadBalancerName' # value = 'p-example' ` } func (c *CloudWatch) Description() string { return "Pull Metric Statistics from Amazon CloudWatch" } func (c *CloudWatch) Gather(acc telegraf.Accumulator) error { if c.client == nil { c.initializeCloudWatch() } var metrics []*cloudwatch.Metric // check for provided metric filter if c.Metrics != nil { metrics = []*cloudwatch.Metric{} for _, m := range c.Metrics { if !hasWilcard(m.Dimensions) { dimensions := make([]*cloudwatch.Dimension, len(m.Dimensions)) for k, d := range m.Dimensions { fmt.Printf("Dimension [%s]:[%s]\n", d.Name, d.Value) dimensions[k] = &cloudwatch.Dimension{ Name: aws.String(d.Name), Value: aws.String(d.Value), } } for _, name := range m.MetricNames { metrics = append(metrics, &cloudwatch.Metric{ Namespace: aws.String(c.Namespace), MetricName: aws.String(name), Dimensions: dimensions, }) } } else { allMetrics, err := c.fetchNamespaceMetrics() if err != nil { return err } for _, name := range m.MetricNames { for _, metric := range allMetrics { if isSelected(metric, m.Dimensions) { metrics = append(metrics, &cloudwatch.Metric{ Namespace: aws.String(c.Namespace), MetricName: aws.String(name), Dimensions: metric.Dimensions, }) } } } } } } else { var err error metrics, err = c.fetchNamespaceMetrics() if err != nil { return err } } metricCount := len(metrics) var errChan = make(chan error, metricCount) now := time.Now() // limit concurrency or we can easily exhaust user connection limit semaphore := make(chan byte, 64) for _, m := range metrics { semaphore <- 0x1 go c.gatherMetric(acc, m, now, semaphore, errChan) } for i := 1; i <= metricCount; i++ { err := <-errChan if err != nil { return err } } return nil } func init() { inputs.Add("cloudwatch", func() telegraf.Input { ttl, _ := time.ParseDuration("1hr") return &CloudWatch{ CacheTTL: internal.Duration{Duration: ttl}, } }) } /* * Initialize CloudWatch client */ func (c *CloudWatch) initializeCloudWatch() error { configProvider := c.Credentials() c.client = cloudwatch.New(configProvider) return nil } /* * Fetch available metrics for given CloudWatch Namespace */ func (c *CloudWatch) fetchNamespaceMetrics() (metrics []*cloudwatch.Metric, err error) { if c.metricCache != nil && c.metricCache.IsValid() { metrics = c.metricCache.Metrics return } metrics = []*cloudwatch.Metric{} var token *string for more := true; more; { params := &cloudwatch.ListMetricsInput{ Namespace: aws.String(c.Namespace), Dimensions: []*cloudwatch.DimensionFilter{}, NextToken: token, MetricName: nil, } resp, err := c.client.ListMetrics(params) if err != nil { return nil, err } metrics = append(metrics, resp.Metrics...) token = resp.NextToken more = token != nil } c.metricCache = &MetricCache{ Metrics: metrics, Fetched: time.Now(), TTL: c.CacheTTL.Duration, } return } /* * Gather given Metric and emit any error */ func (c *CloudWatch) gatherMetric(acc telegraf.Accumulator, metric *cloudwatch.Metric, now time.Time, semaphore chan byte, errChan chan error) { params := c.getStatisticsInput(metric, now) resp, err := c.client.GetMetricStatistics(params) if err != nil { errChan <- err <-semaphore return } for _, point := range resp.Datapoints { tags := map[string]string{ "region": c.Region, "unit": snakeCase(*point.Unit), } for _, d := range metric.Dimensions { tags[snakeCase(*d.Name)] = *d.Value } // record field for each statistic fields := map[string]interface{}{} if point.Average != nil { fields[formatField(*metric.MetricName, cloudwatch.StatisticAverage)] = *point.Average } if point.Maximum != nil { fields[formatField(*metric.MetricName, cloudwatch.StatisticMaximum)] = *point.Maximum } if point.Minimum != nil { fields[formatField(*metric.MetricName, cloudwatch.StatisticMinimum)] = *point.Minimum } if point.SampleCount != nil { fields[formatField(*metric.MetricName, cloudwatch.StatisticSampleCount)] = *point.SampleCount } if point.Sum != nil { fields[formatField(*metric.MetricName, cloudwatch.StatisticSum)] = *point.Sum } acc.AddFields(formatMeasurement(c.Namespace), fields, tags, *point.Timestamp) } errChan <- nil <-semaphore } /* * Formatting helpers */ func formatField(metricName string, statistic string) string { return fmt.Sprintf("%s_%s", snakeCase(metricName), snakeCase(statistic)) } func formatMeasurement(namespace string) string { namespace = strings.Replace(namespace, "/", "_", -1) namespace = snakeCase(namespace) return fmt.Sprintf("cloudwatch_%s", namespace) } func snakeCase(s string) string { s = internal.SnakeCase(s) s = strings.Replace(s, "__", "_", -1) return s } /* * Map Metric to *cloudwatch.GetMetricStatisticsInput for given timeframe */ func (c *CloudWatch) getStatisticsInput(metric *cloudwatch.Metric, now time.Time) *cloudwatch.GetMetricStatisticsInput { end := now.Add(-c.Delay.Duration) input := &cloudwatch.GetMetricStatisticsInput{ StartTime: aws.Time(end.Add(-c.Period.Duration)), EndTime: aws.Time(end), MetricName: metric.MetricName, Namespace: metric.Namespace, Period: aws.Int64(int64(c.Period.Duration.Seconds())), Dimensions: metric.Dimensions, Statistics: []*string{ aws.String(cloudwatch.StatisticAverage), aws.String(cloudwatch.StatisticMaximum), aws.String(cloudwatch.StatisticMinimum), aws.String(cloudwatch.StatisticSum), aws.String(cloudwatch.StatisticSampleCount)}, } return input } /* * Check Metric Cache validity */ func (c *MetricCache) IsValid() bool { return c.Metrics != nil && time.Since(c.Fetched) < c.TTL } func hasWilcard(dimensions []*Dimension) bool { wildcard := false for _, d := range dimensions { if d.Value == "" || d.Value == "*" { wildcard = true } } return wildcard } func isSelected(metric *cloudwatch.Metric, dimensions []*Dimension) bool { if len(metric.Dimensions) != len(dimensions) { return false } for _, d := range dimensions { selected := false for _, d2 := range metric.Dimensions { if d.Name == *d2.Name { if d.Value == "" || d.Value == "*" || d.Value == *d2.Value { selected = true } } } if !selected { return false } } return true }