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consul/agent/hcp/telemetry_provider.go

186 lines
5.8 KiB

// Copyright (c) HashiCorp, Inc.
// SPDX-License-Identifier: BUSL-1.1
package hcp
import (
"context"
"net/url"
"regexp"
"sync"
"time"
"github.com/armon/go-metrics"
"github.com/go-openapi/runtime"
"github.com/hashicorp/go-hclog"
"github.com/hashicorp/consul/agent/hcp/client"
"github.com/hashicorp/consul/agent/hcp/telemetry"
)
var (
// internalMetricRefreshFailure is a metric to monitor refresh failures.
internalMetricRefreshFailure []string = []string{"hcp", "telemetry_config_provider", "refresh", "failure"}
// internalMetricRefreshSuccess is a metric to monitor refresh successes.
internalMetricRefreshSuccess []string = []string{"hcp", "telemetry_config_provider", "refresh", "success"}
// defaultTelemetryConfigRefreshInterval is a default fallback in case the first HCP fetch fails.
defaultTelemetryConfigRefreshInterval = 1 * time.Minute
)
// Ensure hcpProviderImpl implements telemetry provider interfaces.
var _ telemetry.ConfigProvider = &hcpProviderImpl{}
var _ telemetry.EndpointProvider = &hcpProviderImpl{}
// hcpProviderImpl holds telemetry configuration and settings for continuous fetch of new config from HCP.
// it updates configuration, if changes are detected.
type hcpProviderImpl struct {
// cfg holds configuration that can be dynamically updated.
cfg *dynamicConfig
// A reader-writer mutex is used as the provider is read heavy.
// OTEL components access telemetryConfig during metrics collection and export (read).
// Meanwhile, config is only updated when there are changes (write).
rw sync.RWMutex
// hcpClient is an authenticated client used to make HTTP requests to HCP.
hcpClient client.Client
}
// dynamicConfig is a set of configurable settings for metrics collection, processing and export.
// fields MUST be exported to compute hash for equals method.
type dynamicConfig struct {
disabled bool
endpoint *url.URL
labels map[string]string
filters *regexp.Regexp
// refreshInterval controls the interval at which configuration is fetched from HCP to refresh config.
refreshInterval time.Duration
}
// defaultDisabledCfg disables metric collection and contains default config values.
func defaultDisabledCfg() *dynamicConfig {
return &dynamicConfig{
labels: map[string]string{},
filters: client.DefaultMetricFilters,
refreshInterval: defaultTelemetryConfigRefreshInterval,
endpoint: nil,
disabled: true,
}
}
// NewHCPProvider initializes and starts a HCP Telemetry provider.
func NewHCPProvider(ctx context.Context, hcpClient client.Client) *hcpProviderImpl {
h := &hcpProviderImpl{
// Initialize with default config values.
cfg: defaultDisabledCfg(),
hcpClient: hcpClient,
}
go h.run(ctx)
return h
}
// run continously checks for updates to the telemetry configuration by making a request to HCP.
func (h *hcpProviderImpl) run(ctx context.Context) {
// Try to initialize config once before starting periodic fetch.
h.updateConfig(ctx)
ticker := time.NewTicker(h.cfg.refreshInterval)
defer ticker.Stop()
for {
select {
case <-ticker.C:
if newRefreshInterval := h.updateConfig(ctx); newRefreshInterval > 0 {
ticker.Reset(newRefreshInterval)
}
case <-ctx.Done():
return
}
}
}
// updateConfig makes a HTTP request to HCP to update metrics configuration held in the provider.
func (h *hcpProviderImpl) updateConfig(ctx context.Context) time.Duration {
logger := hclog.FromContext(ctx).Named("telemetry_config_provider")
ctx, cancel := context.WithTimeout(ctx, 5*time.Second)
defer cancel()
telemetryCfg, err := h.hcpClient.FetchTelemetryConfig(ctx)
if err != nil {
// Only disable metrics on 404 or 401 to handle the case of an unlinked cluster.
// For other errors such as 5XX ones, we continue metrics collection, as these are potentially transient server-side errors.
apiErr, ok := err.(*runtime.APIError)
if ok && apiErr.IsClientError() {
disabledMetricsCfg := defaultDisabledCfg()
h.modifyDynamicCfg(disabledMetricsCfg)
return disabledMetricsCfg.refreshInterval
}
logger.Error("failed to fetch telemetry config from HCP", "error", err)
metrics.IncrCounter(internalMetricRefreshFailure, 1)
return 0
}
// newRefreshInterval of 0 or less can cause ticker Reset() panic.
newRefreshInterval := telemetryCfg.RefreshConfig.RefreshInterval
if newRefreshInterval <= 0 {
logger.Error("invalid refresh interval duration", "refreshInterval", newRefreshInterval)
metrics.IncrCounter(internalMetricRefreshFailure, 1)
return 0
}
newCfg := &dynamicConfig{
filters: telemetryCfg.MetricsConfig.Filters,
endpoint: telemetryCfg.MetricsConfig.Endpoint,
labels: telemetryCfg.MetricsConfig.Labels,
refreshInterval: telemetryCfg.RefreshConfig.RefreshInterval,
disabled: telemetryCfg.MetricsConfig.Disabled,
}
h.modifyDynamicCfg(newCfg)
return newCfg.refreshInterval
}
// modifyDynamicCfg acquires a write lock to update new configuration and emits a success metric.
func (h *hcpProviderImpl) modifyDynamicCfg(newCfg *dynamicConfig) {
h.rw.Lock()
h.cfg = newCfg
h.rw.Unlock()
metrics.IncrCounter(internalMetricRefreshSuccess, 1)
}
// GetEndpoint acquires a read lock to return endpoint configuration for consumers.
func (h *hcpProviderImpl) GetEndpoint() *url.URL {
h.rw.RLock()
defer h.rw.RUnlock()
return h.cfg.endpoint
}
// GetFilters acquires a read lock to return filters configuration for consumers.
func (h *hcpProviderImpl) GetFilters() *regexp.Regexp {
h.rw.RLock()
defer h.rw.RUnlock()
return h.cfg.filters
}
// GetLabels acquires a read lock to return labels configuration for consumers.
func (h *hcpProviderImpl) GetLabels() map[string]string {
h.rw.RLock()
defer h.rw.RUnlock()
return h.cfg.labels
}
// IsDisabled acquires a read lock and return true if metrics are enabled.
func (h *hcpProviderImpl) IsDisabled() bool {
h.rw.RLock()
defer h.rw.RUnlock()
return h.cfg.disabled
}