package discoveryutils import ( "context" "crypto/tls" "flag" "fmt" "io" "net" "net/http" "net/url" "strings" "sync" "time" "github.com/VictoriaMetrics/VictoriaMetrics/lib/promauth" "github.com/VictoriaMetrics/VictoriaMetrics/lib/proxy" "github.com/VictoriaMetrics/VictoriaMetrics/lib/timerpool" "github.com/VictoriaMetrics/metrics" ) var ( maxConcurrency = flag.Int("promscrape.discovery.concurrency", 100, "The maximum number of concurrent requests to Prometheus autodiscovery API (Consul, Kubernetes, etc.)") maxWaitTime = flag.Duration("promscrape.discovery.concurrentWaitTime", time.Minute, "The maximum duration for waiting to perform API requests "+ "if more than -promscrape.discovery.concurrency requests are simultaneously performed") ) var defaultClient = &http.Client{ Timeout: 30 * time.Second, } var ( concurrencyLimitCh chan struct{} concurrencyLimitChOnce sync.Once ) const ( // BlockingClientReadTimeout is the maximum duration for waiting the response from GetBlockingAPI* BlockingClientReadTimeout = 10 * time.Minute // DefaultClientReadTimeout is the maximum duration for waiting the response from GetAPI* DefaultClientReadTimeout = time.Minute ) // RequestCallback is called on the request before sending the request to the server. type RequestCallback func(req *http.Request) // ResponseCallback is called on the response before validating and returning the response to the caller. type ResponseCallback func(resp *http.Response) func concurrencyLimitChInit() { concurrencyLimitCh = make(chan struct{}, *maxConcurrency) } // GetHTTPClient returns default client for http API requests. func GetHTTPClient() *http.Client { return defaultClient } // Client is http client, which talks to the given apiServer passed to NewClient(). type Client struct { // client is used for short requests. client *HTTPClient // blockingClient is used for long-polling requests. blockingClient *HTTPClient apiServer string setHTTPHeaders func(req *http.Request) setHTTPProxyHeaders func(req *http.Request) clientCtx context.Context clientCancel context.CancelFunc } // HTTPClient is a wrapper around http.Client with timeouts. type HTTPClient struct { client *http.Client ReadTimeout time.Duration } var defaultDialer = &net.Dialer{} // NewClient returns new Client for the given args. func NewClient(apiServer string, ac *promauth.Config, proxyURL *proxy.URL, proxyAC *promauth.Config) (*Client, error) { u, err := url.Parse(apiServer) if err != nil { return nil, fmt.Errorf("cannot parse apiServer=%q: %w", apiServer, err) } dialFunc := defaultDialer.DialContext if u.Scheme == "unix" { // special case for unix socket connection dialAddr := u.Path apiServer = "http://unix" dialFunc = func(ctx context.Context, _, _ string) (net.Conn, error) { return defaultDialer.DialContext(ctx, "unix", dialAddr) } } isTLS := u.Scheme == "https" var tlsCfg *tls.Config if isTLS { tlsCfg = ac.NewTLSConfig() } var proxyURLFunc func(*http.Request) (*url.URL, error) if pu := proxyURL.GetURL(); pu != nil { proxyURLFunc = http.ProxyURL(pu) } client := &http.Client{ Timeout: DefaultClientReadTimeout, Transport: &http.Transport{ TLSClientConfig: tlsCfg, Proxy: proxyURLFunc, TLSHandshakeTimeout: 10 * time.Second, MaxIdleConnsPerHost: *maxConcurrency, ResponseHeaderTimeout: DefaultClientReadTimeout, DialContext: dialFunc, }, } blockingClient := &http.Client{ Timeout: BlockingClientReadTimeout, Transport: &http.Transport{ TLSClientConfig: tlsCfg, Proxy: proxyURLFunc, TLSHandshakeTimeout: 10 * time.Second, MaxIdleConnsPerHost: 1000, ResponseHeaderTimeout: BlockingClientReadTimeout, DialContext: dialFunc, }, } setHTTPHeaders := func(req *http.Request) {} if ac != nil { setHTTPHeaders = func(req *http.Request) { ac.SetHeaders(req, true) } } setHTTPProxyHeaders := func(req *http.Request) {} if proxyAC != nil { setHTTPProxyHeaders = func(req *http.Request) { proxyURL.SetHeaders(proxyAC, req) } } ctx, cancel := context.WithCancel(context.Background()) c := &Client{ client: &HTTPClient{ client: client, ReadTimeout: DefaultClientReadTimeout, }, blockingClient: &HTTPClient{ client: blockingClient, ReadTimeout: BlockingClientReadTimeout, }, apiServer: apiServer, setHTTPHeaders: setHTTPHeaders, setHTTPProxyHeaders: setHTTPProxyHeaders, clientCtx: ctx, clientCancel: cancel, } return c, nil } // Context returns context for the client requests. func (c *Client) Context() context.Context { return c.clientCtx } // GetAPIResponseWithParamsCtx returns response for given absolute path with blocking client and optional callback for api response, func (c *Client) GetAPIResponseWithParamsCtx(ctx context.Context, path string, modifyRequest RequestCallback, inspectResponse ResponseCallback) ([]byte, error) { return c.getAPIResponseWithConcurrencyLimit(ctx, c.client, path, modifyRequest, inspectResponse) } // GetAPIResponseWithReqParams returns response for given absolute path with optional callback for request. func (c *Client) GetAPIResponseWithReqParams(path string, modifyRequest RequestCallback) ([]byte, error) { return c.getAPIResponseWithConcurrencyLimit(c.clientCtx, c.client, path, modifyRequest, nil) } // GetAPIResponse returns response for the given absolute path. func (c *Client) GetAPIResponse(path string) ([]byte, error) { return c.getAPIResponseWithConcurrencyLimit(c.clientCtx, c.client, path, nil, nil) } func (c *Client) getAPIResponseWithConcurrencyLimit(ctx context.Context, client *HTTPClient, path string, modifyRequest RequestCallback, inspectResponse ResponseCallback) ([]byte, error) { // Limit the number of concurrent API requests. concurrencyLimitChOnce.Do(concurrencyLimitChInit) t := timerpool.Get(*maxWaitTime) select { case concurrencyLimitCh <- struct{}{}: timerpool.Put(t) case <-t.C: timerpool.Put(t) return nil, fmt.Errorf("too many outstanding requests to %q; try increasing -promscrape.discovery.concurrentWaitTime=%s or -promscrape.discovery.concurrency=%d", c.apiServer, *maxWaitTime, *maxConcurrency) case <-ctx.Done(): timerpool.Put(t) return nil, ctx.Err() } data, err := c.getAPIResponseWithParamsAndClientCtx(ctx, client, path, modifyRequest, inspectResponse) <-concurrencyLimitCh return data, err } // GetBlockingAPIResponse returns response for given absolute path with blocking client and optional callback for api response, func (c *Client) GetBlockingAPIResponse(path string, inspectResponse ResponseCallback) ([]byte, error) { return c.getAPIResponseWithParamsAndClientCtx(c.clientCtx, c.blockingClient, path, nil, inspectResponse) } // GetBlockingAPIResponseCtx returns response for given absolute path with blocking client and optional callback for api response, func (c *Client) GetBlockingAPIResponseCtx(ctx context.Context, path string, inspectResponse ResponseCallback) ([]byte, error) { return c.getAPIResponseWithParamsAndClientCtx(ctx, c.blockingClient, path, nil, inspectResponse) } // getAPIResponseWithParamsAndClient returns response for the given absolute path with optional callback for request and for response. func (c *Client) getAPIResponseWithParamsAndClientCtx(ctx context.Context, client *HTTPClient, path string, modifyRequest RequestCallback, inspectResponse ResponseCallback) ([]byte, error) { requestURL := c.apiServer + path u, err := url.Parse(requestURL) if err != nil { return nil, fmt.Errorf("cannot parse %q: %w", requestURL, err) } deadline := time.Now().Add(client.ReadTimeout) ctx, cancel := context.WithDeadline(ctx, deadline) defer cancel() req, err := http.NewRequestWithContext(ctx, http.MethodGet, u.String(), nil) if err != nil { return nil, fmt.Errorf("cannot create request for %q: %w", requestURL, err) } c.setHTTPHeaders(req) c.setHTTPProxyHeaders(req) if modifyRequest != nil { modifyRequest(req) } resp, err := doRequestWithPossibleRetry(client, req) if err != nil { return nil, fmt.Errorf("cannot fetch %q: %w", requestURL, err) } data, err := io.ReadAll(resp.Body) _ = resp.Body.Close() if err != nil { return nil, fmt.Errorf("cannot read response from %q: %w", requestURL, err) } if inspectResponse != nil { inspectResponse(resp) } statusCode := resp.StatusCode if statusCode != http.StatusOK { return nil, fmt.Errorf("unexpected status code returned from %q: %d; expecting %d; response body: %q", requestURL, statusCode, http.StatusOK, data) } return data, nil } // APIServer returns the API server address func (c *Client) APIServer() string { return c.apiServer } // Stop cancels all in-flight requests func (c *Client) Stop() { c.clientCancel() } func doRequestWithPossibleRetry(hc *HTTPClient, req *http.Request) (*http.Response, error) { discoveryRequests.Inc() var ( reqErr error resp *http.Response ) // Return true if the request execution is completed and retry is not required attempt := func() bool { resp, reqErr = hc.client.Do(req) if reqErr == nil { statusCode := resp.StatusCode if statusCode != http.StatusTooManyRequests { return true } } else if reqErr != net.ErrClosed && !strings.Contains(reqErr.Error(), "broken pipe") { return true } return false } if attempt() { return resp, reqErr } // The first attempt was unsuccessful. Use exponential backoff for further attempts. // Perform the second attempt immediately after the first attempt - this should help // in cases when the remote side closes the keep-alive connection before the first attempt. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3293 sleepTime := time.Second // It is expected that the deadline is already set to req.Context(), so the loop below // should eventually finish if all the attempt() calls are unsuccessful. ctx := req.Context() for { discoveryRetries.Inc() if attempt() { return resp, reqErr } sleepTime += sleepTime if !SleepCtx(ctx, sleepTime) { return resp, reqErr } } } var ( discoveryRequests = metrics.NewCounter(`vm_promscrape_discovery_requests_total`) discoveryRetries = metrics.NewCounter(`vm_promscrape_discovery_retries_total`) ) // SleepCtx sleeps for sleepDuration. // // It immediately returns false on ctx cancel or deadline, without waiting for sleepDuration. func SleepCtx(ctx context.Context, sleepDuration time.Duration) bool { t := timerpool.Get(sleepDuration) defer timerpool.Put(t) select { case <-ctx.Done(): return false case <-t.C: return true } }