func (c *Client) Get(ctx context.Context, url string) (r *http.Response, err error) { ctx = trace.Enter(ctx, "HTTP") if maximum := c.MaximumInFlight; maximum != 0 { defer atomic.AddInt64(&c.inflight, -1) // too many in-flight? if n := atomic.AddInt64(&c.inflight, 1); n >= maximum { trace.Leave(ctx, "Errors.TooManyInFlight") return } } r, err = defaults.Client(c.Client).Get(url) if err != nil { atomic.AddInt64(&c.count, -1) trace.Error(ctx, "Errors.Fail", err) return } if r.StatusCode != http.StatusOK && r.StatusCode != http.StatusNoContent { atomic.AddInt64(&c.count, -1) trace.Error(ctx, "Errors.Status", fmt.Errorf("%s", r.Status)) return } trace.Leave(ctx, "Check") return }
// Process sends a request to query the /check endpoint. // The response is attached to the request. func (c *Client) Process(ctx context.Context, r rtb.Request) (err error) { ctx = trace.Enter(ctx, "Forensiq") // ready? if !c.HTTP.Ready() { err = ErrUnavailable trace.Error(ctx, "Errors.Ready", err) return } var args url.Values // fast path in case the request is already prepared if p, ok := r.(*request); ok { args = p.values } else { args, err = c.prepare(r) if err != nil { trace.Error(ctx, "Errors.Prepare", err) return } } qs := args.Encode() // look into the memory cache or perform the query value := c.fromCache(qs) if value != nil { trace.Count(ctx, "CacheHit", 1) } else { value, err = c.query(ctx, qs) if err != nil { trace.Error(ctx, "Errors.Request", err) return } c.intoCache(qs, value) } // hold the result r.Attach(defaults.String(c.Target, "forensiq"), value) trace.Leave(ctx, "Check") return }
func (e *Exchange) forensiqRiskScore(ctx context.Context, r rtb.Request) (value float64) { ctx = trace.Enter(ctx, "Forensiq") result, err := e.Client.NewRequest(r) if err != nil { trace.Error(ctx, "Error.NewRequest", err) return } p := result.(rtb.Processor) if err := p.Process(ctx, result); err != nil { trace.Error(ctx, "Error.Process", err) return } resp := result.Component("forensiq") if resp == nil { trace.Error(ctx, "Error.NoResponse", err) return } extractor, ok := resp.(rtb.Extractor) if !ok { trace.Error(ctx, "Error.NoExtractor", err) return } score := extractor.Extract("riskScore") if score == nil { trace.Leave(ctx, "Error.NoRiskScore") return } value, ok = score.(float64) if !ok { trace.Leave(ctx, "Error.NoRiskScoreValue") return } trace.Leave(ctx, "Requested") return }
func (e *NoExchange) ServeHTTP(ctx context.Context, w http.ResponseWriter, r *http.Request) { ctx = trace.Enter(ctx, "Request") vast := func() { value := []byte(`<VAST xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="vast.xsd" version="2.0"/>`) w.Header().Set("Content-Type", "application/xml") w.Header().Set("Content-Length", fmt.Sprintf("%d", len(value))) w.Write(value) } u := e.URL if list := strings.Split(u, ","); len(list) > 1 { n := atomic.AddInt64(&e.random, 1) u = list[n%int64(len(list))] } req, err := http.NewRequest("GET", u+r.URL.Path, nil) if err != nil { trace.Error(ctx, "Errors.Request", err) vast() return } if _, err := url.QueryUnescape(r.URL.RawQuery); err != nil { log.Println(r.URL.RawQuery) trace.Error(ctx, "Errors.BadQueryString", err) vast() return } values := r.URL.Query() for k, v := range values { p, ok := parameters[k] if !ok || len(v) != 1 || v[0] == "" { delete(values, k) continue } if _, err := p.Parse(v[0]); err != nil { delete(values, k) continue } } values.Set("id", NewUUID()) req.URL.RawQuery = values.Encode() n := atomic.AddInt64(&e.inflight, 1) if n > 32 { atomic.AddInt64(&e.inflight, -1) trace.Leave(ctx, "Errors.TooManyInFlight") vast() return } result := make(chan func() (*http.Response, error), 1) go func() { c := e.Client if nil == c { c = client } resp, err := c.Do(req) result <- func() (*http.Response, error) { return resp, err } atomic.AddInt64(&e.inflight, -1) }() select { case <-time.After(50 * time.Millisecond): trace.Leave(ctx, "Errors.Timeout") vast() go func() { f := <-result resp, err := f() if err != nil { //trace.Error(ctx, "Errors.TimeoutFailed", err) return } io.Copy(ioutil.Discard, resp.Body) resp.Body.Close() }() return case f := <-result: resp, err := f() if err != nil { trace.Error(ctx, "Errors.Failed", err) vast() return } h := w.Header() for k, v := range resp.Header { h[k] = v } if _, err := io.Copy(w, resp.Body); err != nil { trace.Error(ctx, "Errors.Copy", err) vast() return } resp.Body.Close() } trace.Leave(ctx, "Done") return }
func (e *Exchange) ServeHTTP(ctx context.Context, w http.ResponseWriter, r *http.Request) { ctx = trace.Enter(ctx, "OpenRTB") body, err := ioutil.ReadAll(r.Body) if err != nil { trace.Error(ctx, "Errors.Read", err) w.WriteHeader(http.StatusNoContent) return } value := &jq.Value{} if err := value.Unmarshal(body); err != nil { trace.Error(ctx, "Errors.Unmarshal", err) w.WriteHeader(http.StatusNoContent) return } p := value.NewQuery() impid, err := p.String("imp", "@0", "id") if err != nil { trace.Error(ctx, "Errors.MissingImpressionID", err) w.WriteHeader(http.StatusNoContent) return } q := value.NewQuery() if err := q.FindObject("imp", "@0", "ext", "creative-ids"); err != nil { trace.Error(ctx, "Errors.MissingIDs", err) w.WriteHeader(http.StatusNoContent) return } allowed := make(map[string][]string) if q.Down() { for { if q.Down() { list := make([]string, 0, q.Count()) for { list = append(list, q.Value()) if q.Next() == false { break } } q.Up() allowed[q.Key()] = list } if q.Next() == false { break } } } if len(allowed) == 0 { trace.Leave(ctx, "NoAllowedBidders") w.WriteHeader(http.StatusNoContent) return } ids := make([]string, 0, len(allowed)) for i := range allowed { ids = append(ids, i) } bidders := e.Bidders.Bidders(ids) bestPrice := "" bestPriority := "" best := -1 for i := range bidders { if bidders[i] == nil { continue } price, priority := bidders[i].Bid(ctx) if price == "" { continue } if best != -1 { if len(priority) < len(bestPriority) { continue } if len(priority) == len(bestPriority) && priority < bestPriority { continue } if priority == bestPriority { if len(price) < len(bestPrice) { continue } if len(price) == len(bestPrice) && price < bestPrice { continue } } } bestPrice = price bestPriority = priority best = i } if best == -1 { trace.Leave(ctx, "NoAllowedBidders") w.WriteHeader(http.StatusNoContent) return } text := `{"seatbid":[{"bid":[{"impid":"%s","price":%f,"crid":"%s","ext":{"priority":%s,"external-id":%s}}]}]}` cpm := 0.0 if money, err := strconv.Atoi(strings.TrimSuffix(bestPrice, "USD/1M")); err != nil { trace.Error(ctx, "Errors.Price", err) w.WriteHeader(http.StatusNoContent) return } else { cpm = float64(money) / 1000.0 } cid := ids[best] augmenters := bidders[best].Augmenters if augmenters != nil { if f := augmenters.Forensiq; e.Client != nil && f != nil { r := &rtb.Components{} r.Attach("fields", value) score := e.forensiqRiskScore(ctx, r) trace.Record(ctx, "Score", score) if score > f.Configuration.RiskScore { trace.Leave(ctx, "ForensiqRiskScore") w.WriteHeader(http.StatusNoContent) return } } } crid := allowed[cid][0] b := string(body) if strings.Contains(b, cid) == false { log.Println(b) log.Println(allowed, ids, cid, crid, best) } w.Header().Set("Content-Type", "application/json") if _, err := fmt.Fprintf(w, text, impid, cpm, crid, bestPriority, cid); err != nil { trace.Error(ctx, "Errors.Response", err) return } //jsons.Put(value) trace.Leave(ctx, "Responded") }