package main import ( "bytes" "container/heap" "io/ioutil" "log" "net" "net/http" "net/http/httptest" "os" "sync" "testing" "time" . "github.com/smartystreets/goconvey/convey" ) func NullLogger() *log.Logger { logger := log.New(os.Stdout, "", 0) logger.SetOutput(ioutil.Discard) return logger } var promOnce sync.Once func TestBroker(t *testing.T) { Convey("Context", t, func() { ctx := NewBrokerContext(NullLogger()) Convey("Adds Snowflake", func() { So(ctx.snowflakes.Len(), ShouldEqual, 0) So(len(ctx.idToSnowflake), ShouldEqual, 0) ctx.AddSnowflake("foo", "", NATUnrestricted) So(ctx.snowflakes.Len(), ShouldEqual, 1) So(len(ctx.idToSnowflake), ShouldEqual, 1) }) Convey("Broker goroutine matches clients with proxies", func() { p := new(ProxyPoll) p.id = "test" p.natType = "unrestricted" p.offerChannel = make(chan *ClientOffer) go func(ctx *BrokerContext) { ctx.proxyPolls <- p close(ctx.proxyPolls) }(ctx) ctx.Broker() So(ctx.snowflakes.Len(), ShouldEqual, 1) snowflake := heap.Pop(ctx.snowflakes).(*Snowflake) snowflake.offerChannel <- &ClientOffer{sdp: []byte("test offer")} offer := <-p.offerChannel So(ctx.idToSnowflake["test"], ShouldNotBeNil) So(offer.sdp, ShouldResemble, []byte("test offer")) So(ctx.snowflakes.Len(), ShouldEqual, 0) }) Convey("Request an offer from the Snowflake Heap", func() { done := make(chan *ClientOffer) go func() { offer := ctx.RequestOffer("test", "", NATUnrestricted) done <- offer }() request := <-ctx.proxyPolls request.offerChannel <- &ClientOffer{sdp: []byte("test offer")} offer := <-done So(offer.sdp, ShouldResemble, []byte("test offer")) }) Convey("Responds to client offers...", func() { w := httptest.NewRecorder() data := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unknown\"}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) Convey("with error when no snowflakes are available.", func() { clientOffers(ctx, w, r) So(w.Code, ShouldEqual, http.StatusOK) So(w.Body.String(), ShouldEqual, `{"error":"no snowflake proxies currently available"}`) }) Convey("with a proxy answer if available.", func() { done := make(chan bool) // Prepare a fake proxy to respond with. snowflake := ctx.AddSnowflake("fake", "", NATUnrestricted) go func() { clientOffers(ctx, w, r) done <- true }() offer := <-snowflake.offerChannel So(offer.sdp, ShouldResemble, []byte("fake")) snowflake.answerChannel <- "fake answer" <-done So(w.Body.String(), ShouldEqual, `{"answer":"fake answer"}`) So(w.Code, ShouldEqual, http.StatusOK) }) Convey("Times out when no proxy responds.", func() { if testing.Short() { return } done := make(chan bool) snowflake := ctx.AddSnowflake("fake", "", NATUnrestricted) go func() { clientOffers(ctx, w, r) // Takes a few seconds here... done <- true }() offer := <-snowflake.offerChannel So(offer.sdp, ShouldResemble, []byte("fake")) <-done So(w.Code, ShouldEqual, http.StatusOK) So(w.Body.String(), ShouldEqual, `{"error":"timed out waiting for answer!"}`) }) }) Convey("Responds to legacy client offers...", func() { w := httptest.NewRecorder() data := bytes.NewReader([]byte("{test}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) r.Header.Set("Snowflake-NAT-TYPE", "restricted") Convey("with 503 when no snowflakes are available.", func() { clientOffers(ctx, w, r) So(w.Code, ShouldEqual, http.StatusServiceUnavailable) So(w.Body.String(), ShouldEqual, "") }) Convey("with a proxy answer if available.", func() { done := make(chan bool) // Prepare a fake proxy to respond with. snowflake := ctx.AddSnowflake("fake", "", NATUnrestricted) go func() { clientOffers(ctx, w, r) done <- true }() offer := <-snowflake.offerChannel So(offer.sdp, ShouldResemble, []byte("{test}")) snowflake.answerChannel <- "fake answer" <-done So(w.Body.String(), ShouldEqual, "fake answer") So(w.Code, ShouldEqual, http.StatusOK) }) Convey("Times out when no proxy responds.", func() { if testing.Short() { return } done := make(chan bool) snowflake := ctx.AddSnowflake("fake", "", NATUnrestricted) go func() { clientOffers(ctx, w, r) // Takes a few seconds here... done <- true }() offer := <-snowflake.offerChannel So(offer.sdp, ShouldResemble, []byte("{test}")) <-done So(w.Code, ShouldEqual, http.StatusGatewayTimeout) }) }) Convey("Responds to proxy polls...", func() { done := make(chan bool) w := httptest.NewRecorder() data := bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0"}`)) r, err := http.NewRequest("POST", "snowflake.broker/proxy", data) So(err, ShouldBeNil) Convey("with a client offer if available.", func() { go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) // Pass a fake client offer to this proxy p := <-ctx.proxyPolls So(p.id, ShouldEqual, "ymbcCMto7KHNGYlp") p.offerChannel <- &ClientOffer{sdp: []byte("fake offer")} <-done So(w.Code, ShouldEqual, http.StatusOK) So(w.Body.String(), ShouldEqual, `{"Status":"client match","Offer":"fake offer","NAT":""}`) }) Convey("return empty 200 OK when no client offer is available.", func() { go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p := <-ctx.proxyPolls So(p.id, ShouldEqual, "ymbcCMto7KHNGYlp") // nil means timeout p.offerChannel <- nil <-done So(w.Body.String(), ShouldEqual, `{"Status":"no match","Offer":"","NAT":""}`) So(w.Code, ShouldEqual, http.StatusOK) }) }) Convey("Responds to proxy answers...", func() { s := ctx.AddSnowflake("test", "", NATUnrestricted) w := httptest.NewRecorder() data := bytes.NewReader([]byte(`{"Version":"1.0","Sid":"test","Answer":"test"}`)) Convey("by passing to the client if valid.", func() { r, err := http.NewRequest("POST", "snowflake.broker/answer", data) So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyAnswers(ctx, w, r) }(ctx) answer := <-s.answerChannel So(w.Code, ShouldEqual, http.StatusOK) So(answer, ShouldResemble, "test") }) Convey("with client gone status if the proxy is not recognized", func() { data = bytes.NewReader([]byte(`{"Version":"1.0","Sid":"invalid","Answer":"test"}`)) r, err := http.NewRequest("POST", "snowflake.broker/answer", data) So(err, ShouldBeNil) proxyAnswers(ctx, w, r) So(w.Code, ShouldEqual, http.StatusOK) b, err := ioutil.ReadAll(w.Body) So(err, ShouldBeNil) So(b, ShouldResemble, []byte(`{"Status":"client gone"}`)) }) Convey("with error if the proxy gives invalid answer", func() { data := bytes.NewReader(nil) r, err := http.NewRequest("POST", "snowflake.broker/answer", data) So(err, ShouldBeNil) proxyAnswers(ctx, w, r) So(w.Code, ShouldEqual, http.StatusBadRequest) }) Convey("with error if the proxy writes too much data", func() { data := bytes.NewReader(make([]byte, 100001)) r, err := http.NewRequest("POST", "snowflake.broker/answer", data) So(err, ShouldBeNil) proxyAnswers(ctx, w, r) So(w.Code, ShouldEqual, http.StatusBadRequest) }) }) }) Convey("End-To-End", t, func() { ctx := NewBrokerContext(NullLogger()) Convey("Check for client/proxy data race", func() { proxy_done := make(chan bool) client_done := make(chan bool) go ctx.Broker() // Make proxy poll wp := httptest.NewRecorder() datap := bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0"}`)) rp, err := http.NewRequest("POST", "snowflake.broker/proxy", datap) So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, wp, rp) proxy_done <- true }(ctx) // Client offer wc := httptest.NewRecorder() datac := bytes.NewReader([]byte("test")) rc, err := http.NewRequest("POST", "snowflake.broker/client", datac) So(err, ShouldBeNil) go func() { clientOffers(ctx, wc, rc) client_done <- true }() <-proxy_done So(wp.Code, ShouldEqual, http.StatusOK) // Proxy answers wp = httptest.NewRecorder() datap = bytes.NewReader([]byte(`{"Version":"1.0","Sid":"ymbcCMto7KHNGYlp","Answer":"test"}`)) rp, err = http.NewRequest("POST", "snowflake.broker/answer", datap) So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyAnswers(ctx, wp, rp) proxy_done <- true }(ctx) <-proxy_done <-client_done }) Convey("Ensure correct snowflake brokering", func() { done := make(chan bool) polled := make(chan bool) // Proxy polls with its ID first... dataP := bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0"}`)) wP := httptest.NewRecorder() rP, err := http.NewRequest("POST", "snowflake.broker/proxy", dataP) So(err, ShouldBeNil) go func() { proxyPolls(ctx, wP, rP) polled <- true }() // Manually do the Broker goroutine action here for full control. p := <-ctx.proxyPolls So(p.id, ShouldEqual, "ymbcCMto7KHNGYlp") s := ctx.AddSnowflake(p.id, "", NATUnrestricted) go func() { offer := <-s.offerChannel p.offerChannel <- offer }() So(ctx.idToSnowflake["ymbcCMto7KHNGYlp"], ShouldNotBeNil) // Client request blocks until proxy answer arrives. dataC := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unknown\"}")) wC := httptest.NewRecorder() rC, err := http.NewRequest("POST", "snowflake.broker/client", dataC) So(err, ShouldBeNil) go func() { clientOffers(ctx, wC, rC) done <- true }() <-polled So(wP.Code, ShouldEqual, http.StatusOK) So(wP.Body.String(), ShouldResemble, `{"Status":"client match","Offer":"fake","NAT":"unknown"}`) So(ctx.idToSnowflake["ymbcCMto7KHNGYlp"], ShouldNotBeNil) // Follow up with the answer request afterwards wA := httptest.NewRecorder() dataA := bytes.NewReader([]byte(`{"Version":"1.0","Sid":"ymbcCMto7KHNGYlp","Answer":"test"}`)) rA, err := http.NewRequest("POST", "snowflake.broker/answer", dataA) So(err, ShouldBeNil) proxyAnswers(ctx, wA, rA) So(wA.Code, ShouldEqual, http.StatusOK) <-done So(wC.Code, ShouldEqual, http.StatusOK) So(wC.Body.String(), ShouldEqual, `{"answer":"test"}`) }) }) } func TestSnowflakeHeap(t *testing.T) { Convey("SnowflakeHeap", t, func() { h := new(SnowflakeHeap) heap.Init(h) So(h.Len(), ShouldEqual, 0) s1 := new(Snowflake) s2 := new(Snowflake) s3 := new(Snowflake) s4 := new(Snowflake) s1.clients = 4 s2.clients = 5 s3.clients = 3 s4.clients = 1 heap.Push(h, s1) So(h.Len(), ShouldEqual, 1) heap.Push(h, s2) So(h.Len(), ShouldEqual, 2) heap.Push(h, s3) So(h.Len(), ShouldEqual, 3) heap.Push(h, s4) So(h.Len(), ShouldEqual, 4) heap.Remove(h, 0) So(h.Len(), ShouldEqual, 3) r := heap.Pop(h).(*Snowflake) So(h.Len(), ShouldEqual, 2) So(r.clients, ShouldEqual, 3) So(r.index, ShouldEqual, -1) r = heap.Pop(h).(*Snowflake) So(h.Len(), ShouldEqual, 1) So(r.clients, ShouldEqual, 4) So(r.index, ShouldEqual, -1) r = heap.Pop(h).(*Snowflake) So(h.Len(), ShouldEqual, 0) So(r.clients, ShouldEqual, 5) So(r.index, ShouldEqual, -1) }) } func TestGeoip(t *testing.T) { Convey("Geoip", t, func() { tv4 := new(GeoIPv4Table) err := GeoIPLoadFile(tv4, "test_geoip") So(err, ShouldEqual, nil) tv6 := new(GeoIPv6Table) err = GeoIPLoadFile(tv6, "test_geoip6") So(err, ShouldEqual, nil) Convey("IPv4 Country Mapping Tests", func() { for _, test := range []struct { addr, cc string ok bool }{ { "129.97.208.23", //uwaterloo "CA", true, }, { "127.0.0.1", "", false, }, { "255.255.255.255", "", false, }, { "0.0.0.0", "", false, }, { "223.252.127.255", //test high end of range "JP", true, }, { "223.252.127.255", //test low end of range "JP", true, }, } { country, ok := GetCountryByAddr(tv4, net.ParseIP(test.addr)) So(country, ShouldEqual, test.cc) So(ok, ShouldResemble, test.ok) } }) Convey("IPv6 Country Mapping Tests", func() { for _, test := range []struct { addr, cc string ok bool }{ { "2620:101:f000:0:250:56ff:fe80:168e", //uwaterloo "CA", true, }, { "fd00:0:0:0:0:0:0:1", "", false, }, { "0:0:0:0:0:0:0:0", "", false, }, { "ffff:ffff:ffff:ffff:ffff:ffff:ffff:ffff", "", false, }, { "2a07:2e47:ffff:ffff:ffff:ffff:ffff:ffff", //test high end of range "FR", true, }, { "2a07:2e40::", //test low end of range "FR", true, }, } { country, ok := GetCountryByAddr(tv6, net.ParseIP(test.addr)) So(country, ShouldEqual, test.cc) So(ok, ShouldResemble, test.ok) } }) // Make sure things behave properly if geoip file fails to load ctx := NewBrokerContext(NullLogger()) if err := ctx.metrics.LoadGeoipDatabases("invalid_filename", "invalid_filename6"); err != nil { log.Printf("loading geo ip databases returned error: %v", err) } ctx.metrics.UpdateCountryStats("127.0.0.1", "", NATUnrestricted) So(ctx.metrics.tablev4, ShouldEqual, nil) }) } func TestMetrics(t *testing.T) { Convey("Test metrics...", t, func() { done := make(chan bool) buf := new(bytes.Buffer) ctx := NewBrokerContext(log.New(buf, "", 0)) err := ctx.metrics.LoadGeoipDatabases("test_geoip", "test_geoip6") So(err, ShouldEqual, nil) //Test addition of proxy polls Convey("for proxy polls", func() { w := httptest.NewRecorder() data := bytes.NewReader([]byte("{\"Sid\":\"ymbcCMto7KHNGYlp\",\"Version\":\"1.0\"}")) r, err := http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p := <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done w = httptest.NewRecorder() data = bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0","Type":"standalone"}`)) r, err = http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p = <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done w = httptest.NewRecorder() data = bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0","Type":"badge"}`)) r, err = http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p = <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done w = httptest.NewRecorder() data = bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0","Type":"webext"}`)) r, err = http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p = <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done ctx.metrics.printMetrics() So(buf.String(), ShouldResemble, "snowflake-stats-end "+time.Now().UTC().Format("2006-01-02 15:04:05")+" (86400 s)\nsnowflake-ips CA=4\nsnowflake-ips-total 4\nsnowflake-ips-standalone 1\nsnowflake-ips-badge 1\nsnowflake-ips-webext 1\nsnowflake-idle-count 8\nclient-denied-count 0\nclient-restricted-denied-count 0\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 0\nsnowflake-ips-nat-restricted 0\nsnowflake-ips-nat-unrestricted 0\nsnowflake-ips-nat-unknown 1\n") }) //Test addition of client failures Convey("for no proxies available", func() { w := httptest.NewRecorder() data := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unknown\"}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 8\nclient-restricted-denied-count 8\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 0") // Test reset buf.Reset() ctx.metrics.zeroMetrics() ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "snowflake-ips \nsnowflake-ips-total 0\nsnowflake-ips-standalone 0\nsnowflake-ips-badge 0\nsnowflake-ips-webext 0\nsnowflake-idle-count 0\nclient-denied-count 0\nclient-restricted-denied-count 0\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 0\nsnowflake-ips-nat-restricted 0\nsnowflake-ips-nat-unrestricted 0\nsnowflake-ips-nat-unknown 0\n") }) //Test addition of client matches Convey("for client-proxy match", func() { w := httptest.NewRecorder() data := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unknown\"}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) // Prepare a fake proxy to respond with. snowflake := ctx.AddSnowflake("fake", "", NATUnrestricted) go func() { clientOffers(ctx, w, r) done <- true }() offer := <-snowflake.offerChannel So(offer.sdp, ShouldResemble, []byte("fake")) snowflake.answerChannel <- "fake answer" <-done ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 0\nclient-restricted-denied-count 0\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 8") }) //Test rounding boundary Convey("binning boundary", func() { w := httptest.NewRecorder() data := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 8\nclient-restricted-denied-count 8\nclient-unrestricted-denied-count 0\n") w = httptest.NewRecorder() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) buf.Reset() ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 16\nclient-restricted-denied-count 16\nclient-unrestricted-denied-count 0\n") }) //Test unique ip Convey("proxy counts by unique ip", func() { w := httptest.NewRecorder() data := bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0"}`)) r, err := http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p := <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done data = bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.0"}`)) r, err = http.NewRequest("POST", "snowflake.broker/proxy", data) if err != nil { log.Printf("unable to get NewRequest with error: %v", err) } r.RemoteAddr = "129.97.208.23:8888" //CA geoip go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p = <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "snowflake-ips CA=1\nsnowflake-ips-total 1") }) //Test NAT types Convey("proxy counts by NAT type", func() { w := httptest.NewRecorder() data := bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.2","Type":"unknown","NAT":"restricted"}`)) r, err := http.NewRequest("POST", "snowflake.broker/proxy", data) r.RemoteAddr = "129.97.208.23:8888" //CA geoip So(err, ShouldBeNil) go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p := <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "snowflake-ips-nat-restricted 1\nsnowflake-ips-nat-unrestricted 0\nsnowflake-ips-nat-unknown 0") data = bytes.NewReader([]byte(`{"Sid":"ymbcCMto7KHNGYlp","Version":"1.2","Type":"unknown","NAT":"unrestricted"}`)) r, err = http.NewRequest("POST", "snowflake.broker/proxy", data) if err != nil { log.Printf("unable to get NewRequest with error: %v", err) } r.RemoteAddr = "129.97.208.24:8888" //CA geoip go func(ctx *BrokerContext) { proxyPolls(ctx, w, r) done <- true }(ctx) p = <-ctx.proxyPolls //manually unblock poll p.offerChannel <- nil <-done ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "snowflake-ips-nat-restricted 1\nsnowflake-ips-nat-unrestricted 1\nsnowflake-ips-nat-unknown 0") }) //Test client failures by NAT type Convey("client failures by NAT type", func() { w := httptest.NewRecorder() data := bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"restricted\"}")) r, err := http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 8\nclient-restricted-denied-count 8\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 0") buf.Reset() ctx.metrics.zeroMetrics() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unrestricted\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 8\nclient-restricted-denied-count 0\nclient-unrestricted-denied-count 8\nclient-snowflake-match-count 0") buf.Reset() ctx.metrics.zeroMetrics() data = bytes.NewReader( []byte("1.0\n{\"offer\": \"fake\", \"nat\": \"unknown\"}")) r, err = http.NewRequest("POST", "snowflake.broker/client", data) So(err, ShouldBeNil) clientOffers(ctx, w, r) ctx.metrics.printMetrics() So(buf.String(), ShouldContainSubstring, "client-denied-count 8\nclient-restricted-denied-count 8\nclient-unrestricted-denied-count 0\nclient-snowflake-match-count 0") }) Convey("for country stats order", func() { stats := map[string]int{ "IT": 50, "FR": 200, "TZ": 100, "CN": 250, "RU": 150, "CA": 1, "BE": 1, "PH": 1, } ctx.metrics.countryStats.counts = stats So(ctx.metrics.countryStats.Display(), ShouldEqual, "CN=250,FR=200,RU=150,TZ=100,IT=50,BE=1,CA=1,PH=1") }) }) }