Exemple #1
0
// Check if the revision field avoid data concurrency. Is better to fail than to store the
// wrong state
func domainConcurrency(domainDAO dao.DomainDAO) {
	domain := newDomain()

	// Create domain
	if err := domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Couldn't save domain in database", err)
	}

	domain1, err := domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Couldn't find created domain in database", err)
	}

	domain2, err := domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Couldn't find created domain in database", err)
	}

	if err := domainDAO.Save(&domain1); err != nil {
		utils.Fatalln("Couldn't save domain in database", err)
	}

	if err := domainDAO.Save(&domain2); err == nil {
		utils.Fatalln("Not controlling domain concurrency", nil)
	}

	// Remove domain
	if err := domainDAO.RemoveByFQDN(domain.FQDN); err != nil {
		utils.Fatalln("Error while trying to remove a domain", err)
	}
}
Exemple #2
0
func (i *Domain) Before(w http.ResponseWriter, r *http.Request) {
	domainDAO := dao.DomainDAO{
		Database: i.domainHandler.GetDatabase(),
	}

	domain, err := domainDAO.FindByFQDN(i.domainHandler.GetFQDN())

	// For PUT method if the domain does not exist yet thats alright because we will create
	// it
	if r.Method != "PUT" && err != nil {
		w.WriteHeader(http.StatusNotFound)
		return
	}

	i.domainHandler.SetDomain(domain)
}
Exemple #3
0
// Test all phases of the domain life cycle
func domainLifeCycle(domainDAO dao.DomainDAO) {
	domain := newDomain()

	// Create domain
	if err := domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Couldn't save domain in database", err)
	}

	// Search and compare created domain
	if domainRetrieved, err := domainDAO.FindByFQDN(domain.FQDN); err != nil {
		utils.Fatalln("Couldn't find created domain in database", err)

	} else if !utils.CompareDomain(domain, domainRetrieved) {
		utils.Fatalln("Domain created is being persisted wrongly", nil)
	}

	// Update domain
	domain.Owners = []model.Owner{}
	if err := domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Couldn't save domain in database", err)
	}

	// Search and compare updated domain
	if domainRetrieved, err := domainDAO.FindByFQDN(domain.FQDN); err != nil {
		utils.Fatalln("Couldn't find updated domain in database", err)

	} else if !utils.CompareDomain(domain, domainRetrieved) {
		utils.Fatalln("Domain updated is being persisted wrongly", nil)
	}

	// Remove domain
	if err := domainDAO.RemoveByFQDN(domain.FQDN); err != nil {
		utils.Fatalln("Error while trying to remove a domain", err)
	}

	// Check removal
	if _, err := domainDAO.FindByFQDN(domain.FQDN); err == nil {
		utils.Fatalln("Domain was not removed from database", nil)
	}
}
Exemple #4
0
func calculateDomainDAODurations(domainDAO dao.DomainDAO, numberOfItems int) (totalDuration, insertDuration,
	queryDuration, removeDuration time.Duration) {

	beginTimer := time.Now()
	sectionTimer := beginTimer

	// Build array to create many at once
	var domains []*model.Domain
	for i := 0; i < numberOfItems; i++ {
		domain := model.Domain{
			FQDN: fmt.Sprintf("test%d.com.br", i),
		}

		domains = append(domains, &domain)
	}

	errorInDomainsCreation := false
	domainResults := domainDAO.SaveMany(domains)

	// Check if there was any error while creating them
	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			errorInDomainsCreation = true
			utils.Errorln(fmt.Sprintf("Couldn't save domain %s in database during the performance test",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	if errorInDomainsCreation {
		utils.Fatalln("Due to errors in domain creation, the performance test will be aborted", nil)
	}

	insertDuration = time.Since(sectionTimer)
	sectionTimer = time.Now()

	// Try to find domains from different parts of the whole range to check indexes
	queryRanges := numberOfItems / 4
	fqdn1 := fmt.Sprintf("test%d.com.br", queryRanges)
	fqdn2 := fmt.Sprintf("test%d.com.br", queryRanges*2)
	fqdn3 := fmt.Sprintf("test%d.com.br", queryRanges*3)

	if _, err := domainDAO.FindByFQDN(fqdn1); err != nil {
		utils.Fatalln(fmt.Sprintf("Couldn't find domain %s in database during "+
			"the performance test", fqdn1), err)
	}

	if _, err := domainDAO.FindByFQDN(fqdn2); err != nil {
		utils.Fatalln(fmt.Sprintf("Couldn't find domain %s in database during "+
			"the performance test", fqdn2), err)
	}

	if _, err := domainDAO.FindByFQDN(fqdn3); err != nil {
		utils.Fatalln(fmt.Sprintf("Couldn't find domain %s in database during "+
			"the performance test", fqdn3), err)
	}

	queryDuration = time.Since(sectionTimer)
	sectionTimer = time.Now()

	errorInDomainsRemoval := false
	domainResults = domainDAO.RemoveMany(domains)

	// Check if there was any error while removing them
	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			errorInDomainsRemoval = true
			utils.Errorln(fmt.Sprintf("Error while trying to remove a domain %s during the performance test",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	if errorInDomainsRemoval {
		utils.Fatalln("Due to errors in domain removal, the performance test will be aborted", nil)
	}

	removeDuration = time.Since(sectionTimer)
	totalDuration = time.Since(beginTimer)

	return
}
Exemple #5
0
// Test all phases from a domain lyfe cycle, but now working with a group of domains
func domainsLifeCycle(domainDAO dao.DomainDAO) {
	domains := newDomains()

	// Create domains
	domainResults := domainDAO.SaveMany(domains)

	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			utils.Fatalln(fmt.Sprintf("Couldn't save domain %s in database",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	for _, domain := range domains {
		// Search and compare created domains
		if domainRetrieved, err := domainDAO.FindByFQDN(domain.FQDN); err != nil {
			utils.Fatalln(fmt.Sprintf("Couldn't find created domain %s in database", domain.FQDN), err)

		} else if !utils.CompareDomain(*domain, domainRetrieved) {
			utils.Fatalln(fmt.Sprintf("Domain %s created is being persisted wrongly", domain.FQDN), nil)
		}
	}

	// Update domains
	for _, domain := range domains {
		domain.Owners = []model.Owner{}
	}

	domainResults = domainDAO.SaveMany(domains)

	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			utils.Fatalln(fmt.Sprintf("Couldn't update domain %s in database",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	for _, domain := range domains {
		// Search and compare updated domains
		if domainRetrieved, err := domainDAO.FindByFQDN(domain.FQDN); err != nil {
			utils.Fatalln(fmt.Sprintf("Couldn't find updated domain %s in database", domain.FQDN), err)

		} else if !utils.CompareDomain(*domain, domainRetrieved) {
			utils.Fatalln(fmt.Sprintf("Domain %s updated in being persisted wrongly", domain.FQDN), nil)
		}
	}

	// Check if find all really return all domains
	allDomainsChannel, err := domainDAO.FindAllAsync()
	if err != nil {
		utils.Fatalln("Error while retrieving all domains from database", err)
	}

	var allDomains []model.Domain
	for {
		domainRetrieved := <-allDomainsChannel
		if domainRetrieved.Error != nil {
			utils.Fatalln("Error while retrieving all domains from database", err)
		} else if domainRetrieved.Domain == nil {
			break
		}

		allDomains = append(allDomains, *domainRetrieved.Domain)
	}

	if len(allDomains) != len(domains) {
		utils.Fatalln(fmt.Sprintf("FindAll method is not returning all domains we expected %d but got %d",
			len(domains), len(allDomains)), nil)
	}

	// Detected a problem in FindAsync method on 2014-01-17 where we were returning the same
	// object many times because we were reusing the same pointer. For that reason we are
	// going to add a test to check if the items returned are the same set of the inserted
	// ones
	for _, domain := range domains {
		found := false
		for _, domainRetrieved := range allDomains {
			if domainRetrieved.Id.Hex() == domain.Id.Hex() {
				found = true
				break
			}
		}

		if !found {
			utils.Fatalln("FindAll method is not returning all objects "+
				"that were inserted, apparently there are duplicated objects in the result set", nil)
		}
	}

	// Remove domains
	domainResults = domainDAO.RemoveMany(domains)

	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			utils.Fatalln(fmt.Sprintf("Error while trying to remove domain %s from database",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	for _, domain := range domains {
		// Check removals
		if _, err := domainDAO.FindByFQDN(domain.FQDN); err == nil {
			utils.Fatalln(fmt.Sprintf("Domain %s was not removed from database", domain.FQDN), nil)
		}
	}

	// Let's add and remove the domains again to test the remove all method

	domainResults = domainDAO.SaveMany(domains)
	for _, domainResult := range domainResults {
		if domainResult.Error != nil {
			utils.Fatalln(fmt.Sprintf("Couldn't save domain %s in database",
				domainResult.Domain.FQDN), domainResult.Error)
		}
	}

	if err := domainDAO.RemoveAll(); err != nil {
		utils.Fatalln("Couldn't remove all domains", err)
	}

	allDomainsChannel, err = domainDAO.FindAllAsync()
	if err != nil {
		utils.Fatalln("Error while retrieving all domains from database", err)
	}

	allDomains = []model.Domain{}
	for {
		domainRetrieved := <-allDomainsChannel
		if domainRetrieved.Error != nil {
			utils.Fatalln("Error while retrieving all domains from database", err)
		} else if domainRetrieved.Domain == nil {
			break
		}

		allDomains = append(allDomains, *domainRetrieved.Domain)
	}

	if len(allDomains) > 0 {
		utils.Fatalln("RemoveAll method is not removing the domains from the database", nil)
	}
}
func domainWithErrors(config ScanCollectorTestConfigFile, database *mgo.Database) {
	domainsToSave := make(chan *model.Domain, config.Scan.DomainsBufferSize)
	domainsToSave <- &model.Domain{
		FQDN: "br.",
		Nameservers: []model.Nameserver{
			{
				Host:       "ns1.br",
				IPv4:       net.ParseIP("127.0.0.1"),
				LastStatus: model.NameserverStatusTimeout,
			},
		},
		DSSet: []model.DS{
			{
				Keytag:     1234,
				Algorithm:  model.DSAlgorithmRSASHA1NSEC3,
				DigestType: model.DSDigestTypeSHA1,
				Digest:     "EAA0978F38879DB70A53F9FF1ACF21D046A98B5C",
				LastStatus: model.DSStatusExpiredSignature,
			},
		},
	}
	domainsToSave <- nil

	model.StartNewScan()
	runScan(config, database, domainsToSave)

	domainDAO := dao.DomainDAO{
		Database: database,
	}

	domain, err := domainDAO.FindByFQDN("br.")
	if err != nil {
		utils.Fatalln("Error loading domain with problems", err)
	}

	if len(domain.Nameservers) == 0 {
		utils.Fatalln("Error saving nameservers", nil)
	}

	if domain.Nameservers[0].LastStatus != model.NameserverStatusTimeout {
		utils.Fatalln("Error setting status in the nameserver", nil)
	}

	if len(domain.DSSet) == 0 {
		utils.Fatalln("Error saving the DS set", nil)
	}

	if domain.DSSet[0].LastStatus != model.DSStatusExpiredSignature {
		utils.Fatalln("Error setting status in the DS", nil)
	}

	if err := domainDAO.RemoveByFQDN("br."); err != nil {
		utils.Fatalln("Error removing test domain", err)
	}

	currentScan := model.GetCurrentScan()
	if currentScan.DomainsScanned != 1 || currentScan.DomainsWithDNSSECScanned != 1 {
		utils.Fatalln("Not counting domains for scan progress when there're errors", nil)
	}

	if currentScan.NameserverStatistics[model.NameserverStatusToString(model.NameserverStatusTimeout)] != 1 ||
		currentScan.DSStatistics[model.DSStatusToString(model.DSStatusExpiredSignature)] != 1 {
		utils.Fatalln("Not counting statistics properly when there're errors", nil)
	}
}
Exemple #7
0
func brDomainWithoutDNSSEC(domainDAO dao.DomainDAO) {
	domain := model.Domain{
		FQDN: "br.",
		Nameservers: []model.Nameserver{
			{
				Host: "a.dns.br.",
				IPv4: net.ParseIP("200.160.0.10"),
				IPv6: net.ParseIP("2001:12ff::10"),
			},
			{
				Host: "b.dns.br.",
				IPv4: net.ParseIP("200.189.41.10"),
			},
			{
				Host: "c.dns.br.",
				IPv4: net.ParseIP("200.192.233.10"),
			},
			{
				Host: "d.dns.br.",
				IPv4: net.ParseIP("200.219.154.10"),
				IPv6: net.ParseIP("2001:12f8:4::10"),
			},
			{
				Host: "f.dns.br.",
				IPv4: net.ParseIP("200.219.159.10"),
			},
		},

		// We are going to add the current DNSKEYs from .br but we are not going to check it.
		// This is because there's a strange case that when it found a problem on a DS (such
		// as bit SEP) it does not check other nameservers
		DSSet: []model.DS{
			{
				Keytag:     41674,
				Algorithm:  model.DSAlgorithmRSASHA1,
				DigestType: model.DSDigestTypeSHA256,
				Digest:     "6ec74914376b4f383ede3840088ae1d7bf13a19bfc51465cc2da57618889416a",
			},
			{
				Keytag:     57207,
				Algorithm:  model.DSAlgorithmRSASHA1,
				DigestType: model.DSDigestTypeSHA256,
				Digest:     "d46f059860d31a0965f925ac6ff97ed0975f33a14e2d01ec5ab5dd543624d307",
			},
		},
	}

	var err error

	if err = domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Error saving the domain", err)
	}

	scan.ScanDomains()

	domain, err = domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Didn't find scanned domain", err)
	}

	for _, nameserver := range domain.Nameservers {
		if nameserver.LastStatus != model.NameserverStatusOK {
			utils.Fatalln(fmt.Sprintf("Fail to validate a supposedly well configured nameserver '%s'. Found status: %s",
				nameserver.Host, model.NameserverStatusToString(nameserver.LastStatus)), nil)
		}
	}

	if err := domainDAO.RemoveByFQDN(domain.FQDN); err != nil {
		utils.Fatalln(fmt.Sprintf("Error removing domain %s", domain.FQDN), err)
	}
}
Exemple #8
0
func domainWithNoErrors(domainDAO dao.DomainDAO) {
	domain, dnskey, rrsig, lastCheckAt, lastOKAt := generateSignAndSaveDomain("br.", domainDAO)

	dns.HandleFunc("br.", func(w dns.ResponseWriter, dnsRequestMessage *dns.Msg) {
		defer w.Close()

		if dnsRequestMessage.Question[0].Qtype == dns.TypeSOA {
			dnsResponseMessage := &dns.Msg{
				MsgHdr: dns.MsgHdr{
					Authoritative: true,
				},
				Question: dnsRequestMessage.Question,
				Answer: []dns.RR{
					&dns.SOA{
						Hdr: dns.RR_Header{
							Name:   "br.",
							Rrtype: dns.TypeSOA,
							Class:  dns.ClassINET,
							Ttl:    86400,
						},
						Ns:      "ns1.br.",
						Mbox:    "rafael.justo.net.br.",
						Serial:  2013112600,
						Refresh: 86400,
						Retry:   86400,
						Expire:  86400,
						Minttl:  900,
					},
				},
			}
			dnsResponseMessage.SetReply(dnsRequestMessage)
			w.WriteMsg(dnsResponseMessage)

		} else if dnsRequestMessage.Question[0].Qtype == dns.TypeDNSKEY {
			dnsResponseMessage := &dns.Msg{
				MsgHdr: dns.MsgHdr{
					Authoritative: true,
				},
				Question: dnsRequestMessage.Question,
				Answer: []dns.RR{
					dnskey,
					rrsig,
				},
			}

			dnsResponseMessage.SetReply(dnsRequestMessage)
			w.WriteMsg(dnsResponseMessage)
		}
	})

	scan.ScanDomains()

	domain, err := domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Didn't find scanned domain", err)
	}

	for _, nameserver := range domain.Nameservers {
		if nameserver.LastStatus != model.NameserverStatusOK {
			utils.Fatalln(fmt.Sprintf("Fail to validate a supposedly well configured nameserver '%s'. Found status: %s",
				nameserver.Host, model.NameserverStatusToString(nameserver.LastStatus)), nil)
		}

		if nameserver.LastCheckAt.Before(lastCheckAt) ||
			nameserver.LastCheckAt.Equal(lastCheckAt) {
			utils.Fatalln(fmt.Sprintf("Last check date was not updated in nameserver '%s'",
				nameserver.Host), nil)
		}

		if nameserver.LastOKAt.Before(lastOKAt) || nameserver.LastOKAt.Equal(lastOKAt) {
			utils.Fatalln(fmt.Sprintf("Last OK date was not updated in nameserver '%s'",
				nameserver.Host), nil)
		}
	}

	for _, ds := range domain.DSSet {
		if ds.LastStatus != model.DSStatusOK {
			utils.Fatalln(fmt.Sprintf("Fail to validate a supposedly well configured DS %d. "+
				"Found status: %s", ds.Keytag, model.DSStatusToString(ds.LastStatus)), nil)
		}

		if ds.LastCheckAt.Before(lastCheckAt) || ds.LastCheckAt.Equal(lastCheckAt) {
			utils.Fatalln(fmt.Sprintf("Last check date was not updated in DS %d",
				ds.Keytag), nil)
		}

		if ds.LastOKAt.Before(lastOKAt) || ds.LastOKAt.Equal(lastOKAt) {
			utils.Fatalln(fmt.Sprintf("Last OK date was not updated in DS %d",
				ds.Keytag), nil)
		}
	}

	if err := domainDAO.RemoveByFQDN(domain.FQDN); err != nil {
		utils.Fatalln(fmt.Sprintf("Error removing domain %s", domain.FQDN), err)
	}
}
// Put is responsable for checking a domain object on-the-fly without persisting in
// database, useful for pre-registration validations in the registry
func (h *DomainVerificationHandler) Put(w http.ResponseWriter, r *http.Request) {
	// We need to set the FQDN in the domain request object because it is sent only in the
	// URI and not in the domain request body to avoid information redudancy
	h.Request.FQDN = h.GetFQDN()

	var domain model.Domain
	var err error

	if domain, err = protocol.Merge(domain, h.Request); err != nil {
		messageId := ""

		switch err {
		case protocol.ErrInvalidDNSKEY:
			messageId = "invalid-dnskey"
		case protocol.ErrInvalidDSAlgorithm:
			messageId = "invalid-ds-algorithm"
		case protocol.ErrInvalidDSDigestType:
			messageId = "invalid-ds-digest-type"
		case protocol.ErrInvalidIP:
			messageId = "invalid-ip"
		case protocol.ErrInvalidLanguage:
			messageId = "invalid-language"
		}

		if len(messageId) == 0 {
			log.Println("Error while merging domain objects for domain verification "+
				"operation. Details:", err)
			w.WriteHeader(http.StatusInternalServerError)

		} else {
			if err := h.MessageResponse(messageId, r.URL.RequestURI()); err == nil {
				w.WriteHeader(http.StatusBadRequest)

			} else {
				log.Println("Error while writing response. Details:", err)
				w.WriteHeader(http.StatusInternalServerError)
			}
		}
		return
	}

	scan.ScanDomain(&domain)

	// As we alredy did the scan, if the domain is registered in the system, we update it for this
	// results. This also gives a more intuitive design for when the user wants to force a check a
	// specific domain in the Shelter system
	domainDAO := dao.DomainDAO{
		Database: h.GetDatabase(),
	}

	if dbDomain, err := domainDAO.FindByFQDN(domain.FQDN); err == nil {
		update := true

		// Check if we have the same nameservers, and if so update the last status
		if len(dbDomain.Nameservers) == len(domain.Nameservers) {
			for i := range dbDomain.Nameservers {
				dbNameserver := dbDomain.Nameservers[i]
				nameserver := domain.Nameservers[i]

				if dbNameserver.Host == nameserver.Host &&
					dbNameserver.IPv4.Equal(nameserver.IPv4) &&
					dbNameserver.IPv6.Equal(nameserver.IPv6) {

					dbDomain.Nameservers[i].ChangeStatus(nameserver.LastStatus)

				} else {
					update = false
					break
				}
			}

		} else {
			update = false
		}

		// Check if we have the same DS set, and if so update the last status
		if len(dbDomain.DSSet) == len(domain.DSSet) {
			for i := range dbDomain.DSSet {
				dbDS := dbDomain.DSSet[i]
				ds := domain.DSSet[i]

				if dbDS.Keytag == ds.Keytag &&
					dbDS.Algorithm == ds.Algorithm &&
					dbDS.DigestType == ds.DigestType &&
					dbDS.Digest == ds.Digest {

					dbDomain.DSSet[i].ChangeStatus(ds.LastStatus)

				} else {
					update = false
					break
				}
			}

		} else {
			update = false
		}

		if update {
			// We don't care about errors resulted here, because the main idea of this service is to scan
			// a domaion, not persist the results
			domainDAO.Save(&dbDomain)
		}
	}

	w.WriteHeader(http.StatusOK)
	domainResponse := protocol.ToDomainResponse(domain, false)
	h.Response = &domainResponse
}
func scanPersistedDomain(domainDAO dao.DomainDAO) {
	dns.HandleFunc("example.com.br.", func(w dns.ResponseWriter, dnsRequestMessage *dns.Msg) {
		defer w.Close()

		dnsResponseMessage := &dns.Msg{
			MsgHdr: dns.MsgHdr{
				Authoritative: true,
			},
			Question: dnsRequestMessage.Question,
			Answer: []dns.RR{
				&dns.SOA{
					Hdr: dns.RR_Header{
						Name:   "example.com.br.",
						Rrtype: dns.TypeSOA,
						Class:  dns.ClassINET,
						Ttl:    86400,
					},
					Ns:      "ns1.example.com.br.",
					Mbox:    "rafael.justo.net.br.",
					Serial:  2013112600,
					Refresh: 86400,
					Retry:   86400,
					Expire:  86400,
					Minttl:  900,
				},
			},
		}

		dnsResponseMessage.SetReply(dnsRequestMessage)
		w.WriteMsg(dnsResponseMessage)
	})

	mux := handy.NewHandy()

	h := new(handler.DomainVerificationHandler)
	mux.Handle("/domain/{fqdn}/verification", func() handy.Handler {
		return h
	})

	requestContent := `{
      "Nameservers": [
        { "Host": "ns1.example.com.br.", "ipv4": "127.0.0.1" },
        { "Host": "ns2.example.com.br.", "ipv4": "127.0.0.1" }
      ]
    }`

	domain := model.Domain{
		FQDN: "example.com.br.",
		Nameservers: []model.Nameserver{
			{
				Host: "ns1.example.com.br.",
				IPv4: net.ParseIP("127.0.0.1"),
			},
			{
				Host: "ns2.example.com.br.",
				IPv4: net.ParseIP("127.0.0.1"),
			},
		},
	}

	if err := domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Error saving domain", err)
	}

	r, err := http.NewRequest("PUT", "/domain/example.com.br./verification",
		strings.NewReader(requestContent))
	if err != nil {
		utils.Fatalln("Error creating the HTTP request", err)
	}
	utils.BuildHTTPHeader(r, []byte(requestContent))

	w := httptest.NewRecorder()
	mux.ServeHTTP(w, r)

	responseContent, err := ioutil.ReadAll(w.Body)
	if err != nil {
		utils.Fatalln("Error reading response body", err)
	}

	if w.Code != http.StatusOK {
		utils.Fatalln(fmt.Sprintf("Error scanning domain. "+
			"Expected %d and got %d", http.StatusOK, w.Code),
			errors.New(string(responseContent)))
	}

	domain, err = domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Error retrieving the domain", err)
	}

	if len(domain.Nameservers) != 2 ||
		domain.Nameservers[0].LastStatus != model.NameserverStatusOK ||
		domain.Nameservers[1].LastStatus != model.NameserverStatusOK {

		utils.Fatalln("Not updating domain on a scan", nil)
	}

	// Now we are going to test when the database domain is different from the scanned domain

	if err := domainDAO.RemoveByFQDN(domain.FQDN); err != nil {
		utils.Fatalln("Error removing domain", err)
	}

	domain = model.Domain{
		FQDN: "example.com.br.",
		Nameservers: []model.Nameserver{
			{
				Host: "ns1.example.com.br.",
				IPv4: net.ParseIP("127.0.0.1"),
			},
			{
				Host: "ns3.example.com.br.",
				IPv4: net.ParseIP("127.0.0.1"),
			},
		},
	}

	if err := domainDAO.Save(&domain); err != nil {
		utils.Fatalln("Error saving domain", err)
	}

	mux.ServeHTTP(w, r)

	responseContent, err = ioutil.ReadAll(w.Body)
	if err != nil {
		utils.Fatalln("Error reading response body", err)
	}

	if w.Code != http.StatusOK {
		utils.Fatalln(fmt.Sprintf("Error scanning domain. "+
			"Expected %d and got %d", http.StatusOK, w.Code),
			errors.New(string(responseContent)))
	}

	domain, err = domainDAO.FindByFQDN(domain.FQDN)
	if err != nil {
		utils.Fatalln("Error retrieving the domain", err)
	}

	if len(domain.Nameservers) != 2 ||
		domain.Nameservers[0].LastStatus != model.NameserverStatusNotChecked ||
		domain.Nameservers[1].LastStatus != model.NameserverStatusNotChecked {

		utils.Fatalln("Updating domain on a scan when it shouldn't", nil)
	}
}