func TestValidateContacts(t *testing.T) {
	tel, _ := url.Parse("tel:")
	ansible, _ := url.Parse("ansible:earth.sol.milkyway.laniakea/letsencrypt")
	validEmail, _ := url.Parse("mailto:[email protected]")
	invalidEmail, _ := url.Parse("mailto:[email protected]")
	malformedEmail, _ := url.Parse("mailto:admin.com")

	err := validateContacts([]core.AcmeURL{}, &mocks.MockDNS{})
	test.AssertNotError(t, err, "No Contacts")

	err = validateContacts([]core.AcmeURL{core.AcmeURL(*tel)}, &mocks.MockDNS{})
	test.AssertNotError(t, err, "Simple Telephone")

	err = validateContacts([]core.AcmeURL{core.AcmeURL(*validEmail)}, &mocks.MockDNS{})
	test.AssertNotError(t, err, "Valid Email")

	err = validateContacts([]core.AcmeURL{core.AcmeURL(*invalidEmail)}, &mocks.MockDNS{})
	test.AssertError(t, err, "Invalid Email")

	err = validateContacts([]core.AcmeURL{core.AcmeURL(*malformedEmail)}, &mocks.MockDNS{})
	test.AssertError(t, err, "Malformed Email")

	err = validateContacts([]core.AcmeURL{core.AcmeURL(*ansible)}, &mocks.MockDNS{})
	test.AssertError(t, err, "Unknown scehme")
}
func TestNewRegistrationNoFieldOverwrite(t *testing.T) {
	_, _, _, ra := initAuthorities(t)
	mailto, _ := url.Parse("mailto:[email protected]")
	input := core.Registration{
		ID:            23,
		Key:           AccountKeyC,
		RecoveryToken: "RecoverMe",
		Contact:       []core.AcmeURL{core.AcmeURL(*mailto)},
		Agreement:     "I agreed",
	}

	result, err := ra.NewRegistration(input)
	test.AssertNotError(t, err, "Could not create new registration")

	test.Assert(t, result.ID != 23, "ID shouldn't be set by user")
	// TODO: Enable this test case once we validate terms agreement.
	//test.Assert(t, result.Agreement != "I agreed", "Agreement shouldn't be set with invalid URL")
	test.Assert(t, result.RecoveryToken != "RecoverMe", "Recovery token shouldn't be set by user")

	result2, err := ra.UpdateRegistration(result, core.Registration{
		ID:            33,
		Key:           ShortKey,
		RecoveryToken: "RecoverMe2",
	})
	test.AssertNotError(t, err, "Could not update registration")
	test.Assert(t, result2.ID != 33, "ID shouldn't be overwritten.")
	test.Assert(t, !core.KeyDigestEquals(result2.Key, ShortKey), "Key shouldn't be overwritten")
	test.Assert(t, result2.RecoveryToken != "RecoverMe2", "Recovery token shouldn't be overwritten by user")
}
func TestCertificateKeyNotEqualAccountKey(t *testing.T) {
	_, _, sa, ra := initAuthorities(t)
	authz := core.Authorization{}
	authz.ID, _ = sa.NewPendingAuthorization()
	authz.Identifier = core.AcmeIdentifier{
		Type:  core.IdentifierDNS,
		Value: "www.example.com",
	}
	csr := x509.CertificateRequest{
		SignatureAlgorithm: x509.SHA256WithRSA,
		PublicKey:          AccountKey.Key,
		DNSNames:           []string{"www.example.com"},
	}
	csrBytes, err := x509.CreateCertificateRequest(rand.Reader, &csr, AccountPrivateKey.Key)
	test.AssertNotError(t, err, "Failed to sign CSR")
	parsedCsr, err := x509.ParseCertificateRequest(csrBytes)
	test.AssertNotError(t, err, "Failed to parse CSR")
	sa.UpdatePendingAuthorization(authz)
	sa.FinalizeAuthorization(authz)
	authzURL, _ := url.Parse("http://doesnt.matter/" + authz.ID)
	certRequest := core.CertificateRequest{
		CSR:            parsedCsr,
		Authorizations: []core.AcmeURL{core.AcmeURL(*authzURL)},
	}

	// Registration id 1 has key == AccountKey
	_, err = ra.NewCertificate(certRequest, 1)
	test.AssertError(t, err, "Should have rejected cert with key = account key")
	test.AssertEquals(t, err.Error(), "Certificate public key must be different than account key")
}
func CreateDomainAuth(t *testing.T, domainName string, sa *SQLStorageAuthority) (authz core.Authorization) {
	// create pending auth
	authz, err := sa.NewPendingAuthorization(core.Authorization{})
	test.AssertNotError(t, err, "Couldn't create new pending authorization")
	test.Assert(t, authz.ID != "", "ID shouldn't be blank")

	// prepare challenge for auth
	uu, err := url.Parse(domainName)
	test.AssertNotError(t, err, "Couldn't parse domainName "+domainName)
	u := core.AcmeURL(*uu)
	chall := core.Challenge{Type: "simpleHttp", Status: core.StatusValid, URI: u, Token: "THISWOULDNTBEAGOODTOKEN"}
	combos := make([][]int, 1)
	combos[0] = []int{0, 1}
	exp := time.Now().AddDate(0, 0, 1) // expire in 1 day

	// validate pending auth
	authz.Status = core.StatusPending
	authz.Identifier = core.AcmeIdentifier{Type: core.IdentifierDNS, Value: domainName}
	authz.RegistrationID = 42
	authz.Expires = &exp
	authz.Challenges = []core.Challenge{chall}
	authz.Combinations = combos

	// save updated auth
	err = sa.UpdatePendingAuthorization(authz)
	test.AssertNotError(t, err, "Couldn't update pending authorization with ID "+authz.ID)

	return
}
Esempio n. 5
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func TestChallenge(t *testing.T) {
	wfe := NewWebFrontEndImpl()
	wfe.RA = &MockRegistrationAuthority{}
	wfe.SA = &MockSA{}
	wfe.HandlePaths()
	responseWriter := httptest.NewRecorder()

	var key jose.JsonWebKey
	err := json.Unmarshal([]byte(`{
						"e": "AQAB",
						"kty": "RSA",
						"n": "tSwgy3ORGvc7YJI9B2qqkelZRUC6F1S5NwXFvM4w5-M0TsxbFsH5UH6adigV0jzsDJ5imAechcSoOhAh9POceCbPN1sTNwLpNbOLiQQ7RD5mY_pSUHWXNmS9R4NZ3t2fQAzPeW7jOfF0LKuJRGkekx6tXP1uSnNibgpJULNc4208dgBaCHo3mvaE2HV2GmVl1yxwWX5QZZkGQGjNDZYnjFfa2DKVvFs0QbAk21ROm594kAxlRlMMrvqlf24Eq4ERO0ptzpZgm_3j_e4hGRD39gJS7kAzK-j2cacFQ5Qi2Y6wZI2p-FCq_wiYsfEAIkATPBiLKl_6d_Jfcvs_impcXQ"
							}`), &key)
	test.AssertNotError(t, err, "Could not unmarshal testing key")

	challengeURL, _ := url.Parse("/acme/authz/asdf?challenge=foo")
	authz := core.Authorization{
		ID: "asdf",
		Identifier: core.AcmeIdentifier{
			Type:  "dns",
			Value: "letsencrypt.org",
		},
		Challenges: []core.Challenge{
			core.Challenge{
				Type: "dns",
				URI:  core.AcmeURL(*challengeURL),
			},
		},
		RegistrationID: 1,
	}

	wfe.Challenge(authz, responseWriter, &http.Request{
		Method: "POST",
		URL:    challengeURL,
		Body: makeBody(`
			{
					"header": {
							"alg": "RS256",
							"jwk": {
									"e": "AQAB",
									"kty": "RSA",
									"n": "tSwgy3ORGvc7YJI9B2qqkelZRUC6F1S5NwXFvM4w5-M0TsxbFsH5UH6adigV0jzsDJ5imAechcSoOhAh9POceCbPN1sTNwLpNbOLiQQ7RD5mY_pSUHWXNmS9R4NZ3t2fQAzPeW7jOfF0LKuJRGkekx6tXP1uSnNibgpJULNc4208dgBaCHo3mvaE2HV2GmVl1yxwWX5QZZkGQGjNDZYnjFfa2DKVvFs0QbAk21ROm594kAxlRlMMrvqlf24Eq4ERO0ptzpZgm_3j_e4hGRD39gJS7kAzK-j2cacFQ5Qi2Y6wZI2p-FCq_wiYsfEAIkATPBiLKl_6d_Jfcvs_impcXQ"
							}
					},
					"payload": "e30K",
					"signature": "JXYA_pin91Bc5oz5I6dqCNNWDrBaYTB31EnWorrj4JEFRaidafC9mpLDLLA9jR9kX_Vy2bA5b6pPpXVKm0w146a0L551OdL8JrrLka9q6LypQdDLLQa76XD03hSBOFcC-Oo5FLPa3WRWS1fQ37hYAoLxtS3isWXMIq_4Onx5bq8bwKyu-3E3fRb_lzIZ8hTIWwcblCTOfufUe6AoK4m6MfBjz0NGhyyk4lEZZw6Sttm2VuZo3xmWoRTJEyJG5AOJ6fkNJ9iQQ1kVhMr0ZZ7NVCaOZAnxrwv2sCjY6R3f4HuEVe1yzT75Mq2IuXq-tadGyFujvUxF6BWHCulbEnss7g"
			}
		`),
	})

	test.AssertEquals(
		t, responseWriter.Header().Get("Location"),
		"/acme/authz/asdf?challenge=foo")
	test.AssertEquals(
		t, responseWriter.Header().Get("Link"),
		"</acme/authz/asdf>;rel=\"up\"")
	test.AssertEquals(
		t, responseWriter.Body.String(),
		"{\"type\":\"dns\",\"uri\":\"/acme/authz/asdf?challenge=foo\"}")
}
func TestNewCertificate(t *testing.T) {
	_, _, sa, ra := initAuthorities(t)
	AuthzFinal.RegistrationID = 1
	AuthzFinal, _ = sa.NewPendingAuthorization(AuthzFinal)
	sa.UpdatePendingAuthorization(AuthzFinal)
	sa.FinalizeAuthorization(AuthzFinal)

	// Inject another final authorization to cover www.example.com
	authzFinalWWW := AuthzFinal
	authzFinalWWW.Identifier.Value = "www.not-example.com"
	authzFinalWWW, _ = sa.NewPendingAuthorization(authzFinalWWW)
	sa.FinalizeAuthorization(authzFinalWWW)

	// Construct a cert request referencing the two authorizations
	url1, _ := url.Parse("http://doesnt.matter/" + AuthzFinal.ID)
	url2, _ := url.Parse("http://doesnt.matter/" + authzFinalWWW.ID)

	certRequest := core.CertificateRequest{
		CSR:            ExampleCSR,
		Authorizations: []core.AcmeURL{core.AcmeURL(*url1), core.AcmeURL(*url2)},
	}

	cert, err := ra.NewCertificate(certRequest, 1)
	test.AssertNotError(t, err, "Failed to issue certificate")
	if err != nil {
		return
	}

	parsedCert, err := x509.ParseCertificate(cert.DER)
	test.AssertNotError(t, err, "Failed to parse certificate")
	if err != nil {
		return
	}

	// Verify that cert shows up and is as expected
	dbCert, err := sa.GetCertificate(core.SerialToString(parsedCert.SerialNumber))
	test.AssertNotError(t, err, fmt.Sprintf("Could not fetch certificate %032x from database",
		parsedCert.SerialNumber))
	if err != nil {
		return
	}
	test.Assert(t, bytes.Compare(cert.DER, dbCert.DER) == 0, "Certificates differ")

	t.Log("DONE TestOnValidationUpdate")
}
func TestNewRegistrationBadKey(t *testing.T) {
	_, _, _, ra := initAuthorities(t)
	mailto, _ := url.Parse("mailto:[email protected]")
	input := core.Registration{
		Contact: []core.AcmeURL{core.AcmeURL(*mailto)},
		Key:     ShortKey,
	}

	_, err := ra.NewRegistration(input)
	test.AssertError(t, err, "Should have rejected authorization with short key")
}
Esempio n. 8
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func TestSendNags(t *testing.T) {
	tmpl, err := template.New("expiry-email").Parse(testTmpl)
	test.AssertNotError(t, err, "Couldn't parse test email template")
	stats, _ := statsd.NewNoopClient(nil)
	mc := mockMail{}
	m := mailer{
		stats:         stats,
		mailer:        &mc,
		emailTemplate: tmpl,
	}

	cert := &x509.Certificate{
		Subject: pkix.Name{
			CommonName: "happy",
		},
		NotAfter: time.Now().AddDate(0, 0, 2),
		DNSNames: []string{"example.com"},
	}

	email, _ := url.Parse("mailto:[email protected]")
	emailB, _ := url.Parse("mailto:[email protected]")

	err = m.sendNags(cert, []core.AcmeURL{core.AcmeURL(*email)})
	test.AssertNotError(t, err, "Failed to send warning messages")
	test.AssertEquals(t, len(mc.Messages), 1)
	test.AssertEquals(t, fmt.Sprintf(`hi, cert for DNS names example.com is going to expire in 2 days (%s)`, cert.NotAfter), mc.Messages[0])

	mc.Clear()
	err = m.sendNags(cert, []core.AcmeURL{core.AcmeURL(*email), core.AcmeURL(*emailB)})
	test.AssertNotError(t, err, "Failed to send warning messages")
	test.AssertEquals(t, len(mc.Messages), 2)
	test.AssertEquals(t, fmt.Sprintf(`hi, cert for DNS names example.com is going to expire in 2 days (%s)`, cert.NotAfter), mc.Messages[0])
	test.AssertEquals(t, fmt.Sprintf(`hi, cert for DNS names example.com is going to expire in 2 days (%s)`, cert.NotAfter), mc.Messages[1])

	mc.Clear()
	err = m.sendNags(cert, []core.AcmeURL{})
	test.AssertNotError(t, err, "Not an error to pass no email contacts")
	test.AssertEquals(t, len(mc.Messages), 0)
}
Esempio n. 9
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func TestChallenge(t *testing.T) {
	wfe := setupWFE(t)

	wfe.RA = &MockRegistrationAuthority{}
	wfe.SA = &MockSA{}
	responseWriter := httptest.NewRecorder()

	var key jose.JsonWebKey
	err := json.Unmarshal([]byte(`
		{
			"e": "AQAB",
			"kty": "RSA",
			"n": "tSwgy3ORGvc7YJI9B2qqkelZRUC6F1S5NwXFvM4w5-M0TsxbFsH5UH6adigV0jzsDJ5imAechcSoOhAh9POceCbPN1sTNwLpNbOLiQQ7RD5mY_pSUHWXNmS9R4NZ3t2fQAzPeW7jOfF0LKuJRGkekx6tXP1uSnNibgpJULNc4208dgBaCHo3mvaE2HV2GmVl1yxwWX5QZZkGQGjNDZYnjFfa2DKVvFs0QbAk21ROm594kAxlRlMMrvqlf24Eq4ERO0ptzpZgm_3j_e4hGRD39gJS7kAzK-j2cacFQ5Qi2Y6wZI2p-FCq_wiYsfEAIkATPBiLKl_6d_Jfcvs_impcXQ"
		}
	`), &key)
	test.AssertNotError(t, err, "Could not unmarshal testing key")

	challengeURL, _ := url.Parse("/acme/authz/asdf?challenge=foo")
	authz := core.Authorization{
		ID: "asdf",
		Identifier: core.AcmeIdentifier{
			Type:  "dns",
			Value: "letsencrypt.org",
		},
		Challenges: []core.Challenge{
			core.Challenge{
				Type: "dns",
				URI:  core.AcmeURL(*challengeURL),
			},
		},
		RegistrationID: 1,
	}

	wfe.challenge(authz, responseWriter, &http.Request{
		Method: "POST",
		URL:    challengeURL,
		Body:   makeBody(signRequest(t, "{}", &wfe.nonceService)),
	}, requestEvent{})

	test.AssertEquals(
		t, responseWriter.Header().Get("Location"),
		"/acme/authz/asdf?challenge=foo")
	test.AssertEquals(
		t, responseWriter.Header().Get("Link"),
		"</acme/authz/asdf>;rel=\"up\"")
	test.AssertEquals(
		t, responseWriter.Body.String(),
		"{\"type\":\"dns\",\"uri\":\"/acme/authz/asdf?challenge=foo\"}")
}
Esempio n. 10
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func TestAddRegistration(t *testing.T) {
	sa := initSA(t)

	var jwk jose.JsonWebKey
	err := json.Unmarshal([]byte(theKey), &jwk)
	if err != nil {
		t.Errorf("JSON unmarshal error: %+v", err)
		return
	}

	reg, err := sa.NewRegistration(core.Registration{
		Key: jwk,
	})
	test.AssertNotError(t, err, "Couldn't create new registration")
	test.Assert(t, reg.ID != 0, "ID shouldn't be 0")

	_, err = sa.GetRegistration(0)
	test.AssertError(t, err, "Registration object for ID 0 was returned")

	dbReg, err := sa.GetRegistration(reg.ID)
	test.AssertNotError(t, err, fmt.Sprintf("Couldn't get registration with ID %v", reg.ID))

	expectedReg := core.Registration{
		ID:  reg.ID,
		Key: jwk,
	}
	test.AssertEquals(t, dbReg.ID, expectedReg.ID)
	test.Assert(t, core.KeyDigestEquals(dbReg.Key, expectedReg.Key), "Stored key != expected")

	uu, err := url.Parse("test.com")
	u := core.AcmeURL(*uu)

	newReg := core.Registration{ID: reg.ID, Key: jwk, RecoveryToken: "RBNvo1WzZ4oRRq0W9", Contact: []core.AcmeURL{u}, Agreement: "yes"}
	err = sa.UpdateRegistration(newReg)
	test.AssertNotError(t, err, fmt.Sprintf("Couldn't get registration with ID %v", reg.ID))

	dbReg, err = sa.GetRegistrationByKey(jwk)
	test.AssertNotError(t, err, "Couldn't get registration by key")

	test.AssertEquals(t, dbReg.ID, newReg.ID)
	test.AssertEquals(t, dbReg.RecoveryToken, newReg.RecoveryToken)
	test.AssertEquals(t, dbReg.Agreement, newReg.Agreement)

	jwk.KeyID = "bad"
	_, err = sa.GetRegistrationByKey(jwk)
	test.AssertError(t, err, "Registration object for invalid key was returned")
}
Esempio n. 11
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func (ra *RegistrationAuthorityImpl) NewAuthorization(request core.Authorization, regID int64) (authz core.Authorization, err error) {
	if regID <= 0 {
		err = fmt.Errorf("Invalid registration ID")
		return authz, err
	}

	identifier := request.Identifier

	// Check that the identifier is present and appropriate
	if err = ra.PA.WillingToIssue(identifier); err != nil {
		return authz, err
	}

	// Create validations
	// TODO: Assign URLs
	challenges, combinations := ra.PA.ChallengesFor(identifier)
	authID, err := ra.SA.NewPendingAuthorization()
	if err != nil {
		return authz, err
	}
	for i := range challenges {
		// Ignoring these errors because we construct the URLs to be correct
		challengeURI, _ := url.Parse(ra.AuthzBase + authID + "?challenge=" + strconv.Itoa(i))
		challenges[i].URI = core.AcmeURL(*challengeURI)

		if !challenges[i].IsSane(false) {
			err = fmt.Errorf("Challenge didn't pass sanity check: %+v", challenges[i])
			return authz, err
		}
	}

	// Create a new authorization object
	authz = core.Authorization{
		ID:             authID,
		Identifier:     identifier,
		RegistrationID: regID,
		Status:         core.StatusPending,
		Challenges:     challenges,
		Combinations:   combinations,
	}

	// Store the authorization object, then return it
	err = ra.SA.UpdatePendingAuthorization(authz)
	return authz, err
}
func TestCountRegistrationsByIP(t *testing.T) {
	sa, fc, cleanUp := initSA(t)
	defer cleanUp()

	contact := core.AcmeURL(url.URL{
		Scheme: "mailto",
		Opaque: "*****@*****.**",
	})

	_, err := sa.NewRegistration(core.Registration{
		Key:       jose.JsonWebKey{Key: &rsa.PublicKey{N: big.NewInt(1), E: 1}},
		Contact:   []*core.AcmeURL{&contact},
		InitialIP: net.ParseIP("43.34.43.34"),
	})
	test.AssertNotError(t, err, "Couldn't insert registration")
	_, err = sa.NewRegistration(core.Registration{
		Key:       jose.JsonWebKey{Key: &rsa.PublicKey{N: big.NewInt(2), E: 1}},
		Contact:   []*core.AcmeURL{&contact},
		InitialIP: net.ParseIP("2001:cdba:1234:5678:9101:1121:3257:9652"),
	})
	test.AssertNotError(t, err, "Couldn't insert registration")
	_, err = sa.NewRegistration(core.Registration{
		Key:       jose.JsonWebKey{Key: &rsa.PublicKey{N: big.NewInt(3), E: 1}},
		Contact:   []*core.AcmeURL{&contact},
		InitialIP: net.ParseIP("2001:cdba:1234:5678:9101:1121:3257:9653"),
	})
	test.AssertNotError(t, err, "Couldn't insert registration")

	earliest := fc.Now().Add(-time.Hour * 24)
	latest := fc.Now()

	count, err := sa.CountRegistrationsByIP(net.ParseIP("1.1.1.1"), earliest, latest)
	test.AssertNotError(t, err, "Failed to count registrations")
	test.AssertEquals(t, count, 0)
	count, err = sa.CountRegistrationsByIP(net.ParseIP("43.34.43.34"), earliest, latest)
	test.AssertNotError(t, err, "Failed to count registrations")
	test.AssertEquals(t, count, 1)
	count, err = sa.CountRegistrationsByIP(net.ParseIP("2001:cdba:1234:5678:9101:1121:3257:9652"), earliest, latest)
	test.AssertNotError(t, err, "Failed to count registrations")
	test.AssertEquals(t, count, 2)
	count, err = sa.CountRegistrationsByIP(net.ParseIP("2001:cdba:1234:0000:0000:0000:0000:0000"), earliest, latest)
	test.AssertNotError(t, err, "Failed to count registrations")
	test.AssertEquals(t, count, 2)
}
Esempio n. 13
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func TestAddAuthorization(t *testing.T) {
	sa := initSA(t)

	PA := core.Authorization{}

	PA, err := sa.NewPendingAuthorization(PA)
	test.AssertNotError(t, err, "Couldn't create new pending authorization")
	test.Assert(t, PA.ID != "", "ID shouldn't be blank")

	dbPa, err := sa.GetAuthorization(PA.ID)
	test.AssertNotError(t, err, "Couldn't get pending authorization with ID "+PA.ID)
	test.AssertMarshaledEquals(t, PA, dbPa)

	expectedPa := core.Authorization{ID: PA.ID}
	test.AssertMarshaledEquals(t, dbPa.ID, expectedPa.ID)

	var jwk jose.JsonWebKey
	err = json.Unmarshal([]byte(theKey), &jwk)
	if err != nil {
		t.Errorf("JSON unmarshal error: %+v", err)
		return
	}

	uu, err := url.Parse("test.com")
	u := core.AcmeURL(*uu)

	chall := core.Challenge{Type: "simpleHttp", Status: core.StatusPending, URI: u, Token: "THISWOULDNTBEAGOODTOKEN", Path: "test-me"}

	combos := make([][]int, 1)
	combos[0] = []int{0, 1}

	exp := time.Now().AddDate(0, 0, 1)
	newPa := core.Authorization{ID: PA.ID, Identifier: core.AcmeIdentifier{Type: core.IdentifierDNS, Value: "wut.com"}, RegistrationID: 0, Status: core.StatusPending, Expires: &exp, Challenges: []core.Challenge{chall}, Combinations: combos}
	err = sa.UpdatePendingAuthorization(newPa)
	test.AssertNotError(t, err, "Couldn't update pending authorization with ID "+PA.ID)

	newPa.Status = core.StatusValid
	err = sa.FinalizeAuthorization(newPa)
	test.AssertNotError(t, err, "Couldn't finalize pending authorization with ID "+PA.ID)

	dbPa, err = sa.GetAuthorization(PA.ID)
	test.AssertNotError(t, err, "Couldn't get authorization with ID "+PA.ID)
}
func TestAuthorizationRequired(t *testing.T) {
	_, _, sa, ra := initAuthorities(t)
	AuthzFinal.RegistrationID = 1
	AuthzFinal, _ = sa.NewPendingAuthorization(AuthzFinal)
	sa.UpdatePendingAuthorization(AuthzFinal)
	sa.FinalizeAuthorization(AuthzFinal)

	// Construct a cert request referencing the authorization
	url1, _ := url.Parse("http://doesnt.matter/" + AuthzFinal.ID)

	// ExampleCSR requests not-example.com and www.not-example.com,
	// but the authorization only covers not-example.com
	certRequest := core.CertificateRequest{
		CSR:            ExampleCSR,
		Authorizations: []core.AcmeURL{core.AcmeURL(*url1)},
	}

	_, err := ra.NewCertificate(certRequest, 1)
	test.Assert(t, err != nil, "Issued certificate with insufficient authorization")

	t.Log("DONE TestAuthorizationRequired")
}
func TestNewRegistration(t *testing.T) {
	_, _, sa, ra := initAuthorities(t)
	mailto, _ := url.Parse("mailto:[email protected]")
	input := core.Registration{
		Contact: []core.AcmeURL{core.AcmeURL(*mailto)},
		Key:     AccountKeyB,
	}

	result, err := ra.NewRegistration(input)
	test.AssertNotError(t, err, "Could not create new registration")

	test.Assert(t, core.KeyDigestEquals(result.Key, AccountKeyB), "Key didn't match")
	test.Assert(t, len(result.Contact) == 1, "Wrong number of contacts")
	test.Assert(t, mailto.String() == result.Contact[0].String(),
		"Contact didn't match")
	test.Assert(t, result.Agreement == "", "Agreement didn't default empty")
	test.Assert(t, result.RecoveryToken != "", "Recovery token not filled")

	reg, err := sa.GetRegistration(result.ID)
	test.AssertNotError(t, err, "Failed to retrieve registration")
	test.Assert(t, core.KeyDigestEquals(reg.Key, AccountKeyB), "Retrieved registration differed.")
}
// NewAuthorization constuct a new Authz from a request.
func (ra *RegistrationAuthorityImpl) NewAuthorization(request core.Authorization, regID int64) (authz core.Authorization, err error) {
	if regID <= 0 {
		err = core.MalformedRequestError(fmt.Sprintf("Invalid registration ID: %d", regID))
		return authz, err
	}

	identifier := request.Identifier

	// Check that the identifier is present and appropriate
	if err = ra.PA.WillingToIssue(identifier); err != nil {
		err = core.UnauthorizedError(err.Error())
		return authz, err
	}

	// Check CAA records for the requested identifier
	present, valid, err := ra.VA.CheckCAARecords(identifier)
	if err != nil {
		return authz, err
	}
	// AUDIT[ Certificate Requests ] 11917fa4-10ef-4e0d-9105-bacbe7836a3c
	ra.log.Audit(fmt.Sprintf("Checked CAA records for %s, registration ID %d [Present: %t, Valid for issuance: %t]", identifier.Value, regID, present, valid))
	if !valid {
		err = errors.New("CAA check for identifier failed")
		return authz, err
	}

	// Create validations, but we have to update them with URIs later
	challenges, combinations := ra.PA.ChallengesFor(identifier)

	// Partially-filled object
	authz = core.Authorization{
		Identifier:     identifier,
		RegistrationID: regID,
		Status:         core.StatusPending,
		Combinations:   combinations,
	}

	// Get a pending Auth first so we can get our ID back, then update with challenges
	authz, err = ra.SA.NewPendingAuthorization(authz)
	if err != nil {
		// InternalServerError since the user-data was validated before being
		// passed to the SA.
		err = core.InternalServerError(fmt.Sprintf("Invalid authorization request: %s", err))
		return authz, err
	}

	// Construct all the challenge URIs
	for i := range challenges {
		// Ignoring these errors because we construct the URLs to be correct
		challengeURI, _ := url.Parse(ra.AuthzBase + authz.ID + "?challenge=" + strconv.Itoa(i))
		challenges[i].URI = core.AcmeURL(*challengeURI)

		if !challenges[i].IsSane(false) {
			// InternalServerError because we generated these challenges, they should
			// be OK.
			err = core.InternalServerError(fmt.Sprintf("Challenge didn't pass sanity check: %+v", challenges[i]))
			return authz, err
		}
	}

	// Update object
	authz.Challenges = challenges

	// Store the authorization object, then return it
	err = ra.SA.UpdatePendingAuthorization(authz)
	if err != nil {
		// InternalServerError because we created the authorization just above,
		// and adding Sane challenges should not break it.
		err = core.InternalServerError(err.Error())
	}
	return authz, err
}
	ExampleCSR = &x509.CertificateRequest{}

	// These values are populated by the tests as we go
	url0, _      = url.Parse("http://acme.invalid/authz/60p2Dc_XmUB2UUJBV4wYkF7BJbPD9KlDnUL3SmFMuTE?challenge=0")
	url1, _      = url.Parse("http://acme.invalid/authz/60p2Dc_XmUB2UUJBV4wYkF7BJbPD9KlDnUL3SmFMuTE?challenge=0")
	Registration = core.Registration{}
	AuthzInitial = core.Authorization{
		ID:             "60p2Dc_XmUB2UUJBV4wYkF7BJbPD9KlDnUL3SmFMuTE",
		Identifier:     core.AcmeIdentifier{Type: "dns", Value: "not-example.com"},
		RegistrationID: 1,
		Status:         "pending",
		Challenges: []core.Challenge{
			core.Challenge{
				Type:   "simpleHttp",
				Status: "pending",
				URI:    core.AcmeURL(*url0),
				Token:  "pDX9vBFJ043_gEc9Wyp8of-SqZMN2H3-fvj5iUgP7mg",
			},
			core.Challenge{
				Type:   "dvsni",
				Status: "pending",
				URI:    core.AcmeURL(*url1),
				R:      "AI83O7gCMPDr4z7OIdl8T6axx6nui4HV1aAFQ5LJvVs",
				Nonce:  "f011c9a0ce1a4fe0f18f2252d64c4239",
			},
		},
		Combinations: [][]int{[]int{0}, []int{1}},
	}
	AuthzUpdated = core.Authorization{}
	AuthzFinal   = core.Authorization{}
Esempio n. 18
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func TestFindExpiringCertificates(t *testing.T) {
	dbMap, err := sa.NewDbMap("sqlite3", ":memory:")
	test.AssertNotError(t, err, "Couldn't connect to SQLite")
	err = dbMap.CreateTablesIfNotExists()
	test.AssertNotError(t, err, "Couldn't create tables")
	tmpl, err := template.New("expiry-email").Parse(testTmpl)
	test.AssertNotError(t, err, "Couldn't parse test email template")
	stats, _ := statsd.NewNoopClient(nil)
	mc := mockMail{}
	m := mailer{
		log:           blog.GetAuditLogger(),
		stats:         stats,
		mailer:        &mc,
		emailTemplate: tmpl,
		dbMap:         dbMap,
		nagTimes:      []time.Duration{time.Hour * 24, time.Hour * 24 * 4, time.Hour * 24 * 7},
		limit:         100,
	}

	log.Clear()
	err = m.findExpiringCertificates()
	test.AssertNotError(t, err, "Failed on no certificates")
	test.AssertEquals(t, len(log.GetAllMatching("Searching for certificates that expire between.*")), 3)

	// Add some expiring certificates and registrations
	emailA, _ := url.Parse("mailto:[email protected]")
	emailB, _ := url.Parse("mailto:[email protected]")
	var keyA jose.JsonWebKey
	var keyB jose.JsonWebKey
	err = json.Unmarshal(jsonKeyA, &keyA)
	test.AssertNotError(t, err, "Failed to unmarshal public JWK")
	err = json.Unmarshal(jsonKeyB, &keyB)
	test.AssertNotError(t, err, "Failed to unmarshal public JWK")
	regA := &core.Registration{
		ID: 1,
		Contact: []core.AcmeURL{
			core.AcmeURL(*emailA),
		},
		Key: keyA,
	}
	regB := &core.Registration{
		ID: 2,
		Contact: []core.AcmeURL{
			core.AcmeURL(*emailB),
		},
		Key: keyB,
	}
	rawCertA := x509.Certificate{
		Subject: pkix.Name{
			CommonName: "happy A",
		},
		NotAfter:     time.Now().AddDate(0, 0, 1),
		DNSNames:     []string{"example-a.com"},
		SerialNumber: big.NewInt(1337),
	}
	certDerA, _ := x509.CreateCertificate(rand.Reader, &rawCertA, &rawCertA, &testKey.PublicKey, &testKey)
	certA := &core.Certificate{
		RegistrationID: 1,
		Status:         core.StatusValid,
		Serial:         "001",
		Expires:        time.Now().AddDate(0, 0, 1),
		DER:            certDerA,
	}
	// Already sent a nag but too long ago
	certStatusA := &core.CertificateStatus{Serial: "001", LastExpirationNagSent: time.Now().Add(-time.Hour * 24 * 3)}
	rawCertB := x509.Certificate{
		Subject: pkix.Name{
			CommonName: "happy B",
		},
		NotAfter:     time.Now().AddDate(0, 0, 3),
		DNSNames:     []string{"example-b.com"},
		SerialNumber: big.NewInt(1337),
	}
	certDerB, _ := x509.CreateCertificate(rand.Reader, &rawCertB, &rawCertB, &testKey.PublicKey, &testKey)
	certB := &core.Certificate{
		RegistrationID: 1,
		Status:         core.StatusValid,
		Serial:         "002",
		Expires:        time.Now().AddDate(0, 0, 3),
		DER:            certDerB,
	}
	// Already sent a nag for this period
	certStatusB := &core.CertificateStatus{Serial: "002", LastExpirationNagSent: time.Now().Add(-time.Hour * 24 * 3)}
	rawCertC := x509.Certificate{
		Subject: pkix.Name{
			CommonName: "happy C",
		},
		NotAfter:     time.Now().AddDate(0, 0, 7),
		DNSNames:     []string{"example-c.com"},
		SerialNumber: big.NewInt(1337),
	}
	certDerC, _ := x509.CreateCertificate(rand.Reader, &rawCertC, &rawCertC, &testKey.PublicKey, &testKey)
	certC := &core.Certificate{
		RegistrationID: 2,
		Status:         core.StatusValid,
		Serial:         "003",
		Expires:        time.Now().AddDate(0, 0, 7),
		DER:            certDerC,
	}
	certStatusC := &core.CertificateStatus{Serial: "003"}
	err = dbMap.Insert(regA)
	test.AssertNotError(t, err, "Couldn't add regA")
	err = dbMap.Insert(regB)
	test.AssertNotError(t, err, "Couldn't add regB")
	err = dbMap.Insert(certA)
	test.AssertNotError(t, err, "Couldn't add certA")
	err = dbMap.Insert(certB)
	test.AssertNotError(t, err, "Couldn't add certB")
	err = dbMap.Insert(certC)
	test.AssertNotError(t, err, "Couldn't add certC")
	err = dbMap.Insert(certStatusA)
	test.AssertNotError(t, err, "Couldn't add certStatusA")
	err = dbMap.Insert(certStatusB)
	test.AssertNotError(t, err, "Couldn't add certStatusB")
	err = dbMap.Insert(certStatusC)
	test.AssertNotError(t, err, "Couldn't add certStatusC")

	log.Clear()
	err = m.findExpiringCertificates()
	test.AssertNotError(t, err, "Failed to find expiring certs")
	// Should get 001 and 003
	test.AssertEquals(t, len(mc.Messages), 2)

	test.AssertEquals(t, fmt.Sprintf(`hi, cert for DNS names example-a.com is going to expire in 1 days (%s)`, rawCertA.NotAfter.UTC().Format("2006-01-02 15:04:05 -0700 MST")), mc.Messages[0])
	test.AssertEquals(t, fmt.Sprintf(`hi, cert for DNS names example-c.com is going to expire in 7 days (%s)`, rawCertC.NotAfter.UTC().Format("2006-01-02 15:04:05 -0700 MST")), mc.Messages[1])

	// A consecutive run shouldn't find anything
	mc.Clear()
	log.Clear()
	err = m.findExpiringCertificates()
	test.AssertNotError(t, err, "Failed to find expiring certs")
	test.AssertEquals(t, len(mc.Messages), 0)
}