Newer
Older
log("v_signature : ", v_signature);
log("PublicKey :", p_publicKey);
v_result := f_verifyWithEcdsaNistp256WithSha256(
toBeVerifiedData,
v_signature,
valueof(p_publicKey.public_key.eccPoint.x),
valueof(p_publicKey.public_key.eccPoint.y.y)
} // End of finction f_verifyCertificateSignatureWithPublicKey
* @desc Verify the signature of the provided secured message
* @param p_certificateToBeVerified Certificate to be verified
* @param p_issuingCertificate Issuing certificate
* @return true on success, false otherwise
* @verdict
*/
function f_verifyCertificateSignatureWithIssuingCertificate(
in template (value) Certificate p_certificateToBeVerified,
in template (value) Certificate p_issuingCertificate
for (var integer v_counter := 0; v_counter < lengthof(p_issuingCertificate.subject_attributes); v_counter := v_counter + 1) {
if (valueof(p_issuingCertificate.subject_attributes[v_counter].type_) == e_verification_key) {
return f_verifyCertificateSignatureWithPublicKey(
p_certificateToBeVerified,
p_issuingCertificate.subject_attributes[v_counter].attribute.key);
}
} // End of 'for' statement
return false;
} // End of function f_verifyCertificateSignatureWithIssuingCertificate
* @desc Verify the signature of the provided secured message
* @param p_securedMessage The message to be verified
* @param p_publicKey The ECDSA public key to verify a signature
* @param p_certificate Certificate to be used to verify the message
* @return true on success, false otherwise
* @verdict
*/
function f_verifyGnSecuredMessageSignatureWithPublicKey(
in template (value) SecuredMessage p_securedMessage,
in template (value) PublicKey p_publicKey
) return boolean {
// Local variables
var octetstring v_secPayload;
var octetstring v_signedData;
var Oct32 v_hash;
var integer v_counter;
var boolean v_result := false;
var template (value) ToBeSignedSecuredMessage v_toBeSignedSecuredMessage;
// log(">>> f_verifyGnSecuredMessageSignatureWithPublicKey: p_securedMessage= ", p_securedMessage);
// log(">>> f_verifyGnSecuredMessageSignatureWithPublicKey: p_publicKey= ", p_publicKey);
// Create SecuredMessage payload to be signed
v_toBeSignedSecuredMessage := m_toBeSignedSecuredMessage(
p_securedMessage.payload_field,
log("f_verifyGnSecuredMessageSignatureWithPublicKey: v_toBeSignedSecuredMessage=", v_toBeSignedSecuredMessage);
v_secPayload := bit2oct(encvalue(v_toBeSignedSecuredMessage));
log("f_verifyGnSecuredMessageSignatureWithPublicKey: v_secPayload=", v_secPayload);
// Verify payload
for (v_counter := 0; v_counter < lengthof(p_securedMessage.trailer_fields); v_counter := v_counter + 1) {
var SecuredMessage v_securedMessage := valueof(p_securedMessage);
(v_securedMessage.trailer_fields[v_counter].type_ == e_signature) and
(v_securedMessage.trailer_fields[v_counter].trailerField.signature_.algorithm == e_ecdsa_nistp256_with_sha256)
v_signedData :=
'0000'O &
v_securedMessage.trailer_fields[v_counter].trailerField.signature_.signature_.ecdsa_signature.r.x &
v_securedMessage.trailer_fields[v_counter].trailerField.signature_.signature_.ecdsa_signature.s;
log("f_verifyGnSecuredMessageSignatureWithPublicKey: v_signedData=", v_signedData);
v_result := f_verifyWithEcdsaNistp256WithSha256(
valueof(p_publicKey.public_key.eccPoint.x),
valueof(p_publicKey.public_key.eccPoint.y.y)
}
} // End of 'for' statement
log("f_verifyGnSecuredMessageSignatureWithPublicKey: v_result=", v_result);
} // End of function f_verifyCertificateSignatureWithPublicKey
/**
* @desc Verify the signature of the provided secured message
* @param p_securedMessage
* @param p_certificate Certificate to be used to verify the message
* @return true on success, false otherwise
* @verdict
*/
function f_verifyGnSecuredMessageSignatureWithCertificate(
in template (value) SecuredMessage p_securedMessage,
in template (value) Certificate p_certificate
for (var integer v_counter := 0; v_counter < lengthof(p_certificate.subject_attributes); v_counter := v_counter + 1) {
var SubjectAttribute v_subjectAttribute := valueof(p_certificate.subject_attributes[v_counter]);
log("f_verifyGnSecuredMessageSignatureWithCertificate: processing ", v_subjectAttribute);
return f_verifyGnSecuredMessageSignatureWithPublicKey(
p_securedMessage,
p_certificate.subject_attributes[v_counter].attribute.key);
}
} // End of 'for' statement
return false;
} // End of function f_verifyGnSecuredOtherMessageWithDeviceCertificate
} // End of group deviceSignatureHelpers
garciay
committed
* @desc return SecuredMessage header field of given type or null if none
* @param p_msg the SecuredMessage
* @param p_type header field type
* @return HeaderField of given type if any or null
*/
in SecuredMessage p_securedMessage,
in HeaderFieldType p_headerFieldType,
out HeaderField p_return
) return boolean {
var integer v_length := lengthof(p_securedMessage.header_fields);
for (var integer i := 0; i < v_length; i := i + 1) {
if (p_securedMessage.header_fields[i].type_ == p_headerFieldType) {
p_return := p_securedMessage.header_fields[i];
log("f_getMsgHeaderField: return false");
}
/**
* @desc return SignerInfo SecuredMessage field
*/
function f_getMsgSignerInfo (
in SecuredMessage p_securedMessage,
out SignerInfo p_signerInfo
) return boolean {
var HeaderField v_hf;
if (f_getMsgHeaderField(p_securedMessage, e_signer_info, v_hf) == true) {
if (isbound(v_hf.headerField.signer)) {
p_signerInfo := v_hf.headerField.signer;
return true;
}
log("f_getMsgSignerInfo: return false");
}// End of group messageGetters
group certificateGetters {
* @desc Set the generation location as defined in Draft ETSI TS 103 097 V1.1.14 Clause 7.2 Security profile for DENMs
* @param p_latitude The latitude value of the ITS-S position
* @param p_longitude The longitude value of the ITS-S position
* @param p_elevation The elevation value of the ITS-S position
* @verdict Unchanged
*/
function f_setGenerationLocation(
in WGSLatitude p_latitude,
in WGSLongitude p_longitude,
in Oct2 p_elevation := '0000'O
) runs on ItsSecurityBaseComponent {
vc_location := {
p_elevation
}
} // End of function f_setGenerationLocation
* @desc Load in memory cache the certificates available
* @param p_configId A configuration identifier
* @remark This method SHALL be call before any usage of certificates
* @return true on success, false otherwise
*/
) runs on ItsSecurityBaseComponent return boolean {
var boolean v_result;
// Setup certificates memory cache
if (fx_loadCertificates(PX_CERTIFICATE_POOL_PATH, p_configId) == true) {
// Setup security component variables
if(f_readCertificate(cc_taCert_A, vc_atCertificate)) {
if(f_readCertificate(oct2str(vc_atCertificate.signer_info.signerInfo.digest), vc_aaCertificate)) {
if(f_readSigningKey(cc_taCert_A, vc_signingPrivateKey)) {
f_readEncryptingKey(cc_taCert_A, vc_encryptPrivateKey);
return true;
}
log("f_loadCertificates: Failed to load signing key for ", cc_taCert_A);
}else{
log("f_loadCertificates: Failed to load AA certificate for ", cc_taCert_A);
}
}else{
log("f_loadCertificates: Failed to load AA certificate for ", cc_taCert_A);
}
}else{
log("f_loadCertificates: Failed to load certificates from ", PX_CERTIFICATE_POOL_PATH);
}
return false;
} // End of function f_loadCertificates
/**
* @desc Unload from memory cache the certificates available
* @return true on success, false otherwise
*/
function f_unloadCertificates() runs on ItsSecurityBaseComponent return boolean {
// Reset security component variables
vc_signingPrivateKey := '0000000000000000000000000000000000000000000000000000000000000000'O;
vc_encryptPrivateKey := '0000000000000000000000000000000000000000000000000000000000000000'O;
// Clear certificates memory cache
return fx_unloadCertificates();
} // End of function f_unloadCertificates
* @desc Read the specified certificate
* @param p_certificateId the certificate identifier
* @param p_certificate the expected certificate
* @return true on success, false otherwise
*/
in charstring p_certificateId,
out Certificate p_certificate
) runs on ItsSecurityBaseComponent return boolean {
var octetstring v_certificate;
if (fx_readCertificate(p_certificateId, v_certificate) == true) {
var bitstring v_oct2bit;
var integer v_result;
v_oct2bit := oct2bit(v_certificate);
v_result := decvalue(v_oct2bit, p_certificate);
if (v_result == 0) {
return true;
}
}
log("f_readCertificate: Failed to retrieve ", p_certificateId);
} // End of function f_readCertificate
/**
* @desc Read the specified certificate
* @param p_certificateId the certificate identifier
* @param p_certificate the expected certificate
* @return true on success, false otherwise
*/
function f_getCertificateDigest(
in charstring p_certificateId,
out HashedId8 p_digest
) runs on ItsSecurityBaseComponent return boolean {
if( not fx_readCertificateDigest(p_certificateId, p_digest)){
log("f_getCertificateDigest: Failed to retrieve digest for ", p_certificateId);
return false;
}
return true;
} // End of function f_getCertificateDigest
* @desc Read the signing private key for the specified certificate
* @param p_keysId the keys identifier
* @param p_signingPrivateKey the signing private key
* @return true on success, false otherwise
*/
function f_readSigningKey(
in charstring p_keysId,
out Oct32 p_signingPrivateKey
) runs on ItsSecurityBaseComponent return boolean {
return fx_readSigningKey(p_keysId, p_signingPrivateKey);
} // End of function f_readSigningKey
/**
* @desc Read the encrypting private keys for the specified certificate
* @param p_keysId the keys identifier
* @param p_encryptPrivateKey the encrypt private key
* @return true on success, false otherwise
*/
function f_readEncryptingKey(
) runs on ItsSecurityBaseComponent return boolean {
return fx_readEncryptingKey(p_keysId, p_encryptPrivateKey);
} // End of function f_readEncryptingKey
function f_getCertificateValidityRestriction(
in template (value) Certificate p_cert,
in ValidityRestrictionType p_type,
out ValidityRestriction p_return
) return boolean {
for (var integer i := 0; i < lengthof(p_cert.validity_restrictions); i := i + 1) {
if (valueof(p_cert).validity_restrictions[i].type_ == p_type) {
p_return := valueof(p_cert).validity_restrictions[i];
return true;
log("f_getCertificateValidityRestriction: Failed to retrieve ", p_type);
} // End of function f_getCertificateValidityRestriction
function f_getCertificateSignerInfo(
in template (value) Certificate p_cert,
out SignerInfo p_si
) return boolean {
if (isbound(valueof(p_cert.signer_info))) {
p_si := valueof(p_cert.signer_info);
return true;
}
log("f_getCertificateSignerInfo: Failed to retrieve ");
function f_getCertificateSubjectAttribute(
in template (value) Certificate p_cert,
in SubjectAttributeType p_type,
out SubjectAttribute p_return
) return boolean {
for (var integer i := 0; i < lengthof(p_cert.subject_attributes); i := i + 1) {
if (valueof(p_cert).subject_attributes[i].type_ == p_type) {
p_return := valueof(p_cert).subject_attributes[i];
return true;
}
}
log("f_getCertificateSubjectAttribute: Failed to retrieve ", p_type);
1358
1359
1360
1361
1362
1363
1364
1365
1366
1367
1368
1369
1370
1371
1372
1373
1374
1375
1376
1377
1378
1379
1380
1381
1382
1383
1384
1385
1386
1387
1388
1389
1390
1391
1392
1393
1394
1395
1396
1397
1398
1399
1400
1401
1402
1403
1404
1405
1406
1407
1408
1409
1410
1411
group certificatesCaching {
function f_createCertificatesCaching(
in CertificateChain p_certificates,
out CertificatesCaching p_certificatesCaching
) return boolean {
p_certificatesCaching := { };
for (var integer v_counter := 0; v_counter < lengthof(p_certificates); v_counter := v_counter + 1) {
var CertificatesCachingItem v_item;
v_item.certificate := p_certificates[v_counter];
v_item.hashedId8 := f_calculateDigestFromCertificate(v_item.certificate);
p_certificatesCaching[v_counter] := v_item;
} // End of 'for' statement
return true;
}
function f_getCertificateFromCaching(
in CertificatesCaching p_certificatesCaching,
in HashedId8 p_hashedId8,
out Certificate p_certificate
) return boolean {
for (var integer v_counter := 0; v_counter < lengthof(p_certificatesCaching); v_counter := v_counter + 1) {
if (match(p_certificatesCaching[v_counter].hashedId8, p_hashedId8) == true) {
p_certificate := p_certificatesCaching[v_counter].certificate;
return true;
}
} // End of 'for' statement
return false;
}
function f_getCertificatesCachingItem(
in CertificatesCaching p_certificatesCaching,
in UInt8 p_index,
out Certificate p_certificate
) return boolean {
if (lengthof(p_certificatesCaching) < p_index) {
p_certificate := p_certificatesCaching[p_index].certificate;
return true;
}
return false;
}
function f_getCertificatesCachingItemSize(
in CertificatesCaching p_certificatesCaching
) return UInt8 {
return lengthof(p_certificatesCaching);
}
}// End of group certificatesCaching
} // End of group helpersFunctions
* @desc Produces a 256-bit (32-byte) hash value
* @param p_toBeHashedData Data to be used to calculate the hash value
* @return The hash value
*/
external function fx_hashWithSha256(in octetstring p_toBeHashedData) return Oct32;
/**
* @desc Produces a Elliptic Curve Digital Signature Algorithm (ECDSA) signaturee
* @param p_toBeSignedSecuredMessage The data to be signed
* @param p_privateKey The private key
* @return The signature value
*/
external function fx_signWithEcdsaNistp256WithSha256(in octetstring p_toBeSignedSecuredMessage, in octetstring/*UInt64*/ p_privateKey) return octetstring;
/**
* @desc Verify the signature of the specified data
* @param p_toBeVerifiedData The data to be verified
* @param p_signature The signature
* @param p_ecdsaNistp256PublicKeyX The public key (x coordinate)
* @param p_ecdsaNistp256PublicKeyY The public key (y coordinate)
* @return true on success, false otherwise
*/
external function fx_verifyWithEcdsaNistp256WithSha256(in octetstring p_toBeVerifiedData, in octetstring p_signature, in octetstring p_ecdsaNistp256PublicKeyX, in octetstring p_ecdsaNistp256PublicKeyY) return boolean;
/**
* @desc Produce a new public/private key pair based on Elliptic Curve Digital Signature Algorithm (ECDSA) algorithm.
* This function should not be used by the ATS
* @param p_privateKey The new private key value
* @param p_publicKeyX The new public key value (x coordinate)
* @param p_publicKeyX The new public key value (y coordinate)
* @return true on success, false otherwise
*/
external function fx_generateKeyPair(out octetstring/*UInt64*/ p_privateKey, out octetstring p_publicKeyX, out octetstring p_publicKeyY) return boolean;
} // End of group signing
group encryption {
} // End of group encryption
group certificatesLoader {
/**
* @desc Load in memory cache the certificates available in the specified directory
* @param p_rootDirectory Root directory to access to the certificates identified by the certificate ID
* @param p_configId A configuration identifier
* @remark This method SHALL be call before any usage of certificates
* @return true on success, false otherwise
*/
external function fx_loadCertificates(in charstring p_rootDirectory, in charstring p_configId) return boolean;
/**
* @desc Unload from memory cache the certificates
* @return true on success, false otherwise
*/
external function fx_unloadCertificates() return boolean;
* @desc Read the specified certificate
* @param p_certificateId the certificate identifier
* @param p_certificate the expected certificate
* @return true on success, false otherwise
*/
external function fx_readCertificate(in charstring p_certificateId, out octetstring p_certificate) return boolean;
/**
* @desc Read the specified certificate digest
* @param p_certificateId the certificate identifier
* @param p_digest the expected certificate
* @return true on success, false otherwise
*/
external function fx_readCertificateDigest(in charstring p_certificateId, out HashedId8 p_digest) return boolean;
* @desc Read the private keys for the specified certificate
* @param p_keysId the keys identifier
* @param p_signingPrivateKey the signing private key
* @return true on success, false otherwise
*/
external function fx_readSigningKey(in charstring p_keysId, out Oct32 p_signingPrivateKey) return boolean;
/**
* @desc Read the private keys for the specified certificate
* @param p_keysId the keys identifier
* @param p_encryptPrivateKey the encrypt private key
* @return true on success, false otherwise
*/
external function fx_readEncryptingKey(in charstring p_keysId, out Oct32 p_encryptingPrivateKey) return boolean;
} // End of group certificatesLoader
* @desc Check that given polygon doesn't have neither self-intersections nor holes.
* @param p_region Polygonal Region
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isValidPolygonalRegion(in PolygonalRegion p_region) return boolean;
* @desc Check if a polygonal region is inside another one
* @param p_parent The main polygonal region
* @param p_region The polygonal region to be included
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isPolygonalRegionInside(in PolygonalRegion p_parent, in PolygonalRegion p_region) return boolean;
* @desc Check that the location is inside a circular region
* @param p_region The circular region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isLocationInsideCircularRegion(in CircularRegion p_region, in ThreeDLocation p_location) return boolean;
* @desc Check that the location is inside a rectangular region
* @param p_region The rectangular region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isLocationInsideRectangularRegion(in RectangularRegions p_region, in ThreeDLocation p_location) return boolean;
* @desc Check that the location is inside a polygonal region
* @param p_region The polygonal region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isLocationInsidePolygonalRegion(in PolygonalRegion p_region, in ThreeDLocation p_location) return boolean;
* @desc Check if the location is inside an identified region
* @param p_region The identified region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
external function fx_isLocationInsideIdentifiedRegion(in IdentifiedRegion p_region, in ThreeDLocation p_location) return boolean;
/**
* @desc Check if the location is inside an undefined region
* @param p_region The identified region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
// TODO To be implemented in TA
external function fx_isLocationInsideOtherRegion(in octetstring p_region, in ThreeDLocation p_location) return boolean;
1576
1577
1578
1579
1580
1581
1582
1583
1584
1585
1586
1587
1588
1589
1590
1591
1592
1593
1594
1595
1596
1597
1598
1599
1600
1601
1602
1603
/**
* @desc Check that p_circular_region_1 circular region is included into p_circular_region_2 circular region
* @param p_circular_region_1 Circular region 1
* @param p_circular_region_2 Circular region 2
*
* @return true on success, false otherwise
*/
external function fx_areCirclesInside(in CircularRegion p_circular_region_1, in CircularRegion p_circular_region_2) return boolean;
/**
* @desc Check that p_rectanglar_region_1 rectangular region is included into p_rectanglar_region_2 rectangular region
* @param p_rectanglar_region_1 Rectangular region 1
* @param p_rectanglar_region_2 Rectangular region 2
*
* @return true on success, false otherwise
*/
external function fx_areRectanglesInside(in RectangularRegions p_rectanglar_region_1, in RectangularRegions p_rectanglar_region_2) return boolean;
/**
* @desc Check that p_polygonal_region_1 polygonal region is included into p_polygonal_region_2 polygonal region
* @param p_polygonal_region_1 Polygonal region 1
* @param p_polygonal_region_2 Polygonal region 2
*
* @return true on success, false otherwise
*/
external function fx_arePolygonsInside(in PolygonalRegion p_polygonal_region_1, in PolygonalRegion p_polygonal_region_2) return boolean;
* @desc Convert a spacial coordinate from DMS to Dms
* @param p_degrees The degrees (D)
* @param p_minutes The minutes (M)
* @param p_seconds The seconds (S)
* @param p_latlon The latitude/longitude: (N|S|E|W)
* @return The decimal coordinate on success, 0.0, otherwise
* @verdict Unchanged
*/
external function fx_dms2dd(in Int p_degrees, in Int p_minutes, in float p_seconds, in Oct1 p_latlon) return float;
} // End of group externalFunctions
1621
1622
1623
1624
1625
1626
1627
1628
1629
1630
1631
1632
1633
1634
1635
1636
1637
1638
1639
1640
1641
1642
1643
1644
1645
1646
1647
1648
1649
1650
1651
1652
1653
1654
1655
1656
1657
1658
1659
1660
1661
1662
1663
1664
1665
1666
1667
1668
1669
1670
1671
1672
1673
1674
1675
1676
1677
1678
1679
1680
1681
1682
1683
1684
1685
1686
1687
1688
function f_checkRegionValidityRestiction(
in Certificate p_cert,
in Certificate p_cert_issuer
) return boolean {
var ValidityRestriction v_cert_region, v_cert_issuer_region;
var boolean v_cert_issuer_region_result;
v_cert_issuer_region_result := f_getCertificateValidityRestriction(p_cert_issuer, e_region, v_cert_issuer_region);
if (f_getCertificateValidityRestriction(p_cert, e_region, v_cert_region) == false) {
if (v_cert_issuer_region_result == true) {
if (not match(v_cert_issuer_region.validity.region.region_type, e_none)) {
return false;
}
}
} else if (
(v_cert_issuer_region_result == true) and
(not match(v_cert_issuer_region.validity.region.region_type, e_none))
) {
if (match(v_cert_region.validity.region.region_type, e_circle)) {
if (match(v_cert_issuer_region.validity.region.region_type, e_circle)) {
// Check v_cert_region 'circle' is inside v_cert_issuer_region 'circle'
if (f_areCirclesInside(v_cert_region.validity.region.region.circular_region, v_cert_issuer_region.validity.region.region.circular_region) == false) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing certificates circle area does not match ***");
return false;
}
}
} else if (match(v_cert_region.validity.region.region_type, e_rectangle)) {
if (match(v_cert_issuer_region.validity.region.region_type, e_rectangle)) {
// Check v_cert_region 'rectangle' is inside v_cert_issuer_region 'rectangle'
if (f_areRectanglesInside(v_cert_region.validity.region.region.rectangular_region, v_cert_issuer_region.validity.region.region.rectangular_region) == false) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing certificates rectangle area does not match ***");
return false;
}
}
} else if (match(v_cert_region.validity.region.region_type, e_polygon)) {
if (match(v_cert_issuer_region.validity.region.region_type, e_polygon)) {
// Check v_cert_region 'polygon' is inside v_cert_issuer_region 'polygon'
if (f_arePolygonsInside(v_cert_region.validity.region.region.polygonal_region, v_cert_issuer_region.validity.region.region.polygonal_region) == false) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing certificates polygon area does not match ***");
return false;
}
}
} else if (match(v_cert_region.validity.region.region_type,e_id)) {
// Check id_region
if (not match (v_cert_region.validity.region, mw_geographicRegion_identified(mw_identifiedRegion_iso3166_any))) {
log("*** " & testcasename() & ": FAIL: Identified region is not conformed to ISO 3166-1 ***");
return false;
}
if (not match (v_cert_region.validity.region, mw_geographicRegion_identified(mw_identifiedRegion_un_stats_any))) {
log("*** " & testcasename() & ": FAIL: Identified region is not conformed to United Nations Statistics Division ***");
return false;
}
// Check region_dictionary
if (not match (v_cert_region.validity.region.region.id_region.region_dictionary, v_cert_issuer_region.validity.region.region.id_region.region_dictionary)) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing 'region_dictionary' field does not match ***");
return false;
}
// Check region_identifier
if (not match (v_cert_region.validity.region.region.id_region.region_identifier, v_cert_issuer_region.validity.region.region.id_region.region_identifier)) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing 'region_identifier' field does not match ***");
return false;
}
// Check local_region
if (
(not match (v_cert_issuer_region.validity.region.region.id_region.local_region, v_cert_region.validity.region.region.id_region.local_region)) or
(not match (v_cert_issuer_region.validity.region.region.id_region.local_region, 0))
) {
log("*** " & testcasename() & ": FAIL: Issuer and issuing 'local_region' field does not match ***");
}
}
}
return true;
} // End of function f_checkRegionValidityRestiction
1698
1699
1700
1701
1702
1703
1704
1705
1706
1707
1708
1709
1710
1711
1712
1713
1714
1715
1716
1717
1718
1719
1720
1721
1722
1723
1724
1725
1726
1727
1728
1729
1730
1731
1732
1733
1734
1735
1736
1737
1738
1739
1740
1741
1742
1743
* @desc Check that p_circular_region_1 circular region is included into p_circular_region_2 circular region
* @param p_circular_region_1 Circular region 1
* @param p_circular_region_2 Circular region 2
*
* @return true on success, false otherwise
*/
function f_areCirclesInside(
in CircularRegion p_circular_region_1,
in CircularRegion p_circular_region_2
) return boolean {
return fx_areCirclesInside(p_circular_region_1, p_circular_region_2);
}
/**
* @desc Check that p_rectanglar_region_1 rectangular region is included into p_rectanglar_region_2 rectangular region
* @param p_rectanglar_region_1 Rectangular region 1
* @param p_rectanglar_region_2 Rectangular region 2
*
* @return true on success, false otherwise
*/
function f_areRectanglesInside(
in RectangularRegions p_rectanglar_region_1,
in RectangularRegions p_rectanglar_region_2
) return boolean {
return fx_areRectanglesInside(p_rectanglar_region_1, p_rectanglar_region_2);
}
/**
* @desc Check that p_polygonal_region_1 polygonal region is included into p_polygonal_region_2 polygonal region
* @param p_polygonal_region_1 Polygonal region 1
* @param p_polygonal_region_2 Polygonal region 2
*
* @return true on success, false otherwise
*/
function f_arePolygonsInside(
in PolygonalRegion p_polygonal_region_1,
in PolygonalRegion p_polygonal_region_2
) return boolean {
return fx_arePolygonsInside(p_polygonal_region_1, p_polygonal_region_2);
}
/**
* @desc Check that given location is valid
* @param p_location location to be checked
* @return true on success, false otherwise
*/
(valueof(p_location).longitude != c_maxLongitude + 1) and
(valueof(p_location).latitude != c_maxLatitude + 1);
} // End of function f_isValidTwoDLocation
* @desc Check that two given rectanlular regions are intersected
* Note: Regions must be normalized(northwest.latitude >= southeast.latitude)
* @param p_r1 Region 1
* @param p_r2 Region 2
*
* @return true on success, false otherwise
*/
function f_isRectangularRegionsIntersected(
in template (value) RectangularRegion p_r1,
in template (value) RectangularRegion p_r2
return not (
valueof(p_r2).northwest.longitude > valueof(p_r1).southeast.longitude or
valueof(p_r2).southeast.longitude < valueof(p_r1).northwest.longitude or
valueof(p_r2).southeast.latitude > valueof(p_r1).northwest.latitude or
valueof(p_r2).northwest.latitude < valueof(p_r1).southeast.latitude
);
} // End of function f_isRectangularRegionsIntersected
in template (value) RectangularRegions p_region
1775
1776
1777
1778
1779
1780
1781
1782
1783
1784
1785
1786
1787
1788
1789
1790
1791
1792
1793
1794
1795
var integer v_i, v_j;
var boolean v_found;
for (v_i := 0; v_i < lengthof(p_region); v_i := v_i + 1) {
var PolygonalRegion v_region_base;
f_convertRectangularRegionIntoPolygonalRegion(p_region[v_i], v_region_base);
v_found := false;
for (v_j := 0; v_j < lengthof(p_region); v_j := v_j + 1) {
if (v_j != v_i) {
var PolygonalRegion v_region;
f_convertRectangularRegionIntoPolygonalRegion(p_region[v_j], v_region);
if (f_isPolygonalRegionInside(v_region, v_region_base) == true) {
v_found := true;
}
}
} // End of 'for' statement
if (v_found == false) {
return false;
}
} // End of 'for' statement
} // End of function f_isContinuousRectangularRegions
* @desc Check if a polygonal region is inside another one
* @param p_parent The main polygonal region
* @param p_region The polygonal region to be included
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isRectangularRegionsInside(
in template (value) RectangularRegions p_parent,
in template (value) RectangularRegions p_region
var integer v_i, v_j;
for (v_i := 0; v_i < lengthof(p_parent); v_i := v_i + 1) {
var PolygonalRegion v_region_parent, v_region;
f_convertRectangularRegionIntoPolygonalRegion(p_parent[v_i], v_region_parent);
for (v_j := 0; v_j < lengthof(p_parent); v_j := v_j + 1) {
f_convertRectangularRegionIntoPolygonalRegion(p_region[v_j], v_region);
if (f_isPolygonalRegionInside(v_region, v_region_parent) == true) {
return true;
}
} // End of 'for' statement
} // End of 'for' statement
return false;
} // End of function f_isRectangularRegionsInside
/**
* @desc Convert a rectangular region into a polygonal region
* @param p_region The rectangular regions to convert
* @return
* @verdict
*/
function f_convertRectangularRegionIntoPolygonalRegion(
in template (value) RectangularRegion p_rectangular_region,
out PolygonalRegion p_region
) return boolean {
var integer v_counter := 0;
// Convert rectangular regions to polygons and check polygons
p_region[0] := valueof(p_rectangular_region.northwest);
p_region[1] := {
valueof(p_rectangular_region.northwest.latitude) + valueof(p_rectangular_region.southeast.latitude),
valueof(p_rectangular_region.northwest.longitude)
};
p_region[2] := valueof(p_rectangular_region.southeast);
p_region[3] := {
valueof(p_rectangular_region.northwest.latitude),
valueof(p_rectangular_region.northwest.longitude) + valueof(p_rectangular_region.southeast.longitude)
};
log("f_convertRectangularRegionIntoPolygonalRegion: DEBUG: Northwest location is invalid in rect ", p_region);
return true;
} // End of function
* @desc Check that given polygon doesn't have neither self-intersections nor holes.
* @param p_region Polygonal Region
* @return true on success, false otherwise
* @verdict Unchanged
*/
// Sanity check
if (not isbound(p_region) or (lengthof(p_region) == 0)) {
return false;
}
return fx_isValidPolygonalRegion(valueof(p_region));
} // End of function f_isValidPolygonalRegion
* @desc Check if a polygonal region is inside another one
* @param p_parent The main polygonal region
* @param p_region The polygonal region to be included
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isPolygonalRegionInside(
in template (value) PolygonalRegion p_parent,
in template (value) PolygonalRegion p_region
// Sanity check
if (not isbound(p_parent) or not isbound(p_region) or (lengthof(p_parent) == 0) or (lengthof(p_region) == 0)) {
return false;
}
return fx_isPolygonalRegionInside(valueof(p_parent), valueof(p_region));
} // End of function f_isPolygonalRegionInside
function f_isIdentifiedRegionInside(
in template (value) UInt16 p_parent,
in template (value) UInt16 p_region
} // End of function f_isIdentifiedRegionInside
* @desc Check that the location is inside a region
* @param p_region The region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isLocationInsideRegion(
in template (value) GeographicRegion p_region,
in template (value) ThreeDLocation p_location
) return boolean {
var boolean v_ret := false;
select (p_region.region_type) {
case (e_none) {
v_ret := true;
}
case (e_circle) {
v_ret := f_isLocationInsideCircularRegion(p_region.region.circular_region, p_location);
case (e_rectangle) {
v_ret := f_isLocationInsideRectangularRegion(p_region.region.rectangular_region, p_location);
case (e_polygon) {
v_ret := f_isLocationInsidePolygonalRegion(p_region.region.polygonal_region, p_location);
case (e_id) {
v_ret := f_isLocationInsideIdentifiedRegion(p_region.region.id_region, p_location);
case else {
v_ret := f_isLocationInsideOtherRegion(p_region.region.other_region, p_location);
} // End of function f_isLocationInsideRegion
/**
* @desc Check that the location is inside a circular region
* @param p_region The circular region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isLocationInsideCircularRegion(
in template (value) CircularRegion p_region,
in template (value) ThreeDLocation p_location
// Sanity check
if (not isbound(p_region) or not isbound(p_location)) {
return false;
}
return fx_isLocationInsideCircularRegion(valueof(p_region), valueof(p_location));
} // End of function f_isLocationInsideCircularRegion
/**
* @desc Check that the location is inside a rectangular region
* @param p_region The rectangular region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isLocationInsideRectangularRegion(
in template (value) RectangularRegions p_region,
in template (value) ThreeDLocation p_location
// Sanity check
if (not isbound(p_region) or not isbound(p_location) or (lengthof(p_region) == 0)) {
return false;
}
// log("f_isLocationInsideRectangularRegion: p_polygonalArea: ", p_region);
// log("f_isLocationInsideRectangularRegion: p_location: ", p_location);
return fx_isLocationInsideRectangularRegion(valueof(p_region), valueof(p_location));
} // End of function f_isLocationInsideRectangularRegion
/**
* @desc Check that the location is inside a polygonal region
* @param p_region The polygonal region to consider
* @param p_location The device location
* @return true on success, false otherwise
* @verdict Unchanged
*/
function f_isLocationInsidePolygonalRegion(
in template (value) PolygonalRegion p_region,
in template (value) ThreeDLocation p_location
// Sanity check
if (not isbound(p_region) or not isbound(p_location) or (lengthof(p_region) == 0)) {
return false;
}
// log("f_isLocationInsidePolygonalRegion: p_polygonalArea: ", p_region, " - ", valueof(p_region));
// log("f_isLocationInsidePolygonalRegion: p_location: ", p_location, " - ", valueof(p_location));
return fx_isLocationInsidePolygonalRegion(valueof(p_region), valueof(p_location));
} // End of function f_isLocationInsidePolygonalRegion
/**
* @desc Check if the location is inside an identified region
* @param p_region The identified region to consider