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/**
* @author ETSI / STF481 / Yann Garcia
* @version $URL$
* $Id$
*/
package org.etsi.its.adapter;
import java.io.ByteArrayInputStream;
import java.io.ByteArrayOutputStream;
import java.io.IOException;
import java.util.HashMap;
import java.util.Map;
import org.etsi.common.ByteHelper;
import de.fraunhofer.sit.c2x.CryptoLib;
public class SecurityHelper {
private static SecurityHelper Instance = new SecurityHelper();
public static SecurityHelper getInstance() { return Instance; }
/**
* Storage for received certificates
*/
private Map<Long, ByteArrayOutputStream> _neighborsCertificates = null;
private SecurityHelper() {
_neighborsCertificates = new HashMap<Long, ByteArrayOutputStream>();
}
public byte[] size2tls(final int length) {
byte[] result = null;
if (length < 128) { // One byte length
result = new byte[] { (byte)length };
} else {
long lv = length;
long bitLen = bitLength(lv);
long byteLen = byteLength(bitLen);
long flags = (long) ((byteLen | 1) << (byteLen * Byte.SIZE - bitLength(byteLen) - 1));
long len = (long) (byteLen << (byteLen * Byte.SIZE - bitLength(byteLen) - 1));
if ((flags & lv) != 0) { // We can encode the length on the MSB part
byteLen += 1;
len = (long) (byteLen << (byteLen * Byte.SIZE - bitLength(byteLen)) - 1);
}
result = ByteHelper.longToByteArray((long)(lv | len), (int) byteLen);
}
return result;
}
public long tls2size(final ByteArrayInputStream buf) {
// Sanity check
if (buf.available() == 0) {
return 0;
}
// Read the first byte
byte msb = (byte) buf.read();
if ((msb & 0x80) == 0x00) { // Integer < 128
return msb;
} else {
// Decode the length. The encoding of the length shall use at most 7 bits set to 1 (see Draft ETSI TS 103 097 V1.1.14 Clause 4.1 Presentation Language Table 1/8)
byte bit;
byte byteLen = 1;
do {
bit = (byte) ((byte) (msb << byteLen++) & 0x80);
} while (bit != 0x00);
// Set the IntX length
byte[] data = new byte[byteLen - 1];
buf.read(data, 0, byteLen - 1);
byte[] length = ByteHelper.concat(new byte[] { msb }, data);
length[0] &= (byte)(Math.pow(2.0, 8 - byteLen + 1) - 1);
long lv = ByteHelper.byteArrayToLong(length);
return lv;
}
}
public long bitLength(final long value) {
return (long) Math.ceil(Math.log(value) / Math.log(2));
}
public long byteLength(final long value) {
double d = value; // Convert int to double
return (long) Math.ceil(d / Byte.SIZE);
}
public byte[] checkSecuredProfileAndExtractPayload(final byte[] p_message, final int p_offset, final boolean p_enforceSecurityCheck, final int p_itsAidOther) {
System.out.println(">>> SecurityHelper.checkSecuredProfileAndExtractPayload: " + ByteHelper.byteArrayToString(p_message));
ByteArrayInputStream decvalue = new ByteArrayInputStream(p_message, p_offset, p_message.length - p_offset);
// Check version
if (decvalue.read() != 2) {
System.err.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Drop packet - Wrong version number");
if (p_enforceSecurityCheck) {
// Drop it
return null;
}
}
// Extract header fields length and header fields
long headerFieldsLength = tls2size(decvalue);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: headerFieldsLength:" + headerFieldsLength);
byte[] headerFields = new byte[(int) headerFieldsLength];
decvalue.read(headerFields, 0, (int) headerFieldsLength);
ByteArrayOutputStream certificateKeys = new ByteArrayOutputStream();
if (!checkHeaderfields(headerFields, certificateKeys, p_enforceSecurityCheck, p_itsAidOther)) {
System.err.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Drop packet - Wrong Headerfields");
if (p_enforceSecurityCheck) {
// Drop it
return null;
}
}
byte[] aaSigningPublicKeyX, aaSigningPublicKeyY;
aaSigningPublicKeyX = ByteHelper.extract(certificateKeys.toByteArray(), 0, 32);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: aaSigningPublicKeyX:" + ByteHelper.byteArrayToString(aaSigningPublicKeyX));
aaSigningPublicKeyY = ByteHelper.extract(certificateKeys.toByteArray(), 32, 32);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: aaSigningPublicKeyX:" + ByteHelper.byteArrayToString(aaSigningPublicKeyX));
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: headerFields:" + ByteHelper.byteArrayToString(headerFields));
// Extract payload, decvalue is updated with the payload
if (decvalue.read() != 1) {
System.err.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Drop packet - Wrong Payload type");
if (p_enforceSecurityCheck) {
// Drop it
return null;
}
}
long payloadLength = tls2size(decvalue);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: payloadLength:" + payloadLength);
byte[] payload = new byte[(int) payloadLength];
decvalue.read(payload, 0, (int) payloadLength);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: payload:" + ByteHelper.byteArrayToString(payload));
if (p_enforceSecurityCheck) { // Extract Secure Trailer
long secureTrailerLength = tls2size(decvalue);
byte[] secureTrailer = new byte[(int) secureTrailerLength];
decvalue.read(secureTrailer, 0, secureTrailer.length);
ByteArrayOutputStream signature = new ByteArrayOutputStream();
if (!extractMessageSignature(secureTrailer, signature)) {
// Drop it
System.err.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Drop packet - Wrong Signatures");
return null;
}
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: signature:" + ByteHelper.byteArrayToString(signature.toByteArray()));
// Build signed data
byte[] toBeVerifiedData = ByteHelper.extract(
p_message,
p_offset,
p_message.length - (int)(p_offset + secureTrailerLength - 1 /* Exclude signature structure but keep signature type and signature length */)
);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload:" + ByteHelper.byteArrayToString(toBeVerifiedData));
// Calculate Digest digest from the buffer toBeVerifiedData
byte[] hash = CryptoLib.hashWithSha256(toBeVerifiedData);
boolean result;
try {
result = CryptoLib.verifyWithEcdsaNistp256WithSha256(
hash,
signature.toByteArray(),
aaSigningPublicKeyX,
aaSigningPublicKeyY
);
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Verify signature: " + new Boolean(result));
if (!result) {
// Drop packet
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: toBeVerifiedData :" + ByteHelper.byteArrayToString(toBeVerifiedData));
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Hash :" + ByteHelper.byteArrayToString(hash));
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: signature :" + ByteHelper.byteArrayToString(signature.toByteArray()));
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: aaSigningPublicKeyX:" + ByteHelper.byteArrayToString(aaSigningPublicKeyX));
System.out.println("SecurityHelper.checkSecuredProfileAndExtractPayload: aaSigningPublicKeyY:" + ByteHelper.byteArrayToString(aaSigningPublicKeyY));
System.err.println("SecurityHelper.checkSecuredProfileAndExtractPayload: Drop packet - Invalid signature");
return null;
}
return payload;
} catch (Exception e) {
e.printStackTrace();
}
// Drop packet
System.err.println("<<< SecurityHelper.checkSecuredProfileAndExtractPayload: dropped");
return null;
}
return payload;
}
public boolean checkHeaderfields(final byte[] p_headerfields, final ByteArrayOutputStream p_keys, final boolean p_enforceSecurityCheck, final int p_itsAidOther) {
System.out.println(">>> SecurityHelper.checkHeaderfields: " + ByteHelper.byteArrayToString(p_headerfields));
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// Sanity check
if (p_headerfields.length == 0) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Invalid header fields");
return false;
}
// Extract digest or certificate
int signerInfoTypeIndex = 0;
if (
((p_headerfields[signerInfoTypeIndex] & 0x80) != 0x80) || // SignerInfo Type: certificate digest with ecdsap256 (1)
(
(p_headerfields[signerInfoTypeIndex + 1] != 0x01) && // SignerInfo Type: certificate digest with ecdsap256 (1)
(p_headerfields[signerInfoTypeIndex + 1] != 0x02) && // SignerInfo Type: certificate (2)
(p_headerfields[signerInfoTypeIndex + 1] != 0x03) // SignerInfo Type: certificate chain (3)
)
) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Certificate");
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
signerInfoTypeIndex += 1;
if (p_headerfields[signerInfoTypeIndex] == 0x02) { // SignerInfo Type: Certificate (2)
signerInfoTypeIndex += 1;
// Extract certificate because of it is an Other message profile
byte[] certificate = decodeCertificate(p_headerfields, signerInfoTypeIndex, p_keys);
if (certificate == null) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Certificate not decoded");
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
System.out.println("SecurityHelper.checkHeaderfields: Certificate=" + ByteHelper.byteArrayToString(certificate));
// Add it in our map
Long lKey = ByteHelper.byteArrayToLong(calculateDigestFromCertificate(certificate));
if (!_neighborsCertificates.containsKey(lKey)) {
System.out.println("SecurityHelper.checkHeaderfields: Add keys for " + ByteHelper.byteArrayToString(calculateDigestFromCertificate(certificate)) + " / " + lKey);
_neighborsCertificates.put(lKey, p_keys);
}
signerInfoTypeIndex += certificate.length;
} else if (p_headerfields[signerInfoTypeIndex] == 0x01) { // SignerInfo Type: certificate digest with SHA256 (1)
signerInfoTypeIndex += 1;
byte[] hashedid8 = ByteHelper.extract(p_headerfields, signerInfoTypeIndex, Long.SIZE / Byte.SIZE);
signerInfoTypeIndex += (Long.SIZE / Byte.SIZE);
Long lKey = ByteHelper.byteArrayToLong(hashedid8);
System.out.println("SecurityHelper.checkHeaderfields: Certificate digest with SHA256=" + lKey + "/ " + ByteHelper.byteArrayToString(hashedid8));
if (!_neighborsCertificates.containsKey(lKey) || (_neighborsCertificates.get(lKey) == null)) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Unknown HahedId8");
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
try {
p_keys.write(_neighborsCertificates.get(lKey).toByteArray());
} catch (Exception e) {
// Drop it
e.printStackTrace();
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
} else { // TODO Add certchain support
signerInfoTypeIndex += 1;
ByteArrayInputStream ba = new ByteArrayInputStream(ByteHelper.extract(p_headerfields, signerInfoTypeIndex, p_headerfields.length - signerInfoTypeIndex));
int certChainLength = (int) this.tls2size(ba);
System.out.println("SecurityHelper.checkHeaderfields: Certchain length = " + certChainLength);
signerInfoTypeIndex += this.size2tls(certChainLength).length;
ByteArrayOutputStream keys;
do {
// Extract certificate because of it is an Other message profile
keys = new ByteArrayOutputStream();
byte[] certificate = decodeCertificate(p_headerfields, signerInfoTypeIndex, keys);
if (certificate == null) {
// Drop it
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Failed to decode chain of certificate");
return false;
}
System.out.println("SecurityHelper.checkHeaderfields: Certificate=" + ByteHelper.byteArrayToString(certificate));
// Add it in our map
Long lKey = ByteHelper.byteArrayToLong(calculateDigestFromCertificate(certificate));
if (!_neighborsCertificates.containsKey(lKey)) {
System.out.println("SecurityHelper.checkHeaderfields: Add keys for " + ByteHelper.byteArrayToString(calculateDigestFromCertificate(certificate)) + " / " + lKey);
_neighborsCertificates.put(lKey, p_keys);
}
certChainLength -= certificate.length;
signerInfoTypeIndex += certificate.length;
System.out.println("SecurityHelper.checkHeaderfields: Extracted certificate = " + ByteHelper.byteArrayToString(certificate));
} while (certChainLength > 0);
}
if (p_headerfields[signerInfoTypeIndex++] != 0x00) { // Header Field: Generation Time (0)
if (p_enforceSecurityCheck) {
// Drop it
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - GenerationTime not found");
return false;
}
}
long generationTime = ByteHelper.byteArrayToLong(ByteHelper.extract(p_headerfields, signerInfoTypeIndex, Long.SIZE / Byte.SIZE));
System.out.println("SecurityHelper.checkHeaderfields: generationTime=" + generationTime);
if (Math.abs(System.currentTimeMillis() - generationTime) < 1000) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - GenerationTime out of range");
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
signerInfoTypeIndex += (Long.SIZE / Byte.SIZE);
// Check generation location
if (p_headerfields[signerInfoTypeIndex++] != 0x03) { // Header Field: Generation Location (3)
if (p_enforceSecurityCheck) {
// Drop it
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - GenerationTime not found");
return false;
}
}
byte[] threeDLocation = ByteHelper.extract(p_headerfields, signerInfoTypeIndex, (2 * Integer.SIZE + 2 * Byte.SIZE) / Byte.SIZE);
System.out.println("SecurityHelper.checkHeaderfields: threeDLocation=" + threeDLocation);
// TODO Check generation location
signerInfoTypeIndex += threeDLocation.length;
if (signerInfoTypeIndex < p_headerfields.length) {
System.out.println("SecurityHelper.checkHeaderfields: dump #1=" + ByteHelper.byteArrayToString(ByteHelper.extract(p_headerfields, signerInfoTypeIndex, p_headerfields.length - signerInfoTypeIndex)));
if (p_headerfields[signerInfoTypeIndex] == 0x03) { // Header Field: Generation Location (3)
signerInfoTypeIndex += 1;
byte[] lat = ByteHelper.extract(p_headerfields, signerInfoTypeIndex, 4);
signerInfoTypeIndex += 4;
System.out.println("SecurityHelper.checkHeaderfields: latitude=" + ByteHelper.byteArrayToString(lat));
byte[] lon = ByteHelper.extract(p_headerfields, signerInfoTypeIndex, 4);
signerInfoTypeIndex += 4;
System.out.println("SecurityHelper.checkHeaderfields: longitude=" + ByteHelper.byteArrayToString(lon));
byte[] ele = ByteHelper.extract(p_headerfields, signerInfoTypeIndex, 2);
signerInfoTypeIndex += 2;
System.out.println("SecurityHelper.checkHeaderfields: elevation=" + ByteHelper.byteArrayToString(ele));
}
}
if (signerInfoTypeIndex < p_headerfields.length) {
System.out.println("SecurityHelper.checkHeaderfields: dump #2=" + ByteHelper.byteArrayToString(ByteHelper.extract(p_headerfields, signerInfoTypeIndex, p_headerfields.length - signerInfoTypeIndex)));
if (p_headerfields[signerInfoTypeIndex] == 0x05) { // Header Field: Its AID (5)
signerInfoTypeIndex += 1;
// Check ItsAid
if ((p_headerfields[signerInfoTypeIndex] & 0x80) == 0x00) { // Short integer
if (
(p_headerfields[signerInfoTypeIndex] != 0x24) && // CAM
(p_headerfields[signerInfoTypeIndex] != 0x25) && // DENM
(p_headerfields[signerInfoTypeIndex] != p_itsAidOther)
) {
System.err.println("SecurityHelper.checkHeaderfields: Drop packet - Unknown ItsAid value");
if (p_enforceSecurityCheck) {
// Drop it
return false;
}
}
System.out.println("SecurityHelper.checkHeaderfields: ItsAid=" + p_headerfields[signerInfoTypeIndex]);
signerInfoTypeIndex += 1;
} else {
// FIXME to be continued
}
}
}
if (signerInfoTypeIndex < p_headerfields.length) {
// TODO check other fields
System.out.println("SecurityHelper.checkHeaderfields: dump #3=" + ByteHelper.byteArrayToString(ByteHelper.extract(p_headerfields, signerInfoTypeIndex, p_headerfields.length - signerInfoTypeIndex)));
}
return true;
}
public byte[] decodeCertificate(final byte[] p_headerfields, final int p_offset, final ByteArrayOutputStream p_keys) {
System.out.println(">>> SecurityHelper.decodeCertificate: " + ByteHelper.byteArrayToString(ByteHelper.extract(p_headerfields, p_offset, p_headerfields.length - p_offset)));
ByteArrayInputStream headerfields = new ByteArrayInputStream(p_headerfields, p_offset, p_headerfields.length - p_offset);
System.out.println("SecurityHelper.decodeCertificate: headerfields length=" + headerfields.available());
ByteArrayOutputStream cert = new ByteArrayOutputStream(); // FIXME To be removed
try {
// Version
cert.write((byte)headerfields.read());
if (cert.toByteArray()[0] != 0x02) {
System.err.println("SecurityHelper.decodeCertificate: Wrong version number");
return null;
}
// SignerInfo type
byte signerInfoType = (byte)headerfields.read();
cert.write(signerInfoType);
switch (signerInfoType) {
case 0x01:
byte[] digest = new byte[8];
headerfields.read(digest, 0, digest.length);
System.out.println("SecurityHelper.decodeCertificate: hashedid8=" + ByteHelper.byteArrayToString(digest));
cert.write(digest);
break;
// FIXME To be continued
} // End of 'switch' statement
// SubjectInfo type
byte subjectInfoType = (byte)headerfields.read();
if (
(subjectInfoType != 0x01) && // Subject Info: authorization ticket (1)
(subjectInfoType != 0x02) // Subject Info: authorization authority (2)
) {
System.err.println("SecurityHelper.decodeCertificate: Subject Info: authorization authority/ticket expected - " + ByteHelper.byteArrayToString(cert.toByteArray()));
return null;
}
cert.write(subjectInfoType);
long length = tls2size(headerfields);
if (length != 0) {
cert.write(size2tls((int) length));
byte[] subjectInfo = new byte[(int) length];
headerfields.read(subjectInfo, 0, subjectInfo.length);
cert.write(subjectInfo);
System.out.println("SecurityHelper.decodeCertificate: subjectInfo: " + ByteHelper.byteArrayToString(subjectInfo));
} else {
cert.write(0x00);
}
// Subject Attributes length
length = tls2size(headerfields);
cert.write(size2tls((int) length));
// Subject Attributes
byte[] b = new byte[(int) length];
headerfields.read(b, 0, b.length);
cert.write(b);
System.out.println("SecurityHelper.decodeCertificate: Subject Attributes length=" + length + " / " + headerfields.available());
ByteArrayInputStream subjectAttributes = new ByteArrayInputStream(b);
if (subjectAttributes.read() == 0x00) { // Subject Attribute: verification key (0) - Mandatory
if (subjectAttributes.read() == 0x00) { // Public Key Alg: ecdsa nistp256 with sha256 (0)
if (subjectAttributes.read() == 0x04) { // ECC Point Type: uncompressed (4)
byte[] key = new byte[32];
subjectAttributes.read(key, 0, 32);
p_keys.write(key);
System.out.println("SecurityHelper.decodeCertificate: Verification key1=" + ByteHelper.byteArrayToString(key));
subjectAttributes.read(key, 0, 32);
System.out.println("SecurityHelper.decodeCertificate: Verification key2=" + ByteHelper.byteArrayToString(key));
p_keys.write(key);
} // FIXME To be continued
} // FIXME To be continued
} // FIXME To be continued
// Read the next header
byte v = (byte) subjectAttributes.read();
if (v == 0x01) { // // Subject Attribute: encryption key (1)
if (subjectAttributes.read() == 0x01) { // Public Key Alg: ecdsa nistp256 (1)
if (subjectAttributes.read() == 0x00) { // Symmetric Algorithm: aes 128 ccm (0)
if (subjectAttributes.read() == 0x04) { // ECC Point Type: uncompressed (4)
byte[] key = new byte[32];
subjectAttributes.read(key, 0, 32);
System.out.println("SecurityHelper.decodeCertificate: Encryption key1=" + ByteHelper.byteArrayToString(key));
//p_keys.write(key);
subjectAttributes.read(key, 0, 32);
System.out.println("SecurityHelper.decodeCertificate: Encryption key2=" + ByteHelper.byteArrayToString(key));
//p_keys.write(key);
} // FIXME To be continued
} // FIXME To be continued
} // FIXME To be continued
// Read the next header
v = (byte) subjectAttributes.read();
} // FIXME To be continued
// Assurance level
if (v != 0x02) {
System.err.println("SecurityHelper.decodeCertificate: Assurance level expected - " + ByteHelper.byteArrayToString(cert.toByteArray()));
return null;
}
v = (byte) subjectAttributes.read(); // Skip assurance level value
System.out.println("SecurityHelper.decodeCertificate: assurance level value=" + v);
if (subjectInfoType == 0x01) { // Authorization Ticket
if (subjectAttributes.read() != 0x21) { // Subject Attribute: its aid ssp list (33)
System.err.println("SecurityHelper.decodeCertificate: Its aid ssp list expected - " + ByteHelper.byteArrayToString(cert.toByteArray()));
return null;
}
length = tls2size(subjectAttributes);
System.out.println("SecurityHelper.decodeCertificate: Its aid ssp length=" + length);
byte[] its_aid_ssp_list = new byte[(int) length];
subjectAttributes.read(its_aid_ssp_list, 0, (int) length);
System.out.println("SecurityHelper.decodeCertificate: its_aid_list=" + ByteHelper.byteArrayToString(its_aid_ssp_list));
// TODO Process ATS AID list
} else if (subjectInfoType == 0x02) { // Authorization Authority
if (subjectAttributes.read() != 0x20) { // Subject Attribute: its aid ssp (32)
System.err.println("SecurityHelper.decodeCertificate: Its aid list expected - " + ByteHelper.byteArrayToString(cert.toByteArray()));
return null;
}
length = tls2size(subjectAttributes);
System.out.println("SecurityHelper.decodeCertificate: its_aid_list length=" + length);
byte[] its_aid_list = new byte[(int) length];
subjectAttributes.read(its_aid_list, 0, (int) length);
System.out.println("SecurityHelper.decodeCertificate: its_aid_list=" + ByteHelper.byteArrayToString(its_aid_list));
// TODO Process ATS AID list
} else {
System.err.println("SecurityHelper.decodeCertificate: Unknown subjectInfoType - " + subjectInfoType);
return null;
}
// Validity restrictions
length = tls2size(headerfields);
System.out.println("SecurityHelper.decodeCertificate: Length=" + length + " / " + headerfields.available());
cert.write(size2tls((int)length));
v = (byte)headerfields.read();
if (v == 0x00) { // Validity Restriction: time end (0)
cert.write(v);
byte[] time = new byte[4];
headerfields.read(time, 0, 4);
cert.write(time);
int endTime = ByteHelper.byteArrayToInt(time);
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: endTime=" + endTime);
// Check times
long currentTime = (System.currentTimeMillis() - 1072915200000L) / 1000L;
if (currentTime > endTime) {
System.err.println("SecurityHelper.decodeCertificate: Validity Restriction: time end not matched");
return null;
}
v = (byte)headerfields.read();
}
if (v == 0x01) { // Validity Restriction: time start and end (1)
cert.write(v);
byte[] time = new byte[4];
headerfields.read(time, 0, 4);
cert.write(time);
int startTime = ByteHelper.byteArrayToInt(time);
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: startTime=" + startTime);
headerfields.read(time, 0, 4);
cert.write(time);
int endTime = ByteHelper.byteArrayToInt(time);
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: endTime=" + endTime);
// Check times
long currentTime = (System.currentTimeMillis() - 1072915200000L) / 1000L;
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: currentTime=" + currentTime);
if ((currentTime < startTime) || (currentTime > endTime)) {
System.err.println("SecurityHelper.decodeCertificate: Validity Restriction: time start and end not matched");
return null;
}
v = (byte)headerfields.read();
}
if (v == 0x02) { // Validity Restriction: time start and duration (2)
cert.write(v);
byte[] time = new byte[4];
headerfields.read(time, 0, 4);
cert.write(time);
int startTime = ByteHelper.byteArrayToInt(time);
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: startTime=" + startTime);
byte[] dur = new byte[2];
headerfields.read(dur, 0, 2);
cert.write(dur);
short duration = ByteHelper.byteArrayToShort(dur);
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: duration=" + duration);
int unit = (duration & 0xe0000) >>> 13;
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: unit=" + unit);
long value = (duration & 0x1fff);
switch (unit) {
case 0:
// Nothing to do
break;
case 1:
value *= 60;
break;
case 2:
value *= 3600;
break;
default:
System.err.println("SecurityHelper.decodeCertificate: Validity Restriction: time start and duration not processed");
value = Long.MAX_VALUE;
} // End of 'switch' statement
System.out.println("SecurityHelper.decodeCertificate: Validity Restriction: value=" + value);
// Check times
long currentTime = (System.currentTimeMillis() - 1072915200000L) / 1000L;
if ((currentTime < startTime) || (currentTime > (startTime + value))) {
System.err.println("SecurityHelper.decodeCertificate: Validity Restriction: time start and duration not matched");
return null;
}
v = (byte)headerfields.read();
}
if (v == 0x03) { // region (3)
cert.write(v);
// Region type
v = (byte)headerfields.read();
cert.write(v);
if (v == 0x00) { // none (0)
// Nothing to do
} else if (v == 0x01) { // circle (1)
byte[] lat = new byte[4];
headerfields.read(lat, 0, lat.length);
cert.write(lat);
System.out.println("SecurityHelper.decodeCertificate: Circle lat=" + ByteHelper.byteArrayToString(lat));
byte[] lon = new byte[4];
headerfields.read(lon, 0, lon.length);
cert.write(lon);
System.out.println("SecurityHelper.decodeCertificate: Circle lon=" + ByteHelper.byteArrayToString(lon));
byte[] rad = new byte[2];
headerfields.read(rad, 0, rad.length);
cert.write(rad);
System.out.println("SecurityHelper.decodeCertificate: Circle rad=" + ByteHelper.byteArrayToInt(rad));
} else if (v == 0x02) { // rectangle (2)
int rlength = (int) tls2size(headerfields);
cert.write(size2tls(rlength));
while (rlength > 0) {
byte[] ulat = new byte[4];
headerfields.read(ulat, 0, ulat.length);
cert.write(ulat);
byte[] ulon = new byte[4];
headerfields.read(ulon, 0, ulon.length);
cert.write(ulon);
byte[] llat = new byte[4];
headerfields.read(llat, 0, llat.length);
cert.write(llat);
byte[] llon = new byte[4];
headerfields.read(llon, 0, llon.length);
cert.write(llon);
System.out.println("SecurityHelper.decodeCertificate: Rectangle ulat=" + ByteHelper.byteArrayToString(ulat));
System.out.println("SecurityHelper.decodeCertificate: Rectangle ulon=" + ByteHelper.byteArrayToString(ulon));
System.out.println("SecurityHelper.decodeCertificate: Rectangle llat=" + ByteHelper.byteArrayToString(llat));
System.out.println("SecurityHelper.decodeCertificate: Rectangle llon=" + ByteHelper.byteArrayToString(llon));
rlength -= 4 * 4;
}
} else if (v == 0x03) { // polygon (3)
int plength = (int) tls2size(headerfields);
cert.write(size2tls((int) plength));
byte[] polygonalRegion = new byte[plength];
while (plength > 0) {
byte[] lat = new byte[4];
headerfields.read(lat, 0, lat.length);
cert.write(lat);
byte[] lon = new byte[4];
headerfields.read(lon, 0, lon.length);
cert.write(lon);
System.out.println("SecurityHelper.decodeCertificate: poly point lat=" + ByteHelper.byteArrayToString(lat));
System.out.println("SecurityHelper.decodeCertificate: poly point lon=" + ByteHelper.byteArrayToString(lon));
plength -= 2 * 4;
}
headerfields.read(polygonalRegion, 0, polygonalRegion.length);
cert.write(polygonalRegion);
// TODO Process Validity Restriction
System.out.println("SecurityHelper.decodeCertificate: polygonal=" + ByteHelper.byteArrayToString(polygonalRegion));
} else if (v == 0x04) { // id (4)
v = (byte)headerfields.read();
cert.write(v);
byte[] ri = new byte[2];
headerfields.read(ri, 0, ri.length);
cert.write(ri);
int lr = (int) tls2size(headerfields);
cert.write(size2tls((int) lr));
// TODO Process Validity Restriction
System.out.println("SecurityHelper.decodeCertificate: Region t=" + v);
System.out.println("SecurityHelper.decodeCertificate: Region ri=" + ByteHelper.byteArrayToString(ri));
System.out.println("SecurityHelper.decodeCertificate: Region lr=" + lr);
} else {
System.err.println("SecurityHelper.decodeCertificate: Unexpected geographical region");
return null;
}
}
System.out.println("SecurityHelper.decodeCertificate: Before signature: " + ByteHelper.byteArrayToString(cert.toByteArray()));
// Signature
byte publicKeyAlg = (byte)headerfields.read();
cert.write(publicKeyAlg);
switch (publicKeyAlg) {
case 0x00: // ecdsa nistp256 with sha256
byte eccPointType = (byte)headerfields.read();
cert.write(eccPointType);
switch (eccPointType) {
case 0x00: // ECC Point Type: x-coordinate only
byte[] key = new byte[64];
headerfields.read(key, 0, key.length);
cert.write(key);
System.out.println("SecurityHelper.decodeCertificate: Signature=" + ByteHelper.byteArrayToString(key));
break;
} // End of 'switch' statement
break;
} // End of 'switch' statement
// TODO Check certificate signature
System.out.println("SecurityHelper.decodeCertificate: Processed cert=" + ByteHelper.byteArrayToString(cert.toByteArray()));
return cert.toByteArray();
} catch (IOException e) {
e.printStackTrace();
}
System.err.println("SecurityHelper.decodeCertificate: Unsupported certificate - " + ByteHelper.byteArrayToString(cert.toByteArray()));
return null;
}
public boolean extractMessageSignature(final byte[] p_secureTrailer, final ByteArrayOutputStream p_signature) {
System.out.println(">>> SecurityHelper.extractMessageSignature: " + ByteHelper.byteArrayToString(p_secureTrailer));
// Sanity check
if (p_secureTrailer.length == 0) {
return false;
}
// Extract digest or certificate
int secureTrailerIndex = 0;
if (p_secureTrailer[secureTrailerIndex++] == 0x01) { // Trailer Type: signature (1)
if (p_secureTrailer[secureTrailerIndex++] == 0x00) { // Public Key Alg: ecdsa nistp256 with sha256 (0)
if (p_secureTrailer[secureTrailerIndex++] == 0x02) { // ECC Point Type: compressed lsb y-0 (2)
if (p_secureTrailer.length == (3 + 2 * 32)) {
// Build the signature vector
try {
p_signature.write(new byte[] { (byte)0x00, (byte)0x00 });
p_signature.write(ByteHelper.extract(p_secureTrailer, 3, 64));
System.out.println("<<< SecurityHelper.extractMessageSignature: true");
return true;
} catch (IOException e) {
e.printStackTrace();
}
} // FIXME To be continued
} // FIXME To be continued
} // FIXME To be continued
} // FIXME To be continued
// Else, drop it
System.err.println("SecurityHelper.extractMessageSignature: Drop packet - Wrong signature");
return false;
}
public byte[] calculateDigestFromCertificate(final byte[] p_toBeHashedData) {
System.out.println("SecurityHelper.calculateDigestFromCertificate: " + ByteHelper.byteArrayToString(p_toBeHashedData));
byte[] hash = CryptoLib.hashWithSha256(p_toBeHashedData);
System.out.println("SecurityHelper.calculateDigestFromCertificate: " + ByteHelper.byteArrayToString(hash));