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security_cache::security_cache(): _certificates(), _hashed_id8s() {
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loggers::get_instance().log(">>> security_cache::security_cache");
} // End of ctor
security_cache::~security_cache() {
loggers::get_instance().log(">>> security_cache::~security_cache");
clear();
} // End of dtor
int security_cache::clear() {
loggers::get_instance().log(">>> security_cache::clear");
_certificates.clear(); // Smart pointers will do the job
_hashed_id8s.clear();
return 0;
} // End of clear method
int security_cache::get_certificate_id(const OCTETSTRING& p_hashed_id8, std::string& p_certifcate_id) const {
loggers::get_instance().log_msg(">>> security_cache::get_certificate_id: ", p_hashed_id8);
std::vector<unsigned char> key(static_cast<const unsigned char*>(p_hashed_id8), p_hashed_id8.lengthof() + static_cast<const unsigned char*>(p_hashed_id8));
std::map<std::vector<unsigned char>, std::string>::const_iterator it = _hashed_id8s.find(key);
if (it == _hashed_id8s.cend()) {
p_certifcate_id = "";
return -1;
}
p_certifcate_id = it->second;
return 0;
}
int security_cache::get_certificate(const std::string& p_certificate_id, OCTETSTRING& p_certificate) const {
loggers::get_instance().log(">>> security_cache::get_certificate: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_certificate: record not found");
return -1;
}
const std::vector<unsigned char> cert = it->second.get()->certificate();
p_certificate = OCTETSTRING(cert.size(), cert.data());
return 0;
}
int security_cache::get_certificate(const std::string& p_certificate_id, IEEE1609dot2::CertificateBase& p_certificate) const {
loggers::get_instance().log(">>> security_cache::get_certificate: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_certificate: record not found");
return -1;
}
p_certificate = it->second.get()->decoded_certificate();
return 0;
}
int security_cache::get_issuer(const std::string& p_certificate_id, OCTETSTRING& p_hashed_id_issuer) const {
loggers::get_instance().log(">>> security_cache::get_issuer: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_issuer: record not found");
return -1;
}
const std::vector<unsigned char> issuer = it->second.get()->issuer();
p_hashed_id_issuer = OCTETSTRING(issuer.size(), issuer.data());
return 0;
}
int security_cache::get_hashed_id(const std::string& p_certificate_id, OCTETSTRING& p_hashed_id) const {
loggers::get_instance().log(">>> security_cache::get_hashed_id: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_hashed_id: record not found");
return -1;
}
const std::vector<unsigned char> hashed_id = it->second.get()->hashed_id();
p_hashed_id = OCTETSTRING(hashed_id.size(), hashed_id.data());
return 0;
}
int security_cache::get_private_key(const std::string& p_certificate_id, OCTETSTRING& p_private_key) const {
loggers::get_instance().log(">>> security_cache::get_private_key: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_private_key: record not found");
return -1;
}
const std::vector<unsigned char> private_key = it->second.get()->private_key();
p_private_key = OCTETSTRING(private_key.size(), private_key.data());
return 0;
}
int security_cache::get_public_keys(const std::string& p_certificate_id, OCTETSTRING& p_public_key_x, OCTETSTRING& p_public_key_y) const {
loggers::get_instance().log(">>> security_cache::get_public_keys: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_public_keys: record not found");
return -1;
}
const std::vector<unsigned char> public_key_x = it->second.get()->public_key_x();
p_public_key_x = OCTETSTRING(public_key_x.size(), public_key_x.data());
const std::vector<unsigned char> public_key_y = it->second.get()->public_key_y();
p_public_key_y = OCTETSTRING(public_key_y.size(), public_key_y.data());
return 0;
}
int security_cache::get_public_comp_key(const std::string& p_certificate_id, OCTETSTRING& p_public_comp_key, INTEGER& p_comp_mode) const {
loggers::get_instance().log(">>> security_cache::get_public_comp_key: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_public_comp_key: record not found");
return -1;
}
const std::vector<unsigned char> public_comp_key = it->second.get()->public_comp_key(); // 33 or 49 bytes length
p_public_comp_key = OCTETSTRING(public_comp_key.size() - 1, 1 + public_comp_key.data()); // 32 or 48 bytes length
p_comp_mode = INTEGER(((public_comp_key[0] % 2) == 0) ? 0 : 1); // compressed-y-0 or compressed-y-1
return 0;
}
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int security_cache::get_private_enc_key(const std::string& p_certificate_id, OCTETSTRING& p_private_enc_key) const {
loggers::get_instance().log(">>> security_cache::get_private_enc_key: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_private_enc_key: record not found");
return -1;
}
const std::vector<unsigned char> private_enc_key = it->second.get()->private_enc_key();
p_private_enc_key = OCTETSTRING(private_enc_key.size(), private_enc_key.data());
return 0;
}
int security_cache::get_public_enc_keys(const std::string& p_certificate_id, OCTETSTRING& p_public_enc_key_x, OCTETSTRING& p_public_enc_key_y) const {
loggers::get_instance().log(">>> security_cache::get_public_enc_keys: '%s'", p_certificate_id.c_str());
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.find(p_certificate_id);
if (it == _certificates.cend()) {
loggers::get_instance().warning("security_cache::get_public_enc_keys: record not found");
return -1;
}
const std::vector<unsigned char> public_enc_key_x = it->second.get()->public_enc_key_x();
p_public_enc_key_x = OCTETSTRING(public_enc_key_x.size(), public_enc_key_x.data());
const std::vector<unsigned char> public_enc_key_y = it->second.get()->public_enc_key_y();
p_public_enc_key_y = OCTETSTRING(public_enc_key_y.size(), public_enc_key_y.data());
return 0;
}
int security_cache::store_certificate(const CHARSTRING& p_cert_id, const OCTETSTRING& p_cert, const OCTETSTRING& p_private_key, const OCTETSTRING& p_public_key_x, const OCTETSTRING& p_public_key_y, const OCTETSTRING& p_public_compressed_key, const INTEGER& p_public_compressed_key_mode, const OCTETSTRING& p_hashed_id8, const OCTETSTRING& p_issuer, const OCTETSTRING& p_private_enc_key, const OCTETSTRING& p_public_enc_key_x, const OCTETSTRING& p_public_enc_key_y) {
loggers::get_instance().log_msg(">>> security_cache::store_certificate: ", p_cert_id);
std::string key(static_cast<const char*>(p_cert_id));
std::vector<unsigned char> cert(static_cast<const unsigned char*>(p_cert), static_cast<const unsigned char*>(p_cert) + p_cert.lengthof());
std::vector<unsigned char> private_key(static_cast<const unsigned char*>(p_private_key), static_cast<const unsigned char*>(p_private_key) + p_private_key.lengthof());
std::vector<unsigned char> public_key_x(static_cast<const unsigned char*>(p_public_key_x), static_cast<const unsigned char*>(p_public_key_x) + p_public_key_x.lengthof());
std::vector<unsigned char> public_key_y(static_cast<const unsigned char*>(p_public_key_y), static_cast<const unsigned char*>(p_public_key_y) + p_public_key_y.lengthof());
std::vector<unsigned char> public_comp_key(static_cast<const unsigned char*>(p_public_compressed_key), static_cast<const unsigned char*>(p_public_compressed_key) + p_public_compressed_key.lengthof());
public_comp_key.insert(public_comp_key.begin(), (unsigned char)(2 + p_public_compressed_key_mode)); // Add one byte to indicate cmpressed-y-0 (0x02) or compressed-y-1 (0x03)
std::vector<unsigned char> hashed_id8(static_cast<const unsigned char*>(p_hashed_id8), static_cast<const unsigned char*>(p_hashed_id8) + p_hashed_id8.lengthof());
std::vector<unsigned char> issuer(static_cast<const unsigned char*>(p_issuer), static_cast<const unsigned char*>(p_issuer) + p_issuer.lengthof());
std::vector<unsigned char> private_enc_key;
std::vector<unsigned char> public_enc_key_x;
std::vector<unsigned char> public_enc_key_y;
loggers::get_instance().log_to_hexa("security_cache::store_certificate: public_comp_key: ", public_comp_key.data(), public_comp_key.size());
if ((p_private_enc_key.is_bound() != 0) && (p_private_enc_key.lengthof() != 0)) {
private_enc_key.assign(static_cast<const unsigned char*>(p_private_enc_key), static_cast<const unsigned char*>(p_private_enc_key) + p_private_enc_key.lengthof());
public_enc_key_x.assign(static_cast<const unsigned char*>(p_public_enc_key_x), static_cast<const unsigned char*>(p_public_enc_key_x) + p_public_enc_key_x.lengthof());
public_enc_key_y.assign(static_cast<const unsigned char*>(p_public_enc_key_y), static_cast<const unsigned char*>(p_public_enc_key_y) + p_public_enc_key_y.lengthof());
} // else, no encryption keys
codec.decode(p_cert, decoded_certificate);
loggers::get_instance().log_msg("security_cache::store_certificate: Decoded certificate: ", decoded_certificate);
security_db_record* p = new security_db_record(
key, // Certificate id
cert, // Certificate
issuer, // Hashed ID for the issuer
hashed_id8, // Hashed ID
private_key, // Private key
public_key_x, // Public key X-coordinate
public_key_y, // Public key Y-coordinate
public_comp_key, // Public compressed key, 33 or 49 bytes
private_enc_key, // Private encryption key
public_enc_key_x, // Public encryption key X-coordinate
public_enc_key_y // Public encryption key Y-coordinate
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);
if (p == nullptr) {
return -1;
}
std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator i = _certificates.find(key);
if (i != _certificates.cend()) {
_certificates.erase(i);
}
std::map<std::vector<unsigned char>, std::string>::const_iterator h = _hashed_id8s.find(hashed_id8);
if (h != _hashed_id8s.cend()) {
_hashed_id8s.erase(h);
}
_certificates.insert(std::pair<std::string, std::unique_ptr<security_db_record> >(key, std::unique_ptr<security_db_record>(p)));
_hashed_id8s.insert(std::pair<std::vector<unsigned char>, std::string&>(hashed_id8, key));
dump();
return 0;
}
void security_cache::dump() const {
loggers::get_instance().log("security_cache::dump_certificates: # items = %d", _certificates.size());
for (std::map<std::string, std::unique_ptr<security_db_record> >::const_iterator it = _certificates.cbegin(); it != _certificates.cend(); ++it) {
security_db_record* p = it->second.get();
loggers::get_instance().log("security_cache::dump: certificate_id = %s", p->certificate_id().c_str());
loggers::get_instance().log_to_hexa("security_cache::dump: certificate = ", p->certificate().data(), p->certificate().size());
loggers::get_instance().log_msg("security_cache::dump: decoded certificate = ", p->decoded_certificate());
loggers::get_instance().log_to_hexa("security_cache::dump: hashed_id = ", p->hashed_id().data(), p->hashed_id().size());
loggers::get_instance().log_to_hexa("security_cache::dump: private_key = ", p->private_key().data(), p->private_key().size());
loggers::get_instance().log_to_hexa("security_cache::dump: public_key_x = ", p->public_key_x().data(), p->public_key_x().size());
loggers::get_instance().log_to_hexa("security_cache::dump: public_key_y = ", p->public_key_y().data(), p->public_key_y().size());
loggers::get_instance().log_to_hexa("security_cache::dump: public_comp_key = ", p->public_comp_key().data(), p->public_comp_key().size());
loggers::get_instance().log_to_hexa("security_cache::dump: private_enc_key = ", p->private_enc_key().data(), p->private_enc_key().size());
loggers::get_instance().log_to_hexa("security_cache::dump: public_enc_key_x = ", p->public_enc_key_x().data(), p->public_enc_key_x().size());
loggers::get_instance().log_to_hexa("security_cache::dump: public_enc_key_y = ", p->public_enc_key_y().data(), p->public_enc_key_y().size());
} // End of 'for' statement
for (std::map<std::vector<unsigned char>, std::string>::const_iterator it = _hashed_id8s.cbegin(); it != _hashed_id8s.cend(); ++it) {
loggers::get_instance().log("security_cache::dump: Hashedid8 idx = %s", it->second.c_str());
} // End of 'for' statement
} // End of method dump