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#include <stdexcept>
#include <regex>
#include <string>
#include "codec_stack_builder.hh"
#include "http_codec.hh"
#include "loggers.hh"
#include "LibItsHttp_TypesAndValues.hh"
#include "LibItsHttp_MessageBodyTypes.hh"
#include "LibItsHttp_XmlMessageBodyTypes.hh"
#include "LibItsHttp_JsonMessageBodyTypes.hh"
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int http_codec::encode (const LibItsHttp__TypesAndValues::HttpMessage& msg, OCTETSTRING& data)
{
loggers::get_instance().log_msg(">>> http_codec::encode: ", (const Base_Type&)msg);
loggers::get_instance().log(">>> http_codec::encode: %p", this);
TTCN_EncDec::clear_error();
TTCN_Buffer encoding_buffer;
_ec.reset();
int result;
if (msg.ischosen(LibItsHttp__TypesAndValues::HttpMessage::ALT_request)) {
result = encode_request(msg.request(), encoding_buffer);
} else if (msg.ischosen(LibItsHttp__TypesAndValues::HttpMessage::ALT_response)) {
result = encode_response(msg.response(), encoding_buffer);
} else {
loggers::get_instance().warning("http_codec::encode: Unbound HttpMessage");
return -1;
}
data = OCTETSTRING(encoding_buffer.get_len(), encoding_buffer.get_data());
loggers::get_instance().log_msg("<<< http_codec::encode: data=", data);
return result;
}
int http_codec::decode (const OCTETSTRING& data, LibItsHttp__TypesAndValues::HttpMessage& msg, params* params)
{
loggers::get_instance().log_msg(">>> http_codec::decode: data=", data);
TTCN_EncDec::clear_error();
TTCN_Buffer decoding_buffer(data);
loggers::get_instance().log_to_hexa("http_codec::decode: decoding_buffer=", decoding_buffer);
_dc.reset();
_params = params;
// Get the first line (e.g. HTTP/1.1 302 Found or POST / HTTP/1.1)
CHARSTRING message_id;
if (get_line(decoding_buffer, message_id) == -1) {
return -1;
}
loggers::get_instance().log_msg("http_codec::decode: message_id: ", message_id);
// Extract parameters
try {
std::string str(static_cast<const char*>(message_id));
std::regex rgx ("\\s*(\\w+)/");
std::sregex_iterator begin(str.cbegin(), str.cend(), rgx);
std::smatch m = *begin;
loggers::get_instance().log("http_codec::decode: %d - %s", m.size(), m[0].str().c_str());
if (m[0].str().compare("HTTP/") == 0) { // HTTP response
LibItsHttp__TypesAndValues::Response response;
std::regex rgx ("\\s*HTTP/(\\d+)\\.(\\d+)\\s+(\\d+)\\s+([\\w\\s\\t\\v\\f]+)*");
std::sregex_iterator begin(str.cbegin(), str.cend(), rgx);
std::smatch m = *begin;
loggers::get_instance().log("http_codec::decode: Process response: %d", m.size());
if (m.size() != 5) {
loggers::get_instance().error("http_codec::decode: Unsupported tag");
return -1;
}
response.version__major() = std::stoi(m[1].str().c_str());
response.version__minor() = std::stoi(m[2].str().c_str());
response.statuscode() = std::stoi(m[3].str().c_str());
response.statustext() = CHARSTRING(m[4].str().c_str());
std::string content_type;
decode_headers(decoding_buffer, headers, content_type);
response.header() = headers;
loggers::get_instance().log_to_hexa("Before decoding Body: ", decoding_buffer);
LibItsHttp__MessageBodyTypes::HttpMessageBody body;
if (decode_body(decoding_buffer, body, content_type) == -1) {
response.body().set_to_omit();
} else {
response.body() = OPTIONAL<LibItsHttp__MessageBodyTypes::HttpMessageBody>(body);
}
msg.response() = response;
} else { // HTTP request
LibItsHttp__TypesAndValues::Request request;
std::regex rgx ("\\s*(\\w+)\\s+(.+)\\s+HTTP/(\\d)\\.(\\d)");
std::sregex_iterator begin(str.cbegin(), str.cend(), rgx);
std::smatch m = *begin;
if (m.size() != 5) {
loggers::get_instance().error("http_codec::decode: Unsupported tag");
return -1;
}
request.method() = CHARSTRING(m[1].str().c_str());
request.uri() = CHARSTRING(m[2].str().c_str());
request.version__major() = std::stoi(m[3].str().c_str());
request.version__minor() = std::stoi(m[4].str().c_str());
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std::string content_type;
decode_headers(decoding_buffer, headers, content_type);
request.header() = headers;
OPTIONAL<LibItsHttp__MessageBodyTypes::HttpMessageBody> body;
body.set_to_omit();
if (decode_body(decoding_buffer, body, content_type) == -1) {
request.body().set_to_omit();
} else {
request.body() = body;
}
msg.request() = request;
}
loggers::get_instance().log_msg("<<< http_codec::decode: ", (const Base_Type&)msg);
return 0;
}
catch(const std::logic_error& e) {
return -1;
}
}
int http_codec::encode_request(const LibItsHttp__TypesAndValues::Request& p_request, TTCN_Buffer& p_encoding_buffer)
{
loggers::get_instance().log_msg(">>> http_codec::encode_request: ", (const Base_Type&)p_request);
// Encode generic part
p_encoding_buffer.put_cs(p_request.method());
p_encoding_buffer.put_c(' ');
p_encoding_buffer.put_cs(p_request.uri());
p_encoding_buffer.put_cs(" HTTP/");
p_encoding_buffer.put_cs(int2str(p_request.version__major()));
p_encoding_buffer.put_c('.');
p_encoding_buffer.put_cs(int2str(p_request.version__minor()));
p_encoding_buffer.put_cs("\r\n");
// Encode headers excepeted the Content-Length
const LibItsHttp__TypesAndValues::Headers& headers = p_request.header();
std::string content_type;
for (int i = 0; i < headers.size_of(); i++) {
const LibItsHttp__TypesAndValues::Header& header = headers[i];
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loggers::get_instance().log_msg("http_codec::encode_request: Processing header ", header.header__name());
if (std::string(static_cast<const char*>(header.header__name())).compare("Content-Length") == 0) { // Skip it, processed later
loggers::get_instance().log("http_codec::encode_request: Skip it");
continue;
} else {
p_encoding_buffer.put_cs(header.header__name());
p_encoding_buffer.put_cs(": ");
const OPTIONAL<LibItsHttp__TypesAndValues::charstring__list>& o = header.header__value();
if (o.ispresent()) {
const LibItsHttp__TypesAndValues::charstring__list& v = dynamic_cast<const OPTIONAL<LibItsHttp__TypesAndValues::charstring__list> &>(o);
if (v.size_of() > 0) {
loggers::get_instance().log_msg("http_codec::encode_request: Processing value ", v[0]);
if (std::string(static_cast<const char*>(header.header__name())).compare("Content-Type") == 0) { // Store it for HTTP body payload encoding
loggers::get_instance().log("http_codec::encode_request: Storing Content-Type");
int j = 0;
while (j < v.size_of()) {
content_type += v[j++];
} // End of 'while' statement
}
p_encoding_buffer.put_cs(v[0]);
int j = 1;
while (j < v.size_of()) {
p_encoding_buffer.put_cs(", ");
loggers::get_instance().log_msg("http_codec::encode_request: Processing value ", v[j]);
p_encoding_buffer.put_cs(v[j++]);
} // End of 'while' statement
}
} // else, do not include it
}
p_encoding_buffer.put_cs("\r\n");
} // End of 'for' statement
// Encode message body
const OPTIONAL<LibItsHttp__MessageBodyTypes::HttpMessageBody>& v = p_request.body();
OCTETSTRING os;
if (v.ispresent()) {
const LibItsHttp__MessageBodyTypes::HttpMessageBody& body = static_cast<const LibItsHttp__MessageBodyTypes::HttpMessageBody&>(*v.get_opt_value());
loggers::get_instance().log_msg("http_codec::encode_request: body: ", body);
if (encode_body(body, os, content_type) == -1) {
loggers::get_instance().warning("http_codec::encode_request: Failed to encode HTTP body");
_ec.length = 0;
_ec.is_content_length_present = 0x00;
} else {
_ec.length = os.lengthof();
_ec.is_content_length_present = 0x01;
}
loggers::get_instance().log("http_codec::encode_request: length=%d", _ec.length);
} else {
loggers::get_instance().log("http_codec::encode_request: HTTP body field not present");
_ec.length = 0;
_ec.is_content_length_present = 0x00;
}
// Encode Content-Length header
p_encoding_buffer.put_cs("Content-Length: ");
if (_ec.length != 0) {
loggers::get_instance().log("http_codec::encode_request: Content-Length: %s", static_cast<const char*>(int2str(_ec.length + 2/*Stand for the last CRLF*/)));
p_encoding_buffer.put_cs(static_cast<const char*>(int2str(_ec.length)));
_ec.is_content_length_present = 0x01;
} else {
p_encoding_buffer.put_cs("0");
_ec.is_content_length_present = 0x00;
}
loggers::get_instance().log("http_codec::encode_request: Content-Length: %d - %x", _ec.length, _ec.is_content_length_present);
p_encoding_buffer.put_cs("\r\n");
// Add message body
p_encoding_buffer.put_cs("\r\n");
if (_ec.is_content_length_present == 0x01) {
loggers::get_instance().log_msg("http_codec::encode_request: Add body ", os);
p_encoding_buffer.put_os(os);
}
loggers::get_instance().log_to_hexa("<<< http_codec::encode_request: ", p_encoding_buffer);
return 0;
}
int http_codec::encode_response (const LibItsHttp__TypesAndValues::Response& p_response, TTCN_Buffer& p_encoding_buffer) {
loggers::get_instance().log_msg(">>> http_codec::encode_response: ", (const Base_Type&)p_response);
// Encode generic part
p_encoding_buffer.put_cs("HTTP/");
p_encoding_buffer.put_cs(int2str(p_response.version__major()));
p_encoding_buffer.put_c('.');
p_encoding_buffer.put_cs(int2str(p_response.version__minor()));
p_encoding_buffer.put_cs(" ");
p_encoding_buffer.put_cs(int2str(p_response.statuscode()));
p_encoding_buffer.put_cs(" ");
if (p_response.statustext().lengthof() != 0) {
p_encoding_buffer.put_cs(p_response.statustext());
}
p_encoding_buffer.put_cs("\r\n");
// Encode headers excepeted the Content-Length
const LibItsHttp__TypesAndValues::Headers& headers = p_response.header();
std::string content_type;
for (int i = 0; i < headers.size_of(); i++) {
const LibItsHttp__TypesAndValues::Header& header = headers[i];
loggers::get_instance().log_msg("http_codec::encode_response: Processing header ", header.header__name());
p_encoding_buffer.put_cs(header.header__name());
p_encoding_buffer.put_cs(": ");
if (std::string(static_cast<const char*>(header.header__name())).compare("Content-Length") == 0) {
continue;
} else {
const OPTIONAL<LibItsHttp__TypesAndValues::charstring__list>& o = header.header__value();
if (o.ispresent()) {
const LibItsHttp__TypesAndValues::charstring__list& v = dynamic_cast<const OPTIONAL<LibItsHttp__TypesAndValues::charstring__list> &>(o);
if (v.size_of() > 0) {
loggers::get_instance().log_msg("http_codec::encode_response: Processing value ", v[0]);
if (std::string(static_cast<const char*>(header.header__name())).compare("Content-Type") == 0) { // Store it for HTTP body payload encoding
loggers::get_instance().log("http_codec::encode_response: Storing Content-Type");
int j = 0;
while (j < v.size_of()) {
content_type += v[j++];
} // End of 'while' statement
}
p_encoding_buffer.put_cs(v[0]);
int j = 1;
while (j < v.size_of()) {
p_encoding_buffer.put_cs(", ");
loggers::get_instance().log_msg("http_codec::encode_response: Processing value ", v[j]);
j += 1;
} // End of 'while' statement
}
} // else, do not include it
}
p_encoding_buffer.put_cs("\r\n");
} // End of 'for' statement
// Encode message body
const OPTIONAL<LibItsHttp__MessageBodyTypes::HttpMessageBody>& v = p_response.body();
OCTETSTRING os;
if (v.ispresent()) {
const LibItsHttp__MessageBodyTypes::HttpMessageBody& body = static_cast<const LibItsHttp__MessageBodyTypes::HttpMessageBody&>(*v.get_opt_value());
loggers::get_instance().log_msg("http_codec::encode_response: body: ", body);
if (encode_body(body, os, content_type) == -1) {
_ec.length = 0;
_ec.is_content_length_present = 0x00;
} else {
_ec.length = os.lengthof();
_ec.is_content_length_present = 0x01;
}
loggers::get_instance().log("http_codec::encode_response: length=%d", _ec.length);
loggers::get_instance().log("http_codec::encode_response: HTTP body field not present");
_ec.length = 0;
_ec.is_content_length_present = 0x00;
}
// Encode Content-Length header
loggers::get_instance().log("http_codec::encode_request: Content-Length: %s", static_cast<const char*>(int2str(_ec.length + 2/*Stand for the last CRLF*/)));
p_encoding_buffer.put_cs(static_cast<const char*>(int2str(_ec.length)));
_ec.is_content_length_present = 0x01;
} else {
p_encoding_buffer.put_cs("0");
_ec.is_content_length_present = 0x00;
}
loggers::get_instance().log("http_codec::encode_request: Content-Length: %d - %x", _ec.length, _ec.is_content_length_present);
if (_ec.is_content_length_present == 0x01) {
loggers::get_instance().log_msg("http_codec::encode_request: Add body ", os);
loggers::get_instance().log_to_hexa("<<< http_codec::encode_response: ", p_encoding_buffer);
int http_codec::decode_headers(TTCN_Buffer& decoding_buffer, LibItsHttp__TypesAndValues::Headers& headers, std::string& p_content_type) {
loggers::get_instance().log(">>> http_codec::decode_headers");
loggers::get_instance().log_to_hexa("http_codec::decode_headers", decoding_buffer);
CHARSTRING cstr;
int i = 0;
while (true) {
switch(get_line(decoding_buffer, cstr, true)) {
case 0: {
loggers::get_instance().log_msg("http_codec::decode_headers: ", cstr);
if (decode_header(cstr, header) == -1) {
loggers::get_instance().warning("http_codec::decode_headers: Failed to decode header %s", static_cast<const char*>(cstr));
return -1;
}
headers[i++] = header;
if (std::string(static_cast<const char*>(header.header__name())).compare("Content-Type") == 0) {
if (header.header__value().is_present() != 0) {
const PreGenRecordOf::PREGEN__RECORD__OF__CHARSTRING& l = static_cast<const PreGenRecordOf::PREGEN__RECORD__OF__CHARSTRING&>(*header.header__value().get_opt_value());
p_content_type = static_cast<const char*>(l[0]);
} else {
p_content_type = "";
}
}
}
break;
case 1:
loggers::get_instance().log_msg("<<< http_codec::decode_headers: ", headers);
return 0;
case -1:
loggers::get_instance().warning("http_codec::decode_headers: Failed to decode headers");
return -1;
} // End of 'switch' statement
} // End of 'while' statement
}
int http_codec::decode_header(CHARSTRING& header_line, LibItsHttp__TypesAndValues::Header& header) {
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loggers::get_instance().log_msg(">>> http_codec::decode_header", header_line);
try {
std::string str(static_cast<const char*>(header_line));
std::regex rgx ("([0-9a-zA-Z-]+)\\:\\s+(.+)(,(.+))*");
std::sregex_iterator begin(str.cbegin(), str.cend(), rgx);
std::smatch m = *begin;
if (m.size() < 5) {
loggers::get_instance().warning("http_codec::decode_header: Failed to decode header %s", str.c_str());
return -1;
}
loggers::get_instance().log("http_codec::decode_header: %d", m.size());
header.header__name() = CHARSTRING(m[1].str().c_str());
LibItsHttp__TypesAndValues::charstring__list v;
for (unsigned int j = 0; j < m.size(); j++) {
if (m[j + 2].str().length() == 0) {
break;
}
v[j] = CHARSTRING(m[j + 2].str().c_str());
} // End of 'for' statement
header.header__value() = OPTIONAL<LibItsHttp__TypesAndValues::charstring__list>(v);
if (m[1].str().compare("Content-Length") == 0) {
// Save the the body length
loggers::get_instance().log("http_codec::decode_header: decoded Content-Length %s", m[2].str().c_str());
_dc.length = std::stoi(m[2].str());
} else if (m[1].str().compare("Transfer-Encoding") == 0) {
if (m[2].str().find("chunked") != std::string::npos) {
_dc.chunked = true;
loggers::get_instance().log("http_codec::decode_header: decoded Transfer-Encoding %x", _dc.chunked);
}
}
return 0;
}
catch(const std::logic_error& e) {
return -1;
}
}
int http_codec::encode_body(const LibItsHttp__MessageBodyTypes::HttpMessageBody& p_message_body, OCTETSTRING& p_encoding_buffer, const std::string& p_content_type) {
loggers::get_instance().log_msg(">>> http_codec::encode_body: ", (const Base_Type&)p_message_body);
// Sanity check
if (p_content_type.empty()) {
loggers::get_instance().warning("http_codec::encode_body: Failed to select a codec for HTTP body payload");
return -1;
}
if (p_message_body.ischosen(LibItsHttp__MessageBodyTypes::HttpMessageBody::ALT_binary__body)) {
const LibItsHttp__BinaryMessageBodyTypes::BinaryBody& binary_body = p_message_body.binary__body();
if (binary_body.ischosen(LibItsHttp__BinaryMessageBodyTypes::BinaryBody::ALT_raw)) {
p_encoding_buffer = OCTETSTRING(binary_body.raw().lengthof(), (unsigned char*)static_cast<const unsigned char*>(binary_body.raw()));
} else {
std::map<std::string, std::unique_ptr<codec<Record_Type, Record_Type> > >::const_iterator it;
bool processed = false;
if (p_content_type.find("x-its") != std::string::npos) {
loggers::get_instance().log("http_codec::encode_body: Find x-its");
it = _codecs.find("http_its"); // TODO Use params
if (it != _codecs.cend()) {
loggers::get_instance().log("http_codec::encode_body: Call '%s'", it->first.c_str());
//_codecs["http_its"]->encode((Record_Type&)binary_body.ieee1609dot2__data(), p_encoding_buffer); // TODO Use params
processed = true;
}
} // TODO Add new HTTP message codec here
if (!processed) {
loggers::get_instance().warning("http_codec::encode_body: Unsupported HTTP codec, use raw field as default");
p_encoding_buffer = OCTETSTRING(0, nullptr);
}
}
} else if (p_message_body.ischosen(LibItsHttp__MessageBodyTypes::HttpMessageBody::ALT_html__body)) {
p_encoding_buffer = OCTETSTRING(p_message_body.html__body().lengthof(), (unsigned char*)static_cast<const char*>(p_message_body.html__body()));
} else if (p_message_body.ischosen(LibItsHttp__MessageBodyTypes::HttpMessageBody::ALT_text__body)) {
p_encoding_buffer = OCTETSTRING(p_message_body.text__body().lengthof(), (unsigned char*)static_cast<const char*>(p_message_body.text__body()));
} else if (p_message_body.ischosen(LibItsHttp__MessageBodyTypes::HttpMessageBody::ALT_xml__body)) {
const LibItsHttp__XmlMessageBodyTypes::XmlBody& xml_body = p_message_body.xml__body();
if (xml_body.ischosen(LibItsHttp__XmlMessageBodyTypes::XmlBody::ALT_raw)) {
p_encoding_buffer = OCTETSTRING(xml_body.raw().lengthof(), (unsigned char*)static_cast<const char*>(xml_body.raw()));
} else {
std::map<std::string, std::unique_ptr<codec<Record_Type, Record_Type> > >::const_iterator it;
bool processed = false;
loggers::get_instance().log("http_codec::encode_body: Content-Type:'%s'", p_content_type.c_str());
if (p_content_type.find("held") != std::string::npos) {
it = _codecs.find("held"); // TODO Use params
if (it != _codecs.cend()) {
loggers::get_instance().log("http_codec::encode_body: Call 'held_codec'");
_codecs["held"]->encode((Record_Type&)xml_body, p_encoding_buffer); // TODO Use params
processed = true;
}
} else if (p_content_type.find("lost") != std::string::npos) {
it = _codecs.find("lost"); // TODO Use params
if (it != _codecs.cend()) {
loggers::get_instance().log("http_codec::encode_body: Call 'lost_codec'");
_codecs["lost"]->encode((Record_Type&)xml_body, p_encoding_buffer); // TODO Use params
processed = true;
}
} // TODO Add new HTTP message codec here
if (!processed) {
loggers::get_instance().warning("http_codec::encode_body: Unsupported HTTP codec, use raw field as default");
p_encoding_buffer = OCTETSTRING(0, nullptr);
}
}
} else if (p_message_body.ischosen(LibItsHttp__MessageBodyTypes::HttpMessageBody::ALT_json__body)) {
const LibItsHttp__JsonMessageBodyTypes::JsonBody& json_body = p_message_body.json__body();
if (json_body.ischosen(LibItsHttp__JsonMessageBodyTypes::JsonBody::ALT_raw)) {
p_encoding_buffer = unichar2oct(json_body.raw());
} else {
std::map<std::string, std::unique_ptr<codec<Record_Type, Record_Type> > >::const_iterator it;
bool processed = false;
loggers::get_instance().log("http_codec::encode_body: Content-Type:'%s'", p_content_type.c_str());
if (p_content_type.find("json") != std::string::npos) {
it = _codecs.find("json"); // TODO Use params
if (it != _codecs.cend()) {
loggers::get_instance().log("http_codec::encode_body: Call 'json_codec'");
_codecs["json"]->encode((Record_Type&)json_body, p_encoding_buffer); // TODO Use params
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processed = true;
}
} // TODO Add new HTTP message codec here
if (!processed) {
loggers::get_instance().warning("http_codec::encode_body: Unsupported HTTP codec, use raw field as default");
p_encoding_buffer = OCTETSTRING(0, nullptr);
}
}
} else {
loggers::get_instance().warning("http_codec::encode_body: Failed to encode HTTP message body");
return -1;
}
loggers::get_instance().log_msg("http_codec::encode_body: HTTP message ", p_encoding_buffer);
_ec.length = p_encoding_buffer.lengthof();
loggers::get_instance().log("http_codec::encode_body: HTTP message length: %d", _ec.length);
return 0;
}
int http_codec::decode_body(TTCN_Buffer& decoding_buffer, LibItsHttp__MessageBodyTypes::HttpMessageBody& message_body, const std::string& p_content_type) {
loggers::get_instance().log(">>> http_codec::decode_body");
loggers::get_instance().log_to_hexa("http_codec::decode_body", decoding_buffer);
loggers::get_instance().log("http_codec::decode_body: # of codecs=%d - %p", _codecs.size(), this);
loggers::get_instance().log("http_codec::decode_body: Content-Type=%s", p_content_type.c_str());
// Sanity checks
if (decoding_buffer.get_len() - decoding_buffer.get_pos() <= 0) {
return -1;
}
loggers::get_instance().warning("http_codec::encode_body: Failed to select a codec for HTTP body payload");
return -1;
}*/
OCTETSTRING s(decoding_buffer.get_len() - decoding_buffer.get_pos(), decoding_buffer.get_data() + decoding_buffer.get_pos());
loggers::get_instance().log_msg("http_codec::decode_body: raw body=", s);
// Align the payload length with the specified Content-Lenght value
loggers::get_instance().log("http_codec::decode_body: _dc.length=%d - body length=%d", _dc.length, s.lengthof());
OCTETSTRING body;
if (_dc.length != 0) {
const unsigned char* p = static_cast<const unsigned char *>(s);
if ((unsigned int)s.lengthof() <= _dc.length) {
body = OCTETSTRING(s.lengthof(), p);
} else {
body = OCTETSTRING(_dc.length, p);
}
} else {
loggers::get_instance().warning("http_codec::decode_body: No Conten-Length header, process all remaining bytes");
body = s;
}
loggers::get_instance().log_msg("http_codec::decode_body: Aligned body=", body);
loggers::get_instance().log("http_codec::decode_body: body length=%d", body.lengthof());
// Remove CRLF if any
int counter = 0;
if ((body[body.lengthof() - 1].get_octet() == 0x0d) || (body[body.lengthof() - 1].get_octet() == 0x0a)) {
counter += 1;
if ((body[body.lengthof() - 2].get_octet() == 0x0d) || (body[body.lengthof() - 2].get_octet() == 0x0a)) {
counter += 1;
}
}
loggers::get_instance().log("http_codec::decode_body: counter=%d", counter);
body = OCTETSTRING(body.lengthof() - counter, static_cast<const unsigned char*>(body));
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int prev = 0;
OCTETSTRING os(0, nullptr);
do {
while (counter < body.lengthof()) { // Extract the size of the chunk <chunk size>\r[\n]
if ((body[counter].get_octet() == '\r') || (body[counter].get_octet() == '\n')) {
break;
}
counter += 1;
} // End of 'while' statement
loggers::get_instance().log("http_codec::decode_body: Chunked(0): prev = %d, counter=%d / %d", prev, counter, body.lengthof());
if (counter < body.lengthof()) {
int idx = counter - prev;
OCTETSTRING trunk(idx, static_cast<const unsigned char*>(body));
loggers::get_instance().log_msg("http_codec::decode_body: trunk: ", trunk);
std::string str((const char*)static_cast<const unsigned char*>(trunk), idx);
loggers::get_instance().log("http_codec::decode_body: str: '%s'", str.c_str());
int len = std::stoi(str, nullptr, 16);//converter::get_instance().string_to_int(str);
loggers::get_instance().log("http_codec::decode_body: Chunk len: %d", len);
while (counter < body.lengthof() && ((body[counter].get_octet() == '\r') || (body[counter].get_octet() == '\n'))) { // Skip additional \n
counter += 1;
} // End of 'while' statement
if (counter < body.lengthof()) {
loggers::get_instance().log("http_codec::decode_body: Chunked (1): prev = %d, counter=%d / %d", prev, counter, body.lengthof());
os += OCTETSTRING(len, counter + static_cast<const unsigned char*>(body));
loggers::get_instance().log_msg("http_codec::decode_body: os=", os);
counter += len;
loggers::get_instance().log("http_codec::decode_body: Chunked: %02x %02x %02x", body[counter].get_octet(), body[counter + 1].get_octet(), body[counter + 2].get_octet());
loggers::get_instance().log("http_codec::decode_body: Chunked (2): prev = %d, counter=%d / %d", prev, counter, body.lengthof());
while (counter < body.lengthof() && ((body[counter].get_octet() == '\r') || (body[counter].get_octet() == '\n'))) { // Skip additional \n
counter += 1;
} // End of 'while' statement
prev = counter;
loggers::get_instance().log("http_codec::decode_body: Chunked (3): prev = %d, counter=%d / %d", prev, counter, body.lengthof());
}
}
} while (counter < body.lengthof()); // Process next chunk if any
body = os;
loggers::get_instance().log_msg("http_codec::decode_body: Finalised body=", body);
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}
// Check if HTTP message body contains binary characters
for (int i = 0; i < body.lengthof(); i++) {
unsigned char c = body[i].get_octet();
if (!std::isprint(c) && !std::isspace(c) && !std::ispunct(c)) {
loggers::get_instance().log("http_codec::decode_body: Byte #%d is not printable: 0x%02x", i, body[i].get_octet());
_dc.is_binary = 0x01;
break;
}
} // End of 'for' statement
loggers::get_instance().log("http_codec::decode_body: Binary mode: %x", _dc.is_binary);
LibItsHttp__MessageBodyTypes::HttpMessageBody v;
if (_dc.is_binary == 0x01) {
LibItsHttp__BinaryMessageBodyTypes::BinaryBody binary_body;
std::map<std::string, std::unique_ptr<codec<Record_Type, Record_Type> > >::const_iterator it;
bool processed = false;
// TODO To be refined adding a string identifier to check which codec to use. E.g. held_code.id() returns "xmlns=\"urn:ietf:params:xml:ns:geopriv:held\">"
if (p_content_type.find("x-its") != std::string::npos) {
loggers::get_instance().log("http_codec::decode_body: Find 'x-its'");
it = _codecs.cbegin();//_codecs.find("http_its");
if (it != _codecs.cend()) {
/***
FIXME:
This code generate a codedump, I don't undertsand the reason.
The same code works file for Ng112 HELD & LOST codec. Ununderstandable!!!!
==> Use a patch
if (_codecs["http_its"].get() != nullptr) {
loggers::get_instance().log("http_codec::decode_body: Call 'http_etsi_ieee1609dot2_codec'");
if (_codecs["http_its"]->decode(body, (Record_Type&)binary_body) == 0) {
processed = true;
}
}*/
loggers::get_instance().log("http_codec::decode_body: Call '%s'", it->first.c_str());
/*http_etsi_ieee1609dot2_codec* codec = new http_etsi_ieee1609dot2_codec();
if (codec->decode(body, binary_body.ieee1609dot2__data()) == 0) {
message_body.binary__body() = binary_body;
processed = true;
}
delete codec;*/
}
} // TODO Add new HTTP message codec here
if (!processed) {
loggers::get_instance().warning("http_codec::decode_body: Unsupported HTTP codec, use raw field as default");
binary_body.raw() = body;
message_body.binary__body() = binary_body;
}
} else {
// Convert into string
params p;
p["decode_str"] = std::string(static_cast<const unsigned char*>(body), body.lengthof() + static_cast<const unsigned char*>(body));
loggers::get_instance().log("http_codec::decode_body: decode_str: %s", p["decode_str"].c_str());
// Try to identify xml
if (p["decode_str"].find("<?xml version=") != std::string::npos) {
loggers::get_instance().log("http_codec::decode_body: Find xml message");
LibItsHttp__XmlMessageBodyTypes::XmlBody xml_body;
// TODO To be refined adding a string identifier to check which codec to use. E.g. held_code.id() returns "xmlns=\"urn:ietf:params:xml:ns:geopriv:held\">"
if (
(p["decode_str"].find("=\"urn:ietf:params:xml:ns:geopriv:held\"") != std::string::npos) ||
(p["decode_str"].find("=\"urn:ietf:params:xml:ns:pidf\"") != std::string::npos)
) {
loggers::get_instance().log("http_codec::decode_body: Find 'urn:ietf:params:xml:ns:geopriv:held'");
if (_codecs["held"].get() != nullptr) {
loggers::get_instance().log("http_codec::decode_body: Call 'held_codec'");
if (_codecs["held"]->decode(body, (Record_Type&)xml_body, &p) == -1) {
loggers::get_instance().warning("http_codec::decode_body: Failed to decode HELD message");
xml_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
} else {
loggers::get_instance().log_msg("http_codec::decode_body: Decoded message:", xml_body);
message_body.xml__body() = xml_body;
}
} else {
loggers::get_instance().warning("http_codec::decode_body: No codec for HELD");
xml_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
}
message_body.xml__body() = xml_body;
} else if (p["decode_str"].find("=\"urn:ietf:params:xml:ns:lost1\"") != std::string::npos) {
loggers::get_instance().log("http_codec::decode_body: Find 'urn:ietf:params:xml:ns:lost1'");
if (_codecs["lost"].get() != nullptr) {
loggers::get_instance().log("http_codec::decode_body: Call 'lost_codec'");
if (_codecs["lost"]->decode(body, (Record_Type&)xml_body, &p) == -1) {
loggers::get_instance().warning("http_codec::decode_body: Failed to decode LOST message");
xml_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
} else {
loggers::get_instance().log_msg("http_codec::decode_body: Decoded message:", xml_body);
message_body.xml__body() = xml_body;
}
} else {
loggers::get_instance().warning("http_codec::decode_body: No codec for LOST");
xml_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
}
message_body.xml__body() = xml_body;
} else {
loggers::get_instance().warning("http_codec::decode_body: No XML codec found");
xml_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
message_body.xml__body() = xml_body;
}
} else if (p_content_type.find("json") != std::string::npos) { // Try to identify JSON
loggers::get_instance().log("http_codec::decode_body: Find json message");
LibItsHttp__JsonMessageBodyTypes::JsonBody json_body;
if (_codecs["json"].get() != nullptr) {
loggers::get_instance().log("http_codec::decode_body: Call 'json_codec'");
if (_codecs["json"]->decode(body, (Record_Type&)json_body, &p) == -1) {
loggers::get_instance().warning("http_codec::decode_body: Failed to decode JSON message");
json_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
} else {
loggers::get_instance().log_msg("http_codec::decode_body: Decoded message:", json_body);
message_body.json__body() = json_body;
}
} else {
loggers::get_instance().warning("http_codec::decode_body: No JSON codec found");
json_body.raw() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
message_body.json__body() = json_body;
}
} else if (p["decode_str"].find("<html>") != std::string::npos) { // Try to identify HTML
loggers::get_instance().log("http_codec::decode_body: Find html message");
LibItsHttp__MessageBodyTypes::HtmlBody html_body;
message_body.html__body() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
} else {
loggers::get_instance().log("http_codec::decode_body: Use textBdy as default");
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LibItsHttp__MessageBodyTypes::TextBody text_body;
message_body.text__body() = CHARSTRING(body.lengthof(), (char*)static_cast<const unsigned char*>(body));
}
}
return 0;
}
int http_codec::get_line(TTCN_Buffer& buffer, CHARSTRING& to, const bool concatenate_header_lines) {
unsigned int i = 0;
const unsigned char *cc_to = buffer.get_read_data();
// Sanity checks
if(buffer.get_read_len() == 0) {
return -1;
}
while (true) {
// Skip spaces, and empty lines
for( ; i < buffer.get_read_len() && cc_to[i] != '\0' && cc_to[i] != '\r' && cc_to[i] != '\n'; i++);
if(i >= buffer.get_read_len()) { // No more characters to process
to = CHARSTRING("");
return -1;
} else if(cc_to[i] == '\n') { // New line found, we don't care is '\r' is missing
if ((i > 0) && ((i + 1) < buffer.get_read_len()) && concatenate_header_lines && ((cc_to[i + 1] == ' ') || (cc_to[i + 1] == '\t'))) {
i += 1; // Skip it
} else {
to = CHARSTRING(i, (const char*)cc_to);
buffer.set_pos(buffer.get_pos() + i + 1);
return i == 0 ? 1 : 0;
}
} else {
if ((i + 1) < buffer.get_read_len() && cc_to[i + 1] != '\n') {
return -1;
} else if(i > 0 && (i + 2) < buffer.get_read_len() && concatenate_header_lines && (cc_to[i+2] == ' ' || cc_to[i+2] == '\t')) {
i += 2;
} else {
to = CHARSTRING(i, (const char*)cc_to);
buffer.set_pos(buffer.get_pos() + i + 2);
return i == 0 ? 1 : 0;
}
}
} // End of 'while' statement
}
void http_codec::set_payload_codecs(const std::string& p_codecs) {
loggers::get_instance().log(">>> http_codec::set_payload_codecs: %s", p_codecs.c_str());
// Sanity check
if (p_codecs.length() == 0) {
return;
}
// Extract codecs
try {
std::regex rgx("(\\w+):(\\w+)(;(\\w+):(\\w+))*");
std::sregex_iterator begin(p_codecs.cbegin(), p_codecs.cend(), rgx);
std::sregex_iterator end = std::sregex_iterator();
// E.g. 9 - xml - :held_codec - held_codec - ;html:html_codec - html:html_codec - html - :html_codec - html_codec
for (std::sregex_iterator it = begin; it != end; ++it) {
std::smatch m = *it;
loggers::get_instance().log("http_codec::set_payload_codecs: %d - %s - %s - %s - %s - %s - %s - %s - %s", m.size(), m[1].str().c_str(), m[2].str().c_str(), m[3].str().c_str(), m[4].str().c_str(), m[5].str().c_str(), m[6].str().c_str(), m[7].str().c_str(), m[8].str().c_str());
for (unsigned int j = 1; j < m.size() - 1; j += 3) { // Exclude m[0]
loggers::get_instance().log("http_codec::set_payload_codecs: insert (%s, %s), j = %d", m[j].str().c_str(), m[j + 1].str().c_str(), j);
if (m[j].str().empty()) {
break;
}
std::string key(m[j].str());
_codecs.insert(std::make_pair(key, std::unique_ptr<codec<Record_Type, Record_Type> >(codec_stack_builder::get_instance()->get_codec(m[j + 1].str().c_str()))));
} // End of 'for' statement
} // End of 'for' statement
loggers::get_instance().log("http_codec::set_payload_codecs: _codecs length=%d - %p", _codecs.size(), this);
}
catch(const std::logic_error& e){
loggers::get_instance().warning("http_codec::set_payload_codecs: std::logic_error: %s", e.what());
_codecs.clear();
}
}