void Endpoint_v1::TicketRequest::onRequestFinished()
{
QByteArray respbytes = reply->readAll();
reply->deleteLater();
std::string response ( respbytes.begin(), respbytes.end() );
JSONNode respnode = libJSON::parse ( response );
JSONNode errnode = respnode.at ( "error" );
if (errnode.as_string() != "") {
emit failed(QString("server_failure"), QString(errnode.as_string().c_str()));
return;
}
available = FHttpApi::Data_GetTicketDefault;
JSONNode subnode = respnode.at ("ticket");
ticket = new Ticket();
ticket->ticket = subnode.as_string().c_str();
ticket->name = _un;
ticket->password = _p;
subnode = respnode.at("default_character");
defaultCharacter = subnode.as_string().c_str();
subnode = respnode.at("characters");
qslFromJsonArray(subnode, characters);
subnode = respnode.at("bookmarks");
qslFromJsonArray(subnode, bookmarks);
emit succeeded();
}
void CDropbox::RequestAccountInfo()
{
MCONTACT hContact = CDropbox::GetDefaultContact();
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
GetAccountInfoRequest request(token);
NLHR_PTR response(request.Send(hNetlibConnection));
HandleHttpResponseError(response);
JSONNode root = JSONNode::parse(response->pData);
if (root.empty())
return;
JSONNode referral_link = root.at("referral_link");
if (!referral_link.empty())
db_set_s(hContact, MODULE, "Homepage", referral_link.as_string().c_str());
JSONNode display_name = root.at("display_name");
if (!display_name.empty())
{
ptrT display_name(mir_utf8decodeT(display_name.as_string().c_str()));
TCHAR *sep = _tcsrchr(display_name, _T(' '));
if (sep)
{
db_set_ts(hContact, MODULE, "LastName", sep + 1);
display_name[mir_tstrlen(display_name) - mir_tstrlen(sep)] = '\0';
db_set_ts(hContact, MODULE, "FirstName", display_name);
}
else
{
db_set_ts(hContact, MODULE, "FirstName", display_name);
db_unset(hContact, MODULE, "LastName");
}
}
JSONNode country = root.at("country");
if (!country.empty())
{
std::string isocode = country.as_string();
if (isocode.empty())
db_unset(hContact, MODULE, "Country");
else
{
char *country = (char *)CallService(MS_UTILS_GETCOUNTRYBYISOCODE, (WPARAM)isocode.c_str(), 0);
db_set_s(hContact, MODULE, "Country", country);
}
}
JSONNode quota_info = root.at("quota_info");
if (!quota_info.empty())
{
db_set_dw(hContact, MODULE, "SharedQuota", quota_info.at("shared").as_int());
db_set_dw(hContact, MODULE, "NormalQuota", quota_info.at("normal").as_int());
db_set_dw(hContact, MODULE, "TotalQuota", quota_info.at("quota").as_int());
}
}
int main(){
JSONNode n = read_formatted("input.json");
JSONNode n1 = read_formatted("input1.json");
test *tst = new test();
int status;
//n.set_name(abi::__cxa_demangle(typeid(*tst).name(), 0,0,&status ));
n.push_back(JSONNode("FF::Node_Subclass", abi::__cxa_demangle(typeid(*tst).name(), 0,0,&status )));
if(n1.type()==JSON_NULL){
std::cout<<"null"<<std::endl;
}
JSONNode n2 (JSON_NODE);
n2.set_name("Child1");
n2.push_back(JSONNode("id",1));
n.set_name("Parrent");
n.push_back(n2);
JSONNode::iterator it =n.find_nocase("String Node");
if(it->as_string()=="-1"){std::cout<<it->as_int()<<std::endl;}
it->as_int()!=-1 ? (std::cout<< "it is"<<std::endl) : (std::cout<<"Mapper Warning: processor id is -1"<<std::endl);
if (n.at("String Node")==""){
std::cout<<"ha ha ha"<<std::endl;
}
std::cout<< "This is the name: "<<n.name()<<std::endl;
n.at("String Node")="";
bool x =true;
n.push_back(JSONNode("MyBOOLNODE", x));
n["String Node"]=x;
//n.erase(n.find_nocase("String Node"));
write_formatted(n1, "out1.json");
write_formatted(n, "out.json");
JSONNode::const_iterator i =n.find_nocase("ArrayOfNumbers");
std::string strLowerCase= "ARRAYOfNUMbers";
std::string myTest= "ff::ff_farm<adaptive_loadbalancer, ff::ff_gatherer>";
std::transform(myTest.begin(), myTest.end(), myTest.begin(), ::tolower);
std::size_t found = myTest.find("adaptive_loadbalancer");
if (found!=std::string::npos)
std::cout << "first 'needle' found at: " << found << '\n';
std::cout<< "here it is: " << myTest<< std::endl;
JSONNode n_ar = n.at("ArrayOfNumbers");
std::cout<<"here :"<<n_ar[0].as_int()<< std::endl;
// if (0 == strcasecmp("hello", "HELLO"))
if(strcasecmp((i->name()).c_str(), strLowerCase.c_str()) == 0)
//if(!(n2.empty()))
std::cout<<"haha"<<i->size()<<std::endl;
std::cout<<i->name()<<std::endl;
std::cout<<((i->as_array()).begin()+1)->as_int()<<std::endl;
std::cout<<((i->as_array()).at(1)).as_int()<<std::endl;
std::cout<<((i->as_array())[1]).as_int()<<std::endl;
//std::cout<<i->as_string()<<std::endl;
//JSONNode c(JSON_ARRAY);
//c=i->as_array();
//JSONNode nk= c.at(0);
//JSONNode::const_iterator it = c.begin();
//std::cout <<nk.as_int()<<std::endl;
return 0;
}
void CDropbox::RequestAccountInfo()
{
MCONTACT hContact = CDropbox::GetDefaultContact();
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
GetAccountInfoRequest request(token);
NLHR_PTR response(request.Send(hNetlibConnection));
HandleHttpResponseError(response);
JSONNode root = JSONNode::parse(response->pData);
if (root.empty())
return;
JSONNode referral_link = root.at("referral_link");
if (!referral_link.empty())
db_set_s(hContact, MODULE, "Homepage", referral_link.as_string().c_str());
JSONNode display_name = root.at("display_name");
if (!display_name.empty())
{
CMString tszDisplayName(display_name.as_mstring());
int pos = tszDisplayName.ReverseFind(' ');
if (pos != -1)
{
db_set_ts(hContact, MODULE, "LastName", tszDisplayName.Mid(pos+1));
db_set_ts(hContact, MODULE, "FirstName", tszDisplayName.Left(pos));
}
else
{
db_set_ts(hContact, MODULE, "FirstName", tszDisplayName);
db_unset(hContact, MODULE, "LastName");
}
}
JSONNode country = root.at("country");
if (!country.empty())
{
std::string isocode = country.as_string();
if (isocode.empty())
db_unset(hContact, MODULE, "Country");
else
{
char *szCountry = (char *)CallService(MS_UTILS_GETCOUNTRYBYISOCODE, (WPARAM)isocode.c_str(), 0);
db_set_s(hContact, MODULE, "Country", szCountry);
}
}
JSONNode quota_info = root.at("quota_info");
if (!quota_info.empty())
{
db_set_dw(hContact, MODULE, "SharedQuota", quota_info.at("shared").as_int());
db_set_dw(hContact, MODULE, "NormalQuota", quota_info.at("normal").as_int());
db_set_dw(hContact, MODULE, "TotalQuota", quota_info.at("quota").as_int());
}
}
void CDropbox::CommandDelete(void *arg)
{
CommandParam *param = (CommandParam*)arg;
char *path = (char*)param->data;
if (path == NULL) {
CMStringA error(FORMAT, T2Utf(TranslateT("\"%s\" command has invalid parameter.\nUse \"/help\" for more info.")), "/delete");
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_SUCCESS, param->hProcess, 0);
CallContactService(param->instance->GetDefaultContact(), PSR_MESSAGE, 0, (LPARAM)error.GetBuffer());
return;
}
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
ptrA encodedPath(mir_utf8encode(path));
DeleteRequest request(token, encodedPath);
NLHR_PTR response(request.Send(param->instance->hNetlibConnection));
if (response == NULL || response->resultCode != HTTP_STATUS_OK) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
JSONNode root = JSONNode::parse(response->pData);
if (root.empty()) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
bool isDeleted = root.at("is_deleted").as_bool();
CMStringA message(FORMAT, "%s %s", path, !isDeleted ? T2Utf(TranslateT("is not deleted")) : T2Utf(TranslateT("is deleted")));
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_SUCCESS, param->hProcess, 0);
CallContactService(param->instance->GetDefaultContact(), PSR_MESSAGE, 0, (LPARAM)message.GetBuffer());
}
void CDropbox::CommandShare(void *arg)
{
CommandParam *param = (CommandParam*)arg;
char *path = (char*)param->data;
if (path == NULL) {
CMStringA error(FORMAT, T2Utf(TranslateT("\"%s\" command has invalid parameter.\nUse \"/help\" for more info.")), "/share");
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_SUCCESS, param->hProcess, 0);
CallContactService(param->instance->GetDefaultContact(), PSR_MESSAGE, 0, (LPARAM)error.GetBuffer());
return;
}
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
ptrA encodedPath(mir_utf8encode(path));
bool useShortUrl = db_get_b(NULL, MODULE, "UseSortLinks", 1) > 0;
ShareRequest request(token, encodedPath, useShortUrl);
NLHR_PTR response(request.Send(param->instance->hNetlibConnection));
if (response == NULL || response->resultCode != HTTP_STATUS_OK) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
JSONNode root = JSONNode::parse(response->pData);
if (root.empty()) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
CMStringA link = root.at("url").as_string().c_str();
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_SUCCESS, param->hProcess, 0);
CallContactService(param->instance->GetDefaultContact(), PSR_MESSAGE, 0, (LPARAM)link.GetBuffer());
}
void CDropbox::CommandContent(void *arg)
{
CommandParam *param = (CommandParam*)arg;
char *path = (char*)param->data;
if (path == NULL)
path = "";
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
ptrA encodedPath(mir_utf8encode(path));
GetMetadataRequest request(token, encodedPath);
NLHR_PTR response(request.Send(param->instance->hNetlibConnection));
if (response == NULL || response->resultCode != HTTP_STATUS_OK) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
JSONNode root = JSONNode::parse(response->pData);
if (root.empty()) {
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_FAILED, param->hProcess, 0);
return;
}
CMStringA message;
bool isDir = root.at("is_dir").as_bool();
if (!isDir)
message.AppendFormat("\"%s\" %s", encodedPath, T2Utf(TranslateT("is file")));
else {
JSONNode content = root.at("contents").as_array();
for (size_t i = 0; i < content.size(); i++) {
JSONNode item = content[i];
if (item.empty()) {
if (i == 0)
message.AppendFormat("\"%s\" %s", encodedPath, T2Utf(TranslateT("is empty")));
break;
}
CMStringA subName(item.at("path").as_string().c_str());
message.AppendFormat("%s\n", (subName[0] == '/') ? subName.Mid(1) : subName);
}
}
ProtoBroadcastAck(MODULE, param->hContact, ACKTYPE_MESSAGE, ACKRESULT_SUCCESS, param->hProcess, 0);
CallContactService(param->instance->GetDefaultContact(), PSR_MESSAGE, 0, (LPARAM)message.GetBuffer());
}
//------------------------------------------------------------------------------
// downloads recent trade data:
std::string KClient::trades(const std::string& pair,
const std::string& since,
std::vector<KTrade>& output)
{
KInput ki;
ki["pair"] = pair;
ki["since"] = since;
// download and parse data
json_string data = libjson::to_json_string( public_method("Trades", ki) );
JSONNode root = libjson::parse(data);
// throw an exception if there are errors in the JSON response
if (!root.at("error").empty()) {
std::ostringstream oss;
oss << "Kraken response contains errors: ";
// append errors to output string stream
for (JSONNode::const_iterator
it = root["error"].begin(); it != root["error"].end(); ++it)
oss << std::endl << " * " << libjson::to_std_string(it->as_string());
throw std::runtime_error(oss.str());
}
// throw an exception if result is empty
if (root.at("result").empty()) {
throw std::runtime_error("Kraken response doesn't contain result data");
}
JSONNode &result = root["result"];
JSONNode &result_pair = result[0];
std::string last = libjson::to_std_string( result.at("last").as_string() );
std::vector<KTrade> buf;
for (JSONNode::const_iterator
it = result_pair.begin(); it != result_pair.end(); ++it)
buf.push_back(KTrade(*it));
output.swap(buf);
return last;
}
bool USB_device::processMessage(ClientConn& client, string& cmd, JSONNode& n){
if (cmd == "controlTransfer"){
unsigned id = jsonIntProp(n, "id", 0);
uint8_t bmRequestType = jsonIntProp(n, "bmRequestType", 0xC0);
uint8_t bRequest = jsonIntProp(n, "bRequest");
uint16_t wValue = jsonIntProp(n, "wValue", 0);
uint16_t wIndex = jsonIntProp(n, "wIndex", 0);
bool isIn = bmRequestType & 0x80;
JSONNode reply(JSON_NODE);
reply.push_back(JSONNode("_action", "return"));
reply.push_back(JSONNode("id", id));
int ret = -1000;
if (isIn){
uint16_t wLength = jsonIntProp(n, "wLength", 64);
if (wLength > 64) wLength = 64;
if (wLength < 0) wLength = 0;
uint8_t data[wLength];
ret = controlTransfer(bmRequestType, bRequest, wValue, wIndex, data, wLength);
if (ret >= 0){
JSONNode data_arr(JSON_ARRAY);
for (int i=0; i<ret && i<wLength; i++){
data_arr.push_back(JSONNode("", data[i]));
}
data_arr.set_name("data");
reply.push_back(data_arr);
}
}else{
string datastr;
JSONNode data = n.at("data");
if (data.type() == JSON_ARRAY){
for(JSONNode::iterator i=data.begin(); i!=data.end(); i++){
datastr.push_back(i->as_int());
}
}else{
datastr = data.as_string();
}
ret = controlTransfer(bmRequestType, bRequest, wValue, wIndex, (uint8_t *)datastr.data(), datastr.size());
}
reply.push_back(JSONNode("status", ret));
client.sendJSON(reply);
}else if(cmd == "enterBootloader"){
std::cout << "enterBootloader: ";
int r = controlTransfer(0x40|0x80, 0xBB, 0, 0, NULL, 100);
std::cout << "return " << r << std::endl;
}else{
return false;
}
return true;
}
int getIntFromArray(JSONNode node, char* name) {
try {
return node.at(name).as_array()[0].as_int();
} catch(exception& e) {
cout << " Parse error" << e.what() << endl;
}
return -65535;
}
void CDropbox::RequestAccountInfo(void *p)
{
CDropbox *self = (CDropbox*)p;
MCONTACT hContact = self->GetDefaultContact();
ptrA token(db_get_sa(NULL, MODULE, "TokenSecret"));
GetCurrentAccountRequest request(token);
NLHR_PTR response(request.Send(self->hNetlibConnection));
HandleJsonResponseError(response);
JSONNode root = JSONNode::parse(response->pData);
if (root.empty())
return;
JSONNode referral_link = root.at("referral_link");
if (!referral_link.empty())
db_set_s(hContact, MODULE, "Homepage", referral_link.as_string().c_str());
JSONNode email = root.at("email");
if (!email.empty())
db_set_s(hContact, MODULE, "e-mail", email.as_string().c_str());
JSONNode name = root.at("name");
if (!name.empty()) {
db_set_utf(hContact, MODULE, "FirstName", name.at("given_name").as_string().c_str());
db_set_utf(hContact, MODULE, "LastName", name.at("surname").as_string().c_str());
}
JSONNode country = root.at("country");
if (!country.empty()) {
std::string isocode = country.as_string();
if (isocode.empty())
db_unset(hContact, MODULE, "Country");
else {
char *szCountry = (char *)CallService(MS_UTILS_GETCOUNTRYBYISOCODE, (WPARAM)isocode.c_str(), 0);
db_set_s(hContact, MODULE, "Country", szCountry);
}
}
/*JSONNode quota_info = root.at("quota_info");
if (!quota_info.empty()) {
ULONG lTotalQuota = quota_info.at("quota").as_int();
ULONG lNormalQuota = quota_info.at("normal").as_int();
ULONG lSharedQuota = quota_info.at("shared").as_int();
db_set_dw(hContact, MODULE, "SharedQuota", lSharedQuota);
db_set_dw(hContact, MODULE, "NormalQuota", lNormalQuota);
db_set_dw(hContact, MODULE, "TotalQuota", lTotalQuota);
db_set_s(hContact, "CList", "StatusMsg", CMStringA(FORMAT, Translate("Free %ld of %ld MB"), (lTotalQuota - lNormalQuota) / (1024 * 1024), lTotalQuota / (1024 * 1024)));
}*/
}
bool ServerSocket::handle_admin(JSONNode& n)
{
is_admin = true;
string cmd = n.at("cmd").as_string();
if(cmd == "_connect")
{
return(true);
}
else if(cmd == "_users")
{
return(handle_admin_users());
}
else if(cmd == "_stats")
{
return(handle_admin_stats());
}
else if(cmd == "_stop")
{
return(handle_admin_stop());
}
return(true);
}
void CDropbox::HandleJsonResponseError(NETLIBHTTPREQUEST *response)
{
if (response == NULL)
throw DropboxException(HttpStatusToText(HTTP_STATUS_ERROR));
if (response->resultCode == HTTP_STATUS_OK)
return;
if (response->resultCode != HTTP_STATUS_CONFLICT) {
if (response->dataLength)
throw DropboxException(response->pData);
throw DropboxException(HttpStatusToText((HTTP_STATUS)response->resultCode));
}
JSONNode root = JSONNode::parse(response->pData);
if (root.empty())
throw DropboxException(HttpStatusToText(HTTP_STATUS_ERROR));
JSONNode error = root.at("error_summary");
if (error.empty())
return;
throw DropboxException(error.as_string().c_str());
}
void TestSuite::TestInspectors(void){
UnitTest::SetPrefix("TestInspectors.cpp - Inspectors");
JSONNode test = JSONNode(JSON_NULL);
#ifdef JSON_CASTABLE
assertEquals(test.as_string(), JSON_TEXT(""));
assertEquals(test.as_int(), 0);
assertEquals(test.as_float(), 0.0f);
assertEquals(test.as_bool(), false);
#endif
test = 15.5f;
assertEquals(test.type(), JSON_NUMBER);
#ifdef JSON_CASTABLE
assertEquals(test.as_string(), JSON_TEXT("15.5"));
#endif
assertEquals(test.as_int(), 15);
assertEquals(test.as_float(), 15.5f);
#ifdef JSON_CASTABLE
assertEquals(test.as_bool(), true);
#endif
test = 0.0f;
assertEquals(test.type(), JSON_NUMBER);
#ifdef JSON_CASTABLE
assertEquals(test.as_string(), JSON_TEXT("0"));
#endif
assertEquals(test.as_int(), 0);
assertEquals(test.as_float(), 0.0f);
#ifdef JSON_CASTABLE
assertEquals(test.as_bool(), false);
#endif
test = true;
assertEquals(test.type(), JSON_BOOL);
#ifdef JSON_CASTABLE
assertEquals(test.as_string(), JSON_TEXT("true"));
assertEquals(test.as_int(), 1);
assertEquals(test.as_float(), 1.0f);
#endif
assertEquals(test.as_bool(), true);
test = false;
assertEquals(test.type(), JSON_BOOL);
#ifdef JSON_CASTABLE
assertEquals(test.as_string(), JSON_TEXT("false"));
assertEquals(test.as_int(), 0);
assertEquals(test.as_float(), 0.0f);
#endif
assertEquals(test.as_bool(), false);
#ifdef JSON_CASTABLE
test.cast(JSON_NODE);
#else
test = JSONNode(JSON_NODE);
#endif
assertEquals(test.type(), JSON_NODE);
assertEquals(test.size(), 0);
test.push_back(JSONNode(JSON_TEXT("hi"), JSON_TEXT("world")));
test.push_back(JSONNode(JSON_TEXT("hello"), JSON_TEXT("mars")));
test.push_back(JSONNode(JSON_TEXT("salut"), JSON_TEXT("france")));
assertEquals(test.size(), 3);
TestSuite::testParsingItself(test);
#ifdef JSON_CASTABLE
JSONNode casted = test.as_array();
#ifdef JSON_UNIT_TEST
assertNotEquals(casted.internal, test.internal);
#endif
assertEquals(casted.type(), JSON_ARRAY);
assertEquals(test.type(), JSON_NODE);
assertEquals(test.size(), 3);
assertEquals(casted.size(), 3);
TestSuite::testParsingItself(casted);
#endif
UnitTest::SetPrefix("TestInspectors.cpp - Location");
try {
#ifdef JSON_CASTABLE
assertEquals(casted.at(0), JSON_TEXT("world"));
assertEquals(casted.at(1), JSON_TEXT("mars"));
assertEquals(casted.at(2), JSON_TEXT("france"));
assertEquals(casted.at(0).name(), JSON_TEXT(""));
assertEquals(casted.at(1).name(), JSON_TEXT(""));
assertEquals(casted.at(2).name(), JSON_TEXT(""));
#endif
assertEquals(test.at(0), JSON_TEXT("world"));
assertEquals(test.at(1), JSON_TEXT("mars"));
assertEquals(test.at(2), JSON_TEXT("france"));
assertEquals(test.at(0).name(), JSON_TEXT("hi"));
assertEquals(test.at(1).name(), JSON_TEXT("hello"));
assertEquals(test.at(2).name(), JSON_TEXT("salut"));
} catch (std::out_of_range){
FAIL("exception caught");
}
try {
assertEquals(test.at(JSON_TEXT("hi")), JSON_TEXT("world"));
assertEquals(test.at(JSON_TEXT("hello")), JSON_TEXT("mars"));
assertEquals(test.at(JSON_TEXT("salut")), JSON_TEXT("france"));
#ifdef JSON_CASE_INSENSITIVE_FUNCTIONS
assertEquals(test.at_nocase(JSON_TEXT("SALUT")), JSON_TEXT("france"));
assertEquals(test.at_nocase(JSON_TEXT("HELLO")), JSON_TEXT("mars"));
assertEquals(test.at_nocase(JSON_TEXT("HI")), JSON_TEXT("world"));
#endif
} catch (std::out_of_range){
FAIL("exception caught");
}
assertException(test.at(JSON_TEXT("meh")), std::out_of_range);
#ifdef JSON_CASE_INSENSITIVE_FUNCTIONS
assertException(test.at_nocase(JSON_TEXT("meh")), std::out_of_range);
#endif
assertEquals(test[JSON_TEXT("hi")], json_string(JSON_TEXT("world")));
assertEquals(test[JSON_TEXT("hello")], json_string(JSON_TEXT("mars")));
assertEquals(test[JSON_TEXT("salut")], json_string(JSON_TEXT("france")));
assertEquals(test[0], JSON_TEXT("world"));
assertEquals(test[1], JSON_TEXT("mars"));
assertEquals(test[2], JSON_TEXT("france"));
#ifdef JSON_ITERATORS
#ifdef JSON_CASTABLE
UnitTest::SetPrefix("TestInspectors.cpp - Iterators");
for(JSONNode::iterator it = casted.begin(), end = casted.end(); it != end; ++it){
assertEquals((*it).name(), JSON_TEXT(""));
}
#endif
#endif
#ifdef JSON_BINARY
UnitTest::SetPrefix("TestInspectors.cpp - Binary");
test.set_binary((const unsigned char *)"Hello World", 11);
assertEquals(test.type(), JSON_STRING);
assertEquals(test.as_string(), JSON_TEXT("SGVsbG8gV29ybGQ="));
assertEquals(test.as_binary(), "Hello World");
assertEquals(test.as_binary().size(), 11);
test = JSON_TEXT("Hello World");
assertEquals(test.type(), JSON_STRING);
assertEquals(test.as_string(), JSON_TEXT("Hello World"));
#ifdef JSON_SAFE
assertEquals(test.as_binary(), "");
#endif
#endif
#ifdef JSON_READ_PRIORITY
//This is a regression test for a bug in at()
json_string buffer(JSON_TEXT("{ \"myValue1\" : \"foo\", \"myValue2\" : \"bar\"}"));
JSONNode current = libjson::parse(buffer);
try {
JSONNode & value1 = current[JSON_TEXT("myValue1")];
assertEquals(value1.as_string(), JSON_TEXT("foo"));
JSONNode & value2 = current[JSON_TEXT("myValue2")];
assertEquals(value2.as_string(), JSON_TEXT("bar"));
} catch (...){
assertTrue(false);
}
#endif
}
TEST_F(SerializerUnittest, Write)
{
Serializer serializer;
serializer.Init(".", "Data", SerializerOpenModeWrite);
// Create 4D field with JILK storage plus stride 2
const int isize = 6, jsize = 8, ksize = 7, lsize = 4;
const int kstride = 2, lstride = kstride*ksize, istride = lstride*lsize, jstride = istride*isize;
const int ibstrided = istride*sizeof(double), jbstrided = jstride*sizeof(double),
kbstrided = kstride*sizeof(double), lbstrided = lstride*sizeof(double);
const int ibstridef = istride*sizeof(float), jbstridef = jstride*sizeof(float),
kbstridef = kstride*sizeof(float), lbstridef = lstride*sizeof(float);
const int allocsize = jstride*jsize;
std::vector<double> dataD(allocsize);
std::vector<float> dataF(allocsize);
for (int i = 0; i < isize; ++i)
for (int j = 0; j < jsize; ++j)
for (int k = 0; k < ksize; ++k)
for (int l = 0; l < lsize; ++l)
{
dataD[i*istride + j*jstride + k*kstride + l*lstride]
= i*12.25 + j*k*1. - 2.75 / (l+10.);
dataF[i*istride + j*jstride + k*kstride + l*lstride]
= i*12.25 + j*k*1. - 2.75 / (l+10.);
}
// Register various versions of this field
serializer.RegisterField("ik" , "double", 8, isize, 1, ksize, 1, 0, 0, 0, 0, 0, 0, 0, 0);
serializer.RegisterField("jk" , "float" , 4, 1, jsize, ksize, 1, 0, 0, 0, 0, 0, 0, 0, 0);
serializer.RegisterField("ikl" , "double", 8, isize, 1, ksize, lsize, 0, 0, 0, 0, 0, 0, 0, 0);
serializer.RegisterField("ijkl", "float" , 4, isize, jsize, ksize, lsize, 0, 0, 0, 0, 0, 0, 0, 0);
// Setting a savepoint and serializing all fields
Savepoint sp;
sp.Init("MySavepoint");
sp.AddMetainfo("Value", 3.125);
sp.AddMetainfo("ValueF", 3.625f);
sp.AddMetainfo("MyName", "Andrea Arteaga");
sp.AddMetainfo("MyAge", 26);
sp.AddMetainfo("ILikeThis", true);
const int ilevel = 3, jlevel = 0, llevel = 2;
const double* pIKData = dataD.data() + jstride*jlevel + lstride*llevel;
const float* pJKData = dataF.data() + istride*ilevel + lstride*llevel;
const double* pIKLData = dataD.data() + jstride*jlevel;
const float* pIJKLData = dataF.data();
serializer.WriteField( "ik", sp, pIKData, ibstrided, jbstrided, kbstrided, lbstrided);
serializer.WriteField( "jk", sp, pJKData, ibstridef, jbstridef, kbstridef, lbstridef);
serializer.WriteField( "ikl", sp, pIKLData, ibstrided, jbstrided, kbstrided, lbstrided);
serializer.WriteField("ijkl", sp, pIJKLData, ibstridef, jbstridef, kbstridef, lbstridef);
// Check metainfo
std::ifstream dbfs("Data.json");
std::string dbtxt((std::istreambuf_iterator<char>(dbfs)),
std::istreambuf_iterator<char>());
dbfs.close();
JSONNode dbnode = libjson::parse(dbtxt);
JSONNode fieldstable, offsettable, globalinfo;
ASSERT_EQ(3, dbnode.size());
ASSERT_NO_THROW(fieldstable = dbnode.at("FieldsTable"));
ASSERT_NO_THROW(offsettable = dbnode.at("OffsetTable"));
ASSERT_NO_THROW(globalinfo = dbnode.at("GlobalMetainfo"));
ASSERT_EQ(4, fieldstable.size());
ASSERT_EQ(1, offsettable.size());
ASSERT_LE(1, globalinfo.size());
ASSERT_EQ(std::string("centralized"), globalinfo.at("__format").as_string());
// Check savepoint metainfo
Savepoint spload;
ASSERT_EQ(std::string("MySavepoint"), offsettable[0]["__name"].as_string());
ASSERT_EQ(0, offsettable[0]["__id"].as_int());
ASSERT_EQ(3.125, offsettable[0]["Value"].as_float());
ASSERT_EQ(3.625f, offsettable[0]["ValueF"].as_float());
ASSERT_EQ(std::string("Andrea Arteaga"), offsettable[0]["MyName"].as_string());
ASSERT_EQ(26, offsettable[0]["MyAge"].as_int());
ASSERT_TRUE(offsettable[0]["ILikeThis"].as_bool());
{ // Check IK
// Read data
std::ifstream fs("Data_ik.dat", std::ios::binary);
fs.seekg(0, fs.end);
int filelength = fs.tellg();
fs.seekg(0, fs.beg);
ASSERT_EQ(sizeof(double)*isize*ksize, filelength);
std::vector<char> rawdata(filelength);
fs.read(rawdata.data(), filelength);
fs.close();
// Check data
const double* pNewData = reinterpret_cast<const double*>(rawdata.data());
for (int i = 0; i < isize; ++i)
for (int k = 0; k < ksize; ++k)
{
const int j = jlevel, l = llevel;
const double value = *(pNewData + k*isize + i);
const double reference = dataD[i*istride + j*jstride + k*kstride + l*lstride];
ASSERT_EQ(reference, value) << "i=" << i << ", k=" << k;
}
}
{ // Check JK
// Read data
std::ifstream fs("Data_jk.dat", std::ios::binary);
fs.seekg(0, fs.end);
int filelength = fs.tellg();
fs.seekg(0, fs.beg);
ASSERT_EQ(sizeof(float)*jsize*ksize, filelength);
std::vector<char> rawdata(filelength);
fs.read(rawdata.data(), filelength);
fs.close();
// Check data
const float* pNewData = reinterpret_cast<const float*>(rawdata.data());
for (int j = 0; j < jsize; ++j)
for (int k = 0; k < ksize; ++k)
{
const int i = ilevel, l = llevel;
const float value = *(pNewData + k*jsize + j);
const float reference = dataF[i*istride + j*jstride + k*kstride + l*lstride];
ASSERT_EQ(reference, value) << "j=" << j << ", k=" << k;
}
}
{ // Check IKL
// Read data
std::ifstream fs("Data_ikl.dat", std::ios::binary);
fs.seekg(0, fs.end);
int filelength = fs.tellg();
fs.seekg(0, fs.beg);
ASSERT_EQ(sizeof(double)*isize*ksize*lsize, filelength);
std::vector<char> rawdata(filelength);
fs.read(rawdata.data(), filelength);
fs.close();
// Check data
const double* pNewData = reinterpret_cast<const double*>(rawdata.data());
for (int i = 0; i < isize; ++i)
for (int k = 0; k < ksize; ++k)
for (int l = 0; l < lsize; ++l)
{
const int j = jlevel;
const double value = *(pNewData + l*ksize*isize + k*isize + i);
const double reference = dataD[i*istride + j*jstride + k*kstride + l*lstride];
ASSERT_EQ(reference, value) << "i=" << i << ", k=" << k << ", l=" << l;
}
}
{ // Check IJKL
// Read data
std::ifstream fs("Data_ijkl.dat", std::ios::binary);
fs.seekg(0, fs.end);
int filelength = fs.tellg();
fs.seekg(0, fs.beg);
ASSERT_EQ(sizeof(float)*isize*jsize*ksize*lsize, filelength);
std::vector<char> rawdata(filelength);
fs.read(rawdata.data(), filelength);
fs.close();
// Check data
const float* pNewData = reinterpret_cast<const float*>(rawdata.data());
for (int i = 0; i < isize; ++i)
for (int j = 0; j < jsize; ++j)
for (int k = 0; k < ksize; ++k)
for (int l = 0; l < lsize; ++l)
{
const float value = *(pNewData + l*ksize*jsize*isize + k*jsize*isize + j*isize + i);
const float reference = dataF[i*istride + j*jstride + k*kstride + l*lstride];
ASSERT_EQ(reference, value) << "i=" << i << ", j=" << j << ", k=" << k << ", l=" << l;
}
}
// Second savepoint: some fields are rewritten, others are kept the same
dataD[0] += 1.;
dataF[0] += 1.;
// ik does not change
// jk does not change
// ikl changes
// ijkl changes
sp.Init("SecondSavepoint");
serializer.WriteField( "ik", sp, pIKData, ibstrided, jbstrided, kbstrided, lbstrided);
serializer.WriteField( "jk", sp, pJKData, ibstridef, jbstridef, kbstridef, lbstridef);
serializer.WriteField( "ikl", sp, pIKLData, ibstrided, jbstrided, kbstrided, lbstrided);
serializer.WriteField("ijkl", sp, pIJKLData, ibstridef, jbstridef, kbstridef, lbstridef);
// Load offsettable again
dbfs.open("Data.json");
dbtxt = std::string((std::istreambuf_iterator<char>(dbfs)),
std::istreambuf_iterator<char>());
dbfs.close();
dbnode = libjson::parse(dbtxt);
ASSERT_NO_THROW(offsettable = dbnode["OffsetTable"]);
ASSERT_EQ(2, offsettable.size());
ASSERT_EQ(std::string("SecondSavepoint"), offsettable[1]["__name"].as_string());
ASSERT_EQ(1, offsettable[1]["__id"].as_int());
ASSERT_EQ(4, offsettable[1]["__offsets"].size());
for (int i = 0; i < 4; ++i)
{
const std::string fieldname = offsettable[1]["__offsets"][i].name();
if (fieldname.size() < 3)
ASSERT_EQ(0, offsettable[1]["__offsets"][i][0].as_int());
else
ASSERT_LT(0, offsettable[1]["__offsets"][i][0].as_int());
}
// Check binary data size
for (int i = 0; i < 4; ++i)
{
const std::string fieldname = offsettable[1]["__offsets"][i].name();
int filelength_expect;
if (fieldname == "ik") filelength_expect = 1*sizeof(double)*isize* 1 *ksize* 1 ;
if (fieldname == "jk") filelength_expect = 1*sizeof(float )* 1 *jsize*ksize* 1 ;
if (fieldname == "ikl") filelength_expect = 2*sizeof(double)*isize* 1 *ksize*lsize;
if (fieldname == "ijkl") filelength_expect = 2*sizeof(float )*isize*jsize*ksize*lsize;
std::ifstream fs(("Data_" + fieldname + ".dat").c_str(), std::ios::binary);
fs.seekg(0, fs.end);
int filelength = fs.tellg();
fs.close();
ASSERT_EQ(filelength_expect, filelength);
}
// Cleanup files
std::remove("Data.json");
std::remove("Data_ik.dat");
std::remove("Data_jk.dat");
std::remove("Data_ikl.dat");
std::remove("Data_ijkl.dat");
}
bool ServerSocket::handle_json(const std::string& line)
{
try
{
JSONNode n = libjson::parse(line);
string cmd = n.at("cmd").as_string();
// handle admin messages
if(cmd.length() > 0 && cmd[0] == '_')
{
return(handle_admin(n));
}
if(m_id.size() == 0 && cmd != "connect")
{
error("Please connect first", line);
return(false);
}
if(m_id.size() == 0 && IrcSessionManager::get_instance().get_user_count() == Utils::get_max_clients())
{
error_overload();
return(false);
}
IrcSession* sess = IrcSessionManager::get_instance().get_session(m_id);
if(sess == NULL)
{
error("Couldn't retreive Irc Session", line);
return(false);
}
m_id = sess->get_id();
if(cmd == "connect")
{
std::string host = GetRemoteHostname();
std::string ip = GetRemoteAddress();
if (host == "")
host = ip;
sess->connect(n.at("nick").as_string() , n.at("user").as_string() , n.at("name").as_string() , host, ip, n.at("device").as_string());
send_ok();
}
else if(cmd == "quit")
{
sess->get_client().quit(n.at("msg").as_string());
IrcSessionManager::get_instance().remove_session(m_id);
send_ok();
return(false); // to prevent the server from trying to retrieve responses
// from non-existent session.
}else if(cmd == "raw")
{
sess->get_client().raw(n.at("msg").as_string());
send_ok();
}else if(cmd == "update")
{
send_ok();
}else if(cmd == "message")
{
sess->get_client().message(n.at("chan").as_string() , n.at("msg").as_string());
send_ok();
}else if(cmd == "notice")
{
sess->get_client().notice(n.at("chan").as_string() , n.at("msg").as_string());
send_ok();
}else if(cmd == "nickchange")
{
sess->get_client().nick(n.at("new").as_string());
send_ok();
}else if(cmd == "emote")
{
sess->get_client().emote(n.at("chan").as_string() , n.at("msg").as_string());
send_ok();
}else if(cmd == "join")
{
sess->get_client().join(n.at("chan").as_string());
send_ok();
}else if(cmd == "part")
{
sess->get_client().part(n.at("chan").as_string());
send_ok();
}
else if(cmd == "away")
{
sess->get_client().away(n.at("msg").as_string());
send_ok();
}
else
{
error("Unsupported Command: " + cmd, line);
return(false);
}
}catch(std::exception& ex)
{
string err = "Error Parsing JSON: ";
err += ex.what();
error(err, line);
return(false);
}
return(true);
}
listener_ptr makeStreamListener(StreamingDevice* dev, ClientConn* client, JSONNode &n){
std::auto_ptr<WSStreamListener> listener(new WSStreamListener());
listener->id = jsonIntProp(n, "id");
listener->device = dev;
listener->client = client;
listener->decimateFactor = jsonIntProp(n, "decimateFactor", 1);
// Prevent divide by 0
if (listener->decimateFactor == 0) listener->decimateFactor = 1;
int start = jsonIntProp(n, "start", -1);
if (start < 0){ // Negative indexes are relative to latest sample
start = (dev->buffer_max()) + start + 1;
}
if (start < 0) listener->index = 0;
else listener->index = start;
listener->count = jsonIntProp(n, "count");
JSONNode j_streams = n.at("streams");
for(JSONNode::iterator i=j_streams.begin(); i!=j_streams.end(); i++){
listener->streams.push_back(
dev->findStream(
jsonStringProp(*i, "channel"),
jsonStringProp(*i, "stream")));
}
JSONNode::iterator t = n.find("trigger");
if (t != n.end() && (t->type()) == JSON_NODE){
JSONNode &trigger = *t;
string type = jsonStringProp(trigger, "type", "in");
if (type == "in"){
listener->triggerType = INSTREAM;
listener->triggerLevel = jsonFloatProp(trigger, "level");
listener->triggerStream = dev->findStream(
jsonStringProp(trigger, "channel"),
jsonStringProp(trigger, "stream"));
}else if (type == "out"){
listener->triggerType = OUTSOURCE;
listener->triggerChannel = dev->channelById(jsonStringProp(trigger, "channel"));
if (!listener->triggerChannel) throw ErrorStringException("Trigger channel not found");
}else{
throw ErrorStringException("Invalid trigger type");
}
listener->triggerRepeat = jsonBoolProp(trigger, "repeat", true);
listener->triggerHoldoff = jsonIntProp(trigger, "holdoff", 0);
listener->triggerOffset = jsonIntProp(trigger, "offset", 0);
if (listener->triggerOffset<0 && -listener->triggerOffset >= listener->triggerHoldoff){
// Prevent big negative offsets that could cause infinite loops
listener->triggerHoldoff = -listener->triggerOffset;
}
listener->triggerForce = jsonIntProp(trigger, "force", 0);
listener->triggerForceIndex = listener->index + listener->triggerForce;
}
return listener_ptr(listener.release());
}
bool CharacterParser::Parse(std::string jsonString, GameCharacter* character) {
JSONNode characterNode = libjson::parse(jsonString);
character->name = characterNode.at("name").as_string();
character->SetLevel(static_cast<int>(characterNode.at("level").as_int()));
const unsigned long long hitPoints = static_cast<unsigned long long>(characterNode.at("hitPoints").as_int());
character->SetMaxHitPoints(hitPoints);
character->SetCurrentHitPoints(hitPoints);
const unsigned long long magicPoints = static_cast<unsigned long long>(characterNode.at("magicPoints").as_int());
character->SetMaxMagicPoints(magicPoints);
character->SetCurrentMagicPoints(magicPoints);
character->SetStrength(static_cast<unsigned long long>(characterNode.at("strength").as_int()));
character->SetDexterity(static_cast<unsigned long long>(characterNode.at("dexterity").as_int()));
character->SetIntelligence(static_cast<unsigned long long>(characterNode.at("intelligence").as_int()));
character->SetVitality(static_cast<unsigned long long>(characterNode.at("vitality").as_int()));
character->SetStamina(static_cast<unsigned long long>(characterNode.at("stamina").as_int()));
character->SetLuck(static_cast<unsigned long long>(characterNode.at("luck").as_int()));
// This kinda feels out of place...
character->sprite = std::make_shared<GameTexture>(characterNode.at("sprite").as_string());
character->spritesheet = std::make_shared<GameTexture>(characterNode.at("spritesheet").as_string());
character->spriteName = "characters.sprite." + character->name;
character->spritesheetName = "characters.spritesheet." + character->name;
Services::Locator::TextureService()->AddTexture(character->sprite, character->spriteName, nullptr);
Services::Locator::TextureService()->AddTexture(character->spritesheet, character->spritesheetName, nullptr);
return true;
}
UINT CDropbox::RequestAccessTokenAsync(void *owner, void *param)
{
HWND hwndDlg = (HWND)param;
CDropbox *instance = (CDropbox*)owner;
EnableWindow(GetDlgItem(hwndDlg, IDC_AUTHORIZE), FALSE);
SetDlgItemText(hwndDlg, IDC_AUTH_STATUS, TranslateT("in process..."));
if (instance->HasAccessToken())
instance->DestroyAccessToken();
char requestToken[128];
GetDlgItemTextA(hwndDlg, IDC_REQUEST_CODE, requestToken, _countof(requestToken));
GetAccessTokenRequest request(requestToken);
NLHR_PTR response(request.Send(instance->hNetlibConnection));
if (response == NULL || response->resultCode != HTTP_STATUS_OK) {
Netlib_Logf(instance->hNetlibConnection, "%s: %s", MODULE, HttpStatusToText(HTTP_STATUS_ERROR));
if (hwndDlg)
SetDlgItemText(hwndDlg, IDC_AUTH_STATUS, TranslateT("server does not respond"));
/*else
ShowNotification(TranslateT("server does not respond"), MB_ICONERROR);*/
return 0;
}
JSONNode root = JSONNode::parse(response->pData);
if (root.empty()) {
Netlib_Logf(instance->hNetlibConnection, "%s: %s", MODULE, HttpStatusToText((HTTP_STATUS)response->resultCode));
if (hwndDlg)
SetDlgItemText(hwndDlg, IDC_AUTH_STATUS, TranslateT("server does not respond"));
/*else
ShowNotification((TCHAR*)error_description, MB_ICONERROR);*/
return 0;
}
JSONNode node = root.at("error_description");
if (node != JSONNULL) {
ptrT error_description(mir_a2t_cp(node.as_string().c_str(), CP_UTF8));
Netlib_Logf(instance->hNetlibConnection, "%s: %s", MODULE, HttpStatusToText((HTTP_STATUS)response->resultCode));
if (hwndDlg)
SetDlgItemText(hwndDlg, IDC_AUTH_STATUS, error_description);
/*else
ShowNotification((TCHAR*)error_description, MB_ICONERROR);*/
return 0;
}
node = root.at("access_token");
db_set_s(NULL, MODULE, "TokenSecret", node.as_string().c_str());
ProtoBroadcastAck(MODULE, NULL, ACKTYPE_STATUS, ACKRESULT_SUCCESS, (HANDLE)ID_STATUS_OFFLINE, (WPARAM)ID_STATUS_ONLINE);
MCONTACT hContact = instance->GetDefaultContact();
if (hContact) {
if (db_get_w(hContact, MODULE, "Status", ID_STATUS_OFFLINE) != ID_STATUS_ONLINE)
db_set_w(hContact, MODULE, "Status", ID_STATUS_ONLINE);
}
try {
RequestAccountInfo(instance);
}
catch (DropboxException &ex) {
Netlib_Logf(instance->hNetlibConnection, "%s: %s", MODULE, ex.what());
return 0;
}
if (hwndDlg)
SetDlgItemText(hwndDlg, IDC_AUTH_STATUS, TranslateT("you have been authorized"));
/*else
ShowNotification(TranslateT("you have been authorized"), MB_ICONINFORMATION);*/
SetDlgItemTextA(hwndDlg, IDC_REQUEST_CODE, "");
return 0;
}
