void AbstractChart::renderTickLabels(int pWindowId, unsigned w, unsigned h,
std::vector<std::string> &texts,
glm::mat4 &transformation, int coor_offset,
bool useZoffset)
{
auto &fonter = getChartFont();
fonter->setOthro2D(int(w), int(h));
float pos[2];
for (StringIter it = texts.begin(); it!=texts.end(); ++it) {
int idx = int(it - texts.begin());
glm::vec4 p = glm::vec4(mTickTextX[idx+coor_offset],
mTickTextY[idx+coor_offset],
(useZoffset ? mTickTextZ[idx+coor_offset] : 0), 1);
glm::vec4 res = transformation * p;
/* convert text position from [-1,1] range to
* [0, 1) range and then offset horizontally
* to compensate for margins and ticksize */
pos[0] = w*(res.x/res.w+1.0f)/2.0f;
pos[1] = h*(res.y/res.w+1.0f)/2.0f;
/* offset based on text size to align
* text center with tick mark position */
if(coor_offset < mTickCount) {
pos[0] -= ((CHART2D_FONT_SIZE*it->length()/2.0f));
}else if(coor_offset >= mTickCount && coor_offset < 2*mTickCount) {
pos[1] -= ((CHART2D_FONT_SIZE));
}else {
pos[0] -= ((CHART2D_FONT_SIZE*it->length()/2.0f));
pos[1] -= ((CHART2D_FONT_SIZE));
}
fonter->render(pWindowId, pos, WHITE, it->c_str(), CHART2D_FONT_SIZE);
}
}
void AbstractChart2D::renderChart(const void* pWnd, int pX, int pY, int pVPW, int pVPH)
{
float w = float(pVPW - (mLeftMargin + mRightMargin + mTickSize));
float h = float(pVPH - (mTopMargin + mBottomMargin + mTickSize));
float offset_x = (1.9f * (mLeftMargin+mTickSize) + (w - pVPW)) / pVPW;
float offset_y = (1.9f * (mBottomMargin+mTickSize) + (h - pVPH)) / pVPH;
float scale_x = w / pVPW;
float scale_y = h / pVPH;
CheckGL("Begin Chart::render");
bindResources(pWnd);
/* bind the plotting shader program */
glUseProgram(mBorderProgram);
/* set uniform attributes of shader
* for drawing the plot borders */
glm::mat4 trans = glm::scale(glm::translate(glm::mat4(1),
glm::vec3(offset_x, offset_y, 0)),
glm::vec3(scale_x, scale_y, 1));
glUniformMatrix4fv(mBorderMatIndex, 1, GL_FALSE, glm::value_ptr(trans));
glUniform4fv(mBorderColorIndex, 1, WHITE);
/* Draw borders */
glDrawArrays(GL_LINE_LOOP, 0, 4);
/* reset shader program binding */
glUseProgram(0);
/* bind the sprite shader program to
* draw ticks on x and y axes */
glPointSize((GLfloat)mTickSize);
glUseProgram(mSpriteProgram);
glUniform4fv(mSpriteTickcolorIndex, 1, WHITE);
glUniformMatrix4fv(mSpriteMatIndex, 1, GL_FALSE, glm::value_ptr(trans));
/* Draw tick marks on y axis */
glUniform1i(mSpriteTickaxisIndex, 1);
glDrawArrays(GL_POINTS, 4, mTickCount);
/* Draw tick marks on x axis */
glUniform1i(mSpriteTickaxisIndex, 0);
glDrawArrays(GL_POINTS, 4+mTickCount, mTickCount);
glUseProgram(0);
glPointSize(1);
unbindResources();
auto &fonter = getChartFont();
fonter->setOthro2D(int(w), int(h));
float pos[2];
/* render tick marker texts for y axis */
for (StringIter it = mYText.begin(); it!=mYText.end(); ++it) {
int idx = int(it - mYText.begin());
glm::vec4 res = trans * glm::vec4(mTickTextX[idx], mTickTextY[idx], 0, 1);
/* convert text position from [-1,1] range to
* [0, 1) range and then offset horizontally
* to compensate for margins and ticksize */
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[0] -= (pVPW-w)*0.60f;
fonter->render(pWnd, pos, WHITE, it->c_str(), CHART2D_FONT_SIZE);
}
/* render tick marker texts for x axis */
for (StringIter it = mXText.begin(); it!=mXText.end(); ++it) {
int idx = int(it - mXText.begin());
/* mTickCount offset is needed while reading point coordinates for
* x axis tick marks */
glm::vec4 res = trans * glm::vec4(mTickTextX[idx+mTickCount], mTickTextY[idx+mTickCount], 0, 1);
/* convert text position from [-1,1] range to
* [0, 1) range and then offset vertically
* to compensate for margins and ticksize */
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[1] -= (pVPH-h)*0.34f;
/* offset horizontally based on text size to align
* text center with tick mark position */
pos[0] -= (CHART2D_FONT_SIZE*(it->length()-2)/2.0f);
fonter->render(pWnd, pos, WHITE, it->c_str(), CHART2D_FONT_SIZE);
}
/* render chart axes titles */
if (!mYTitle.empty()) {
glm::vec4 res = trans * glm::vec4(-1.0f, 0.0f, 0.0f, 1.0f);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[0] -= (pVPW-w)*0.76;
fonter->render(pWnd, pos, WHITE, mYTitle.c_str(), CHART2D_FONT_SIZE, true);
}
if (!mXTitle.empty()) {
glm::vec4 res = trans * glm::vec4(0.0f, -1.0f, 0.0f, 1.0f);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[1] -= (pVPH-h)*0.66;
fonter->render(pWnd, pos, WHITE, mXTitle.c_str(), CHART2D_FONT_SIZE);
}
CheckGL("End Chart::render");
}
void NmdcHub::onLine(const string& aLine) throw() {
lastActivity = GET_TICK();
if(aLine.length() == 0)
return;
if(aLine[0] != '$') {
// Check if we're being banned...
if(state != STATE_CONNECTED) {
if(Util::findSubString(aLine, "banned") != string::npos) {
reconnect = false;
}
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::Message(), this, Util::validateMessage(fromNmdc(aLine), true));
return;
}
string cmd;
string param;
string::size_type x;
if( (x = aLine.find(' ')) == string::npos) {
cmd = aLine;
} else {
cmd = aLine.substr(0, x);
param = aLine.substr(x+1);
}
if(cmd == "$Search") {
if(state != STATE_CONNECTED) {
return;
}
string::size_type i = 0;
string::size_type j = param.find(' ', i);
if(j == string::npos || i == j)
return;
string seeker = fromNmdc(param.substr(i, j-i));
// Filter own searches
if(SETTING(CONNECTION_TYPE) == SettingsManager::CONNECTION_ACTIVE) {
if(seeker == (getLocalIp() + ":" + Util::toString(SETTING(IN_PORT)))) {
return;
}
} else {
// Hub:seeker
if(Util::stricmp(seeker.c_str() + 4, getNick().c_str()) == 0) {
return;
}
}
i = j + 1;
{
Lock l(cs);
u_int32_t tick = GET_TICK();
seekers.push_back(make_pair(seeker, tick));
// First, check if it's a flooder
FloodIter fi;
for(fi = flooders.begin(); fi != flooders.end(); ++fi) {
if(fi->first == seeker) {
return;
}
}
int count = 0;
for(fi = seekers.begin(); fi != seekers.end(); ++fi) {
if(fi->first == seeker)
count++;
if(count > 7) {
if(seeker.compare(0, 4, "Hub:") == 0)
Speaker<NmdcHubListener>::fire(NmdcHubListener::SearchFlood(), this, seeker.substr(4));
else
Speaker<NmdcHubListener>::fire(NmdcHubListener::SearchFlood(), this, seeker + STRING(NICK_UNKNOWN));
flooders.push_back(make_pair(seeker, tick));
return;
}
}
}
int a;
if(param[i] == 'F') {
a = SearchManager::SIZE_DONTCARE;
} else if(param[i+2] == 'F') {
a = SearchManager::SIZE_ATLEAST;
} else {
a = SearchManager::SIZE_ATMOST;
}
i += 4;
j = param.find('?', i);
if(j == string::npos || i == j)
return;
string size = param.substr(i, j-i);
i = j + 1;
j = param.find('?', i);
if(j == string::npos || i == j)
return;
int type = Util::toInt(param.substr(i, j-i)) - 1;
i = j + 1;
param = param.substr(i);
if(param.size() > 0) {
Speaker<NmdcHubListener>::fire(NmdcHubListener::Search(), this, seeker, a, Util::toInt64(size), type, fromNmdc(param));
if(seeker.compare(0, 4, "Hub:") == 0) {
User::Ptr u;
{
Lock l(cs);
User::NickIter ni = users.find(seeker.substr(4));
if(ni != users.end() && !ni->second->isSet(User::PASSIVE)) {
u = ni->second;
u->setFlag(User::PASSIVE);
}
}
if(u) {
updated(u);
}
}
}
} else if(cmd == "$MyINFO") {
string::size_type i, j;
i = 5;
j = param.find(' ', i);
if( (j == string::npos) || (j == i) )
return;
string nick = fromNmdc(param.substr(i, j-i));
i = j + 1;
User::Ptr u;
dcassert(nick.size() > 0);
{
Lock l(cs);
User::NickIter ni = users.find(nick);
if(ni == users.end()) {
u = users[nick] = ClientManager::getInstance()->getUser(nick, this);
} else {
u = ni->second;
}
}
j = param.find('$', i);
if(j == string::npos)
return;
string tmpDesc = Util::validateMessage(fromNmdc(param.substr(i, j-i)), true);
// Look for a tag...
if(tmpDesc.size() > 0 && tmpDesc[tmpDesc.size()-1] == '>') {
x = tmpDesc.rfind('<');
if(x != string::npos) {
// Hm, we have something...
u->setTag(tmpDesc.substr(x));
tmpDesc.erase(x);
} else {
u->setTag(Util::emptyString);
}
} else {
u->setTag(Util::emptyString);
}
u->setDescription(tmpDesc);
i = j + 3;
j = param.find('$', i);
if(j == string::npos)
return;
u->setConnection(fromNmdc(param.substr(i, j-i-1)));
i = j + 1;
j = param.find('$', i);
if(j == string::npos)
return;
u->setEmail(Util::validateMessage(fromNmdc(param.substr(i, j-i)), true));
i = j + 1;
j = param.find('$', i);
if(j == string::npos)
return;
u->setBytesShared(param.substr(i, j-i));
Speaker<NmdcHubListener>::fire(NmdcHubListener::MyInfo(), this, u);
} else if(cmd == "$Quit") {
if(!param.empty()) {
User::Ptr u;
{
Lock l(cs);
User::NickIter i = users.find(fromNmdc(param));
if(i == users.end()) {
dcdebug("C::onLine Quitting user %s not found\n", param.c_str());
return;
}
u = i->second;
users.erase(i);
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::Quit(), this, u);
ClientManager::getInstance()->putUserOffline(u, true);
}
} else if(cmd == "$ConnectToMe") {
if(state != STATE_CONNECTED) {
return;
}
string::size_type i = param.find(' ');
string::size_type j;
if( (i == string::npos) || ((i + 1) >= param.size()) ) {
return;
}
i++;
j = param.find(':', i);
if(j == string::npos) {
return;
}
string server = fromNmdc(param.substr(i, j-i));
if(j+1 >= param.size()) {
return;
}
string port = param.substr(j+1);
ConnectionManager::getInstance()->connect(server, (short)Util::toInt(port), getNick());
Speaker<NmdcHubListener>::fire(NmdcHubListener::ConnectToMe(), this, server, (short)Util::toInt(port));
} else if(cmd == "$RevConnectToMe") {
if(state != STATE_CONNECTED) {
return;
}
User::Ptr u;
bool up = false;
{
Lock l(cs);
string::size_type j = param.find(' ');
if(j == string::npos) {
return;
}
User::NickIter i = users.find(fromNmdc(param.substr(0, j)));
if(i == users.end()) {
return;
}
u = i->second;
if(!u->isSet(User::PASSIVE)) {
u->setFlag(User::PASSIVE);
up = true;
}
}
if(u) {
if(SETTING(CONNECTION_TYPE) == SettingsManager::CONNECTION_ACTIVE) {
connectToMe(u);
Speaker<NmdcHubListener>::fire(NmdcHubListener::RevConnectToMe(), this, u);
} else {
// Notify the user that we're passive too...
if(up)
revConnectToMe(u);
}
if(up)
updated(u);
}
} else if(cmd == "$SR") {
SearchManager::getInstance()->onSearchResult(aLine);
} else if(cmd == "$HubName") {
name = fromNmdc(param);
Speaker<NmdcHubListener>::fire(NmdcHubListener::HubName(), this);
} else if(cmd == "$Supports") {
StringTokenizer<string> st(param, ' ');
StringList& sl = st.getTokens();
for(StringIter i = sl.begin(); i != sl.end(); ++i) {
if(*i == "UserCommand") {
supportFlags |= SUPPORTS_USERCOMMAND;
} else if(*i == "NoGetINFO") {
supportFlags |= SUPPORTS_NOGETINFO;
} else if(*i == "UserIP2") {
supportFlags |= SUPPORTS_USERIP2;
}
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::Supports(), this, sl);
} else if(cmd == "$UserCommand") {
string::size_type i = 0;
string::size_type j = param.find(' ');
if(j == string::npos)
return;
int type = Util::toInt(param.substr(0, j));
i = j+1;
if(type == UserCommand::TYPE_SEPARATOR || type == UserCommand::TYPE_CLEAR) {
int ctx = Util::toInt(param.substr(i));
Speaker<NmdcHubListener>::fire(NmdcHubListener::UserCommand(), this, type, ctx, Util::emptyString, Util::emptyString);
} else if(type == UserCommand::TYPE_RAW || type == UserCommand::TYPE_RAW_ONCE) {
j = param.find(' ', i);
if(j == string::npos)
return;
int ctx = Util::toInt(param.substr(i));
i = j+1;
j = param.find('$');
if(j == string::npos)
return;
string name = fromNmdc(param.substr(i, j-i));
i = j+1;
string command = fromNmdc(param.substr(i, param.length() - i));
Speaker<NmdcHubListener>::fire(NmdcHubListener::UserCommand(), this, type, ctx, Util::validateMessage(name, true, false), Util::validateMessage(command, true, false));
}
} else if(cmd == "$Lock") {
if(state != STATE_LOCK) {
return;
}
state = STATE_HELLO;
if(!param.empty()) {
string::size_type j = param.find(" Pk=");
string lock, pk;
if( j != string::npos ) {
lock = param.substr(0, j);
pk = param.substr(j + 4);
} else {
// Workaround for faulty linux hubs...
j = param.find(" ");
if(j != string::npos)
lock = param.substr(0, j);
else
lock = param;
}
if(CryptoManager::getInstance()->isExtended(lock)) {
StringList feat;
feat.push_back("UserCommand");
feat.push_back("NoGetINFO");
feat.push_back("NoHello");
feat.push_back("UserIP2");
feat.push_back("TTHSearch");
if(BOOLSETTING(COMPRESS_TRANSFERS))
feat.push_back("GetZBlock");
supports(feat);
}
key(CryptoManager::getInstance()->makeKey(lock));
validateNick(getNick());
Speaker<NmdcHubListener>::fire(NmdcHubListener::CLock(), this, lock, pk);
}
} else if(cmd == "$Hello") {
if(!param.empty()) {
string nick = fromNmdc(param);
User::Ptr u = ClientManager::getInstance()->getUser(nick, this);
{
Lock l(cs);
users[nick] = u;
}
if(getNick() == nick) {
setMe(u);
u->setFlag(User::DCPLUSPLUS);
if(SETTING(CONNECTION_TYPE) != SettingsManager::CONNECTION_ACTIVE)
u->setFlag(User::PASSIVE);
else
u->unsetFlag(User::PASSIVE);
}
if(state == STATE_HELLO) {
state = STATE_CONNECTED;
updateCounts(false);
version();
getNickList();
myInfo();
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::Hello(), this, u);
}
} else if(cmd == "$ForceMove") {
disconnect();
Speaker<NmdcHubListener>::fire(NmdcHubListener::Redirect(), this, param);
} else if(cmd == "$HubIsFull") {
Speaker<NmdcHubListener>::fire(NmdcHubListener::HubFull(), this);
} else if(cmd == "$ValidateDenide") { // Mind the spelling...
disconnect();
Speaker<NmdcHubListener>::fire(NmdcHubListener::ValidateDenied(), this);
} else if(cmd == "$UserIP") {
if(!param.empty()) {
User::List v;
StringTokenizer<string> t(fromNmdc(param), "$$");
StringList& l = t.getTokens();
for(StringIter it = l.begin(); it != l.end(); ++it) {
string::size_type j = 0;
if((j = it->find(' ')) == string::npos)
continue;
if((j+1) == it->length())
continue;
v.push_back(ClientManager::getInstance()->getUser(it->substr(0, j), this));
v.back()->setIp(it->substr(j+1));
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::UserIp(), this, v);
}
} else if(cmd == "$NickList") {
if(!param.empty()) {
User::List v;
StringTokenizer<string> t(fromNmdc(param), "$$");
StringList& sl = t.getTokens();
for(StringIter it = sl.begin(); it != sl.end(); ++it) {
v.push_back(ClientManager::getInstance()->getUser(*it, this));
}
{
Lock l(cs);
for(User::Iter it2 = v.begin(); it2 != v.end(); ++it2) {
users[(*it2)->getNick()] = *it2;
}
}
if(!(getSupportFlags() & SUPPORTS_NOGETINFO)) {
string tmp;
// Let's assume 10 characters per nick...
tmp.reserve(v.size() * (11 + 10 + getNick().length()));
for(User::List::const_iterator i = v.begin(); i != v.end(); ++i) {
tmp += "$GetINFO ";
tmp += (*i)->getNick();
tmp += ' ';
tmp += getNick();
tmp += '|';
}
if(!tmp.empty()) {
send(tmp);
}
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::NickList(), this, v);
}
} else if(cmd == "$OpList") {
if(!param.empty()) {
User::List v;
StringTokenizer<string> t(fromNmdc(param), "$$");
StringList& sl = t.getTokens();
for(StringIter it = sl.begin(); it != sl.end(); ++it) {
v.push_back(ClientManager::getInstance()->getUser(*it, this));
v.back()->setFlag(User::OP);
}
{
Lock l(cs);
for(User::Iter it2 = v.begin(); it2 != v.end(); ++it2) {
users[(*it2)->getNick()] = *it2;
}
}
Speaker<NmdcHubListener>::fire(NmdcHubListener::OpList(), this, v);
updateCounts(false);
// Special...to avoid op's complaining that their count is not correctly
// updated when they log in (they'll be counted as registered first...)
myInfo();
}
} else if(cmd == "$To:") {
string::size_type i = param.find("From:");
if(i != string::npos) {
i+=6;
string::size_type j = param.find("$");
if(j != string::npos) {
string from = fromNmdc(param.substr(i, j - 1 - i));
if(from.size() > 0 && param.size() > (j + 1)) {
Speaker<NmdcHubListener>::fire(NmdcHubListener::PrivateMessage(), this, ClientManager::getInstance()->getUser(from, this, false), Util::validateMessage(fromNmdc(param.substr(j + 1)), true));
}
}
}
} else if(cmd == "$GetPass") {
setRegistered(true);
Speaker<NmdcHubListener>::fire(NmdcHubListener::GetPassword(), this);
} else if(cmd == "$BadPass") {
Speaker<NmdcHubListener>::fire(NmdcHubListener::BadPassword(), this);
} else if(cmd == "$LogedIn") {
Speaker<NmdcHubListener>::fire(NmdcHubListener::LoggedIn(), this);
} else {
dcassert(cmd[0] == '$');
dcdebug("NmdcHub::onLine Unknown command %s\n", aLine.c_str());
}
}
int __cdecl main(int argc, char* argv[])
{
if(argc < 3) {
return 0;
}
try {
string tmp;
File src(argv[1], File::READ, File::OPEN, false);
File tgt(argv[2], File::WRITE, File::CREATE | File::TRUNCATE, false);
File example(argv[3], File::WRITE, File::CREATE | File::TRUNCATE, false);
string x = src.read();
x = Text::acpToUtf8(x);
string::size_type k;
while((k = x.find('\r')) != string::npos) {
x.erase(k, 1);
}
StringList l = StringTokenizer<string>(x, '\n').getTokens();
StringIter i;
string varStr;
string varName;
string start;
SimpleXML ex;
for(i = l.begin(); i != l.end(); ) {
if( (k = i->find("// @Strings: ")) != string::npos) {
varStr = i->substr(k + 13);
i = l.erase(i);
} else if( (k = i->find("// @Names: ")) != string::npos) {
varName = i->substr(k + 11);
i = l.erase(i);
} else if(i->find("// @DontAdd") != string::npos) {
i = l.erase(i);
} else if( (k = i->find("// @Prolog: ")) != string::npos) {
start += i->substr(k + 12) + "\r\n";
i = l.erase(i);
} else if(i->size() < 5) {
i = l.erase(i);
} else {
++i;
}
}
if(varStr.empty() || varName.empty()) {
printf("No @Strings or @Names\n");
return 0;
}
varStr += " = {\r\n";
varName += " = {\r\n";
/*
ex.addTag("Language");
ex.addChildAttrib("Name", string("Example Language"));
ex.addChildAttrib("Author", string("FlylinkDC++ Development Team"));
//ex.addChildAttrib("Version", string(A_VERSIONSTRING));
ex.addChildAttrib("Revision", string("1"));
ex.stepIn();
*/
ex.addTag("resources");
ex.stepIn();
string name;
string def;
string xmldef;
string s;
for(i = l.begin(); i != l.end(); i++) {
name.clear();
s = *i;
bool u = true;
for(k = s.find_first_not_of(" \t"); s[k] != ','; k++) {
if(s[k] == '_') {
u = true;
} else if(u) {
name+=s[k];
u = false;
} else {
name+=(char)tolower(s[k]);
}
}
k = s.find("// ");
def = s.substr(k + 3);
xmldef = def.substr(1, def.size() - 2);
/* while( (k = xmldef.find("\\t")) != string::npos) {
xmldef.replace(k, 2, "\t");
}
while( (k = xmldef.find("\\r")) != string::npos) {
xmldef.replace(k, 2, "\r");
}
while( (k = xmldef.find("\\n")) != string::npos) {
xmldef.replace(k, 2, "\n");
}
while( (k = xmldef.find("\\\\")) != string::npos) {
xmldef.replace(k, 2, "\\");
}
*/
ex.addTag("string", xmldef);
ex.addChildAttrib("name", name);
varStr += def + ", \r\n";
varName += '\"' + name + "\", \r\n";
}
varStr.erase(varStr.size()-2, 2);
varName.erase(varName.size()-2, 2);
varStr += "\r\n};\r\n";
varName += "\r\n};\r\n";
tgt.write(start);
tgt.write(varStr);
tgt.write(varName);
example.write(SimpleXML::utf8Header);
example.write(ex.toXML());
} catch(const Exception& e) {
printf("%s\n", e.getError().c_str());
}
return 0;
}
void AbstractChart2D::renderChart(int pX, int pY, int pVPW, int pVPH) const
{
float w = float(pVPW - (mLeftMargin + mRightMargin + mTickSize));
float h = float(pVPH - (mTopMargin + mBottomMargin + mTickSize));
float offset_x = (2.0f * (mLeftMargin+mTickSize) + (w - pVPW)) / pVPW;
float offset_y = (2.0f * (mBottomMargin+mTickSize) + (h - pVPH)) / pVPH;
float scale_x = w / pVPW;
float scale_y = h / pVPH;
CheckGL("Begin Chart::render");
glEnableVertexAttribArray(mBorderPointIndex);
glBindBuffer(GL_ARRAY_BUFFER, mDecorVBO);
glVertexAttribPointer(mBorderPointIndex, 2, GL_FLOAT, GL_FALSE, 0, 0);
/* bind the plotting shader program */
glUseProgram(mBorderProgram);
/* set uniform attributes of shader
* for drawing the plot borders */
glm::mat4 trans = glm::scale(glm::translate(glm::mat4(1),
glm::vec3(offset_x, offset_y, 0)),
glm::vec3(scale_x, scale_y, 1));
glUniformMatrix4fv(mBorderMatIndex, 1, GL_FALSE, glm::value_ptr(trans));
glUniform4fv(mBorderColorIndex, 1, WHITE);
/* Draw borders */
glDrawArrays(GL_LINE_LOOP, 0, 4);
/* reset shader program binding */
glUseProgram(0);
/* bind the sprite shader program to
* draw ticks on x and y axes */
glPointSize((GLfloat)mTickSize);
/* Following line is required for opengl compatibility profile */
glEnable(GL_POINT_SPRITE);
glUseProgram(mSpriteProgram);
glUniform4fv(mSpriteTickcolorIndex, 1, WHITE);
glUniformMatrix4fv(mSpriteMatIndex, 1, GL_FALSE, glm::value_ptr(trans));
/* Draw tick marks on y axis */
glUniform1i(mSpriteTickaxisIndex, 1);
glDrawArrays(GL_POINTS, 4, mTickCount);
/* Draw tick marks on x axis */
glUniform1i(mSpriteTickaxisIndex, 0);
glDrawArrays(GL_POINTS, 4+mTickCount, mTickCount);
glUseProgram(0);
glPointSize(1);
glDisableVertexAttribArray(mBorderPointIndex);
glBindBuffer(GL_ARRAY_BUFFER, 0);
/* Following line is required for opengl compatibility profile */
glDisable(GL_POINT_SPRITE);
auto &fonter = getChartFont();
fonter.setOthro2D(int(w), int(h));
float pos[2];
/* render tick marker texts for y axis */
for (StringIter it = mYText.begin(); it!=mYText.end(); ++it) {
int idx = int(it - mYText.begin());
glm::vec4 res = trans * glm::vec4(mTickTextX[idx], mTickTextY[idx], 0, 1);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[0] -= (pVPW-w)*0.50f;
fonter.render(pos, WHITE, it->c_str(), 15);
}
/* render tick marker texts for x axis */
for (StringIter it = mXText.begin(); it!=mXText.end(); ++it) {
int idx = int(it - mXText.begin());
/* mTickCount offset is needed while reading point coordinates for
* x axis tick marks */
glm::vec4 res = trans * glm::vec4(mTickTextX[idx+mTickCount], mTickTextY[idx+mTickCount], 0, 1);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[1] -= (pVPH-h)*0.32f;
fonter.render(pos, WHITE, it->c_str(), 15);
}
/* render chart axes titles */
if (!mYTitle.empty()) {
glm::vec4 res = trans * glm::vec4(-1.0f, 0.0f, 0.0f, 1.0f);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[0] -= (pVPW-w)*0.70f;
fonter.render(pos, WHITE, mYTitle.c_str(), 15, true);
}
if (!mXTitle.empty()) {
glm::vec4 res = trans * glm::vec4(0.0f, -1.0f, 0.0f, 1.0f);
pos[0] = w*(res.x+1.0f)/2.0f;
pos[1] = h*(res.y+1.0f)/2.0f;
pos[1] -= (pVPH-h)*0.70f;
fonter.render(pos, WHITE, mXTitle.c_str(), 15);
}
CheckGL("End Chart::render");
}
void CryptoManager::loadCertificates() throw() {
if(!BOOLSETTING(USE_TLS))
return;
SSL_CTX_set_verify(serverContext, SSL_VERIFY_NONE, 0);
SSL_CTX_set_verify(clientContext, SSL_VERIFY_NONE, 0);
SSL_CTX_set_verify(clientVerContext, SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT, 0);
SSL_CTX_set_verify(serverVerContext, SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT, 0);
const string& cert = SETTING(TLS_CERTIFICATE_FILE);
const string& key = SETTING(TLS_PRIVATE_KEY_FILE);
if(cert.empty() || key.empty()) {
LogManager::getInstance()->message(STRING(NO_CERTIFICATE_FILE_SET));
return;
}
if(File::getSize(cert) == -1 || File::getSize(key) == -1) {
// Try to generate them...
try {
generateCertificate();
} catch(const CryptoException& e) {
LogManager::getInstance()->message(STRING(CERTIFICATE_GENERATION_FAILED) + e.getError());
}
}
if(SSL_CTX_use_certificate_file(serverContext, SETTING(TLS_CERTIFICATE_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_CERTIFICATE));
return;
}
if(SSL_CTX_use_certificate_file(clientContext, SETTING(TLS_CERTIFICATE_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_CERTIFICATE));
return;
}
if(SSL_CTX_use_certificate_file(serverVerContext, SETTING(TLS_CERTIFICATE_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_CERTIFICATE));
return;
}
if(SSL_CTX_use_certificate_file(clientVerContext, SETTING(TLS_CERTIFICATE_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_CERTIFICATE));
return;
}
if(SSL_CTX_use_PrivateKey_file(serverContext, SETTING(TLS_PRIVATE_KEY_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_PRIVATE_KEY));
return;
}
if(SSL_CTX_use_PrivateKey_file(clientContext, SETTING(TLS_PRIVATE_KEY_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_PRIVATE_KEY));
return;
}
if(SSL_CTX_use_PrivateKey_file(serverVerContext, SETTING(TLS_PRIVATE_KEY_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_PRIVATE_KEY));
return;
}
if(SSL_CTX_use_PrivateKey_file(clientVerContext, SETTING(TLS_PRIVATE_KEY_FILE).c_str(), SSL_FILETYPE_PEM) != SSL_SUCCESS) {
LogManager::getInstance()->message(STRING(FAILED_TO_LOAD_PRIVATE_KEY));
return;
}
StringList certs = File::findFiles(SETTING(TLS_TRUSTED_CERTIFICATES_PATH), "*.pem");
StringList certs2 = File::findFiles(SETTING(TLS_TRUSTED_CERTIFICATES_PATH), "*.crt");
certs.insert(certs.end(), certs2.begin(), certs2.end());
for(StringIter i = certs.begin(); i != certs.end(); ++i) {
if(
SSL_CTX_load_verify_locations(clientContext, i->c_str(), NULL) != SSL_SUCCESS ||
SSL_CTX_load_verify_locations(clientVerContext, i->c_str(), NULL) != SSL_SUCCESS ||
SSL_CTX_load_verify_locations(serverContext, i->c_str(), NULL) != SSL_SUCCESS ||
SSL_CTX_load_verify_locations(serverVerContext, i->c_str(), NULL) != SSL_SUCCESS
) {
LogManager::getInstance()->message("Failed to load trusted certificate from " + *i);
}
}
certsLoaded = true;
}
