bool CPhilipsHue::GetLights(const Json::Value &root)
{
if (root["lights"].empty())
return false;
for (Json::Value::const_iterator iLight = root["lights"].begin(); iLight != root["lights"].end(); ++iLight)
{
Json::Value light = *iLight;
if (light.isObject())
{
std::string szLID = iLight.key().asString();
int lID = atoi(szLID.c_str());
_tHueLight tlight;
tlight.level = 0;
tlight.sat = 0; // Philips 0- 254, should be corrected to 0 - 255 ?
tlight.hue = 0; // Philips 0 - 65535, should be converted to 0 - 255 ?
tlight.on = light["state"]["on"].asBool();
bool bDoSend = true;
_eHueLightType LType = HLTYPE_NORMAL;
if (!light["state"]["bri"].empty())
{
//Lamp with brightness control
LType = HLTYPE_DIM;
int tbri = light["state"]["bri"].asInt();
if ((tbri != 0) && (tbri != 255))
tbri += 1; //hue reports 255 as 254
tlight.level = int((100.0f / 255.0f)*float(tbri));
}
if ((!light["state"]["sat"].empty()) && (!light["state"]["hue"].empty()))
{
//Lamp with hue/sat control
LType = HLTYPE_RGBW;
tlight.sat = light["state"]["sat"].asInt();
tlight.hue = light["state"]["hue"].asInt();
}
if (m_lights.find(lID) != m_lights.end())
{
_tHueLight alight = m_lights[lID];
if (
(alight.on == tlight.on) &&
(alight.level == tlight.level) &&
(alight.sat == tlight.sat) &&
(alight.hue == tlight.hue)
)
{
bDoSend = false;
}
}
m_lights[lID] = tlight;
if (bDoSend)
{
//_log.Log(LOG_STATUS, "HueBridge state change: tbri = %d, level = %d", tbri, tlight.level);
InsertUpdateSwitch(lID, LType, tlight.on, tlight.level, tlight.sat, tlight.hue, light["name"].asString(), "");
}
}
}
return true;
}
void Config_Cache::refresh_server_id_ip_cache(void) {
const Json::Value &game_server_list = CONFIG_INSTANCE->config_json()["server_global_conf"]["server_maintainer"]["game_server_list"];
int server_id = 0;
IP_Info ip_info;
for (Json::Value::const_iterator it = game_server_list.begin(); it != game_server_list.end(); ++it) {
server_id = atoi(it.key().asCString());
ip_info.telecom_ip = (*it)["telecom_ip"].asString();
ip_info.unicom_ip = (*it)["unicom_ip"].asString();
set_map_second_value_by_key(server_id, server_ip_ip_cache_, ip_info);
}
}
// Recursive function to convert JSON --> Lua table
static bool push_json_value_helper(lua_State *L, const Json::Value &value,
int nullindex)
{
switch(value.type()) {
case Json::nullValue:
default:
lua_pushvalue(L, nullindex);
break;
case Json::intValue:
lua_pushinteger(L, value.asInt());
break;
case Json::uintValue:
lua_pushinteger(L, value.asUInt());
break;
case Json::realValue:
lua_pushnumber(L, value.asDouble());
break;
case Json::stringValue:
{
const char *str = value.asCString();
lua_pushstring(L, str ? str : "");
}
break;
case Json::booleanValue:
lua_pushboolean(L, value.asInt());
break;
case Json::arrayValue:
lua_newtable(L);
for (Json::Value::const_iterator it = value.begin();
it != value.end(); ++it) {
push_json_value_helper(L, *it, nullindex);
lua_rawseti(L, -2, it.index() + 1);
}
break;
case Json::objectValue:
lua_newtable(L);
for (Json::Value::const_iterator it = value.begin();
it != value.end(); ++it) {
#ifndef JSONCPP_STRING
const char *str = it.memberName();
lua_pushstring(L, str ? str : "");
#else
std::string str = it.name();
lua_pushstring(L, str.c_str());
#endif
push_json_value_helper(L, *it, nullindex);
lua_rawset(L, -3);
}
break;
}
return true;
}
CRpcHelper::str_unique_list CRpcHelper::GetLabelList()
{
str_unique_list result;
Json::Value args;
args.append( MAX_CONF );
const Json::Value labels = json_from_string( m_rpc->Send( "listaccounts", args ) );
for( Json::Value::const_iterator it = labels.begin(); it != labels.end(); ++it )
{
bool ok = result.insert( it.key().asString() ).second;
assert( ok );
}
return result;
}
bool Tree::ParseFromJsonInternal(const Json::Value &json)
{
size_t index = 0;
for (Json::Value::const_iterator p = json.begin(); p != json.end(); ++p) {
const Json::Value &j = *p;
std::string key = p.name();
if (key.empty()) {
std::ostringstream s;
s << '[' << index++ << ']';
key = s.str();
}
std::string full_path = GetFullPath(key);
if (j.isArray() || j.isObject()) { // Go recursively.
Tree *child = new Tree(full_path, key, std::string());
_children.insert(std::make_pair(key, child));
if (!child->ParseFromJsonInternal(j)) {
return false;
}
continue;
}
std::ostringstream s;
#ifdef JSON_HAS_INT64
if (j.isInt64() ) { s << j.asInt64(); } else
if (j.isUInt64()) { s << j.asUInt64(); } else
#endif
if (j.isInt() ) { s << j.asInt(); } else
if (j.isUInt() ) { s << j.asUInt(); } else
if (j.isDouble()) { s << j.asDouble(); } else
{ s << j.asString(); }
const std::string &value = s.str();
Tree *child = new Tree(full_path, key, value);
_children.insert(std::make_pair(key, child));
}
return true;
}
bool cStatSerializer::LoadStatFromJSON(const Json::Value & a_In)
{
m_Manager->Reset();
for (Json::Value::const_iterator it = a_In.begin() ; it != a_In.end() ; ++it)
{
AString StatName = it.key().asString();
eStatistic StatType = cStatInfo::GetType(StatName);
if (StatType == statInvalid)
{
LOGWARNING("Invalid statistic type \"%s\"", StatName.c_str());
continue;
}
const Json::Value & Node = *it;
if (Node.isInt())
{
m_Manager->SetValue(StatType, Node.asInt());
}
else if (Node.isObject())
{
StatValue Value = Node.get("value", 0).asInt();
// TODO 2014-05-11 xdot: Load "progress"
m_Manager->SetValue(StatType, Value);
}
else
{
LOGWARNING("Invalid statistic value for type \"%s\"", StatName.c_str());
}
}
return true;
}
void JsonConf::reLoad()
{
struct stat st;
Thread::RWLock::WRScoped l(locker);
for( stat(fileName.c_str(), &st); mTime != st.st_mtime; stat( fileName.c_str(), &st) ){
mTime = st.st_mtime;
std::ifstream ifs( fileName.c_str() );
SectionType section;
SectionMap sMap;
if( !jsonConfMap.empty() ){
jsonConfMap.clear();
}
if( !ifs.is_open() ){
Logger::file()->error("json file open failed! {}", fileName);
return;
}
Json::Reader reader;
Json::Value root;
if( !reader.parse(ifs, root, false) ){
Logger::file()->error("json file parse failed! {}", fileName);
return;
}
for( Json::Value::const_iterator fit = root.begin(); fit != root.end(); ++fit){
std::string sectionKey = fit.key().asString();
SectionMap mapTmp;
for( Json::Value::const_iterator sit = fit->begin(); sit != fit->end(); ++sit ){
std::string key = sit.key().asString();
mapTmp[key] = sit->asString();
}
if( !mapTmp.empty() ){
jsonConfMap[sectionKey] = mapTmp;
}
}
}
}
bool CPhilipsHue::GetScenes(const Json::Value &root)
{
if (root["scenes"].empty())
return false;
for (Json::Value::const_iterator iScene = root["scenes"].begin(); iScene != root["scenes"].end(); ++iScene)
{
Json::Value scene = *iScene;
if (scene.isObject())
{
_tHueScene hscene;
hscene.id = iScene.key().asString();;
hscene.name = scene["name"].asString();
hscene.lastupdated = scene["lastupdated"].asString();
if (hscene.lastupdated.empty())
continue; //old scene/legacy scene
//Strip some info
size_t tpos = hscene.name.find(" from ");
if (tpos != std::string::npos)
{
hscene.name = hscene.name.substr(0, tpos);
}
bool bDoSend = true;
if (m_scenes.find(hscene.id) != m_scenes.end())
{
_tHueScene ascene = m_scenes[hscene.id];
if (ascene.lastupdated == hscene.lastupdated)
{
bDoSend = false;
}
}
m_scenes[hscene.id] = hscene;
if (bDoSend)
{
int sID = -1;
std::vector<std::vector<std::string> > result;
result = m_sql.safe_query("SELECT ID FROM WOLNodes WHERE (HardwareID==%d) AND (MacAddress=='%q')", m_HwdID, hscene.id.c_str());
if (!result.empty())
{
//existing scene
sID = atoi(result[0][0].c_str());
}
else
{
//New scene
m_sql.safe_query("INSERT INTO WOLNodes (HardwareID, Name, MacAddress) VALUES (%d, '%q', '%q')", m_HwdID, hscene.name.c_str(), hscene.id.c_str());
result = m_sql.safe_query("SELECT ID FROM WOLNodes WHERE (HardwareID==%d) AND (MacAddress=='%q')", m_HwdID, hscene.id.c_str());
if (result.empty())
{
_log.Log(LOG_ERROR, "Philips Hue: Problem adding new Scene!!");
return false;
}
sID = atoi(result[0][0].c_str());
}
std::string Name = "Scene " + hscene.name;
InsertUpdateSwitch(2000 + sID, HLTYPE_SCENE, false, 100, 0, 0, Name, hscene.id);
}
}
}
return true;
}
// Note:
// Some groups have only White lights,
// We whould find a way to have these working as normal lights instead of RGBW
bool CPhilipsHue::GetGroups(const Json::Value &root)
{
//Groups (0=All)
if (root["groups"].empty())
return false;
_eHueLightType LType;
for (Json::Value::const_iterator iGroup = root["groups"].begin(); iGroup != root["groups"].end(); ++iGroup)
{
Json::Value group = *iGroup;
if (group.isObject())
{
std::string szGID = iGroup.key().asString();
int gID = atoi(szGID.c_str());
_tHueLight tstate;
tstate.on = false;
tstate.level = 0;
tstate.sat = 0;
tstate.hue = 0;
if (!group["action"]["on"].empty())
tstate.on = group["action"]["on"].asBool();
if (!group["action"]["bri"].empty())
{
int tbri = group["action"]["bri"].asInt();
if ((tbri != 0) && (tbri != 255))
tbri += 1; //hue reports 255 as 254
tstate.level = int((100.0f / 255.0f)*float(tbri));
}
LType = HLTYPE_RGBW;// HLTYPE_NORMAL;
if (!group["action"]["sat"].empty())
{
tstate.sat = group["action"]["sat"].asInt();
//LType = HLTYPE_RGBW;
}
if (!group["action"]["hue"].empty())
{
tstate.hue = group["action"]["hue"].asInt();
//LType = HLTYPE_RGBW;
}
bool bDoSend = true;
if (m_groups.find(gID) != m_groups.end())
{
_tHueGroup agroup = m_groups[gID];
if (
(agroup.gstate.on == tstate.on) &&
(agroup.gstate.level == tstate.level) &&
(agroup.gstate.sat == tstate.sat) &&
(agroup.gstate.hue == tstate.hue)
)
{
bDoSend = false;
}
}
m_groups[gID].gstate = tstate;
if (bDoSend)
{
std::string Name = "Group " + group["name"].asString();
InsertUpdateSwitch(1000 + gID, LType, tstate.on, tstate.level, tstate.sat, tstate.hue, Name, "");
}
}
}
//Special Request for Group0 (All Lights)
std::stringstream sstr2;
sstr2 << "http://" << m_IPAddress
<< ":" << m_Port
<< "/api/" << m_UserName
<< "/groups/0";
std::string sResult;
std::vector<std::string> ExtraHeaders;
if (!HTTPClient::GET(sstr2.str(), ExtraHeaders, sResult))
{
//No group all(0)
return true;
}
Json::Reader jReader;
Json::Value root2;
bool ret = jReader.parse(sResult, root2);
if (!ret)
{
_log.Log(LOG_ERROR, "Philips Hue: Invalid data received, or invalid IPAddress/Username!");
return false;
}
if (sResult.find("\"error\":") != std::string::npos)
{
//We had an error
_log.Log(LOG_ERROR, "Philips Hue: Error received: %s", root2[0]["error"]["description"].asString().c_str());
return false;
}
if (sResult.find("lights") == std::string::npos)
{
return false;
}
_tHueLight tstate;
tstate.on = false;
tstate.level = 0;
tstate.sat = 0;
tstate.hue = 0;
LType = HLTYPE_RGBW;// HLTYPE_NORMAL;
if (!root2["action"]["on"].empty())
tstate.on = root2["action"]["on"].asBool();
if (!root2["action"]["bri"].empty())
{
int tbri = root2["action"]["bri"].asInt();
if ((tbri != 0) && (tbri < 3))
tbri = 3;
tstate.level = int((100.0f / 254.0f)*float(tbri));
}
if (!root2["action"]["sat"].empty())
{
tstate.sat = root2["action"]["sat"].asInt();
//LType = HLTYPE_RGBW;
}
if (!root2["action"]["hue"].empty())
{
tstate.hue = root2["action"]["hue"].asInt();
//LType = HLTYPE_RGBW;
}
bool bDoSend = true;
int gID = 0;
if (m_groups.find(gID) != m_groups.end())
{
_tHueGroup agroup = m_groups[gID];
if (
(agroup.gstate.on == tstate.on) &&
(agroup.gstate.level == tstate.level) &&
(agroup.gstate.sat == tstate.sat) &&
(agroup.gstate.hue == tstate.hue)
)
{
bDoSend = false;
}
}
m_groups[gID].gstate = tstate;
if (bDoSend)
{
std::string Name = "Group All Lights";
InsertUpdateSwitch(1000 + gID, LType, tstate.on, tstate.level, tstate.sat, tstate.hue, Name,"");
}
return true;
}
// {
// account: <account>|<account_public_key>
// account_index: <number> // optional, defaults to 0.
// ledger_hash : <ledger>
// ledger_index : <ledger_index>
// limit: integer // optional
// marker: opaque // optional, resume previous query
// }
Json::Value doAccountOffers (RPC::Context& context)
{
auto const& params (context.params);
if (! params.isMember (jss::account))
return RPC::missing_field_error (jss::account);
Ledger::pointer ledger;
Json::Value result (RPC::lookupLedger (params, ledger, context.netOps));
if (! ledger)
return result;
std::string strIdent (params[jss::account].asString ());
bool bIndex (params.isMember (jss::account_index));
int const iIndex (bIndex ? params[jss::account_index].asUInt () : 0);
DivvyAddress divvyAddress;
Json::Value const jv = RPC::accountFromString (
divvyAddress, bIndex, strIdent, iIndex, false);
if (! jv.empty ())
{
for (Json::Value::const_iterator it (jv.begin ()); it != jv.end (); ++it)
result[it.memberName ()] = it.key ();
return result;
}
// Get info on account.
result[jss::account] = divvyAddress.humanAccountID ();
if (bIndex)
result[jss::account_index] = iIndex;
if (! ledger->exists(getAccountRootIndex(
divvyAddress.getAccountID())))
return rpcError (rpcACT_NOT_FOUND);
unsigned int limit;
if (params.isMember (jss::limit))
{
auto const& jvLimit (params[jss::limit]);
if (! jvLimit.isIntegral ())
return RPC::expected_field_error (jss::limit, "unsigned integer");
limit = jvLimit.isUInt () ? jvLimit.asUInt () :
std::max (0, jvLimit.asInt ());
if (context.role != Role::ADMIN)
{
limit = std::max (RPC::Tuning::minOffersPerRequest,
std::min (limit, RPC::Tuning::maxOffersPerRequest));
}
}
else
{
limit = RPC::Tuning::defaultOffersPerRequest;
}
AccountID const& raAccount (divvyAddress.getAccountID ());
Json::Value& jsonOffers (result[jss::offers] = Json::arrayValue);
std::vector <std::shared_ptr<SLE const>> offers;
unsigned int reserve (limit);
uint256 startAfter;
std::uint64_t startHint;
if (params.isMember(jss::marker))
{
// We have a start point. Use limit - 1 from the result and use the
// very last one for the resume.
Json::Value const& marker (params[jss::marker]);
if (! marker.isString ())
return RPC::expected_field_error (jss::marker, "string");
startAfter.SetHex (marker.asString ());
auto const sleOffer = fetch (*ledger, startAfter,
getApp().getSLECache());
if (sleOffer == nullptr ||
sleOffer->getType () != ltOFFER ||
raAccount != sleOffer->getFieldAccount160 (sfAccount))
{
return rpcError (rpcINVALID_PARAMS);
}
startHint = sleOffer->getFieldU64(sfOwnerNode);
// Caller provided the first offer (startAfter), add it as first result
Json::Value& obj (jsonOffers.append (Json::objectValue));
sleOffer->getFieldAmount (sfTakerPays).setJson (obj[jss::taker_pays]);
sleOffer->getFieldAmount (sfTakerGets).setJson (obj[jss::taker_gets]);
obj[jss::seq] = sleOffer->getFieldU32 (sfSequence);
obj[jss::flags] = sleOffer->getFieldU32 (sfFlags);
offers.reserve (reserve);
}
else
{
startHint = 0;
// We have no start point, limit should be one higher than requested.
offers.reserve (++reserve);
}
if (! forEachItemAfter(*ledger, raAccount, getApp().getSLECache(),
startAfter, startHint, reserve,
[&offers](std::shared_ptr<SLE const> const& offer)
{
if (offer->getType () == ltOFFER)
{
offers.emplace_back (offer);
return true;
}
return false;
}))
{
return rpcError (rpcINVALID_PARAMS);
}
if (offers.size () == reserve)
{
result[jss::limit] = limit;
result[jss::marker] = to_string (offers.back ()->getIndex ());
offers.pop_back ();
}
for (auto const& offer : offers)
{
Json::Value& obj (jsonOffers.append (Json::objectValue));
offer->getFieldAmount (sfTakerPays).setJson (obj[jss::taker_pays]);
offer->getFieldAmount (sfTakerGets).setJson (obj[jss::taker_gets]);
obj[jss::seq] = offer->getFieldU32 (sfSequence);
obj[jss::flags] = offer->getFieldU32 (sfFlags);
}
context.loadType = Resource::feeMediumBurdenRPC;
return result;
}