#include <cstdio>
#include <list>
#include <mist/config.h>
#include <mist/shared_memory.h>
#include <mist/dtsc.h>
#include <mist/stream.h>
#include <mist/bitfields.h>
#include "controller_statistics.h"
#include "controller_storage.h"
// These are used to store "clients" field requests in a bitfield for speedup.
#define STAT_CLI_HOST 1
#define STAT_CLI_STREAM 2
#define STAT_CLI_PROTO 4
#define STAT_CLI_CONNTIME 8
#define STAT_CLI_POSITION 16
#define STAT_CLI_DOWN 32
#define STAT_CLI_UP 64
#define STAT_CLI_BPS_DOWN 128
#define STAT_CLI_BPS_UP 256
#define STAT_CLI_CRC 512
#define STAT_CLI_ALL 0xFFFF
// These are used to store "totals" field requests in a bitfield for speedup.
#define STAT_TOT_CLIENTS 1
#define STAT_TOT_BPS_DOWN 2
#define STAT_TOT_BPS_UP 4
#define STAT_TOT_INPUTS 8
#define STAT_TOT_OUTPUTS 16
#define STAT_TOT_ALL 0xFF
#define COUNTABLE_BYTES 128*1024
std::map<Controller::sessIndex, Controller::statSession> Controller::sessions; ///< list of sessions that have statistics data available
std::map<unsigned long, Controller::sessIndex> Controller::connToSession; ///< Map of socket IDs to session info.
tthread::mutex Controller::statsMutex;
//For server-wide totals. Local to this file only.
struct streamTotals {
uint64_t upBytes;
uint64_t downBytes;
uint64_t inputs;
uint64_t outputs;
uint64_t viewers;
uint64_t currIns;
uint64_t currOuts;
uint64_t currViews;
uint8_t status;
};
static std::map<std::string, struct streamTotals> streamStats;
Controller::sessIndex::sessIndex(std::string dhost, unsigned int dcrc, std::string dstreamName, std::string dconnector){
host = dhost;
crc = dcrc;
streamName = dstreamName;
connector = dconnector;
}
Controller::sessIndex::sessIndex(){
crc = 0;
}
std::string Controller::sessIndex::toStr(){
std::stringstream s;
s << host << " " << crc << " " << streamName << " " << connector;
return s.str();
}
/// Initializes a sessIndex from a statExchange object, converting binary format IP addresses into strings.
/// This extracts the host, stream name, connector and crc field, ignoring everything else.
Controller::sessIndex::sessIndex(IPC::statExchange & data){
Socket::hostBytesToStr(data.host().c_str(), 16, host);
streamName = data.streamName();
connector = data.connector();
crc = data.crc();
}
bool Controller::sessIndex::operator== (const Controller::sessIndex &b) const{
return (host == b.host && crc == b.crc && streamName == b.streamName && connector == b.connector);
}
bool Controller::sessIndex::operator!= (const Controller::sessIndex &b) const{
return !(*this == b);
}
bool Controller::sessIndex::operator> (const Controller::sessIndex &b) const{
return host > b.host || (host == b.host && (crc > b.crc || (crc == b.crc && (streamName > b.streamName || (streamName == b.streamName && connector > b.connector)))));
}
bool Controller::sessIndex::operator< (const Controller::sessIndex &b) const{
return host < b.host || (host == b.host && (crc < b.crc || (crc == b.crc && (streamName < b.streamName || (streamName == b.streamName && connector < b.connector)))));
}
bool Controller::sessIndex::operator<= (const Controller::sessIndex &b) const{
return !(*this > b);
}
bool Controller::sessIndex::operator>= (const Controller::sessIndex &b) const{
return !(*this < b);
}
/// \todo Make this prettier.
IPC::sharedServer * statPointer = 0;
/// This function runs as a thread and roughly once per second retrieves
/// statistics from all connected clients, as well as wipes
/// old statistics that have disconnected over 10 minutes ago.
void Controller::SharedMemStats(void * config){
HIGH_MSG("Starting stats thread");
IPC::sharedServer statServer(SHM_STATISTICS, STAT_EX_SIZE, true);
statPointer = &statServer;
std::set<std::string> inactiveStreams;
Controller::initState();
bool shiftWrites = true;
bool firstRun = true;
while(((Util::Config*)config)->is_active){
{
tthread::lock_guard<tthread::mutex> guard(Controller::configMutex);
tthread::lock_guard<tthread::mutex> guard2(statsMutex);
//parse current users
statServer.parseEach(parseStatistics);
if (firstRun){
firstRun = false;
for (std::map<std::string, struct streamTotals>::iterator it = streamStats.begin(); it != streamStats.end(); ++it){
it->second.upBytes = 0;
it->second.downBytes = 0;
}
}
//wipe old statistics
if (sessions.size()){
std::list<sessIndex> mustWipe;
unsigned long long cutOffPoint = Util::epoch() - STAT_CUTOFF;
unsigned long long disconnectPointIn = Util::epoch() - STATS_INPUT_DELAY;
unsigned long long disconnectPointOut = Util::epoch() - STATS_DELAY;
for (std::map<sessIndex, statSession>::iterator it = sessions.begin(); it != sessions.end(); it++){
unsigned long long dPoint = it->second.getSessType() == SESS_INPUT ? disconnectPointIn : disconnectPointOut;
it->second.ping(it->first, dPoint);
it->second.wipeOld(cutOffPoint);
if (!it->second.hasData()){
mustWipe.push_back(it->first);
}
}
while (mustWipe.size()){
sessions.erase(mustWipe.front());
mustWipe.pop_front();
}
}
Util::RelAccX * strmStats = streamsAccessor();
if (!strmStats || !strmStats->isReady()){strmStats = 0;}
uint64_t strmPos = 0;
if (strmStats){
if (shiftWrites || (strmStats->getEndPos() - strmStats->getDeleted() != streamStats.size())){
shiftWrites = true;
strmPos = strmStats->getEndPos();
}else{
strmPos = strmStats->getDeleted();
}
}
if (streamStats.size()){
for (std::map<std::string, struct streamTotals>::iterator it = streamStats.begin(); it != streamStats.end(); ++it){
uint8_t newState = Util::getStreamStatus(it->first);
uint8_t oldState = it->second.status;
if (newState != oldState){
it->second.status = newState;
}
if (newState == STRMSTAT_OFF){
inactiveStreams.insert(it->first);
}
if (strmStats){
if (shiftWrites){
strmStats->setString("stream", it->first, strmPos);
}
strmStats->setInt("status", it->second.status, strmPos);
strmStats->setInt("viewers", it->second.currViews, strmPos);
strmStats->setInt("inputs", it->second.currIns, strmPos);
strmStats->setInt("outputs", it->second.currOuts, strmPos);
++strmPos;
}
}
}
if (strmStats && shiftWrites){
shiftWrites = false;
uint64_t prevEnd = strmStats->getEndPos();
strmStats->setEndPos(strmPos);
strmStats->setDeleted(prevEnd);
}
while (inactiveStreams.size()){
streamStats.erase(*inactiveStreams.begin());
inactiveStreams.erase(inactiveStreams.begin());
shiftWrites = true;
}
}
Util::wait(1000);
}
statPointer = 0;
HIGH_MSG("Stopping stats thread");
if (Util::Config::is_restarting){
statServer.abandon();
}
Controller::deinitState(Util::Config::is_restarting);
}
/// Gets a complete list of all streams currently in active state, with optional prefix matching
std::set<std::string> Controller::getActiveStreams(const std::string & prefix){
std::set<std::string> ret;
Util::RelAccX * strmStats = streamsAccessor();
if (!strmStats || !strmStats->isReady()){return ret;}
uint64_t endPos = strmStats->getEndPos();
if (prefix.size()){
for (uint64_t i = strmStats->getDeleted(); i < endPos; ++i){
if (strmStats->getInt("status", i) != STRMSTAT_READY){continue;}
const char * S = strmStats->getPointer("stream", i);
if (!strncmp(S, prefix.data(), prefix.size())){
ret.insert(S);
}
}
}else{
for (uint64_t i = strmStats->getDeleted(); i < endPos; ++i){
if (strmStats->getInt("status", i) != STRMSTAT_READY){continue;}
ret.insert(strmStats->getPointer("stream", i));
}
}
return ret;
}
/// Updates the given active connection with new stats data.
void Controller::statSession::update(uint64_t index, IPC::statExchange & data){
long long prevDown = getDown();
long long prevUp = getUp();
curConns[index].update(data);
//store timestamp of first received data, if older
if (firstSec > data.now()){
firstSec = data.now();
}
//store timestamp of last received data, if newer
if (data.now() > lastSec){
lastSec = data.now();
if (!tracked){
tracked = true;
firstActive = firstSec;
}
}
long long currDown = getDown();
long long currUp = getUp();
if (currUp - prevUp < 0 || currDown-prevDown < 0){
INFO_MSG("Negative data usage! %lldu/%lldd (u%lld->%lld) in %s over %s, #%lu", currUp-prevUp, currDown-prevDown, prevUp, currUp, data.streamName().c_str(), data.connector().c_str(), index);
}
if (currDown + currUp >= COUNTABLE_BYTES){
std::string streamName = data.streamName();
if (sessionType == SESS_UNSET){
if (data.connector() == "INPUT"){
streamStats[streamName].inputs++;
streamStats[streamName].currIns++;
sessionType = SESS_INPUT;
}else if (data.connector() == "OUTPUT"){
streamStats[streamName].outputs++;
streamStats[streamName].currOuts++;
sessionType = SESS_OUTPUT;
}else{
streamStats[streamName].viewers++;
streamStats[streamName].currViews++;
sessionType = SESS_VIEWER;
}
}
//If previous < COUNTABLE_BYTES, we haven't counted any data so far.
//We need to count all the data in that case, otherwise we only count the difference.
if (prevUp + prevDown < COUNTABLE_BYTES){
if (!streamName.size() || streamName[0] == 0){
if (streamStats.count(streamName)){streamStats.erase(streamName);}
}else{
streamStats[streamName].upBytes += currUp;
streamStats[streamName].downBytes += currDown;
}
}else{
if (!streamName.size() || streamName[0] == 0){
if (streamStats.count(streamName)){streamStats.erase(streamName);}
}else{
streamStats[streamName].upBytes += currUp - prevUp;
streamStats[streamName].downBytes += currDown - prevDown;
}
}
}
}
Controller::sessType Controller::statSession::getSessType(){
return sessionType;
}
/// Archives the given connection.
void Controller::statSession::wipeOld(uint64_t cutOff){
if (firstSec > cutOff){
return;
}
firstSec = 0xFFFFFFFFFFFFFFFFull;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
while (it->log.size() && it->log.begin()->first < cutOff){
if (it->log.size() == 1){
wipedDown += it->log.begin()->second.down;
wipedUp += it->log.begin()->second.up;
}
it->log.erase(it->log.begin());
}
if (it->log.size()){
if (firstSec > it->log.begin()->first){
firstSec = it->log.begin()->first;
}
}
}
while (oldConns.size() && !oldConns.begin()->log.size()){
oldConns.pop_front();
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
while (it->second.log.size() > 1 && it->second.log.begin()->first < cutOff){
it->second.log.erase(it->second.log.begin());
}
if (it->second.log.size()){
if (firstSec > it->second.log.begin()->first){
firstSec = it->second.log.begin()->first;
}
}
}
}
}
void Controller::statSession::ping(const Controller::sessIndex & index, uint64_t disconnectPoint){
if (!tracked){return;}
if (lastSec < disconnectPoint){
switch (sessionType){
case SESS_INPUT:
if (streamStats[index.streamName].currIns){streamStats[index.streamName].currIns--;}
break;
case SESS_OUTPUT:
if (streamStats[index.streamName].currOuts){streamStats[index.streamName].currOuts--;}
break;
case SESS_VIEWER:
if (streamStats[index.streamName].currViews){streamStats[index.streamName].currViews--;}
break;
default:
break;
}
uint64_t duration = lastSec - firstActive;
if (duration < 1){duration = 1;}
Controller::logAccess("", index.streamName, index.connector, index.host, duration, getUp(), getDown(), "");
tracked = false;
firstActive = 0;
firstSec = 0xFFFFFFFFFFFFFFFFull;
lastSec = 0;
wipedUp = 0;
wipedDown = 0;
oldConns.clear();
sessionType = SESS_UNSET;
}
}
/// Archives the given connection.
void Controller::statSession::finish(uint64_t index){
oldConns.push_back(curConns[index]);
curConns.erase(index);
}
/// Constructs an empty session
Controller::statSession::statSession(){
firstActive = 0;
tracked = false;
firstSec = 0xFFFFFFFFFFFFFFFFull;
lastSec = 0;
wipedUp = 0;
wipedDown = 0;
sessionType = SESS_UNSET;
}
/// Moves the given connection to the given session
void Controller::statSession::switchOverTo(statSession & newSess, uint64_t index){
//add to the given session first
newSess.curConns[index] = curConns[index];
//if this connection has data, update firstSec/lastSec if needed
if (curConns[index].log.size()){
if (newSess.firstSec > curConns[index].log.begin()->first){
newSess.firstSec = curConns[index].log.begin()->first;
}
if (newSess.lastSec < curConns[index].log.rbegin()->first){
newSess.lastSec = curConns[index].log.rbegin()->first;
}
}
//remove from current session
curConns.erase(index);
//if there was any data, recalculate this session's firstSec and lastSec.
if (newSess.curConns[index].log.size()){
firstSec = 0xFFFFFFFFFFFFFFFFull;
lastSec = 0;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->log.size()){
if (firstSec > it->log.begin()->first){
firstSec = it->log.begin()->first;
}
if (lastSec < it->log.rbegin()->first){
lastSec = it->log.rbegin()->first;
}
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.log.size()){
if (firstSec > it->second.log.begin()->first){
firstSec = it->second.log.begin()->first;
}
if (lastSec < it->second.log.rbegin()->first){
lastSec = it->second.log.rbegin()->first;
}
}
}
}
}
}
/// Returns the first measured timestamp in this session.
uint64_t Controller::statSession::getStart(){
return firstSec;
}
/// Returns the last measured timestamp in this session.
uint64_t Controller::statSession::getEnd(){
return lastSec;
}
/// Returns true if there is data for this session at timestamp t.
bool Controller::statSession::hasDataFor(uint64_t t){
if (lastSec < t){return false;}
if (firstSec > t){return false;}
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->hasDataFor(t)){return true;}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.hasDataFor(t)){return true;}
}
}
return false;
}
/// Returns true if there is any data for this session.
bool Controller::statSession::hasData(){
if (!firstSec && !lastSec){return false;}
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->log.size()){return true;}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.log.size()){return true;}
}
}
return false;
}
/// Returns true if this session should count as a viewer on the given timestamp.
bool Controller::statSession::isViewerOn(uint64_t t){
return getUp(t) + getDown(t) > COUNTABLE_BYTES;
}
/// Returns true if this session should count as a viewer
bool Controller::statSession::isViewer(){
long long upTotal = wipedUp+wipedDown;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->log.size()){
upTotal += it->log.rbegin()->second.up + it->log.rbegin()->second.down;
if (upTotal > COUNTABLE_BYTES){return true;}
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.log.size()){
upTotal += it->second.log.rbegin()->second.up + it->second.log.rbegin()->second.down;
if (upTotal > COUNTABLE_BYTES){return true;}
}
}
}
return false;
}
/// Returns the cumulative connected time for this session at timestamp t.
uint64_t Controller::statSession::getConnTime(uint64_t t){
uint64_t retVal = 0;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->hasDataFor(t)){
retVal += it->getDataFor(t).time;
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.hasDataFor(t)){
retVal += it->second.getDataFor(t).time;
}
}
}
return retVal;
}
/// Returns the last requested media timestamp for this session at timestamp t.
uint64_t Controller::statSession::getLastSecond(uint64_t t){
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.hasDataFor(t)){
return it->second.getDataFor(t).lastSecond;
}
}
}
if (oldConns.size()){
for (std::deque<statStorage>::reverse_iterator it = oldConns.rbegin(); it != oldConns.rend(); ++it){
if (it->hasDataFor(t)){
return it->getDataFor(t).lastSecond;
}
}
}
return 0;
}
/// Returns the cumulative downloaded bytes for this session at timestamp t.
uint64_t Controller::statSession::getDown(uint64_t t){
uint64_t retVal = wipedDown;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->hasDataFor(t)){
retVal += it->getDataFor(t).down;
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.hasDataFor(t)){
retVal += it->second.getDataFor(t).down;
}
}
}
return retVal;
}
/// Returns the cumulative uploaded bytes for this session at timestamp t.
uint64_t Controller::statSession::getUp(uint64_t t){
uint64_t retVal = wipedUp;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->hasDataFor(t)){
retVal += it->getDataFor(t).up;
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.hasDataFor(t)){
retVal += it->second.getDataFor(t).up;
}
}
}
return retVal;
}
/// Returns the cumulative downloaded bytes for this session at timestamp t.
uint64_t Controller::statSession::getDown(){
uint64_t retVal = wipedDown;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->log.size()){
retVal += it->log.rbegin()->second.down;
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.log.size()){
retVal += it->second.log.rbegin()->second.down;
}
}
}
return retVal;
}
/// Returns the cumulative uploaded bytes for this session at timestamp t.
uint64_t Controller::statSession::getUp(){
uint64_t retVal = wipedUp;
if (oldConns.size()){
for (std::deque<statStorage>::iterator it = oldConns.begin(); it != oldConns.end(); ++it){
if (it->log.size()){
retVal += it->log.rbegin()->second.up;
}
}
}
if (curConns.size()){
for (std::map<uint64_t, statStorage>::iterator it = curConns.begin(); it != curConns.end(); ++it){
if (it->second.log.size()){
retVal += it->second.log.rbegin()->second.up;
}
}
}
return retVal;
}
/// Returns the cumulative downloaded bytes per second for this session at timestamp t.
uint64_t Controller::statSession::getBpsDown(uint64_t t){
uint64_t aTime = t - 5;
if (aTime < firstSec){
aTime = firstSec;
}
if (t <= aTime){
return 0;
}
uint64_t valA = getDown(aTime);
uint64_t valB = getDown(t);
return (valB - valA) / (t - aTime);
}
/// Returns the cumulative uploaded bytes per second for this session at timestamp t.
uint64_t Controller::statSession::getBpsUp(uint64_t t){
uint64_t aTime = t - 5;
if (aTime < firstSec){
aTime = firstSec;
}
if (t <= aTime){
return 0;
}
uint64_t valA = getUp(aTime);
uint64_t valB = getUp(t);
return (valB - valA) / (t - aTime);
}
/// Returns true if there is data available for timestamp t.
bool Controller::statStorage::hasDataFor(unsigned long long t) {
if (!log.size()){return false;}
return (t >= log.begin()->first);
}
/// Returns a reference to the most current data available at timestamp t.
Controller::statLog & Controller::statStorage::getDataFor(unsigned long long t) {
static statLog empty;
if (!log.size()){
empty.time = 0;
empty.lastSecond = 0;
empty.down = 0;
empty.up = 0;
return empty;
}
std::map<unsigned long long, statLog>::iterator it = log.upper_bound(t);
if (it != log.begin()){
it--;
}
return it->second;
}
/// This function is called by parseStatistics.
/// It updates the internally saved statistics data.
void Controller::statStorage::update(IPC::statExchange & data) {
statLog tmp;
tmp.time = data.time();
tmp.lastSecond = data.lastSecond();
tmp.down = data.down();
tmp.up = data.up();
log[data.now()] = tmp;
//wipe data older than approx. STAT_CUTOFF seconds
/// \todo Remove least interesting data first.
if (log.size() > STAT_CUTOFF){
log.erase(log.begin());
}
}
/// This function is called by the shared memory page that holds statistics.
/// It updates the internally saved statistics data, moving across sessions or archiving when necessary.
void Controller::parseStatistics(char * data, size_t len, uint32_t id){
//retrieve stats data
IPC::statExchange tmpEx(data);
//calculate the current session index, store as idx.
sessIndex idx(tmpEx);
//if the connection was already indexed and it has changed, move it
if (connToSession.count(id) && connToSession[id] != idx){
if (sessions[connToSession[id]].getSessType() != SESS_UNSET){
INFO_MSG("Switching connection %" PRIu32 " from active session %s over to %s", id, connToSession[id].toStr().c_str(), idx.toStr().c_str());
}else{
INFO_MSG("Switching connection %" PRIu32 " from inactive session %s over to %s", id, connToSession[id].toStr().c_str(), idx.toStr().c_str());
}
sessions[connToSession[id]].switchOverTo(sessions[idx], id);
if (!sessions[connToSession[id]].hasData()){
sessions.erase(connToSession[id]);
}
}
if (!connToSession.count(id)){
INSANE_MSG("New connection: %" PRIu32 " as %s", id, idx.toStr().c_str());
}
//store the index for later comparison
connToSession[id] = idx;
//update the session with the latest data
sessions[idx].update(id, tmpEx);
//check validity of stats data
char counter = (*(data - 1)) & 0x7F;
if (counter == 126 || counter == 127){
//the data is no longer valid - connection has gone away, store for later
INSANE_MSG("Ended connection: %" PRIu32 " as %s", id, idx.toStr().c_str());
sessions[idx].finish(id);
connToSession.erase(id);
}else{
if (sessions[idx].getSessType() != SESS_OUTPUT && sessions[idx].getSessType() != SESS_UNSET){
std::string strmName = tmpEx.streamName();
}
}
}
/// Returns true if this stream has at least one connected client.
bool Controller::hasViewers(std::string streamName){
if (sessions.size()){
long long currTime = Util::epoch();
for (std::map<sessIndex, statSession>::iterator it = sessions.begin(); it != sessions.end(); it++){
if (it->first.streamName == streamName && (it->second.hasDataFor(currTime) || it->second.hasDataFor(currTime-1))){
return true;
}
}
}
return false;
}
/// This takes a "clients" request, and fills in the response data.
///
/// \api
/// `"clients"` requests take the form of:
/// ~~~~~~~~~~~~~~~{.js}
/// {
/// //array of streamnames to accumulate. Empty means all.
/// "streams": ["streama", "streamb", "streamc"],
/// //array of protocols to accumulate. Empty means all.
/// "protocols": ["HLS", "HSS"],
/// //list of requested data fields. Empty means all.
/// "fields": ["host", "stream", "protocol", "conntime", "position", "down", "up", "downbps", "upbps"],
/// //unix timestamp of measuring moment. Negative means X seconds ago. Empty means now.
/// "time": 1234567
/// }
/// ~~~~~~~~~~~~~~~
/// OR
/// ~~~~~~~~~~~~~~~{.js}
/// [
/// {},//request object as above
/// {}//repeat the structure as many times as wanted
/// ]
/// ~~~~~~~~~~~~~~~
/// and are responded to as:
/// ~~~~~~~~~~~~~~~{.js}
/// {
/// //unix timestamp of data. Always present, always absolute.
/// "time": 1234567,
/// //array of actually represented data fields.
/// "fields": [...]
/// //for all clients, the data in the order they appear in the "fields" field.
/// "data": [[x, y, z], [x, y, z], [x, y, z]]
/// }
/// ~~~~~~~~~~~~~~~
/// In case of the second method, the response is an array in the same order as the requests.
void Controller::fillClients(JSON::Value & req, JSON::Value & rep){
tthread::lock_guard<tthread::mutex> guard(statsMutex);
//first, figure out the timestamp wanted
uint64_t reqTime = 0;
if (req.isMember("time")){
reqTime = req["time"].asInt();
}
//to make sure no nasty timing business takes place, we store the case "now" as a bool.
bool now = (reqTime == 0);
//add the current time, if negative or zero.
if (reqTime <= 0){
reqTime += Util::epoch();
}
//at this point, reqTime is the absolute timestamp.
rep["time"] = reqTime; //fill the absolute timestamp
unsigned int fields = 0;
//next, figure out the fields wanted
if (req.isMember("fields") && req["fields"].size()){
jsonForEach(req["fields"], it) {
if ((*it).asStringRef() == "host"){fields |= STAT_CLI_HOST;}
if ((*it).asStringRef() == "stream"){fields |= STAT_CLI_STREAM;}
if ((*it).asStringRef() == "protocol"){fields |= STAT_CLI_PROTO;}
if ((*it).asStringRef() == "conntime"){fields |= STAT_CLI_CONNTIME;}
if ((*it).asStringRef() == "position"){fields |= STAT_CLI_POSITION;}
if ((*it).asStringRef() == "down"){fields |= STAT_CLI_DOWN;}
if ((*it).asStringRef() == "up"){fields |= STAT_CLI_UP;}
if ((*it).asStringRef() == "downbps"){fields |= STAT_CLI_BPS_DOWN;}
if ((*it).asStringRef() == "upbps"){fields |= STAT_CLI_BPS_UP;}
}
}
//select all, if none selected
if (!fields){fields = STAT_CLI_ALL;}
//figure out what streams are wanted
std::set<std::string> streams;
if (req.isMember("streams") && req["streams"].size()){
jsonForEach(req["streams"], it) {
streams.insert((*it).asStringRef());
}
}
//figure out what protocols are wanted
std::set<std::string> protos;
if (req.isMember("protocols") && req["protocols"].size()){
jsonForEach(req["protocols"], it) {
protos.insert((*it).asStringRef());
}
}
//output the selected fields
rep["fields"].null();
if (fields & STAT_CLI_HOST){rep["fields"].append("host");}
if (fields & STAT_CLI_STREAM){rep["fields"].append("stream");}
if (fields & STAT_CLI_PROTO){rep["fields"].append("protocol");}
if (fields & STAT_CLI_CONNTIME){rep["fields"].append("conntime");}
if (fields & STAT_CLI_POSITION){rep["fields"].append("position");}
if (fields & STAT_CLI_DOWN){rep["fields"].append("down");}
if (fields & STAT_CLI_UP){rep["fields"].append("up");}
if (fields & STAT_CLI_BPS_DOWN){rep["fields"].append("downbps");}
if (fields & STAT_CLI_BPS_UP){rep["fields"].append("upbps");}
if (fields & STAT_CLI_CRC){rep["fields"].append("crc");}
//output the data itself
rep["data"].null();
//loop over all sessions
if (sessions.size()){
for (std::map<sessIndex, statSession>::iterator it = sessions.begin(); it != sessions.end(); it++){
unsigned long long time = reqTime;
if (now && reqTime - it->second.getEnd() < 5){time = it->second.getEnd();}
//data present and wanted? insert it!
if ((it->second.getEnd() >= time && it->second.getStart() <= time) && (!streams.size() || streams.count(it->first.streamName)) && (!protos.size() || protos.count(it->first.connector))){
if (it->second.hasDataFor(time)){
JSON::Value d;
if (fields & STAT_CLI_HOST){d.append(it->first.host);}
if (fields & STAT_CLI_STREAM){d.append(it->first.streamName);}
if (fields & STAT_CLI_PROTO){d.append(it->first.connector);}
if (fields & STAT_CLI_CONNTIME){d.append(it->second.getConnTime(time));}
if (fields & STAT_CLI_POSITION){d.append(it->second.getLastSecond(time));}
if (fields & STAT_CLI_DOWN){d.append(it->second.getDown(time));}
if (fields & STAT_CLI_UP){d.append(it->second.getUp(time));}
if (fields & STAT_CLI_BPS_DOWN){d.append(it->second.getBpsDown(time));}
if (fields & STAT_CLI_BPS_UP){d.append(it->second.getBpsUp(time));}
if (fields & STAT_CLI_CRC){d.append(it->first.crc);}
rep["data"].append(d);
}
}
}
}
//all done! return is by reference, so no need to return anything here.
}
/// This takes a "active_streams" request, and fills in the response data.
///
/// \api
/// `"active_streams"` and `"stats_streams"` requests may either be empty, in which case the response looks like this:
/// ~~~~~~~~~~~~~~~{.js}
/// [
/// //Array of stream names
/// "streamA",
/// "streamB",
/// "streamC"
/// ]
/// ~~~~~~~~~~~~~~~
/// `"stats_streams"` will list all streams that any statistics data is available for, and only those. `"active_streams"` only lists streams that are currently active, and only those.
/// If the request is an array, which may contain any of the following elements:
/// ~~~~~~~~~~~~~~~{.js}
/// [
/// //Array of requested data types
/// "clients", //Current viewer count
/// "lastms" //Current position in the live buffer, if live
/// ]
/// ~~~~~~~~~~~~~~~
/// In which case the response is changed into this format:
/// ~~~~~~~~~~~~~~~{.js}
/// {
/// //Object of stream names, containing arrays in the same order as the request, with the same data
/// "streamA":[
/// 0,
/// 60000
/// ]
/// "streamB":[
/// //....
/// ]
/// //...
/// }
/// ~~~~~~~~~~~~~~~
/// All streams that any statistics data is available for are listed, and only those streams.
void Controller::fillActive(JSON::Value & req, JSON::Value & rep, bool onlyNow){
//collect the data first
std::set<std::string> streams;
std::map<std::string, uint64_t> clients;
unsigned int tOut = Util::epoch() - STATS_DELAY;
unsigned int tIn = Util::epoch() - STATS_INPUT_DELAY;
//check all sessions
{
tthread::lock_guard<tthread::mutex> guard(statsMutex);
if (sessions.size()){
for (std::map<sessIndex, statSession>::iterator it = sessions.begin(); it != sessions.end(); it++){
if (it->second.getSessType() == SESS_INPUT){
if (!onlyNow || (it->second.hasDataFor(tIn) && it->second.isViewerOn(tIn))){
streams.insert(it->first.streamName);
}
}else{
if (!onlyNow || (it->second.hasDataFor(tOut) && it->second.isViewerOn(tOut))){
streams.insert(it->first.streamName);
if (it->second.getSessType() == SESS_VIEWER){
clients[it->first.streamName]++;
}
}
}
}
}
}
//Good, now output what we found...
rep.null();
for (std::set<std::string>::iterator it = streams.begin(); it != streams.end(); it++){
if (req.isArray()){
rep[*it].null();
jsonForEach(req, j){
if (j->asStringRef() == "clients"){
rep[*it].append(clients[*it]);
}
if (j->asStringRef() == "lastms"){
char pageId[NAME_BUFFER_SIZE];
IPC::sharedPage streamIndex;
snprintf(pageId, NAME_BUFFER_SIZE, SHM_STREAM_INDEX, it->c_str());
streamIndex.init(pageId, DEFAULT_STRM_PAGE_SIZE, false, false);
if (streamIndex.mapped){
static char liveSemName[NAME_BUFFER_SIZE];
snprintf(liveSemName, NAME_BUFFER_SIZE, SEM_LIVE, it->c_str());
IPC::semaphore metaLocker(liveSemName, O_CREAT | O_RDWR, (S_IRWXU|S_IRWXG|S_IRWXO), 8);
metaLocker.wait();
DTSC::Scan strm = DTSC::Packet(streamIndex.mapped, streamIndex.len, true).getScan();
uint64_t lms = 0;
DTSC::Scan trcks = strm.getMember("tracks");
unsigned int trcks_ctr = trcks.getSize();
for (unsigned int i = 0; i < trcks_ctr; ++i){
if (trcks.getIndice(i).getMember("lastms").asInt() > lms){
lms = trcks.getIndice(i).getMember("lastms").asInt();
}
}
rep[*it].append(lms);
metaLocker.post();
}else{
rep[*it].append(-1);
}
}
}
}else{
rep.append(*it);
}
}
//all done! return is by reference, so no need to return anything here.
}
class totalsData {
public:
totalsData(){
clients = 0;
inputs = 0;
outputs = 0;
downbps = 0;
upbps = 0;
}
void add(uint64_t down, uint64_t up, Controller::sessType sT){
switch (sT){
case Controller::SESS_VIEWER: clients++; break;
case Controller::SESS_INPUT: inputs++; break;
case Controller::SESS_OUTPUT: outputs++; break;
default: break;
}
downbps += down;
upbps += up;
}
uint64_t clients;
uint64_t inputs;
uint64_t outputs;
uint64_t downbps;
uint64_t upbps;
};
/// This takes a "totals" request, and fills in the response data.
void Controller::fillTotals(JSON::Value & req, JSON::Value & rep){
tthread::lock_guard<tthread::mutex> guard(statsMutex);
//first, figure out the timestamps wanted
long long int reqStart = 0;
long long int reqEnd = 0;
if (req.isMember("start")){
reqStart = req["start"].asInt();
}
if (req.isMember("end")){
reqEnd = req["end"].asInt();
}
//add the current time, if negative or zero.
if (reqStart < 0){
reqStart += Util::epoch();
}
if (reqStart == 0){
reqStart = Util::epoch() - STAT_CUTOFF;
}
if (reqEnd <= 0){
reqEnd += Util::epoch();
}
//at this point, reqStart and reqEnd are the absolute timestamp.
unsigned int fields = 0;
//next, figure out the fields wanted
if (req.isMember("fields") && req["fields"].size()){
jsonForEach(req["fields"], it) {
if ((*it).asStringRef() == "clients"){fields |= STAT_TOT_CLIENTS;}
if ((*it).asStringRef() == "inputs"){fields |= STAT_TOT_INPUTS;}
if ((*it).asStringRef() == "outputs"){fields |= STAT_TOT_OUTPUTS;}
if ((*it).asStringRef() == "downbps"){fields |= STAT_TOT_BPS_DOWN;}
if ((*it).asStringRef() == "upbps"){fields |= STAT_TOT_BPS_UP;}
}
}
//select all, if none selected
if (!fields){fields = STAT_TOT_ALL;}
//figure out what streams are wanted
std::set<std::string> streams;
if (req.isMember("streams") && req["streams"].size()){
jsonForEach(req["streams"], it) {
streams.insert((*it).asStringRef());
}
}
//figure out what protocols are wanted
std::set<std::string> protos;
if (req.isMember("protocols") && req["protocols"].size()){
jsonForEach(req["protocols"], it) {
protos.insert((*it).asStringRef());
}
}
//output the selected fields
rep["fields"].null();
if (fields & STAT_TOT_CLIENTS){rep["fields"].append("clients");}
if (fields & STAT_TOT_INPUTS){rep["fields"].append("inputs");}
if (fields & STAT_TOT_OUTPUTS){rep["fields"].append("outputs");}
if (fields & STAT_TOT_BPS_DOWN){rep["fields"].append("downbps");}
if (fields & STAT_TOT_BPS_UP){rep["fields"].append("upbps");}
//start data collection
std::map<uint64_t, totalsData> totalsCount;
//loop over all sessions
/// \todo Make the interval configurable instead of 1 second
if (sessions.size()){
for (std::map<sessIndex, statSession>::iterator it = sessions.begin(); it != sessions.end(); it++){
//data present and wanted? insert it!
if ((it->second.getEnd() >= (unsigned long long)reqStart || it->second.getStart() <= (unsigned long long)reqEnd) && (!streams.size() || streams.count(it->first.streamName)) && (!protos.size() || protos.count(it->first.connector))){
for (unsigned long long i = reqStart; i <= reqEnd; ++i){
if (it->second.hasDataFor(i)){
totalsCount[i].add(it->second.getBpsDown(i), it->second.getBpsUp(i), it->second.getSessType());
}
}
}
}
}
//output the data itself
if (!totalsCount.size()){
//Oh noes! No data. We'll just reply with a bunch of nulls.
rep["start"].null();
rep["end"].null();
rep["data"].null();
rep["interval"].null();
return;
}
//yay! We have data!
rep["start"] = totalsCount.begin()->first;
rep["end"] = totalsCount.rbegin()->first;
rep["data"].null();
rep["interval"].null();
uint64_t prevT = 0;
JSON::Value i;
for (std::map<uint64_t, totalsData>::iterator it = totalsCount.begin(); it != totalsCount.end(); it++){
JSON::Value d;
if (fields & STAT_TOT_CLIENTS){d.append(it->second.clients);}
if (fields & STAT_TOT_INPUTS){d.append(it->second.inputs);}
if (fields & STAT_TOT_OUTPUTS){d.append(it->second.outputs);}
if (fields & STAT_TOT_BPS_DOWN){d.append(it->second.downbps);}
if (fields & STAT_TOT_BPS_UP){d.append(it->second.upbps);}
rep["data"].append(d);
if (prevT){
if (i.size() < 2){
i.append(1u);
i.append(it->first - prevT);
}else{
if (i[1u].asInt() != it->first - prevT){
rep["interval"].append(i);
i[0u] = 1u;
i[1u] = it->first - prevT;
}else{
i[0u] = i[0u].asInt() + 1;
}
}
}
prevT = it->first;
}
if (i.size() > 1){
rep["interval"].append(i);
i.null();
}
//all done! return is by reference, so no need to return anything here.
}