const RingBuffer = require('./RingBuffer'); var NetworkDoctor = function(capacity) { this.reset(capacity); }; NetworkDoctor.prototype.reset = function(capacity) { this.inputFrameIdFront = 0; this.sendingQ = new RingBuffer(capacity); this.inputFrameDownsyncQ = new RingBuffer(capacity); this.peerInputFrameUpsyncQ = new RingBuffer(capacity); this.peerInputFrameUpsyncCnt = 0; this.immediateRollbackFrames = 0; this.skippedRenderFrameCnt = 0; this.inputRateThreshold = gopkgs.ConvertToNoDelayInputFrameId(60); this.peerUpsyncThreshold = 8; this.rollbackFramesThreshold = 8; // Roughly the minimum "TurnAroundFramesToRecover". }; NetworkDoctor.prototype.logInputFrameIdFront = function(inputFrameId) { this.inputFrameIdFront = inputFrameId; }; NetworkDoctor.prototype.logSending = function(stFrameId, edFrameId) { this.sendingQ.put({ i: stFrameId, j: edFrameId, t: Date.now() }); }; NetworkDoctor.prototype.logInputFrameDownsync = function(stFrameId, edFrameId) { this.inputFrameDownsyncQ.put({ i: stFrameId, j: edFrameId, t: Date.now() }); }; NetworkDoctor.prototype.logPeerInputFrameUpsync = function(stFrameId, edFrameId) { const firstPopped = this.peerInputFrameUpsyncQ.put({ i: stFrameId, j: edFrameId, t: Date.now() }); if (null != firstPopped) { this.peerInputFrameUpsyncCnt -= (firstPopped.j - firstPopped.i + 1); } this.peerInputFrameUpsyncCnt += (edFrameId - stFrameId + 1); }; NetworkDoctor.prototype.logRollbackFrames = function(x) { this.immediateRollbackFrames = x; }; NetworkDoctor.prototype.stats = function() { let inputFrameIdFront = this.inputFrameIdFront, sendingFps = 0, srvDownsyncFps = 0, peerUpsyncFps = 0, rollbackFrames = this.immediateRollbackFrames; if (1 < this.sendingQ.cnt) { const st = this.sendingQ.getByFrameId(this.sendingQ.stFrameId); const ed = this.sendingQ.getByFrameId(this.sendingQ.edFrameId - 1); const elapsedMillis = ed.t - st.t; sendingFps = Math.round((ed.j - st.i) * 1000 / elapsedMillis); } if (1 < this.inputFrameDownsyncQ.cnt) { const st = this.inputFrameDownsyncQ.getByFrameId(this.inputFrameDownsyncQ.stFrameId); const ed = this.inputFrameDownsyncQ.getByFrameId(this.inputFrameDownsyncQ.edFrameId - 1); const elapsedMillis = ed.t - st.t; srvDownsyncFps = Math.round((ed.j - st.i) * 1000 / elapsedMillis); } if (1 < this.peerInputFrameUpsyncQ.cnt) { const st = this.peerInputFrameUpsyncQ.getByFrameId(this.peerInputFrameUpsyncQ.stFrameId); const ed = this.peerInputFrameUpsyncQ.getByFrameId(this.peerInputFrameUpsyncQ.edFrameId - 1); const elapsedMillis = ed.t - st.t; peerUpsyncFps = Math.round(this.peerInputFrameUpsyncCnt * 1000 / elapsedMillis); } return [inputFrameIdFront, sendingFps, srvDownsyncFps, peerUpsyncFps, rollbackFrames, this.skippedRenderFrameCnt]; }; NetworkDoctor.prototype.logSkippedRenderFrameCnt = function() { this.skippedRenderFrameCnt += 1; } NetworkDoctor.prototype.isTooFast = function(mapIns) { const [inputFrameIdFront, sendingFps, srvDownsyncFps, peerUpsyncFps, rollbackFrames, skippedRenderFrameCnt] = this.stats(); if (sendingFps >= this.inputRateThreshold + 3) { // Don't send too fast if (CC_DEBUG) { // Printing of this message might induce a performance impact. console.log(`Sending too fast, sendingFps=${sendingFps}`); } return [true, inputFrameIdFront, sendingFps, srvDownsyncFps, peerUpsyncFps, rollbackFrames, skippedRenderFrameCnt]; } else { const sendingFpsNormal = (sendingFps >= this.inputRateThreshold); // An outstanding lag within the "inputFrameDownsyncQ" will reduce "srvDownsyncFps", HOWEVER, a constant lag wouldn't impact "srvDownsyncFps"! In native platforms we might use PING value might help as a supplement information to confirm that the "selfPlayer" is not lagged within the time accounted by "inputFrameDownsyncQ". const recvFpsNormal = (srvDownsyncFps >= this.inputRateThreshold || peerUpsyncFps >= this.inputRateThreshold * (window.boundRoomCapacity - 1)); if (sendingFpsNormal && recvFpsNormal) { let minInputFrameIdFront = Number.MAX_VALUE; for (let k = 0; k < window.boundRoomCapacity; ++k) { if (k + 1 == mapIns.selfPlayerInfo.JoinIndex) continue; if (mapIns.lastIndividuallyConfirmedInputFrameId[k] >= minInputFrameIdFront) continue; minInputFrameIdFront = mapIns.lastIndividuallyConfirmedInputFrameId[k]; } if ((inputFrameIdFront > minInputFrameIdFront) && ((inputFrameIdFront - minInputFrameIdFront) > (mapIns.inputFrameUpsyncDelayTolerance + 1))) { // first comparison condition is to avoid numeric overflow if (CC_DEBUG) { // Printing of this message might induce a performance impact. console.log(`Game logic ticking too fast, selfInputFrameIdFront=${inputFrameIdFront}, minInputFrameIdFront=${minInputFrameIdFront}, inputFrameUpsyncDelayTolerance=${mapIns.inputFrameUpsyncDelayTolerance}`); } return [true, inputFrameIdFront, sendingFps, srvDownsyncFps, peerUpsyncFps, rollbackFrames, skippedRenderFrameCnt]; } } } return [false, inputFrameIdFront, sendingFps, srvDownsyncFps, peerUpsyncFps, rollbackFrames, skippedRenderFrameCnt]; }; module.exports = NetworkDoctor;