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taixf/modules/antaf/voice_bridge_v8.js

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JavaScript
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// voice_bridge_v8.js — Voice Bridge with Audio Injection (attach after voice chat opened)
//
// STARTUP ORDER:
// 1. Launch app: adb shell monkey -p com.antgroup.aijk.android ...
// 2. Open voice chat manually or via adb tap
// 3. Wait for libantaudio.so to load
// 4. Attach frida with this script
//
// Hook point: libantaudio.so MFAntAudio3AV2Filter::process(micIn, spkRef, out, size, &result)
// TCP :18901
// Frame: 4-byte len + 1-byte type + payload
// type 0: speaker/AI audio (spkRef, downstream to client)
// type 1: text/JSON command
// type 2: mic audio (micIn, downstream to client)
// type 3: inject audio (upstream from client, replaces micIn)
var voiceActive = false;
var clientOS = null;
var capturedSpk = 0, capturedMic = 0, spkBytes = 0, micBytes = 0;
var injectMode = false;
var injectQueue = [];
function wf(os, type, jArr) {
try {
var len = jArr.length;
var h = Java.array("byte", [(len>>24)&0xFF,(len>>16)&0xFF,(len>>8)&0xFF,len&0xFF, type]);
os.write(h); os.write(jArr); os.flush();
} catch(e) {}
}
function wt(os, text) {
wf(os, 1, Java.use("java.lang.String").$new(text).getBytes("UTF-8"));
}
// === Hook libantaudio.so (should already be loaded) ===
var hooked = false;
function tryHook() {
if (hooked) return;
var m = Process.findModuleByName("libantaudio.so");
if (!m) return;
var addr = m.findExportByName("_ZN8antaudio20MFAntAudio3AV2Filter7processEPhS1_S1_iRi");
if (!addr) return;
hooked = true;
Interceptor.attach(addr, {
onEnter: function(args) {
if (!voiceActive || !clientOS) return;
var size = args[4].toInt32();
if (size <= 0) return;
try {
if (injectMode) {
if (injectQueue.length > 0) {
var frame = injectQueue.shift();
if (frame.byteLength === size) {
args[1].writeByteArray(frame);
} else {
var buf = new ArrayBuffer(size);
var dst = new Uint8Array(buf);
var src = new Uint8Array(frame);
var copyLen = Math.min(size, frame.byteLength);
for (var k = 0; k < copyLen; k++) dst[k] = src[k];
args[1].writeByteArray(buf);
}
} else {
var silence = new ArrayBuffer(size);
args[1].writeByteArray(silence);
}
}
// Always capture speaker/AI output (type 0)
var spkPcm = args[2].readByteArray(size);
var spkArr = Java.array("byte", Array.from(new Uint8Array(spkPcm)));
wf(clientOS, 0, spkArr);
capturedSpk++; spkBytes += size;
if (!injectMode) {
var micPcm = args[1].readByteArray(size);
var micArr = Java.array("byte", Array.from(new Uint8Array(micPcm)));
wf(clientOS, 2, micArr);
}
capturedMic++; micBytes += size;
if (capturedMic <= 3 || capturedMic % 500 === 0)
console.log("[VOICE] mic=" + capturedMic + " spk=" + capturedSpk + " inject=" + injectQueue.length);
} catch(e) {}
}
});
console.log("[VOICE] process hooked @ " + addr);
}
// Hook immediately — lib should already be loaded since voice chat is open
tryHook();
if (!hooked) {
// Retry a few times in case of timing
[500, 1000, 2000, 5000].forEach(function(ms) { setTimeout(tryHook, ms); });
}
// === TCP Server ===
Java.perform(function() {
var SS = Java.use("java.net.ServerSocket");
var JS = Java.use("java.lang.String");
var server = SS.$new(18901);
console.log("[VOICE] Listening :18901");
var Srv = Java.registerClass({
name: "com.antaf.voice.S8",
implements: [Java.use("java.lang.Runnable")],
methods: {
run: function() {
while (true) {
try {
console.log("[VOICE] Waiting for client...");
var c = server.accept();
var is = c.getInputStream();
var os = c.getOutputStream();
clientOS = os;
console.log("[VOICE] Client connected");
wt(os, JSON.stringify({
event:"connected", protocol:"antaf-voice-v8",
hooked: hooked,
commands:["start","stop","status","inject_on","inject_off"],
audio:"pcm-16bit-960b-frames",
frameTypes:{0:"spk_ai",1:"text",2:"mic",3:"inject"}
}));
while (true) {
var hb = [];
for (var i=0;i<5;i++) { var b=is.read(); if(b<0) throw "EOF"; hb.push(b); }
var fl=(hb[0]<<24)|(hb[1]<<16)|(hb[2]<<8)|hb[3], ft=hb[4];
if (fl>1048576) break;
var pb = [];
for (var i=0;i<fl;i++) { var b=is.read(); if(b<0) throw "EOF"; pb.push(b&0xFF); }
if (ft === 3) {
var arr = new ArrayBuffer(pb.length);
var view = new Uint8Array(arr);
for (var j=0;j<pb.length;j++) view[j] = pb[j];
injectQueue.push(arr);
}
else if (ft === 1) {
var pl = Java.array("byte", pb);
var cmd = JSON.parse(JS.$new(pl,"UTF-8").toString());
console.log("[VOICE] Cmd: " + JSON.stringify(cmd));
if (cmd.cmd === "start") {
voiceActive = true;
capturedSpk=0;capturedMic=0;spkBytes=0;micBytes=0;
injectQueue = [];
wt(os, JSON.stringify({event:"started",hooked:hooked}));
}
else if (cmd.cmd === "stop") {
voiceActive = false;
injectMode = false;
injectQueue = [];
wt(os, JSON.stringify({event:"stopped",spk:{frames:capturedSpk,bytes:spkBytes},mic:{frames:capturedMic,bytes:micBytes}}));
}
else if (cmd.cmd === "inject_on") {
injectMode = true;
injectQueue = [];
wt(os, JSON.stringify({event:"inject_on"}));
console.log("[VOICE] Inject ON");
}
else if (cmd.cmd === "inject_off") {
injectMode = false;
injectQueue = [];
wt(os, JSON.stringify({event:"inject_off"}));
console.log("[VOICE] Inject OFF");
}
else if (cmd.cmd === "status") {
wt(os, JSON.stringify({event:"status",active:voiceActive,hooked:hooked,inject:injectMode,queue:injectQueue.length,spk:{frames:capturedSpk,bytes:spkBytes},mic:{frames:capturedMic,bytes:micBytes}}));
}
}
}
} catch(e) { console.log("[VOICE] Client disconnected: "+e); }
finally { voiceActive=false; clientOS=null; injectMode=false; injectQueue=[]; }
}
}
}
});
Java.use("java.lang.Thread").$new(Srv.$new()).start();
console.log("[VOICE] Ready (v8, no open_voice)");
});
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