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const LOAD_ADDR = "80800000"
const IMAGE0_ADDR = "C0000 740000";
const IMAGE1_ADDR = "800000 800000";
async function detectUboot(serial) {
await serial.readLine((line) => {
if (line.startsWith('U-Boot')) {
return true;
}
});
}
async function waitUbootStop(serial, sfpModel, outputMsgCallback) {
const interruptChar = String.fromCharCode(3);
const interval = setInterval(function() {
serial.writeString(interruptChar);
}, 10);
await detectUboot(serial);
outputMsgCallback(`Root in progress: Trigger characters received. DO NOT TOUCH THE ${sfpModel} UNTIL THE PROCEDURE IS COMPLETED!`);
await delay(5000);
clearInterval(interval);
}
async function checkUbootUnlocked(serial) {
let unlocked = false;
await serial.readLine((line) => {
if (line.startsWith('Press SPACE to delay and Ctrl-C to abort autoboot')) {
unlocked = true;
return true
}
}, 2000);
return unlocked;
}
async function waitFailbackShell(serial, outputMsgCallback) {
await serial.readLine((line) => {
if (line.startsWith('Press the [f] key and hit [enter] to enter failsafe mode')) {
return true;
}
});
let interval = setInterval(function() {
serial.writeString('f\n');
}, 10);
outputMsgCallback("Root in progress: Trigger characters received. Waiting for boot to end...");
await delay(3000);
clearInterval(interval);
interval = setInterval(function() {
serial.writeString(String.fromCharCode(10));
}, 10);
await serial.readLine((line) => {
if (line.includes('root@(none)')) {
return true;
}
});
await delay(1000);
clearInterval(interval);
}
async function lantiqRootUboot(port, sfpModel, outputMsgCallback, outputErrorCallback, baudRate = 115200) {
const serial = new SerialReadWrite(port, baudRate);
try {
outputMsgCallback(`Please disconnect the ${sfpModel} from the SFP adapter if it is currently plugged in!`);
await delay(10000);
outputMsgCallback(`Now you need to insert the ${sfpModel} into the SFP adapter, if the procedure does not go ahead, check the connections and then remove and reconnect the ${sfpModel} again`);
while(true) {
await waitUbootStop(serial, sfpModel, outputMsgCallback);
const ubootUnlocked = await checkUbootUnlocked(serial);
if (ubootUnlocked == true) {
break;
}
outputMsgCallback("Root in progress: Set U-Boot bootdelay to 5...");
await serial.writeString('setenv bootdelay 5\n');
await delay(1000);
outputMsgCallback("Root in progress: Enable ASC serial...");
await serial.writeString('setenv asc0 0\n');
await delay(1000);
outputMsgCallback("Root in progress: Set GPIO to unlock serial...");
await serial.writeString('setenv preboot "gpio set 3;gpio input 2;gpio input 105;gpio input 106;gpio input 107;gpio input 108"\n');
await delay(1000);
outputMsgCallback("Root in progress: Save changes...");
await serial.writeString('saveenv\n');
await delay(1000);
outputMsgCallback("Root in progress: Rebooting...");
await serial.writeString('reset\n');
await delay(1000);
}
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
async function unlockHuaweiShell(port, outputMsgCallback, outputErrorCallback, baudRate = 115200) {
const serial = new SerialReadWrite(port, baudRate);
try {
outputMsgCallback("Root in progress: Rebooting...");
await serial.writeString('reset\n');
await delay(1000);
outputMsgCallback("Waiting for reboot");
await waitFailbackShell(serial, outputMsgCallback);
outputMsgCallback("Root in progress: Enable full Linux shell...");
await serial.writeString('mount_root && mkdir -p /overlay/etc && sed "s|/opt/lantiq/bin/minishell|/bin/ash|g" /rom/etc/passwd > /overlay/etc/passwd\n');
await delay(1000);
outputMsgCallback("Root in progress: Umount rootfs partitions...");
await serial.writeString('umount /overlay && umount -a\n');
await delay(1000);
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
async function changeBaudrate(port, newBaudrate, currBaudrate, outputErrorCallback) {
let serial = new SerialReadWrite(port, currBaudrate);
try {
await serial.writeString(`setenv baudrate ${newBaudrate}\n`);
await delay(1000);
await serial.closePort();
serial = new SerialReadWrite(port, newBaudrate);
const interval = setInterval(function() {
serial.writeString(String.fromCharCode(13));
}, 10);
await serial.readLine((line) => {
if (line.startsWith('FALCON')) {
clearInterval(interval);
return true;
}
});
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
async function sendImageMtd(port, data, baudRate, outputErrorCallback, progressCallback) {
const serial = new SerialReadWrite(port, baudRate);
try {
await serial.writeString(`loady 0x${LOAD_ADDR}\n`);
await delay(1000);
await sendXYMini(serial, data, progressCallback);
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
async function waitEndImageLoad(port, baudRate, outputErrorCallback) {
const serial = new SerialReadWrite(port, baudRate);
try {
await serial.readLine((line) => {
if (line.includes('Total Size')) {
return true;
}
});
await delay(1000);
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
async function flashImageMtd(port, image, baudRate, outputErrorCallback) {
const serial = new SerialReadWrite(port, baudRate);
try {
if (image == "image0") {
await serial.writeString(`sf probe 0 && sf erase ${IMAGE0_ADDR} && sf write ${LOAD_ADDR} ${IMAGE0_ADDR} && setenv committed_image 0 && setenv image0_is_valid 1 && saveenv && reset\n`);
} else {
await serial.writeString(`sf probe 0 && sf erase ${IMAGE1_ADDR} && sf write ${LOAD_ADDR} ${IMAGE1_ADDR} && setenv committed_image 1 && setenv image1_is_valid 1 && saveenv && reset\n`);
}
/* Wait to avoid the user from disconnecting the SFP while the image is being flashed */
await delay(1000);
await detectUboot(serial);
return true;
} catch (err) {
outputErrorCallback(`Error: ${err.message}`);
return false;
} finally {
await serial.closePort();
}
}
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