Роутер ec330 g5u archer c9ert

  • Поддержка следующего поколения стандарта беспроводной связи 802.11ac
  • Общий объём пропускной способности до 1,9 Гбит/с: до 1300 Мбит/с на 5 ГГц и до 600 Мбит/с на 2,4 ГГц
  • 3 съёмные двухдиапазонные антенны для максимального всенаправленного покрытия беспроводной сети
  • Технология Beamforming обеспечивает высокопроизводительное беспроводное соединение
  • Двухъядерный 1 ГГц процессор гарантирует отсутствие задержек при одновременной обработке задач, выполняемых по проводному и беспроводному соединению
  • Порты USB 3.0 и USB 2.0 позволяют создавать совместный доступ к принтерам, файлам и медиа для устройств в локальной сети или удалённо через FTP-сервер (Узнать подробнее)
  • Возможность подключения 3G/4G-модемов к порту USB (Проверить список совместимых 3G/4G USB модемов)

Модель, пришедшая на смену: Archer C80

  • Unboxing беспроводного маршрутизатора Archer C9

  • Archer C9 — AC1900 Беспроводной двухдиапазонный гигабитный маршрутизатор

Описание

AC 1900

Двухдиапазонный Wi-Fi
гигабитный роутер



Мощный Wi-Fi

Archer C9 поддерживает стандарт беспроводной связи 11ac, обеспечивая общую скорость передачи данных до 1,9 Гбит/с (до 600 Мбит/с на частоте 2,4 ГГц и до 1300 Мбит/с на 5 ГГц). Роутер использует два беспроводных чипа, увеличивающих производительность диапазонов 2,4 ГГц и 5 ГГц, способствуя превосходному покрытию Wi-Fi сети. Отличное покрытие, гигабитная скорость Wi-Fi подключения и портов Ethernet делают его идеальным для таких ресурсоёмких задач, как просмотр HD-видео и онлайн-игры, позволяя использовать невероятно быстрое подключение по всему дому.

 
Встроенный защитный экран
Уменьшает интерференцию сигнала и увеличивает надёжность при подключении большого числа устройств к сети Wi-Fi.
 
1 ГГц двухъядерный процессор
Мощный процессор обеспечивает быструю и надёжную работу для устройств по Wi-Fi, Ethernet или USB.
 
Экранированные гигабитные порты WAN/LAN
Обеспечивают передачу данных на скорости до 1000 Мбит/с.

Beamforming*
Другой роутер AC1900

Широкое покрытие и стабильный Wi-Fi

Три двухдиапазонные антенны и высокомощные усилители сигнала обеспечат надёжный Wi-Fi для всех устройств на большой площади. 

*Технология Beamforming для направленного Wi-Fi
Beamforming обнаруживает подключенные беспроводные устройства и фокусирует сигнал в их направлении, что обеспечивает более производительное и надёжное Wi-Fi соединение.

Два порта USB для общего доступа

Благодаря портам USB 3.0 и USB 2.0 вы сможете легко обеспечить доступ к принтерам, файлам и медиа внутри вашей сети или удалённо через FTP-сервер. USB 3.0 обеспечивает в 10 раз более быструю скорость доступа к устройствам хранения данных по сравнению c USB 2.0

Скорость
USB

  • Медиа-сервер
  • FTP-сервер
  • Хранение данных
  • Сетевой принтер

Стильный дизайн

Плавные формы и превосходное качество сборки сделают Archer C9 замечательным предметом интерьера, при этом пользователю будет гарантирована высокая скорость работы. 

  • Гостевая сеть
    Обеспечивает отдельный доступ для гостевых пользователей.
  • Родительский контроль
    Позволяет ограничивать доступ для детей или персонала, а также легко создавать чёрные или белые списки для определённых URL.
  • Поддержка IPv6
    Archer C9 поддерживает IPv6 – новое поколение интернет-протокола, которое обеспечивает новые возможности для вашей сети уже сегодня.
  • Простая настройка
    Удобный веб-интерфейс для ноутбука, смартфона или планшета.
  • Мобильное приложение Tether
    Наиболее простой способ управления роутером из смартфона.

ХАРАКТЕРИСТИКИ

  • СКОРОСТЬ ПЕРЕДАЧИ СИГНАЛА
    5 ГГц: До 1300 Мбит/с

    2,4 ГГц: До 600 Мбит/с
  • 1 ГГЦ ДВУХЪЯДЕРНЫЙ

    ПРОЦЕССОР
    Для быстрой и стабильной работы Wi-Fi
  • ДВА ПОРТА USB
    1 порт USB 3.0 + 1 порт USB 2.0
  • ГИГАБИТНЫЕ ПОРТЫ WAN/LAN
    4 порта LAN 10/100/1000 Мбит/с

    1 порт WAN 10/100/1000 Мбит/с
  • АНТЕННЫ
    3 съёмные двухдиапазонные антенны
  • РАЗМЕРЫ (Ш X Д X В)
    221 X 86 X 168,5 мм
  • КОМПЛЕКТ ПОСТАВКИ
    Archer C9

    3 съёмные антенны

    Адаптер питания

    Кабель Ethernet

    Руководство по быстрой настройке

Характеристики

Беспроводное вещание
Стандарты Wi-Fi 5
IEEE 802.11ac/n/a 5 ГГц
IEEE 802.11n/b/g 2,4 ГГц
Скорость Wi-Fi AC1900
5 ГГц: 1300 Мбит/с (802.11ac)
2,4 ГГц: 600 Мбит/с (802.11n)
Покрытие Wi-Fi Дома с 3 спальнями

3 съёмные высокопроизводительные антенны
Из нескольких антенн формируется мощный сигнал, увеличивающий радиус действия

Beamforming
Концентрирует беспроводной сигнал в направлении клиентов для расширения радиуса действия Wi-Fi
Пропускная способность Wi-Fi Средняя

Два диапазона
Присвойте каждому устройству свой диапазон для оптимальной производительности
Режимы работы Режим роутера
Режим точки доступа
АППАРАТНАЯ ЧАСТЬ
Процессор Четырёхъядерный 64-разрядный процессор 1,8 ГГц
Порты Ethernet 1 гигабитный порт WAN
4 гигабитных порта LAN
Поддержка USB 1 порт USB 3.0
1 порт USB 2.0

Поддерживаемые файловые системы:
NTFS, exFAT, HFS+, FAT32

Поддерживаемые функции:
Apple Time Machine
FTP-сервер
Мультимедийный сервер
Сервер Samba
Кнопки Wi-Fi (вкл./выкл.)
Power (питание вкл./выкл.)
LED (индикатор вкл./выкл.)
WPS
Reset (сброс настроек)
Питание 12 В ⎓ 2 А
Безопасность
Шифрование Wi-Fi WEP
WPA
WPA2
WPA/WPA2-Enterprise (802.1x)
Сетевая безопасность Межсетевой экран SPI
Управление доступом
Привязка IP- и MAC-адресов
Шлюз прикладного уровня
Гостевая сеть 1 гостевая сеть 5 ГГц
1 гостевая сеть 2,4 ГГц
Сервер VPN OpenVPN
PPTP
Программные характеристики
Протоколы IPv4
IPv6
Родительский контроль Фильтрация URL-адресов
Контроль времени, проводимого в сети
Типы WAN Динамический IP
Статический IP
PPPoE
PPTP
L2TP
Приоритизация (QoS) Приоритизация устройств
Облачный сервис Обновление прошивки по воздуху
TP-Link ID
DDNS
Проброс NAT Виртуальный сервер
Port Triggering
DMZ
UPnP
IPTV IGMP Proxy
IGMP Snooping
DHCP Резервирование адресов
Список клиентов DHCP
Сервер
DDNS TP-Link
NO-IP
DynDNS
Управление Приложение Tether
Веб-интерфейс
Эмулятор>
ПРОЧЕЕ
Системные требования Internet Explorer 11+, Firefox 12.0+, Chrome 20.0+, Safari 4.0+ или другой браузер с поддержкой JavaScript

Кабельный или DSL-модем (при необходимости)

Подписка на тариф интернет-провайдера (для доступа в интернет)
Сертификация FCC, CE, RoHS
Окружающая среда Рабочая температура: 0…+40 ℃
Температура хранения: –40…+70 ℃
Влажность воздуха при эксплуатации: 10–90% без образования конденсата
Влажность воздуха при хранении: 5–90% без образования конденсата
РЕЗУЛЬТАТЫ ИСПЫТАНИЙ
Мощность Wi-Fi передатчика < 20 дБм или < 100 мВт
Чувствительность приёмника Wi-Fi 5 ГГц:
11a 6 Мбит/с: –94 дБм
11a 54 Мбит/с: –76 дБм
11ac HT20: –68 дБм
11ac HT40: –64 дБм
11ac HT80: –60 дБм
2,4 ГГц
11g 54 Мбит/с: –77 дБм
11n HT20: –73 дБм
11n HT40: –71 дБм
ФИЗИЧЕСКИЕ ПАРАМЕТРЫ
Размеры (Ш × Д × В) 221 × 86 × 168,5 мм
Комплект поставки Wi-Fi роутер Archer C9
Адаптер питания
Кабель Ethernet RJ45
Руководство по быстрой настройке

Обзоры и награды

Обзоры

  • Новое поколение маршрутизаторов TP-LINK, к которым относятся модели Archer C8 и C9, сильно отличаются от всего того, что мы видели ранее у этого производителя. Новый дизайн корпуса, новое оформление веб-интерфейса, новые возможности и новая же аппаратная платформа. В общем, обновления значительные, и, конечно, хотелось бы увидеть их не только в самых дорогих моделях, но в и устройствах попроще. 

  • Итак, Archer C9. Самый дорогой, функциональный и красивый из продающихся сегодня в России Wi-Fi-маршрутизаторов TP-Link. Дизайн устройства – белый глянцевый корпус в сочетании с металлической рамкой-опорой, плавные очертания – впервые позволяет задуматься о том, чтобы не прятать роутер с глаз долой, а поставить где-нибудь на виду в гостиной или кабинете.

  • Роутер – это гаджет, который всегда на виду. Не потому, что хочется всем его показать, а потому, что нет смысла прятать его в труднодоступное место, где могут возникнуть помехи для сигнала. TP-Link Archer C9 отлично впишется в любой интерьер: тут ненавязчивый, но очень приятный дизайн, обтекаемая форма и оригинальная серебристая подставка для установки в горизонтальном положении.

  • Производительный Wi-Fi маршрутизатор TP-Link Archer C9 обеспечивает отличную работу беспроводной сети в двух частотных диапазонах. Он способен передавать данные со скорость ю до 1300 Мбит/с. Девайс обладает двумя USB-портами для подключения накопителя и принтера. У него обновленный дизайн снаружи, а также новый веб-интерфейс внутри. В 2015 г. этот роутер признали лучшим 53% читателей «Мира ПК» .

  • Видео-обзор новинки от компании TP-Link — роутера AC1900, так же известного как Archer C9.

  • Продукты с поддержкой протокола 802.11ac выходят у TP-Link под брендом Archer. С первым представителем серии, роутером Archer C7, мы познакомились почти три года назад. В начале этого года была протестирована младшая модель — Archer C2. А в этой статье мы рассмотрим занимающее верхнюю позицию устройство Archer C9.

Награды


  • Editor’s Award

    Archer C9 won the award “Editor’s Award” from magazine PC3.

    2014, Hongkong, China



  • Recommendation

    Archer C9 was recommended with 4/5 stars from Alt om DATA

    2015, Denmark



  • Recommendation

    Archer C9 was recommended with 9/10 stars from Komputer for Alle

    2015, Denmark



  • Performance award

    Archer C9 has received a Performance Award from Hardware Heaven

    2015, UK

  • Archer C9 получил награду как лучший беспроводной маршрутизатор в категории «Сетевое оборудование для дома и малого офиса» от российской редакции издания PC Magazine.

    2016, Russia

  • Archer C9 получил награду «Лучший продукт 2016» по версии интернет-издания Мир ПК.

    2016, Москва

Эмуляторы

Устройство

Аппаратная версия

Версия прошивки

Язык

Archer C9

V1

140924

Английский

Выбрать

Archer C9

V4

160829

Многоязычный

Выбрать

Archer C9

V1

20150916

Английский

Выбрать

Archer C9

V3

160829

Английский

Выбрать

Archer C9

V2

20151230

Английский

Выбрать

Archer C9

V3

160201

Многоязычный

Выбрать

Примечания

1. Данный эмулятор является графическим интерфейсом настройки устройства TP-Link.

2. Не все опубликованные эмуляторы основаны на последней версии прошивки.

3. Имеющиеся в эмуляторе функции могут быть недоступны в вашей стране — для более подробной информации ознакомьтесь с паспортом или веб-страницей своего устройства.

* Максимальная скорость беспроводного сигнала – это физический максимум, согласно спецификациям стандарта IEEE 802.11. Фактическая пропускная способность беспроводной сети и покрытие беспроводной сети не гарантируются и будут варьироваться в зависимости от 1) факторов окружающей среды, включая строительные материалы, физические объекты и препятствия в помещении 2) условий сети, включая локальные помехи, объем и плотность трафика, местоположение продукта, сложность сети и её загруженность  3) ограничения клиента, включая номинальную производительность, местоположение, соединение, качество и состояние клиента.

Источник

Tested with 3.16.0 0.9.1 v6037.0 Build 191016 Rel.30619nb TP-Link firmware.
Also tested on 3.16.0 0.9.1 v6037.0 Build 181229 Rel.41159n (ISP‘s default FW) if the router booted from the right slot to download the OpenWrt firmware (see step 6 below).

1. Login to the router web interface (http://192.168.0.1/ by default) and save running config to conf.bin file

2. Open configuration file in any TP-Link config editor (e.g. https://jahed.github.io/tp-link-config-editor/)

3. Find DeviceInfo section and insert a new string: 

<Description val="Modem Router`telnetd -p 1023 -l login`" />

according to the following example: 

<DeviceInfo>
   ...
   <Description val="Modem Router`telnetd -p 1023 -l login`" />
   ...
</DeviceInfo>

4. Save configuration file and upload changed configuration using stock firmware web interface

5. Login using telnet to IP:192.168.0.1, port:1023 (Username:admin, password:1234)

6. Run 

cat /proc/mtd | grep mtd7

7. Set up a tftp server (e.g. tftpd64 for windows) with OpenWrt factory.bin image (IP:192.168.0.100 in this example)

8. Login using telnet to 192.168.0.1, port:1023

9. Download OpenWrt factory.bin image from the tftp server: 

cd /tmp
tftp -g -r factory.bin 192.168.0.100

10. Write OpenWrt factory.bin image: 

dd if=/tmp/factory.bin of=/dev/mtdblock1

11. Power cycle the router

1. Rename OpenWrt initramfs image to test.bin and place it on tftp server with IP 192.168.0.5

2. Attach Serial console (UART)

3. Switch on the router and interrupt the boot process by pressing ‘t’

4. Load and run OpenWrt initramfs image: 

tftpboot
bootm

5. Once inside OpenWrt, switch to the first boot image: 

fw_setenv BootImage 0

6. Run 

sysupgrade -n

with the sysupgrade OpenWrt image

1. Run in the OpenWrt shell: 

fw_setenv BootImage 1
reboot
Offset Size Size End Partition MTD Comment
0x0 0x400000 4 Mb 0x400000 (uboot)ro mtd0 0x0 U-Boot version string, “U-Boot 1.1.3 (Mar 18 2019 — 12:50:24)”
uImage header, header size: 64 bytes, header CRC: 0xFF0BD54E, created: 2019-03-18 12:50:28, image size: 108120 bytes, Data Address: 0xA0200000, Entry Point: 0xA0200000, data CRC: 0xDE252645, OS: Linux, CPU: MIPS, image type: Standalone Program, compression type: none, image name: “NAND Flash I”
THIS IS First Uboot: The first uboot located in NAND Flash to load next full-feature Uboot.
0x20000 U-Boot version string, “U-Boot 1.1.3 (Mar 18 2019 — 12:50:29)”
uImage header, header size: 64 bytes, header CRC: 0x8524CA7, created: 2019-03-18 12:50:33, image size: 173024 bytes, Data Address: 0xA01FC040, Entry Point: 0xA0200000, data CRC: 0x666D4115, OS: Linux, CPU: MIPS, image type: Standalone Program, compression type: none, image name: “NAND Flash I”
THIS IS Main Uboot: Including recovery webserver.
0x60000 U-Boot version string, “U-Boot 1.1.3 (Mar 18 2019 — 12:50:29)”
uImage header, header size: 64 bytes, header CRC: 0x8524CA7, created: 2019-03-18 12:50:33, image size: 173024 bytes, Data Address: 0xA01FC040, Entry Point: 0xA0200000, data CRC: 0x666D4115, OS: Linux, CPU: MIPS, image type: Standalone Program, compression type: none, image name: “NAND Flash I”
0x400000 0x3000000 48 Mb 0x3400000 (os0) mtd1 0x0 All firmware header
uImage header, header size: 64 bytes, header CRC: 0x2195F4C5, created: 2019-10-16 08:30:26, image size: 18218944 bytes, Data Address: 0xA0200000, Entry Point: 0xA0200000, data CRC: 0xF48746FC, OS: Linux, CPU: MIPS, image type: Firmware Image, compression type: none, image name: “OS IMAGE”
0x40 U-Boot header
U-Boot version string, “U-Boot 1.1.3 (Oct 16 2019 — 08:14:45)”
uImage header, header size: 64 bytes, header CRC: 0x585AD1A1, created: 2019-10-16 08:14:49, image size: 180596 bytes, Data Address: 0xA01FB040, Entry Point: 0xA0200000, data CRC: 0xCCBF4B4B, OS: Linux, CPU: MIPS, image type: Standalone Program, compression type: none, image name: “NAND Flash I”
THIS IS Image Uboot: Uboot included in upgrade image.
0x40000 Kernel header
uImage header, header size: 64 bytes, header CRC: 0x3C92A2FC, created: 2019-10-16 08:19:42, image size: 3431340 bytes, Data Address: 0x81001000, Entry Point: 0x8161BFE0, data CRC: 0xF57CE35D, OS: Linux, CPU: MIPS, image type: OS Kernel Image, compression type: lzma, image name: “Linux Kernel Image”
0x3a0000 UBI erase count header, version: 1, EC: 0x0, VID header offset: 0x800, data offset: 0x1000
0x3400000 0x3000000 48 Mb 0x6400000 (os1) mtd2 OS IMAGE 2
0x6400000 0x1000000 16 Mb 0x7400000 (userfs) mtd3 UBI
0x7400000 0x400000 4 Mb 0x7800000 (ubootenv) mtd4
0x7800000 0x400000 4 Mb 0x7c00000 (factory) mtd5 0x8000 RF EEPROM 2g
0x14000 RF EEPROM 5g
0x0 128M 128 Mb 0x7f80000 (wholeflash) mtd6 Whole NAND
0x400000 0x3000000 48 Mb 0x3400000 (rootfs) mtd7 OS IMAGE 1

None so far.

None so far.

If you don’t have a GUI (LuCI) available, you can alternatively upgrade via the command line.

→ Basic configuration After flashing, proceed with this.

Set up your Internet connection, configure wireless, configure USB port, etc.

The default network configuration is:

Interface Name Description Default configuration
br-lan LAN & WiFi 192.168.1.1/24
lan1-4 LAN ports (1-4) br-lan
wan WAN port DHCP

→ hardware.button on howto use and configure the hardware button(s).
Here, we merely name the buttons, so we can use them in the above Howto.

The TP-Link EC330-G5u has the following buttons:

BUTTON Event
Led KEY_LIGHTS_TOGGLE
WiFi On/Off KEY_RFKILL
Reset reset
WPS wps

→ port.serial general information about the serial port, serial port cable, etc.

How to connect to the Serial Port on TP-Link EC330-G5u v1: 

                            V
+-------+-------+-------+-------+
| +3.3V |  GND  |  TX   |  RX   |
+---+---+-------+-------+-------+
    |              J2
    |
    +--- Don't connect

TP-Link EC330-G5u v1 UART

Device has many big holes in the bottom of the case. This allows you connect Serial Port even without the case opening.

Serial connection parameters
for TP-Link EC330-G5u v1 		115200, 8N1, 3.3V

Not supported.

→ port.jtag general information about the JTAG port, JTAG cable, etc.

None so far.

Enable NFI Clock
# MTK NAND # : Use HW ECC
NAND ID [C8 D1 80 95 40]
Device found in MTK table, ID: c8d1, EXT_ID: 809540
Support this Device in MTK table! c8d1
select_chip
[NAND]select ecc bit:4, sparesize :64 spare_per_sector=16
Signature matched and data read!
load_fact_bbt success 1023
load fact bbt success
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[mtk_nand] probe successfully!
mtd->writesize=2048 mtd->oobsize=64, mtd->erasesize=131072 devinfo.iowidth=8
.
partable is:
uboot:0x400000@0x0
os0:0x3000000@0x400000
os1:0x3000000@0x3400000
userfs:0x1000000@0x6400000
ubootenv:0x400000@0x7400000
factory:0x400000@0x7800000
.============================================
Ralink UBoot Version: 5.0.0.0
———————————————
ASIC MT7621A DualCore (MAC to MT7530 Mode)
DRAM_CONF_FROM: Auto-Detection
DRAM_TYPE: DDR3
DRAM bus: 16 bit
Xtal Mode=3 OCP Ratio=1/3
Flash component: NAND Flash
Date:Dec 29 2018 Time:11:24:16
============================================
THIS IS Main Uboot: Including recovery webserver.
icache: sets:256, ways:4, linesz:32 ,total:32768
dcache: sets:256, ways:4, linesz:32 ,total:32768

##### The CPU freq = 880 MHZ ####
estimate memory size =128 Mbytes
set LAN/WAN WLLLL
this uboot is loaded from 0xbc020000

Press ‘4’ or ‘t’ to break the booting process

Press ‘x’ to enter recovery web server 0

3: System Boot system code via Flash.
do_bootm
## Booting image at bc400000 …
Image Name: OS IMAGE
Image Type: MIPS Linux Firmware (uncompressed)
Data Size: 18218944 Bytes = 17.4 MB
Load Address: a0200000
Entry Point: a0200000
ret is -3
try next header
## Booting image at bc400040 …
Image Name: NAND Flash I
Image Type: MIPS Linux Standalone Program (uncompressed)
Data Size: 180596 Bytes = 176.4 kB
Load Address: a01fb040
Entry Point: a0200000
… Verifying Checksum … OK
data copied to 0xa01fb040
OK
jump to memory 0xa0200000

U-Boot 1.1.3 (Oct 16 2019 — 08:14:45)

Board: Ralink APSoC DRAM: 128 MB
relocate_code Pointer at: 87f88000

Config XHCI 40M PLL
#Reset_MT7530
Allocate 16 byte aligned buffer: 87fc7470
Enable NFI Clock
# MTK NAND # : Use HW ECC
NAND ID [C8 D1 80 95 40]
Device found in MTK table, ID: c8d1, EXT_ID: 809540
Support this Device in MTK table! c8d1
select_chip
[NAND]select ecc bit:4, sparesize :64 spare_per_sector=16
Signature matched and data read!
load_fact_bbt success 1023
load fact bbt success
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[mtk_nand] probe successfully!
mtd->writesize=2048 mtd->oobsize=64, mtd->erasesize=131072 devinfo.iowidth=8
.
partable is:
uboot:0x400000@0x0
os0:0x3000000@0x400000
os1:0x3000000@0x3400000
userfs:0x1000000@0x6400000
ubootenv:0x400000@0x7400000
factory:0x400000@0x7800000
.============================================
Ralink UBoot Version: 5.0.0.0
———————————————
ASIC MT7621A DualCore (MAC to MT7530 Mode)
DRAM_CONF_FROM: Auto-Detection
DRAM_TYPE: DDR3
DRAM bus: 16 bit
Xtal Mode=3 OCP Ratio=1/3
Flash component: NAND Flash
Date:Oct 16 2019 Time:08:14:45
============================================
THIS IS Image Uboot: Uboot included in upgrade image.
icache: sets:256, ways:4, linesz:32 ,total:32768
dcache: sets:256, ways:4, linesz:32 ,total:32768

##### The CPU freq = 880 MHZ ####
estimate memory size =128 Mbytes
set LAN/WAN WLLLL
this uboot is loaded from 0xbc400040

Press ‘2’ or ‘t’ to break the booting process

Press ‘x’ to enter recovery web server 0

3: System Boot system code via Flash.
check image0
check image header magic ==>OK
check image header crc ==>OK
check image1
check image header magic ==>OK
check image header crc ==>OK

=================================================
The boot image is Image0
check image content crc ==>……………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………..OK

=================================================

=================================================

=================================================
## Booting image at bc440000 …
Image Name: Linux Kernel Image
Image Type: MIPS Linux Kernel Image (lzma compressed)
Data Size: 3431340 Bytes = 3.3 MB
Load Address: 81001000
Entry Point: 8161bfe0
…………………………………………….. Verifying Checksum … OK
Uncompressing Kernel Image … OK
No initrd
## Transferring control to Linux (at address 8161bfe0) …
## Giving linux memsize in MB, 128

Starting kernel …

LINUX started…

THIS IS ASIC

SDK 5.0.S.0
[ 0.000000] Linux version 3.10.14 (compile@c6459b075f9a) (gcc version 4.6.3 (Buildroot 2012.11.1) ) #1 SMP Wed Oct 16 08:19:35 UTC 2019
[ 0.000000]
[ 0.000000] The CPU feqenuce set to 880 MHz
[ 0.000000] GCMP present
[ 0.000000] CPU0 revision is: 0001992f (MIPS 1004Kc)
[ 0.000000] Software DMA cache coherency
[ 0.000000] Determined physical RAM map:
[ 0.000000] memory: 08000000 @ 00000000 (usable)
[ 0.000000] Initrd not found or empty — disabling initrd
[ 0.000000] Zone ranges:
[ 0.000000] DMA [mem 0x00000000-0x00ffffff]
[ 0.000000] Normal [mem 0x01000000-0x07ffffff]
[ 0.000000] Movable zone start for each node
[ 0.000000] Early memory node ranges
[ 0.000000] node 0: [mem 0x00000000-0x07ffffff]
[ 0.000000] Detected 3 available secondary CPU(s)
[ 0.000000] Primary instruction cache 32kB, 4-way, VIPT, linesize 32 bytes.
[ 0.000000] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.000000] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.000000] PERCPU: Embedded 7 pages/cpu @81aa7000 s6784 r8192 d13696 u32768
[ 0.000000] Built 1 zonelists in Zone order, mobility grouping on. Total pages: 32512
[ 0.000000] PID hash table entries: 512 (order: -1, 2048 bytes)
[ 0.000000] Dentry cache hash table entries: 16384 (order: 4, 65536 bytes)
[ 0.000000] Inode-cache hash table entries: 8192 (order: 3, 32768 bytes)
[ 0.000000] Writing ErrCtl register=00062005
[ 0.000000] Readback ErrCtl register=00062005
[ 0.000000] Memory: 119940k/131072k available (6291k kernel code, 11132k reserved, 2533k data, 256k init, 0k highmem)
[ 0.000000] Hierarchical RCU implementation.
[ 0.000000] NR_IRQS:128
[ 0.000000] console [ttyS1] enabled
[ 0.096000] Calibrating delay loop… 577.53 BogoMIPS (lpj=1155072)
[ 0.128000] pid_max: default: 32768 minimum: 301
[ 0.132000] Mount-cache hash table entries: 512
[ 0.136000] launch: starting cpu1
[ 0.140000] launch: cpu1 gone!
[ 0.140000] CPU1 revision is: 0001992f (MIPS 1004Kc)
[ 0.140000] Primary instruction cache 32kB, 4-way, VIPT, linesize 32 bytes.
[ 0.140000] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.140000] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.172000] Synchronize counters for CPU 1: done.
[ 0.176000] launch: starting cpu2
[ 0.180000] launch: cpu2 gone!
[ 0.180000] CPU2 revision is: 0001992f (MIPS 1004Kc)
[ 0.180000] Primary instruction cache 32kB, 4-way, VIPT, linesize 32 bytes.
[ 0.180000] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.180000] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.212000] Synchronize counters for CPU 2: done.
[ 0.216000] launch: starting cpu3
[ 0.220000] launch: cpu3 gone!
[ 0.220000] CPU3 revision is: 0001992f (MIPS 1004Kc)
[ 0.220000] Primary instruction cache 32kB, 4-way, VIPT, linesize 32 bytes.
[ 0.220000] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.220000] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.248000] Synchronize counters for CPU 3: done.
[ 0.252000] Brought up 4 CPUs
[ 0.256000] devtmpfs: initialized
[ 0.260000] NET: Registered protocol family 16
[ 0.564000] release PCIe RST: RALINK_RSTCTRL = 7000000
[ 0.568000] PCIE PHY initialize
[ 0.572000] ***** Xtal 40MHz *****
[ 0.572000] start MT7621 PCIe register access
[ 1.172000] RALINK_RSTCTRL = 7000000
[ 1.172000] RALINK_CLKCFG1 = 77ffeff8
[ 1.176000]
[ 1.176000] *************** MT7621 PCIe RC mode *************
[ 1.680000] PCIE2 no card, disable it(RST&CLK)
[ 1.684000] pcie_link status = 0x3
[ 1.688000] RALINK_RSTCTRL= 3000000
[ 1.688000] *** Configure Device number setting of Virtual PCI-PCI bridge ***
[ 1.696000] RALINK_PCI_PCICFG_ADDR = 21007f2 -> 21007f2
[ 1.704000] PCIE0 enabled
[ 1.704000] PCIE1 enabled
[ 1.708000] interrupt enable status: 300000
[ 1.712000] Port 1 N_FTS = 1b105000
[ 1.716000] Port 0 N_FTS = 1b105000
[ 1.720000] config reg done
[ 1.720000] init_rt2880pci done
[ 1.748000] bio: create slab <bio-0> at 0
[ 1.752000] vgaarb: loaded
[ 1.756000] SCSI subsystem initialized
[ 1.760000] PCI host bridge to bus 0000:00
[ 1.764000] pci_bus 0000:00: root bus resource [mem 0x60000000-0x6fffffff]
[ 1.772000] pci_bus 0000:00: root bus resource [io 0x1e160000-0x1e16ffff]
[ 1.780000] pci_bus 0000:00: No busn resource found for root bus, will use [bus 00-ff]
[ 1.788000] pci 0000:00:00.0: bridge configuration invalid ([bus 00-00]), reconfiguring
[ 1.796000] pci 0000:00:01.0: bridge configuration invalid ([bus 00-00]), reconfiguring
[ 1.804000] pci 0000:00:00.0: BAR 0: can’t assign mem (size 0x80000000)
[ 1.808000] pci 0000:00:01.0: BAR 0: can’t assign mem (size 0x80000000)
[ 1.812000] pci 0000:00:00.0: BAR 8: assigned [mem 0x60000000-0x600fffff]
[ 1.816000] pci 0000:00:01.0: BAR 8: assigned [mem 0x60100000-0x601fffff]
[ 1.820000] pci 0000:00:00.0: BAR 1: assigned [mem 0x60200000-0x6020ffff]
[ 1.824000] pci 0000:00:01.0: BAR 1: assigned [mem 0x60210000-0x6021ffff]
[ 1.828000] pci 0000:01:00.0: BAR 0: assigned [mem 0x60000000-0x600fffff 64bit]
[ 1.832000] pci 0000:00:00.0: PCI bridge to [bus 01]
[ 1.836000] pci 0000:00:00.0: bridge window [mem 0x60000000-0x600fffff]
[ 1.840000] pci 0000:02:00.0: BAR 0: assigned [mem 0x60100000-0x601fffff 64bit]
[ 1.844000] pci 0000:00:01.0: PCI bridge to [bus 02]
[ 1.848000] pci 0000:00:01.0: bridge window [mem 0x60100000-0x601fffff]
[ 1.852000] PCI: Enabling device 0000:00:00.0 (0004 -> 0006)
[ 1.856000] PCI: Enabling device 0000:00:01.0 (0004 -> 0006)
[ 1.860000] BAR0 at slot 0 = 0
[ 1.860000] bus=0x0, slot = 0x0
[ 1.864000] res[0]->start = 0
[ 1.864000] res[0]->end = 0
[ 1.868000] res[1]->start = 60200000
[ 1.868000] res[1]->end = 6020ffff
[ 1.872000] res[2]->start = 0
[ 1.872000] res[2]->end = 0
[ 1.876000] res[3]->start = 0
[ 1.876000] res[3]->end = 0
[ 1.880000] res[4]->start = 0
[ 1.880000] res[4]->end = 0
[ 1.884000] res[5]->start = 0
[ 1.884000] res[5]->end = 0
[ 1.888000] BAR0 at slot 1 = 0
[ 1.888000] bus=0x0, slot = 0x1
[ 1.892000] res[0]->start = 0
[ 1.892000] res[0]->end = 0
[ 1.896000] res[1]->start = 60210000
[ 1.896000] res[1]->end = 6021ffff
[ 1.900000] res[2]->start = 0
[ 1.900000] res[2]->end = 0
[ 1.904000] res[3]->start = 0
[ 1.904000] res[3]->end = 0
[ 1.908000] res[4]->start = 0
[ 1.908000] res[4]->end = 0
[ 1.912000] res[5]->start = 0
[ 1.912000] res[5]->end = 0
[ 1.916000] bus=0x1, slot = 0x0, irq=0x4
[ 1.916000] res[0]->start = 60000000
[ 1.920000] res[0]->end = 600fffff
[ 1.920000] res[1]->start = 0
[ 1.924000] res[1]->end = 0
[ 1.924000] res[2]->start = 0
[ 1.928000] res[2]->end = 0
[ 1.928000] res[3]->start = 0
[ 1.932000] res[3]->end = 0
[ 1.932000] res[4]->start = 0
[ 1.936000] res[4]->end = 0
[ 1.936000] res[5]->start = 0
[ 1.940000] res[5]->end = 0
[ 1.940000] bus=0x2, slot = 0x1, irq=0x18
[ 1.944000] res[0]->start = 60100000
[ 1.944000] res[0]->end = 601fffff
[ 1.948000] res[1]->start = 0
[ 1.948000] res[1]->end = 0
[ 1.952000] res[2]->start = 0
[ 1.952000] res[2]->end = 0
[ 1.956000] res[3]->start = 0
[ 1.956000] res[3]->end = 0
[ 1.960000] res[4]->start = 0
[ 1.960000] res[4]->end = 0
[ 1.964000] res[5]->start = 0
[ 1.964000] res[5]->end = 0
[ 1.968000] Switching to clocksource Ralink Systick timer
[ 1.972000] NET: Registered protocol family 2
[ 1.976000] Clockevents: could not switch to one-shot mode:
[ 1.976000] Clockevents: could not switch to one-shot mode:
[ 1.976000] Clockevents: could not switch to one-shot mode:
[ 1.976000] MIPS is not functional.
[ 1.976000] MIPS is not functional.
[ 1.976000] Clockevents: could not switch to one-shot mode: MIPS is not functional.
[ 1.976000] Could not switch to high resolution mode on CPU 1
[ 1.976000] Could not switch to high resolution mode on CPU 3
[ 1.976000] Could not switch to high resolution mode on CPU 2
[ 1.976000] MIPS is not functional.
[ 2.028000] Could not switch to high resolution mode on CPU 0
[ 2.036000] TCP established hash table entries: 1024 (order: 1, 8192 bytes)
[ 2.044000] TCP bind hash table entries: 1024 (order: 1, 8192 bytes)
[ 2.048000] TCP: Hash tables configured (established 1024 bind 1024)
[ 2.056000] TCP: reno registered
[ 2.060000] UDP hash table entries: 256 (order: 1, 8192 bytes)
[ 2.064000] UDP-Lite hash table entries: 256 (order: 1, 8192 bytes)
[ 2.072000] NET: Registered protocol family 1
[ 2.080000] exFAT: Version 1.2.9
[ 2.080000] fuse init (API version 7.22)
[ 2.088000] msgmni has been set to 234
[ 2.092000] io scheduler noop registered (default)
[ 2.096000] reg_int_mask=0, INT_MASK= 0
[ 2.100000] HSDMA_init
[ 2.104000]
[ 2.104000] hsdma_phy_tx_ring0 = 0x00c00000, hsdma_tx_ring0 = 0xa0c00000
[ 2.112000]
[ 2.112000] hsdma_phy_rx_ring0 = 0x00c04000, hsdma_rx_ring0 = 0xa0c04000
[ 2.120000] TX_CTX_IDX0 = 0
[ 2.124000] TX_DTX_IDX0 = 0
[ 2.124000] RX_CRX_IDX0 = 3ff
[ 2.128000] RX_DRX_IDX0 = 0
[ 2.132000] set_fe_HSDMA_glo_cfg
[ 2.136000] HSDMA_GLO_CFG = 465
[ 2.248000] Serial: 8250/16550 driver, 4 ports, IRQ sharing enabled
[ 2.252000] serial8250: ttyS0 at MMIO 0x1e000d00 (irq = 27) is a 16550A
[ 2.260000] serial8250: ttyS1 at MMIO 0x1e000c00 (irq = 26) is a 16550A
[ 2.276000] brd: module loaded
[ 2.284000] MediaTek Nand driver init, version v2.1 Fix AHB virt2phys error
[ 2.288000] Allocate 16 byte aligned buffer: 818f80f0
[ 2.296000] Enable NFI Clock
[ 2.296000] # MTK NAND # : Use HW ECC
[ 2.300000] NAND ID [C8 D1 80 95 40, 00809540]
[ 2.304000] Device found in MTK table, ID: c8d1, EXT_ID: 809540
[ 2.312000] Support this Device in MTK table! c8d1
[ 2.316000] NAND device: Manufacturer ID: 0xc8, Chip ID: 0xd1 (Unknown NAND 128MiB 3,3V 8-bit), 128MiB, page size: 2048, OOB size: 64
[ 2.328000] [NAND]select ecc bit:4, sparesize :64 spare_per_sector=16
[ 2.336000] Scanning device for bad blocks
[ 2.484000] Signature matched and data read!
[ 2.488000] load_fact_bbt success 1023
[ 2.492000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.500000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.512000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.520000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.532000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.540000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.552000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.560000] 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[ 2.572000] mtd: MT7621-NAND: partitioning exceeds flash size, truncating
[ 2.576000] 8 cmdlinepart partitions found on MTD device MT7621-NAND
[ 2.584000] Creating 8 MTD partitions on «MT7621-NAND»:
[ 2.588000] 0x000000000000-0x000000400000 : «uboot»
[ 2.596000] 0x000000400000-0x000003400000 : «os0»
[ 2.616000] 0x000003400000-0x000006400000 : «os1»
[ 2.632000] 0x000006400000-0x000007400000 : «userfs»
[ 2.644000] 0x000007400000-0x000007800000 : «ubootenv»
[ 2.652000] 0x000007800000-0x000007c00000 : «factory»
[ 2.660000] 0x000000000000-0x000007f80000 : «wholeflash»
[ 2.700000] 0x000000400000-0x000003400000 : «rootfs»
[ 2.720000] OK
[ 2.720000] [mtk_nand] probe successfully!
[ 2.728000] PPP generic driver version 2.4.2
[ 2.732000] PPP BSD Compression module registered
[ 2.736000] PPP MPPE Compression module registered
[ 2.740000] NET: Registered protocol family 24
[ 2.744000] register mt_drv
[ 2.756000]
[ 2.756000]
[ 2.756000] === pAd = c0181000, size = 3711072 ===
[ 2.756000]
[ 2.768000] <— RTMPAllocAdapterBlock, Status=0
[ 2.772000] pAd->PciHif.CSRBaseAddress =0xc0080000, csr_addr=0xc0080000!
[ 2.780000] RTMPInitPCIeDevice():device_id=0x7615
[ 2.784000] DriverOwn()::Try to Clear FW Own…
[ 3.084000] DriverOwn()::Success to clear FW Own
[ 3.092000] mt_pci_chip_cfg(): HWVer=0x8a10, FWVer=0x8a10, pAd->ChipID=0x7615
[ 3.096000] mt_pci_chip_cfg(): HIF_SYS_REV=0x76150001
[ 3.104000] RtmpChipOpsHook(492): Not support for HIF_MT yet! MACVersion=0x0
[ 3.108000] mt7615_init()—>
[ 3.112000] Use 1st iPAiLNA default bin.
[ 3.116000] Use 0st /etc/MT7615E_EEPROM1.bin default bin.
[ 3.120000] <—mt7615_init()
[ 3.124000] ChipOpsMCUHook
[ 3.132000] cut_through_token_list_init(): TokenList inited done!id_head/tail=0/4096
[ 3.140000] cut_through_token_list_init(): 87762688,87762688
[ 3.148000] cut_through_token_list_init(): TokenList inited done!id_head/tail=0/4096
[ 3.156000] cut_through_token_list_init(): 87762698,87762698
[ 3.160000] <— RTMPAllocTxRxRingMemory, Status=0
[ 3.176000]
[ 3.176000]
[ 3.176000] === pAd = c0681000, size = 3711072 ===
[ 3.176000]
[ 3.188000] <— RTMPAllocAdapterBlock, Status=0
[ 3.192000] pAd->PciHif.CSRBaseAddress =0xc0580000, csr_addr=0xc0580000!
[ 3.200000] RTMPInitPCIeDevice():device_id=0x7615
[ 3.204000] DriverOwn()::Try to Clear FW Own…
[ 3.504000] DriverOwn()::Success to clear FW Own
[ 3.508000] mt_pci_chip_cfg(): HWVer=0x8a10, FWVer=0x8a10, pAd->ChipID=0x7615
[ 3.516000] mt_pci_chip_cfg(): HIF_SYS_REV=0x76150001
[ 3.520000] RtmpChipOpsHook(492): Not support for HIF_MT yet! MACVersion=0x0
[ 3.528000] mt7615_init()—>
[ 3.532000] Use 2nd ePAeLNA default bin.
[ 3.536000] Use 1st /etc/MT7615E_EEPROM2.bin default bin.
[ 3.540000] <—mt7615_init()
[ 3.544000] ChipOpsMCUHook
[ 3.552000] cut_through_token_list_init(): TokenList inited done!id_head/tail=0/4096
[ 3.560000] cut_through_token_list_init(): 86cc2c08,86cc2c08
[ 3.564000] cut_through_token_list_init(): TokenList inited done!id_head/tail=0/4096
[ 3.572000] cut_through_token_list_init(): 86cc2c18,86cc2c18
[ 3.580000] <— RTMPAllocTxRxRingMemory, Status=0
[ 3.584000] rdm_major = 253
[ 3.588000] Mirror/redirect action on
[ 3.592000] u32 classifier
[ 3.596000] Performance counters on
[ 3.600000] input device check on
[ 3.604000] Actions configured
[ 3.604000] Netfilter messages via NETLINK v0.30.
[ 3.612000] nf_conntrack version 0.5.0 (1874 buckets, 7496 max)
[ 3.616000] gre: GRE over IPv4 demultiplexor driver
[ 3.620000] ip_tables: (C) 2000-2006 Netfilter Core Team
[ 3.628000] Type=Linux
[ 3.628000] TCP: cubic registered
[ 3.632000] NET: Registered protocol family 10
[ 3.640000] ip6_tables: (C) 2000-2006 Netfilter Core Team
[ 3.644000] sit: IPv6 over IPv4 tunneling driver
[ 3.652000] NET: Registered protocol family 17
[ 3.656000] Bridge firewalling registered
[ 3.660000] Ebtables v2.0 registered
[ 3.664000] 8021q: 802.1Q VLAN Support v1.8
[ 3.672000] UBI: attaching mtd7 to ubi0
[ 3.676000] UBI: MTD device 7 is write-protected, attach in read-only mode
[ 4.000000] UBI: scanning is finished
[ 4.016000] UBI: attached mtd7 (name «rootfs», size 48 MiB) to ubi0
[ 4.024000] UBI: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[ 4.032000] UBI: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[ 4.036000] UBI: VID header offset: 2048 (aligned 2048), data offset: 4096
[ 4.044000] UBI: good PEBs: 384, bad PEBs: 0, corrupted PEBs: 0
[ 4.048000] UBI: user volume: 1, internal volumes: 1, max. volumes count: 128
[ 4.056000] UBI: max/mean erase counter: 0/0, WL threshold: 4096, image sequence number: 785299021
[ 4.064000] UBI: available PEBs: 252, total reserved PEBs: 132, PEBs reserved for bad PEB handling: 20
[ 4.076000] UBI: background thread «ubi_bgt0d» started, PID 790
[ 8.116000] UBIFS: read-only UBI device
[ 8.120000] UBIFS: static UBI volume — read-only mode
[ 8.272000] UBIFS: mounted UBI device 0, volume 0, name «rootfs», R/O mode
[ 8.276000] UBIFS: LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[ 8.288000] UBIFS: FS size: 12443648 bytes (11 MiB, 98 LEBs), journal size 6475776 bytes (6 MiB, 51 LEBs)
[ 8.296000] UBIFS: reserved for root: 0 bytes (0 KiB)
[ 8.300000] UBIFS: media format: w4/r0 (latest is w4/r0), UUID 9EA1D9E7-A9EB-4401-9F2F-B222CF71B963, small LPT model
[ 8.316000] VFS: Mounted root (ubifs filesystem) readonly on device 0:11.
[ 8.324000] devtmpfs: mounted
[ 8.328000] Freeing unused kernel memory: 256K (818a0000 — 818e0000)
starting pid 792, tty »: ‘/etc/init.d/rcS’
[ 8.488000] gpioctrl: module license ‘unspecified’ taints kernel.
[ 8.496000] Disabling lock debugging due to kernel taint
[ 8.512000] Ralink gpio driver initialized
[ 8.688000] UBI: attaching mtd3 to ubi1
[ 8.844000] UBI: scanning is finished
[ 8.864000] UBI: attached mtd3 (name «userfs», size 16 MiB) to ubi1
[ 8.872000] UBI: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[ 8.876000] UBI: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[ 8.884000] UBI: VID header offset: 2048 (aligned 2048), data offset: 4096
[ 8.892000] UBI: good PEBs: 128, bad PEBs: 0, corrupted PEBs: 0
[ 8.896000] UBI: user volume: 1, internal volumes: 1, max. volumes count: 128
[ 8.904000] UBI: max/mean erase counter: 1/0, WL threshold: 4096, image sequence number: 1035386040
[ 8.912000] UBI: available PEBs: 0, total reserved PEBs: 128, PEBs reserved for bad PEB handling: 20
[ 8.924000] UBI: background thread «ubi_bgt1d» started, PID 802
UBI device number 1, total 128 LEBs (16252928 bytes, 15.5 MiB), [ 8.936000] UBIFS: background thread «ubifs_bgt1_0» started, PID 805
available 0 LEBs (0 bytes), LEB size 126976 bytes (124.0 KiB)
[ 9.008000] UBIFS: recovery needed
[ 9.104000] ..[ 9.188000] UBIFS: recovery completed
.[ 9.192000] UBIFS: mounted UBI device 1, volume 0, name «userfs»
[ 9.196000] UBIFS: LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[ 9.208000] UBIFS: FS size: 11935744 bytes (11 MiB, 94 LEBs), journal size 1015809 bytes (0 MiB, 6 LEBs)
[ 9.216000] UBIFS: reserved for root: 563754 bytes (550 KiB)
[ 9.220000] UBIFS: media format: w4/r0 (latest is w4/r0), UUID C03CF46B-375A-4AFB-B32E-F1F36DD48B14, small LPT model
cp: can’t stat ‘/etc/SingleSKU_FCC.dat’: No such file or directory
[ 9.352000] usbcore: registered new interface driver usbfs
[ 9.360000] usbcore: registered new interface driver hub
[ 9.364000] usbcore: registered new device driver usb
[ 9.412000] *****run project phy.
[ 9.424000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.436000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.448000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.460000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.472000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.484000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.496000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.508000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.520000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.532000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.560000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.572000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.584000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.596000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.608000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.620000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.632000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.644000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.656000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.668000] FM_OUT value: u4FmOut = 0(0x00000000)
[ 9.792000] xhci-hcd xhci-hcd: xHCI Host Controller
[ 9.796000] xhci-hcd xhci-hcd: new USB bus registered, assigned bus number 1
[ 9.804000] xhci-hcd xhci-hcd: irq 22, io mem 0x1e1c0000
[ 9.812000] hub 1-0:1.0: USB hub found
[ 9.816000] hub 1-0:1.0: 2 ports detected
[ 9.820000] xhci-hcd xhci-hcd: xHCI Host Controller
[ 9.824000] xhci-hcd xhci-hcd: new USB bus registered, assigned bus number 2
[ 9.832000] hub 2-0:1.0: USB hub found
[ 9.836000] hub 2-0:1.0: 1 port detected
[ 9.860000] ehci_hcd: USB 2.0 ‘Enhanced’ Host Controller (EHCI) Driver
[ 9.872000] ehci-platform: EHCI generic platform driver
[ 9.892000] ohci_hcd: USB 1.1 ‘Open’ Host Controller (OHCI) Driver
[ 9.924000] usbcore: registered new interface driver usb-storage
[ 9.964000] add domain:tplinkwifi.net
[ 9.968000] add domain:tplinkap.net
[ 9.972000] add domain:tplinklogin.net
[ 9.976000] tp_domain init ok
[ 9.996000] PPTP driver version 0.8.5
[ 10.008000] l2tp_core: L2TP core driver, V2.0
[ 10.024000] l2tp_ppp: PPPoL2TP kernel driver, V2.0

Please press Enter to activate this console. [ dm_init ] 1696: load dm
[ dm_init ] 1699: load dm config
[ dm_loadCfg ] 3307: read out cfg is <?xml version=»1.0″?>
<DslCpeConfig>
<InternetGatewayDevice>
<DeviceSummary val=»InternetGatewayDevice:1.1[](Baseline:1, EthernetLAN:1)» />
<LANDeviceNumberOfEntries val=1 />
<DeviceInfo>
<ManufacturerOUI val=68FF7B />
[ dm_init ] 1703: load device config
[ dm_loadFlashCfgFromFlash ] 2792: software version is not match, in config, version = 4294967295
[ dm_loadFlashCfgFromFlash ] 2792: ret = 9802, return
[ dm_loadFlashCfg ] 2990: Read user config from flash partition device-config failed. Now read default config /etc/dev_config.xml
[ dm_readFile ] 2204: can not open xml file /etc/dev_config.xml!
[ dm_loadFlashCfgFromFile ] 2920: read default config /etc/dev_config.xml failed
[ dm_loadFlashCfgFromFile ] 2920: ret = 9801, return
[ dm_loadFlashCfg ] 2992: Read default config /etc/dev_config.xml failed
[ dm_init ] 1707: load factory config
[ getSubMtdPartition ] 1071: sub mtd factory-config is map to factory

[ checkSubMtd ] 578: Random write not supported. But We can try reading the whole data out first and then write.

[ getSubMtdPartition ] 1071: sub mtd factory-config is map to factory

[ checkSubMtd ] 578: Random write not supported. But We can try reading the whole data out first and then write.

[ cos_init ] 374: is router mode

[ initFuncTable ] 1090: ===>Enter router mode

[ oal_getUpgradeStatusFromFlash ] 883: upgrade status is 0
[ rsl_getManagementServerObj ] 568: cannot set connectionRequestURL yet because no WAN intf is up
[ rsl_getManagementServerObj ] 568: cannot set connectionRequestURL yet because no WAN intf is up
[ rsl_getManagementServerObj ] 568: cannot set connectionRequestURL yet because no WAN intf is up
[ 11.436000] GMAC1_MAC_ADRH — : 0x0000000c
[ 11.440000] GMAC1_MAC_ADRL — : 0x432880f7
[ 11.444000] Ralink APSoC Ethernet Driver Initilization. v3.1 1024 rx/tx descriptors allocated, mtu = 1500!
[ 11.452000] GMAC1_MAC_ADRH — : 0x0000000c
[ 11.456000] GMAC1_MAC_ADRL — : 0x4328808f
[ 11.464000] PROC INIT OK!
[ 11.476000] 5:FFFFFF86:FFFFFF80:FFFFFFD4:20:FFFFFFC1

[ 11.480000] Raeth v3.1 (Tasklet)
[ 11.488000] set CLK_CFG_0 = 0x40a00020!!!!!!!!!!!!!!!!!!1
[ 11.492000]
[ 11.492000] phy_tx_ring = 0x00cac000, tx_ring = 0xa0cac000
[ 11.516000] phy_free_head is 0xcb0000!!!
[ 11.520000] phy_free_tail_phy is 0xcb7ff0!!!
[ 11.524000] txd_pool=a0cb8000 phy_txd_pool=00CB8000
[ 11.528000] ei_local->free_skb start address is 0x86058454.
[ 11.536000] free_txd: 00cb8010, ei_local->cpu_ptr: 00CB8000
[ 11.540000] POOL HEAD_PTR | DMA_PTR | CPU_PTR
[ 11.544000] —————-+———+———
[ 11.548000] 0xa0cb8000 0x00CB8000 0x00CB8000
[ 11.552000]
[ 11.552000] phy_qrx_ring = 0x00cc0000, qrx_ring = 0xa0cc0000
[ 11.564000]
[ 11.564000] phy_rx_ring0 = 0x00cc4000, rx_ring[0] = 0xa0cc4000
[ 11.592000] MT7530 Reset Completed!!
[ 11.600000] change HW-TRAP to 0x117c8f
[ 11.608000] GMAC1_MAC_ADRH — : 0x000068ff
[ 11.612000] GMAC1_MAC_ADRL — : 0x7b2b37f4
[ 11.616000] GDMA2_MAC_ADRH — : 0x0000000c
[ 11.620000] GDMA2_MAC_ADRL — : 0x432880a8
[ 11.628000] eth1: ===> VirtualIF_open
[ 11.632000] MT7621 GE2 link rate to 1G
[ 11.632000] CDMA_CSG_CFG = 81000000
[ 11.632000] GDMA1_FWD_CFG = 20710000
[ 11.632000] GDMA2_FWD_CFG = 20710000
[ 11.652000] GDMA2_MAC_ADRH — : 0x000068ff
[ 11.656000] GDMA2_MAC_ADRL — : 0x7b2b37f5
[ 11.660000] eth1: ===> VirtualIF_open
ioctl: No such device
ifconfig: ioctl 0x8913 failed: No such device
ifconfig: ioctl 0x8913 failed: No such device
ifconfig: ioctl 0x8913 failed: No such device
ifconfig: ioctl 0x8913 failed: No such device
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
set if eth0.3 to *not wan dev
set if eth0.4 to *not wan dev
set if eth0.5 to *not wan dev
set if eth0.6 to *not wan dev
set if eth1.2 to wan dev
brctl: bridge br0: Invalid argument
[ 11.880000] device eth0.3 entered promiscuous mode
[ 11.888000] device eth0 entered promiscuous mode
[ 11.892000] br0: port 1(eth0.3) entered forwarding state
[ 11.896000] br0: port 1(eth0.3) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
brctl: bridge br0: Invalid argument
[ 11.944000] device eth0.4 entered promiscuous mode
[ 11.952000] br0: port 2(eth0.4) entered forwarding state
[ 11.956000] br0: port 2(eth0.4) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] [ 11.968000] br0: port 2(eth0.4) entered disabled state
1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
brctl: bridge br0: Invalid argument
[ 12.008000] device eth0.5 entered promiscuous mode
[ 12.016000] br0: port 3(eth0.5) entered forwarding state
[ 12.020000] br0: port 3(eth0.5) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnu[ 12.036000] br0: port 3(eth0.5) entered disabled state
sedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
brctl: bridge br0: Invalid argument
[ 12.072000] device eth0.6 entered promiscuous mode
[ 12.080000] br0: port 4(eth0.6) entered forwarding state
[ 12.084000] br0: port 4(eth0.6) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN[ 12.104000] br0: port 4(eth0.6) entered disabled state
TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
Interface doesn’t accept private ioctl…
set (8BE2): Network is down
[ 12.236000] DriverOwn()::Return since already in Driver Own…
[ 12.244000] RtmpOSFileOpen(): Error 2 opening /etc/Wireless/RT2860/RT2860_5G.dat
[ 12.252000] Open file «/etc/Wireless/RT2860/RT2860_5G.dat» failed!
[ 12.260000] E2pAccessMode=2
[ 12.260000] SSID[0]=TP-Link_0969, EdcaIdx=0
[ 12.268000] SSID[1]=TP-Link_0969_0, EdcaIdx=0
[ 12.272000] SSID[2]=TP-Link_0969_1, EdcaIdx=0
[ 12.276000] SSID[3]=TP-Link_0969_2, EdcaIdx=0
[ 12.280000] SSID[4]=TP-Link_0969_3, EdcaIdx=0
[ 12.284000] cfg_mode=9
[ 12.288000] cfg_mode=9
[ 12.288000] wmode_band_equal(): Band Equal!
[ 12.296000] BandSteering=0
[ 12.296000] BndStrgBssIdx=1;0;0;0;0
[ 12.300000] [TxPower] BAND0: 100
[ 12.304000] [PERCENTAGEenable] BAND0: 0
[ 12.308000] APEdca0
[ 12.312000] APEdca1
[ 12.312000] APEdca2
[ 12.316000] APEdca3
[ 12.320000] APSDCapable[0]=0
[ 12.324000] APSDCapable[1]=0
[ 12.328000] APSDCapable[2]=0
[ 12.332000] APSDCapable[3]=0
[ 12.332000] APSDCapable[4]=0
[ 12.336000] APSDCapable[5]=0
[ 12.340000] APSDCapable[6]=0
[ 12.340000] APSDCapable[7]=0
[ 12.344000] APSDCapable[8]=0
[ 12.348000] APSDCapable[9]=0
[ 12.352000] APSDCapable[10]=0
[ 12.352000] APSDCapable[11]=0
[ 12.356000] APSDCapable[12]=0
[ 12.360000] APSDCapable[13]=0
[ 12.364000] APSDCapable[14]=0
[ 12.364000] APSDCapable[15]=0
[ 12.368000] default ApCliAPSDCapable[0]=0
[ 12.372000] default ApCliAPSDCapable[1]=0
[ 12.376000] DfsZeroWait Support=0/0
[ 12.380000] DfsZeroWaitCacTime=255/255
[ 12.400000] AndesSendCmdMsg: Could not send in band command due to diablefRTMP_ADAPTER_MCU_SEND_IN_BAND_CMD
[ 12.412000] HT: WDEV[0] Ext Channel = ABOVE
[ 12.416000] HT: greenap_cap = 0
[ 12.436000] WtcSetMaxStaNum: MaxStaNum:87, BssidNum:5, WdsNum:0, ApcliNum:2, MaxNumChipRept:32, MinMcastWcid:121
[ 12.448000] Top Init Done!
[ 12.452000] Use alloc_skb
[ 12.452000] RX[0] DESC a0c14000 size = 16384
[ 12.460000] RX[1] DESC a0c12000 size = 8192
[ 12.464000] Hif Init Done!
[ 12.468000] ctl->txq = c0506030
[ 12.472000] ctl->rxq = c050603c
[ 12.476000] ctl->ackq = c0506048
[ 12.476000] ctl->kickq = c0506054
[ 12.480000] ctl->tx_doneq = c0506060
[ 12.484000] ctl->rx_doneq = c050606c
[ 12.488000] mt7615_fw_prepare():FW(8a10), HW(8a10), CHIPID(7615))
[ 12.496000] mt7615_fw_prepare(2689): MT7615_E3, USE E3 patch and ram code binary image
[ 12.504000] AndesMTLoadRomMethodFwDlRing(1035), cap->rom_patch_len(11102)
[ 12.508000] AndesRestartCheck: Current TOP_MISC2(0x1)
[ 12.516000] AndesRestartCheck: (TOP_MISC2 = 1), ready to continue…RET(0)
[ 12.520000] 20170809192718a
[ 12.524000]
[ 12.528000] platform =
[ 12.528000] ALPS
[ 12.532000] hw/sw version =
[ 12.532000] 8a108a10
[ 12.536000] patch version =
[ 12.540000] 00000010
[ 12.540000] Patch SEM Status=2
[ 12.544000] MtCmdPatchSemGet:(ret = 0)
[ 12.548000]
[ 12.548000] Patch is not ready && get semaphore success, SemStatus(2)
[ 12.556000] EventGenericEventHandler: CMD Success
[ 12.560000] MtCmdAddressLenReq:(ret = 0)
[ 12.564000] MtCmdPatchFinishReq
[ 12.580000] EventGenericEventHandler: CMD Success
[ 12.584000] Send checksum req..
[ 12.588000] Patch SEM Status=3
[ 12.588000] MtCmdPatchSemGet:(ret = 0)
[ 12.592000]
[ 12.592000] Release patch semaphore, SemStatus(3)
[ 12.600000] AndesMTEraseRomPatch
[ 12.604000] WfMcuHwInit: Before NICLoadFirmware, check IcapMode=0
[ 12.608000] AndesMTLoadFwMethodFwDlRing(809), cap->fw_len(462248)
[ 12.616000] Build Date:_201708190346
[ 12.620000] Build Date:_201708190346
[ 12.624000] AndesRestartCheck: Current TOP_MISC2(0x1)
[ 12.628000] AndesRestartCheck: (TOP_MISC2 = 1), ready to continue…RET(0)
[ 12.636000] EventGenericEventHandler: CMD Success
[ 12.640000] MtCmdAddressLenReq:(ret = 0)
[ 12.648000] EventGenericEventHandler: CMD Success
[ 12.652000] MtCmdAddressLenReq:(ret = 0)
[ 12.656000] MtCmdFwStartReq: override = 1, address = 540672
[ 12.664000] EventGenericEventHandler: CMD Success
[ 12.668000] Build Date:_201707211524
[ 12.672000] EventGenericEventHandler: CMD Success
[ 12.676000] MtCmdAddressLenReq:(ret = 0)
[ 12.680000] MtCmdFwStartReq: override = 4, address = 0
[ 12.740000] EventGenericEventHandler: CMD Success
[ 12.792000] WfMcuHwInit: NICLoadFirmware OK, Check IcapMode=0
[ 12.796000] MCU Init Done!
[ 12.800000] efuse_probe: efuse = 10000212
[ 12.804000] RtmpChipOpsEepromHook::e2p_type=2, inf_Type=5
[ 12.808000] RtmpEepromGetDefault::e2p_dafault=1
[ 12.812000] RtmpChipOpsEepromHook: E2P type(2), E2pAccessMode = 2, E2P default = 1
[ 12.820000] NVM is FLASH mode. dev_idx [0] FLASH OFFSET [0x0]
[ 12.828000] sub mtd radio is map to factory
[ 12.832000] Random write not supported. But We can try reading the whole data out first and then write.
[ 12.840000] read radio success, offset 0x0, size 0x400
[ 12.844000] sub mtd radio is map to factory
[ 12.852000] Random write not supported. But We can try reading the whole data out first and then write.
[ 12.860000] read radio success, offset 0x400, size 0x2400
[ 12.868000] sub mtd radio is map to factory
[ 12.872000] Random write not supported. But We can try reading the whole data out first and then write.
[ 12.884000] read radio success, offset 0x2600, size 0x2400
[ 12.888000] sub mtd radio is map to factory
[ 12.896000] Random write not supported. But We can try reading the whole data out first and then write.
[ 12.908000] read radio success, offset 0x4460, size 0x2400
[ 12.912000] NICReadEEPROMParameters: EEPROM 0x52 b306
[ 12.920000] sub mtd radio is map to factory
[ 12.924000] Random write not supported. But We can try reading the whole data out first and then write.
[ 12.936000] read radio success, offset 0x4da8, size 0x4000
[ 12.944000] MtCmdSetTxLpfCal:(ret = 0)
[ 12.948000] MtCmdSetTxIqCal:(ret = 0)
[ 12.952000] MtCmdSetTxDcCal:(ret = 0)
[ 12.956000] MtCmdSetRxFiCal:(ret = 0)
[ 12.956000] MtCmdSetRxFdCal:(ret = 0)
[ 12.960000] MtCmdSetRxFdCal:(ret = 0)
[ 12.964000] MtCmdSetRxFdCal:(ret = 0)
[ 12.968000] MtCmdSetRxFdCal:(ret = 0)
[ 12.972000] MtCmdSetRxFdCal:(ret = 0)
[ 12.976000] MtCmdSetRxFdCal:(ret = 0)
[ 12.980000] MtCmdSetRxFdCal:(ret = 0)
[ 12.984000] MtCmdSetRxFdCal:(ret = 0)
[ 12.988000] MtCmdSetRxFdCal:(ret = 0)
[ 12.992000] NICReadEEPROMParameters: EEPROM 0x52 b306
[ 13.536000] Country Region from e2p = 101
[ 13.540000] mt7615_antenna_default_reset(): TxPath = 4, RxPath = 4
[ 13.548000] mt7615_antenna_default_reset(): DBDC 2G TxPath = 2, 2G RxPath = 2
[ 13.556000] mt7615_antenna_default_reset(): DBDC 5G TxPath = 2, 2G RxPath = 2
[ 13.560000] rtmp_read_txpwr_from_eeprom(233): Don’t Support this now!
[ 13.568000] RTMPReadTxPwrPerRate(1381): Don’t Support this now!
[ 13.572000] RcRadioInit(): DbdcMode=0, ConcurrentBand=1
[ 13.580000] RcRadioInit(): pRadioCtrl=87763458,Band=0,rfcap=3,channel=1,PhyMode=2 extCha=0xf
[ 13.588000] MtCmdSetDbdcCtrl:(ret = 0)
[ 13.592000] Band Rf: 1, Phy Mode: 2
[ 13.596000] AntCfgInit(2766): Not support for HIF_MT yet!
[ 13.600000] MtSingleSkuLoadParam: RF_LOCKDOWN Feature OFF !!!
[ 13.608000] MtBfBackOffLoadTable: RF_LOCKDOWN Feature OFF !!!
[ 13.612000] EEPROM Init Done!
[ 13.616000] mt_mac_init()—>
[ 13.620000] mt_mac_pse_init(2750): Don’t Support this now!
[ 13.624000] mt7615_init_mac_cr()—>
[ 13.628000] mt7615_init_mac_cr(): TMAC_TRCR0=0x82783c8c
[ 13.632000] mt7615_init_mac_cr(): TMAC_TRCR1=0x82783c8c
[ 13.640000] MtAsicSetMacMaxLen(1300): Not finish Yet!
[ 13.644000] <—mt_mac_init()
[ 13.648000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 13.656000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 13.664000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 13.668000] MAC Init Done!
[ 13.672000] MT7615BBPInit():BBP Initialization…..
[ 13.676000] Band 0: valid=1, isDBDC=0, Band=2, CBW=1, CentCh/PrimCh=1/1, prim_ch_idx=0, txStream=2
[ 13.688000] Band 1: valid=0, isDBDC=0, Band=0, CBW=0, CentCh/PrimCh=0/0, prim_ch_idx=0, txStream=0
[ 13.696000] MT7615BBPInit() todo
[ 13.700000] PHY Init Done!
[ 13.704000] tx_pwr_comp_init():NotSupportYet!
[ 13.708000] MtCmdSetMacTxRx:(ret = 0)
[ 13.712000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 13.720000] ApAutoChannelAtBootUp——————>
[ 13.724000] ApAutoChannelAtBootUp: AutoChannelBootup = 1, AutoChannelFlag = 1
[ 13.732000] MtCmdSetMacTxRx:(ret = 0)
[ 13.736000] mt7615_apply_dcoc() : reload Central CH [2] BW [0] from cetral freq [2417] offset [2200]
[ 13.744000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 13.748000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 13.760000] MtCmdChannelSwitch: control_chl = 2,control_ch2=0, central_chl = 2 DBDCIdx= 0, Band= 0
[ 13.768000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 13.984000] mt7615_apply_dcoc() : reload Central CH [3] BW [0] from cetral freq [2417] offset [2200]
[ 13.992000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 13.996000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 14.004000] MtCmdChannelSwitch: control_chl = 3,control_ch2=0, central_chl = 3 DBDCIdx= 0, Band= 0
[ 14.012000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 14.228000] mt7615_apply_dcoc() : reload Central CH [4] BW [0] from cetral freq [2432] offset [2300]
[ 14.236000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 14.240000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 14.248000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 4 DBDCIdx= 0, Band= 0
[ 14.256000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 14.472000] mt7615_apply_dcoc() : reload Central CH [5] BW [0] from cetral freq [2432] offset [2300]
[ 14.480000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 14.484000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 14.492000] MtCmdChannelSwitch: control_chl = 5,control_ch2=0, central_chl = 5 DBDCIdx= 0, Band= 0
[ 14.500000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 14.716000] mt7615_apply_dcoc() : reload Central CH [6] BW [0] from cetral freq [2432] offset [2300]
[ 14.724000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 14.728000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 14.736000] MtCmdChannelSwitch: control_chl = 6,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 14.744000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 14.960000] mt7615_apply_dcoc() : reload Central CH [7] BW [0] from cetral freq [2447] offset [2400]
[ 14.968000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 14.972000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 14.980000] MtCmdChannelSwitch: control_chl = 7,control_ch2=0, central_chl = 7 DBDCIdx= 0, Band= 0
[ 14.988000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 15.204000] mt7615_apply_dcoc() : reload Central CH [8] BW [0] from cetral freq [2447] offset [2400]
[ 15.212000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 15.216000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 15.224000] MtCmdChannelSwitch: control_chl = 8,control_ch2=0, central_chl = 8 DBDCIdx= 0, Band= 0
[ 15.232000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 15.448000] mt7615_apply_dcoc() : reload Central CH [9] BW [0] from cetral freq [2447] offset [2400]
[ 15.456000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 15.460000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 15.468000] MtCmdChannelSwitch: control_chl = 9,control_ch2=0, central_chl = 9 DBDCIdx= 0, Band= 0
[ 15.476000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 15.692000] mt7615_apply_dcoc() : reload Central CH [10] BW [0] from cetral freq [2467] offset [2500]
[ 15.700000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 15.704000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 15.712000] MtCmdChannelSwitch: control_chl = 10,control_ch2=0, central_chl = 10 DBDCIdx= 0, Band= 0
[ 15.720000] BW = 0,TXStream = 4, RXStream = 4, scan(1)
[ 15.936000] ====================================================================
[ 15.940000] Channel 2 : Busy Time = 5023, Skip Channel = FALSE, BwCap = TRUE
[ 15.948000] Channel 3 : Busy Time = 5336, Skip Channel = FALSE, BwCap = TRUE
[ 15.956000] Channel 4 : Busy Time = 2441, Skip Channel = FALSE, BwCap = TRUE
[ 15.964000] Channel 5 : Busy Time = 3236, Skip Channel = FALSE, BwCap = TRUE
[ 15.972000] Channel 6 : Busy Time = 5993, Skip Channel = FALSE, BwCap = TRUE
[ 15.980000] Channel 7 : Busy Time = 2906, Skip Channel = FALSE, BwCap = TRUE
[ 15.984000] Channel 8 : Busy Time = 3267, Skip Channel = FALSE, BwCap = TRUE
[ 15.992000] Channel 9 : Busy Time = 5927, Skip Channel = FALSE, BwCap = TRUE
[ 16.000000] Channel 10 : Busy Time = 11167, Skip Channel = FALSE, BwCap = TRUE
[ 16.008000] ====================================================================
[ 16.016000] Rule 3 Channel Busy time value : Select Primary Channel 4
[ 16.020000] Rule 3 Channel Busy time value : Min Channel Busy = 2441
[ 16.028000] Rule 3 Channel Busy time value : BW = 20
[ 16.032000] AutoChSelUpdateChannel(): Update channel for wdev0 for this band PhyMode = 14,Channel = 4
[ 16.044000] AutoChSelUpdateChannel(): Update channel for wdev1 for this band PhyMode = 14,Channel = 4
[ 16.052000] AutoChSelUpdateChannel(): Update channel for wdev2 for this band PhyMode = 14,Channel = 4
[ 16.064000] AutoChSelUpdateChannel(): Update channel for wdev3 for this band PhyMode = 14,Channel = 4
[ 16.072000] AutoChSelUpdateChannel(): Update channel for wdev4 for this band PhyMode = 14,Channel = 4
[ 16.084000] ApAutoChannelAtBootUp<——————
[ 16.088000] WifiSysOpen(), wdev idx = 0
[ 16.092000] wdev_attr_update(): wdevId0 = 68:ff:7b:2b:37:f4
[ 16.096000] MtCmdSetDbdcCtrl:(ret = 0)
[ 16.104000] Current Channel is 4. DfsZeroWaitSupport=0
[ 16.108000] MtAsicSetChBusyStat(840): Not support for HIF_MT yet!
[ 16.112000] [PMF]APPMFInit:: apidx=0, MFPC=0, MFPR=0, SHA256=0
[ 16.120000] [PMF]WPAMakeRsnIeCap: RSNIE Capability MFPC=0, MFPR=0
[ 16.124000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.132000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 16.144000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:127 for WDEV_TYPE:1
[ 16.144000] LinkToOmacIdx = 0, LinkToWdevType = 1
[ 16.160000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 0, CmdBssInfoBmcRate.u2McTransmit = 3
[ 16.288000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 16.292000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 16.300000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 16.304000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 16.312000] mt7615_bbp_adjust():rf_bw=1, ext_ch=1, PrimCh=4, HT-CentCh=6, VHT-CentCh=0
[ 16.320000] mt7615_apply_dcoc() : reload Central CH [6] BW [1] from cetral freq [2432] offset [2300]
[ 16.328000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 16.332000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 16.340000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 16.352000] BW = 1,TXStream = 4, RXStream = 4, scan(0)
open DNS error: No such file or directory
[ oal_sys_getOldTZInfo ] 507: Open TZ file error!
[ 16.400000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 6(Prim=4, HT-CentCh=6, VHT-CentCh=0, BBP_BW=1)
[ 16.424000] LeadTimeForBcn, OmacIdx = 0, WDEV_WITH_BCN_ABILITY
[ 16.428000] MtAsicSetRalinkBurstMode(2605): Not support for HIF_MT yet!
[ 16.436000] MtAsicSetPiggyBack(777): Not support for HIF_MT yet!
[ 16.440000] MtAsicSetTxPreamble(2584): Not support for HIF_MT yet!
[ 16.448000] RTMPSetLEDStatus: before AndesLedEnhanceOP , status=1, LED_CMD=2!
[ 16.456000] AndesLedEnhanceOP: Success!
[ 16.460000] Main bssid = 68:ff:7b:2b:37:f4
[ 16.464000] AsicRadioOnOffCtrl(): DbdcIdx=0 RadioOn
[ 16.468000] MtCmdSetMacTxRx:(ret = 0)
[ 16.472000] MCS Set = ff ff ff ff 01
[ 16.476000] <==== mt_wifi_init, Status=0
[ 16.480000] MtCmdEDCCACtrl: BandIdx: 0, EDCCACtrl: 1
[ 16.484000] MtCmdEDCCACtrl: BandIdx: 1, EDCCACtrl: 1
[ 16.508000] wlan_operate_set_vht_bw(): new vht_bw:1 > cap_vht_bw: 0, correct to cap_vht_bw
[ 16.520000] WtcSetMaxStaNum: MaxStaNum:87, BssidNum:5, WdsNum:0, ApcliNum:2, MaxNumChipRept:32, MinMcastWcid:121
[ 16.532000] cp_support_is_enabled: set CR4 CP_SUPPORT to Mode 2.
[ 16.536000] Correct apidx from 0 to 0 for WscUUIDInit
[ 16.540000] Generate UUID for apidx(0)
[ 16.604000] WifiSysOpen(), wdev idx = 1
[ 16.608000] wdev_attr_update(): wdevId1 = 6a:ff:7b:1b:37:f4
[ 16.612000] MtCmdSetDbdcCtrl:(ret = 0)
[ 16.616000] [PMF]APPMFInit:: apidx=1, MFPC=0, MFPR=0, SHA256=0
[ 16.620000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.632000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.640000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 16.648000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:126 for WDEV_TYPE:1
[ 16.648000] LinkToOmacIdx = 11, LinkToWdevType = 1
[ 16.660000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 16.664000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 0, CmdBssInfoBmcRate.u2McTransmit = 3
[ 16.680000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 16.688000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 16.692000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 16.700000] mt7615_bbp_adjust():rf_bw=1, ext_ch=1, PrimCh=4, HT-CentCh=6, VHT-CentCh=0
[ 16.708000] mt7615_apply_dcoc() : reload Central CH [6] BW [1] from cetral freq [2432] offset [2300]
[ 16.716000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 16.720000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 16.728000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 16.740000] BW = 1,TXStream = 4, RXStream = 4, scan(0)
[ 16.756000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 6(Prim=4, HT-CentCh=6, VHT-CentCh=0, BBP_BW=1)
[ 16.780000] LeadTimeForBcn, OmacIdx = 11, WDEV_WITH_BCN_ABILITY
[ 16.788000] Generate UUID for apidx(1)
[ 16.792000] WifiSysOpen(), wdev idx = 2
[ 16.796000] wdev_attr_update(): wdevId2 = 6a:ff:7b:2b:37:f4
wscd: SSDP UDP P[ 16.804000] MtCmdSetDbdcCtrl:(ret = 0)
ORT = 1900[ 16.808000] [PMF]APPMFInit:: apidx=2, MFPC=0, MFPR=0, SHA256=0

[ 16.816000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.824000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.832000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 16.840000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 16.848000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:125 for WDEV_TYPE:1
[ 16.848000] LinkToOmacIdx = 12, LinkToWdevType = 1
[ 16.864000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 16.868000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 0, CmdBssInfoBmcRate.u2McTransmit = 3
[ 16.884000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 16.888000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 16.896000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 16.900000] mt7615_bbp_adjust():rf_bw=1, ext_ch=1, PrimCh=4, HT-CentCh=6, VHT-CentCh=0
[ 16.908000] mt7615_apply_dcoc() : reload Central CH [6] BW [1] from cetral freq [2432] offset [2300]
[ 16.920000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 16.924000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 16.932000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 16.940000] BW = 1,TXStream = 4, RXStream = 4, scan(0)
[ 16.960000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 6(Prim=4, HT-CentCh=6, VHT-CentCh=0, BBP_BW=1)
[ 16.984000] LeadTimeForBcn, OmacIdx = 12, WDEV_WITH_BCN_ABILITY
[ 16.988000] Generate UUID for apidx(2)
[ 16.996000] WifiSysOpen(), wdev idx = 3
[ 17.000000] wdev_attr_update(): wdevId3 = 6a:ff:7b:3b:37:f4
[ 17.008000] MtCmdSetDbdcCtrl:(ret = 0)
[ 17.012000] [PMF]APPMFInit:: apidx=3, MFPC=0, MFPR=0, SHA256=0
[ 17.016000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.024000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.032000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.044000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.052000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 17.060000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:124 for WDEV_TYPE:1
[ 17.060000] LinkToOmacIdx = 13, LinkToWdevType = 1
[ 17.072000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 17.076000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 0, CmdBssInfoBmcRate.u2McTransmit = 3
[ 17.092000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 17.100000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 17.104000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 17.112000] mt7615_bbp_adjust():rf_bw=1, ext_ch=1, PrimCh=4, HT-CentCh=6, VHT-CentCh=0
[ 17.120000] mt7615_apply_dcoc() : reload Central CH [6] BW [1] from cetral freq [2432] offset [2300]
[ 17.128000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 17.132000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 17.140000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 17.152000] BW = 1,TXStream = 4, RXStream = 4, scan(0)
[ 17.168000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 6(Prim=4, HT-CentCh=6, VHT-CentCh=0, BBP_BW=1)
[ 17.192000] LeadTimeForBcn, OmacIdx = 13, WDEV_WITH_BCN_ABILITY
[ 17.200000] Generate UUID for apidx(3)
[ 17.204000] WifiSysOpen(), wdev idx = 4
[ 17.208000] wdev_attr_update(): wdevId4 = 6a:ff:7b:4b:37:f4
[ 17.216000] MtCmdSetDbdcCtrl:(ret = 0)
[ 17.220000] [PMF]APPMFInit:: apidx=4, MFPC=0, MFPR=0, SHA256=0
[ 17.224000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.236000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.244000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.252000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.260000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:14,Channel=4
[ 17.268000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=14/14, support 13 channels
[ 17.276000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:123 for WDEV_TYPE:1
[ 17.276000] LinkToOmacIdx = 14, LinkToWdevType = 1
[ 17.288000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 17.292000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 0, CmdBssInfoBmcRate.u2McTransmit = 3
[ 17.308000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 17.316000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 17.324000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 17.328000] mt7615_bbp_adjust():rf_bw=1, ext_ch=1, PrimCh=4, HT-CentCh=6, VHT-CentCh=0
[ 17.336000] mt7615_apply_dcoc() : reload Central CH [6] BW [1] from cetral freq [2432] offset [2300]
[ 17.344000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 17.348000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 17.360000] MtCmdChannelSwitch: control_chl = 4,control_ch2=0, central_chl = 6 DBDCIdx= 0, Band= 0
[ 17.368000] BW = 1,TXStream = 4, RXStream = 4, scan(0)
[ 17.384000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 6(Prim=4, HT-CentCh=6, VHT-CentCh=0, BBP_BW=1)
[ 17.408000] LeadTimeForBcn, OmacIdx = 14, WDEV_WITH_BCN_ABILITY
[ 17.416000] :MtCmdPktBudgetCtrl: bssid(255),wcid(65535),type(0)
[ 17.416000] Generate UUID for apidx(4)
[ 17.428000] WifiSysClose(), wdev idx = 1
[ 17.432000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:1b:37:f4), Reason 0x10
[ 17.432000] Beacon lost — AP disabled!!!
[ 17.436000] WifiSysGetBssInfoState(): BssInfoIdx 1 not found!!!
[ 17.436000] WifiSysUpdateBssInfoState(): BssInfoIdx 1 not found!!!
[ 17.464000] BndStrg is already Disable
[ 17.472000] WifiSysClose(), wdev idx = 2
[ 17.472000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:2b:37:f4), Reason 0x10
[ 17.472000] Beacon lost — AP disabled!!!
[ 17.480000] WifiSysGetBssInfoState(): BssInfoIdx 2 not found!!!
[ 17.480000] WifiSysUpdateBssInfoState(): BssInfoIdx 2 not found!!!

[ 17.504000] BndStrg is already Disable
[ 17.504000] WifiSysClose(), wdev idx = 3
[ 17.516000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:3b:37:f4), Reason 0x10
[ 17.516000] Beacon lost — AP disabled!!!
[ 17.524000] WifiSysGetBssInfoState(): BssInfoIdx 3 not found!!!
[ 17.524000] WifiSysUpdateBssInfoState(): BssInfoIdx 3 not found!!!
[ 17.548000] BndStrg is already Disable
[ 17.556000] WifiSysClose(), wdev idx = 4
[ 17.556000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:4b:37:f4), Reason 0x10
[ 17.556000] Beacon lost — AP disabled!!!
[ 17.564000] WifiSysGetBssInfoState(): BssInfoIdx 4 not found!!!
[ 17.564000] WifiSysUpdateBssInfoState(): BssInfoIdx 4 not found!!!

[ 17.592000] BndStrg is already Disable
[ 17.592000] [ 17.600000] device ra0 entered promiscuous mode
[ 17.604000] br0: port 5(ra0) entered forwarding state
[ 17.608000] br0: port 5(ra0) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
[ 17.652000] device apcli0 entered promiscuous mode
[ 17.660000] device ra2 entered promiscuous mode
[ 17.668000] device ra3 entered promiscuous mode
[ 17.676000] device ra4 entered promiscuous mode
[ wlan_handleL2Desc ] 1089: br0
[ 17.684000] device ra1 entered promiscuous mode
[ 17.696000] is_cali: 1
sh: wlNetlinkTool: not found
wscd: SSDP UDP PORT = 1900
Interface doesn’t accept private ioctl…
set (8BE2): Network is down
[ 17.748000] DriverOwn()::Return since already in Driver Own…
[ 17.760000] RtmpOSFileOpen(): Error 2 opening /etc/Wireless/iNIC/iNIC_ap_5G.dat
[ 17.768000] Open file «/etc/Wireless/iNIC/iNIC_ap_5G.dat» failed!
[ 17.772000] E2pAccessMode=2
[ 17.776000] SSID[0]=TP-Link_0969_5G, EdcaIdx=0
[ 17.780000] SSID[1]=TP-Link_0969_5G_0, EdcaIdx=0
[ 17.784000] SSID[2]=TP-Link_0969_5G_1, EdcaIdx=0
[ 17.792000] SSID[3]=TP-Link_0969_5G_2, EdcaIdx=0
[ 17.796000] SSID[4]=TP-Link_0969_5G_3, EdcaIdx=0
[ 17.800000] cfg_mode=14
[ 17.804000] cfg_mode=14
[ 17.804000] wmode_band_equal(): Band Equal!
[ 17.808000] BandSteering=0
[ 17.812000] BndStrgBssIdx=1;0;0;0;0
[ 17.816000] [TxPower] BAND0: 100
[ 17.820000] [PERCENTAGEenable] BAND0: 0
[ 17.824000] APEdca0
[ 17.828000] APEdca1
[ 17.828000] APEdca2
[ 17.832000] APEdca3
[ 17.836000] APSDCapable[0]=0
[ 17.840000] APSDCapable[1]=0
[ 17.844000] APSDCapable[2]=0
[ 17.848000] APSDCapable[3]=0
[ 17.848000] APSDCapable[4]=0
[ 17.852000] APSDCapable[5]=0
[ 17.856000] APSDCapable[6]=0
[ 17.856000] APSDCapable[7]=0
[ 17.860000] APSDCapable[8]=0
[ 17.864000] APSDCapable[9]=0
[ 17.868000] APSDCapable[10]=0
[ 17.868000] APSDCapable[11]=0
[ 17.872000] APSDCapable[12]=0
[ 17.876000] APSDCapable[13]=0
[ 17.880000] APSDCapable[14]=0
[ 17.880000] APSDCapable[15]=0
[ 17.884000] default ApCliAPSDCapable[0]=0
[ 17.888000] default ApCliAPSDCapable[1]=0
[ 17.892000] DfsZeroWait Support=0/0
[ 17.896000] DfsZeroWaitCacTime=255/255
[ 17.916000] AndesSendCmdMsg: Could not send in band command due to diablefRTMP_ADAPTER_MCU_SEND_IN_BAND_CMD
[ 17.928000] HT: WDEV[0] Ext Channel = BELOW
[ 17.932000] HT: greenap_cap = 0
[ 17.952000] WtcSetMaxStaNum: MaxStaNum:87, BssidNum:5, WdsNum:0, ApcliNum:2, MaxNumChipRept:32, MinMcastWcid:121
[ 17.964000] Top Init Done!
[ 17.968000] Use alloc_skb
[ 17.968000] RX[0] DESC a0ca4000 size = 16384
[ 17.976000] RX[1] DESC a0ca2000 size = 8192
[ 17.980000] Hif Init Done!
[ 17.984000] ctl->txq = c0a06030
[ 17.988000] ctl->rxq = c0a0603c
[ 17.992000] ctl->ackq = c0a06048
[ 17.992000] ctl->kickq = c0a06054
[ 17.996000] ctl->tx_doneq = c0a06060
[ 18.000000] ctl->rx_doneq = c0a0606c
[ 18.004000] mt7615_fw_prepare():FW(8a10), HW(8a10), CHIPID(7615))
[ 18.012000] mt7615_fw_prepare(2689): MT7615_E3, USE E3 patch and ram code binary image
[ 18.020000] AndesMTLoadRomMethodFwDlRing(1035), cap->rom_patch_len(11102)
[ 18.024000] AndesRestartCheck: Current TOP_MISC2(0x1)
[ 18.032000] AndesRestartCheck: (TOP_MISC2 = 1), ready to continue…RET(0)
[ 18.036000] 20170809192718a
[ 18.040000]
[ 18.044000] platform =
[ 18.044000] ALPS
[ 18.048000] hw/sw version =
[ 18.048000] 8a108a10
[ 18.052000] patch version =
[ 18.056000] 00000010
[ 18.056000] Patch SEM Status=2
[ 18.060000] MtCmdPatchSemGet:(ret = 0)
[ 18.064000]
[ 18.064000] Patch is not ready && get semaphore success, SemStatus(2)
[ 18.072000] EventGenericEventHandler: CMD Success
[ 18.076000] MtCmdAddressLenReq:(ret = 0)
[ 18.080000] MtCmdPatchFinishReq
[ 18.096000] EventGenericEventHandler: CMD Success
[ 18.100000] Send checksum req..
[ 18.104000] Patch SEM Status=3
[ 18.104000] MtCmdPatchSemGet:(ret = 0)
[ 18.108000]
[ 18.108000] Release patch semaphore, SemStatus(3)
[ 18.116000] AndesMTEraseRomPatch
[ 18.120000] WfMcuHwInit: Before NICLoadFirmware, check IcapMode=0
[ 18.124000] AndesMTLoadFwMethodFwDlRing(809), cap->fw_len(462248)
[ 18.132000] Build Date:_201708190346
[ 18.136000] Build Date:_201708190346
[ 18.140000] AndesRestartCheck: Current TOP_MISC2(0x1)
[ 18.144000] AndesRestartCheck: (TOP_MISC2 = 1), ready to continue…RET(0)
[ 18.152000] EventGenericEventHandler: CMD Success
[ 18.156000] MtCmdAddressLenReq:(ret = 0)
[ 18.164000] EventGenericEventHandler: CMD Success
[ 18.168000] MtCmdAddressLenReq:(ret = 0)
[ 18.172000] MtCmdFwStartReq: override = 1, address = 540672
[ 18.180000] EventGenericEventHandler: CMD Success
[ 18.184000] Build Date:_201707211524
[ 18.188000] EventGenericEventHandler: CMD Success
[ 18.192000] MtCmdAddressLenReq:(ret = 0)
[ 18.196000] MtCmdFwStartReq: override = 4, address = 0
[ 18.256000] EventGenericEventHandler: CMD Success
[ 18.308000] WfMcuHwInit: NICLoadFirmware OK, Check IcapMode=0
[ 18.312000] MCU Init Done!
[ 18.316000] efuse_probe: efuse = 10000212
[ 18.320000] RtmpChipOpsEepromHook::e2p_type=2, inf_Type=5
[ 18.324000] RtmpEepromGetDefault::e2p_dafault=1
[ 18.328000] RtmpChipOpsEepromHook: E2P type(2), E2pAccessMode = 2, E2P default = 1
[ 18.336000] NVM is FLASH mode. dev_idx [1] FLASH OFFSET [0xC000]
[ 18.344000] sub mtd radio is map to factory
[ 18.348000] Random write not supported. But We can try reading the whole data out first and then write.
[ 18.356000] read radio success, offset 0xc000, size 0x400
[ 18.364000] sub mtd radio is map to factory
[ 18.368000] Random write not supported. But We can try reading the whole data out first and then write.
[ 18.380000] read radio success, offset 0xc400, size 0x2400
[ 18.384000] sub mtd radio is map to factory
[ 18.388000] Random write not supported. But We can try reading the whole data out first and then write.
[ 18.400000] read radio success, offset 0xe600, size 0x2400
[ 18.408000] sub mtd radio is map to factory
[ 18.412000] Random write not supported. But We can try reading the whole data out first and then write.
[ 18.424000] read radio success, offset 0x10460, size 0x2400
[ 18.428000] NICReadEEPROMParameters: EEPROM 0x52 b306
[ 18.436000] sub mtd radio is map to factory
[ 18.440000] Random write not supported. But We can try reading the whole data out first and then write.
[ 18.456000] read radio success, offset 0x10da8, size 0x4000
[ 18.460000] MtCmdSetTxLpfCal:(ret = 0)
[ 18.464000] MtCmdSetTxIqCal:(ret = 0)
[ 18.468000] MtCmdSetTxDcCal:(ret = 0)
[ 18.472000] MtCmdSetRxFiCal:(ret = 0)
[ 18.476000] MtCmdSetRxFdCal:(ret = 0)
[ 18.480000] MtCmdSetRxFdCal:(ret = 0)
[ 18.484000] MtCmdSetRxFdCal:(ret = 0)
[ 18.488000] MtCmdSetRxFdCal:(ret = 0)
[ 18.492000] MtCmdSetRxFdCal:(ret = 0)
[ 18.492000] MtCmdSetRxFdCal:(ret = 0)
[ 18.496000] MtCmdSetRxFdCal:(ret = 0)
[ 18.500000] MtCmdSetRxFdCal:(ret = 0)
[ 18.504000] MtCmdSetRxFdCal:(ret = 0)
[ 18.508000] NICReadEEPROMParameters: EEPROM 0x52 b306
[ 19.056000] Country Region from e2p = 101
[ 19.060000] mt7615_antenna_default_reset(): TxPath = 4, RxPath = 4
[ 19.064000] mt7615_antenna_default_reset(): DBDC 2G TxPath = 2, 2G RxPath = 2
[ 19.072000] mt7615_antenna_default_reset(): DBDC 5G TxPath = 2, 2G RxPath = 2
[ 19.080000] rtmp_read_txpwr_from_eeprom(233): Don’t Support this now!
[ 19.088000] RTMPReadTxPwrPerRate(1381): Don’t Support this now!
[ 19.092000] RcRadioInit(): DbdcMode=0, ConcurrentBand=1
[ 19.096000] RcRadioInit(): pRadioCtrl=86cc3458,Band=0,rfcap=3,channel=1,PhyMode=2 extCha=0xf
[ 19.104000] MtCmdSetDbdcCtrl:(ret = 0)
[ 19.108000] Band Rf: 1, Phy Mode: 2
[ 19.112000] AntCfgInit(2766): Not support for HIF_MT yet!
[ 19.120000] MtSingleSkuLoadParam: RF_LOCKDOWN Feature OFF !!!
[ 19.124000] MtBfBackOffLoadTable: RF_LOCKDOWN Feature OFF !!!
[ 19.132000] EEPROM Init Done!
[ 19.136000] mt_mac_init()—>
[ 19.136000] mt_mac_pse_init(2750): Don’t Support this now!
[ 19.144000] mt7615_init_mac_cr()—>
[ 19.144000] mt7615_init_mac_cr(): TMAC_TRCR0=0x82783c8c
[ 19.152000] mt7615_init_mac_cr(): TMAC_TRCR1=0x82783c8c
[ 19.156000] MtAsicSetMacMaxLen(1300): Not finish Yet!
[ 19.160000] <—mt_mac_init()
[ 19.164000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 19.172000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 19.176000] CmdRxHdrTransBLUpdateRsp::EventExtCmdResult.u4Status = 0x0
[ 19.184000] MAC Init Done!
[ 19.188000] MT7615BBPInit():BBP Initialization…..
[ 19.192000] Band 0: valid=1, isDBDC=0, Band=2, CBW=1, CentCh/PrimCh=1/1, prim_ch_idx=0, txStream=2
[ 19.200000] Band 1: valid=0, isDBDC=0, Band=0, CBW=0, CentCh/PrimCh=0/0, prim_ch_idx=0, txStream=0
[ 19.208000] MT7615BBPInit() todo
[ 19.212000] PHY Init Done!
[ 19.216000] tx_pwr_comp_init():NotSupportYet!
[ 19.224000] MtCmdSetMacTxRx:(ret = 0)
[ 19.228000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 19.236000] ApAutoChannelAtBootUp——————>
[ 19.240000] ApAutoChannelAtBootUp: AutoChannelBootup = 1, AutoChannelFlag = 1
[ 19.248000] MtCmdSetMacTxRx:(ret = 0)
[ 19.252000] mt7615_apply_dcoc() : reload Central CH [42] BW [2] from cetral freq [5210] offset [1900]
[ 19.260000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 19.264000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 19.272000] MtCmdChannelSwitch: control_chl = 36,control_ch2=0, central_chl = 42 DBDCIdx= 0, Band= 0
[ 19.284000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 19.496000] mt7615_apply_dcoc() : reload Central CH [42] BW [2] from cetral freq [5210] offset [1900]
[ 19.504000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 19.508000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 19.516000] MtCmdChannelSwitch: control_chl = 40,control_ch2=0, central_chl = 42 DBDCIdx= 0, Band= 0
[ 19.524000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 19.740000] mt7615_apply_dcoc() : reload Central CH [42] BW [2] from cetral freq [5210] offset [1900]
[ 19.748000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 19.752000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 19.760000] MtCmdChannelSwitch: control_chl = 44,control_ch2=0, central_chl = 42 DBDCIdx= 0, Band= 0
[ 19.768000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 19.984000] mt7615_apply_dcoc() : reload Central CH [42] BW [2] from cetral freq [5210] offset [1900]
[ 19.992000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 19.996000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 20.004000] MtCmdChannelSwitch: control_chl = 48,control_ch2=0, central_chl = 42 DBDCIdx= 0, Band= 0
[ 20.012000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 20.228000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 20.236000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 20.240000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 20.248000] MtCmdChannelSwitch: control_chl = 149,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 20.256000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 20.472000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 20.480000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 20.484000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 20.492000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 20.500000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 20.716000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 20.724000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 20.728000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 20.736000] MtCmdChannelSwitch: control_chl = 157,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 20.744000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 20.960000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 20.968000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 20.972000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 20.980000] MtCmdChannelSwitch: control_chl = 161,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 20.988000] BW = 2,TXStream = 4, RXStream = 4, scan(1)
[ 21.204000] ====================================================================
[ 21.208000] Channel 36 : Busy Time = 271, Skip Channel = FALSE, BwCap = TRUE
[ 21.216000] Channel 40 : Busy Time = 12, Skip Channel = FALSE, BwCap = TRUE
[ 21.224000] Channel 44 : Busy Time = 109, Skip Channel = FALSE, BwCap = TRUE
[ 21.232000] Channel 48 : Busy Time = 513, Skip Channel = FALSE, BwCap = TRUE
[ 21.240000] Channel 149 : Busy Time = 361, Skip Channel = FALSE, BwCap = TRUE
[ 21.248000] Channel 153 : Busy Time = 0, Skip Channel = FALSE, BwCap = TRUE
[ 21.252000] Channel 157 : Busy Time = 0, Skip Channel = FALSE, BwCap = TRUE
[ 21.260000] Channel 161 : Busy Time = 0, Skip Channel = FALSE, BwCap = TRUE
[ 21.268000] ====================================================================
[ 21.276000] Rule 3 Channel Busy time value : Select Primary Channel 153
[ 21.284000] Rule 3 Channel Busy time value : Min Channel Busy = 361
[ 21.288000] Rule 3 Channel Busy time value : BW = 80
[ 21.292000] AutoChSelUpdateChannel(): Update channel for wdev0 for this band PhyMode = 49,Channel = 153
[ 21.304000] AutoChSelUpdateChannel(): Update channel for wdev1 for this band PhyMode = 49,Channel = 153
[ 21.316000] AutoChSelUpdateChannel(): Update channel for wdev2 for this band PhyMode = 49,Channel = 153
[ 21.324000] AutoChSelUpdateChannel(): Update channel for wdev3 for this band PhyMode = 49,Channel = 153
[ 21.336000] AutoChSelUpdateChannel(): Update channel for wdev4 for this band PhyMode = 49,Channel = 153
[ 21.344000] ApAutoChannelAtBootUp<——————
[ 21.352000] WifiSysOpen(), wdev idx = 0
[ 21.356000] wdev_attr_update(): wdevId0 = 68:ff:7b:2b:37:f6
[ 21.360000] MtCmdSetDbdcCtrl:(ret = 0)
[ 21.364000] Current Channel is 153. DfsZeroWaitSupport=0
[ 21.368000] MtAsicSetChBusyStat(840): Not support for HIF_MT yet!
[ 21.376000] [PMF]APPMFInit:: apidx=0, MFPC=0, MFPR=0, SHA256=0
[ 21.380000] [PMF]WPAMakeRsnIeCap: RSNIE Capability MFPC=0, MFPR=0
[ 21.388000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 21.396000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 21.404000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:127 for WDEV_TYPE:1
[ 21.404000] LinkToOmacIdx = 0, LinkToWdevType = 1
[ 21.420000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 8192, CmdBssInfoBmcRate.u2McTransmit = 8196
[ 21.548000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 21.556000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 21.560000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 21.568000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 21.572000] mt7615_bbp_adjust():rf_bw=2, ext_ch=3, PrimCh=153, HT-CentCh=151, VHT-CentCh=155
[ 21.580000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 21.592000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 21.596000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 21.604000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 21.612000] BW = 2,TXStream = 4, RXStream = 4, scan(0)
[ 21.636000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 155(Prim=153, HT-CentCh=151, VHT-CentCh=155, BBP_BW=2)
[ 21.660000] [WrapDfsRadarDetectStart]: Band0Ch is 153
[ 21.664000] [WrapDfsRadarDetectStart]: Band1Ch is 0
[ 21.672000] LeadTimeForBcn, OmacIdx = 0, WDEV_WITH_BCN_ABILITY
[ 21.676000] MtAsicSetRalinkBurstMode(2605): Not support for HIF_MT yet!
[ 21.684000] MtAsicSetPiggyBack(777): Not support for HIF_MT yet!
[ 21.688000] MtAsicSetTxPreamble(2584): Not support for HIF_MT yet!
[ 21.696000] RTMPSetLEDStatus: before AndesLedEnhanceOP , status=1, LED_CMD=2!
[ 21.704000] AndesLedEnhanceOP: Success!
[ 21.708000] Main bssid = 68:ff:7b:2b:37:f6
[ 21.712000] AsicRadioOnOffCtrl(): DbdcIdx=0 RadioOn
[ 21.716000] MtCmdSetMacTxRx:(ret = 0)
[ 21.720000] MCS Set = ff ff ff ff 01
[ 21.724000] <==== mt_wifi_init, Status=0
[ 21.728000] MtCmdEDCCACtrl: BandIdx: 0, EDCCACtrl: 1
[ 21.732000] MtCmdEDCCACtrl: BandIdx: 1, EDCCACtrl: 1
[ 21.764000] WtcSetMaxStaNum: MaxStaNum:87, BssidNum:5, WdsNum:0, ApcliNum:2, MaxNumChipRept:32, MinMcastWcid:121
[ 21.772000] cp_support_is_enabled: set CR4 CP_SUPPORT to Mode 2.
[ 21.780000] Correct apidx from 0 to 0 for WscUUIDInit
[ 21.784000] Generate UUID for apidx(0)
wscd: SSDP UDP PORT = 1900
[ 21.836000] WifiSysOpen(), wdev idx = 1
[ 21.840000] wdev_attr_update(): wdevId1 = 6a:ff:7b:1b:37:f6
[ 21.844000] MtCmdSetDbdcCtrl:(ret = 0)
[ 21.848000] [PMF]APPMFInit:: apidx=1, MFPC=0, MFPR=0, SHA256=0
[ 21.856000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 21.864000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 21.872000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 21.880000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:126 for WDEV_TYPE:1
[ 21.880000] LinkToOmacIdx = 11, LinkToWdevType = 1
[ 21.896000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 21.900000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 8192, CmdBssInfoBmcRate.u2McTransmit = 8196
[ 21.916000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 21.920000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 21.928000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 21.932000] mt7615_bbp_adjust():rf_bw=2, ext_ch=3, PrimCh=153, HT-CentCh=151, VHT-CentCh=155
[ 21.940000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 21.952000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 21.956000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 21.964000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 21.972000] BW = 2,TXStream = 4, RXStream = 4, scan(0)
[ 21.992000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 155(Prim=153, HT-CentCh=151, VHT-CentCh=155, BBP_BW=2)
[ 22.016000] [WrapDfsRadarDetectStart]: Band0Ch is 153
[ 22.020000] [WrapDfsRadarDetectStart]: Band1Ch is 0
[ 22.028000] LeadTimeForBcn, OmacIdx = 11, WDEV_WITH_BCN_ABILITY
[ 22.032000] Generate UUID for apidx(1)
[ 22.040000] WifiSysOpen(), wdev idx = 2
[ 22.044000] wdev_attr_update(): wdevId2 = 6a:ff:7b:2b:37:f6
[ 22.048000] MtCmdSetDbdcCtrl:(ret = 0)
[ 22.052000] [PMF]APPMFInit:: apidx=2, MFPC=0, MFPR=0, SHA256=0
[ 22.060000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.068000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.076000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.084000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 22.096000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:125 for WDEV_TYPE:1
[ 22.096000] LinkToOmacIdx = 12, LinkToWdevType = 1
[ 22.108000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 22.112000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 8192, CmdBssInfoBmcRate.u2McTransmit = 8196
[ 22.128000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 22.136000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 22.140000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 22.148000] mt7615_bbp_adjust():rf_bw=2, ext_ch=3, PrimCh=153, HT-CentCh=151, VHT-CentCh=155
[ 22.156000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 22.164000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 22.168000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 22.176000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 22.188000] BW = 2,TXStream = 4, RXStream = 4, scan(0)
[ 22.204000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 155(Prim=153, HT-CentCh=151, VHT-CentCh=155, BBP_BW=2)
[ 22.228000] [WrapDfsRadarDetectStart]: Band0Ch is 153
[ 22.236000] [WrapDfsRadarDetectStart]: Band1Ch is 0
[ 22.240000] LeadTimeForBcn, OmacIdx = 12, WDEV_WITH_BCN_ABILITY
[ 22.244000] Generate UUID for apidx(2)
[ 22.252000] WifiSysOpen(), wdev idx = 3
[ 22.256000] wdev_attr_update(): wdevId3 = 6a:ff:7b:3b:37:f6
[ 22.264000] MtCmdSetDbdcCtrl:(ret = 0)
[ 22.268000] [PMF]APPMFInit:: apidx=3, MFPC=0, MFPR=0, SHA256=0
[ 22.272000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.280000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.292000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.300000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.308000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 22.316000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:124 for WDEV_TYPE:1
[ 22.316000] LinkToOmacIdx = 13, LinkToWdevType = 1
[ 22.328000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 22.332000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 8192, CmdBssInfoBmcRate.u2McTransmit = 8196
[ 22.348000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 22.356000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 22.364000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 22.368000] mt7615_bbp_adjust():rf_bw=2, ext_ch=3, PrimCh=153, HT-CentCh=151, VHT-CentCh=155
[ 22.376000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 22.388000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 22.392000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 22.400000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 22.408000] BW = 2,TXStream = 4, RXStream = 4, scan(0)
[ 22.428000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 155(Prim=153, HT-CentCh=151, VHT-CentCh=155, BBP_BW=2)
[ 22.452000] [WrapDfsRadarDetectStart]: Band0Ch is 153
[ 22.456000] [WrapDfsRadarDetectStart]: Band1Ch is 0
[ 22.460000] LeadTimeForBcn, OmacIdx = 13, WDEV_WITH_BCN_ABILITY
[ 22.468000] Generate UUID for apidx(3)
[ 22.476000] WifiSysOpen(), wdev idx = 4
[ 22.480000] wdev_attr_update(): wdevId4 = 6a:ff:7b:4b:37:f6
[ 22.484000] MtCmdSetDbdcCtrl:(ret = 0)
[ 22.488000] [PMF]APPMFInit:: apidx=4, MFPC=0, MFPR=0, SHA256=0
[ 22.496000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.504000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.512000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.520000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.528000] HcUpdatePhyMode(): Update PhyMode for all wdev for this band PhyMode:49,Channel=153
[ 22.540000] CountryCode(2.4G/5G)=1/7, RFIC=25, PHY mode(2.4G/5G)=49/49, support 24 channels
[ 22.548000] wtc_acquire_groupkey_wcid: Found a non-occupied wtbl_idx:123 for WDEV_TYPE:1
[ 22.548000] LinkToOmacIdx = 14, LinkToWdevType = 1
[ 22.560000] [RadarStateCheck]Set into RD_NORMAL_MODE
[ 22.564000] bssUpdateBmcMngRate (BSS_INFO_BROADCAST_INFO), CmdBssInfoBmcRate.u2BcTransmit= 8192, CmdBssInfoBmcRate.u2McTransmit = 8196
[ 22.580000] MtCmdTxPowerSKUCtrl: fgTxPowerSKUEn: 1, BandIdx: 0
[ 22.588000] MtCmdTxPowerPercentCtrl: fgTxPowerPercentEn: 0, BandIdx: 0
[ 22.592000] MtCmdTxBfBackoffCtrl: fgTxBFBackoffEn: 0, BandIdx: 0
[ 22.600000] mt7615_bbp_adjust():rf_bw=2, ext_ch=3, PrimCh=153, HT-CentCh=151, VHT-CentCh=155
[ 22.608000] mt7615_apply_dcoc() : reload Central CH [155] BW [2] from cetral freq [5775] offset [2000]
[ 22.616000] MtCmdGetRXDCOCCalResult:(ret = 0)
[ 22.620000] mt7615_apply_cal_data() : eeprom 0x52 bit 0 is 0, do runtime cal , skip TX reload
[ 22.628000] MtCmdChannelSwitch: control_chl = 153,control_ch2=0, central_chl = 155 DBDCIdx= 0, Band= 0
[ 22.640000] BW = 2,TXStream = 4, RXStream = 4, scan(0)
[ 22.644000] :MtCmdPktBudgetCtrl: bssid(255),wcid(65535),type(0)
[ 22.660000] ap_phy_rrm_init_byRf(): AP Set CentralFreq at 155(Prim=153, HT-CentCh=151, VHT-CentCh=155, BBP_BW=2)
[ 22.684000] [WrapDfsRadarDetectStart]: Band0Ch is 153
[ 22.688000] [WrapDfsRadarDetectStart]: Band1Ch is 0
[ 22.692000] LeadTimeForBcn, OmacIdx = 14, WDEV_WITH_BCN_ABILITY
[ 22.700000] Generate UUID for apidx(4)
[ 22.708000] WifiSysClose(), wdev idx = 1
[ 22.708000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:1b:37:f6), Reason 0x10
[ 22.708000] Beacon lost — AP disabled!!!
[ 22.712000] WifiSysGetBssInfoState(): BssInfoIdx 1 not found!!!
[ 22.712000] WifiSysUpdateBssInfoState(): BssInfoIdx 1 not found!!!
[ 22.740000] BndStrg is already Disable
[ 22.748000] WifiSysClose(), wdev idx = 2
[ 22.748000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:2b:37:f6), Reason 0x10
[ 22.748000] Beacon lost — AP disabled!!!
[ 22.756000] WifiSysGetBssInfoState(): BssInfoIdx 2 not found!!!
[ 22.756000] WifiSysUpdateBssInfoState(): BssInfoIdx 2 not found!!!

[ 22.784000] BndStrg is already Disable
[ 22.784000] WifiSysClose(), wdev idx = 3
[ 22.792000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:3b:37:f6), Reason 0x10
[ 22.792000] Beacon lost — AP disabled!!!
[ 22.800000] WifiSysGetBssInfoState(): BssInfoIdx 3 not found!!!
[ 22.800000] WifiSysUpdateBssInfoState(): BssInfoIdx 3 not found!!!
[ 22.824000] BndStrg is already Disable
[ 22.832000] WifiSysClose(), wdev idx = 4
[ 22.832000] ExtEventBeaconLostHandler::FW LOG, Beacon lost (6a:ff:7b:4b:37:f6), Reason 0x10
[ 22.832000] Beacon lost — AP disabled!!!
[ 22.840000] WifiSysGetBssInfoState(): BssInfoIdx 4 not found!!!
[ 22.840000] WifiSysUpdateBssInfoState(): BssInfoIdx 4 not found!!!

[ 22.868000] BndStrg is already Disable
[ 22.868000] [ 22.876000] device rai0 entered promiscuous mode
[ 22.880000] br0: port 11(rai0) entered forwarding state
[ 22.888000] br0: port 11(rai0) entered forwarding state
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
[ 22.928000] device apclii0 entered promiscuous mode
[ 22.936000] device rai2 entered promiscuous mode
[ 22.944000] device rai3 entered promiscuous mode
[ 22.952000] device rai4 entered promiscuous mode
[ wlan_handleL2Desc ] 1089: br0
[ 22.960000] device rai1 entered promiscuous mode
sh: wlNetlinkTool:[ 22.972000] is_cali: 1
not found
wscd: SSDP UDP PORT = 1900
sendto: No such file or directory
pid 881 send 2030 error
set offset 214 as 0 for sch rate control.
set offset 214 as 0 for sch rate control.
sch
set offset 4 as 0 for sch selection.
rate
set offset 4 as 8000000 for rate control.
weight
set offset 4 as 8000000 for max rate weight.
sch
set offset 14 as 0 for sch selection.
sh: can’t create /proc/sys/kernel/core_pattern: nonexistent directory
rate
set offset 14 as 8000000 for rate control.
weight
set offset 14 as 8000000 for max rate weight.
sch
set offset 24 as 0 for sch selection.
rate
set offset 24 as 8000000 for rate control.
weight
set offset 24 as 8000000 for max rate weight.
sch
set offset 34 as 0 for sch selection.
rate
set offset 34 as 8000000 for rate control.
weight
set offset 34 as 8000000 for max rate weight.
sch
set offset 44 as 0 for sch selection.
rate
set offset 44 as 8000000 for rate control.
weight
set offset 44 as 8000000 for max rate weight.
sch
set offset 54 as 0 for sch selection.
rate
set offset 54 as 8000000 for rate control.
weight
set offset 54 as 8000000 for max rate weight.
sch
set offset 64 as 0 for sch selection.
rate
set offset 64 as 8000000 for rate control.
weight
set offset 64 as 8000000 for max rate weight.
sch
set offset 74 as 0 for sch selection.
rate
set offset 74 as 8000000 for rate control.
weight
set offset 74 as 8000000 for max rate weight.
sch
set offset 84 as 80000000 for sch selection.
rate
set offset 84 as 88000000 for rate control.
weight
set offset 84 as 88000000 for max rate weight.
sch
set offset 94 as 80000000 for sch selection.
rate
set offset 94 as 88000000 for rate control.
weight
set offset 94 as 88000000 for max rate weight.
sch
set offset a4 as 80000000 for sch selection.
rate
set offset a4 as 88000000 for rate control.
weight
set offset a4 as 88000000 for max rate weight.
sch
set offset b4 as 80000000 for sch selection.
rate
set offset b4 as 88000000 for rate control.
weight
set offset b4 as 88000000 for max rate weight.
sch
set offset c4 as 80000000 for sch selection.
rate
set offset c4 as 88000000 for rate control.
weight
set offset c4 as 88000000 for max rate weight.
sch
set offset d4 as 80000000 for sch selection.
rate
set offset d4 as 88000000 for rate control.
weight
set offset d4 as 88000000 for max rate weight.
sch
set offset e4 as 80000000 for sch selection.
rate
set offset e4 as 88000000 for rate control.
weight
set offset e4 as 88000000 for max rate weight.
sch
set offset f4 as 80000000 for sch selection.
rate
set offset f4 as 88000000 for rate control.
weight
set offset f4 as 88000000 for max rate weight.
[ 23.384000] tun: Universal TUN/TAP device driver, 1.6
[ 23.392000] tun: (C) 1999-2004 Max Krasnyansky <maxk@qualcomm.com>
insmod: can’t insert ‘/lib/modules/kmdir/kernel/drivers/net/ppp_mppe.ko’: No such file or directory
[ rsl_getManagementServerObj ] 568: cannot set connectionRequestURL yet because no WAN intf is up
iptables: Bad rule (does a matching rule exist in that chain?).
iptables: Bad rule (does a matching rule exist in that chain?).
radvd starting
brctl: bridge br0: Invalid argument
brctl: bridge br0: Invalid argument
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
[ util_enFuncQueue ] 099: Function queue not support RDP_OPT_ADD_OBJ operation

[ util_enFuncQueue ] 099: Function queue not support RDP_OPT_ADD_OBJ operation

[ 23.604000] device eth1.2 entered promiscuous mode
[ 23.608000] device eth1 entered promiscuous mode
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 1 : [3]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 2 : [4]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 3 : [5]
[ rsl_getUnusedVlan ] 1268: GET UNUSED VLAN TAG 4 : [6]
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x5E
[ mt7621_vlan_entry_update ] 245: vlanInfo.portMap = 0x21
iptables: Bad rule (does a matching rule exist in that chain?).
insmod: can’t insert ‘/lib/modules/kmdir/kernel/net/netfilter/nf_conntrack_proto_gre.ko’: File exists
insmod: can’t insert ‘/lib/modules/kmdir/kernel/net/netfilter/nf_conntrack_pptp.ko’: File exists
iptables: Bad rule (does a matching rule exist in that chain?).
iptables: Bad rule (does a matching rule exist in that chain?).
[ 23.764000] nf_conntrack_rtsp v0.6.21 loading
[ 23.776000] nf_nat_rtsp v0.6.21 loading
[ 23.856000] Ralink HW NAT Module Enabled
[ 23.864000] eth0 ifindex =8
[ 23.864000] eth1 ifindex =9
ip6tables: Bad rule (does a matching rule exist in that chain?).
ip6tables: Bad rule (does a matching rule exist in that chain?).
iptables: Bad rule (does a matching rule exist in that chain?).
[ rsl_setStorageServiceObj ] 1403: mountFlag is 3,We start usb server

killall: ushare: no process killed
uShare (version 1.1a), a lightweight UPnP A/V and DLNA Media Server.
Benjamin Zores (C) 2005-2007, for GeeXboX Team.
See http://ushare.geexbox.org/ for updates.
iptables: Bad rule (does a matching rule exist in that chain?).
iptables: Bad rule (does a matching rule exist in that chain?).
ip6tables: Bad rule (does a matching rule exist in that chain?).
sh: can’t create /proc/tplink/eth_forward: nonexistent directory
OPTIMIZED_FOR -> wifi
NUM_OF_CPU -> 4
wifiDomain1 -> 5G
wifiDomain2 -> 2_4G
CONFIG_RALINK_MT7621 -> y
CONFIG_ARCH_MT7623 ->
sed: no address after comma
sed: no address after comma
sed: no address after comma
sed: no address after comma
sed: no address after comma
igmpd# Msg: higher version IGMP pkt caught!
Found 0 files and subdirectories.
open DNS error: No such file or directory

U-Boot 1.1.3 (Dec 29 2018 — 11:24:12)

Board: Ralink APSoC DRAM: 128 MB
relocate_code Pointer at: 87f9c000

Config XHCI 40M PLL
#Reset_MT7530
Allocate 16 byte aligned buffer: 87fca950
Enable NFI Clock
# MTK NAND # : Use HW ECC
NAND ID [C8 D1 80 95 40]
Device found in MTK table, ID: c8d1, EXT_ID: 809540
Support this Device in MTK table! c8d1
select_chip
[NAND]select ecc bit:4, sparesize :64 spare_per_sector=16
Signature matched and data read!
load_fact_bbt success 1023
load fact bbt success
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[mtk_nand] probe successfully!
mtd->writesize=2048 mtd->oobsize=64, mtd->erasesize=131072 devinfo.iowidth=8

partable is:
part0:0x20000@0x0
part1:0x7f60000@0x20000
*** Warning — bad CRC, using default environment

============================================
Ralink UBoot Version: 5.0.0.0
———————————————
ASIC MT7621A DualCore (MAC to MT7530 Mode)
DRAM_CONF_FROM: Auto-Detection
DRAM_TYPE: DDR3
DRAM bus: 16 bit
Xtal Mode=3 OCP Ratio=1/3
Flash component: NAND Flash
Date:Dec 29 2018 Time:11:24:12
============================================
THIS IS First Uboot: The first uboot located in NAND Flash to load next full-feature Uboot.
icache: sets:256, ways:4, linesz:32 ,total:32768
dcache: sets:256, ways:4, linesz:32 ,total:32768

##### The CPU freq = 880 MHZ ####
estimate memory size =128 Mbytes
set LAN/WAN WLLLL

Press ‘1’ or ‘t’ to break the booting process 0

3: System Boot system code via Flash.
## Booting image at bc020000 …
Image Name: NAND Flash I
Image Type: MIPS Linux Standalone Program (uncompressed)
Data Size: 173024 Bytes = 169 kB
Load Address: a01fc040
Entry Point: a0200000
… Verifying Checksum … OK
data copied to 0xa01fc040
OK
jump to memory 0xa0200000

U-Boot 1.1.3 (Dec 29 2018 — 11:24:16)

Board: Ralink APSoC DRAM: 128 MB
relocate_code Pointer at: 87f8c000

Config XHCI 40M PLL
#Reset_MT7530
Allocate 16 byte aligned buffer: 87fca6d0
Enable NFI Clock
# MTK NAND # : Use HW ECC
NAND ID [C8 D1 80 95 40]
Device found in MTK table, ID: c8d1, EXT_ID: 809540
Support this Device in MTK table! c8d1
select_chip
[NAND]select ecc bit:4, sparesize :64 spare_per_sector=16
Signature matched and data read!
load_fact_bbt success 1023
load fact bbt success
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
[mtk_nand] probe successfully!
mtd->writesize=2048 mtd->oobsize=64, mtd->erasesize=131072 devinfo.iowidth=8
.
partable is:
uboot:0x400000@0x0
os0:0x3000000@0x400000
os1:0x3000000@0x3400000
userfs:0x1000000@0x6400000
ubootenv:0x400000@0x7400000
factory:0x400000@0x7800000
.============================================
Ralink UBoot Version: 5.0.0.0
———————————————
ASIC MT7621A DualCore (MAC to MT7530 Mode)
DRAM_CONF_FROM: Auto-Detection
DRAM_TYPE: DDR3
DRAM bus: 16 bit
Xtal Mode=3 OCP Ratio=1/3
Flash component: NAND Flash
Date:Dec 29 2018 Time:11:24:16
============================================
THIS IS Main Uboot: Including recovery webserver.
icache: sets:256, ways:4, linesz:32 ,total:32768
dcache: sets:256, ways:4, linesz:32 ,total:32768

##### The CPU freq = 880 MHZ ####
estimate memory size =128 Mbytes
set LAN/WAN WLLLL
this uboot is loaded from 0xbc020000

Press ‘4’ or ‘t’ to break the booting process

Press ‘x’ to enter recovery web server 0

3: System Boot system code via Flash.
do_bootm
## Booting image at bc400000 …
Image Name: OS IMAGE (OpenWrt)
Image Type: MIPS Linux Firmware (uncompressed)
Data Size: 2695773 Bytes = 2.6 MB
Load Address: 80001000
Entry Point: 80001000
ret is -3
try next header
## Booting image at bc400040 …
Image Name: MIPS OpenWrt Linux-5.10.161
Image Type: MIPS Linux Standalone Program (uncompressed)
Data Size: 2695709 Bytes = 2.6 MB
Load Address: 80001000
Entry Point: 80001000
…………………………………… Verifying Checksum … OK
data copied to 0x80001000
OK
jump to memory 0x80001000

OpenWrt kernel loader for MIPS based SoC
Copyright (C) 2011 Gabor Juhos <juhosg@openwrt.org>
Decompressing kernel… done!
Starting kernel at 80001000…

[ 0.000000] Linux version 5.10.161 (builder@buildhost) (mipsel-openwrt-linux-musl-gcc (OpenWrt GCC 11.2.0 r20028-43d71ad93e) 11.2.0, GNU ld (GNU Binutils) 2.37) #0 SMP Tue Jan 3 00:24:21 2023
[ 0.000000] SoC Type: MediaTek MT7621 ver:1 eco:3
[ 0.000000] printk: bootconsole [early0] enabled
[ 0.000000] CPU0 revision is: 0001992f (MIPS 1004Kc)
[ 0.000000] MIPS: machine is TP-Link EC330-G5u v1
[ 0.000000] Initrd not found or empty — disabling initrd
[ 0.000000] VPE topology {2,2} total 4
[ 0.000000] Primary instruction cache 32kB, VIPT, 4-way, linesize 32 bytes.
[ 0.000000] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.000000] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.000000] Zone ranges:
[ 0.000000] Normal [mem 0x0000000000000000-0x0000000007ffffff]
[ 0.000000] HighMem empty
[ 0.000000] Movable zone start for each node
[ 0.000000] Early memory node ranges
[ 0.000000] node 0: [mem 0x0000000000000000-0x0000000007ffffff]
[ 0.000000] Initmem setup node 0 [mem 0x0000000000000000-0x0000000007ffffff]
[ 0.000000] percpu: Embedded 15 pages/cpu s30480 r8192 d22768 u61440
[ 0.000000] Built 1 zonelists, mobility grouping on. Total pages: 32480
[ 0.000000] Kernel command line: console=ttyS0,115200 rootfstype=squashfs,jffs2
[ 0.000000] Dentry cache hash table entries: 16384 (order: 4, 65536 bytes, linear)
[ 0.000000] Inode-cache hash table entries: 8192 (order: 3, 32768 bytes, linear)
[ 0.000000] Writing ErrCtl register=0006200c
[ 0.000000] Readback ErrCtl register=0006200c
[ 0.000000] mem auto-init: stack:off, heap alloc:off, heap free:off
[ 0.000000] Memory: 119468K/131072K available (7039K kernel code, 631K rwdata, 832K rodata, 1276K init, 243K bss, 11604K reserved, 0K cma-reserved, 0K highmem)
[ 0.000000] SLUB: HWalign=32, Order=0-3, MinObjects=0, CPUs=4, Nodes=1
[ 0.000000] rcu: Hierarchical RCU implementation.
[ 0.000000] Tracing variant of Tasks RCU enabled.
[ 0.000000] rcu: RCU calculated value of scheduler-enlistment delay is 10 jiffies.
[ 0.000000] NR_IRQS: 256
[ 0.000000] CPU Clock: 880MHz
[ 0.000000] clocksource: GIC: mask: 0xffffffffffffffff max_cycles: 0xcaf478abb4, max_idle_ns: 440795247997 ns
[ 0.000012] sched_clock: 64 bits at 880MHz, resolution 1ns, wraps every 4398046511103ns
[ 0.007952] clocksource: MIPS: mask: 0xffffffff max_cycles: 0xffffffff, max_idle_ns: 4343773742 ns
[ 0.016995] Calibrating delay loop… 586.13 BogoMIPS (lpj=2930688)
[ 0.083157] pid_max: default: 32768 minimum: 301
[ 0.087923] Mount-cache hash table entries: 1024 (order: 0, 4096 bytes, linear)
[ 0.095125] Mountpoint-cache hash table entries: 1024 (order: 0, 4096 bytes, linear)
[ 0.105705] rcu: Hierarchical SRCU implementation.
[ 0.110741] dyndbg: Ignore empty _ddebug table in a CONFIG_DYNAMIC_DEBUG_CORE build
[ 0.118834] smp: Bringing up secondary CPUs …
[ 0.124105] Primary instruction cache 32kB, VIPT, 4-way, linesize 32 bytes.
[ 0.124116] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.124127] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.124203] CPU1 revision is: 0001992f (MIPS 1004Kc)
[ 0.178631] Synchronize counters for CPU 1: done.
[ 0.211052] Primary instruction cache 32kB, VIPT, 4-way, linesize 32 bytes.
[ 0.211061] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.211070] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.211117] CPU2 revision is: 0001992f (MIPS 1004Kc)
[ 0.270027] Synchronize counters for CPU 2: done.
[ 0.300616] Primary instruction cache 32kB, VIPT, 4-way, linesize 32 bytes.
[ 0.300625] Primary data cache 32kB, 4-way, PIPT, no aliases, linesize 32 bytes
[ 0.300634] MIPS secondary cache 256kB, 8-way, linesize 32 bytes.
[ 0.300685] CPU3 revision is: 0001992f (MIPS 1004Kc)
[ 0.355213] Synchronize counters for CPU 3: done.
[ 0.385080] smp: Brought up 1 node, 4 CPUs
[ 0.393646] clocksource: jiffies: mask: 0xffffffff max_cycles: 0xffffffff, max_idle_ns: 19112604462750000 ns
[ 0.403463] futex hash table entries: 1024 (order: 3, 32768 bytes, linear)
[ 0.410474] pinctrl core: initialized pinctrl subsystem
[ 0.418050] NET: Registered protocol family 16
[ 0.423593] thermal_sys: Registered thermal governor ‘step_wise’
[ 0.424962] cpuidle: using governor teo
[ 0.471132] clocksource: Switched to clocksource GIC
[ 0.477811] NET: Registered protocol family 2
[ 0.482487] IP idents hash table entries: 2048 (order: 2, 16384 bytes, linear)
[ 0.491154] tcp_listen_portaddr_hash hash table entries: 512 (order: 0, 6144 bytes, linear)
[ 0.499482] TCP established hash table entries: 1024 (order: 0, 4096 bytes, linear)
[ 0.507091] TCP bind hash table entries: 1024 (order: 1, 8192 bytes, linear)
[ 0.514073] TCP: Hash tables configured (established 1024 bind 1024)
[ 0.520507] UDP hash table entries: 256 (order: 1, 8192 bytes, linear)
[ 0.526993] UDP-Lite hash table entries: 256 (order: 1, 8192 bytes, linear)
[ 0.534190] NET: Registered protocol family 1
[ 0.538484] PCI: CLS 0 bytes, default 32
[ 0.544824] workingset: timestamp_bits=14 max_order=15 bucket_order=1
[ 0.555452] squashfs: version 4.0 (2009/01/31) Phillip Lougher
[ 0.561230] jffs2: version 2.2 (NAND) (SUMMARY) (LZMA) (RTIME) (CMODE_PRIORITY) (c) 2001-2006 Red Hat, Inc.
[ 0.571845] Block layer SCSI generic (bsg) driver version 0.4 loaded (major 251)
[ 0.581158] mt7621_gpio 1e000600.gpio: registering 32 gpios
[ 0.587001] mt7621_gpio 1e000600.gpio: registering 32 gpios
[ 0.592959] mt7621_gpio 1e000600.gpio: registering 32 gpios
[ 0.599368] Serial: 8250/16550 driver, 16 ports, IRQ sharing enabled
[ 0.610041] printk: console [ttyS0] disabled
[ 0.614366] 1e000c00.uartlite: ttyS0 at MMIO 0x1e000c00 (irq = 19, base_baud = 3125000) is a 16550A
[ 0.623365] printk: console [ttyS0] enabled
[ 0.623365] printk: console [ttyS0] enabled
[ 0.631618] printk: bootconsole [early0] disabled
[ 0.631618] printk: bootconsole [early0] disabled
[ 0.643827] nand: device found, Manufacturer ID: 0xc8, Chip ID: 0xd1
[ 0.650180] nand: ESMT NAND 128MiB 3,3V 8-bit
[ 0.654629] nand: 128 MiB, SLC, erase size: 128 KiB, page size: 2048, OOB size: 64
[ 0.662199] mt7621-nand 1e003000.nand: ECC strength adjusted to 4 bits
[ 0.668795] 7 fixed-partitions partitions found on MTD device mt7621-nand
[ 0.676151] Creating 7 MTD partitions on «mt7621-nand»:
[ 0.681421] 0x000000000000-0x000000400000 : «u-boot»
[ 0.748650] 3 fixed-partitions partitions found on MTD device u-boot
[ 0.755029] Creating 3 MTD partitions on «u-boot»:
[ 0.759808] 0x000000000000-0x000000020000 : «u-boot-first»
[ 0.768081] 0x000000020000-0x000000060000 : «u-boot-main»
[ 0.778245] 0x000000060000-0x0000000a0000 : «u-boot-main-reserve»
[ 0.789143] 0x000000400000-0x000003400000 : «os0»
[ 1.530667] 2 fixed-partitions partitions found on MTD device os0
[ 1.536823] Creating 2 MTD partitions on «os0»:
[ 1.541472] 0x000000000000-0x000000400000 : «kernel»
[ 1.608709] 0x000000400000-0x000003000000 : «ubi-os0»
[ 2.289186] 0x000003400000-0x000006400000 : «os1»
[ 3.030532] 0x000006400000-0x000007400000 : «userfs»
[ 3.282032] 0x000007400000-0x000007800000 : «u-boot-env»
[ 3.349854] 0x000007800000-0x000007c00000 : «factory»
[ 3.417384] 0x000000000000-0x000007f80000 : «wholeflash»
[ 5.385793] Concatenating MTD devices:
[ 5.389571] (0): «ubi-os0»
[ 5.392301] (1): «userfs»
[ 5.394907] into device «ubi-concat»
[ 5.398526] 1 fixed-partitions partitions found on MTD device ubi-concat
[ 5.405218] Creating 1 MTD partitions on «ubi-concat»:
[ 5.410341] 0x000000000000-0x000003c00000 : «ubi»
[ 6.382287] mt7530 mdio-bus:1f: MT7530 adapts as multi-chip module
[ 6.392104] mtk_soc_eth 1e100000.ethernet: generated random MAC address e2:53:8a:2d:6b:45
[ 6.401222] mtk_soc_eth 1e100000.ethernet eth0: mediatek frame engine at 0xbe100000, irq 21
[ 6.409680] mtk_soc_eth 1e100000.ethernet: generated random MAC address 7a:5f:9b:98:d8:cd
[ 6.418679] mtk_soc_eth 1e100000.ethernet wan: mediatek frame engine at 0xbe100000, irq 21
[ 6.427826] i2c /dev entries driver
[ 6.434229] mt7621-pci 1e140000.pcie: host bridge /pcie@1e140000 ranges:
[ 6.440997] mt7621-pci 1e140000.pcie: No bus range found for /pcie@1e140000, using [bus 00-ff]
[ 6.449778] mt7621-pci 1e140000.pcie: MEM 0x0060000000..0x006fffffff -> 0x0000000000
[ 6.457950] mt7621-pci 1e140000.pcie: IO 0x001e160000..0x001e16ffff -> 0x0000000000
[ 6.466226] mt7621-pci 1e140000.pcie: Parsing DT failed
[ 6.473799] NET: Registered protocol family 10
[ 6.480037] Segment Routing with IPv6
[ 6.483855] NET: Registered protocol family 17
[ 6.488367] bridge: filtering via arp/ip/ip6tables is no longer available by default. Update your scripts to load br_netfilter if you need this.
[ 6.501744] 8021q: 802.1Q VLAN Support v1.8
[ 6.509411] gpio-export gpio-export: 1 gpio(s) exported
[ 6.515010] mt7530 mdio-bus:1f: MT7530 adapts as multi-chip module
[ 6.544231] mt7530 mdio-bus:1f lan1 (uninitialized): PHY [mt7530-0:01] driver [MediaTek MT7530 PHY] (irq=27)
[ 6.556757] mt7530 mdio-bus:1f lan2 (uninitialized): PHY [mt7530-0:02] driver [MediaTek MT7530 PHY] (irq=28)
[ 6.569051] mt7530 mdio-bus:1f lan3 (uninitialized): PHY [mt7530-0:03] driver [MediaTek MT7530 PHY] (irq=29)
[ 6.581412] mt7530 mdio-bus:1f lan4 (uninitialized): PHY [mt7530-0:04] driver [MediaTek MT7530 PHY] (irq=30)
[ 6.594046] mt7530 mdio-bus:1f: configuring for fixed/rgmii link mode
[ 6.604516] DSA: tree 0 setup
[ 6.607841] rt2880-pinmux pinctrl: pcie is already enabled
[ 6.613422] mt7621-pci 1e140000.pcie: host bridge /pcie@1e140000 ranges:
[ 6.620106] mt7621-pci 1e140000.pcie: No bus range found for /pcie@1e140000, using [bus 00-ff]
[ 6.628906] mt7621-pci 1e140000.pcie: MEM 0x0060000000..0x006fffffff -> 0x0000000000
[ 6.637083] mt7621-pci 1e140000.pcie: IO 0x001e160000..0x001e16ffff -> 0x0000000000
[ 6.645353] mt7621-pci-phy 1e149000.pcie-phy: PHY for 0xbe149000 (dual port = 1)
[ 6.653193] mt7621-pci-phy 1e14a000.pcie-phy: PHY for 0xbe14a000 (dual port = 0)
[ 6.660910] mt7621-pci 1e140000.pcie: failed to parse bus ranges property: -22
[ 6.768315] mt7621-pci-phy 1e149000.pcie-phy: Xtal is 40MHz
[ 6.773904] mt7621-pci-phy 1e14a000.pcie-phy: Xtal is 40MHz
[ 6.879626] mt7621-pci 1e140000.pcie: pcie2 no card, disable it (RST & CLK)
[ 6.886581] mt7621-pci 1e140000.pcie: PCIE0 enabled
[ 6.891459] mt7621-pci 1e140000.pcie: PCIE1 enabled
[ 6.896320] mt7621-pci 1e140000.pcie: PCI coherence region base: 0x60000000, mask/settings: 0xf0000002
[ 6.905780] mt7621-pci 1e140000.pcie: PCI host bridge to bus 0000:00
[ 6.912168] pci_bus 0000:00: root bus resource [io 0x1e160000-0x1e16ffff]
[ 6.919020] pci_bus 0000:00: root bus resource [mem 0x60000000-0x6fffffff]
[ 6.925889] pci_bus 0000:00: root bus resource [bus 00-ff]
[ 6.931379] pci_bus 0000:00: root bus resource [mem 0x60000000-0x6fffffff] (bus address [0x00000000-0x0fffffff])
[ 6.941581] pci 0000:00:00.0: [0e8d:0801] type 01 class 0x060400
[ 6.947579] pci 0000:00:00.0: reg 0x10: [mem 0x00000000-0x7fffffff]
[ 6.953843] pci 0000:00:00.0: reg 0x14: initial BAR value 0x00000000 invalid
[ 6.960891] pci 0000:00:00.0: reg 0x14: [mem size 0x00010000]
[ 6.966681] pci 0000:00:00.0: supports D1
[ 6.970672] pci 0000:00:00.0: PME# supported from D0 D1 D3hot
[ 6.976929] pci 0000:00:01.0: [0e8d:0801] type 01 class 0x060400
[ 6.982991] pci 0000:00:01.0: reg 0x10: [mem 0x00000000-0x7fffffff]
[ 6.989235] pci 0000:00:01.0: reg 0x14: initial BAR value 0x00000000 invalid
[ 6.996274] pci 0000:00:01.0: reg 0x14: [mem size 0x00010000]
[ 7.002084] pci 0000:00:01.0: supports D1
[ 7.006077] pci 0000:00:01.0: PME# supported from D0 D1 D3hot
[ 7.013404] pci 0000:00:00.0: bridge configuration invalid ([bus 00-00]), reconfiguring
[ 7.021442] pci 0000:00:01.0: bridge configuration invalid ([bus 00-00]), reconfiguring
[ 7.029682] pci 0000:01:00.0: [14c3:7615] type 00 class 0x000280
[ 7.035753] pci 0000:01:00.0: reg 0x10: initial BAR value 0x00000000 invalid
[ 7.042805] pci 0000:01:00.0: reg 0x10: [mem size 0x00100000 64bit]
[ 7.049217] pci 0000:01:00.0: 2.000 Gb/s available PCIe bandwidth, limited by 2.5 GT/s PCIe x1 link at 0000:00:00.0 (capable of 4.000 Gb/s with 5.0 GT/s PCIe x1 link)
[ 7.065603] pci 0000:00:00.0: PCI bridge to [bus 01-ff]
[ 7.070886] pci 0000:00:00.0: bridge window [io 0x0000-0x0fff]
[ 7.076957] pci 0000:00:00.0: bridge window [mem 0x60000000-0x600fffff]
[ 7.083749] pci 0000:00:00.0: bridge window [mem 0x60000000-0x600fffff pref]
[ 7.090976] pci_bus 0000:01: busn_res: [bus 01-ff] end is updated to 01
[ 7.097838] pci 0000:02:00.0: [14c3:7615] type 00 class 0x000280
[ 7.103907] pci 0000:02:00.0: reg 0x10: initial BAR value 0x00000000 invalid
[ 7.110973] pci 0000:02:00.0: reg 0x10: [mem size 0x00100000 64bit]
[ 7.117387] pci 0000:02:00.0: 2.000 Gb/s available PCIe bandwidth, limited by 2.5 GT/s PCIe x1 link at 0000:00:01.0 (capable of 4.000 Gb/s with 5.0 GT/s PCIe x1 link)
[ 7.133777] pci 0000:00:01.0: PCI bridge to [bus 02-ff]
[ 7.139000] pci 0000:00:01.0: bridge window [io 0x0000-0x0fff]
[ 7.145115] pci 0000:00:01.0: bridge window [mem 0x60000000-0x600fffff]
[ 7.151898] pci 0000:00:01.0: bridge window [mem 0x60000000-0x600fffff pref]
[ 7.159094] pci_bus 0000:02: busn_res: [bus 02-ff] end is updated to 02
[ 7.165754] pci 0000:00:00.0: BAR 0: no space for [mem size 0x80000000]
[ 7.172364] pci 0000:00:00.0: BAR 0: failed to assign [mem size 0x80000000]
[ 7.179298] pci 0000:00:01.0: BAR 0: no space for [mem size 0x80000000]
[ 7.185912] pci 0000:00:01.0: BAR 0: failed to assign [mem size 0x80000000]
[ 7.192870] pci 0000:00:00.0: BAR 8: assigned [mem 0x60000000-0x600fffff]
[ 7.199631] pci 0000:00:00.0: BAR 9: assigned [mem 0x60100000-0x601fffff pref]
[ 7.206860] pci 0000:00:01.0: BAR 8: assigned [mem 0x60200000-0x602fffff]
[ 7.213647] pci 0000:00:01.0: BAR 9: assigned [mem 0x60300000-0x603fffff pref]
[ 7.220868] pci 0000:00:00.0: BAR 1: assigned [mem 0x60400000-0x6040ffff]
[ 7.227633] pci 0000:00:01.0: BAR 1: assigned [mem 0x60410000-0x6041ffff]
[ 7.234414] pci 0000:00:00.0: BAR 7: assigned [io 0x1e160000-0x1e160fff]
[ 7.241199] pci 0000:00:01.0: BAR 7: assigned [io 0x1e161000-0x1e161fff]
[ 7.247966] pci 0000:01:00.0: BAR 0: assigned [mem 0x60000000-0x600fffff 64bit]
[ 7.255276] pci 0000:00:00.0: PCI bridge to [bus 01]
[ 7.260220] pci 0000:00:00.0: bridge window [io 0x1e160000-0x1e160fff]
[ 7.267008] pci 0000:00:00.0: bridge window [mem 0x60000000-0x600fffff]
[ 7.273791] pci 0000:00:00.0: bridge window [mem 0x60100000-0x601fffff pref]
[ 7.281015] pci 0000:02:00.0: BAR 0: assigned [mem 0x60200000-0x602fffff 64bit]
[ 7.288302] pci 0000:00:01.0: PCI bridge to [bus 02]
[ 7.293267] pci 0000:00:01.0: bridge window [io 0x1e161000-0x1e161fff]
[ 7.300027] pci 0000:00:01.0: bridge window [mem 0x60200000-0x602fffff]
[ 7.306806] pci 0000:00:01.0: bridge window [mem 0x60300000-0x603fffff pref]
[ 7.318329] UBI: auto-attach mtd12
[ 7.321839] ubi0: attaching mtd12
[ 7.331445] mt7530 mdio-bus:1f: Link is Up — 1Gbps/Full — flow control rx/tx
[ 8.869338] ubi0: scanning is finished
[ 8.889919] ubi0: attached mtd12 (name «ubi», size 60 MiB)
[ 8.895440] ubi0: PEB size: 131072 bytes (128 KiB), LEB size: 126976 bytes
[ 8.902304] ubi0: min./max. I/O unit sizes: 2048/2048, sub-page size 2048
[ 8.909061] ubi0: VID header offset: 2048 (aligned 2048), data offset: 4096
[ 8.916004] ubi0: good PEBs: 480, bad PEBs: 0, corrupted PEBs: 0
[ 8.921999] ubi0: user volume: 2, internal volumes: 1, max. volumes count: 128
[ 8.929188] ubi0: max/mean erase counter: 15/8, WL threshold: 4096, image sequence number: 2014637619
[ 8.938378] ubi0: available PEBs: 0, total reserved PEBs: 480, PEBs reserved for bad PEB handling: 10
[ 8.947606] ubi0: background thread «ubi_bgt0d» started, PID 484
[ 8.950062] block ubiblock0_0: created from ubi0:0(rootfs)
[ 8.959149] ubiblock: device ubiblock0_0 (rootfs) set to be root filesystem
[ 8.973604] VFS: Mounted root (squashfs filesystem) readonly on device 254:0.
[ 8.985010] Freeing unused kernel memory: 1276K
[ 8.989540] This architecture does not have kernel memory protection.
[ 8.995991] Run /sbin/init as init process
[ 9.553648] init: Console is alive
[ 9.557433] init: — watchdog —
[ 10.384711] kmodloader: loading kernel modules from /etc/modules-boot.d/*
[ 10.512153] usbcore: registered new interface driver usbfs
[ 10.517795] usbcore: registered new interface driver hub
[ 10.523267] usbcore: registered new device driver usb
[ 10.539472] xhci-mtk 1e1c0000.xhci: supply vbus not found, using dummy regulator
[ 10.547244] xhci-mtk 1e1c0000.xhci: supply vusb33 not found, using dummy regulator
[ 10.555128] xhci-mtk 1e1c0000.xhci: xHCI Host Controller
[ 10.560465] xhci-mtk 1e1c0000.xhci: new USB bus registered, assigned bus number 1
[ 10.581048] xhci-mtk 1e1c0000.xhci: hcc params 0x01401198 hci version 0x96 quirks 0x0000000000290010
[ 10.590223] xhci-mtk 1e1c0000.xhci: irq 20, io mem 0x1e1c0000
[ 10.597271] hub 1-0:1.0: USB hub found
[ 10.601242] hub 1-0:1.0: 2 ports detected
[ 10.605898] xhci-mtk 1e1c0000.xhci: xHCI Host Controller
[ 10.611325] xhci-mtk 1e1c0000.xhci: new USB bus registered, assigned bus number 2
[ 10.618810] xhci-mtk 1e1c0000.xhci: Host supports USB 3.0 SuperSpeed
[ 10.625392] usb usb2: We don’t know the algorithms for LPM for this host, disabling LPM.
[ 10.634465] hub 2-0:1.0: USB hub found
[ 10.638356] hub 2-0:1.0: 1 port detected
[ 10.650110] kmodloader: done loading kernel modules from /etc/modules-boot.d/*
[ 10.671305] init: — preinit —
[ 11.455330] random: jshn: uninitialized urandom read (4 bytes read)
[ 11.534864] random: jshn: uninitialized urandom read (4 bytes read)
[ 11.645483] random: jshn: uninitialized urandom read (4 bytes read)
[ 11.966275] mtk_soc_eth 1e100000.ethernet eth0: configuring for fixed/rgmii link mode
[ 11.974663] mtk_soc_eth 1e100000.ethernet eth0: Link is Up — 1Gbps/Full — flow control rx/tx
[ 11.981462] mt7530 mdio-bus:1f lan1: configuring for phy/gmii link mode
[ 11.990000] 8021q: adding VLAN 0 to HW filter on device lan1
[ 11.998286] IPv6: ADDRCONF(NETDEV_CHANGE): eth0: link becomes ready
Press the [f] key and hit [enter] to enter failsafe mode
Press the [1], [2], [3] or [4] key and hit [enter] to select the debug level
[ 16.197291] UBIFS (ubi0:1): Mounting in unauthenticated mode
[ 16.203312] UBIFS (ubi0:1): background thread «ubifs_bgt0_1» started, PID 638
[ 16.286232] UBIFS (ubi0:1): recovery needed
[ 16.495769] UBIFS (ubi0:1): recovery completed
[ 16.500374] UBIFS (ubi0:1): UBIFS: mounted UBI device 0, volume 1, name «rootfs_data»
[ 16.508205] UBIFS (ubi0:1): LEB size: 126976 bytes (124 KiB), min./max. I/O unit sizes: 2048 bytes/2048 bytes
[ 16.518092] UBIFS (ubi0:1): FS size: 53456896 bytes (50 MiB, 421 LEBs), journal size 2666496 bytes (2 MiB, 21 LEBs)
[ 16.528493] UBIFS (ubi0:1): reserved for root: 2524900 bytes (2465 KiB)
[ 16.535093] UBIFS (ubi0:1): media format: w5/r0 (latest is w5/r0), UUID F4719F63-F61D-4C85-9044-D79236319105, small LPT model
[ 16.553327] mount_root: switching to ubifs overlay
[ 16.577820] urandom-seed: Seeding with /etc/urandom.seed
[ 16.705853] procd: — early —
[ 16.708984] procd: — watchdog —
[ 17.371093] procd: — watchdog —
[ 17.481978] procd: — ubus —
[ 17.623742] random: ubusd: uninitialized urandom read (4 bytes read)
[ 17.641761] random: ubusd: uninitialized urandom read (4 bytes read)
[ 17.648621] random: ubusd: uninitialized urandom read (4 bytes read)
[ 17.661637] procd: — init —
Please press Enter to activate this console.
[ 18.492311] kmodloader: loading kernel modules from /etc/modules.d/*
[ 18.686648] urngd: v1.0.2 started.
[ 18.796950] Loading modules backported from Linux version v5.15.81-0-ge4a7232c917c
[ 18.804580] Backport generated by backports.git v5.15.81-1-0-ge1867d55
[ 18.864950] random: crng init done
[ 18.868374] random: 30 urandom warning(s) missed due to ratelimiting
[ 19.016900] mt7621-pci 1e140000.pcie: bus=1 slot=0 irq=22
[ 19.022365] pci 0000:00:00.0: enabling device (0004 -> 0007)
[ 19.028008] mt7615e 0000:01:00.0: enabling device (0000 -> 0002)
[ 19.051640] mt7621-pci 1e140000.pcie: bus=2 slot=1 irq=23
[ 19.057129] pci 0000:00:01.0: enabling device (0004 -> 0007)
[ 19.062872] mt7615e 0000:02:00.0: enabling device (0000 -> 0002)
[ 19.072496] mt7615e 0000:01:00.0: HW/SW Version: 0x8a108a10, Build Time: 20180518100604a
[ 19.072496]
[ 19.105210] mt7615e 0000:02:00.0: HW/SW Version: 0x8a108a10, Build Time: 20180518100604a
[ 19.105210]
[ 19.187417] PPP generic driver version 2.4.2
[ 19.195254] NET: Registered protocol family 24
[ 19.213532] kmodloader: done loading kernel modules from /etc/modules.d/*
[ 19.397781] mt7615e 0000:01:00.0: N9 Firmware Version: _reserved_, Build Time: 20200814163649
[ 19.400996] mt7615e 0000:02:00.0: N9 Firmware Version: _reserved_, Build Time: 20200814163649
[ 19.532881] mt7615e 0000:02:00.0: CR4 Firmware Version: _reserved_, Build Time: 20190121161307
[ 19.532926] mt7615e 0000:01:00.0: CR4 Firmware Version: _reserved_, Build Time: 20190121161307
[ 27.782081] mtk_soc_eth 1e100000.ethernet eth0: Link is Down
[ 27.801640] mtk_soc_eth 1e100000.ethernet eth0: configuring for fixed/rgmii link mode
[ 27.809866] mtk_soc_eth 1e100000.ethernet eth0: Link is Up — 1Gbps/Full — flow control rx/tx
[ 27.813921] device eth0 entered promiscuous mode
[ 27.823527] mt7530 mdio-bus:1f lan1: configuring for phy/gmii link mode
[ 27.830606] 8021q: adding VLAN 0 to HW filter on device lan1
[ 27.839273] IPv6: ADDRCONF(NETDEV_CHANGE): eth0: link becomes ready
[ 27.846753] br-lan: port 1(lan1) entered blocking state
[ 27.852169] br-lan: port 1(lan1) entered disabled state
[ 27.859075] device lan1 entered promiscuous mode
[ 27.889006] mt7530 mdio-bus:1f lan2: configuring for phy/gmii link mode
[ 27.896563] 8021q: adding VLAN 0 to HW filter on device lan2
[ 27.906982] br-lan: port 2(lan2) entered blocking state
[ 27.912763] br-lan: port 2(lan2) entered disabled state
[ 27.919462] device lan2 entered promiscuous mode
[ 27.935589] mt7530 mdio-bus:1f lan3: configuring for phy/gmii link mode
[ 27.943001] 8021q: adding VLAN 0 to HW filter on device lan3
[ 27.953223] br-lan: port 3(lan3) entered blocking state
[ 27.958491] br-lan: port 3(lan3) entered disabled state
[ 27.966206] device lan3 entered promiscuous mode
[ 27.981042] mt7530 mdio-bus:1f lan4: configuring for phy/gmii link mode
[ 27.988422] 8021q: adding VLAN 0 to HW filter on device lan4
[ 27.998785] br-lan: port 4(lan4) entered blocking state
[ 28.004175] br-lan: port 4(lan4) entered disabled state
[ 28.012447] device lan4 entered promiscuous mode
[ 28.037698] mtk_soc_eth 1e100000.ethernet wan: PHY [mdio-bus:00] driver [MediaTek MT7530 PHY] (irq=POLL)
[ 28.047398] mtk_soc_eth 1e100000.ethernet wan: configuring for phy/rgmii-rxid link mode

BusyBox v1.35.0 (2023-01-03 00:24:21 UTC) built-in shell (ash)

_______ ________ __
| |.——.——.——.| | | |.—-.| |_
| — || _ | -__| || | | || _|| _|
|_______|| __|_____|__|__||________||__| |____|
|__| W I R E L E S S F R E E D O M
——————————————————
OpenWrt 22.03.3, r20028-43d71ad93e
——————————————————
=== WARNING! =====================================
There is no root password defined on this device!
Use the «passwd» command to set up a new password
in order to prevent unauthorized SSH logins.
—————————————————
root@OpenWrt:/#

None so far.

Источник

Новое поколение маршрутизаторов TP-LINK, к которым относятся модели Archer C8 и C9, сильно отличаются от всего того, что мы видели ранее у этого производителя. Новый дизайн корпуса, новое оформление веб-интерфейса, новые возможности и новая же аппаратная платформа. В общем, обновления значительные, и, конечно, хотелось бы увидеть их не только в самых дорогих моделях, но в и устройствах попроще. TP-LINK Archer C8 с Archer C9 очень и очень похожи друг на друга, но у «восьмого» чуть более простой радиомодуль. В России пока что официально доступен только маршрутизатор Archer C9. Забавно, что Archer C8 тоже можно найти в онлайн-магазинах, но стоит он при этом дороже C9.

Корпус TP-LINK Archer C9 сделан из белого пластика. Передняя панель накрыта глянцевой накладкой, в верхней части которой прячутся неяркие индикаторы синего цвета. Съёмные антенны, тоже из белого пластика, крепятся сверху. Устройство снабжено несъёмной изогнутой рамкой, опоясывающей половину корпуса и уходящей назад, — за счёт неё роутер всегда находится под углом к поверхности, на которой он стоит. Крепление к стене не предусмотрено, но некоторые «умельцы» в Сети предлагают использовать шурупы с Г-образной головкой и вешать устройство вверх ногами за эту рамку. Сама же рамка сделана из пластика, хотя издалека кажется, что она алюминиевая. Снизу на ней и на корпусе есть резиновые противоскользящие вставки.

Задняя половинка матовая. Она покрыта вентиляционными отверстиями, но охлаждения явно недостаточно, так как во время работы устройство заметно нагревается. Во всяком случае, его передняя панель. Вероятно, радиатор маловат. Впрочем, на работоспособности это не сказывается. Почти все гнёзда и кнопки выведены на нижнюю часть задней панели. Лишь пара из порта USB 3.0 и кнопки Wi-Fi находится в небольшой выемке на торце устройства. С портом USB 2.0 сзади надо быть аккуратнее, длинные и толстые внешние устройства — модемы в первую очередь — могут просто не поместиться из-за рамки. Но с обычными флешками проблем быть не должно. Комплектный блок питания довольно крупный, мощностью около 40 Вт.

TP-LINK Archer C9 на текущий момент можно встретить аж в трех версиях: V1, V2 и V3. У нас на тестировании побывала первая — V1. Трудно сказать, насколько сильно они различаются с точки зрения потребителя. У модификации V2, например, изменилась компоновка системной платы и прямо говорится о том, что антенны диапазона 2,4 ГГц внутренние. Платформа же у них одинаковая: CPU Broadcom серии BCM4709 (2 ядра Cortex-A9, 1 ГГц) и два радиомодуля Broadcom BCM4360, 128 Мбайт RAM и 16 Мбайт памяти для прошивки. Подобный набор мы уже видели полтора-два года назад в NETGEAR R7000 Nighthawk и ASUS RT-AC68U. Правда, объём памяти у них был значительно больше. Особенно постоянной, а это напрямую влияет на число доступных функций в прошивке роутера.

Маршрутизатор TP-LINK Archer C9
Стандарты IEEE 802.11 a/b/g/n/ac (2,4 ГГц + 5 ГГц)
Чипсет/контроллер Broadcom BCM4709 (2 × ARM Cortex-A9, 1 ГГц) + BCM4360 × 2
Память RAM 128 Мбайт/ROM 16 Мбайт
Антенны 3 × внешние RP-SMA
Шифрование WPA/WPA2 (Enterprise), 802.1x, WPS; 2 × гостевая сеть; WEP (WDS)
Максимальная скорость 802.11ac: до 1300 Мбит/с, 802.11n: до 600 Мбит/с, 802.11g: до 54 Мбит/с
Интерфейсы 5 × 10/100/1000 Мбит/с Ethernet, 1 × USB 2.0, 1 × USB 3.0
Индикаторы Питание, 2 × Wi-Fi, LAN, WAN, WPS, 2 × USB
Аппаратные кнопки Питание, отключение Wi-Fi, сброс настроек/WPS
Размеры (Ш × Д × В), мм 221 × 86 × 169
Масса, г 612
Питание DC 12 В 3,3 А
Цена, руб. 12 300
Возможности
Доступ в Интернет Static IP, DHCP, PPPoE, PPTP, L2TP, BigPond
Сервисы Сервер DLNA, FTP, SMB; принт-сервер; IPv6 (Static/DHCP, 6to4, PPPoEv6, мост); родительский контроль
Проброс портов Virtual Server, Port Triggering, UPnP, DMZ; IPTV LAN-Port/VLAN/IGMP Proxy v2/3
Поддержка QoS WMM; QoS по MAC-адресу/порт+протокол (TCP/UDP/All)/типу приложения
Сервисы Dynamic DNS DynDns, NO-IP
Режим работы Маршрутизатор
Проброс VPN, ALG PPTP, L2TP, IPSec; (T)FTP, H.323, RTSP
Брандмауэр Защита от DoS, SPI, фильтрация по MAC

Веб-интерфейс прошивки сильно изменился в лучшую сторону. Не то чтобы он стал более удобным, просто оформление сменилось на более приятное и современное. Нечто подобное мы уже наблюдали в M7350. Функциональность прошивки несильно отличается от того, что мы видели раньше: исчезли такие возможности, как работа с 3G/4G-модемами, профили интернет-провайдеров и другие, менее значимые мелочи; зато появилась поддержка сразу множества локализаций веб-интерфейса (включая русскую, конечно) и — впервые! — поддержка приоритизации (QoS) для приложений с обновляемой базой данных этих самых приложений.

TP-LINK Archer C9 — мастер быстрой настройки

Как она устроена? Вначале пользователь вручную указывает скорости входящего и исходящего каналов, потом выставляет вес каждого из трёх доступных уровней приоритизации. Затем выбранные устройства (MAC-адреса), связки из порта и протокола (UDP/TCP/Оба) или конкретных приложений (типа трафика) распределяются по уровням. Пока что приложений, которые умеет распознавать роутер, совсем немного. Доступно ручное обновление базы с описанием приложений, но ни одного такого апдейта на сайте производителя ещё нет. При включении приоритизации аппаратное ускорение NAT работать не будет.

TP-LINK Archer C9 — веб-интерфейс

Других значимых нововведений, если не считать приятных мелочей вроде симпатичной заглавной странички и индикатора загруженности памяти и CPU, мы в новой прошивке не обнаружили. Что касается альтернативных прошивок, то они мало того, что лишают гарантии, так ещё и в данном случае не очень полезны — OpenWRT для Archer C9 нет, а DD-WRT в силу малого объёма флеш-памяти многого предложить не сможет.

Завершив изучение нового ПО, перейдем к исследованию производительности C9.

Для тестирования Wi-Fi использовались стандартные стенды. Конфигурация первого: Intel Core i7-2600K, 12 Гбайт RAM, ASUS PCE-AC68 (в таблице обозначен как A), Windows 7 SP1 x64. Конфигурация второго: Intel Core i7-4700HQ, 12 Гбайт RAM, Windows 8.1 Update 1 x64, Realtek RTL8168 (в таблице обозначен как R). Стенды находились в прямой видимости на расстоянии четырёх метров друг от друга. В настройках роутера было включено шифрование WPA2, вручную указана максимально возможная ширина канала, а WPS отключен. Опция уменьшения помех от USB 3.0 в прошивке отсутствует, хотя тестирование всё равно проводилось без USB-устройств.

Маршрутизатор TP-LINK Archer C9
Потоки 1 2 4 8 16 32 64
Средняя скорость Wi-Fi 802.11ac 5 ГГц, Мбит/с
A -> R 322 325 361 403 485 480 525
R -> A 370 483 618 771 788 657 600
A <-> R 467 509 615 806 803 759 608
Средняя скорость Wi-Fi 802.11n 2,4 ГГц, Мбит/с
A -> R 205 208 209 226 251 274 270
R -> A 256 278 310 328 291 282 284
A <-> R 290 320 338 359 362 289 279

К полнодуплексной работе Wi-Fi претензий нет. А вот направление от адаптера к роутеру оказалось заметно медленнее обратного, хотя это не так уж критично. Скорость прямого подключения к Сети была на уровне 800-900 Мбит/с, а FDX-соединение дотянуло почти до 1,3 Гбит/с. В случае VPN-подключений наблюдалась асимметрия — исходящий канал (от клиента к роутеру и далее) был быстрее входящего. Для PPPoE в среднем выходило 600-700 Мбит/с, но дуплекс, конечно, тоже был на этом же уровне. L2TP-подключение работало на скорости около 200 Мбит/с, а вот с PPTP вышла загвоздка – входящий канал менее 100 Мбит/с, а исходящий в два раза быстрее.

Для проверки сетевой работы с накопителями к роутеру был подключён постоянный участник нашего тестирования — накопитель SSD Kingston SSDNow V+200 с одним NTFS-томом, установленный во внешний корпус LanShuo INIC-3609. Скорость чтения и записи по SMB симметрична — около 40 Мбайт/с или выше что при чтении, что при записи. Нагрузка на CPU при этом — здесь же теперь есть индикатор! — подскакивала почти до 100%, но это ожидаемо. С FTP снова асимметрия — запись под 50 Мбайт/с, а чтение почему-то в полтора раза медленнее.

⇡#Заключение

TP-LINK Archer C9 производит впечатление весьма неплохого современного роутера. Новый дизайн корпуса и веб-интерфейса, отличная аппаратная платформа, пусть и не самая-самая свежая, но с хорошей производительностью, а заодно и поддержка мобильного приложения TP-LINK Tether.

Есть только одно но — сейчас Archer C9 стоит минимум 12 000 рублей. А это заставляет его конкурировать с заметно более сложными и функциональными моделями — некоторые конкуренты, побывавшие в нашей лаборатории, стоят ненамного дороже, но предлагают заметно больше возможностей. Вследствие высокой стоимости, Archer C9 — это, по сути, претензия на принадлежность к так называемому премиум-сегменту. А это вынуждает подходить к новому устройству уже с совсем другими мерками.

Будем надеяться, что изготовитель скорректирует ценовую политику на российском рынке. А пока что мы можем порекомендовать этот роутер тем пользователям, которым не принципиально наличие самых продвинутых настроек в прошивке и для которых важнее удачная аппаратная платформа и яркий внешний вид — и то и другое у TP-LINK Archer C9 есть.

Если Вы заметили ошибку — выделите ее мышью и нажмите CTRL+ENTER.

Источник

Максим aka WisH

Максим aka WisH

Высшее образование по специальности «Информационные системы». Опыт работы системным администратором — 5 лет.

Пользователи массово переходят на двухдиапазонные роутеры. Основная причина в том, что в многоквартирном доме, когда вокруг расположено несколько десятков квартир и в каждой по маршрутизатору, в диапазоне 2,4 ГГц сложно найти свободный канал. Без диапазона 5 ГГц не получится обеспечить хорошее качество беспроводной связи. Сегодня поговорим о Archer C9 AC1900 – одной из двухдиапазонных моделей маршрутизаторов. Проведем обзор и дадим инструкцию по настройке Tp-Link Archer C9.

Содержание

  1. Характеристики
  2. Внешний вид и комплектация
  3. Подключение
  4. Вход в админку
  5. Автоматическая настройка
  6. Ручная настройка
  7. Wi-Fi
  8. Прошивка
  9. Сброс настроек
  10. Отзывы

Характеристики

Перечислим характеристики Tp-Link Archer C9, которые заявляет производитель:

  • Поддержка нового поколения беспроводной связи 802.11ac.
  • Передает данные на общей скорости 1,9 Гбит/с: до 1300 Мбит/с на 5 ГГц и до 600 Мбит/с на 2,4 ГГц.
  • 3 съёмные двухдиапазонные антенны обеспечивают покрытие сети.
  • Технология Beamforming обеспечивает высокопроизводительное беспроводное соединение.
  • Двухъядерный 1 ГГц процессор. Он позволяет обрабатывать большое количество задач без задержек.
  • Порты USB 3.0 и USB 2.0. Можно подключать к ним дополнительное оборудование, что позволит обеспечить общий доступ к принтеру или другим подобным устройствам.
  • Возможность подключения 3G/4G-модемов к порту USB.

Этот маршрутизатор – неплохая модель для дома с небольшой локальной сетью. Если хочется иметь резервный канал в виде мобильного модема, а также подключать общие принтеры или другие устройства, то он подойдет. Для обычного домашнего использования некоторые его возможности будут избыточными.

Внешний вид и комплектация

В комплект поставки маршрутизатора Acher C9 AC1900 входят:

  • Wi-Fi роутер;
  • адаптер питания;
  • кабель Ethernet RJ45;
  • руководство по быстрой настройке.

Это стандартный комплект поставки почти для любой модели роутера. Провод будет коротким, для близкого подключения. Если вы планируете устанавливать его вдали от компьютера или телевизора, то лучше сразу докупить кабель нужной длины.внешний вид

Выглядит он необычно, по сравнению со старыми моделями маршрутизаторов. Он предназначен для установки с опорой на специальную ножку, что видно на картинке. Такая компоновка позволит не прятать его под стол, установить можно и на виду, потому что смотрится он симпатично.

разъемы

На задней панели расположены разъемы для подключения кабеля от провайдера (синий) и домашних устройств (желтые). Здесь же находится один из usb-портов и место под кабель питания. Кнопка для включения и WPS/Reset.

порт

Сбоку расположен порт USB 3.0, в который лучше подключать оборудование, которое обменивается с роутером большим количеством данных. Здесь находится кнопка вайфай.

Подключение

После покупки распакуйте устройство и определитесь с местом его установки. Здесь стоит учитывать длину кабеля питания, а также расположение тех устройств, которые будут подключаться к маршрутизатору при помощи кабелей. Не используйте другие блоки питания от маршрутизаторов, у них не всегда совпадает выходное напряжение и ток. Это может привезти к сбоям в работе или поломке устройства.

После этого, подключите шнур от блока питания в крайний правый разъем. Кабель от компьютера или ноутбука, с которых будете настраивать роутер, воткните в один из желтых разъемов.

пк

Теперь переходите к подключению кабеля от провайдера. Его воткните в синий разъем, который подписан «Internet». После этого нажмите кнопку включения, которая находится рядом с местом подключения кабеля питания. Дальше переходим к настройке wi-fi роутера Tp-Link Archer C9.

провайдер

Вход в админку

Теперь перейдем ко входу в личный кабинет ТП-Линк Арчер. После подключения проводов откройте браузер на том компьютере, к которому подключен маршрутизатор. Откройте любой браузер и наберите в адресной строке tplinklogin.net, или 192.168.0.1.

Имя пользователя и пароль посмотрите на наклейке на роутере, стандартно производитель устанавливает логин admin и пароль admin.

вход

При первом входе все на английском языке. Это исправляется в следующем окне, если у вас установлена прошивка с несколькими языками. В случае, если у вас первая версия прошивки только с английским языком, придется обновлять аппарат после настройки.

Автоматическая настройка

Далее аппарат сам предложит пройти автоматическую настройку. На этом этапе смените язык, делается это в окошке в верхнем правом углу. В первом разделе предлагается установить часовой пояс, ставьте тот, в котором живете.

часы язык

После нажатия кнопки далее вы попадете на экран с выбором типа подключения. Это должно быть знакомо по настройке прошлого роутера. Если нет, то информацию об этом посмотрите в договоре или в инструкции на сайте провайдера.

Данные из договора все равно понадобятся, так что лучше взять его сразу.

Следующее окно отличается в зависимости от вашего выбора. При динамическом адресе ничего настраивать не нужно. При статическом нужно указать его. При выборе PPPoE укажите логин и пароль из договора. При оставшихся двух настройках к логину и паролю добавьте адрес сервера, выданный провайдером.

сеть

На этом этапе заканчивается настройка интернета. Дальше настраиваем вайфай. В следующем окне выберите, какую частоту хотите использовать для вещания и задайте имена и пароли. Никто не мешает оставить включенными сразу два диапазона. Если какой-то диапазон не нужен, то снимите галочку рядом с ним.

Следующее окно предложит просмотреть сделанные настройки. Если все верно, то сохраните. В последнем окне предлагается создать или войти в свою учетную запись у этого производителя. Сделать это можно по своему желанию.

Ручная настройка

Если по какой-то причине вы пропустили этап быстрой настройки, то провести установку параметров можно в ручном режиме. В верхнем окне щелкните по «Базовой настройке». В левой колонке выберите «Интернет». Откроется окно, которое идентично тому, что было в автонастройке.

интернет

В правом окне кликните по верхней строке и выберите свой тип подключения. Здесь введите логин и пароль, а также остальные данные, нужные для подключения. Если такая настройка не устраивает вашего провайдера и есть что-то еще из параметров, то перейдите в «Дополнительные настройки» — «Сеть» — «Интернет».

дополнительно

Здесь гораздо больше параметров, которые настраиваются. Не советую здесь что-то менять, если этого не указано в инструкции от вашего провайдера или вы не знаете точно, что делаете. При неправильной настройке подключение не заработает или будет работать с перебоями и нестабильно.

Здесь же, в разделе «Сеть» находится настройка IPTV. Если телевизор не заработал автоматически, то перейдите в этой раздел. Сверху выберите протокол igmp, если он используется. Можете оставить стандартную настройку. Потом поставьте галочку у IPTV и выберите в списке порт, к которому подключается телевизор.

iptv

Wi-Fi

Простая настройка, которой достаточно для использования беспроводной сети, сразу находится в «Базовой настройке» — «Беспроводной режим». Здесь задайте имя сети и пароль, а также включите или отключите нужные диапазоны.

wifi

В разделе дополнительных настроек также есть параметры. В «Настройке беспроводного режима» есть опции выбора канала, его ширины, типа шифрования и режима работы. По стандарту там стоят оптимальные функции, которые подойдут всем. Если есть желание изменить настройки, то это делается здесь.

доп

Здесь же задается режим подключения через WPS (авторизация по нажатию кнопки на роутере) и можно посмотреть статистику подключений.

Прошивка

Чтобы избежать сбоев в работе, лучше обновлять встроенное программное обеспечение. Новые функции в старые модели производитель добавляет редко. Новые прошивки исправляют ошибки, которые были выявлены в ходе эксплуатации или были найдены самой компанией. Фанатично гнаться за обновлениями прошивки не стоит, но периодическая проверка не помешает. Для этого перейдите в «Дополнительные настройки» — «Системные инструменты» — «Обновление встроенного ПО».

Обновления

Нажмите на кнопку «Проверить наличие обновлений». Дождитесь завершения процедуры. Если они есть, то нажмите на «Обновить», роутер перезагрузится. В разделе «Обновление вручную» укажите путь до загруженного файла. Так делают и с официальными обновлениями и с кастомными прошивками.

В разделе «Дополнительные настройки» — «Системные инструменты» — «Администрирование», также можно сменить пароль на новый.

Сброс настроек

Если роутер куплен с рук, вы забыли пароль или что-то накрутили в параметрах и теперь ничего не работает, то лучше провести сброс настроек. В этом случае все параметры вернутся в стандартный режим и придется провести полную настройку заново. Иногда это бывает единственными выходом. Версии прошивки обычно не сбрасываются. Для сброса параметров найдите сзади роутера кнопку «WPS/Reset». Однократное нажатие на неё используется для подключения к сети. Вам нужно нажать на кнопку и держать 10-15 секунд, пока роутер не начнет перезагружаться. Теперь снова настройте все параметры по инструкции.

Отзывы

Настало время поговорить об отзывах о Tp-Link Archer C9. В основном, люди сходятся в мнении, что это отличная модель роутера. Некоторые жалуются на отсутствие настенного крепления, но у этой модели оно есть с самых первых выпусков. Также бывают жалобы на то, что с некоторыми провайдерами маршрутизатор зависает или сбоит примерно раз в неделю, помогает только перезагрузка. Некоторым помогла установка европейской прошивки (выполняется с некоторыми трудностями, не всегда встает с первого раза) или обновление до последней версии российской прошивки.

Проблемно взаимодействует со старыми телефонами или ноутбуками. При наличии такого устройства в сети и стандартной настройке маршрутизатора начинается использовать стандарт g, который позволяет выдавать скорость только в 50Мбит/с. Здесь выходов несколько:

  • Повесить все старые устройства на диапазон 2.4, а новыми пользовать на 5 ГГц.
  • Выдать постоянный адрес старому устройству и принудительно поставить новый стандарт для всех остальных.

В последнем случае старый девайс все равно может иногда отваливаться. Решения для этой проблемы пока не придумали, кроме как использовать первый вариант. В нем принудительно выставляется самый старый режим на 2.4 ГГц и самый быстрый из тех, что поддерживают ваши устройства на 5 ГГц.

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