Updated Firmware on Luci Router No 4g

Updated Firmware on Luci Router No 4g

This device is Non RECOMMENDED for future utilize with OpenWrt
due to depression flash/ram.


if you intend to wink an upwards-to-date and secure OpenWrt version (18.06 or subsequently) onto information technology! See

4/32 alarm

for details.

i) This device does not have sufficient resource (wink and/or RAM) to provide secure and reliable operation.

This ways that fifty-fifty setting a password or changing simple network settings might not be possible whatever more, rendering the device effectively useless. See

OpenWrt on 4/32 devices

what you lot can do now.

2) OpenWrt support for this device will stop after 2019.

19.07 volition be the last official build for 4/32 devices. After xix.07, no farther OpenWrt images will be congenital for iv/32 devices. See

OpenWrt on iv/32 devices

what you can do at present.

This unbranded
RT5350F-based router is sold on Aliexpress from Chinese sellers for around 6 USD (shipped) as of July 2016. It has a tiny black or white housing near the size of a lighter, with silkscreened print “3G/4G Router 150M”.

With its pocket-sized size (62 mm 10 24 mm 10 14.five mm) and its low price tag, it is certainly 1 of the smallest and cheapest router onto which you can install OpenWrt.

However, this router has some drawbacks: retention (both DRAM and Flash) is express, and actual hardware and firmware tin can vary a lot, fifty-fifty when purchased from the same vendor.

Basically, a offset device has been designed to fit into the given housing, based on the original Ralink RT5350F reference blueprint, with the goal to make a 3G/4G 150M Wi-Fi router (don’t be mistaken, 3G/4G is when you adhere an external 3G/4G USB dongle to it!). The resulting PCB has been copied and is populated during “gray shifts” using whatsoever components are at hand, and sold unbranded on Aliexpress to make a small profit.

Equally of OpenWrt trunk r43793 information technology is supported by the Image Generator. Depending on the stock firmware, an OpenWrt prototype may successfully exist flashed from the stock firmware
or from the limited stock command Shell without having to open up the device or mess with uboot manually.

Updated Firmware on Luci Router No 4g


Install OpenWrt (generic explanation)

Be aware that these unbranded routers come with very unlike stock firmwares:

Based on this sad situation, the best way to install OpenWrt on this router may vary. Fifty-fifty if you lot accept similar devices with same packaging from aforementioned vendor, you lot may have to endeavour successively several methods to find out which one actually works.

First, make sure y’all actually have this device and not some other one. The all-time fashion is to open it upward (simply pry it open with your fingernails or with a pry tool) and check for the A5-V11 marker on the lesser left corner of the PCB, close to the Ethernet connector. If you don’t desire to mess with the plastics you can too bank check for the actual version via telnet past following the procedure below.

With the factory firmware, just connect the router with an Ethernet cable to a network. The device volition switch on the bluish and carmine LEDs. Find out the device’due south
address from your
server, and log into the router via telnet:

BoC Login: admin Password: admin   BusyBox v1.12.1 (2013-06-twenty 00:48:37 HKT) built-in shell (msh) Enter 'help' for a list of built-in commands.   BoC Router>

The factory firmware is very limited; about commands are disabled (but see below for how to change this).

BoC Router> aid    ?                   ->Display help information.  help                ->Display assistance information, same as '?' command.  clear               ->Clear various talbes, type clear for aid.  ping                ->ping HOST, type ping for help.  traceroute          ->road trace, type traceroute for help.  ipmac               ->ip mac bind settings.  quit                ->Close terminal session.  show                ->Brandish diverse talbes information, type show for help.  restart_httpd       ->Restart spider web server.  restore_defaults    ->Restore the config to the default factory value.  ated                ->run ated for MP test.   BoC Router> show system revision     software version: 2.1.three.8      production model: Mifi-Storage-3G      serial number: ZJL2014XXXXX   hardware version: i.0   f/west release engagement: Aug. 23, 2013 xv:27:22

If you desire to access a full shell, here’s how (thanks Whiterat):

BoC Router> cat /proc/cmdline Unknow command BoC Router> runshellcmd crush mode on BoC Router> cat /proc/cmdline console=ttyS1,57600n8 root=/dev/ram0

Chinese Factory Firmware

Using your browser, open the device’s home page. I flashed OpenWrt Anarchy Calmer 15.05 using the stock web interface of the device. Just connect the router with an Ethernet cable to a network, information technology volition switch on the blue and reddish LEDs. Find the device’s
accost from your
server, and log into the device using your web browser.



Switch the language to English from the drop downward menu. It redirects to a wrong
address, and then type the correct one again in the
field of the browser. Using the Administrator → Firmware bill of fare, flash

Wait for a success message to announced.

Thereafter, the router is waiting for yous to log in with telnet and no countersign via Ethernet on
accost 192.168.1.i. To access this, set up your reckoner’s
accost to 192.168.ane.ii subnet You can ever enter OpenWrt failsafe mode, plug in power, wait until the ruby-red light disappears, and so press the button a couple of times.

English language (QualComm) Factory Firmware

Instructions taken from

Fastest and simples method when firmware update using spider web browser is unsuccessful.

You need:

  1. Download

    1. u-kick
      256 in file name means 32M RAM, 128 means 16M RAM. Act appropriately.

  2. Copy them to USB drive, rename OpenWrt paradigm to firmware.bin

  3. Connect your Linux laptop/PC to the mini router via Ethernet and ability up the mini router

  4. Connect the USB Wink drive to the mini router

  5. Telnet to the mini router with the following command:

  6. Mountain the USB wink drive with the following command:

  7. Wait a few seconds and verify that you see files

  8. Upgrade uboot – be careful, practise not reset router during and after this performance !

  9. Upgrade firmware – do non reset router during this operation!

  10. Reboot router with the following command.

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Alternative images and u-boots:


* Note. 1.This uboot256.img does not support emergency firmware restore via tftp. 2. “Reset” pressed on kick don’t work (GPIO incorrect).


* Note. mini_luci_web_wifi.bin does not have
address in preinit failsafe mode (pressed reset when blink led on firmware kicking)

* Note. You might want to update this image later flashing. In this case, run something similar this on your router

Once y’all accept OpenWrt on your device, so yous tin can utilise the OpenWrt
machinery to load sysupgrade images.

Since this device but has 4MB of Flash, you may want to attach a USB flash bulldoze and configure
extroot_configuration. Very small flash drives like the
SanDisk Ultra Fit
are well suited for this purpose. In one case extroot is configured, you will have plenty of room to install
or whatever other package you similar. You lot can even install gcc and build software natively.

Unfortunately, the Anarchy Calmer sysupgrade
which does not exit enough room to install the kmod-fs-ext4, kmod-usb-storage and cake-mountain packages which are
required for extroot. Therefore, you lot volition need to build a custom epitome using the
OpenWrt Epitome Generator. The OpenWrt Epitome Generator defaults volition create a
image which will leave enough room to install the kmod-fs-ext4, kmod-usb-storage and cake-mount packages to configure extroot. Please see instructions below.

wget http://downloads.openwrt.org/chaos_calmer/15.05/ramips/rt305x/OpenWrt-ImageBuilder-15.05-ramips-rt305x.Linux-x86_64.tar.bz2 tar xfj OpenWrt-ImageBuilder-xv.05-ramips-rt305x.Linux-x86_64.tar.bz2 cd OpenWrt-ImageBuilder-15.05-ramips-rt305x.Linux-x86_64 make prototype Profile="A5-V11"

The OpenWRT sysupgrade prototype has been successfully loaded over serial using U-Boot. You lot will need to setup a
server for transfer of the image, dnsmasq has been successfully tested: create a folder and place the sysupgrade image in this folder (rename the image to a shorter name ie openwrt.bin), the post-obit command will start a tftp server nether dnsmasq:

root@localhost:~# dnsmasq --port=0 --enable-tftp eth0 --tftp-root=/your/binder

Boot the device with serial continued and at the U-Boot menu press 2. You will exist asked for an ip to assign to the device, an ip for the server, and lastly the file name of the image.

Note: This procedure was performed with the modified bootloader (uboot256.img) already flashed; it’s unclear if this will work with the stock bootloader.

  1. Obtain a known working sysupgrade image and rename information technology to firmware.bin

  2. Hold down the reset button while powering up the device, the blue LED should showtime flashing

  3. Connect the ethernet cable and fix your host

  4. tftp firmware.bin to 192.168.1.i (ensure that binary mode is used!)

  5. The device should automatically restart, running the provided firmware

$ tftp 192.168.ane.ane tftp> mode binary tftp> put firmware.bin Sent 3670187 bytes in 10.9 seconds



PCB mark next to the Ethernet port may be “A5-V11” or “MIFI”. On the PCB it has a W9825G6EH-75 or EM63A165TS-6G RAM (32
MB) RAM chip and 4
SPI ROM. Ethernet MAC accost starts with 2C:67:FB:. 1 tin log in to stock firmware with “admin”/“admin” via telnet.

Note that there are very similar devices, east.g. HAME-branded and unbranded black ones, that share almost identical PCBs; however the components (including RAM size) can be different.

Compages MIPS 24kc
Vendor Unbranded
bootloader uboot
System-On-Flake MediaTek/Ralink RT5350F
Ralink RT5350 MIPS 24KEc V4.12 @360
Wink-Chip Pm25LQ032
Wink size 4
RAM 32
(W9825G6EH-75 or EM63A165TS-6G) / SDR-166
Wireless Ralink integrated in SOC
Ethernet 1×100 Ralink integrated in SOC
USB Yes 1 x 2.0, EHCI
Serial Yep

To switch the device to Ethernet
client manner, do:

mount_root   passwd   /etc/init.d/dnsmasq terminate /etc/init.d/firewall end /etc/init.d/dnsmasq disable /etc/init.d/firewall disable   cat > /etc/config/network <<\EOF config interface 'loopback'         option ifname 'lo'         option proto 'static'         choice ipaddr ''         choice netmask ''  config interface 'lan0'         option ifname 'eth0'  config interface 'lan1'         pick ifname 'eth0.one'         pick proto 'dhcp'  EOF   sync   /etc/init.d/network reload

This device uses
for the
interface, rather than eth0 or eth1, so be aware of that in order for the wired Ethernet to work. Y’all demand to alter
accordingly or the device will not be accessible after flashing without using a serial adapter to unbrick (or perchance OpenWrt Failsafe). edit: doesn’t seem to exist the case with DD body anymore, had to gear up proto ‘dhcp’ on lan0 for my A5-V11… initially set it on lan1 like the configuration above, and lost admission.

Now connect the device to Ethernet and it volition fetch an
address with
DHCP, and it should exist possible to log in using ssh and the password just fix.

If the serial kicking panel shows

procd: Instance odhcpd::instance1 s in a crash loop six crashes, 0 seconds since last crash

and then you probably accept extraneous network interfaces in /etc/configuration/network.

At least 6 GPIOs can exist switched in software: numbers 8 and 22-26, as was tested with

(fifteen and 16 are TX and RX; these are not exported equally GPIOs) (these are connected to the TX and RX pads)

GPIOs can handle 4 mA max

There are iv solder pads inside the device.

If you lot put the PCB on the table with the USB jack to the left and the Ethernet jack to the right (Ralink CPU is on the other side of the board), yous see the four pads in the bottom-right corner of the PCB. They are (from left to correct):

  1. VCC (3.3V; do non connect)

  2. TX (connect to RXI on a 3.3V serial USB adapter)

  3. RX (connect to TXO on a 3.3V series USB adapter using a 470 Ohm to 1k Ohm resistor)

  4. GND (connect to GND on a 3.3V serial USB adapter)

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When you utilize a series USB adapter to RX on the device and and so power on the device, the device may hang and not proceed booting. Every bit a workaround, first ability on the device and only thereafter connect the RX cable. Apparently this tin can be solved by using a 470 Ohm to 1k Ohm resistor betwixt RX and the series USB adapter.

a5v11 routers have been proven to be a good solution for a inexpensive and easy deployable private secure phone network. Wifi and USB won’t be used. It is powerful enough to handle several simultaneously encrypted phone calls.

Just install an openvpn server somewhere and add a sip server of your pick (for example freeswitch or asterisk), make the sipserver but listen on the tun0 device (most probable The nice thing with the post-obit setup is, that y’all just don’t utilize routing/nat at all. The vpn network doesn’t have to exist reachable from the individual lans or vice versa, siproxd will handle all the cross-network things.

Getting a workable image within that tiny 4mb infinite is kind of tricky, simply works. The following is using openssl openvpn due to polar ssl behaving unstable with hardened openvpn settings.

nice -n 19 make image Profile=A5-V11 PACKAGES="openvpn-openssl  -ip6tables -kmod-ip6tables -kmod-ipv6 -ppp -ppp-modern-pppoe -odhcp6c -luci-proto-ipv6 -luci-proto-ppp siproxd -dnsmasq -opkg"

Setup steps:

generate a /etc/openvpn/openvpn.conf on the a5v11 (it volition exist started automatically)

client dev tun proto udp remote hostname 1194 resolv-retry infinite nobind user nobody group nogroup persist-key persist-tun mute-replay-warnings <ca> paste your ca certificate here </ca> <cert> paste your document here </cert> <cardinal> paste your private central here </key> ns-cert-type server <tls-auth> paste your ta.key here </tls-auth> fundamental-direction 1 cipher AES-256-CBC auth SHA256

conform the hostname to your liking (for example a5v11) in /etc/config/system
enable dhcp in /etc/config/network:

config interface 'lan'                                  option ifname 'eth0.i'                          option force_link '1'                           option macaddr 'aa:bb:cc:...' // any was in hither before               option type 'bridge'                            option proto 'dhcp'                        selection hostname 'a5v11'

configure siproxd in /etc/config/siproxd

config siproxd general 	option if_inbound	br-lan 	choice if_outbound	tun0

Now yous can just plug the a5v11 to some network and configure all sipclients to utilise this proxy.
Basically you just need the post-obit settings:
sip-registrar: 10.0.0.one (the sip-server on the vpn, the network doesn’t have to exist reachable, no demand for routing)
username/number: (whatever you created)
countersign: (whatever you generated)
proxy: a5v11

This is really working nifty on several fritzboxes (y’all can employ the usb port on the fritzbox to power the a5v11). Just mitt out some of these sticks and tell the users the username and password. It’s integrating very well with the existing telephones and you tin prepare the a5v11 sticks in advance as they are only for connecting the vpn network. The actual credentials for the phone server can be later generated on the fly. But a hint: Make sure to utilize a dns name and not an
as the openvpn customer host entry, so you could later drift the server to bigger hardware, if needed.

U-Kicking 1.1.7 (Dec xiii 2011 – 13:49:42) Board: Ralink APSoC DRAM: 32 MB relocate_code Pointer at: 81fb4000 spi_wait_nsec: 42 spi device id: 7f 9d 46 7f 9d (9d467f9d) Warning: un-recognized chip ID, please update bootloader! raspi_read: from:30000 len:1000 .*** Alert – bad CRC, using default environment ============================================ Ralink UBoot Version: 3.six.0.0 ——————————————– ASIC 5350_MP (Port5<->None) DRAM_CONF_FROM: Boot-Strapping DRAM_TYPE: SDRAM DRAM_SIZE: 256 Mbits DRAM_WIDTH: 16 bits DRAM_TOTAL_WIDTH: 16 bits TOTAL_MEMORY_SIZE: 32 MBytes Flash component: SPI Flash Engagement:Dec thirteen 2011 Time:13:49:42 ============================================ icache: sets:256, ways:4, linesz:32 ,full:32768 dcache: sets:128, ways:iv, linesz:32 ,total:16384 ##### The CPU freq = 360 MHZ #### gauge retentiveness size =32 Mbytes raspi_read: from:40028 len:6 . raspi_read: from:0 len:30004 ….*************Is_update = 0 plat = 1************** Please choose the operation: 1: Load system code to SDRAM via TFTP. 2: Load organization lawmaking and then write to Flash via TFTP. 3: Boot organization code via Wink (default). 4: Entr kicking command line interface. vii: Load Boot Loader code then write to Flash via Serial. 9: Load Boot Loader code then write to Flash via TFTP.  one  0 3: System Kick organization lawmaking via Flash. ## Booting image at bc050000 … raspi_read: from:50000 len:40 . Epitome Proper noun: MIPS OpenWrt Linux-3.14.27 Created: 2015-01-ten 14:26:49 UTC Image Type: MIPS Linux Kernel Paradigm (lzma compressed) Data Size: 1110484 Bytes = 1.1 MB Load Address: 80000000 Entry Point: 80000000 raspi_read: from:50040 len:10f1d4 …………….. Verifying Checksum … OK Uncompressing Kernel Paradigm … OK No initrd ## Transferring control to Linux (at address 80000000) … ## Giving linux memsize in MB, 32 Starting kernel … [ 0.000000] Linux version iii.14.27 (openwrt@gb-10) (gcc version four.8.3 (OpenWrt/Linaro GCC 4.8-2014.04 r43888) ) #one Fri January nine 12:xl:17 UTC 2015 [ 0.000000] SoC Type: Ralink RT5350 id:1 rev:3 [ 0.000000] bootconsole [early0] enabled [ 0.000000] CPU0 revision is: 0001964c (MIPS 24KEc) [ 0.000000] MIPS: machine is A5-V11 [ 0.000000] Determined physical RAM map: [ 0.000000] memory: 02000000 @ 00000000 (usable) [ 0.000000] Initrd not found or empty – disabling initrd [ 0.000000] Zone ranges: [ 0.000000] Normal [mem 0x00000000-0x01ffffff] [ 0.000000] Movable zone kickoff for each node [ 0.000000] Early on memory node ranges [ 0.000000] node 0: [mem 0x00000000-0x01ffffff] [ 0.000000] Primary educational activity cache 32kB, VIPT, 4-fashion, linesize 32 bytes. [ 0.000000] Master data cache 16kB, 4-way, VIPT, no aliases, linesize 32 bytes [ 0.000000] Built 1 zonelists in Zone gild, mobility grouping on. Total pages: 8128 [ 0.000000] Kernel control line: panel=ttyS0,57600 rootfstype=squashfs,jffs2 [ 0.000000] PID hash table entries: 128 (order: -3, 512 bytes) [ 0.000000] Dentry cache hash table entries: 4096 (order: 2, 16384 bytes) [ 0.000000] Inode-enshroud hash table entries: 2048 (order: ane, 8192 bytes) [ 0.000000] Writing ErrCtl register=0004f376 [ 0.000000] Readback ErrCtl register=0004f376 [ 0.000000] Retention: 29024K/32768K available (2437K kernel lawmaking, 122K rwdata, 472K rodata, 160K init, 183K bss, 3744K reserved) [ 0.000000] SLUB: HWalign=32, Social club=0-iii, MinObjects=0, CPUs=1, Nodes=1 [ 0.000000] NR_IRQS:256 [ 0.000000] CPU Clock: 360MHz [ 0.000000] systick: running – mult: 214748, shift: 32 [ 0.000000] genirq: Flags mismatch irq 7. 00014600 (timer) vs. 00014600 (systick) [ 0.010000] Calibrating delay loop… 479.23 BogoMIPS (lpj=2396160) [ 0.070000] pid_max: default: 32768 minimum: 301 [ 0.070000] Mount-cache hash tabular array entries: 1024 (order: 0, 4096 bytes) [ 0.080000] Mountpoint-cache hash table entries: 1024 (order: 0, 4096 bytes) [ 0.090000] pinctrl cadre: initialized pinctrl subsystem [ 0.090000] NET: Registered protocol family sixteen [ 0.120000] bio: create slab <bio-0> at 0 [ 0.120000] rt2880_gpio 10000600.gpio: registering 22 gpios [ 0.130000] rt2880_gpio 10000600.gpio: registering 22 irq handlers [ 0.130000] rt2880_gpio 10000660.gpio: registering 6 gpios [ 0.140000] rt2880_gpio 10000660.gpio: registering vi irq handlers [ 0.150000] Switched to clocksource systick [ 0.150000] NET: Registered protocol family 2 [ 0.170000] TCP established hash tabular array entries: 1024 (order: 0, 4096 bytes) [ 0.190000] TCP bind hash table entries: 1024 (order: 0, 4096 bytes) [ 0.190000] TCP: Hash tables configured (established 1024 bind 1024) [ 0.210000] TCP: reno registered [ 0.220000] UDP hash table entries: 256 (order: 0, 4096 bytes) [ 0.230000] UDP-Lite hash table entries: 256 (club: 0, 4096 bytes) [ 0.240000] Internet: Registered protocol family unit 1 [ 0.250000] rt-timer 10000100.timer: maximum frequency is 7324Hz [ 0.270000] futex hash table entries: 256 (social club: -one, 3072 bytes) [ 0.330000] squashfs: version iv.0 (2009/01/31) Phillip Lougher [ 0.330000] jffs2: version two.2 (NAND) (SUMMARY) (LZMA) (RTIME) (CMODE_PRIORITY) (c) 2001-2006 Reddish Lid, Inc. [ 0.360000] msgmni has been set to 56 [ 0.370000] io scheduler noop registered [ 0.380000] io scheduler deadline registered (default) [ 0.390000] gpio-consign gpio_export.half-dozen: 2 gpio(s) exported [ 0.400000] Serial: 8250/16550 driver, xvi ports, IRQ sharing enabled [ 0.430000] 10000c00.uartlite: ttyS0 at MMIO 0x10000c00 (irq = 20, base_baud = 2500000) is a 16550A [ 0.450000] console [ttyS0] enabled [ 0.450000] panel [ttyS0] enabled [ 0.470000] bootconsole [early0] disabled [ 0.470000] bootconsole [early0] disabled [ 0.490000] m25p80 spi32766.0: pm25lq032 (4096 Kbytes) [ 0.510000] four ofpart partitions found on MTD device spi32766.0 [ 0.510000] Creating iv MTD partitions on “spi32766.0”: [ 0.530000] 0x000000000000-0x000000030000 : “u-kick” [ 0.530000] 0x000000030000-0x000000040000 : “u-boot-env” [ 0.550000] 0x000000040000-0x000000050000 : “factory” [ 0.570000] 0x000000050000-0x000000400000 : “firmware” [ 0.590000] two uimage-fw partitions establish on MTD device firmware [ 0.610000] 0x000000050000-0x00000015f214 : “kernel” [ 0.620000] mtd: sectionalisation “kernel” must either start or end on erase block boundary or be smaller than an erase block — forcing read-only [ 0.650000] 0x00000015f214-0x000000400000 : “rootfs” [ 0.650000] mtd: partitioning “rootfs” must either kickoff or end on erase block boundary or be smaller than an erase block — forcing read-just [ 0.690000] mtd: device v (rootfs) ready to be root filesystem [ 0.690000] 1 squashfs-split partitions plant on MTD device rootfs [ 0.710000] 0x000000330000-0x000000400000 : “rootfs_data” [ 0.730000] ralink_soc_eth 10100000.ethernet eth0: ralink at 0xb0100000, irq 5 [ 0.750000] rt3xxx-usbphy usbphy.3: loaded [ 0.760000] rt2880_wdt 10000120.watchdog: Initialized [ 0.780000] TCP: cubic registered [ 0.780000] Net: Registered protocol family 17 [ 0.780000] Bridge firewalling registered [ 0.800000] 8021q: 802.1Q VLAN Support v1.8 [ 0.820000] VFS: Mounted root (squashfs filesystem) readonly on device 31:5. [ 0.820000] Freeing unused kernel memory: 160K (802f8000 – 80320000) procd: Console is alive procd: – watchdog – [ six.730000] usbcore: registered new interface driver usbfs [ 6.750000] usbcore: registered new interface commuter hub [ vi.760000] usbcore: registered new device driver usb [ half dozen.780000] ehci_hcd: USB two.0 ‘Enhanced’ Host Controller (EHCI) Commuter [ half-dozen.800000] ehci-platform: EHCI generic platform driver [ 7.200000] rt3xxx-usbphy usbphy.3: remote usb device wakeup disabled [ seven.220000] rt3xxx-usbphy usbphy.3: UTMI 16bit 30MHz [ 7.230000] ehci-platform 101c0000.ehci: EHCI Host Controller [ 7.250000] ehci-platform 101c0000.ehci: new USB bus registered, assigned jitney number 1 [ 7.250000] ehci-platform 101c0000.ehci: irq 26, io mem 0x101c0000 [ vii.290000] ehci-platform 101c0000.ehci: USB 2.0 started, EHCI i.00 [ seven.310000] hub 1-0:1.0: USB hub plant [ 7.310000] hub 1-0:1.0: ane port detected [ 7.330000] ohci_hcd: USB 1.1 ‘Open’ Host Controller (OHCI) Driver [ vii.350000] ohci-platform: OHCI generic platform commuter [ 7.350000] ohci-platform 101c1000.ohci: Generic Platform OHCI controller [ 7.370000] ohci-platform 101c1000.ohci: new USB charabanc registered, assigned motorcoach number 2 [ 7.370000] ohci-platform 101c1000.ohci: irq 26, io mem 0x101c1000 [ 7.700000] hub 2-0:i.0: USB hub found [ 7.700000] hub 2-0:ane.0: i port detected procd: – preinit – [ ix.830000] rt305x-esw 10110000.esw: link changed 0x00 [ 9.990000] random: mktemp urandom read with 70 bits of entropy available Press the [f] key and hit [enter] to enter failsafe mode Press the [1], [2], [3] or [4] cardinal and hit [enter] to select the debug level [ 11.300000] rt305x-esw 10110000.esw: link changed 0x01 jffs2 is set No jffs2 marking was found [ 13.810000] jffs2: notice: (313) jffs2_build_xattr_subsystem: complete building xattr subsystem, 15 of xdatum (i unchecked, xiv orphan) and 23 of xref (0 dead, 16 orphan) found. switching to overlay procd: – early – procd: – watchdog – procd: – ubus – procd: – init – [ 17.300000] NET: Registered protocol family x [ 17.320000] ip6_tables: (C) 2000-2006 Netfilter Core Squad [ 17.350000] Loading modules backported from Linux version chief-2014-11-04-0-gf3660a2 [ 17.370000] Backport generated by backports.git backports-20141023-2-g4ff890b [ 17.390000] ip_tables: (C) 2000-2006 Netfilter Core Team [ 17.430000] nf_conntrack version 0.five.0 (456 buckets, 1824 max) [ 17.510000] xt_time: kernel timezone is -0000 [ 17.560000] cfg80211: Calling CRDA to update globe regulatory domain [ 17.590000] cfg80211: Earth regulatory domain updated: [ 17.600000] cfg80211: DFS Master region: unset [ 17.610000] cfg80211: (start_freq – end_freq @ bandwidth), (max_antenna_gain, max_eirp), (dfs_cac_time) [ 17.630000] cfg80211: (2402000 KHz – 2472000 KHz @ 40000 KHz), (N/A, 2000 mBm), (Due north/A) [ 17.650000] cfg80211: (2457000 KHz – 2482000 KHz @ 40000 KHz), (N/A, 2000 mBm), (N/A) [ 17.660000] cfg80211: (2474000 KHz – 2494000 KHz @ 20000 KHz), (N/A, 2000 mBm), (Northward/A) [ 17.680000] cfg80211: (5170000 KHz – 5250000 KHz @ 80000 KHz), (N/A, 2000 mBm), (North/A) [ 17.700000] cfg80211: (5250000 KHz – 5330000 KHz @ 80000 KHz, 160000 KHz AUTO), (N/A, 2000 mBm), (0 s) [ 17.710000] cfg80211: (5490000 KHz – 5730000 KHz @ 160000 KHz), (Northward/A, 2000 mBm), (0 s) [ 17.730000] cfg80211: (5735000 KHz – 5835000 KHz @ 80000 KHz), (N/A, 2000 mBm), (Due north/A) [ 17.750000] cfg80211: (57240000 KHz – 63720000 KHz @ 2160000 KHz), (Due north/A, 0 mBm), (N/A) [ 17.850000] PPP generic driver version 2.four.2 [ 17.850000] NET: Registered protocol family 24 [ 17.870000] ieee80211 phy0: rt2x00_set_rt: Info – RT chipset 5350, rev 0500 detected [ 17.870000] ieee80211 phy0: rt2x00_set_rf: Info – RF chipset 5350 detected procd: – init complete – [ 29.380000] random: nonblocking puddle is initialized

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