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The CTS HES-3106, HES-3109 and HES-3112 series are a line of managed fiber media converters/switches used in FTTX (fiber to the X) installations. Out of the box they support QoS, 802.1q, 802.1ad (Q-in-Q), IGMP snooping and auto-provisioning (firmware and configuration) via DHCP.
The HES-3106 is built around a 5V Technologies 5VT1310 SoC with a 300MHz ARM926EJS core, 32MB synchronous DRAM (Zentel A3V56S40GTP) and a Lattice LC4032V-75TN Series CPLD. The switch is an Atheros AR8327 seven-port managed Layer 3 gigabit switch with hardware NAT.
It seems to run on a vendor-supplied Linux 2.6.17 (June, 2006) kernel.
Root access to the device can trivially be obtained locally via the DHCP auto-provisioning feature.
In their DHCP requests, the devices include a Vendor Class Identifier (DHCP option 60) option containing their model name (e.g. HES-3106-RF).
A DHCP server may reply with a Vendor-Specific Information (DHCP option 43) option that describes the location of the latest firmware and configuration file, and if the device should update itself immediately.
When the device receives a DHCP ACK with option 43 it will compare the MD5 hash of its current firmware and configuration to those mentioned in the offer. If either do not match, the device will make up to three attempts of updating itself to the latest firmware and/or configuration before giving up.
Here's an example of the structure that can be sent in option 43, in ISC DHCP lingo:
option space SWITCH;
option SWITCH.protocol code 1 = unsigned integer 8;
option SWITCH.server-ip code 2 = ip-address;
option SWITCH.server-login-name code 3 = text;
option SWITCH.server-login-password code 4 = text;
option SWITCH.firmware-file-name 5 = text;
option SWITCH.firmware-md5 code 6 = string;
option SWITCH.configuration-file-name code 7 = text;
option SWITCH.configuration-md5 code 8 = string;
# 16 bit option (bit 0: Urgency; bit 1-15 reserved)
option SWITCH.option code 9 = unsigned integer 16;
option SWITCH.protocol = 0; // 0:TFTP, 1:FTP
option SWITCH.server-ip = 1.2.3.4;
option SWITCH.server-login-name = "";
option SWITCH.server-login-password = "";
A more complete example in for dnsmasq.conf format:
interface=eno1
bind-interfaces
dhcp-range=33.0.0.10,33.0.0.100,10m
# Match DHCP option 60 vendor class identifier "HES-3106" and send
# back the following structure in DHCP option 43:
# option 1 (data) : 00 for TFTP, 01 for FTP
# option 2 (IP) : TFTP server IP
# option 3 (text) : FTP username
# option 4 (text) : FTP password
# option 5 (text) : firmware filename
# option 6 (data) : MD5 of firmware
# option 7 (text) : config filename
# option 8 (data) : MD5 of config (text plus zero padding up to 256KB)
# option 9 (data) : 00:01 for urgency (immediate reboot), 00:00 otherwise
# To obtain the MD5 hashes, try: openssl dgst -md5 -c < file.txt
dhcp-option=vendor:HES-3106,1,00,2,33.0.0.1,5,"HES-3106_1.02.01_20130315-1749.bin",6,ea:96:82:a3:85:b3:57:d1:41:67:62:cb:d0:15:6f:a7,7,"HS_0600_file.conf",8,ea:56:fc:e4:d1:19:0f:bb:d3:6e:ea:4c:c1:1e:e8:d6,9,00:01
log-dhcp
enable-tftp
tftp-secure
tftp-root=/tftpboot
Knowing this we can obtain a copy of the ISP's switch configuration with the following steps.
- Disconnect the fiber from the top-right SC (Subscriber Connector) connector.
- Reset the switch to factory defaults by putting a paper clip into the hole on the right side and press the reset button for 10-15 seconds
- The switch will attempt to obtain an IP from a DHCP server on all ports so make sure it gets one (e.g. using dnsmasq)
- Telnet to the switch's IP and login using user "admin" and just hit return when asked for a password
- Use
enableto enter privileged mode - Turn on port-mirroring using the
mirrorset of commands - Save the updated config using the
writecommand - Start sniffing the traffic on the mirror destination port
- Reboot the switch and watch it obtain a new configuration from the ISP's TFTP-server
Example session:
$ telnet 33.0.0.10
Trying 33.0.0.10...
Connected to 33.0.0.10.
Escape character is '^]'.
Username: admin
Password:
HES-3106-RF> en
Password:
HES-3106-RF# configure
HES-3106-RF(config)# mirror source 2,3,4,6
HES-3106-RF(config)# mirror destination 5
HES-3106-RF(config)# mirror mode by-port
HES-3106-RF(config)# show mirror
===============================================================================
Mirror Information :
===============================================================================
Mirror Mode : by-port
Destination Port : port5
Source Port:
Port State
---- -------
1 disable
2 enable
3 enable
4 enable
5 disable
6 enable
HES-3106-RF(config)# exit
HES-3106-RF# write
Save Config Succeeded!
HES-3106-RF#
On a related note, the device is claimed to support a final SNMP trap when power is cut to aid ISP customer service. The firmware contains a dyingGasp executable with a corresponding kernel module. Example:
$ qemu-arm -L $PWD usr/sbin/dyingGasp
error occur
USAGE usr/sbin/dyingGasp:
ex . usr/sbin/dyingGasp -en 1 -th 192.168.0.86 -tc public -oid 1.9304.100.2126.9 -if eth1 -ti 5
-en : Enable(1) /Disable(0) dying Gasp
-if : Specify output interface of network
-ti : Prepare packet of trap of dying gasp according specified times (secs)
-th : Snmp server ip
-tc : Community
-oid: Object id
Once you've obtained a copy of the "production" configuration, feel free to modify it to suit your needs. For example, you might want to turn off a few SNMP traps and modify one or more access ports so they also accept tagged traffic for the management vlan. Or adding more VLANs to trunk ports so you can investigate what else might be hiding in the network.
You can modify the "production" configuration offline and later restore it to the switch using a command similar to copy-cfg from tftp 33.0.0.1 HS_0600_file.conf (after repeating steps 1-5 in the previous section).
Assuming you're not using port-based VLAN mode, here's an example for howto make a port become a hybrid port which accepts untagged traffic for vlan 105 and tagged traffic for vlan 6.
HES-3106-RF> en
Password:
HES-3106-RF# configure
HES-3106-RF(config)# no snmp-server trap-type
HES-3106-RF(config)# snmp-server trap-type auth-fail
HES-3106-RF(config)# interface 5
HES-3106-RF(config-if-5)# mode trunk native
HES-3106-RF(config-if-5)# vlan dot1q-vlan access-vlan 105
HES-3106-RF(config-if-5)# vlan dot1q-vlan trunk-vlan 6
HES-3106-RF(config-if-5)# exit
To view the VLAN configuration, use show vlan interface and show vlan dot1q-vlan. Example output:
HES-3106-RF# show vlan interface
===============================================================================
IEEE 802.1q Tag VLAN Interface :
===============================================================================
Port Port VLAN ID Port User Priority Port VLAN Mode
---- ------------ ------------------ --------------
1 101 0 trunk native
2 102 0 trunk native
3 103 0 trunk native
4 104 0 trunk native
5 105 0 trunk native
6 1 0 trunk
HES-3106-RF# show vlan dot1q-vlan
===============================================================================
IEEE 802.1q Tag VLAN :
===============================================================================
VLAN Mode : Tag VLAN
CPU VLAN ID : 6
Management Priority : 3
VLAN Name VLAN 1 6 CPU
--------------- ---- ------ ---
Default_VLAN 1 VVVVVV -
101 101 V----V -
102 102 VV---- -
103 103 V-V--- -
104 104 V--V-- -
105 105 V---VV -
Management 6 VVVVVV V
To emulate a HES-3106-RF switch's DHCP request on a computer connected to a trunk port, try:
ip link add link eno1 name eno1.1 type vlan id 1
ip link set dev eno1.1 up
dhclient -V HES-3106-RF -H HES-3106-RF --request-options subnet-mask,broadcast-address,time-offset,routers,domain-search,domain-name,domain-name-servers,host-name,nis-domain,nis-servers,ntp-servers,interface-mtu,vendor-encapsulated-options eno1.1
Some tools may be required for development and debugging.
sudo dnf group install -y 'Development Tools'
sudo dnf install -y zlib-devel xz-devel lzo-devel arm-none-eabi-gdb arm-none-eabi-gcc-cs gcc-arm-linux-gnu gcc-c++-arm-linux-gnu qemu-system-arm
sudo dnf install -y ncurses-devel perl-Thread-Queue
The layout of firmware files are as follows, with little-endian integers.
/**
* 12 byte header:
* - checksum (additive)
* - size of install script payload
* - size of firmware flasher payload
*/
uint32_t fw_checksum;
uint32_t fw_start_install_size;
uint32_t fw_install_size;
/**
* Installation tools payload:
* - start_install.sh frees up memory by killing most processes and takes
* care of updating the MTD (Flash) partitions using the fw_install tool.
* - fw_install takes care of flashing the /dev/mtd/X (flash) partitions
*/
uint8_t fw_start_install_data[fw_start_install_size];
uint8_t fw_install_data[fw_install_size];
/**
* 12 byte header:
* - size of kernel image
* - size of rootfs image (SquashFS 2.1+LZMA little-endian)
* - size of flash config image (JFFS2)
*/
uint32_t kimage_size;
uint32_t rimage_size;
uint32_t cimage_size;
/*
* Flash partitions payload:
* - u-boot legacy uImage for /dev/mtdblock/1
* - root fs (SquashFS 2.1+LZMA, little-endian)) for /dev/mtdblock/2
* - /flash config filesystem (JFFS2) for /dev/mtdblock/3
*/
uint8_t kimage_data[kimage_size];
uint8_t rimage_data[rimage_size];
uint8_t cimage_data[cimage_size];
Some of the more recent (late 2015) firmwares also seem to embed a MD5 hash inside the start_install.sh script:
# VERSION 5025 6000 10300 66079
#!/bin/sh
#kv26
#BELOW CODE DONT CHANGE , MAKEFILE WILL CHANGE IT.
CtSmD5FoR5Vt="c525cb54a583d3f85f60afa9ac351167"
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#res
#ABOVE CODE DONT CHANGE , MAKEFILE WILL CHANGE IT.
This repo contains a small Python script to help with unpacking and packing firmware images. However, it will not automatically update the MD5 hash in the start_install.sh script in newer firmware images.
Usage:
$ ./cts-fw-tool.py
Usage: ./cts-fw-tool.py <command> <args>
./cts-fw-tool.py unpack <input.fw>
./cts-fw-tool.py pack <output.fw> <start_install.sh> <fw_install> <kernel.img> <rootfs.sfs>
Unpacking an image:
$ ./cts-fw-tool.py unpack HPS-3106_FW_0.99.06_20170310.bin
[i] Unpacking HPS-3106_FW_0.99.06_20170310.bin
[i] Reading 12 byte header...
[+] Header checksum: 0x77c05580
[+] Header start_install.sh size: 0x000031bb (12731)
[+] Header fw_install size: 0x00001de4 (7652)
[i] Computing firmware checksum...
[+] Computed checksum: 0x77c05580
[+] Saved 12731 bytes payload as: out_start_install.sh
[+] Saved 7652 bytes payload as: out_fw_install
[i] Reading 12 bytes header...
[+] Header kernel.img size: 0x000b5ada (744154)
[+] Header rootfs.sfs size: 0x0025474a (2443082)
[+] Header cimage size: 0x00000000 (0)
[+] Saved 744154 bytes payload as: out_kernel.img
[+] Saved 2443082 bytes payload as: out_rootfs.sfs
$ ls -l out_*
-rw-------. 1 nobody nogroup 7652 Jan 1 03:34 out_fw_install
-rw-------. 1 nobody nogroup 744154 Jan 1 03:34 out_kernel.img
-rw-------. 1 nobody nogroup 2443082 Jan 1 03:34 out_rootfs.sfs
-rw-------. 1 nobody nogroup 12731 Jan 1 03:34 out_start_install.sh
$ file out_*
out_fw_install: ELF 32-bit LSB executable, ARM, version 1 (ARM), dynamically linked, interpreter /lib/ld-uClibc.so.0, stripped
out_kernel.img: u-boot legacy uImage, Linux-2.6.17, Linux/ARM, OS Kernel Image (lzma), 744090 bytes, Fri Nov 4 08:57:35 2016, Load Address: 0x40008000, Entry Point: 0x40008000, Header CRC: 0x830841A4, Data CRC: 0x7DFB5109
out_rootfs.sfs: Squashfs filesystem, little endian, version 2.1, 2443082 bytes, 878 inodes, blocksize: 65536 bytes, created: Fri Mar 10 06:51:53 2017
out_start_install.sh: ASCII text
Packing a new firmware image:
$ ./cts-fw-tool.py pack repackaged-firmware.bin out_start_install.sh out_fw_install out_kernel.img out_rootfs.sfs
[i] Writing 12 byte header...
[+] Header checksum: 0x00000000
[+] Header start_install.sh size: 0x000031bb (12731)
[+] Header fw_install size: 0x00001de4 (7652)
[i] Writing install payloads...
[+] Wrote 12731 bytes payload from file: out_start_install.sh
[+] Wrote 7652 bytes payload from file: out_fw_install
[i] Writing 12 byte header...
[+] Header kernel.img size: 0x000b5ada (744154)
[+] Header rootfs.sfs size: 0x0025474a (2443082)
[+] Header cimage size: 0x00000000 (0)
[i] Writing image payloads...
[+] Wrote 744154 bytes payload from file: out_kernel.img
[+] Wrote 2443082 bytes payload from file: out_rootfs.sfs
[i] Computing firmware checksum...
[+] Updating checksum in header: 0x77c05580
$ md5sum HPS-3106_FW_0.99.06_20170310.bin repackaged-firmware.bin
cfeafca340cd21fe1d05271027ce1e1e HPS-3106_FW_0.99.06_20170310.bin
cfeafca340cd21fe1d05271027ce1e1e repackaged-firmware.bin
The root filesystem is a SquashFS 2.1 image with non-standard LZMA compression. While modern versions of SquashFS supports LZMA, it wasn't until Linux 2.6.38 (March, 2011) full support went into mainline. A popular source for the older SquashFS 2.x tools with LZMA support patched in is the Firmware Mod Kit.
$ git clone https://github.com/mirror/firmware-mod-kit
$ cd firmware-mod-kit/src/squashfs-2.1-r2
$ make # build mksquashfs-lzma and unsquashfs-lzma
Extracting, modifying and rebuilding a firmware image:
$ ./cts-fw-tool.py unpack HES-3106_1.02.01_20130315-1749.bin
[i] Unpacking HES-3106_1.02.01_20130315-1749.bin
[i] Reading 12 byte header...
[+] Header checksum: 0xafae97a2
[+] Header start_install.sh size: 0x00000ba9 (2985)
[+] Header fw_install size: 0x00001de4 (7652)
[i] Computing firmware checksum...
[+] Computed checksum: 0xafae97a2
[+] Saved 2985 bytes payload as: out_start_install.sh
[+] Saved 7652 bytes payload as: out_fw_install
[i] Reading 12 bytes header...
[+] Header kernel.img size: 0x000b47b9 (739257)
[+] Header rootfs.sfs size: 0x00213ef9 (2178809)
[+] Header cimage size: 0x00000000 (0)
[+] Saved 739257 bytes payload as: out_kernel.img
[+] Saved 2178809 bytes payload as: out_rootfs.sfs
$ sudo ~/src/firmware-mod-kit/src/squashfs-2.1-r2/unsquashfs-lzma -dest /tmp/r out_rootfs.sfs
created 515 files
created 49 directories
created 243 symlinks
created 0 devices
created 0 fifos
Let's add another root account named toor and start the telnetd service on port 24 in /etc/init.d/rc.
$ echo toor:$(openssl passwd -1 -salt '' -stdin <<< s3cr3t):0:0::/:/bin/ash | sudo tee -a /tmp/r/etc/passwd
toor:$1$$8wfgbw8tWcF1NeJjBFZit1:0:0::/:/bin/ash
$ sudo sed -i '/hostname localhost/a telnetd -p 24' /tmp/r/etc/init.d/rc
Build the new root filesystem and firmware.
$ sudo ~/src/firmware-mod-kit/src/squashfs-2.1-r2/mksquashfs-lzma /tmp/r new_rootfs.sfs -le
Creating little endian 2.1 filesystem on new_rootfs.sfs, block size 65536.
Little endian filesystem, data block size 65536, compressed data, compressed metadata, compressed fragments
Filesystem size 2123.19 Kbytes (2.07 Mbytes)
27.39% of uncompressed filesystem size (7750.72 Kbytes)
Inode table size 4508 bytes (4.40 Kbytes)
25.23% of uncompressed inode table size (17868 bytes)
Directory table size 5747 bytes (5.61 Kbytes)
55.33% of uncompressed directory table size (10387 bytes)
Number of duplicate files found 25
Number of inodes 807
Number of files 515
Number of fragments 45
Number of symbolic links 243
Number of device nodes 0
Number of fifo nodes 0
Number of socket nodes 0
Number of directories 49
Number of uids 1
root (0)
Number of gids 0
$ sudo chmod +r new_rootfs.sfs
$ ./cts-fw-tool.py pack repackaged-firmware.bin out_start_install.sh out_fw_install out_kernel.img new_rootfs.sfs
[i] Packing repackaged-firmware.bin
[i] Writing 12 byte header...
[+] Header checksum: 0x00000000
[+] Header start_install.sh size: 0x00000ba9 (2985)
[+] Header fw_install size: 0x00001de4 (7652)
[i] Writing install payloads...
[+] Wrote 2985 bytes payload from file: out_start_install.sh
[+] Wrote 7652 bytes payload from file: out_fw_install
[i] Writing 12 byte header...
[+] Header kernel.img size: 0x000b47b9 (739257)
[+] Header rootfs.sfs size: 0x00213000 (2174976)
[+] Header cimage size: 0x00000000 (0)
[i] Writing image payloads...
[+] Wrote 739257 bytes payload from file: out_kernel.img
[+] Wrote 2174976 bytes payload from file: new_rootfs.sfs
[i] Computing firmware checksum...
[+] Updating checksum in header: 0xfe724bc0
$ ls -l HES-3106_1.02.01_20130315-1749.bin repackaged-firmware.bin
-rw-------. 1 nobody nogroup 2928727 Mar 10 14:52 HES-3106_1.02.01_20130315-1749.bin
-rw-------. 1 nobody nogroup 2924894 Jan 1 04:27 repackaged-firmware.bin
$ telnet 33.0.0.10
Trying 33.0.0.10...
Connected to 33.0.0.10.
Escape character is '^]'.
Username: admin
Password:
HES-3106-RF> en
Password:
HES-3106-RF# firmware upgrade tftp 33.0.0.1 repackaged-firmware.bin
...............................................................................
................................................................................
................................................................................
................................................................
Updating Firmware...Please do NOT turn off the power.
System will auto-reboot after finishing(about 4 Min.)....
Download and extract Buildroot.
curl -s https://buildroot.org/downloads/buildroot-2015.08.1.tar.bz2 | tar jxvf -
cd buildroot-2015.08.1
make menuconfig
# Select target architecture: ARM (little endian)
# Select target architecture variant: arm926t
make -j 4
Test the compiler.
export PATH=$PATH:$PWD/output/host/usr/bin
echo 'int main() { return 0; }' > test.c
arm-buildroot-linux-uclibcgnueabi-gcc test.c
file a.out
a.out: ELF 32-bit LSB executable, ARM, EABI5 version 1 (SYSV), dynamically linked, interpreter /lib/ld-uClibc.so.0, not stripped
To run executables from the SquashFS filesystem, try the following from the SquashFS root directory.
$ qemu-arm -L $PWD bin/ls
For remote debugging with gdb:
[terminal-1]$ qemu-arm -g 1234 -L $PWD bin/ls
[terminal-2]$ gdb bin/ls
(gdb) set architecture arm
(gdb) target remote localhost:1234
0xf67f2f60 in _start ()
from /tmp/a/lib/ld-uClibc-0.9.28.so
A nice online ARM decompiler with disassembly and Hex-Rays style out is provided on the Retargetable Compiler page.
Examples from a HES-3106-RF device.
Mem: 12236K used, 18044K free, 0K shrd, 1280K buff, 4440K cached
user 4.8% nice 0.0% sys 7.3% idle 87.9% io 0.0% irq 0.0% softirq 0.0%
Load average: 1.60, 0.87, 0.35 (S=sleeping R=running, W=waiting, HZ=100)
Processor : ARM926EJ-Sid(wb) rev 5 (v5l)
BogoMIPS : 259.68
Features : swp half fastmult edsp java
CPU implementer : 0x41
CPU architecture: 5TEJ
CPU variant : 0x0
CPU part : 0x926
CPU revision : 5
Cache type : write-back
Cache clean : cp15 c7 ops
Cache lockdown : format C
Cache format : Harvard
I size : 16384
I assoc : 4
I line length : 32
I sets : 128
D size : 16384
D assoc : 4
D line length : 32
D sets : 128
Hardware : 5VT13XX
Revision : 0000
Serial : 0000000000000000
MemTotal: 30280 kB
MemFree: 18044 kB
Buffers: 1280 kB
Cached: 4448 kB
SwapCached: 0 kB
Active: 4956 kB
Inactive: 3788 kB
HighTotal: 0 kB
HighFree: 0 kB
LowTotal: 30280 kB
LowFree: 18044 kB
SwapTotal: 0 kB
SwapFree: 0 kB
Dirty: 0 kB
Writeback: 0 kB
Mapped: 5380 kB
Slab: 2008 kB
CommitLimit: 15140 kB
Committed_AS: 6756 kB
PageTables: 244 kB
VmallocTotal: 286720 kB
VmallocUsed: 8624 kB
VmallocChunk: 278012 kB
CPU0
1: 11072 serial
4: 51378 5VT Timer1 Tick
7: 701 eth0
Err: 0
drv_dhcpvid 15904 0 - Live 0xbf024000
wdog 3612 0 - Live 0xbf022000
fvmem 5336 0 - Live 0xbf01f000
fvmac_sb 63644 1 drv_dhcpvid, Live 0xbf00e000
ar8327 5832 1 fvmac_sb, Live 0xbf00b000
fvmac 25484 2 fvmac_sb, Live 0xbf003000
fvgpio 4456 0 - Live 0xbf000000
root=/dev/mtdblock2 ro cpufreq=270MHZ rootfstype=squashfs mem=32M console=ttyS0,38400 mtdparts=5VT13XX_mapped_flash:0x00400000@0x0(U-Boot),0xC0000@0x20000(Kimage),0x270000@0xE0000(Rimage),0x80000@0x370000(Cimage),0x10000@0x3F0000(u-boot-env),0x10000@0x350000(reserved),0x10000@0x360000(mfg_cfg) nopci
dev: size erasesize name
mtd0: 00400000 00010000 "U-Boot"
mtd1: 000c0000 00010000 "Kimage"
mtd2: 00270000 00010000 "Rimage"
mtd3: 00080000 00010000 "Cimage"
mtd4: 00010000 00010000 "u-boot-env"
mtd5: 00010000 00010000 "reserved"
mtd6: 00010000 00010000 "mfg_cfg"
major minor #blocks name
31 0 4096 mtdblock0
31 1 768 mtdblock1
31 2 2496 mtdblock2
31 3 512 mtdblock3
31 4 64 mtdblock4
31 5 64 mtdblock5
31 6 64 mtdblock6
/dev/root on / type squashfs (ro)
/proc on /proc type proc (rw)
/dev/mtdblock/3 on /flash type jffs2 (rw)
/dev/rd0 on /var type ramfs (rw)
none on /dev/pts type devpts (rw)
Filesystem Size Used Available Use% Mounted on
/dev/root 1.9M 1.9M 0 100% /
/dev/mtdblock/3 512.0k 244.0k 268.0k 48% /flash
PID Uid VmSize Stat Command
1 root 316 S init
2 root SWN [ksoftirqd/0]
3 root SW< [events/0]
4 root SW< [khelper]
5 root SW< [kthread]
7 root SW< [kblockd/0]
28 root SW [pdflush]
29 root SW [pdflush]
30 root SW [kswapd0]
31 root SW< [aio/0]
65 root SW [mtdblockd]
95 root SWN [jffs2_gcd_mtd3]
180 root 536 S /bin/sw_proc proc
184 root 756 S /tmp/igmp_proc
206 root 204 S /tmp/igmp_proc
207 root 496 S /tmp/igmp_proc
212 root DW< [dhcpvid_recv]
227 root 320 S /bin/sh /etc/init.d/runtask.sh boot
234 root 2376 S /bin/util
260 root 204 S /bin/runloop 10 /bin/util
317 root 2376 S /bin/util
319 root 2376 S /bin/util
320 root 2376 S /bin/util
321 root 2376 S /bin/util
322 root 2376 S /bin/util
323 root 2376 S /bin/util
324 root 2376 S /bin/util
378 root 536 S /bin/sw_proc proc
379 root 536 S /bin/sw_proc proc
380 root 536 S /bin/sw_proc proc
410 root 172 S /opt/httpd/sbin/looprun 1 /opt/httpd/sbin/boa.arm -d -c /opt/httpd -f /var/run/boa.conf
412 root 340 S /opt/httpd/sbin/boa.arm -d -c /opt/httpd -f /var/run/boa.conf
619 root 224 S udhcpc -s /etc/udhcpc.script -h HES-3106-RF -V HES-3106-RF -i eth0
633 root 1180 S /usr/sbin/snmpd
634 root 356 S /usr/sbin/snmptrap
698 root 232 S /sbin/agetty -L /dev/tts/0
bootcmd=run romboot
bootcmd_d=run romboot_d
baudrate=38400
ipaddr=192.168.0.42
serverip=192.168.0.100
gatewayip=192.168.0.254
netmask=255.255.255.0
uboot_addr=1F000000
uboot_size=0x20000
uboot_addr_end=1F01FFFF
uboot_env_size=0x10000
uboot_env_offset=0x3F0000
kernel_addr=1F020000
kernel_size=0xC0000
kernel_offset=0x20000
kernel_addr_end=1F0DFFFF
rootfs_addr=1F0E0000
rootfs_offset=0xE0000
config_addr=1F370000
config_size=0x80000
config_offset=0x370000
config_addr_end=1F3EFFFF
firmware_addr=0x1F020000
firmware_addr_end=0x1F3EFFFF
mtd_id=5VT13XX_mapped_flash
USER=.trunk
tty=ttyS0
rootfs=squashfs
rootdev=/dev/mtdblock2 ro
zip_format=lzma
memtmp_addr=800000
mem_size=32M
rootpath=/opt/montavista/pro/devkit/arm/v4t_le/target/
upsuccess=setenv upfail 0;saveenv
nfsargs=setenv bootargs nfsroot=$(serverip):$(rootpath)
addip=setenv bootargs $(bootargs) ip=$(ipaddr):$(serverip):$(gatewayip):$(netmask):$(hostname):$(netdev):off
misca=setenv bootargs $(bootargs) root=$(rootdev)
miscb=setenv bootargs $(bootargs) cpufreq=$(inputfreq)
miscc=setenv bootargs $(bootargs) rootfstype=$(rootfs)
miscd=setenv bootargs $(bootargs) mem=$(mem_size)
misce=setenv bootargs $(bootargs) console=$(tty),$(baudrate)
miscf=setenv bootargs $(bootargs) mtdparts=$(mtd_parts)
miscg=setenv bootargs $(bootargs) $(pci_on)
miscz=echo \\c
miscz_d=echo \\c
misc=run misca miscb miscc miscd misce miscf miscg miscz
nfsboot=run nfsargs addip misc;bootm $(kernel_addr)
ramboot=run partition misc;bootm $(kernel_addr) $(rootfs_addr)
romboot=run partition misc;bootm $(kernel_addr)
romboot_d=run partition_d misc mlb mtrcd;bootm $(kernel_addr_d)
download=tftpboot
uimagename=u-boot.bin
erase_uimage=erase $(uboot_addr) $(uboot_addr_end)
uimage=$(download) $(memtmp_addr) $(uimagename);run erase_uimage;cp.b $(memtmp_addr) $(uboot_addr) $(filesize)
erase_kimage=erase $(kernel_addr) $(kernel_addr_end)
erase_rimage=erase $(rootfs_addr) $(rootfs_addr_end)
erase_cimage=erase $(config_addr) $(config_addr_end)
kimage=$(download) $(memtmp_addr) Kimage$(USER).$(zip_format);run erase_kimage;cp.b $(memtmp_addr) $(kernel_addr) $(filesize)
rimage=$(download) $(memtmp_addr) Rimage$(USER).$(rootfs);run erase_rimage;cp.b $(memtmp_addr) $(rootfs_addr) $(filesize)
cimage=$(download) $(memtmp_addr) Cimage$(USER).jffs2;run erase_cimage;cp.b $(memtmp_addr) $(config_addr) $(filesize)
erase_fimage=erase $(firmware_addr) $(firmware_addr_end)
fimage=$(download) $(memtmp_addr) BASS_ONE$(USER);run erase_fimage;cp.b $(memtmp_addr) $(firmware_addr) $(filesize); run upsuccess
TRCD=5
LB=33
mlb=mw.l 19c04000 $(LB)
mtrcd=mw.l 19c04024 $(TRCD)
pci_on=nopci
auto_upgrade=0
bootdelay=1
eth1addr=00:06:19:00:00:01
eth2addr=00:06:19:00:00:02
sPad1=1081410094
sPad2=1081410122
sPad3=1081410162
inputfreq=270MHZ
rootfs_size=0x270000
rootfs_addr_end=0x1F34FFFF
reserved_addr=0x1F350000
reserved_size=0x10000
reserved_offset=0x350000
reserved_addr_end=0x1F35FFFF
mfg_cfg_addr=0x1F360000
mfg_cfg_size=0x10000
mfg_cfg_offset=0x360000
mfg_cfg_addr_end=0x1F36FFFF
partition=setenv mtd_parts $(mtd_id):$(flashsize)@0x0(U-Boot),$(kernel_size)@$(kernel_offset)(Kimage),$(rootfs_size)@$(rootfs_offset)(Rimage),$(config_size)@$(config_offset)(Cimage),$(uboot_env_size)@$(uboot_env_offset)(u-boot-env),$(reserved_size)@$(reserved_offset)(reserved),$(mfg_cfg_size)@$(mfg_cfg_offset)(mfg_cfg)
flashsize=0x00400000
stdin=serial
stdout=serial
stderr=serial
company=Connection Technology Systems
product=HES-3106-RF
hw_ver=C03
sdate=20150511
SN=3900000H1000000
ethaddr=00:06:19:00:00:42
company_id=1561
product_id=43
version=1
cvid=0
fb_type=WDM
fb_cfg=4
fb_tx=1310
fb_rx=1550
fb_dist=10000
fb_speed=1000
fb_type2=N/A
fb_cfg2=0
fb_tx2=0
fb_rx2=0
fb_dist2=0
fb_speed2=0
fb_type3=N/A
fb_cfg3=0
fb_tx3=0
fb_rx3=0
fb_dist3=0
fb_speed3=0
lType=3
sw_ver=0
Linux version 2.6.17 (root@debian) (gcc version 4.1.1) #226 Wed Feb 11 18:31:17 CST 2015
CPU: ARM926EJ-Sid(wb) [41069265] revision 5 (ARMv5TEJ)
Machine: 5VT13XX
Ignoring unrecognised tag 0x00000000
Memory policy: ECC disabled, Data cache writealloc
On node 0 totalpages: 8192
DMA zone: 8192 pages, LIFO batch:1
CPU0: D VIVT write-back cache
CPU0: I cache: 16384 bytes, associativity 4, 32 byte lines, 128 sets
CPU0: D cache: 16384 bytes, associativity 4, 32 byte lines, 128 sets
Built 1 zonelists
Kernel command line: root=/dev/mtdblock2 ro cpufreq=270MHZ rootfstype=squashfs mem=32M console=ttyS0,38400 mtdparts=5VT13XX_mapped_flash:0x00400000@0x0(U-Boot),0xC0000@0x20000(Kimage),0x270000@0xE0000(Rimage),0x80000@0x370000(Cimage),0x10000@0x3F0000(u-boot-env),0x10000@0x350000(reserved),0x10000@0x360000(mfg_cfg) nopci
PID hash table entries: 256 (order: 8, 1024 bytes)
Timer1 load register: 675839(0x000A4FFF)
Dentry cache hash table entries: 4096 (order: 2, 16384 bytes)
Inode-cache hash table entries: 2048 (order: 1, 8192 bytes)
Memory: 32MB = 32MB total
Memory: 30180KB available (1684K code, 329K data, 80K init)
Calibrating delay loop... 259.68 BogoMIPS (lpj=1298432)
Mount-cache hash table entries: 512
CPU: Testing write buffer coherency: ok
NET: Registered protocol family 16
NET: Registered protocol family 2
IP route cache hash table entries: 256 (order: -2, 1024 bytes)
TCP established hash table entries: 1024 (order: 0, 4096 bytes)
TCP bind hash table entries: 512 (order: -1, 2048 bytes)
TCP: Hash tables configured (established 1024 bind 512)
TCP reno registered
NetWinder Floating Point Emulator V0.97 (double precision)
squashfs: version 3.1 includes LZMA decompression support (2006/08/29) Phillip Lougher
JFFS2 version 2.2. (NAND) (C) 2001-2003 Red Hat, Inc.
Initializing Cryptographic API
io scheduler noop registered
io scheduler deadline registered (default)
CPLD REGISTER0 =01
CPLD REGISTER1 =01
CPLD REGISTER2 =12
Inserting CPLD module
Inserting SMI module
WDT: Module loaded.
Init cts i2c
Init cts i2c 2
Serial: 8250/16550 driver $Revision: 1.90 $ 2 ports, IRQ sharing disabled
serial8250: ttyS0 at MMIO 0x1e840000 (irq = 1) is a 16550A
serial8250: ttyS1 at MMIO 0x1e860000 (irq = 2) is a 16550A
RAMDISK driver initialized: 16 RAM disks of 4096K size 1024 blocksize
loop: loaded (max 8 devices)
PPP generic driver version 2.4.2
PPP Deflate Compression module registered
NET: Registered protocol family 24
physmap flash device: 800000 at 1f000000
Number of erase regions: 2
Primary Vendor Command Set: 0002 (AMD/Fujitsu Standard)
Primary Algorithm Table at 0040
Alternative Vendor Command Set: 0000 (None)
No Alternate Algorithm Table
Vcc Minimum: 2.7 V
Vcc Maximum: 3.6 V
No Vpp line
Typical byte/word write timeout: 16 ?s
Maximum byte/word write timeout: 512 ?s
Full buffer write not supported
Typical block erase timeout: 1024 ms
Maximum block erase timeout: 16384 ms
Chip erase not supported
Device size: 0x400000 bytes (4 MiB)
Flash Device Interface description: 0x0002
- supports x8 and x16 via BYTE# with asynchronous interface
Max. bytes in buffer write: 0x1
Number of Erase Block Regions: 2
Erase Region #0: BlockSize 0x2000 bytes, 8 blocks
Erase Region #1: BlockSize 0x10000 bytes, 63 blocks
5VT13XX_mapped_flash: Found 1 x16 devices at 0x0 in 8-bit bank
5VT13XX_mapped_flash: Found an alias at 0x400000 for the chip at 0x0
Amd/Fujitsu Extended Query Table at 0x0040
number of CFI chips: 1
cfi_cmdset_0002: Disabling erase-suspend-program due to code brokenness.
7 cmdlinepart partitions found on MTD device 5VT13XX_mapped_flash
Creating 7 MTD partitions on "5VT13XX_mapped_flash":
0x00000000-0x00400000 : "U-Boot"
0x00020000-0x000e0000 : "Kimage"
0x000e0000-0x00350000 : "Rimage"
0x00370000-0x003f0000 : "Cimage"
0x003f0000-0x00400000 : "u-boot-env"
0x00350000-0x00360000 : "reserved"
0x00360000-0x00370000 : "mfg_cfg"
TCP bic registered
NET: Registered protocol family 1
NET: Registered protocol family 10
IPv6 over IPv4 tunneling driver
NET: Registered protocol family 17
802.1Q VLAN Support v1.8 Ben Greear <[email protected]>
All bugs added by David S. Miller <[email protected]>
VFS: Mounted root (squashfs filesystem) readonly.
Freeing init memory: 80K
gpio: GPIO driver vers. v0.1 loaded
gpio: 'mknod /dev/gpio0 c 252 0'.
gpio: 'mknod /dev/gpio1 c 252 1'.
gpio: 'mknod /dev/gpio2 c 252 2'.
gpio: 'mknod /dev/gpio3 c 252 3'.
fvmac: module license '5VT' taints kernel.
FVMAC version: 1.17, date: 2008/07/31 (compiled at 14:18:06, Mar 7 2014)
Entry fvmac_probe_one
FVMAC 0: FVMAC core w/AMBA at 0xf0080000 irq 7
FVMAC 0: registered_netdev() as eth0.
Entry fvmac_probe_one
FVMAC 1: FVMAC core w/AMBA at 0xf00a0000 irq 8
FVMAC 1: registered_netdev() as eth1.
Inserting ar8327 module
fvmac_sb_module_init()
fvmac_sb_proc_init()
FVMEM version 1.00
fvmem_major=120
load wdog module
Management VLAN ID is 0
device eth0 entered promiscuous mode
dhcpvid_init
DHCPVID: Init nic message buffer, size = 28672
dhcpvid_proc_init()
eth0: Promiscuous mode enabled.
eth0: enable interrupt now!!!
csr7 init ok, f3ff81e6
csr6 init ok, 322020c2
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
Management VLAN ID is 0
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
eth0: Promiscuous mode enabled.
process `snmpd' is using obsolete setsockopt SO_BSDCOMPAT