CFE Command Line Interface
The CFE Command Line Interface (CLI) is a very simple "shell-like" command prompt. It had a few environmental variables and minimal functionality. However, it is complex enough power to load a boot image over the network and begin executing code. The User interface is described on page 19 of 145 in the CFE documentation.
To get the to the CLI, you can use either the power-on method or load OpenWRT and type reboot. The CFE boot screen looks like:
CFE version 1.0.37 for BCM947XX (32bit,SP,LE) Build Date: Fri Sep 23 17:46:42 CST 2005 (email@example.com) Copyright (C) 2000,2001,2002,2003 Broadcom Corporation. Initializing Arena Initializing Devices. No DPN et0: Broadcom BCM47xx 10/100 Mbps Ethernet Controller 18.104.22.168 CPU type 0x29008: 200MHz Total memory: 16384 KBytes Total memory used by CFE: 0x80300000 - 0x803A39C0 (670144) Initialized Data: 0x803398D0 - 0x8033BFE0 (10000) BSS Area: 0x8033BFE0 - 0x8033D9C0 (6624) Local Heap: 0x8033D9C0 - 0x803A19C0 (409600) Stack Area: 0x803A19C0 - 0x803A39C0 (8192) Text (code) segment: 0x80300000 - 0x803398D0 (235728) Boot area (physical): 0x003A4000 - 0x003E4000 Relocation Factor: I:00000000 - D:00000000 Boot version: v3.7 The boot is CFE mac_init(): Find mac [00:16:B6:28:7D:4F] in location 0 Nothing... eou_key_init(): Find key pair in location 0 The eou device id is same The eou public key is same The eou private key is same Device eth0: hwaddr 00-16-B6-28-7D-4F, ipaddr 192.168.1.1, mask 255.255.255.0 gateway not set, nameserver not set Reading :: Failed.: Interrupted CFE> ^C CFE>
Of course, items like the hwaddr will be different from router to router.
Once you have a command prompt, you can type help and get a listing of commands available:
CFE> help Available commands: rndis Broadcom USB RNDIS utility. et Broadcom Ethernet utility. modify Modify flash data. nvram NVRAM utility. reboot Reboot. flash Update a flash memory device memtest Test memory. f Fill contents of memory. e Modify contents of memory. d Dump memory. u Disassemble instructions. autoboot Automatic system bootstrap. batch Load a batch file into memory and execute it go Verify and boot OS image. boot Load an executable file into memory and execute it load Load an executable file into memory without executing it save Save a region of memory to a remote file via TFTP ping Ping a remote IP host. arp Display or modify the ARP Table ifconfig Configure the Ethernet interface show devices Display information about the installed devices. unsetenv Delete an environment variable. printenv Display the environment variables setenv Set an environment variable. help Obtain help for CFE commands For more information about a command, enter 'help command-name' *** command status = 0 CFE>
A command status of 0 is always a good thing, other command statuses are errors.
The next two commands are very important to booting a custon kernel image: ifconfig and boot.
ifconfig is just the Linux counterpart, it will set up the specified interface. For our router, we have the switch portion of the router connected to a xinu server (which is simply a TFTP and DHCP server). From there we type ifconfig -auto eth0 which will ask the xinu server for an IP address and set up the router.
CFE> ifconfig -auto eth0 � � Device eth0: hwaddr 00-16-B6-28-7D-4F, ipaddr 192.168.5.2, mask 255.255.254.0 gateway 192.168.5.220, nameserver 192.168.5.220, domain xinu.mu.edu *** command status = 0 CFE>
We now have an IP and can transfer our boot image.
For our purposes, we name our boot images after the unit on which it will load (supervoc is our demo router).
CFE> boot -elf 192.168.5.220:supervoc.boot Loader:elf Filesys:tftp Dev:eth0 File:192.168.5.220:supervoc.boot Options:(null) Loading: 0x80001000/3145 0x80001c49/23 Entry at 0x80001000 Closing network. Starting program at 0x80001000
Let's walk through these lines:
boot -elf 192.168.5.220:supervoc.boot
This will begin booting the supervoc.boot kernel that is located at 192.168.5.220 (our xinu server and, no, name resolution does not work).
Loader:elf Filesys:tftp Dev:eth0 File:192.168.5.220:supervoc.boot Options:(null)
A fairly explainitory line stating the file type it is loading (elf), the file system to be used (tftp), the device which it is using to transfer the image (eth0), and where that image is from (192.168.5.220:supervoc.boot).
Loading: 0x80001000/3145 0x80001c49/23 Entry at 0x80001000
This is also a line of explanation, the first portion (0x80001000/3145) tells us the 'physical' address of where we begin loading our image and the size of the image (in bytes). Next is the address of the end of the image (0x80001c49/23) and (I believe) the amount of padding to make the image size base 16. The last part is the address which CFE will branch to upon completion of upload, this is the start of your kernel.
Closing network. Starting program at 0x80001000
The closes the network and begins execution the code at address 0x8000100. Any lines of text outputted after this are from your boot image (unless CFE throws an exception and shows a memory dump).