Very nice song/remix by spinmeister.
I also used this in my recent Coreboot hacking: How to solder a PLCC socket on your board video...
When trying to port coreboot (previously LinuxBIOS) to a new mainboard you're often confronted with a big problem: the BIOS/ROM chip on the respective motherboard is soldered onto the board (i.e., not in a socket).
This means that you cannot easily (hot-)swap the chip during development or for recovery purposes. So you basically have exactly one try to flash the ROM chip with a fully working/booting coreboot image. If that goes wrong your board is bricked.
This makes it pretty much impossible to develop a coreboot port for such boards (and soldered-on ROM chips are becoming more and more common, unfortunately).
However, I've recently tried to replace the soldered-on (PLCC) ROM chip on one of my boards with a socket. What sounds pretty scary at first, especially given that I have almost non-existant soldering skills, turned out to be really not that hard. Also, it can be done with relatively cheap and readily available equipment.
I have written a short HOWTO for desoldering chips and soldering on sockets in the coreboot wiki, and also finished a video showing most of the process, which I hope will be helpful for others:
$ youtube-dl -t 'http://www.youtube.com/watch?v=30x4oxyczH4'
I also tried to upload the video to Vimeo, but first they told me to install the Flash 10 abomination (and there's no way I will do that). After browsing the help/forum pages a bit I found a traditional, non-flash upload form, but that then tells me that I cannot upload Ogg Theora videos. WTF?
The Ogg Theora video support feature request has been open for more that a year. Until that issue is fixed I'll just use other video services, thanks...
Note to self: If you do suspend-to-disk with 2.6.24, do not try to resume with 2.6.28 or any other version of the kernel, it won't work.
When asked whether you want to continue, say "no" and reboot with the correct kernel, in order to not lose your suspended data...
I recently got my hands on a Lenovo IdeaPad S9e netbook for a short amount of time (I don't own it), so I did a few tests with Debian unstable (more or less Lenny right now) and a Linux 2.6.28 kernel on it, see results below.
The machine type is 4187-42G, and it features an Intel Atom N270 CPU (with HyperThreading) at 1.6 GHz, 1 GB of DDR2 RAM, an 80 GB SATA drive, an 8.9" WSVGA 1024x600 (glossy) screen, VGA port, LAN, wifi, bluetooth, 2xUSB, SD card slot, PCI ExpressCard slot, built-in microphone, and a webcam.
You can enter the BIOS by pressing F2, the boot menu by pressing F12 during boot. Booting from USB works fine on this netbook. There's a Splashtop installation on the netbook (called "Lenovo Quickstart" here) which you can disable in the BIOS.
There's no CD-ROM drive, so the simplest way is to use a USB thumb drive for installation. Here's how you can prepare one containing a Lenny installer (assuming your USB thumb drive is /dev/sda):
$ wget http://cdimage.debian.org/debian-cd/5.0.1/i386/iso-cd/debian-501-i386-netinst.iso $ wget http://ftp.nl.debian.org/debian/dists/lenny/main/installer-i386/current/images/hd-media/boot.img.gz $ gunzip boot.img.gz $ dd if=boot.img of=/dev/sda1 $ mount -t vfat /dev/sda1 /mnt $ cp debian-500-i386-netinst.iso /mnt $ umount /mnt
If the above USB thumb drive doesn't boot correctly (which it did not in my case: GRUB error 17) it's probably because of a messed-up MBR. This is how you can fix it:
$ apt-get install mbr $ install-mbr /dev/sda
Then insert the USB thumb drive in the Lenovo IdeaPad S9e, choose USB boot in the BIOS, and start the installer. Most of the process works as usual, the only small difference is that you might want to load the "parted" installer module in order to resize the Windows-partition on the disk (if you want to keep it) to make space for Linux. The second (fat32) partition seems to keep a restore image and/or the Splashtop stuff, not sure.
Works out of the box using the snd_hda_intel driver. The hardware is onboard audio in the southbridge (82801G / ICH7) and uses the Realtek ALC269 codec. If some programs don't have working audio, try modprobe snd-pcm-oss.
Untested so far.
Works out of the box using the bluetooth and btusb driver. The laptop's Bluetooth device is USB-attached internally and shows up in lsusb as:
$ lsusb Bus 003 Device 002: ID 0a5c:2150 Broadcom Corp. $ dmesg usb 3-2: Product: BCM2046 Bluetooth Device
After modprobe btusb you can use hcitool / hciconfig etc. as usual, and/or enable more related stuff with /etc/init.d/bluetooth start.
The lm-sensors script detects the lm75, eeprom, i2c-dev, and i2c_i801 modules. The following is the 'sensors' output:
$ sensors acpitz-virtual-0 Adapter: Virtual device temp1: +36.0 °C (crit = +95.0 °C)
The hard drive temperature can be viewed with:
$ hddtemp /dev/sda /dev/sda: FUJITSU MHZ2080BH G1: 44 °C
$ dmesg | grep -i hpet ACPI: HPET 3F6E1E41, 0038 (r1 INTEL CALISTGA 6040000 LOHR 5A) ACPI: HPET id: 0x8086a201 base: 0xfed00000 hpet clockevent registered HPET: 3 timers in total, 0 timers will be used for per-cpu timer hpet0: at MMIO 0xfed00000, IRQs 2, 8, 0 hpet0: 3 comparators, 64-bit 14.318180 MHz counter
You can check the wakeups-per-second with powertop.
Works out of the box. It seems to be attached via USB internally (usb-storage driver).
$ lsusb Bus 001 Device 004: ID 0bda:0158 Realtek Semiconductor Corp. Mass Stroage Device
Untested so far.
Works fine, see comments for "acpitool" output.
Works out of the box using the tg3 driver.
$ modprobe tg3 tg3.c:v3.94 (August 14, 2008) tg3 0000:02:00.0: PCI INT A -> GSI 16 (level, low) -> IRQ 16 tg3 0000:02:00.0: setting latency timer to 64 eth0: Tigon3 [partno(BCM95906) rev c002 PHY(5906)] (PCI Express) 10/100Base-TX Ethernet 00:11:22:33:44:55 eth0: RXcsums LinkChgREG MIirq ASF WireSpeed TSOcap eth0: dma_rwctrl dma_mask[64-bit]
Works out of the box, both in X as well as in the console using gpm.
$ dmesg Synaptics Touchpad, model: 1, fw: 7.2, id: 0x1c0b1, caps: 0xd04731/0xa40000
I'm using the hibernate Debian package. You can explicitly force the usage of either method in /etc/hibernate/hibernate.conf by uncommenting the respective lines.
TryMethod disk.conf # TryMethod ram.conf
Suspend does not yet work out of the box, however, as the machine is unknown:
$ s2ram -n Machine unknown This machine can be identified by: sys_vendor = "LENOVO " sys_product = "418742G " sys_version = "Lenovo " bios_version = "14CN51WW " See http://suspend.sf.net/s2ram-support.html for details.
After a few test I found that s2ram -f -a 3 works fine (tested from console only so far). Now this needs to be integrated upstream and in the Debian package (I'll file a bug report). Update: Submitted bug #520848, and an email to the upstream mailing list.
There doesn't seem to be a mainline driver for the Broadcom BCM4312 wifi card in the laptop, yet:
$ lspci -nn 05:00.0 Network controller : Broadcom Corporation BCM4312 802.11b/g [14e4:4315] (rev 01)
Neither the b43 nor the b43legacy drivers work as of 2.6.28. For now, one of two possible options is to build a (partly non-free) driver provided by Broadcom from source (option 2 would be to use ndiswrapper, I guess, but that's untested):
$ wget http://people.debian.org/~adamm/kernel/linux-kbuild-2.6.28_2.6.28-0.1_i386.deb $ dpkg -i linux-kbuild-2.6.28_2.6.28-0.1_i386.deb (currently needed in unstable due to bug #518115) $ apt-get install build-essential linux-headers-2.6.28-1-686 $ mkdir temp; cd temp $ wget http://www.broadcom.com/docs/linux_sta/hybrid-portsrc-x86_32-v5_10_79_10.tar.gz $ tar xfvz hybrid-portsrc-x86_32-v5_10_79_10.tar.gz $ make -C /lib/modules/`uname -r`/build M=`pwd` clean $ make -C /lib/modules/`uname -r`/build M=`pwd` modules
If that worked, you can load the driver via:
$ rmmod bcm43xx; rmmod b43; rmmod b43legacy (you could also permanently blacklist these modules) $ modprobe ieee80211_crypt_tkip $ insmod ./wl.ko $ dmesg wl: module license '' taints kernel. wl 0000:05:00.0: PCI INT A -> GSI 18 (level, low) -> IRQ 18 wl 0000:05:00.0: setting latency timer to 64 eth1: Broadcom BCM4315 802.11 Wireless Controller 126.96.36.199
You can now run iwconfig, iwlist, etc. from the command line, or use some GUIs such as kwifimanager.
In order to disable wireless, run:
$ rmmod wl
So far, I only tested WEP (but not WPA).
Works out of the box using the acpi_cpufreq driver. Use cpufreq-set -c 0 -g performance if you need full CPU power, cpufreq-set -c 0 -g powersave otherwise. Use -c 1 to do the same with the other CPU/core.
Works fine out of the box using the pcspkr module, tested with beep.
Works out of the box using the intel X.org driver.
$ xrandr Screen 0: minimum 320 x 200, current 1024 x 600, maximum 1024 x 1024 VGA disconnected (normal left inverted right x axis y axis) LVDS connected 1024x600+0+0 (normal left inverted right x axis y axis) 195mm x 113mm 1024x600 60.0*+ 800x600 60.3 640x480 59.9 TV disconnected (normal left inverted right x axis y axis)
DRI works out of the box with the (mainline, open-source) driver:
$ glxinfo | grep direct direct rendering: Yes
If you attach an external monitor or projector, you can enable it using xrandr as usual:
$ xrandr --output VGA --auto
You can also use a dual-head setup by adding this to your "Screen" section in /etc/X11/xorg.conf:
SubSection "Display" Virtual 2048 2048 EndSubSection
After restarting the X server, you can play with xrandr and move the external screen (VGA) "below" the laptop's LCD screen (LVDS) for a simple dual-head setup. The GUI tools arandr or grandr are probably a bit simpler to use than plain command line xrandr.
Works fine, of course. The only small problem is that there are only two USB ports, more would have been better.
Works fine, it's an 80 GB SATA drive.
Works out of the box using the uvcvideo driver.
$ lsusb Bus 001 Device 005: ID 5986:0141 Acer, Inc $ modprobe uvcvideo uvcvideo: Found UVC 1.00 device Lenovo EasyCamera (5986:0141) input: Lenovo EasyCamera as /devices/pci0000:00/0000:00:1d.7/usb1/1-3/1-3:1.0/input/input9 usb 1-3: New USB device found, idVendor=5986, idProduct=0141 usb 1-3: New USB device strings: Mfr=3, Product=1, SerialNumber=0 usb 1-3: Product: Lenovo EasyCamera usb 1-3: Manufacturer: BISON Corporation
You can use luvcvideo for webcam viewing.
Lasts for ca. 3.5 hours, probably less if the system is under high load.
Fn+CursorUp / Fn+CursorDown (brightness), Fn+ESC (enable/disable webcam), Fn+F1 (sleep mode), Fn+F2 (enable/disable TFT backlight), Fn+F6 (enable/disable thouchpad), Fn+F7 (Num lock), Fn+F8 (scroll lock), and Fn+F11 (F12 key) all work fine.
Fn+F3, Fn+F5, Fn+F9, Fn+F10, and all other special keys are untested.
The power, disk activity, CAPS lock, Num lock, and battery charging LEDs all work fine out of the box.
-[0000:00]-+-00.0 Intel Corporation Mobile 945GME Express Memory Controller Hub [8086:27ac] +-02.0 Intel Corporation Mobile 945GME Express Integrated Graphics Controller [8086:27ae] +-02.1 Intel Corporation Mobile 945GM/GMS/GME, 943/940GML Express Integrated Graphics Controller [8086:27a6] +-1b.0 Intel Corporation 82801G (ICH7 Family) High Definition Audio Controller [8086:27d8] +-1c.0-[0000:02]----00.0 Broadcom Corporation NetLink BCM5906M Fast Ethernet PCI Express [14e4:1713] +-1c.1-[0000:03-04]-- +-1c.2-[0000:05]----00.0 Broadcom Corporation BCM4312 802.11b/g [14e4:4315] +-1d.0 Intel Corporation 82801G (ICH7 Family) USB UHCI Controller #1 [8086:27c8] +-1d.1 Intel Corporation 82801G (ICH7 Family) USB UHCI Controller #2 [8086:27c9] +-1d.2 Intel Corporation 82801G (ICH7 Family) USB UHCI Controller #3 [8086:27ca] +-1d.3 Intel Corporation 82801G (ICH7 Family) USB UHCI Controller #4 [8086:27cb] +-1d.7 Intel Corporation 82801G (ICH7 Family) USB2 EHCI Controller [8086:27cc] +-1e.0-[0000:06]-- +-1f.0 Intel Corporation 82801GBM (ICH7-M) LPC Interface Bridge [8086:27b9] +-1f.1 Intel Corporation 82801G (ICH7 Family) IDE Controller [8086:27df] +-1f.2 Intel Corporation 82801GBM/GHM (ICH7 Family) SATA IDE Controller [8086:27c4] \-1f.3 Intel Corporation 82801G (ICH7 Family) SMBus Controller [8086:27da]
All in all it's a really nice hardware, and it works (more or less) flawlessly without much hassle with recent distros/kernels.
Update 2009-03-22: Updated various sections, added more info. Added resources section.
Back in 2008 I wrote a small article about resizing LVM physical volumes. I had to do something similar, but slighly more complicated, recently. My /usr logical volume (LV) was getting full on my laptop disk, thus I wanted to shrink another LV and move some of that space to /usr. Here's one way you can do that.
Requirements: a Live CD containing all required utilities (cryptsetup, LVM tools, resize2fs), I used grml.
Important: If you plan to perform any of these steps, make sure you have recent backups! I take no responsibility for any data loss you might experience. You have been warned!
First, shutdown the laptop and boot using the Live CD. Then, open the dm-crypt device (/dev/hda3 in my case) by entering your passphrase:
$ cryptsetup luksOpen /dev/hda3 foo
Activate all (newly available) LVM volume groups in that encrypted device:
$ vgchange -a y
(maybe you also need a vgscan and/or lvscan, not sure)
Check how much free space we have for putting into our /usr LV:
$ vgdisplay | grep Free Free PE / Size 0 / 0
OK, so we have none. Thus, we need to shrink another LV (/home, in my case) and put that newly freed space into the /usr LV. In order to do that, we have to check the current size of the /home LV:
$ mount -t ext3 /dev/vg-whole/lv-home /mnt $ df --block-size=1M | grep -C 1 /mnt $ umount /mnt
(if you know how to find out the size of an ext3 file system without mounting it, please let me know) Update: See comments for suggestions.
Write down the total amount of 1M chunks of space on the file system (116857 in my case), we'll need that later. Now run 'fsck' on the /home LVM logical volume, which is needed for the 'resize2fs' step afterwards. This will take quite a while.
$ fsck -f /dev/vg-whole/lv-home
Next step is resizing the ext3 file system in the /home LVM logical volume, making it 1GB smaller than before (of course you must have >= 1 GB of free space on /home for that to work). We use fancy bash calculations to do the math.
Note: I'm not so sure about the sizes here, in my first attempt something went wrong and resize2fs said "filesystem too small" or the like. Maybe I'm confusing the size units from 'df' and 'resize2fs', or the bash calculation goes wrong? Please leave a comment if you know more!
$ resize2fs /dev/vg-whole/lv-home $((116857-1024))M
Then, we can safely reduce the LV itself. Note: order is very important here, you must shrink the ext3 filesystem first, and then shrink the LV! Doing it the other way around will destroy your filesystem!
$ lvreduce -L -1G /dev/vg-whole/lv-home
Now that we have 1 GB of free space to spend on LVs, we assign that space to the /usr LVM logical volume like this:
$ lvextend -L +1G /dev/vg-whole/lv-usr
As usual, we then run 'fsck' on the filesystem in order to be able to use 'resize2fs' to resize it to the biggest possible size (that's the default if resize2fs gets no parameters):
$ fsck -f /dev/vg-whole/lv-usr $ resize2fs /dev/vg-whole/lv-usr
That's it. You can now shutdown the Live CD system and boot into the normal OS with the new space allocations:
$ vgchange -a n $ cryptsetup luksClose foo $ halt