Hard Drive Active Protection System
This page describes how to install HDAPS on your Arch Linux installation. HDAPS stands for "Hard Drive Active Protection System." Its purpose is to protect your hard drive from sudden shocks (such as dropping or banging your laptop on a desk). It does this by parking the disk heads, so that shocks don't cause them to crash into the drive's platters. Hopefully, this will prevent catastrophic failure.
As of Linux 2.6.28, the kernel has the ability to park disk heads on demand. Previously, this had to be patched into the kernel. Thanks to the kernel devs' hard work, we no longer have to rebuild our kernel to use this feature. Obviously, this means you need to be running 2.6.28 to follow this guide.
Your hardware needs to support some kind of shock detection. This is usually in the form of an accelerometer built into your laptop's motherboard. If you have the hardware, you also need a way to communicate what the hardware is detecting to your operating system. This section describes drivers to communicate the accelerometer's state to the OS so it can detect and protect against shocks.
tp_smapi is a set of drivers for ThinkPad laptops. It is highly recommended if you have a ThinkPad, even if you don't plan to use HDAPS. Among a plethora of other useful things, tp_smapi represents the accelerometer output as joystick devices
/dev/js# (Note! This could interfere with other joystick devices on your system).
Install tp_smapi from AUR. After installing, add
tp_smapi to your
MODULES array. After a reboot, this will activate most of the drivers, represented through the
The kernel provides its own HDAPS drivers. For this reason, the HDAPS part of tp_smapi is built separately. Attempting to add
hdaps to your
MODULES array will result in the default drivers being loaded. This is not what we want, as we have our special ThinkPad HDAPS drivers. Instead, modify your /etc/rc.local to include the following line:
insmod /lib/modules/$(uname -r)/extra/hdaps.ko
This will load the ThinkPad HDAPS module at the end of the initialization sequence.
invert module parameter
For some thinpad, the invert module parameter is needed in order to handle the X and Y rotation axes correctly. In that case, you can simply add the option to the insmod command, e.g.:
insmod /lib/modules/$(uname -r)/extra/hdaps.ko invert=5
for a ThinkPad X200. The invert option takes the following values:
- invert=1 invert both X and Y axes;
- invert=2 invert the X axes (uninvert if already both axes inverted)
- invert=4 swap X and Y (takes place before inverting)
Note that options can be summed. For instance, invert=5 swaps the axes and inverts them. The maximum value of invert is obviously 7. If you do not know which option is correct for you, just try them out with hdaps-gl or some other GUI (see below). Alternatively, you can determine the exact value for your thinkpad model from this table under the column labelled "HDAPS axis orientation".
Now that your hardware is reporting its shock detection to the OS, we need to do something with this data. This section describes software utilities to transform the sensor output into shock protection.
hdapsd monitors the output of the HDAPS joystick devices to determine if a shock is about to occur, then tells the kernel to park the disk heads.
Install hdapsd from AUR. Be sure to review
/etc/conf.d/hdapsd to ensure that it's protecting the correct hard drive.
Because we have to load the hdaps module in
rc.local, which executes after the DAEMONS array is loaded, we have to put hdapsd in rc.local instead of in DAEMONS like usual. Modify
/etc/rc.local again, putting this line after the insmod added above:
After a reboot, your computer will now monitor the joystick devices and park your disk heads to protect it against shocks.
Reboot your computer at this point. After init, if you jiggle your laptop, you should be able to hear the hard drive park. Don't do this too much
Utilities exist to monitor hdapsd's status so you know what's going on while you're using your laptop. These are entirely optional, but very handy.
This is a GNOME panel applet (Note: XFCE can use GNOME panel applets) that represents the current status of your hard drive. If the disk heads are parked by hdapsd, this applet will reflect that. Unfortunately, the AUR project for gnome-hdaps-applet is very out of date and does not work any longer. This should be fixed, but for now, here's how to do it manually. Note that pacman will not manage these files. If you update this applet later, you'll have to manually remove and replace these files.
First, grab the latest gnome-hdaps-applet sources from the this HDAPS mirror. As of this writing, this is version
20081204. Inflate these files, and follow the instructions in
INSTALL. It's very straight-forward. When you're done, keep the
INSTALL file around for future reference if you have to update or uninstall the applet later. Again, remember that pacman will not manage these files for you in any way.
A KDE version exists as well. khdapsmonitor in AUR (This project was abandoned and it is for KDE3). For KDE4 there is a version of plasmoid for HDAPS monitoring HDAPS applet. HDAPS-Monitor plasmoid is available in AUR.
Simple OpenGL application showing the 3D animation of your Thinkpad. Similar to the apllication Lenovo distibutes with Windows. hdaps-gl is available in AUR.