How to setup Bluetooth
This is a subjective story about my experiences connecting a ThinkPad T43 running Gentoo and a Nokia N70 using Bluetooth, but I suppose most of the stuff here is generic stuff about how to connect laptops with linux with cellphones using bluetooth.
The kernel used was 2.6.14-gentoo, patched up to get the SATA working after suspend-to-memory.
Contents
BlueZ Installation
First of all, installation of Bluez; the following gentoo ebuilds was installed:
- net-wireless/bluez-bluefw
- net-wireless/bluez-firmware
- net-wireless/bluez-hcidump
- net-wireless/bluez-hciemu
- net-wireless/bluez-libs
- net-wireless/bluez-utils
net-wireless/bluez-kernel was also installed, but later I read it should not be needed when running 2.6-kernel - it could even be harmful.
Configuring the kernel
Since the Bluetooth card is connected to the USB subsystem, you will need to enable USB support in your kernel and load the according modules.
# modprobe uhci_hcd ; modprobe ehci_hcd
In the kernel configuration, I turned most of the bluetooth stuff to <M>; it can be found in the Networking section of the linux configuration.
I found an explaination at http://www.gentoo.org/doc/en/bluetooth-guide.xml about how to set up Bluetooth in Gentoo. I followed most of the steps, but be particularly aware of the notes above on kernel configuration.
Serial connection over Bluetooth
One of the reasons for getting that bluetooth connection up was to be able to use GPRS or 3G (UMTS) for connecting my laptop to internet. I was googling a bit on it, and I was pretty surprised to learn that one should communicate with the modem using AT-commands - that's stuff we did in the previous millenium, causing our modems to make lots of fancy sounds. By configuring /etc/bluetooth/rfcomm.conf correctly, I got a device /dev/rfcomm0 - eventually one could use the command:
- rfcomm bind 0 00:15:A0:7A:90:F2 3
Where the HW address should be replaced with that of your phone - if you don't know the hardware address of your phone yet, you can find it running:
- hcitool scan
and '3' is the channel to use. I spent quite some time fighting before I found out of that one; I didn't find it documented anywhere, but by running
- sdptool records 00:15:A0:7A:90:F2
I found channel 3 to be the right one for my phone. You will have to experiment to find the right one for your phone setup; for T-Mobile GSM/GPRS carrier in USA this is channel 1. By experimenting, I managed more or less to crash the bluetooth stack on the cellphone so it had to be rebooted.
Now that /dev/rfcomm0 exists.
At this point you can use an automatic dialing utility such as wvdial, editing the config file to point to the modem at /dev/rfcomm0, and everything should work just like a land line!
You may directly access the modem (i.e. by using minicom:)
- minicom -s
set the serial device to be '/dev/rfcomm0', chose 'exit' and then the AT-commands can be typed in. With my operator (Telenor, Norway) it seemed simple enough, I just entered
- ATDT *99#
and lots of cryptic letters started dancing across the screen, indicating a ppp session startup.
Then, to run pppd - I created /etc/ppp/peers/nokia with particularly those lines:
- /dev/rfcomm0
- connect '/usr/sbin/chat -v -f /etc/ppp/chat-nokia'
- debug
- 10.0.1.3
- crtscts
- noipdefault
- ipcp-accept-local
- defaultroute
- novj
- nobsdcomp
- novjccomp
- nopcomp
- noaccomp
- usepeerdns
and a simple /etc/ppp/chat-nokia
- 'TIMEOUT' '5'
- 'ABORT' 'BUSY'
- 'ABORT' 'ERROR'
- 'ABORT' 'NO ANSWER'
- 'ABORT' 'NO CARRIER'
- 'ABORT' 'NO DIALTONE'
- 'ABORT' 'Invalid Login'
- 'ABORT' 'Login incorrect'
- 'ATZ'
- 'OK' 'ATDT*99#'
- '~--'
and then I entered
- pppd call nokia
and I got Internet.
Different network operators may require different call strings. For many carriers (including T-Mobile USA) "*99#" works without additional parameters.
For editing phonebook / ringtones / etc., the gammu utils (http://www.gamu.net) has been reported to work well, but this appears to be primarily for Nokia phones.