Difference between revisions of "Xubuntu 10.04, SVN T2.1, Step by step"

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(nuke hinrg as being a debian repository backup. point at stanford.)
 
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1) OS Install.
 
1) OS Install.
  
 
Install the OS, Ubuntu (Xubuntu uses less resources) on the box.  Recommended is
 
Install the OS, Ubuntu (Xubuntu uses less resources) on the box.  Recommended is
Xubuntu 8.04 (LTS).  A simple install is fine and will take less time.
+
Xubuntu 10.04 (LTS).  A simple install is fine and will take less time.  Current
 +
ISO install images can be found at [http://www.xubuntu.org/getubuntu#lucid 10.04 ISO].
  
 +
When the install is complete, boot the system, and use apt-get, synaptic or other package
 +
manager to make sure the following packages are installed:
  
When the install is complete, boot the system, and use Synaptic or other package
 
manager to make sure the following packages are included:
 
  
      subversion
+
  autobook  autoconf  automake  build-essentials
      cvs
+
  libc6-dev  libtool  openssh-client  openssh-server
      build-essentials
+
  subversion  stow
      stow
+
 
      automake
+
  git-core git-doc gitk gitmagic
      autoconf
 
      autobook
 
      libtool
 
  
  
2) TinyOS 2.x tree checkout
+
  sudo -s
 +
  apt-get install autobook autoconf automake build-essentials
 +
  apt-get install libc6-dev libtool openssh-client openssh-server
 +
  apt-get install subversion stow
 +
  apt-get install git-core git-doc gitk gitmagic
  
Check out the current TinyOS 2.x tree.  We use the head of the T2 development
 
tree which is a little dangerous so pay attention to what comes in with an update.
 
<t2_base> refers to the root of the T2 tree.  For example: /home/joe/t2_base
 
  
  a) cd <t2_base>
+
2) Install TinyOS toolset (msp430, avr)
  b) mkdir <t2_cur> (one suggestion is to use t2_<date_stamp> and then ln -s t2_<date_stamp> t2_cur)
 
  c) cd t2_cur
 
  d) cvs -z3 -d:pserver:anonymous@tinyos.cvs.sourceforge.net:/cvsroot/tinyos co -P tinyos-2.x
 
  
This will pull the current T2 CVS source tree starting at /home/joe/t2_cur/tinyos-2.x.
+
We want the tinyos toolset for the msp430 (telosb) and the avr (micaz, mica2).
 +
Debian packages are available from Stanford.
  
 +
Modify the repository list using Applications->System->Software_Sources to include:
  
3) Install TinyOS toolset (msp430, avr)
+
  http://tinyos.stanford.edu/tinyos/dists/ubuntu lucid main      <- if using Stanford
  
We want the tinyos toolset for the msp430 (telosb) and the avr (micaz, mica2).
+
or
Debian packages are available from Stanford.
 
  
Modify the repository source to include:
+
  echo "deb http://tinyos.stanford.edu/tinyos/dists/ubuntu lucid main" >> /etc/sources.list
  
    http://tinyos.stanford.edu/tinyos/dists/ubuntu/ hardy main
 
  
 
Install the following packages:
 
Install the following packages:
  
    deputy-tinyos
+
  avr-binutils-tinyos  avrdude-tinyos  avr-gcc-tinyos  avr-libc-tinyos 
  msp430-binutils-tinyos
+
  avr-tinyos  avr-tinyos-base  deputy-tinyos msp430-binutils-tinyos
  msp430-gcc-tinyos
+
  msp430-gcc-tinyos msp430-libc-tinyos  msp430-tinyos  msp430-tinyos-base
  msp430-libc-tinyos
+
  nesc  tinyos  tinyos-2.1  tinyos-base  tinyos-required  tinyos-tools
  msp430-tinyos
+
 
  msp430-tinyos-base
+
 
  nesc
+
  sudo -s
  tinyos
+
  apt-get update
  tinyos-2.1
+
  apt-get install avr-binutils-tinyos  avrdude-tinyos  avr-gcc-tinyos  avr-libc-tinyos
  tinyos-base
+
  apt-get install avr-tinyos  avr-tinyos-base  deputy-tinyos  msp430-binutils-tinyos
  tinyos-required
+
  apt-get install msp430-gcc-tinyos  msp430-libc-tinyos  msp430-tinyos  msp430-tinyos-base
  tinyos-tools
+
  apt-get install nesc tinyos tinyos-2.1 tinyos-base tinyos-required tinyos-tools
  tinyos-optional (but doesn't work) (for gdb and msp430-jtag)
+
 
 +
 
 +
3) TinyOS 2.x tree checkout
 +
 
 +
Check out the current TinyOS 2.x tree.  We use the head of the T2 development
 +
tree hosted at Google Code.  This is a bit dangerous so pay attention to what comes
 +
in with an update.
 +
 
 +
<t2_base> refers to the root of the T2 tree.  For example: /home/joe/t2_base or
 +
/home/joe/w  (for working).
 +
 
 +
 
 +
  a) cd <t2_base>
 +
  b) mkdir <t2_cur> (one suggestion is to use t2_<date_stamp> and then ln -s t2_<date_stamp> t2_cur)
 +
  c) cd t2_cur
 +
  d) svn checkout http://tinyos-main.googlecode.com/svn/trunk/ tinyos-2.x
 +
 
 +
 
 +
This will pull the current SVN T2 source tree into /home/joe/t2_cur/tinyos-2.x.
  
  
Line 72: Line 85:
 
5) Set up build environment settings
 
5) Set up build environment settings
  
    The following environment variables must be set to build.
+
The following environment variables must be set to build.
  
 
     TOSROOT
 
     TOSROOT
Line 81: Line 94:
  
 
     for example:  note: <t2_base> := ~/t2_base
 
     for example:  note: <t2_base> := ~/t2_base
 
#!/bin/sh
 
 
MOTECOM="serial@/dev/ttyS0:telosb"
 
 
TOSROOT=~/t2_base/t2_cur/tinyos-2.x
 
TOSDIR=$TOSROOT/tos
 
 
MAMMARK_DIR="/home/joe/t2_base/t2_mm3"
 
TOSMAKE_PATH="$TOSMAKE_PATH $MAMMARK_DIR/support/make"
 
 
M1="/opt/msp430"
 
M2="/usr/msp430"
 
PATH="$PATH:$M1/bin:$M2/bin"
 
LD_LIBRARY_PATH="$LD_LIBRARY_PATH:$M1/lib:$M2/lib:/usr/local/lib"
 
 
MAN_PATH="$MAN_PATH:$M1/man:$M2/man"
 
 
MAKERULES=$TOSROOT/support/make/Makerules
 
CLASSPATH=.:$TOSROOT/support/sdk/java/tinyos.jar
 
 
PYTHONPATH=$TOSROOT/support/sdk/python:$PYTHONPATH
 
PYTHONPATH=$M1/lib:$M1/bin:$M2/lib:$M2/bin:$PYTHONPATH
 
PYTHONPATH=$M1/lib/python2.3/site-packages:$PYTHONPATH
 
PYTHONPATH=$M2/lib/python2.3/site-packages:$PYTHONPATH
 
 
#LIBMSPGCC_PATH=$M1/lib:$M2/lib
 
 
export MAKERULES TOSDIR TOSROOT CLASSPATH PYTHONPATH LD_LIBRARY_PATH
 
export LIBMSPGCC MOTECOM MAMMARK_DIR TOSMAKE_PATH
 
 
6) TI USB Jtag driver fix
 
 
The TI USB JTAG pod is used for debugging MSP430 based motes such as the TelosB.  If you
 
aren't using the pod you don't need to fix the driver.
 
 
Initial Ubuntu 8.04 has a version of the ti_usb_3410_5052 driver (used to
 
talk to the MSP430 jtag pod) that is slightly modified from the standard
 
linux kernel available at kernel.org.  The standard kernel's version of the
 
ti serial driver works so we will just reinstall that.
 
 
  a) Expand t2_mm3/Added_Bits/mspfet_driver.zip.  (This will create the directory
 
    mspfet_driver).
 
  b) mspfet_driver/readme.txt has more information.  Read them.  It is good.
 
  c) make
 
  d) temporarily install the new driver.
 
 
      /build/buildd/linux-2.6.24/drivers/usb/serial/usb-serial.c: USB Serial support registered for TI USB 3410 1 port adapter
 
      /build/buildd/linux-2.6.24/drivers/usb/serial/usb-serial.c: USB Serial support registered for TI USB 5052 2 port adapter
 
      usbcore: registered new interface driver ti_usb_3410_5052
 
      /home/joe/Desktop/mspfet_driver/ti_usb_3410_5052.c: TI USB 3410/5052 Serial Driver v0.9
 
      usb 1-2: new full speed USB device using ohci_hcd and address 2
 
      usb 1-2: configuration #1 chosen from 1 choice
 
      ti_usb_3410_5052 1-2:1.0: TI USB 3410 1 port adapter converter detected
 
      usb 1-2: reset full speed USB device using ohci_hcd and address 2
 
      usb 1-2: device firmware changed
 
      ti_usb_3410_5052: probe of 1-2:1.0 failed with error -5
 
      usb 1-2: USB disconnect, address 2
 
      usb 1-2: new full speed USB device using ohci_hcd and address 3
 
      usb 1-2: configuration #1 chosen from 2 choices
 
      ti_usb_3410_5052 1-2:1.0: TI USB 3410 1 port adapter converter detected
 
      ti_usb_3410_5052: probe of 1-2:1.0 failed with error -5
 
      ti_usb_3410_5052 1-2:2.0: TI USB 3410 1 port adapter converter detected
 
      usb 1-2: TI USB 3410 1 port adapter converter now attached to ttyUSB0
 
 
  e) run "lsusb" which should look something like the following:
 
 
m-tag (19): lsusb
 
Bus 003 Device 001: ID 0000:0000
 
Bus 002 Device 001: ID 0000:0000
 
Bus 001 Device 005: ID 0451:f430 Texas Instruments, Inc. MSP-FET430UIF JTAG Tool
 
Bus 001 Device 001: ID 0000:0000
 
m-tag (20):
 
 
 
  f) Make our new version of the ti serial driver permanent.
 
    1st make a back up of the originally installed driver
 
    (/lib/modules/<kernel version>/kernel/drivers/usb/serial/ti_usb_3410_5052.ko)
 
 
    ie:
 
      modprobe -r ti_usb_3410_5052
 
      cd /lib/modules/2.6.24-19-generic/kernel/drivers/usb/serial
 
      cp ti_usb_3410_5052.ko ti_usb_3410_5052.ko_old
 
      cp <t2_base>/t2_mm3/Added_Bits/mspfet_driver/ti_usb_3410_5052.ko .
 
      modprobe ti_usb_3410_5052
 
 
    
 
    
NOTE: It is possible for the correct driver to get replaced if the system is
+
  #!/bin/sh
updated. This occurs when any kernel packages are updated.  When this occurs
+
 
the permanent copy must be done again.
+
  MOTECOM="serial@/dev/ttyS0:telosb"
 
+
 
 
+
  TOSROOT=~/t2_base/t2_cur/tinyos-2.x
7) USB Jtag, /dev/ttyUSBn config 2, permissions fix
+
  TOSDIR=$TOSROOT/tos
 
+
 
We also want to install a udev rule that will correctly enable configuration 2
+
  M1="/opt/msp430"
of the jtag pod (this makes it work).  We also modify the permission rule so that
+
  M2="/usr/msp430"
group user can access the jtag pod.  Files exist in the msp430fet_driver directory.
+
  PATH="$PATH:$M1/bin:$M2/bin"
 
+
  LD_LIBRARY_PATH="$LD_LIBRARY_PATH:$M1/lib:$M2/lib:/usr/local/lib"
  a) Install the 40-ti-usb-3410-5052.rules into /etc/udev/rules.d.
+
 
 
+
  MAN_PATH="$MAN_PATH:$M1/man:$M2/man"
      cp 40-ti-usb-3410-5052.rules /etc/udev/rules.d
+
 
      mkdir -p /etc/udev/scripts
+
  MAKERULES=$TOSROOT/support/make/Makerules
      cp msp430_init /etc/udev/scripts
+
  CLASSPATH=.:$TOSROOT/support/sdk/java/tinyos.jar
 
+
 
  b) make the following change in /etc/udev/rules.d/40-permissions.rules
+
  PYTHONPATH=$TOSROOT/support/sdk/python:$PYTHONPATH
 
+
  PYTHONPATH=$M1/lib:$M1/bin:$M2/lib:$M2/bin:$PYTHONPATH
  change:
+
  PYTHONPATH=$M1/lib/python2.3/site-packages:$PYTHONPATH
 +
  PYTHONPATH=$M2/lib/python2.3/site-packages:$PYTHONPATH
 +
 
 +
  #LIBMSPGCC_PATH=$M1/lib:$M2/lib
 +
 
 +
  export MAKERULES TOSDIR TOSROOT CLASSPATH PYTHONPATH LD_LIBRARY_PATH
 +
  export LIBMSPGCC MOTECOM MAMMARK_DIR TOSMAKE_PATH
  
      SUBSYSTEM=="tty", GROUP="dialout"
 
  
  to:
+
6) mspdebug for debugging with TI JTAG debugging probe (msp430 only)
  
      SUBSYSTEM=="tty", GROUP="users", MODE="0660"
+
mspdebug is an open source program that interfaces to the TI UIF JTAG pod for debugging
 +
msp430 cpus.  It has a user interface as well as a remote gdb debugging server.
  
 +
mspdebug is available as a Ubuntu package for natty (11.04) and later releases.
 +
And can be downloaded and built for 10.04 from its git repository
 +
mspdebug.git.sourceforge.net/gitroot/mspdebug/mspdebug
  
  Make sure that any users that will be using the device are in group "users".
+
The following additional packages are needed:
  
 +
    libusb libusb-dev libreadline-dev libreadline6-dev
  
8) Install gdb and msp430-jtag from temporary location
 
  
  *** These need to be put into a hardy debian package, they will be ***
+
  sudo apt-get install libusb libusb-dev libreadline-dev libreadline6-dev
  *** included in the tinyos-optional (msp430 flavor)                ***
+
  cd ~/mm
 +
  mkdir Others
 +
  cd Others
 +
  git clone git://mspdebug.git.sourceforge.net/gitroot/mspdebug/mspdebug
 +
  cd mspdebug
 +
  make
 +
  sudo make install
  
  a) cd <t2_base>. (remember to be enabled, sudo)
+
mspdebug is installed into /usr/local.   This path must be included in your $PATH
  b) cd t2_mm3/Added_Bits/tools
+
variable.
  c) make install
 
  
  This should install into /opt/msp430/bin gdb.430 (the msp430-gdb debugger),
 
  msp430-jtag and some other tools.  Appropriate libraries are installed into
 
  /opt/msp430/lib.
 
  
 
+
7) Build SerialForwarder and libmote library.
9) Build SerialForwarder and libmote library.
 
  
 
     Build the serial forwarder and associated library (also includes direct serial access)
 
     Build the serial forwarder and associated library (also includes direct serial access)
 
+
 
 
       cd $TOSROOT/support/sdk/c/sf
 
       cd $TOSROOT/support/sdk/c/sf
 
       ./bootstrap
 
       ./bootstrap
 
       ./configure --prefix=/opt/stow/sf_c
 
       ./configure --prefix=/opt/stow/sf_c
 
       make
 
       make
 
+
 
 
       sudo -s
 
       sudo -s
 
       make install
 
       make install
 
+
 
 
       ("sudo make install" for some reason doesn't pick up the value of $TOSROOT properly so
 
       ("sudo make install" for some reason doesn't pick up the value of $TOSROOT properly so
 
       the make install doesn't work write unless you are root first)
 
       the make install doesn't work write unless you are root first)
 
+
 
 
       This will install bin/{sf, sflisten, sfsend, seriallisten, serialsend}, include/{message.h,
 
       This will install bin/{sf, sflisten, sfsend, seriallisten, serialsend}, include/{message.h,
 
       serialsource.h, sfsource.h}, and lib/libmote.a.  These will be installed into /opt/stow/sf_c.
 
       serialsource.h, sfsource.h}, and lib/libmote.a.  These will be installed into /opt/stow/sf_c.
 
+
 
 
+
 
 
   Install into /opt/{bin,include,lib} using stow.
 
   Install into /opt/{bin,include,lib} using stow.
 
+
 
 
       cd /opt/stow
 
       cd /opt/stow
 
       stow sf_c
 
       stow sf_c
  
  
10) Using the serialforwarder/seriallistener
+
8) Using the serialforwarder/seriallistener
  
 
     a) make sure that tinyos.jar has been built.  It should live in $TOSROOT/support/sdk/java/tinyos.jar
 
     a) make sure that tinyos.jar has been built.  It should live in $TOSROOT/support/sdk/java/tinyos.jar
Line 255: Line 193:
 
       Make sure CLASSPATH includes $TOSROOT/support/sdk/java/tinyos.jar, ie:
 
       Make sure CLASSPATH includes $TOSROOT/support/sdk/java/tinyos.jar, ie:
 
    
 
    
      CLASSPATH=.:/home/joe/t2_base/t2_cur/tinyos-2.x/support/sdk/java/tinyos.jar
+
          CLASSPATH=.:/home/joe/t2_base/t2_cur/tinyos-2.x/support/sdk/java/tinyos.jar
  
 +
execute:
  
 
       java net.tinyos.tools.Listen -comm serial@/dev/ttyUSB0:telosb
 
       java net.tinyos.tools.Listen -comm serial@/dev/ttyUSB0:telosb
  
  
      You should see packets that look something like this:  (depends on what the mote is
+
And you should see packets that look something like this:  (depends on what the mote is sending)
      sending)
 
  
    00 FF FF 00 00 12 00 21 00 12 07 09 00 0C 9E 23 00 0C 9E 30 F6 2C FF D7 FF FF
+
            00 FF FF 00 00 12 00 21 00 12 07 09 00 0C 9E 23 00 0C 9E 30 F6 2C FF D7 FF FF
    00 FF FF 00 00 12 00 21 00 12 07 05 00 0C 9E 24 00 0C 9E 3F E5 AF B1 6F 9E D4
+
            00 FF FF 00 00 12 00 21 00 12 07 05 00 0C 9E 24 00 0C 9E 3F E5 AF B1 6F 9E D4
    00 FF FF 00 00 0E 00 21 00 0E 07 06 00 0C 9E 33 00 0C 9E 46 78 80
+
            00 FF FF 00 00 0E 00 21 00 0E 07 06 00 0C 9E 33 00 0C 9E 46 78 80
    00 FF FF 00 00 0E 00 21 00 0E 07 07 00 0C 9E 33 00 0C 9E 52 FF FF
+
            00 FF FF 00 00 0E 00 21 00 0E 07 07 00 0C 9E 33 00 0C 9E 52 FF FF
    00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
+
            00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
 
+
 
    00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
+
            00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
    ^  ^    ^    ^  ^  ^  ^    ^  ^  | -- sensor 8 data
+
            ^  ^    ^    ^  ^  ^  ^    ^  ^  | -- sensor 8 data
    |  |    |    |  |  |  |    |  |- sensor id
+
            |  |    |    |  |  |  |    |  |- sensor id
    |  |    |    |  |  |  |    |- sensor data type
+
            |  |    |    |  |  |  |    |- sensor data type
    |  |    |    |  |  |  |-- length of data block
+
            |  |    |    |  |  |  |-- length of data block
    |  |    |    |  |  |-- AM type MM3_DATA
+
            |  |    |    |  |  |-- AM type MM3_DATA
    |  |    |    |  |-- AM group
+
            |  |    |    |  |-- AM group
    |  |    |    |-- serial length
+
            |  |    |    |-- serial length
    |  |    |-- src addr           
+
            |  |    |-- src addr           
    |  |-- dest addr
+
            |  |-- dest addr
    |-- dispatch byte - 0 says AM
+
            |-- dispatch byte - 0 says AM
   
+
                           
 
If you define MOTECOM you won't need to specify the -comm parameter.  ie:
 
If you define MOTECOM you won't need to specify the -comm parameter.  ie:
  
 
       MOTECOM=serial@/dev/ttyUSB0:telosb
 
       MOTECOM=serial@/dev/ttyUSB0:telosb
 +
 +
[[Category:Installation]]

Latest revision as of 20:40, 29 November 2011

1) OS Install.

Install the OS, Ubuntu (Xubuntu uses less resources) on the box. Recommended is Xubuntu 10.04 (LTS). A simple install is fine and will take less time. Current ISO install images can be found at 10.04 ISO.

When the install is complete, boot the system, and use apt-get, synaptic or other package manager to make sure the following packages are installed: 


 autobook  autoconf  automake  build-essentials
 libc6-dev  libtool  openssh-client  openssh-server 
 subversion  stow
 
 git-core git-doc gitk gitmagic



 sudo -s
 apt-get install autobook autoconf automake build-essentials
 apt-get install libc6-dev libtool openssh-client openssh-server 
 apt-get install subversion stow
 apt-get install git-core git-doc gitk gitmagic


2) Install TinyOS toolset (msp430, avr)

We want the tinyos toolset for the msp430 (telosb) and the avr (micaz, mica2). Debian packages are available from Stanford.

Modify the repository list using Applications->System->Software_Sources to include: 

 http://tinyos.stanford.edu/tinyos/dists/ubuntu lucid main      <- if using Stanford

or 

 echo "deb http://tinyos.stanford.edu/tinyos/dists/ubuntu lucid main" >> /etc/sources.list


Install the following packages: 

 avr-binutils-tinyos  avrdude-tinyos  avr-gcc-tinyos  avr-libc-tinyos  
 avr-tinyos  avr-tinyos-base  deputy-tinyos  msp430-binutils-tinyos
 msp430-gcc-tinyos  msp430-libc-tinyos  msp430-tinyos  msp430-tinyos-base
 nesc  tinyos  tinyos-2.1  tinyos-base  tinyos-required  tinyos-tools



 sudo -s
 apt-get update
 apt-get install avr-binutils-tinyos  avrdude-tinyos  avr-gcc-tinyos  avr-libc-tinyos
 apt-get install avr-tinyos  avr-tinyos-base  deputy-tinyos  msp430-binutils-tinyos
 apt-get install msp430-gcc-tinyos  msp430-libc-tinyos  msp430-tinyos  msp430-tinyos-base
 apt-get install nesc  tinyos  tinyos-2.1  tinyos-base  tinyos-required  tinyos-tools


3) TinyOS 2.x tree checkout

Check out the current TinyOS 2.x tree. We use the head of the T2 development tree hosted at Google Code. This is a bit dangerous so pay attention to what comes in with an update.

<t2_base> refers to the root of the T2 tree. For example: /home/joe/t2_base or /home/joe/w (for working). 


  a) cd <t2_base>
  b) mkdir <t2_cur> (one suggestion is to use t2_<date_stamp> and then ln -s t2_<date_stamp> t2_cur)
  c) cd t2_cur
  d) svn checkout http://tinyos-main.googlecode.com/svn/trunk/ tinyos-2.x


This will pull the current SVN T2 source tree into /home/joe/t2_cur/tinyos-2.x.


4) Modify PATH and LD_LIBRARY_PATH

Make sure your PATH and LD_LIBRARY_PATH include /opt/msp430 and /usr/msp430 as appropriate. 

  M1="/opt/msp430"
  M2="/usr/msp430"
  export PATH="$PATH:$M1/bin:$M2/bin"
  export LD_LIBRARY_PATH="$LD_LIBRARY_PATH:$M1/lib:$M2/lib:/usr/local/lib"


5) Set up build environment settings

The following environment variables must be set to build. 

   TOSROOT
   TOSDIR
   MAKERULES
   CLASSPATH
   TOSMAKE_PATH

   for example:  note: <t2_base> := ~/t2_base
 
 	#!/bin/sh
 
 	MOTECOM="serial@/dev/ttyS0:telosb"
 
 	TOSROOT=~/t2_base/t2_cur/tinyos-2.x
 	TOSDIR=$TOSROOT/tos
 
 	M1="/opt/msp430"
 	M2="/usr/msp430"
 	PATH="$PATH:$M1/bin:$M2/bin"
 	LD_LIBRARY_PATH="$LD_LIBRARY_PATH:$M1/lib:$M2/lib:/usr/local/lib"
 
 	MAN_PATH="$MAN_PATH:$M1/man:$M2/man"
 
 	MAKERULES=$TOSROOT/support/make/Makerules
 	CLASSPATH=.:$TOSROOT/support/sdk/java/tinyos.jar
 
 	PYTHONPATH=$TOSROOT/support/sdk/python:$PYTHONPATH
 	PYTHONPATH=$M1/lib:$M1/bin:$M2/lib:$M2/bin:$PYTHONPATH
 	PYTHONPATH=$M1/lib/python2.3/site-packages:$PYTHONPATH
 	PYTHONPATH=$M2/lib/python2.3/site-packages:$PYTHONPATH
 
 	#LIBMSPGCC_PATH=$M1/lib:$M2/lib
 
 	export MAKERULES TOSDIR TOSROOT CLASSPATH PYTHONPATH LD_LIBRARY_PATH
 	export LIBMSPGCC MOTECOM MAMMARK_DIR TOSMAKE_PATH


6) mspdebug for debugging with TI JTAG debugging probe (msp430 only)

mspdebug is an open source program that interfaces to the TI UIF JTAG pod for debugging msp430 cpus. It has a user interface as well as a remote gdb debugging server.

mspdebug is available as a Ubuntu package for natty (11.04) and later releases. And can be downloaded and built for 10.04 from its git repository mspdebug.git.sourceforge.net/gitroot/mspdebug/mspdebug

The following additional packages are needed: 

   libusb libusb-dev libreadline-dev libreadline6-dev



 sudo apt-get install libusb libusb-dev libreadline-dev libreadline6-dev
 cd ~/mm
 mkdir Others
 cd Others
 git clone git://mspdebug.git.sourceforge.net/gitroot/mspdebug/mspdebug
 cd mspdebug
 make
 sudo make install

mspdebug is installed into /usr/local. This path must be included in your $PATH variable.


7) Build SerialForwarder and libmote library. 

   Build the serial forwarder and associated library (also includes direct serial access)
 
     cd $TOSROOT/support/sdk/c/sf
     ./bootstrap
     ./configure --prefix=/opt/stow/sf_c
     make
 
     sudo -s
     make install
 
     ("sudo make install" for some reason doesn't pick up the value of $TOSROOT properly so
     the make install doesn't work write unless you are root first)
 
     This will install bin/{sf, sflisten, sfsend, seriallisten, serialsend}, include/{message.h,
     serialsource.h, sfsource.h}, and lib/libmote.a.  These will be installed into /opt/stow/sf_c.
 
 
  Install into /opt/{bin,include,lib} using stow.
 
     cd /opt/stow
     stow sf_c


8) Using the serialforwarder/seriallistener 

   a) make sure that tinyos.jar has been built.  It should live in $TOSROOT/support/sdk/java/tinyos.jar
   b) to rebuild:
 
      cd $TOSROOT/support/sdk/java/
      make tinyos.jar
 
   c) Install TOSComm JNI support if needed.  Did java bitch about not finding TOSComm JNI support?
 
      assuming tinyos-tools is installed run:
 
      tos-install-jni
 
   d) To watch raw bytes coming from the serial port
 
      Make sure CLASSPATH includes $TOSROOT/support/sdk/java/tinyos.jar, ie:
 
          CLASSPATH=.:/home/joe/t2_base/t2_cur/tinyos-2.x/support/sdk/java/tinyos.jar

execute: 

      java net.tinyos.tools.Listen -comm serial@/dev/ttyUSB0:telosb


And you should see packets that look something like this: (depends on what the mote is sending) 

           00 FF FF 00 00 12 00 21 00 12 07 09 00 0C 9E 23 00 0C 9E 30 F6 2C FF D7 FF FF
           00 FF FF 00 00 12 00 21 00 12 07 05 00 0C 9E 24 00 0C 9E 3F E5 AF B1 6F 9E D4
           00 FF FF 00 00 0E 00 21 00 0E 07 06 00 0C 9E 33 00 0C 9E 46 78 80
           00 FF FF 00 00 0E 00 21 00 0E 07 07 00 0C 9E 33 00 0C 9E 52 FF FF
           00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
 
           00 FF FF 00 00 10 00 21 00 10 07 08 00 0C 9E 33 00 0C 9E 61 FF FF FF FF
           ^  ^     ^     ^  ^  ^  ^     ^  ^  | -- sensor 8 data
           |  |     |     |  |  |  |     |  |- sensor id
           |  |     |     |  |  |  |     |- sensor data type
           |  |     |     |  |  |  |-- length of data block
           |  |     |     |  |  |-- AM type MM3_DATA
           |  |     |     |  |-- AM group
           |  |     |     |-- serial length
           |  |     |-- src addr           
           |  |-- dest addr
           |-- dispatch byte - 0 says AM

If you define MOTECOM you won't need to specify the -comm parameter. ie: 

      MOTECOM=serial@/dev/ttyUSB0:telosb
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