Difference between revisions of "Avrora"
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− | + | '''Avrora''' is an open-source cycle-accurate simulator for embedded sensing programs. The current release (version 1.7.106) of Avrora is written in Java and released under the BSD license. It can emulate two typical platforms, [[Mica2]] and [[MicaZ]], and run AVR elf-binary or assembly codes for both platforms. The [http://compilers.cs.ucla.edu/avrora/ main Avrora web page] contains a lot of good information but is not actively maintained; most of the information is also available when running avrora with a -help option. Avrora development has moved to [http://sourceforge.net/projects/avrora/ Sourceforge] and a listing of recent pre-built JAR archives is available in the [http://compilers.cs.ucla.edu/avrora/jars/ Avrora web page]. | |
− | |||
− | Avrora is an open-source cycle-accurate simulator for embedded sensing programs. The current release (version 1.7.106) of Avrora is written in Java. It can emulate two typical platforms, Mica2 and MicaZ, and run AVR elf-binary or assembly codes for both platforms. The [http://compilers.cs.ucla.edu/avrora/ main Avrora web page] contains a lot of good information but is not actively maintained; most of the information is also available when running avrora with a -help option. Avrora development has moved to [http://sourceforge.net/projects/avrora/ Sourceforge] and a listing of recent pre-built JAR archives is available in the [http://compilers.cs.ucla.edu/avrora/jars/ Avrora web page]. | ||
= Installing Avrora = | = Installing Avrora = | ||
− | Avrora works fine on Linux and Windows. The main prerequisite is a Java 4 or newer development environment. Download the latest CVS snapshot | + | Avrora works fine on Linux and Windows. The main prerequisite is a Java 4 or newer development environment. Download the latest CVS snapshot by enter this command in a terminal. |
<pre> | <pre> | ||
cvs -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora login | cvs -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora login | ||
+ | </pre> | ||
+ | Simply press Enter key when a password is asked. Then enter the command: | ||
+ | <pre> | ||
cvs -z3 -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora co -P avrora | cvs -z3 -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora co -P avrora | ||
</pre> | </pre> | ||
Line 21: | Line 22: | ||
</pre> | </pre> | ||
− | There should not be any error messages. | + | There should not be any error messages. With recent versions of javac, you may see errors like this if your locale is not setup properly: |
− | + | <pre> | |
+ | src/avrora/monitors/SnifferMonitor.java:39: unmappable character for encoding ASCII | ||
+ | </pre> | ||
+ | |||
+ | This can be fixed by setting an environment variable: | ||
+ | |||
+ | <pre> | ||
+ | export LANG=en_US.UTF-8 | ||
+ | </pre> | ||
+ | |||
+ | Once Avrora builds properly, add <tt>$AVRORA/bin</tt> to your <tt>CLASSPATH</tt>. Ensure that you can run Avrora: | ||
<pre> | <pre> | ||
Line 112: | Line 123: | ||
= Monitors in Avrora= | = Monitors in Avrora= | ||
− | Monitors provide some useful information about your simulation. Avrora already has several useful monitors that allow you to monitor your simulation as it progresses | + | Monitors provide some useful information about your simulation. Avrora already has several useful monitors that allow you to monitor your simulation as it progresses such as LED information as well as get a summary of some parameter at the end such as energy consumption. Avrora's flexible architecture makes it very easy to create your own monitors. Please refer to the main Avrora website for knowing about creating your own monitors [http://compilers.cs.ucla.edu/avrora/monitoring.html]. Here we are present the usage information of existing monitors as well as some useful notes about the problems we encountered when using some monitors based on our experience. |
==Energy Monitor== | ==Energy Monitor== | ||
Line 125: | Line 136: | ||
==C-Print Monitor== | ==C-Print Monitor== | ||
− | Allows you to print the values of variables as the simulation progresses. It uses memory watch to monitor the memory location of the variable and any changes to the memory location is printed on the screen. To use this monitor, copy AvroraPrint.h from src/avrora/monitors/AvroraPrint.h to your application. For example, if you are running blink application, copy it to tinyos apps/Blink directory. Include the AvroraPrint.h to your implementation in module file where you want to monitor the value of the variable. Here is an example that prints a character and a variable. | + | Allows you to print the values of variables as the simulation progresses. It uses memory watch to monitor the memory location of the variable and any changes to the memory location is printed on the screen. To use this monitor, copy AvroraPrint.h from [http://avrora.cvs.sourceforge.net/viewvc/avrora/avrora/src/avrora/monitors/AvroraPrint.h src/avrora/monitors/AvroraPrint.h] to your application. For example, if you are running blink application, copy it to tinyos apps/Blink directory. Include the AvroraPrint.h to your implementation in module file where you want to monitor the value of the variable. Here is an example that prints a character and a variable. |
<pre> | <pre> | ||
Line 131: | Line 142: | ||
#include "AvroraPrint.h" | #include "AvroraPrint.h" | ||
− | uint8_t tempvar; | + | uint8_t tempvar; // <--- LINE ADDED |
/** | /** | ||
Line 139: | Line 150: | ||
**/ | **/ | ||
command result_t StdControl.init() { | command result_t StdControl.init() { | ||
− | tempvar = 0; | + | tempvar = 0; // <--- LINE ADDED |
call Leds.init(); | call Leds.init(); | ||
return SUCCESS; | return SUCCESS; | ||
Line 152: | Line 163: | ||
command result_t StdControl.start() { | command result_t StdControl.start() { | ||
// Start a repeating timer that fires every 1000ms | // Start a repeating timer that fires every 1000ms | ||
− | + | printChar('s'); // <--- LINE ADDED | |
return call Timer.start(TIMER_REPEAT, 1000); | return call Timer.start(TIMER_REPEAT, 1000); | ||
} | } | ||
Line 174: | Line 185: | ||
event result_t Timer.fired() | event result_t Timer.fired() | ||
{ | { | ||
− | + | tempvar = 32; // <--- LINE ADDED | |
− | printInt8(tempvar); | + | printInt8(tempvar); // <--- LINE ADDED |
− | + | call Leds.redToggle(); | |
return SUCCESS; | return SUCCESS; | ||
} | } | ||
Line 182: | Line 193: | ||
</pre> | </pre> | ||
− | Now you can build the file and simulate it as follows. The | + | Now you can build the file and simulate it as follows. The variable will be printed in logfile0 as well as on the screen. Please read the notes below. |
<pre> | <pre> | ||
Line 188: | Line 199: | ||
make mica2 | make mica2 | ||
mv build/mica2/main.exe Blink.elf | mv build/mica2/main.exe Blink.elf | ||
− | java avrora.Main -platform=mica2 -seconds=20 -printlogfile=logfile -VariableName=BlinkM__debugbuf1 -monitors=c-print,leds Blink.elf | + | java avrora.Main -platform=mica2 -seconds=20 -printlogfile=logfile -VariableName=BlinkM__debugbuf1 -monitors=c-print,leds Blink.elf |
</pre> | </pre> | ||
NOTES: | NOTES: | ||
− | + | # -monitors=c-print is required to use this monitor. | |
− | + | # -VariableName=BlinkM__debugbuf1 is required to use this monitor. Note it has to be changed to <your_component>__debugbuf1 if you use with component other than BlinkM. Note, some nesc compilers use $ sign for separating variables and component names. In that case, use BlinkM$debugbuf1. | |
− | + | # printlogfile is not required but can be useful. | |
+ | # You might need to use "make [target] debug" for compilation. | ||
TODO: | TODO: | ||
− | + | # How to use c-print monitor to directly monitor any variable in the program. For example, how to print tempvar in above the program whenever it changes. | |
= TODO = | = TODO = | ||
Line 206: | Line 218: | ||
* Adding more monitors and their usage. | * Adding more monitors and their usage. | ||
* Troubleshooting. | * Troubleshooting. | ||
+ | |||
+ | [[Category:Software]] |
Latest revision as of 03:14, 15 June 2010
Avrora is an open-source cycle-accurate simulator for embedded sensing programs. The current release (version 1.7.106) of Avrora is written in Java and released under the BSD license. It can emulate two typical platforms, Mica2 and MicaZ, and run AVR elf-binary or assembly codes for both platforms. The main Avrora web page contains a lot of good information but is not actively maintained; most of the information is also available when running avrora with a -help option. Avrora development has moved to Sourceforge and a listing of recent pre-built JAR archives is available in the Avrora web page.
Contents
Installing Avrora
Avrora works fine on Linux and Windows. The main prerequisite is a Java 4 or newer development environment. Download the latest CVS snapshot by enter this command in a terminal.
cvs -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora login
Simply press Enter key when a password is asked. Then enter the command:
cvs -z3 -d:pserver:anonymous@avrora.cvs.sourceforge.net:/cvsroot/avrora co -P avrora
The following will assume that you have set $AVRORA to be the absolute path to this avrora directory.
Build Avrora:
cd $AVRORA make avrora
There should not be any error messages. With recent versions of javac, you may see errors like this if your locale is not setup properly:
src/avrora/monitors/SnifferMonitor.java:39: unmappable character for encoding ASCII
This can be fixed by setting an environment variable:
export LANG=en_US.UTF-8
Once Avrora builds properly, add $AVRORA/bin to your CLASSPATH. Ensure that you can run Avrora:
java avrora.Main
The output should be a bunch of usage information. On Cygwin the colors may not show up properly in which case you'll want to invoke Avrora using the -colors=false command line option.
Simulating TinyOS Applications
It is assumed that you have TinyOS 2.x installed and can build applications. First simulator a trivial single-node network:
cd $TOSROOT/apps/Blink make micaz mv build/micaz/main.exe Blink.elf java avrora.Main -platform=micaz -simulation=sensor-network -seconds=3 -monitors=leds Blink.elf
The output should be something like this:
Avrora [Beta 1.7.107] - (c) 2003-2007 UCLA Compilers Group Loading Blink.elf...[OK: 0.068 seconds] =={ Simulation events }======================================================= Node Time Event ------------------------------------------------------------------------------ 0 8006682 off off on 0 8006684 off on on 0 8006686 on on on 0 8006688 on on off 0 8006690 on off off 0 8006692 off off off 0 9793689 off off on 0 11579289 off off off 0 11579762 off on off 0 13364889 off on on 0 15150489 off on off 0 15150962 off off off 0 15151490 on off off 0 16936089 on off on 0 18721689 on off off 0 18722162 on on off 0 20507289 on on on ============================================================================== Simulated time: 22118400 cycles Time for simulation: 1.337 seconds Total throughput: 16.543306 mhz
Next simulate a collection of nodes:
cd $TOSROOT/apps/RadioCountToLeds make micaz mv build/micaz/main.exe RadioCountToLeds.elf java avrora.Main -platform=micaz -simulation=sensor-network -seconds=10 \ -monitors=leds,packet -nodecount=3 -stagger-start=1000000 RadioCountToLeds.elf
It is not clear in what situations the stagger-start option is needed. Sometimes, without this option, simulations can fail to start due to all nodes being in lock-step.
The output will be voluminous and should end up with something like this:
0 72595584 <==== 00.00.00.0F.A7.0F.41.88.22.22.00.FF.FF.01.00.3F.06.00.23.CE.BB 0.660 ms 1 73169483 on off on 1 73169491 on on on 1 73169500 off on on 1 73355979 ----> 00.00.00.0F.A7.0F.41.88.23.22.00.FF.FF.01.00.3F.06.00.24.62.C1 0.660 ms 0 73356225 <==== 00.00.00.0F.A7.0F.41.88.23.22.00.FF.FF.01.00.3F.06.00.24.CE.B3 0.660 ms 2 73356225 <==== 00.00.00.0F.A7.0F.41.88.23.22.00.FF.FF.01.00.3F.06.00.24.CE.B3 0.660 ms ============================================================================== Simulated time: 73728000 cycles Time for simulation: 4.349 seconds Total throughput: 50.85859 mhz Throughput per node: 16.952862 mhz =={ Packet monitor results }================================================== Node sent (b/p) recv (b/p) corrupted (b) lostinMiddle(p) ------------------------------------------------------------------------------ 0 756 / 36 1491 / 71 0 0 1 756 / 36 1491 / 71 0 0 2 735 / 35 1491 / 71 0 0
The important bit is at the bottom, where the packet monitor is telling us that all 3 nodes have both transmitted and received packets.
Monitors in Avrora
Monitors provide some useful information about your simulation. Avrora already has several useful monitors that allow you to monitor your simulation as it progresses such as LED information as well as get a summary of some parameter at the end such as energy consumption. Avrora's flexible architecture makes it very easy to create your own monitors. Please refer to the main Avrora website for knowing about creating your own monitors [1]. Here we are present the usage information of existing monitors as well as some useful notes about the problems we encountered when using some monitors based on our experience.
Energy Monitor
Prints the energy usage of various components over the simulation period. For example, it prints the energy consumed by each of the following components CPU, LEDs, External Flash, Radio. To use this monitor, simply add the energy to the monitors option.
java avrora.Main -platform=micaz -simulation=sensor-network -seconds=10 \ -monitors=energy,leds,packet -nodecount=3 -stagger-start=1000000 RadioCountToLeds.elf
NOTES: Energy Monitor has a bug in measuring Flash energy usage ( as of Sep 26 2009 ). Please refer to the mailing list thread for updated information. [2]
C-Print Monitor
Allows you to print the values of variables as the simulation progresses. It uses memory watch to monitor the memory location of the variable and any changes to the memory location is printed on the screen. To use this monitor, copy AvroraPrint.h from src/avrora/monitors/AvroraPrint.h to your application. For example, if you are running blink application, copy it to tinyos apps/Blink directory. Include the AvroraPrint.h to your implementation in module file where you want to monitor the value of the variable. Here is an example that prints a character and a variable.
implementation { #include "AvroraPrint.h" uint8_t tempvar; // <--- LINE ADDED /** * Initialize the component. * * @return Always returns <code>SUCCESS</code> **/ command result_t StdControl.init() { tempvar = 0; // <--- LINE ADDED call Leds.init(); return SUCCESS; } /** * Start things up. This just sets the rate for the clock component. * * @return Always returns <code>SUCCESS</code> **/ command result_t StdControl.start() { // Start a repeating timer that fires every 1000ms printChar('s'); // <--- LINE ADDED return call Timer.start(TIMER_REPEAT, 1000); } /** * Halt execution of the application. * This just disables the clock component. * * @return Always returns <code>SUCCESS</code> **/ command result_t StdControl.stop() { return call Timer.stop(); } /** * Toggle the red LED in response to the <code>Timer.fired</code> event. * * @return Always returns <code>SUCCESS</code> **/ event result_t Timer.fired() { tempvar = 32; // <--- LINE ADDED printInt8(tempvar); // <--- LINE ADDED call Leds.redToggle(); return SUCCESS; } }
Now you can build the file and simulate it as follows. The variable will be printed in logfile0 as well as on the screen. Please read the notes below.
cd $TOSROOT/apps/Blink make mica2 mv build/mica2/main.exe Blink.elf java avrora.Main -platform=mica2 -seconds=20 -printlogfile=logfile -VariableName=BlinkM__debugbuf1 -monitors=c-print,leds Blink.elf
NOTES:
- -monitors=c-print is required to use this monitor.
- -VariableName=BlinkM__debugbuf1 is required to use this monitor. Note it has to be changed to <your_component>__debugbuf1 if you use with component other than BlinkM. Note, some nesc compilers use $ sign for separating variables and component names. In that case, use BlinkM$debugbuf1.
- printlogfile is not required but can be useful.
- You might need to use "make [target] debug" for compilation.
TODO:
- How to use c-print monitor to directly monitor any variable in the program. For example, how to print tempvar in above the program whenever it changes.
TODO
Add sections on:
- Talking to Avrora using the serial forwarder.
- Adding more monitors and their usage.
- Troubleshooting.