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MSP430 Assembler Posted: June 14, 2010

Updated: July 21, 2012 The Texas Instruments Launchpad running code assembled with naken430asm and uploaded with MSPDebug. On the screen is the hex file disassembled. naken430asm has been replaced by naken_asm. Please visit the naken_asm page for more information. Introduction This is an open-sourced assembler / disassembler / simulator for the MSP430 series of microcontrollers from Texas Instruments. The goal of this project is to have a completely cross-platform assembler with the exe (naken430asm) under 100k supporting both the 16 bit MSP430 and 20 bit MSP430X instruction sets and to have a cross-platform disassembly utility (naken430util) along with it to help with debugging and a bit of profiling. The naken430util, when disassembling, shows how many CPU cycles each instruction will take (MSP430 only) and I have built in simulation to help show how the binary code will flow on the chip and how many cycles it will take to execute. I also wanted to add the ability to program and debug the chips from naken430util, but I may just leave that for the MSPDebug project. NOTE: All new development is being done on the naken_asm project. Download (October 30, 2011)

naken430asm stable release

naken430asm-2011-10-30.tar.gz (Source Code)

naken430asm-2011-10-30-macosx10.6-x86_64.tar.gz (MacOSX 10.6)

naken430asm-2011-10-30.zip (Windows XP/Vista/7)

Alexander Zhevak is working on some include files for naken430asm. They can be downloaded from: git clone git://github.com/zhevak/naken430-inc.git Samples

I've moved the UART, SPI, DS18B20 and such samples to the naken_asm git repository. clock_thermometer.asm - Talking alarm clock thermometer.

msp430_sirc.asm - Reading SIRC data from a Sony remote control.

Bluetooth Thermometer - Bluetooth module hooked up to an msp430g2553.

Syma S107 No Fly Zone - IR Jammer for Syma S107 Helicopters.

Brushless Motor - Example of spinning a brushless motor with an MSP430.

LCD - Olimex MSP430-4619LCD.

Walking Robot - Vinod's 2 servo walking robot using the TI Launchpad.

Math Routines - Joe Davisson made some math funcions for the msp430.

License naken430asm is distributed under the GPL license. Assembling, Disassembling, Simulating

A program can be assembled from the command line with a simple:



naken430asm -d launchpad_blink.asm



The -d option will create an .ndbg file which helps naken430util when using the -list option. It can be left out. The -o option can be used to name the output file something other than out.hex. To disassemble the code, simply type:



./naken430util out.hex

for interactive mode or:

./naken430util -disasm out.hex

to disassemble the out.hex file or

./naken430util -list out.hex

to disassemble the out.hex program and print the source code to the right of it using the .ndbg file.

Simulation

The simulator allows you to show how your program will run. It gives a view of all the registers and how many CPU cycles have passed, along with the current instruction that executed and the next few in memory. To test the simulation, after assembling launchpad.asm type:



./naken430util out.hex

speed 1

run



This will load the out.hex file and set the CPU speed to 1Hz. The run command of course will start the simulation. To pause it just press Ctrl-C. To run in single step mode:



speed 0

run

One instruction is executed and the simulator breaks. Pressing enter or typing 'run' again will execute one more instruction. If there is a function needing to be profiled at location 0xf010, typing: call 0xf010 will execute it. The program will stop running at the RET of the function. Three other useful commands are call, push, and set. To push something on the stack just do: push 0x1000 for example to push 0x1000 to the stack. To set the value of a register: set pc=1000 or set r5=0xffff. To call a function: call 0xf034 to call a function at location 0xf034. This pushes the return address 0xffff on the stack and sets PC to 0xf034. When the simulator sees PC==0xffff it returns back to you so the number of clock cycles it took to run the function. There are 4 commands for reading and writing memory: bprint, wprint, bwrite, wwrite. So to write 5 bytes to location 0x1000, I could type:



bwrite 0x1000 100 102 143 0 5



and I can confirm it's written by typing: bprint 0x1000



For reading and writing word sized data, wprint and wwrite work the same way. Assembler Syntax

Like other MSP430 assemblers, naken430asm accepts C style #define, #ifdef, #if defined(). An example would be:



#define BLAH 50

#define SOMETHING



#ifdef SOMETHING

mov.w r1, r12

#else

mov.w r3, r12

#endif



#if defined(SOMETHING) && !defined(ANOTHER) && BLAH>50

mov.w @r12+, r3

#endif





Standard assembler syntax "equ" is also accepted too:



BLAH equ 50



Also .macro / .endm works like the following:



.macro BLAH

mov.w #5, r10

mov.w #6, r11

.endm



or also:



.macro BLAH(a,b)

mov.w #a, r10

mov.w #b, r11

.endm



Data bytes and words can be done with db (or dc8) and dw (or dc16). Chunks of databytes that default to 0 can be set with ds, ds8, ds16. Strings in db sections are not null terminated. For example:



db "Copyright 2010 by Michael Kohn", 0, 5, -9

dw 100, 2000, 400, 9



Files can be included with a .include "filename.h".



Comments can be done with a standard assembler ; (semicolon) or with standard C's // and /* */.



As with other assemblers, org or .org is used to tell the assembler what address a piece of code starts on.



Hex number can be written with either 0xFFD2 or 0FFD2h. Octal numbers can either start with 0 or end with q: 070 or 70q. Binary numbers can just end with a b: 11110000b. Assembler Directives .ascii <text> .asciiz <text> .binfile "binarydata.bin" .db <data bytes> .define <macro> .dw <data words> .ds8 <data byte> .ds16 <data words> .else <exression> .endif .endm .org <address> .if <exression> .ifdef <exression> .ifndef <exression> .include "includefile.inc" .macro <name> (opt. params) ... To be completed ... Copyright 1997-2020 - Michael Kohn



