old-cross-binutils/gas/doc/c-msp430.texi
Jan-Benedict Glaw 997b26e88c * doc/c-msp430.texi: Fix typo.
also:	* ChangeLog: Fix entry.
2013-05-16 16:47:14 +00:00

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@c Copyright 2002-2013 Free Software Foundation, Inc.
@c This is part of the GAS manual.
@c For copying conditions, see the file as.texinfo.
@ifset GENERIC
@page
@node MSP430-Dependent
@chapter MSP 430 Dependent Features
@end ifset
@ifclear GENERIC
@node Machine Dependencies
@chapter MSP 430 Dependent Features
@end ifclear
@cindex MSP 430 support
@cindex 430 support
@menu
* MSP430 Options:: Options
* MSP430 Syntax:: Syntax
* MSP430 Floating Point:: Floating Point
* MSP430 Directives:: MSP 430 Machine Directives
* MSP430 Opcodes:: Opcodes
* MSP430 Profiling Capability:: Profiling Capability
@end menu
@node MSP430 Options
@section Options
@cindex MSP 430 options (none)
@cindex options for MSP430 (none)
@table @code
@item -mmcu
selects the mpu arch. If the architecture is 430Xv2 then this also
enables NOP generation unless the @option{-mN} is also specified.
@item -mcpu
selects the cpu architecture. If the architecture is 430Xv2 then this
also enables NOP generation unless the @option{-mN} is also
specified.
@item -mP
enables polymorph instructions handler.
@item -mQ
enables relaxation at assembly time. DANGEROUS!
@item -ml
indicates that the input uses the large code model.
@item -mN
disables the generation of a NOP instruction following any instruction
that might change the interrupts enabled/disabled state. For the
430Xv2 architecture the instructions: @code{EINT}, @code{DINT},
@code{BIC #8, SR}, @code{BIS #8, SR} and @code{MOV.W <>, SR} must be
followed by a NOP instruction in order to ensure the correct
processing of interrupts. By default generation of the NOP
instruction happens automatically, but this command line option
disables this behaviour. It is then up to the programmer to ensure
that interrupts are enabled and disabled correctly.
@end table
@node MSP430 Syntax
@section Syntax
@menu
* MSP430-Macros:: Macros
* MSP430-Chars:: Special Characters
* MSP430-Regs:: Register Names
* MSP430-Ext:: Assembler Extensions
@end menu
@node MSP430-Macros
@subsection Macros
@cindex Macros, MSP 430
@cindex MSP 430 macros
The macro syntax used on the MSP 430 is like that described in the MSP
430 Family Assembler Specification. Normal @code{@value{AS}}
macros should still work.
Additional built-in macros are:
@table @code
@item llo(exp)
Extracts least significant word from 32-bit expression 'exp'.
@item lhi(exp)
Extracts most significant word from 32-bit expression 'exp'.
@item hlo(exp)
Extracts 3rd word from 64-bit expression 'exp'.
@item hhi(exp)
Extracts 4rd word from 64-bit expression 'exp'.
@end table
They normally being used as an immediate source operand.
@smallexample
mov #llo(1), r10 ; == mov #1, r10
mov #lhi(1), r10 ; == mov #0, r10
@end smallexample
@node MSP430-Chars
@subsection Special Characters
@cindex line comment character, MSP 430
@cindex MSP 430 line comment character
A semicolon (@samp{;}) appearing anywhere on a line starts a comment
that extends to the end of that line.
If a @samp{#} appears as the first character of a line then the whole
line is treated as a comment, but it can also be a logical line number
directive (@pxref{Comments}) or a preprocessor control command
(@pxref{Preprocessing}).
@cindex line separator, MSP 430
@cindex statement separator, MSP 430
@cindex MSP 430 line separator
Multiple statements can appear on the same line provided that they are
separated by the @samp{@{} character.
@cindex identifiers, MSP 430
@cindex MSP 430 identifiers
The character @samp{$} in jump instructions indicates current location and
implemented only for TI syntax compatibility.
@node MSP430-Regs
@subsection Register Names
@cindex MSP 430 register names
@cindex register names, MSP 430
General-purpose registers are represented by predefined symbols of the
form @samp{r@var{N}} (for global registers), where @var{N} represents
a number between @code{0} and @code{15}. The leading
letters may be in either upper or lower case; for example, @samp{r13}
and @samp{R7} are both valid register names.
@cindex special purpose registers, MSP 430
Register names @samp{PC}, @samp{SP} and @samp{SR} cannot be used as register names
and will be treated as variables. Use @samp{r0}, @samp{r1}, and @samp{r2} instead.
@node MSP430-Ext
@subsection Assembler Extensions
@cindex MSP430 Assembler Extensions
@table @code
@item @@rN
As destination operand being treated as @samp{0(rn)}
@item 0(rN)
As source operand being treated as @samp{@@rn}
@item jCOND +N
Skips next N bytes followed by jump instruction and equivalent to
@samp{jCOND $+N+2}
@end table
Also, there are some instructions, which cannot be found in other assemblers.
These are branch instructions, which has different opcodes upon jump distance.
They all got PC relative addressing mode.
@table @code
@item beq label
A polymorph instruction which is @samp{jeq label} in case if jump distance
within allowed range for cpu's jump instruction. If not, this unrolls into
a sequence of
@smallexample
jne $+6
br label
@end smallexample
@item bne label
A polymorph instruction which is @samp{jne label} or @samp{jeq +4; br label}
@item blt label
A polymorph instruction which is @samp{jl label} or @samp{jge +4; br label}
@item bltn label
A polymorph instruction which is @samp{jn label} or @samp{jn +2; jmp +4; br label}
@item bltu label
A polymorph instruction which is @samp{jlo label} or @samp{jhs +2; br label}
@item bge label
A polymorph instruction which is @samp{jge label} or @samp{jl +4; br label}
@item bgeu label
A polymorph instruction which is @samp{jhs label} or @samp{jlo +4; br label}
@item bgt label
A polymorph instruction which is @samp{jeq +2; jge label} or @samp{jeq +6; jl +4; br label}
@item bgtu label
A polymorph instruction which is @samp{jeq +2; jhs label} or @samp{jeq +6; jlo +4; br label}
@item bleu label
A polymorph instruction which is @samp{jeq label; jlo label} or @samp{jeq +2; jhs +4; br label}
@item ble label
A polymorph instruction which is @samp{jeq label; jl label} or @samp{jeq +2; jge +4; br label}
@item jump label
A polymorph instruction which is @samp{jmp label} or @samp{br label}
@end table
@node MSP430 Floating Point
@section Floating Point
@cindex floating point, MSP 430 (@sc{ieee})
@cindex MSP 430 floating point (@sc{ieee})
The MSP 430 family uses @sc{ieee} 32-bit floating-point numbers.
@node MSP430 Directives
@section MSP 430 Machine Directives
@cindex machine directives, MSP 430
@cindex MSP 430 machine directives
@table @code
@cindex @code{file} directive, MSP 430
@item .file
This directive is ignored; it is accepted for compatibility with other
MSP 430 assemblers.
@quotation
@emph{Warning:} in other versions of the @sc{gnu} assembler, @code{.file} is
used for the directive called @code{.app-file} in the MSP 430 support.
@end quotation
@cindex @code{line} directive, MSP 430
@item .line
This directive is ignored; it is accepted for compatibility with other
MSP 430 assemblers.
@cindex @code{arch} directive, MSP 430
@item .arch
Sets the target microcontroller in the same way as the @option{-mmcu}
command line option.
@cindex @code{cpu} directive, MSP 430
@item .cpu
Sets the target architecture in the same way as the @option{-mcpu}
command line option.
@cindex @code{profiler} directive, MSP 430
@item .profiler
This directive instructs assembler to add new profile entry to the object file.
@end table
@node MSP430 Opcodes
@section Opcodes
@cindex MSP 430 opcodes
@cindex opcodes for MSP 430
@code{@value{AS}} implements all the standard MSP 430 opcodes. No
additional pseudo-instructions are needed on this family.
For information on the 430 machine instruction set, see @cite{MSP430
User's Manual, document slau049d}, Texas Instrument, Inc.
@node MSP430 Profiling Capability
@section Profiling Capability
@cindex MSP 430 profiling capability
@cindex profiling capability for MSP 430
It is a performance hit to use gcc's profiling approach for this tiny target.
Even more -- jtag hardware facility does not perform any profiling functions.
However we've got gdb's built-in simulator where we can do anything.
We define new section @samp{.profiler} which holds all profiling information.
We define new pseudo operation @samp{.profiler} which will instruct assembler to
add new profile entry to the object file. Profile should take place at the
present address.
Pseudo operation format:
@samp{.profiler flags,function_to_profile [, cycle_corrector, extra]}
where:
@table @code
@table @code
@samp{flags} is a combination of the following characters:
@item s
function entry
@item x
function exit
@item i
function is in init section
@item f
function is in fini section
@item l
library call
@item c
libc standard call
@item d
stack value demand
@item I
interrupt service routine
@item P
prologue start
@item p
prologue end
@item E
epilogue start
@item e
epilogue end
@item j
long jump / sjlj unwind
@item a
an arbitrary code fragment
@item t
extra parameter saved (a constant value like frame size)
@end table
@item function_to_profile
a function address
@item cycle_corrector
a value which should be added to the cycle counter, zero if omitted.
@item extra
any extra parameter, zero if omitted.
@end table
For example:
@smallexample
.global fxx
.type fxx,@@function
fxx:
.LFrameOffset_fxx=0x08
.profiler "scdP", fxx ; function entry.
; we also demand stack value to be saved
push r11
push r10
push r9
push r8
.profiler "cdpt",fxx,0, .LFrameOffset_fxx ; check stack value at this point
; (this is a prologue end)
; note, that spare var filled with
; the farme size
mov r15,r8
...
.profiler cdE,fxx ; check stack
pop r8
pop r9
pop r10
pop r11
.profiler xcde,fxx,3 ; exit adds 3 to the cycle counter
ret ; cause 'ret' insn takes 3 cycles
@end smallexample