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newlib-cygwin/newlib/libc/machine/arm/setjmp.S
Thomas Preud'homme 69f4c40291 Make macro checks ARMv8-M baseline proof 
libgloss:

        * arm/Makefile.in: Add newlib/libc/machine/arm to the include path if
        newlib is present.
        * arm/arm.h: Include acle-compat.h.
        (THUMB_V7_V6M): Rename to ...
        (PREFER_THUMB): This.  Use ACLE macros __ARM_ARCH_ISA_ARM instead of
        __ARM_ARCH_6M__ to decide whether to define it.
        (THUMB1_ONLY): Define for Thumb-1 only targets.
        (THUMB_V7M_V6M): Rename to ...
        (THUMB_VXM): This.  Defined based on __ARM_ARCH_ISA_ARM, excluding
        ARMv7.
        * arm/crt0.S: Use THUMB1_ONLY rather than __ARM_ARCH_6M__,
        !__ARM_ARCH_ISA_ARM rather than THUMB_V7M_V6M for fp enabling, and
        PREFER_THUMB rather than THUMB_V7_V6M.  Rename other occurences of
        THUMB_V7M_V6M to THUMB_VXM.
        * arm/linux-crt0.c: Likewise.
        * arm/redboot-crt0.S: Likewise.
        * arm/swi.h: Likewise.
        * arm/trap.S: Likewise.

newlib:

        * libc/machine/arm/memcpy-stub.c: Use ACLE macros __ARM_ARCH_ISA_THUMB
        and __ARM_ARCH_ISA_ARM to check for Thumb-2 only targets rather than
        __ARM_ARCH and __ARM_ARCH_PROFILE.
        * libc/machine/arm/memcpy.S: Likewise.
        * libc/machine/arm/setjmp.S: Likewise for Thumb-1 only target and
        include acle-compat.h.
        * libc/machine/arm/strcmp.S: Likewise for Thumb-1 and Thumb-2 only
        target and include acle-compat.h.
        * libc/sys/arm/arm.h: Include acle-compat.h.
        (THUMB_V7_V6M): Rename to ...
        (PREFER_THUMB): This.  Use ACLE macro __ARM_ARCH_ISA_ARM instead of
        __ARM_ARCH_6M__ to decide whether to define it.
        (THUMB1_ONLY): Define for Thumb-1 only targets.
        (THUMB_V7M_V6M): Rename to ...
        (THUMB_VXM): This.  Defined based on __ARM_ARCH_ISA_ARM, excluding
        ARMv7.
        * libc/sys/arm/crt0.S: Use PREFER_THUMB rather than THUMB_V7_V6M and
        rename THUMB_V7M_V6M into THUMB_VXM.
        * libc/sys/arm/swi.h: Likewise.
2016-01-28 11:26:37 +01:00

224 lines
5.3 KiB
ArmAsm
Raw Blame History

/* This is a simple version of setjmp and longjmp.
Nick Clifton, Cygnus Solutions, 13 June 1997. */
#include "acle-compat.h"
/* ANSI concatenation macros. */
#define CONCAT(a, b) CONCAT2(a, b)
#define CONCAT2(a, b) a##b
#ifndef __USER_LABEL_PREFIX__
#error __USER_LABEL_PREFIX__ not defined
#endif
#define SYM(x) CONCAT (__USER_LABEL_PREFIX__, x)
#ifdef __ELF__
#define TYPE(x) .type SYM(x),function
#define SIZE(x) .size SYM(x), . - SYM(x)
#else
#define TYPE(x)
#define SIZE(x)
#endif
/* Arm/Thumb interworking support:
The interworking scheme expects functions to use a BX instruction
to return control to their parent. Since we need this code to work
in both interworked and non-interworked environments as well as with
older processors which do not have the BX instruction we do the
following:
Test the return address.
If the bottom bit is clear perform an "old style" function exit.
(We know that we are in ARM mode and returning to an ARM mode caller).
Otherwise use the BX instruction to perform the function exit.
We know that we will never attempt to perform the BX instruction on
an older processor, because that kind of processor will never be
interworked, and a return address with the bottom bit set will never
be generated.
In addition, we do not actually assemble the BX instruction as this would
require us to tell the assembler that the processor is an ARM7TDMI and
it would store this information in the binary. We want this binary to be
able to be linked with binaries compiled for older processors however, so
we do not want such information stored there.
If we are running using the APCS-26 convention however, then we never
test the bottom bit, because this is part of the processor status.
Instead we just do a normal return, since we know that we cannot be
returning to a Thumb caller - the Thumb does not support APCS-26.
Function entry is much simpler. If we are compiling for the Thumb we
just switch into ARM mode and then drop through into the rest of the
function. The function exit code will take care of the restore to
Thumb mode.
For Thumb-2 do everything in Thumb mode. */
#if __ARM_ARCH_ISA_THUMB == 1 && !__ARM_ARCH_ISA_ARM
/* ARMv6-M-like has to be implemented in Thumb mode. */
.thumb
.thumb_func
.globl SYM (setjmp)
TYPE (setjmp)
SYM (setjmp):
/* Save registers in jump buffer. */
stmia r0!, {r4, r5, r6, r7}
mov r1, r8
mov r2, r9
mov r3, r10
mov r4, fp
mov r5, sp
mov r6, lr
stmia r0!, {r1, r2, r3, r4, r5, r6}
sub r0, r0, #40
/* Restore callee-saved low regs. */
ldmia r0!, {r4, r5, r6, r7}
/* Return zero. */
mov r0, #0
bx lr
.thumb_func
.globl SYM (longjmp)
TYPE (longjmp)
SYM (longjmp):
/* Restore High regs. */
add r0, r0, #16
ldmia r0!, {r2, r3, r4, r5, r6}
mov r8, r2
mov r9, r3
mov r10, r4
mov fp, r5
mov sp, r6
ldmia r0!, {r3} /* lr */
/* Restore low regs. */
sub r0, r0, #40
ldmia r0!, {r4, r5, r6, r7}
/* Return the result argument, or 1 if it is zero. */
mov r0, r1
bne 1f
mov r0, #1
1:
bx r3
#else
#ifdef __APCS_26__
#define RET movs pc, lr
#elif defined(__thumb2__)
#define RET bx lr
#else
#define RET tst lr, #1; \
moveq pc, lr ; \
.word 0xe12fff1e /* bx lr */
#endif
#ifdef __thumb2__
.macro COND where when
i\where \when
.endm
#else
.macro COND where when
.endm
#endif
#if defined(__thumb2__)
.syntax unified
.macro MODE
.thumb
.thumb_func
.endm
.macro PROLOGUE name
.endm
#elif defined(__thumb__)
#define MODE .thumb_func
.macro PROLOGUE name
.code 16
bx pc
nop
.code 32
SYM (.arm_start_of.\name):
.endm
#else /* Arm */
#define MODE .code 32
.macro PROLOGUE name
.endm
#endif
.macro FUNC_START name
.text
.align 2
MODE
.globl SYM (\name)
TYPE (\name)
SYM (\name):
PROLOGUE \name
.endm
.macro FUNC_END name
RET
SIZE (\name)
.endm
/* --------------------------------------------------------------------
int setjmp (jmp_buf);
-------------------------------------------------------------------- */
FUNC_START setjmp
/* Save all the callee-preserved registers into the jump buffer. */
#ifdef __thumb2__
mov ip, sp
stmea a1!, { v1-v7, fp, ip, lr }
#else
stmea a1!, { v1-v7, fp, ip, sp, lr }
#endif
#if 0 /* Simulator does not cope with FP instructions yet. */
#ifndef __SOFTFP__
/* Save the floating point registers. */
sfmea f4, 4, [a1]
#endif
#endif
/* When setting up the jump buffer return 0. */
mov a1, #0
FUNC_END setjmp
/* --------------------------------------------------------------------
volatile void longjmp (jmp_buf, int);
-------------------------------------------------------------------- */
FUNC_START longjmp
/* If we have stack extension code it ought to be handled here. */
/* Restore the registers, retrieving the state when setjmp() was called. */
#ifdef __thumb2__
ldmfd a1!, { v1-v7, fp, ip, lr }
mov sp, ip
#else
ldmfd a1!, { v1-v7, fp, ip, sp, lr }
#endif
#if 0 /* Simulator does not cope with FP instructions yet. */
#ifndef __SOFTFP__
/* Restore floating point registers as well. */
lfmfd f4, 4, [a1]
#endif
#endif
/* Put the return value into the integer result register.
But if it is zero then return 1 instead. */
movs a1, a2
#ifdef __thumb2__
it eq
#endif
moveq a1, #1
FUNC_END longjmp
#endif
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