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ftmemsim-valgrind/none/tests/mips32/LoadStore.c
Petar Jovanovic 9fc2bfba5c mips: add tests for mips32/mips64 R6 
This set of tests covers MIPS r6 specific instructions:

  none/tests/mips32/MIPS32r6int
  none/tests/mips32/branch_pc
  none/tests/mips32/branches_r6
  none/tests/mips32/fp_r6
  none/tests/mips32/pc_instructions_r6

  none/tests/mips64/MIPS64r6int
  none/tests/mips64/branch_pc
  none/tests/mips64/branches_r6
  none/tests/mips64/fp_r6
  none/tests/mips64/pc_instructions_r6
  none/tests/mips64/r6_instructions

The following tests had to be changed to be applicaple for Rev6:

  none/tests/libvex_test.c

  none/tests/mips32/LoadStore
  none/tests/mips32/LoadStore1
  none/tests/mips32/MIPS32int
  none/tests/mips32/MoveIns
  none/tests/mips32/branches
  none/tests/mips32/change_fp_mode
  none/tests/mips32/mips32_dsp
  none/tests/mips32/vfp

  none/tests/mips64/arithmetic_instruction
  none/tests/mips64/branches
  none/tests/mips64/fpu_arithmetic
  none/tests/mips64/fpu_load_store
  none/tests/mips64/load_store
  none/tests/mips64/load_store_multiple
  none/tests/mips64/move_instructions

The following tests are not applicable for Rev6:

  none/tests/mips32/fpu_branches
  none/tests/mips32/unaligned_load_store

  none/tests/mips64/branch_and_jump_instructions
  none/tests/mips64/change_fp_mode
  none/tests/mips64/fpu_branches
  none/tests/mips64/load_store_unaligned
  none/tests/mips64/unaligned_load
  none/tests/mips64/unaligned_load_store.

Contributed by:
  Tamara Vlahovic, Aleksandar Rikalo and Aleksandra Karadzic.

Related BZ issue - #387410.
2018-02-01 18:37:28 +01:00

357 lines
14 KiB
C
Raw Blame History

#include <stdio.h>
unsigned int mem[] = {
0x121f1e1f, 0, 3, -1,
0x232f2e2f, 0x242c2b2b, 0x252a2e2b, 0x262d2d2a,
0x3f343f3e, 0x3e353d3c, 0x363a3c3b, 0x3b373b3a,
0x454f4e45, 0x4e464d46, 0x474d474c, 0x4a484a4c
};
unsigned int mem1[] = {
0, 0, 0, 0,
0, 0, 0, 0,
0xffffffff, 0, 0, 0,
0, 0, 0, 0
};
unsigned int mem2[] = {
0x0000e680, 0x00010700, 0x0000e7dc, 0x0000b0d0,
0x2ab05fd0, 0x0000b6a0, 0x0000be80, 0x0000de10,
0x0000df20, 0x2ab05fe0, 0x0000dfd0, 0x00010300
};
// sb $t0, 0($t1)
#define TESTINST1(instruction, RTval, offset, RT, RS) \
{ \
unsigned int out; \
__asm__ volatile( \
"move $" #RS", %1 \n\t" \
"li $" #RT", " #RTval" \n\t" \
instruction " \n\t" \
"lw %0, "#offset"($"#RS") \n\t" \
: "=&r" (out) \
: "r" (mem1), "r" (RTval) \
: #RS, #RT, "memory" \
); \
printf("%s :: RTval: 0x%x, out: 0x%x\n", \
instruction, RTval, out); \
out = 0; \
__asm__ volatile( \
"move $" #RS", %1 \n\t" \
"li $" #RT", " #RTval " \n\t" \
instruction " \n\t" \
"lw %0, "#offset"($"#RS") \n\t" \
: "=&r" (out) \
: "r" (mem), "r" (RTval) \
: #RS, #RT, "memory" \
); \
printf("%s :: RTval: 0x%x, out: 0x%x\n", \
instruction, RTval, out); \
}
// swl $t0, 3($t1)
// swr $t0, 0($t1)
#define TESTINSTsw(RTval, offset, RT, RS) \
{ \
unsigned int out; \
__asm__ volatile( \
"move $" #RS", %1\n\t" \
"addiu $"#RS", $"#RS", "#offset" \n\t" \
"li $" #RT", " #RTval" \n\t" \
"swl $t0, 3($t1) \n\t" \
"swr $t0, 0($t1) \n\t" \
"lw %0, 0($"#RS") \n\t" \
: "=&r" (out) \
: "r" (mem2), "r" (RTval) \
: #RT, #RS, "memory" \
); \
printf("swl $t0, 3($t1)\nswr $t0, 0($t1)\n" \
" :: RTval: 0x%x, out: 0x%x\n", \
RTval, out); \
}
void ppMem(unsigned int* m, int len)
{
int i;
printf("MEM1:\n");
for (i = 0; i < len; i=i+4)
{
printf("0x%x, 0x%x, 0x%x, 0x%x\n", m[i], m[i+1], m[i+2], m[i+3]);
m[i] = 0;
m[i+1] = 0;
m[i+2] = 0;
m[i+3] = 0;
if (i == 2)
{
m[i] = 0xffffffff;
m[i+1] = 0;
m[i+2] = 0;
m[i+3] = 0;
}
}
}
void ppMem1(unsigned int* m, int len)
{
int i;
printf("MEM:\n");
for (i = 0; i < len; i=i+4)
{
printf("0x%x, 0x%x, 0x%x, 0x%x\n", m[i], m[i+1], m[i+2], m[i+3]);
}
m[0] = 0x121f1e1f;
m[1] = 0;
m[2] = 3;
m[3] = -1;
m[4] = 0x232f2e2f;
m[5] = 0x242c2b2b;
m[6] = 0x252a2e2b;
m[7] = 0x262d2d2a;
m[8] = 0x3f343f3e;
m[9] = 0x3e353d3c;
m[10] = 0x363a3c3b;
m[11] = 0x3b373b3a;
m[12] = 0x454f4e45;
m[13] = 0x4e464d46;
m[14] = 0x474d474c;
m[15] = 0x4a484a4c;
}
void ppMem0(unsigned int* m, int len)
{
int i;
printf("MEM:\n");
for (i = 0; i < len; i=i+4)
{
printf("0x%x, 0x%x, 0x%x, 0x%x\n", m[i], m[i+1], m[i+2], m[i+3]);
}
m[0] = 0x0000e680;
m[1] = 0x00010700;
m[2] = 0x0000e7dc;
m[3] = 0x0000b0d0;
m[4] = 0x2ab05fd0;
m[5] = 0x0000b6a0;
m[6] = 0x0000be80;
m[7] = 0x0000de10;
m[8] = 0x0000df20;
m[9] = 0x2ab05fe0;
m[10] = 0x0000dfd0;
m[11] = 0x00010300;
}
int main()
{
printf("sb\n");
TESTINST1("sb $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("sb $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("sb $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("sb $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("sb $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("sb $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("sb $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("sb $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sb $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sb $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("sb $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("sb $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("sb $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("sb $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("sb $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("sh\n");
TESTINST1("sh $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("sh $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("sh $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("sh $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("sh $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("sh $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("sh $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("sh $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sh $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sh $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("sh $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("sh $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("sh $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("sh $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("sh $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("sw\n");
TESTINST1("sw $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("sw $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("sw $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("sw $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("sw $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("sw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("sw $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("sw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("sw $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("sw $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("sw $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("sw $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("sw $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("sw $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
#if (__mips_isa_rev < 6)
printf("swl\n");
TESTINST1("swl $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("swl $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("swl $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("swl $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("swl $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("swl $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("swl $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("swl $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("swl $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("swl $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("swl $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("swl $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("swl $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("swl $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("swl $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("swr\n");
TESTINST1("swr $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("swr $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("swr $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("swr $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("swr $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("swr $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("swr $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("swr $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("swr $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("swr $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("swr $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("swr $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("swr $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("swr $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("swr $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("ulw\n");
TESTINST1("ulw $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("ulw $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("ulw $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("ulw $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("ulw $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("ulw $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("ulw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("ulw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("ulw $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("ulw $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("ulw $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("ulw $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("ulw $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("ulw $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("usw\n");
TESTINST1("usw $t0, 0($t1)", 0, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 0x7fffffff, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 0x80000000, 0, t0, t1);
TESTINST1("usw $t0, 2($t1)", 0x80000000, 2, t0, t1);
TESTINST1("usw $t0, 6($t1)", 0x7fffffff, 6, t0, t1);
TESTINST1("usw $t0, 10($t1)", 0x7fffffff, 10, t0, t1);
TESTINST1("usw $t0, 8($t1)", -1, 8, t0, t1);
TESTINST1("usw $t0, 0($t1)", 0x31415927, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 0x0dd00000, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 655, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", -655, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 15, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 1, 0, t0, t1);
TESTINST1("usw $t0, 0($t1)", 53, 0, t0, t1);
TESTINST1("usw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("usw $t0, 2($t1)", 0xffffffff, 2, t0, t1);
TESTINST1("usw $t0, 32($t1)", 0xffffffff, 32, t0, t1);
TESTINST1("usw $t0, 36($t1)", 0xffffffff, 36, t0, t1);
TESTINST1("usw $t0, 40($t1)", 0x31415927, 40, t0, t1);
TESTINST1("usw $t0, 44($t1)", 0x7fffffff, 44, t0, t1);
TESTINST1("usw $t0, 48($t1)", 0x80000000, 48, t0, t1);
TESTINST1("usw $t0, 52($t1)", 655, 52, t0, t1);
ppMem(mem1, 16);
ppMem1(mem, 16);
printf("swl $t0, 3($t0)\nswr $t0, 0($t0)\n");
TESTINSTsw(0x4853000, 0, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x4853000, 4, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x4863700, 8, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x48aedd0, 12, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x2aaee700, 16, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x2aaee7ff, 20, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x2aaeffff, 24, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x4863700, 28, t0, t1);
ppMem0(mem2, 12);
TESTINSTsw(0x2aaee700, 32, t0, t1);
ppMem0(mem2, 12);
#endif
return 0;
}
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