/* Check EXECUTE with relative long instructions as targets. */ #include #include struct test { const char *name; long (*func)(long reg, long *cc); long exp_reg; long exp_mem; long exp_cc; }; /* * Each test sets the MEM_IDXth element of the mem array to MEM and uses a * single relative long instruction on it. The other elements remain zero. * This is in order to prevent stumbling upon MEM in random memory in case * there is an off-by-a-small-value bug. * * Note that while gcc supports the ZL constraint for relative long operands, * clang doesn't, so the assembly code accesses mem[MEM_IDX] using MEM_ASM. */ static long mem[0x1000]; #define MEM_IDX 0x800 #define MEM_ASM "mem+0x800*8" /* Initial %r2 value. */ #define REG 0x1234567887654321 /* Initial mem[MEM_IDX] value. */ #define MEM 0xfedcba9889abcdef /* Initial cc value. */ #define CC 0 /* Relative long instructions and their expected effects. */ #define FOR_EACH_INSN(F) \ F(cgfrl, REG, MEM, 2) \ F(cghrl, REG, MEM, 2) \ F(cgrl, REG, MEM, 2) \ F(chrl, REG, MEM, 1) \ F(clgfrl, REG, MEM, 2) \ F(clghrl, REG, MEM, 2) \ F(clgrl, REG, MEM, 1) \ F(clhrl, REG, MEM, 2) \ F(clrl, REG, MEM, 1) \ F(crl, REG, MEM, 1) \ F(larl, (long)&mem[MEM_IDX], MEM, CC) \ F(lgfrl, 0xfffffffffedcba98, MEM, CC) \ F(lghrl, 0xfffffffffffffedc, MEM, CC) \ F(lgrl, MEM, MEM, CC) \ F(lhrl, 0x12345678fffffedc, MEM, CC) \ F(llghrl, 0x000000000000fedc, MEM, CC) \ F(llhrl, 0x123456780000fedc, MEM, CC) \ F(lrl, 0x12345678fedcba98, MEM, CC) \ F(stgrl, REG, REG, CC) \ F(sthrl, REG, 0x4321ba9889abcdef, CC) \ F(strl, REG, 0x8765432189abcdef, CC) /* Test functions. */ #define DEFINE_EX_TEST(insn, exp_reg, exp_mem, exp_cc) \ static long test_ex_ ## insn(long reg, long *cc) \ { \ register long r2 asm("r2"); \ char mask = 0x20; /* make target use %r2 */ \ long pm, target; \ \ r2 = reg; \ asm("larl %[target],0f\n" \ "cr %%r0,%%r0\n" /* initial cc */ \ "ex %[mask],0(%[target])\n" \ "jg 1f\n" \ "0: " #insn " %%r0," MEM_ASM "\n" \ "1: ipm %[pm]\n" \ : [target] "=&a" (target), [r2] "+r" (r2), [pm] "=r" (pm) \ : [mask] "a" (mask) \ : "cc", "memory"); \ reg = r2; \ *cc = (pm >> 28) & 3; \ \ return reg; \ } #define DEFINE_EXRL_TEST(insn, exp_reg, exp_mem, exp_cc) \ static long test_exrl_ ## insn(long reg, long *cc) \ { \ register long r2 asm("r2"); \ char mask = 0x20; /* make target use %r2 */ \ long pm; \ \ r2 = reg; \ asm("cr %%r0,%%r0\n" /* initial cc */ \ "exrl %[mask],0f\n" \ "jg 1f\n" \ "0: " #insn " %%r0," MEM_ASM "\n" \ "1: ipm %[pm]\n" \ : [r2] "+r" (r2), [pm] "=r" (pm) \ : [mask] "a" (mask) \ : "cc", "memory"); \ reg = r2; \ *cc = (pm >> 28) & 3; \ \ return reg; \ } FOR_EACH_INSN(DEFINE_EX_TEST) FOR_EACH_INSN(DEFINE_EXRL_TEST) /* Test definitions. */ #define REGISTER_EX_EXRL_TEST(ex_insn, insn, _exp_reg, _exp_mem, _exp_cc) \ { \ .name = #ex_insn " " #insn, \ .func = test_ ## ex_insn ## _ ## insn, \ .exp_reg = (_exp_reg), \ .exp_mem = (_exp_mem), \ .exp_cc = (_exp_cc), \ }, #define REGISTER_EX_TEST(insn, exp_reg, exp_mem, exp_cc) \ REGISTER_EX_EXRL_TEST(ex, insn, exp_reg, exp_mem, exp_cc) #define REGISTER_EXRL_TEST(insn, exp_reg, exp_mem, exp_cc) \ REGISTER_EX_EXRL_TEST(exrl, insn, exp_reg, exp_mem, exp_cc) static const struct test tests[] = { FOR_EACH_INSN(REGISTER_EX_TEST) FOR_EACH_INSN(REGISTER_EXRL_TEST) }; /* Loop over all tests and run them. */ int main(void) { const struct test *test; int ret = EXIT_SUCCESS; long reg, cc; size_t i; for (i = 0; i < sizeof(tests) / sizeof(tests[0]); i++) { test = &tests[i]; mem[MEM_IDX] = MEM; cc = -1; reg = test->func(REG, &cc); #define ASSERT_EQ(expected, actual) do { \ if (expected != actual) { \ fprintf(stderr, "%s: " #expected " (0x%lx) != " #actual " (0x%lx)\n", \ test->name, expected, actual); \ ret = EXIT_FAILURE; \ } \ } while (0) ASSERT_EQ(test->exp_reg, reg); ASSERT_EQ(test->exp_mem, mem[MEM_IDX]); ASSERT_EQ(test->exp_cc, cc); #undef ASSERT_EQ } return ret; }