//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// Check that the PowerPC vector registers are restored properly during
// unwinding.
// REQUIRES: target=powerpc{{(64)?}}le-unknown-linux-gnu
// UNSUPPORTED: no-exceptions
// Callee-saved VSR's 62 and 63 (vr30, vr31 respectively) are set to 16 bytes
// with values 1, 2 respectively in main. In order to ensure the two doublewords
// in each register are different, they are merged. Then they are reset to 16
// bytes with values 9 and 12 respectively in a callee and an exception is
// thrown. When catching an exception in main, the values in the two registers
// need to be the original ones (including the correct doubleword order).
#include <cassert>
#include <cstdlib>
int __attribute__((noinline)) test2(int i) {
if (i > 3)
throw i;
srand(i);
return rand();
}
int __attribute__((noinline)) test(int i) {
// Clobber VS63 and VS62 in the function body.
// Set VS63 to 16 bytes each with value 9
asm volatile("vspltisb 31, 9" : : : "v31");
// Set VS62 to 16 bytes each with value 12
asm volatile("vspltisb 30, 12" : : : "v30");
return test2(i);
}
#define cmpVS63(vec, result) \
{ \
vector unsigned char gbg; \
asm volatile("vcmpequb. %[gbg], 31, %[veca];" \
"mfocrf %[res], 2;" \
"rlwinm %[res], %[res], 25, 31, 31" \
: [res] "=r"(result), [gbg] "=v"(gbg) \
: [veca] "v"(vec) \
: "cr6"); \
}
#define cmpVS62(vec, result) \
{ \
vector unsigned char gbg; \
asm volatile("vcmpequb. %[gbg], 30, %[veca];" \
"mfocrf %[res], 2;" \
"rlwinm %[res], %[res], 25, 31, 31" \
: [res] "=r"(result), [gbg] "=v"(gbg) \
: [veca] "v"(vec) \
: "cr6"); \
}
int main(int, char **) {
// Set VS63 to 16 bytes each with value 1.
asm volatile("vspltisb 31, 1" : : : "v31");
// Set VS62 to 16 bytes each with value 2.
asm volatile("vspltisb 30, 2" : : : "v30");
// Mix doublewords for both VS62 and VS63.
asm volatile("xxmrghd 63, 63, 62");
asm volatile("xxmrghd 62, 63, 62");
vector unsigned long long expectedVS63Value = {0x202020202020202,
0x101010101010101};
vector unsigned long long expectedVS62Value = {0x202020202020202,
0x101010101010101};
try {
test(4);
} catch (int num) {
// If the unwinder restores VS63 and VS62 correctly, they should contain
// 0x01's and 0x02's respectively instead of 0x09's and 0x12's.
bool isEqualVS63, isEqualVS62;
cmpVS63(expectedVS63Value, isEqualVS63);
cmpVS62(expectedVS62Value, isEqualVS62);
assert(isEqualVS63 && isEqualVS62);
}
return 0;
}