#include <stdio.h>
#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <inttypes.h>
/* The abstracted result of an MVCL insn */
typedef struct {
uint64_t addr1;
uint32_t len1;
uint64_t addr2;
uint32_t len2;
uint8_t pad;
uint32_t cc;
} mvcl_t;
/* Register contents after executing an MVCL insn */
typedef struct {
uint64_t r1;
uint64_t r1p1;
uint64_t r2;
uint64_t r2p1;
uint64_t cc;
} mvcl_regs;
/* Run a single MVCL insn and return its raw result. */
static mvcl_regs
do_mvcl(uint64_t r1, uint64_t r1p1, uint64_t r2, uint64_t r2p1)
{
mvcl_regs regs;
register uint64_t a1 asm ("2") = r1;
register uint64_t l1 asm ("3") = r1p1;
register uint64_t a2 asm ("4") = r2;
register uint64_t l2 asm ("5") = r2p1;
register uint32_t cc asm ("7");
asm volatile( "mvcl %1,%3\n\t"
"ipm %0\n\t"
"srl %0,28\n\t"
:"=d"(cc), "+d"(a1), "+d"(l1), "+d"(a2), "+d"(l2)
:
: "memory", "cc");
regs.r1 = a1;
regs.r1p1 = l1;
regs.r2 = a2;
regs.r2p1 = l2;
regs.cc = cc;
return regs;
}
mvcl_t
result_from_regs(mvcl_regs regs)
{
mvcl_t result;
result.addr1 = regs.r1;
result.len1 = regs.r1p1 & 0xFFFFFF;
result.addr2 = regs.r2;
result.len2 = regs.r2p1 & 0xFFFFFF;
result.pad = (regs.r2p1 & 0xFF000000u) >> 24;
result.cc = regs.cc;
return result;
}
/* Run MVCL twice using different fill bits for unused register bits.
Results ought to be the same */
static mvcl_t
mvcl(void *addr1, uint32_t len1,
void *addr2, uint32_t len2, uint32_t pad)
{
mvcl_t result1, result2;
mvcl_regs regs;
uint64_t r1, r1p1, r2, r2p1;
/* Check input arguments */
assert((pad & 0xFF) == pad); /* an 8-byte value */
assert((len1 & 0xFFFFFF) == len1);
assert((len2 & 0xFFFFFF) == len2);
/* Make a copy of the input buffer */
void *copy = memcpy(malloc(len1), addr1, len1);
/* Build up register contents setting unused bits to 0 */
r1 = (uint64_t)addr1;
r1p1 = len1;
r2 = (uint64_t)addr2;
r2p1 = len2 | (pad << 24);
/* Run mvcl */
regs = do_mvcl(r1, r1p1, r2, r2p1);
result1 = result_from_regs(regs);
/* Check unused bits */
if ((regs.r1p1 >> 24) != 0)
printf("FAIL: r1[0:39] modified (unused bits 0)\n");
if ((regs.r2p1 >> 32) != 0)
printf("FAIL: r2[0:31] modified (unused bits 0)\n");
/* Check pad value */
if (result1.pad != pad)
printf("FAIL: pad byte modified (unused bits 0)\n");
/* Build up register contents setting unused bits to 1 */
memcpy(addr1, copy, len1);
r1p1 |= 0xFFFFFFFFFFULL << 24;
r2p1 |= ((uint64_t)0xFFFFFFFF) << 32;
/* Run mvcl again */
regs = do_mvcl(r1, r1p1, r2, r2p1);
result2 = result_from_regs(regs);
/* Check unused bits */
if ((regs.r1p1 >> 24) != 0xFFFFFFFFFFull)
printf("FAIL: r1[0:39] modified (unused bits 1)\n");
if ((regs.r2p1 >> 32) != 0xFFFFFFFFu)
printf("FAIL: r2[0:31] modified (unused bits 1)\n");
/* Check pad value */
if (result2.pad != pad)
printf("FAIL: pad byte modified (unused bits 1)\n");
/* Compare results */
if (result1.addr1 != result2.addr1)
printf("FAIL: addr1 result is different\n");
if (result1.addr2 != result2.addr2)
printf("FAIL: addr2 result is different\n");
if (result1.len1 != result2.len1)
printf("FAIL: len1 result is different\n");
if (result1.len2 != result2.len2)
printf("FAIL: len2 result is different\n");
if (result1.pad != result2.pad)
printf("FAIL: pad result is different\n");
if (result1.cc != result2.cc)
printf("FAIL: cc result is different\n");
return result1;
}
void
print_buf(const char *prefix, char *buf, uint32_t len)
{
uint32_t i;
if (len > 0) {
printf("%s |", prefix);
for (i = 0; i < len; ++i)
putchar(buf[i]);
printf("|\n");
}
}
void
run_test(void *dst, uint32_t dst_len, void *src, uint32_t src_len, uint32_t pad)
{
mvcl_t result;
result = mvcl(dst, dst_len, src, src_len, pad);
printf("cc: %"PRIu32", len1: %"PRIu32", len2: %"PRIu32
", addr1 diff: %"PRId64", addr2 diff: %"PRId64"\n", result.cc,
result.len1, result.len2, (int64_t)result.addr1 - (int64_t)dst,
(int64_t)result.addr2 - (int64_t)src);
print_buf("dst buffer:", dst, dst_len);
}
int main()
{
uint8_t byte, buf[10], small[5], i;
uint32_t dst_offset, dst_len, src_offset, src_len;
/* Test 1: len1 == 0 */
printf("--- test 1 ---\n");
run_test(NULL, 0, NULL, 0, 0x00);
run_test(NULL, 0, NULL, 0, 0xFF);
run_test(NULL, 0, NULL, 5, 0x00);
run_test(NULL, 0, NULL, 5, 0xFF);
run_test(NULL, 0, buf, sizeof buf, 0x00);
run_test(NULL, 0, buf, sizeof buf, 0xFF);
/* Test 2: len1 != 0, len2 == 0 */
printf("--- test 2 ---\n");
run_test(&byte, 1, NULL, 0, 'a');
memset(buf, 'x', sizeof buf);
run_test(buf, sizeof buf, NULL, 0, 'a');
/* In the following: len1 != 0, len2 != 0 */
/* Test 3: src == dst */
printf("--- test 3 ---\n");
byte = 'x';
run_test(&byte, 1, &byte, 1, 'a');
memset(buf, 'x', sizeof buf);
for (i = 0; i <= sizeof buf; ++i)
run_test(buf, i, buf, sizeof buf, 'a');
/* Test 4: len1 > len2, no buffer overlap */
printf("--- test 4 ---\n");
memset(buf, 'b', sizeof buf);
memset(small, 's', sizeof small);
run_test(buf, sizeof buf, small, sizeof small, 'a');
/* Test 5: len1 < len2, no buffer overlap */
printf("--- test 5 ---\n");
memset(buf, 'b', sizeof buf);
memset(small, 's', sizeof small);
run_test(small, sizeof small, buf, sizeof buf, 'a');
/* Test 6: len1 > len2, non-destructive overlap */
printf("--- test 6 ---\n");
memcpy(buf, "0123456789", 10);
run_test(buf, sizeof buf, buf + 5, 5, 'x');
/* Test 7: len1 < len2, non-destructive overlap */
printf("--- test 7 ---\n");
memcpy(buf, "0123456789", 10);
run_test(buf, 5, buf + 4, 3, 'x');
/* Test 8: Misc checks for testing destructive overlap
Pad byte unused */
printf("--- test 8 ---\n");
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 1, buf, 10, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 2, buf, 10, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 3, buf, 10, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 4, buf, 10, 'x'); // destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 5, buf, 10, 'x'); // destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 6, buf, 10, 'x'); // destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 7, buf, 10, 'x'); // destructive
/* Test 9: More checks for testing destructive overlap
Pad byte used; len2 == 0 */
printf("--- test 9 ---\n");
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 1, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 2, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 3, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 4, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 4, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 5, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 6, buf, 0, 'x'); // non-destructive
memcpy(buf, "0123456789", 10);
run_test(buf + 3, 7, buf, 0, 'x'); // non-destructive
/* Test 10; what the heck... Just try all combinations. */
printf("--- test 9 ---\n");
for (dst_offset = 0; dst_offset < sizeof buf; ++dst_offset)
for (dst_len = 0; dst_len <= sizeof buf - dst_offset; ++dst_len)
for (src_offset = 0; src_offset < sizeof buf; ++src_offset)
for (src_len = 0; src_len <= sizeof buf - src_offset; ++src_len)
run_test(buf + dst_offset, dst_len, buf + src_offset, src_len, 'x');
return 0;
}