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https://github.com/xemu-project/xemu.git
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tests/tcg/multiarch: expand system memory test to cover more
Expand the memory test to cover move of the softmmu code. Specifically we: - improve commentary - add some helpers (for later BE support) - reduce boiler plate into helpers - add signed reads at various sizes/offsets - required -DCHECK_UNALIGNED Signed-off-by: Alex Bennée <alex.bennee@linaro.org> Reviewed-by: Richard Henderson <richard.henderson@linaro.org>
This commit is contained in:
parent
936647d3fc
commit
7ac283e963
@ -28,5 +28,7 @@ LDFLAGS+=-static -nostdlib $(CRT_OBJS) $(MINILIB_OBJS) -lgcc
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%: %.c $(LINK_SCRIPT) $(CRT_OBJS) $(MINILIB_OBJS)
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$(CC) $(CFLAGS) $< -o $@ $(LDFLAGS)
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memory: CFLAGS+=-DCHECK_UNALIGNED=1
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# Running
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QEMU_OPTS+=-M virt -cpu max -display none -semihosting-config enable=on,target=native,chardev=output -kernel
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@ -42,5 +42,7 @@ LDFLAGS+=-static -nostdlib $(CRT_OBJS) $(MINILIB_OBJS) -lgcc
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%: %.c $(LINK_SCRIPT) $(CRT_OBJS) $(MINILIB_OBJS)
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$(CC) $(CFLAGS) $< -o $@ $(LDFLAGS)
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memory: CFLAGS+=-DCHECK_UNALIGNED=1
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# Running
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QEMU_OPTS+=-device isa-debugcon,chardev=output -device isa-debug-exit,iobase=0xf4,iosize=0x4 -kernel
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@ -5,18 +5,33 @@
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* behave across normal and unaligned accesses across several pages.
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* We are not replicating memory tests for stuck bits and other
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* hardware level failures but looking for issues with different size
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* accesses when:
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* accesses when access is:
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*
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* - unaligned at various sizes (if -DCHECK_UNALIGNED set)
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* - spanning a (softmmu) page
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* - sign extension when loading
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*/
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#include <inttypes.h>
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#include <stdbool.h>
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#include <minilib.h>
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#define TEST_SIZE (4096 * 4) /* 4 pages */
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#ifndef CHECK_UNALIGNED
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# error "Target does not specify CHECK_UNALIGNED"
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#endif
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#define PAGE_SIZE 4096 /* nominal 4k "pages" */
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#define TEST_SIZE (PAGE_SIZE * 4) /* 4 pages */
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#define ARRAY_SIZE(x) ((sizeof(x) / sizeof((x)[0])))
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__attribute__((aligned(PAGE_SIZE)))
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static uint8_t test_data[TEST_SIZE];
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typedef void (*init_ufn) (int offset);
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typedef bool (*read_ufn) (int offset);
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typedef bool (*read_sfn) (int offset, bool nf);
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static void pdot(int count)
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{
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if (count % 128 == 0) {
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@ -24,17 +39,26 @@ static void pdot(int count)
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}
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}
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/*
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* Helper macros for shift/extract so we can keep our endian handling
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* in one place.
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*/
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#define BYTE_SHIFT(b, pos) ((uint64_t)b << (pos * 8))
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#define BYTE_EXTRACT(b, pos) ((b >> (pos * 8)) & 0xff)
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/*
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* Fill the data with ascending value bytes. As x86 is a LE machine we
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* write in ascending order and then read and high byte should either
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* be zero or higher than the lower bytes.
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* Fill the data with ascending value bytes.
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*
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* Currently we only support Little Endian machines so write in
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* ascending address order. When we read higher address bytes should
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* either be zero or higher than the lower bytes.
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*/
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static void init_test_data_u8(void)
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static void init_test_data_u8(int unused_offset)
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{
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uint8_t count = 0, *ptr = &test_data[0];
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int i;
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(void)(unused_offset);
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ml_printf("Filling test area with u8:");
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for (i = 0; i < TEST_SIZE; i++) {
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@ -44,62 +68,112 @@ static void init_test_data_u8(void)
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ml_printf("done\n");
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}
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static void init_test_data_u16(int offset)
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/*
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* Full the data with alternating positive and negative bytes. This
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* should mean for reads larger than a byte all subsequent reads will
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* stay either negative or positive. We never write 0.
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*/
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static inline uint8_t get_byte(int index, bool neg)
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{
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uint8_t count = 0;
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uint16_t word, *ptr = (uint16_t *) &test_data[0];
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const int max = (TEST_SIZE - offset) / sizeof(word);
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return neg ? (0xff << (index % 7)) : (0xff >> ((index % 6) + 1));
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}
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static void init_test_data_s8(bool neg_first)
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{
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uint8_t top, bottom, *ptr = &test_data[0];
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int i;
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ml_printf("Filling test area with u16 (offset %d):", offset);
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/* Leading zeros */
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for (i = 0; i < offset; i++) {
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*ptr = 0;
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}
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ptr = (uint16_t *) &test_data[offset];
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for (i = 0; i < max; i++) {
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uint8_t high, low;
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low = count++;
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high = count++;
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word = (high << 8) | low;
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*ptr++ = word;
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ml_printf("Filling test area with s8 pairs (%s):",
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neg_first ? "neg first" : "pos first");
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for (i = 0; i < TEST_SIZE / 2; i++) {
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*ptr++ = get_byte(i, neg_first);
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*ptr++ = get_byte(i, !neg_first);
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pdot(i);
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}
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ml_printf("done\n");
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}
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/*
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* Zero the first few bytes of the test data in preparation for
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* new offset values.
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*/
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static void reset_start_data(int offset)
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{
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uint32_t *ptr = (uint32_t *) &test_data[0];
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int i;
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for (i = 0; i < offset; i++) {
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*ptr++ = 0;
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}
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}
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static void init_test_data_u16(int offset)
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{
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uint8_t count = 0;
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uint16_t word, *ptr = (uint16_t *) &test_data[offset];
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const int max = (TEST_SIZE - offset) / sizeof(word);
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int i;
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ml_printf("Filling test area with u16 (offset %d, %p):", offset, ptr);
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reset_start_data(offset);
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for (i = 0; i < max; i++) {
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uint8_t low = count++, high = count++;
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word = BYTE_SHIFT(high, 1) | BYTE_SHIFT(low, 0);
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*ptr++ = word;
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pdot(i);
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}
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ml_printf("done @ %p\n", ptr);
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}
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static void init_test_data_u32(int offset)
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{
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uint8_t count = 0;
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uint32_t word, *ptr = (uint32_t *) &test_data[0];
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uint32_t word, *ptr = (uint32_t *) &test_data[offset];
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const int max = (TEST_SIZE - offset) / sizeof(word);
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int i;
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ml_printf("Filling test area with u32 (offset %d):", offset);
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ml_printf("Filling test area with u32 (offset %d, %p):", offset, ptr);
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/* Leading zeros */
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for (i = 0; i < offset; i++) {
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*ptr = 0;
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}
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reset_start_data(offset);
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ptr = (uint32_t *) &test_data[offset];
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for (i = 0; i < max; i++) {
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uint8_t b1, b2, b3, b4;
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b4 = count++;
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b3 = count++;
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b2 = count++;
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b1 = count++;
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word = (b1 << 24) | (b2 << 16) | (b3 << 8) | b4;
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uint8_t b4 = count++, b3 = count++;
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uint8_t b2 = count++, b1 = count++;
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word = BYTE_SHIFT(b1, 3) | BYTE_SHIFT(b2, 2) | BYTE_SHIFT(b3, 1) | b4;
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*ptr++ = word;
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pdot(i);
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}
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ml_printf("done\n");
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ml_printf("done @ %p\n", ptr);
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}
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static void init_test_data_u64(int offset)
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{
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uint8_t count = 0;
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uint64_t word, *ptr = (uint64_t *) &test_data[offset];
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const int max = (TEST_SIZE - offset) / sizeof(word);
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int i;
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static int read_test_data_u16(int offset)
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ml_printf("Filling test area with u64 (offset %d, %p):", offset, ptr);
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reset_start_data(offset);
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for (i = 0; i < max; i++) {
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uint8_t b8 = count++, b7 = count++;
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uint8_t b6 = count++, b5 = count++;
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uint8_t b4 = count++, b3 = count++;
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uint8_t b2 = count++, b1 = count++;
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word = BYTE_SHIFT(b1, 7) | BYTE_SHIFT(b2, 6) | BYTE_SHIFT(b3, 5) |
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BYTE_SHIFT(b4, 4) | BYTE_SHIFT(b5, 3) | BYTE_SHIFT(b6, 2) |
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BYTE_SHIFT(b7, 1) | b8;
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*ptr++ = word;
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pdot(i);
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}
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ml_printf("done @ %p\n", ptr);
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}
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static bool read_test_data_u16(int offset)
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{
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uint16_t word, *ptr = (uint16_t *)&test_data[offset];
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int i;
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@ -114,17 +188,17 @@ static int read_test_data_u16(int offset)
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low = word & 0xff;
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if (high < low && high != 0) {
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ml_printf("Error %d < %d\n", high, low);
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return 1;
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return false;
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} else {
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pdot(i);
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}
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}
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ml_printf("done\n");
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return 0;
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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static int read_test_data_u32(int offset)
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static bool read_test_data_u32(int offset)
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{
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uint32_t word, *ptr = (uint32_t *)&test_data[offset];
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int i;
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@ -145,16 +219,16 @@ static int read_test_data_u32(int offset)
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(b2 < b3 && b2 != 0) ||
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(b3 < b4 && b3 != 0)) {
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ml_printf("Error %d, %d, %d, %d", b1, b2, b3, b4);
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return 2;
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return false;
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} else {
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pdot(i);
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}
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}
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ml_printf("done\n");
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return 0;
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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static int read_test_data_u64(int offset)
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static bool read_test_data_u64(int offset)
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{
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uint64_t word, *ptr = (uint64_t *)&test_data[offset];
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int i;
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@ -184,60 +258,192 @@ static int read_test_data_u64(int offset)
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(b7 < b8 && b7 != 0)) {
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ml_printf("Error %d, %d, %d, %d, %d, %d, %d, %d",
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b1, b2, b3, b4, b5, b6, b7, b8);
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return 2;
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return false;
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} else {
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pdot(i);
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}
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}
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ml_printf("done\n");
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return 0;
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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/* Read the test data and verify at various offsets */
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int do_reads(void)
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{
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int r = 0;
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int off = 0;
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read_ufn read_ufns[] = { read_test_data_u16,
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read_test_data_u32,
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read_test_data_u64 };
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while (r == 0 && off < 8) {
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r = read_test_data_u16(off);
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r |= read_test_data_u32(off);
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r |= read_test_data_u64(off);
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off++;
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bool do_unsigned_reads(void)
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{
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int i;
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bool ok = true;
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for (i = 0; i < ARRAY_SIZE(read_ufns) && ok; i++) {
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#if CHECK_UNALIGNED
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int off;
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for (off = 0; off < 8 && ok; off++) {
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ok = read_ufns[i](off);
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}
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#else
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ok = read_ufns[i](0);
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#endif
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}
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return r;
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return ok;
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}
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static bool do_unsigned_test(init_ufn fn)
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{
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#if CHECK_UNALIGNED
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bool ok = true;
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int i;
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for (i = 0; i < 8 && ok; i++) {
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fn(i);
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ok = do_unsigned_reads();
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}
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#else
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fn(0);
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return do_unsigned_reads();
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#endif
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}
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/*
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* We need to ensure signed data is read into a larger data type to
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* ensure that sign extension is working properly.
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*/
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static bool read_test_data_s8(int offset, bool neg_first)
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{
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int8_t *ptr = (int8_t *)&test_data[offset];
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int i;
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const int max = (TEST_SIZE - offset) / 2;
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ml_printf("Reading s8 pairs from %#lx (offset %d):", ptr, offset);
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for (i = 0; i < max; i++) {
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int16_t first, second;
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bool ok;
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first = *ptr++;
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second = *ptr++;
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if (neg_first && first < 0 && second > 0) {
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pdot(i);
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} else if (!neg_first && first > 0 && second < 0) {
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pdot(i);
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} else {
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ml_printf("Error %d %c %d\n", first, neg_first ? '<' : '>', second);
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return false;
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}
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}
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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static bool read_test_data_s16(int offset, bool neg_first)
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{
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int16_t *ptr = (int16_t *)&test_data[offset];
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int i;
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const int max = (TEST_SIZE - offset) / (sizeof(*ptr));
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ml_printf("Reading s16 from %#lx (offset %d, %s):", ptr,
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offset, neg_first ? "neg" : "pos");
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for (i = 0; i < max; i++) {
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int32_t data = *ptr++;
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if (neg_first && data < 0) {
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pdot(i);
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} else if (data > 0) {
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pdot(i);
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} else {
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ml_printf("Error %d %c 0\n", data, neg_first ? '<' : '>');
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return false;
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}
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}
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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static bool read_test_data_s32(int offset, bool neg_first)
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{
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int32_t *ptr = (int32_t *)&test_data[offset];
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int i;
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const int max = (TEST_SIZE - offset) / (sizeof(int32_t));
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ml_printf("Reading s32 from %#lx (offset %d, %s):",
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ptr, offset, neg_first ? "neg" : "pos");
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for (i = 0; i < max; i++) {
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int64_t data = *ptr++;
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if (neg_first && data < 0) {
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pdot(i);
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} else if (data > 0) {
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pdot(i);
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} else {
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ml_printf("Error %d %c 0\n", data, neg_first ? '<' : '>');
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return false;
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}
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}
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ml_printf("done @ %p\n", ptr);
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return true;
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}
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/*
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* Read the test data and verify at various offsets
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*
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* For everything except bytes all our reads should be either positive
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* or negative depending on what offset we are reading from. Currently
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* we only handle LE systems.
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*/
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read_sfn read_sfns[] = { read_test_data_s8,
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read_test_data_s16,
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read_test_data_s32 };
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bool do_signed_reads(bool neg_first)
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{
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int i;
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bool ok = true;
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for (i = 0; i < ARRAY_SIZE(read_sfns) && ok; i++) {
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#if CHECK_UNALIGNED
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int off;
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for (off = 0; off < 8 && ok; off++) {
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bool nf = i == 0 ? neg_first ^ (off & 1) : !(neg_first ^ (off & 1));
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ok = read_sfns[i](off, nf);
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}
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#else
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ok = read_sfns[i](0, i == 0 ? neg_first : !neg_first);
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#endif
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}
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return ok;
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}
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init_ufn init_ufns[] = { init_test_data_u8,
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init_test_data_u16,
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init_test_data_u32,
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init_test_data_u64 };
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int main(void)
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{
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int i, r = 0;
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int i;
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bool ok = true;
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init_test_data_u8();
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r = do_reads();
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if (r) {
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return r;
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/* Run through the unsigned tests first */
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for (i = 0; i < ARRAY_SIZE(init_ufns) && ok; i++) {
|
||||
ok = do_unsigned_test(init_ufns[i]);
|
||||
}
|
||||
|
||||
for (i = 0; i < 8; i++) {
|
||||
init_test_data_u16(i);
|
||||
|
||||
r = do_reads();
|
||||
if (r) {
|
||||
return r;
|
||||
}
|
||||
if (ok) {
|
||||
init_test_data_s8(false);
|
||||
ok = do_signed_reads(false);
|
||||
}
|
||||
|
||||
for (i = 0; i < 8; i++) {
|
||||
init_test_data_u32(i);
|
||||
|
||||
r = do_reads();
|
||||
if (r) {
|
||||
return r;
|
||||
}
|
||||
if (ok) {
|
||||
init_test_data_s8(true);
|
||||
ok = do_signed_reads(true);
|
||||
}
|
||||
|
||||
ml_printf("Test complete: %s\n", r == 0 ? "PASSED" : "FAILED");
|
||||
return r;
|
||||
ml_printf("Test complete: %s\n", ok ? "PASSED" : "FAILED");
|
||||
return ok ? 0 : -1;
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user