2020-05-24 15:30:55 -05:00
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// SPDX-License-Identifier: GPL-2.0
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2022-01-31 16:59:14 -06:00
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// Copyright (C) 2020-2022 Martin Whitaker.
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2020-05-24 15:30:55 -05:00
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//
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// Derived from an extract of memtest86+ test.c:
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//
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// MemTest86+ V5 Specific code (GPL V2.0)
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// By Samuel DEMEULEMEESTER, sdemeule@memtest.org
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// http://www.canardpc.com - http://www.memtest.org
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// Thanks to Passmark for calculate_chunk() and various comments !
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// ----------------------------------------------------
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// test.c - MemTest-86 Version 3.4
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//
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// Released under version 2 of the Gnu Public License.
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// By Chris Brady
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#include <stdbool.h>
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#include <stdint.h>
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#include "display.h"
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#include "error.h"
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#include "test.h"
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#include "test_funcs.h"
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#include "test_helper.h"
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//------------------------------------------------------------------------------
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// Public Functions
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//------------------------------------------------------------------------------
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2022-01-31 16:59:14 -06:00
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int test_mov_inv_walk1(int my_cpu, int iterations, int offset, bool inverse)
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{
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int ticks = 0;
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testword_t pattern = (testword_t)1 << offset;
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2022-01-31 16:59:14 -06:00
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if (my_cpu == master_cpu) {
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display_test_pattern_value(inverse ? ~pattern : pattern);
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}
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// Initialize memory with the initial pattern.
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for (int i = 0; i < vm_map_size; i++) {
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testword_t *start, *end;
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calculate_chunk(&start, &end, my_cpu, i, sizeof(testword_t));
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testword_t *p = start;
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testword_t *pe = start;
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bool at_end = false;
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do {
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// take care to avoid pointer overflow
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if ((end - pe) >= SPIN_SIZE) {
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pe += SPIN_SIZE - 1;
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} else {
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at_end = true;
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pe = end;
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}
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ticks++;
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if (my_cpu < 0) {
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continue;
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}
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test_addr[my_cpu] = (uintptr_t)p;
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do {
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write_word(p, inverse ? ~pattern : pattern);
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pattern = pattern << 1 | pattern >> (TESTWORD_WIDTH - 1); // rotate left
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} while (p++ < pe); // test before increment in case pointer overflows
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do_tick(my_cpu);
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BAILOUT;
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} while (!at_end && ++pe); // advance pe to next start point
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}
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// Check for initial pattern and then write the complement for each memory location.
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// Test from bottom up and then from the top down.
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for (int i = 0; i < iterations; i++) {
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pattern = (testword_t)1 << offset;
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flush_caches(my_cpu);
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2020-05-24 15:30:55 -05:00
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for (int j = 0; j < vm_map_size; j++) {
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testword_t *start, *end;
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calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));
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testword_t *p = start;
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testword_t *pe = start;
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bool at_end = false;
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do {
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// take care to avoid pointer overflow
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if ((end - pe) >= SPIN_SIZE) {
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pe += SPIN_SIZE - 1;
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} else {
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at_end = true;
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pe = end;
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}
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ticks++;
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if (my_cpu < 0) {
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continue;
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}
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test_addr[my_cpu] = (uintptr_t)p;
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do {
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testword_t expect = inverse ? ~pattern : pattern;
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testword_t actual = read_word(p);
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if (unlikely(actual != expect)) {
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data_error(p, expect, actual, true);
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}
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write_word(p, ~expect);
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pattern = pattern << 1 | pattern >> (TESTWORD_WIDTH - 1); // rotate left
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} while (p++ < pe); // test before increment in case pointer overflows
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do_tick(my_cpu);
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BAILOUT;
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} while (!at_end && ++pe); // advance pe to next start point
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}
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flush_caches(my_cpu);
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2020-05-24 15:30:55 -05:00
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for (int j = vm_map_size - 1; j >= 0; j--) {
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testword_t *start, *end;
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calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));
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testword_t *p = end;
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testword_t *ps = end;
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bool at_start = false;
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do {
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// take care to avoid pointer underflow
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if ((ps - start) >= SPIN_SIZE) {
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ps -= SPIN_SIZE - 1;
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} else {
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at_start = true;
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ps = start;
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}
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ticks++;
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if (my_cpu < 0) {
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continue;
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}
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test_addr[my_cpu] = (uintptr_t)ps;
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do {
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pattern = pattern >> 1 | pattern << (TESTWORD_WIDTH - 1); // rotate right
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testword_t expect = inverse ? pattern : ~pattern;
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testword_t actual = read_word(p);
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if (unlikely(actual != expect)) {
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data_error(p, expect, actual, true);
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}
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write_word(p, ~expect);
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} while (p-- > ps); // test before decrement in case pointer overflows
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do_tick(my_cpu);
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BAILOUT;
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} while (!at_start && --ps); // advance ps to next start point
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}
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}
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return ticks;
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}
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