memtest86plus/tests/mov_inv_walk1.c

// SPDX-License-Identifier: GPL-2.0
// Copyright (C) 2020-2022 Martin Whitaker.
//
// Derived from an extract of memtest86+ test.c:
//
// MemTest86+ V5 Specific code (GPL V2.0)
// By Samuel DEMEULEMEESTER, sdemeule@memtest.org
// http://www.canardpc.com - http://www.memtest.org
// Thanks to Passmark for calculate_chunk() and various comments !
// ----------------------------------------------------
// test.c - MemTest-86  Version 3.4
//
// Released under version 2 of the Gnu Public License.
// By Chris Brady

#include <stdbool.h>
#include <stdint.h>

#include "display.h"
#include "error.h"
#include "test.h"

#include "test_funcs.h"
#include "test_helper.h"

//------------------------------------------------------------------------------
// Public Functions
//------------------------------------------------------------------------------

int test_mov_inv_walk1(int my_cpu, int iterations, int offset, bool inverse)
{
    int ticks = 0;

    testword_t pattern = (testword_t)1 << offset;
    pattern = inverse ? ~pattern : pattern;

    if (my_cpu == master_cpu) {
        display_test_pattern_value(pattern);
    }

    // Initialize memory with the initial pattern.
    for (int i = 0; i < vm_map_size; i++) {
        testword_t *start, *end;
        calculate_chunk(&start, &end, my_cpu, i, sizeof(testword_t));
        if (end < start) SKIP_RANGE(1)  // we need at least one word for this test

        testword_t *p  = start;
        testword_t *pe = start;

        bool at_end = false;
        do {
            // take care to avoid pointer overflow
            if ((end - pe) >= SPIN_SIZE) {
                pe += SPIN_SIZE - 1;
            } else {
                at_end = true;
                pe = end;
            }
            ticks++;
            if (my_cpu < 0) {
                continue;
            }
            test_addr[my_cpu] = (uintptr_t)p;
            do {
                write_word(p, pattern);
                pattern = pattern << 1 | pattern >> (TESTWORD_WIDTH - 1);  // rotate left
            } while (p++ < pe); // test before increment in case pointer overflows
            do_tick(my_cpu);
            BAILOUT;
        } while (!at_end && ++pe); // advance pe to next start point
    }

    // Check for initial pattern and then write the complement for each memory location.
    // Test from bottom up and then from the top down.
    for (int i = 0; i < iterations; i++) {
        pattern = (testword_t)1 << offset;
        pattern = inverse ? ~pattern : pattern;

        flush_caches(my_cpu);

        for (int j = 0; j < vm_map_size; j++) {
            testword_t *start, *end;
            calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));
            if (end < start) SKIP_RANGE(1)  // we need at least one word for this test

            testword_t *p  = start;
            testword_t *pe = start;

            bool at_end = false;
            do {
                // take care to avoid pointer overflow
                if ((end - pe) >= SPIN_SIZE) {
                    pe += SPIN_SIZE - 1;
                } else {
                    at_end = true;
                    pe = end;
                }
                ticks++;
                if (my_cpu < 0) {
                    continue;
                }
                test_addr[my_cpu] = (uintptr_t)p;
                do {
                    testword_t expect = pattern;
                    testword_t actual = read_word(p);
                    if (unlikely(actual != expect)) {
                        data_error(p, expect, actual, true);
                    }
                    write_word(p, ~expect);
                    pattern = pattern << 1 | pattern >> (TESTWORD_WIDTH - 1);  // rotate left
                } while (p++ < pe); // test before increment in case pointer overflows
                do_tick(my_cpu);
                BAILOUT;
            } while (!at_end && ++pe); // advance pe to next start point
        }

        pattern = ~pattern;

        flush_caches(my_cpu);

        for (int j = vm_map_size - 1; j >= 0; j--) {
            testword_t *start, *end;
            calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));
            if (end < start) SKIP_RANGE(1)  // we need at least one word for this test

            testword_t *p  = end;
            testword_t *ps = end;

            bool at_start = false;
            do {
                // take care to avoid pointer underflow
                if ((ps - start) >= SPIN_SIZE) {
                    ps -= SPIN_SIZE - 1;
                } else {
                    at_start = true;
                    ps = start;
                }
                ticks++;
                if (my_cpu < 0) {
                    continue;
                }
                test_addr[my_cpu] = (uintptr_t)ps;
                do {
                    pattern = pattern >> 1 | pattern << (TESTWORD_WIDTH - 1);  // rotate right
                    testword_t expect = pattern;
                    testword_t actual = read_word(p);
                    if (unlikely(actual != expect)) {
                        data_error(p, expect, actual, true);
                    }
                    write_word(p, ~expect);
                } while (p-- > ps); // test before decrement in case pointer overflows
                do_tick(my_cpu);
                BAILOUT;
            } while (!at_start && --ps); // advance ps to next start point
        }
    }

    return ticks;
}
Initial commit. 2020-05-24 23:30:55 +03:00			`// SPDX-License-Identifier: GPL-2.0`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`// Copyright (C) 2020-2022 Martin Whitaker.`
Initial commit. 2020-05-24 23:30:55 +03:00			`//`
			`// Derived from an extract of memtest86+ test.c:`
			`//`
			`// MemTest86+ V5 Specific code (GPL V2.0)`
			`// By Samuel DEMEULEMEESTER, sdemeule@memtest.org`
			`// http://www.canardpc.com - http://www.memtest.org`
			`// Thanks to Passmark for calculate_chunk() and various comments !`
			`// ----------------------------------------------------`
			`// test.c - MemTest-86 Version 3.4`
			`//`
			`// Released under version 2 of the Gnu Public License.`
			`// By Chris Brady`

			`#include <stdbool.h>`
			`#include <stdint.h>`

			`#include "display.h"`
			`#include "error.h"`
			`#include "test.h"`

			`#include "test_funcs.h"`
			`#include "test_helper.h"`

			`//------------------------------------------------------------------------------`
			`// Public Functions`
			`//------------------------------------------------------------------------------`

Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`int test_mov_inv_walk1(int my_cpu, int iterations, int offset, bool inverse)`
Initial commit. 2020-05-24 23:30:55 +03:00			`{`
			`int ticks = 0;`

			`testword_t pattern = (testword_t)1 << offset;`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`pattern = inverse ? ~pattern : pattern;`
Initial commit. 2020-05-24 23:30:55 +03:00
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`if (my_cpu == master_cpu) {`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`display_test_pattern_value(pattern);`
Initial commit. 2020-05-24 23:30:55 +03:00			`}`

			`// Initialize memory with the initial pattern.`
			`for (int i = 0; i < vm_map_size; i++) {`
			`testword_t start, end;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`calculate_chunk(&start, &end, my_cpu, i, sizeof(testword_t));`
Add initial NUMA awareness support (#378) * Add a file containing useful macro definitions, currently a single top-level macro for obtaining the size of an array; use it to replace a sizeof(x) / sizeof(x[0]) construct in system/smbus.c . This requires switching the GCC build mode from C11 to C11 with GCC extensions. * Initial NUMA awareness (#12) support: parse the ACPI SRAT to build up new internal structures related to proximity domains and affinity; use these structures in setup_vm_map() and calculate_chunk() to skip the work on the processors which don't belong to the proximity domain currently being tested. Tested on a number of 1S single-domain, 2S multi-domain and 4S multi-domain platforms. SKIP_RANGE(iterations) trick by Martin Whitaker. 2024-03-13 03:43:26 +03:00			`if (end < start) SKIP_RANGE(1) // we need at least one word for this test`
Initial commit. 2020-05-24 23:30:55 +03:00
Remove volatile qualifier from testword pointers. Now we use the atomic read/write functions, these are redundant. 2022-02-19 16:01:42 +03:00			`testword_t *p = start;`
			`testword_t *pe = start;`
Initial commit. 2020-05-24 23:30:55 +03:00
			`bool at_end = false;`
			`do {`
			`// take care to avoid pointer overflow`
			`if ((end - pe) >= SPIN_SIZE) {`
			`pe += SPIN_SIZE - 1;`
			`} else {`
			`at_end = true;`
			`pe = end;`
			`}`
			`ticks++;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`if (my_cpu < 0) {`
Initial commit. 2020-05-24 23:30:55 +03:00			`continue;`
			`}`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`test_addr[my_cpu] = (uintptr_t)p;`
Initial commit. 2020-05-24 23:30:55 +03:00			`do {`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`write_word(p, pattern);`
Initial commit. 2020-05-24 23:30:55 +03:00			`pattern = pattern << 1 \| pattern >> (TESTWORD_WIDTH - 1); // rotate left`
			`} while (p++ < pe); // test before increment in case pointer overflows`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`do_tick(my_cpu);`
Initial commit. 2020-05-24 23:30:55 +03:00			`BAILOUT;`
			`} while (!at_end && ++pe); // advance pe to next start point`
			`}`

			`// Check for initial pattern and then write the complement for each memory location.`
			`// Test from bottom up and then from the top down.`
			`for (int i = 0; i < iterations; i++) {`
			`pattern = (testword_t)1 << offset;`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`pattern = inverse ? ~pattern : pattern;`
Initial commit. 2020-05-24 23:30:55 +03:00
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`flush_caches(my_cpu);`
Flush caches between writing and verifying test data. Mostly we write and read large chunks of data which will make it likely that the data is no longer in the cache when we come to verify it. But this is not always true, and in any case, we shouldn't rely on it. 2021-12-23 14:00:10 +03:00
Initial commit. 2020-05-24 23:30:55 +03:00			`for (int j = 0; j < vm_map_size; j++) {`
			`testword_t start, end;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));`
Add initial NUMA awareness support (#378) * Add a file containing useful macro definitions, currently a single top-level macro for obtaining the size of an array; use it to replace a sizeof(x) / sizeof(x[0]) construct in system/smbus.c . This requires switching the GCC build mode from C11 to C11 with GCC extensions. * Initial NUMA awareness (#12) support: parse the ACPI SRAT to build up new internal structures related to proximity domains and affinity; use these structures in setup_vm_map() and calculate_chunk() to skip the work on the processors which don't belong to the proximity domain currently being tested. Tested on a number of 1S single-domain, 2S multi-domain and 4S multi-domain platforms. SKIP_RANGE(iterations) trick by Martin Whitaker. 2024-03-13 03:43:26 +03:00			`if (end < start) SKIP_RANGE(1) // we need at least one word for this test`
Initial commit. 2020-05-24 23:30:55 +03:00
Remove volatile qualifier from testword pointers. Now we use the atomic read/write functions, these are redundant. 2022-02-19 16:01:42 +03:00			`testword_t *p = start;`
			`testword_t *pe = start;`
Initial commit. 2020-05-24 23:30:55 +03:00
			`bool at_end = false;`
			`do {`
			`// take care to avoid pointer overflow`
			`if ((end - pe) >= SPIN_SIZE) {`
			`pe += SPIN_SIZE - 1;`
			`} else {`
			`at_end = true;`
			`pe = end;`
			`}`
			`ticks++;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`if (my_cpu < 0) {`
Initial commit. 2020-05-24 23:30:55 +03:00			`continue;`
			`}`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`test_addr[my_cpu] = (uintptr_t)p;`
Initial commit. 2020-05-24 23:30:55 +03:00			`do {`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`testword_t expect = pattern;`
Use atomic memory read/write functions in tests. This ensures compiler optimisations won't interfere with the tests. 2021-12-23 12:46:01 +03:00			`testword_t actual = read_word(p);`
Initial commit. 2020-05-24 23:30:55 +03:00			`if (unlikely(actual != expect)) {`
			`data_error(p, expect, actual, true);`
			`}`
Use atomic memory read/write functions in tests. This ensures compiler optimisations won't interfere with the tests. 2021-12-23 12:46:01 +03:00			`write_word(p, ~expect);`
Initial commit. 2020-05-24 23:30:55 +03:00			`pattern = pattern << 1 \| pattern >> (TESTWORD_WIDTH - 1); // rotate left`
			`} while (p++ < pe); // test before increment in case pointer overflows`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`do_tick(my_cpu);`
Initial commit. 2020-05-24 23:30:55 +03:00			`BAILOUT;`
			`} while (!at_end && ++pe); // advance pe to next start point`
			`}`

Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`pattern = ~pattern;`

Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`flush_caches(my_cpu);`
Flush caches between writing and verifying test data. Mostly we write and read large chunks of data which will make it likely that the data is no longer in the cache when we come to verify it. But this is not always true, and in any case, we shouldn't rely on it. 2021-12-23 14:00:10 +03:00
Initial commit. 2020-05-24 23:30:55 +03:00			`for (int j = vm_map_size - 1; j >= 0; j--) {`
			`testword_t start, end;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`calculate_chunk(&start, &end, my_cpu, j, sizeof(testword_t));`
Add initial NUMA awareness support (#378) * Add a file containing useful macro definitions, currently a single top-level macro for obtaining the size of an array; use it to replace a sizeof(x) / sizeof(x[0]) construct in system/smbus.c . This requires switching the GCC build mode from C11 to C11 with GCC extensions. * Initial NUMA awareness (#12) support: parse the ACPI SRAT to build up new internal structures related to proximity domains and affinity; use these structures in setup_vm_map() and calculate_chunk() to skip the work on the processors which don't belong to the proximity domain currently being tested. Tested on a number of 1S single-domain, 2S multi-domain and 4S multi-domain platforms. SKIP_RANGE(iterations) trick by Martin Whitaker. 2024-03-13 03:43:26 +03:00			`if (end < start) SKIP_RANGE(1) // we need at least one word for this test`
Initial commit. 2020-05-24 23:30:55 +03:00
Remove volatile qualifier from testword pointers. Now we use the atomic read/write functions, these are redundant. 2022-02-19 16:01:42 +03:00			`testword_t *p = end;`
			`testword_t *ps = end;`
Initial commit. 2020-05-24 23:30:55 +03:00
			`bool at_start = false;`
			`do {`
			`// take care to avoid pointer underflow`
			`if ((ps - start) >= SPIN_SIZE) {`
			`ps -= SPIN_SIZE - 1;`
			`} else {`
			`at_start = true;`
			`ps = start;`
			`}`
			`ticks++;`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`if (my_cpu < 0) {`
Initial commit. 2020-05-24 23:30:55 +03:00			`continue;`
			`}`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`test_addr[my_cpu] = (uintptr_t)ps;`
Initial commit. 2020-05-24 23:30:55 +03:00			`do {`
			`pattern = pattern >> 1 \| pattern << (TESTWORD_WIDTH - 1); // rotate right`
Significantly optimize test_mov_inv_walk1() for size by moving the ternary operators related to inverse and pattern outside hot paths, which prevents generated code duplication and shortens one of the sides of duplicated loops. (#351) Before: text data bss dec hex filename 3019 0 0 3019 bcb build32/tests/mov_inv_walk1.o 2640 0 0 2640 a50 build64/tests/mov_inv_walk1.o After: text data bss dec hex filename 1705 0 0 1705 6a9 build32/tests/mov_inv_walk1.o 1464 0 0 1464 5b8 build64/tests/mov_inv_walk1.o 2023-11-19 19:14:08 +03:00			`testword_t expect = pattern;`
Use atomic memory read/write functions in tests. This ensures compiler optimisations won't interfere with the tests. 2021-12-23 12:46:01 +03:00			`testword_t actual = read_word(p);`
Initial commit. 2020-05-24 23:30:55 +03:00			`if (unlikely(actual != expect)) {`
			`data_error(p, expect, actual, true);`
			`}`
Use atomic memory read/write functions in tests. This ensures compiler optimisations won't interfere with the tests. 2021-12-23 12:46:01 +03:00			`write_word(p, ~expect);`
Initial commit. 2020-05-24 23:30:55 +03:00			`} while (p-- > ps); // test before decrement in case pointer overflows`
Remove distinction between physical and virtual CPUs. This is no longer needed, now we can display as many CPUs as we can physically handle. 2022-02-01 01:59:14 +03:00			`do_tick(my_cpu);`
Initial commit. 2020-05-24 23:30:55 +03:00			`BAILOUT;`
			`} while (!at_start && --ps); // advance ps to next start point`
			`}`
			`}`

			`return ticks;`
			`}`