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memtest86plus/tests/tests.c
martinwhitaker 93c9c8ded5
Rework memory mapping to allow for larger program size (#54) 
* Improve abstraction in vmem.h and limit memory benchmarking to first 2GB.

The third GB may get used for remapping memory regions that are only
accessed during startup, so it's not safe to use it for the memory
speed tests.

* Fix calculation of end limit for locating memory benchmark workspace.

* Document vmem.h.

* Use window number, not current start address, to detect first window.

* Increase the program low-load range from 1MB to 4MB and make more robust.

If the BIOS has reserved some parts of low memory, there may not be
enough contiguous space left to load the program there (issue #49).
So increase the low-load range to include the first 3MB of high
memory. Also guard against the program being initially loaded
straddling the new boundary.

Co-authored-by: Martin Whitaker <memtest@martin-whitaker.me.uk>
2022-04-28 23:04:01 +02:00

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// SPDX-License-Identifier: GPL-2.0
// Copyright (C) 2020-2022 Martin Whitaker.
//
// Derived from an extract of memtest86+ main.c:
//
// MemTest86+ V5 Specific code (GPL V2.0)
// By Samuel DEMEULEMEESTER, sdemeule@memtest.org
// http://www.canardpc.com - http://www.memtest.org
// ------------------------------------------------
// main.c - MemTest-86 Version 3.5
//
// Released under version 2 of the Gnu Public License.
// By Chris Brady
#include <stdbool.h>
#include <stdint.h>
#include "boot.h"
#include "cache.h"
#include "cpuid.h"
#include "memsize.h"
#include "tsc.h"
#include "vmem.h"
#include "barrier.h"
#include "config.h"
#include "display.h"
#include "test.h"
#include "test_funcs.h"
#include "test_helper.h"
#include "tests.h"
//------------------------------------------------------------------------------
// Constants
//------------------------------------------------------------------------------
#ifndef TRACE_BARRIERS
#define TRACE_BARRIERS 0
#endif
#define MODULO_N 20
//------------------------------------------------------------------------------
// Public Variables
//------------------------------------------------------------------------------
test_pattern_t test_list[NUM_TEST_PATTERNS] = {
// ena, cpu, stgs, itrs, errs, description
{ true, SEQ, 1, 6, 0, "[Address test, walking ones, no cache] "},
{ true, SEQ, 1, 6, 0, "[Address test, own address in window] "},
{ true, SEQ, 2, 6, 0, "[Address test, own address + window] "},
{ true, PAR, 1, 6, 0, "[Moving inversions, 1s & 0s] "},
{ true, PAR, 1, 3, 0, "[Moving inversions, 8 bit pattern] "},
{ true, PAR, 1, 30, 0, "[Moving inversions, random pattern] "},
#if TESTWORD_WIDTH > 32
{ true, PAR, 1, 3, 0, "[Moving inversions, 64 bit pattern] "},
#else
{ true, PAR, 1, 3, 0, "[Moving inversions, 32 bit pattern] "},
#endif
{ true, PAR, 1, 81, 0, "[Block move] "},
{ true, PAR, 1, 48, 0, "[Random number sequence] "},
{ true, PAR, 1, 6, 0, "[Modulo 20, random pattern] "},
{ true, ONE, 6, 240, 0, "[Bit fade test, 2 patterns] "},
};
int ticks_per_pass[NUM_PASS_TYPES];
int ticks_per_test[NUM_PASS_TYPES][NUM_TEST_PATTERNS];
//------------------------------------------------------------------------------
// Public Functions
//------------------------------------------------------------------------------
#define BARRIER \
if (my_cpu >= 0) { \
if (TRACE_BARRIERS) { \
trace(my_cpu, "Run barrier wait at %s line %i", __FILE__, __LINE__); \
} \
if (power_save < POWER_SAVE_HIGH) { \
barrier_spin_wait(run_barrier); \
} else { \
barrier_halt_wait(run_barrier); \
} \
}
int run_test(int my_cpu, int test, int stage, int iterations)
{
if (my_cpu == master_cpu) {
if (window_num == 0) {
// First window, so we need to test all selected lower memory.
vm_map[0].start = first_word_mapping(pm_limit_lower);
// For USB_WORKAROUND.
if (vm_map[0].start < (uintptr_t *)0x500) {
vm_map[0].start = (uintptr_t *)0x500;
}
}
/* Update display of memory segments being tested */
uintptr_t pb = page_of(vm_map[0].start);
uintptr_t pe = page_of(vm_map[vm_map_size - 1].end) + 1;
display_test_addresses(pb << 2, pe << 2, num_pages_to_test << 2);
}
BARRIER;
testword_t prsg_state;
int ticks = 0;
switch (test) {
// Address test, walking ones.
case 0:
if (my_cpu >= 0) cache_off();
ticks += test_addr_walk1(my_cpu);
if (my_cpu >= 0) cache_on();
BAILOUT;
break;
// Address test, own address in window.
case 1:
ticks += test_own_addr1(my_cpu);
BAILOUT;
break;
// Address test, own address + window.
case 2:
ticks += test_own_addr2(my_cpu, stage);
BAILOUT;
break;
// Moving inversions, all ones and zeros.
case 3: {
testword_t pattern1 = 0;
testword_t pattern2 = ~pattern1;
BARRIER;
ticks += test_mov_inv_fixed(my_cpu, iterations, pattern1, pattern2);
BAILOUT;
BARRIER;
ticks += test_mov_inv_fixed(my_cpu, iterations, pattern2, pattern1);
BAILOUT;
} break;
// Moving inversions, 8 bit walking ones and zeros.
case 4: {
#if TESTWORD_WIDTH > 32
testword_t pattern1 = UINT64_C(0x8080808080808080);
#else
testword_t pattern1 = 0x80808080;
#endif
for (int i = 0; i < 8; i++) {
testword_t pattern2 = ~pattern1;
BARRIER;
ticks += test_mov_inv_fixed(my_cpu, iterations, pattern1, pattern2);
BAILOUT;
BARRIER;
ticks += test_mov_inv_fixed(my_cpu, iterations, pattern2, pattern1);
BAILOUT;
pattern1 >>= 1;
}
} break;
// Moving inversions, fixed random pattern.
case 5:
if (cpuid_info.flags.rdtsc) {
prsg_state = get_tsc();
} else {
prsg_state = 1 + pass_num;
}
prsg_state *= 0x12345678;
for (int i = 0; i < iterations; i++) {
prsg_state = prsg(prsg_state);
testword_t pattern1 = prsg_state;
testword_t pattern2 = ~pattern1;
BARRIER;
ticks += test_mov_inv_fixed(my_cpu, 2, pattern1, pattern2);
BAILOUT;
}
break;
// Moving inversions, 32/64 bit shifting pattern.
case 6:
for (int offset = 0; offset < TESTWORD_WIDTH; offset++) {
BARRIER;
ticks += test_mov_inv_walk1(my_cpu, iterations, offset, false);
BAILOUT;
BARRIER;
ticks += test_mov_inv_walk1(my_cpu, iterations, offset, true);
BAILOUT;
}
break;
// Block move.
case 7:
ticks += test_block_move(my_cpu, iterations);
BAILOUT;
break;
// Moving inversions, fully random patterns.
case 8:
for (int i = 0; i < iterations; i++) {
BARRIER;
ticks += test_mov_inv_random(my_cpu);
BAILOUT;
}
break;
// Modulo 20 check, fixed random pattern.
case 9:
if (cpuid_info.flags.rdtsc) {
prsg_state = get_tsc();
} else {
prsg_state = 1 + pass_num;
}
prsg_state *= 0x87654321;
for (int i = 0; i < iterations; i++) {
for (int offset = 0; offset < MODULO_N; offset++) {
prsg_state = prsg(prsg_state);
testword_t pattern1 = prsg_state;
testword_t pattern2 = ~pattern1;
BARRIER;
ticks += test_modulo_n(my_cpu, 2, pattern1, pattern2, MODULO_N, offset);
BAILOUT;
BARRIER;
ticks += test_modulo_n(my_cpu, 2, pattern2, pattern1, MODULO_N, offset);
BAILOUT;
}
}
break;
// Bit fade test.
case 10:
ticks += test_bit_fade(my_cpu, stage, iterations);
BAILOUT;
break;
}
return ticks;
}
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