mirror of
https://github.com/memtest86plus/memtest86plus.git
synced 2024-11-30 11:03:48 -06:00
16d55b7dad
This is no longer needed, now we can display as many CPUs as we can physically handle.
370 lines
12 KiB
C
370 lines
12 KiB
C
// SPDX-License-Identifier: GPL-2.0
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// Copyright (C) 2020-2022 Martin Whitaker.
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//
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// Derived from memtest86+ error.c
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//
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// error.c - MemTest-86 Version 4.1
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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 <limits.h>
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#include "smp.h"
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#include "vmem.h"
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#include "badram.h"
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#include "config.h"
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#include "display.h"
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#include "test.h"
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#include "tests.h"
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#include "error.h"
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//------------------------------------------------------------------------------
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// Constants
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//------------------------------------------------------------------------------
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#ifndef USB_WORKAROUND
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#define USB_WORKAROUND 1
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#endif
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//------------------------------------------------------------------------------
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// Types
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//------------------------------------------------------------------------------
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typedef enum { ADDR_ERROR, DATA_ERROR, PARITY_ERROR, NEW_MODE } error_type_t;
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typedef struct {
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uintptr_t page;
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uintptr_t offset;
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} page_offs_t;
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typedef struct {
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page_offs_t min_addr;
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page_offs_t max_addr;
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testword_t bad_bits;
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int min_bits;
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int max_bits;
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uint64_t total_bits;
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uintptr_t run_length;
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uintptr_t max_run;
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uintptr_t last_addr;
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testword_t last_xor;
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} error_info_t;
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//------------------------------------------------------------------------------
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// Private Variables
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//------------------------------------------------------------------------------
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static error_mode_t last_error_mode = ERROR_MODE_NONE;
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static error_info_t error_info;
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//------------------------------------------------------------------------------
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// Public Variables
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//------------------------------------------------------------------------------
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uint64_t error_count = 0;
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//------------------------------------------------------------------------------
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// Private Functions
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//------------------------------------------------------------------------------
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static bool update_error_info(uintptr_t addr, testword_t xor)
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{
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bool update_stats = false;
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// Update address range.
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testword_t page = page_of((void *)addr);
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testword_t offset = addr & 0xFFF;
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if (error_info.min_addr.page > page) {
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error_info.min_addr.page = page;
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error_info.min_addr.offset = offset;
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update_stats = true;
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} else if (error_info.min_addr.page == page && error_info.min_addr.offset > offset) {
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error_info.min_addr.offset = offset;
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update_stats = true;
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}
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if (error_info.max_addr.page < page) {
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error_info.max_addr.page = page;
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error_info.max_addr.offset = offset;
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update_stats = true;
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} else if (error_info.max_addr.page == page && error_info.max_addr.offset < offset) {
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error_info.max_addr.offset = offset;
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update_stats = true;
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}
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// Update bits in error.
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int bits = 0;
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for (int i = 0; i < TESTWORD_WIDTH; i++) {
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if ((xor >> i) & 1) {
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bits++;
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}
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}
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if (bits > 0 && error_count < ERROR_LIMIT) {
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error_info.total_bits += bits;
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}
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if (bits > error_info.max_bits) {
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error_info.max_bits = bits;
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update_stats = true;
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}
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if (bits < error_info.min_bits) {
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error_info.min_bits = bits;
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update_stats = true;
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}
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if (error_info.bad_bits ^ xor) {
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update_stats = true;
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}
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error_info.bad_bits |= xor;
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// Update max contiguous range.
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if (error_info.max_run > 0) {
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if (addr == error_info.last_addr + sizeof(testword_t)
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|| addr == error_info.last_addr - sizeof(testword_t)) {
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error_info.run_length++;
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} else {
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error_info.run_length = 1;
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}
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} else {
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error_info.run_length = 1;
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}
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if (error_info.run_length > error_info.max_run) {
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error_info.max_run = error_info.run_length;
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update_stats = true;
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}
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return update_stats;
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}
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static void common_err(error_type_t type, uintptr_t addr, testword_t good, testword_t bad, bool use_for_badram)
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{
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spin_lock(error_mutex);
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bool new_header = (error_count == 0) || (error_mode != last_error_mode);
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if (new_header) {
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clear_message_area();
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badram_init();
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}
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last_error_mode = error_mode;
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testword_t xor = good ^ bad;
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bool new_stats = false;
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switch (type) {
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case ADDR_ERROR:
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new_stats = update_error_info(addr, 0);
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break;
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case DATA_ERROR:
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new_stats = update_error_info(addr, xor);
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break;
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case NEW_MODE:
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new_stats = (error_count > 0);
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default:
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break;
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}
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bool new_address = (type != NEW_MODE);
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bool new_badram = false;
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if (error_mode == ERROR_MODE_BADRAM && use_for_badram) {
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new_badram = badram_insert(addr);
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}
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if (new_address) {
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if (error_count < ERROR_LIMIT) {
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error_count++;
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}
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if (test_list[test_num].errors < INT_MAX) {
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test_list[test_num].errors++;
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}
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}
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switch (error_mode) {
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case ERROR_MODE_SUMMARY:
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if (type == PARITY_ERROR) {
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break;
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}
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if (new_header) {
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display_pinned_message(0, 1, " Lowest Error Address:");
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display_pinned_message(1, 1, " Highest Error Address:");
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display_pinned_message(2, 1, " Bits in Error Mask:");
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display_pinned_message(3, 1, " Bits in Error - Total:");
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display_pinned_message(4, 1, " Max Contiguous Errors:");
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display_pinned_message(0, 64, "Test Errors");
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for (int i = 0; i < NUM_TEST_PATTERNS; i++) {
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display_pinned_message(1 + i, 65, "%2i:", i);
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}
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}
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if (new_stats) {
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int bits = 0;
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for (int i = 0; i < TESTWORD_WIDTH; i++) {
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if (error_info.bad_bits >> i & 1) {
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bits++;
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}
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}
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display_pinned_message(0, 25, "%09x%03x (%kB)",
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error_info.min_addr.page,
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error_info.min_addr.offset,
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error_info.min_addr.page << 2);
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display_pinned_message(1, 25, "%09x%03x (%kB)",
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error_info.max_addr.page,
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error_info.max_addr.offset,
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error_info.max_addr.page << 2);
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display_pinned_message(2, 25, "%0*x", TESTWORD_DIGITS,
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error_info.bad_bits);
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display_pinned_message(3, 25, " %2i Min: %2i Max: %2i Avg: %2i",
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bits,
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error_info.min_bits,
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error_info.max_bits,
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(int)(error_info.total_bits / error_count));
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display_pinned_message(4, 25, "%u",
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error_info.max_run);
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for (int i = 0; i < NUM_TEST_PATTERNS; i++) {
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display_pinned_message(1 + i, 69, "%c%i",
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test_list[i].errors == INT_MAX ? '>' : ' ',
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test_list[i].errors);
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}
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display_error_count(error_count);
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}
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break;
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case ERROR_MODE_ADDRESS:
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// Skip duplicates.
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if (!new_header && addr == error_info.last_addr && xor == error_info.last_xor) {
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break;
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}
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if (new_header) {
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#if TESTWORD_WIDTH > 32
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// columns: 0---------1---------2---------3---------4---------5---------6---------7---------
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display_pinned_message(0, 0, "pCPU Pass Test Failing Address Expected Found ");
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display_pinned_message(1, 0, "---- ---- ---- --------------------- ---------------- ----------------");
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// fields: NN NNNN NN PPPPPPPPPOOO (N.NN?B) XXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXX
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#else
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// columns: 0---------1---------2---------3---------4---------5---------6---------7---------
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display_pinned_message(0, 0, "pCPU Pass Test Failing Address Expected Found Err Bits");
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display_pinned_message(1, 0, "---- ---- ---- --------------------- -------- -------- --------");
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// fields: NN NNNN NN PPPPPPPPPOOO (N.NN?B) XXXXXXXX XXXXXXXX XXXXXXXX
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#endif
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}
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if (new_address) {
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check_input();
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scroll();
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uintptr_t page = page_of((void *)addr);
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uintptr_t offset = addr & 0xFFF;
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set_foreground_colour(YELLOW);
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display_scrolled_message(0, " %2i %4i %2i %09x%03x (%kB)",
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smp_my_cpu_num(), pass_num, test_num, page, offset, page << 2);
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if (type == PARITY_ERROR) {
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display_scrolled_message(41, "%s", "Parity error detected near this address");
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} else {
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#if TESTWORD_WIDTH > 32
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display_scrolled_message(41, "%016x %016x", good, bad);
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#else
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display_scrolled_message(41, "%08x %08x %08x %i", good, bad, xor, error_count);
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#endif
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}
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set_foreground_colour(WHITE);
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display_error_count(error_count);
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}
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break;
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case ERROR_MODE_BADRAM:
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if (new_badram) {
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badram_display();
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}
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break;
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default:
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break;
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}
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if (type != PARITY_ERROR) {
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error_info.last_addr = addr;
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error_info.last_xor = xor;
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}
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spin_unlock(error_mutex);
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}
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//------------------------------------------------------------------------------
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// Public Functions
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//------------------------------------------------------------------------------
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void error_init(void)
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{
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error_info.min_addr.page = UINTPTR_MAX;
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error_info.min_addr.offset = 0xfff;
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error_info.max_addr.page = 0;
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error_info.max_addr.offset = 0;
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error_info.bad_bits = 0;
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error_info.min_bits = 255;
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error_info.max_bits = 0;
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error_info.total_bits = 0;
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error_info.run_length = 0;
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error_info.max_run = 0;
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error_info.last_addr = 0;
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error_info.last_xor = 0;
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error_count = 0;
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}
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void addr_error(volatile testword_t *addr1, volatile testword_t *addr2, testword_t good, testword_t bad)
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{
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common_err(ADDR_ERROR, (uintptr_t)addr1, good, bad, false); (void)addr2;
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}
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void data_error(volatile testword_t *addr, testword_t good, testword_t bad, bool use_for_badram)
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{
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#if USB_WORKAROUND
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/* Skip any errrors that appear to be due to the BIOS using location
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* 0x4e0 for USB keyboard support. This often happens with Intel
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* 810, 815 and 820 chipsets. It is possible that we will skip
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* a real error but the odds are very low.
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*/
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if ((uintptr_t)addr == 0x4e0 || (uintptr_t)addr == 0x410) {
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return;
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}
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#endif
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common_err(DATA_ERROR, (uintptr_t)addr, good, bad, use_for_badram);
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}
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#if REPORT_PARITY_ERRORS
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void parity_error(void)
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{
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// We don't know the real address that caused the parity error,
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// so use the last recorded test address.
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common_err(PARITY_ERROR, test_addr[my_cpu_num()], 0, 0, false);
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}
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#endif
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void error_update(void)
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{
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if (error_count > 0) {
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if (error_mode != last_error_mode) {
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common_err(NEW_MODE, 0, 0, 0, false);
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}
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if (error_mode == ERROR_MODE_SUMMARY && test_list[test_num].errors > 0) {
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display_pinned_message(1 + test_num, 69, "%c%i",
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test_list[test_num].errors == INT_MAX ? '>' : ' ',
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test_list[test_num].errors);
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}
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display_error_count(error_count);
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}
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}
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