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error.c
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/* error.c - MemTest-86 Version 4.1
*
* Released under version 2 of the Gnu Public License.
* By Chris Brady
*/
#include "stddef.h"
#include "stdint.h"
#include "test.h"
#include "config.h"
#include "cpuid.h"
#include "smp.h"
#include "dmi.h"
#include "controller.h"
extern int dmi_err_cnts[MAX_DMI_MEMDEVS];
extern int beepmode;
extern short dmi_initialized;
extern struct cpu_ident cpu_id;
extern struct barrier_s *barr;
extern int test_ticks, nticks;
extern struct tseq tseq[];
extern volatile int test;
void poll_errors();
extern int num_cpus;
static void update_err_counts(void);
static void print_err_counts(void);
static void common_err();
static int syn, chan, len=1;
/*
* Display data error message. Don't display duplicate errors.
*/
void error(ulong *adr, ulong good, ulong bad)
{
ulong xor;
spin_lock(&barr->mutex);
xor = good ^ bad;
#ifdef USB_WAR
/* Skip any errrors that appear to be due to the BIOS using location
* 0x4e0 for USB keyboard support. This often happens with Intel
* 810, 815 and 820 chipsets. It is possible that we will skip
* a real error but the odds are very low.
*/
if ((ulong)adr == 0x4e0 || (ulong)adr == 0x410) {
return;
}
#endif
/* A sporadic bug exists in test #6, with SMP enabled, that
* reports false positives on < 65K-0.5MB range. I was
* not able to solve this. After investigations, it seems
* related to a BIOS issue similiar to the one solved by
* USB_WAR, but for MP Table.
*/
/* Solved
if (test == 6 && (ulong)adr <= 0x07FFFF && num_cpus > 1)
{
cprint(6,78,"-"); // Debug
return;
}
*/
common_err(adr, good, bad, xor, 0);
spin_unlock(&barr->mutex);
}
/*
* Display address error message.
* Since this is strictly an address test, trying to create BadRAM
* patterns does not make sense. Just report the error.
*/
void ad_err1(ulong *adr1, ulong *mask, ulong bad, ulong good)
{
spin_lock(&barr->mutex);
common_err(adr1, good, bad, (ulong)mask, 1);
spin_unlock(&barr->mutex);
}
/*
* Display address error message.
* Since this type of address error can also report data errors go
* ahead and generate BadRAM patterns.
*/
void ad_err2(ulong *adr, ulong bad)
{
spin_lock(&barr->mutex);
common_err(adr, (ulong)adr, bad, ((ulong)adr) ^ bad, 0);
spin_unlock(&barr->mutex);
}
static void update_err_counts(void)
{
if (beepmode){
beep(600);
beep(1000);
}
if (v->pass && v->ecount == 0) {
cprint(LINE_MSG, COL_MSG,
" ");
}
++(v->ecount);
tseq[test].errors++;
}
static void print_err_counts(void)
{
int i;
char *pp;
if ((v->ecount > 4096) && (v->ecount % 256 != 0)) return;
dprint(LINE_INFO, 72, v->ecount, 6, 0);
/*
dprint(LINE_INFO, 56, v->ecc_ecount, 6, 0);
*/
/* Paint the error messages on the screen red to provide a vivid */
/* indicator that an error has occured */
if ((v->printmode == PRINTMODE_ADDRESSES ||
v->printmode == PRINTMODE_PATTERNS) &&
v->msg_line < 24) {
for(i=0, pp=(char *)((SCREEN_ADR+v->msg_line*160+1));
i<76; i++, pp+=2) {
*pp = 0x47;
}
}
}
/*
* Print an individual error
*/
void common_err( ulong *adr, ulong good, ulong bad, ulong xor, int type)
{
int i, j, n, x, flag=0;
ulong page, offset;
int patnchg;
ulong mb;
update_err_counts();
switch(v->printmode) {
case PRINTMODE_SUMMARY:
/* Don't do anything for a parity error. */
if (type == 3) {
return;
}
/* Address error */
if (type == 1) {
xor = good ^ bad;
}
/* Ecc correctable errors */
if (type == 2) {
/* the bad value is the corrected flag */
if (bad) {
v->erri.cor_err++;
}
page = (ulong)adr;
offset = good;
} else {
page = page_of(adr);
offset = (ulong)adr & 0xFFF;
}
/* Calc upper and lower error addresses */
if (v->erri.low_addr.page > page) {
v->erri.low_addr.page = page;
v->erri.low_addr.offset = offset;
flag++;
} else if (v->erri.low_addr.page == page &&
v->erri.low_addr.offset > offset) {
v->erri.low_addr.offset = offset;
v->erri.high_addr.offset = offset;
flag++;
} else if (v->erri.high_addr.page < page) {
v->erri.high_addr.page = page;
flag++;
}
if (v->erri.high_addr.page == page &&
v->erri.high_addr.offset < offset) {
v->erri.high_addr.offset = offset;
flag++;
}
/* Calc bits in error */
for (i=0, n=0; i<32; i++) {
if (xor>>i & 1) {
n++;
}
}
v->erri.tbits += n;
if (n > v->erri.max_bits) {
v->erri.max_bits = n;
flag++;
}
if (n < v->erri.min_bits) {
v->erri.min_bits = n;
flag++;
}
if (v->erri.ebits ^ xor) {
flag++;
}
v->erri.ebits |= xor;
/* Calc max contig errors */
len = 1;
if ((ulong)adr == (ulong)v->erri.eadr+4 ||
(ulong)adr == (ulong)v->erri.eadr-4 ) {
len++;
}
if (len > v->erri.maxl) {
v->erri.maxl = len;
flag++;
}
v->erri.eadr = (ulong)adr;
if (v->erri.hdr_flag == 0) {
clear_scroll();
cprint(LINE_HEADER+0, 1, "Error Confidence Value:");
cprint(LINE_HEADER+1, 1, " Lowest Error Address:");
cprint(LINE_HEADER+2, 1, " Highest Error Address:");
cprint(LINE_HEADER+3, 1, " Bits in Error Mask:");
cprint(LINE_HEADER+4, 1, " Bits in Error - Total:");
cprint(LINE_HEADER+4, 29, "Min: Max: Avg:");
cprint(LINE_HEADER+5, 1, " Max Contiguous Errors:");
x = 24;
if (dmi_initialized) {
for ( i=0; i < MAX_DMI_MEMDEVS;){
n = LINE_HEADER+7;
for (j=0; j<4; j++) {
if (dmi_err_cnts[i] >= 0) {
dprint(n, x, i, 2, 0);
cprint(n, x+2, ": 0");
}
i++;
n++;
}
x += 10;
}
}
cprint(LINE_HEADER+0, 64, "Test Errors");
v->erri.hdr_flag++;
}
if (flag) {
/* Calc bits in error */
for (i=0, n=0; i<32; i++) {
if (v->erri.ebits>>i & 1) {
n++;
}
}
page = v->erri.low_addr.page;
offset = v->erri.low_addr.offset;
mb = page >> 8;
hprint(LINE_HEADER+1, 25, page);
hprint2(LINE_HEADER+1, 33, offset, 3);
cprint(LINE_HEADER+1, 36, " - . MB");
dprint(LINE_HEADER+1, 39, mb, 5, 0);
dprint(LINE_HEADER+1, 45, ((page & 0xF)*10)/16, 1, 0);
page = v->erri.high_addr.page;
offset = v->erri.high_addr.offset;
mb = page >> 8;
hprint(LINE_HEADER+2, 25, page);
hprint2(LINE_HEADER+2, 33, offset, 3);
cprint(LINE_HEADER+2, 36, " - . MB");
dprint(LINE_HEADER+2, 39, mb, 5, 0);
dprint(LINE_HEADER+2, 45, ((page & 0xF)*10)/16, 1, 0);
hprint(LINE_HEADER+3, 25, v->erri.ebits);
dprint(LINE_HEADER+4, 25, n, 2, 1);
dprint(LINE_HEADER+4, 34, v->erri.min_bits, 2, 1);
dprint(LINE_HEADER+4, 42, v->erri.max_bits, 2, 1);
dprint(LINE_HEADER+4, 50, v->erri.tbits/v->ecount, 2, 1);
dprint(LINE_HEADER+5, 25, v->erri.maxl, 7, 1);
x = 28;
for ( i=0; i < MAX_DMI_MEMDEVS;){
n = LINE_HEADER+7;
for (j=0; j<4; j++) {
if (dmi_err_cnts[i] > 0) {
dprint (n, x, dmi_err_cnts[i], 7, 1);
}
i++;
n++;
}
x += 10;
}
for (i=0; tseq[i].msg != NULL; i++) {
dprint(LINE_HEADER+1+i, 66, i, 2, 0);
dprint(LINE_HEADER+1+i, 68, tseq[i].errors, 8, 0);
}
}
if (v->erri.cor_err) {
dprint(LINE_HEADER+6, 25, v->erri.cor_err, 8, 1);
}
break;
case PRINTMODE_ADDRESSES:
/* Don't display duplicate errors */
if ((ulong)adr == (ulong)v->erri.eadr &&
xor == v->erri.exor) {
return;
}
if (v->erri.hdr_flag == 0) {
clear_scroll();
cprint(LINE_HEADER, 0,
"Tst Pass EPIC FAIL address Good Bad Err-Bits Count CPU");
cprint(LINE_HEADER+1, 0,
"--- ---- ----------------------- -------- -------- -------- ----- ----");
v->erri.hdr_flag++;
}
/* Check for keyboard input */
check_input();
scroll();
if ( type == 2 || type == 3) {
page = (ulong)adr;
offset = good;
} else {
page = page_of(adr);
offset = ((unsigned long)adr) & 0xFFF;
}
mb = page >> 8;
dprint(v->msg_line, 0, test+1, 3, 0);
dprint(v->msg_line, 4, v->pass, 5, 0);
hprint(v->msg_line, 11, page);
hprint2(v->msg_line, 19, offset, 3);
cprint(v->msg_line, 22, " - . MB");
dprint(v->msg_line, 25, mb, 5, 0);
dprint(v->msg_line, 31, ((page & 0xF)*10)/16, 1, 0);
if (type == 3) {
/* ECC error */
cprint(v->msg_line, 36,
bad?"corrected ": "uncorrected ");
hprint2(v->msg_line, 60, syn, 4);
cprint(v->msg_line, 68, "ECC");
dprint(v->msg_line, 74, chan, 2, 0);
} else if (type == 2) {
cprint(v->msg_line, 36, "Parity error detected ");
} else {
hprint(v->msg_line, 36, good);
hprint(v->msg_line, 46, bad);
hprint(v->msg_line, 56, xor);
dprint(v->msg_line, 66, v->ecount, 5, 0);
dprint(v->msg_line, 74, smp_my_cpu_num(), 2,1);
v->erri.exor = xor;
}
v->erri.eadr = (ulong)adr;
print_err_counts();
break;
case PRINTMODE_PATTERNS:
if (v->erri.hdr_flag == 0) {
clear_scroll();
v->erri.hdr_flag++;
}
/* Do not do badram patterns from test 0 or 5 */
if (test == 0 || test == 5) {
return;
}
/* Only do patterns for data errors */
if ( type != 0) {
return;
}
/* Process the address in the pattern administration */
patnchg=insertaddress ((ulong) adr);
if (patnchg) {
printpatn();
}
break;
case PRINTMODE_NONE:
if (v->erri.hdr_flag == 0) {
clear_scroll();
v->erri.hdr_flag++;
}
break;
}
}
/*
* Print an ecc error
*/
void print_ecc_err(unsigned long page, unsigned long offset,
int corrected, unsigned short syndrome, int channel)
{
++(v->ecc_ecount);
syn = syndrome;
chan = channel;
common_err((ulong *)page, offset, corrected, 0, 2);
}
#ifdef PARITY_MEM
/*
* Print a parity error message
*/
void parity_err( unsigned long edi, unsigned long esi)
{
unsigned long addr;
if (test == 5) {
addr = esi;
} else {
addr = edi;
}
common_err((ulong *)addr, addr & 0xFFF, 0, 0, 3);
}
#endif
/*
* Print the pattern array as a LILO boot option addressing BadRAM support.
*/
void printpatn (void)
{
int idx=0;
int x;
/* Check for keyboard input */
check_input();
if (v->numpatn == 0)
return;
scroll();
cprint (v->msg_line, 0, "badram=");
x=7;
for (idx = 0; idx < v->numpatn; idx++) {
if (x > 80-22) {
scroll();
x=7;
}
cprint (v->msg_line, x, "0x");
hprint (v->msg_line, x+2, v->patn[idx].adr );
cprint (v->msg_line, x+10, ",0x");
hprint (v->msg_line, x+13, v->patn[idx].mask);
if (idx+1 < v->numpatn)
cprint (v->msg_line, x+21, ",");
x+=22;
}
}
/*
* Show progress by displaying elapsed time and update bar graphs
*/
short spin_idx[MAX_CPUS];
char spin[4] = {'|','/','-','\\'};
void do_tick(int me)
{
int i, j, pct;
ulong h, l, n, t;
extern int mstr_cpu;
if (++spin_idx[me] > 3) {
spin_idx[me] = 0;
}
cplace(8, me+7, spin[spin_idx[me]]);
/* Check for keyboard input */
if (me == mstr_cpu) {
check_input();
}
/* A barrier here holds the other CPUs until the configuration
* changes are done */
s_barrier();
/* Only the first selected CPU does the update */
if (me != mstr_cpu) {
return;
}
/* FIXME only print serial error messages from the tick handler */
if (v->ecount) {
print_err_counts();
}
nticks++;
v->total_ticks++;
if (test_ticks) {
pct = 100*nticks/test_ticks;
if (pct > 100) {
pct = 100;
}
} else {
pct = 0;
}
dprint(2, COL_MID+4, pct, 3, 0);
i = (BAR_SIZE * pct) / 100;
while (i > v->tptr) {
if (v->tptr >= BAR_SIZE) {
break;
}
cprint(2, COL_MID+9+v->tptr, "#");
v->tptr++;
}
if (v->pass_ticks) {
pct = 100*v->total_ticks/v->pass_ticks;
if (pct > 100) {
pct = 100;
}
} else {
pct = 0;
}
dprint(1, COL_MID+4, pct, 3, 0);
i = (BAR_SIZE * pct) / 100;
while (i > v->pptr) {
if (v->pptr >= BAR_SIZE) {
break;
}
cprint(1, COL_MID+9+v->pptr, "#");
v->pptr++;
}
if (v->ecount && v->printmode == PRINTMODE_SUMMARY) {
/* Compute confidence score */
pct = 0;
/* If there are no errors within 1mb of start - end addresses */
h = v->pmap[v->msegs - 1].end - 0x100;
if (v->erri.low_addr.page > 0x100 &&
v->erri.high_addr.page < h) {
pct += 8;
}
/* Errors for only some tests */
if (v->pass) {
for (i=0, n=0; tseq[i].msg != NULL; i++) {
if (tseq[i].errors == 0) {
n++;
}
}
pct += n*3;
} else {
for (i=0, n=0; i<test; i++) {
if (tseq[i].errors == 0) {
n++;
}
}
pct += n*2;
}
/* Only some bits in error */
n = 0;
if (v->erri.ebits & 0xf) n++;
if (v->erri.ebits & 0xf0) n++;
if (v->erri.ebits & 0xf00) n++;
if (v->erri.ebits & 0xf000) n++;
if (v->erri.ebits & 0xf0000) n++;
if (v->erri.ebits & 0xf00000) n++;
if (v->erri.ebits & 0xf000000) n++;
if (v->erri.ebits & 0xf0000000) n++;
pct += (8-n)*2;
/* Adjust the score */
pct = pct*100/22;
/*
if (pct > 100) {
pct = 100;
}
*/
dprint(LINE_HEADER+0, 25, pct, 3, 1);
}
/* We can't do the elapsed time unless the rdtsc instruction
* is supported
*/
if (cpu_id.fid.bits.rdtsc) {
asm __volatile__(
"rdtsc":"=a" (l),"=d" (h));
asm __volatile__ (
"subl %2,%0\n\t"
"sbbl %3,%1"
:"=a" (l), "=d" (h)
:"g" (v->startl), "g" (v->starth),
"0" (l), "1" (h));
t = h * ((unsigned)0xffffffff / v->clks_msec) / 1000;
t += (l / v->clks_msec) / 1000;
i = t % 60;
j = i % 10;
if(j != v->each_sec)
{
dprint(LINE_TIME, COL_TIME+9, i % 10, 1, 0);
dprint(LINE_TIME, COL_TIME+8, i / 10, 1, 0);
t /= 60;
i = t % 60;
dprint(LINE_TIME, COL_TIME+6, i % 10, 1, 0);
dprint(LINE_TIME, COL_TIME+5, i / 10, 1, 0);
t /= 60;
dprint(LINE_TIME, COL_TIME, t, 4, 0);
if(v->check_temp > 0 && !(v->fail_safe & 4))
{
coretemp();
}
v->each_sec = j;
}
}
/* Poll for ECC errors */
/*
poll_errors();
*/
}