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/* SPDX-License-Identifier: GPL-2.0-or-later */
#include <device/mmio.h>
#include <console/console.h>
#include <delay.h>
#include "raminit.h"
#include "x4x.h"
#define MAX_COARSE 15
#define DQS_HIGH 1
#define DQS_LOW 0
#define RESET_CNTL(channel) (0x5d8 + channel * 0x400)
struct rec_timing {
u8 medium;
u8 coarse;
u8 pi;
u8 tap;
};
static inline void mfence(void)
{
asm volatile("mfence":::);
}
static u8 sampledqs(u32 addr, u8 lane, u8 channel)
{
u32 sample_offset = 0x400 * channel + 0x561 + lane * 4;
/* Reset the DQS probe, on both channels? */
for (u8 i = 0; i < TOTAL_CHANNELS; i++) {
MCHBAR8(RESET_CNTL(i)) &= ~0x2;
udelay(1);
MCHBAR8(RESET_CNTL(i)) |= 0x2;
udelay(1);
}
mfence();
/* Read strobe */
read32((u32 *)addr);
mfence();
return (MCHBAR8(sample_offset) >> 6) & 1;
}
static void program_timing(const struct rec_timing *timing, u8 channel,
u8 lane)
{
u32 reg32;
u16 reg16;
u8 reg8;
printk(RAM_SPEW, " Programming timings:"
"Coarse: %d, Medium: %d, TAP: %d, PI: %d\n",
timing->coarse, timing->medium, timing->tap, timing->pi);
reg32 = MCHBAR32(0x400 * channel + 0x248);
reg32 &= ~0xf0000;
reg32 |= timing->coarse << 16;
MCHBAR32(0x400 * channel + 0x248) = reg32;
reg16 = MCHBAR16(0x400 * channel + 0x58c);
reg16 &= ~(3 << (lane * 2));
reg16 |= timing->medium << (lane * 2);
MCHBAR16(0x400 * channel + 0x58c) = reg16;
reg8 = MCHBAR8(0x400 * channel + 0x560 + lane * 4);
reg8 &= ~0x7f;
reg8 |= timing->tap;
reg8 |= timing->pi << 4;
MCHBAR8(0x400 * channel + 0x560 + lane * 4) = reg8;
}
static int increase_medium(struct rec_timing *timing)
{
if (timing->medium < 3) {
timing->medium++;
} else if (timing->coarse < MAX_COARSE) {
timing->medium = 0;
timing->coarse++;
} else {
printk(BIOS_ERR, "Cannot increase medium any further.\n");
return -1;
}
return 0;
}
static int decrease_medium(struct rec_timing *timing)
{
if (timing->medium > 0) {
timing->medium--;
} else if (timing->coarse > 0) {
timing->medium = 3;
timing->coarse--;
} else {
printk(BIOS_ERR, "Cannot lower medium any further.\n");
return -1;
}
return 0;
}
static int increase_tap(struct rec_timing *timing)
{
if (timing->tap == 14) {
if (increase_medium(timing))
return -1;
timing->tap = 0;
} else {
timing->tap++;
}
return 0;
}
static int decrease_tap(struct rec_timing *timing)
{
if (timing->tap > 0) {
timing->tap--;
} else {
if (decrease_medium(timing))
return -1;
timing->tap = 14;
}
return 0;
}
static int decr_coarse_low(u8 channel, u8 lane, u32 addr,
struct rec_timing *timing)
{
printk(RAM_DEBUG,
" Decreasing coarse until high to low transition is found\n");
while (sampledqs(addr, lane, channel) != DQS_LOW) {
if (timing->coarse == 0) {
printk(BIOS_CRIT,
"Couldn't find DQS-high 0 indicator, halt\n");
return -1;
}
timing->coarse--;
program_timing(timing, channel, lane);
}
printk(RAM_DEBUG, " DQS low at coarse=%d medium=%d\n",
timing->coarse, timing->medium);
return 0;
}
static int fine_search_dqs_high(u8 channel, u8 lane, u32 addr,
struct rec_timing *timing)
{
printk(RAM_DEBUG,
" Increasing TAP until low to high transition is found\n");
/*
* We use a do while loop since it happens that the strobe read
* is inconsistent, with the strobe already high. The current
* code flow results in failure later when finding the preamble,
* at which DQS needs to be high is often not the case if TAP was
* not increased at least once here. Work around this by incrementing
* TAP at least once to guarantee searching for preamble start at
* DQS high.
* This seems to be the result of hysteresis on some settings, where
* the DQS probe is influenced by its previous value.
*/
if (sampledqs(addr, lane, channel) == DQS_HIGH) {
printk(BIOS_WARNING,
"DQS already HIGH... DQS probe is inconsistent!\n"
"Continuing....\n");
}
do {
if (increase_tap(timing)) {
printk(BIOS_CRIT,
"Could not find DQS-high on fine search.\n");
return -1;
}
program_timing(timing, channel, lane);
} while (sampledqs(addr, lane, channel) != DQS_HIGH);
printk(RAM_DEBUG, " DQS high at coarse=%d medium=%d tap:%d\n",
timing->coarse, timing->medium, timing->tap);
return 0;
}
static int find_dqs_low(u8 channel, u8 lane, u32 addr,
struct rec_timing *timing)
{
/* Look for DQS low, using quarter steps. */
printk(RAM_DEBUG, " Increasing medium until DQS LOW is found\n");
while (sampledqs(addr, lane, channel) != DQS_LOW) {
if (increase_medium(timing)) {
printk(BIOS_CRIT,
"Coarse > 15: DQS tuning failed, halt\n");
return -1;
}
program_timing(timing, channel, lane);
}
printk(RAM_DEBUG, " DQS low at coarse=%d medium=%d\n",
timing->coarse, timing->medium);
return 0;
}
static int find_dqs_high(u8 channel, u8 lane, u32 addr,
struct rec_timing *timing)
{
/* Look for DQS high, using quarter steps. */
printk(RAM_DEBUG, " Increasing medium until DQS HIGH is found\n");
while (sampledqs(addr, lane, channel) != DQS_HIGH) {
if (increase_medium(timing)) {
printk(BIOS_CRIT,
"Coarse > 16: DQS tuning failed, halt\n");
return -1;
}
program_timing(timing, channel, lane);
}
printk(RAM_DEBUG, " DQS high at coarse=%d medium=%d\n",
timing->coarse, timing->medium);
return 0;
}
static int find_dqs_edge_lowhigh(u8 channel, u8 lane,
u32 addr, struct rec_timing *timing)
{
/* Medium search for DQS high. */
if (find_dqs_high(channel, lane, addr, timing))
return -1;
/* Go back and perform finer search. */
if (decrease_medium(timing))
return -1;
program_timing(timing, channel, lane);
if (fine_search_dqs_high(channel, lane, addr, timing) < 0)
return -1;
return 0;
}
static int find_preamble(u8 channel, u8 lane, u32 addr,
struct rec_timing *timing)
{
/* Add a quarter step */
if (increase_medium(timing))
return -1;
program_timing(timing, channel, lane);
/* Verify we are at high */
if (sampledqs(addr, lane, channel) != DQS_HIGH) {
printk(BIOS_CRIT, "Not at DQS high, d'oh\n");
return -1;
}
/* Decrease coarse until LOW is found */
if (decr_coarse_low(channel, lane, addr, timing))
return -1;
return 0;
}
static int calibrate_receive_enable(u8 channel, u8 lane,
u32 addr, struct rec_timing *timing)
{
program_timing(timing, channel, lane);
/* Set receive enable bit */
MCHBAR16(0x400 * channel + 0x588) = (MCHBAR16(0x400 * channel + 0x588)
& ~(3 << (lane * 2))) | (1 << (lane * 2));
if (find_dqs_low(channel, lane, addr, timing))
return -1;
/* Advance a little further. */
if (increase_medium(timing)) {
/* A finer search could be implemented */
printk(BIOS_WARNING, "Cannot increase medium further");
return -1;
}
program_timing(timing, channel, lane);
if (find_dqs_edge_lowhigh(channel, lane, addr, timing))
return -1;
/* Go back on fine search */
if (decrease_tap(timing))
return -1;
timing->pi = 3;
program_timing(timing, channel, lane);
if (find_preamble(channel, lane, addr, timing))
return -1;
if (find_dqs_edge_lowhigh(channel, lane, addr, timing))
return -1;
if (decrease_tap(timing))
return -1;
timing->pi = 7;
program_timing(timing, channel, lane);
/* Unset receive enable bit */
MCHBAR16(0x400 * channel + 0x588) = MCHBAR16(0x400 * channel + 0x588) &
~(3 << (lane * 2));
return 0;
}
void rcven(struct sysinfo *s)
{
int rank;
u8 channel, lane, reg8;
/*
* Using the macros below the compiler warns about this possibly being
* unitialised.
*/
u32 addr = 0;
struct rec_timing timing[TOTAL_BYTELANES];
u8 mincoarse;
printk(BIOS_DEBUG, "Starting DQS receiver enable calibration\n");
MCHBAR8(0x5d8) = MCHBAR8(0x5d8) & ~0xc;
MCHBAR8(0x9d8) = MCHBAR8(0x9d8) & ~0xc;
MCHBAR8(0x5dc) = MCHBAR8(0x5dc) & ~0x80;
FOR_EACH_POPULATED_CHANNEL(s->dimms, channel) {
mincoarse = 0xff;
/*
* Receive enable calibration happens on the first populated
* rank on each channel.
*/
FOR_EACH_POPULATED_RANK_IN_CHANNEL(s->dimms, channel, rank) {
addr = test_address(channel, rank);
break;
}
FOR_EACH_BYTELANE(lane) {
printk(BIOS_DEBUG, "Channel %d, Lane %d addr=0x%08x\n",
channel, lane, addr);
timing[lane].coarse = (s->selected_timings.CAS + 1);
switch (lane) {
default:
case 0:
case 1:
timing[lane].medium = 0;
break;
case 2:
case 3:
timing[lane].medium = 1;
break;
case 4:
case 5:
timing[lane].medium = 2;
break;
case 6:
case 7:
timing[lane].medium = 3;
break;
}
timing[lane].tap = 0;
timing[lane].pi = 0;
if (calibrate_receive_enable(channel, lane, addr,
&timing[lane]))
die("Receive enable calibration failed\n");
if (mincoarse > timing[lane].coarse)
mincoarse = timing[lane].coarse;
}
printk(BIOS_DEBUG, "Found min coarse value = %d\n", mincoarse);
s->rcven_t[channel].min_common_coarse = mincoarse;
printk(BIOS_DEBUG, "Receive enable, final timings:\n");
/* Normalise coarse */
FOR_EACH_BYTELANE(lane) {
if (timing[lane].coarse == 0)
reg8 = 0;
else
reg8 = timing[lane].coarse - mincoarse;
printk(BIOS_DEBUG, "ch %d lane %d: coarse offset: %d;"
"medium: %d; tap: %d\n",
channel, lane, reg8, timing[lane].medium,
timing[lane].tap);
s->rcven_t[channel].coarse_offset[lane] = reg8;
s->rcven_t[channel].medium[lane] = timing[lane].medium;
s->rcven_t[channel].tap[lane] = timing[lane].tap;
s->rcven_t[channel].pi[lane] = timing[lane].pi;
MCHBAR16(0x400 * channel + 0x5fa) =
(MCHBAR16(0x400 * channel + 0x5fa) &
~(3 << (lane * 2))) | (reg8 << (lane * 2));
}
/* simply use timing[0] to program mincoarse */
timing[0].coarse = mincoarse;
program_timing(&timing[0], channel, 0);
}
}
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