coreboot-libre-fam15h-rdimm/3rdparty/chromeec/chip/g/jitter.c

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2024-03-04 11:14:53 +01:00
/* Copyright 2016 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "common.h"
#include "console.h"
#include "init_chip.h"
#include "registers.h"
#include "task.h"
#define CPRINTS(format, args...) cprints(CC_USB, format, ## args)
void init_jittery_clock_locking_optional(int highsec, int enable,
int lock_required)
{
int rl = runlevel_is_high();
if (lock_required) {
CPRINTS("%s: run level %s, request to %sable", __func__,
rl ? "high" : "low", enable ? "en" : "dis");
}
if (rl) {
uint32_t trimfast = GR_FUSE(RC_JTR_OSC60_CC_TRIM);
uint32_t trim48 = GR_FUSE(RC_JTR_OSC48_CC_TRIM);
uint32_t delta = (trim48 - trimfast);
/*
* For metastability reasons, avoid clk_jtr ~= clk_timer, make
* a keepout region around 24MHz of about 0.75MHz, about 3/16
* of the the delta from trimfast and trim48
*/
uint32_t skiplow = (trim48 << 4) - (delta * 6);
uint32_t skiphigh = (trim48 << 4) + (delta * 6);
uint32_t setting = trimfast << 4;
uint32_t stepx16;
uint32_t bankval;
int bank;
if (highsec)
stepx16 = (delta * 7) >> 1;
else
stepx16 = 2 * (trim48 - trimfast);
for (bank = 0; bank < 16; bank++) {
if (!enable) {
/*
* Jitter should not be enabled, set all trims
* to the same value retrieved from the fuses.
* It is supposed to ensure that the internal
* clock runs at 48MHz.
*/
GR_XO_JTR_JITTERY_TRIM_BANK(bank) = trim48;
continue;
}
/* saturate at 0xff */
bankval = (setting > 0xfff) ? 0xff : (setting >> 4);
GR_XO_JTR_JITTERY_TRIM_BANK(bank) = bankval;
setting += stepx16;
if ((setting > skiplow) && (setting < skiphigh))
setting = skiphigh;
}
}
GWRITE_FIELD(XO, CLK_JTR_TRIM_CTRL, RC_COARSE_TRIM_SRC, 2);
GWRITE_FIELD(XO, CLK_JTR_TRIM_CTRL, RC_INITIAL_TRIM_PERIOD, 100);
GWRITE_FIELD(XO, CLK_JTR_TRIM_CTRL, RC_TRIM_EN, 1);
GREG32(XO, CLK_JTR_JITTERY_TRIM_EN) = 1;
GREG32(XO, CLK_JTR_SYNC_CONTENTS) = 0;
if (lock_required) {
/* Writing any value locks things until the next hard reboot */
GREG32(XO, CFG_WR_EN) = 0;
GREG32(XO, JTR_CTRL_EN) = 0;
}
}
void init_jittery_clock(int highsec)
{
init_jittery_clock_locking_optional(highsec, 1, 1);
}
void init_sof_clock(void)
{
/* Copy fuse value into software registers, both coarse and fine */
unsigned coarseTrimVal = GR_FUSE(RC_TIMER_OSC48_CC_TRIM);
unsigned fineTrimVal = GR_FUSE(RC_TIMER_OSC48_FC_TRIM);
/* We think SOF toggle happens once every mS, or ~24000 clock ticks */
unsigned targetCnt = PCLK_FREQ / 1000;
/* The possible operations of a particular calibration bucket */
unsigned binaryDnOp = 0x1 | 0x1 << 4;
unsigned binaryUpOp = 0x1 | 0x0 << 4;
unsigned subOp = 0x3 | 0x1 << 4;
unsigned addOp = 0x2 | 0x1 << 4;
unsigned nop = 0;
GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM) = coarseTrimVal;
GREG32(XO, CLK_TIMER_RC_FINE_ATE_TRIM) = fineTrimVal;
/* Coarse trim values come from software */
GWRITE_FIELD(XO, CLK_TIMER_TRIM_CTRL, RC_COARSE_TRIM_SRC, 0);
/* enable error interrupts
* This enables underrun and overflow interrupts */
GREG32(XO, DXO_INT_ENABLE) = 0xC;
/* Setup SOF calibration buckets and associated operations */
GREG32(XO, CLK_TIMER_SLOW_CALIB0) = targetCnt * 70 / 100;
GREG32(XO, CLK_TIMER_SLOW_CALIB1) = targetCnt * 80 / 100;
GREG32(XO, CLK_TIMER_SLOW_CALIB2) = targetCnt * 90 / 100;
GREG32(XO, CLK_TIMER_SLOW_CALIB3) =
targetCnt * (1000000 - 1250) / 1000000;
GREG32(XO, CLK_TIMER_SLOW_CALIB4) = targetCnt;
GREG32(XO, CLK_TIMER_SLOW_CALIB5) =
targetCnt * (1000000 + 1250) / 1000000;
GREG32(XO, CLK_TIMER_SLOW_CALIB6) = targetCnt * 110 / 100;
GREG32(XO, CLK_TIMER_SLOW_CALIB7) = targetCnt * 120 / 100;
/* This is a work-around for the screwy SOF */
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL0) = nop;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL1) = binaryDnOp;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL2) = binaryDnOp;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL3) = subOp;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL4) = nop;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL5) = nop;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL6) = addOp;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL7) = binaryUpOp;
GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL8) = binaryUpOp;
/* Set the calibration mode */
GWRITE_FIELD(XO, CLK_TIMER_CALIB_TRIM_CTRL, ENABLE_FAST, 0);
GWRITE_FIELD(XO, CLK_TIMER_CALIB_TRIM_CTRL, ENABLE_SLOW, 1);
GWRITE_FIELD(XO, CLK_TIMER_CALIB_TRIM_CTRL, SLOW_MODE_SEL, 0); /* SOF */
GWRITE_FIELD(XO, CLK_TIMER_CALIB_TRIM_CTRL, MAX_TRIM_SEL, 1);
/* Don't stop when a NOP operation is seen, keep on calibrating */
GWRITE_FIELD(XO, CLK_TIMER_CALIB_TRIM_CTRL, STOP_ON_NOP, 0);
/* Set source of trim codes:
* coarse trim comes from software
* fine trim comes from calibration engine */
GWRITE_FIELD(XO, CLK_TIMER_TRIM_CTRL, RC_COARSE_TRIM_SRC, 0);
GWRITE_FIELD(XO, CLK_TIMER_TRIM_CTRL, RC_FINE_TRIM_SRC, 1);
/* Enable dynamic trim */
GWRITE_FIELD(XO, CLK_TIMER_TRIM_CTRL, RC_TRIM_EN, 1);
/* Sync everything! */
GREG32(XO, CLK_TIMER_SYNC_CONTENTS) = 1;
/* Enable interrupts */
task_enable_irq(GC_IRQNUM_XO0_SLOW_CALIB_UNDERRUN_INT);
task_enable_irq(GC_IRQNUM_XO0_SLOW_CALIB_OVERFLOW_INT);
}
/* When the calibration under runs, it means the fine trim code
* has reached 0, but the clock is still too slow. Thus,
* software must reduce the coarse trim code by 1 */
static void timer_sof_calibration_underrun_int(void)
{
unsigned coarseTrimValue = GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM);
if (coarseTrimValue > 0x00) {
CPRINTS("%s: 0x%02x", __func__, coarseTrimValue);
GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM) = coarseTrimValue - 1;
}
GREG32(XO, DXO_INT_STATE) =
GC_XO_DXO_INT_STATE_SLOW_CALIB_UNDERRUN_MASK;
}
DECLARE_IRQ(GC_IRQNUM_XO0_SLOW_CALIB_UNDERRUN_INT,
timer_sof_calibration_underrun_int, 1);
/* When the calibration overflows, it means the fine trim code
* has reached 0x1F, but the clock is still too fast. Thus,
* software must increase the coarse trim code by 1 */
static void timer_sof_calibration_overflow_int(void)
{
unsigned coarseTrimValue = GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM);
/* Coarse trim range is 0..0xff. */
if (coarseTrimValue < 0xff) {
CPRINTS("%s: 0x%02x", __func__, coarseTrimValue);
GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM) = coarseTrimValue + 1;
}
GREG32(XO, DXO_INT_STATE) =
GC_XO_DXO_INT_STATE_SLOW_CALIB_OVERFLOW_MASK;
}
DECLARE_IRQ(GC_IRQNUM_XO0_SLOW_CALIB_OVERFLOW_INT,
timer_sof_calibration_overflow_int, 1);
#ifdef DEBUG_ME
static int command_sof(int argc, char **argv)
{
ccprintf("FUSE_RC_TIMER_OSC48_CC_TRIM) 0x%08x\n",
GR_FUSE(RC_TIMER_OSC48_CC_TRIM));
ccprintf("FUSE_RC_TIMER_OSC48_FC_TRIM) 0x%08x\n",
GR_FUSE(RC_TIMER_OSC48_FC_TRIM));
ccprintf("CLK_TIMER_RC_COARSE_ATE_TRIM 0x%08x\n",
GREG32(XO, CLK_TIMER_RC_COARSE_ATE_TRIM));
ccprintf("CLK_TIMER_RC_FINE_ATE_TRIM 0x%08x\n",
GREG32(XO, CLK_TIMER_RC_FINE_ATE_TRIM));
ccprintf("CLK_TIMER_TRIM_CTRL 0x%08x\n",
GREG32(XO, CLK_TIMER_TRIM_CTRL));
ccprintf("CLK_TIMER_CALIB_TRIM_CTRL 0x%08x\n",
GREG32(XO, CLK_TIMER_CALIB_TRIM_CTRL));
ccprintf("DXO_INT_ENABLE 0x%08x\n",
GREG32(XO, DXO_INT_ENABLE));
ccprintf("CLK_TIMER_SLOW_CALIB\n");
ccprintf(" 0: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB0));
ccprintf(" 1: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB1));
ccprintf(" 2: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB2));
ccprintf(" 3: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB3));
ccprintf(" 4: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB4));
ccprintf(" 5: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB5));
ccprintf(" 6: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB6));
ccprintf(" 7: 0x%04x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB7));
ccprintf("CLK_TIMER_SLOW_CALIB_CTRL\n");
ccprintf(" 0: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL0));
ccprintf(" 1: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL1));
ccprintf(" 2: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL2));
ccprintf(" 3: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL3));
ccprintf(" 4: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL4));
ccprintf(" 5: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL5));
ccprintf(" 6: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL6));
ccprintf(" 7: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL7));
ccprintf(" 8: 0x%02x\n", GREG32(XO, CLK_TIMER_SLOW_CALIB_CTRL8));
return EC_SUCCESS;
}
DECLARE_CONSOLE_COMMAND(sof, command_sof,
"",
"Display the SoF clock stuff");
#endif /* DEBUG_ME */