// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (c) 2011 The Chromium OS Authors. * (C) Copyright 2010,2011 NVIDIA Corporation <www.nvidia.com> */ #include <common.h> #include <tps6586x.h> #include <asm/io.h> #include <i2c.h> static struct udevice *tps6586x_dev; enum { /* Registers that we access */ SUPPLY_CONTROL1 = 0x20, SUPPLY_CONTROL2, SM1_VOLTAGE_V1 = 0x23, SM1_VOLTAGE_V2, SM0_VOLTAGE_V1 = 0x26, SM0_VOLTAGE_V2, PFM_MODE = 0x47, /* Bits in the supply control registers */ CTRL_SM1_RAMP = 0x01, CTRL_SM1_SUPPLY2 = 0x02, CTRL_SM0_RAMP = 0x04, CTRL_SM0_SUPPLY2 = 0x08, }; #define MAX_I2C_RETRY 3 static int tps6586x_read(int reg) { int i; uchar data; int retval = -1; for (i = 0; i < MAX_I2C_RETRY; ++i) { if (!dm_i2c_read(tps6586x_dev, reg, &data, 1)) { retval = (int)data; goto exit; } /* i2c access failed, retry */ udelay(100); } exit: debug("pmu_read %x=%x\n", reg, retval); if (retval < 0) debug("%s: failed to read register %#x: %d\n", __func__, reg, retval); return retval; } static int tps6586x_write(int reg, uchar *data, uint len) { int i; int retval = -1; for (i = 0; i < MAX_I2C_RETRY; ++i) { if (!dm_i2c_write(tps6586x_dev, reg, data, len)) { retval = 0; goto exit; } /* i2c access failed, retry */ udelay(100); } exit: debug("pmu_write %x=%x: ", reg, retval); for (i = 0; i < len; i++) debug("%x ", data[i]); if (retval) debug("%s: failed to write register %#x\n", __func__, reg); return retval; } /* * Get current voltage of SM0 and SM1 * * @param sm0 Place to put SM0 voltage * @param sm1 Place to put SM1 voltage * @return 0 if ok, -1 on error */ static int read_voltages(int *sm0, int *sm1) { int ctrl1, ctrl2; int is_v2; /* * Each vdd has two supply sources, ie, v1 and v2. * The supply control reg1 and reg2 determine the current selection. */ ctrl1 = tps6586x_read(SUPPLY_CONTROL1); ctrl2 = tps6586x_read(SUPPLY_CONTROL2); if (ctrl1 == -1 || ctrl2 == -1) return -ENOTSUPP; /* Figure out whether V1 or V2 is selected */ is_v2 = (ctrl1 | ctrl2) & CTRL_SM0_SUPPLY2; *sm0 = tps6586x_read(is_v2 ? SM0_VOLTAGE_V2 : SM0_VOLTAGE_V1); *sm1 = tps6586x_read(is_v2 ? SM1_VOLTAGE_V2 : SM1_VOLTAGE_V1); if (*sm0 == -1 || *sm1 == -1) return -ENOTSUPP; return 0; } static int set_voltage(int reg, int data, int rate) { uchar control_bit; uchar buff[3]; control_bit = (reg == SM0_VOLTAGE_V1 ? CTRL_SM0_RAMP : CTRL_SM1_RAMP); /* * Only one supply is needed in u-boot. set both v1 and v2 to * same value. * * When both v1 and v2 are set to same value, we just need to set * control1 reg to trigger the supply selection. */ buff[0] = buff[1] = (uchar)data; buff[2] = rate; /* write v1, v2 and rate, then trigger */ if (tps6586x_write(reg, buff, 3) || tps6586x_write(SUPPLY_CONTROL1, &control_bit, 1)) return -ENOTSUPP; return 0; } static int calculate_next_voltage(int voltage, int target, int step) { int diff = voltage < target ? step : -step; if (abs(target - voltage) > step) voltage += diff; else voltage = target; return voltage; } int tps6586x_set_pwm_mode(int mask) { uchar val; int ret; assert(tps6586x_dev); ret = tps6586x_read(PFM_MODE); if (ret != -1) { val = (uchar)ret; val |= mask; ret = tps6586x_write(PFM_MODE, &val, 1); } if (ret == -1) debug("%s: Failed to read/write PWM mode reg\n", __func__); return ret; } int tps6586x_adjust_sm0_sm1(int sm0_target, int sm1_target, int step, int rate, int min_sm0_over_sm1) { int sm0, sm1; int bad; assert(tps6586x_dev); /* get current voltage settings */ if (read_voltages(&sm0, &sm1)) { debug("%s: Cannot read voltage settings\n", __func__); return -EINVAL; } /* * if vdd_core < vdd_cpu + rel * skip * * This condition may happen when system reboots due to kernel crash. */ if (min_sm0_over_sm1 != -1 && sm0 < sm1 + min_sm0_over_sm1) { debug("%s: SM0 is %d, SM1 is %d, but min_sm0_over_sm1 is %d\n", __func__, sm0, sm1, min_sm0_over_sm1); return -EINVAL; } /* * Since vdd_core and vdd_cpu may both stand at either greater or less * than their nominal voltage, the adjustment may go either directions. * * Make sure vdd_core is always higher than vdd_cpu with certain margin. * So, find out which vdd to adjust first in each step. * * case 1: both sm0 and sm1 need to move up * adjust sm0 before sm1 * * case 2: both sm0 and sm1 need to move down * adjust sm1 before sm0 * * case 3: sm0 moves down and sm1 moves up * adjusting either one first is fine. * * Adjust vdd_core and vdd_cpu one step at a time until they reach * their nominal values. */ bad = 0; while (!bad && (sm0 != sm0_target || sm1 != sm1_target)) { int adjust_sm0_late = 0; /* flag to adjust vdd_core later */ debug("%d-%d %d-%d ", sm0, sm0_target, sm1, sm1_target); if (sm0 != sm0_target) { /* * if case 1 and case 3, set new sm0 first. * otherwise, hold down until new sm1 is set. */ sm0 = calculate_next_voltage(sm0, sm0_target, step); if (sm1 < sm1_target) bad |= set_voltage(SM0_VOLTAGE_V1, sm0, rate); else adjust_sm0_late = 1; } if (sm1 != sm1_target) { sm1 = calculate_next_voltage(sm1, sm1_target, step); bad |= set_voltage(SM1_VOLTAGE_V1, sm1, rate); } if (adjust_sm0_late) bad |= set_voltage(SM0_VOLTAGE_V1, sm0, rate); debug("%d\n", adjust_sm0_late); } debug("%d-%d %d-%d done\n", sm0, sm0_target, sm1, sm1_target); return bad ? -EINVAL : 0; } int tps6586x_init(struct udevice *dev) { tps6586x_dev = dev; return 0; }