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/* SPDX-License-Identifier: GPL-2.0-only */
#include <acpi/acpi.h>
#include <baseboard/variants.h>
#include <bootmode.h>
#include <chip.h>
#include <console/console.h>
#include <delay.h>
#include <device/device.h>
#include <ec/ec.h>
#include <ec/google/chromeec/ec.h>
#include <gpio.h>
#include <intelblocks/power_limit.h>
#include <smbios.h>
#include <soc/pci_devs.h>
#include <soc/nhlt.h>
#include <static.h>
#include <stdio.h>
#include <timer.h>
#include <variant/gpio.h>
#define FIZZ_SKU_ID_I7_U42 0x4
#define FIZZ_SKU_ID_I5_U42 0x5
#define FIZZ_SKU_ID_I3_U42 0x6
#define FIZZ_SKU_ID_I7_U22 0x3
#define FIZZ_SKU_ID_I5_U22 0x2
#define FIZZ_SKU_ID_I3_U22 0x1
#define FIZZ_SKU_ID_CEL_U22 0x0
#define FIZZ_PL2_U42 44
#define FIZZ_PL2_U22 29
#define FIZZ_PSYSPL2_U22 65
#define FIZZ_PSYSPL2_U42 90
#define FIZZ_MAX_TIME_WINDOW 6
#define FIZZ_MIN_DUTYCYCLE 4
/*
* For type-C chargers, set PL2 to 90% of max power to account for
* cable loss and FET Rdson loss in the path from the source.
*/
#define SET_PSYSPL2(w) (9 * (w) / 10)
static uint8_t read_sku_id_from_gpio(void)
{
const gpio_t sku_id_gpios[] = {
GPIO_SKU_ID0,
GPIO_SKU_ID1,
GPIO_SKU_ID2,
GPIO_SKU_ID3,
};
return gpio_base2_value(sku_id_gpios, ARRAY_SIZE(sku_id_gpios));
}
static uint8_t board_sku_id(void)
{
static int sku_id = -1;
if (sku_id < 0) {
uint32_t id;
if (google_chromeec_cbi_get_sku_id(&id))
/* TODO: Once transition completes, raise error instead
of returning gpio value which could be unintended. */
/* Reading from EC may succeed next time but we do not
want to return different values. So, we cache the
value read from GPIOs. */
id = read_sku_id_from_gpio();
sku_id = id;
}
return sku_id;
}
/*
* mainboard_set_power_limits
*
* Set Pl2 and SysPl2 values based on detected charger.
* If detected barrel jack, use values below based on SKU.
* definitions:
* x = no value entered. Use default value in parenthesis.
* will set 0 to anything that shouldn't be set.
* n = max value of power adapter.
* +-------------+-----+---------+-----------+-------+
* | sku_id | PL2 | PsysPL2 | PsysPL3 | PL4 |
* +-------------+-----+---------+-----------+-------+
* | i7 U42 | 44 | 81 | x(.85PL4) | x(71) |
* | i5 U42 | 44 | 81 | x(.85PL4) | x(71) |
* | i3 U42 | 44 | 81 | x(.85PL4) | x(71) |
* | i7 U22 | 29 | 58 | x(.85PL4) | x(43) |
* | i5 U22 | 29 | 58 | x(.85PL4) | x(43) |
* | i3 U22 | 29 | 58 | x(.85PL4) | x(43) |
* | celeron U22 | 29 | 58 | x(.85PL4) | x(43) |
* +-------------+-----+---------+-----------+-------+
* For USB C charger:
* +-------------+-----+---------+---------+-------+
* | Max Power(W)| PL2 | PsysPL2 | PsysPL3 | PL4 |
* +-------------+-----+---------+---------+-------+
* | 60 (U42) | 44 | 54 | 54 | 54 |
* | 60 (U22) | 29 | 54 | 54 | x(43) |
* | n (U42) | 44 | .9n | .9n | .9n |
* | n (U22) | 29 | .9n | .9n | x(43) |
* +-------------+-----+---------+---------+-------+
*/
static void mainboard_set_power_limits(struct soc_power_limits_config *conf)
{
enum usb_chg_type type;
u32 watts;
u16 volts_mv, current_ma;
u32 pl2, psyspl2;
int rv = google_chromeec_get_usb_pd_power_info(&type, ¤t_ma, &volts_mv);
uint8_t sku = board_sku_id();
const uint32_t u42_mask = (1 << FIZZ_SKU_ID_I7_U42) |
(1 << FIZZ_SKU_ID_I5_U42) |
(1 << FIZZ_SKU_ID_I3_U42);
/* PL2 value is sku-based, no matter what charger we are using */
pl2 = FIZZ_PL2_U22;
if ((1 << sku) & u42_mask)
pl2 = FIZZ_PL2_U42;
conf->tdp_psyspl3 = conf->tdp_pl4 = 0;
/* If we can't get charger info or not PD charger, assume barrel jack */
if (rv != 0 || type != USB_CHG_TYPE_PD) {
/* using the barrel jack, get PsysPL2 based on sku id */
psyspl2 = FIZZ_PSYSPL2_U22;
/* Running a U42 SKU */
if ((1 << sku) & u42_mask)
psyspl2 = FIZZ_PSYSPL2_U42;
} else {
/* Detected TypeC. Base on max value of adapter */
watts = ((u32)volts_mv * current_ma) / 1000000;
psyspl2 = watts;
conf->tdp_psyspl3 = SET_PSYSPL2(psyspl2);
/* set max possible time window */
conf->tdp_psyspl3_time = FIZZ_MAX_TIME_WINDOW;
/* set minimum duty cycle */
conf->tdp_psyspl3_dutycycle = FIZZ_MIN_DUTYCYCLE;
if ((1 << sku) & u42_mask)
conf->tdp_pl4 = SET_PSYSPL2(psyspl2);
}
conf->tdp_pl2_override = pl2;
/* set psyspl2 to 90% of max adapter power */
conf->tdp_psyspl2 = SET_PSYSPL2(psyspl2);
}
static uint8_t read_oem_id_from_gpio(void)
{
const gpio_t oem_id_gpios[] = {
GPIO_OEM_ID1,
GPIO_OEM_ID2,
GPIO_OEM_ID3,
};
return gpio_base2_value(oem_id_gpios, ARRAY_SIZE(oem_id_gpios));
}
static uint8_t board_oem_id(void)
{
static int oem_id = -1;
if (oem_id < 0) {
uint32_t id;
if (google_chromeec_cbi_get_oem_id(&id))
/* TODO: Once transition completes, raise error instead
of returning gpio value which could be unintended. */
/* Reading from EC may succeed next time but we do not
want to return different values. So, we cache the
value read from GPIOs. */
id = read_oem_id_from_gpio();
oem_id = id;
}
return oem_id;
}
const char *smbios_system_sku(void)
{
static char sku_str[7]; /* sku{0..255} */
snprintf(sku_str, sizeof(sku_str), "sku%d", board_oem_id());
return sku_str;
}
const char *fizz_oem_name[] = {
"Kench",
"Teemo",
"Sion",
"Wukong",
"Wukong",
"Wukong",
"Teemo",
"Karma",
"Jax",
"Endeavour",
"Excelsior"
};
const char *smbios_mainboard_product_name(void)
{
return fizz_oem_name[board_oem_id()];
}
static void mainboard_init(struct device *dev)
{
mainboard_ec_init();
}
static unsigned long mainboard_write_acpi_tables(
const struct device *device, unsigned long current, acpi_rsdp_t *rsdp)
{
const char *oem_id = NULL;
const char *oem_table_id = NULL;
uint32_t oem_revision = 0;
uintptr_t start_addr;
uintptr_t end_addr;
struct nhlt *nhlt;
start_addr = current;
nhlt = nhlt_init();
if (!nhlt)
return start_addr;
variant_nhlt_init(nhlt);
variant_nhlt_oem_overrides(&oem_id, &oem_table_id, &oem_revision);
end_addr = nhlt_soc_serialize_oem_overrides(nhlt, start_addr,
oem_id, oem_table_id, oem_revision);
if (end_addr != start_addr)
acpi_add_table(rsdp, (void *)start_addr);
return end_addr;
}
static void mainboard_enable(struct device *dev)
{
struct soc_power_limits_config *soc_conf;
config_t *conf = config_of_soc();
soc_conf = &conf->power_limits_config;
mainboard_set_power_limits(soc_conf);
dev->ops->init = mainboard_init;
dev->ops->write_acpi_tables = mainboard_write_acpi_tables;
}
#define GPIO_HDMI_HPD GPP_E13
#define GPIO_DP_HPD GPP_E14
/* TODO: This can be moved to common directory */
static void wait_for_hpd(gpio_t gpio, long timeout)
{
struct stopwatch sw;
printk(BIOS_INFO, "Waiting for HPD\n");
gpio_input(gpio);
stopwatch_init_msecs_expire(&sw, timeout);
while (!gpio_get(gpio)) {
if (stopwatch_expired(&sw)) {
printk(BIOS_WARNING,
"HPD not ready after %ldms. Abort.\n", timeout);
return;
}
mdelay(200);
}
printk(BIOS_INFO, "HPD ready after %lld ms\n",
stopwatch_duration_msecs(&sw));
}
void __weak variant_chip_display_init(void)
{
static const long display_timeout_ms = 3000;
/* This is reconfigured back to whatever FSP-S expects by
gpio_configure_pads. */
gpio_input(GPIO_HDMI_HPD);
if (display_init_required() && !gpio_get(GPIO_HDMI_HPD)) {
/* This has to be done before FSP-S runs. */
if (google_chromeec_wait_for_displayport(display_timeout_ms))
wait_for_hpd(GPIO_DP_HPD, display_timeout_ms);
}
}
static void mainboard_chip_init(void *chip_info)
{
const struct pad_config *pads;
size_t num;
variant_chip_display_init();
pads = variant_gpio_table(&num);
gpio_configure_pads(pads, num);
}
struct chip_operations mainboard_ops = {
.init = mainboard_chip_init,
.enable_dev = mainboard_enable,
};
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