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/* SPDX-License-Identifier: GPL-2.0-only */
#include <console/console.h>
#include <device/device.h>
#include <device/pnp.h>
#include <ec/acpi/ec.h>
#include <option.h>
#include <pc80/keyboard.h>
#include <halt.h>
#include "ec.h"
#include "ecdefs.h"
uint16_t ec_get_version(void)
{
return (ec_read(ECRAM_MAJOR_VERSION) << 8) | ec_read(ECRAM_MINOR_VERSION);
}
static uint8_t get_ec_value_from_option(const char *name,
unsigned int fallback,
const uint8_t *lut,
size_t lut_size)
{
unsigned int index = get_uint_option(name, fallback);
if (index >= lut_size)
index = fallback;
return lut[index];
}
void ec_mirror_flag(void)
{
/*
* For the mirror flag to work, the status of the EC pin must be known
* at all times, which means external power. This can be either a DC
* charger, or PD with CCG6. PD with an ANX7447 requires configuration
* from the EC, so the update will interrupt this.
*
* This means we can unconditionally apply the mirror flag to devices
* that have CCG6, present on devices with TBT, but have a manual
* flag for devices without it.
*/
uint16_t ec_version = ec_get_version();
/* Full mirror support was added in EC 1.18 (0x0112) */
if (ec_version < 0x0112)
return;
if (CONFIG(EC_STARLABS_MIRROR_SUPPORT) &&
(CONFIG(DRIVERS_INTEL_USB4_RETIMER) || get_uint_option("mirror_flag", 0)) &&
(ec_version != CONFIG_EC_STARLABS_MIRROR_VERSION)) {
printk(BIOS_ERR, "ITE: EC version 0x%x doesn't match coreboot version 0x%x.\n",
ec_version, CONFIG_EC_STARLABS_MIRROR_VERSION);
ec_write(ECRAM_MIRROR_FLAG, MIRROR_ENABLED);
}
}
static uint16_t ec_get_chip_id(unsigned int port)
{
return (pnp_read_index(port, ITE_CHIPID1) << 8) |
pnp_read_index(port, ITE_CHIPID2);
}
static void merlin_init(struct device *dev)
{
if (!dev->enabled)
return;
/*
* The address/data IO port pair for the ite EC are configurable
* through the EC domain and are fixed by the EC's firmware blob. If
* the value(s) passed through the "dev" structure don't match the
* expected values then output severe warnings.
*/
if (dev->path.pnp.port != ITE_FIXED_ADDR) {
printk(BIOS_ERR, "ITE: Incorrect ports defined in devicetree.cb.\n");
printk(BIOS_ERR, "ITE: Serious operational issues will arise.\n");
return;
}
const uint16_t chip_id = ec_get_chip_id(dev->path.pnp.port);
if (chip_id != ITE_CHIPID_VAL) {
printk(BIOS_ERR, "ITE: Expected chip ID 0x%04x, but got 0x%04x instead.\n",
ITE_CHIPID_VAL, chip_id);
return;
}
ec_mirror_flag();
pc_keyboard_init(NO_AUX_DEVICE);
/*
* Restore settings from CMOS into EC RAM:
*
* kbl_timeout
* fn_ctrl_swap
* max_charge
* fan_mode
* fn_lock_state
* trackpad_state
* kbl_brightness
* kbl_state
*/
/*
* Keyboard Backlight Timeout
*
* Setting: kbl_timeout
*
* Values: 30 Seconds, 1 Minute, 3 Minutes, 5 Minutes, Never
* Default: 30 Seconds
*
*/
const uint8_t kbl_timeout[] = {
SEC_30,
MIN_1,
MIN_3,
MIN_5,
NEVER
};
ec_write(ECRAM_KBL_TIMEOUT,
get_ec_value_from_option("kbl_timeout",
0,
kbl_timeout,
ARRAY_SIZE(kbl_timeout)));
/*
* Fn Ctrl Reverse
*
* Setting: fn_ctrl_swap
*
* Values: Enabled, Disabled
* Default: Disabled
*
*/
const uint8_t fn_ctrl_swap[] = {
FN_CTRL,
CTRL_FN
};
ec_write(ECRAM_FN_CTRL_REVERSE,
get_ec_value_from_option("fn_ctrl_swap",
0,
fn_ctrl_swap,
ARRAY_SIZE(fn_ctrl_swap)));
/*
* Maximum Charge Level
*
* Setting: max_charge
*
* Values: 60%, 80%, 100%
* Default: 100%
*
*/
const uint8_t max_charge[] = {
CHARGE_100,
CHARGE_80,
CHARGE_60
};
if (CONFIG(EC_STARLABS_MAX_CHARGE))
ec_write(ECRAM_MAX_CHARGE,
get_ec_value_from_option("max_charge",
0,
max_charge,
ARRAY_SIZE(max_charge)));
/*
* Fan Mode
*
* Setting: fan_mode
*
* Values: Quiet, Normal, Aggressive
* Default: Normal
*
*/
const uint8_t fan_mode[] = {
FAN_NORMAL,
FAN_AGGRESSIVE,
FAN_QUIET
};
if (CONFIG(EC_STARLABS_FAN))
ec_write(ECRAM_FAN_MODE,
get_ec_value_from_option("fan_mode",
0,
fan_mode,
ARRAY_SIZE(fan_mode)));
/*
* Function Lock
*
* Setting: fn_lock_state
*
* Values: Locked, Unlocked
* Default: Locked
*
*/
const uint8_t fn_lock_state[] = {
UNLOCKED,
LOCKED
};
ec_write(ECRAM_FN_LOCK_STATE,
get_ec_value_from_option("fn_lock_state",
1,
fn_lock_state,
ARRAY_SIZE(fn_lock_state)));
/*
* Trackpad State
*
* Setting: trackpad_state
*
* Values: Enabled, Disabled
* Default: Enabled
*
*/
const uint8_t trackpad_state[] = {
TRACKPAD_ENABLED,
TRACKPAD_DISABLED
};
ec_write(ECRAM_TRACKPAD_STATE,
get_ec_value_from_option("trackpad_state",
0,
trackpad_state,
ARRAY_SIZE(trackpad_state)));
/*
* Keyboard Backlight Brightness
*
* Setting: kbl_brightness
*
* Values: Off, Low, High / Off, On
* Default: Low
*
*/
const uint8_t kbl_brightness[] = {
KBL_ON,
KBL_OFF,
KBL_LOW,
KBL_HIGH
};
if (CONFIG(EC_STARLABS_KBL_LEVELS))
ec_write(ECRAM_KBL_BRIGHTNESS,
get_ec_value_from_option("kbl_brightness",
2,
kbl_brightness,
ARRAY_SIZE(kbl_brightness)));
else
ec_write(ECRAM_KBL_BRIGHTNESS,
get_ec_value_from_option("kbl_brightness",
0,
kbl_brightness,
ARRAY_SIZE(kbl_brightness)));
/*
* Keyboard Backlight State
*
* Setting: kbl_state
*
* Values: Off, On
* Default: On
*
* Note: Always enable, as the brightness level of `off` disables it.
*
*/
ec_write(ECRAM_KBL_STATE, KBL_ENABLED);
}
static struct device_operations ops = {
.init = merlin_init,
.read_resources = noop_read_resources,
.set_resources = noop_set_resources,
};
static struct pnp_info pnp_dev_info[] = {
/* Serial Port 1 (UART1) */
{ NULL, ITE_SP1, PNP_IO0 | PNP_IRQ0, 0x0ff8, },
/* Serial Port 2 (UART2) */
{ NULL, ITE_SP2, PNP_IO0 | PNP_IRQ0, 0x0ff8, },
/* System Wake-Up Control (SWUC) */
{ NULL, ITE_SWUC, PNP_IO0 | PNP_IRQ0, 0xfff0, },
/* KBC / Mouse Interface */
{ NULL, ITE_SWUC, PNP_IRQ0, },
/* KBC / Keyboard Interface */
{ NULL, ITE_KBCK, PNP_IO0 | PNP_IO1 | PNP_IRQ0, 0x07ff, 0x07ff, },
/* Consumer IR (CIR) */
{ NULL, ITE_IR, PNP_IO0 | PNP_IRQ0, 0xfff8, },
/* Shared Memory / Flash Interface (SMFI) */
{ NULL, ITE_SMFI, PNP_IO0 | PNP_IRQ0, 0xfff0, },
/* RTC-like Timer (RCTC) */
{ NULL, ITE_RTCT, PNP_IO0 | PNP_IO1 | PNP_IO2 | PNP_IO3 | PNP_IRQ0,
0xfffe, 0xfffe, 0xfffe, 0xfffe, },
/* Power Management I/F Channel 1 (PMC1) */
{ NULL, ITE_PMC1, PNP_IO0 | PNP_IO1 | PNP_IRQ0, 0x07ff, 0x07ff, },
/* Power Management I/F Channel 2 (PMC2) */
{ NULL, ITE_PMC2, PNP_IO0 | PNP_IO1 | PNP_IO2 | PNP_IRQ0, 0x07fc,
0x07fc, 0xfff0, },
/* Serial Peripheral Interface (SSPI) */
{ NULL, ITE_SSPI, PNP_IO0 | PNP_IRQ0, 0xfff8, },
/* Platform Environment Control Interface (PECI) */
{ NULL, ITE_PECI, PNP_IRQ0, 0xfff8, },
/* Power Management I/F Channel 3 (PMC3) */
{ NULL, ITE_PMC3, PNP_IO0 | PNP_IO1 | PNP_IRQ0, 0x07ff, 0x07ff, },
/* Power Management I/F Channel 4 (PMC4) */
{ NULL, ITE_PMC4, PNP_IO0 | PNP_IO1 | PNP_IRQ0, 0x07ff, 0x07ff, },
/* Power Management I/F Channel 5 (PMC5) */
{ NULL, ITE_PMC5, PNP_IO0 | PNP_IO1 | PNP_IRQ0, 0x07ff, 0x07ff, },
};
static void enable_dev(struct device *dev)
{
pnp_enable_devices(dev, &ops, ARRAY_SIZE(pnp_dev_info), pnp_dev_info);
}
struct chip_operations ec_starlabs_merlin_ops = {
CHIP_NAME("ITE EC")
.enable_dev = enable_dev
};
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