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This commit is contained in:
Jeremy Soller 2020-01-09 20:16:05 -07:00
parent b962ed8771
commit 6d7f2807d5
No known key found for this signature in database
GPG Key ID: E988B49EE78A7FB1
41 changed files with 2684 additions and 1 deletions
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2
ecflash

@ -1 +1 @@
Subproject commit 9e8f155bead62bea3d0c16d79c86ef07e1761c0a
Subproject commit 67c1a450b3208ef45816a1b29b85cac92115f3b2

77
src/board/system76/lemp9/acpi.c Normal file
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#include <board/acpi.h>
#include <board/battery.h>
#include <board/peci.h>
#include <common/debug.h>
#include <ec/gpio.h>
static struct Gpio __code ACIN_N = GPIO(B, 0);
static struct Gpio __code LID_SW_N = GPIO(B, 1);
uint8_t acpi_read(uint8_t addr) {
uint8_t data = 0;
#define ACPI_8(K, V) \
case (K): \
data = (uint8_t)(V); \
break
#define ACPI_16(K, V) \
ACPI_8(K, V); \
ACPI_8((K) + 1, (V) >> 8)
#define ACPI_32(K, V) \
ACPI_16(K, V); \
ACPI_16((K) + 2, (V) >> 16)
switch (addr) {
// Lid state and other flags
case 0x03:
if (gpio_get(&LID_SW_N)) {
// Lid is open
data |= 1 << 0;
}
break;
// Handle AC adapter and battery present
case 0x10:
if (!gpio_get(&ACIN_N)) {
// AC adapter connected
data |= 1 << 0;
}
// BAT0 always connected - TODO
data |= 1 << 2;
break;
ACPI_16(0x16, battery_design_capacity);
ACPI_16(0x1A, battery_full_capacity);
ACPI_16(0x22, battery_design_voltage);
// Bypass status test in ACPI - TODO
case 0x26:
data |= 1 << 1;
break;
ACPI_16(0x2A, battery_current);
ACPI_16(0x2E, battery_remaining_capacity);
ACPI_16(0x32, battery_voltage);
// Set size of flash (from old firmware)
ACPI_8 (0xE5, 0x80);
}
DEBUG("acpi_read %02X = %02X\n", addr, data);
return data;
}
// If not in debug mode, data is not used, ignore warning
#pragma save
#pragma disable_warning 85
void acpi_write(uint8_t addr, uint8_t data) {
DEBUG("acpi_write %02X = %02X\n", addr, data);
switch (addr) {
//TODO
}
}
#pragma restore

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src/board/system76/lemp9/battery.c Normal file
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#include <common/debug.h>
#include <common/i2c.h>
int smbus_read(uint8_t address, uint8_t command, uint16_t * data) {
return i2c_get(address, command, (uint8_t *)data, 2);
}
int smbus_write(uint8_t address, uint8_t command, uint16_t data) {
return i2c_set(address, command, (uint8_t *)&data, 2);
}
// ChargeOption0 flags
// Low Power Mode Enable
#define SBC_EN_LWPWR ((uint16_t)(1 << 15))
// Watchdog Timer Adjust
#define SBC_WDTMR_ADJ_175S ((uint16_t)(0b11 << 13))
// Switching Frequency
#define SBC_PWM_FREQ_800KHZ ((uint16_t)(0b01 << 8))
// IDCHG Amplifier Gain
#define SBC_IDCHC_GAIN ((uint16_t)(1 << 3))
int battery_charger_disable(void) {
int res = 0;
/* TODO: Grab battery settings
// Set charge option 0 with 175s watchdog
res = smbus_write(
0x09,
0x12,
SBC_EN_LWPWR |
SBC_WDTMR_ADJ_175S |
SBC_PWM_FREQ_800KHZ |
SBC_IDCHC_GAIN
);
// Disable charge current
res = smbus_write(0x09, 0x14, 0);
if (res < 0) return res;
// Disable charge voltage
res = smbus_write(0x09, 0x15, 0);
if (res < 0) return res;
*/
return 0;
}
int battery_charger_enable(void) {
int res = 0;
res = battery_charger_disable();
if (res < 0) return res;
/* TODO: Grab battery settings
// Set charge current to ~1.5 A
res = smbus_write(0x09, 0x14, 0x0600);
if (res < 0) return res;
// Set charge voltage to ~13 V
res = smbus_write(0x09, 0x15, 0x3300);
if (res < 0) return res;
// Set charge option 0 with watchdog disabled
res = smbus_write(
0x09,
0x12,
SBC_EN_LWPWR |
SBC_PWM_FREQ_800KHZ |
SBC_IDCHC_GAIN
);
*/
return 0;
}
uint16_t battery_temp = 0;
uint16_t battery_voltage = 0;
uint16_t battery_current = 0;
uint16_t battery_charge = 0;
uint16_t battery_remaining_capacity = 0;
uint16_t battery_full_capacity = 0;
uint16_t battery_design_capacity = 0;
uint16_t battery_design_voltage = 0;
void battery_event(void) {
int res = 0;
#define command(N, V) { \
res = smbus_read(0x0B, V, &N); \
if (res < 0) { \
N = 0; \
return; \
} \
}
command(battery_temp, 0x08);
command(battery_voltage, 0x09);
command(battery_current, 0x0A);
command(battery_charge, 0x0D);
command(battery_remaining_capacity, 0x0F);
command(battery_full_capacity, 0x10);
command(battery_design_capacity, 0x18);
command(battery_design_voltage, 0x19);
#undef command
}
void battery_debug(void) {
uint16_t data = 0;
int res = 0;
#define command(N, A, V) { \
DEBUG(#N ": "); \
res = smbus_read(A, V, &data); \
if (res < 0) { \
DEBUG("ERROR %04X\n", -res); \
} else { \
DEBUG("%04X\n", data); \
} \
}
DEBUG("Battery:\n");
command(Temperature, 0x0B, 0x08);
command(Voltage, 0x0B, 0x09);
command(Current, 0x0B, 0x0A);
command(Charge, 0x0B, 0x0D);
DEBUG("Charger:\n");
command(ChargeOption0, 0x09, 0x12);
command(ChargeOption1, 0x09, 0x3B);
command(ChargeOption2, 0x09, 0x38);
command(ChargeOption3, 0x09, 0x37);
command(ChargeCurrent, 0x09, 0x14);
command(ChargeVoltage, 0x09, 0x15);
command(DishargeCurrent, 0x09, 0x39);
command(InputCurrent, 0x09, 0x3F);
command(ProchotOption0, 0x09, 0x3C);
command(ProchotOption1, 0x09, 0x3D);
command(ProchotStatus, 0x09, 0x3A);
#undef command
}

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src/board/system76/lemp9/board.mk Normal file
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EC=it8587e
# Add keymaps to include
INCLUDE+=$(wildcard $(BOARD_DIR)/keymap/*.h)
# Set log level
# 0 - NONE
# 1 - ERROR
# 2 - WARN
# 3 - INFO
# 4 - DEBUG
# 5 - TRACE
CFLAGS+=-DLEVEL=2
# Enable I2C debug on 0x76
CFLAGS+=-DI2C_DEBUGGER=0x76
# Add scratch ROM source
SCRATCH_DIR=$(BOARD_DIR)/scratch
SCRATCH_SRC=$(wildcard $(SCRATCH_DIR)/*.c)
SCRATCH_INCLUDE=$(wildcard $(SCRATCH_DIR)/include/scratch/*.h) $(SCRATCH_DIR)/scratch.mk
SCRATCH_CFLAGS=-I$(SCRATCH_DIR)/include
include $(SCRATCH_DIR)/scratch.mk
# Include scratch header in main firmware
CFLAGS+=-I$(BUILD)/include
INCLUDE+=$(BUILD)/include/scratch.h
flash: $(BUILD)/ec.rom
cargo build --manifest-path ecflash/Cargo.toml --example flash --release
sudo ecflash/target/release/examples/flash $<
isp: $(BUILD)/ec.rom
cargo build --manifest-path ecflash/Cargo.toml --example isp --release
sudo ecflash/target/release/examples/isp $<

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src/board/system76/lemp9/gctrl.c Normal file
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#include <board/gctrl.h>
void gctrl_init(void) {
SPCTRL1 = 0x03;
BADRSEL = 0;
RSTS = 0x84;
}

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src/board/system76/lemp9/gpio.c Normal file
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#include <board/gpio.h>
#include <common/debug.h>
void gpio_init() {
// Enable LPC reset on GPD2
GCR = 0x04;
// Set GPIO data
GPDRA = 0;
GPDRB = (1 << 0);
GPDRC = 0;
GPDRD = (1 << 5) | (1 << 4) | (1 << 3);
GPDRE = 0;
GPDRF = 0xC0; // (1 << 7) | (1 << 6)
GPDRG = 0;
GPDRH = 0;
GPDRI = 0;
GPDRJ = 0;
// Set GPIO control
// EC_SSD_LED#
GPCRA0 = GPIO_IN;
// KBC_BEEP
GPCRA1 = GPIO_ALT;
// CPU_FAN
GPCRA2 = GPIO_ALT;
// PCH_DPWROK_EC
GPCRA3 = GPIO_IN;
// PCH_PWROK_EC
GPCRA4 = GPIO_OUT;
// LED_BAT_CHG
GPCRA5 = GPIO_OUT | GPIO_UP;
// LED_BAT_FULL
GPCRA6 = GPIO_OUT | GPIO_UP;
// LED_PWR
GPCRA7 = GPIO_OUT | GPIO_UP;
// NC
GPCRB0 = GPIO_OUT | GPIO_UP;
// H_PROCHOT_EC
GPCRB1 = GPIO_OUT | GPIO_UP;
// LAN_WAKEUP#
GPCRB2 = GPIO_IN | GPIO_UP;
// SMC_BAT
GPCRB3 = GPIO_ALT;
// SMD_BAT
GPCRB4 = GPIO_ALT;
// GA20
GPCRB5 = GPIO_OUT | GPIO_UP;
// AC_IN#
GPCRB6 = GPIO_IN | GPIO_UP;
// FP_RST#
GPCRB7 = GPIO_IN;
// ALL_SYS_PWRGD
GPCRC0 = GPIO_IN;
// SMC_VGA_THERM
GPCRC1 = GPIO_IN | GPIO_UP;
// SMD_VGA_THERM
GPCRC2 = GPIO_IN | GPIO_UP;
// KSO16 (Darter)
GPCRC3 = GPIO_IN;
// CNVI_DET#
GPCRC4 = GPIO_OUT | GPIO_UP;
// KSO17 (Darter)
GPCRC5 = GPIO_IN;
// PM_PWROK
GPCRC6 = GPIO_OUT;
// LED_ACIN
GPCRC7 = GPIO_OUT | GPIO_UP;
// PWR_SW#
GPCRD0 = GPIO_IN | GPIO_UP;
// LID_SW#
GPCRD1 = GPIO_IN | GPIO_UP;
// BUF_PLT_RST#
GPCRD2 = GPIO_ALT;
// SMI#
GPCRD3 = GPIO_IN;
// SCI#
GPCRD4 = GPIO_IN;
// PWR_BTN#
GPCRD5 = GPIO_OUT | GPIO_UP;
// CPU_FANSEN
GPCRD6 = GPIO_IN;
// SUSWARN#
GPCRD7 = GPIO_IN;
// SWI#
GPCRE0 = GPIO_OUT | GPIO_UP;
// EC_EN
GPCRE1 = GPIO_OUT | GPIO_UP;
// PCH_SLP_WLAN#_R
GPCRE2 = GPIO_IN;
// VA_EC_EN
GPCRE3 = GPIO_OUT;
// DD_ON
GPCRE4 = GPIO_OUT | GPIO_DOWN;
// EC_RSMRST#
GPCRE5 = GPIO_OUT;
// SB_KBCRST#
GPCRE6 = GPIO_OUT | GPIO_UP;
// AC_PRESENT / PM_PWROK
GPCRE7 = GPIO_OUT | GPIO_UP;
// 80CLK
GPCRF0 = GPIO_IN;
// USB_CHARGE_EN
GPCRF1 = GPIO_OUT | GPIO_UP;
// 3IN1
GPCRF2 = GPIO_IN | GPIO_UP;
// BT_EN
GPCRF3 = GPIO_OUT | GPIO_UP;
// TP_CLK
GPCRF4 = GPIO_ALT;
// TP_DATA
GPCRF5 = GPIO_ALT;
// H_PECI
GPCRF6 = GPIO_ALT;
// USB_PWR_EN#
GPCRF7 = GPIO_OUT;
// CCD_EN
GPCRG0 = GPIO_OUT | GPIO_UP;
// 3G_EN
GPCRG1 = GPIO_OUT | GPIO_UP;
// VDD3
GPCRG2 = GPIO_OUT;
// HSPI_CE#
GPCRG3 = GPIO_ALT;
// HSPI_MSI
GPCRG4 = GPIO_ALT;
// HSPI_MSO
GPCRG5 = GPIO_ALT;
// AIRPLAN_LED#
GPCRG6 = GPIO_OUT | GPIO_UP;
// HCPI_SCLK
GPCRG7 = GPIO_ALT;
// EC_CLKRUN#
GPCRH0 = GPIO_ALT;
// SUSC#_PCH
GPCRH1 = GPIO_IN;
// BKL_EN
GPCRH2 = GPIO_OUT | GPIO_UP;
// NC
GPCRH3 = GPIO_OUT | GPIO_UP;
// VR_ON
GPCRH4 = GPIO_IN;
// WLAN_EN
GPCRH5 = GPIO_OUT | GPIO_UP;
// SUSB#_PCH
GPCRH6 = GPIO_IN;
// Unknown
GPCRH7 = GPIO_IN;
// BAT_DET
GPCRI0 = GPIO_ALT;
// BAT_VOLT
GPCRI1 = GPIO_ALT;
// SLP_SUS#
GPCRI2 = GPIO_IN;
// THERM_VOLT
GPCRI3 = GPIO_ALT;
// TOTAL_CUR
GPCRI4 = GPIO_ALT;
// AZ_RST#_EC
GPCRI5 = GPIO_IN;
// LIGHT_KB_DET#
GPCRI6 = GPIO_IN;
// MODEL_ID
GPCRI7 = GPIO_IN;
// SUS_PWR_ACK
GPCRJ0 = GPIO_IN | GPIO_DOWN;
// KBC_MUTE#
GPCRJ1 = GPIO_IN;
// ME_WE
GPCRJ2 = GPIO_OUT;
// SOC_TYPE
GPCRJ3 = GPIO_IN;
// WLAN_PWR_EN
GPCRJ4 = GPIO_OUT | GPIO_UP;
// KBLIGHT_ADJ
GPCRJ5 = GPIO_OUT;
// 3G_PWR_EN
GPCRJ6 = GPIO_OUT | GPIO_UP;
// NC
GPCRJ7 = GPIO_IN;
// LPC_AD0
GPCRM0 = GPIO_ALT;
// LPC_AD1
GPCRM1 = GPIO_ALT;
// LPC_AD2
GPCRM2 = GPIO_ALT;
// LPC_AD3
GPCRM3 = GPIO_ALT;
// PCLK_KBC
GPCRM4 = GPIO_ALT;
// LPC_FRAME#
GPCRM5 = GPIO_ALT;
// SERIRQ
GPCRM6 = GPIO_ALT;
}
#if GPIO_DEBUG
void gpio_debug_bank(
char * bank,
uint8_t data,
uint8_t mirror,
uint8_t pot,
volatile uint8_t * control
) {
for(char i = 0; i < 8; i++) {
DEBUG(
"%s%d:\n\tdata %d\n\tmirror %d\n\tpot %d\n\tcontrol %02X\n",
bank,
i,
(data >> i) & 1,
(mirror >> i) & 1,
(pot >> i) & 1,
*(control + i)
);
}
}
void gpio_debug(void) {
#define bank(BANK) gpio_debug_bank(#BANK, GPDR ## BANK, GPDMR ## BANK, GPOT ## BANK, &GPCR ## BANK ## 0)
bank(A);
bank(B);
bank(C);
bank(D);
bank(E);
bank(F);
bank(G);
bank(H);
bank(I);
bank(J);
#undef bank
}
#endif

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src/board/system76/lemp9/include/board/acpi.h Normal file
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#ifndef _BOARD_ACPI_H
#define _BOARD_ACPI_H
#include <stdint.h>
uint8_t acpi_read(uint8_t addr);
void acpi_write(uint8_t addr, uint8_t data);
#endif // _BOARD_ACPI_H

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src/board/system76/lemp9/include/board/battery.h Normal file
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#ifndef _BOARD_BATTERY_H
#define _BOARD_BATTERY_H
#include <stdint.h>
extern uint16_t battery_temp;
extern uint16_t battery_voltage;
extern uint16_t battery_current;
extern uint16_t battery_charge;
extern uint16_t battery_remaining_capacity;
extern uint16_t battery_full_capacity;
extern uint16_t battery_design_capacity;
extern uint16_t battery_design_voltage;
int battery_charger_disable(void);
int battery_charger_enable(void);
void battery_event(void);
void battery_debug(void);
#endif // _BOARD_BATTERY_H

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src/board/system76/lemp9/include/board/cpu.h Normal file
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#ifndef _BOARD_CPU_H
#define _BOARD_CPU_H
#define F_CPU 9200000ULL
#endif // _BOARD_CPU_H

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src/board/system76/lemp9/include/board/gctrl.h Normal file
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#ifndef _BOARD_GCTRL_H
#define _BOARD_GCTRL_H
#include <ec/gctrl.h>
void gctrl_init(void);
#endif // _BOARD_GCTRL_H

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src/board/system76/lemp9/include/board/gpio.h Normal file
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#ifndef _BOARD_GPIO_H
#define _BOARD_GPIO_H
#include <ec/gpio.h>
#define GPIO_ALT 0x00
#define GPIO_IN 0x80
#define GPIO_OUT 0x40
#define GPIO_UP 0x04
#define GPIO_DOWN 0x02
void gpio_init(void);
void gpio_debug(void);
#endif // _BOARD_GPIO_H

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src/board/system76/lemp9/include/board/kbc.h Normal file
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#ifndef _BOARD_KBC_H
#define _BOARD_KBC_H
#include <stdbool.h>
#include <ec/kbc.h>
extern bool kbc_first;
extern bool kbc_second;
void kbc_init(void);
bool kbc_scancode(struct Kbc * kbc, uint16_t key, bool pressed);
void kbc_event(struct Kbc * kbc);
#endif // _BOARD_KBC_H

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src/board/system76/lemp9/include/board/kbscan.h Normal file
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#ifndef _BOARD_KBSCAN_H
#define _BOARD_KBSCAN_H
#include <stdbool.h>
#include <ec/kbscan.h>
extern bool kbscan_enabled;
void kbscan_init(void);
void kbscan_event(void);
#endif // _BOARD_KBSCAN_H

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src/board/system76/lemp9/include/board/keymap.h Normal file
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#ifndef _BOARD_KEYMAP_H
#define _BOARD_KEYMAP_H
#include <stdint.h>
// Keymap output pins
#define KM_OUT 16
// Keymap input pins
#define KM_IN 8
// Keymap layers (normal, Fn)
#define KM_LAY 2
uint16_t keymap(int output, int input, int layer);
uint16_t keymap_translate(uint16_t key);
// Key types
#define KT_MASK (0xF000)
// Normal keys
#define KT_NORMAL (0x0000)
// Layer selection
#define KT_FN (0x1000)
// SCI
#define KT_SCI (0x2000)
#define SCI_BRIGHTNESS_DOWN (0x11)
#define SCI_BRIGHTNESS_UP (0x12)
#define SCI_AIRPLANE_MODE (0x14)
#define SCI_SUSPEND (0x15)
// See http://www.techtoys.com.hk/Downloads/Download/Microchip/PS2_driver/ScanCode.pdf
// Should send 0xE0 before scancode bytes
#define K_E0 (0x0100)
// Hotkeys
#define K_PLAY_PAUSE (K_E0 | 0x34)
#define K_MUTE (K_E0 | 0x23)
#define K_VOLUME_DOWN (K_E0 | 0x21)
#define K_VOLUME_UP (K_E0 | 0x32)
// Custom scancode
#define K_TOUCHPAD (K_E0 | 0x63)
// Function keys
#define K_F1 (0x05)
#define K_F2 (0x06)
#define K_F3 (0x04)
#define K_F4 (0x0C)
#define K_F5 (0x03)
#define K_F6 (0x0B)
#define K_F7 (0x83)
#define K_F8 (0x0A)
#define K_F9 (0x01)
#define K_F10 (0x09)
#define K_F11 (0x78)
#define K_F12 (0x07)
// Number keys
#define K_0 (0x45)
#define K_1 (0x16)
#define K_2 (0x1E)
#define K_3 (0x26)
#define K_4 (0x25)
#define K_5 (0x2E)
#define K_6 (0x36)
#define K_7 (0x3D)
#define K_8 (0x3E)
#define K_9 (0x46)
// Letter keys
#define K_A (0x1C)
#define K_B (0x32)
#define K_C (0x21)
#define K_D (0x23)
#define K_E (0x24)
#define K_F (0x2B)
#define K_G (0x34)
#define K_H (0x33)
#define K_I (0x43)
#define K_J (0x3B)
#define K_K (0x42)
#define K_L (0x4B)
#define K_M (0x3A)
#define K_N (0x31)
#define K_O (0x44)
#define K_P (0x4D)
#define K_Q (0x15)
#define K_R (0x2D)
#define K_S (0x1B)
#define K_T (0x2C)
#define K_U (0x3C)
#define K_V (0x2A)
#define K_W (0x1D)
#define K_X (0x22)
#define K_Y (0x35)
#define K_Z (0x1A)
// Special keys
// Escape key
#define K_ESC (0x76)
//TODO: Print screen, scroll lock, pause
// Tick/tilde key
#define K_TICK (0x0E)
// Minus/underline key
#define K_MINUS (0x4E)
// Equals/plus key
#define K_EQUALS (0x55)
// Backspace key
#define K_BKSP (0x66)
// Tab key
#define K_TAB (0x0D)
// Bracket open key
#define K_BRACE_OPEN (0x54)
// Bracket close key
#define K_BRACE_CLOSE (0x5B)
// Backslash/pipe key
#define K_BACKSLASH (0x5D)
// Capslock
#define K_CAPS (0x58)
// Semicolon key
#define K_SEMICOLON (0x4C)
// Quote key
#define K_QUOTE (0x52)
// Enter key
#define K_ENTER (0x5A)
// Left shift
#define K_LEFT_SHIFT (0x12)
// Comma key
#define K_COMMA (0x41)
// Period key
#define K_PERIOD (0x49)
// Slash key
#define K_SLASH (0x4A)
// Right shift
#define K_RIGHT_SHIFT (0x59)
// Left control key
#define K_LEFT_CTRL (0x14)
// Left super key
#define K_LEFT_SUPER (K_E0 | 0x1F)
// Left alt key
#define K_LEFT_ALT (0x11)
// Space key
#define K_SPACE (0x29)
// Right alt key
#define K_RIGHT_ALT (K_E0 | 0x11)
// Right super key
#define K_RIGHT_SUPER (K_E0 | 0x27)
// Application key
#define K_APP (K_E0 | 0x2F)
// Right control key
#define K_RIGHT_CTRL (K_E0 | 0x14)
// Arrow keys and related
// Insert key
#define K_INSERT (K_E0 | 0x70)
// Delete key
#define K_DEL (K_E0 | 0x71)
// Home key
#define K_HOME (K_E0 | 0x6C)
// End key
#define K_END (K_E0 | 0x69)
// Page up key
#define K_PGUP (K_E0 | 0x7D)
// Page down key
#define K_PGDN (K_E0 | 0x7A)
#define K_UP (K_E0 | 0x75)
#define K_LEFT (K_E0 | 0x6B)
#define K_DOWN (K_E0 | 0x72)
#define K_RIGHT (K_E0 | 0x74)
// Numpad
#define K_NUM_LOCK (0x77)
#define K_NUM_SLASH (K_E0 | 0x4A)
#define K_NUM_ASTERISK (0x7C)
#define K_NUM_MINUS (0x7B)
#define K_NUM_PLUS (0x79)
#define K_NUM_PERIOD (0x71)
#define K_NUM_ENTER (K_E0 | 0x5A)
#define K_NUM_0 (0x70)
#define K_NUM_1 (0x69)
#define K_NUM_2 (0x72)
#define K_NUM_3 (0x7A)
#define K_NUM_4 (0x6B)
#define K_NUM_5 (0x73)
#define K_NUM_6 (0x74)
#define K_NUM_7 (0x6C)
#define K_NUM_8 (0x75)
#define K_NUM_9 (0x7D)
#endif // _BOARD_KEYMAP_H

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#ifndef _BOARD_PECI_H
#define _BOARD_PECI_H
#include <ec/peci.h>
extern int16_t peci_offset;
extern int16_t peci_temp;
extern uint8_t peci_duty;
extern uint8_t peci_tcontrol;
extern uint8_t peci_tjmax;
void peci_event(void);
#endif // _BOARD_PECI_H

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#ifndef _BOARD_PMC_H
#define _BOARD_PMC_H
#include <ec/pmc.h>
void pmc_init(void);
bool pmc_sci(struct Pmc * pmc, uint8_t sci);
void pmc_event(struct Pmc * pmc);
#endif // _BOARD_PMC_H

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#ifndef _BOARD_PNP_H
#define _BOARD_PNP_H
void pnp_enable(void);
#endif // _BOARD_PNP_H

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#ifndef _BOARD_POWER_H
#define _BOARD_POWER_H
void power_event(void);
#endif // _BOARD_POWER_H

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#ifndef _BOARD_PS2_H
#define _BOARD_PS2_H
#include <ec/ps2.h>
void ps2_init(void);
#endif // _BOARD_PS2_H

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#ifndef _BOARD_PWM_H
#define _BOARD_PWM_H
#include <ec/pwm.h>
void pwm_init(void);
#endif // _BOARD_PWM_H

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#ifndef _BOARD_SCRATCH_H
#define _BOARD_SCRATCH_H
void scratch_trampoline(void);
#endif // _BOARD_SCRATCH_H

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#ifndef _BOARD_SMBUS_H
#define _BOARD_SMBUS_H
#include <ec/smbus.h>
void smbus_init(void);
#endif // _BOARD_SMBUS_H

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#include <board/kbc.h>
#include <board/kbscan.h>
#include <board/keymap.h>
#include <common/debug.h>
#include <ec/ps2.h>
void kbc_init(void) {
// Disable interrupts
*(KBC.irq) = 0;
*(KBC.control) = 0;
}
#define KBC_TIMEOUT 10000
// System flag
static bool kbc_system = false;
// Enable first port - TODO
bool kbc_first = false;
// Enable second port - TODO
bool kbc_second = false;
// Translate from scancode set 2 to scancode set 1
// for basically no good reason
static bool kbc_translate = true;
bool kbc_scancode(struct Kbc * kbc, uint16_t key, bool pressed) {
if (!kbc_first) return true;
if (kbc_translate) {
key = keymap_translate(key);
}
if (!key) return true;
switch (key & 0xFF00) {
case K_E0:
TRACE(" E0\n");
if (!kbc_keyboard(kbc, 0xE0, KBC_TIMEOUT)) return false;
key &= 0xFF;
// Fall through
case 0x00:
if (!pressed) {
if (kbc_translate) {
key |= 0x80;
} else {
TRACE(" F0\n");
if (!kbc_keyboard(kbc, 0xF0, KBC_TIMEOUT)) return false;
}
}
TRACE(" %02X\n", key);
if (!kbc_keyboard(kbc, (uint8_t)key, KBC_TIMEOUT)) return false;
break;
}
return true;
}
enum KbcState {
KBC_STATE_NORMAL,
KBC_STATE_WRITE_CONFIG,
KBC_STATE_SET_LEDS,
KBC_STATE_SCANCODE,
KBC_STATE_WRITE_PORT,
KBC_STATE_FIRST_PORT_OUTPUT,
KBC_STATE_SECOND_PORT_OUTPUT,
KBC_STATE_SECOND_PORT_INPUT,
};
void kbc_event(struct Kbc * kbc) {
// TODO: state per KBC (we only have one KBC so low priority)
static enum KbcState state = KBC_STATE_NORMAL;
uint8_t sts = kbc_status(kbc);
if (sts & KBC_STS_IBF) {
uint8_t data = kbc_read(kbc);
if (sts & KBC_STS_CMD) {
TRACE("kbc cmd: %02X\n", data);
state = KBC_STATE_NORMAL;
switch (data) {
case 0x20:
TRACE(" read configuration byte\n");
uint8_t config = *kbc->control & 0x03;
if (kbc_system) {
config |= (1 << 2);
}
if (!kbc_first) {
config |= (1 << 4);
}
if (!kbc_second) {
config |= (1 << 5);
}
if (kbc_translate) {
config |= (1 << 6);
}
kbc_keyboard(kbc, config, KBC_TIMEOUT);
break;
case 0x60:
TRACE(" write configuration byte\n");
state = KBC_STATE_WRITE_CONFIG;
break;
case 0xA7:
TRACE(" disable second port\n");
kbc_second = false;
break;
case 0xA8:
TRACE(" enable second port\n");
kbc_second = true;
break;
case 0xA9:
TRACE(" test second port\n");
// TODO: communicate with touchpad?
kbc_keyboard(kbc, 0x00, KBC_TIMEOUT);
break;
case 0xAA:
TRACE(" test controller\n");
// Why not pass the test?
kbc_keyboard(kbc, 0x55, KBC_TIMEOUT);
break;
case 0xAB:
TRACE(" test first port\n");
// We _ARE_ the keyboard, so everything is good.
kbc_keyboard(kbc, 0x00, KBC_TIMEOUT);
break;
case 0xAD:
TRACE(" disable first port\n");
kbc_first = false;
break;
case 0xAE:
TRACE(" enable first port\n");
kbc_first = true;
break;
case 0xD1:
TRACE(" write port byte\n");
state = KBC_STATE_WRITE_PORT;
break;
case 0xD2:
TRACE(" write first port output\n");
state = KBC_STATE_FIRST_PORT_OUTPUT;
break;
case 0xD3:
TRACE(" write second port output\n");
state = KBC_STATE_SECOND_PORT_OUTPUT;
break;
case 0xD4:
TRACE(" write second port input\n");
state = KBC_STATE_SECOND_PORT_INPUT;
break;
}
} else {
TRACE("kbc data: %02X\n", data);
switch (state) {
case KBC_STATE_NORMAL:
TRACE(" keyboard command\n");
switch (data) {
case 0xED:
TRACE(" set leds\n");
state = KBC_STATE_SET_LEDS;
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case 0xEE:
TRACE(" echo\n");
// Hey, this is easy. I like easy commands
kbc_keyboard(kbc, 0xEE, KBC_TIMEOUT);
break;
case 0xF0:
TRACE(" get/set scancode\n");
state = KBC_STATE_SCANCODE;
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case 0xF2:
TRACE(" identify keyboard\n");
if (kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT)) {
if (kbc_keyboard(kbc, 0xAB, KBC_TIMEOUT)) {
kbc_keyboard(kbc, 0x83, KBC_TIMEOUT);
}
}
break;
case 0xF4:
TRACE(" enable scanning\n");
kbscan_enabled = true;
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case 0xF5:
TRACE(" disable scanning\n");
kbscan_enabled = false;
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case 0xFF:
TRACE(" self test\n");
if (kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT)) {
// Yep, everything is still good, I promise
kbc_keyboard(kbc, 0xAA, KBC_TIMEOUT);
}
break;
}
break;
case KBC_STATE_WRITE_CONFIG:
TRACE(" write configuration byte\n");
state = KBC_STATE_NORMAL;
uint8_t control = *kbc->control;
if (data & 1) {
control |= 1;
} else {
control &= ~1;
}
if (data & (1 << 1)) {
control |= (1 << 1);
} else {
control &= ~(1 << 1);
}
kbc_system = (bool)(data & (1 << 2));
kbc_first = (bool)(!(data & (1 << 4)));
kbc_second = (bool)(!(data & (1 << 5)));
kbc_translate = (bool)(data & (1 << 6));
*kbc->control = control;
break;
case KBC_STATE_SET_LEDS:
TRACE(" set leds\n");
state = KBC_STATE_NORMAL;
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case KBC_STATE_SCANCODE:
TRACE(" get/set scancode\n");
state = KBC_STATE_NORMAL;
#if LEVEL >= LEVEL_TRACE
switch (data) {
case 0x02:
TRACE(" set scancode set 2\n");
break;
}
#endif
kbc_keyboard(kbc, 0xFA, KBC_TIMEOUT);
break;
case KBC_STATE_WRITE_PORT:
TRACE(" write port byte\n");
state = KBC_STATE_NORMAL;
break;
case KBC_STATE_FIRST_PORT_OUTPUT:
TRACE(" write first port output\n");
state = KBC_STATE_NORMAL;
kbc_keyboard(kbc, data, KBC_TIMEOUT);
break;
case KBC_STATE_SECOND_PORT_OUTPUT:
TRACE(" write second port output\n");
state = KBC_STATE_NORMAL;
kbc_mouse(kbc, data, KBC_TIMEOUT);
break;
case KBC_STATE_SECOND_PORT_INPUT:
TRACE(" write second port input\n");
state = KBC_STATE_NORMAL;
ps2_write(&PS2_3, &data, 1);
break;
}
}
}
}

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#include <mcs51/8052.h>
#include <arch/delay.h>
#include <board/gpio.h>
#include <board/kbc.h>
#include <board/kbscan.h>
#include <board/keymap.h>
#include <board/pmc.h>
#include <common/debug.h>
bool kbscan_enabled = false;
void kbscan_init(void) {
KSOCTRL = 0x05;
KSICTRLR = 0x04;
// Set all outputs to GPIO mode, low, and inputs
KSOL = 0;
KSOLGCTRL = 0xFF;
KSOLGOEN = 0;
KSOH1 = 0;
KSOHGCTRL = 0xFF;
KSOHGOEN = 0;
KSOH2 = 0;
// Make sure timer 2 is stopped
T2CON = 0;
}
void kbscan_event(void) {
static uint8_t kbscan_layer = 0;
uint8_t layer = kbscan_layer;
static uint8_t kbscan_last[KM_OUT] = { 0 };
// If timer 2 is finished
if (TF2) {
// Stop timer 2 running
TR2 = 0;
// Clear timer 2 finished flag
TF2 = 0;
}
int i;
for (i = 0; i < KM_OUT; i++) {
// Set current line as output
if (i < 8) {
KSOLGOEN = 0;
KSOLGOEN = 1 << i;
} else if (i < 16) {
KSOLGOEN = 0;
KSOHGOEN = 1 << (i - 8);
} else if (i == 16) {
KSOLGOEN = 0;
KSOHGOEN = 0;
} else if (i == 17) {
KSOLGOEN = 0;
KSOHGOEN = 0;
}
// TODO: figure out optimal delay
delay_ticks(10);
uint8_t new = ~KSI;
uint8_t last = kbscan_last[i];
if (new != last) {
int j;
for (j = 0; j < KM_IN; j++) {
bool new_b = new & (1 << j);
bool last_b = last & (1 << j);
if (new_b != last_b) {
// If timer 2 is running
if (TR2) {
// Debounce releases
if (!new_b) {
// Restore bit, so that this release can be handled later
new |= (1 << j);
// Skip processing of release
continue;
}
} else {
// Begin debouncing on press
if (new_b) {
// Run timer 2 for 20 ms
// 65536-(20000 * 69 + 89)/90 = 0xC419
TH2 = 0xC4;
TL2 = 0x19;
TR2 = 1;
}
}
uint16_t key = keymap(i, j, kbscan_layer);
DEBUG("KB %d, %d, %d = 0x%04X, %d\n", i, j, kbscan_layer, key, new_b);
if (!key) {
WARN("KB %d, %d, %d missing\n", i, j, kbscan_layer);
}
switch (key & KT_MASK) {
case (KT_FN):
if (new_b) layer = 1;
else layer = 0;
break;
case (KT_SCI):
if (new_b) {
uint8_t sci = (uint8_t)(key & 0xFF);
if (!pmc_sci(&PMC_1, sci)) {
// In the case of ignored SCI, reset bit
new &= ~(1 << j);
}
}
break;
case (KT_NORMAL):
if (kbscan_enabled && key) {
kbc_scancode(&KBC, key, new_b);
}
break;
}
}
}
kbscan_last[i] = new;
}
}
if (layer != kbscan_layer) {
//TODO: unpress keys before going to scratch rom
// Unpress all currently pressed keys
for (i = 0; i < KM_OUT; i++) {
uint8_t new = 0;
uint8_t last = kbscan_last[i];
if (last) {
int j;
for (j = 0; j < KM_IN; j++) {
bool new_b = new & (1 << j);
bool last_b = last & (1 << j);
if (new_b != last_b) {
uint16_t key = keymap(i, j, kbscan_layer);
DEBUG("KB %d, %d, %d = 0x%04X, %d\n", i, j, kbscan_layer, key, new_b);
switch (key & KT_MASK) {
case (KT_NORMAL):
if (kbscan_enabled && key) {
kbc_scancode(&KBC, key, new_b);
}
break;
}
}
}
}
kbscan_last[i] = new;
}
kbscan_layer = layer;
}
// Reset all lines to inputs
KSOLGOEN = 0;
KSOHGOEN = 0;
// TODO: figure out optimal delay
delay_ticks(10);
}

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#include <board/keymap.h>
#include <common/debug.h>
// Set the desired keymap here
#include "keymap/default.h"
uint16_t keymap(int output, int input, int layer) {
if (output < KM_OUT && input < KM_IN && layer < KM_LAY) {
return KEYMAP[output][input][layer];
} else {
return 0;
}
}
// https://www.win.tue.nl/~aeb/linux/kbd/scancodes-10.html#ss10.3
static uint8_t __code lookup[256] = {
0xff, 0x43, 0x41, 0x3f, 0x3d, 0x3b, 0x3c, 0x58, 0x64, 0x44, 0x42, 0x40, 0x3e, 0x0f, 0x29, 0x59,
0x65, 0x38, 0x2a, 0x70, 0x1d, 0x10, 0x02, 0x5a, 0x66, 0x71, 0x2c, 0x1f, 0x1e, 0x11, 0x03, 0x5b,
0x67, 0x2e, 0x2d, 0x20, 0x12, 0x05, 0x04, 0x5c, 0x68, 0x39, 0x2f, 0x21, 0x14, 0x13, 0x06, 0x5d,
0x69, 0x31, 0x30, 0x23, 0x22, 0x15, 0x07, 0x5e, 0x6a, 0x72, 0x32, 0x24, 0x16, 0x08, 0x09, 0x5f,
0x6b, 0x33, 0x25, 0x17, 0x18, 0x0b, 0x0a, 0x60, 0x6c, 0x34, 0x35, 0x26, 0x27, 0x19, 0x0c, 0x61,
0x6d, 0x73, 0x28, 0x74, 0x1a, 0x0d, 0x62, 0x6e, 0x3a, 0x36, 0x1c, 0x1b, 0x75, 0x2b, 0x63, 0x76,
0x55, 0x56, 0x77, 0x78, 0x79, 0x7a, 0x0e, 0x7b, 0x7c, 0x4f, 0x7d, 0x4b, 0x47, 0x7e, 0x7f, 0x6f,
0x52, 0x53, 0x50, 0x4c, 0x4d, 0x48, 0x01, 0x45, 0x57, 0x4e, 0x51, 0x4a, 0x37, 0x49, 0x46, 0x54,
0x80, 0x81, 0x82, 0x41, 0x54, 0x85, 0x86, 0x87, 0x88, 0x89, 0x8a, 0x8b, 0x8c, 0x8d, 0x8e, 0x8f,
0x90, 0x91, 0x92, 0x93, 0x94, 0x95, 0x96, 0x97, 0x98, 0x99, 0x9a, 0x9b, 0x9c, 0x9d, 0x9e, 0x9f,
0xa0, 0xa1, 0xa2, 0xa3, 0xa4, 0xa5, 0xa6, 0xa7, 0xa8, 0xa9, 0xaa, 0xab, 0xac, 0xad, 0xae, 0xaf,
0xb0, 0xb1, 0xb2, 0xb3, 0xb4, 0xb5, 0xb6, 0xb7, 0xb8, 0xb9, 0xba, 0xbb, 0xbc, 0xbd, 0xbe, 0xbf,
0xc0, 0xc1, 0xc2, 0xc3, 0xc4, 0xc5, 0xc6, 0xc7, 0xc8, 0xc9, 0xca, 0xcb, 0xcc, 0xcd, 0xce, 0xcf,
0xd0, 0xd1, 0xd2, 0xd3, 0xd4, 0xd5, 0xd6, 0xd7, 0xd8, 0xd9, 0xda, 0xdb, 0xdc, 0xdd, 0xde, 0xdf,
0xe0, 0xe1, 0xe2, 0xe3, 0xe4, 0xe5, 0xe6, 0xe7, 0xe8, 0xe9, 0xea, 0xeb, 0xec, 0xed, 0xee, 0xef,
0xf0, 0xf1, 0xf2, 0xf3, 0xf4, 0xf5, 0xf6, 0xf7, 0xf8, 0xf9, 0xfa, 0xfb, 0xfc, 0xfd, 0xfe, 0xff,
};
uint16_t keymap_translate(uint16_t key) {
return (key & 0xFF00) | lookup[(key & 0xFF)];
}

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// Default layout - http://www.keyboard-layout-editor.com/#/gists/6aec6d441a039b76ec0895bd6bbda68d
#define K(V) {V, V}
uint16_t __code KEYMAP[KM_OUT][KM_IN][KM_LAY] = {
{ // 0
K(0), // 0
K(0), // 1
K(0), // 2
K(0), // 3
K(0), // 4
K(0), // 5
K(K_LEFT_SUPER), // 6
K(0), // 7
},
{ // 1
K(0), // 0
K(0), // 1
K(0), // 2
K(0), // 3
K(0), // 4
K(0), // 5
K(K_LEFT_CTRL), // 6
K(K_RIGHT_CTRL), // 7
},
{ // 2
K(0), // 0
K(0), // 1
K(0), // 2
K(0), // 3
K(0), // 4
K(0), // 5
K(K_LEFT_ALT), // 6
K(K_RIGHT_ALT), // 7
},
{ // 3
K(0), // 0
K(0), // 1
K(0), // 2
K(0), // 3
K(0), // 4
K(0), // 5
K(K_LEFT_SHIFT), // 6
K(K_RIGHT_SHIFT), // 7
},
{ // 4
K(K_X), // 0
K(K_Z), // 1
K(K_CAPS), // 2
K(K_A), // 3
K(K_TAB), // 4
K(0), // 5
K(K_SPACE), // 6
K(K_Q), // 7
},
{ // 5
K(K_V), // 0
K(K_C), // 1
K(0), // 2
K(K_D), // 3
K(0), // 4
K(0), // 5
K(0), // 6
K(K_E), // 7
},
{ // 6
K(KT_FN), // 0
K(K_B), // 1
K(K_F), // 2
K(K_G), // 3
K(K_R), // 4
K(K_T), // 5
K(0), // 6
K(0), // 7
},
{ // 7
K(0), // 0
K(K_N), // 1
K(K_H), // 2
K(K_Y), // 3
K(K_2), // 4
K(K_1), // 5
{K_TICK, K_PLAY_PAUSE}, // 6
K(K_ESC), // 7
},
{ // 8
K(K_I), // 0
K(K_M), // 1
K(K_U), // 2
K(K_5), // 3
K(K_4), // 4
K(K_3), // 5
K(K_F2), // 6
{K_F1, K_TOUCHPAD}, // 7
},
{ // 9
K(K_W), // 0
K(K_J), // 1
K(K_K), // 2
K(0), // 3
K(K_7), // 4
K(K_6), // 5
K(K_F4), // 6
{K_F3, K_MUTE}, // 7
},
{ // 10
K(K_S), // 0
K(K_COMMA), // 1
K(K_L), // 2
K(K_O), // 3
K(K_9), // 4
K(K_8), // 5
{K_F6, K_VOLUME_UP}, // 6
{K_F5, K_VOLUME_DOWN}, // 7
},
{ // 11
K(0), // 0
K(K_UP), // 1
K(K_PERIOD), // 2
K(K_SEMICOLON), // 3
K(K_P), // 4
K(K_0), // 5
{K_F8, KT_SCI | SCI_BRIGHTNESS_DOWN}, // 6
K(K_F7), // 7
},
{ // 12
K(0), // 0
K(0), // 1
K(K_SLASH), // 2
K(K_QUOTE), // 3
K(K_BRACE_OPEN), // 4
K(K_MINUS), // 5
K(K_F10), // 6
{K_F9, KT_SCI | SCI_BRIGHTNESS_UP}, // 7
},
{ // 13
K(0), // 0
K(0), // 1
K(0 /* TODO: PrtSc/SysRq */), // 2
K(K_BRACE_CLOSE), // 3
K(K_EQUALS), // 4
K(K_RIGHT), // 5
K(0 /* TODO: Pause/Break */), // 6
{K_F11, KT_SCI | SCI_AIRPLANE_MODE}, // 7
},
{ // 14
K(0), // 0
K(K_BACKSLASH), // 1
K(K_LEFT), // 2
K(K_BKSP), // 3
K(K_PGUP), // 4
K(K_INSERT), // 5
K(K_HOME), // 6
K(K_DEL), // 7
},
{ // 15
K(K_APP), // 0
K(0), // 1
K(K_ENTER), // 2
K(0), // 3
K(K_DOWN), // 4
{K_F12, KT_SCI | SCI_SUSPEND}, // 5
K(K_END), // 6
K(K_PGDN), // 7
},
};

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#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <arch/delay.h>
#include <board/battery.h>
#include <board/gpio.h>
#include <board/gctrl.h>
#include <board/kbc.h>
#include <board/kbscan.h>
#include <board/peci.h>
#include <board/pmc.h>
#include <board/power.h>
#include <board/ps2.h>
#include <board/pwm.h>
#include <board/smbus.h>
#include <common/debug.h>
#include <common/macro.h>
uint8_t main_cycle = 0;
void external_0(void) __interrupt(0) {
TRACE("external_0\n");
}
void timer_0(void) __interrupt(1) {
TRACE("timer_0\n");
}
void external_1(void) __interrupt(2) {
TRACE("external_1\n");
}
void timer_1(void) __interrupt(3) {
TRACE("timer_1\n");
}
void serial(void) __interrupt(4) {
TRACE("serial\n");
}
void timer_2(void) __interrupt(5) {
TRACE("timer_2\n");
}
void init(void) {
gpio_init();
gctrl_init();
kbc_init();
pmc_init();
kbscan_init();
pwm_init();
smbus_init();
//TODO: INTC, PECI
// Allow PECI pin to be used
GCR2 |= (1 << 4);
}
void ac_adapter() {
static struct Gpio __code ACIN_N = GPIO(B, 0);
static struct Gpio __code LED_ACIN = GPIO(C, 7);
static bool send_sci = true;
static bool last = true;
// Check if the adapter line goes low
bool new = gpio_get(&ACIN_N);
// Set ACIN LED
gpio_set(&LED_ACIN, !new);
// If there has been a change, print
if (new != last) {
DEBUG("Power adapter ");
if (new) {
DEBUG("unplugged\n");
battery_charger_disable();
} else {
DEBUG("plugged in\n");
battery_charger_enable();
}
battery_debug();
// Reset main loop cycle to force reading PECI and battery
main_cycle = 0;
// Send SCI to update AC and battery information
send_sci = true;
}
if (send_sci) {
// Send SCI 0x16 for AC detect event
if (pmc_sci(&PMC_1, 0x16)) {
send_sci = false;
}
}
last = new;
}
void touchpad_event(struct Ps2 * ps2) {
if (kbc_second) {
*(ps2->control) = 0x07;
} else {
ps2_reset(ps2);
}
uint8_t status = *(ps2->status);
*(ps2->status) = status;
if (status & (1 << 3)) {
uint8_t data = *(ps2->data);
TRACE("touchpad: %02X\n", data);
kbc_mouse(&KBC, data, 1000);
}
}
void lid_event(void) {
static struct Gpio __code LID_SW_N = GPIO(B, 1);
static bool send_sci = true;
static bool last = true;
// Check if the adapter line goes low
bool new = gpio_get(&LID_SW_N);
// If there has been a change, print
if (new != last) {
DEBUG("Lid ");
if (new) {
DEBUG("open\n");
//TODO: send SWI if needed
} else {
DEBUG("closed\n");
}
// Send SCI
send_sci = true;
}
if (send_sci) {
// Send SCI 0x1B for lid event
if (pmc_sci(&PMC_1, 0x1B)) {
send_sci = false;
}
}
last = new;
}
void main(void) {
init();
INFO("\n");
static struct Gpio __code SMI_N = GPIO(D, 4);
static struct Gpio __code SCI_N = GPIO(D, 3);
static struct Gpio __code SWI_N = GPIO(B, 5);
static struct Gpio __code SB_KBCRST_N = GPIO(E, 6);
static struct Gpio __code BT_EN = GPIO(F, 3);
static struct Gpio __code USB_PWR_EN_N = GPIO(E, 3);
static struct Gpio __code CCD_EN = GPIO(D, 1);
static struct Gpio __code PM_CLKRUN_N = GPIO(H, 0);
static struct Gpio __code BKL_EN = GPIO(H, 2);
static struct Gpio __code WLAN_EN = GPIO(G, 1);
static struct Gpio __code WLAN_PWR_EN = GPIO(A, 3);
#if GPIO_DEBUG
gpio_debug();
#endif
// Allow CPU to boot
gpio_set(&SB_KBCRST_N, true);
// Allow backlight to be turned on
gpio_set(&BKL_EN, true);
// Enable camera
gpio_set(&CCD_EN, true);
// Enable wireless
gpio_set(&BT_EN, true);
gpio_set(&WLAN_EN, true);
gpio_set(&WLAN_PWR_EN, true);
// Enable right USB port
gpio_set(&USB_PWR_EN_N, false);
// Assert SMI#, SCI#, and SWI#
gpio_set(&SCI_N, true);
gpio_set(&SMI_N, true);
gpio_set(&SWI_N, true);
INFO("Hello from System76 EC for %s!\n", xstr(__BOARD__));
for(main_cycle = 0; ; main_cycle++) {
// Enables or disables battery charging based on AC adapter
ac_adapter();
// Handle power states
power_event();
// Scans keyboard and sends keyboard packets
kbscan_event();
// Passes through touchpad packets
touchpad_event(&PS2_3);
// Handle lid close/open
lid_event();
// Checks for keyboard/mouse packets from host
kbc_event(&KBC);
// Only run the following once out of every 256 loops
if (main_cycle == 0) {
// Updates fan status and temps
peci_event();
// Updates battery status
battery_event();
}
// Handles ACPI communication
pmc_event(&PMC_1);
}
}

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#include <stdbool.h>
#include <board/peci.h>
#include <common/debug.h>
#include <ec/pwm.h>
// Tjunction = 100C for i7-8565U (and probably the same for all WHL-U)
#define T_JUNCTION 100
int16_t peci_offset = 0;
int16_t peci_temp = 0;
uint8_t peci_duty = 0;
uint8_t peci_tcontrol = 0;
uint8_t peci_tjmax = T_JUNCTION;
static bool peci_config_loaded = false;
#define PECI_TEMP(X) (((int16_t)(X)) << 6)
// Read tjmax using index 16 of RdPkgConfig
static void peci_config(void) {
// Wait for completion
while (HOSTAR & 1) {}
// Clear status
HOSTAR = HOSTAR;
// Enable PECI, clearing data fifo's
HOCTLR = (1 << 5) | (1 << 3);
// Set address to default
HOTRADDR = 0x30;
// Set write length
HOWRLR = 5;
// Set read length
HORDLR = 5;
// Set command
HOCMDR = 0xA1;
// Set Host ID ?
HOWRDR = 0x00;
// Set index
HOWRDR = 16;
// Set parameter
HOWRDR = 0;
HOWRDR = 0;
// Start transaction
HOCTLR |= 1;
// Wait for completion
while (HOSTAR & 1) {}
if (HOSTAR & (1 << 1)) {
// Use result if finished successfully
//TODO: check completion code
uint8_t data = HOWRDR;
// Throw away reserved byte
data = HOWRDR;
// Tead tcontrol for now
peci_tcontrol = HOWRDR;
// Read tjmax
peci_tjmax = HOWRDR;
// Throw away reserved byte
data = HOWRDR;
peci_config_loaded = true;
}
}
// PECI information can be found here: https://www.intel.com/content/dam/www/public/us/en/documents/design-guides/core-i7-lga-2011-guide.pdf
void peci_event(void) {
// Wait for completion
while (HOSTAR & 1) {}
// Clear status
HOSTAR = HOSTAR;
// Enable PECI, clearing data fifo's
HOCTLR = (1 << 5) | (1 << 3);
// Set address to default
HOTRADDR = 0x30;
// Set write length
HOWRLR = 1;
// Set read length
HORDLR = 2;
// Set command
HOCMDR = 1;
// Start transaction
HOCTLR |= 1;
// Wait for completion
while (HOSTAR & 1) {}
if (HOSTAR & (1 << 1)) {
// Use result if finished successfully
uint8_t low = HORDDR;
uint8_t high = HORDDR;
peci_offset = ((int16_t)high << 8) | (int16_t)low;
// TODO: Update max value if possible
// if (!peci_config_loaded) {
// peci_config();
// }
// TODO: tjmax
peci_temp = PECI_TEMP(T_JUNCTION) + peci_offset;
// Set fan based on temp, adapted from
// https://github.com/pop-os/system76-power/blob/master/src/fan.rs#L218
if (peci_temp >= PECI_TEMP(90)) {
// 90C = 100%
peci_duty = 255;
} else if (peci_temp >= PECI_TEMP(80)) {
// 80C = 50%
peci_duty = 128;
} else if (peci_temp >= PECI_TEMP(75)) {
// 75C = 45%
peci_duty = 115;
} else if (peci_temp >= PECI_TEMP(65)) {
// 65C = 40%
peci_duty = 102;
} else if (peci_temp >= PECI_TEMP(55)) {
// 55C = 35%
peci_duty = 90;
} else if (peci_temp >= PECI_TEMP(45)) {
// 45C = 30%
peci_duty = 77;
} else {
// < 45C = 0%
peci_duty = 0;
}
} else {
// Default to 50% if there is an error
peci_offset = 0;
peci_temp = 0;
peci_duty = 128;
}
if (peci_duty != DCR2) {
DCR2 = peci_duty;
DEBUG("PECI offset=%d, temp=%d = %d\n", peci_offset, peci_temp, peci_duty);
}
}

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#include <board/acpi.h>
#include <board/pmc.h>
#include <board/scratch.h>
#include <common/debug.h>
#include <ec/gpio.h>
void pmc_init(void) {
*(PMC_1.control) = 0x41;
*(PMC_2.control) = 0x41;
}
#define PMC_TIMEOUT 10000
enum PmcState {
PMC_STATE_DEFAULT,
PMC_STATE_ACPI_READ,
PMC_STATE_ACPI_WRITE,
PMC_STATE_ACPI_WRITE_ADDR,
};
static uint8_t pmc_sci_queue = 0;
static struct Gpio __code SCI_N = GPIO(D, 3);
bool pmc_sci(struct Pmc * pmc, uint8_t sci) {
bool update = pmc_sci_queue == 0;
// Set SCI queue if possible
if (update) pmc_sci_queue = sci;
// Set SCI pending bit
uint8_t sts = pmc_status(pmc);
pmc_set_status(pmc, sts | (1 << 5));
// Start SCI interrupt
gpio_set(&SCI_N, false);
*(SCI_N.control) = 0x40;
return update;
}
void pmc_event(struct Pmc * pmc) {
static enum PmcState state = PMC_STATE_DEFAULT;
static uint8_t state_data[2] = {0, 0};
uint8_t sts = pmc_status(pmc);
if (sts & PMC_STS_IBF) {
uint8_t data = pmc_read(pmc);
if (sts & PMC_STS_CMD) {
DEBUG("pmc cmd: %02X\n", data);
state = PMC_STATE_DEFAULT;
switch (data) {
case 0x80:
state = PMC_STATE_ACPI_READ;
break;
case 0x81:
state = PMC_STATE_ACPI_WRITE;
break;
case 0x82:
DEBUG(" burst enable\n");
// Set burst bit
pmc_set_status(pmc, sts | (1 << 4));
// Send acknowledgement byte
pmc_write(pmc, 0x90, PMC_TIMEOUT);
break;
case 0x83:
DEBUG(" burst disable\n");
// Clear burst bit
pmc_set_status(pmc, sts & ~(1 << 4));
break;
case 0x84:
DEBUG(" SCI queue\n");
// Clear SCI pending bit
pmc_set_status(pmc, sts & ~(1 << 5));
// Send SCI queue
pmc_write(pmc, pmc_sci_queue, PMC_TIMEOUT);
// Stop SCI interrupt
*(SCI_N.control) = 0x80;
gpio_set(&SCI_N, true);
// Clear SCI queue
pmc_sci_queue = 0;
break;
case 0xDC:
DEBUG(" scratch rom\n");
pmc_write(pmc, 0x33, PMC_TIMEOUT);
scratch_trampoline();
break;
}
} else {
DEBUG("pmc data: %02X\n", data);
switch (state) {
case PMC_STATE_ACPI_READ:
state = PMC_STATE_DEFAULT;
uint8_t value = acpi_read(data);
pmc_write(pmc, value, PMC_TIMEOUT);
break;
case PMC_STATE_ACPI_WRITE:
state = PMC_STATE_ACPI_WRITE_ADDR;
state_data[0] = data;
break;
case PMC_STATE_ACPI_WRITE_ADDR:
state = PMC_STATE_DEFAULT;
acpi_write(state_data[0], data);
break;
default:
state = PMC_STATE_DEFAULT;
break;
}
}
}
}

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src/board/system76/lemp9/pnp.c Normal file
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#include <stdint.h>
#include <common/debug.h>
volatile uint8_t __xdata __at(0x1200) IHIOA;
volatile uint8_t __xdata __at(0x1201) IHD;
volatile uint8_t __xdata __at(0x1204) IBMAE;
volatile uint8_t __xdata __at(0x1205) IBCTL;
void e2ci_write(uint8_t port, uint8_t data) {
while (IBCTL & ((1 << 2) | (1 << 1))) {}
IHIOA = port;
IHD = data;
IBMAE = 1;
IBCTL = 1;
while (IBCTL & (1 << 2)) {}
IBMAE = 0;
IBCTL = 0;
}
void pnp_write(uint8_t reg, uint8_t data) {
e2ci_write(0x2E, reg);
e2ci_write(0x2F, data);
}
void pnp_enable() {
DEBUG("Enable PNP devices\n");
// Enable PMC
pnp_write(0x07, 0x11);
pnp_write(0x30, 0x01);
// Enable KBC keyboard
pnp_write(0x07, 0x06);
pnp_write(0x30, 0x01);
// Enable KBC mouse
pnp_write(0x07, 0x05);
pnp_write(0x30, 0x01);
// Enable SWUC
pnp_write(0x07, 0x04);
pnp_write(0x30, 0x01);
}

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src/board/system76/lemp9/power.c Normal file
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#include <arch/delay.h>
#include <board/power.h>
#include <board/pnp.h>
#include <common/debug.h>
#include <ec/gpio.h>
// Platform does not currently support Deep Sx
#define DEEP_SX 0
extern uint8_t main_cycle;
static struct Gpio __code PCH_DPWROK_EC = GPIO(A, 7);
static struct Gpio __code PCH_PWROK_EC = GPIO(A, 6);
static struct Gpio __code LED_PWR = GPIO(D, 0);
static struct Gpio __code ALL_SYS_PWRGD = GPIO(C, 0);
static struct Gpio __code PM_PWROK = GPIO(C, 6);
static struct Gpio __code PWR_SW_N = GPIO(B, 3);
static struct Gpio __code BUF_PLT_RST_N = GPIO(D, 2);
static struct Gpio __code PWR_BTN_N = GPIO(D, 5);
static struct Gpio __code SUSWARN_N = GPIO(D, 7);
static struct Gpio __code EC_EN = GPIO(J, 6);
static struct Gpio __code VA_EC_EN = GPIO(J, 4);
static struct Gpio __code DD_ON = GPIO(E, 4);
static struct Gpio __code EC_RSMRST_N = GPIO(E, 5);
static struct Gpio __code AC_PRESENT = GPIO(E, 1);
static struct Gpio __code SUSC_N_PCH = GPIO(H, 1);
static struct Gpio __code VR_ON = GPIO(H, 4);
static struct Gpio __code SUSB_N_PCH = GPIO(H, 6);
static struct Gpio __code SLP_SUS_N = GPIO(J, 3);
static struct Gpio __code SUS_PWR_ACK = GPIO(J, 7);
// VccRTC stable (55%) to RTCRST# high
#define tPCH01 delay_ms(9)
// VccDSW stable (95%) to RSMRST# high
#define tPCH02 delay_ms(10)
// VccPrimary stable (95%) to RSMRST# high
#define tPCH03 delay_ms(10)
// VccRTC stable (90%) to start of VccDSW voltage ramp
#define tPCH04 delay_ms(9)
// RTCRST# high to DSW_PWROK
#define tPCH05 delay_us(1)
// VccDSW 3.3 stable to VccPrimary 1.05V
#define tPCH06 delay_us(200)
// DSW_PWROK high to RSMRST# high
#define tPCH07 delay_ms(0)
// SLP_S3# de-assertion to PCH_PWROK assertion
#define tPCH08 delay_ms(1)
// SLP_A# high when ASW rails are stable (95%)
#define tPCH09 delay_ms(2, 4, 8, 16) //TODO
// PCH_PWROK low to VCCIO dropping 5%
#define tPCH10 delay_ns(400)
// SLP_SUS# asserting to VccPRIM dropping 5%
#define tPCH11 delay_ns(100)
// RSMRST# asserting to VccPRIM dropping 5%
#define tPCH12 delay_ns(400)
// DSW_PWROK falling to any of VccDSW, VccPRIM dropping 5%
#define tPCH14 delay_ns(400)
// De-assertion of RSMRST# to de-assertion of ESPI_RESET#
#if DEEP_SX
#define tPCH18 delay_us(90)
#else
#define tPCH18 delay_ms(95)
#endif
// DSW_PWROK assertion to SLP_SUS# de-assertion
#define tPCH32 delay_ms(95)
// RSMRST# de-assertion to SUSPWRDNACK valid
#define tPLT01 delay_ms(200)
// Enable deep sleep well power
void power_on_ds5() {
DEBUG("%02X: power_on_ds5\n", main_cycle);
#if DEEP_SX
// See Figure 12-18 in Whiskey Lake Platform Design Guide
// | VCCRTC | RTCRST# | VCCDSW_3P3 | DSW_PWROK |
// | tPCH01---------- | | |
// | tPCH04----------------------- | |
// | | tPCH05-------------------------- |
// | | | tPCH02---------------- |
// tPCH01 and tPCH02 combined make the longest delay
tPCH01;
tPCH02;
// Deep sleep well is a-ok
gpio_set(PCH_DPWROK_EC, true);
// Wait for deep sleep well to propogate
tPCH32;
#else // DEEP_SX
// See Figure 12-19 in Whiskey Lake Platform Design Guide
// | VCCRTC | RTCRST# | VccPRIM |
// | tPCH01---------- | |
// | tPCH04-------------------- |
// tPCH04 is the ideal delay
tPCH04;
#endif // DEEP_SX
}
// Enable S5 power
void power_on_s5() {
DEBUG("%02X: power_on_s5\n", main_cycle);
#if DEEP_SX
// See Figure 12-18 in Whiskey Lake Platform Design Guide
// TODO
#else // DEEP_SX
// See Figure 12-19 in Whiskey Lake Platform Design Guide
// TODO - signal timing graph
// See Figure 12-25 in Whiskey Lake Platform Design Guide
// TODO - rail timing graph
// Enable VCCPRIM_* planes - must be enabled prior to USB power in order to
// avoid leakage
gpio_set(&VA_EC_EN, true);
tPCH06;
// Enable VDD5
gpio_set(&DD_ON, true);
// De-assert SUS_ACK# - TODO is this needed on non-dsx?
gpio_set(&SUS_PWR_ACK, true);
tPCH03;
// Assert DSW_PWROK
gpio_set(&PCH_DPWROK_EC, true);
// De-assert RSMRST#
gpio_set(&EC_RSMRST_N, true);
// Wait for PCH stability
tPCH18;
// Allow processor to control SUSB# and SUSC#
gpio_set(&EC_EN, true);
// Wait for SUSPWRDNACK validity
tPLT01;
// Extra wait - TODO remove
delay_ms(200);
#endif // DEEP_SX
}
void power_off_s5() {
DEBUG("%02X: power_off_s5\n", main_cycle);
#if DEEP_SX
// TODO
#else // DEEP_SX
// De-assert SYS_PWROK
gpio_set(&PCH_PWROK_EC, false);
// De-assert PCH_PWROK
gpio_set(&PM_PWROK, false);
// Block processor from controlling SUSB# and SUSC#
gpio_set(&EC_EN, false);
// De-assert RSMRST#
gpio_set(&EC_RSMRST_N, false);
// Disable VDD5
gpio_set(&DD_ON, false);
tPCH12;
// Disable VCCPRIM_* planes
gpio_set(&VA_EC_EN, false);
// De-assert DSW_PWROK
gpio_set(&PCH_DPWROK_EC, false);
tPCH14;
#endif // DEEP_SX
}
enum PowerState {
POWER_STATE_DEFAULT,
POWER_STATE_DS5,
POWER_STATE_S5,
POWER_STATE_DS3,
POWER_STATE_S3,
POWER_STATE_S0,
};
void power_event(void) {
static enum PowerState state = POWER_STATE_DEFAULT;
// Always switch to ds5 if EC is running
if (state == POWER_STATE_DEFAULT) {
power_on_ds5();
state = POWER_STATE_DS5;
}
// Read power switch state
static bool ps_last = true;
bool ps_new = gpio_get(&PWR_SW_N);
if (!ps_new && ps_last) {
// Ensure press is not spurious
delay_ms(10);
if (gpio_get(&PWR_SW_N) != ps_new) {
DEBUG("%02X: Spurious press\n", main_cycle);
ps_new = ps_last;
} else {
DEBUG("%02X: Power switch press\n", main_cycle);
// Enable S5 power if necessary, before sending PWR_BTN
if (state == POWER_STATE_DS5) {
power_on_s5();
state = POWER_STATE_S5;
}
}
}
#if LEVEL >= LEVEL_DEBUG
else if (ps_new && !ps_last) {
DEBUG("%02X: Power switch release\n", main_cycle);
}
#endif
ps_last = ps_new;
// Send power signal to PCH
gpio_set(&PWR_BTN_N, ps_new);
#if DEEP_SX
//TODO
#else // DEEP_SX
//TODO: set power state as necessary
// If system power is good
static bool pg_last = false;
bool pg_new = gpio_get(&ALL_SYS_PWRGD);
if (pg_new && !pg_last) {
DEBUG("%02X: ALL_SYS_PWRGD asserted\n", main_cycle);
//TODO: tPLT04;
// Allow H_VR_READY to set PCH_PWROK
gpio_set(&PM_PWROK, true);
// OEM defined delay from ALL_SYS_PWRGD to SYS_PWROK - TODO
delay_ms(10);
// Assert SYS_PWROK, system can finally perform PLT_RST# and boot
gpio_set(&PCH_PWROK_EC, true);
} else if(!pg_new && pg_last) {
DEBUG("%02X: ALL_SYS_PWRGD de-asserted\n", main_cycle);
// De-assert SYS_PWROK
gpio_set(&PCH_PWROK_EC, false);
// De-assert PCH_PWROK
gpio_set(&PM_PWROK, false);
}
pg_last = pg_new;
static bool rst_last = false;
bool rst_new = gpio_get(&BUF_PLT_RST_N);
#if LEVEL >= LEVEL_DEBUG
if (!rst_new && rst_last) {
DEBUG("%02X: PLT_RST# asserted\n", main_cycle);
} else
#endif
if(rst_new && !rst_last) {
DEBUG("%02X: PLT_RST# de-asserted\n", main_cycle);
// LPC was just reset, enable PNP devices
pnp_enable();
//TODO: reset KBC and touchpad states
}
rst_last = rst_new;
#if LEVEL >= LEVEL_DEBUG
static bool s3_last = false;
bool s3_new = gpio_get(&SUSB_N_PCH);
if (!s3_new && s3_last) {
DEBUG("%02X: SLP_S3# asserted\n", main_cycle);
} else if(s3_new && !s3_last) {
DEBUG("%02X: SLP_S3# de-asserted\n", main_cycle);
}
s3_last = s3_new;
static bool s4_last = false;
bool s4_new = gpio_get(&SUSC_N_PCH);
if (!s4_new && s4_last) {
DEBUG("%02X: SLP_S4# asserted\n", main_cycle);
} else if(s4_new && !s4_last) {
DEBUG("%02X: SLP_S4# de-asserted\n", main_cycle);
}
s4_last = s4_new;
static bool sus_last = false;
bool sus_new = gpio_get(&SLP_SUS_N);
if (!sus_new && sus_last) {
DEBUG("%02X: SLP_SUS# asserted\n", main_cycle);
} else if (sus_new && !sus_last) {
DEBUG("%02X: SLP_SUS# de-asserted\n", main_cycle);
}
sus_last = sus_new;
#endif
// EC must keep VccPRIM powered if SUSPWRDNACK is de-asserted low or system
// state is S3
static bool ack_last = false;
bool ack_new = gpio_get(&SUSWARN_N);
if (ack_new && !ack_last) {
DEBUG("%02X: SUSPWRDNACK asserted\n", main_cycle);
if (gpio_get(&SUSC_N_PCH)) {
DEBUG("%02X: entering S3 state\n", main_cycle);
} else if (state == POWER_STATE_S5) {
power_off_s5();
state = POWER_STATE_DS5;
}
}
#if LEVEL >= LEVEL_DEBUG
else if (!ack_new && ack_last) {
DEBUG("%02X: SUSPWRDNACK de-asserted\n", main_cycle);
}
#endif
ack_last = ack_new;
#endif // DEEP_SX
}

7
src/board/system76/lemp9/ps2.c Normal file
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#include <board/ps2.h>
void ps2_init(void) {
ps2_reset(&PS2_1);
ps2_reset(&PS2_2);
ps2_reset(&PS2_3);
}

24
src/board/system76/lemp9/pwm.c Normal file
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#include <board/pwm.h>
void pwm_init(void) {
// Set T0CHSEL to TACH0A and T1CHSEL to TACH1A
TSWCTLR = 0;
// Disable PWM
ZTIER = 0;
// Set prescalar clock frequency to EC clock
PCFSR = 0b01;
// Set clock prescaler to 0 + 1
C0CPRS = 0;
// Set cycle time to 255 + 1
CTR0 = 255;
// Turn off CPU fan (temperature control in peci_event)
DCR2 = 0;
// Enable PWM
ZTIER = (1 << 1);
}

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src/board/system76/lemp9/scratch.c Normal file
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#include <stdbool.h>
#include <stdint.h>
#include <common/macro.h>
// Include scratch ROM, must be less than 2048 bytes, controlled by makefile
uint8_t __code scratch_rom[] = {
#include <scratch.h>
};
// Scratch RAM 1, 2, 3, and 4 are 2048 bytes total, located at 0x0800 bytes
volatile uint8_t __xdata __at(0x0800) scratch_ram[2048];
volatile uint8_t __xdata __at(0x1043) SCAR1L;
volatile uint8_t __xdata __at(0x1044) SCAR1M;
volatile uint8_t __xdata __at(0x1045) SCAR1H;
volatile uint8_t __xdata __at(0x1046) SCAR2L;
volatile uint8_t __xdata __at(0x1047) SCAR2M;
volatile uint8_t __xdata __at(0x1048) SCAR2H;
volatile uint8_t __xdata __at(0x1049) SCAR3L;
volatile uint8_t __xdata __at(0x104A) SCAR3M;
volatile uint8_t __xdata __at(0x104B) SCAR3H;
volatile uint8_t __xdata __at(0x104C) SCAR4L;
volatile uint8_t __xdata __at(0x104D) SCAR4M;
volatile uint8_t __xdata __at(0x104E) SCAR4H;
// Create new segment located at 0x1000, after scratch ROM mapping
static void scratch_start(void) __naked {
__asm
.area SCRATCH (ABS,CODE)
__endasm;
__asm
.org 0x1000
__endasm;
}
// Enter or exit scratch ROM
void scratch_trampoline(void) {
// Uses SCAR1, 2, 3, and 4 which are mapped at 0x0800 in data space and are
// 2048 bytes in size. SCAR0 cannot be used due to __pdata overwriting it.
if ((SCAR1H == 0x00) || (SCAR2H == 0x00) || (SCAR3H == 0x00) || (SCAR4H == 0x00)) {
// Disable scratch RAM mapping
SCAR1H = 0b11;
SCAR2H = 0b11;
SCAR3H = 0b11;
SCAR4H = 0b11;
} else {
int i;
// Copy scratch ROM
for (i = 0; i < ARRAY_SIZE(scratch_rom) && i < ARRAY_SIZE(scratch_ram); i++) {
scratch_ram[i] = scratch_rom[i];
}
// Fill the rest with nop
for (; i < ARRAY_SIZE(scratch_ram); i++) {
scratch_ram[i] = 0x00;
}
// Set scratch RAM 1 mapping at 0x0000 and enable
SCAR1L = 0x00;
SCAR1M = 0x00;
SCAR1H = 0x00;
// Set scratch RAM 2 mapping at 0x0400 and enable
SCAR2L = 0x00;
SCAR2M = 0x04;
SCAR2H = 0x00;
// Set scratch RAM 3 mapping at 0x0600 and enable
SCAR3L = 0x00;
SCAR3M = 0x06;
SCAR3H = 0x00;
// Set scratch RAM 4 mapping at 0x0700 and enable
SCAR4L = 0x00;
SCAR4M = 0x07;
SCAR4H = 0x00;
}
// Jump to reset function
__asm__("ljmp 0");
}
// Finish segment located at 0x1000
static void scratch_end(void) __naked {
__asm
.area CSEG (REL,CODE)
__endasm;
}

33
src/board/system76/lemp9/scratch/include/scratch/pmc.h Normal file
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#ifndef _EC_PMC_H
#define _EC_PMC_H
#include <stdbool.h>
#include <stdint.h>
struct Pmc {
// Status register
volatile uint8_t * status;
// Data out register
volatile uint8_t * data_out;
// Data in register
volatile uint8_t * data_in;
// Control register
volatile uint8_t * control;
};
extern struct Pmc __code PMC_1;
#define PMC_STS_OBF (1 << 0)
#define PMC_STS_IBF (1 << 1)
#define PMC_STS_CMD (1 << 3)
uint8_t pmc_status(struct Pmc * pmc);
uint8_t pmc_read(struct Pmc * pmc);
bool pmc_write(struct Pmc * pmc, uint8_t data);
volatile uint8_t __xdata __at(0x1500) PM1STS;
volatile uint8_t __xdata __at(0x1501) PM1DO;
volatile uint8_t __xdata __at(0x1504) PM1DI;
volatile uint8_t __xdata __at(0x1506) PM1CTL;
#endif // _EC_PMC_H

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src/board/system76/lemp9/scratch/main.c Normal file
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#include <stdbool.h>
#include <stdio.h>
#include <stdint.h>
#include <scratch/pmc.h>
volatile uint8_t __xdata __at(0x103B) ECINDAR0;
volatile uint8_t __xdata __at(0x103C) ECINDAR1;
volatile uint8_t __xdata __at(0x103D) ECINDAR2;
volatile uint8_t __xdata __at(0x103E) ECINDAR3;
volatile uint8_t __xdata __at(0x103F) ECINDDR;
#define FLASH_SPI 0x00000000
#define FLASH_EMBEDDED 0x40000000
static int flash_transaction(uint32_t offset, uint8_t * data, int length, bool read) {
int i;
for (i = 0; i < length; i++, offset++) {
ECINDAR3 = (uint8_t)(offset >> 24);
ECINDAR2 = (uint8_t)(offset >> 16);
ECINDAR1 = (uint8_t)(offset >> 8);
ECINDAR0 = (uint8_t)(offset);
if (read) {
data[i] = ECINDDR;
} else {
ECINDDR = data[i];
}
}
return i;
}
enum PmcState {
PMC_STATE_DEFAULT,
PMC_STATE_WRITE,
};
static void pmc_event(struct Pmc * pmc) {
static enum PmcState state = PMC_STATE_DEFAULT;
uint8_t sts = pmc_status(pmc);
if (sts & PMC_STS_IBF) {
uint8_t data = pmc_read(pmc);
if (sts & PMC_STS_CMD) {
printf_tiny("%x\n", data);
switch (state) {
case PMC_STATE_DEFAULT:
switch (data) {
case 0x01:
// Enable follow
ECINDAR3 = 0x0F;
break;
case 0x02:
// Generate high CE#
data = 0;
flash_transaction(0x7FFFFE00, &data, 1, false);
// Fall through
case 0x03:
state = PMC_STATE_WRITE;
break;
case 0x04:
// Read data
flash_transaction(0x7FFFFD00, &data, 1, true);
pmc_write(pmc, data);
printf_tiny("=%x\n", data);
break;
case 0x05:
// Disable follow
ECINDAR3 = 0x00;
break;
case 0xFC:
// Clear processor caches
__asm__("mov 0xf7, #1");
__asm__("nop");
__asm__("mov 0xf7, #1");
__asm__("nop");
__asm__("mov 0xf7, #1");
__asm__("nop");
__asm__("mov 0xf7, #1");
__asm__("nop");
// Exit scratch ROM by going through trampoline
__asm__("ljmp 0x1000");
break;
}
break;
case PMC_STATE_WRITE:
// Write command or data
flash_transaction(0x7FFFFD00, &data, 1, false);
state = PMC_STATE_DEFAULT;
break;
}
}
}
}
// Main program while running in scratch ROM
void main(void) {
printf_tiny("SCRATCH\n");
for (;;) {
pmc_event(&PMC_1);
}
}

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src/board/system76/lemp9/scratch/pmc.c Normal file
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#include <scratch/pmc.h>
#define PMC(NUM) { \
.status = &PM ## NUM ## STS, \
.data_out = &PM ## NUM ## DO, \
.data_in = &PM ## NUM ## DI, \
.control = &PM ## NUM ## CTL, \
}
struct Pmc __code PMC_1 = PMC(1);
uint8_t pmc_status(struct Pmc * pmc) {
return *(pmc->status);
}
uint8_t pmc_read(struct Pmc * pmc) {
return *(pmc->data_in);
}
bool pmc_write(struct Pmc * pmc, uint8_t data) {
while (pmc_status(pmc) & PMC_STS_OBF) {}
*(pmc->data_out) = data;
return true;
}

40
src/board/system76/lemp9/scratch/scratch.mk Normal file
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# Enable I2C debugging
SCRATCH_SRC+=\
src/common/i2c.c \
src/ec/$(EC)/i2c.c
SCRATCH_INCLUDE+=\
src/common/include/common/*.h \
src/ec/$(EC)/include/ec/*.h
SCRATCH_CFLAGS+=\
-Isrc/common/include \
-Isrc/ec/$(EC)/include \
-DI2C_DEBUGGER=0x76
SCRATCH_BUILD=$(BUILD)/scratch
SCRATCH_OBJ=$(patsubst src/%.c,$(SCRATCH_BUILD)/%.rel,$(SCRATCH_SRC))
SCRATCH_CC=\
sdcc \
-mmcs51 \
--model-small \
--code-size 2048 \
--Werror
# Convert from binary file to C header
$(BUILD)/include/scratch.h: $(SCRATCH_BUILD)/scratch.rom
@mkdir -p $(@D)
xxd --include < $< > $@
# Convert from Intel Hex file to binary file
$(SCRATCH_BUILD)/scratch.rom: $(SCRATCH_BUILD)/scratch.ihx
@mkdir -p $(@D)
makebin -p < $< > $@
# Link object files into Intel Hex file
$(SCRATCH_BUILD)/scratch.ihx: $(SCRATCH_OBJ)
@mkdir -p $(@D)
$(SCRATCH_CC) -o $@ $^
# Compile C files into object files
$(SCRATCH_OBJ): $(SCRATCH_BUILD)/%.rel: src/%.c $(SCRATCH_INCLUDE)
@mkdir -p $(@D)
$(SCRATCH_CC) $(SCRATCH_CFLAGS) -o $@ -c $<

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src/board/system76/lemp9/scratch/stdio.c Normal file
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#include <stdio.h>
#ifdef SERIAL_DEBUGGER
#include <mcs51/8051.h>
#endif
#ifdef I2C_DEBUGGER
#include <common/i2c.h>
#endif
int putchar(int c) {
unsigned char byte = (unsigned char)c;
#ifdef SERIAL_DEBUGGER
SBUF = byte;
#endif
#ifdef I2C_DEBUGGER
i2c_send(I2C_DEBUGGER, &byte, 1);
#endif
return (int)byte;
}

24
src/board/system76/lemp9/smbus.c Normal file
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#include <board/smbus.h>
#include <ec/i2c.h>
void smbus_init(void) {
// 9.2 MHz * 4.7 us = 43.24
SMB4P7USL = 43;
// 9.2 MHz * 4.0 us = 36.8
SMB4P0USL = 37;
// 9.2 MHz * 300 ns = 2.76
SMB300NS = 3;
// 9.2 MHz * 250 ns = 2.3
SMB250NS = 2;
// 1.024 KHz * 25 ms = 25.6
SMB25MS = 26;
// 9.2 MHz * 45.3 us = 416.76 (0x01A1)
SMB45P3USL = 0xA1;
SMB45P3USH = 0x01;
// Clock set to 50 KHz
// SCLKTSA = 1;
// Set up for i2c usage
i2c_reset(true);
}

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src/board/system76/lemp9/stdio.c Normal file
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#include <stdio.h>
#ifdef SERIAL_DEBUGGER
#include <mcs51/8051.h>
#endif
#ifdef I2C_DEBUGGER
#include <common/i2c.h>
#endif
int putchar(int c) {
unsigned char byte = (unsigned char)c;
#ifdef SERIAL_DEBUGGER
SBUF = byte;
#endif
#ifdef I2C_DEBUGGER
i2c_send(I2C_DEBUGGER, &byte, 1);
#endif
return (int)byte;
}