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/* -*- mode:c -*-
*
* Copyright (c) 2014 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.
*/
/* Inputs with interrupt handlers are first for efficiency */
GPIO(POWER_BUTTON_L, A, 2, GPIO_INT_BOTH_DSLEEP, power_button_interrupt) /* Power button */
GPIO(LID_OPEN, A, 3, GPIO_INT_BOTH_DSLEEP, lid_interrupt) /* Lid switch */
GPIO(AC_PRESENT, H, 3, GPIO_INT_BOTH_DSLEEP, extpower_interrupt) /* AC power present */
GPIO(PCH_SLP_S0_L, G, 6, GPIO_INT_BOTH, power_signal_interrupt) /* SLP_S0# signal from PCH */
GPIO(PCH_SLP_S3_L, G, 7, GPIO_INT_BOTH_DSLEEP, power_signal_interrupt) /* SLP_S3# signal from PCH */
GPIO(PCH_SLP_S5_L, H, 1, GPIO_INT_BOTH_DSLEEP, power_signal_interrupt) /* SLP_S5# signal from PCH */
GPIO(PCH_SLP_SUS_L, G, 3, GPIO_INT_BOTH, power_signal_interrupt) /* SLP_SUS# signal from PCH */
GPIO(PCH_SUSWARN_L, G, 2, GPIO_INT_BOTH, power_signal_interrupt) /* SUSWARN# signal from PCH */
GPIO(PP1050_PGOOD, H, 4, GPIO_INT_BOTH, power_signal_interrupt) /* Power good on 1.05V */
GPIO(PP1200_PGOOD, H, 6, GPIO_INT_BOTH, power_signal_interrupt) /* Power good on 1.2V (DRAM) */
GPIO(PP1800_PGOOD, L, 7, GPIO_INT_BOTH, power_signal_interrupt) /* Power good on 1.8V (DRAM) */
GPIO(VCORE_PGOOD, C, 6, GPIO_INT_BOTH, power_signal_interrupt) /* Power good on core VR */
GPIO(WP_L, A, 4, GPIO_INT_BOTH, switch_interrupt) /* Write protect input */
GPIO(PCH_BL_EN, M, 3, GPIO_INT_RISING, backlight_interrupt) /* PCH backlight input */
GPIO(JTAG_TCK, C, 0, GPIO_DEFAULT, jtag_interrupt) /* JTAG clock input */
GPIO(UART0_RX, A, 0, GPIO_PULL_UP | GPIO_INT_BOTH_DSLEEP, uart_deepsleep_interrupt) /* UART0 RX input */
/*
* Combined accelerometer input. This will become an interrupt, once we have
* support for it.
*/
GPIO(ACCEL_INT, F, 7, GPIO_INPUT, NULL)
/*
* Ambient Light Sensor input. This could become an interrupt once supported.
*/
GPIO(ALS_INT_L, N, 0, GPIO_INPUT, NULL)
/* Interrupt signal from PD MCU, external pull-down */
GPIO(PD_MCU_INT, J, 5, GPIO_INT_RISING | GPIO_INT_DSLEEP, pd_mcu_interrupt)
/* Other inputs */
GPIO(BOARD_VERSION1, Q, 7, GPIO_INPUT, NULL) /* Board version stuffing resistor 1 */
GPIO(BOARD_VERSION2, Q, 6, GPIO_INPUT, NULL) /* Board version stuffing resistor 2 */
GPIO(BOARD_VERSION3, Q, 5, GPIO_INPUT, NULL) /* Board version stuffing resistor 3 */
GPIO(USB1_OC_L, E, 7, GPIO_INPUT, NULL) /* USB port overcurrent warning */
GPIO(USB1_STATUS_L, E, 6, GPIO_INPUT, NULL) /* USB charger port 1 status output */
GPIO(USB2_OC_L, E, 0, GPIO_INPUT, NULL) /* USB port overcurrent warning */
GPIO(USB2_STATUS_L, D, 7, GPIO_INPUT, NULL) /* USB charger port 2 status output */
GPIO(PD_IN_RW, A, 5, GPIO_INPUT, NULL) /* PD is in RW */
GPIO(PCH_HDA_SDO_L, G, 1, GPIO_INPUT, NULL) /* HDA_SDO signal to PCH to disable ME */
/* Outputs; all unasserted by default except for reset signals */
GPIO(CPU_PROCHOT, B, 1, GPIO_OUT_LOW, NULL) /* Force CPU to think it's overheated */
GPIO(PP1200_EN, H, 5, GPIO_OUT_LOW, NULL) /* Enable 1.20V supply */
GPIO(PP3300_DSW_EN, F, 6, GPIO_OUT_LOW, NULL) /* Enable 3.3V DSW rail */
GPIO(PP3300_DSW_GATED_EN, J, 3, GPIO_OUT_LOW, NULL) /* Enable 3.3V Gated DSW and core VDD */
GPIO(PP3300_LTE_EN, D, 2, GPIO_OUT_LOW, NULL) /* Enable LTE radio */
GPIO(PP3300_WLAN_EN, J, 0, GPIO_OUT_LOW, NULL) /* Enable WiFi power */
GPIO(PP1050_EN, C, 7, GPIO_OUT_LOW, NULL) /* Enable 1.05V regulator */
GPIO(PP5000_USB_EN, C, 5, GPIO_OUT_LOW, NULL) /* Enable USB power */
GPIO(PP5000_EN, H, 7, GPIO_OUT_LOW, NULL) /* Enable 5V supply */
GPIO(PP1800_EN, L, 6, GPIO_OUT_LOW, NULL) /* Enable 1.8V supply */
GPIO(SYS_PWROK, H, 2, GPIO_OUT_LOW, NULL) /* EC thinks everything is up and ready */
GPIO(WLAN_OFF_L, J, 4, GPIO_OUT_LOW, NULL) /* Disable WiFi radio */
GPIO(USB_MCU_RST, B, 0, GPIO_OUT_LOW, NULL) /* USB PD MCU reset */
GPIO(ENABLE_BACKLIGHT, M, 7, GPIO_OUT_LOW, NULL) /* Enable backlight power */
GPIO(ENABLE_TOUCHPAD, N, 1, GPIO_OUT_LOW, NULL) /* Enable touchpad power */
GPIO(ENTERING_RW, D, 3, GPIO_OUT_LOW, NULL) /* Indicate when EC is entering RW code */
GPIO(LIGHTBAR_RESET_L, J, 2, GPIO_ODR_LOW, NULL) /* Reset lightbar controllers */
GPIO(PCH_DPWROK, G, 0, GPIO_OUT_LOW, NULL) /* Indicate when VccDSW is good */
GPIO(PCH_RSMRST_L, C, 4, GPIO_OUT_LOW, NULL) /* Reset PCH resume power plane logic */
GPIO(PCH_RTCRST_L, J, 1, GPIO_ODR_HIGH, NULL) /* Reset PCH RTC well */
GPIO(PCH_WAKE_L, F, 0, GPIO_ODR_HIGH, NULL) /* Wake signal from EC to PCH */
GPIO(PCH_NMI_L, F, 2, GPIO_ODR_HIGH, NULL) /* Non-maskable interrupt pin to PCH */
GPIO(PCH_PWRBTN_L, H, 0, GPIO_ODR_HIGH, NULL) /* Power button output to PCH */
GPIO(PCH_PWROK, F, 5, GPIO_OUT_LOW, NULL) /* PWROK / APWROK signals to PCH */
GPIO(PCH_RCIN_L, F, 3, GPIO_ODR_HIGH, NULL) /* RCIN# line to PCH (for 8042 emulation) */
GPIO(PCH_SYS_RST_L, F, 1, GPIO_ODR_HIGH, NULL) /* Reset PCH resume power plane logic */
GPIO(PCH_SMI_L, F, 4, GPIO_ODR_HIGH, NULL) /* System management interrupt to PCH */
GPIO(TOUCHSCREEN_RESET_L, N, 7, GPIO_ODR_LOW, NULL) /* Reset touch screen */
GPIO(PCH_ACOK, M, 6, GPIO_OUT_LOW, NULL) /* AC present signal buffered to PCH */
#ifndef HEY_USE_BUILTIN_CLKRUN
GPIO(LPC_CLKRUN_L, M, 2, GPIO_ODR_HIGH, NULL) /* Dunno. Probably important, though. */
#endif
GPIO(USB1_CTL1, E, 1, GPIO_OUT_LOW, NULL) /* USB charger port 1 CTL1 output */
GPIO(USB1_CTL2, E, 2, GPIO_OUT_HIGH, NULL) /* USB charger port 1 CTL2 output */
GPIO(USB1_CTL3, E, 3, GPIO_OUT_LOW, NULL) /* USB charger port 1 CTL3 output */
GPIO(USB1_ENABLE, E, 4, GPIO_OUT_HIGH, NULL) /* USB charger port 1 enable */
GPIO(USB1_ILIM_SEL_L, E, 5, GPIO_OUT_HIGH, NULL) /* USB charger port 1 ILIM_SEL output */
GPIO(USB2_CTL1, D, 0, GPIO_OUT_LOW, NULL) /* USB charger port 2 CTL1 output */
GPIO(USB2_CTL2, D, 1, GPIO_OUT_HIGH, NULL) /* USB charger port 2 CTL2 output */
GPIO(USB2_CTL3, D, 4, GPIO_OUT_LOW, NULL) /* USB charger port 2 CTL3 output */
GPIO(USB2_ENABLE, D, 5, GPIO_OUT_HIGH, NULL) /* USB charger port 2 enable */
GPIO(USB2_ILIM_SEL_L, D, 6, GPIO_OUT_HIGH, NULL) /* USB charger port 2 ILIM_SEL output */
GPIO(I2C0_SCL, B, 2, GPIO_ODR_HIGH, NULL) /* I2C port 1 SCL */
GPIO(I2C0_SDA, B, 3, GPIO_ODR_HIGH, NULL) /* I2C port 1 SDA */
ALTERNATE(A, 0x03, 1, MODULE_UART, 0) /* UART0 */
ALTERNATE(A, 0x40, 3, MODULE_I2C, 0) /* I2C1 SCL */
ALTERNATE(A, 0x80, 3, MODULE_I2C, GPIO_OPEN_DRAIN) /* I2C1 SDA */
ALTERNATE(B, 0x04, 3, MODULE_I2C, 0) /* I2C0 SCL */
ALTERNATE(B, 0x08, 3, MODULE_I2C, GPIO_OPEN_DRAIN) /* I2C0 SDA */
ALTERNATE(B, 0x40, 3, MODULE_I2C, 0) /* I2C5 SCL */
ALTERNATE(B, 0x80, 3, MODULE_I2C, GPIO_OPEN_DRAIN) /* I2C5 SDA */
ALTERNATE(G, 0x30, 1, MODULE_UART, 0) /* UART2 */
ALTERNATE(J, 0x40, 1, MODULE_PECI, 0) /* PECI Tx */
ALTERNATE(J, 0x80, 0, MODULE_PECI, GPIO_ANALOG) /* PECI Rx */
ALTERNATE(L, 0x3f, 15, MODULE_LPC, 0) /* LPC */
ALTERNATE(M, 0x33, 15, MODULE_LPC, 0) /* LPC */
#ifdef HEY_USE_BUILTIN_CLKRUN
ALTERNATE(M, 0x04, 15, MODULE_LPC, GPIO_OPEN_DRAIN) /* LPC */
#endif
ALTERNATE(N, 0x3c, 1, MODULE_PWM_FAN, 0) /* FAN0PWM 2&3 */
ALTERNATE(N, 0x40, 1, MODULE_PWM_KBLIGHT, 0) /* FAN0PWM4 */
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