diff options
Diffstat (limited to 'chip/it83xx/gpio.c')
-rw-r--r-- | chip/it83xx/gpio.c | 906 |
1 files changed, 0 insertions, 906 deletions
diff --git a/chip/it83xx/gpio.c b/chip/it83xx/gpio.c deleted file mode 100644 index c0e2367720..0000000000 --- a/chip/it83xx/gpio.c +++ /dev/null @@ -1,906 +0,0 @@ -/* Copyright 2013 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. - */ - -/* GPIO module for Chrome EC */ - -#include "clock.h" -#include "common.h" -#include "gpio.h" -#include "hooks.h" -#include "intc.h" -#include "it83xx_pd.h" -#include "kmsc_chip.h" -#include "registers.h" -#include "switch.h" -#include "system.h" -#include "task.h" -#include "timer.h" -#include "util.h" - -/* Data structure to define KSI/KSO GPIO mode control registers. */ -struct kbs_gpio_ctrl_t { - /* GPIO mode control register. */ - volatile uint8_t *gpio_mode; - /* GPIO output enable register. */ - volatile uint8_t *gpio_out; -}; - -static const struct kbs_gpio_ctrl_t kbs_gpio_ctrl_regs[] = { - /* KSI pins 7:0 */ - {&IT83XX_KBS_KSIGCTRL, &IT83XX_KBS_KSIGOEN}, - /* KSO pins 15:8 */ - {&IT83XX_KBS_KSOHGCTRL, &IT83XX_KBS_KSOHGOEN}, - /* KSO pins 7:0 */ - {&IT83XX_KBS_KSOLGCTRL, &IT83XX_KBS_KSOLGOEN}, -}; - -/** - * Convert wake-up controller (WUC) group to the corresponding wake-up edge - * sense register (WUESR). Return pointer to the register. - * - * @param grp WUC group. - * - * @return Pointer to corresponding WUESR register. - */ -static volatile uint8_t *wuesr(uint8_t grp) -{ - /* - * From WUESR1-WUESR4, the address increases by ones. From WUESR5 on - * the address increases by fours. - */ - return (grp <= 4) ? - (volatile uint8_t *)(IT83XX_WUC_WUESR1 + grp-1) : - (volatile uint8_t *)(IT83XX_WUC_WUESR5 + 4*(grp-5)); -} - -/** - * Convert wake-up controller (WUC) group to the corresponding wake-up edge - * mode register (WUEMR). Return pointer to the register. - * - * @param grp WUC group. - * - * @return Pointer to corresponding WUEMR register. - */ -static volatile uint8_t *wuemr(uint8_t grp) -{ - /* - * From WUEMR1-WUEMR4, the address increases by ones. From WUEMR5 on - * the address increases by fours. - */ - return (grp <= 4) ? - (volatile uint8_t *)(IT83XX_WUC_WUEMR1 + grp-1) : - (volatile uint8_t *)(IT83XX_WUC_WUEMR5 + 4*(grp-5)); -} - -/** - * Convert wake-up controller (WUC) group to the corresponding wake-up both edge - * mode register (WUBEMR). Return pointer to the register. - * - * @param grp WUC group. - * - * @return Pointer to corresponding WUBEMR register. - */ -#ifdef IT83XX_GPIO_INT_FLEXIBLE -static volatile uint8_t *wubemr(uint8_t grp) -{ - /* - * From WUBEMR1-WUBEMR4, the address increases by ones. From WUBEMR5 on - * the address increases by fours. - */ - return (grp <= 4) ? - (volatile uint8_t *)(IT83XX_WUC_WUBEMR1 + grp-1) : - (volatile uint8_t *)(IT83XX_WUC_WUBEMR5 + 4*(grp-5)); -} -#endif - -/* - * Array to store the corresponding GPIO port and mask, and WUC group and mask - * for each WKO interrupt. This allows GPIO interrupts coming in through WKO - * to easily identify which pin caused the interrupt. - * Note: Using designated initializers here in addition to using the array size - * assert because many rows are purposely skipped. Not all IRQs are WKO IRQs, - * so the IRQ index skips around. But, we still want the entire array to take - * up the size of the total number of IRQs because the index to the array could - * be any IRQ number. - */ -static const struct { - uint8_t gpio_port; - uint8_t gpio_mask; - uint8_t wuc_group; - uint8_t wuc_mask; -} gpio_irqs[] = { - /* irq gpio_port,gpio_mask,wuc_group,wuc_mask */ - [IT83XX_IRQ_WKO20] = {GPIO_D, BIT(0), 2, BIT(0)}, - [IT83XX_IRQ_WKO21] = {GPIO_D, BIT(1), 2, BIT(1)}, - [IT83XX_IRQ_WKO22] = {GPIO_C, BIT(4), 2, BIT(2)}, - [IT83XX_IRQ_WKO23] = {GPIO_C, BIT(6), 2, BIT(3)}, - [IT83XX_IRQ_WKO24] = {GPIO_D, BIT(2), 2, BIT(4)}, -#ifdef IT83XX_GPIO_INT_FLEXIBLE - [IT83XX_IRQ_WKO40] = {GPIO_E, BIT(5), 4, BIT(0)}, - [IT83XX_IRQ_WKO45] = {GPIO_E, BIT(6), 4, BIT(5)}, - [IT83XX_IRQ_WKO46] = {GPIO_E, BIT(7), 4, BIT(6)}, -#endif - [IT83XX_IRQ_WKO50] = {GPIO_K, BIT(0), 5, BIT(0)}, - [IT83XX_IRQ_WKO51] = {GPIO_K, BIT(1), 5, BIT(1)}, - [IT83XX_IRQ_WKO52] = {GPIO_K, BIT(2), 5, BIT(2)}, - [IT83XX_IRQ_WKO53] = {GPIO_K, BIT(3), 5, BIT(3)}, - [IT83XX_IRQ_WKO54] = {GPIO_K, BIT(4), 5, BIT(4)}, - [IT83XX_IRQ_WKO55] = {GPIO_K, BIT(5), 5, BIT(5)}, - [IT83XX_IRQ_WKO56] = {GPIO_K, BIT(6), 5, BIT(6)}, - [IT83XX_IRQ_WKO57] = {GPIO_K, BIT(7), 5, BIT(7)}, - [IT83XX_IRQ_WKO60] = {GPIO_H, BIT(0), 6, BIT(0)}, - [IT83XX_IRQ_WKO61] = {GPIO_H, BIT(1), 6, BIT(1)}, - [IT83XX_IRQ_WKO62] = {GPIO_H, BIT(2), 6, BIT(2)}, - [IT83XX_IRQ_WKO63] = {GPIO_H, BIT(3), 6, BIT(3)}, - [IT83XX_IRQ_WKO64] = {GPIO_F, BIT(4), 6, BIT(4)}, - [IT83XX_IRQ_WKO65] = {GPIO_F, BIT(5), 6, BIT(5)}, - [IT83XX_IRQ_WKO65] = {GPIO_F, BIT(6), 6, BIT(6)}, - [IT83XX_IRQ_WKO67] = {GPIO_F, BIT(7), 6, BIT(7)}, - [IT83XX_IRQ_WKO70] = {GPIO_E, BIT(0), 7, BIT(0)}, - [IT83XX_IRQ_WKO71] = {GPIO_E, BIT(1), 7, BIT(1)}, - [IT83XX_IRQ_WKO72] = {GPIO_E, BIT(2), 7, BIT(2)}, - [IT83XX_IRQ_WKO73] = {GPIO_E, BIT(3), 7, BIT(3)}, - [IT83XX_IRQ_WKO74] = {GPIO_I, BIT(4), 7, BIT(4)}, - [IT83XX_IRQ_WKO75] = {GPIO_I, BIT(5), 7, BIT(5)}, - [IT83XX_IRQ_WKO76] = {GPIO_I, BIT(6), 7, BIT(6)}, - [IT83XX_IRQ_WKO77] = {GPIO_I, BIT(7), 7, BIT(7)}, - [IT83XX_IRQ_WKO80] = {GPIO_A, BIT(3), 8, BIT(0)}, - [IT83XX_IRQ_WKO81] = {GPIO_A, BIT(4), 8, BIT(1)}, - [IT83XX_IRQ_WKO82] = {GPIO_A, BIT(5), 8, BIT(2)}, - [IT83XX_IRQ_WKO83] = {GPIO_A, BIT(6), 8, BIT(3)}, - [IT83XX_IRQ_WKO84] = {GPIO_B, BIT(2), 8, BIT(4)}, - [IT83XX_IRQ_WKO85] = {GPIO_C, BIT(0), 8, BIT(5)}, - [IT83XX_IRQ_WKO86] = {GPIO_C, BIT(7), 8, BIT(6)}, - [IT83XX_IRQ_WKO87] = {GPIO_D, BIT(7), 8, BIT(7)}, - [IT83XX_IRQ_WKO88] = {GPIO_H, BIT(4), 9, BIT(0)}, - [IT83XX_IRQ_WKO89] = {GPIO_H, BIT(5), 9, BIT(1)}, - [IT83XX_IRQ_WKO90] = {GPIO_H, BIT(6), 9, BIT(2)}, - [IT83XX_IRQ_WKO91] = {GPIO_A, BIT(0), 9, BIT(3)}, - [IT83XX_IRQ_WKO92] = {GPIO_A, BIT(1), 9, BIT(4)}, - [IT83XX_IRQ_WKO93] = {GPIO_A, BIT(2), 9, BIT(5)}, - [IT83XX_IRQ_WKO94] = {GPIO_B, BIT(4), 9, BIT(6)}, - [IT83XX_IRQ_WKO95] = {GPIO_C, BIT(2), 9, BIT(7)}, - [IT83XX_IRQ_WKO96] = {GPIO_F, BIT(0), 10, BIT(0)}, - [IT83XX_IRQ_WKO97] = {GPIO_F, BIT(1), 10, BIT(1)}, - [IT83XX_IRQ_WKO98] = {GPIO_F, BIT(2), 10, BIT(2)}, - [IT83XX_IRQ_WKO99] = {GPIO_F, BIT(3), 10, BIT(3)}, - [IT83XX_IRQ_WKO100] = {GPIO_A, BIT(7), 10, BIT(4)}, - [IT83XX_IRQ_WKO101] = {GPIO_B, BIT(0), 10, BIT(5)}, - [IT83XX_IRQ_WKO102] = {GPIO_B, BIT(1), 10, BIT(6)}, - [IT83XX_IRQ_WKO103] = {GPIO_B, BIT(3), 10, BIT(7)}, - [IT83XX_IRQ_WKO104] = {GPIO_B, BIT(5), 11, BIT(0)}, - [IT83XX_IRQ_WKO105] = {GPIO_B, BIT(6), 11, BIT(1)}, - [IT83XX_IRQ_WKO106] = {GPIO_B, BIT(7), 11, BIT(2)}, - [IT83XX_IRQ_WKO107] = {GPIO_C, BIT(1), 11, BIT(3)}, - [IT83XX_IRQ_WKO108] = {GPIO_C, BIT(3), 11, BIT(4)}, - [IT83XX_IRQ_WKO109] = {GPIO_C, BIT(5), 11, BIT(5)}, - [IT83XX_IRQ_WKO110] = {GPIO_D, BIT(3), 11, BIT(6)}, - [IT83XX_IRQ_WKO111] = {GPIO_D, BIT(4), 11, BIT(7)}, - [IT83XX_IRQ_WKO112] = {GPIO_D, BIT(5), 12, BIT(0)}, - [IT83XX_IRQ_WKO113] = {GPIO_D, BIT(6), 12, BIT(1)}, - [IT83XX_IRQ_WKO114] = {GPIO_E, BIT(4), 12, BIT(2)}, - [IT83XX_IRQ_WKO115] = {GPIO_G, BIT(0), 12, BIT(3)}, - [IT83XX_IRQ_WKO116] = {GPIO_G, BIT(1), 12, BIT(4)}, - [IT83XX_IRQ_WKO117] = {GPIO_G, BIT(2), 12, BIT(5)}, - [IT83XX_IRQ_WKO118] = {GPIO_G, BIT(6), 12, BIT(6)}, - [IT83XX_IRQ_WKO119] = {GPIO_I, BIT(0), 12, BIT(7)}, - [IT83XX_IRQ_WKO120] = {GPIO_I, BIT(1), 13, BIT(0)}, - [IT83XX_IRQ_WKO121] = {GPIO_I, BIT(2), 13, BIT(1)}, - [IT83XX_IRQ_WKO122] = {GPIO_I, BIT(3), 13, BIT(2)}, -#ifdef IT83XX_GPIO_INT_FLEXIBLE - [IT83XX_IRQ_WKO123] = {GPIO_G, BIT(3), 13, BIT(3)}, - [IT83XX_IRQ_WKO124] = {GPIO_G, BIT(4), 13, BIT(4)}, - [IT83XX_IRQ_WKO125] = {GPIO_G, BIT(5), 13, BIT(5)}, - [IT83XX_IRQ_WKO126] = {GPIO_G, BIT(7), 13, BIT(6)}, -#endif - [IT83XX_IRQ_WKO128] = {GPIO_J, BIT(0), 14, BIT(0)}, - [IT83XX_IRQ_WKO129] = {GPIO_J, BIT(1), 14, BIT(1)}, - [IT83XX_IRQ_WKO130] = {GPIO_J, BIT(2), 14, BIT(2)}, - [IT83XX_IRQ_WKO131] = {GPIO_J, BIT(3), 14, BIT(3)}, - [IT83XX_IRQ_WKO132] = {GPIO_J, BIT(4), 14, BIT(4)}, - [IT83XX_IRQ_WKO133] = {GPIO_J, BIT(5), 14, BIT(5)}, - [IT83XX_IRQ_WKO134] = {GPIO_J, BIT(6), 14, BIT(6)}, - [IT83XX_IRQ_WKO135] = {GPIO_J, BIT(7), 14, BIT(7)}, - [IT83XX_IRQ_WKO136] = {GPIO_L, BIT(0), 15, BIT(0)}, - [IT83XX_IRQ_WKO137] = {GPIO_L, BIT(1), 15, BIT(1)}, - [IT83XX_IRQ_WKO138] = {GPIO_L, BIT(2), 15, BIT(2)}, - [IT83XX_IRQ_WKO139] = {GPIO_L, BIT(3), 15, BIT(3)}, - [IT83XX_IRQ_WKO140] = {GPIO_L, BIT(4), 15, BIT(4)}, - [IT83XX_IRQ_WKO141] = {GPIO_L, BIT(5), 15, BIT(5)}, - [IT83XX_IRQ_WKO142] = {GPIO_L, BIT(6), 15, BIT(6)}, - [IT83XX_IRQ_WKO143] = {GPIO_L, BIT(7), 15, BIT(7)}, -#ifdef IT83XX_GPIO_INT_FLEXIBLE - [IT83XX_IRQ_WKO144] = {GPIO_M, BIT(0), 16, BIT(0)}, - [IT83XX_IRQ_WKO145] = {GPIO_M, BIT(1), 16, BIT(1)}, - [IT83XX_IRQ_WKO146] = {GPIO_M, BIT(2), 16, BIT(2)}, - [IT83XX_IRQ_WKO147] = {GPIO_M, BIT(3), 16, BIT(3)}, - [IT83XX_IRQ_WKO148] = {GPIO_M, BIT(4), 16, BIT(4)}, - [IT83XX_IRQ_WKO149] = {GPIO_M, BIT(5), 16, BIT(5)}, - [IT83XX_IRQ_WKO150] = {GPIO_M, BIT(6), 16, BIT(6)}, -#endif -#if defined(CHIP_FAMILY_IT8XXX1) || defined(CHIP_FAMILY_IT8XXX2) - [IT83XX_IRQ_GPO0] = {GPIO_O, BIT(0), 19, BIT(0)}, - [IT83XX_IRQ_GPO1] = {GPIO_O, BIT(1), 19, BIT(1)}, - [IT83XX_IRQ_GPO2] = {GPIO_O, BIT(2), 19, BIT(2)}, - [IT83XX_IRQ_GPO3] = {GPIO_O, BIT(3), 19, BIT(3)}, - [IT83XX_IRQ_GPP0] = {GPIO_P, BIT(0), 20, BIT(0)}, - [IT83XX_IRQ_GPP1] = {GPIO_P, BIT(1), 20, BIT(1)}, - [IT83XX_IRQ_GPP2] = {GPIO_P, BIT(2), 20, BIT(2)}, - [IT83XX_IRQ_GPP3] = {GPIO_P, BIT(3), 20, BIT(3)}, - [IT83XX_IRQ_GPP4] = {GPIO_P, BIT(4), 20, BIT(4)}, - [IT83XX_IRQ_GPP5] = {GPIO_P, BIT(5), 20, BIT(5)}, - [IT83XX_IRQ_GPP6] = {GPIO_P, BIT(6), 20, BIT(6)}, - [IT83XX_IRQ_GPQ0] = {GPIO_Q, BIT(0), 21, BIT(0)}, - [IT83XX_IRQ_GPQ1] = {GPIO_Q, BIT(1), 21, BIT(1)}, - [IT83XX_IRQ_GPQ2] = {GPIO_Q, BIT(2), 21, BIT(2)}, - [IT83XX_IRQ_GPQ3] = {GPIO_Q, BIT(3), 21, BIT(3)}, - [IT83XX_IRQ_GPQ4] = {GPIO_Q, BIT(4), 21, BIT(4)}, - [IT83XX_IRQ_GPQ5] = {GPIO_Q, BIT(5), 21, BIT(5)}, - [IT83XX_IRQ_GPR0] = {GPIO_R, BIT(0), 22, BIT(0)}, - [IT83XX_IRQ_GPR1] = {GPIO_R, BIT(1), 22, BIT(1)}, - [IT83XX_IRQ_GPR2] = {GPIO_R, BIT(2), 22, BIT(2)}, - [IT83XX_IRQ_GPR3] = {GPIO_R, BIT(3), 22, BIT(3)}, - [IT83XX_IRQ_GPR4] = {GPIO_R, BIT(4), 22, BIT(4)}, - [IT83XX_IRQ_GPR5] = {GPIO_R, BIT(5), 22, BIT(5)}, -#endif - [IT83XX_IRQ_COUNT] = { 0, 0, 0, 0}, -}; -BUILD_ASSERT(ARRAY_SIZE(gpio_irqs) == IT83XX_IRQ_COUNT + 1); - -/** - * Given a GPIO port and mask, find the corresponding WKO interrupt number. - * - * @param port GPIO port - * @param mask GPIO mask - * - * @return IRQ for the WKO interrupt on the corresponding input pin. - */ -static int gpio_to_irq(uint8_t port, uint8_t mask) -{ - int i; - - for (i = 0; i < IT83XX_IRQ_COUNT; i++) { - if (gpio_irqs[i].gpio_port == port && - gpio_irqs[i].gpio_mask == mask) - return i; - } - - return -1; -} - -struct gpio_1p8v_t { - volatile uint8_t *reg; - uint8_t sel; -}; - -static const struct gpio_1p8v_t gpio_1p8v_sel[GPIO_PORT_COUNT][8] = { -#ifdef IT83XX_GPIO_1P8V_PIN_EXTENDED - [GPIO_A] = { [4] = {&IT83XX_GPIO_GRC24, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC24, BIT(1)}, - [6] = {&IT83XX_GPIO_GRC24, BIT(5)}, - [7] = {&IT83XX_GPIO_GRC24, BIT(6)} }, - [GPIO_B] = { [3] = {&IT83XX_GPIO_GRC22, BIT(1)}, - [4] = {&IT83XX_GPIO_GRC22, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC19, BIT(7)}, - [6] = {&IT83XX_GPIO_GRC19, BIT(6)}, - [7] = {&IT83XX_GPIO_GRC24, BIT(4)} }, - [GPIO_C] = { [0] = {&IT83XX_GPIO_GRC22, BIT(7)}, - [1] = {&IT83XX_GPIO_GRC19, BIT(5)}, - [2] = {&IT83XX_GPIO_GRC19, BIT(4)}, - [4] = {&IT83XX_GPIO_GRC24, BIT(2)}, - [6] = {&IT83XX_GPIO_GRC24, BIT(3)}, - [7] = {&IT83XX_GPIO_GRC19, BIT(3)} }, - [GPIO_D] = { [0] = {&IT83XX_GPIO_GRC19, BIT(2)}, - [1] = {&IT83XX_GPIO_GRC19, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC19, BIT(0)}, - [3] = {&IT83XX_GPIO_GRC20, BIT(7)}, - [4] = {&IT83XX_GPIO_GRC20, BIT(6)}, - [5] = {&IT83XX_GPIO_GRC22, BIT(4)}, - [6] = {&IT83XX_GPIO_GRC22, BIT(5)}, - [7] = {&IT83XX_GPIO_GRC22, BIT(6)} }, - [GPIO_E] = { [0] = {&IT83XX_GPIO_GRC20, BIT(5)}, - [1] = {&IT83XX_GPIO_GCR28, BIT(6)}, - [2] = {&IT83XX_GPIO_GCR28, BIT(7)}, - [4] = {&IT83XX_GPIO_GRC22, BIT(2)}, - [5] = {&IT83XX_GPIO_GRC22, BIT(3)}, - [6] = {&IT83XX_GPIO_GRC20, BIT(4)}, - [7] = {&IT83XX_GPIO_GRC20, BIT(3)} }, - [GPIO_F] = { [0] = {&IT83XX_GPIO_GCR28, BIT(4)}, - [1] = {&IT83XX_GPIO_GCR28, BIT(5)}, - [2] = {&IT83XX_GPIO_GRC20, BIT(2)}, - [3] = {&IT83XX_GPIO_GRC20, BIT(1)}, - [4] = {&IT83XX_GPIO_GRC20, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC21, BIT(7)}, - [6] = {&IT83XX_GPIO_GRC21, BIT(6)}, - [7] = {&IT83XX_GPIO_GRC21, BIT(5)} }, - [GPIO_G] = { [0] = {&IT83XX_GPIO_GCR28, BIT(2)}, - [1] = {&IT83XX_GPIO_GRC21, BIT(4)}, - [2] = {&IT83XX_GPIO_GCR28, BIT(3)}, - [6] = {&IT83XX_GPIO_GRC21, BIT(3)} }, - [GPIO_H] = { [0] = {&IT83XX_GPIO_GRC21, BIT(2)}, - [1] = {&IT83XX_GPIO_GRC21, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC21, BIT(0)}, - [5] = {&IT83XX_GPIO_GCR27, BIT(7)}, - [6] = {&IT83XX_GPIO_GCR28, BIT(0)} }, - [GPIO_I] = { [0] = {&IT83XX_GPIO_GCR27, BIT(3)}, - [1] = {&IT83XX_GPIO_GRC23, BIT(4)}, - [2] = {&IT83XX_GPIO_GRC23, BIT(5)}, - [3] = {&IT83XX_GPIO_GRC23, BIT(6)}, - [4] = {&IT83XX_GPIO_GRC23, BIT(7)}, - [5] = {&IT83XX_GPIO_GCR27, BIT(4)}, - [6] = {&IT83XX_GPIO_GCR27, BIT(5)}, - [7] = {&IT83XX_GPIO_GCR27, BIT(6)} }, - [GPIO_J] = { [0] = {&IT83XX_GPIO_GRC23, BIT(0)}, - [1] = {&IT83XX_GPIO_GRC23, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC23, BIT(2)}, - [3] = {&IT83XX_GPIO_GRC23, BIT(3)}, - [4] = {&IT83XX_GPIO_GCR27, BIT(0)}, - [5] = {&IT83XX_GPIO_GCR27, BIT(1)}, - [6] = {&IT83XX_GPIO_GCR27, BIT(2)}, - [7] = {&IT83XX_GPIO_GCR33, BIT(2)} }, - [GPIO_K] = { [0] = {&IT83XX_GPIO_GCR26, BIT(0)}, - [1] = {&IT83XX_GPIO_GCR26, BIT(1)}, - [2] = {&IT83XX_GPIO_GCR26, BIT(2)}, - [3] = {&IT83XX_GPIO_GCR26, BIT(3)}, - [4] = {&IT83XX_GPIO_GCR26, BIT(4)}, - [5] = {&IT83XX_GPIO_GCR26, BIT(5)}, - [6] = {&IT83XX_GPIO_GCR26, BIT(6)}, - [7] = {&IT83XX_GPIO_GCR26, BIT(7)} }, - [GPIO_L] = { [0] = {&IT83XX_GPIO_GCR25, BIT(0)}, - [1] = {&IT83XX_GPIO_GCR25, BIT(1)}, - [2] = {&IT83XX_GPIO_GCR25, BIT(2)}, - [3] = {&IT83XX_GPIO_GCR25, BIT(3)}, - [4] = {&IT83XX_GPIO_GCR25, BIT(4)}, - [5] = {&IT83XX_GPIO_GCR25, BIT(5)}, - [6] = {&IT83XX_GPIO_GCR25, BIT(6)}, - [7] = {&IT83XX_GPIO_GCR25, BIT(7)} }, -#if defined(CHIP_FAMILY_IT8XXX1) || defined(CHIP_FAMILY_IT8XXX2) - [GPIO_O] = { [0] = {&IT83XX_GPIO_GCR31, BIT(0)}, - [1] = {&IT83XX_GPIO_GCR31, BIT(1)}, - [2] = {&IT83XX_GPIO_GCR31, BIT(2)}, - [3] = {&IT83XX_GPIO_GCR31, BIT(3)} }, - [GPIO_P] = { [0] = {&IT83XX_GPIO_GCR32, BIT(0)}, - [1] = {&IT83XX_GPIO_GCR32, BIT(1)}, - [2] = {&IT83XX_GPIO_GCR32, BIT(2)}, - [3] = {&IT83XX_GPIO_GCR32, BIT(3)}, - [4] = {&IT83XX_GPIO_GCR32, BIT(4)}, - [5] = {&IT83XX_GPIO_GCR32, BIT(5)}, - [6] = {&IT83XX_GPIO_GCR32, BIT(6)} }, -#endif -#else - [GPIO_A] = { [4] = {&IT83XX_GPIO_GRC24, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC24, BIT(1)} }, - [GPIO_B] = { [3] = {&IT83XX_GPIO_GRC22, BIT(1)}, - [4] = {&IT83XX_GPIO_GRC22, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC19, BIT(7)}, - [6] = {&IT83XX_GPIO_GRC19, BIT(6)} }, - [GPIO_C] = { [1] = {&IT83XX_GPIO_GRC19, BIT(5)}, - [2] = {&IT83XX_GPIO_GRC19, BIT(4)}, - [7] = {&IT83XX_GPIO_GRC19, BIT(3)} }, - [GPIO_D] = { [0] = {&IT83XX_GPIO_GRC19, BIT(2)}, - [1] = {&IT83XX_GPIO_GRC19, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC19, BIT(0)}, - [3] = {&IT83XX_GPIO_GRC20, BIT(7)}, - [4] = {&IT83XX_GPIO_GRC20, BIT(6)} }, - [GPIO_E] = { [0] = {&IT83XX_GPIO_GRC20, BIT(5)}, - [6] = {&IT83XX_GPIO_GRC20, BIT(4)}, - [7] = {&IT83XX_GPIO_GRC20, BIT(3)} }, - [GPIO_F] = { [2] = {&IT83XX_GPIO_GRC20, BIT(2)}, - [3] = {&IT83XX_GPIO_GRC20, BIT(1)}, - [4] = {&IT83XX_GPIO_GRC20, BIT(0)}, - [5] = {&IT83XX_GPIO_GRC21, BIT(7)}, - [6] = {&IT83XX_GPIO_GRC21, BIT(6)}, - [7] = {&IT83XX_GPIO_GRC21, BIT(5)} }, - [GPIO_H] = { [0] = {&IT83XX_GPIO_GRC21, BIT(2)}, - [1] = {&IT83XX_GPIO_GRC21, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC21, BIT(0)} }, - [GPIO_I] = { [1] = {&IT83XX_GPIO_GRC23, BIT(4)}, - [2] = {&IT83XX_GPIO_GRC23, BIT(5)}, - [3] = {&IT83XX_GPIO_GRC23, BIT(6)}, - [4] = {&IT83XX_GPIO_GRC23, BIT(7)} }, - [GPIO_J] = { [0] = {&IT83XX_GPIO_GRC23, BIT(0)}, - [1] = {&IT83XX_GPIO_GRC23, BIT(1)}, - [2] = {&IT83XX_GPIO_GRC23, BIT(2)}, - [3] = {&IT83XX_GPIO_GRC23, BIT(3)} }, -#endif -}; - -static void gpio_1p8v_3p3v_sel_by_pin(uint8_t port, uint8_t pin, int sel_1p8v) -{ - volatile uint8_t *reg_1p8v = gpio_1p8v_sel[port][pin].reg; - uint8_t sel = gpio_1p8v_sel[port][pin].sel; - - if (reg_1p8v == NULL) - return; - - if (sel_1p8v) - *reg_1p8v |= sel; - else - *reg_1p8v &= ~sel; -} - -static inline void it83xx_set_alt_func(uint32_t port, uint32_t pin, - enum gpio_alternate_func func) -{ - /* - * If func is not ALT_FUNC_NONE, set for alternate function. - * Otherwise, turn the pin into an input as it's default. - */ - if (func != GPIO_ALT_FUNC_NONE) - IT83XX_GPIO_CTRL(port, pin) &= ~(GPCR_PORT_PIN_MODE_OUTPUT | - GPCR_PORT_PIN_MODE_INPUT); - else - IT83XX_GPIO_CTRL(port, pin) = - (IT83XX_GPIO_CTRL(port, pin) | GPCR_PORT_PIN_MODE_INPUT) - & ~GPCR_PORT_PIN_MODE_OUTPUT; -} - -void gpio_set_alternate_function(uint32_t port, uint32_t mask, - enum gpio_alternate_func func) -{ - uint32_t pin = 0; - - /* Alternate function configuration for KSI/KSO pins */ - if (port > GPIO_PORT_COUNT) { - port -= GPIO_KSI; - /* - * If func is non-negative, set for keyboard scan function. - * Otherwise, turn the pin into a GPIO input. - */ - if (func >= GPIO_ALT_FUNC_DEFAULT) { - /* KBS mode */ - *kbs_gpio_ctrl_regs[port].gpio_mode &= ~mask; - } else { - /* input */ - *kbs_gpio_ctrl_regs[port].gpio_out &= ~mask; - /* GPIO mode */ - *kbs_gpio_ctrl_regs[port].gpio_mode |= mask; - } - return; - } - - /* For each bit high in the mask, set that pin to use alt. func. */ - while (mask > 0) { - if (mask & 1) - it83xx_set_alt_func(port, pin, func); - pin++; - mask >>= 1; - } -} - -test_mockable int gpio_get_level(enum gpio_signal signal) -{ - return (IT83XX_GPIO_DATA_MIRROR(gpio_list[signal].port) & - gpio_list[signal].mask) ? 1 : 0; -} - -void gpio_set_level(enum gpio_signal signal, int value) -{ - /* critical section with interrupts off */ - uint32_t int_mask = read_clear_int_mask(); - - if (value) - IT83XX_GPIO_DATA(gpio_list[signal].port) |= - gpio_list[signal].mask; - else - IT83XX_GPIO_DATA(gpio_list[signal].port) &= - ~gpio_list[signal].mask; - /* restore interrupts */ - set_int_mask(int_mask); -} - -void gpio_kbs_pin_gpio_mode(uint32_t port, uint32_t mask, uint32_t flags) -{ - uint32_t idx = port - GPIO_KSI; - - /* Set GPIO mode */ - *kbs_gpio_ctrl_regs[idx].gpio_mode |= mask; - - /* Set input or output */ - if (flags & GPIO_OUTPUT) { - /* - * Select open drain first, so that we don't glitch the signal - * when changing the line to an output. - */ - if (flags & GPIO_OPEN_DRAIN) - /* - * it83xx: need external pullup for output data high - * it8xxx2: this pin is always internal pullup - */ - IT83XX_GPIO_GPOT(port) |= mask; - else - /* - * it8xxx2: this pin is not internal pullup - */ - IT83XX_GPIO_GPOT(port) &= ~mask; - - /* Set level before change to output. */ - if (flags & GPIO_HIGH) - IT83XX_GPIO_DATA(port) |= mask; - else if (flags & GPIO_LOW) - IT83XX_GPIO_DATA(port) &= ~mask; - *kbs_gpio_ctrl_regs[idx].gpio_out |= mask; - } else { - *kbs_gpio_ctrl_regs[idx].gpio_out &= ~mask; - if (flags & GPIO_PULL_UP) - IT83XX_GPIO_GPOT(port) |= mask; - else - /* No internal pullup and pulldown */ - IT83XX_GPIO_GPOT(port) &= ~mask; - } -} - -#ifndef IT83XX_GPIO_INT_FLEXIBLE -/* Returns true when the falling trigger bit actually mean both trigger. */ -static int group_falling_is_both(const int group) -{ - return group == 7 || group == 10 || group == 12; -} - -static const char *get_gpio_string(const int port, const int mask) -{ - static char buffer[3]; - int i; - - buffer[0] = port - GPIO_A + 'A'; - buffer[1] = '!'; - - for (i = 0; i < 8; ++i) { - if (mask & BIT(i)) { - buffer[1] = i + '0'; - break; - } - } - return buffer; -} -#endif /* IT83XX_GPIO_INT_FLEXIBLE */ - -void gpio_set_flags_by_mask(uint32_t port, uint32_t mask, uint32_t flags) -{ - uint32_t pin = 0; - uint32_t mask_copy = mask; - - /* Set GPIO mode for KSI/KSO pins */ - if (port > GPIO_PORT_COUNT) { - gpio_kbs_pin_gpio_mode(port, mask, flags); - return; - } - - /* - * Select open drain first, so that we don't glitch the signal - * when changing the line to an output. - */ - if (flags & GPIO_OPEN_DRAIN) - IT83XX_GPIO_GPOT(port) |= mask; - else - IT83XX_GPIO_GPOT(port) &= ~mask; - - /* If output, set level before changing type to an output. */ - if (flags & GPIO_OUTPUT) { - if (flags & GPIO_HIGH) - IT83XX_GPIO_DATA(port) |= mask; - else if (flags & GPIO_LOW) - IT83XX_GPIO_DATA(port) &= ~mask; - } - - /* For each bit high in the mask, set input/output and pullup/down. */ - while (mask_copy > 0) { - if (mask_copy & 1) { - /* Set input or output. */ - if (flags & GPIO_OUTPUT) - IT83XX_GPIO_CTRL(port, pin) = - (IT83XX_GPIO_CTRL(port, pin) | - GPCR_PORT_PIN_MODE_OUTPUT) & - ~GPCR_PORT_PIN_MODE_INPUT; - else - IT83XX_GPIO_CTRL(port, pin) = - (IT83XX_GPIO_CTRL(port, pin) | - GPCR_PORT_PIN_MODE_INPUT) & - ~GPCR_PORT_PIN_MODE_OUTPUT; - - /* Handle pullup / pulldown */ - if (flags & GPIO_PULL_UP) { - IT83XX_GPIO_CTRL(port, pin) = - (IT83XX_GPIO_CTRL(port, pin) | - GPCR_PORT_PIN_MODE_PULLUP) & - ~GPCR_PORT_PIN_MODE_PULLDOWN; - } else if (flags & GPIO_PULL_DOWN) { - IT83XX_GPIO_CTRL(port, pin) = - (IT83XX_GPIO_CTRL(port, pin) | - GPCR_PORT_PIN_MODE_PULLDOWN) & - ~GPCR_PORT_PIN_MODE_PULLUP; - } else { - /* No pull up/down */ - IT83XX_GPIO_CTRL(port, pin) &= - ~(GPCR_PORT_PIN_MODE_PULLUP | - GPCR_PORT_PIN_MODE_PULLDOWN); - } - - /* To select 1.8v or 3.3v support. */ - gpio_1p8v_3p3v_sel_by_pin(port, pin, - (flags & GPIO_SEL_1P8V)); - } - - pin++; - mask_copy >>= 1; - } - - if (flags & (GPIO_INT_F_RISING | GPIO_INT_F_FALLING)) { - int irq, wuc_group, wuc_mask; - irq = gpio_to_irq(port, mask); - wuc_group = gpio_irqs[irq].wuc_group; - wuc_mask = gpio_irqs[irq].wuc_mask; - - /* - * Set both edges interrupt. - * The WUBEMR register is valid on IT8320 DX version. - * And the setting (falling or rising edge) of WUEMR register is - * invalid if this mode is set. - */ -#ifdef IT83XX_GPIO_INT_FLEXIBLE - if ((flags & GPIO_INT_BOTH) == GPIO_INT_BOTH) - *(wubemr(wuc_group)) |= wuc_mask; - else - *(wubemr(wuc_group)) &= ~wuc_mask; -#endif - - if (flags & GPIO_INT_F_FALLING) { -#ifndef IT83XX_GPIO_INT_FLEXIBLE - if (!!(flags & GPIO_INT_F_RISING) != - group_falling_is_both(wuc_group)) { - ccprintf("!!Fix GPIO %s interrupt config!!\n", - get_gpio_string(port, mask)); - } -#endif - *(wuemr(wuc_group)) |= wuc_mask; - } else { - *(wuemr(wuc_group)) &= ~wuc_mask; - } - /* - * Always write 1 to clear the WUC status register after - * modifying edge mode selection register (WUBEMR and WUEMR). - */ - *(wuesr(wuc_group)) = wuc_mask; - } -} - -int gpio_enable_interrupt(enum gpio_signal signal) -{ - int irq = gpio_to_irq(gpio_list[signal].port, gpio_list[signal].mask); - - if (irq == -1) - return EC_ERROR_UNKNOWN; - else - task_enable_irq(irq); - - return EC_SUCCESS; -} - -int gpio_disable_interrupt(enum gpio_signal signal) -{ - int irq = gpio_to_irq(gpio_list[signal].port, gpio_list[signal].mask); - - if (irq == -1) - return EC_ERROR_UNKNOWN; - else - task_disable_irq(irq); - - return EC_SUCCESS; -} - -int gpio_clear_pending_interrupt(enum gpio_signal signal) -{ - int irq = gpio_to_irq(gpio_list[signal].port, gpio_list[signal].mask); - - if (irq == -1) - return EC_ERROR_UNKNOWN; - - *(wuesr(gpio_irqs[irq].wuc_group)) = gpio_irqs[irq].wuc_mask; - task_clear_pending_irq(irq); - return EC_SUCCESS; -} - -/* To prevent cc pins leakage, disables integrated cc module. */ -void it83xx_disable_cc_module(int port) -{ - /* Power down all CC, and disable CC voltage detector */ - IT83XX_USBPD_CCGCR(port) |= USBPD_REG_MASK_DISABLE_CC; -#if defined(CONFIG_USB_PD_TCPM_DRIVER_IT83XX) - IT83XX_USBPD_CCCSR(port) |= USBPD_REG_MASK_DISABLE_CC_VOL_DETECTOR; -#elif defined(CONFIG_USB_PD_TCPM_DRIVER_IT8XXX2) - IT83XX_USBPD_CCGCR(port) |= USBPD_REG_MASK_DISABLE_CC_VOL_DETECTOR; -#endif - /* - * Disconnect CC analog module (ex.UP/RD/DET/TX/RX), and - * disconnect CC 5.1K to GND - */ - IT83XX_USBPD_CCCSR(port) |= (USBPD_REG_MASK_CC2_DISCONNECT | - USBPD_REG_MASK_CC2_DISCONNECT_5_1K_TO_GND | - USBPD_REG_MASK_CC1_DISCONNECT | - USBPD_REG_MASK_CC1_DISCONNECT_5_1K_TO_GND); - /* Disconnect CC 5V tolerant */ - IT83XX_USBPD_CCPSR(port) |= (USBPD_REG_MASK_DISCONNECT_POWER_CC2 | - USBPD_REG_MASK_DISCONNECT_POWER_CC1); -} - -void gpio_pre_init(void) -{ - const struct gpio_info *g = gpio_list; - int is_warm = system_is_reboot_warm(); - int flags; - int i; - - IT83XX_GPIO_GCR = 0x06; - -#if !defined(CONFIG_IT83XX_VCC_1P8V) && !defined(CONFIG_IT83XX_VCC_3P3V) -#error Please select voltage level of VCC for EC. -#endif - -#if defined(CONFIG_IT83XX_VCC_1P8V) && defined(CONFIG_IT83XX_VCC_3P3V) -#error Must select only one voltage level of VCC for EC. -#endif - /* The power level of GPM6 follows VCC */ - IT83XX_GPIO_GCR29 |= BIT(0); - - /* The power level (VCC) of GPM0~6 is 1.8V */ - if (IS_ENABLED(CONFIG_IT83XX_VCC_1P8V)) - IT83XX_GPIO_GCR30 |= BIT(4); - - /* The power level (VCC) of GPM0~6 is 3.3V */ - if (IS_ENABLED(CONFIG_IT83XX_VCC_3P3V)) - IT83XX_GPIO_GCR30 &= ~BIT(4); - -#if IT83XX_USBPD_PHY_PORT_COUNT < CONFIG_USB_PD_ITE_ACTIVE_PORT_COUNT -#error "ITE pd active port count should be less than physical port count !" -#endif - /* - * To prevent cc pins leakage and cc pins can be used as gpio, - * disable board not active ITE TCPC port cc modules. - */ - for (i = CONFIG_USB_PD_ITE_ACTIVE_PORT_COUNT; - i < IT83XX_USBPD_PHY_PORT_COUNT; i++) { - it83xx_disable_cc_module(i); - /* Dis-connect 5.1K dead battery resistor to CC */ - IT83XX_USBPD_CCPSR(i) |= - (USBPD_REG_MASK_DISCONNECT_5_1K_CC2_DB | - USBPD_REG_MASK_DISCONNECT_5_1K_CC1_DB); - } - -#ifndef CONFIG_USB - /* - * We need to enable USB's clock so we can config USB control register. - * This is important for a software reset as the hardware clock may - * already be disabled from the previous run. - * We will disable clock to USB module in clock_module_disable() later. - */ - clock_enable_peripheral(CGC_OFFSET_USB, 0, 0); - /* - * Disable default pull-down of USB controller (GPH5 and GPH6) if we - * don't use this module. - */ - IT83XX_USB_P0MCR &= ~USB_DP_DM_PULL_DOWN_EN; -#endif - -#if defined(CHIP_FAMILY_IT8XXX1) || defined(CHIP_FAMILY_IT8XXX2) - /* Q group pins are default GPI mode, clear alternate setting. */ - IT83XX_VBATPC_XLPIER = 0x0; - /* - * R group pins are default alternate output low, we clear alternate - * setting (sink power switch from VBAT to VSTBY) to become GPO output - * low. - * NOTE: GPR0~5 pins are output low by default. It should consider - * that if output low signal effect external circuit or not, - * until we reconfig these pins in gpio.inc. - */ - IT83XX_VBATPC_BGPOPSCR = 0x0; -#endif - - /* - * On IT81202 (128-pins package), the pins of GPIO group K and L aren't - * bonding with pad. So we configure these pins as internal pull-down - * at default to prevent leakage current due to floating. - */ - if (IS_ENABLED(IT83XX_GPIO_GROUP_K_L_DEFAULT_PULL_DOWN)) { - for (i = 0; i < 8; i++) { - IT83XX_GPIO_CTRL(GPIO_K, i) = (GPCR_PORT_PIN_MODE_INPUT - | GPCR_PORT_PIN_MODE_PULLDOWN); - IT83XX_GPIO_CTRL(GPIO_L, i) = (GPCR_PORT_PIN_MODE_INPUT - | GPCR_PORT_PIN_MODE_PULLDOWN); - } - } - - /* - * On IT81202/IT81302, the GPIOH7 isn't bonding with pad and is left - * floating internally. We need to enable internal pull-down for the pin - * to prevent leakage current, but IT81202/IT81302 doesn't have the - * capability to pull it down. We can only set it as output low, - * so we enable output low for it at initialization to prevent leakage. - */ - if (IS_ENABLED(IT83XX_GPIO_H7_DEFAULT_OUTPUT_LOW)) { - IT83XX_GPIO_CTRL(GPIO_H, 7) = GPCR_PORT_PIN_MODE_OUTPUT; - IT83XX_GPIO_DATA(GPIO_H) &= ~BIT(7); - } - - for (i = 0; i < GPIO_COUNT; i++, g++) { - flags = g->flags; - - if (flags & GPIO_DEFAULT) - continue; - - /* - * If this is a warm reboot, don't set the output levels or - * we'll shut off the AP. - */ - if (is_warm) - flags &= ~(GPIO_LOW | GPIO_HIGH); - - /* Set up GPIO based on flags */ - gpio_set_flags_by_mask(g->port, g->mask, flags); - } -} - -/** - * Handle a GPIO interrupt by calling the pins corresponding handler if - * one exists. - * - * @param port GPIO port (GPIO_*) - * @param mask GPIO mask - */ -static void gpio_interrupt(int port, uint8_t mask) -{ - int i = 0; - const struct gpio_info *g = gpio_list; - - for (i = 0; i < GPIO_IH_COUNT; i++, g++) { - if (port == g->port && (mask & g->mask)) { - gpio_irq_handlers[i](i); - return; - } - } -} - -/** - * Define one IRQ function to handle all GPIO interrupts. The IRQ determines - * the interrupt number which was triggered, calls the master handler above, - * and clears status registers. - */ -static void __gpio_irq(void) -{ - /* Determine interrupt number. */ - int irq = intc_get_ec_int(); - - /* assert failure if interrupt number is zero */ - ASSERT(irq); - -#if defined(HAS_TASK_KEYSCAN) && !defined(CONFIG_KEYBOARD_NOT_RAW) - if (irq == IT83XX_IRQ_WKINTC) { - keyboard_raw_interrupt(); - return; - } -#endif - -#ifdef CONFIG_HOSTCMD_X86 - if (irq == IT83XX_IRQ_WKINTAD) - return; -#endif - - /* - * Clear the WUC status register. Note the external pin first goes - * to the WUC module and is always edge triggered. - */ - *(wuesr(gpio_irqs[irq].wuc_group)) = gpio_irqs[irq].wuc_mask; - - /* - * Clear the interrupt controller status register. Note the interrupt - * controller is level triggered from the WUC status. - */ - task_clear_pending_irq(irq); - - /* Run the GPIO master handler above with corresponding port/mask. */ - gpio_interrupt(gpio_irqs[irq].gpio_port, gpio_irqs[irq].gpio_mask); -} - -/* Route all WKO interrupts coming from INT#2 into __gpio_irq. */ -DECLARE_IRQ(CPU_INT_2_ALL_GPIOS, __gpio_irq, 1); |