/* * This file is part of the coreboot project. * * Copyright (C) 2011 The Chromium OS Authors. All rights reserved. * Copyright (C) 2013 Sage Electronic Engineering, LLC. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. */ #include #include #include #include "soc.h" #include "gpio.h" #define MAX_GPIO_NUMBER 31 /* zero based */ void setup_soc_gpios(const struct soc_gpio_map *gpio) { u16 gpiobase = pci_read_config16(SOC_LPC_DEV, GBASE) & ~0xf; u32 *cfiobase = (u32 *)(pci_read_config32(SOC_LPC_DEV, IOBASE) & ~0xf); u32 cfio_cnt = 0; /* GPIO */ if (gpio->core.level) outl(*((u32*)gpio->core.level), gpiobase + GPIO_SC_GP_LVL); if (gpio->core.mode) outl(*((u32*)gpio->core.mode), gpiobase + GPIO_SC_USE_SEL); if (gpio->core.direction) outl(*((u32*)gpio->core.direction), gpiobase + GPIO_SC_IO_SEL); if (gpio->core.tpe) outl(*((u32*)gpio->core.tpe), gpiobase + GPIO_SC_TPE); if (gpio->core.tne) outl(*((u32*)gpio->core.tne), gpiobase + GPIO_SC_TNE); if (gpio->core.ts) outl(*((u32*)gpio->core.ts), gpiobase + GPIO_SC_TS); /* GPIO SUS Well Set 1 */ if (gpio->sus.level) outl(*((u32*)gpio->sus.level), gpiobase + GPIO_SUS_GP_LVL); if (gpio->sus.mode) outl(*((u32*)gpio->sus.mode), gpiobase + GPIO_SUS_USE_SEL); if (gpio->sus.direction) outl(*((u32*)gpio->sus.direction), gpiobase + GPIO_SUS_IO_SEL); if (gpio->sus.tpe) outl(*((u32*)gpio->sus.tpe), gpiobase + GPIO_SUS_TPE); if (gpio->sus.tne) outl(*((u32*)gpio->sus.tne), gpiobase + GPIO_SUS_TNE); if (gpio->sus.ts) outl(*((u32*)gpio->sus.ts), gpiobase + GPIO_SUS_TS); if (gpio->sus.we) outl(*((u32*)gpio->sus.we), gpiobase + GPIO_SUS_WE); /* GPIO PAD Settings */ /* CFIO Core Well Set 1 */ if ((gpio->core.cfio_init != NULL) && (gpio->core.cfio_entrynum != 0)) { write32(cfiobase + (0x0700 / sizeof(u32)), (u32)0x01001002); for (cfio_cnt = 0; cfio_cnt < gpio->core.cfio_entrynum; cfio_cnt++) { if (!((u32)gpio->core.cfio_init[cfio_cnt].pad_conf_0)) continue; write32(cfiobase + ((CFIO_PAD_CONF0 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->core.cfio_init[cfio_cnt].pad_conf_0); write32(cfiobase + ((CFIO_PAD_CONF1 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->core.cfio_init[cfio_cnt].pad_conf_1); write32(cfiobase + ((CFIO_PAD_VAL + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->core.cfio_init[cfio_cnt].pad_val); write32(cfiobase + ((CFIO_PAD_DFT + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->core.cfio_init[cfio_cnt].pad_dft); } write32(cfiobase + (0x0700 / sizeof(u32)), (u32)0x01041002); } /* CFIO SUS Well Set 1 */ if ((gpio->sus.cfio_init != NULL) && (gpio->sus.cfio_entrynum != 0)) { write32(cfiobase + (0x1700 / sizeof(u32)), (u32)0x01001002); for (cfio_cnt = 0; cfio_cnt < gpio->sus.cfio_entrynum; cfio_cnt++) { if (!((u32)gpio->sus.cfio_init[cfio_cnt].pad_conf_0)) continue; write32(cfiobase + ((CFIO_PAD_CONF0 + 0x1000 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->sus.cfio_init[cfio_cnt].pad_conf_0); write32(cfiobase + ((CFIO_PAD_CONF1 + 0x1000 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->sus.cfio_init[cfio_cnt].pad_conf_1); write32(cfiobase + ((CFIO_PAD_VAL + 0x1000 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->sus.cfio_init[cfio_cnt].pad_val); write32(cfiobase + ((CFIO_PAD_DFT + 0x1000 + (16*cfio_cnt))/sizeof(u32)), (u32)gpio->sus.cfio_init[cfio_cnt].pad_dft); } write32(cfiobase + (0x1700 / sizeof(u32)), (u32)0x01041002); } } int get_gpio(int gpio_num) { u16 gpio_base = pci_read_config16(SOC_LPC_DEV, GBASE) & ~0xf; int bit; if (gpio_num > MAX_GPIO_NUMBER) return 0; /* Ignore wrong GPIO numbers. */ bit = gpio_num % 32; return (inl(gpio_base + GPIO_SC_USE_SEL) >> bit) & 1; }