/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #include #include static const struct soc_uart_ctrlr_info uart_info[] = { [0] = { APU_UART0_BASE, FCH_AOAC_DEV_UART0, "FUR0", { PAD_NF(GPIO_143, UART0_TXD, PULL_NONE), PAD_NF(GPIO_141, UART0_RXD, PULL_NONE), } }, [1] = { APU_UART1_BASE, FCH_AOAC_DEV_UART1, "FUR1", { PAD_NF(GPIO_140, UART1_TXD, PULL_NONE), PAD_NF(GPIO_142, UART1_RXD, PULL_NONE), } }, [2] = { APU_UART2_BASE, FCH_AOAC_DEV_UART2, "FUR2", { PAD_NF(GPIO_138, UART2_TXD, PULL_NONE), PAD_NF(GPIO_136, UART2_RXD, PULL_NONE), } }, [3] = { APU_UART3_BASE, FCH_AOAC_DEV_UART3, "FUR3", { PAD_NF(GPIO_135, UART3_TXD, PULL_NONE), PAD_NF(GPIO_137, UART3_RXD, PULL_NONE), } }, [4] = { APU_UART4_BASE, FCH_AOAC_DEV_UART4, "FUR4", { PAD_NF(GPIO_156, UART4_TXD, PULL_NONE), PAD_NF(GPIO_155, UART4_RXD, PULL_NONE), } }, }; static const struct soc_uart_ctrlr_info *soc_get_uart_ctrlr_info(size_t *num_ctrlrs) { *num_ctrlrs = ARRAY_SIZE(uart_info); return uart_info; } uintptr_t get_uart_base(unsigned int idx) { size_t num_ctrlrs; const struct soc_uart_ctrlr_info *ctrlr = soc_get_uart_ctrlr_info(&num_ctrlrs); if (idx >= num_ctrlrs) return 0; return ctrlr[idx].base; } static enum cb_err get_uart_idx(uintptr_t base, const struct soc_uart_ctrlr_info *ctrlr, size_t num_ctrlrs, unsigned int *idx) { unsigned int i; for (i = 0; i < num_ctrlrs; i++) { if (base == ctrlr[i].base) { *idx = i; return CB_SUCCESS; } } return CB_ERR; } static enum cb_err get_uart_aoac_device(uintptr_t base, unsigned int *aoac_dev) { unsigned int idx; size_t num_ctrlrs; const struct soc_uart_ctrlr_info *ctrlr = soc_get_uart_ctrlr_info(&num_ctrlrs); if (get_uart_idx(base, ctrlr, num_ctrlrs, &idx) == CB_ERR) return CB_ERR; *aoac_dev = ctrlr[idx].aoac_device; return CB_SUCCESS; } void clear_uart_legacy_config(void) { write16p(FCH_LEGACY_UART_DECODE, 0); } void set_uart_config(unsigned int idx) { size_t num_ctrlrs; const struct soc_uart_ctrlr_info *ctrlr = soc_get_uart_ctrlr_info(&num_ctrlrs); if (idx >= num_ctrlrs) return; gpio_configure_pads(ctrlr[idx].mux, 2); } static const char *uart_acpi_name(const struct device *dev) { unsigned int idx; size_t num_ctrlrs; const struct soc_uart_ctrlr_info *ctrlr = soc_get_uart_ctrlr_info(&num_ctrlrs); if (get_uart_idx(dev->path.mmio.addr, ctrlr, num_ctrlrs, &idx) == CB_SUCCESS) return ctrlr[idx].acpi_name; else return NULL; } /* Even though this is called enable, it gets called for both enabled and disabled devices. */ static void uart_enable(struct device *dev) { unsigned int dev_id; if (get_uart_aoac_device(dev->path.mmio.addr, &dev_id) == CB_ERR) { printk(BIOS_ERR, "%s: Unknown device: %s\n", __func__, dev_path(dev)); return; } if (dev->enabled) { power_on_aoac_device(dev_id); wait_for_aoac_enabled(dev_id); } else { power_off_aoac_device(dev_id); } } static void uart_read_resources(struct device *dev) { mmio_resource_kb(dev, 0, dev->path.mmio.addr / KiB, 4); } struct device_operations mendocino_uart_mmio_ops = { .read_resources = uart_read_resources, .set_resources = noop_set_resources, .scan_bus = scan_static_bus, .enable = uart_enable, .acpi_name = uart_acpi_name, .acpi_fill_ssdt = uart_inject_ssdt, };