/* SPDX-License-Identifier: GPL-2.0-or-later */ /* This file is part of the coreboot project. */ #ifndef __AMDBLOCKS_ACPIMMIO_H__ #define __AMDBLOCKS_ACPIMMIO_H__ #include #include #include #include /* * The following AcpiMmio register block mapping represents definitions * that have been documented in AMD publications. All blocks aren't * implemented in all products, so the caller should be careful not to * inadvertently access a non-existent block. The definitions within * each block are also subject to change across products. Please refer * to the appropriate RRG, the BKDG, or PPR for the product. * * The base address is configurable in older products, but defaults to * 0xfed80000. The address is fixed at 0xfed80000 in newer products. * * +---------------------------------------------------------------------------+ * |0x000 SMBus PCI space | * | * Dual-mapped to PCI configuration header of D14F0 | * +---------------------------------------------------------------------------+ * |0x100 GPIO configuration registers | * | * old style, never implemented with newer style | * +---------------------------------------------------------------------------+ * |0x200 SMI configuration registers | * +---------------------------------------------------------------------------+ * |0x300 Power Management registers | * | * Dual-mapped via IO Index/Data 0xcd6/0xcd7 (byte access only) | * +---------------------------------------------------------------------------+ * |0x400 Power Management 2 registers | * +---------------------------------------------------------------------------+ * |0x500 BIOS RAM | * | * General-purpose storage in S3 domain | * | * Byte access only | * +---------------------------------------------------------------------------+ * |0x600 CMOS RAM | * | * Dual-mapped to storage at Alt RTC Index/Data (0x72/0x73) | * | * Byte access only | * +---------------------------------------------------------------------------+ * |0x700 CMOS | * | * Dual-mapped to storage at RTC Index/Data (0x70/0x71) | * | * Byte access only | * +---------------------------------------------------------------------------+ * |0x800 Standard ACPI registers | * | * Dual-mapped to I/O ACPI registers | * +---------------------------------------------------------------------------+ * |0x900 ASF controller registers | * | * Dual-mapped to I/O ASF controller registers | * +---------------------------------------------------------------------------+ * |0xa00 SMBus controller registers | * | * Dual-mapped to I/O SMBus controller registers | * +---------------------------------------------------------------------------+ * |0xb00 WDT registers | * | * Dual-mapped to WDT registers, typ. enabled at 0xfeb00000 | * +---------------------------------------------------------------------------+ * |0xc00 HPET registers | * | * Dual-mapped to HPET registers, typ. enabled at 0xfed00000 | * +---------------------------------------------------------------------------+ * |0xd00 MUX configuration registers for GPIO signals | * +---------------------------------------------------------------------------+ * |0xe00 Miscellaneous registers | * +---------------------------------------------------------------------------+ * |0x1000 Serial debug bus | * +---------------------------------------------------------------------------+ * |0x1400 DP-VGA | * +---------------------------------------------------------------------------+ * |0x1500 GPIO configuration registers bank 0 | * | * new style, never implemented with older style | * +---------------------------------------------------------------------------+ * |0x1600 GPIO configuration registers bank 1 | * | * new style, never implemented with older style | * +---------------------------------------------------------------------------+ * |0x1700 GPIO configuration registers bank 2 | * | * new style, never implemented with older style | * +---------------------------------------------------------------------------+ * |0x1c00 xHCI Power Management registers | * +---------------------------------------------------------------------------+ * |0x1d00 Wake device (AC DC timer) | * +---------------------------------------------------------------------------+ * |0x1e00 Always On Always Connect registers | * +---------------------------------------------------------------------------+ */ /* Enable the AcpiMmio range at 0xfed80000 */ /* For older discrete FCHs */ void enable_acpimmio_decode_pm24(void); /* For newer integrated FCHs */ void enable_acpimmio_decode_pm04(void); /* Access PM registers using IO cycles */ uint8_t pm_io_read8(uint8_t reg); uint16_t pm_io_read16(uint8_t reg); uint32_t pm_io_read32(uint8_t reg); void pm_io_write8(uint8_t reg, uint8_t value); void pm_io_write16(uint8_t reg, uint16_t value); void pm_io_write32(uint8_t reg, uint32_t value); static inline uint8_t sm_pci_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_SM_PCI_BASE + reg)); } static inline uint16_t sm_pci_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_SM_PCI_BASE + reg)); } static inline uint32_t sm_pci_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_SM_PCI_BASE + reg)); } static inline void sm_pci_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_SM_PCI_BASE + reg), value); } static inline void sm_pci_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_SM_PCI_BASE + reg), value); } static inline void sm_pci_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_SM_PCI_BASE + reg), value); } static inline uint8_t smi_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_SMI_BASE + reg)); } static inline uint16_t smi_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_SMI_BASE + reg)); } static inline uint32_t smi_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_SMI_BASE + reg)); } static inline void smi_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_SMI_BASE + reg), value); } static inline void smi_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_SMI_BASE + reg), value); } static inline void smi_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_SMI_BASE + reg), value); } static inline uint8_t pm_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_PMIO_BASE + reg)); } static inline uint16_t pm_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_PMIO_BASE + reg)); } static inline uint32_t pm_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_PMIO_BASE + reg)); } static inline void pm_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_PMIO_BASE + reg), value); } static inline void pm_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_PMIO_BASE + reg), value); } static inline void pm_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_PMIO_BASE + reg), value); } static inline uint8_t pm2_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_PMIO2_BASE + reg)); } static inline uint16_t pm2_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_PMIO2_BASE + reg)); } static inline uint32_t pm2_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_PMIO2_BASE + reg)); } static inline void pm2_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_PMIO2_BASE + reg), value); } static inline void pm2_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_PMIO2_BASE + reg), value); } static inline void pm2_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_PMIO2_BASE + reg), value); } static inline uint8_t acpi_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_ACPI_BASE + reg)); } static inline uint16_t acpi_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_ACPI_BASE + reg)); } static inline uint32_t acpi_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_ACPI_BASE + reg)); } static inline void acpi_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_ACPI_BASE + reg), value); } static inline void acpi_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_ACPI_BASE + reg), value); } static inline void acpi_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_ACPI_BASE + reg), value); } static inline uint8_t asf_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_ASF_BASE + reg)); } static inline uint16_t asf_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_ASF_BASE + reg)); } static inline void asf_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_ASF_BASE + reg), value); } static inline void asf_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_ASF_BASE + reg), value); } static inline uint8_t smbus_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_SMBUS_BASE + reg)); } static inline uint16_t smbus_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_SMBUS_BASE + reg)); } static inline void smbus_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_SMBUS_BASE + reg), value); } static inline void smbus_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_SMBUS_BASE + reg), value); } static inline uint8_t iomux_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_IOMUX_BASE + reg)); } static inline uint16_t iomux_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_IOMUX_BASE + reg)); } static inline uint32_t iomux_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_IOMUX_BASE + reg)); } static inline void iomux_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_IOMUX_BASE + reg), value); } static inline void iomux_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_IOMUX_BASE + reg), value); } static inline void iomux_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_IOMUX_BASE + reg), value); } static inline uint8_t misc_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_MISC_BASE + reg)); } static inline uint16_t misc_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_MISC_BASE + reg)); } static inline uint32_t misc_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_MISC_BASE + reg)); } static inline void misc_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_MISC_BASE + reg), value); } static inline void misc_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_MISC_BASE + reg), value); } static inline void misc_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_MISC_BASE + reg), value); } /* Old GPIO configuration registers */ static inline uint8_t gpio_100_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_GPIO_BASE_100 + reg)); } static inline uint16_t gpio_100_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_GPIO_BASE_100 + reg)); } static inline uint32_t gpio_100_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_GPIO_BASE_100 + reg)); } static inline void gpio_100_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_GPIO_BASE_100 + reg), value); } static inline void gpio_100_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_GPIO_BASE_100 + reg), value); } static inline void gpio_100_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_GPIO_BASE_100 + reg), value); } /* New GPIO banks configuration registers */ /* GPIO bank 0 */ static inline uint8_t gpio0_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_GPIO0_BASE + reg)); } static inline uint16_t gpio0_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_GPIO0_BASE + reg)); } static inline uint32_t gpio0_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_GPIO0_BASE + reg)); } static inline void gpio0_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_GPIO0_BASE + reg), value); } static inline void gpio0_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_GPIO0_BASE + reg), value); } static inline void gpio0_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_GPIO0_BASE + reg), value); } /* GPIO bank 1 */ static inline uint8_t gpio1_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_GPIO1_BASE + reg)); } static inline uint16_t gpio1_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_GPIO1_BASE + reg)); } static inline uint32_t gpio1_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_GPIO1_BASE + reg)); } static inline void gpio1_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_GPIO1_BASE + reg), value); } static inline void gpio1_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_GPIO1_BASE + reg), value); } static inline void gpio1_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_GPIO1_BASE + reg), value); } /* GPIO bank 2 */ static inline uint8_t gpio2_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_GPIO2_BASE + reg)); } static inline uint16_t gpio2_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_GPIO2_BASE + reg)); } static inline uint32_t gpio2_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_GPIO2_BASE + reg)); } static inline void gpio2_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_GPIO2_BASE + reg), value); } static inline void gpio2_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_GPIO2_BASE + reg), value); } static inline void gpio2_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_GPIO2_BASE + reg), value); } static inline uint8_t xhci_pm_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_XHCIPM_BASE + reg)); } static inline uint16_t xhci_pm_read16(uint8_t reg) { return read16((void *)(ACPIMMIO_XHCIPM_BASE + reg)); } static inline uint32_t xhci_pm_read32(uint8_t reg) { return read32((void *)(ACPIMMIO_XHCIPM_BASE + reg)); } static inline void xhci_pm_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_XHCIPM_BASE + reg), value); } static inline void xhci_pm_write16(uint8_t reg, uint16_t value) { write16((void *)(ACPIMMIO_XHCIPM_BASE + reg), value); } static inline void xhci_pm_write32(uint8_t reg, uint32_t value) { write32((void *)(ACPIMMIO_XHCIPM_BASE + reg), value); } static inline uint8_t aoac_read8(uint8_t reg) { return read8((void *)(ACPIMMIO_AOAC_BASE + reg)); } static inline void aoac_write8(uint8_t reg, uint8_t value) { write8((void *)(ACPIMMIO_AOAC_BASE + reg), value); } #endif /* __AMDBLOCKS_ACPIMMIO_H__ */