/* * * Copyright (C) 2008 Advanced Micro Devices, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef _COREBOOT_TABLES_H #define _COREBOOT_TABLES_H #include #include #include enum { CB_TAG_UNUSED = 0x0000, CB_TAG_MEMORY = 0x0001, CB_TAG_HWRPB = 0x0002, CB_TAG_MAINBOARD = 0x0003, CB_TAG_VERSION = 0x0004, CB_TAG_EXTRA_VERSION = 0x0005, CB_TAG_BUILD = 0x0006, CB_TAG_COMPILE_TIME = 0x0007, CB_TAG_COMPILE_BY = 0x0008, CB_TAG_COMPILE_HOST = 0x0009, CB_TAG_COMPILE_DOMAIN = 0x000a, CB_TAG_COMPILER = 0x000b, CB_TAG_LINKER = 0x000c, CB_TAG_ASSEMBLER = 0x000d, CB_TAG_SERIAL = 0x000f, CB_TAG_CONSOLE = 0x0010, CB_TAG_FORWARD = 0x0011, CB_TAG_FRAMEBUFFER = 0x0012, CB_TAG_GPIO = 0x0013, CB_TAG_TIMESTAMPS = 0x0016, CB_TAG_CBMEM_CONSOLE = 0x0017, CB_TAG_MRC_CACHE = 0x0018, CB_TAG_VBNV = 0x0019, CB_TAG_VBOOT_HANDOFF = 0x0020, /* deprecated */ CB_TAG_X86_ROM_MTRR = 0x0021, CB_TAG_DMA = 0x0022, CB_TAG_RAM_OOPS = 0x0023, CB_TAG_ACPI_GNVS = 0x0024, CB_TAG_BOARD_ID = 0x0025, CB_TAG_VERSION_TIMESTAMP = 0x0026, CB_TAG_WIFI_CALIBRATION = 0x0027, CB_TAG_RAM_CODE = 0x0028, CB_TAG_SPI_FLASH = 0x0029, CB_TAG_SERIALNO = 0x002a, CB_TAG_MTC = 0x002b, CB_TAG_VPD = 0x002c, CB_TAG_SKU_ID = 0x002d, CB_TAG_BOOT_MEDIA_PARAMS = 0x0030, CB_TAG_CBMEM_ENTRY = 0x0031, CB_TAG_TSC_INFO = 0x0032, CB_TAG_MAC_ADDRS = 0x0033, CB_TAG_VBOOT_WORKBUF = 0x0034, CB_TAG_MMC_INFO = 0x0035, CB_TAG_TCPA_LOG = 0x0036, CB_TAG_FMAP = 0x0037, CB_TAG_SMMSTOREV2 = 0x0039, CB_TAG_BOARD_CONFIG = 0x0040, CB_TAG_ACPI_CNVS = 0x0041, CB_TAG_TYPE_C_INFO = 0x0042, CB_TAG_ACPI_RSDP = 0x0043, CB_TAG_PCIE = 0x0044, CB_TAG_CMOS_OPTION_TABLE = 0x00c8, CB_TAG_OPTION = 0x00c9, CB_TAG_OPTION_ENUM = 0x00ca, CB_TAG_OPTION_DEFAULTS = 0x00cb, CB_TAG_OPTION_CHECKSUM = 0x00cc, }; typedef __aligned(4) uint64_t cb_uint64_t; struct cb_header { u8 signature[4]; u32 header_bytes; u32 header_checksum; u32 table_bytes; u32 table_checksum; u32 table_entries; }; struct cb_record { u32 tag; u32 size; }; struct cb_memory_range { cb_uint64_t start; cb_uint64_t size; u32 type; }; #define CB_MEM_RAM 1 #define CB_MEM_RESERVED 2 #define CB_MEM_ACPI 3 #define CB_MEM_NVS 4 #define CB_MEM_UNUSABLE 5 #define CB_MEM_VENDOR_RSVD 6 #define CB_MEM_TABLE 16 struct cb_memory { u32 tag; u32 size; struct cb_memory_range map[]; }; struct cb_hwrpb { u32 tag; u32 size; u64 hwrpb; }; struct cb_mainboard { u32 tag; u32 size; u8 vendor_idx; u8 part_number_idx; u8 strings[]; }; enum type_c_orientation { TYPEC_ORIENTATION_NONE, TYPEC_ORIENTATION_NORMAL, TYPEC_ORIENTATION_REVERSE, }; struct type_c_port_info { /* * usb2_port_number and usb3_port_number are expected to be * the port numbers as seen by the USB controller in the SoC. */ uint8_t usb2_port_number; uint8_t usb3_port_number; /* * Valid sbu_orientation and data_orientation values will be of * type enum type_c_orienation. */ uint8_t sbu_orientation; uint8_t data_orientation; }; struct type_c_info { u32 port_count; struct type_c_port_info port_info[]; }; struct cb_string { u32 tag; u32 size; u8 string[]; }; struct cb_serial { u32 tag; u32 size; #define CB_SERIAL_TYPE_IO_MAPPED 1 #define CB_SERIAL_TYPE_MEMORY_MAPPED 2 u32 type; u32 baseaddr; u32 baud; u32 regwidth; /* Crystal or input frequency to the chip containing the UART. * Provide the board specific details to allow the payload to * initialize the chip containing the UART and make independent * decisions as to which dividers to select and their values * to eventually arrive at the desired console baud-rate. */ u32 input_hertz; }; struct cb_console { u32 tag; u32 size; u16 type; }; #define CB_TAG_CONSOLE_SERIAL8250 0 #define CB_TAG_CONSOLE_VGA 1 // OBSOLETE #define CB_TAG_CONSOLE_BTEXT 2 // OBSOLETE #define CB_TAG_CONSOLE_LOGBUF 3 // OBSOLETE #define CB_TAG_CONSOLE_SROM 4 // OBSOLETE #define CB_TAG_CONSOLE_EHCI 5 struct cb_forward { u32 tag; u32 size; u64 forward; }; /* Panel orientation, matches drm_connector.h in the Linux kernel. */ enum cb_fb_orientation { CB_FB_ORIENTATION_NORMAL = 0, CB_FB_ORIENTATION_BOTTOM_UP = 1, CB_FB_ORIENTATION_LEFT_UP = 2, CB_FB_ORIENTATION_RIGHT_UP = 3, }; struct cb_framebuffer { u32 tag; u32 size; u64 physical_address; u32 x_resolution; u32 y_resolution; u32 bytes_per_line; u8 bits_per_pixel; u8 red_mask_pos; u8 red_mask_size; u8 green_mask_pos; u8 green_mask_size; u8 blue_mask_pos; u8 blue_mask_size; u8 reserved_mask_pos; u8 reserved_mask_size; u8 orientation; }; #define CB_GPIO_ACTIVE_LOW 0 #define CB_GPIO_ACTIVE_HIGH 1 #define CB_GPIO_MAX_NAME_LENGTH 16 struct cb_gpio { u32 port; u32 polarity; u32 value; u8 name[CB_GPIO_MAX_NAME_LENGTH]; }; struct cb_gpios { u32 tag; u32 size; u32 count; struct cb_gpio gpios[]; }; struct cb_pcie { uint32_t tag; uint32_t size; cb_uint64_t ctrl_base; /* Base address of PCIe controller */ }; struct lb_range { uint32_t tag; uint32_t size; cb_uint64_t range_start; uint32_t range_size; }; struct cb_cbmem_tab { uint32_t tag; uint32_t size; cb_uint64_t cbmem_tab; }; struct cb_x86_rom_mtrr { uint32_t tag; uint32_t size; /* The variable range MTRR index covering the ROM. If one wants to * enable caching the ROM, the variable MTRR needs to be set to * write-protect. To disable the caching after enabling set the * type to uncacheable. */ uint32_t index; }; /* Memory map windows to translate addresses between SPI flash space and host address space. */ struct flash_mmap_window { uint32_t flash_base; uint32_t host_base; uint32_t size; }; struct cb_spi_flash { uint32_t tag; uint32_t size; uint32_t flash_size; uint32_t sector_size; uint32_t erase_cmd; /* * Number of mmap windows used by the platform to decode addresses between SPI flash * space and host address space. This determines the number of entries in mmap_table. */ uint32_t mmap_count; struct flash_mmap_window mmap_table[]; }; struct cb_boot_media_params { uint32_t tag; uint32_t size; /* offsets are relative to start of boot media */ cb_uint64_t fmap_offset; cb_uint64_t cbfs_offset; cb_uint64_t cbfs_size; cb_uint64_t boot_media_size; }; struct cb_cbmem_entry { uint32_t tag; uint32_t size; cb_uint64_t address; uint32_t entry_size; uint32_t id; }; struct cb_tsc_info { uint32_t tag; uint32_t size; uint32_t freq_khz; }; struct mac_address { uint8_t mac_addr[6]; uint8_t pad[2]; /* Pad it to 8 bytes to keep it simple. */ }; struct cb_macs { uint32_t tag; uint32_t size; uint32_t count; struct mac_address mac_addrs[]; }; struct cb_mmc_info { uint32_t tag; uint32_t size; /* * Passes the early mmc status to payload to indicate if firmware * successfully sent CMD0, CMD1 to the card or not. In case of * success, the payload can skip the first step of the initialization * sequence which is to send CMD0, and instead start by sending CMD1 * as described in Jedec Standard JESD83-B1 section 6.4.3. * passes 1 on success */ int32_t early_cmd1_status; }; struct cb_board_config { uint32_t tag; uint32_t size; cb_uint64_t fw_config; uint32_t board_id; uint32_t ram_code; uint32_t sku_id; }; #define CB_MAX_SERIALNO_LENGTH 32 struct cb_cmos_option_table { u32 tag; u32 size; u32 header_length; }; #define CB_CMOS_MAX_NAME_LENGTH 32 struct cb_cmos_entries { u32 tag; u32 size; u32 bit; u32 length; u32 config; u32 config_id; u8 name[CB_CMOS_MAX_NAME_LENGTH]; }; #define CB_CMOS_MAX_TEXT_LENGTH 32 struct cb_cmos_enums { u32 tag; u32 size; u32 config_id; u32 value; u8 text[CB_CMOS_MAX_TEXT_LENGTH]; }; #define CB_CMOS_IMAGE_BUFFER_SIZE 128 struct cb_cmos_defaults { u32 tag; u32 size; u32 name_length; u8 name[CB_CMOS_MAX_NAME_LENGTH]; u8 default_set[CB_CMOS_IMAGE_BUFFER_SIZE]; }; #define CB_CHECKSUM_NONE 0 #define CB_CHECKSUM_PCBIOS 1 struct cb_cmos_checksum { u32 tag; u32 size; u32 range_start; u32 range_end; u32 location; u32 type; }; /* * Handoff the ACPI RSDP */ struct cb_acpi_rsdp { uint32_t tag; uint32_t size; cb_uint64_t rsdp_pointer; /* Address of the ACPI RSDP */ }; /* Helpful inlines */ static inline u16 cb_checksum(const void *ptr, unsigned len) { return ipchksum(ptr, len); } static inline const char *cb_mb_vendor_string(const struct cb_mainboard *cbm) { return (char *)(cbm->strings + cbm->vendor_idx); } static inline const char *cb_mb_part_string(const struct cb_mainboard *cbm) { return (char *)(cbm->strings + cbm->part_number_idx); } /* Helpful macros */ #define MEM_RANGE_COUNT(_rec) \ (((_rec)->size - sizeof(*(_rec))) / sizeof((_rec)->map[0])) #define MEM_RANGE_PTR(_rec, _idx) \ (void *)(((u8 *) (_rec)) + sizeof(*(_rec)) \ + (sizeof((_rec)->map[0]) * (_idx))) #endif