/* This file is part of the coreboot project. */ /* SPDX-License-Identifier: GPL-2.0-or-later */ #ifndef _FSP2_0_API_H_ #define _FSP2_0_API_H_ #include #include #include #include #define FSP_SUCCESS EFI_SUCCESS #define FSP_INVALID_PARAMETER EFI_INVALID_PARAMETER #define FSP_DEVICE_ERROR EFI_DEVICE_ERROR #define FSP_NOT_FOUND EFI_NOT_FOUND #define FSP_NOT_STARTED EFI_NOT_STARTED #define FSP_UNSUPPORTED EFI_UNSUPPORTED enum fsp_boot_mode { FSP_BOOT_WITH_FULL_CONFIGURATION = 0x00, FSP_BOOT_WITH_MINIMAL_CONFIGURATION = 0x01, FSP_BOOT_ASSUMING_NO_CONFIGURATION_CHANGES = 0x02, FSP_BOOT_ON_S4_RESUME = 0x05, FSP_BOOT_ON_S3_RESUME = 0x11, FSP_BOOT_ON_FLASH_UPDATE = 0x12, FSP_BOOT_IN_RECOVERY_MODE = 0x20 }; enum fsp_notify_phase { AFTER_PCI_ENUM = 0x20, READY_TO_BOOT = 0x40, END_OF_FIRMWARE = 0xF0 }; /* Main FSP stages */ void fsp_memory_init(bool s3wake); void fsp_silicon_init(bool s3wake); void fsp_temp_ram_exit(void); /* * Load FSP-S from stage cache or CBFS. This allows SoCs to load FSPS-S * separately from calling silicon init. It might be required in cases where * stage cache is no longer available by the point SoC calls into silicon init. */ void fsps_load(bool s3wake); /* Callbacks for updating stage-specific parameters */ void platform_fsp_memory_init_params_cb(FSPM_UPD *mupd, uint32_t version); void platform_fsp_silicon_init_params_cb(FSPS_UPD *supd); /* * The following functions are used when FSP_PLATFORM_MEMORY_SETTINGS_VERSION * is employed allowing the mainboard and SoC to supply their own version * for memory settings respectively. The valid values are 0-15 for each * function. */ uint8_t fsp_memory_mainboard_version(void); uint8_t fsp_memory_soc_version(void); /* Load logo to be displayed by FSP */ const struct cbmem_entry *fsp_load_logo(UINT32 *logo_ptr, UINT32 *logo_size); /* Callback after processing FSP notify */ void platform_fsp_notify_status(enum fsp_notify_phase phase); /* Initialize memory margin analysis settings. */ void setup_mma(FSP_M_CONFIG *memory_cfg); /* Update the SOC specific logo param and load the logo. */ const struct cbmem_entry *soc_load_logo(FSPS_UPD *supd); /* Update the SOC specific memory config param for mma. */ void soc_update_memory_params_for_mma(FSP_M_CONFIG *memory_cfg, struct mma_config_param *mma_cfg); /* * # DOCUMENTATION: * * This file defines the interface between coreboot and the FSP 2.0 wrapper * fsp_memory_init(), fsp_silicon_init(), and fsp_notify() are the main entry * points and map 1:1 to the FSP entry points of the same name. * * ### fsp_memory_init(): * - s3wake: boolean indicating if the system is waking from resume * * This function is responsible for loading and executing the memory * initialization code from the FSP-M binary. It expects this binary to reside * in cbfs as FSP_M_FILE. * * The function takes one parameter, which is described above, but does not * take in memory parameters as an argument. The memory parameters can be filled * in with platform_fsp_memory_init_params_cb(). This is a callback symbol * that fsp_memory_init() will call. The platform must provide this symbol. * * * ### fsp_silicon_init(): * * This function is responsible for loading and executing the silicon * initialization code from the FSP-S binary. It expects this binary to reside * in cbfs as FSP_S_FILE. * * Like fsp_memory_init(), it provides a callback to fill in FSP-specific * parameters, via platform_fsp_silicon_init_params_cb(). The platform must * also provide this symbol. * * * ### fsp_notify(): * - phase: Which FSP notification phase * * This function is responsible for loading and executing the notify code from * the FSP-S binary. It expects that fsp_silicon_init() has already been called * successfully, and that the FSP-S binary is still loaded into memory. */ #endif /* _FSP2_0_API_H_ */