/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include #include #include #include #include #if CONFIG(CPU_AMD_AGESA_OPENSOURCE) #include "Dispatcher.h" #endif #if ENV_RAMINIT #include CONST PSO_ENTRY ROMDATA DefaultPlatformMemoryConfiguration[] = {PSO_END}; #endif static void agesa_locate_image(AMD_CONFIG_PARAMS *StdHeader) { #if CONFIG(CPU_AMD_AGESA_BINARY_PI) const char ModuleIdentifier[] = AGESA_ID; const void *agesa, *image; size_t file_size; agesa = cbfs_map((const char *)CONFIG_AGESA_CBFS_NAME, &file_size); if (agesa == NULL) return; image = LibAmdLocateImage(agesa, agesa + file_size, 4096, ModuleIdentifier); StdHeader->ImageBasePtr = (void *) image; #endif } void agesa_set_interface(struct sysinfo *cb) { memset(&cb->StdHeader, 0, sizeof(AMD_CONFIG_PARAMS)); cb->StdHeader.CalloutPtr = GetBiosCallout; if (CONFIG(CPU_AMD_AGESA_BINARY_PI)) { agesa_locate_image(&cb->StdHeader); AMD_IMAGE_HEADER *image = (void *)(uintptr_t)cb->StdHeader.ImageBasePtr; ASSERT(image); AMD_MODULE_HEADER *module = (void *)(uintptr_t)image->ModuleInfoOffset; ASSERT(module && module->ModuleDispatcher); } } AGESA_STATUS module_dispatch(AGESA_STRUCT_NAME func, AMD_CONFIG_PARAMS *StdHeader) { MODULE_ENTRY dispatcher; #if CONFIG(CPU_AMD_AGESA_OPENSOURCE) dispatcher = AmdAgesaDispatcher; #endif #if CONFIG(CPU_AMD_AGESA_BINARY_PI) AMD_IMAGE_HEADER *image = (void *)(uintptr_t)StdHeader->ImageBasePtr; AMD_MODULE_HEADER *module = (void *)(uintptr_t)image->ModuleInfoOffset; dispatcher = module->ModuleDispatcher; #endif StdHeader->Func = func; return dispatcher(StdHeader); } static AGESA_STATUS amd_create_struct(AMD_INTERFACE_PARAMS *aip, AGESA_STRUCT_NAME func, void *buf, size_t len) { aip->AgesaFunctionName = func; aip->AllocationMethod = 0; aip->NewStructPtr = buf; aip->NewStructSize = len; if (buf != NULL && len != 0) aip->AllocationMethod = ByHost; return module_dispatch(AMD_CREATE_STRUCT, &aip->StdHeader); } static AGESA_STATUS amd_release_struct(AMD_INTERFACE_PARAMS *aip) { /* Cannot release AMD_LATE_PARAMS until ACPI tables are done. */ if (aip->AgesaFunctionName == AMD_INIT_LATE) return AGESA_SUCCESS; return module_dispatch(AMD_RELEASE_STRUCT, &aip->StdHeader); } /* By design, for each valid AGESA_STRUCT_NAME, AMD_CONFIG_PARAMS * can be evaluated to apply correct typecast based on Func field. */ static AGESA_STATUS romstage_dispatch(struct sysinfo *cb, AGESA_STRUCT_NAME func, AMD_CONFIG_PARAMS *StdHeader) { AGESA_STATUS status = AGESA_UNSUPPORTED; switch (func) { case AMD_INIT_RESET: { AMD_RESET_PARAMS *param = (void *)StdHeader; platform_BeforeInitReset(cb, param); board_BeforeInitReset(cb, param); status = module_dispatch(func, StdHeader); break; } case AMD_INIT_EARLY: { AMD_EARLY_PARAMS *param = (void *)StdHeader; platform_BeforeInitEarly(cb, param); board_BeforeInitEarly(cb, param); status = module_dispatch(func, StdHeader); break; } case AMD_INIT_POST: { AMD_POST_PARAMS *param = (void *)StdHeader; platform_BeforeInitPost(cb, param); board_BeforeInitPost(cb, param); status = module_dispatch(func, StdHeader); /* FIXME: Detect if TSC frequency really * changed during raminit? */ timestamp_rescale_table(1, 4); platform_AfterInitPost(cb, param); break; } case AMD_INIT_RESUME: { AMD_RESUME_PARAMS *param = (void *)StdHeader; platform_BeforeInitResume(cb, param); status = module_dispatch(func, StdHeader); /* FIXME: Detect if TSC frequency really * changed during raminit? */ timestamp_rescale_table(1, 4); platform_AfterInitResume(cb, param); break; } default: { break; } } return status; } static AGESA_STATUS ramstage_dispatch(struct sysinfo *cb, AGESA_STRUCT_NAME func, AMD_CONFIG_PARAMS *StdHeader) { AGESA_STATUS status = AGESA_UNSUPPORTED; switch (func) { case AMD_INIT_ENV: { AMD_ENV_PARAMS *param = (void *)StdHeader; platform_BeforeInitEnv(cb, param); board_BeforeInitEnv(cb, param); status = module_dispatch(func, StdHeader); platform_AfterInitEnv(cb, param); break; } case AMD_S3LATE_RESTORE: { AMD_S3LATE_PARAMS *param = (void *)StdHeader; platform_BeforeS3LateRestore(cb, param); status = module_dispatch(func, StdHeader); platform_AfterS3LateRestore(cb, param); break; } case AMD_INIT_MID: { AMD_MID_PARAMS *param = (void *)StdHeader; platform_BeforeInitMid(cb, param); board_BeforeInitMid(cb, param); status = module_dispatch(func, StdHeader); break; } case AMD_S3_SAVE: { AMD_S3SAVE_PARAMS *param = (void *)StdHeader; status = module_dispatch(func, StdHeader); platform_AfterS3Save(cb, param); break; } case AMD_INIT_LATE: { AMD_LATE_PARAMS *param = (void *)StdHeader; platform_BeforeInitLate(cb, param); board_BeforeInitLate(cb, param); status = module_dispatch(func, StdHeader); platform_AfterInitLate(cb, param); completion_InitLate(cb, param); break; } default: { break; } } return status; } int agesa_execute_state(struct sysinfo *cb, AGESA_STRUCT_NAME func) { AMD_INTERFACE_PARAMS aip; union { AMD_RESET_PARAMS reset; AMD_S3LATE_PARAMS s3late; } agesa_params; void *buf = NULL; size_t len = 0; AGESA_STATUS status, final; struct agesa_state task; memset(&task, 0, sizeof(task)); agesa_state_on_entry(&task, func); aip.StdHeader = cb->StdHeader; /* For these calls, heap is not available. */ if (func == AMD_INIT_RESET || func == AMD_S3LATE_RESTORE) { buf = (void *) &agesa_params; len = sizeof(agesa_params); memcpy(buf, &cb->StdHeader, sizeof(cb->StdHeader)); } status = amd_create_struct(&aip, func, buf, len); ASSERT(status == AGESA_SUCCESS); /* Must call the function buffer was allocated for.*/ AMD_CONFIG_PARAMS *StdHeader = aip.NewStructPtr; ASSERT(StdHeader != NULL && StdHeader->Func == func); if (CONFIG(AGESA_EXTRA_TIMESTAMPS) && task.ts_entry_id) timestamp_add_now(task.ts_entry_id); if (ENV_RAMINIT) final = romstage_dispatch(cb, func, StdHeader); if (ENV_RAMSTAGE) final = ramstage_dispatch(cb, func, StdHeader); if (CONFIG(AGESA_EXTRA_TIMESTAMPS) && task.ts_exit_id) timestamp_add_now(task.ts_exit_id); agesawrapper_trace(final, StdHeader, task.function_name); ASSERT(final < AGESA_FATAL); status = amd_release_struct(&aip); ASSERT(status == AGESA_SUCCESS); agesa_state_on_exit(&task, &aip.StdHeader); return (final < AGESA_FATAL) ? 0 : -1; } #if ENV_RAMSTAGE static void amd_bs_ramstage_init(void *arg) { struct sysinfo *cb = arg; agesa_set_interface(cb); if (!acpi_is_wakeup_s3()) agesa_execute_state(cb, AMD_INIT_ENV); else { agesa_execute_state(cb, AMD_S3LATE_RESTORE); fchs3earlyrestore(&cb->StdHeader); } } void sb_After_Pci_Restore_Init(void); static void amd_bs_dev_enable(void *arg) { struct sysinfo *cb = arg; if (!acpi_is_wakeup_s3()) agesa_execute_state(cb, AMD_INIT_MID); /* FIXME */ if (CONFIG(AMD_SB_CIMX) && acpi_is_wakeup_s3()) sb_After_Pci_Restore_Init(); } static void amd_bs_post_device(void *arg) { struct sysinfo *cb = arg; if (acpi_is_wakeup_s3()) { fchs3laterestore(&cb->StdHeader); return; } agesa_execute_state(cb, AMD_INIT_LATE); if (!acpi_s3_resume_allowed()) return; agesa_execute_state(cb, AMD_S3_SAVE); } static struct sysinfo state_machine; BOOT_STATE_INIT_ENTRY(BS_PRE_DEVICE, BS_ON_ENTRY, amd_bs_ramstage_init, &state_machine); BOOT_STATE_INIT_ENTRY(BS_DEV_ENABLE, BS_ON_ENTRY, amd_bs_dev_enable, &state_machine); BOOT_STATE_INIT_ENTRY(BS_POST_DEVICE, BS_ON_EXIT, amd_bs_post_device, &state_machine); #endif /* ENV_RAMSTAGE */ /* Empty stubs for cases board does not need to override anything. */ void __weak board_BeforeInitReset(struct sysinfo *cb, AMD_RESET_PARAMS *Reset) { } void __weak board_BeforeInitEarly(struct sysinfo *cb, AMD_EARLY_PARAMS *Early) { } void __weak board_BeforeInitPost(struct sysinfo *cb, AMD_POST_PARAMS *Post) { } void __weak board_BeforeInitEnv(struct sysinfo *cb, AMD_ENV_PARAMS *Env) { } void __weak board_BeforeInitMid(struct sysinfo *cb, AMD_MID_PARAMS *Mid) { } void __weak board_BeforeInitLate(struct sysinfo *cb, AMD_LATE_PARAMS *Late) { } AGESA_STATUS __weak fchs3earlyrestore(AMD_CONFIG_PARAMS *StdHeader) { return AGESA_SUCCESS; } AGESA_STATUS __weak fchs3laterestore(AMD_CONFIG_PARAMS *StdHeader) { return AGESA_SUCCESS; }