mirror of
https://github.com/AsahiLinux/u-boot
synced 2024-12-05 19:10:13 +00:00
f739fcd831
As part of the main conversion a few files were missed. These files had
additional whitespace after the '*' and before the SPDX tag and my
previous regex was too strict. This time I did a grep for all SPDX tags
and then filtered out anything that matched the correct styles.
Fixes: 83d290c56f
("SPDX: Convert all of our single license tags to Linux Kernel style")
Reported-by: Heinrich Schuchardt <xypron.debian@gmx.de>
Signed-off-by: Tom Rini <trini@konsulko.com>
451 lines
11 KiB
C
451 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* EFI application runtime services
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*
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* Copyright (c) 2016 Alexander Graf
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*/
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#include <common.h>
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#include <command.h>
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#include <dm.h>
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#include <efi_loader.h>
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#include <rtc.h>
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#include <asm/global_data.h>
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/* For manual relocation support */
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DECLARE_GLOBAL_DATA_PTR;
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struct efi_runtime_mmio_list {
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struct list_head link;
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void **ptr;
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u64 paddr;
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u64 len;
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};
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/* This list contains all runtime available mmio regions */
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LIST_HEAD(efi_runtime_mmio);
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static efi_status_t __efi_runtime EFIAPI efi_unimplemented(void);
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static efi_status_t __efi_runtime EFIAPI efi_device_error(void);
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static efi_status_t __efi_runtime EFIAPI efi_invalid_parameter(void);
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#ifdef CONFIG_SYS_CACHELINE_SIZE
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#define EFI_CACHELINE_SIZE CONFIG_SYS_CACHELINE_SIZE
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#else
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/* Just use the greatest cache flush alignment requirement I'm aware of */
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#define EFI_CACHELINE_SIZE 128
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#endif
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#if defined(CONFIG_ARM64)
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#define R_RELATIVE 1027
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#define R_MASK 0xffffffffULL
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#define IS_RELA 1
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#elif defined(CONFIG_ARM)
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#define R_RELATIVE 23
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#define R_MASK 0xffULL
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#elif defined(CONFIG_X86)
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#include <asm/elf.h>
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#define R_RELATIVE R_386_RELATIVE
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#define R_MASK 0xffULL
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#else
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#error Need to add relocation awareness
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#endif
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struct elf_rel {
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ulong *offset;
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ulong info;
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};
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struct elf_rela {
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ulong *offset;
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ulong info;
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long addend;
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};
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/*
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* EFI Runtime code lives in 2 stages. In the first stage, U-Boot and an EFI
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* payload are running concurrently at the same time. In this mode, we can
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* handle a good number of runtime callbacks
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*/
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static void EFIAPI efi_reset_system_boottime(
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enum efi_reset_type reset_type,
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efi_status_t reset_status,
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unsigned long data_size, void *reset_data)
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{
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struct efi_event *evt;
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EFI_ENTRY("%d %lx %lx %p", reset_type, reset_status, data_size,
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reset_data);
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/* Notify reset */
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list_for_each_entry(evt, &efi_events, link) {
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if (evt->group &&
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!guidcmp(evt->group,
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&efi_guid_event_group_reset_system)) {
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efi_signal_event(evt, false);
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break;
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}
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}
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switch (reset_type) {
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case EFI_RESET_COLD:
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case EFI_RESET_WARM:
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case EFI_RESET_PLATFORM_SPECIFIC:
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do_reset(NULL, 0, 0, NULL);
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break;
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case EFI_RESET_SHUTDOWN:
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/* We don't have anything to map this to */
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break;
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}
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while (1) { }
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}
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static efi_status_t EFIAPI efi_get_time_boottime(
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struct efi_time *time,
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struct efi_time_cap *capabilities)
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{
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#if defined(CONFIG_CMD_DATE) && defined(CONFIG_DM_RTC)
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struct rtc_time tm;
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int r;
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struct udevice *dev;
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EFI_ENTRY("%p %p", time, capabilities);
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r = uclass_get_device(UCLASS_RTC, 0, &dev);
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if (r)
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return EFI_EXIT(EFI_DEVICE_ERROR);
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r = dm_rtc_get(dev, &tm);
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if (r)
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return EFI_EXIT(EFI_DEVICE_ERROR);
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memset(time, 0, sizeof(*time));
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time->year = tm.tm_year;
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time->month = tm.tm_mon;
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time->day = tm.tm_mday;
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time->hour = tm.tm_hour;
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time->minute = tm.tm_min;
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time->daylight = tm.tm_isdst;
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return EFI_EXIT(EFI_SUCCESS);
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#else
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return EFI_DEVICE_ERROR;
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#endif
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}
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/* Boards may override the helpers below to implement RTS functionality */
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void __weak __efi_runtime EFIAPI efi_reset_system(
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enum efi_reset_type reset_type,
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efi_status_t reset_status,
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unsigned long data_size, void *reset_data)
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{
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/* Nothing we can do */
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while (1) { }
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}
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efi_status_t __weak efi_reset_system_init(void)
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{
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return EFI_SUCCESS;
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}
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efi_status_t __weak __efi_runtime EFIAPI efi_get_time(
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struct efi_time *time,
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struct efi_time_cap *capabilities)
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{
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/* Nothing we can do */
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return EFI_DEVICE_ERROR;
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}
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efi_status_t __weak efi_get_time_init(void)
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{
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return EFI_SUCCESS;
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}
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struct efi_runtime_detach_list_struct {
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void *ptr;
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void *patchto;
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};
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static const struct efi_runtime_detach_list_struct efi_runtime_detach_list[] = {
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{
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/* do_reset is gone */
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.ptr = &efi_runtime_services.reset_system,
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.patchto = efi_reset_system,
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}, {
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/* invalidate_*cache_all are gone */
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.ptr = &efi_runtime_services.set_virtual_address_map,
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.patchto = &efi_invalid_parameter,
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}, {
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/* RTC accessors are gone */
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.ptr = &efi_runtime_services.get_time,
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.patchto = &efi_get_time,
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}, {
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/* Clean up system table */
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.ptr = &systab.con_in,
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.patchto = NULL,
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}, {
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/* Clean up system table */
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.ptr = &systab.con_out,
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.patchto = NULL,
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}, {
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/* Clean up system table */
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.ptr = &systab.std_err,
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.patchto = NULL,
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}, {
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/* Clean up system table */
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.ptr = &systab.boottime,
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.patchto = NULL,
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}, {
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.ptr = &efi_runtime_services.get_variable,
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.patchto = &efi_device_error,
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}, {
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.ptr = &efi_runtime_services.get_next_variable,
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.patchto = &efi_device_error,
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}, {
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.ptr = &efi_runtime_services.set_variable,
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.patchto = &efi_device_error,
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}
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};
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static bool efi_runtime_tobedetached(void *p)
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{
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int i;
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for (i = 0; i < ARRAY_SIZE(efi_runtime_detach_list); i++)
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if (efi_runtime_detach_list[i].ptr == p)
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return true;
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return false;
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}
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static void efi_runtime_detach(ulong offset)
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{
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int i;
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ulong patchoff = offset - (ulong)gd->relocaddr;
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for (i = 0; i < ARRAY_SIZE(efi_runtime_detach_list); i++) {
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ulong patchto = (ulong)efi_runtime_detach_list[i].patchto;
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ulong *p = efi_runtime_detach_list[i].ptr;
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ulong newaddr = patchto ? (patchto + patchoff) : 0;
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debug("%s: Setting %p to %lx\n", __func__, p, newaddr);
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*p = newaddr;
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}
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}
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/* Relocate EFI runtime to uboot_reloc_base = offset */
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void efi_runtime_relocate(ulong offset, struct efi_mem_desc *map)
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{
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#ifdef IS_RELA
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struct elf_rela *rel = (void*)&__efi_runtime_rel_start;
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#else
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struct elf_rel *rel = (void*)&__efi_runtime_rel_start;
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static ulong lastoff = CONFIG_SYS_TEXT_BASE;
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#endif
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debug("%s: Relocating to offset=%lx\n", __func__, offset);
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for (; (ulong)rel < (ulong)&__efi_runtime_rel_stop; rel++) {
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ulong base = CONFIG_SYS_TEXT_BASE;
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ulong *p;
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ulong newaddr;
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p = (void*)((ulong)rel->offset - base) + gd->relocaddr;
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if ((rel->info & R_MASK) != R_RELATIVE) {
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continue;
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}
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#ifdef IS_RELA
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newaddr = rel->addend + offset - CONFIG_SYS_TEXT_BASE;
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#else
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newaddr = *p - lastoff + offset;
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#endif
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/* Check if the relocation is inside bounds */
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if (map && ((newaddr < map->virtual_start) ||
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newaddr > (map->virtual_start +
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(map->num_pages << EFI_PAGE_SHIFT)))) {
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if (!efi_runtime_tobedetached(p))
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printf("U-Boot EFI: Relocation at %p is out of "
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"range (%lx)\n", p, newaddr);
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continue;
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}
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debug("%s: Setting %p to %lx\n", __func__, p, newaddr);
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*p = newaddr;
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flush_dcache_range((ulong)p & ~(EFI_CACHELINE_SIZE - 1),
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ALIGN((ulong)&p[1], EFI_CACHELINE_SIZE));
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}
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#ifndef IS_RELA
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lastoff = offset;
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#endif
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invalidate_icache_all();
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}
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static efi_status_t EFIAPI efi_set_virtual_address_map(
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unsigned long memory_map_size,
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unsigned long descriptor_size,
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uint32_t descriptor_version,
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struct efi_mem_desc *virtmap)
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{
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ulong runtime_start = (ulong)&__efi_runtime_start &
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~(ulong)EFI_PAGE_MASK;
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int n = memory_map_size / descriptor_size;
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int i;
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EFI_ENTRY("%lx %lx %x %p", memory_map_size, descriptor_size,
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descriptor_version, virtmap);
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/* Rebind mmio pointers */
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for (i = 0; i < n; i++) {
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struct efi_mem_desc *map = (void*)virtmap +
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(descriptor_size * i);
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struct list_head *lhandle;
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efi_physical_addr_t map_start = map->physical_start;
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efi_physical_addr_t map_len = map->num_pages << EFI_PAGE_SHIFT;
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efi_physical_addr_t map_end = map_start + map_len;
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/* Adjust all mmio pointers in this region */
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list_for_each(lhandle, &efi_runtime_mmio) {
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struct efi_runtime_mmio_list *lmmio;
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lmmio = list_entry(lhandle,
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struct efi_runtime_mmio_list,
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link);
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if ((map_start <= lmmio->paddr) &&
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(map_end >= lmmio->paddr)) {
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u64 off = map->virtual_start - map_start;
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uintptr_t new_addr = lmmio->paddr + off;
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*lmmio->ptr = (void *)new_addr;
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}
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}
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}
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/* Move the actual runtime code over */
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for (i = 0; i < n; i++) {
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struct efi_mem_desc *map;
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map = (void*)virtmap + (descriptor_size * i);
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if (map->type == EFI_RUNTIME_SERVICES_CODE) {
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ulong new_offset = map->virtual_start -
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(runtime_start - gd->relocaddr);
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efi_runtime_relocate(new_offset, map);
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/* Once we're virtual, we can no longer handle
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complex callbacks */
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efi_runtime_detach(new_offset);
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return EFI_EXIT(EFI_SUCCESS);
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}
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}
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return EFI_EXIT(EFI_INVALID_PARAMETER);
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}
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efi_status_t efi_add_runtime_mmio(void *mmio_ptr, u64 len)
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{
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struct efi_runtime_mmio_list *newmmio;
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u64 pages = (len + EFI_PAGE_MASK) >> EFI_PAGE_SHIFT;
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uint64_t addr = *(uintptr_t *)mmio_ptr;
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uint64_t retaddr;
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retaddr = efi_add_memory_map(addr, pages, EFI_MMAP_IO, false);
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if (retaddr != addr)
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return EFI_OUT_OF_RESOURCES;
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newmmio = calloc(1, sizeof(*newmmio));
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if (!newmmio)
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return EFI_OUT_OF_RESOURCES;
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newmmio->ptr = mmio_ptr;
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newmmio->paddr = *(uintptr_t *)mmio_ptr;
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newmmio->len = len;
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list_add_tail(&newmmio->link, &efi_runtime_mmio);
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return EFI_SUCCESS;
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}
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/*
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* In the second stage, U-Boot has disappeared. To isolate our runtime code
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* that at this point still exists from the rest, we put it into a special
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* section.
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*
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* !!WARNING!!
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*
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* This means that we can not rely on any code outside of this file in any
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* function or variable below this line.
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*
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* Please keep everything fully self-contained and annotated with
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* __efi_runtime and __efi_runtime_data markers.
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*/
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/*
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* Relocate the EFI runtime stub to a different place. We need to call this
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* the first time we expose the runtime interface to a user and on set virtual
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* address map calls.
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*/
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static efi_status_t __efi_runtime EFIAPI efi_unimplemented(void)
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{
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return EFI_UNSUPPORTED;
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}
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static efi_status_t __efi_runtime EFIAPI efi_device_error(void)
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{
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return EFI_DEVICE_ERROR;
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}
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static efi_status_t __efi_runtime EFIAPI efi_invalid_parameter(void)
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{
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return EFI_INVALID_PARAMETER;
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}
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efi_status_t __efi_runtime EFIAPI efi_update_capsule(
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struct efi_capsule_header **capsule_header_array,
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efi_uintn_t capsule_count,
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u64 scatter_gather_list)
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{
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return EFI_UNSUPPORTED;
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}
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efi_status_t __efi_runtime EFIAPI efi_query_capsule_caps(
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struct efi_capsule_header **capsule_header_array,
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efi_uintn_t capsule_count,
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u64 maximum_capsule_size,
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u32 reset_type)
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{
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return EFI_UNSUPPORTED;
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}
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efi_status_t __efi_runtime EFIAPI efi_query_variable_info(
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u32 attributes,
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u64 maximum_variable_storage_size,
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u64 remaining_variable_storage_size,
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u64 maximum_variable_size)
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{
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return EFI_UNSUPPORTED;
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}
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struct efi_runtime_services __efi_runtime_data efi_runtime_services = {
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.hdr = {
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.signature = EFI_RUNTIME_SERVICES_SIGNATURE,
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.revision = EFI_RUNTIME_SERVICES_REVISION,
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.headersize = sizeof(struct efi_table_hdr),
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},
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.get_time = &efi_get_time_boottime,
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.set_time = (void *)&efi_device_error,
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.get_wakeup_time = (void *)&efi_unimplemented,
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.set_wakeup_time = (void *)&efi_unimplemented,
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.set_virtual_address_map = &efi_set_virtual_address_map,
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.convert_pointer = (void *)&efi_invalid_parameter,
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.get_variable = efi_get_variable,
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.get_next_variable = efi_get_next_variable,
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.set_variable = efi_set_variable,
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.get_next_high_mono_count = (void *)&efi_device_error,
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.reset_system = &efi_reset_system_boottime,
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.update_capsule = efi_update_capsule,
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.query_capsule_caps = efi_query_capsule_caps,
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.query_variable_info = efi_query_variable_info,
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};
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