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|
// SPDX-License-Identifier: GPL-2.0+
/*
* EFI application runtime services
*
* Copyright (c) 2016 Alexander Graf
*/
#include <common.h>
#include <command.h>
#include <cpu_func.h>
#include <dm.h>
#include <elf.h>
#include <efi_loader.h>
#include <log.h>
#include <malloc.h>
#include <rtc.h>
#include <asm/global_data.h>
#include <u-boot/crc.h>
/* For manual relocation support */
DECLARE_GLOBAL_DATA_PTR;
/* GUID of the runtime properties table */
static const efi_guid_t efi_rt_properties_table_guid =
EFI_RT_PROPERTIES_TABLE_GUID;
struct efi_runtime_mmio_list {
struct list_head link;
void **ptr;
u64 paddr;
u64 len;
};
/* This list contains all runtime available mmio regions */
LIST_HEAD(efi_runtime_mmio);
static efi_status_t __efi_runtime EFIAPI efi_unimplemented(void);
/*
* TODO(sjg@chromium.org): These defines and structures should come from the ELF
* header for each architecture (or a generic header) rather than being repeated
* here.
*/
#if defined(__aarch64__)
#define R_RELATIVE R_AARCH64_RELATIVE
#define R_MASK 0xffffffffULL
#define IS_RELA 1
#elif defined(__arm__)
#define R_RELATIVE R_ARM_RELATIVE
#define R_MASK 0xffULL
#elif defined(__i386__)
#define R_RELATIVE R_386_RELATIVE
#define R_MASK 0xffULL
#elif defined(__x86_64__)
#define R_RELATIVE R_X86_64_RELATIVE
#define R_MASK 0xffffffffULL
#define IS_RELA 1
#elif defined(__riscv)
#define R_RELATIVE R_RISCV_RELATIVE
#define R_MASK 0xffULL
#define IS_RELA 1
struct dyn_sym {
ulong foo1;
ulong addr;
u32 foo2;
u32 foo3;
};
#if (__riscv_xlen == 32)
#define R_ABSOLUTE R_RISCV_32
#define SYM_INDEX 8
#elif (__riscv_xlen == 64)
#define R_ABSOLUTE R_RISCV_64
#define SYM_INDEX 32
#else
#error unknown riscv target
#endif
#else
#error Need to add relocation awareness
#endif
struct elf_rel {
ulong *offset;
ulong info;
};
struct elf_rela {
ulong *offset;
ulong info;
long addend;
};
static __efi_runtime_data struct efi_mem_desc *efi_virtmap;
static __efi_runtime_data efi_uintn_t efi_descriptor_count;
static __efi_runtime_data efi_uintn_t efi_descriptor_size;
/*
* EFI runtime code lives in two stages. In the first stage, U-Boot and an EFI
* payload are running concurrently at the same time. In this mode, we can
* handle a good number of runtime callbacks
*/
/**
* efi_init_runtime_supported() - create runtime properties table
*
* Create a configuration table specifying which services are available at
* runtime.
*
* Return: status code
*/
efi_status_t efi_init_runtime_supported(void)
{
efi_status_t ret;
struct efi_rt_properties_table *rt_table;
ret = efi_allocate_pool(EFI_RUNTIME_SERVICES_DATA,
sizeof(struct efi_rt_properties_table),
(void **)&rt_table);
if (ret != EFI_SUCCESS)
return ret;
rt_table->version = EFI_RT_PROPERTIES_TABLE_VERSION;
rt_table->length = sizeof(struct efi_rt_properties_table);
rt_table->runtime_services_supported =
EFI_RT_SUPPORTED_GET_VARIABLE |
EFI_RT_SUPPORTED_GET_NEXT_VARIABLE_NAME |
EFI_RT_SUPPORTED_SET_VIRTUAL_ADDRESS_MAP |
EFI_RT_SUPPORTED_CONVERT_POINTER;
/*
* This value must be synced with efi_runtime_detach_list
* as well as efi_runtime_services.
*/
#ifdef CONFIG_EFI_HAVE_RUNTIME_RESET
rt_table->runtime_services_supported |= EFI_RT_SUPPORTED_RESET_SYSTEM;
#endif
ret = efi_install_configuration_table(&efi_rt_properties_table_guid,
rt_table);
return ret;
}
/**
* efi_memcpy_runtime() - copy memory area
*
* At runtime memcpy() is not available.
*
* Overlapping memory areas can be copied safely if src >= dest.
*
* @dest: destination buffer
* @src: source buffer
* @n: number of bytes to copy
* Return: pointer to destination buffer
*/
void __efi_runtime efi_memcpy_runtime(void *dest, const void *src, size_t n)
{
u8 *d = dest;
const u8 *s = src;
for (; n; --n)
*d++ = *s++;
}
/**
* efi_update_table_header_crc32() - Update crc32 in table header
*
* @table: EFI table
*/
void __efi_runtime efi_update_table_header_crc32(struct efi_table_hdr *table)
{
table->crc32 = 0;
table->crc32 = crc32(0, (const unsigned char *)table,
table->headersize);
}
/**
* efi_reset_system_boottime() - reset system at boot time
*
* This function implements the ResetSystem() runtime service before
* SetVirtualAddressMap() is called.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @reset_type: type of reset to perform
* @reset_status: status code for the reset
* @data_size: size of reset_data
* @reset_data: information about the reset
*/
static void EFIAPI efi_reset_system_boottime(
enum efi_reset_type reset_type,
efi_status_t reset_status,
unsigned long data_size, void *reset_data)
{
struct efi_event *evt;
EFI_ENTRY("%d %lx %lx %p", reset_type, reset_status, data_size,
reset_data);
/* Notify reset */
list_for_each_entry(evt, &efi_events, link) {
if (evt->group &&
!guidcmp(evt->group,
&efi_guid_event_group_reset_system)) {
efi_signal_event(evt);
break;
}
}
switch (reset_type) {
case EFI_RESET_COLD:
case EFI_RESET_WARM:
case EFI_RESET_PLATFORM_SPECIFIC:
do_reset(NULL, 0, 0, NULL);
break;
case EFI_RESET_SHUTDOWN:
#ifdef CONFIG_CMD_POWEROFF
do_poweroff(NULL, 0, 0, NULL);
#endif
break;
}
while (1) { }
}
/**
* efi_get_time_boottime() - get current time at boot time
*
* This function implements the GetTime runtime service before
* SetVirtualAddressMap() is called.
*
* See the Unified Extensible Firmware Interface (UEFI) specification
* for details.
*
* @time: pointer to structure to receive current time
* @capabilities: pointer to structure to receive RTC properties
* Returns: status code
*/
static efi_status_t EFIAPI efi_get_time_boottime(
struct efi_time *time,
struct efi_time_cap *capabilities)
{
#ifdef CONFIG_EFI_GET_TIME
efi_status_t ret = EFI_SUCCESS;
struct rtc_time tm;
struct udevice *dev;
EFI_ENTRY("%p %p", time, capabilities);
if (!time) {
ret = EFI_INVALID_PARAMETER;
goto out;
}
if (uclass_get_device(UCLASS_RTC, 0, &dev) ||
dm_rtc_get(dev, &tm)) {
ret = EFI_UNSUPPORTED;
goto out;
}
if (dm_rtc_get(dev, &tm)) {
ret = EFI_DEVICE_ERROR;
goto out;
}
memset(time, 0, sizeof(*time));
time->year = tm.tm_year;
time->month = tm.tm_mon;
time->day = tm.tm_mday;
time->hour = tm.tm_hour;
time->minute = tm.tm_min;
time->second = tm.tm_sec;
if (tm.tm_isdst > 0)
time->daylight =
EFI_TIME_ADJUST_DAYLIGHT | EFI_TIME_IN_DAYLIGHT;
else if (!tm.tm_isdst)
time->daylight = EFI_TIME_ADJUST_DAYLIGHT;
else
time->daylight = 0;
time->timezone = EFI_UNSPECIFIED_TIMEZONE;
if (capabilities) {
/* Set reasonable dummy values */
capabilities->resolution = 1; /* 1 Hz */
capabilities->accuracy = 100000000; /* 100 ppm */
capabilities->sets_to_zero = false;
}
out:
return EFI_EXIT(ret);
#else
EFI_ENTRY("%p %p", time, capabilities);
return EFI_EXIT(EFI_UNSUPPORTED);
#endif
}
#ifdef CONFIG_EFI_SET_TIME
/**
* efi_validate_time() - checks if timestamp is valid
*
* @time: timestamp to validate
* Returns: 0 if timestamp is valid, 1 otherwise
*/
static int efi_validate_time(struct efi_time *time)
{
return (!time ||
time->year < 1900 || time->year > 9999 ||
!time->month || time->month > 12 || !time->day ||
time->day > rtc_month_days(time->month - 1, time->year) ||
time->hour > 23 || time->minute > 59 || time->second > 59 ||
time->nanosecond > 999999999 ||
time->daylight &
~(EFI_TIME_IN_DAYLIGHT | EFI_TIME_ADJUST_DAYLIGHT) ||
((time->timezone < -1440 || time->timezone > 1440) &&
time->timezone != EFI_UNSPECIFIED_TIMEZONE));
}
#endif
/**
* efi_set_time_boottime() - set current time
*
* This function implements the SetTime() runtime service before
* SetVirtualAddressMap() is called.
*
* See the Unified Extensible Firmware Interface (UEFI) specification
* for details.
*
* @time: pointer to structure to with current time
* Returns: status code
*/
static efi_status_t EFIAPI efi_set_time_boottime(struct efi_time *time)
{
#ifdef CONFIG_EFI_SET_TIME
efi_status_t ret = EFI_SUCCESS;
struct rtc_time tm;
struct udevice *dev;
EFI_ENTRY("%p", time);
if (efi_validate_time(time)) {
ret = EFI_INVALID_PARAMETER;
goto out;
}
if (uclass_get_device(UCLASS_RTC, 0, &dev)) {
ret = EFI_UNSUPPORTED;
goto out;
}
memset(&tm, 0, sizeof(tm));
tm.tm_year = time->year;
tm.tm_mon = time->month;
tm.tm_mday = time->day;
tm.tm_hour = time->hour;
tm.tm_min = time->minute;
tm.tm_sec = time->second;
switch (time->daylight) {
case EFI_TIME_ADJUST_DAYLIGHT:
tm.tm_isdst = 0;
break;
case EFI_TIME_ADJUST_DAYLIGHT | EFI_TIME_IN_DAYLIGHT:
tm.tm_isdst = 1;
break;
default:
tm.tm_isdst = -1;
break;
}
/* Calculate day of week */
rtc_calc_weekday(&tm);
if (dm_rtc_set(dev, &tm))
ret = EFI_DEVICE_ERROR;
out:
return EFI_EXIT(ret);
#else
EFI_ENTRY("%p", time);
return EFI_EXIT(EFI_UNSUPPORTED);
#endif
}
/**
* efi_reset_system() - reset system
*
* This function implements the ResetSystem() runtime service after
* SetVirtualAddressMap() is called. As this placeholder cannot reset the
* system it simply return to the caller.
*
* Boards may override the helpers below to implement reset functionality.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @reset_type: type of reset to perform
* @reset_status: status code for the reset
* @data_size: size of reset_data
* @reset_data: information about the reset
*/
void __weak __efi_runtime EFIAPI efi_reset_system(
enum efi_reset_type reset_type,
efi_status_t reset_status,
unsigned long data_size, void *reset_data)
{
return;
}
/**
* efi_reset_system_init() - initialize the reset driver
*
* Boards may override this function to initialize the reset driver.
*/
efi_status_t __weak efi_reset_system_init(void)
{
return EFI_SUCCESS;
}
/**
* efi_get_time() - get current time
*
* This function implements the GetTime runtime service after
* SetVirtualAddressMap() is called. As the U-Boot driver are not available
* anymore only an error code is returned.
*
* See the Unified Extensible Firmware Interface (UEFI) specification
* for details.
*
* @time: pointer to structure to receive current time
* @capabilities: pointer to structure to receive RTC properties
* Returns: status code
*/
efi_status_t __weak __efi_runtime EFIAPI efi_get_time(
struct efi_time *time,
struct efi_time_cap *capabilities)
{
return EFI_UNSUPPORTED;
}
/**
* efi_set_time() - set current time
*
* This function implements the SetTime runtime service after
* SetVirtualAddressMap() is called. As the U-Boot driver are not available
* anymore only an error code is returned.
*
* See the Unified Extensible Firmware Interface (UEFI) specification
* for details.
*
* @time: pointer to structure to with current time
* Returns: status code
*/
efi_status_t __weak __efi_runtime EFIAPI efi_set_time(struct efi_time *time)
{
return EFI_UNSUPPORTED;
}
/**
* efi_update_capsule_unsupported() - process information from operating system
*
* This function implements the UpdateCapsule() runtime service.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @capsule_header_array: pointer to array of virtual pointers
* @capsule_count: number of pointers in capsule_header_array
* @scatter_gather_list: pointer to array of physical pointers
* Returns: status code
*/
efi_status_t __efi_runtime EFIAPI efi_update_capsule_unsupported(
struct efi_capsule_header **capsule_header_array,
efi_uintn_t capsule_count,
u64 scatter_gather_list)
{
return EFI_UNSUPPORTED;
}
/**
* efi_query_capsule_caps_unsupported() - check if capsule is supported
*
* This function implements the QueryCapsuleCapabilities() runtime service.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @capsule_header_array: pointer to array of virtual pointers
* @capsule_count: number of pointers in capsule_header_array
* @maximum_capsule_size: maximum capsule size
* @reset_type: type of reset needed for capsule update
* Returns: status code
*/
efi_status_t __efi_runtime EFIAPI efi_query_capsule_caps_unsupported(
struct efi_capsule_header **capsule_header_array,
efi_uintn_t capsule_count,
u64 *maximum_capsule_size,
u32 *reset_type)
{
return EFI_UNSUPPORTED;
}
/**
* efi_is_runtime_service_pointer() - check if pointer points to runtime table
*
* @p: pointer to check
* Return: true if the pointer points to a service function pointer in the
* runtime table
*/
static bool efi_is_runtime_service_pointer(void *p)
{
return (p >= (void *)&efi_runtime_services.get_time &&
p <= (void *)&efi_runtime_services.query_variable_info) ||
p == (void *)&efi_events.prev ||
p == (void *)&efi_events.next;
}
/**
* efi_runtime_detach() - detach unimplemented runtime functions
*/
void efi_runtime_detach(void)
{
efi_runtime_services.reset_system = efi_reset_system;
efi_runtime_services.get_time = efi_get_time;
efi_runtime_services.set_time = efi_set_time;
if (IS_ENABLED(CONFIG_EFI_RUNTIME_UPDATE_CAPSULE)) {
/* won't support at runtime */
efi_runtime_services.update_capsule =
efi_update_capsule_unsupported;
efi_runtime_services.query_capsule_caps =
efi_query_capsule_caps_unsupported;
}
/* Update CRC32 */
efi_update_table_header_crc32(&efi_runtime_services.hdr);
}
/**
* efi_set_virtual_address_map_runtime() - change from physical to virtual
* mapping
*
* This function implements the SetVirtualAddressMap() runtime service after
* it is first called.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @memory_map_size: size of the virtual map
* @descriptor_size: size of an entry in the map
* @descriptor_version: version of the map entries
* @virtmap: virtual address mapping information
* Return: status code EFI_UNSUPPORTED
*/
static __efi_runtime efi_status_t EFIAPI efi_set_virtual_address_map_runtime(
efi_uintn_t memory_map_size,
efi_uintn_t descriptor_size,
uint32_t descriptor_version,
struct efi_mem_desc *virtmap)
{
return EFI_UNSUPPORTED;
}
/**
* efi_convert_pointer_runtime() - convert from physical to virtual pointer
*
* This function implements the ConvertPointer() runtime service after
* the first call to SetVirtualAddressMap().
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @debug_disposition: indicates if pointer may be converted to NULL
* @address: pointer to be converted
* Return: status code EFI_UNSUPPORTED
*/
static __efi_runtime efi_status_t EFIAPI efi_convert_pointer_runtime(
efi_uintn_t debug_disposition, void **address)
{
return EFI_UNSUPPORTED;
}
/**
* efi_convert_pointer() - convert from physical to virtual pointer
*
* This function implements the ConvertPointer() runtime service until
* the first call to SetVirtualAddressMap().
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @debug_disposition: indicates if pointer may be converted to NULL
* @address: pointer to be converted
* Return: status code
*/
__efi_runtime efi_status_t EFIAPI
efi_convert_pointer(efi_uintn_t debug_disposition, void **address)
{
efi_physical_addr_t addr;
efi_uintn_t i;
efi_status_t ret = EFI_NOT_FOUND;
if (!efi_virtmap) {
ret = EFI_UNSUPPORTED;
goto out;
}
if (!address) {
ret = EFI_INVALID_PARAMETER;
goto out;
}
if (!*address) {
if (debug_disposition & EFI_OPTIONAL_PTR)
return EFI_SUCCESS;
else
return EFI_INVALID_PARAMETER;
}
addr = (uintptr_t)*address;
for (i = 0; i < efi_descriptor_count; i++) {
struct efi_mem_desc *map = (void *)efi_virtmap +
(efi_descriptor_size * i);
if (addr >= map->physical_start &&
(addr < map->physical_start
+ (map->num_pages << EFI_PAGE_SHIFT))) {
*address = (void *)(uintptr_t)
(addr + map->virtual_start -
map->physical_start);
ret = EFI_SUCCESS;
break;
}
}
out:
return ret;
}
static __efi_runtime void efi_relocate_runtime_table(ulong offset)
{
ulong patchoff;
void **pos;
/* Relocate the runtime services pointers */
patchoff = offset - gd->relocaddr;
for (pos = (void **)&efi_runtime_services.get_time;
pos <= (void **)&efi_runtime_services.query_variable_info; ++pos) {
if (*pos)
*pos += patchoff;
}
/*
* The entry for SetVirtualAddress() must point to a physical address.
* After the first execution the service must return EFI_UNSUPPORTED.
*/
efi_runtime_services.set_virtual_address_map =
&efi_set_virtual_address_map_runtime;
/*
* The entry for ConvertPointer() must point to a physical address.
* The service is not usable after SetVirtualAddress().
*/
efi_runtime_services.convert_pointer = &efi_convert_pointer_runtime;
/*
* TODO: Update UEFI variable RuntimeServicesSupported removing flags
* EFI_RT_SUPPORTED_SET_VIRTUAL_ADDRESS_MAP and
* EFI_RT_SUPPORTED_CONVERT_POINTER as required by the UEFI spec 2.8.
*/
/* Update CRC32 */
efi_update_table_header_crc32(&efi_runtime_services.hdr);
}
/* Relocate EFI runtime to uboot_reloc_base = offset */
void efi_runtime_relocate(ulong offset, struct efi_mem_desc *map)
{
#ifdef IS_RELA
struct elf_rela *rel = (void*)&__efi_runtime_rel_start;
#else
struct elf_rel *rel = (void*)&__efi_runtime_rel_start;
static ulong lastoff = CONFIG_SYS_TEXT_BASE;
#endif
debug("%s: Relocating to offset=%lx\n", __func__, offset);
for (; (ulong)rel < (ulong)&__efi_runtime_rel_stop; rel++) {
ulong base = CONFIG_SYS_TEXT_BASE;
ulong *p;
ulong newaddr;
p = (void*)((ulong)rel->offset - base) + gd->relocaddr;
/*
* The runtime services table is updated in
* efi_relocate_runtime_table()
*/
if (map && efi_is_runtime_service_pointer(p))
continue;
debug("%s: rel->info=%#lx *p=%#lx rel->offset=%p\n", __func__,
rel->info, *p, rel->offset);
switch (rel->info & R_MASK) {
case R_RELATIVE:
#ifdef IS_RELA
newaddr = rel->addend + offset - CONFIG_SYS_TEXT_BASE;
#else
newaddr = *p - lastoff + offset;
#endif
break;
#ifdef R_ABSOLUTE
case R_ABSOLUTE: {
ulong symidx = rel->info >> SYM_INDEX;
extern struct dyn_sym __dyn_sym_start[];
newaddr = __dyn_sym_start[symidx].addr + offset;
#ifdef IS_RELA
newaddr -= CONFIG_SYS_TEXT_BASE;
#endif
break;
}
#endif
default:
printf("%s: Unknown relocation type %llx\n",
__func__, rel->info & R_MASK);
continue;
}
/* Check if the relocation is inside bounds */
if (map && ((newaddr < map->virtual_start) ||
newaddr > (map->virtual_start +
(map->num_pages << EFI_PAGE_SHIFT)))) {
printf("%s: Relocation at %p is out of range (%lx)\n",
__func__, p, newaddr);
continue;
}
debug("%s: Setting %p to %lx\n", __func__, p, newaddr);
*p = newaddr;
flush_dcache_range((ulong)p & ~(EFI_CACHELINE_SIZE - 1),
ALIGN((ulong)&p[1], EFI_CACHELINE_SIZE));
}
#ifndef IS_RELA
lastoff = offset;
#endif
invalidate_icache_all();
}
/**
* efi_set_virtual_address_map() - change from physical to virtual mapping
*
* This function implements the SetVirtualAddressMap() runtime service.
*
* See the Unified Extensible Firmware Interface (UEFI) specification for
* details.
*
* @memory_map_size: size of the virtual map
* @descriptor_size: size of an entry in the map
* @descriptor_version: version of the map entries
* @virtmap: virtual address mapping information
* Return: status code
*/
static efi_status_t EFIAPI efi_set_virtual_address_map(
efi_uintn_t memory_map_size,
efi_uintn_t descriptor_size,
uint32_t descriptor_version,
struct efi_mem_desc *virtmap)
{
efi_uintn_t n = memory_map_size / descriptor_size;
efi_uintn_t i;
efi_status_t ret = EFI_INVALID_PARAMETER;
int rt_code_sections = 0;
struct efi_event *event;
EFI_ENTRY("%zx %zx %x %p", memory_map_size, descriptor_size,
descriptor_version, virtmap);
if (descriptor_version != EFI_MEMORY_DESCRIPTOR_VERSION ||
descriptor_size < sizeof(struct efi_mem_desc))
goto out;
efi_virtmap = virtmap;
efi_descriptor_size = descriptor_size;
efi_descriptor_count = n;
/*
* TODO:
* Further down we are cheating. While really we should implement
* SetVirtualAddressMap() events and ConvertPointer() to allow
* dynamically loaded drivers to expose runtime services, we don't
* today.
*
* So let's ensure we see exactly one single runtime section, as
* that is the built-in one. If we see more (or less), someone must
* have tried adding or removing to that which we don't support yet.
* In that case, let's better fail rather than expose broken runtime
* services.
*/
for (i = 0; i < n; i++) {
struct efi_mem_desc *map = (void*)virtmap +
(descriptor_size * i);
if (map->type == EFI_RUNTIME_SERVICES_CODE)
rt_code_sections++;
}
if (rt_code_sections != 1) {
/*
* We expose exactly one single runtime code section, so
* something is definitely going wrong.
*/
goto out;
}
/* Notify EVT_SIGNAL_VIRTUAL_ADDRESS_CHANGE */
list_for_each_entry(event, &efi_events, link) {
if (event->notify_function)
EFI_CALL_VOID(event->notify_function(
event, event->notify_context));
}
/* Rebind mmio pointers */
for (i = 0; i < n; i++) {
struct efi_mem_desc *map = (void*)virtmap +
(descriptor_size * i);
struct list_head *lhandle;
efi_physical_addr_t map_start = map->physical_start;
efi_physical_addr_t map_len = map->num_pages << EFI_PAGE_SHIFT;
efi_physical_addr_t map_end = map_start + map_len;
u64 off = map->virtual_start - map_start;
/* Adjust all mmio pointers in this region */
list_for_each(lhandle, &efi_runtime_mmio) {
struct efi_runtime_mmio_list *lmmio;
lmmio = list_entry(lhandle,
struct efi_runtime_mmio_list,
link);
if ((map_start <= lmmio->paddr) &&
(map_end >= lmmio->paddr)) {
uintptr_t new_addr = lmmio->paddr + off;
*lmmio->ptr = (void *)new_addr;
}
}
if ((map_start <= (uintptr_t)systab.tables) &&
(map_end >= (uintptr_t)systab.tables)) {
char *ptr = (char *)systab.tables;
ptr += off;
systab.tables = (struct efi_configuration_table *)ptr;
}
}
/* Relocate the runtime. See TODO above */
for (i = 0; i < n; i++) {
struct efi_mem_desc *map;
map = (void*)virtmap + (descriptor_size * i);
if (map->type == EFI_RUNTIME_SERVICES_CODE) {
ulong new_offset = map->virtual_start -
map->physical_start + gd->relocaddr;
efi_relocate_runtime_table(new_offset);
efi_runtime_relocate(new_offset, map);
ret = EFI_SUCCESS;
goto out;
}
}
out:
return EFI_EXIT(ret);
}
/**
* efi_add_runtime_mmio() - add memory-mapped IO region
*
* This function adds a memory-mapped IO region to the memory map to make it
* available at runtime.
*
* @mmio_ptr: pointer to a pointer to the start of the memory-mapped
* IO region
* @len: size of the memory-mapped IO region
* Returns: status code
*/
efi_status_t efi_add_runtime_mmio(void *mmio_ptr, u64 len)
{
struct efi_runtime_mmio_list *newmmio;
uint64_t addr = *(uintptr_t *)mmio_ptr;
efi_status_t ret;
ret = efi_add_memory_map(addr, len, EFI_MMAP_IO);
if (ret != EFI_SUCCESS)
return EFI_OUT_OF_RESOURCES;
newmmio = calloc(1, sizeof(*newmmio));
if (!newmmio)
return EFI_OUT_OF_RESOURCES;
newmmio->ptr = mmio_ptr;
newmmio->paddr = *(uintptr_t *)mmio_ptr;
newmmio->len = len;
list_add_tail(&newmmio->link, &efi_runtime_mmio);
return EFI_SUCCESS;
}
/*
* In the second stage, U-Boot has disappeared. To isolate our runtime code
* that at this point still exists from the rest, we put it into a special
* section.
*
* !!WARNING!!
*
* This means that we can not rely on any code outside of this file in any
* function or variable below this line.
*
* Please keep everything fully self-contained and annotated with
* __efi_runtime and __efi_runtime_data markers.
*/
/*
* Relocate the EFI runtime stub to a different place. We need to call this
* the first time we expose the runtime interface to a user and on set virtual
* address map calls.
*/
/**
* efi_unimplemented() - replacement function, returns EFI_UNSUPPORTED
*
* This function is used after SetVirtualAddressMap() is called as replacement
* for services that are not available anymore due to constraints of the U-Boot
* implementation.
*
* Return: EFI_UNSUPPORTED
*/
static efi_status_t __efi_runtime EFIAPI efi_unimplemented(void)
{
return EFI_UNSUPPORTED;
}
struct efi_runtime_services __efi_runtime_data efi_runtime_services = {
.hdr = {
.signature = EFI_RUNTIME_SERVICES_SIGNATURE,
.revision = EFI_SPECIFICATION_VERSION,
.headersize = sizeof(struct efi_runtime_services),
},
.get_time = &efi_get_time_boottime,
.set_time = &efi_set_time_boottime,
.get_wakeup_time = (void *)&efi_unimplemented,
.set_wakeup_time = (void *)&efi_unimplemented,
.set_virtual_address_map = &efi_set_virtual_address_map,
.convert_pointer = efi_convert_pointer,
.get_variable = efi_get_variable,
.get_next_variable_name = efi_get_next_variable_name,
.set_variable = efi_set_variable,
.get_next_high_mono_count = (void *)&efi_unimplemented,
.reset_system = &efi_reset_system_boottime,
#ifdef CONFIG_EFI_RUNTIME_UPDATE_CAPSULE
.update_capsule = efi_update_capsule,
.query_capsule_caps = efi_query_capsule_caps,
#else
.update_capsule = efi_update_capsule_unsupported,
.query_capsule_caps = efi_query_capsule_caps_unsupported,
#endif
.query_variable_info = efi_query_variable_info,
};
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