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|
/*
* Common EFI (Extensible Firmware Interface) support functions
* Based on Extensible Firmware Interface Specification version 1.0
*
* Copyright (C) 1999 VA Linux Systems
* Copyright (C) 1999 Walt Drummond <drummond@valinux.com>
* Copyright (C) 1999-2002 Hewlett-Packard Co.
* David Mosberger-Tang <davidm@hpl.hp.com>
* Stephane Eranian <eranian@hpl.hp.com>
* Copyright (C) 2005-2008 Intel Co.
* Fenghua Yu <fenghua.yu@intel.com>
* Bibo Mao <bibo.mao@intel.com>
* Chandramouli Narayanan <mouli@linux.intel.com>
* Huang Ying <ying.huang@intel.com>
*
* Copied from efi_32.c to eliminate the duplicated code between EFI
* 32/64 support code. --ying 2007-10-26
*
* All EFI Runtime Services are not implemented yet as EFI only
* supports physical mode addressing on SoftSDV. This is to be fixed
* in a future version. --drummond 1999-07-20
*
* Implemented EFI runtime services and virtual mode calls. --davidm
*
* Goutham Rao: <goutham.rao@intel.com>
* Skip non-WB memory and ignore empty memory ranges.
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/efi.h>
#include <linux/efi-bgrt.h>
#include <linux/export.h>
#include <linux/bootmem.h>
#include <linux/memblock.h>
#include <linux/spinlock.h>
#include <linux/uaccess.h>
#include <linux/time.h>
#include <linux/io.h>
#include <linux/reboot.h>
#include <linux/bcd.h>
#include <linux/ucs2_string.h>
#include <asm/setup.h>
#include <asm/efi.h>
#include <asm/time.h>
#include <asm/cacheflush.h>
#include <asm/tlbflush.h>
#include <asm/x86_init.h>
#define EFI_DEBUG 1
/*
* There's some additional metadata associated with each
* variable. Intel's reference implementation is 60 bytes - bump that
* to account for potential alignment constraints
*/
#define VAR_METADATA_SIZE 64
struct efi __read_mostly efi = {
.mps = EFI_INVALID_TABLE_ADDR,
.acpi = EFI_INVALID_TABLE_ADDR,
.acpi20 = EFI_INVALID_TABLE_ADDR,
.smbios = EFI_INVALID_TABLE_ADDR,
.sal_systab = EFI_INVALID_TABLE_ADDR,
.boot_info = EFI_INVALID_TABLE_ADDR,
.hcdp = EFI_INVALID_TABLE_ADDR,
.uga = EFI_INVALID_TABLE_ADDR,
.uv_systab = EFI_INVALID_TABLE_ADDR,
};
EXPORT_SYMBOL(efi);
struct efi_memory_map memmap;
static struct efi efi_phys __initdata;
static efi_system_table_t efi_systab __initdata;
static u64 efi_var_store_size;
static u64 efi_var_remaining_size;
static u64 efi_var_max_var_size;
static u64 boot_used_size;
static u64 boot_var_size;
static u64 active_size;
unsigned long x86_efi_facility;
/*
* Returns 1 if 'facility' is enabled, 0 otherwise.
*/
int efi_enabled(int facility)
{
return test_bit(facility, &x86_efi_facility) != 0;
}
EXPORT_SYMBOL(efi_enabled);
static bool __initdata disable_runtime = false;
static int __init setup_noefi(char *arg)
{
disable_runtime = true;
return 0;
}
early_param("noefi", setup_noefi);
int add_efi_memmap;
EXPORT_SYMBOL(add_efi_memmap);
static int __init setup_add_efi_memmap(char *arg)
{
add_efi_memmap = 1;
return 0;
}
early_param("add_efi_memmap", setup_add_efi_memmap);
static efi_status_t virt_efi_get_time(efi_time_t *tm, efi_time_cap_t *tc)
{
unsigned long flags;
efi_status_t status;
spin_lock_irqsave(&rtc_lock, flags);
status = efi_call_virt2(get_time, tm, tc);
spin_unlock_irqrestore(&rtc_lock, flags);
return status;
}
static efi_status_t virt_efi_set_time(efi_time_t *tm)
{
unsigned long flags;
efi_status_t status;
spin_lock_irqsave(&rtc_lock, flags);
status = efi_call_virt1(set_time, tm);
spin_unlock_irqrestore(&rtc_lock, flags);
return status;
}
static efi_status_t virt_efi_get_wakeup_time(efi_bool_t *enabled,
efi_bool_t *pending,
efi_time_t *tm)
{
unsigned long flags;
efi_status_t status;
spin_lock_irqsave(&rtc_lock, flags);
status = efi_call_virt3(get_wakeup_time,
enabled, pending, tm);
spin_unlock_irqrestore(&rtc_lock, flags);
return status;
}
static efi_status_t virt_efi_set_wakeup_time(efi_bool_t enabled, efi_time_t *tm)
{
unsigned long flags;
efi_status_t status;
spin_lock_irqsave(&rtc_lock, flags);
status = efi_call_virt2(set_wakeup_time,
enabled, tm);
spin_unlock_irqrestore(&rtc_lock, flags);
return status;
}
static efi_status_t virt_efi_get_variable(efi_char16_t *name,
efi_guid_t *vendor,
u32 *attr,
unsigned long *data_size,
void *data)
{
return efi_call_virt5(get_variable,
name, vendor, attr,
data_size, data);
}
static efi_status_t virt_efi_get_next_variable(unsigned long *name_size,
efi_char16_t *name,
efi_guid_t *vendor)
{
efi_status_t status;
static bool finished = false;
static u64 var_size;
status = efi_call_virt3(get_next_variable,
name_size, name, vendor);
if (status == EFI_NOT_FOUND) {
finished = true;
if (var_size < boot_used_size) {
boot_var_size = boot_used_size - var_size;
active_size += boot_var_size;
} else {
printk(KERN_WARNING FW_BUG "efi: Inconsistent initial sizes\n");
}
}
if (boot_used_size && !finished) {
unsigned long size;
u32 attr;
efi_status_t s;
void *tmp;
s = virt_efi_get_variable(name, vendor, &attr, &size, NULL);
if (s != EFI_BUFFER_TOO_SMALL || !size)
return status;
tmp = kmalloc(size, GFP_ATOMIC);
if (!tmp)
return status;
s = virt_efi_get_variable(name, vendor, &attr, &size, tmp);
if (s == EFI_SUCCESS && (attr & EFI_VARIABLE_NON_VOLATILE)) {
var_size += size;
var_size += ucs2_strsize(name, 1024);
active_size += size;
active_size += VAR_METADATA_SIZE;
active_size += ucs2_strsize(name, 1024);
}
kfree(tmp);
}
return status;
}
static efi_status_t virt_efi_set_variable(efi_char16_t *name,
efi_guid_t *vendor,
u32 attr,
unsigned long data_size,
void *data)
{
efi_status_t status;
u32 orig_attr = 0;
unsigned long orig_size = 0;
status = virt_efi_get_variable(name, vendor, &orig_attr, &orig_size,
NULL);
if (status != EFI_BUFFER_TOO_SMALL)
orig_size = 0;
status = efi_call_virt5(set_variable,
name, vendor, attr,
data_size, data);
if (status == EFI_SUCCESS) {
if (orig_size) {
active_size -= orig_size;
active_size -= ucs2_strsize(name, 1024);
active_size -= VAR_METADATA_SIZE;
}
if (data_size) {
active_size += data_size;
active_size += ucs2_strsize(name, 1024);
active_size += VAR_METADATA_SIZE;
}
}
return status;
}
static efi_status_t virt_efi_query_variable_info(u32 attr,
u64 *storage_space,
u64 *remaining_space,
u64 *max_variable_size)
{
if (efi.runtime_version < EFI_2_00_SYSTEM_TABLE_REVISION)
return EFI_UNSUPPORTED;
return efi_call_virt4(query_variable_info, attr, storage_space,
remaining_space, max_variable_size);
}
static efi_status_t virt_efi_get_next_high_mono_count(u32 *count)
{
return efi_call_virt1(get_next_high_mono_count, count);
}
static void virt_efi_reset_system(int reset_type,
efi_status_t status,
unsigned long data_size,
efi_char16_t *data)
{
efi_call_virt4(reset_system, reset_type, status,
data_size, data);
}
static efi_status_t virt_efi_update_capsule(efi_capsule_header_t **capsules,
unsigned long count,
unsigned long sg_list)
{
if (efi.runtime_version < EFI_2_00_SYSTEM_TABLE_REVISION)
return EFI_UNSUPPORTED;
return efi_call_virt3(update_capsule, capsules, count, sg_list);
}
static efi_status_t virt_efi_query_capsule_caps(efi_capsule_header_t **capsules,
unsigned long count,
u64 *max_size,
int *reset_type)
{
if (efi.runtime_version < EFI_2_00_SYSTEM_TABLE_REVISION)
return EFI_UNSUPPORTED;
return efi_call_virt4(query_capsule_caps, capsules, count, max_size,
reset_type);
}
static efi_status_t __init phys_efi_set_virtual_address_map(
unsigned long memory_map_size,
unsigned long descriptor_size,
u32 descriptor_version,
efi_memory_desc_t *virtual_map)
{
efi_status_t status;
efi_call_phys_prelog();
status = efi_call_phys4(efi_phys.set_virtual_address_map,
memory_map_size, descriptor_size,
descriptor_version, virtual_map);
efi_call_phys_epilog();
return status;
}
static efi_status_t __init phys_efi_get_time(efi_time_t *tm,
efi_time_cap_t *tc)
{
unsigned long flags;
efi_status_t status;
spin_lock_irqsave(&rtc_lock, flags);
efi_call_phys_prelog();
status = efi_call_phys2(efi_phys.get_time, virt_to_phys(tm),
virt_to_phys(tc));
efi_call_phys_epilog();
spin_unlock_irqrestore(&rtc_lock, flags);
return status;
}
int efi_set_rtc_mmss(unsigned long nowtime)
{
int real_seconds, real_minutes;
efi_status_t status;
efi_time_t eft;
efi_time_cap_t cap;
status = efi.get_time(&eft, &cap);
if (status != EFI_SUCCESS) {
pr_err("Oops: efitime: can't read time!\n");
return -1;
}
real_seconds = nowtime % 60;
real_minutes = nowtime / 60;
if (((abs(real_minutes - eft.minute) + 15)/30) & 1)
real_minutes += 30;
real_minutes %= 60;
eft.minute = real_minutes;
eft.second = real_seconds;
status = efi.set_time(&eft);
if (status != EFI_SUCCESS) {
pr_err("Oops: efitime: can't write time!\n");
return -1;
}
return 0;
}
unsigned long efi_get_time(void)
{
efi_status_t status;
efi_time_t eft;
efi_time_cap_t cap;
status = efi.get_time(&eft, &cap);
if (status != EFI_SUCCESS)
pr_err("Oops: efitime: can't read time!\n");
return mktime(eft.year, eft.month, eft.day, eft.hour,
eft.minute, eft.second);
}
/*
* Tell the kernel about the EFI memory map. This might include
* more than the max 128 entries that can fit in the e820 legacy
* (zeropage) memory map.
*/
static void __init do_add_efi_memmap(void)
{
void *p;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
efi_memory_desc_t *md = p;
unsigned long long start = md->phys_addr;
unsigned long long size = md->num_pages << EFI_PAGE_SHIFT;
int e820_type;
switch (md->type) {
case EFI_LOADER_CODE:
case EFI_LOADER_DATA:
case EFI_BOOT_SERVICES_CODE:
case EFI_BOOT_SERVICES_DATA:
case EFI_CONVENTIONAL_MEMORY:
if (md->attribute & EFI_MEMORY_WB)
e820_type = E820_RAM;
else
e820_type = E820_RESERVED;
break;
case EFI_ACPI_RECLAIM_MEMORY:
e820_type = E820_ACPI;
break;
case EFI_ACPI_MEMORY_NVS:
e820_type = E820_NVS;
break;
case EFI_UNUSABLE_MEMORY:
e820_type = E820_UNUSABLE;
break;
default:
/*
* EFI_RESERVED_TYPE EFI_RUNTIME_SERVICES_CODE
* EFI_RUNTIME_SERVICES_DATA EFI_MEMORY_MAPPED_IO
* EFI_MEMORY_MAPPED_IO_PORT_SPACE EFI_PAL_CODE
*/
e820_type = E820_RESERVED;
break;
}
e820_add_region(start, size, e820_type);
}
sanitize_e820_map(e820.map, ARRAY_SIZE(e820.map), &e820.nr_map);
}
int __init efi_memblock_x86_reserve_range(void)
{
unsigned long pmap;
#ifdef CONFIG_X86_32
/* Can't handle data above 4GB at this time */
if (boot_params.efi_info.efi_memmap_hi) {
pr_err("Memory map is above 4GB, disabling EFI.\n");
return -EINVAL;
}
pmap = boot_params.efi_info.efi_memmap;
#else
pmap = (boot_params.efi_info.efi_memmap |
((__u64)boot_params.efi_info.efi_memmap_hi<<32));
#endif
memmap.phys_map = (void *)pmap;
memmap.nr_map = boot_params.efi_info.efi_memmap_size /
boot_params.efi_info.efi_memdesc_size;
memmap.desc_version = boot_params.efi_info.efi_memdesc_version;
memmap.desc_size = boot_params.efi_info.efi_memdesc_size;
memblock_reserve(pmap, memmap.nr_map * memmap.desc_size);
return 0;
}
#if EFI_DEBUG
static void __init print_efi_memmap(void)
{
efi_memory_desc_t *md;
void *p;
int i;
for (p = memmap.map, i = 0;
p < memmap.map_end;
p += memmap.desc_size, i++) {
md = p;
pr_info("mem%02u: type=%u, attr=0x%llx, "
"range=[0x%016llx-0x%016llx) (%lluMB)\n",
i, md->type, md->attribute, md->phys_addr,
md->phys_addr + (md->num_pages << EFI_PAGE_SHIFT),
(md->num_pages >> (20 - EFI_PAGE_SHIFT)));
}
}
#endif /* EFI_DEBUG */
void __init efi_reserve_boot_services(void)
{
void *p;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
efi_memory_desc_t *md = p;
u64 start = md->phys_addr;
u64 size = md->num_pages << EFI_PAGE_SHIFT;
if (md->type != EFI_BOOT_SERVICES_CODE &&
md->type != EFI_BOOT_SERVICES_DATA)
continue;
/* Only reserve where possible:
* - Not within any already allocated areas
* - Not over any memory area (really needed, if above?)
* - Not within any part of the kernel
* - Not the bios reserved area
*/
if ((start+size >= __pa_symbol(_text)
&& start <= __pa_symbol(_end)) ||
!e820_all_mapped(start, start+size, E820_RAM) ||
memblock_is_region_reserved(start, size)) {
/* Could not reserve, skip it */
md->num_pages = 0;
memblock_dbg("Could not reserve boot range "
"[0x%010llx-0x%010llx]\n",
start, start+size-1);
} else
memblock_reserve(start, size);
}
}
void __init efi_unmap_memmap(void)
{
clear_bit(EFI_MEMMAP, &x86_efi_facility);
if (memmap.map) {
early_iounmap(memmap.map, memmap.nr_map * memmap.desc_size);
memmap.map = NULL;
}
}
void __init efi_free_boot_services(void)
{
void *p;
if (!efi_is_native())
return;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
efi_memory_desc_t *md = p;
unsigned long long start = md->phys_addr;
unsigned long long size = md->num_pages << EFI_PAGE_SHIFT;
if (md->type != EFI_BOOT_SERVICES_CODE &&
md->type != EFI_BOOT_SERVICES_DATA)
continue;
/* Could not reserve boot area */
if (!size)
continue;
free_bootmem_late(start, size);
}
efi_unmap_memmap();
}
static int __init efi_systab_init(void *phys)
{
if (efi_enabled(EFI_64BIT)) {
efi_system_table_64_t *systab64;
u64 tmp = 0;
systab64 = early_ioremap((unsigned long)phys,
sizeof(*systab64));
if (systab64 == NULL) {
pr_err("Couldn't map the system table!\n");
return -ENOMEM;
}
efi_systab.hdr = systab64->hdr;
efi_systab.fw_vendor = systab64->fw_vendor;
tmp |= systab64->fw_vendor;
efi_systab.fw_revision = systab64->fw_revision;
efi_systab.con_in_handle = systab64->con_in_handle;
tmp |= systab64->con_in_handle;
efi_systab.con_in = systab64->con_in;
tmp |= systab64->con_in;
efi_systab.con_out_handle = systab64->con_out_handle;
tmp |= systab64->con_out_handle;
efi_systab.con_out = systab64->con_out;
tmp |= systab64->con_out;
efi_systab.stderr_handle = systab64->stderr_handle;
tmp |= systab64->stderr_handle;
efi_systab.stderr = systab64->stderr;
tmp |= systab64->stderr;
efi_systab.runtime = (void *)(unsigned long)systab64->runtime;
tmp |= systab64->runtime;
efi_systab.boottime = (void *)(unsigned long)systab64->boottime;
tmp |= systab64->boottime;
efi_systab.nr_tables = systab64->nr_tables;
efi_systab.tables = systab64->tables;
tmp |= systab64->tables;
early_iounmap(systab64, sizeof(*systab64));
#ifdef CONFIG_X86_32
if (tmp >> 32) {
pr_err("EFI data located above 4GB, disabling EFI.\n");
return -EINVAL;
}
#endif
} else {
efi_system_table_32_t *systab32;
systab32 = early_ioremap((unsigned long)phys,
sizeof(*systab32));
if (systab32 == NULL) {
pr_err("Couldn't map the system table!\n");
return -ENOMEM;
}
efi_systab.hdr = systab32->hdr;
efi_systab.fw_vendor = systab32->fw_vendor;
efi_systab.fw_revision = systab32->fw_revision;
efi_systab.con_in_handle = systab32->con_in_handle;
efi_systab.con_in = systab32->con_in;
efi_systab.con_out_handle = systab32->con_out_handle;
efi_systab.con_out = systab32->con_out;
efi_systab.stderr_handle = systab32->stderr_handle;
efi_systab.stderr = systab32->stderr;
efi_systab.runtime = (void *)(unsigned long)systab32->runtime;
efi_systab.boottime = (void *)(unsigned long)systab32->boottime;
efi_systab.nr_tables = systab32->nr_tables;
efi_systab.tables = systab32->tables;
early_iounmap(systab32, sizeof(*systab32));
}
efi.systab = &efi_systab;
/*
* Verify the EFI Table
*/
if (efi.systab->hdr.signature != EFI_SYSTEM_TABLE_SIGNATURE) {
pr_err("System table signature incorrect!\n");
return -EINVAL;
}
if ((efi.systab->hdr.revision >> 16) == 0)
pr_err("Warning: System table version "
"%d.%02d, expected 1.00 or greater!\n",
efi.systab->hdr.revision >> 16,
efi.systab->hdr.revision & 0xffff);
return 0;
}
static int __init efi_config_init(u64 tables, int nr_tables)
{
void *config_tables, *tablep;
int i, sz;
if (efi_enabled(EFI_64BIT))
sz = sizeof(efi_config_table_64_t);
else
sz = sizeof(efi_config_table_32_t);
/*
* Let's see what config tables the firmware passed to us.
*/
config_tables = early_ioremap(tables, nr_tables * sz);
if (config_tables == NULL) {
pr_err("Could not map Configuration table!\n");
return -ENOMEM;
}
tablep = config_tables;
pr_info("");
for (i = 0; i < efi.systab->nr_tables; i++) {
efi_guid_t guid;
unsigned long table;
if (efi_enabled(EFI_64BIT)) {
u64 table64;
guid = ((efi_config_table_64_t *)tablep)->guid;
table64 = ((efi_config_table_64_t *)tablep)->table;
table = table64;
#ifdef CONFIG_X86_32
if (table64 >> 32) {
pr_cont("\n");
pr_err("Table located above 4GB, disabling EFI.\n");
early_iounmap(config_tables,
efi.systab->nr_tables * sz);
return -EINVAL;
}
#endif
} else {
guid = ((efi_config_table_32_t *)tablep)->guid;
table = ((efi_config_table_32_t *)tablep)->table;
}
if (!efi_guidcmp(guid, MPS_TABLE_GUID)) {
efi.mps = table;
pr_cont(" MPS=0x%lx ", table);
} else if (!efi_guidcmp(guid, ACPI_20_TABLE_GUID)) {
efi.acpi20 = table;
pr_cont(" ACPI 2.0=0x%lx ", table);
} else if (!efi_guidcmp(guid, ACPI_TABLE_GUID)) {
efi.acpi = table;
pr_cont(" ACPI=0x%lx ", table);
} else if (!efi_guidcmp(guid, SMBIOS_TABLE_GUID)) {
efi.smbios = table;
pr_cont(" SMBIOS=0x%lx ", table);
#ifdef CONFIG_X86_UV
} else if (!efi_guidcmp(guid, UV_SYSTEM_TABLE_GUID)) {
efi.uv_systab = table;
pr_cont(" UVsystab=0x%lx ", table);
#endif
} else if (!efi_guidcmp(guid, HCDP_TABLE_GUID)) {
efi.hcdp = table;
pr_cont(" HCDP=0x%lx ", table);
} else if (!efi_guidcmp(guid, UGA_IO_PROTOCOL_GUID)) {
efi.uga = table;
pr_cont(" UGA=0x%lx ", table);
}
tablep += sz;
}
pr_cont("\n");
early_iounmap(config_tables, efi.systab->nr_tables * sz);
return 0;
}
static int __init efi_runtime_init(void)
{
efi_runtime_services_t *runtime;
/*
* Check out the runtime services table. We need to map
* the runtime services table so that we can grab the physical
* address of several of the EFI runtime functions, needed to
* set the firmware into virtual mode.
*/
runtime = early_ioremap((unsigned long)efi.systab->runtime,
sizeof(efi_runtime_services_t));
if (!runtime) {
pr_err("Could not map the runtime service table!\n");
return -ENOMEM;
}
/*
* We will only need *early* access to the following
* two EFI runtime services before set_virtual_address_map
* is invoked.
*/
efi_phys.get_time = (efi_get_time_t *)runtime->get_time;
efi_phys.set_virtual_address_map =
(efi_set_virtual_address_map_t *)
runtime->set_virtual_address_map;
/*
* Make efi_get_time can be called before entering
* virtual mode.
*/
efi.get_time = phys_efi_get_time;
early_iounmap(runtime, sizeof(efi_runtime_services_t));
return 0;
}
static int __init efi_memmap_init(void)
{
/* Map the EFI memory map */
memmap.map = early_ioremap((unsigned long)memmap.phys_map,
memmap.nr_map * memmap.desc_size);
if (memmap.map == NULL) {
pr_err("Could not map the memory map!\n");
return -ENOMEM;
}
memmap.map_end = memmap.map + (memmap.nr_map * memmap.desc_size);
if (add_efi_memmap)
do_add_efi_memmap();
return 0;
}
void __init efi_init(void)
{
efi_char16_t *c16;
char vendor[100] = "unknown";
int i = 0;
void *tmp;
struct setup_data *data;
struct efi_var_bootdata *efi_var_data;
u64 pa_data;
#ifdef CONFIG_X86_32
if (boot_params.efi_info.efi_systab_hi ||
boot_params.efi_info.efi_memmap_hi) {
pr_info("Table located above 4GB, disabling EFI.\n");
return;
}
efi_phys.systab = (efi_system_table_t *)boot_params.efi_info.efi_systab;
#else
efi_phys.systab = (efi_system_table_t *)
(boot_params.efi_info.efi_systab |
((__u64)boot_params.efi_info.efi_systab_hi<<32));
#endif
if (efi_systab_init(efi_phys.systab))
return;
pa_data = boot_params.hdr.setup_data;
while (pa_data) {
data = early_ioremap(pa_data, sizeof(*efi_var_data));
if (data->type == SETUP_EFI_VARS) {
efi_var_data = (struct efi_var_bootdata *)data;
efi_var_store_size = efi_var_data->store_size;
efi_var_remaining_size = efi_var_data->remaining_size;
efi_var_max_var_size = efi_var_data->max_var_size;
}
pa_data = data->next;
early_iounmap(data, sizeof(*efi_var_data));
}
boot_used_size = efi_var_store_size - efi_var_remaining_size;
set_bit(EFI_SYSTEM_TABLES, &x86_efi_facility);
/*
* Show what we know for posterity
*/
c16 = tmp = early_ioremap(efi.systab->fw_vendor, 2);
if (c16) {
for (i = 0; i < sizeof(vendor) - 1 && *c16; ++i)
vendor[i] = *c16++;
vendor[i] = '\0';
} else
pr_err("Could not map the firmware vendor!\n");
early_iounmap(tmp, 2);
pr_info("EFI v%u.%.02u by %s\n",
efi.systab->hdr.revision >> 16,
efi.systab->hdr.revision & 0xffff, vendor);
if (efi_config_init(efi.systab->tables, efi.systab->nr_tables))
return;
set_bit(EFI_CONFIG_TABLES, &x86_efi_facility);
/*
* Note: We currently don't support runtime services on an EFI
* that doesn't match the kernel 32/64-bit mode.
*/
if (!efi_is_native())
pr_info("No EFI runtime due to 32/64-bit mismatch with kernel\n");
else {
if (disable_runtime || efi_runtime_init())
return;
set_bit(EFI_RUNTIME_SERVICES, &x86_efi_facility);
}
if (efi_memmap_init())
return;
set_bit(EFI_MEMMAP, &x86_efi_facility);
#ifdef CONFIG_X86_32
if (efi_is_native()) {
x86_platform.get_wallclock = efi_get_time;
x86_platform.set_wallclock = efi_set_rtc_mmss;
}
#endif
#if EFI_DEBUG
print_efi_memmap();
#endif
}
void __init efi_late_init(void)
{
efi_bgrt_init();
}
void __init efi_set_executable(efi_memory_desc_t *md, bool executable)
{
u64 addr, npages;
addr = md->virt_addr;
npages = md->num_pages;
memrange_efi_to_native(&addr, &npages);
if (executable)
set_memory_x(addr, npages);
else
set_memory_nx(addr, npages);
}
static void __init runtime_code_page_mkexec(void)
{
efi_memory_desc_t *md;
void *p;
/* Make EFI runtime service code area executable */
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
md = p;
if (md->type != EFI_RUNTIME_SERVICES_CODE)
continue;
efi_set_executable(md, true);
}
}
/*
* We can't ioremap data in EFI boot services RAM, because we've already mapped
* it as RAM. So, look it up in the existing EFI memory map instead. Only
* callable after efi_enter_virtual_mode and before efi_free_boot_services.
*/
void __iomem *efi_lookup_mapped_addr(u64 phys_addr)
{
void *p;
if (WARN_ON(!memmap.map))
return NULL;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
efi_memory_desc_t *md = p;
u64 size = md->num_pages << EFI_PAGE_SHIFT;
u64 end = md->phys_addr + size;
if (!(md->attribute & EFI_MEMORY_RUNTIME) &&
md->type != EFI_BOOT_SERVICES_CODE &&
md->type != EFI_BOOT_SERVICES_DATA)
continue;
if (!md->virt_addr)
continue;
if (phys_addr >= md->phys_addr && phys_addr < end) {
phys_addr += md->virt_addr - md->phys_addr;
return (__force void __iomem *)(unsigned long)phys_addr;
}
}
return NULL;
}
void efi_memory_uc(u64 addr, unsigned long size)
{
unsigned long page_shift = 1UL << EFI_PAGE_SHIFT;
u64 npages;
npages = round_up(size, page_shift) / page_shift;
memrange_efi_to_native(&addr, &npages);
set_memory_uc(addr, npages);
}
/*
* This function will switch the EFI runtime services to virtual mode.
* Essentially, look through the EFI memmap and map every region that
* has the runtime attribute bit set in its memory descriptor and update
* that memory descriptor with the virtual address obtained from ioremap().
* This enables the runtime services to be called without having to
* thunk back into physical mode for every invocation.
*/
void __init efi_enter_virtual_mode(void)
{
efi_memory_desc_t *md, *prev_md = NULL;
efi_status_t status;
unsigned long size;
u64 end, systab, start_pfn, end_pfn;
void *p, *va, *new_memmap = NULL;
int count = 0;
efi.systab = NULL;
/*
* We don't do virtual mode, since we don't do runtime services, on
* non-native EFI
*/
if (!efi_is_native()) {
efi_unmap_memmap();
return;
}
/* Merge contiguous regions of the same type and attribute */
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
u64 prev_size;
md = p;
if (!prev_md) {
prev_md = md;
continue;
}
if (prev_md->type != md->type ||
prev_md->attribute != md->attribute) {
prev_md = md;
continue;
}
prev_size = prev_md->num_pages << EFI_PAGE_SHIFT;
if (md->phys_addr == (prev_md->phys_addr + prev_size)) {
prev_md->num_pages += md->num_pages;
md->type = EFI_RESERVED_TYPE;
md->attribute = 0;
continue;
}
prev_md = md;
}
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
md = p;
if (!(md->attribute & EFI_MEMORY_RUNTIME) &&
md->type != EFI_BOOT_SERVICES_CODE &&
md->type != EFI_BOOT_SERVICES_DATA)
continue;
size = md->num_pages << EFI_PAGE_SHIFT;
end = md->phys_addr + size;
start_pfn = PFN_DOWN(md->phys_addr);
end_pfn = PFN_UP(end);
if (pfn_range_is_mapped(start_pfn, end_pfn)) {
va = __va(md->phys_addr);
if (!(md->attribute & EFI_MEMORY_WB))
efi_memory_uc((u64)(unsigned long)va, size);
} else
va = efi_ioremap(md->phys_addr, size,
md->type, md->attribute);
md->virt_addr = (u64) (unsigned long) va;
if (!va) {
pr_err("ioremap of 0x%llX failed!\n",
(unsigned long long)md->phys_addr);
continue;
}
systab = (u64) (unsigned long) efi_phys.systab;
if (md->phys_addr <= systab && systab < end) {
systab += md->virt_addr - md->phys_addr;
efi.systab = (efi_system_table_t *) (unsigned long) systab;
}
new_memmap = krealloc(new_memmap,
(count + 1) * memmap.desc_size,
GFP_KERNEL);
memcpy(new_memmap + (count * memmap.desc_size), md,
memmap.desc_size);
count++;
}
BUG_ON(!efi.systab);
status = phys_efi_set_virtual_address_map(
memmap.desc_size * count,
memmap.desc_size,
memmap.desc_version,
(efi_memory_desc_t *)__pa(new_memmap));
if (status != EFI_SUCCESS) {
pr_alert("Unable to switch EFI into virtual mode "
"(status=%lx)!\n", status);
panic("EFI call to SetVirtualAddressMap() failed!");
}
/*
* Now that EFI is in virtual mode, update the function
* pointers in the runtime service table to the new virtual addresses.
*
* Call EFI services through wrapper functions.
*/
efi.runtime_version = efi_systab.hdr.revision;
efi.get_time = virt_efi_get_time;
efi.set_time = virt_efi_set_time;
efi.get_wakeup_time = virt_efi_get_wakeup_time;
efi.set_wakeup_time = virt_efi_set_wakeup_time;
efi.get_variable = virt_efi_get_variable;
efi.get_next_variable = virt_efi_get_next_variable;
efi.set_variable = virt_efi_set_variable;
efi.get_next_high_mono_count = virt_efi_get_next_high_mono_count;
efi.reset_system = virt_efi_reset_system;
efi.set_virtual_address_map = NULL;
efi.query_variable_info = virt_efi_query_variable_info;
efi.update_capsule = virt_efi_update_capsule;
efi.query_capsule_caps = virt_efi_query_capsule_caps;
if (__supported_pte_mask & _PAGE_NX)
runtime_code_page_mkexec();
kfree(new_memmap);
}
/*
* Convenience functions to obtain memory types and attributes
*/
u32 efi_mem_type(unsigned long phys_addr)
{
efi_memory_desc_t *md;
void *p;
if (!efi_enabled(EFI_MEMMAP))
return 0;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
md = p;
if ((md->phys_addr <= phys_addr) &&
(phys_addr < (md->phys_addr +
(md->num_pages << EFI_PAGE_SHIFT))))
return md->type;
}
return 0;
}
u64 efi_mem_attributes(unsigned long phys_addr)
{
efi_memory_desc_t *md;
void *p;
for (p = memmap.map; p < memmap.map_end; p += memmap.desc_size) {
md = p;
if ((md->phys_addr <= phys_addr) &&
(phys_addr < (md->phys_addr +
(md->num_pages << EFI_PAGE_SHIFT))))
return md->attribute;
}
return 0;
}
/*
* Some firmware has serious problems when using more than 50% of the EFI
* variable store, i.e. it triggers bugs that can brick machines. Ensure that
* we never use more than this safe limit.
*
* Return EFI_SUCCESS if it is safe to write 'size' bytes to the variable
* store.
*/
efi_status_t efi_query_variable_store(u32 attributes, unsigned long size)
{
efi_status_t status;
u64 storage_size, remaining_size, max_size;
status = efi.query_variable_info(attributes, &storage_size,
&remaining_size, &max_size);
if (status != EFI_SUCCESS)
return status;
if (!max_size && remaining_size > size)
printk_once(KERN_ERR FW_BUG "Broken EFI implementation"
" is returning MaxVariableSize=0\n");
/*
* Some firmware implementations refuse to boot if there's insufficient
* space in the variable store. We account for that by refusing the
* write if permitting it would reduce the available space to under
* 50%. However, some firmware won't reclaim variable space until
* after the used (not merely the actively used) space drops below
* a threshold. We can approximate that case with the value calculated
* above. If both the firmware and our calculations indicate that the
* available space would drop below 50%, refuse the write.
*/
if (!storage_size || size > remaining_size ||
(max_size && size > max_size) ||
((active_size + size + VAR_METADATA_SIZE > storage_size / 2) &&
(remaining_size - size < storage_size / 2)))
return EFI_OUT_OF_RESOURCES;
return EFI_SUCCESS;
}
EXPORT_SYMBOL_GPL(efi_query_variable_store);
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