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// SPDX-License-Identifier: GPL-2.0
/*
* Helper functions used by the EFI stub on multiple
* architectures. This should be #included by the EFI stub
* implementation files.
*
* Copyright 2011 Intel Corporation; author Matt Fleming
*/
#include <linux/efi.h>
#include <asm/efi.h>
#include "efistub.h"
bool efi_nochunk;
bool efi_nokaslr;
bool efi_noinitrd;
bool efi_quiet;
bool efi_novamap;
static bool efi_nosoftreserve;
static bool efi_disable_pci_dma = IS_ENABLED(CONFIG_EFI_DISABLE_PCI_DMA);
bool __pure __efi_soft_reserve_enabled(void)
{
return !efi_nosoftreserve;
}
void efi_printk(char *str)
{
char *s8;
for (s8 = str; *s8; s8++) {
efi_char16_t ch[2] = { 0 };
ch[0] = *s8;
if (*s8 == '\n') {
efi_char16_t nl[2] = { '\r', 0 };
efi_char16_printk(nl);
}
efi_char16_printk(ch);
}
}
/*
* Parse the ASCII string 'cmdline' for EFI options, denoted by the efi=
* option, e.g. efi=nochunk.
*
* It should be noted that efi= is parsed in two very different
* environments, first in the early boot environment of the EFI boot
* stub, and subsequently during the kernel boot.
*/
efi_status_t efi_parse_options(char const *cmdline)
{
size_t len = strlen(cmdline) + 1;
efi_status_t status;
char *str, *buf;
status = efi_bs_call(allocate_pool, EFI_LOADER_DATA, len, (void **)&buf);
if (status != EFI_SUCCESS)
return status;
str = skip_spaces(memcpy(buf, cmdline, len));
while (*str) {
char *param, *val;
str = next_arg(str, ¶m, &val);
if (!strcmp(param, "nokaslr")) {
efi_nokaslr = true;
} else if (!strcmp(param, "quiet")) {
efi_quiet = true;
} else if (!strcmp(param, "noinitrd")) {
efi_noinitrd = true;
} else if (!strcmp(param, "efi") && val) {
efi_nochunk = parse_option_str(val, "nochunk");
efi_novamap = parse_option_str(val, "novamap");
efi_nosoftreserve = IS_ENABLED(CONFIG_EFI_SOFT_RESERVE) &&
parse_option_str(val, "nosoftreserve");
if (parse_option_str(val, "disable_early_pci_dma"))
efi_disable_pci_dma = true;
if (parse_option_str(val, "no_disable_early_pci_dma"))
efi_disable_pci_dma = false;
} else if (!strcmp(param, "video") &&
val && strstarts(val, "efifb:")) {
efi_parse_option_graphics(val + strlen("efifb:"));
}
}
efi_bs_call(free_pool, buf);
return EFI_SUCCESS;
}
/*
* Get the number of UTF-8 bytes corresponding to an UTF-16 character.
* This overestimates for surrogates, but that is okay.
*/
static int efi_utf8_bytes(u16 c)
{
return 1 + (c >= 0x80) + (c >= 0x800);
}
/*
* Convert an UTF-16 string, not necessarily null terminated, to UTF-8.
*/
static u8 *efi_utf16_to_utf8(u8 *dst, const u16 *src, int n)
{
unsigned int c;
while (n--) {
c = *src++;
if (n && c >= 0xd800 && c <= 0xdbff &&
*src >= 0xdc00 && *src <= 0xdfff) {
c = 0x10000 + ((c & 0x3ff) << 10) + (*src & 0x3ff);
src++;
n--;
}
if (c >= 0xd800 && c <= 0xdfff)
c = 0xfffd; /* Unmatched surrogate */
if (c < 0x80) {
*dst++ = c;
continue;
}
if (c < 0x800) {
*dst++ = 0xc0 + (c >> 6);
goto t1;
}
if (c < 0x10000) {
*dst++ = 0xe0 + (c >> 12);
goto t2;
}
*dst++ = 0xf0 + (c >> 18);
*dst++ = 0x80 + ((c >> 12) & 0x3f);
t2:
*dst++ = 0x80 + ((c >> 6) & 0x3f);
t1:
*dst++ = 0x80 + (c & 0x3f);
}
return dst;
}
/*
* Convert the unicode UEFI command line to ASCII to pass to kernel.
* Size of memory allocated return in *cmd_line_len.
* Returns NULL on error.
*/
char *efi_convert_cmdline(efi_loaded_image_t *image,
int *cmd_line_len, unsigned long max_addr)
{
const u16 *s2;
u8 *s1 = NULL;
unsigned long cmdline_addr = 0;
int load_options_chars = efi_table_attr(image, load_options_size) / 2;
const u16 *options = efi_table_attr(image, load_options);
int options_bytes = 0; /* UTF-8 bytes */
int options_chars = 0; /* UTF-16 chars */
efi_status_t status;
u16 zero = 0;
if (options) {
s2 = options;
while (*s2 && *s2 != '\n'
&& options_chars < load_options_chars) {
options_bytes += efi_utf8_bytes(*s2++);
options_chars++;
}
}
if (!options_chars) {
/* No command line options, so return empty string*/
options = &zero;
}
options_bytes++; /* NUL termination */
status = efi_allocate_pages(options_bytes, &cmdline_addr, max_addr);
if (status != EFI_SUCCESS)
return NULL;
s1 = (u8 *)cmdline_addr;
s2 = (const u16 *)options;
s1 = efi_utf16_to_utf8(s1, s2, options_chars);
*s1 = '\0';
*cmd_line_len = options_bytes;
return (char *)cmdline_addr;
}
/*
* Handle calling ExitBootServices according to the requirements set out by the
* spec. Obtains the current memory map, and returns that info after calling
* ExitBootServices. The client must specify a function to perform any
* processing of the memory map data prior to ExitBootServices. A client
* specific structure may be passed to the function via priv. The client
* function may be called multiple times.
*/
efi_status_t efi_exit_boot_services(void *handle,
struct efi_boot_memmap *map,
void *priv,
efi_exit_boot_map_processing priv_func)
{
efi_status_t status;
status = efi_get_memory_map(map);
if (status != EFI_SUCCESS)
goto fail;
status = priv_func(map, priv);
if (status != EFI_SUCCESS)
goto free_map;
if (efi_disable_pci_dma)
efi_pci_disable_bridge_busmaster();
status = efi_bs_call(exit_boot_services, handle, *map->key_ptr);
if (status == EFI_INVALID_PARAMETER) {
/*
* The memory map changed between efi_get_memory_map() and
* exit_boot_services(). Per the UEFI Spec v2.6, Section 6.4:
* EFI_BOOT_SERVICES.ExitBootServices we need to get the
* updated map, and try again. The spec implies one retry
* should be sufficent, which is confirmed against the EDK2
* implementation. Per the spec, we can only invoke
* get_memory_map() and exit_boot_services() - we cannot alloc
* so efi_get_memory_map() cannot be used, and we must reuse
* the buffer. For all practical purposes, the headroom in the
* buffer should account for any changes in the map so the call
* to get_memory_map() is expected to succeed here.
*/
*map->map_size = *map->buff_size;
status = efi_bs_call(get_memory_map,
map->map_size,
*map->map,
map->key_ptr,
map->desc_size,
map->desc_ver);
/* exit_boot_services() was called, thus cannot free */
if (status != EFI_SUCCESS)
goto fail;
status = priv_func(map, priv);
/* exit_boot_services() was called, thus cannot free */
if (status != EFI_SUCCESS)
goto fail;
status = efi_bs_call(exit_boot_services, handle, *map->key_ptr);
}
/* exit_boot_services() was called, thus cannot free */
if (status != EFI_SUCCESS)
goto fail;
return EFI_SUCCESS;
free_map:
efi_bs_call(free_pool, *map->map);
fail:
return status;
}
void *get_efi_config_table(efi_guid_t guid)
{
unsigned long tables = efi_table_attr(efi_system_table, tables);
int nr_tables = efi_table_attr(efi_system_table, nr_tables);
int i;
for (i = 0; i < nr_tables; i++) {
efi_config_table_t *t = (void *)tables;
if (efi_guidcmp(t->guid, guid) == 0)
return efi_table_attr(t, table);
tables += efi_is_native() ? sizeof(efi_config_table_t)
: sizeof(efi_config_table_32_t);
}
return NULL;
}
void efi_char16_printk(efi_char16_t *str)
{
efi_call_proto(efi_table_attr(efi_system_table, con_out),
output_string, str);
}
/*
* The LINUX_EFI_INITRD_MEDIA_GUID vendor media device path below provides a way
* for the firmware or bootloader to expose the initrd data directly to the stub
* via the trivial LoadFile2 protocol, which is defined in the UEFI spec, and is
* very easy to implement. It is a simple Linux initrd specific conduit between
* kernel and firmware, allowing us to put the EFI stub (being part of the
* kernel) in charge of where and when to load the initrd, while leaving it up
* to the firmware to decide whether it needs to expose its filesystem hierarchy
* via EFI protocols.
*/
static const struct {
struct efi_vendor_dev_path vendor;
struct efi_generic_dev_path end;
} __packed initrd_dev_path = {
{
{
EFI_DEV_MEDIA,
EFI_DEV_MEDIA_VENDOR,
sizeof(struct efi_vendor_dev_path),
},
LINUX_EFI_INITRD_MEDIA_GUID
}, {
EFI_DEV_END_PATH,
EFI_DEV_END_ENTIRE,
sizeof(struct efi_generic_dev_path)
}
};
/**
* efi_load_initrd_dev_path - load the initrd from the Linux initrd device path
* @load_addr: pointer to store the address where the initrd was loaded
* @load_size: pointer to store the size of the loaded initrd
* @max: upper limit for the initrd memory allocation
* @return: %EFI_SUCCESS if the initrd was loaded successfully, in which
* case @load_addr and @load_size are assigned accordingly
* %EFI_NOT_FOUND if no LoadFile2 protocol exists on the initrd
* device path
* %EFI_INVALID_PARAMETER if load_addr == NULL or load_size == NULL
* %EFI_OUT_OF_RESOURCES if memory allocation failed
* %EFI_LOAD_ERROR in all other cases
*/
efi_status_t efi_load_initrd_dev_path(unsigned long *load_addr,
unsigned long *load_size,
unsigned long max)
{
efi_guid_t lf2_proto_guid = EFI_LOAD_FILE2_PROTOCOL_GUID;
efi_device_path_protocol_t *dp;
efi_load_file2_protocol_t *lf2;
unsigned long initrd_addr;
unsigned long initrd_size;
efi_handle_t handle;
efi_status_t status;
if (!load_addr || !load_size)
return EFI_INVALID_PARAMETER;
dp = (efi_device_path_protocol_t *)&initrd_dev_path;
status = efi_bs_call(locate_device_path, &lf2_proto_guid, &dp, &handle);
if (status != EFI_SUCCESS)
return status;
status = efi_bs_call(handle_protocol, handle, &lf2_proto_guid,
(void **)&lf2);
if (status != EFI_SUCCESS)
return status;
status = efi_call_proto(lf2, load_file, dp, false, &initrd_size, NULL);
if (status != EFI_BUFFER_TOO_SMALL)
return EFI_LOAD_ERROR;
status = efi_allocate_pages(initrd_size, &initrd_addr, max);
if (status != EFI_SUCCESS)
return status;
status = efi_call_proto(lf2, load_file, dp, false, &initrd_size,
(void *)initrd_addr);
if (status != EFI_SUCCESS) {
efi_free(initrd_size, initrd_addr);
return EFI_LOAD_ERROR;
}
*load_addr = initrd_addr;
*load_size = initrd_size;
return EFI_SUCCESS;
}
|