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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#pragma once
#include "efi.h"
#include "log.h"
#include "proto/file-io.h"
#include "string-util-fundamental.h"
static inline void free(void *p) {
if (!p)
return;
/* Debugging an invalid free requires trace logging to find the call site or a debugger attached. For
* release builds it is not worth the bother to even warn when we cannot even print a call stack. */
#ifdef EFI_DEBUG
assert_se(BS->FreePool(p) == EFI_SUCCESS);
#else
(void) BS->FreePool(p);
#endif
}
static inline void freep(void *p) {
free(*(void **) p);
}
#define _cleanup_free_ _cleanup_(freep)
_malloc_ _alloc_(1) _returns_nonnull_ _warn_unused_result_
static inline void *xmalloc(size_t size) {
void *p;
assert_se(BS->AllocatePool(EfiLoaderData, size, &p) == EFI_SUCCESS);
return p;
}
_malloc_ _alloc_(1, 2) _returns_nonnull_ _warn_unused_result_
static inline void *xmalloc_multiply(size_t size, size_t n) {
assert_se(!__builtin_mul_overflow(size, n, &size));
return xmalloc(size);
}
/* Use malloc attribute as this never returns p like userspace realloc. */
_malloc_ _alloc_(3) _returns_nonnull_ _warn_unused_result_
static inline void *xrealloc(void *p, size_t old_size, size_t new_size) {
void *t = xmalloc(new_size);
new_size = MIN(old_size, new_size);
if (new_size > 0)
memcpy(t, p, new_size);
free(p);
return t;
}
#define xnew(type, n) ((type *) xmalloc_multiply(sizeof(type), (n)))
typedef struct {
EFI_PHYSICAL_ADDRESS addr;
size_t n_pages;
} Pages;
static inline void cleanup_pages(Pages *p) {
if (p->n_pages == 0)
return;
#ifdef EFI_DEBUG
assert_se(BS->FreePages(p->addr, p->n_pages) == EFI_SUCCESS);
#else
(void) BS->FreePages(p->addr, p->n_pages);
#endif
}
#define _cleanup_pages_ _cleanup_(cleanup_pages)
static inline Pages xmalloc_pages(
EFI_ALLOCATE_TYPE type, EFI_MEMORY_TYPE memory_type, size_t n_pages, EFI_PHYSICAL_ADDRESS addr) {
assert_se(BS->AllocatePages(type, memory_type, n_pages, &addr) == EFI_SUCCESS);
return (Pages) {
.addr = addr,
.n_pages = n_pages,
};
}
EFI_STATUS parse_boolean(const char *v, bool *b);
EFI_STATUS efivar_set(const EFI_GUID *vendor, const char16_t *name, const char16_t *value, uint32_t flags);
EFI_STATUS efivar_set_raw(const EFI_GUID *vendor, const char16_t *name, const void *buf, size_t size, uint32_t flags);
EFI_STATUS efivar_set_uint_string(const EFI_GUID *vendor, const char16_t *name, size_t i, uint32_t flags);
EFI_STATUS efivar_set_uint32_le(const EFI_GUID *vendor, const char16_t *NAME, uint32_t value, uint32_t flags);
EFI_STATUS efivar_set_uint64_le(const EFI_GUID *vendor, const char16_t *name, uint64_t value, uint32_t flags);
void efivar_set_time_usec(const EFI_GUID *vendor, const char16_t *name, uint64_t usec);
EFI_STATUS efivar_get(const EFI_GUID *vendor, const char16_t *name, char16_t **ret);
EFI_STATUS efivar_get_raw(const EFI_GUID *vendor, const char16_t *name, char **ret, size_t *ret_size);
EFI_STATUS efivar_get_uint_string(const EFI_GUID *vendor, const char16_t *name, size_t *ret);
EFI_STATUS efivar_get_uint32_le(const EFI_GUID *vendor, const char16_t *name, uint32_t *ret);
EFI_STATUS efivar_get_uint64_le(const EFI_GUID *vendor, const char16_t *name, uint64_t *ret);
EFI_STATUS efivar_get_boolean_u8(const EFI_GUID *vendor, const char16_t *name, bool *ret);
void convert_efi_path(char16_t *path);
char16_t *xstr8_to_path(const char *stra);
void mangle_stub_cmdline(char16_t *cmdline);
EFI_STATUS chunked_read(EFI_FILE *file, size_t *size, void *buf);
EFI_STATUS file_read(EFI_FILE *dir, const char16_t *name, size_t off, size_t size, char **content, size_t *content_size);
static inline void file_closep(EFI_FILE **handle) {
if (!*handle)
return;
(*handle)->Close(*handle);
}
static inline void unload_imagep(EFI_HANDLE *image) {
if (*image)
(void) BS->UnloadImage(*image);
}
/*
* Allocated random UUID, intended to be shared across tools that implement
* the (ESP)\loader\entries\<vendor>-<revision>.conf convention and the
* associated EFI variables.
*/
#define LOADER_GUID \
{ 0x4a67b082, 0x0a4c, 0x41cf, { 0xb6, 0xc7, 0x44, 0x0b, 0x29, 0xbb, 0x8c, 0x4f } }
/* Note that GUID is evaluated multiple times! */
#define GUID_FORMAT_STR "%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X"
#define GUID_FORMAT_VAL(g) (g).Data1, (g).Data2, (g).Data3, (g).Data4[0], (g).Data4[1], \
(g).Data4[2], (g).Data4[3], (g).Data4[4], (g).Data4[5], (g).Data4[6], (g).Data4[7]
void print_at(size_t x, size_t y, size_t attr, const char16_t *str);
void clear_screen(size_t attr);
typedef int (*compare_pointer_func_t)(const void *a, const void *b);
void sort_pointer_array(void **array, size_t n_members, compare_pointer_func_t compare);
EFI_STATUS get_file_info(EFI_FILE *handle, EFI_FILE_INFO **ret, size_t *ret_size);
EFI_STATUS readdir(EFI_FILE *handle, EFI_FILE_INFO **buffer, size_t *buffer_size);
bool is_ascii(const char16_t *f);
char16_t **strv_free(char16_t **l);
static inline void strv_freep(char16_t ***p) {
strv_free(*p);
}
EFI_STATUS open_directory(EFI_FILE *root_dir, const char16_t *path, EFI_FILE **ret);
/* Conversion between EFI_PHYSICAL_ADDRESS and pointers is not obvious. The former is always 64bit, even on
* 32bit archs. And gcc complains if we cast a pointer to an integer of a different size. Hence let's do the
* conversion indirectly: first into uintptr_t and then extended to EFI_PHYSICAL_ADDRESS. */
static inline EFI_PHYSICAL_ADDRESS POINTER_TO_PHYSICAL_ADDRESS(const void *p) {
return (EFI_PHYSICAL_ADDRESS) (uintptr_t) p;
}
static inline void *PHYSICAL_ADDRESS_TO_POINTER(EFI_PHYSICAL_ADDRESS addr) {
/* On 32bit systems the address might not be convertible (as pointers are 32bit but
* EFI_PHYSICAL_ADDRESS 64bit) */
assert(addr <= UINTPTR_MAX);
return (void *) (uintptr_t) addr;
}
uint64_t get_os_indications_supported(void);
#ifdef EFI_DEBUG
/* Report the relocated position of text and data sections so that a debugger
* can attach to us. See debug-sd-boot.sh for how this can be done. */
void notify_debugger(const char *identity, bool wait);
void hexdump(const char16_t *prefix, const void *data, size_t size);
#else
# define notify_debugger(i, w)
#endif
/* On x86 the compiler assumes a different incoming stack alignment than what we get.
* This will cause long long variables to be misaligned when building with
* '-mlong-double' (for correct struct layouts). Normally, the compiler realigns the
* stack itself on entry, but we have to do this ourselves here as the compiler does
* not know that this is our entry point. */
#ifdef __i386__
# define _realign_stack_ __attribute__((force_align_arg_pointer))
#else
# define _realign_stack_
#endif
#define DEFINE_EFI_MAIN_FUNCTION(func, identity, wait_for_debugger) \
EFI_SYSTEM_TABLE *ST; \
EFI_BOOT_SERVICES *BS; \
EFI_RUNTIME_SERVICES *RT; \
_realign_stack_ \
EFIAPI EFI_STATUS efi_main(EFI_HANDLE image, EFI_SYSTEM_TABLE *system_table); \
EFIAPI EFI_STATUS efi_main(EFI_HANDLE image, EFI_SYSTEM_TABLE *system_table) { \
ST = system_table; \
BS = system_table->BootServices; \
RT = system_table->RuntimeServices; \
__stack_chk_guard_init(); \
notify_debugger((identity), (wait_for_debugger)); \
EFI_STATUS err = func(image); \
log_wait(); \
return err; \
}
#if defined(__i386__) || defined(__x86_64__)
void beep(unsigned beep_count);
#else
static inline void beep(unsigned beep_count) {}
#endif
EFI_STATUS open_volume(EFI_HANDLE device, EFI_FILE **ret_file);
static inline bool efi_guid_equal(const EFI_GUID *a, const EFI_GUID *b) {
return memcmp(a, b, sizeof(EFI_GUID)) == 0;
}
void *find_configuration_table(const EFI_GUID *guid);
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