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/* SPDX-License-Identifier: LGPL-2.1-or-later */
#pragma once
#include <efi.h>
#include <efilib.h>
#include "string-util-fundamental.h"
/* This TPM PCR is where most Linux infrastructure extends the kernel command line into, and so do we. We also extend
* any passed credentials here. */
#define TPM_PCR_INDEX_KERNEL_PARAMETERS 8
/* This TPM PCR is where most Linux infrastructure extends the initrd binary images into, and so do we. */
#define TPM_PCR_INDEX_INITRD 4
#define offsetof(type, member) __builtin_offsetof(type, member)
#define UINTN_MAX (~(UINTN)0)
#define INTN_MAX ((INTN)(UINTN_MAX>>1))
#ifndef UINT32_MAX
#define UINT32_MAX ((UINT32) -1)
#endif
#ifndef UINT64_MAX
#define UINT64_MAX ((UINT64) -1)
#endif
#define assert_alloc_ret(p) \
({ \
void *_p = (p); \
assert(_p); \
_p; \
})
#define xnew_alloc(type, n, alloc) \
({ \
UINTN _alloc_size; \
if (__builtin_mul_overflow(sizeof(type), (n), &_alloc_size)) \
assert_not_reached(); \
(type *) alloc(_alloc_size); \
})
#define xallocate_pool(size) assert_alloc_ret(AllocatePool(size))
#define xallocate_zero_pool(size) assert_alloc_ret(AllocateZeroPool(size))
#define xreallocate_pool(p, old_size, new_size) assert_alloc_ret(ReallocatePool((p), (old_size), (new_size)))
#define xpool_print(fmt, ...) ((CHAR16 *) assert_alloc_ret(PoolPrint((fmt), ##__VA_ARGS__)))
#define xstrdup(str) ((CHAR16 *) assert_alloc_ret(StrDuplicate(str)))
#define xnew(type, n) xnew_alloc(type, (n), xallocate_pool)
#define xnew0(type, n) xnew_alloc(type, (n), xallocate_zero_pool)
EFI_STATUS parse_boolean(const CHAR8 *v, BOOLEAN *b);
UINT64 ticks_read(void);
UINT64 ticks_freq(void);
UINT64 time_usec(void);
EFI_STATUS efivar_set(const EFI_GUID *vendor, const CHAR16 *name, const CHAR16 *value, UINT32 flags);
EFI_STATUS efivar_set_raw(const EFI_GUID *vendor, const CHAR16 *name, const void *buf, UINTN size, UINT32 flags);
EFI_STATUS efivar_set_uint_string(const EFI_GUID *vendor, const CHAR16 *name, UINTN i, UINT32 flags);
EFI_STATUS efivar_set_uint32_le(const EFI_GUID *vendor, const CHAR16 *NAME, UINT32 value, UINT32 flags);
EFI_STATUS efivar_set_uint64_le(const EFI_GUID *vendor, const CHAR16 *name, UINT64 value, UINT32 flags);
void efivar_set_time_usec(const EFI_GUID *vendor, const CHAR16 *name, UINT64 usec);
EFI_STATUS efivar_get(const EFI_GUID *vendor, const CHAR16 *name, CHAR16 **value);
EFI_STATUS efivar_get_raw(const EFI_GUID *vendor, const CHAR16 *name, CHAR8 **buffer, UINTN *size);
EFI_STATUS efivar_get_uint_string(const EFI_GUID *vendor, const CHAR16 *name, UINTN *i);
EFI_STATUS efivar_get_uint32_le(const EFI_GUID *vendor, const CHAR16 *name, UINT32 *ret);
EFI_STATUS efivar_get_uint64_le(const EFI_GUID *vendor, const CHAR16 *name, UINT64 *ret);
EFI_STATUS efivar_get_boolean_u8(const EFI_GUID *vendor, const CHAR16 *name, BOOLEAN *ret);
CHAR8 *strchra(const CHAR8 *s, CHAR8 c);
CHAR16 *xstra_to_path(const CHAR8 *stra);
CHAR16 *xstra_to_str(const CHAR8 *stra);
EFI_STATUS file_read(EFI_FILE_HANDLE dir, const CHAR16 *name, UINTN off, UINTN size, CHAR8 **content, UINTN *content_size);
static inline void free_poolp(void *p) {
void *q = *(void**) p;
if (!q)
return;
FreePool(q);
}
#define _cleanup_freepool_ _cleanup_(free_poolp)
static inline void file_handle_closep(EFI_FILE_HANDLE *handle) {
if (!*handle)
return;
(*handle)->Close(*handle);
}
/*
* 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 \
&(const EFI_GUID) { 0x4a67b082, 0x0a4c, 0x41cf, { 0xb6, 0xc7, 0x44, 0x0b, 0x29, 0xbb, 0x8c, 0x4f } }
#define EFI_GLOBAL_GUID &(const EFI_GUID) EFI_GLOBAL_VARIABLE
void log_error_stall(const CHAR16 *fmt, ...);
EFI_STATUS log_oom(void);
/* This works just like log_error_errno() from userspace, but requires you
* to provide err a second time if you want to use %r in the message! */
#define log_error_status_stall(err, fmt, ...) \
({ \
log_error_stall(fmt, ##__VA_ARGS__); \
err; \
})
void print_at(UINTN x, UINTN y, UINTN attr, const CHAR16 *str);
void clear_screen(UINTN attr);
typedef INTN (*compare_pointer_func_t)(const void *a, const void *b);
void sort_pointer_array(void **array, UINTN n_members, compare_pointer_func_t compare);
EFI_STATUS get_file_info_harder(EFI_FILE_HANDLE handle, EFI_FILE_INFO **ret, UINTN *ret_size);
EFI_STATUS readdir_harder(EFI_FILE_HANDLE handle, EFI_FILE_INFO **buffer, UINTN *buffer_size);
UINTN strnlena(const CHAR8 *p, UINTN maxlen);
CHAR8 *xstrndup8(const CHAR8 *p, UINTN sz);
INTN strncasecmpa(const CHAR8 *a, const CHAR8 *b, UINTN maxlen);
static inline BOOLEAN strncaseeqa(const CHAR8 *a, const CHAR8 *b, UINTN maxlen) {
return strncasecmpa(a, b, maxlen) == 0;
}
BOOLEAN is_ascii(const CHAR16 *f);
CHAR16 **strv_free(CHAR16 **l);
static inline void strv_freep(CHAR16 ***p) {
strv_free(*p);
}
EFI_STATUS open_directory(EFI_FILE_HANDLE root_dir, const CHAR16 *path, EFI_FILE_HANDLE *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 UINTN (which is defined by UEFI to have the same size as a pointer), and
* then extended to EFI_PHYSICAL_ADDRESS. */
static inline EFI_PHYSICAL_ADDRESS POINTER_TO_PHYSICAL_ADDRESS(const void *p) {
return (EFI_PHYSICAL_ADDRESS) (UINTN) p;
}
static inline void *PHYSICAL_ADDRESS_TO_POINTER(EFI_PHYSICAL_ADDRESS addr) {
#if __SIZEOF_POINTER__ == 4
/* On 32bit systems the address might not be convertible (as pointers are 32bit but
* EFI_PHYSICAL_ADDRESS 64bit) */
assert(addr <= UINT32_MAX);
#elif __SIZEOF_POINTER__ != 8
#error "Unexpected pointer size"
#endif
return (void*) (UINTN) addr;
}
UINT64 get_os_indications_supported(void);
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