POSIX-style API for UEFI applications
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POSIX-UEFI

We hate that horrible and ugly UEFI API, we want POSIX!

This is a very small library (32k) that helps you to develop for UEFI under Linux (and other POSIX systems). It was greatly inspired by gnu-efi (big big kudos to those guys), but it is a lot smaller, easier to integrate (works with Clang and GNU gcc both) and easier to use because it provides a POSIX like API.

To use it, you have two options:

Distributing as Static Library

In the uefi directory, run

$ make

This will create build/uefi with all the necessary files in it. These are:

  • crt0.o, the run-time that bootstraps POSIX-UEFI
  • link.ld, the linker script you must use with POSIX-UEFI (same as with gnu-efi)
  • libuefi.a, the library itself
  • uefi.h, the all-in-one C / C++ header

You can use this and link your application with it, but you won't be able to recompile it, plus you're on your own with the linking and converting.

Strictly speaking you'll only need crt0.o and link.ld, that will get you started and will call your application's "main()", but to get libc functions like memcmp, strcpy, malloc or fopen, you'll have to link with libuefi.a.

Distributing as Source

This is the preferred way, as it also provides a Makefile to set up your toolchain properly.

  1. simply copy the uefi directory into your source tree (or set up a git submodule). Twelfe files, about 140K in total.
  2. create an extremely simple Makefile like below
  3. compile your code for UEFI by running make
TARGET = helloworld.efi

include uefi/Makefile

An example helloworld.c goes like this:

#include <uefi.h>

int main(int argc, wchar_t **argv)
{
    printf(L"Hello World!\n");
    return 0;
}

Available Makefile Options

Variable Description
TARGET the target application (required)
SRCS list of source files you want to compile (defaults to *.c *.S)
CFALGS compiler flags you want to use (empty by default, like "-Wall -pedantic -std=c99")
LDFLAGS linker flags you want to use (I don't think you'll ever need this, just in case)
LIBS additional libraries you want to link with (like "-lm", only static .a libraries allowed)
USE_LLVM set this if you want LLVM Clang / Lld instead of GNU gcc / ld
ARCH the target architecture (only x86_64 supported for now, but the toolchain can handle multiple archs)

Here's a more advanced Makefile example:

ARCH = x86_64
TARGET = helloworld.efi
SRCS = $(wildcard *.c)
CFLAGS = -pedantic -Wall -Wextra -Werror --std=c11 -O2
LDFLAGS =
LIBS = -lm

USE_LLVM = 1
include uefi/Makefile

Accessing UEFI Services

It is very likely that you want to call UEFI specific functions directly. For that, POSIX-UEFI specifies some globals in uefi.h:

Global Variable Description
*BS efi_boot_services_t, pointer to the Boot Time Services
*RT efi_runtime_t, pointer to the Runtime Services
*ST efi_system_table_t, pointer to the UEFI System Table
IM efi_handle_t of your Loaded Image

The EFI structures, enums, typedefs and defines are all converted to ANSI C standard POSIX style, for example BOOLEAN -> boolean_t, UINTN -> uintn_t, EFI_MEMORY_DESCRIPTOR -> efi_memory_descriptor_t, and of course EFI_BOOT_SERVICES -> efi_boot_services_t.

That header also provides an UEFI ABI wrapper, exactly the same as in gnu-efi, and functions to exit Boot Services and to dump memory for your convenience.

Function Description
uefi_call_wrapper() call a function with UEFI ABI (provided by crt0)
uefi_exit_bs() leave this UEFI bullshit behind (provided by crt0)
uefi_dumpmem() dump memory (provided by libuefi.a)

Unlike gnu-efi, POSIX-UEFI does not pollute your application with unused GUID variables. It only provides header definitions, so you must create each GUID instance if and when you need them.

Example:

efi_guid_t gopGuid = EFI_GRAPHICS_OUTPUT_PROTOCOL_GUID;
efi_gop_t *gop = NULL;

status = uefi_call_wrapper(BS->LocateProtocol, 3, &gopGuid, NULL, (void**)&gop);

Also unlike gnu-efi, POSIX-UEFI does not provide standard EFI headers. It expects that you have installed those under /usr/include/efi from EDK II or gnu-efi with your distro's package management solution, and POSIX-UEFI makes it possible for you to use those system wide headers. POSIX-UEFI itself ships the very minimum set of typedefs and structs.

#include <efi.h>
#include <uefi.h>       /* this will work as expected! Both POSIX-UEFI and EDK II / gnu-efi typedefs accessible */

Notable Differences to POSIX libc

This library is nowhere near as complete as glibc or musl for example. It only provides the very basic libc functions for you, because simplicity was one of its main goals. It is the best to say this is just wrapper around the UEFI API, rather than a POSIX compatible libc.

All strings in the UEFI environment are stored with 16 bits wide characters. The library provides wchar_t type for that, so for example your main() is NOT like main(int argc, char **argv), but main(int argc, wchar_t **argv) instead. All the other string related libc functions (like strlen() for example) use this wide character type too. Functions that supposed to handle characters in int type (like getchar, putchar), do not truncate to unsigned char, rather to wchar_t. For this reason, you must specify your string literals with L"" and characters with L''. There's an additional getchar_ifany function, which does not block, but returns 0 when there's no key pressed.

That's about it, everything else is the same.

List of Provided POSIX Functions

stdlib.h

Function Description
atoi as usual, but accepts wide char strings and understands "0x" prefix
atol as usual, but accepts wide char strings and understands "0x" prefix
strtol as usual, but accepts wide char strings
malloc as usual
calloc as usual
realloc as usual (needs testing)
free as usual
abort as usual
exit as usual
mbtowc as usual (UTF-8 char to wchar_t)
wctomb as usual (wchar_t to UTF-8 char)
mbstowcs as usual (UTF-8 string to wchar_t string)
wcstombs as usual (wchar_t string to UTF-8 string)

stdio.h

Function Description
fopen as usual, but accepts wide char strings, for mode L"r", L"w" and L"a" only
fclose as usual
fflush as usual
fread as usual, only real files accepted (no stdin)
fwrite as usual, only real files accepted (no stdout nor stderr)
fseek as usual, only real files accepted (no stdin, stdout, stderr)
ftell as usual, only real files accepted (no stdin, stdout, stderr)
fprintf as usual, but accepts wide char strings, max BUFSIZ, files, stdout, stderr
printf as usual, but accepts wide char strings, max BUFSIZ, stdout only
sprintf as usual, but accepts wide char strings, max BUFSIZ
vfprintf as usual, but accepts wide char strings, max BUFSIZ, files, stdout, stderr
vprintf as usual, but accepts wide char strings, max BUFSIZ
vsprintf as usual, but accepts wide char strings, max BUFSIZ
snprintf as usual, but accepts wide char strings
vsnprintf as usual, but accepts wide char strings
getchar as usual, waits for a key, blocking, stdin only (no redirects)
getchar_ifany non-blocking, returns 0 if there was no key press, UNICODE otherwise
putchar as usual, stdout only (no redirects)

String formating is limited; only supports padding via number prefixes, %d, %x, %X, %c, %s, %q and %p. Because it operates on wchar_t, it also supports the non-standard %C (printing an UTF-8 character, needs char*), %S (printing an UTF-8 string), %Q (printing an escaped UTF-8 string). These functions don't allocate memory, but in return the total length of the output string cannot be longer than BUFSIZ (8k), except for the variants which have a maxlen argument.

string.h

Function Description
memcpy as usual, works on bytes
memmove as usual, works on bytes
memset as usual, works on bytes
memcmp as usual, works on bytes
memchr as usual, works on bytes
memrchr as usual, works on bytes
memmem as usual, works on bytes
memrmem as usual, works on bytes
strcpy works on wide char strings
strncpy works on wide char strings
strcat works on wide char strings
strncat works on wide char strings
strcmp works on wide char strings
strncmp works on wide char strings
strdup works on wide char strings
strchr works on wide char strings
strrchr works on wide char strings
strstr works on wide char strings
strtok works on wide char strings
strtok_r works on wide char strings
strlen works on wide char strings

time.h

Function Description
localtime no arguments, always returns current time in struct tm

unistd.h

Function Description
usleep the usual
sleep the usual