Guide: GCC and Bare Metal Programming
Written by Pat Hanrahan and Julie Zelenski
This guide gives a brief overview of what is unique about compiling C programs to execute in a bare-metal environment.
Hosted versus non-hosted (standalone) environments
A typical program is compiled for a hosted system where it has access to the standard libraries and facilities provided by the operating system layer. In hosted mode, the program runs at the pleasure of the host operating system. In contrast, a bare metal program is non-hosted; it does not stand on top of an operating system or library; it runs entirely standalone. The program has the freedom to do whatever it wants, without any pesky interference from a overbearing OS, but cannot count on any facilities other than what it provides for itself.
gcc compiles assuming a hosted environment, since this is the common case.
To properly compile a bare metal program, we need to set the appropriate compiler and
linker options to ensure the program is configured to run standalone.
gcc option directs the compiler to limit this program to only those features available in the freestanding environment.
$ arm-none-eabi-gcc -ffreestanding -c blink.c
In freestanding mode, the only available standard header files are:
<stdint.h> (C99 standard 4.6).
These headers define the types appropriate for the machine being used, as well
as useful constants such as the minimum and maximum values for different types.
The other standard header files (
<string.h> and so on) are not to be used.
In hosted mode, the
main function must adhere to a rigid specification.
Execution begins at the function named
main and its signature must typically match:
int main(int argv, char *argv, char *env) // main in hosted env
The compiler will issue warnings if you define
main differently for a hosted program.
Freestanding mode removes the special semantics for the
main function. In the standalone
main can have any type signature and it is configurable whether it is
some other function that starts the program. A typical main signature for
a freestanding program is simply:
void main(void) // main in bare metal env
-ffreestanding option also directs the compiler to not assume that standard functions
have their usual definitions. This will prevent the compiler from making optimizations
based on assumptions about the behaviors of the standard libraries. For example,
in a hosted environment,
gcc is assured that the available library meets the
specification of the language standard. It can transform
because it knows from the definition of the standard IO library that these two
functions behave equivalently in this case. In freestanding mode, you could define your own
function and your version of
puts could act completely differently than the standard
puts function, making such a substitution invalid. Thus when
-ffreestanding is used,
gcc does not assume a standard library environment and will not make such optimizations.
It maybe a bit surprising to learn that even when compiling in freestanding mode,
gcc can emit a call to
memset. It uses these routines to
block-copy a large-ish chunk of data, such as when initializing an array
or struct or passing a struct in or out of a function. In some situations, you can rearrange your code to avoid the need for block memory transfer, e.g. assign struct fields individually rather copy the entire struct. Where unavoidable, you must supply your own implementation of
Linker options for default libraries and start files
The linker option
-nostdlib is used to link a program intended to run standalone.
the individual options
-nostartfiles. Below we discuss
the two options separately, but the most typical use is just
nostdlib for one-stop shopping.
When linking a hosted program, standard system libraries such as
linked by default, giving the program access to all standard
strlen and friends). The linker option
disables linking with those default libraries; the only libraries linked are
exactly those that you explicitly name to the linker using the
libgcc.a is a standard library (linked by default, excluded by
that provides internal subroutines to overcome shortcomings of particular machines.
For example, the ARM processor does not include a division instruction. The ARM
libgcc.a includes a division function and the compiler emits
calls to that function where needed. A program that attempts to use division and is linked
-nodefaultlibs will fail to link. The linker error will be something
arm-none-eabi-ld: main.o: in function `main': main.c:11: undefined reference to `__aeabi_idiv'
You can resolve this reference by linking with
libgcc does not supply
memcpy and related functions.
Buried deep in https://gcc.gnu.org/onlinedocs/gcc/Standards.html, there is a small
callout that notes this:
Most of the compiler support routines used by GCC are present in libgcc,
but there are a few exceptions. GCC requires the freestanding environment
If your program requires one of these routines, you will need to supply it yourself.
Normally, when a program begins to run, the standard start function is called.
This function sets up the machine to run the program.
A common task performed by start is to initialize default values for
any variables in your program and call the
instructs the linker to not use the standard system startup functions nor
link the code containing those functions.
If you don't link to a start function, program variables may not be properly initialized. You may need to provide your own start function when running in standalone mode.