Picolibc
Picolibc is a complete C library implementation written for the
embedded systems, targeting C17 (ISO/IEC 9899:2018) and POSIX 2018
(IEEE Std 1003.1-2017) standards. Picolibc is an external open
source project which is provided for Zephyr as a module, and included
as part of the Zephyr SDK in precompiled form for
each supported architecture (libc.a
).
Note
Picolibc is also available for other 3rd-party toolchains, such as GNU Arm Embedded.
Zephyr implements the “API hook” functions that are invoked by the C
standard library functions in the Picolibc. These hook functions are
implemented in lib/libc/picolibc/libc-hooks.c
and translate
the library internal system calls to the equivalent Zephyr API calls.
Picolibc Module
When built as a Zephyr module, there are several configuration knobs available to adjust the feature set in the library, balancing what the library supports versus the code size of the resulting functions. Because the standard C++ library must be compiled for the target C library, the Picolibc module cannot be used with applications which use the standard C++ library. Building the Picolibc module will increase the time it takes to compile the application.
The Picolibc module can be enabled by selecting
CONFIG_PICOLIBC_USE_MODULE
in the application
configuration file.
When updating the Picolibc module to a newer version, the toolchain-bundled Picolibc in the Zephyr SDK must also be updated to the same version.
Toolchain Picolibc
Starting with version 0.16, the Zephyr SDK includes precompiled versions of Picolibc for every target architecture, along with precompiled versions of libstdc++.
The toolchain version of Picolibc can be enabled by de-selecting
CONFIG_PICOLIBC_USE_MODULE
in the application
configuration file.
For every release of Zephyr, the toolchain-bundled Picolibc and the Picolibc module are guaranteed to be in sync when using the recommended version of Zephyr SDK.
Formatted Output
Picolibc supports all standard C formatted input and output functions,
including printf()
, fprintf()
, sprintf()
and
sscanf()
.
Picolibc formatted input and output function implementation supports all format specifiers defined by the C17 and POSIX 2018 standards with the following exceptions:
Floating point format specifiers (e.g.
%f
) requireCONFIG_PICOLIBC_IO_FLOAT
.Long long format specifiers (e.g.
%lld
) requireCONFIG_PICOLIBC_IO_LONG_LONG
. This option is automatically enabled withCONFIG_PICOLIBC_IO_FLOAT
.
Printk, cbprintf and friends
When using Picolibc, Zephyr formatted output functions are implemented in terms of stdio calls. This includes:
printk, snprintk and vsnprintk
cbprintf and cbvprintf
fprintfcb, vfprintfcb, printfcb, vprintfcb, snprintfcb and vsnprintfcb
When using tagged args
(CONFIG_CBPRINTF_PACKAGE_SUPPORT_TAGGED_ARGUMENTS
and
CBPRINTF_PACKAGE_ARGS_ARE_TAGGED
), calls to cbpprintf will
not use Picolibc, so formatting of output using those code will differ
from Picolibc results as the cbprintf functions are not completely
C/POSIX compliant.
Math Functions
Picolibc provides full C17/IEEE STD 754-2019 support for float, double and long double math operations, except for long double versions of the Bessel functions.
Thread Local Storage
Picolibc uses Thread Local Storage (TLS) (where supported) for data
which is supposed to remain local to each thread, like
errno
. This means that TLS support is enabled when using
Picolibc. As all TLS variables are allocated out of the thread stack
area, this can affect stack size requirements by a few bytes.
C Library Local Variables
Picolibc uses a few internal variables for things like heap
management. These are collected in a dedicated memory partition called
z_libc_partition
. Applications using
CONFIG_USERSPACE
and memory domains must ensure that
this partition is included in any domain active during Picolibc calls.
Dynamic Memory Management
Picolibc uses the malloc api family implementation provided by the common C library, which itself is built upon the kernel memory heap API.