1 2Quick Installation Guide for musl libc 3====================================== 4 5There are many different ways to install musl depending on your usage 6case. This document covers only the build and installation of musl by 7itself, which is useful for upgrading an existing musl-based system or 8compiler toolchain, or for using the provided musl-gcc wrapper with an 9existing non-musl-based compiler. 10 11Building complete native or cross-compiler toolchains is outside the 12scope of this INSTALL file. More information can be found on the musl 13website and community wiki. 14 15 16Build Prerequisites 17------------------- 18 19The only build-time prerequisites for musl are GNU Make and a 20freestanding C99 compiler toolchain targeting the desired instruction 21set architecture and ABI, with support for a minimal subset of "GNU C" 22extensions consisting mainly of gcc-style inline assembly, weak 23aliases, hidden visibility, and stand-alone assembly source files. 24 25GCC, LLVM/clang, Firm/cparser, and PCC have all successfully built 26musl, but GCC is the most widely used/tested. Recent compiler (and 27binutils) versions should be used if possible since some older 28versions have bugs which affect musl. 29 30The system used to build musl does not need to be Linux-based, nor do 31the Linux kernel headers need to be available. 32 33 34 35Supported Targets 36----------------- 37 38musl can be built for the following CPU instruction set architecture 39and ABI combinations: 40 41* i386 42 * Minimum CPU model is actually 80486 unless kernel emulation of 43 the `cmpxchg` instruction is added 44 45* x86_64 46 * ILP32 ABI (x32) is available as a separate arch but is still 47 experimental 48 49* ARM 50 * EABI, standard or hard-float VFP variant 51 * Little-endian default; big-endian variants also supported 52 * Compiler toolchains only support armv4t and later 53 54* AArch64 55 * Little-endian default; big-endian variants also supported 56 57* MIPS 58 * ABI is o32, fp32/fpxx (except on r6 which is fp64) 59 * Big-endian default; little-endian variants also supported 60 * Default ABI variant uses FPU registers; alternate soft-float ABI 61 that does not use FPU registers or instructions is available 62 * MIPS2 or later, or kernel emulation of ll/sc (standard in Linux) 63 is required 64 * MIPS32r6, an incompatible ISA, is supported as a variant "mipsr6" 65 66* MIPS64 67 * ABI is n64 (LP64) or n32 (ILP32) 68 * Big-endian default; little-endian variants also supported 69 * Default ABI variant uses FPU registers; alternate soft-float ABI 70 that does not use FPU registers or instructions is available 71 72* PowerPC 73 * Compiler toolchain must provide 64-bit long double, not IBM 74 double-double or IEEE quad 75 * For dynamic linking, compiler toolchain must be configured for 76 "secure PLT" variant 77 78* PowerPC64 79 * Both little and big endian variants are supported 80 * Compiler toolchain must provide 64-bit long double, not IBM 81 double-double or IEEE quad 82 * Compiler toolchain must use the new (ELFv2) ABI regardless of 83 whether it is for little or big endian 84 85* S390X (64-bit S390) 86 87* SuperH (SH) 88 * Standard ELF ABI or FDPIC ABI (shared-text without MMU) 89 * Little-endian by default; big-endian variant also supported 90 * Full FPU ABI or soft-float ABI is supported, but the 91 single-precision-only FPU ABI is not 92 93* Microblaze 94 * Big-endian default; little-endian variants also supported 95 * Soft-float 96 * Requires support for lwx/swx instructions 97 98* OpenRISC 1000 (or1k) 99 100* RISC-V 64 101 * Little endian 102 * Hard, soft, and hard-single/soft-double floating point ABIs 103 * Standard ELF; no shared-text NOMMU support 104 105 106 107Build and Installation Procedure 108-------------------------------- 109 110To build and install musl: 111 1121. Run the provided configure script from the top-level source 113 directory, passing on its command line any desired options. 114 1152. Run "make" to compile. 116 1173. Run "make install" with appropriate privileges to write to the 118 target locations. 119 120The configure script attempts to determine automatically the correct 121target architecture based on the compiler being used. For some 122compilers, this may not be possible. If detection fails or selects the 123wrong architecture, you can provide an explicit selection on the 124configure command line. 125 126By default, configure installs to a prefix of "/usr/local/musl". This 127differs from the behavior of most configure scripts, and is chosen 128specifically to avoid clashing with libraries already present on the 129system. DO NOT set the prefix to "/usr", "/usr/local", or "/" unless 130you're upgrading libc on an existing musl-based system. Doing so will 131break your existing system when you run "make install" and it may be 132difficult to recover. 133 134 135 136Notes on Dynamic Linking 137------------------------ 138 139If dynamic linking is enabled, one file needs to be installed outside 140of the installation prefix: /lib/ld-musl-$ARCH.so.1. This is the 141dynamic linker. Its pathname is hard-coded into all dynamic-linked 142programs, so for the sake of being able to share binaries between 143systems, a consistent location should be used everywhere. Note that 144the same applies to glibc and its dynamic linker, which is named 145/lib/ld-linux.so.2 on i386 systems. 146 147If for some reason it is impossible to install the dynamic linker in 148its standard location (for example, if you are installing without root 149privileges), the --syslibdir option to configure can be used to 150provide a different location 151 152At runtime, the dynamic linker needs to know the paths to search for 153shared libraries. You should create a text file named 154/etc/ld-musl-$ARCH.path (where $ARCH matches the architecture name 155used in the dynamic linker) containing a list of directories where you 156want the dynamic linker to search for shared libraries, separated by 157colons or newlines. If the dynamic linker has been installed in a 158non-default location, the path file also needs to reside at that 159location (../etc relative to the chosen syslibdir). 160 161If you do not intend to use dynamic linking, you may disable it by 162passing --disable-shared to configure; this also cuts the build time 163in half. 164 165 166 167Checking for Successful Installation 168------------------------------------ 169 170After installing, you should be able to use musl via the musl-gcc 171wrapper. For example: 172 173cat > hello.c <<EOF 174#include <stdio.h> 175int main() 176{ 177 printf("hello, world!\n"); 178 return 0; 179} 180EOF 181/usr/local/musl/bin/musl-gcc hello.c 182./a.out 183 184To configure autoconf-based program to compile and link against musl, 185set the CC variable to musl-gcc when running configure, as in: 186 187CC=musl-gcc ./configure ... 188 189You will probably also want to use --prefix when building libraries to 190ensure that they are installed under the musl prefix and not in the 191main host system library directories. 192