This document contains documentation of the individual compiler flags and how to use them. [TOC] # Using RPM build flags At present, the only supported way is to use the `%configure` macro to obtain the full complement of flags, like this: %configure This will invoke the `./configure` with arguments (such as `--prefix=/usr`) to adjust the paths to the packaging defaults. As a side effect, this will set the environment variables `CFLAGS`, `CXXFLAGS`, `FFLAGS`, `FCFLAGS`, and `LDFLAGS`, so they can be used by makefiles and other build tools. For some other build tools besides `autoconf`, separate mechanisms exist: * CMake builds use the the `%cmake` macro from the `cmake-rpm-macros` package. Care must be taking not to compile the current selection of compiler flags into any RPM package besides `redhat-rpm-config`, so that flag changes are picked up automatically once `redhat-rpm-config` is updated. # Flag selection for the build type The default flags are suitable for building applications. For building shared objects, you must compile with `-fPIC` in (`CFLAGS` or `CXXFLAGS`) and link with `-shared` (in `LDFLAGS`). For other considerations involving shared objects, see: * [Fedora Packaging Guidelines: Shared Libraries](https://fedoraproject.org/wiki/Packaging:Guidelines#Shared_Libraries) # Customizing compiler flags It is possible to set RPM macros to change some aspects of the compiler flags. Changing these flags should be used as a last recourse if other workarunds are not available. ### Disable hardened builds %undefine _hardened_build This turns off certain hardening features, as described in detail below. The main difference is that executables will be position-dependent (no full ASLR) and use lazy binding. ### Disable annotated builds/watermarking %undefine _annotated_build This turns off watermarking, making it impossible to do full hardening coverage analysis for any binaries produced. # Individual compiler flags Compiler flags end up in the environment variables `CFLAGS`, `CXXFLAGS`, `FFLAGS`, and `FCFLAGS`. The general (architecture-independent) build flags are: * `-O2`: Turn on various GCC optimizations. See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Optimize-Options.html#index-O2). Optimization improves performance, the accuracy of warnings, and the reach of toolchain-based hardening, but it makes debugging harder. * `-g`: Generate debugging information (DWARF). In Fedora, this data is separated into `-debuginfo` RPM packages whose installation is optional, so debuging information does not increase the size of installed binaries by default. * `-pipe`: Run compiler and assembler in parallel and do not use a temporary file for the assembler input. This can improve compilation performance. (This does not affect code generation.) * `-Wall`: Turn on various GCC warnings. See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Warning-Options.html#index-Wall). * `-Werror=format-security`: Turn on format string warnings and treat them as errors. See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Warning-Options.html#index-Wformat-security). This can occasionally result in compilation errors. In this case, the best option is to rewrite the source code so that only constant format strings (string literals) are used. * `-Wp,-D_FORTIFY_SOURCE=2`: Source fortification activates various hardening features in glibc: * String functions such as `memcpy` attempt to detect buffer lengths and terminate the process if a buffer overflow is detected. * `printf` format strings may only contain the `%n` format specifier if the format string resides in read-only memory. * `open` and `openat` flags are checked for consistency with the presence of a *mode* argument. * Plus other minor hardening changes. (These changes can occasionally break valid programs.) * `-fexceptions`: Provide exception unwinding support for C programs. See the [`-fexceptions` option in the GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Code-Gen-Options.html#index-fexceptions) and the [`cleanup` variable attribute](https://gcc.gnu.org/onlinedocs/gcc/Common-Variable-Attributes.html#index-cleanup-variable-attribute). This also hardens cancellation handling in C programs because it is not required to use an on-stack jump buffer to install a cancellation handler with `pthread_cleanup_push`. It also makes it possible to unwind the stack (using C++ `throw` or Rust panics) from C callback functions if a C library supports non-local exits from them (e.g., via `longjmp`). * `-Wp,-D_GLIBCXX_ASSERTIONS`: Enable lightweight assertions in the C++ standard library, such as bounds checking for the subscription operator on vectors. (This flag is added to both `CFLAGS` and `CXXFLAGS`; C compilations will simply ignore it.) * `-fstack-protector-strong`: Instrument functions to detect stack-based buffer overflows before jumping to the return address on the stack. The *strong* variant only performs the instrumentation for functions whose stack frame contains addressable local variables. (If the address of a variable is never taken, it is not possible that a buffer overflow is caused by incorrect pointer arithmetic involving a pointer to that variable.) * `-grecord-gcc-switches`: Include select GCC command line switches in the DWARF debugging information. This is useful for detecting the presence of certain build flags and general hardening coverage. For hardened builds (which are enabled by default, see above for how to disable them), the flag `-specs=/usr/lib/rpm/redhat/redhat-hardened-cc1` is added to the command line. It adds the following flag to the command line: * `-fPIE`: Compile for a position-independent executable (PIE), enabling full address space layout randomization (ASLR). This is similar to `-fPIC`, but avoids run-time indirections on certain architectures, resulting in improved performance and slightly smaller executables. However, compared to position-dependent code (the default generated by GCC), there is still a measurable performance impact. If the command line also contains `-r` (producing a relocatable object file), `-fpic` or `-fPIC`, this flag is automatically dropped. (`-fPIE` can only be used for code which is linked into the main program.) Code which goes into static libraries should be compiled with `-fPIE`, except when this code is expected to be linked into DSOs, when `-fPIC` must be used. To be effective, `-fPIE` must be used with the `-pie` linker flag when producing an executable, see below. To support [binary watermarks for ELF objects](https://fedoraproject.org/wiki/Toolchain/Watermark) using annobin, the `-specs=/usr/lib/rpm/redhat/redhat-annobin-cc1` flag is added by default. This can be switched off by undefining the `%_annotated_build` RPM macro (see above). ### Architecture-specific compiler flags These compiler flags are enabled for all builds (hardened/annotated or not), but their selection depends on the architecture: * `-fstack-clash-protection`: Turn on instrumentation to avoid skipping the guard page in large stack frames. (Without this flag, vulnerabilities can result where the stack overlaps with the heap, or thread stacks spill into other regions of memory.) This flag is fully ABI-compatible and has adds very little run-time overhead, but is only available on certain architectures (currently aarch64, i386, ppc64, ppc64le, s390x, x86_64). * `-m64` and `-m32`: Some GCC builds support both 32-bit and 64-bit in the same compilation. For such architectures, the RPM build process explicitly selects the architecture variant by passing this compiler flag. * `-fasynchronous-unwind-tables`: Generate full unwind information covering all program points. This is required for support of asynchronous cancellation and proper unwinding from signal handlers. It also makes performance and debugging tools more useful because unwind information is available without having to install (and load) debugging ienformation. Asynchronous unwind tables are enabled for aarch64, i686, s390x, and x86_64. They are not needed on armhfp, ppc64 and ppc64le due to architectural differences in stack management. On these architectures, `-fexceptions` (see above) still enables regular unwind tables (or they are enabled by default even without this option). In addition, `redhat-rpm-config` re-selects the built-in default tuning in the `gcc` package. These settings are: * **armhfp**: `-march=armv7-a -mfpu=vfpv3-d16 -mfloat-abi=hard` selects an Arm subarchitecture based on the ARMv7-A architecture with 16 64-bit floating point registers. * **i686**: `-march=i686` is used to select a minmum support CPU level of i686 (corresponding to the Pentium Pro). * **ppc64le**: `-mcpu=power8 -mtune=power8` selects a minimum supported CPU level of POWER8 (the first CPU with ppc64le support) and tunes for POWER8. * **s390x**: `-march=zEC12 -mtune=z13` specifies a minimum supported CPU level of zEC12, while optimizing for a subsequent CPU generation (z13). * **x86_64**: `-mtune=generic` selects tuning which is expected to beneficial for a broad range of current CPUs. * **ppc64** and **aarch64** do not have any architecture-specific tuning. # Individual linker flags Linker flags end up in the environment variable `LDFLAGS`. The linker flags listed below are injected. Note that they are prefixed with `-Wl` because it is expected that these flags are passed to the compiler driver `gcc`, and not directly to the link editor `ld`. * `-z relro`: Activate the *read-only after relocation* feature. Constant data and relocations are placed on separate pages, and the dynamic linker is instructed to revoke write permissions after dynamic linking. Full protection of relocation data requires the `-z now` flag (see below). For hardened builds, the `-specs=/usr/lib/rpm/redhat/redhat-hardened-ld` flag is added to the compiler driver command line. (This can be disabled by undefining the `%_hardened_build` macro; see above) This activates the following linker flags: * `-pie`: Produce a PIE binary. This is only activated for the main executable, and only if it is dynamically linked. This requires that all objects which are linked in the main executable have been compiled with `-fPIE` or `-fPIC` (or `-fpie` or `-fpic`; see above). By itself, `-pie` has only a slight performance impact because it disables some link editor optimization, however the `-fPIE` compiler flag has some overhead. * `-z now`: Disable lazy binding and turn on the `BIND_NOW` dynamic linker feature. Lazy binding involves an array of function pointers which is writable at run time (which could be overwritten as part of security exploits, redirecting execution). Therefore, it is preferable to turn of lazy binding, although it increases startup time.