443 lines
21 KiB
Markdown
443 lines
21 KiB
Markdown
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This document contains documentation of the individual compiler flags
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and how to use them.
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[TOC]
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# Using RPM build flags
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For packages which use autoconf to set up the build environment, use
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the `%configure` macro to obtain the full complement of flags, like
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this:
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%configure
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This will invoke the `./configure` with arguments (such as
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`--prefix=/usr`) to adjust the paths to the packaging defaults.
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Prior to that, some common problems in autotools scripts are
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automatically patched across the source tree.
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As a side effect, this will set the environment variables `CFLAGS`,
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`CXXFLAGS`, `FFLAGS`, `FCFLAGS`, and `LDFLAGS`, so they can be used by
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makefiles and other build tools. (However, existing values for this
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variables are not overwritten.)
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If your package does not use autoconf, you can still set the same
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environment variables using
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%set_build_flags
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early in the `%build` section. (Again, existing environment variables
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are not overwritten.) `%set_build_flags` does not perform autotools
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script rewriting, unlike `%configure`.
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Individual build flags are also available through RPM macros:
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* `%{build_cflags}` for the C compiler flags (also known as the
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`CFLAGS` variable). Also historically available as `%{optflags}`.
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Furthermore, at the start of the `%build` section, the environment
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variable `RPM_OPT_FLAGS` is set to this value.
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* `%{build_cxxflags}` for the C++ compiler flags (usually assigned to
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the `CXXFLAGS` shell variable).
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* `%{build_fflags} for `FFLAGS` (the Fortran compiler flags, also
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known as the `FCFLAGS` variable).
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* `%{build_ldflags}` for the link editor (ld) flags, usually known as
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`LDFLAGS`. Note that the contents quotes linker arguments using
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`-Wl`, so this variable is intended for use with the `gcc` compiler
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driver. At the start of the `%build` section, the environment
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variable `RPM_LD_FLAGS` is set to this value.
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These RPM macros do not alter shell environment variables.
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For some other build tools separate mechanisms exist:
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* CMake builds use the the `%cmake` macro from the `cmake-rpm-macros`
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package.
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Care must be taking not to compile the current selection of compiler
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flags into any RPM package besides `redhat-rpm-config`, so that flag
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changes are picked up automatically once `redhat-rpm-config` is
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updated.
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# Flag selection for the build type
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The default flags are suitable for building applications.
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For building shared objects, you must compile with `-fPIC` in
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(`CFLAGS` or `CXXFLAGS`) and link with `-shared` (in `LDFLAGS`).
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For other considerations involving shared objects, see:
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* [Fedora Packaging Guidelines: Shared Libraries](https://fedoraproject.org/wiki/Packaging:Guidelines#Shared_Libraries)
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# Customizing compiler and other build flags
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It is possible to set RPM macros to change some aspects of the
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compiler flags. Changing these flags should be used as a last
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recourse if other workarounds are not available.
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### Disable autotools compatibility patching
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By default, the invocation of the `%configure` macro replaces
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`config.guess` files in the source tree with the system version. To
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disable that, define this macro:
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%global _configure_gnuconfig_hack 0
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`%configure` also patches `ltmain.sh` scripts, so that linker flags
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are set as well during libtool-. This can be switched off using:
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%global _configure_libtool_hardening_hack 0
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### Lazy binding
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If your package depends on the semantics of lazy binding (e.g., it has
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plugins which load additional plugins to complete their dependencies,
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before which some referenced functions are undefined), you should put
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`-Wl,-z,lazy` at the end of the `LDFLAGS` setting when linking objects
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which have such requirements. Under these circumstances, it is
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unnecessary to disable hardened builds (and thus lose full ASLR for
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executables), or link everything without `-Wl,z,now` (non-lazy
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binding).
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### Hardened builds
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By default, the build flags enable fully hardened builds. To change
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this, include this in the RPM spec file:
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%undefine _hardened_build
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This turns off certain hardening features, as described in detail
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below. The main difference is that executables will be
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position-dependent (no full ASLR) and use lazy binding.
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### Annotated builds/watermarking
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By default, the build flags cause a special output section to be
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included in ELF files which describes certain aspects of the build.
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To change this for all compiler invocations, include this in the RPM
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spec file:
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%undefine _annotated_build
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Be warned that this turns off watermarking, making it impossible to do
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full hardening coverage analysis for any binaries produced.
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It is possible to disable annotations for individual compiler
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invocations, using the `-fplugin-arg-annobin-disable` flag. However,
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the annobin plugin must still be loaded for this flag to be
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recognized, so it has to come after the hardening flags on the command
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line (it has to be added at the end of `CFLAGS`, or specified after
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the `CFLAGS` variable contents).
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### Strict symbol checks in the link editor (ld)
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Optionally, the link editor will refuse to link shared objects which
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contain undefined symbols. Such symbols lack symbol versioning
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information and can be bound to the wrong (compatibility) symbol
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version at run time, and not the actual (default) symbol version which
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would have been used if the symbol definition had been available at
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static link time. Furthermore, at run time, the dynamic linker will
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not have complete dependency information (in the form of DT_NEEDED
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entries), which can lead to errors (crashes) if IFUNC resolvers are
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executed before the shared object containing them is fully relocated.
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To switch on these checks, define this macro in the RPM spec file:
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%define _strict_symbol_defs_build 1
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If this RPM spec option is active, link failures will occur if the
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linker command line does not list all shared objects which are needed.
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In this case, you need to add the missing DSOs (with linker arguments
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such as `-lm`). As a result, the link editor will also generated the
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necessary DT_NEEDED entries.
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In some cases (such as when a DSO is loaded as a plugin and is
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expected to bind to symbols in the main executable), undefined symbols
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are expected. In this case, you can add
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%undefine _strict_symbol_defs_build
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to the RPM spec file to disable these strict checks. Alternatively,
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you can pass `-z undefs` to ld (written as `-Wl,-z,undefs` on the gcc
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command line). The latter needs binutils 2.29.1-12.fc28 or later.
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### Post-build ELF object processing
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By default, DWARF debugging information is separated from installed
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ELF objects and put into `-debuginfo` subpackages. To disable most
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debuginfo processing (and thus the generation of these subpackages),
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define `_enable_debug_packages` as `0`.
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Processing of debugging information is controlled using the
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`find-debuginfo` tool from the `debugedit` package. Several aspects
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of its operation can be controlled at the RPM level.
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* Creation of `-debuginfo` subpackages is enabled by default.
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To disable, undefine `_debuginfo_subpackages`.
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* Likewise, `-debugsource` subpackages are automatically created.
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To disable, undefine `_debugsource_subpackages`.
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See [Separate Subpackage and Source Debuginfo](https://fedoraproject.org/wiki/Changes/SubpackageAndSourceDebuginfo)
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for background information.
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* `_build_id_links`, `_unique_build_ids`, `_unique_debug_names`,
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`_unique_debug_srcs` control how debugging information and
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corresponding source files are represented on disk.
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See `/usr/lib/rpm/macros` for details. The defaults
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enable parallel installation of `-debuginfo` packages for
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different package versions, as described in
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[Parallel Installable Debuginfo](https://fedoraproject.org/wiki/Changes/ParallelInstallableDebuginfo).
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* By default, a compressed symbol table is preserved in the
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`.gnu_debugdata` section. To disable that, undefine
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`_include_minidebuginfo`.
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* To speed up debuggers, a `.gdb_index` section is created. It can be
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disabled by undefining `_include_gdb_index`.
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* Missing build IDs result in a build failure. To ignore such
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problems, undefine `_missing_build_ids_terminate_build`.
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* During processing, build IDs are recomputed to match the binary
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content. To skip this step, define `_no_recompute_build_ids` as `1`.
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* By default, the options in `_find_debuginfo_dwz_opts` turn on `dwz`
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(DWARF compression) processing. Undefine this macro to disable this
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step.
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* Additional options can be passed by defining the
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`_find_debuginfo_opts` macro.
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After separation of debugging information, additional transformations
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are applied, most of them also related to debugging information.
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These steps can be skipped by undefining the corresponding macros:
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* `__brp_strip`: Removal of leftover debugging information. The tool
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specified by the `__strip` macro is invoked with the `-g` option on
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ELF object (`.o`) files.
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* `__brp_strip_static_archive`: This is similar to `__brp_strip`, but
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processes static `.a` archives instead.
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* `__brp_strip_comment_note`: This step removes unallocated `.note`
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sections, and `.comment` sections from ELF files.
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* `__brp_ldconfig`: For each shared object on the library search path
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whose soname does not match its file name, a symbolic link from the
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soname to the file name is created. This way, these shared objects
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are loadable immediately after installation, even if they are not yet
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listed in the `/etc/ld.so.cache` file (because `ldconfig` has not been
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invoked yet).
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# Individual compiler flags
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Compiler flags end up in the environment variables `CFLAGS`,
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`CXXFLAGS`, `FFLAGS`, and `FCFLAGS`.
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The general (architecture-independent) build flags are:
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* `-O2`: Turn on various GCC optimizations. See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Optimize-Options.html#index-O2).
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Optimization improves performance, the accuracy of warnings, and the
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reach of toolchain-based hardening, but it makes debugging harder.
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* `-g`: Generate debugging information (DWARF). In Fedora, this data
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is separated into `-debuginfo` RPM packages whose installation is
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optional, so debuging information does not increase the size of
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installed binaries by default.
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* `-pipe`: Run compiler and assembler in parallel and do not use a
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temporary file for the assembler input. This can improve
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compilation performance. (This does not affect code generation.)
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* `-Wall`: Turn on various GCC warnings.
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See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Warning-Options.html#index-Wall).
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* `-Werror=format-security`: Turn on format string warnings and treat
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them as errors.
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See the [GCC manual](https://gcc.gnu.org/onlinedocs/gcc/Warning-Options.html#index-Wformat-security).
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This can occasionally result in compilation errors. In this case,
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the best option is to rewrite the source code so that only constant
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format strings (string literals) are used.
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* `-Wp,-D_FORTIFY_SOURCE=2`: Source fortification activates various
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hardening features in glibc:
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* String functions such as `memcpy` attempt to detect buffer lengths
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and terminate the process if a buffer overflow is detected.
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* `printf` format strings may only contain the `%n` format specifier
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if the format string resides in read-only memory.
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* `open` and `openat` flags are checked for consistency with the
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presence of a *mode* argument.
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* Plus other minor hardening changes.
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(These changes can occasionally break valid programs.)
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* `-fexceptions`: Provide exception unwinding support for C programs.
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See the [`-fexceptions` option in the GCC
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manual](https://gcc.gnu.org/onlinedocs/gcc/Code-Gen-Options.html#index-fexceptions)
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and the [`cleanup` variable
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attribute](https://gcc.gnu.org/onlinedocs/gcc/Common-Variable-Attributes.html#index-cleanup-variable-attribute).
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This also hardens cancellation handling in C programs because
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it is not required to use an on-stack jump buffer to install
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a cancellation handler with `pthread_cleanup_push`. It also makes
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it possible to unwind the stack (using C++ `throw` or Rust panics)
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from C callback functions if a C library supports non-local exits
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from them (e.g., via `longjmp`).
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* `-Wp,-D_GLIBCXX_ASSERTIONS`: Enable lightweight assertions in the
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C++ standard library, such as bounds checking for the subscription
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operator on vectors. (This flag is added to both `CFLAGS` and
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`CXXFLAGS`; C compilations will simply ignore it.)
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* `-fstack-protector-strong`: Instrument functions to detect
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stack-based buffer overflows before jumping to the return address on
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the stack. The *strong* variant only performs the instrumentation
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for functions whose stack frame contains addressable local
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variables. (If the address of a variable is never taken, it is not
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possible that a buffer overflow is caused by incorrect pointer
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arithmetic involving a pointer to that variable.)
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* `-fstack-clash-protection`: Turn on instrumentation to avoid
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skipping the guard page in large stack frames. (Without this flag,
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vulnerabilities can result where the stack overlaps with the heap,
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or thread stacks spill into other regions of memory.) This flag is
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fully ABI-compatible and has adds very little run-time overhead.
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* `-grecord-gcc-switches`: Include select GCC command line switches in
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the DWARF debugging information. This is useful for detecting the
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presence of certain build flags and general hardening coverage.
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For hardened builds (which are enabled by default, see above for how
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to disable them), the flag
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`-specs=/usr/lib/rpm/redhat/redhat-hardened-cc1` is added to the
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command line. It adds the following flag to the command line:
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* `-fPIE`: Compile for a position-independent executable (PIE),
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enabling full address space layout randomization (ASLR). This is
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similar to `-fPIC`, but avoids run-time indirections on certain
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architectures, resulting in improved performance and slightly
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smaller executables. However, compared to position-dependent code
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(the default generated by GCC), there is still a measurable
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performance impact.
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If the command line also contains `-r` (producing a relocatable
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object file), `-fpic` or `-fPIC`, this flag is automatically
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dropped. (`-fPIE` can only be used for code which is linked into
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the main program.) Code which goes into static libraries should be
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compiled with `-fPIE`, except when this code is expected to be
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linked into DSOs, when `-fPIC` must be used.
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To be effective, `-fPIE` must be used with the `-pie` linker flag
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when producing an executable, see below.
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To support [binary watermarks for ELF
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objects](https://fedoraproject.org/wiki/Toolchain/Watermark) using
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annobin, the `-specs=/usr/lib/rpm/redhat/redhat-annobin-cc1` flag is
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added by default. This can be switched off by undefining the
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`%_annotated_build` RPM macro (see above).
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### Architecture-specific compiler flags
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These compiler flags are enabled for all builds (hardened/annotated or
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not), but their selection depends on the architecture:
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* `-fcf-protection`: Instrument binaries to guard against
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ROP/JOP attacks. Used on i686 and x86_64.
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* `-m64` and `-m32`: Some GCC builds support both 32-bit and 64-bit in
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the same compilation. For such architectures, the RPM build process
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explicitly selects the architecture variant by passing this compiler
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flag.
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* `-fasynchronous-unwind-tables`: Generate full unwind information
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covering all program points. This is required for support of
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asynchronous cancellation and proper unwinding from signal
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handlers. It also makes performance and debugging tools more
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useful because unwind information is available without having to
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install (and load) debugging ienformation.
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Asynchronous unwind tables are enabled for aarch64, i686, s390x,
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and x86_64. They are not needed on ppc64le due
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to architectural differences in stack management. On these
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architectures, `-fexceptions` (see above) still enables regular
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unwind tables (or they are enabled by default even without this
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option).
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* `-funwind-tables`: A subset of the unwind information restricted
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to actual call sites. Used on ppc64le. Also implied by
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`-fexceptions`.
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In addition, `redhat-rpm-config` re-selects the built-in default
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tuning in the `gcc` package. These settings are:
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* **i686**: `-march=x86-64` is used to select a minimum supported
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CPU level matching the baseline for the x86_64 architecture.
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`-mtune=generic` activates tuning for a current blend of CPUs.
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`-mfpmath=sse` uses the SSE2 unit for floating point math,
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instead of the legacy i387 FPU, avoiding issues related to excess
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precision. `-mstackrealign` ensures that the generated code
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does not assume 16-byte stack alignment (as required by the current
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i386 ABI), but stays compatible with application code compiled
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before the introduction of 16-byte stack alignment along with SSE2
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support.
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* **ppc64le**: `-mcpu=power8 -mtune=power8` selects a minimum supported
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CPU level of POWER8 (the first CPU with ppc64le support) and tunes
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for POWER8.
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* **s390x**: `-march=z13 -mtune=z14` specifies a minimum supported CPU
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level of z13, while optimizing for a subsequent CPU generation
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(z14).
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* **x86_64**: `-mtune=generic` selects tuning which is expected to
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beneficial for a broad range of current CPUs.
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* **aarch64** does not have any architecture-specific tuning.
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# Individual linker flags
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Linker flags end up in the environment variable `LDFLAGS`.
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The linker flags listed below are injected. Note that they are
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prefixed with `-Wl` because it is expected that these flags are passed
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to the compiler driver `gcc`, and not directly to the link editor
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`ld`.
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* `-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).
|
||
|
* `-z defs`: Refuse to link shared objects (DSOs) with undefined symbols
|
||
|
(optional, see above).
|
||
|
|
||
|
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.
|
||
|
|
||
|
# Support for extension builders
|
||
|
|
||
|
Some packages include extension builders that allow users to build
|
||
|
extension modules (which are usually written in C and C++) under the
|
||
|
control of a special-purpose build system. This is a common
|
||
|
functionality provided by scripting languages such as Python and Perl.
|
||
|
Traditionally, such extension builders captured the Fedora build flags
|
||
|
when these extension were built. However, these compiler flags are
|
||
|
adjusted for a specific Fedora release and toolchain version and
|
||
|
therefore do not work with a custom toolchain (e.g., different C/C++
|
||
|
compilers), and users might want to build their own extension modules
|
||
|
with such toolchains.
|
||
|
|
||
|
The macros `%{extension_cflags}`, `%{extension_cxxflags}`,
|
||
|
`%{extension_fflags}`, `%{extension_ldflags}` contain a subset of
|
||
|
flags that have been adjusted for compatibility with alternative
|
||
|
toolchains, while still preserving some of the compile-time security
|
||
|
hardening that the standard Fedora build flags provide.
|
||
|
|
||
|
The current set of differences are:
|
||
|
|
||
|
* No GCC plugins (such as annobin) are activated.
|
||
|
* No GCC spec files (`-specs=` arguments) are used.
|
||
|
|
||
|
Additional flags may be removed in the future if they prove to be
|
||
|
incompatible with alternative toolchains.
|
||
|
|
||
|
Extension builders should detect whether they are performing a regular
|
||
|
RPM build (e.g., by looking for an `RPM_OPT_FLAGS` variable). In this
|
||
|
case, they should use the *current* set of Fedora build flags (that
|
||
|
is, the output from `rpm --eval '%{build_cflags}'` and related
|
||
|
commands). Otherwise, when not performing an RPM build, they can
|
||
|
either use hard-coded extension builder flags (thus avoiding a
|
||
|
run-time dependency on `redhat-rpm-config`), or use the current
|
||
|
extension builder flags (with a run-time dependency on
|
||
|
`redhat-rpm-config`).
|
||
|
|
||
|
As a result, extension modules built for Fedora will use the official
|
||
|
Fedora build flags, while users will still be able to build their own
|
||
|
extension modules with custom toolchains.
|