Each recipe consists of 3 main parts: defining identifiers, setting build variables, and defining build commands. The package "mylib" will be used here as an example General tips: - mylib_foo is written as $(package)_foo in order to make recipes more similar. - Secondary dependency packages relative to the bitcoin binaries/libraries (i.e. those not in `ALLOWED_LIBRARIES` in `contrib/devtools/symbol-check.py`) don't need to be shared and should be built statically whenever possible. See [below](#secondary-dependencies) for more details. ## Identifiers Each package is required to define at least these variables: $(package)_version: Version of the upstream library or program. If there is no version, a placeholder such as 1.0 can be used. $(package)_download_path: Location of the upstream source, without the file-name. Usually http, https or ftp. Secure transmission options like https should be preferred if available. $(package)_file_name: The upstream source filename available at the download path. $(package)_sha256_hash: The sha256 hash of the upstream file These variables are optional: $(package)_build_subdir: cd to this dir before running configure/build/stage commands. $(package)_download_file: The file-name of the upstream source if it differs from how it should be stored locally. This can be used to avoid storing file-names with strange characters. $(package)_dependencies: Names of any other packages that this one depends on. $(package)_patches: Filenames of any patches needed to build the package $(package)_extra_sources: Any extra files that will be fetched via $(package)_fetch_cmds. These are specified so that they can be fetched and verified via 'make download'. ## Build Variables: After defining the main identifiers, build variables may be added or customized before running the build commands. They should be added to a function called $(package)_set_vars. For example: define $(package)_set_vars ... endef Most variables can be prefixed with the host, architecture, or both, to make the modifications specific to that case. For example: Universal: $(package)_cc=gcc Linux only: $(package)_linux_cc=gcc x86_64 only: $(package)_x86_64_cc = gcc x86_64 linux only: $(package)_x86_64_linux_cc = gcc These variables may be set to override or append their default values. $(package)_cc $(package)_cxx $(package)_objc $(package)_objcxx $(package)_ar $(package)_ranlib $(package)_libtool $(package)_nm $(package)_cflags $(package)_cxxflags $(package)_ldflags $(package)_cppflags $(package)_config_env $(package)_build_env $(package)_stage_env $(package)_build_opts $(package)_config_opts The *_env variables are used to add environment variables to the respective commands. Many variables respect a debug/release suffix as well, in order to use them for only the appropriate build config. For example: $(package)_cflags_release = -O3 $(package)_cflags_i686_debug = -g $(package)_config_opts_release = --disable-debug These will be used in addition to the options that do not specify debug/release. All builds are considered to be release unless DEBUG=1 is set by the user. Other variables may be defined as needed. ## Build commands: For each build, a unique build dir and staging dir are created. For example, `work/build/mylib/1.0-1adac830f6e` and `work/staging/mylib/1.0-1adac830f6e`. The following build commands are available for each recipe: $(package)_fetch_cmds: Runs from: build dir Fetch the source file. If undefined, it will be fetched and verified against its hash. $(package)_extract_cmds: Runs from: build dir Verify the source file against its hash and extract it. If undefined, the source is assumed to be a tarball. $(package)_preprocess_cmds: Runs from: build dir/$(package)_build_subdir Preprocess the source as necessary. If undefined, does nothing. $(package)_config_cmds: Runs from: build dir/$(package)_build_subdir Configure the source. If undefined, does nothing. $(package)_build_cmds: Runs from: build dir/$(package)_build_subdir Build the source. If undefined, does nothing. $(package)_stage_cmds: Runs from: build dir/$(package)_build_subdir Stage the build results. If undefined, does nothing. The following variables are available for each recipe: $(1)_staging_dir: package's destination sysroot path $(1)_staging_prefix_dir: prefix path inside of the package's staging dir $(1)_extract_dir: path to the package's extracted sources $(1)_build_dir: path where configure/build/stage commands will be run $(1)_patch_dir: path where the package's patches (if any) are found Notes on build commands: For packages built with autotools, $($(package)_autoconf) can be used in the configure step to (usually) correctly configure automatically. Any $($(package)_config_opts) will be appended. Most autotools projects can be properly staged using: $(MAKE) DESTDIR=$($(package)_staging_dir) install ## Build outputs: In general, the output of a depends package should not contain any libtool archives. Instead, the package should output `.pc` (`pkg-config`) files where possible. From the [Gentoo Wiki entry](https://wiki.gentoo.org/wiki/Project:Quality_Assurance/Handling_Libtool_Archives): > Libtool pulls in all direct and indirect dependencies into the .la files it > creates. This leads to massive overlinking, which is toxic to the Gentoo > ecosystem, as it leads to a massive number of unnecessary rebuilds. ## Secondary dependencies: Secondary dependency packages relative to the bitcoin binaries/libraries (i.e. those not in `ALLOWED_LIBRARIES` in `contrib/devtools/symbol-check.py`) don't need to be shared and should be built statically whenever possible. This improves general build reliability as illustrated by the following example: When linking an executable against a shared library `libprimary` that has its own shared dependency `libsecondary`, we may need to specify the path to `libsecondary` on the link command using the `-rpath/-rpath-link` options, it is not sufficient to just say `libprimary`. For us, it's much easier to just link a static `libsecondary` into a shared `libprimary`. Especially because in our case, we are linking against a dummy `libprimary` anyway that we'll throw away. We don't care if the end-user has a static or dynamic `libsecondary`, that's not our concern. With a static `libsecondary`, when we need to link `libprimary` into our executable, there's no dependency chain to worry about as `libprimary` has all the symbols.