# # Copyright 2012-2017, Chef Software Inc. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # require "fileutils" require "uri" require "omnibus/manifest_entry" module Omnibus class Software class << self # # @param [Project] project # the project that loaded this software definition # @param [String] name # the path to the software definition to load from disk # # @return [Software] # def load(project, name, manifest) loaded_softwares["#{project.name}:#{name}"] ||= begin filepath = Omnibus.software_path(name) if filepath.nil? raise MissingSoftware.new(name) else log.internal(log_key) do "Loading software `#{name}' from `#{filepath}' using overrides from #{project.name}." end end instance = new(project, filepath, manifest) instance.evaluate_file(filepath) instance.load_dependencies # Add the loaded component to the library project.library.component_added(instance) instance end end # # Reset cached software information. # def reset! @loaded_softwares = nil end private # # The list of softwares loaded thus far. # # @return [Hash] # def loaded_softwares @loaded_softwares ||= {} end end include Cleanroom include Digestable include Logging include NullArgumentable include Sugarable include Util attr_reader :manifest # # Create a new software object. # # @param [Project] project # the Omnibus project that instantiated this software definition # @param [String] filepath # the path to where this software definition lives on disk # @param [String] manifest # the user-supplied software manifest # # @return [Software] # def initialize(project, filepath = nil, manifest = nil) unless project.is_a?(Project) raise ArgumentError, "`project' must be a kind of `Omnibus::Project', but was `#{project.class.inspect}'!" end # Magical methods @filepath = filepath @project = project @manifest = manifest # Overrides @overrides = NULL end def manifest_entry @manifest_entry ||= if manifest log.info(log_key) { "Using user-supplied manifest entry for #{name}" } manifest.entry_for(name) else log.info(log_key) { "Resolving manifest entry for #{name}" } to_manifest_entry end end # # Compare two software projects (by name). # # @return [1, 0, -1] # def <=>(other) name <=> other.name end # # @!group DSL methods # # The following DSL methods are available from within software definitions. # -------------------------------------------------- # # The project that created this software. # # @return [Project] # def project @project end expose :project # # **[Required]** Sets or retreives the name of the software. # # @raise [MissingRequiredAttribute] # # @example # name 'libxslt' # # @param [String] val # name of the Software # # @return [String] # def name(val = NULL) if null?(val) @name || raise(MissingRequiredAttribute.new(self, :name, "libxslt")) else @name = val end end expose :name # # Sets the description of the software. # # @example # description 'Installs libxslt' # # @param [String] val # the description of the software # # @return [String] # def description(val = NULL) if null?(val) @description else @description = val end end expose :description # # Sets the maintainer of the software. Currently this is for # human consumption only and the tool doesn't do anything with it. # # @example # maintainer "Joe Bob " # # @param [String] val # the maintainer of this sofware def # # @return [String] # def maintainer(val = NULL) if null?(val) @maintainer else @description = val end end expose :maintainer # # Add a software dependency to this software. # # @example # dependency 'libxml2' # dependency 'libpng' # # @param [String] val # the name of a software dependency # # @return [Array] # the list of current dependencies # def dependency(val) dependencies << val dependencies.dup end expose :dependency # # Set or retrieve the source for the software. # # @raise [InvalidValue] # if the parameter is not a Hash # @raise [InvalidValue] # if the hash includes extraneous keys # @raise [InvalidValue] # if the hash declares keys that cannot work together # (like +:git+ and +:path+) # # @example # source url: 'http://ftp.gnu.org/gnu/autoconf/autoconf-2.68.tar.gz', # md5: 'c3b5247592ce694f7097873aa07d66fe' # # @param [Hash] val # a single key/pair that defines the kind of source and a path specifier # # @option val [String] :git (nil) # a git URL # @option val [String] :github (nil) # a github ORG/REPO pair (e.g. chef/chef) that will be transformed to https://github.com/ORG/REPO.git # @option val [String] :url (nil) # general URL # @option val [String] :path (nil) # a fully-qualified local file system path # @option val [String] :md5 (nil) # the MD5 checksum of the downloaded artifact # @option val [String] :sha1 (nil) # the SHA1 checksum of the downloaded artifact # @option val [String] :sha256 (nil) # the SHA256 checksum of the downloaded artifact # @option val [String] :sha512 (nil) # the SHA512 checksum of the downloaded artifact # # Only used in net_fetcher: # # @option val [String] :cookie (nil) # a cookie to set # @option val [String] :authorization (nil) # an authorization header to set # @option val [String] :warning (nil) # a warning message to print when downloading # @option val [Symbol] :extract (nil) # either :tar, :lax_tar :seven_zip # # Only used in path_fetcher: # # @option val [Hash] :options (nil) # flags/options that are passed through to file_syncer in path_fetcher # # Only used in git_fetcher: # # @option val [Boolean] :submodules (false) # clone git submodules # # If multiple checksum types are provided, only the strongest will be used. # # @return [Hash] # def source(val = NULL) unless null?(val) unless val.is_a?(Hash) raise InvalidValue.new(:source, "be a kind of `Hash', but was `#{val.class.inspect}'") end val = canonicalize_source(val) extra_keys = val.keys - [ :git, :file, :path, :url, # fetcher types :md5, :sha1, :sha256, :sha512, # hash type - common to all fetchers :cookie, :warning, :unsafe, :extract, :cached_name, :authorization, # used by net_fetcher :options, # used by path_fetcher :submodules # used by git_fetcher ] unless extra_keys.empty? raise InvalidValue.new(:source, "only include valid keys. Invalid keys: #{extra_keys.inspect}") end duplicate_keys = val.keys & [:git, :file, :path, :url] unless duplicate_keys.size < 2 raise InvalidValue.new(:source, "not include duplicate keys. Duplicate keys: #{duplicate_keys.inspect}") end @source ||= {} @source.merge!(val) end override = canonicalize_source(overrides[:source]) apply_overrides(:source, override) end expose :source # # Set or retrieve the {#default_version} of the software to build. # # @example # default_version '1.2.3' # # @param [String] val # the default version to set for the software. # For a git source, the default version may be a git ref (e.g. tag, branch name, or sha). # # @return [String] # def default_version(val = NULL) if null?(val) @version else @version = val end end expose :default_version # # Set or retrieve the {#license} of the software to build. # # @example # license 'Apache 2.0' # # @param [String] val # the license to set for the software. # # @return [String] # def license(val = NULL) if null?(val) @license || "Unspecified" else @license = val end end expose :license # # Set or retrieve the location of a {#license_file} # of the software. It can either be a relative path inside # the source package or a URL. # # # @example # license_file 'LICENSES/artistic.txt' # # @param [String] val # the location of the license file for the software. # # @return [String] # def license_file(file) license_files << file license_files.dup end expose :license_file # # Skip collecting licenses of transitive dependencies for this software # # @example # skip_transitive_dependency_licensing true # # @param [Boolean] val # set or reset transitive dependency license collection # # @return [Boolean] # def skip_transitive_dependency_licensing(val = NULL) if null?(val) @skip_transitive_dependency_licensing || false else @skip_transitive_dependency_licensing = val end end expose :skip_transitive_dependency_licensing # # Set or retrieve licensing information of the dependencies. # The information set is not validated or inspected. It is directly # passed to LicenseScout. # # @example # dependency_licenses [ # { # dependency_name: "logstash-output-websocket", # dependency_manager: "logstash_plugin", # license: "Apache-2.0", # license_file: [ # "relative/path/to/license/file", # "https://download.elastic.co/logstash/LICENSE" # ] # }, # ... # ] # # @param [Hash] val # @param [Array] val # dependency license information. # @return [Array] # def dependency_licenses(val = NULL) if null?(val) @dependency_licenses || nil else @dependency_licenses = Array(val) end end expose :dependency_licenses # # Evaluate a block only if the version matches. # # @example # version '1.2.3' do # source path: '/local/path/to/software-1.2.3' # end # # @param [String] val # the version of the software # @param [Proc] block # the block to run if the version we are building matches the argument # # @return [String, Proc] # def version(val = NULL, &block) final_version = apply_overrides(:version) if block_given? if val.equal?(NULL) raise InvalidValue.new(:version, "pass a block when given a version argument") else if val == final_version # # Unfortunately we need to make a specific logic here for license files. # We support multiple calls `license_file` and we support overriding the # license files inside a version block. We can not differentiate whether # `license_file` is being called from a version block or not. So we need # to check if the license files are being overridden during the call to # block. # # If so we use the new set, otherwise we restore the old license files. # current_license_files = @license_files @license_files = [] yield new_license_files = @license_files if new_license_files.empty? @license_files = current_license_files end end end end return if final_version.nil? begin Chef::Sugar::Constraints::Version.new(final_version) rescue ArgumentError log.warn(log_key) do "Version #{final_version} for software #{name} was not parseable. " \ "Comparison methods such as #satisfies? will not be available for this version." end final_version end end expose :version # # Add a file to the healthcheck whitelist. # # @example # whitelist_file '/path/to/file' # # @param [String, Regexp] file # the name of a file to ignore in the healthcheck # # @return [Array] # the list of currently whitelisted files # def whitelist_file(file) file = Regexp.new(file) unless file.kind_of?(Regexp) whitelist_files << file whitelist_files.dup end expose :whitelist_file # # The path relative to fetch_dir where relevant project files are # stored. This applies to all sources. # # Any command executed in the build step are run after cwd-ing into # this path. The default is to stay at the top level of fetch_dir # where the source tar-ball/git repo/file/directory has been staged. # # @example # relative_path 'example-1.2.3' # # @param [String] val # the relative path inside the source directory. default: '.' # # Due to back-compat reasons, relative_path works completely # differently for anything other than tar-balls/archives. In those # situations, the source is checked out rooted at relative_path # instead 'cause reasons. # TODO: Fix this in omnibus 6. # # @return [String] # def relative_path(val = NULL) if null?(val) @relative_path || "." else @relative_path = val end end expose :relative_path # # The path where the extracted software lives. All build commands # associated with this software definition are run for under this path. # # Why is it called project_dir when this is a software definition, I hear # you cry. Because history and reasons. This really is a location # underneath the global omnibus source directory that you have focused # into using relative_path above. # # These are not the only files your project fetches. They are merely the # files that your project cares about. A source tarball may contain more # directories that are not under your project_dir. # # @return [String] # def project_dir File.expand_path("#{fetch_dir}/#{relative_path}") end expose :project_dir # # The path where the software will be built. # # @return [String] # def build_dir File.expand_path("#{Config.build_dir}/#{project.name}") end expose :build_dir # # The directory where this software is installed on disk. # # @example # { 'PATH' => "#{install_dir}/embedded/bin:#{ENV["PATH"]}", } # # @return [String] # def install_dir @project.install_dir end expose :install_dir # # Define a series of {Builder} DSL commands that are executed to build the # software. # # @see Builder # # @param [Proc] block # a block of build commands # # @return [Proc] # the build block # def build(&block) builder.evaluate(&block) end expose :build # # The path to the downloaded file from a NetFetcher. # # @deprecated There is no replacement for this DSL method # def project_file if fetcher && fetcher.is_a?(NetFetcher) log.deprecated(log_key) do "project_file (DSL). This is a property of the NetFetcher and will " \ "not be publically exposed in the next major release. In general, " \ "you should not be using this method in your software definitions " \ "as it is an internal implementation detail of the NetFetcher. If " \ "you disagree with this statement, you should open an issue on the " \ "Omnibus repository on GitHub an explain your use case. For now, " \ "I will return the path to the downloaded file on disk, but please " \ "rethink the problem you are trying to solve :)." end fetcher.downloaded_file else log.warn(log_key) do "Cannot retrieve a `project_file' for software `#{name}'. This " \ "attribute is actually an internal representation that is unique " \ "to the NetFetcher class and requires the use of a `source' " \ "attribute that is declared using a `:url' key. For backwards-" \ "compatability, I will return `nil', but this is most likely not " \ "your desired behavior." end nil end end expose :project_file # # Add standard compiler flags to the environment hash to produce omnibus # binaries (correct RPATH, etc). # # Supported options: # :aix => :use_gcc force using gcc/g++ compilers on aix # # @param [Hash] env # @param [Hash] opts # # @return [Hash] # def with_standard_compiler_flags(env = {}, opts = {}) env ||= {} opts ||= {} compiler_flags = case Ohai["platform"] when "aix" { "CC" => "xlc_r -q64", "CXX" => "xlC_r -q64", "CFLAGS" => "-q64 -I#{install_dir}/embedded/include -D_LARGE_FILES -O", "LDFLAGS" => "-q64 -L#{install_dir}/embedded/lib -Wl,-blibpath:#{install_dir}/embedded/lib:/usr/lib:/lib", "LD" => "ld -b64", "OBJECT_MODE" => "64", "ARFLAGS" => "-X64 cru", } when "solaris2" if platform_version.satisfies?("<= 5.10") solaris_flags = { # this override is due to a bug in libtool documented here: # http://lists.gnu.org/archive/html/bug-libtool/2005-10/msg00004.html "CC" => "gcc -static-libgcc", "LDFLAGS" => "-R#{install_dir}/embedded/lib -L#{install_dir}/embedded/lib -static-libgcc", "CFLAGS" => "-I#{install_dir}/embedded/include -O2", } elsif platform_version.satisfies?(">= 5.11") solaris_flags = { "CC" => "gcc -m64 -static-libgcc", "LDFLAGS" => "-Wl,-rpath,#{install_dir}/embedded/lib -L#{install_dir}/embedded/lib -static-libgcc", "CFLAGS" => "-I#{install_dir}/embedded/include -O2", } end solaris_flags when "freebsd" { "CC" => "clang", "CXX" => "clang++", "LDFLAGS" => "-L#{install_dir}/embedded/lib", "CFLAGS" => "-I#{install_dir}/embedded/include -O2", } when "suse" suse_flags = { "LDFLAGS" => "-Wl,-rpath,#{install_dir}/embedded/lib -L#{install_dir}/embedded/lib", "CFLAGS" => "-I#{install_dir}/embedded/include -O2", } # Enable gcc version 4.8 if it is available if which("gcc-4.8") && platform_version.satisfies?("< 12") suse_flags["CC"] = "gcc-4.8" suse_flags["CXX"] = "g++-4.8" end suse_flags when "windows" arch_flag = windows_arch_i386? ? "-m32" : "-m64" opt_flag = windows_arch_i386? ? "-march=i686" : "-march=x86-64" { "LDFLAGS" => "-L#{install_dir}/embedded/lib #{arch_flag} -fno-lto", # We do not wish to enable SSE even though we target i686 because # of a stack alignment issue with some libraries. We have not # exactly ascertained the cause but some compiled library/binary # violates gcc's assumption that the stack is going to be 16-byte # aligned which is just fine as long as one is pushing 32-bit # values from general purpose registers but stuff hits the fan as # soon as gcc emits aligned SSE xmm register spills which generate # GPEs and terminate the application very rudely with very little # to debug with. "CFLAGS" => "-I#{install_dir}/embedded/include #{arch_flag} -O3 #{opt_flag}", } else { "LDFLAGS" => "-Wl,-rpath,#{install_dir}/embedded/lib -L#{install_dir}/embedded/lib", "CFLAGS" => "-I#{install_dir}/embedded/include -O2", } end # merge LD_RUN_PATH into the environment. most unix distros will fall # back to this if there is no LDFLAGS passed to the linker that sets # the rpath. the LDFLAGS -R or -Wl,-rpath will override this, but in # some cases software may drop our LDFLAGS or think it knows better # and edit them, and we *really* want the rpath setting and do know # better. in that case LD_RUN_PATH will probably survive whatever # edits the configure script does extra_linker_flags = { "LD_RUN_PATH" => "#{install_dir}/embedded/lib", } if solaris2? ld_options = "-R#{install_dir}/embedded/lib" if platform_version.satisfies?("<= 5.10") # in order to provide compatibility for earlier versions of libc on solaris 10, # we need to specify a mapfile that restricts the version of system libraries # used. See http://docs.oracle.com/cd/E23824_01/html/819-0690/chapter5-1.html # for more information # use the mapfile if it exists, otherwise ignore it mapfile_path = File.expand_path(Config.solaris_linker_mapfile, Config.project_root) ld_options << " -M #{mapfile_path}" if File.exist?(mapfile_path) end # solaris linker can also use LD_OPTIONS, so we throw the kitchen sink against # the linker, to find every way to make it use our rpath. This is also required # to use the aforementioned mapfile. extra_linker_flags["LD_OPTIONS"] = ld_options end env.merge(compiler_flags) .merge(extra_linker_flags). # always want to favor pkg-config from embedded location to not hose # configure scripts which try to be too clever and ignore our explicit # CFLAGS and LDFLAGS in favor of pkg-config info merge({ "PKG_CONFIG_PATH" => "#{install_dir}/embedded/lib/pkgconfig" }). # Set default values for CXXFLAGS and CPPFLAGS. merge("CXXFLAGS" => compiler_flags["CFLAGS"]) .merge("CPPFLAGS" => compiler_flags["CFLAGS"]) .merge("OMNIBUS_INSTALL_DIR" => install_dir) end expose :with_standard_compiler_flags # # A PATH variable format string representing the current PATH with the # project's embedded/bin directory prepended. The correct path separator # for the platform is used to join the paths. # # @param [Hash] env # # @return [Hash] # def with_embedded_path(env = {}) paths = ["#{install_dir}/bin", "#{install_dir}/embedded/bin"] path_value = prepend_path(paths) env.merge(path_key => path_value) end expose :with_embedded_path # # Returns the platform safe full path under embedded/bin directory to the # given binary # # @param [String] bin # Name of the binary under embedded/bin # # @return [String] # def embedded_bin(bin) windows_safe_path("#{install_dir}/embedded/bin/#{bin}") end expose :embedded_bin # # A PATH variable format string representing the current PATH with the # given path prepended. The correct path separator # for the platform is used to join the paths. # # @param [Array] paths # # @return [String] # def prepend_path(*paths) path_values = Array(paths) path_values << ENV[path_key] separator = File::PATH_SEPARATOR || ":" path_values.join(separator) end expose :prepend_path # # A proxy method to the underlying Ohai system. # # @example # ohai['platform_family'] # # @return [Ohai] # def ohai Ohai end expose :ohai # # @!endgroup # -------------------------------------------------- # # @!group Public API # # In addition to the DSL methods, the following methods are considered to # be the "public API" for a software. # -------------------------------------------------- # # Recursively load all the dependencies for this software. # # @return [true] # def load_dependencies dependencies.each do |dependency| Software.load(project, dependency, manifest) end true end # # The builder object for this software definition. # # @return [Builder] # def builder @builder ||= Builder.new(self) end def to_manifest_entry Omnibus::ManifestEntry.new(name, { source_type: source_type, described_version: version, locked_version: Fetcher.resolve_version(version, source), locked_source: source, license: license, }) end # # Fetch the software definition using the appropriate fetcher. This may # fetch the software from a local path location, git location, or download # the software from a remote URL (HTTP(s)/FTP) # # @return [true, false] # true if the software was fetched, false if it was cached # def fetch if fetcher.fetch_required? fetcher.fetch true else false end end # # The list of software dependencies for this software. These is the software # that comprises your software, and is distinct from runtime dependencies. # # @see #dependency # # @param [Array] # # @return [Array] # def dependencies @dependencies ||= [] end # # The list of files to ignore in the healthcheck. # # @return [Array] # def whitelist_files @whitelist_files ||= [] end # # The list of license files for this software # # @see #license_file # # @return [Array] # def license_files @license_files ||= [] end # # The path (on disk) where this software came from. Warning: this can be # +nil+ if a software was dynamically created! # # @return [String, nil] # def filepath @filepath end # # The repo-level and project-level overrides for the software. # # @return [Hash] # def overrides if null?(@overrides) # lazily initialized because we need the 'name' to be parsed first @overrides = {} @overrides = project.overrides[name.to_sym].dup if project.overrides[name.to_sym] end @overrides end expose :overrides # # Determine if this software version overridden externally, relative to the # version declared within the software DSL file? # # @return [true, false] # def overridden? # NOTE: using instance variables to bypass accessors that enforce overrides @overrides.key?(:version) && (@overrides[:version] != @version) end # # @!endgroup # -------------------------------------------------- # # Path to where any source is extracted to. # # Files in a source directory are staged underneath here. Files from # a url are fetched and extracted here. Look outside this directory # at your own peril. # # @return [String] the full absolute path to the software root fetch # directory. # def fetch_dir(val = NULL) if null?(val) @fetch_dir || File.expand_path("#{Config.source_dir}/#{name}") else @fetch_dir = val end end # @todo see comments on {Omnibus::Fetcher#without_caching_for} def version_guid fetcher.version_guid end # Returns the version to be used in cache. def version_for_cache @version_for_cache ||= if fetcher.version_for_cache fetcher.version_for_cache elsif version version else log.warn(log_key) do "No version given! This is probably a bad thing. I am going to " \ "assume the version `0.0.0', but that is most certainly not your " \ "desired behavior. If git caching seems off, this is probably why." end "0.0.0" end end # # The fetcher for this software # # This is where we handle all the crazy back-compat on relative_path. # All fetchers in omnibus 4 use relative_path incorrectly. net_fetcher was # the only one to use to sensibly, and even then only if fetch_dir was # Config.source_dir and the source was an archive. Therefore, to not break # everyone ever, we will still pass project_dir for all other fetchers. # There is still one issue where other omnibus software (such as the # appbundler dsl) currently assume that fetch_dir the same as source_dir. # Therefore, we make one extra concession - when relative_path is set in a # software definition to be the same as name (a very common scenario), we # land the source into the fetch directory instead of project_dir. This # is to avoid fiddling with the appbundler dsl until it gets sorted out. # # @return [Fetcher] # def fetcher @fetcher ||= if source_type == :url && File.basename(source[:url], "?*").end_with?(*NetFetcher::ALL_EXTENSIONS) Fetcher.fetcher_class_for_source(source).new(manifest_entry, fetch_dir, build_dir) else Fetcher.fetcher_class_for_source(source).new(manifest_entry, project_dir, build_dir) end end # # The type of source specified for this software defintion. # # @return [Symbol] # def source_type if source if source[:url] :url elsif source[:git] :git elsif source[:file] :file elsif source[:path] :path end else :project_local end end # # Build the software package. If git caching is turned on (see # {Config#use_git_caching}), the build is restored according to the # documented restoration procedure in the git cache. If the build cannot # be restored (if the tag does not exist), the actual build steps are # executed. # # @param [Array<#execute_pre_build, #execute_post_build>] build_wrappers # Build wrappers inject behavior before or after the software is built. # They can be any object that implements `#execute_pre_build` and # `#execute_post_build`, taking this Software as an argument. Note that # these callbacks are only triggered when the software actually gets # built; if the build is skipped by the git cache, the callbacks DO NOT # run. # # @return [true] # def build_me(build_wrappers = []) if Config.use_git_caching if project.dirty? log.info(log_key) do "Building because `#{project.culprit.name}' dirtied the cache" end execute_build(build_wrappers) elsif git_cache.restore log.info(log_key) { "Restored from cache" } else log.info(log_key) { "Could not restore from cache" } execute_build(build_wrappers) project.dirty!(self) end else log.debug(log_key) { "Forcing build because git caching is off" } execute_build(build_wrappers) end project.build_version_dsl.resolve(self) true end # # The unique "hash" for this software. # # @see (#shasum) # # @return [Fixnum] # def hash shasum.hash end # # Determine if two softwares are identical. # # @param [Software] other # # @return [true, false] # def ==(other) hash == other.hash end alias_method :eql?, :== # # The unique SHA256 for this sofware definition. # # A software is defined by its parent project's shasum, its own name, its # version_for_cache, and any overrides (as JSON). Additionally, if provided, # the actual file contents are included in the SHA to ensure uniqueness. # # @return [String] # def shasum @shasum ||= begin digest = Digest::SHA256.new update_with_string(digest, project.shasum) update_with_string(digest, builder.shasum) update_with_string(digest, name) update_with_string(digest, version_for_cache) update_with_string(digest, FFI_Yajl::Encoder.encode(overrides)) if filepath && File.exist?(filepath) update_with_file_contents(digest, filepath) else update_with_string(digest, "") end digest.hexdigest end end private # # The git caching implementation for this software. # # @return [GitCache] # def git_cache @git_cache ||= GitCache.new(self) end # # Apply overrides in the @overrides hash that mask instance variables # that are set by parsing the DSL # def apply_overrides(attr, override = overrides[attr]) val = instance_variable_get(:"@#{attr}") if val.is_a?(Hash) || override.is_a?(Hash) val ||= {} override ||= {} val.merge(override) else override || val end end # # Transform github -> git in source # def canonicalize_source(source) if source.is_a?(Hash) && source[:github] source = source.dup source[:git] = "https://github.com/#{source[:github]}.git" source.delete(:github) end source end # # Actually build this software, executing the steps provided in the # {#build} block and dirtying the cache. # # @param [Array<#execute_pre_build, #execute_post_build>] build_wrappers # Build wrappers inject behavior before or after the software is built. # They can be any object that implements `#execute_pre_build` and # `#execute_post_build` # # @return [void] # def execute_build(build_wrappers) fetcher.clean build_wrappers.each { |wrapper| wrapper.execute_pre_build(self) } builder.build build_wrappers.each { |wrapper| wrapper.execute_post_build(self) } if Config.use_git_caching git_cache.incremental log.info(log_key) { "Dirtied the cache" } end end # # The log key for this software, including its name. # # @return [String] # def log_key @log_key ||= "#{super}: #{name}" end def to_s "#{name}[#{filepath}]" end end end