################################################################################ # Golang package infrastructure # # This file implements an infrastructure that eases development of package .mk # files for Go packages. It should be used for all packages that are written in # go. # # See the Buildroot documentation for details on the usage of this # infrastructure # # # In terms of implementation, this golang infrastructure requires the .mk file # to only specify metadata information about the package: name, version, # download URL, etc. # # We still allow the package .mk file to override what the different steps are # doing, if needed. For example, if _BUILD_CMDS is already defined, it is # used as the list of commands to perform to build the package, instead of the # default golang behavior. The package can also define some post operation # hooks. # ################################################################################ GO_BIN = $(HOST_DIR)/bin/go ################################################################################ # inner-golang-package -- defines how the configuration, compilation and # installation of a Go package should be done, implements a few hooks to tune # the build process for Go specificities and calls the generic package # infrastructure to generate the necessary make targets # # argument 1 is the lowercase package name # argument 2 is the uppercase package name, including a HOST_ prefix for host # packages # argument 3 is the uppercase package name, without the HOST_ prefix for host # packages # argument 4 is the type (target or host) # ################################################################################ define inner-golang-package $(2)_BUILD_OPTS += \ -ldflags "$$($(2)_LDFLAGS)" \ -modcacherw \ -tags "$$($(2)_TAGS)" \ -trimpath \ -p $$(PARALLEL_JOBS) # Target packages need the Go compiler on the host at download time (for # vendoring), and at build and install time. $(2)_DOWNLOAD_DEPENDENCIES += host-go $(2)_DEPENDENCIES += host-go $(2)_BUILD_TARGETS ?= . # If the build target is just ".", then we assume the binary to be # produced is named after the package. If however, a build target has # been specified, we assume that the binaries to be produced are named # after each build target building them (below in _BUILD_CMDS). ifeq ($$($(2)_BUILD_TARGETS),.) $(2)_BIN_NAME ?= $$($(2)_RAWNAME) endif $(2)_INSTALL_BINS ?= $$($(2)_RAWNAME) # Source files in Go usually use an import path resolved around # domain/vendor/software. We infer domain/vendor/software from the upstream URL # of the project. $(2)_SRC_DOMAIN = $$(call domain,$$($(2)_SITE)) $(2)_SRC_VENDOR = $$(word 1,$$(subst /, ,$$(call notdomain,$$($(2)_SITE)))) $(2)_SRC_SOFTWARE = $$(word 2,$$(subst /, ,$$(call notdomain,$$($(2)_SITE)))) # $(2)_GOMOD is the root Go module path for the project, inferred if not set. # If the go.mod file does not exist, one is written with this root path. $(2)_GOMOD ?= $$($(2)_SRC_DOMAIN)/$$($(2)_SRC_VENDOR)/$$($(2)_SRC_SOFTWARE) # Generate a go.mod file if it doesn't exist. Note: Go is configured # to use the "vendor" dir and not make network calls. define $(2)_GEN_GOMOD if [ ! -f $$(@D)/go.mod ]; then \ printf "module $$($(2)_GOMOD)\n" > $$(@D)/go.mod; \ fi endef $(2)_POST_PATCH_HOOKS += $(2)_GEN_GOMOD $(2)_DOWNLOAD_POST_PROCESS = go $(2)_DL_ENV += \ $$(HOST_GO_COMMON_ENV) \ GOPROXY=direct \ $$($(2)_GO_ENV) # Due to vendoring, it is pretty likely that not all licenses are # listed in _LICENSE. $(2)_LICENSE += , vendored dependencies licenses probably not listed # Build step. Only define it if not already defined by the package .mk # file. ifndef $(2)_BUILD_CMDS ifeq ($(4),target) ifeq ($(BR2_STATIC_LIBS),y) $(2)_LDFLAGS += -extldflags '-static' endif # Build package for target define $(2)_BUILD_CMDS $$(foreach d,$$($(2)_BUILD_TARGETS),\ cd $$(@D); \ $$(HOST_GO_TARGET_ENV) \ $$($(2)_GO_ENV) \ $$(GO_BIN) build -v $$($(2)_BUILD_OPTS) \ -o $$(@D)/bin/$$(or $$($(2)_BIN_NAME),$$(notdir $$(d))) \ $$($(2)_GOMOD)/$$(d) ) endef else # Build package for host define $(2)_BUILD_CMDS $$(foreach d,$$($(2)_BUILD_TARGETS),\ cd $$(@D); \ $$(HOST_GO_HOST_ENV) \ $$($(2)_GO_ENV) \ $$(GO_BIN) build -v $$($(2)_BUILD_OPTS) \ -o $$(@D)/bin/$$(or $$($(2)_BIN_NAME),$$(notdir $$(d))) \ $$($(2)_GOMOD)/$$(d) ) endef endif endif # Target installation step. Only define it if not already defined by the # package .mk file. ifndef $(2)_INSTALL_TARGET_CMDS define $(2)_INSTALL_TARGET_CMDS $$(foreach d,$$($(2)_INSTALL_BINS),\ $$(INSTALL) -D -m 0755 $$(@D)/bin/$$(d) $$(TARGET_DIR)/usr/bin/$$(d) ) endef endif # Host installation step ifndef $(2)_INSTALL_CMDS define $(2)_INSTALL_CMDS $$(foreach d,$$($(2)_INSTALL_BINS),\ $$(INSTALL) -D -m 0755 $$(@D)/bin/$$(d) $$(HOST_DIR)/bin/$$(d) ) endef endif # Call the generic package infrastructure to generate the necessary make # targets $(call inner-generic-package,$(1),$(2),$(3),$(4)) endef # inner-golang-package ################################################################################ # golang-package -- the target generator macro for Go packages ################################################################################ golang-package = $(call inner-golang-package,$(pkgname),$(call UPPERCASE,$(pkgname)),$(call UPPERCASE,$(pkgname)),target) host-golang-package = $(call inner-golang-package,host-$(pkgname),$(call UPPERCASE,host-$(pkgname)),$(call UPPERCASE,$(pkgname)),host)