rust/mk/dist.mk

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# Copyright 2014 The Rust Project Developers. See the COPYRIGHT
# file at the top-level directory of this distribution and at
# http://rust-lang.org/COPYRIGHT.
#
# Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
# http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
# <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
# option. This file may not be copied, modified, or distributed
# except according to those terms.
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######################################################################
# Distribution
######################################################################
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# Primary targets:
#
# * dist - make all distribution artifacts
# * distcheck - sanity check dist artifacts
# * dist-tar-src - source tarballs
# * dist-tar-bins - Ad-hoc Unix binary installers
# * dist-docs - Stage docs for upload
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PKG_NAME := $(CFG_PACKAGE_NAME)
STD_PKG_NAME := rust-std-$(CFG_PACKAGE_VERS)
DOC_PKG_NAME := rust-docs-$(CFG_PACKAGE_VERS)
MINGW_PKG_NAME := rust-mingw-$(CFG_PACKAGE_VERS)
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# License suitable for displaying in a popup
LICENSE.txt: $(S)COPYRIGHT $(S)LICENSE-APACHE $(S)LICENSE-MIT
cat $^ > $@
######################################################################
# Source tarball
######################################################################
PKG_TAR = dist/$(PKG_NAME)-src.tar.gz
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PKG_GITMODULES := $(S)src/llvm $(S)src/compiler-rt \
$(S)src/rt/hoedown $(S)src/jemalloc
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PKG_FILES := \
$(S)COPYRIGHT \
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$(S)LICENSE-APACHE \
$(S)LICENSE-MIT \
$(S)CONTRIBUTING.md \
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$(S)README.md \
$(S)RELEASES.md \
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$(S)configure $(S)Makefile.in \
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$(S)man \
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$(addprefix $(S)src/, \
bootstrap \
build_helper \
doc \
driver \
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etc \
$(foreach crate,$(CRATES),lib$(crate)) \
libcollectionstest \
libcoretest \
libbacktrace \
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rt \
rtstartup \
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rustllvm \
rustc \
mk: Bootstrap from stable instead of snapshots This commit removes all infrastructure from the repository for our so-called snapshots to instead bootstrap the compiler from stable releases. Bootstrapping from a previously stable release is a long-desired feature of distros because they're not fans of downloading binary stage0 blobs from us. Additionally, this makes our own CI easier as we can decommission all of the snapshot builders and start having a regular cadence to when we update the stage0 compiler. A new `src/etc/get-stage0.py` script was added which shares some code with `src/bootstrap/bootstrap.py` to read a new file, `src/stage0.txt`, which lists the current stage0 compiler as well as cargo that we bootstrap from. This script will download the relevant `rustc` package an unpack it into `$target/stage0` as we do today. One problem of bootstrapping from stable releases is that we're not able to compile unstable code (e.g. all the `#![feature]` directives in libcore/libstd). To overcome this we employ two strategies: * The bootstrap key of the previous compiler is hardcoded into `src/stage0.txt` (enabled as a result of #32731) and exported by the build system. This enables nightly features in the compiler we download. * The standard library and compiler are pinned to a specific stage0, which doesn't change, so we're guaranteed that we'll continue compiling as we start from a known fixed source. The process for making a release will also need to be tweaked now to continue to cadence of bootstrapping from the previous release. This process looks like: 1. Merge `beta` to `stable` 2. Produce a new stable compiler. 3. Change `master` to bootstrap from this new stable compiler. 4. Merge `master` to `beta` 5. Produce a new beta compiler 6. Change `master` to bootstrap from this new beta compiler. Step 3 above should involve very few changes as `master` was previously bootstrapping from `beta` which is the same as `stable` at that point in time. Step 6, however, is where we benefit from removing lots of `#[cfg(stage0)]` and get to use new features. This also shouldn't slow the release too much as steps 1-5 requires little work other than waiting and step 6 just needs to happen at some point during a release cycle, it's not time sensitive. Closes #29555 Closes #29557
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stage0.txt \
rust-installer \
tools \
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test) \
$(PKG_GITMODULES) \
$(filter-out config.stamp, \
$(MKFILES_FOR_TARBALL))
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UNROOTED_PKG_FILES := $(patsubst $(S)%,./%,$(PKG_FILES))
$(PKG_TAR): $(PKG_FILES)
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@$(call E, making dist dir)
$(Q)rm -Rf tmp/dist/$(PKG_NAME)
$(Q)mkdir -p tmp/dist/$(PKG_NAME)
$(Q)tar \
-C $(S) \
--exclude-vcs \
--exclude=*~ \
--exclude=*.pyc \
--exclude=*/llvm/test/*/*.ll \
--exclude=*/llvm/test/*/*.td \
--exclude=*/llvm/test/*/*.s \
--exclude=*/llvm/test/*/*/*.ll \
--exclude=*/llvm/test/*/*/*.td \
--exclude=*/llvm/test/*/*/*.s \
-c $(UNROOTED_PKG_FILES) | tar -x -C tmp/dist/$(PKG_NAME)
@$(call E, making $@)
$(Q)tar -czf $(PKG_TAR) -C tmp/dist $(PKG_NAME)
$(Q)rm -Rf tmp/dist/$(PKG_NAME)
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dist-tar-src: $(PKG_TAR)
distcheck-tar-src: dist-tar-src
$(Q)rm -Rf tmp/distcheck/$(PKG_NAME)
$(Q)rm -Rf tmp/distcheck/srccheck
$(Q)mkdir -p tmp/distcheck
@$(call E, unpacking $(PKG_TAR) in tmp/distcheck/$(PKG_NAME))
$(Q)cd tmp/distcheck && tar -xzf ../../$(PKG_TAR)
@$(call E, configuring in tmp/distcheck/srccheck)
$(Q)mkdir -p tmp/distcheck/srccheck
$(Q)cd tmp/distcheck/srccheck && ../$(PKG_NAME)/configure
@$(call E, making 'check' in tmp/distcheck/srccheck)
$(Q)+make -C tmp/distcheck/srccheck check
@$(call E, making 'clean' in tmp/distcheck/srccheck)
$(Q)+make -C tmp/distcheck/srccheck clean
$(Q)rm -Rf tmp/distcheck/$(PKG_NAME)
$(Q)rm -Rf tmp/distcheck/srccheck
######################################################################
# Unix binary installer tarballs
######################################################################
define DEF_START_INSTALLER
dist-install-dir-$(1)-%: PREPARE_DIR_CMD=$(DEFAULT_PREPARE_DIR_CMD)
dist-install-dir-$(1)-%: PREPARE_BIN_CMD=$(DEFAULT_PREPARE_BIN_CMD)
dist-install-dir-$(1)-%: PREPARE_LIB_CMD=$(DEFAULT_PREPARE_LIB_CMD)
dist-install-dir-$(1)-%: PREPARE_MAN_CMD=$(DEFAULT_PREPARE_MAN_CMD)
dist-install-dir-$(1)-%: PREPARE_CLEAN=true
$$(eval $$(call DEF_PREPARE,dir-$(1)))
endef
$(foreach target,$(CFG_TARGET),\
$(eval $(call DEF_START_INSTALLER,$(target))))
define DEF_INSTALLER
dist-install-dir-$(1)-host: PREPARE_HOST=$(1)
dist-install-dir-$(1)-host: PREPARE_TARGETS=$(2)
dist-install-dir-$(1)-host: PREPARE_DEST_DIR=tmp/dist/$$(PKG_NAME)-$(1)-image
dist-install-dir-$(1)-host: prepare-base-dir-$(1)-host docs
$$(Q)mkdir -p $$(PREPARE_DEST_DIR)/share/doc/rust
$$(Q)$$(PREPARE_MAN_CMD) $$(S)COPYRIGHT $$(PREPARE_DEST_DIR)/share/doc/rust
$$(Q)$$(PREPARE_MAN_CMD) $$(S)LICENSE-APACHE $$(PREPARE_DEST_DIR)/share/doc/rust
$$(Q)$$(PREPARE_MAN_CMD) $$(S)LICENSE-MIT $$(PREPARE_DEST_DIR)/share/doc/rust
$$(Q)$$(PREPARE_MAN_CMD) $$(S)README.md $$(PREPARE_DEST_DIR)/share/doc/rust
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prepare-overlay-$(1):
$$(Q)rm -Rf tmp/dist/$$(PKG_NAME)-$(1)-overlay
$$(Q)mkdir -p tmp/dist/$$(PKG_NAME)-$(1)-overlay
$$(Q)cp $$(S)COPYRIGHT tmp/dist/$$(PKG_NAME)-$(1)-overlay/
$$(Q)cp $$(S)LICENSE-APACHE tmp/dist/$$(PKG_NAME)-$(1)-overlay/
$$(Q)cp $$(S)LICENSE-MIT tmp/dist/$$(PKG_NAME)-$(1)-overlay/
$$(Q)cp $$(S)README.md tmp/dist/$$(PKG_NAME)-$(1)-overlay/
# This tiny morsel of metadata is used by rust-packaging
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$$(Q)echo "$(CFG_VERSION)" > tmp/dist/$$(PKG_NAME)-$(1)-overlay/version
dist/$$(PKG_NAME)-$(1).tar.gz: dist-install-dir-$(1)-host prepare-overlay-$(1)
@$(call E, build: $$@)
# On a MinGW target we've got a few runtime DLL dependencies that we need
# to include. THe first argument to `make-win-dist` is where to put these DLLs
# (the image we're creating) and the second argument is a junk directory to
# ignore all the other MinGW stuff the script creates.
ifeq ($$(findstring pc-windows-gnu,$(1)),pc-windows-gnu)
$$(Q)rm -Rf tmp/dist/win-rust-gcc-$(1)
$$(Q)$$(CFG_PYTHON) $$(S)src/etc/make-win-dist.py \
tmp/dist/$$(PKG_NAME)-$(1)-image \
tmp/dist/win-rust-gcc-$(1) $(1)
endif
# On 32-bit MinGW we're always including a DLL which needs some extra licenses
# to distribute. On 64-bit MinGW we don't actually distribute anything requiring
# us to distribute a license but it's likely that the install will *also*
# include the rust-mingw package down below, which also need licenses, so to be
# safe we just inlude it here in all MinGW packages.
ifdef CFG_WINDOWSY_$(1)
ifeq ($$(findstring $(1),gnu),gnu)
$$(Q)cp -r $$(S)src/etc/third-party \
tmp/dist/$$(PKG_NAME)-$(1)-image/share/doc/
endif
endif
$$(Q)$$(S)src/rust-installer/gen-installer.sh \
--product-name=Rust \
--rel-manifest-dir=rustlib \
--success-message=Rust-is-ready-to-roll. \
--image-dir=tmp/dist/$$(PKG_NAME)-$(1)-image \
--work-dir=tmp/dist \
--output-dir=dist \
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--non-installed-overlay=tmp/dist/$$(PKG_NAME)-$(1)-overlay \
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--package-name=$$(PKG_NAME)-$(1) \
--component-name=rustc \
--legacy-manifest-dirs=rustlib,cargo
$$(Q)rm -R tmp/dist/$$(PKG_NAME)-$(1)-image
dist-doc-install-dir-$(1): docs
$$(Q)mkdir -p tmp/dist/$$(DOC_PKG_NAME)-$(1)-image/share/doc/rust
$$(Q)cp -r doc tmp/dist/$$(DOC_PKG_NAME)-$(1)-image/share/doc/rust/html
dist/$$(DOC_PKG_NAME)-$(1).tar.gz: dist-doc-install-dir-$(1)
@$(call E, build: $$@)
$$(Q)$$(S)src/rust-installer/gen-installer.sh \
--product-name=Rust-Documentation \
--rel-manifest-dir=rustlib \
--success-message=Rust-documentation-is-installed. \
--image-dir=tmp/dist/$$(DOC_PKG_NAME)-$(1)-image \
--work-dir=tmp/dist \
--output-dir=dist \
--package-name=$$(DOC_PKG_NAME)-$(1) \
--component-name=rust-docs \
--legacy-manifest-dirs=rustlib,cargo \
--bulk-dirs=share/doc/rust/html
$$(Q)rm -R tmp/dist/$$(DOC_PKG_NAME)-$(1)-image
# Creates the rust-mingw package, and the first argument to make-win-dist is a
# "temporary directory" which is just thrown away (this contains the runtime
# DLLs included in the rustc package above) and the second argument is where to
# place all the MinGW components (which is what we want).
dist-mingw-install-dir-$(1):
$$(Q)mkdir -p tmp/dist/rust-mingw-tmp-$(1)-image
$$(Q)rm -Rf tmp/dist/$$(MINGW_PKG_NAME)-$(1)-image
$$(Q)$$(CFG_PYTHON) $$(S)src/etc/make-win-dist.py \
tmp/dist/rust-mingw-tmp-$(1)-image \
tmp/dist/$$(MINGW_PKG_NAME)-$(1)-image $(1)
dist/$$(MINGW_PKG_NAME)-$(1).tar.gz: dist-mingw-install-dir-$(1)
@$(call E, build: $$@)
$$(Q)$$(S)src/rust-installer/gen-installer.sh \
--product-name=Rust-MinGW \
--rel-manifest-dir=rustlib \
--success-message=Rust-MinGW-is-installed. \
--image-dir=tmp/dist/$$(MINGW_PKG_NAME)-$(1)-image \
--work-dir=tmp/dist \
--output-dir=dist \
--package-name=$$(MINGW_PKG_NAME)-$(1) \
--component-name=rust-mingw \
--legacy-manifest-dirs=rustlib,cargo
$$(Q)rm -R tmp/dist/$$(MINGW_PKG_NAME)-$(1)-image
endef
# $(1) - host
# $(2) - target
define DEF_INSTALLER_TARGETS
dist-install-dir-$(2)-target: PREPARE_HOST=$(1)
dist-install-dir-$(2)-target: PREPARE_TARGETS=$(2)
dist-install-dir-$(2)-target: PREPARE_DEST_DIR=tmp/dist/$$(STD_PKG_NAME)-$(2)-image
dist-install-dir-$(2)-target: prepare-base-dir-$(2)-target
dist/$$(STD_PKG_NAME)-$(2).tar.gz: dist-install-dir-$(2)-target
@$$(call E, build: $$@)
$$(Q)$$(S)src/rust-installer/gen-installer.sh \
--product-name=Rust \
--rel-manifest-dir=rustlib \
--success-message=std-is-standing-at-the-ready. \
--image-dir=tmp/dist/$$(STD_PKG_NAME)-$(2)-image \
--work-dir=tmp/dist \
--output-dir=dist \
--package-name=$$(STD_PKG_NAME)-$(2) \
--component-name=rust-std-$(2) \
--legacy-manifest-dirs=rustlib,cargo
$$(Q)rm -R tmp/dist/$$(STD_PKG_NAME)-$(2)-image
endef
$(foreach host,$(CFG_HOST),\
$(eval $(call DEF_INSTALLER,$(host))))
# When generating packages for the standard library, we've actually got a lot of
# artifacts to choose from. Each of the CFG_HOST compilers will have a copy of
# the standard library for each CFG_TARGET, but we only want to generate one
# standard library package. As a result, for each entry in CFG_TARGET we need to
# pick a CFG_HOST to get the standard library from.
#
# In theory it doesn't actually matter what host we choose as it should be the
# case that all hosts produce the same set of libraries for a target (regardless
# of the host itself). Currently there is a bug in the compiler, however, which
# means this is not the case (see #29228 and #29235). To solve the first of
# those bugs, we prefer to select a standard library from the host it was
# generated from, allowing plugins to work in more situations.
#
# For all CFG_TARGET entries in CFG_HOST, however, we just pick CFG_BUILD as the
# host we slurp up a standard library from.
$(foreach host,$(CFG_HOST),\
$(eval $(call DEF_INSTALLER_TARGETS,$(host),$(host))))
$(foreach target,$(filter-out $(CFG_HOST),$(CFG_TARGET)),\
$(eval $(call DEF_INSTALLER_TARGETS,$(CFG_BUILD),$(target))))
ifdef CFG_WINDOWSY_$(CFG_BUILD)
define BUILD_MINGW_TARBALL
ifeq ($$(findstring gnu,$(1)),gnu)
MAYBE_MINGW_TARBALLS += dist/$(MINGW_PKG_NAME)-$(1).tar.gz
endif
endef
$(foreach host,$(CFG_HOST),\
$(eval $(call BUILD_MINGW_TARBALL,$(host))))
endif
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ifeq ($(CFG_DISABLE_DOCS),)
MAYBE_DOC_TARBALLS=$(foreach host,$(CFG_HOST),dist/$(DOC_PKG_NAME)-$(host).tar.gz)
endif
dist-tar-bins: \
$(foreach host,$(CFG_HOST),dist/$(PKG_NAME)-$(host).tar.gz) \
$(foreach target,$(CFG_TARGET),dist/$(STD_PKG_NAME)-$(target).tar.gz) \
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$(MAYBE_DOC_TARBALLS) $(MAYBE_MINGW_TARBALLS)
# Just try to run the compiler for the build host
distcheck-tar-bins: dist-tar-bins
@$(call E, checking binary tarball)
$(Q)rm -Rf tmp/distcheck/$(PKG_NAME)-$(CFG_BUILD)
$(Q)rm -Rf tmp/distcheck/tarbininstall
$(Q)mkdir -p tmp/distcheck
$(Q)cd tmp/distcheck && tar -xzf ../../dist/$(PKG_NAME)-$(CFG_BUILD).tar.gz
$(Q)mkdir -p tmp/distcheck/tarbininstall
$(Q)sh tmp/distcheck/$(PKG_NAME)-$(CFG_BUILD)/install.sh --prefix=tmp/distcheck/tarbininstall
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$(Q)sh tmp/distcheck/$(PKG_NAME)-$(CFG_BUILD)/install.sh --prefix=tmp/distcheck/tarbininstall --uninstall
$(Q)rm -Rf tmp/distcheck/$(PKG_NAME)-$(CFG_BUILD)
$(Q)rm -Rf tmp/distcheck/tarbininstall
######################################################################
# Docs
######################################################################
# Just copy the docs to a folder under dist with the appropriate name
# for uploading to S3
dist-docs: docs
$(Q) rm -Rf dist/doc
$(Q) mkdir -p dist/doc/
$(Q) cp -r doc dist/doc/$(CFG_PACKAGE_VERS)
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distcheck-docs: dist-docs
######################################################################
# Primary targets (dist, distcheck)
######################################################################
MAYBE_DIST_TAR_SRC=dist-tar-src
MAYBE_DISTCHECK_TAR_SRC=distcheck-tar-src
# FIXME #13224: On OS X don't produce tarballs simply because --exclude-vcs don't work.
# This is a huge hack because I just don't have time to figure out another solution.
ifeq ($(CFG_OSTYPE), apple-darwin)
MAYBE_DIST_TAR_SRC=
MAYBE_DISTCHECK_TAR_SRC=
endif
# Don't bother with source tarballs on windows just because we historically haven't.
ifeq ($(CFG_OSTYPE), pc-windows-gnu)
MAYBE_DIST_TAR_SRC=
MAYBE_DISTCHECK_TAR_SRC=
endif
ifneq ($(CFG_DISABLE_DOCS),)
MAYBE_DIST_DOCS=
MAYBE_DISTCHECK_DOCS=
else
MAYBE_DIST_DOCS=dist-docs
MAYBE_DISTCHECK_DOCS=distcheck-docs
endif
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dist: $(MAYBE_DIST_TAR_SRC) dist-tar-bins $(MAYBE_DIST_DOCS)
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distcheck: $(MAYBE_DISTCHECK_TAR_SRC) distcheck-tar-bins $(MAYBE_DISTCHECK_DOCS)
$(Q)rm -Rf tmp/distcheck
@echo
@echo -----------------------------------------------
@echo "Rust ready for distribution (see ./dist)"
@echo -----------------------------------------------
.PHONY: dist distcheck