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02538d463a
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 `$target/stage0` as we do today. One problem of bootstrapping from stable releases is that we're not able to compile unstable code (e.g. all the `#![feature]` directives in libcore/libstd). To overcome this we employ two strategies: * The bootstrap key of the previous compiler is hardcoded into `src/stage0.txt` (enabled as a result of #32731) and exported by the build system. This enables nightly features in the compiler we download. * The standard library and compiler are pinned to a specific stage0, which doesn't change, so we're guaranteed that we'll continue compiling as we start from a known fixed source. The process for making a release will also need to be tweaked now to continue to cadence of bootstrapping from the previous release. This process looks like: 1. Merge `beta` to `stable` 2. Produce a new stable compiler. 3. Change `master` to bootstrap from this new stable compiler. 4. Merge `master` to `beta` 5. Produce a new beta compiler 6. Change `master` to bootstrap from this new beta compiler. Step 3 above should involve very few changes as `master` was previously bootstrapping from `beta` which is the same as `stable` at that point in time. Step 6, however, is where we benefit from removing lots of `#[cfg(stage0)]` and get to use new features. This also shouldn't slow the release too much as steps 1-5 requires little work other than waiting and step 6 just needs to happen at some point during a release cycle, it's not time sensitive. Closes #29555 Closes #29557
49 lines
1.3 KiB
Makefile
49 lines
1.3 KiB
Makefile
# Extract the snapshot host compiler
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$(HBIN0_H_$(CFG_BUILD))/:
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mkdir -p $@
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# On windows these two are the same, so cause a redifinition warning
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ifneq ($(HBIN0_H_$(CFG_BUILD)),$(HLIB0_H_$(CFG_BUILD)))
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$(HLIB0_H_$(CFG_BUILD))/:
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mkdir -p $@
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endif
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$(SNAPSHOT_RUSTC_POST_CLEANUP): \
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$(S)src/stage0.txt \
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$(S)src/etc/get-stage0.py $(MKFILE_DEPS) \
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| $(HBIN0_H_$(CFG_BUILD))/
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@$(call E, fetch: $@)
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ifdef CFG_ENABLE_LOCAL_RUST
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$(Q)$(S)src/etc/local_stage0.sh $(CFG_BUILD) $(CFG_LOCAL_RUST_ROOT) rustlib
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else
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$(Q)$(CFG_PYTHON) $(S)src/etc/get-stage0.py $(CFG_BUILD)
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endif
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$(Q)if [ -e "$@" ]; then touch "$@"; else echo "ERROR: snapshot $@ not found"; exit 1; fi
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# For other targets, let the host build the target:
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define BOOTSTRAP_STAGE0
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# $(1) target to bootstrap
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# $(2) stage to bootstrap from
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# $(3) target to bootstrap from
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$(HBIN0_H_$(1))/:
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mkdir -p $@
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$(HLIB0_H_$(1))/:
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mkdir -p $@
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$$(HBIN0_H_$(1))/rustc$$(X_$(1)): \
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$$(TBIN$(2)_T_$(1)_H_$(3))/rustc$$(X_$(1)) \
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| $(HBIN0_H_$(1))/
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@$$(call E, cp: $$@)
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$$(Q)cp $$< $$@
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endef
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# Use stage1 to build other architectures: then you don't have to wait
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# for stage2, but you get the latest updates to the compiler source.
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$(foreach t,$(NON_BUILD_HOST), \
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$(eval $(call BOOTSTRAP_STAGE0,$(t),1,$(CFG_BUILD))))
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