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tests: add sanity-check assembly test for every target #118708
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r=me |
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@bors r=Mark-Simulacrum Rebased after some new targets were added but otherwise no meaningful changes. |
@bors rollup |
…t, r=Mark-Simulacrum tests: add sanity-check assembly test for every target Adds a basic assembly test checking that each target can produce assembly and update the target tier policy to require this. cc rust-lang/compiler-team#655 r? `@wesleywiser`
…iaskrgr Rollup of 6 pull requests Successful merges: - rust-lang#118647 (dump bootstrap shims) - rust-lang#118708 (tests: add sanity-check assembly test for every target) - rust-lang#118797 (End locals' live range before suspending coroutine) - rust-lang#118818 (llvm-wrapper: adapt for LLVM API change) - rust-lang#118826 (Edit target doc template to remove email) - rust-lang#118827 (Update table for linker-plugin-lto docs) r? `@ghost` `@rustbot` modify labels: rollup
…t, r=Mark-Simulacrum tests: add sanity-check assembly test for every target Adds a basic assembly test checking that each target can produce assembly and update the target tier policy to require this. cc rust-lang/compiler-team#655 r? ``@wesleywiser``
…t, r=Mark-Simulacrum tests: add sanity-check assembly test for every target Adds a basic assembly test checking that each target can produce assembly and update the target tier policy to require this. cc rust-lang/compiler-team#655 r? ```@wesleywiser```
…iaskrgr Rollup of 6 pull requests Successful merges: - rust-lang#118647 (dump bootstrap shims) - rust-lang#118708 (tests: add sanity-check assembly test for every target) - rust-lang#118818 (llvm-wrapper: adapt for LLVM API change) - rust-lang#118826 (Edit target doc template to remove email) - rust-lang#118827 (Update table for linker-plugin-lto docs) - rust-lang#118835 (Fix again `rustc_codegen_gcc` tests) r? `@ghost` `@rustbot` modify labels: rollup
@bors r- rollup=iffy |
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There have been no meaningful changes since last approval, just updating the test being added with targets that have been added recently. @bors=wesleywiser |
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💔 Test failed - checks-actions |
Adds a basic assembly test checking that each target can produce assembly and update the target tier policy to require this. Signed-off-by: David Wood <[email protected]>
In LLVM 17, PowerPC targets started including function pointer alignments in data layouts, and in Rust's update to that version (rust-lang#114048), we added the function pointer alignments. `powerpc64-unknown-linux-musl` had `Fi64` set but this seems incorrect, and the code in LLVM would always have computed `Fn32` because it is a MUSL target. Signed-off-by: David Wood <[email protected]>
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So the error for incompatible data layouts doesn't happen locally because of.. rust/src/bootstrap/src/core/build_steps/compile.rs Lines 1113 to 1115 in 16f4b02
..which prevents the ICE... rust/compiler/rustc_codegen_llvm/src/context.rs Lines 159 to 177 in 16f4b02
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@bors r=Mark-Simulacrum |
Don't skip the inconsistent data layout check for custom LLVMs. With rust-lang#118708, all targets will have a simple test that would trigger this check if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this check won't trigger with our LLVM because each target will have been confirmed to work. With non-builtin targets, this check is probably useful to have because you can change the data layout in your target and if its wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. Signed-off-by: David Wood <[email protected]>
Don't skip the inconsistent data layout check for custom LLVMs. With rust-lang#118708, all targets will have a simple test that would trigger this check if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this check won't trigger with our LLVM because each target will have been confirmed to work. With non-builtin targets, this check is probably useful to have because you can change the data layout in your target and if its wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. Signed-off-by: David Wood <[email protected]>
☀️ Test successful - checks-actions |
Finished benchmarking commit (6ae4cfb): comparison URL. Overall result: no relevant changes - no action needed@rustbot label: -perf-regression Instruction countThis benchmark run did not return any relevant results for this metric. Max RSS (memory usage)ResultsThis is a less reliable metric that may be of interest but was not used to determine the overall result at the top of this comment.
CyclesResultsThis is a less reliable metric that may be of interest but was not used to determine the overall result at the top of this comment.
Binary sizeThis benchmark run did not return any relevant results for this metric. Bootstrap: 664.091s -> 663.454s (-0.10%) |
Don't skip the inconsistent data layout check for custom LLVMs. With rust-lang#118708, all targets will have a simple test that would trigger this check if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this check won't trigger with our LLVM because each target will have been confirmed to work. With non-builtin targets, this check is probably useful to have because you can change the data layout in your target and if its wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. Signed-off-by: David Wood <[email protected]>
…r=wesleywiser llvm: change data layout bug to an error and make it trigger more Fixes rust-lang#33446. Don't skip the inconsistent data layout check for custom LLVMs or non-built-in targets. With rust-lang#118708, all targets will have a simple test that would trigger this error if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this error won't happen with our LLVM because each target will have been confirmed to work. With non-builtin targets, this error is probably useful to have because you can change the data layout in your target and if it is wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. I'm not sure if this is something that people do and is okay, but I doubt it? `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. In rust-lang#33446, two points are raised: - In the issue itself, changing this from a `bug!` to a proper error is what is suggested, by using `isCompatibleDataLayout` from LLVM, but that function still just does the same thing that we do and check for equality, so I've avoided the additional code necessary to do that FFI call. - `@Mark-Simulacrum` suggests a different check is necessary to maintain backwards compatibility with old LLVM versions. I don't know how often this comes up, but we can do that with some simple string manipulation + LLVM version checks as happens already for LLVM 17 just above this diff.
…r=wesleywiser llvm: change data layout bug to an error and make it trigger more Fixes rust-lang#33446. Don't skip the inconsistent data layout check for custom LLVMs or non-built-in targets. With rust-lang#118708, all targets will have a simple test that would trigger this error if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this error won't happen with our LLVM because each target will have been confirmed to work. With non-builtin targets, this error is probably useful to have because you can change the data layout in your target and if it is wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. I'm not sure if this is something that people do and is okay, but I doubt it? `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. In rust-lang#33446, two points are raised: - In the issue itself, changing this from a `bug!` to a proper error is what is suggested, by using `isCompatibleDataLayout` from LLVM, but that function still just does the same thing that we do and check for equality, so I've avoided the additional code necessary to do that FFI call. - ``@Mark-Simulacrum`` suggests a different check is necessary to maintain backwards compatibility with old LLVM versions. I don't know how often this comes up, but we can do that with some simple string manipulation + LLVM version checks as happens already for LLVM 17 just above this diff.
…r=wesleywiser llvm: change data layout bug to an error and make it trigger more Fixes rust-lang#33446. Don't skip the inconsistent data layout check for custom LLVMs or non-built-in targets. With rust-lang#118708, all targets will have a simple test that would trigger this error if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this error won't happen with our LLVM because each target will have been confirmed to work. With non-builtin targets, this error is probably useful to have because you can change the data layout in your target and if it is wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. I'm not sure if this is something that people do and is okay, but I doubt it? `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. In rust-lang#33446, two points are raised: - In the issue itself, changing this from a `bug!` to a proper error is what is suggested, by using `isCompatibleDataLayout` from LLVM, but that function still just does the same thing that we do and check for equality, so I've avoided the additional code necessary to do that FFI call. - ```@Mark-Simulacrum``` suggests a different check is necessary to maintain backwards compatibility with old LLVM versions. I don't know how often this comes up, but we can do that with some simple string manipulation + LLVM version checks as happens already for LLVM 17 just above this diff.
…r=wesleywiser llvm: change data layout bug to an error and make it trigger more Fixes rust-lang#33446. Don't skip the inconsistent data layout check for custom LLVMs or non-built-in targets. With rust-lang#118708, all targets will have a simple test that would trigger this error if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this error won't happen with our LLVM because each target will have been confirmed to work. With non-builtin targets, this error is probably useful to have because you can change the data layout in your target and if it is wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. I'm not sure if this is something that people do and is okay, but I doubt it? `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. In rust-lang#33446, two points are raised: - In the issue itself, changing this from a `bug!` to a proper error is what is suggested, by using `isCompatibleDataLayout` from LLVM, but that function still just does the same thing that we do and check for equality, so I've avoided the additional code necessary to do that FFI call. - ````@Mark-Simulacrum```` suggests a different check is necessary to maintain backwards compatibility with old LLVM versions. I don't know how often this comes up, but we can do that with some simple string manipulation + LLVM version checks as happens already for LLVM 17 just above this diff.
…wesleywiser llvm: change data layout bug to an error and make it trigger more Fixes rust-lang#33446. Don't skip the inconsistent data layout check for custom LLVMs or non-built-in targets. With rust-lang#118708, all targets will have a simple test that would trigger this error if LLVM's data layouts do change - so data layouts would be corrected during the LLVM upgrade. Therefore, with builtin targets, this error won't happen with our LLVM because each target will have been confirmed to work. With non-builtin targets, this error is probably useful to have because you can change the data layout in your target and if it is wrong then that could lead to bugs. When using a custom LLVM, the same justification makes sense for non-builtin targets as with our LLVM, the user can update their target to match their LLVM and that's probably a good thing to do. However, with a custom LLVM, the user cannot change the builtin target data layouts if they don't match - though given that the compiler's data layout is used for layout computation and a bunch of other things - you could get some bugs because of the mismatch and probably want to know about that. I'm not sure if this is something that people do and is okay, but I doubt it? `CFG_LLVM_ROOT` was also always set during local development with `download-ci-llvm` so this bug would never trigger locally. In rust-lang#33446, two points are raised: - In the issue itself, changing this from a `bug!` to a proper error is what is suggested, by using `isCompatibleDataLayout` from LLVM, but that function still just does the same thing that we do and check for equality, so I've avoided the additional code necessary to do that FFI call. - `@Mark-Simulacrum` suggests a different check is necessary to maintain backwards compatibility with old LLVM versions. I don't know how often this comes up, but we can do that with some simple string manipulation + LLVM version checks as happens already for LLVM 17 just above this diff.
Fixes #119910.
Adds a basic assembly test checking that each target can produce assembly and update the target tier policy to require this.
cc rust-lang/compiler-team#655
r? @wesleywiser