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rust/compiler/rustc_codegen_llvm/src/errors.rs
Augie Fackler af9e55068c debuginfo: add compiler option to allow compressed debuginfo sections 
LLVM already supports emitting compressed debuginfo. In debuginfo=full
builds, the debug section is often a large amount of data, and it
typically compresses very well (3x is not unreasonable.) We add a new
knob to allow debuginfo to be compressed when the matching LLVM
functionality is present. Like clang, if a known-but-disabled
compression mechanism is requested, we disable compression and emit
uncompressed debuginfo sections.

The API is different enough on older LLVMs we just pretend the support
is missing on LLVM older than 16.
2023-09-08 10:45:29 -04:00

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use std::borrow::Cow;
use std::ffi::CString;
use std::path::Path;
use crate::fluent_generated as fluent;
use rustc_data_structures::small_c_str::SmallCStr;
use rustc_errors::{
DiagnosticBuilder, EmissionGuarantee, ErrorGuaranteed, Handler, IntoDiagnostic,
};
use rustc_macros::{Diagnostic, Subdiagnostic};
use rustc_span::Span;
#[derive(Diagnostic)]
#[diag(codegen_llvm_unknown_ctarget_feature_prefix)]
#[note]
pub(crate) struct UnknownCTargetFeaturePrefix<'a> {
pub feature: &'a str,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_unknown_ctarget_feature)]
#[note]
pub(crate) struct UnknownCTargetFeature<'a> {
pub feature: &'a str,
#[subdiagnostic]
pub rust_feature: PossibleFeature<'a>,
}
#[derive(Subdiagnostic)]
pub(crate) enum PossibleFeature<'a> {
#[help(codegen_llvm_possible_feature)]
Some { rust_feature: &'a str },
#[help(codegen_llvm_consider_filing_feature_request)]
None,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_error_creating_import_library)]
pub(crate) struct ErrorCreatingImportLibrary<'a> {
pub lib_name: &'a str,
pub error: String,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_symbol_already_defined)]
pub(crate) struct SymbolAlreadyDefined<'a> {
#[primary_span]
pub span: Span,
pub symbol_name: &'a str,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_invalid_minimum_alignment_not_power_of_two)]
pub(crate) struct InvalidMinimumAlignmentNotPowerOfTwo {
pub align: u64,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_invalid_minimum_alignment_too_large)]
pub(crate) struct InvalidMinimumAlignmentTooLarge {
pub align: u64,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_sanitizer_memtag_requires_mte)]
pub(crate) struct SanitizerMemtagRequiresMte;
#[derive(Diagnostic)]
#[diag(codegen_llvm_error_writing_def_file)]
pub(crate) struct ErrorWritingDEFFile {
pub error: std::io::Error,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_error_calling_dlltool)]
pub(crate) struct ErrorCallingDllTool<'a> {
pub dlltool_path: Cow<'a, str>,
pub error: std::io::Error,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_dlltool_fail_import_library)]
pub(crate) struct DlltoolFailImportLibrary<'a> {
pub dlltool_path: Cow<'a, str>,
pub dlltool_args: String,
pub stdout: Cow<'a, str>,
pub stderr: Cow<'a, str>,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_dynamic_linking_with_lto)]
#[note]
pub(crate) struct DynamicLinkingWithLTO;
pub(crate) struct ParseTargetMachineConfig<'a>(pub LlvmError<'a>);
impl<EM: EmissionGuarantee> IntoDiagnostic<'_, EM> for ParseTargetMachineConfig<'_> {
fn into_diagnostic(self, sess: &'_ Handler) -> DiagnosticBuilder<'_, EM> {
let diag: DiagnosticBuilder<'_, EM> = self.0.into_diagnostic(sess);
let (message, _) = diag.styled_message().first().expect("`LlvmError` with no message");
let message = sess.eagerly_translate_to_string(message.clone(), diag.args());
let mut diag = sess.struct_diagnostic(fluent::codegen_llvm_parse_target_machine_config);
diag.set_arg("error", message);
diag
}
}
pub(crate) struct TargetFeatureDisableOrEnable<'a> {
pub features: &'a [&'a str],
pub span: Option<Span>,
pub missing_features: Option<MissingFeatures>,
}
#[derive(Subdiagnostic)]
#[help(codegen_llvm_missing_features)]
pub(crate) struct MissingFeatures;
impl IntoDiagnostic<'_, ErrorGuaranteed> for TargetFeatureDisableOrEnable<'_> {
fn into_diagnostic(self, sess: &'_ Handler) -> DiagnosticBuilder<'_, ErrorGuaranteed> {
let mut diag = sess.struct_err(fluent::codegen_llvm_target_feature_disable_or_enable);
if let Some(span) = self.span {
diag.set_span(span);
};
if let Some(missing_features) = self.missing_features {
diag.subdiagnostic(missing_features);
}
diag.set_arg("features", self.features.join(", "));
diag
}
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_lto_disallowed)]
pub(crate) struct LtoDisallowed;
#[derive(Diagnostic)]
#[diag(codegen_llvm_lto_dylib)]
pub(crate) struct LtoDylib;
#[derive(Diagnostic)]
#[diag(codegen_llvm_lto_bitcode_from_rlib)]
pub(crate) struct LtoBitcodeFromRlib {
pub llvm_err: String,
}
#[derive(Diagnostic)]
pub enum LlvmError<'a> {
#[diag(codegen_llvm_write_output)]
WriteOutput { path: &'a Path },
#[diag(codegen_llvm_target_machine)]
CreateTargetMachine { triple: SmallCStr },
#[diag(codegen_llvm_run_passes)]
RunLlvmPasses,
#[diag(codegen_llvm_serialize_module)]
SerializeModule { name: &'a str },
#[diag(codegen_llvm_write_ir)]
WriteIr { path: &'a Path },
#[diag(codegen_llvm_prepare_thin_lto_context)]
PrepareThinLtoContext,
#[diag(codegen_llvm_load_bitcode)]
LoadBitcode { name: CString },
#[diag(codegen_llvm_write_thinlto_key)]
WriteThinLtoKey { err: std::io::Error },
#[diag(codegen_llvm_multiple_source_dicompileunit)]
MultipleSourceDiCompileUnit,
#[diag(codegen_llvm_prepare_thin_lto_module)]
PrepareThinLtoModule,
#[diag(codegen_llvm_parse_bitcode)]
ParseBitcode,
}
pub(crate) struct WithLlvmError<'a>(pub LlvmError<'a>, pub String);
impl<EM: EmissionGuarantee> IntoDiagnostic<'_, EM> for WithLlvmError<'_> {
fn into_diagnostic(self, sess: &'_ Handler) -> DiagnosticBuilder<'_, EM> {
use LlvmError::*;
let msg_with_llvm_err = match &self.0 {
WriteOutput { .. } => fluent::codegen_llvm_write_output_with_llvm_err,
CreateTargetMachine { .. } => fluent::codegen_llvm_target_machine_with_llvm_err,
RunLlvmPasses => fluent::codegen_llvm_run_passes_with_llvm_err,
SerializeModule { .. } => fluent::codegen_llvm_serialize_module_with_llvm_err,
WriteIr { .. } => fluent::codegen_llvm_write_ir_with_llvm_err,
PrepareThinLtoContext => fluent::codegen_llvm_prepare_thin_lto_context_with_llvm_err,
LoadBitcode { .. } => fluent::codegen_llvm_load_bitcode_with_llvm_err,
WriteThinLtoKey { .. } => fluent::codegen_llvm_write_thinlto_key_with_llvm_err,
MultipleSourceDiCompileUnit => {
fluent::codegen_llvm_multiple_source_dicompileunit_with_llvm_err
}
PrepareThinLtoModule => fluent::codegen_llvm_prepare_thin_lto_module_with_llvm_err,
ParseBitcode => fluent::codegen_llvm_parse_bitcode_with_llvm_err,
};
let mut diag = self.0.into_diagnostic(sess);
diag.set_primary_message(msg_with_llvm_err);
diag.set_arg("llvm_err", self.1);
diag
}
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_from_llvm_optimization_diag)]
pub(crate) struct FromLlvmOptimizationDiag<'a> {
pub filename: &'a str,
pub line: std::ffi::c_uint,
pub column: std::ffi::c_uint,
pub pass_name: &'a str,
pub kind: &'a str,
pub message: &'a str,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_from_llvm_diag)]
pub(crate) struct FromLlvmDiag {
pub message: String,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_write_bytecode)]
pub(crate) struct WriteBytecode<'a> {
pub path: &'a Path,
pub err: std::io::Error,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_copy_bitcode)]
pub(crate) struct CopyBitcode {
pub err: std::io::Error,
}
#[derive(Diagnostic)]
#[diag(codegen_llvm_unknown_debuginfo_compression)]
pub struct UnknownCompression {
pub algorithm: &'static str,
}
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