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rust/compiler/rustc_codegen_llvm/src/llvm/diagnostic.rs
Hugues de Valon d255d70e7a Update LLVM and add Unsupported diagnostic 
Secure entry functions do not support if arguments are passed on the
stack. An "unsupported" diagnostic will be emitted by LLVM if that is
the case.
This commits adds support in Rust for that diagnostic so that an error
will be output if that is the case!

Signed-off-by: Hugues de Valon <hugues.devalon@arm.com>
2020-09-30 14:57:37 +01:00

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//! LLVM diagnostic reports.
pub use self::Diagnostic::*;
pub use self::OptimizationDiagnosticKind::*;
use crate::value::Value;
use libc::c_uint;
use super::{DiagnosticInfo, Twine};
#[derive(Copy, Clone)]
pub enum OptimizationDiagnosticKind {
OptimizationRemark,
OptimizationMissed,
OptimizationAnalysis,
OptimizationAnalysisFPCommute,
OptimizationAnalysisAliasing,
OptimizationFailure,
OptimizationRemarkOther,
}
impl OptimizationDiagnosticKind {
pub fn describe(self) -> &'static str {
match self {
OptimizationRemark | OptimizationRemarkOther => "remark",
OptimizationMissed => "missed",
OptimizationAnalysis => "analysis",
OptimizationAnalysisFPCommute => "floating-point",
OptimizationAnalysisAliasing => "aliasing",
OptimizationFailure => "failure",
}
}
}
pub struct OptimizationDiagnostic<'ll> {
pub kind: OptimizationDiagnosticKind,
pub pass_name: String,
pub function: &'ll Value,
pub line: c_uint,
pub column: c_uint,
pub filename: String,
pub message: String,
}
impl OptimizationDiagnostic<'ll> {
unsafe fn unpack(kind: OptimizationDiagnosticKind, di: &'ll DiagnosticInfo) -> Self {
let mut function = None;
let mut line = 0;
let mut column = 0;
let mut message = None;
let mut filename = None;
let pass_name = super::build_string(|pass_name| {
message = super::build_string(|message| {
filename = super::build_string(|filename| {
super::LLVMRustUnpackOptimizationDiagnostic(
di,
pass_name,
&mut function,
&mut line,
&mut column,
filename,
message,
)
})
.ok()
})
.ok()
})
.ok();
let mut filename = filename.unwrap_or_default();
if filename.is_empty() {
filename.push_str("<unknown file>");
}
OptimizationDiagnostic {
kind,
pass_name: pass_name.expect("got a non-UTF8 pass name from LLVM"),
function: function.unwrap(),
line,
column,
filename,
message: message.expect("got a non-UTF8 OptimizationDiagnostic message from LLVM"),
}
}
}
#[derive(Copy, Clone)]
pub struct InlineAsmDiagnostic<'ll> {
pub level: super::DiagnosticLevel,
pub cookie: c_uint,
pub message: &'ll Twine,
pub instruction: Option<&'ll Value>,
}
impl InlineAsmDiagnostic<'ll> {
unsafe fn unpack(di: &'ll DiagnosticInfo) -> Self {
let mut cookie = 0;
let mut message = None;
let mut instruction = None;
let mut level = super::DiagnosticLevel::Error;
super::LLVMRustUnpackInlineAsmDiagnostic(
di,
&mut level,
&mut cookie,
&mut message,
&mut instruction,
);
InlineAsmDiagnostic { level, cookie, message: message.unwrap(), instruction }
}
}
pub enum Diagnostic<'ll> {
Optimization(OptimizationDiagnostic<'ll>),
InlineAsm(InlineAsmDiagnostic<'ll>),
PGO(&'ll DiagnosticInfo),
Linker(&'ll DiagnosticInfo),
Unsupported(&'ll DiagnosticInfo),
/// LLVM has other types that we do not wrap here.
UnknownDiagnostic(&'ll DiagnosticInfo),
}
impl Diagnostic<'ll> {
pub unsafe fn unpack(di: &'ll DiagnosticInfo) -> Self {
use super::DiagnosticKind as Dk;
let kind = super::LLVMRustGetDiagInfoKind(di);
match kind {
Dk::InlineAsm => InlineAsm(InlineAsmDiagnostic::unpack(di)),
Dk::OptimizationRemark => {
Optimization(OptimizationDiagnostic::unpack(OptimizationRemark, di))
}
Dk::OptimizationRemarkOther => {
Optimization(OptimizationDiagnostic::unpack(OptimizationRemarkOther, di))
}
Dk::OptimizationRemarkMissed => {
Optimization(OptimizationDiagnostic::unpack(OptimizationMissed, di))
}
Dk::OptimizationRemarkAnalysis => {
Optimization(OptimizationDiagnostic::unpack(OptimizationAnalysis, di))
}
Dk::OptimizationRemarkAnalysisFPCommute => {
Optimization(OptimizationDiagnostic::unpack(OptimizationAnalysisFPCommute, di))
}
Dk::OptimizationRemarkAnalysisAliasing => {
Optimization(OptimizationDiagnostic::unpack(OptimizationAnalysisAliasing, di))
}
Dk::OptimizationFailure => {
Optimization(OptimizationDiagnostic::unpack(OptimizationFailure, di))
}
Dk::PGOProfile => PGO(di),
Dk::Linker => Linker(di),
Dk::Unsupported => Unsupported(di),
_ => UnknownDiagnostic(di),
}
}
}
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