Add support for __declspec(code_seg("segname"))

Add support for __declspec(code_seg("segname"))

This patch is built on the existing support for #pragma code_seg. The code_seg
declspec is allowed on functions and classes. The attribute enables the
placement of code into separate named segments, including compiler-generated
members and template instantiations.

For more information, please see the following:
https://msdn.microsoft.com/en-us/library/dn636922.aspx

A new CodeSeg attribute is used instead of adding a new spelling to the existing
Section attribute since they don’t apply to the same Subjects. Section
attributes are also added for the code_seg declspec since they are used for
#pragma code_seg. No CodeSeg attributes are added to the AST.

The patch is written to match with the Microsoft compiler’s behavior even where
that behavior is a little complicated (see https://reviews.llvm.org/D22931, the
Microsoft feedback page is no longer available since MS has removed the page).
That code is in getImplicitSectionAttrFromClass routine.

Diagnostics messages are added to match with the Microsoft compiler for code-seg
attribute mismatches on base and derived classes and virtual overrides.


Differential Revision: https://reviews.llvm.org/D43352

llvm-svn: 332470
This commit is contained in:
Erich Keane 2018-05-16 13:57:17 +00:00
parent 091069c91e
commit 64144eb194
8 changed files with 175 additions and 13 deletions

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@ -1769,6 +1769,13 @@ def Section : InheritableAttr {
let Documentation = [SectionDocs];
}
def CodeSeg : InheritableAttr {
let Spellings = [Declspec<"code_seg">];
let Args = [StringArgument<"Name">];
let Subjects = SubjectList<[Function, CXXRecord], ErrorDiag>;
let Documentation = [CodeSegDocs];
}
def PragmaClangBSSSection : InheritableAttr {
// This attribute has no spellings as it is only ever created implicitly.
let Spellings = [];

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@ -306,6 +306,18 @@ An example of how to use ``alloc_size``
}];
}
def CodeSegDocs : Documentation {
let Category = DocCatFunction;
let Content = [{
The ``__declspec(code_seg)`` attribute enables the placement of code into separate
named segments that can be paged or locked in memory individually. This attribute
is used to control the placement of instantiated templates and compiler-generated
code. See the documentation for `__declspec(code_seg)`_ on MSDN.
.. _`__declspec(code_seg)`: http://msdn.microsoft.com/en-us/library/dn636922.aspx
}];
}
def AllocAlignDocs : Documentation {
let Category = DocCatFunction;
let Content = [{

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@ -2668,6 +2668,14 @@ def warn_mismatched_section : Warning<
def warn_attribute_section_on_redeclaration : Warning<
"section attribute is specified on redeclared variable">, InGroup<Section>;
def err_mismatched_code_seg_base : Error<
"derived class must specify the same code segment as its base classes">;
def err_mismatched_code_seg_override : Error<
"overriding virtual function must specify the same code segment as its overridden function">;
def err_conflicting_codeseg_attribute : Error<
"conflicting code segment specifiers">;
def warn_duplicate_codeseg_attribute : Warning<
"duplicate code segment specifiers">, InGroup<Section>;
def err_anonymous_property: Error<
"anonymous property is not supported">;
def err_property_is_variably_modified : Error<

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@ -1934,6 +1934,7 @@ public:
bool shouldLinkDependentDeclWithPrevious(Decl *D, Decl *OldDecl);
void CheckMain(FunctionDecl *FD, const DeclSpec &D);
void CheckMSVCRTEntryPoint(FunctionDecl *FD);
Attr *getImplicitSectionAttrForFunction(const FunctionDecl *FD, bool IsDefinition = true);
Decl *ActOnParamDeclarator(Scope *S, Declarator &D);
ParmVarDecl *BuildParmVarDeclForTypedef(DeclContext *DC,
SourceLocation Loc,
@ -5836,6 +5837,7 @@ public:
/// ensure that referenceDLLExportedClassMethods is called some point later
/// when all outer classes of Class are complete.
void checkClassLevelDLLAttribute(CXXRecordDecl *Class);
void checkClassLevelSectionAttribute(CXXRecordDecl *Class);
void referenceDLLExportedClassMethods();

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@ -2667,9 +2667,14 @@ void Sema::mergeDeclAttributes(NamedDecl *New, Decl *Old,
Diag(New->getLocation(), diag::warn_attribute_section_on_redeclaration);
Diag(Old->getLocation(), diag::note_previous_declaration);
}
} else if (isa<CXXMethodDecl>(New)) {
const auto *NewSA = New->getAttr<SectionAttr>();
if (!NewSA->isImplicit()) {
Diag(New->getLocation(), diag::warn_mismatched_section);
Diag(Old->getLocation(), diag::note_previous_declaration);
}
}
}
if (!Old->hasAttrs())
return;
@ -8716,18 +8721,18 @@ Sema::ActOnFunctionDeclarator(Scope *S, Declarator &D, DeclContext *DC,
PragmaClangTextSection.PragmaLocation));
}
// Apply an implicit SectionAttr if #pragma code_seg is active.
if (CodeSegStack.CurrentValue && D.isFunctionDefinition() &&
!NewFD->hasAttr<SectionAttr>()) {
NewFD->addAttr(
SectionAttr::CreateImplicit(Context, SectionAttr::Declspec_allocate,
CodeSegStack.CurrentValue->getString(),
CodeSegStack.CurrentPragmaLocation));
if (UnifySection(CodeSegStack.CurrentValue->getString(),
ASTContext::PSF_Implicit | ASTContext::PSF_Execute |
ASTContext::PSF_Read,
NewFD))
NewFD->dropAttr<SectionAttr>();
// Apply an implicit SectionAttr from class declspec or from
// #pragma code_seg if active.
if (!NewFD->hasAttr<SectionAttr>()) {
if (Attr *SAttr = getImplicitSectionAttrForFunction(NewFD,
D.isFunctionDefinition())) {
NewFD->addAttr(SAttr);
if (UnifySection(cast<SectionAttr>(SAttr)->getName(),
ASTContext::PSF_Implicit | ASTContext::PSF_Execute |
ASTContext::PSF_Read,
NewFD))
NewFD->dropAttr<SectionAttr>();
}
}
// Handle attributes.
@ -9177,6 +9182,64 @@ Sema::ActOnFunctionDeclarator(Scope *S, Declarator &D, DeclContext *DC,
return NewFD;
}
/// Return a SectionAttr from a containing class. The Microsoft docs say
/// when __declspec(code_seg) "is applied to a class, all member functions of
/// the class and nested classes -- this includes compiler-generated special
/// member functions -- are put in the specified segment."
/// The actual behavior is a little more complicated. The Microsoft compiler
/// won't check outer classes if there is an active value from #pragma code_seg.
/// The section is always applied from the direct parent but only from outer
/// classes when the #pragma code_seg stack is empty. See:
/// https://reviews.llvm.org/D22931, the Microsoft feedback page is no longer
/// available since MS has removed the page.
static Attr *getImplicitSectionAttrFromClass(Sema &S, const FunctionDecl *FD) {
const auto *Method = dyn_cast<CXXMethodDecl>(FD);
if (!Method)
return nullptr;
const CXXRecordDecl *Parent = Method->getParent();
if (const auto *SAttr = Parent->getAttr<SectionAttr>()) {
Attr *NewAttr = SAttr->clone(S.getASTContext());
NewAttr->setImplicit(true);
return NewAttr;
}
// The Microsoft compiler won't check outer classes for the section
// when the #pragma code_seg stack is active.
if (S.CodeSegStack.CurrentValue)
return nullptr;
while ((Parent = dyn_cast<CXXRecordDecl>(Parent->getParent()))) {
if (const auto *SAttr = Parent->getAttr<SectionAttr>()) {
Attr *NewAttr = SAttr->clone(S.getASTContext());
NewAttr->setImplicit(true);
return NewAttr;
}
}
return nullptr;
}
/// \brief Returns an implicit SectionAttr for a function.
///
/// \param FD Function being declared.
/// \param IsDefinition Whether it is a definition or just a declarartion.
/// \returns A SectionAttr to apply to the function or nullptr if no
/// attribute should be added.
///
/// First tries to find a SectionAttr on a containing class (from
/// a __declspec(code_seg)). If not found on the class, and if the function is
/// also a definition it will use the current #pragma code_seg value.
Attr *Sema::getImplicitSectionAttrForFunction(const FunctionDecl *FD, bool IsDefinition) {
if (Attr *A = getImplicitSectionAttrFromClass(*this, FD))
return A;
if (IsDefinition && CodeSegStack.CurrentValue) {
return SectionAttr::CreateImplicit(getASTContext(),
SectionAttr::Declspec_allocate,
CodeSegStack.CurrentValue->getString(),
CodeSegStack.CurrentPragmaLocation);
}
return nullptr;
}
/// Checks if the new declaration declared in dependent context must be
/// put in the same redeclaration chain as the specified declaration.
///

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@ -2853,6 +2853,13 @@ static void handleVecTypeHint(Sema &S, Decl *D, const AttributeList &AL) {
SectionAttr *Sema::mergeSectionAttr(Decl *D, SourceRange Range,
StringRef Name,
unsigned AttrSpellingListIndex) {
// Explicit or partial specializations do not inherit
// the code_seg attribute from the primary template.
if (const auto *FD = dyn_cast<FunctionDecl>(D)){
if (FD->isFunctionTemplateSpecialization())
return nullptr;
}
if (SectionAttr *ExistingAttr = D->getAttr<SectionAttr>()) {
if (ExistingAttr->getName() == Name)
return nullptr;
@ -2942,6 +2949,27 @@ static void handleTargetAttr(Sema &S, Decl *D, const AttributeList &AL) {
D->addAttr(NewAttr);
}
static void handleCodeSegAttr(Sema &S, Decl *D, const AttributeList &AL) {
StringRef Str;
SourceLocation LiteralLoc;
if (!S.checkStringLiteralArgumentAttr(AL, 0, Str, &LiteralLoc))
return;
if (!S.checkSectionName(LiteralLoc, Str))
return;
if (const auto *ExistingAttr = D->getAttr<SectionAttr>()) {
if (!ExistingAttr->isImplicit()) {
S.Diag(AL.getLoc(),
ExistingAttr->getName() == Str
? diag::warn_duplicate_codeseg_attribute
: diag::err_conflicting_codeseg_attribute);
return;
}
D->dropAttr<SectionAttr>();
}
D->addAttr(::new (S.Context) SectionAttr(
AL.getRange(), S.Context, Str, AL.getAttributeSpellingListIndex()));
}
static void handleCleanupAttr(Sema &S, Decl *D, const AttributeList &AL) {
Expr *E = AL.getArgAsExpr(0);
SourceLocation Loc = E->getExprLoc();
@ -6297,6 +6325,9 @@ static void ProcessDeclAttribute(Sema &S, Scope *scope, Decl *D,
case AttributeList::AT_Uuid:
handleUuidAttr(S, D, AL);
break;
case AttributeList::AT_CodeSeg:
handleCodeSegAttr(S, D, AL);
break;
case AttributeList::AT_MSInheritance:
handleMSInheritanceAttr(S, D, AL);
break;

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@ -2231,6 +2231,20 @@ Sema::CheckBaseSpecifier(CXXRecordDecl *Class,
CXXRecordDecl *CXXBaseDecl = cast<CXXRecordDecl>(BaseDecl);
assert(CXXBaseDecl && "Base type is not a C++ type");
// Microsoft docs say:
// "If a base-class has a code_seg attribute, derived classes must have the
// same attribute."
const auto *BaseSA = CXXBaseDecl->getAttr<SectionAttr>();
const auto *DerivedSA = Class->getAttr<SectionAttr>();
if (BaseSA || DerivedSA) {
if (!BaseSA || !DerivedSA || BaseSA->getName() != DerivedSA->getName()) {
Diag(Class->getLocation(), diag::err_mismatched_code_seg_base);
Diag(CXXBaseDecl->getLocation(), diag::note_base_class_specified_here)
<< CXXBaseDecl;
return nullptr;
}
}
// A class which contains a flexible array member is not suitable for use as a
// base class:
// - If the layout determines that a base comes before another base,
@ -5576,6 +5590,16 @@ static void checkForMultipleExportedDefaultConstructors(Sema &S,
}
}
void Sema::checkClassLevelSectionAttribute(CXXRecordDecl *Class) {
// Mark any compiler-generated routines with the implicit Section attribute.
for (auto *Method : Class->methods()) {
if (Method->isUserProvided())
continue;
if (Attr *A = getImplicitSectionAttrForFunction(Method))
Method->addAttr(A);
}
}
/// Check class-level dllimport/dllexport attribute.
void Sema::checkClassLevelDLLAttribute(CXXRecordDecl *Class) {
Attr *ClassAttr = getDLLAttr(Class);
@ -6079,6 +6103,7 @@ void Sema::CheckCompletedCXXClass(CXXRecordDecl *Record) {
}
checkClassLevelDLLAttribute(Record);
checkClassLevelSectionAttribute(Record);
bool ClangABICompat4 =
Context.getLangOpts().getClangABICompat() <= LangOptions::ClangABI::Ver4;
@ -14531,6 +14556,16 @@ bool Sema::CheckOverridingFunctionAttributes(const CXXMethodDecl *New,
diag::note_overridden_marked_noescape);
}
}
// Virtual overrides must have the same code_seg.
const auto *OldSA = Old->getAttr<SectionAttr>();
const auto *NewSA = New->getAttr<SectionAttr>();
if (OldSA || NewSA) {
if (!OldSA || !NewSA || NewSA->getName() != OldSA->getName()) {
Diag(New->getLocation(), diag::err_mismatched_code_seg_override);
Diag(Old->getLocation(), diag::note_previous_declaration);
return true;
}
}
CallingConv NewCC = NewFT->getCallConv(), OldCC = OldFT->getCallConv();

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@ -910,6 +910,10 @@ void Sema::ActOnStartOfLambdaDefinition(LambdaIntroducer &Intro,
AddRangeBasedOptnone(Method);
// Attributes on the lambda apply to the method.
if (Attr *A = getImplicitSectionAttrForFunction(Method))
Method->addAttr(A);
// Attributes on the lambda apply to the method.
ProcessDeclAttributes(CurScope, Method, ParamInfo);
// CUDA lambdas get implicit attributes based on the scope in which they're