xref: /freebsd/contrib/llvm-project/clang/lib/CodeGen/Targets/AVR.cpp (revision 5fb307d29b364982acbde82cbf77db3cae486f8c)
1 //===- AVR.cpp ------------------------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "ABIInfoImpl.h"
10 #include "TargetInfo.h"
11 #include "clang/Basic/DiagnosticFrontend.h"
12 
13 using namespace clang;
14 using namespace clang::CodeGen;
15 
16 //===----------------------------------------------------------------------===//
17 // AVR ABI Implementation. Documented at
18 // https://gcc.gnu.org/wiki/avr-gcc#Calling_Convention
19 // https://gcc.gnu.org/wiki/avr-gcc#Reduced_Tiny
20 //===----------------------------------------------------------------------===//
21 
22 namespace {
23 class AVRABIInfo : public DefaultABIInfo {
24 private:
25   // The total amount of registers can be used to pass parameters. It is 18 on
26   // AVR, or 6 on AVRTiny.
27   const unsigned ParamRegs;
28   // The total amount of registers can be used to pass return value. It is 8 on
29   // AVR, or 4 on AVRTiny.
30   const unsigned RetRegs;
31 
32 public:
33   AVRABIInfo(CodeGenTypes &CGT, unsigned NPR, unsigned NRR)
34       : DefaultABIInfo(CGT), ParamRegs(NPR), RetRegs(NRR) {}
35 
36   ABIArgInfo classifyReturnType(QualType Ty, bool &LargeRet) const {
37     // On AVR, a return struct with size less than or equals to 8 bytes is
38     // returned directly via registers R18-R25. On AVRTiny, a return struct
39     // with size less than or equals to 4 bytes is returned directly via
40     // registers R22-R25.
41     if (isAggregateTypeForABI(Ty) &&
42         getContext().getTypeSize(Ty) <= RetRegs * 8)
43       return ABIArgInfo::getDirect();
44     // A return value (struct or scalar) with larger size is returned via a
45     // stack slot, along with a pointer as the function's implicit argument.
46     if (getContext().getTypeSize(Ty) > RetRegs * 8) {
47       LargeRet = true;
48       return getNaturalAlignIndirect(Ty);
49     }
50     // An i8 return value should not be extended to i16, since AVR has 8-bit
51     // registers.
52     if (Ty->isIntegralOrEnumerationType() && getContext().getTypeSize(Ty) <= 8)
53       return ABIArgInfo::getDirect();
54     // Otherwise we follow the default way which is compatible.
55     return DefaultABIInfo::classifyReturnType(Ty);
56   }
57 
58   ABIArgInfo classifyArgumentType(QualType Ty, unsigned &NumRegs) const {
59     unsigned TySize = getContext().getTypeSize(Ty);
60 
61     // An int8 type argument always costs two registers like an int16.
62     if (TySize == 8 && NumRegs >= 2) {
63       NumRegs -= 2;
64       return ABIArgInfo::getExtend(Ty);
65     }
66 
67     // If the argument size is an odd number of bytes, round up the size
68     // to the next even number.
69     TySize = llvm::alignTo(TySize, 16);
70 
71     // Any type including an array/struct type can be passed in rgisters,
72     // if there are enough registers left.
73     if (TySize <= NumRegs * 8) {
74       NumRegs -= TySize / 8;
75       return ABIArgInfo::getDirect();
76     }
77 
78     // An argument is passed either completely in registers or completely in
79     // memory. Since there are not enough registers left, current argument
80     // and all other unprocessed arguments should be passed in memory.
81     // However we still need to return `ABIArgInfo::getDirect()` other than
82     // `ABIInfo::getNaturalAlignIndirect(Ty)`, otherwise an extra stack slot
83     // will be allocated, so the stack frame layout will be incompatible with
84     // avr-gcc.
85     NumRegs = 0;
86     return ABIArgInfo::getDirect();
87   }
88 
89   void computeInfo(CGFunctionInfo &FI) const override {
90     // Decide the return type.
91     bool LargeRet = false;
92     if (!getCXXABI().classifyReturnType(FI))
93       FI.getReturnInfo() = classifyReturnType(FI.getReturnType(), LargeRet);
94 
95     // Decide each argument type. The total number of registers can be used for
96     // arguments depends on several factors:
97     // 1. Arguments of varargs functions are passed on the stack. This applies
98     //    even to the named arguments. So no register can be used.
99     // 2. Total 18 registers can be used on avr and 6 ones on avrtiny.
100     // 3. If the return type is a struct with too large size, two registers
101     //    (out of 18/6) will be cost as an implicit pointer argument.
102     unsigned NumRegs = ParamRegs;
103     if (FI.isVariadic())
104       NumRegs = 0;
105     else if (LargeRet)
106       NumRegs -= 2;
107     for (auto &I : FI.arguments())
108       I.info = classifyArgumentType(I.type, NumRegs);
109   }
110 };
111 
112 class AVRTargetCodeGenInfo : public TargetCodeGenInfo {
113 public:
114   AVRTargetCodeGenInfo(CodeGenTypes &CGT, unsigned NPR, unsigned NRR)
115       : TargetCodeGenInfo(std::make_unique<AVRABIInfo>(CGT, NPR, NRR)) {}
116 
117   LangAS getGlobalVarAddressSpace(CodeGenModule &CGM,
118                                   const VarDecl *D) const override {
119     // Check if global/static variable is defined in address space
120     // 1~6 (__flash, __flash1, __flash2, __flash3, __flash4, __flash5)
121     // but not constant.
122     if (D) {
123       LangAS AS = D->getType().getAddressSpace();
124       if (isTargetAddressSpace(AS) && 1 <= toTargetAddressSpace(AS) &&
125           toTargetAddressSpace(AS) <= 6 && !D->getType().isConstQualified())
126         CGM.getDiags().Report(D->getLocation(),
127                               diag::err_verify_nonconst_addrspace)
128             << "__flash*";
129     }
130     return TargetCodeGenInfo::getGlobalVarAddressSpace(CGM, D);
131   }
132 
133   void setTargetAttributes(const Decl *D, llvm::GlobalValue *GV,
134                            CodeGen::CodeGenModule &CGM) const override {
135     if (GV->isDeclaration())
136       return;
137     const auto *FD = dyn_cast_or_null<FunctionDecl>(D);
138     if (!FD) return;
139     auto *Fn = cast<llvm::Function>(GV);
140 
141     if (FD->getAttr<AVRInterruptAttr>())
142       Fn->addFnAttr("interrupt");
143 
144     if (FD->getAttr<AVRSignalAttr>())
145       Fn->addFnAttr("signal");
146   }
147 };
148 }
149 
150 std::unique_ptr<TargetCodeGenInfo>
151 CodeGen::createAVRTargetCodeGenInfo(CodeGenModule &CGM, unsigned NPR,
152                                     unsigned NRR) {
153   return std::make_unique<AVRTargetCodeGenInfo>(CGM.getTypes(), NPR, NRR);
154 }
155