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llvm-project/llvm/lib/Transforms/Utils/AMDGPUEmitPrintf.cpp
Sameer Sahasrabuddhe d8f99bb6e0 [AMDGPU] replace hostcall module flag with function attribute 
The module flag to indicate use of hostcall is insufficient to catch
all cases where hostcall might be in use by a kernel. This is now
replaced by a function attribute that gets propagated to top-level
kernel functions via their respective call-graph.

If the attribute "amdgpu-no-hostcall-ptr" is absent on a kernel, the
default behaviour is to emit kernel metadata indicating that the
kernel uses the hostcall buffer pointer passed as an implicit
argument.

The attribute may be placed explicitly by the user, or inferred by the
AMDGPU attributor by examining the call-graph. The attribute is
inferred only if the function is not being sanitized, and the
implictarg_ptr does not result in a load of any byte in the hostcall
pointer argument.

Reviewed By: jdoerfert, arsenm, kpyzhov

Differential Revision: https://reviews.llvm.org/D119216
2022-02-11 22:51:56 +05:30

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//===- AMDGPUEmitPrintf.cpp -----------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Utility function to lower a printf call into a series of device
// library calls on the AMDGPU target.
//
// WARNING: This file knows about certain library functions. It recognizes them
// by name, and hardwires knowledge of their semantics.
//
//===----------------------------------------------------------------------===//
#include "llvm/Transforms/Utils/AMDGPUEmitPrintf.h"
#include "llvm/ADT/SparseBitVector.h"
#include "llvm/Analysis/ValueTracking.h"
using namespace llvm;
#define DEBUG_TYPE "amdgpu-emit-printf"
static Value *fitArgInto64Bits(IRBuilder<> &Builder, Value *Arg) {
auto Int64Ty = Builder.getInt64Ty();
auto Ty = Arg->getType();
if (auto IntTy = dyn_cast<IntegerType>(Ty)) {
switch (IntTy->getBitWidth()) {
case 32:
return Builder.CreateZExt(Arg, Int64Ty);
case 64:
return Arg;
}
}
if (Ty->getTypeID() == Type::DoubleTyID) {
return Builder.CreateBitCast(Arg, Int64Ty);
}
if (isa<PointerType>(Ty)) {
return Builder.CreatePtrToInt(Arg, Int64Ty);
}
llvm_unreachable("unexpected type");
}
static Value *callPrintfBegin(IRBuilder<> &Builder, Value *Version) {
auto Int64Ty = Builder.getInt64Ty();
auto M = Builder.GetInsertBlock()->getModule();
auto Fn = M->getOrInsertFunction("__ockl_printf_begin", Int64Ty, Int64Ty);
return Builder.CreateCall(Fn, Version);
}
static Value *callAppendArgs(IRBuilder<> &Builder, Value *Desc, int NumArgs,
Value *Arg0, Value *Arg1, Value *Arg2, Value *Arg3,
Value *Arg4, Value *Arg5, Value *Arg6,
bool IsLast) {
auto Int64Ty = Builder.getInt64Ty();
auto Int32Ty = Builder.getInt32Ty();
auto M = Builder.GetInsertBlock()->getModule();
auto Fn = M->getOrInsertFunction("__ockl_printf_append_args", Int64Ty,
Int64Ty, Int32Ty, Int64Ty, Int64Ty, Int64Ty,
Int64Ty, Int64Ty, Int64Ty, Int64Ty, Int32Ty);
auto IsLastValue = Builder.getInt32(IsLast);
auto NumArgsValue = Builder.getInt32(NumArgs);
return Builder.CreateCall(Fn, {Desc, NumArgsValue, Arg0, Arg1, Arg2, Arg3,
Arg4, Arg5, Arg6, IsLastValue});
}
static Value *appendArg(IRBuilder<> &Builder, Value *Desc, Value *Arg,
bool IsLast) {
auto Arg0 = fitArgInto64Bits(Builder, Arg);
auto Zero = Builder.getInt64(0);
return callAppendArgs(Builder, Desc, 1, Arg0, Zero, Zero, Zero, Zero, Zero,
Zero, IsLast);
}
// The device library does not provide strlen, so we build our own loop
// here. While we are at it, we also include the terminating null in the length.
static Value *getStrlenWithNull(IRBuilder<> &Builder, Value *Str) {
auto *Prev = Builder.GetInsertBlock();
Module *M = Prev->getModule();
auto CharZero = Builder.getInt8(0);
auto One = Builder.getInt64(1);
auto Zero = Builder.getInt64(0);
auto Int64Ty = Builder.getInt64Ty();
// The length is either zero for a null pointer, or the computed value for an
// actual string. We need a join block for a phi that represents the final
// value.
//
// Strictly speaking, the zero does not matter since
// __ockl_printf_append_string_n ignores the length if the pointer is null.
BasicBlock *Join = nullptr;
if (Prev->getTerminator()) {
Join = Prev->splitBasicBlock(Builder.GetInsertPoint(),
"strlen.join");
Prev->getTerminator()->eraseFromParent();
} else {
Join = BasicBlock::Create(M->getContext(), "strlen.join",
Prev->getParent());
}
BasicBlock *While =
BasicBlock::Create(M->getContext(), "strlen.while",
Prev->getParent(), Join);
BasicBlock *WhileDone = BasicBlock::Create(
M->getContext(), "strlen.while.done",
Prev->getParent(), Join);
// Emit an early return for when the pointer is null.
Builder.SetInsertPoint(Prev);
auto CmpNull =
Builder.CreateICmpEQ(Str, Constant::getNullValue(Str->getType()));
BranchInst::Create(Join, While, CmpNull, Prev);
// Entry to the while loop.
Builder.SetInsertPoint(While);
auto PtrPhi = Builder.CreatePHI(Str->getType(), 2);
PtrPhi->addIncoming(Str, Prev);
auto PtrNext = Builder.CreateGEP(Builder.getInt8Ty(), PtrPhi, One);
PtrPhi->addIncoming(PtrNext, While);
// Condition for the while loop.
auto Data = Builder.CreateLoad(Builder.getInt8Ty(), PtrPhi);
auto Cmp = Builder.CreateICmpEQ(Data, CharZero);
Builder.CreateCondBr(Cmp, WhileDone, While);
// Add one to the computed length.
Builder.SetInsertPoint(WhileDone, WhileDone->begin());
auto Begin = Builder.CreatePtrToInt(Str, Int64Ty);
auto End = Builder.CreatePtrToInt(PtrPhi, Int64Ty);
auto Len = Builder.CreateSub(End, Begin);
Len = Builder.CreateAdd(Len, One);
// Final join.
BranchInst::Create(Join, WhileDone);
Builder.SetInsertPoint(Join, Join->begin());
auto LenPhi = Builder.CreatePHI(Len->getType(), 2);
LenPhi->addIncoming(Len, WhileDone);
LenPhi->addIncoming(Zero, Prev);
return LenPhi;
}
static Value *callAppendStringN(IRBuilder<> &Builder, Value *Desc, Value *Str,
Value *Length, bool isLast) {
auto Int64Ty = Builder.getInt64Ty();
auto CharPtrTy = Builder.getInt8PtrTy();
auto Int32Ty = Builder.getInt32Ty();
auto M = Builder.GetInsertBlock()->getModule();
auto Fn = M->getOrInsertFunction("__ockl_printf_append_string_n", Int64Ty,
Int64Ty, CharPtrTy, Int64Ty, Int32Ty);
auto IsLastInt32 = Builder.getInt32(isLast);
return Builder.CreateCall(Fn, {Desc, Str, Length, IsLastInt32});
}
static Value *appendString(IRBuilder<> &Builder, Value *Desc, Value *Arg,
bool IsLast) {
Arg = Builder.CreateBitCast(
Arg, Builder.getInt8PtrTy(Arg->getType()->getPointerAddressSpace()));
auto Length = getStrlenWithNull(Builder, Arg);
return callAppendStringN(Builder, Desc, Arg, Length, IsLast);
}
static Value *processArg(IRBuilder<> &Builder, Value *Desc, Value *Arg,
bool SpecIsCString, bool IsLast) {
if (SpecIsCString && isa<PointerType>(Arg->getType())) {
return appendString(Builder, Desc, Arg, IsLast);
}
// If the format specifies a string but the argument is not, the frontend will
// have printed a warning. We just rely on undefined behaviour and send the
// argument anyway.
return appendArg(Builder, Desc, Arg, IsLast);
}
// Scan the format string to locate all specifiers, and mark the ones that
// specify a string, i.e, the "%s" specifier with optional '*' characters.
static void locateCStrings(SparseBitVector<8> &BV, Value *Fmt) {
StringRef Str;
if (!getConstantStringInfo(Fmt, Str) || Str.empty())
return;
static const char ConvSpecifiers[] = "diouxXfFeEgGaAcspn";
size_t SpecPos = 0;
// Skip the first argument, the format string.
unsigned ArgIdx = 1;
while ((SpecPos = Str.find_first_of('%', SpecPos)) != StringRef::npos) {
if (Str[SpecPos + 1] == '%') {
SpecPos += 2;
continue;
}
auto SpecEnd = Str.find_first_of(ConvSpecifiers, SpecPos);
if (SpecEnd == StringRef::npos)
return;
auto Spec = Str.slice(SpecPos, SpecEnd + 1);
ArgIdx += Spec.count('*');
if (Str[SpecEnd] == 's') {
BV.set(ArgIdx);
}
SpecPos = SpecEnd + 1;
++ArgIdx;
}
}
Value *llvm::emitAMDGPUPrintfCall(IRBuilder<> &Builder,
ArrayRef<Value *> Args) {
auto NumOps = Args.size();
assert(NumOps >= 1);
auto Fmt = Args[0];
SparseBitVector<8> SpecIsCString;
locateCStrings(SpecIsCString, Fmt);
auto Desc = callPrintfBegin(Builder, Builder.getIntN(64, 0));
Desc = appendString(Builder, Desc, Fmt, NumOps == 1);
// FIXME: This invokes hostcall once for each argument. We can pack up to
// seven scalar printf arguments in a single hostcall. See the signature of
// callAppendArgs().
for (unsigned int i = 1; i != NumOps; ++i) {
bool IsLast = i == NumOps - 1;
bool IsCString = SpecIsCString.test(i);
Desc = processArg(Builder, Desc, Args[i], IsCString, IsLast);
}
return Builder.CreateTrunc(Desc, Builder.getInt32Ty());
}
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