RenderScriptx86ABIFixups.cpp
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//===-- RenderScriptx86ABIFixups.cpp ----------------------------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include <set>
#include "llvm/ADT/StringRef.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/CallSite.h"
#include "llvm/IR/Constants.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/Instruction.h"
#include "llvm/IR/Instructions.h"
#include "llvm/IR/Module.h"
#include "llvm/IRReader/IRReader.h"
#include "llvm/Pass.h"
#include "lldb/Target/Process.h"
#include "lldb/Utility/Log.h"
using namespace lldb_private;
namespace {
bool isRSAPICall(llvm::Module &module, llvm::CallInst *call_inst) {
// TODO get the list of renderscript modules from lldb and check if
// this llvm::Module calls into any of them.
(void)module;
const auto func_name = call_inst->getCalledFunction()->getName();
if (func_name.startswith("llvm") || func_name.startswith("lldb"))
return false;
if (call_inst->getCalledFunction()->isIntrinsic())
return false;
return true;
}
bool isRSLargeReturnCall(llvm::Module &module, llvm::CallInst *call_inst) {
// i686 and x86_64 returns for large vectors in the RenderScript API are not
// handled as normal register pairs, but as a hidden sret type. This is not
// reflected in the debug info or mangled symbol name, and the android ABI
// for x86 and x86_64, (as well as the emulators) specifies there is no AVX,
// so bcc generates an sret function because we cannot natively return
// 256 bit vectors.
// This function simply checks whether a function has a > 128bit return type.
// It is perhaps an unreliable heuristic, and relies on bcc not generating
// AVX code, so if the android ABI one day provides for AVX, this function
// may go out of fashion.
(void)module;
if (!call_inst || !call_inst->getCalledFunction())
return false;
return call_inst->getCalledFunction()
->getReturnType()
->getPrimitiveSizeInBits() > 128;
}
bool isRSAllocationPtrTy(const llvm::Type *type) {
if (!type->isPointerTy())
return false;
auto ptr_type = type->getPointerElementType();
return ptr_type->isStructTy() &&
ptr_type->getStructName().startswith("struct.rs_allocation");
}
bool isRSAllocationTyCallSite(llvm::Module &module, llvm::CallInst *call_inst) {
(void)module;
if (!call_inst->hasByValArgument())
return false;
for (const auto *param : call_inst->operand_values())
if (isRSAllocationPtrTy(param->getType()))
return true;
return false;
}
llvm::FunctionType *cloneToStructRetFnTy(llvm::CallInst *call_inst) {
// on x86 StructReturn functions return a pointer to the return value, rather
// than the return value itself
// [ref](http://www.agner.org/optimize/calling_conventions.pdf section 6). We
// create a return type by getting the pointer type of the old return type,
// and inserting a new initial argument of pointer type of the original
// return type.
Log *log(
GetLogIfAnyCategoriesSet(LIBLLDB_LOG_LANGUAGE | LIBLLDB_LOG_EXPRESSIONS));
assert(call_inst && "no CallInst");
llvm::Function *orig = call_inst->getCalledFunction();
assert(orig && "CallInst has no called function");
llvm::FunctionType *orig_type = orig->getFunctionType();
auto name = orig->getName();
LLDB_LOGF(log, "%s - cloning to StructRet function for '%s'", __FUNCTION__,
name.str().c_str());
unsigned num_params = orig_type->getNumParams();
std::vector<llvm::Type *> new_params{num_params + 1, nullptr};
std::vector<llvm::Type *> params{orig_type->param_begin(),
orig_type->param_end()};
// This may not work if the function is somehow declared void as llvm is
// strongly typed and represents void* with i8*
assert(!orig_type->getReturnType()->isVoidTy() &&
"Cannot add StructRet attribute to void function");
llvm::PointerType *return_type_ptr_type =
llvm::PointerType::getUnqual(orig->getReturnType());
assert(return_type_ptr_type &&
"failed to get function return type PointerType");
if (!return_type_ptr_type)
return nullptr;
LLDB_LOGF(log,
"%s - return type pointer type for StructRet clone @ '0x%p':\n",
__FUNCTION__, (void *)return_type_ptr_type);
// put the sret pointer argument in place at the beginning of the
// argument list.
params.emplace(params.begin(), return_type_ptr_type);
assert(params.size() == num_params + 1);
return llvm::FunctionType::get(return_type_ptr_type, params,
orig->isVarArg());
}
bool findRSCallSites(llvm::Module &module,
std::set<llvm::CallInst *> &rs_callsites,
bool (*predicate)(llvm::Module &, llvm::CallInst *)) {
bool found = false;
for (auto &func : module.getFunctionList())
for (auto &block : func.getBasicBlockList())
for (auto &inst : block) {
llvm::CallInst *call_inst =
llvm::dyn_cast_or_null<llvm::CallInst>(&inst);
if (!call_inst || !call_inst->getCalledFunction())
// This is not the call-site you are looking for...
continue;
if (isRSAPICall(module, call_inst) && predicate(module, call_inst)) {
rs_callsites.insert(call_inst);
found = true;
}
}
return found;
}
bool fixupX86StructRetCalls(llvm::Module &module) {
bool changed = false;
// changing a basic block while iterating over it seems to have some
// undefined behaviour going on so we find all RS callsites first, then fix
// them up after consuming the iterator.
std::set<llvm::CallInst *> rs_callsites;
if (!findRSCallSites(module, rs_callsites, isRSLargeReturnCall))
return false;
for (auto call_inst : rs_callsites) {
llvm::FunctionType *new_func_type = cloneToStructRetFnTy(call_inst);
assert(new_func_type &&
"failed to clone functionType for Renderscript ABI fixup");
llvm::CallSite call_site(call_inst);
llvm::Function *func = call_inst->getCalledFunction();
assert(func && "cannot resolve function in RenderScriptRuntime");
// Copy the original call arguments
std::vector<llvm::Value *> new_call_args(call_site.arg_begin(),
call_site.arg_end());
// Allocate enough space to store the return value of the original function
// we pass a pointer to this allocation as the StructRet param, and then
// copy its value into the lldb return value
const llvm::DataLayout &DL = module.getDataLayout();
llvm::AllocaInst *return_value_alloc = new llvm::AllocaInst(
func->getReturnType(), DL.getAllocaAddrSpace(), "var_vector_return_alloc",
call_inst);
// use the new allocation as the new first argument
new_call_args.emplace(new_call_args.begin(),
llvm::cast<llvm::Value>(return_value_alloc));
llvm::PointerType *new_func_ptr_type =
llvm::PointerType::get(new_func_type, 0);
// Create the type cast from the old function type to the new one
llvm::Constant *new_func_cast = llvm::ConstantExpr::getCast(
llvm::Instruction::BitCast, func, new_func_ptr_type);
// create an allocation for a new function pointer
llvm::AllocaInst *new_func_ptr =
new llvm::AllocaInst(new_func_ptr_type, DL.getAllocaAddrSpace(),
"new_func_ptr", call_inst);
// store the new_func_cast to the newly allocated space
(new llvm::StoreInst(new_func_cast, new_func_ptr, call_inst))
->setName("new_func_ptr_load_cast");
// load the new function address ready for a jump
llvm::LoadInst *new_func_addr_load =
new llvm::LoadInst(new_func_ptr, "load_func_pointer", call_inst);
// and create a callinstruction from it
llvm::CallInst *new_call_inst =
llvm::CallInst::Create(new_func_type, new_func_addr_load, new_call_args,
"new_func_call", call_inst);
new_call_inst->setCallingConv(call_inst->getCallingConv());
new_call_inst->setTailCall(call_inst->isTailCall());
llvm::LoadInst *lldb_save_result_address =
new llvm::LoadInst(return_value_alloc, "save_return_val", call_inst);
// Now remove the old broken call
call_inst->replaceAllUsesWith(lldb_save_result_address);
call_inst->eraseFromParent();
changed = true;
}
return changed;
}
bool fixupRSAllocationStructByValCalls(llvm::Module &module) {
// On x86_64, calls to functions in the RS runtime that take an
// `rs_allocation` type argument are actually handled as by-ref params by
// bcc, but appear to be passed by value by lldb (the callsite all use
// `struct byval`). On x86_64 Linux, struct arguments are transferred in
// registers if the struct size is no bigger than 128bits
// [ref](http://www.agner.org/optimize/calling_conventions.pdf) section 7.1
// "Passing and returning objects" otherwise passed on the stack. an object
// of type `rs_allocation` is actually 256bits, so should be passed on the
// stack. However, code generated by bcc actually treats formal params of
// type `rs_allocation` as `rs_allocation *` so we need to convert the
// calling convention to pass by reference, and remove any hint of byval from
// formal parameters.
bool changed = false;
std::set<llvm::CallInst *> rs_callsites;
if (!findRSCallSites(module, rs_callsites, isRSAllocationTyCallSite))
return false;
std::set<llvm::Function *> rs_functions;
// for all call instructions
for (auto call_inst : rs_callsites) {
// add the called function to a set so that we can strip its byval
// attributes in another pass
rs_functions.insert(call_inst->getCalledFunction());
// get the function attributes
llvm::AttributeList call_attribs = call_inst->getAttributes();
// iterate over the argument attributes
for (unsigned I = call_attribs.index_begin(); I != call_attribs.index_end();
I++) {
// if this argument is passed by val
if (call_attribs.hasAttribute(I, llvm::Attribute::ByVal)) {
// strip away the byval attribute
call_inst->removeAttribute(I, llvm::Attribute::ByVal);
changed = true;
}
}
}
// for all called function decls
for (auto func : rs_functions) {
// inspect all of the arguments in the call
for (auto &arg : func->args()) {
if (arg.hasByValAttr()) {
arg.removeAttr(llvm::Attribute::ByVal);
changed = true;
}
}
}
return changed;
}
} // end anonymous namespace
namespace lldb_private {
namespace lldb_renderscript {
bool fixupX86FunctionCalls(llvm::Module &module) {
return fixupX86StructRetCalls(module);
}
bool fixupX86_64FunctionCalls(llvm::Module &module) {
bool changed = false;
changed |= fixupX86StructRetCalls(module);
changed |= fixupRSAllocationStructByValCalls(module);
return changed;
}
} // end namespace lldb_renderscript
} // end namespace lldb_private