unittests/ExecutionEngine/JIT/MultiJITTest.cpp

//===- MultiJITTest.cpp - Unit tests for instantiating multiple JITs ------===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//

#include "llvm/ExecutionEngine/JIT.h"
#include "llvm/Assembly/Parser.h"
#include "llvm/ExecutionEngine/GenericValue.h"
#include "llvm/IR/LLVMContext.h"
#include "llvm/IR/Module.h"
#include "llvm/Support/SourceMgr.h"
#include "gtest/gtest.h"
#include <vector>

using namespace llvm;

namespace {

// ARM and PowerPC tests disabled pending fix for PR10783.
#if !defined(__arm__) && !defined(__powerpc__)

bool LoadAssemblyInto(Module *M, const char *assembly) {
  SMDiagnostic Error;
  bool success =
    NULL != ParseAssemblyString(assembly, M, Error, M->getContext());
  std::string errMsg;
  raw_string_ostream os(errMsg);
  Error.print("", os);
  EXPECT_TRUE(success) << os.str();
  return success;
}

void createModule1(LLVMContext &Context1, Module *&M1, Function *&FooF1) {
  M1 = new Module("test1", Context1);
  LoadAssemblyInto(M1,
                   "define i32 @add1(i32 %ArgX1) { "
                   "entry: "
                   "  %addresult = add i32 1, %ArgX1 "
                   "  ret i32 %addresult "
                   "} "
                   " "
                   "define i32 @foo1() { "
                   "entry: "
                   "  %add1 = call i32 @add1(i32 10) "
                   "  ret i32 %add1 "
                   "} ");
  FooF1 = M1->getFunction("foo1");
}

void createModule2(LLVMContext &Context2, Module *&M2, Function *&FooF2) {
  M2 = new Module("test2", Context2);
  LoadAssemblyInto(M2,
                   "define i32 @add2(i32 %ArgX2) { "
                   "entry: "
                   "  %addresult = add i32 2, %ArgX2 "
                   "  ret i32 %addresult "
                   "} "
                   " "
                   "define i32 @foo2() { "
                   "entry: "
                   "  %add2 = call i32 @add2(i32 10) "
                   "  ret i32 %add2 "
                   "} ");
  FooF2 = M2->getFunction("foo2");
}

TEST(MultiJitTest, EagerMode) {
  LLVMContext Context1;
  Module *M1 = 0;
  Function *FooF1 = 0;
  createModule1(Context1, M1, FooF1);

  LLVMContext Context2;
  Module *M2 = 0;
  Function *FooF2 = 0;
  createModule2(Context2, M2, FooF2);

  // Now we create the JIT in eager mode
  OwningPtr<ExecutionEngine> EE1(EngineBuilder(M1).create());
  EE1->DisableLazyCompilation(true);
  OwningPtr<ExecutionEngine> EE2(EngineBuilder(M2).create());
  EE2->DisableLazyCompilation(true);

  // Call the `foo' function with no arguments:
  std::vector<GenericValue> noargs;
  GenericValue gv1 = EE1->runFunction(FooF1, noargs);
  GenericValue gv2 = EE2->runFunction(FooF2, noargs);

  // Import result of execution:
  EXPECT_EQ(gv1.IntVal, 11);
  EXPECT_EQ(gv2.IntVal, 12);

  EE1->freeMachineCodeForFunction(FooF1);
  EE2->freeMachineCodeForFunction(FooF2);
}

TEST(MultiJitTest, LazyMode) {
  LLVMContext Context1;
  Module *M1 = 0;
  Function *FooF1 = 0;
  createModule1(Context1, M1, FooF1);

  LLVMContext Context2;
  Module *M2 = 0;
  Function *FooF2 = 0;
  createModule2(Context2, M2, FooF2);

  // Now we create the JIT in lazy mode
  OwningPtr<ExecutionEngine> EE1(EngineBuilder(M1).create());
  EE1->DisableLazyCompilation(false);
  OwningPtr<ExecutionEngine> EE2(EngineBuilder(M2).create());
  EE2->DisableLazyCompilation(false);

  // Call the `foo' function with no arguments:
  std::vector<GenericValue> noargs;
  GenericValue gv1 = EE1->runFunction(FooF1, noargs);
  GenericValue gv2 = EE2->runFunction(FooF2, noargs);

  // Import result of execution:
  EXPECT_EQ(gv1.IntVal, 11);
  EXPECT_EQ(gv2.IntVal, 12);

  EE1->freeMachineCodeForFunction(FooF1);
  EE2->freeMachineCodeForFunction(FooF2);
}

extern "C" {
  extern void *getPointerToNamedFunction(const char *Name);
}

TEST(MultiJitTest, JitPool) {
  LLVMContext Context1;
  Module *M1 = 0;
  Function *FooF1 = 0;
  createModule1(Context1, M1, FooF1);

  LLVMContext Context2;
  Module *M2 = 0;
  Function *FooF2 = 0;
  createModule2(Context2, M2, FooF2);

  // Now we create two JITs
  OwningPtr<ExecutionEngine> EE1(EngineBuilder(M1).create());
  OwningPtr<ExecutionEngine> EE2(EngineBuilder(M2).create());

  Function *F1 = EE1->FindFunctionNamed("foo1");
  void *foo1 = EE1->getPointerToFunction(F1);

  Function *F2 = EE2->FindFunctionNamed("foo2");
  void *foo2 = EE2->getPointerToFunction(F2);

  // Function in M1
  EXPECT_EQ(getPointerToNamedFunction("foo1"), foo1);

  // Function in M2
  EXPECT_EQ(getPointerToNamedFunction("foo2"), foo2);

  // Symbol search
  intptr_t
    sa = (intptr_t)getPointerToNamedFunction("getPointerToNamedFunction");
  EXPECT_TRUE(sa != 0);
  intptr_t fa = (intptr_t)&getPointerToNamedFunction;
  EXPECT_TRUE(fa != 0);
#ifdef __i386__
  // getPointerToNamedFunction might be indirect jump on Win32 --enable-shared.
  // FF 25 <disp32>: jmp *(pointer to IAT)
  if (sa != fa && memcmp((char *)fa, "\xFF\x25", 2) == 0) {
    fa = *(intptr_t *)(fa + 2); // Address to IAT
    EXPECT_TRUE(fa != 0);
    fa = *(intptr_t *)fa;       // Bound value of IAT
  }
#endif
  EXPECT_TRUE(sa == fa);
}
#endif  // !defined(__arm__) && !defined(__powerpc__)

}  // anonymous namespace