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d6b7a242d3
that has not been JIT'd yet, the callee is put on a list of pending functions to JIT. The call is directed through a stub, which is updated with the address of the function after it has been JIT'd. A new interface for allocating and updating empty stubs is provided. Add support for removing the ModuleProvider the JIT was created with, which would otherwise invalidate the JIT's PassManager, which is initialized with the ModuleProvider's Module. Add support under a new ExecutionEngine flag for emitting the infomration necessary to update Function and GlobalVariable stubs after JITing them, by recording the address of the stub and the name of the GlobalValue. This allows code to be copied from one address space to another, where libraries may live at different virtual addresses, and have the stubs updated with their new correct target addresses. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@64906 91177308-0d34-0410-b5e6-96231b3b80d8
331 lines
12 KiB
C++
331 lines
12 KiB
C++
//===-- llvm/CodeGen/MachineCodeEmitter.h - Code emission -------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file defines an abstract interface that is used by the machine code
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// emission framework to output the code. This allows machine code emission to
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// be separated from concerns such as resolution of call targets, and where the
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// machine code will be written (memory or disk, f.e.).
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_CODEGEN_MACHINECODEEMITTER_H
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#define LLVM_CODEGEN_MACHINECODEEMITTER_H
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#include "llvm/Support/DataTypes.h"
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namespace llvm {
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class MachineBasicBlock;
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class MachineConstantPool;
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class MachineJumpTableInfo;
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class MachineFunction;
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class MachineModuleInfo;
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class MachineRelocation;
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class Value;
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class GlobalValue;
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class Function;
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/// MachineCodeEmitter - This class defines two sorts of methods: those for
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/// emitting the actual bytes of machine code, and those for emitting auxillary
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/// structures, such as jump tables, relocations, etc.
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///
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/// Emission of machine code is complicated by the fact that we don't (in
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/// general) know the size of the machine code that we're about to emit before
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/// we emit it. As such, we preallocate a certain amount of memory, and set the
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/// BufferBegin/BufferEnd pointers to the start and end of the buffer. As we
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/// emit machine instructions, we advance the CurBufferPtr to indicate the
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/// location of the next byte to emit. In the case of a buffer overflow (we
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/// need to emit more machine code than we have allocated space for), the
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/// CurBufferPtr will saturate to BufferEnd and ignore stores. Once the entire
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/// function has been emitted, the overflow condition is checked, and if it has
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/// occurred, more memory is allocated, and we reemit the code into it.
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///
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class MachineCodeEmitter {
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protected:
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/// BufferBegin/BufferEnd - Pointers to the start and end of the memory
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/// allocated for this code buffer.
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unsigned char *BufferBegin, *BufferEnd;
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/// CurBufferPtr - Pointer to the next byte of memory to fill when emitting
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/// code. This is guranteed to be in the range [BufferBegin,BufferEnd]. If
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/// this pointer is at BufferEnd, it will never move due to code emission, and
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/// all code emission requests will be ignored (this is the buffer overflow
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/// condition).
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unsigned char *CurBufferPtr;
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public:
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virtual ~MachineCodeEmitter() {}
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/// startFunction - This callback is invoked when the specified function is
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/// about to be code generated. This initializes the BufferBegin/End/Ptr
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/// fields.
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///
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virtual void startFunction(MachineFunction &F) = 0;
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/// finishFunction - This callback is invoked when the specified function has
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/// finished code generation. If a buffer overflow has occurred, this method
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/// returns true (the callee is required to try again), otherwise it returns
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/// false.
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///
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virtual bool finishFunction(MachineFunction &F) = 0;
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/// startGVStub - This callback is invoked when the JIT needs the
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/// address of a GV (e.g. function) that has not been code generated yet.
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/// The StubSize specifies the total size required by the stub.
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///
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virtual void startGVStub(const GlobalValue* GV, unsigned StubSize,
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unsigned Alignment = 1) = 0;
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/// startGVStub - This callback is invoked when the JIT needs the address of a
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/// GV (e.g. function) that has not been code generated yet. Buffer points to
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/// memory already allocated for this stub.
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///
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virtual void startGVStub(const GlobalValue* GV, void *Buffer,
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unsigned StubSize) = 0;
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/// finishGVStub - This callback is invoked to terminate a GV stub.
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///
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virtual void *finishGVStub(const GlobalValue* F) = 0;
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/// emitByte - This callback is invoked when a byte needs to be written to the
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/// output stream.
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///
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void emitByte(unsigned char B) {
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if (CurBufferPtr != BufferEnd)
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*CurBufferPtr++ = B;
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}
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/// emitWordLE - This callback is invoked when a 32-bit word needs to be
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/// written to the output stream in little-endian format.
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///
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void emitWordLE(unsigned W) {
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if (4 <= BufferEnd-CurBufferPtr) {
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*CurBufferPtr++ = (unsigned char)(W >> 0);
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*CurBufferPtr++ = (unsigned char)(W >> 8);
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*CurBufferPtr++ = (unsigned char)(W >> 16);
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*CurBufferPtr++ = (unsigned char)(W >> 24);
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitWordBE - This callback is invoked when a 32-bit word needs to be
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/// written to the output stream in big-endian format.
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///
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void emitWordBE(unsigned W) {
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if (4 <= BufferEnd-CurBufferPtr) {
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*CurBufferPtr++ = (unsigned char)(W >> 24);
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*CurBufferPtr++ = (unsigned char)(W >> 16);
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*CurBufferPtr++ = (unsigned char)(W >> 8);
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*CurBufferPtr++ = (unsigned char)(W >> 0);
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitDWordLE - This callback is invoked when a 64-bit word needs to be
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/// written to the output stream in little-endian format.
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///
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void emitDWordLE(uint64_t W) {
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if (8 <= BufferEnd-CurBufferPtr) {
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*CurBufferPtr++ = (unsigned char)(W >> 0);
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*CurBufferPtr++ = (unsigned char)(W >> 8);
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*CurBufferPtr++ = (unsigned char)(W >> 16);
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*CurBufferPtr++ = (unsigned char)(W >> 24);
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*CurBufferPtr++ = (unsigned char)(W >> 32);
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*CurBufferPtr++ = (unsigned char)(W >> 40);
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*CurBufferPtr++ = (unsigned char)(W >> 48);
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*CurBufferPtr++ = (unsigned char)(W >> 56);
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitDWordBE - This callback is invoked when a 64-bit word needs to be
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/// written to the output stream in big-endian format.
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///
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void emitDWordBE(uint64_t W) {
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if (8 <= BufferEnd-CurBufferPtr) {
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*CurBufferPtr++ = (unsigned char)(W >> 56);
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*CurBufferPtr++ = (unsigned char)(W >> 48);
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*CurBufferPtr++ = (unsigned char)(W >> 40);
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*CurBufferPtr++ = (unsigned char)(W >> 32);
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*CurBufferPtr++ = (unsigned char)(W >> 24);
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*CurBufferPtr++ = (unsigned char)(W >> 16);
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*CurBufferPtr++ = (unsigned char)(W >> 8);
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*CurBufferPtr++ = (unsigned char)(W >> 0);
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitAlignment - Move the CurBufferPtr pointer up the the specified
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/// alignment (saturated to BufferEnd of course).
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void emitAlignment(unsigned Alignment) {
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if (Alignment == 0) Alignment = 1;
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if(Alignment <= (uintptr_t)(BufferEnd-CurBufferPtr)) {
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// Move the current buffer ptr up to the specified alignment.
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CurBufferPtr =
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(unsigned char*)(((uintptr_t)CurBufferPtr+Alignment-1) &
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~(uintptr_t)(Alignment-1));
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitULEB128Bytes - This callback is invoked when a ULEB128 needs to be
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/// written to the output stream.
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void emitULEB128Bytes(unsigned Value) {
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do {
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unsigned char Byte = Value & 0x7f;
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Value >>= 7;
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if (Value) Byte |= 0x80;
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emitByte(Byte);
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} while (Value);
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}
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/// emitSLEB128Bytes - This callback is invoked when a SLEB128 needs to be
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/// written to the output stream.
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void emitSLEB128Bytes(int Value) {
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int Sign = Value >> (8 * sizeof(Value) - 1);
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bool IsMore;
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do {
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unsigned char Byte = Value & 0x7f;
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Value >>= 7;
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IsMore = Value != Sign || ((Byte ^ Sign) & 0x40) != 0;
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if (IsMore) Byte |= 0x80;
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emitByte(Byte);
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} while (IsMore);
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}
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/// emitString - This callback is invoked when a String needs to be
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/// written to the output stream.
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void emitString(const std::string &String) {
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for (unsigned i = 0, N = static_cast<unsigned>(String.size());
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i < N; ++i) {
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unsigned char C = String[i];
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emitByte(C);
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}
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emitByte(0);
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}
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/// emitInt32 - Emit a int32 directive.
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void emitInt32(int Value) {
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if (4 <= BufferEnd-CurBufferPtr) {
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*((uint32_t*)CurBufferPtr) = Value;
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CurBufferPtr += 4;
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitInt64 - Emit a int64 directive.
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void emitInt64(uint64_t Value) {
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if (8 <= BufferEnd-CurBufferPtr) {
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*((uint64_t*)CurBufferPtr) = Value;
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CurBufferPtr += 8;
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} else {
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CurBufferPtr = BufferEnd;
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}
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}
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/// emitInt32At - Emit the Int32 Value in Addr.
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void emitInt32At(uintptr_t *Addr, uintptr_t Value) {
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if (Addr >= (uintptr_t*)BufferBegin && Addr < (uintptr_t*)BufferEnd)
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(*(uint32_t*)Addr) = (uint32_t)Value;
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}
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/// emitInt64At - Emit the Int64 Value in Addr.
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void emitInt64At(uintptr_t *Addr, uintptr_t Value) {
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if (Addr >= (uintptr_t*)BufferBegin && Addr < (uintptr_t*)BufferEnd)
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(*(uint64_t*)Addr) = (uint64_t)Value;
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}
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/// emitLabel - Emits a label
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virtual void emitLabel(uint64_t LabelID) = 0;
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/// allocateSpace - Allocate a block of space in the current output buffer,
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/// returning null (and setting conditions to indicate buffer overflow) on
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/// failure. Alignment is the alignment in bytes of the buffer desired.
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virtual void *allocateSpace(uintptr_t Size, unsigned Alignment) {
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emitAlignment(Alignment);
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void *Result;
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// Check for buffer overflow.
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if (Size >= (uintptr_t)(BufferEnd-CurBufferPtr)) {
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CurBufferPtr = BufferEnd;
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Result = 0;
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} else {
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// Allocate the space.
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Result = CurBufferPtr;
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CurBufferPtr += Size;
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}
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return Result;
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}
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/// StartMachineBasicBlock - This should be called by the target when a new
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/// basic block is about to be emitted. This way the MCE knows where the
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/// start of the block is, and can implement getMachineBasicBlockAddress.
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virtual void StartMachineBasicBlock(MachineBasicBlock *MBB) = 0;
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/// getCurrentPCValue - This returns the address that the next emitted byte
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/// will be output to.
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///
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virtual uintptr_t getCurrentPCValue() const {
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return (uintptr_t)CurBufferPtr;
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}
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/// getCurrentPCOffset - Return the offset from the start of the emitted
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/// buffer that we are currently writing to.
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uintptr_t getCurrentPCOffset() const {
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return CurBufferPtr-BufferBegin;
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}
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/// addRelocation - Whenever a relocatable address is needed, it should be
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/// noted with this interface.
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virtual void addRelocation(const MachineRelocation &MR) = 0;
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/// FIXME: These should all be handled with relocations!
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/// getConstantPoolEntryAddress - Return the address of the 'Index' entry in
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/// the constant pool that was last emitted with the emitConstantPool method.
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///
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virtual uintptr_t getConstantPoolEntryAddress(unsigned Index) const = 0;
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/// getJumpTableEntryAddress - Return the address of the jump table with index
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/// 'Index' in the function that last called initJumpTableInfo.
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///
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virtual uintptr_t getJumpTableEntryAddress(unsigned Index) const = 0;
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/// getMachineBasicBlockAddress - Return the address of the specified
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/// MachineBasicBlock, only usable after the label for the MBB has been
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/// emitted.
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///
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virtual uintptr_t getMachineBasicBlockAddress(MachineBasicBlock *MBB) const= 0;
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/// getLabelAddress - Return the address of the specified LabelID, only usable
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/// after the LabelID has been emitted.
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///
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virtual uintptr_t getLabelAddress(uint64_t LabelID) const = 0;
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/// Specifies the MachineModuleInfo object. This is used for exception handling
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/// purposes.
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virtual void setModuleInfo(MachineModuleInfo* Info) = 0;
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};
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} // End llvm namespace
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#endif
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