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63cc4f56a9
This patch adds a new set of JIT APIs to LLVM. The aim of these new APIs is to cleanly support a wider range of JIT use cases in LLVM, and encourage the development and contribution of re-usable infrastructure for LLVM JIT use-cases. These APIs are intended to live alongside the MCJIT APIs, and should not affect existing clients. Included in this patch: 1) New headers in include/llvm/ExecutionEngine/Orc that provide a set of components for building JIT infrastructure. Implementation code for these headers lives in lib/ExecutionEngine/Orc. 2) A prototype re-implementation of MCJIT (OrcMCJITReplacement) built out of the new components. 3) Minor changes to RTDyldMemoryManager needed to support the new components. These changes should not impact existing clients. 4) A new flag for lli, -use-orcmcjit, which will cause lli to use the OrcMCJITReplacement class as its underlying execution engine, rather than MCJIT itself. Tests to follow shortly. Special thanks to Michael Ilseman, Pete Cooper, David Blaikie, Eric Christopher, Justin Bogner, and Jim Grosbach for extensive feedback and discussion. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@226940 91177308-0d34-0410-b5e6-96231b3b80d8
157 lines
7.1 KiB
C++
157 lines
7.1 KiB
C++
//===-- RTDyldMemoryManager.cpp - Memory manager for MC-JIT -----*- 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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// Interface of the runtime dynamic memory manager base class.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_EXECUTIONENGINE_RTDYLDMEMORYMANAGER_H
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#define LLVM_EXECUTIONENGINE_RTDYLDMEMORYMANAGER_H
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#include "llvm-c/ExecutionEngine.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/Support/CBindingWrapping.h"
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#include "llvm/Support/Memory.h"
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namespace llvm {
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class ExecutionEngine;
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namespace object {
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class ObjectFile;
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}
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// RuntimeDyld clients often want to handle the memory management of
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// what gets placed where. For JIT clients, this is the subset of
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// JITMemoryManager required for dynamic loading of binaries.
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//
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// FIXME: As the RuntimeDyld fills out, additional routines will be needed
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// for the varying types of objects to be allocated.
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class RTDyldMemoryManager {
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RTDyldMemoryManager(const RTDyldMemoryManager&) LLVM_DELETED_FUNCTION;
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void operator=(const RTDyldMemoryManager&) LLVM_DELETED_FUNCTION;
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public:
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RTDyldMemoryManager() {}
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virtual ~RTDyldMemoryManager();
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/// Allocate a memory block of (at least) the given size suitable for
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/// executable code. The SectionID is a unique identifier assigned by the JIT
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/// engine, and optionally recorded by the memory manager to access a loaded
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/// section.
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virtual uint8_t *allocateCodeSection(
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uintptr_t Size, unsigned Alignment, unsigned SectionID,
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StringRef SectionName) = 0;
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/// Allocate a memory block of (at least) the given size suitable for data.
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/// The SectionID is a unique identifier assigned by the JIT engine, and
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/// optionally recorded by the memory manager to access a loaded section.
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virtual uint8_t *allocateDataSection(
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uintptr_t Size, unsigned Alignment, unsigned SectionID,
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StringRef SectionName, bool IsReadOnly) = 0;
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/// Inform the memory manager about the total amount of memory required to
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/// allocate all sections to be loaded:
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/// \p CodeSize - the total size of all code sections
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/// \p DataSizeRO - the total size of all read-only data sections
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/// \p DataSizeRW - the total size of all read-write data sections
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///
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/// Note that by default the callback is disabled. To enable it
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/// redefine the method needsToReserveAllocationSpace to return true.
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virtual void reserveAllocationSpace(
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uintptr_t CodeSize, uintptr_t DataSizeRO, uintptr_t DataSizeRW) { }
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/// Override to return true to enable the reserveAllocationSpace callback.
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virtual bool needsToReserveAllocationSpace() { return false; }
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/// Register the EH frames with the runtime so that c++ exceptions work.
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///
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/// \p Addr parameter provides the local address of the EH frame section
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/// data, while \p LoadAddr provides the address of the data in the target
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/// address space. If the section has not been remapped (which will usually
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/// be the case for local execution) these two values will be the same.
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virtual void registerEHFrames(uint8_t *Addr, uint64_t LoadAddr, size_t Size);
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virtual void deregisterEHFrames(uint8_t *Addr, uint64_t LoadAddr, size_t Size);
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/// This method returns the address of the specified function or variable in
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/// the current process.
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static uint64_t getSymbolAddressInProcess(const std::string &Name);
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/// This method returns the address of the specified function or variable.
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/// It is used to resolve symbols during module linking.
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virtual uint64_t getSymbolAddress(const std::string &Name) {
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return getSymbolAddressInProcess(Name);
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}
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/// This method returns the address of the specified symbol if it exists
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/// within the logical dynamic library represented by this
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/// RTDyldMemoryManager. Unlike getSymbolAddress, queries through this
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/// interface should return addresses for hidden symbols.
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///
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/// This is of particular importance for the Orc JIT APIs, which support lazy
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/// compilation by breaking up modules: Each of those broken out modules
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/// must be able to resolve hidden symbols provided by the others. Clients
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/// writing memory managers for MCJIT can usually ignore this method.
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///
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/// This method will be queried by RuntimeDyld when checking for previous
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/// definitions of common symbols. It will *not* be queried by default when
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/// resolving external symbols (this minimises the link-time overhead for
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/// MCJIT clients who don't care about Orc features). If you are writing a
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/// RTDyldMemoryManager for Orc and want "external" symbol resolution to
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/// search the logical dylib, you should override your getSymbolAddress
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/// method call this method directly.
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virtual uint64_t getSymbolAddressInLogicalDylib(const std::string &Name) {
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return 0;
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}
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/// This method returns the address of the specified function. As such it is
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/// only useful for resolving library symbols, not code generated symbols.
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///
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/// If \p AbortOnFailure is false and no function with the given name is
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/// found, this function returns a null pointer. Otherwise, it prints a
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/// message to stderr and aborts.
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///
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/// This function is deprecated for memory managers to be used with
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/// MCJIT or RuntimeDyld. Use getSymbolAddress instead.
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virtual void *getPointerToNamedFunction(const std::string &Name,
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bool AbortOnFailure = true);
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/// This method is called after an object has been loaded into memory but
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/// before relocations are applied to the loaded sections. The object load
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/// may have been initiated by MCJIT to resolve an external symbol for another
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/// object that is being finalized. In that case, the object about which
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/// the memory manager is being notified will be finalized immediately after
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/// the memory manager returns from this call.
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///
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/// Memory managers which are preparing code for execution in an external
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/// address space can use this call to remap the section addresses for the
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/// newly loaded object.
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virtual void notifyObjectLoaded(ExecutionEngine *EE,
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const object::ObjectFile &) {}
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/// This method is called when object loading is complete and section page
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/// permissions can be applied. It is up to the memory manager implementation
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/// to decide whether or not to act on this method. The memory manager will
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/// typically allocate all sections as read-write and then apply specific
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/// permissions when this method is called. Code sections cannot be executed
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/// until this function has been called. In addition, any cache coherency
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/// operations needed to reliably use the memory are also performed.
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///
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/// Returns true if an error occurred, false otherwise.
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virtual bool finalizeMemory(std::string *ErrMsg = nullptr) = 0;
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};
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// Create wrappers for C Binding types (see CBindingWrapping.h).
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DEFINE_SIMPLE_CONVERSION_FUNCTIONS(
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RTDyldMemoryManager, LLVMMCJITMemoryManagerRef)
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} // namespace llvm
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#endif
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