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llvm-mirror/include/llvm/ExecutionEngine/JITSymbol.h
Chandler Carruth ae65e281f3 Update the file headers across all of the LLVM projects in the monorepo
to reflect the new license.

We understand that people may be surprised that we're moving the header
entirely to discuss the new license. We checked this carefully with the
Foundation's lawyer and we believe this is the correct approach.

Essentially, all code in the project is now made available by the LLVM
project under our new license, so you will see that the license headers
include that license only. Some of our contributors have contributed
code under our old license, and accordingly, we have retained a copy of
our old license notice in the top-level files in each project and
repository.

llvm-svn: 351636
2019-01-19 08:50:56 +00:00

410 lines
13 KiB
C++

//===- JITSymbol.h - JIT symbol abstraction ---------------------*- 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
//
//===----------------------------------------------------------------------===//
//
// Abstraction for target process addresses.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_EXECUTIONENGINE_JITSYMBOL_H
#define LLVM_EXECUTIONENGINE_JITSYMBOL_H
#include <algorithm>
#include <cassert>
#include <cstddef>
#include <cstdint>
#include <functional>
#include <map>
#include <set>
#include <string>
#include "llvm/ADT/BitmaskEnum.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Error.h"
namespace llvm {
class GlobalValue;
namespace object {
class SymbolRef;
} // end namespace object
/// Represents an address in the target process's address space.
using JITTargetAddress = uint64_t;
/// Convert a JITTargetAddress to a pointer.
template <typename T> T jitTargetAddressToPointer(JITTargetAddress Addr) {
static_assert(std::is_pointer<T>::value, "T must be a pointer type");
uintptr_t IntPtr = static_cast<uintptr_t>(Addr);
assert(IntPtr == Addr && "JITTargetAddress value out of range for uintptr_t");
return reinterpret_cast<T>(IntPtr);
}
template <typename T> JITTargetAddress pointerToJITTargetAddress(T *Ptr) {
return static_cast<JITTargetAddress>(reinterpret_cast<uintptr_t>(Ptr));
}
/// Flags for symbols in the JIT.
class JITSymbolFlags {
public:
using UnderlyingType = uint8_t;
using TargetFlagsType = uint64_t;
enum FlagNames : UnderlyingType {
None = 0,
HasError = 1U << 0,
Weak = 1U << 1,
Common = 1U << 2,
Absolute = 1U << 3,
Exported = 1U << 4,
Callable = 1U << 5,
Lazy = 1U << 6,
Materializing = 1U << 7,
LLVM_MARK_AS_BITMASK_ENUM(/* LargestValue = */ Materializing)
};
static JITSymbolFlags stripTransientFlags(JITSymbolFlags Orig) {
return static_cast<FlagNames>(Orig.Flags & ~Lazy & ~Materializing);
}
/// Default-construct a JITSymbolFlags instance.
JITSymbolFlags() = default;
/// Construct a JITSymbolFlags instance from the given flags.
JITSymbolFlags(FlagNames Flags) : Flags(Flags) {}
/// Construct a JITSymbolFlags instance from the given flags and target
/// flags.
JITSymbolFlags(FlagNames Flags, TargetFlagsType TargetFlags)
: Flags(Flags), TargetFlags(TargetFlags) {}
/// Implicitly convert to bool. Returs true if any flag is set.
explicit operator bool() const { return Flags != None || TargetFlags != 0; }
/// Compare for equality.
bool operator==(const JITSymbolFlags &RHS) const {
return Flags == RHS.Flags && TargetFlags == RHS.TargetFlags;
}
/// Bitwise AND-assignment for FlagNames.
JITSymbolFlags &operator&=(const FlagNames &RHS) {
Flags &= RHS;
return *this;
}
/// Bitwise OR-assignment for FlagNames.
JITSymbolFlags &operator|=(const FlagNames &RHS) {
Flags |= RHS;
return *this;
}
/// Return true if there was an error retrieving this symbol.
bool hasError() const {
return (Flags & HasError) == HasError;
}
/// Returns true if this is a lazy symbol.
/// This flag is used internally by the JIT APIs to track
/// materialization states.
bool isLazy() const { return Flags & Lazy; }
/// Returns true if this symbol is in the process of being
/// materialized.
bool isMaterializing() const { return Flags & Materializing; }
/// Returns true if this symbol is fully materialized.
/// (i.e. neither lazy, nor materializing).
bool isMaterialized() const { return !(Flags & (Lazy | Materializing)); }
/// Returns true if the Weak flag is set.
bool isWeak() const {
return (Flags & Weak) == Weak;
}
/// Returns true if the Common flag is set.
bool isCommon() const {
return (Flags & Common) == Common;
}
/// Returns true if the symbol isn't weak or common.
bool isStrong() const {
return !isWeak() && !isCommon();
}
/// Returns true if the Exported flag is set.
bool isExported() const {
return (Flags & Exported) == Exported;
}
/// Returns true if the given symbol is known to be callable.
bool isCallable() const { return (Flags & Callable) == Callable; }
/// Get the underlying flags value as an integer.
UnderlyingType getRawFlagsValue() const {
return static_cast<UnderlyingType>(Flags);
}
/// Return a reference to the target-specific flags.
TargetFlagsType& getTargetFlags() { return TargetFlags; }
/// Return a reference to the target-specific flags.
const TargetFlagsType& getTargetFlags() const { return TargetFlags; }
/// Construct a JITSymbolFlags value based on the flags of the given global
/// value.
static JITSymbolFlags fromGlobalValue(const GlobalValue &GV);
/// Construct a JITSymbolFlags value based on the flags of the given libobject
/// symbol.
static Expected<JITSymbolFlags>
fromObjectSymbol(const object::SymbolRef &Symbol);
private:
FlagNames Flags = None;
TargetFlagsType TargetFlags = 0;
};
inline JITSymbolFlags operator&(const JITSymbolFlags &LHS,
const JITSymbolFlags::FlagNames &RHS) {
JITSymbolFlags Tmp = LHS;
Tmp &= RHS;
return Tmp;
}
inline JITSymbolFlags operator|(const JITSymbolFlags &LHS,
const JITSymbolFlags::FlagNames &RHS) {
JITSymbolFlags Tmp = LHS;
Tmp |= RHS;
return Tmp;
}
/// ARM-specific JIT symbol flags.
/// FIXME: This should be moved into a target-specific header.
class ARMJITSymbolFlags {
public:
ARMJITSymbolFlags() = default;
enum FlagNames {
None = 0,
Thumb = 1 << 0
};
operator JITSymbolFlags::TargetFlagsType&() { return Flags; }
static ARMJITSymbolFlags fromObjectSymbol(const object::SymbolRef &Symbol);
private:
JITSymbolFlags::TargetFlagsType Flags = 0;
};
/// Represents a symbol that has been evaluated to an address already.
class JITEvaluatedSymbol {
public:
JITEvaluatedSymbol() = default;
/// Create a 'null' symbol.
JITEvaluatedSymbol(std::nullptr_t) {}
/// Create a symbol for the given address and flags.
JITEvaluatedSymbol(JITTargetAddress Address, JITSymbolFlags Flags)
: Address(Address), Flags(Flags) {}
/// An evaluated symbol converts to 'true' if its address is non-zero.
explicit operator bool() const { return Address != 0; }
/// Return the address of this symbol.
JITTargetAddress getAddress() const { return Address; }
/// Return the flags for this symbol.
JITSymbolFlags getFlags() const { return Flags; }
/// Set the flags for this symbol.
void setFlags(JITSymbolFlags Flags) { this->Flags = std::move(Flags); }
private:
JITTargetAddress Address = 0;
JITSymbolFlags Flags;
};
/// Represents a symbol in the JIT.
class JITSymbol {
public:
using GetAddressFtor = std::function<Expected<JITTargetAddress>()>;
/// Create a 'null' symbol, used to represent a "symbol not found"
/// result from a successful (non-erroneous) lookup.
JITSymbol(std::nullptr_t)
: CachedAddr(0) {}
/// Create a JITSymbol representing an error in the symbol lookup
/// process (e.g. a network failure during a remote lookup).
JITSymbol(Error Err)
: Err(std::move(Err)), Flags(JITSymbolFlags::HasError) {}
/// Create a symbol for a definition with a known address.
JITSymbol(JITTargetAddress Addr, JITSymbolFlags Flags)
: CachedAddr(Addr), Flags(Flags) {}
/// Construct a JITSymbol from a JITEvaluatedSymbol.
JITSymbol(JITEvaluatedSymbol Sym)
: CachedAddr(Sym.getAddress()), Flags(Sym.getFlags()) {}
/// Create a symbol for a definition that doesn't have a known address
/// yet.
/// @param GetAddress A functor to materialize a definition (fixing the
/// address) on demand.
///
/// This constructor allows a JIT layer to provide a reference to a symbol
/// definition without actually materializing the definition up front. The
/// user can materialize the definition at any time by calling the getAddress
/// method.
JITSymbol(GetAddressFtor GetAddress, JITSymbolFlags Flags)
: GetAddress(std::move(GetAddress)), CachedAddr(0), Flags(Flags) {}
JITSymbol(const JITSymbol&) = delete;
JITSymbol& operator=(const JITSymbol&) = delete;
JITSymbol(JITSymbol &&Other)
: GetAddress(std::move(Other.GetAddress)), Flags(std::move(Other.Flags)) {
if (Flags.hasError())
Err = std::move(Other.Err);
else
CachedAddr = std::move(Other.CachedAddr);
}
JITSymbol& operator=(JITSymbol &&Other) {
GetAddress = std::move(Other.GetAddress);
Flags = std::move(Other.Flags);
if (Flags.hasError())
Err = std::move(Other.Err);
else
CachedAddr = std::move(Other.CachedAddr);
return *this;
}
~JITSymbol() {
if (Flags.hasError())
Err.~Error();
else
CachedAddr.~JITTargetAddress();
}
/// Returns true if the symbol exists, false otherwise.
explicit operator bool() const {
return !Flags.hasError() && (CachedAddr || GetAddress);
}
/// Move the error field value out of this JITSymbol.
Error takeError() {
if (Flags.hasError())
return std::move(Err);
return Error::success();
}
/// Get the address of the symbol in the target address space. Returns
/// '0' if the symbol does not exist.
Expected<JITTargetAddress> getAddress() {
assert(!Flags.hasError() && "getAddress called on error value");
if (GetAddress) {
if (auto CachedAddrOrErr = GetAddress()) {
GetAddress = nullptr;
CachedAddr = *CachedAddrOrErr;
assert(CachedAddr && "Symbol could not be materialized.");
} else
return CachedAddrOrErr.takeError();
}
return CachedAddr;
}
JITSymbolFlags getFlags() const { return Flags; }
private:
GetAddressFtor GetAddress;
union {
JITTargetAddress CachedAddr;
Error Err;
};
JITSymbolFlags Flags;
};
/// Symbol resolution interface.
///
/// Allows symbol flags and addresses to be looked up by name.
/// Symbol queries are done in bulk (i.e. you request resolution of a set of
/// symbols, rather than a single one) to reduce IPC overhead in the case of
/// remote JITing, and expose opportunities for parallel compilation.
class JITSymbolResolver {
public:
using LookupSet = std::set<StringRef>;
using LookupResult = std::map<StringRef, JITEvaluatedSymbol>;
using OnResolvedFunction = std::function<void(Expected<LookupResult>)>;
virtual ~JITSymbolResolver() = default;
/// Returns the fully resolved address and flags for each of the given
/// symbols.
///
/// This method will return an error if any of the given symbols can not be
/// resolved, or if the resolution process itself triggers an error.
virtual void lookup(const LookupSet &Symbols,
OnResolvedFunction OnResolved) = 0;
/// Returns the subset of the given symbols that should be materialized by
/// the caller. Only weak/common symbols should be looked up, as strong
/// definitions are implicitly always part of the caller's responsibility.
virtual Expected<LookupSet>
getResponsibilitySet(const LookupSet &Symbols) = 0;
private:
virtual void anchor();
};
/// Legacy symbol resolution interface.
class LegacyJITSymbolResolver : public JITSymbolResolver {
public:
/// Performs lookup by, for each symbol, first calling
/// findSymbolInLogicalDylib and if that fails calling
/// findSymbol.
void lookup(const LookupSet &Symbols, OnResolvedFunction OnResolved) final;
/// Performs flags lookup by calling findSymbolInLogicalDylib and
/// returning the flags value for that symbol.
Expected<LookupSet> getResponsibilitySet(const LookupSet &Symbols) final;
/// This method returns the address of the specified symbol if it exists
/// within the logical dynamic library represented by this JITSymbolResolver.
/// Unlike findSymbol, queries through this interface should return addresses
/// for hidden symbols.
///
/// This is of particular importance for the Orc JIT APIs, which support lazy
/// compilation by breaking up modules: Each of those broken out modules
/// must be able to resolve hidden symbols provided by the others. Clients
/// writing memory managers for MCJIT can usually ignore this method.
///
/// This method will be queried by RuntimeDyld when checking for previous
/// definitions of common symbols.
virtual JITSymbol findSymbolInLogicalDylib(const std::string &Name) = 0;
/// This method returns the address of the specified function or variable.
/// It is used to resolve symbols during module linking.
///
/// If the returned symbol's address is equal to ~0ULL then RuntimeDyld will
/// skip all relocations for that symbol, and the client will be responsible
/// for handling them manually.
virtual JITSymbol findSymbol(const std::string &Name) = 0;
private:
virtual void anchor();
};
} // end namespace llvm
#endif // LLVM_EXECUTIONENGINE_JITSYMBOL_H