third_party/llvm-16.0/llvm/include/llvm/ExecutionEngine/JITLink/aarch64.h - SwiftShader - Git at Google

 //=== aarch64.h - Generic JITLink aarch64 edge kinds, utilities -*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Generic utilities for graphs representing aarch64 objects.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H
 #define LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H

 #include "TableManager.h"
 #include "llvm/ExecutionEngine/JITLink/JITLink.h"
 #include "llvm/ExecutionEngine/Orc/Shared/MemoryFlags.h"

 namespace llvm {
 namespace jitlink {
 namespace aarch64 {

 /// Represents aarch64 fixups and other aarch64-specific edge kinds.
 enum EdgeKind_aarch64 : Edge::Kind {

   /// A plain 64-bit pointer value relocation.
   ///
   /// Fixup expression:
   ///   Fixup <- Target + Addend : uint64
   ///
   Pointer64 = Edge::FirstRelocation,

   /// A plain 32-bit pointer value relocation.
   ///
   /// Fixup expression:
   ///   Fixup <- Target + Addend : uint32
   ///
   /// Errors:
   ///   - The target must reside in the low 32-bits of the address space,
   ///     otherwise an out-of-range error will be returned.
   ///
   Pointer32,

   /// A 64-bit delta.
   ///
   /// Delta from the fixup to the target.
   ///
   /// Fixup expression:
   ///   Fixup <- Target - Fixup + Addend : int64
   ///
   Delta64,

   /// A 32-bit delta.
   ///
   /// Delta from the fixup to the target.
   ///
   /// Fixup expression:
   ///   Fixup <- Target - Fixup + Addend : int64
   ///
   /// Errors:
   ///   - The result of the fixup expression must fit into an int32, otherwise
   ///     an out-of-range error will be returned.
   ///
   Delta32,

   /// A 64-bit negative delta.
   ///
   /// Delta from target back to the fixup.
   ///
   /// Fixup expression:
   ///   Fixup <- Fixup - Target + Addend : int64
   ///
   NegDelta64,

   /// A 32-bit negative delta.
   ///
   /// Delta from the target back to the fixup.
   ///
   /// Fixup expression:
   ///   Fixup <- Fixup - Target + Addend : int32
   ///
   /// Errors:
   ///   - The result of the fixup expression must fit into an int32, otherwise
   ///     an out-of-range error will be returned.
   NegDelta32,

   /// A 26-bit PC-relative branch.
   ///
   /// Represents a PC-relative call or branch to a target within +/-128Mb. The
   /// target must be 32-bit aligned.
   ///
   /// Fixup expression:
   ///   Fixup <- (Target - Fixup + Addend) >> 2 : int26
   ///
   /// Notes:
   ///   The '26' in the name refers to the number operand bits and follows the
   /// naming convention used by the corresponding ELF and MachO relocations.
   /// Since the low two bits must be zero (because of the 32-bit alignment of
   /// the target) the operand is effectively a signed 28-bit number.
   ///
   ///
   /// Errors:
   ///   - The result of the unshifted part of the fixup expression must be
   ///     32-bit aligned otherwise an alignment error will be returned.
   ///   - The result of the fixup expression must fit into an int26 otherwise an
   ///     out-of-range error will be returned.
   Branch26PCRel,

   /// A 16-bit slice of the target address (which slice depends on the
   /// instruction at the fixup location).
   ///
   /// Used to fix up MOVK/MOVN/MOVZ instructions.
   ///
   /// Fixup expression:
   ///
   ///   Fixup <- (Target + Addend) >> Shift : uint16
   ///
   ///   where Shift is encoded in the instruction at the fixup location.
   ///
   MoveWide16,

   /// The signed 21-bit delta from the fixup to the target.
   ///
   /// Typically used to load a pointers at a PC-relative offset of +/- 1Mb. The
   /// target must be 32-bit aligned.
   ///
   /// Fixup expression:
   ///
   ///   Fixup <- (Target - Fixup) >> 2 : int19
   ///
   /// Errors:
   ///   - The result of the unshifted part of the fixup expression must be
   ///     32-bit aligned otherwise an alignment error will be returned.
   ///   - The result of the fixup expression must fit into an an int19 or an
   ///     out-of-range error will be returned.
   LDRLiteral19,

   /// The signed 21-bit delta from the fixup page to the page containing the
   /// target.
   ///
   /// Fixup expression:
   ///
   ///   Fixup <- (((Target + Addend) & ~0xfff) - (Fixup & ~0xfff)) >> 12 : int21
   ///
   /// Notes:
   ///   For ADRP fixups.
   ///
   /// Errors:
   ///   - The result of the fixup expression must fit into an int21 otherwise an
   ///     out-of-range error will be returned.
   Page21,

   /// The 12-bit (potentially shifted) offset of the target within its page.
   ///
   /// Typically used to fix up LDR immediates.
   ///
   /// Fixup expression:
   ///
   ///   Fixup <- ((Target + Addend) >> Shift) & 0xfff : uint12
   ///
   ///   where Shift is encoded in the size field of the instruction.
   ///
   /// Errors:
   ///   - The result of the unshifted part of the fixup expression must be
   ///     aligned otherwise an alignment error will be returned.
   ///   - The result of the fixup expression must fit into a uint12 otherwise an
   ///     out-of-range error will be returned.
   PageOffset12,

   /// A GOT entry getter/constructor, transformed to Page21 pointing at the GOT
   /// entry for the original target.
   ///
   /// Indicates that this edge should be transformed into a Page21 targeting
   /// the GOT entry for the edge's current target, maintaining the same addend.
   /// A GOT entry for the target should be created if one does not already
   /// exist.
   ///
   /// Edges of this kind are usually handled by a GOT builder pass inserted by
   /// default.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestGOTAndTransformToPage21,

   /// A GOT entry getter/constructor, transformed to Pageoffset12 pointing at
   /// the GOT entry for the original target.
   ///
   /// Indicates that this edge should be transformed into a PageOffset12
   /// targeting the GOT entry for the edge's current target, maintaining the
   /// same addend. A GOT entry for the target should be created if one does not
   /// already exist.
   ///
   /// Edges of this kind are usually handled by a GOT builder pass inserted by
   /// default.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestGOTAndTransformToPageOffset12,

   /// A GOT entry getter/constructor, transformed to Delta32 pointing at the GOT
   /// entry for the original target.
   ///
   /// Indicates that this edge should be transformed into a Delta32/ targeting
   /// the GOT entry for the edge's current target, maintaining the same addend.
   /// A GOT entry for the target should be created if one does not already
   /// exist.
   ///
   /// Edges of this kind are usually handled by a GOT builder pass inserted by
   /// default.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestGOTAndTransformToDelta32,

   /// A TLVP entry getter/constructor, transformed to Page21.
   ///
   /// Indicates that this edge should be transformed into a Page21 targeting the
   /// TLVP entry for the edge's current target. A TLVP entry for the target
   /// should be created if one does not already exist.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestTLVPAndTransformToPage21,

   /// A TLVP entry getter/constructor, transformed to PageOffset12.
   ///
   /// Indicates that this edge should be transformed into a PageOffset12
   /// targeting the TLVP entry for the edge's current target. A TLVP entry for
   /// the target should be created if one does not already exist.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestTLVPAndTransformToPageOffset12,

   /// A TLSDesc entry getter/constructor, transformed to Page21.
   ///
   /// Indicates that this edge should be transformed into a Page21 targeting the
   /// TLSDesc entry for the edge's current target. A TLSDesc entry for the
   /// target should be created if one does not already exist.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestTLSDescEntryAndTransformToPage21,

   /// A TLSDesc entry getter/constructor, transformed to PageOffset12.
   ///
   /// Indicates that this edge should be transformed into a PageOffset12
   /// targeting the TLSDesc entry for the edge's current target. A TLSDesc entry
   /// for the target should be created if one does not already exist.
   ///
   /// Fixup expression:
   ///   NONE
   ///
   /// Errors:
   ///   - *ASSERTION* Failure to handle edges of this kind prior to the fixup
   ///     phase will result in an assert/unreachable during the fixup phase.
   ///
   RequestTLSDescEntryAndTransformToPageOffset12,
 };

 /// Returns a string name for the given aarch64 edge. For debugging purposes
 /// only
 const char *getEdgeKindName(Edge::Kind K);

 // Returns whether the Instr is LD/ST (imm12)
 inline bool isLoadStoreImm12(uint32_t Instr) {
   constexpr uint32_t LoadStoreImm12Mask = 0x3b000000;
   return (Instr & LoadStoreImm12Mask) == 0x39000000;
 }

 // Returns the amount the address operand of LD/ST (imm12)
 // should be shifted right by.
 //
 // The shift value varies by the data size of LD/ST instruction.
 // For instance, LDH instructoin needs the address to be shifted
 // right by 1.
 inline unsigned getPageOffset12Shift(uint32_t Instr) {
   constexpr uint32_t Vec128Mask = 0x04800000;

   if (isLoadStoreImm12(Instr)) {
     uint32_t ImplicitShift = Instr >> 30;
     if (ImplicitShift == 0)
       if ((Instr & Vec128Mask) == Vec128Mask)
         ImplicitShift = 4;

     return ImplicitShift;
   }

   return 0;
 }

 // Returns whether the Instr is MOVK/MOVZ (imm16) with a zero immediate field
 inline bool isMoveWideImm16(uint32_t Instr) {
   constexpr uint32_t MoveWideImm16Mask = 0x5f9fffe0;
   return (Instr & MoveWideImm16Mask) == 0x52800000;
 }

 // Returns the amount the address operand of MOVK/MOVZ (imm16)
 // should be shifted right by.
 //
 // The shift value is specfied in the assembly as LSL #<shift>.
 inline unsigned getMoveWide16Shift(uint32_t Instr) {
   if (isMoveWideImm16(Instr)) {
     uint32_t ImplicitShift = (Instr >> 21) & 0b11;
     return ImplicitShift << 4;
   }

   return 0;
 }

 /// Apply fixup expression for edge to block content.
 inline Error applyFixup(LinkGraph &G, Block &B, const Edge &E) {
   using namespace support;

   char *BlockWorkingMem = B.getAlreadyMutableContent().data();
   char *FixupPtr = BlockWorkingMem + E.getOffset();
   orc::ExecutorAddr FixupAddress = B.getAddress() + E.getOffset();

   switch (E.getKind()) {
   case Pointer64: {
     uint64_t Value = E.getTarget().getAddress().getValue() + E.getAddend();
     *(ulittle64_t *)FixupPtr = Value;
     break;
   }
   case Pointer32: {
     uint64_t Value = E.getTarget().getAddress().getValue() + E.getAddend();
     if (Value > std::numeric_limits<uint32_t>::max())
       return makeTargetOutOfRangeError(G, B, E);
     *(ulittle32_t *)FixupPtr = Value;
     break;
   }
   case Delta32:
   case Delta64:
   case NegDelta32:
   case NegDelta64: {
     int64_t Value;
     if (E.getKind() == Delta32 || E.getKind() == Delta64)
       Value = E.getTarget().getAddress() - FixupAddress + E.getAddend();
     else
       Value = FixupAddress - E.getTarget().getAddress() + E.getAddend();

     if (E.getKind() == Delta32 || E.getKind() == NegDelta32) {
       if (Value < std::numeric_limits<int32_t>::min() ||
           Value > std::numeric_limits<int32_t>::max())
         return makeTargetOutOfRangeError(G, B, E);
       *(little32_t *)FixupPtr = Value;
     } else
       *(little64_t *)FixupPtr = Value;
     break;
   }
   case Branch26PCRel: {
     assert((FixupAddress.getValue() & 0x3) == 0 &&
            "Branch-inst is not 32-bit aligned");

     int64_t Value = E.getTarget().getAddress() - FixupAddress + E.getAddend();

     if (static_cast<uint64_t>(Value) & 0x3)
       return make_error<JITLinkError>("BranchPCRel26 target is not 32-bit "
                                       "aligned");

     if (Value < -(1 << 27) || Value > ((1 << 27) - 1))
       return makeTargetOutOfRangeError(G, B, E);

     uint32_t RawInstr = *(little32_t *)FixupPtr;
     assert((RawInstr & 0x7fffffff) == 0x14000000 &&
            "RawInstr isn't a B or BR immediate instruction");
     uint32_t Imm = (static_cast<uint32_t>(Value) & ((1 << 28) - 1)) >> 2;
     uint32_t FixedInstr = RawInstr | Imm;
     *(little32_t *)FixupPtr = FixedInstr;
     break;
   }
   case MoveWide16: {
     uint64_t TargetOffset =
         (E.getTarget().getAddress() + E.getAddend()).getValue();

     uint32_t RawInstr = *(ulittle32_t *)FixupPtr;
     assert(isMoveWideImm16(RawInstr) &&
            "RawInstr isn't a MOVK/MOVZ instruction");

     unsigned ImmShift = getMoveWide16Shift(RawInstr);
     uint32_t Imm = (TargetOffset >> ImmShift) & 0xffff;
     uint32_t FixedInstr = RawInstr | (Imm << 5);
     *(ulittle32_t *)FixupPtr = FixedInstr;
     break;
   }
   case LDRLiteral19: {
     assert((FixupAddress.getValue() & 0x3) == 0 && "LDR is not 32-bit aligned");
     assert(E.getAddend() == 0 && "LDRLiteral19 with non-zero addend");
     uint32_t RawInstr = *(ulittle32_t *)FixupPtr;
     assert(RawInstr == 0x58000010 && "RawInstr isn't a 64-bit LDR literal");
     int64_t Delta = E.getTarget().getAddress() - FixupAddress;
     if (Delta & 0x3)
       return make_error<JITLinkError>("LDR literal target is not 32-bit "
                                       "aligned");
     if (Delta < -(1 << 20) || Delta > ((1 << 20) - 1))
       return makeTargetOutOfRangeError(G, B, E);

     uint32_t EncodedImm = ((static_cast<uint32_t>(Delta) >> 2) & 0x7ffff) << 5;
     uint32_t FixedInstr = RawInstr | EncodedImm;
     *(ulittle32_t *)FixupPtr = FixedInstr;
     break;
   }
   case Page21: {
     uint64_t TargetPage =
         (E.getTarget().getAddress().getValue() + E.getAddend()) &
         ~static_cast<uint64_t>(4096 - 1);
     uint64_t PCPage =
         FixupAddress.getValue() & ~static_cast<uint64_t>(4096 - 1);

     int64_t PageDelta = TargetPage - PCPage;
     if (!isInt<33>(PageDelta))
       return makeTargetOutOfRangeError(G, B, E);

     uint32_t RawInstr = *(ulittle32_t *)FixupPtr;
     assert((RawInstr & 0xffffffe0) == 0x90000000 &&
            "RawInstr isn't an ADRP instruction");
     uint32_t ImmLo = (static_cast<uint64_t>(PageDelta) >> 12) & 0x3;
     uint32_t ImmHi = (static_cast<uint64_t>(PageDelta) >> 14) & 0x7ffff;
     uint32_t FixedInstr = RawInstr | (ImmLo << 29) | (ImmHi << 5);
     *(ulittle32_t *)FixupPtr = FixedInstr;
     break;
   }
   case PageOffset12: {
     uint64_t TargetOffset =
         (E.getTarget().getAddress() + E.getAddend()).getValue() & 0xfff;

     uint32_t RawInstr = *(ulittle32_t *)FixupPtr;
     unsigned ImmShift = getPageOffset12Shift(RawInstr);

     if (TargetOffset & ((1 << ImmShift) - 1))
       return make_error<JITLinkError>("PAGEOFF12 target is not aligned");

     uint32_t EncodedImm = (TargetOffset >> ImmShift) << 10;
     uint32_t FixedInstr = RawInstr | EncodedImm;
     *(ulittle32_t *)FixupPtr = FixedInstr;
     break;
   }
   default:
     return make_error<JITLinkError>(
         "In graph " + G.getName() + ", section " + B.getSection().getName() +
         " unsupported edge kind " + getEdgeKindName(E.getKind()));
   }

   return Error::success();
 }

 /// aarch64 pointer size.
 constexpr uint64_t PointerSize = 8;

 /// AArch64 null pointer content.
 extern const char NullPointerContent[PointerSize];

 /// AArch64 pointer jump stub content.
 ///
 /// Contains the instruction sequence for an indirect jump via an in-memory
 /// pointer:
 ///   ADRP x16, ptr@page21
 ///   LDR  x16, [x16, ptr@pageoff12]
 ///   BR   x16
 extern const char PointerJumpStubContent[12];

 /// Creates a new pointer block in the given section and returns an
 /// Anonymous symobl pointing to it.
 ///
 /// If InitialTarget is given then an Pointer64 relocation will be added to the
 /// block pointing at InitialTarget.
 ///
 /// The pointer block will have the following default values:
 ///   alignment: 64-bit
 ///   alignment-offset: 0
 ///   address: highest allowable (~7U)
 inline Symbol &createAnonymousPointer(LinkGraph &G, Section &PointerSection,
                                       Symbol *InitialTarget = nullptr,
                                       uint64_t InitialAddend = 0) {
   auto &B = G.createContentBlock(PointerSection, NullPointerContent,
                                  orc::ExecutorAddr(~uint64_t(7)), 8, 0);
   if (InitialTarget)
     B.addEdge(Pointer64, 0, *InitialTarget, InitialAddend);
   return G.addAnonymousSymbol(B, 0, 8, false, false);
 }

 /// Create a jump stub block that jumps via the pointer at the given symbol.
 ///
 /// The stub block will have the following default values:
 ///   alignment: 32-bit
 ///   alignment-offset: 0
 ///   address: highest allowable: (~11U)
 inline Block &createPointerJumpStubBlock(LinkGraph &G, Section &StubSection,
                                          Symbol &PointerSymbol) {
   auto &B = G.createContentBlock(StubSection, PointerJumpStubContent,
                                  orc::ExecutorAddr(~uint64_t(11)), 1, 0);
   B.addEdge(Page21, 0, PointerSymbol, 0);
   B.addEdge(PageOffset12, 4, PointerSymbol, 0);
   return B;
 }

 /// Create a jump stub that jumps via the pointer at the given symbol and
 /// an anonymous symbol pointing to it. Return the anonymous symbol.
 ///
 /// The stub block will be created by createPointerJumpStubBlock.
 inline Symbol &createAnonymousPointerJumpStub(LinkGraph &G,
                                               Section &StubSection,
                                               Symbol &PointerSymbol) {
   return G.addAnonymousSymbol(
       createPointerJumpStubBlock(G, StubSection, PointerSymbol), 0,
       sizeof(PointerJumpStubContent), true, false);
 }

 /// Global Offset Table Builder.
 class GOTTableManager : public TableManager<GOTTableManager> {
 public:
   static StringRef getSectionName() { return "$__GOT"; }

   bool visitEdge(LinkGraph &G, Block *B, Edge &E) {
     Edge::Kind KindToSet = Edge::Invalid;
     const char *BlockWorkingMem = B->getContent().data();
     const char *FixupPtr = BlockWorkingMem + E.getOffset();

     switch (E.getKind()) {
     case aarch64::RequestGOTAndTransformToPage21:
     case aarch64::RequestTLVPAndTransformToPage21: {
       KindToSet = aarch64::Page21;
       break;
     }
     case aarch64::RequestGOTAndTransformToPageOffset12:
     case aarch64::RequestTLVPAndTransformToPageOffset12: {
       KindToSet = aarch64::PageOffset12;
       uint32_t RawInstr = *(const support::ulittle32_t *)FixupPtr;
       (void)RawInstr;
       assert(E.getAddend() == 0 &&
              "GOTPageOffset12/TLVPageOffset12 with non-zero addend");
       assert((RawInstr & 0xfffffc00) == 0xf9400000 &&
              "RawInstr isn't a 64-bit LDR immediate");
       break;
     }
     case aarch64::RequestGOTAndTransformToDelta32: {
       KindToSet = aarch64::Delta32;
       break;
     }
     default:
       return false;
     }
     assert(KindToSet != Edge::Invalid &&
            "Fell through switch, but no new kind to set");
     DEBUG_WITH_TYPE("jitlink", {
       dbgs() << "  Fixing " << G.getEdgeKindName(E.getKind()) << " edge at "
              << B->getFixupAddress(E) << " (" << B->getAddress() << " + "
              << formatv("{0:x}", E.getOffset()) << ")\n";
     });
     E.setKind(KindToSet);
     E.setTarget(getEntryForTarget(G, E.getTarget()));
     return true;
   }

   Symbol &createEntry(LinkGraph &G, Symbol &Target) {
     return createAnonymousPointer(G, getGOTSection(G), &Target);
   }

 private:
   Section &getGOTSection(LinkGraph &G) {
     if (!GOTSection)
       GOTSection = &G.createSection(getSectionName(),
                                     orc::MemProt::Read | orc::MemProt::Exec);
     return *GOTSection;
   }

   Section *GOTSection = nullptr;
 };

 /// Procedure Linkage Table Builder.
 class PLTTableManager : public TableManager<PLTTableManager> {
 public:
   PLTTableManager(GOTTableManager &GOT) : GOT(GOT) {}

   static StringRef getSectionName() { return "$__STUBS"; }

   bool visitEdge(LinkGraph &G, Block *B, Edge &E) {
     if (E.getKind() == aarch64::Branch26PCRel && !E.getTarget().isDefined()) {
       DEBUG_WITH_TYPE("jitlink", {
         dbgs() << "  Fixing " << G.getEdgeKindName(E.getKind()) << " edge at "
                << B->getFixupAddress(E) << " (" << B->getAddress() << " + "
                << formatv("{0:x}", E.getOffset()) << ")\n";
       });
       E.setTarget(getEntryForTarget(G, E.getTarget()));
       return true;
     }
     return false;
   }

   Symbol &createEntry(LinkGraph &G, Symbol &Target) {
     return createAnonymousPointerJumpStub(G, getStubsSection(G),
                                           GOT.getEntryForTarget(G, Target));
   }

 public:
   Section &getStubsSection(LinkGraph &G) {
     if (!StubsSection)
       StubsSection = &G.createSection(getSectionName(),
                                       orc::MemProt::Read | orc::MemProt::Exec);
     return *StubsSection;
   }

   GOTTableManager &GOT;
   Section *StubsSection = nullptr;
 };

 } // namespace aarch64
 } // namespace jitlink
 } // namespace llvm

 #endif // LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H
	//=== aarch64.h - Generic JITLink aarch64 edge kinds, utilities -- 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Generic utilities for graphs representing aarch64 objects.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H
	#define LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H

	#include "TableManager.h"
	#include "llvm/ExecutionEngine/JITLink/JITLink.h"
	#include "llvm/ExecutionEngine/Orc/Shared/MemoryFlags.h"

	namespace llvm {
	namespace jitlink {
	namespace aarch64 {

	/// Represents aarch64 fixups and other aarch64-specific edge kinds.
	enum EdgeKind_aarch64 : Edge::Kind {

	/// A plain 64-bit pointer value relocation.
	///
	/// Fixup expression:
	/// Fixup <- Target + Addend : uint64
	///
	Pointer64 = Edge::FirstRelocation,

	/// A plain 32-bit pointer value relocation.
	///
	/// Fixup expression:
	/// Fixup <- Target + Addend : uint32
	///
	/// Errors:
	/// - The target must reside in the low 32-bits of the address space,
	/// otherwise an out-of-range error will be returned.
	///
	Pointer32,

	/// A 64-bit delta.
	///
	/// Delta from the fixup to the target.
	///
	/// Fixup expression:
	/// Fixup <- Target - Fixup + Addend : int64
	///
	Delta64,

	/// A 32-bit delta.
	///
	/// Delta from the fixup to the target.
	///
	/// Fixup expression:
	/// Fixup <- Target - Fixup + Addend : int64
	///
	/// Errors:
	/// - The result of the fixup expression must fit into an int32, otherwise
	/// an out-of-range error will be returned.
	///
	Delta32,

	/// A 64-bit negative delta.
	///
	/// Delta from target back to the fixup.
	///
	/// Fixup expression:
	/// Fixup <- Fixup - Target + Addend : int64
	///
	NegDelta64,

	/// A 32-bit negative delta.
	///
	/// Delta from the target back to the fixup.
	///
	/// Fixup expression:
	/// Fixup <- Fixup - Target + Addend : int32
	///
	/// Errors:
	/// - The result of the fixup expression must fit into an int32, otherwise
	/// an out-of-range error will be returned.
	NegDelta32,

	/// A 26-bit PC-relative branch.
	///
	/// Represents a PC-relative call or branch to a target within +/-128Mb. The
	/// target must be 32-bit aligned.
	///
	/// Fixup expression:
	/// Fixup <- (Target - Fixup + Addend) >> 2 : int26
	///
	/// Notes:
	/// The '26' in the name refers to the number operand bits and follows the
	/// naming convention used by the corresponding ELF and MachO relocations.
	/// Since the low two bits must be zero (because of the 32-bit alignment of
	/// the target) the operand is effectively a signed 28-bit number.
	///
	///
	/// Errors:
	/// - The result of the unshifted part of the fixup expression must be
	/// 32-bit aligned otherwise an alignment error will be returned.
	/// - The result of the fixup expression must fit into an int26 otherwise an
	/// out-of-range error will be returned.
	Branch26PCRel,

	/// A 16-bit slice of the target address (which slice depends on the
	/// instruction at the fixup location).
	///
	/// Used to fix up MOVK/MOVN/MOVZ instructions.
	///
	/// Fixup expression:
	///
	/// Fixup <- (Target + Addend) >> Shift : uint16
	///
	/// where Shift is encoded in the instruction at the fixup location.
	///
	MoveWide16,

	/// The signed 21-bit delta from the fixup to the target.
	///
	/// Typically used to load a pointers at a PC-relative offset of +/- 1Mb. The
	/// target must be 32-bit aligned.
	///
	/// Fixup expression:
	///
	/// Fixup <- (Target - Fixup) >> 2 : int19
	///
	/// Errors:
	/// - The result of the unshifted part of the fixup expression must be
	/// 32-bit aligned otherwise an alignment error will be returned.
	/// - The result of the fixup expression must fit into an an int19 or an
	/// out-of-range error will be returned.
	LDRLiteral19,

	/// The signed 21-bit delta from the fixup page to the page containing the
	/// target.
	///
	/// Fixup expression:
	///
	/// Fixup <- (((Target + Addend) & ~0xfff) - (Fixup & ~0xfff)) >> 12 : int21
	///
	/// Notes:
	/// For ADRP fixups.
	///
	/// Errors:
	/// - The result of the fixup expression must fit into an int21 otherwise an
	/// out-of-range error will be returned.
	Page21,

	/// The 12-bit (potentially shifted) offset of the target within its page.
	///
	/// Typically used to fix up LDR immediates.
	///
	/// Fixup expression:
	///
	/// Fixup <- ((Target + Addend) >> Shift) & 0xfff : uint12
	///
	/// where Shift is encoded in the size field of the instruction.
	///
	/// Errors:
	/// - The result of the unshifted part of the fixup expression must be
	/// aligned otherwise an alignment error will be returned.
	/// - The result of the fixup expression must fit into a uint12 otherwise an
	/// out-of-range error will be returned.
	PageOffset12,

	/// A GOT entry getter/constructor, transformed to Page21 pointing at the GOT
	/// entry for the original target.
	///
	/// Indicates that this edge should be transformed into a Page21 targeting
	/// the GOT entry for the edge's current target, maintaining the same addend.
	/// A GOT entry for the target should be created if one does not already
	/// exist.
	///
	/// Edges of this kind are usually handled by a GOT builder pass inserted by
	/// default.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestGOTAndTransformToPage21,

	/// A GOT entry getter/constructor, transformed to Pageoffset12 pointing at
	/// the GOT entry for the original target.
	///
	/// Indicates that this edge should be transformed into a PageOffset12
	/// targeting the GOT entry for the edge's current target, maintaining the
	/// same addend. A GOT entry for the target should be created if one does not
	/// already exist.
	///
	/// Edges of this kind are usually handled by a GOT builder pass inserted by
	/// default.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestGOTAndTransformToPageOffset12,

	/// A GOT entry getter/constructor, transformed to Delta32 pointing at the GOT
	/// entry for the original target.
	///
	/// Indicates that this edge should be transformed into a Delta32/ targeting
	/// the GOT entry for the edge's current target, maintaining the same addend.
	/// A GOT entry for the target should be created if one does not already
	/// exist.
	///
	/// Edges of this kind are usually handled by a GOT builder pass inserted by
	/// default.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestGOTAndTransformToDelta32,

	/// A TLVP entry getter/constructor, transformed to Page21.
	///
	/// Indicates that this edge should be transformed into a Page21 targeting the
	/// TLVP entry for the edge's current target. A TLVP entry for the target
	/// should be created if one does not already exist.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestTLVPAndTransformToPage21,

	/// A TLVP entry getter/constructor, transformed to PageOffset12.
	///
	/// Indicates that this edge should be transformed into a PageOffset12
	/// targeting the TLVP entry for the edge's current target. A TLVP entry for
	/// the target should be created if one does not already exist.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestTLVPAndTransformToPageOffset12,

	/// A TLSDesc entry getter/constructor, transformed to Page21.
	///
	/// Indicates that this edge should be transformed into a Page21 targeting the
	/// TLSDesc entry for the edge's current target. A TLSDesc entry for the
	/// target should be created if one does not already exist.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestTLSDescEntryAndTransformToPage21,

	/// A TLSDesc entry getter/constructor, transformed to PageOffset12.
	///
	/// Indicates that this edge should be transformed into a PageOffset12
	/// targeting the TLSDesc entry for the edge's current target. A TLSDesc entry
	/// for the target should be created if one does not already exist.
	///
	/// Fixup expression:
	/// NONE
	///
	/// Errors:
	/// - ASSERTION Failure to handle edges of this kind prior to the fixup
	/// phase will result in an assert/unreachable during the fixup phase.
	///
	RequestTLSDescEntryAndTransformToPageOffset12,
	};

	/// Returns a string name for the given aarch64 edge. For debugging purposes
	/// only
	const char *getEdgeKindName(Edge::Kind K);

	// Returns whether the Instr is LD/ST (imm12)
	inline bool isLoadStoreImm12(uint32_t Instr) {
	constexpr uint32_t LoadStoreImm12Mask = 0x3b000000;
	return (Instr & LoadStoreImm12Mask) == 0x39000000;
	}

	// Returns the amount the address operand of LD/ST (imm12)
	// should be shifted right by.
	//
	// The shift value varies by the data size of LD/ST instruction.
	// For instance, LDH instructoin needs the address to be shifted
	// right by 1.
	inline unsigned getPageOffset12Shift(uint32_t Instr) {
	constexpr uint32_t Vec128Mask = 0x04800000;

	if (isLoadStoreImm12(Instr)) {
	uint32_t ImplicitShift = Instr >> 30;
	if (ImplicitShift == 0)
	if ((Instr & Vec128Mask) == Vec128Mask)
	ImplicitShift = 4;

	return ImplicitShift;
	}

	return 0;
	}

	// Returns whether the Instr is MOVK/MOVZ (imm16) with a zero immediate field
	inline bool isMoveWideImm16(uint32_t Instr) {
	constexpr uint32_t MoveWideImm16Mask = 0x5f9fffe0;
	return (Instr & MoveWideImm16Mask) == 0x52800000;
	}

	// Returns the amount the address operand of MOVK/MOVZ (imm16)
	// should be shifted right by.
	//
	// The shift value is specfied in the assembly as LSL #<shift>.
	inline unsigned getMoveWide16Shift(uint32_t Instr) {
	if (isMoveWideImm16(Instr)) {
	uint32_t ImplicitShift = (Instr >> 21) & 0b11;
	return ImplicitShift << 4;
	}

	return 0;
	}

	/// Apply fixup expression for edge to block content.
	inline Error applyFixup(LinkGraph &G, Block &B, const Edge &E) {
	using namespace support;

	char *BlockWorkingMem = B.getAlreadyMutableContent().data();
	char *FixupPtr = BlockWorkingMem + E.getOffset();
	orc::ExecutorAddr FixupAddress = B.getAddress() + E.getOffset();

	switch (E.getKind()) {
	case Pointer64: {
	uint64_t Value = E.getTarget().getAddress().getValue() + E.getAddend();
	(ulittle64_t )FixupPtr = Value;
	break;
	}
	case Pointer32: {
	uint64_t Value = E.getTarget().getAddress().getValue() + E.getAddend();
	if (Value > std::numeric_limits<uint32_t>::max())
	return makeTargetOutOfRangeError(G, B, E);
	(ulittle32_t )FixupPtr = Value;
	break;
	}
	case Delta32:
	case Delta64:
	case NegDelta32:
	case NegDelta64: {
	int64_t Value;
	if (E.getKind() == Delta32 \|\| E.getKind() == Delta64)
	Value = E.getTarget().getAddress() - FixupAddress + E.getAddend();
	else
	Value = FixupAddress - E.getTarget().getAddress() + E.getAddend();

	if (E.getKind() == Delta32 \|\| E.getKind() == NegDelta32) {
	if (Value < std::numeric_limits<int32_t>::min() \|\|
	Value > std::numeric_limits<int32_t>::max())
	return makeTargetOutOfRangeError(G, B, E);
	(little32_t )FixupPtr = Value;
	} else
	(little64_t )FixupPtr = Value;
	break;
	}
	case Branch26PCRel: {
	assert((FixupAddress.getValue() & 0x3) == 0 &&
	"Branch-inst is not 32-bit aligned");

	int64_t Value = E.getTarget().getAddress() - FixupAddress + E.getAddend();

	if (static_cast<uint64_t>(Value) & 0x3)
	return make_error<JITLinkError>("BranchPCRel26 target is not 32-bit "
	"aligned");

	if (Value < -(1 << 27) \|\| Value > ((1 << 27) - 1))
	return makeTargetOutOfRangeError(G, B, E);

	uint32_t RawInstr = (little32_t )FixupPtr;
	assert((RawInstr & 0x7fffffff) == 0x14000000 &&
	"RawInstr isn't a B or BR immediate instruction");
	uint32_t Imm = (static_cast<uint32_t>(Value) & ((1 << 28) - 1)) >> 2;
	uint32_t FixedInstr = RawInstr \| Imm;
	(little32_t )FixupPtr = FixedInstr;
	break;
	}
	case MoveWide16: {
	uint64_t TargetOffset =
	(E.getTarget().getAddress() + E.getAddend()).getValue();

	uint32_t RawInstr = (ulittle32_t )FixupPtr;
	assert(isMoveWideImm16(RawInstr) &&
	"RawInstr isn't a MOVK/MOVZ instruction");

	unsigned ImmShift = getMoveWide16Shift(RawInstr);
	uint32_t Imm = (TargetOffset >> ImmShift) & 0xffff;
	uint32_t FixedInstr = RawInstr \| (Imm << 5);
	(ulittle32_t )FixupPtr = FixedInstr;
	break;
	}
	case LDRLiteral19: {
	assert((FixupAddress.getValue() & 0x3) == 0 && "LDR is not 32-bit aligned");
	assert(E.getAddend() == 0 && "LDRLiteral19 with non-zero addend");
	uint32_t RawInstr = (ulittle32_t )FixupPtr;
	assert(RawInstr == 0x58000010 && "RawInstr isn't a 64-bit LDR literal");
	int64_t Delta = E.getTarget().getAddress() - FixupAddress;
	if (Delta & 0x3)
	return make_error<JITLinkError>("LDR literal target is not 32-bit "
	"aligned");
	if (Delta < -(1 << 20) \|\| Delta > ((1 << 20) - 1))
	return makeTargetOutOfRangeError(G, B, E);

	uint32_t EncodedImm = ((static_cast<uint32_t>(Delta) >> 2) & 0x7ffff) << 5;
	uint32_t FixedInstr = RawInstr \| EncodedImm;
	(ulittle32_t )FixupPtr = FixedInstr;
	break;
	}
	case Page21: {
	uint64_t TargetPage =
	(E.getTarget().getAddress().getValue() + E.getAddend()) &
	~static_cast<uint64_t>(4096 - 1);
	uint64_t PCPage =
	FixupAddress.getValue() & ~static_cast<uint64_t>(4096 - 1);

	int64_t PageDelta = TargetPage - PCPage;
	if (!isInt<33>(PageDelta))
	return makeTargetOutOfRangeError(G, B, E);

	uint32_t RawInstr = (ulittle32_t )FixupPtr;
	assert((RawInstr & 0xffffffe0) == 0x90000000 &&
	"RawInstr isn't an ADRP instruction");
	uint32_t ImmLo = (static_cast<uint64_t>(PageDelta) >> 12) & 0x3;
	uint32_t ImmHi = (static_cast<uint64_t>(PageDelta) >> 14) & 0x7ffff;
	uint32_t FixedInstr = RawInstr \| (ImmLo << 29) \| (ImmHi << 5);
	(ulittle32_t )FixupPtr = FixedInstr;
	break;
	}
	case PageOffset12: {
	uint64_t TargetOffset =
	(E.getTarget().getAddress() + E.getAddend()).getValue() & 0xfff;

	uint32_t RawInstr = (ulittle32_t )FixupPtr;
	unsigned ImmShift = getPageOffset12Shift(RawInstr);

	if (TargetOffset & ((1 << ImmShift) - 1))
	return make_error<JITLinkError>("PAGEOFF12 target is not aligned");

	uint32_t EncodedImm = (TargetOffset >> ImmShift) << 10;
	uint32_t FixedInstr = RawInstr \| EncodedImm;
	(ulittle32_t )FixupPtr = FixedInstr;
	break;
	}
	default:
	return make_error<JITLinkError>(
	"In graph " + G.getName() + ", section " + B.getSection().getName() +
	" unsupported edge kind " + getEdgeKindName(E.getKind()));
	}

	return Error::success();
	}

	/// aarch64 pointer size.
	constexpr uint64_t PointerSize = 8;

	/// AArch64 null pointer content.
	extern const char NullPointerContent[PointerSize];

	/// AArch64 pointer jump stub content.
	///
	/// Contains the instruction sequence for an indirect jump via an in-memory
	/// pointer:
	/// ADRP x16, ptr@page21
	/// LDR x16, [x16, ptr@pageoff12]
	/// BR x16
	extern const char PointerJumpStubContent[12];

	/// Creates a new pointer block in the given section and returns an
	/// Anonymous symobl pointing to it.
	///
	/// If InitialTarget is given then an Pointer64 relocation will be added to the
	/// block pointing at InitialTarget.
	///
	/// The pointer block will have the following default values:
	/// alignment: 64-bit
	/// alignment-offset: 0
	/// address: highest allowable (~7U)
	inline Symbol &createAnonymousPointer(LinkGraph &G, Section &PointerSection,
	Symbol *InitialTarget = nullptr,
	uint64_t InitialAddend = 0) {
	auto &B = G.createContentBlock(PointerSection, NullPointerContent,
	orc::ExecutorAddr(~uint64_t(7)), 8, 0);
	if (InitialTarget)
	B.addEdge(Pointer64, 0, *InitialTarget, InitialAddend);
	return G.addAnonymousSymbol(B, 0, 8, false, false);
	}

	/// Create a jump stub block that jumps via the pointer at the given symbol.
	///
	/// The stub block will have the following default values:
	/// alignment: 32-bit
	/// alignment-offset: 0
	/// address: highest allowable: (~11U)
	inline Block &createPointerJumpStubBlock(LinkGraph &G, Section &StubSection,
	Symbol &PointerSymbol) {
	auto &B = G.createContentBlock(StubSection, PointerJumpStubContent,
	orc::ExecutorAddr(~uint64_t(11)), 1, 0);
	B.addEdge(Page21, 0, PointerSymbol, 0);
	B.addEdge(PageOffset12, 4, PointerSymbol, 0);
	return B;
	}

	/// Create a jump stub that jumps via the pointer at the given symbol and
	/// an anonymous symbol pointing to it. Return the anonymous symbol.
	///
	/// The stub block will be created by createPointerJumpStubBlock.
	inline Symbol &createAnonymousPointerJumpStub(LinkGraph &G,
	Section &StubSection,
	Symbol &PointerSymbol) {
	return G.addAnonymousSymbol(
	createPointerJumpStubBlock(G, StubSection, PointerSymbol), 0,
	sizeof(PointerJumpStubContent), true, false);
	}

	/// Global Offset Table Builder.
	class GOTTableManager : public TableManager<GOTTableManager> {
	public:
	static StringRef getSectionName() { return "$__GOT"; }

	bool visitEdge(LinkGraph &G, Block *B, Edge &E) {
	Edge::Kind KindToSet = Edge::Invalid;
	const char *BlockWorkingMem = B->getContent().data();
	const char *FixupPtr = BlockWorkingMem + E.getOffset();

	switch (E.getKind()) {
	case aarch64::RequestGOTAndTransformToPage21:
	case aarch64::RequestTLVPAndTransformToPage21: {
	KindToSet = aarch64::Page21;
	break;
	}
	case aarch64::RequestGOTAndTransformToPageOffset12:
	case aarch64::RequestTLVPAndTransformToPageOffset12: {
	KindToSet = aarch64::PageOffset12;
	uint32_t RawInstr = (const support::ulittle32_t )FixupPtr;
	(void)RawInstr;
	assert(E.getAddend() == 0 &&
	"GOTPageOffset12/TLVPageOffset12 with non-zero addend");
	assert((RawInstr & 0xfffffc00) == 0xf9400000 &&
	"RawInstr isn't a 64-bit LDR immediate");
	break;
	}
	case aarch64::RequestGOTAndTransformToDelta32: {
	KindToSet = aarch64::Delta32;
	break;
	}
	default:
	return false;
	}
	assert(KindToSet != Edge::Invalid &&
	"Fell through switch, but no new kind to set");
	DEBUG_WITH_TYPE("jitlink", {
	dbgs() << " Fixing " << G.getEdgeKindName(E.getKind()) << " edge at "
	<< B->getFixupAddress(E) << " (" << B->getAddress() << " + "
	<< formatv("{0:x}", E.getOffset()) << ")\n";
	});
	E.setKind(KindToSet);
	E.setTarget(getEntryForTarget(G, E.getTarget()));
	return true;
	}

	Symbol &createEntry(LinkGraph &G, Symbol &Target) {
	return createAnonymousPointer(G, getGOTSection(G), &Target);
	}

	private:
	Section &getGOTSection(LinkGraph &G) {
	if (!GOTSection)
	GOTSection = &G.createSection(getSectionName(),
	orc::MemProt::Read \| orc::MemProt::Exec);
	return *GOTSection;
	}

	Section *GOTSection = nullptr;
	};

	/// Procedure Linkage Table Builder.
	class PLTTableManager : public TableManager<PLTTableManager> {
	public:
	PLTTableManager(GOTTableManager &GOT) : GOT(GOT) {}

	static StringRef getSectionName() { return "$__STUBS"; }

	bool visitEdge(LinkGraph &G, Block *B, Edge &E) {
	if (E.getKind() == aarch64::Branch26PCRel && !E.getTarget().isDefined()) {
	DEBUG_WITH_TYPE("jitlink", {
	dbgs() << " Fixing " << G.getEdgeKindName(E.getKind()) << " edge at "
	<< B->getFixupAddress(E) << " (" << B->getAddress() << " + "
	<< formatv("{0:x}", E.getOffset()) << ")\n";
	});
	E.setTarget(getEntryForTarget(G, E.getTarget()));
	return true;
	}
	return false;
	}

	Symbol &createEntry(LinkGraph &G, Symbol &Target) {
	return createAnonymousPointerJumpStub(G, getStubsSection(G),
	GOT.getEntryForTarget(G, Target));
	}

	public:
	Section &getStubsSection(LinkGraph &G) {
	if (!StubsSection)
	StubsSection = &G.createSection(getSectionName(),
	orc::MemProt::Read \| orc::MemProt::Exec);
	return *StubsSection;
	}

	GOTTableManager &GOT;
	Section *StubsSection = nullptr;
	};

	} // namespace aarch64
	} // namespace jitlink
	} // namespace llvm

	#endif // LLVM_EXECUTIONENGINE_JITLINK_AARCH64_H