lib/xray/xray_hexagon.cpp - llvm-project/compiler-rt - Git at Google

 //===-- xray_hexagon.cpp --------------------------------------*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // This file is a part of XRay, a dynamic runtime instrumentation system.
 //
 // Implementation of hexagon-specific routines (32-bit).
 //
 //===----------------------------------------------------------------------===//
 #include "sanitizer_common/sanitizer_common.h"
 #include "xray_defs.h"
 #include "xray_interface_internal.h"
 #include <assert.h>
 #include <atomic>

 namespace __xray {

 // The machine codes for some instructions used in runtime patching.
 enum PatchOpcodes : uint32_t {
   PO_JUMPI_14 = 0x5800c00a, // jump #0x014 (PC + 0x014)
   PO_CALLR_R6 = 0x50a6c000, // indirect call: callr r6
   PO_TFR_IMM = 0x78000000,  // transfer immed
                             // ICLASS 0x7 - S2-type A-type
   PO_IMMEXT = 0x00000000, // constant extender
 };

 enum PacketWordParseBits : uint32_t {
   PP_DUPLEX = 0x00 << 14,
   PP_NOT_END = 0x01 << 14,
   PP_PACKET_END = 0x03 << 14,
 };

 enum RegNum : uint32_t {
   RN_R6 = 0x6,
   RN_R7 = 0x7,
 };

 inline static uint32_t
 encodeExtendedTransferImmediate(uint32_t Imm, RegNum DestReg,
                                 bool PacketEnd = false) XRAY_NEVER_INSTRUMENT {
   static const uint32_t REG_MASK = 0x1f;
   assert((DestReg & (~REG_MASK)) == 0);
   // The constant-extended register transfer encodes the 6 least
   // significant bits of the effective constant:
   Imm = Imm & 0x03f;
   const PacketWordParseBits ParseBits = PacketEnd ? PP_PACKET_END : PP_NOT_END;

   return PO_TFR_IMM | ParseBits | (Imm << 5) | (DestReg & REG_MASK);
 }

 inline static uint32_t
 encodeConstantExtender(uint32_t Imm) XRAY_NEVER_INSTRUMENT {
   // Bits   Name      Description
   // -----  -------   ------------------------------------------
   // 31:28  ICLASS    Instruction class = 0000
   // 27:16  high      High 12 bits of 26-bit constant extension
   // 15:14  Parse     Parse bits
   // 13:0   low       Low 14 bits of 26-bit constant extension
   static const uint32_t IMM_MASK_LOW = 0x03fff;
   static const uint32_t IMM_MASK_HIGH = 0x00fff << 14;

   // The extender encodes the 26 most significant bits of the effective
   // constant:
   Imm = Imm >> 6;

   const uint32_t high = (Imm & IMM_MASK_HIGH) << 16;
   const uint32_t low = Imm & IMM_MASK_LOW;

   return PO_IMMEXT | high | PP_NOT_END | low;
 }

 static void WriteInstFlushCache(void *Addr, uint32_t NewInstruction) {
   asm volatile("icinva(%[inst_addr])\n\t"
                "isync\n\t"
                "memw(%[inst_addr]) = %[new_inst]\n\t"
                "dccleaninva(%[inst_addr])\n\t"
                "syncht\n\t"
                :
                : [ inst_addr ] "r"(Addr), [ new_inst ] "r"(NewInstruction)
                : "memory");
 }

 inline static bool patchSled(const bool Enable, const uint32_t FuncId,
                              const XRaySledEntry &Sled,
                              void (*TracingHook)()) XRAY_NEVER_INSTRUMENT {
   // When |Enable| == true,
   // We replace the following compile-time stub (sled):
   //
   // .L_xray_sled_N:
   // <xray_sled_base>:
   // {  jump .Ltmp0 }
   // {  nop
   //    nop
   //    nop
   //    nop }
   // .Ltmp0:

   // With the following runtime patch:
   //
   // xray_sled_n (32-bit):
   //
   // <xray_sled_n>:
   // {  immext(#...) // upper 26-bits of func id
   //    r7 = ##...   // lower  6-bits of func id
   //    immext(#...) // upper 26-bits of trampoline
   //    r6 = ##... }  // lower 6 bits of trampoline
   // {  callr r6 }
   //
   // When |Enable|==false, we set back the first instruction in the sled to be
   // {  jump .Ltmp0 }

   uint32_t *FirstAddress = reinterpret_cast<uint32_t *>(Sled.address());
   if (Enable) {
     uint32_t *CurAddress = FirstAddress + 1;
     *CurAddress = encodeExtendedTransferImmediate(FuncId, RN_R7);
     CurAddress++;
     *CurAddress = encodeConstantExtender(reinterpret_cast<uint32_t>(TracingHook));
     CurAddress++;
     *CurAddress =
         encodeExtendedTransferImmediate(reinterpret_cast<uint32_t>(TracingHook), RN_R6, true);
     CurAddress++;

     *CurAddress = uint32_t(PO_CALLR_R6);

     WriteInstFlushCache(FirstAddress, uint32_t(encodeConstantExtender(FuncId)));
   } else {
     WriteInstFlushCache(FirstAddress, uint32_t(PatchOpcodes::PO_JUMPI_14));
   }
   return true;
 }

 bool patchFunctionEntry(const bool Enable, const uint32_t FuncId,
                         const XRaySledEntry &Sled,
                         void (*Trampoline)()) XRAY_NEVER_INSTRUMENT {
   return patchSled(Enable, FuncId, Sled, Trampoline);
 }

 bool patchFunctionExit(const bool Enable, const uint32_t FuncId,
                        const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
   return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
 }

 bool patchFunctionTailExit(const bool Enable, const uint32_t FuncId,
                            const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
   return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
 }

 bool patchCustomEvent(const bool Enable, const uint32_t FuncId,
                       const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
   // FIXME: Implement in hexagon?
   return false;
 }

 bool patchTypedEvent(const bool Enable, const uint32_t FuncId,
                      const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
   // FIXME: Implement in hexagon?
   return false;
 }

 } // namespace __xray

 extern "C" void __xray_ArgLoggerEntry() XRAY_NEVER_INSTRUMENT {
   // FIXME: this will have to be implemented in the trampoline assembly file
 }
	//===-- xray_hexagon.cpp --------------------------------------- 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
	//
	//===----------------------------------------------------------------------===//
	//
	// This file is a part of XRay, a dynamic runtime instrumentation system.
	//
	// Implementation of hexagon-specific routines (32-bit).
	//
	//===----------------------------------------------------------------------===//
	#include "sanitizer_common/sanitizer_common.h"
	#include "xray_defs.h"
	#include "xray_interface_internal.h"
	#include <assert.h>
	#include <atomic>

	namespace __xray {

	// The machine codes for some instructions used in runtime patching.
	enum PatchOpcodes : uint32_t {
	PO_JUMPI_14 = 0x5800c00a, // jump #0x014 (PC + 0x014)
	PO_CALLR_R6 = 0x50a6c000, // indirect call: callr r6
	PO_TFR_IMM = 0x78000000, // transfer immed
	// ICLASS 0x7 - S2-type A-type
	PO_IMMEXT = 0x00000000, // constant extender
	};

	enum PacketWordParseBits : uint32_t {
	PP_DUPLEX = 0x00 << 14,
	PP_NOT_END = 0x01 << 14,
	PP_PACKET_END = 0x03 << 14,
	};

	enum RegNum : uint32_t {
	RN_R6 = 0x6,
	RN_R7 = 0x7,
	};

	inline static uint32_t
	encodeExtendedTransferImmediate(uint32_t Imm, RegNum DestReg,
	bool PacketEnd = false) XRAY_NEVER_INSTRUMENT {
	static const uint32_t REG_MASK = 0x1f;
	assert((DestReg & (~REG_MASK)) == 0);
	// The constant-extended register transfer encodes the 6 least
	// significant bits of the effective constant:
	Imm = Imm & 0x03f;
	const PacketWordParseBits ParseBits = PacketEnd ? PP_PACKET_END : PP_NOT_END;

	return PO_TFR_IMM \| ParseBits \| (Imm << 5) \| (DestReg & REG_MASK);
	}

	inline static uint32_t
	encodeConstantExtender(uint32_t Imm) XRAY_NEVER_INSTRUMENT {
	// Bits Name Description
	// ----- ------- ------------------------------------------
	// 31:28 ICLASS Instruction class = 0000
	// 27:16 high High 12 bits of 26-bit constant extension
	// 15:14 Parse Parse bits
	// 13:0 low Low 14 bits of 26-bit constant extension
	static const uint32_t IMM_MASK_LOW = 0x03fff;
	static const uint32_t IMM_MASK_HIGH = 0x00fff << 14;

	// The extender encodes the 26 most significant bits of the effective
	// constant:
	Imm = Imm >> 6;

	const uint32_t high = (Imm & IMM_MASK_HIGH) << 16;
	const uint32_t low = Imm & IMM_MASK_LOW;

	return PO_IMMEXT \| high \| PP_NOT_END \| low;
	}

	static void WriteInstFlushCache(void *Addr, uint32_t NewInstruction) {
	asm volatile("icinva(%[inst_addr])\n\t"
	"isync\n\t"
	"memw(%[inst_addr]) = %[new_inst]\n\t"
	"dccleaninva(%[inst_addr])\n\t"
	"syncht\n\t"
	:
	: [ inst_addr ] "r"(Addr), [ new_inst ] "r"(NewInstruction)
	: "memory");
	}

	inline static bool patchSled(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled,
	void (*TracingHook)()) XRAY_NEVER_INSTRUMENT {
	// When \|Enable\| == true,
	// We replace the following compile-time stub (sled):
	//
	// .L_xray_sled_N:
	// <xray_sled_base>:
	// { jump .Ltmp0 }
	// { nop
	// nop
	// nop
	// nop }
	// .Ltmp0:

	// With the following runtime patch:
	//
	// xray_sled_n (32-bit):
	//
	// <xray_sled_n>:
	// { immext(#...) // upper 26-bits of func id
	// r7 = ##... // lower 6-bits of func id
	// immext(#...) // upper 26-bits of trampoline
	// r6 = ##... } // lower 6 bits of trampoline
	// { callr r6 }
	//
	// When \|Enable\|==false, we set back the first instruction in the sled to be
	// { jump .Ltmp0 }

	uint32_t FirstAddress = reinterpret_cast<uint32_t >(Sled.address());
	if (Enable) {
	uint32_t *CurAddress = FirstAddress + 1;
	*CurAddress = encodeExtendedTransferImmediate(FuncId, RN_R7);
	CurAddress++;
	*CurAddress = encodeConstantExtender(reinterpret_cast<uint32_t>(TracingHook));
	CurAddress++;
	*CurAddress =
	encodeExtendedTransferImmediate(reinterpret_cast<uint32_t>(TracingHook), RN_R6, true);
	CurAddress++;

	*CurAddress = uint32_t(PO_CALLR_R6);

	WriteInstFlushCache(FirstAddress, uint32_t(encodeConstantExtender(FuncId)));
	} else {
	WriteInstFlushCache(FirstAddress, uint32_t(PatchOpcodes::PO_JUMPI_14));
	}
	return true;
	}

	bool patchFunctionEntry(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled,
	void (*Trampoline)()) XRAY_NEVER_INSTRUMENT {
	return patchSled(Enable, FuncId, Sled, Trampoline);
	}

	bool patchFunctionExit(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
	return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
	}

	bool patchFunctionTailExit(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
	return patchSled(Enable, FuncId, Sled, __xray_FunctionExit);
	}

	bool patchCustomEvent(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
	// FIXME: Implement in hexagon?
	return false;
	}

	bool patchTypedEvent(const bool Enable, const uint32_t FuncId,
	const XRaySledEntry &Sled) XRAY_NEVER_INSTRUMENT {
	// FIXME: Implement in hexagon?
	return false;
	}

	} // namespace __xray

	extern "C" void __xray_ArgLoggerEntry() XRAY_NEVER_INSTRUMENT {
	// FIXME: this will have to be implemented in the trampoline assembly file
	}