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//===-- x86AssemblyInspectionEngine.h ---------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef liblldb_x86AssemblyInspectionEngine_h_
#define liblldb_x86AssemblyInspectionEngine_h_
#include "llvm-c/Disassembler.h"
#include "lldb/lldb-enumerations.h"
#include "lldb/lldb-forward.h"
#include "lldb/lldb-private.h"
#include "lldb/Core/ArchSpec.h"
#include "lldb/Utility/ConstString.h"
#include <map>
#include <vector>
namespace lldb_private {
// x86AssemblyInspectionEngine - a class which will take a buffer of bytes
// of i386/x86_64 instructions and create an UnwindPlan based on those
// assembly instructions.
class x86AssemblyInspectionEngine {
public:
/// default ctor
x86AssemblyInspectionEngine(const lldb_private::ArchSpec &arch);
/// default dtor
~x86AssemblyInspectionEngine();
/// One of the two initialize methods that can be called on this object;
/// they must be called before any of the assembly inspection methods
/// are called. This one should be used if the caller has access to a
/// valid RegisterContext.
void Initialize(lldb::RegisterContextSP ®_ctx);
/// One of the two initialize methods that can be called on this object;
/// they must be called before any of the assembly inspection methods
/// are called. This one takes a vector of register name and lldb
/// register numbers.
struct lldb_reg_info {
const char *name;
uint32_t lldb_regnum;
lldb_reg_info() : name(nullptr), lldb_regnum(LLDB_INVALID_REGNUM) {}
};
void Initialize(std::vector<lldb_reg_info> ®_info);
/// Create an UnwindPlan for a "non-call site" stack frame situation.
/// This is usually when this function/method is currently executing, and may
/// be at
/// a location where exception-handling style unwind information (eh_frame,
/// compact unwind info, arm unwind info)
/// are not valid.
/// \p data is a pointer to the instructions for the function
/// \p size is the size of the instruction buffer above
/// \p func_range is the start Address and size of the function, to be
/// included in the UnwindPlan
/// \p unwind_plan is the unwind plan that this method creates
/// \returns true if it was able to create an UnwindPlan; false if not.
bool
GetNonCallSiteUnwindPlanFromAssembly(uint8_t *data, size_t size,
lldb_private::AddressRange &func_range,
lldb_private::UnwindPlan &unwind_plan);
/// Take an existing UnwindPlan, probably from eh_frame which may be missing
/// description
/// of the epilogue instructions, and add the epilogue description to it based
/// on the
/// instructions in the function.
///
/// The \p unwind_plan 's register numbers must be converted into the lldb
/// register numbering
/// scheme OR a RegisterContext must be provided in \p reg_ctx. If the \p
/// unwind_plan
/// register numbers are already in lldb register numbering, \p reg_ctx may be
/// null.
/// \returns true if the \p unwind_plan was updated, false if it was not.
bool AugmentUnwindPlanFromCallSite(uint8_t *data, size_t size,
lldb_private::AddressRange &func_range,
lldb_private::UnwindPlan &unwind_plan,
lldb::RegisterContextSP ®_ctx);
bool FindFirstNonPrologueInstruction(uint8_t *data, size_t size,
size_t &offset);
private:
bool nonvolatile_reg_p(int machine_regno);
bool push_rbp_pattern_p();
bool push_0_pattern_p();
bool push_imm_pattern_p();
bool push_extended_pattern_p();
bool push_misc_reg_p();
bool mov_rsp_rbp_pattern_p();
bool sub_rsp_pattern_p(int &amount);
bool add_rsp_pattern_p(int &amount);
bool lea_rsp_pattern_p(int &amount);
bool lea_rbp_rsp_pattern_p(int &amount);
bool push_reg_p(int ®no);
bool pop_reg_p(int ®no);
bool pop_rbp_pattern_p();
bool pop_misc_reg_p();
bool leave_pattern_p();
bool call_next_insn_pattern_p();
bool mov_reg_to_local_stack_frame_p(int ®no, int &rbp_offset);
bool ret_pattern_p();
uint32_t extract_4(uint8_t *b);
bool instruction_length(uint8_t *insn, int &length, uint32_t buffer_remaining_bytes);
bool machine_regno_to_lldb_regno(int machine_regno, uint32_t &lldb_regno);
enum CPU { k_i386, k_x86_64, k_cpu_unspecified };
enum i386_register_numbers {
k_machine_eax = 0,
k_machine_ecx = 1,
k_machine_edx = 2,
k_machine_ebx = 3,
k_machine_esp = 4,
k_machine_ebp = 5,
k_machine_esi = 6,
k_machine_edi = 7,
k_machine_eip = 8
};
enum x86_64_register_numbers {
k_machine_rax = 0,
k_machine_rcx = 1,
k_machine_rdx = 2,
k_machine_rbx = 3,
k_machine_rsp = 4,
k_machine_rbp = 5,
k_machine_rsi = 6,
k_machine_rdi = 7,
k_machine_r8 = 8,
k_machine_r9 = 9,
k_machine_r10 = 10,
k_machine_r11 = 11,
k_machine_r12 = 12,
k_machine_r13 = 13,
k_machine_r14 = 14,
k_machine_r15 = 15,
k_machine_rip = 16
};
enum { kMaxInstructionByteSize = 32 };
uint8_t *m_cur_insn;
uint32_t m_machine_ip_regnum;
uint32_t m_machine_sp_regnum;
uint32_t m_machine_fp_regnum;
uint32_t m_lldb_ip_regnum;
uint32_t m_lldb_sp_regnum;
uint32_t m_lldb_fp_regnum;
typedef std::map<uint32_t, lldb_reg_info> MachineRegnumToNameAndLLDBRegnum;
MachineRegnumToNameAndLLDBRegnum m_reg_map;
lldb_private::ArchSpec m_arch;
CPU m_cpu;
int m_wordsize;
bool m_register_map_initialized;
::LLVMDisasmContextRef m_disasm_context;
DISALLOW_COPY_AND_ASSIGN(x86AssemblyInspectionEngine);
};
} // namespace lldb_private
#endif // liblldb_x86AssemblyInspectionEngine_h_
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