path: root/src/processor/exploitability_linux.h

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// exploitability_linux.h: Linux specific exploitability engine.
//
// Provides a guess at the exploitability of the crash for the Linux
// platform given a minidump and process_state.
//
// Author: Matthew Riley

#ifndef GOOGLE_BREAKPAD_PROCESSOR_EXPLOITABILITY_LINUX_H_
#define GOOGLE_BREAKPAD_PROCESSOR_EXPLOITABILITY_LINUX_H_

#include "google_breakpad/common/breakpad_types.h"
#include "google_breakpad/processor/exploitability.h"

namespace google_breakpad {

class ExploitabilityLinux : public Exploitability {
 public:
  ExploitabilityLinux(Minidump* dump,
                      ProcessState* process_state);

  // Parameters are the minidump to analyze, the object representing process
  // state, and whether to enable objdump disassembly.
  // Enabling objdump will allow exploitability analysis to call out to
  // objdump for diassembly. It is used to check the identity of the
  // instruction that caused the program to crash. If there are any
  // portability concerns, this should not be enabled.
  ExploitabilityLinux(Minidump* dump,
                      ProcessState* process_state,
                      bool enable_objdump);

  virtual ExploitabilityRating CheckPlatformExploitability();

 private:
  friend class ExploitabilityLinuxTest;

  // Takes the address of the instruction pointer and returns
  // whether the instruction pointer lies in a valid instruction region.
  bool InstructionPointerInCode(uint64_t instruction_ptr);

  // Checks the exception that triggered the creation of the
  // minidump and reports whether the exception suggests no exploitability.
  bool BenignCrashTrigger(const MDRawExceptionStream* raw_exception_stream);

  // This method checks if the crash occurred during a write to read-only or
  // invalid memory. It does so by checking if the instruction at the
  // instruction pointer is a write instruction, and if the target of the
  // instruction is at a spot in memory that prohibits writes.
  bool EndedOnIllegalWrite(uint64_t instruction_ptr);

  // Checks if the stack pointer points to a memory mapping that is not
  // labelled as the stack.
  bool StackPointerOffStack(uint64_t stack_ptr);

  // Checks if the stack or heap are marked executable according
  // to the memory mappings.
  bool ExecutableStackOrHeap();

  // Whether this exploitability engine is permitted to shell out to objdump
  // to disassemble raw bytes.
  bool enable_objdump_;
};

}  // namespace google_breakpad

#endif  // GOOGLE_BREAKPAD_PROCESSOR_EXPLOITABILITY_LINUX_H_