breakpad/src/google_breakpad/processor/stack_frame_cpu.h

// Copyright (c) 2006, Google Inc.
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// stack_frame_cpu.h: CPU-specific StackFrame extensions.
//
// These types extend the StackFrame structure to carry CPU-specific register
// state.  They are defined in this header instead of stack_frame.h to
// avoid the need to include minidump_format.h when only the generic
// StackFrame type is needed.
//
// Author: Mark Mentovai

#ifndef GOOGLE_BREAKPAD_PROCESSOR_STACK_FRAME_CPU_H__
#define GOOGLE_BREAKPAD_PROCESSOR_STACK_FRAME_CPU_H__

#include "google_breakpad/common/minidump_format.h"
#include "google_breakpad/processor/stack_frame.h"

namespace google_breakpad {

struct StackFrameX86 : public StackFrame {
  // ContextValidity has one entry for each relevant hardware pointer register
  // (%eip and %esp) and one entry for each nonvolatile (callee-save) register.
  enum ContextValidity {
    CONTEXT_VALID_NONE = 0,
    CONTEXT_VALID_EIP  = 1 << 0,
    CONTEXT_VALID_ESP  = 1 << 1,
    CONTEXT_VALID_EBP  = 1 << 2,
    CONTEXT_VALID_EBX  = 1 << 3,
    CONTEXT_VALID_ESI  = 1 << 4,
    CONTEXT_VALID_EDI  = 1 << 5,
    CONTEXT_VALID_ALL  = -1
  };

  // Indicates how well we trust the instruction pointer we derived
  // during stack walking. Since the stack walker can resort to
  // stack scanning, we can wind up with dubious frames.
  // In rough order of "trust metric".
  enum FrameTrust {
    FRAME_TRUST_NONE,     // Unknown
    FRAME_TRUST_SCAN,     // Scanned the stack, found this
    FRAME_TRUST_CFI_SCAN, // Scanned the stack using call frame info, found this
    FRAME_TRUST_FP,       // Derived from frame pointer
    FRAME_TRUST_CFI,      // Derived from call frame info
    FRAME_TRUST_CONTEXT   // Given as instruction pointer in a context
  };

 StackFrameX86()
     : context(),
       context_validity(CONTEXT_VALID_NONE),
       trust(FRAME_TRUST_NONE) {}

  // Register state.  This is only fully valid for the topmost frame in a
  // stack.  In other frames, the values of nonvolatile registers may be
  // present, given sufficient debugging information.  Refer to
  // context_validity.
  MDRawContextX86 context;

  // context_validity is actually ContextValidity, but int is used because
  // the OR operator doesn't work well with enumerated types.  This indicates
  // which fields in context are valid.
  int context_validity;
  
  // Amount of trust the stack walker has in the instruction pointer
  // of this frame.
  FrameTrust trust;
};

struct StackFramePPC : public StackFrame {
  // ContextValidity should eventually contain entries for the validity of
  // other nonvolatile (callee-save) registers as in
  // StackFrameX86::ContextValidity, but the ppc stackwalker doesn't currently
  // locate registers other than the ones listed here.
  enum ContextValidity {
    CONTEXT_VALID_NONE = 0,
    CONTEXT_VALID_SRR0 = 1 << 0,
    CONTEXT_VALID_GPR1 = 1 << 1,
    CONTEXT_VALID_ALL  = -1
  };

  StackFramePPC() : context(), context_validity(CONTEXT_VALID_NONE) {}

  // Register state.  This is only fully valid for the topmost frame in a
  // stack.  In other frames, the values of nonvolatile registers may be
  // present, given sufficient debugging information.  Refer to
  // context_validity.
  MDRawContextPPC context;

  // context_validity is actually ContextValidity, but int is used because
  // the OR operator doesn't work well with enumerated types.  This indicates
  // which fields in context are valid.
  int context_validity;
};

struct StackFrameAMD64 : public StackFrame {
  // ContextValidity has one entry for each relevant hardware pointer register
  // (%rip and %rsp) and one entry for each nonvolatile (callee-save) register.
  //FIXME: validate this list
  enum ContextValidity {
    CONTEXT_VALID_NONE = 0,
    CONTEXT_VALID_RIP  = 1 << 0,
    CONTEXT_VALID_RSP  = 1 << 1,
    CONTEXT_VALID_RBP  = 1 << 2,
    CONTEXT_VALID_ALL  = -1
  };

  StackFrameAMD64() : context(), context_validity(CONTEXT_VALID_NONE) {}

  // Register state.  This is only fully valid for the topmost frame in a
  // stack.  In other frames, the values of nonvolatile registers may be
  // present, given sufficient debugging information.  Refer to
  // context_validity.
  MDRawContextAMD64 context;

  // context_validity is actually ContextValidity, but int is used because
  // the OR operator doesn't work well with enumerated types.  This indicates
  // which fields in context are valid.
  int context_validity;
};

struct StackFrameSPARC : public StackFrame {
  // to be confirmed
  enum ContextValidity {
    CONTEXT_VALID_NONE = 0,
    CONTEXT_VALID_PC   = 1 << 0,
    CONTEXT_VALID_SP   = 1 << 1,
    CONTEXT_VALID_FP   = 1 << 2,
    CONTEXT_VALID_ALL  = -1
  };

  StackFrameSPARC() : context(), context_validity(CONTEXT_VALID_NONE) {}

  // Register state.  This is only fully valid for the topmost frame in a
  // stack.  In other frames, the values of nonvolatile registers may be
  // present, given sufficient debugging information.  Refer to
  // context_validity.
  MDRawContextSPARC context;

  // context_validity is actually ContextValidity, but int is used because
  // the OR operator doesn't work well with enumerated types.  This indicates
  // which fields in context are valid.
  int context_validity;
};

}  // namespace google_breakpad

#endif  // GOOGLE_BREAKPAD_PROCESSOR_STACK_FRAME_CPU_H__