2 * Debugger CPU backend definitions
4 * Copyright 2004 Eric Pouech
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
21 enum be_cpu_addr
{be_cpu_addr_pc
, be_cpu_addr_stack
, be_cpu_addr_frame
};
22 enum be_xpoint_type
{be_xpoint_break
, be_xpoint_watch_exec
, be_xpoint_watch_read
,
23 be_xpoint_watch_write
};
27 const DWORD pointer_size
;
28 /* ------------------------------------------------------------------------------
29 * address manipulation
30 * ------------------------------------------------------------------------------ */
31 /* Linearizes an address. Only CPUs with segmented address model need this.
32 * Otherwise, implementation is straightforward (be_cpu_linearize will do)
34 void* (*linearize
)(HANDLE hThread
, const ADDRESS64
*);
35 /* Fills in an ADDRESS64 structure from a segment & an offset. CPUs without
36 * segment address model should use 0 as seg. Required method to fill
37 * in an ADDRESS64 (except an linear one).
38 * Non segmented CPU shall use be_cpu_build_addr
40 unsigned (*build_addr
)(HANDLE hThread
, const CONTEXT
* ctx
,
41 ADDRESS64
* addr
, unsigned seg
,
42 unsigned long offset
);
43 /* Retrieves in addr an address related to the context (program counter, stack
44 * pointer, frame pointer)
46 unsigned (*get_addr
)(HANDLE hThread
, const CONTEXT
* ctx
,
47 enum be_cpu_addr
, ADDRESS64
* addr
);
49 /* returns which kind of information a given register number refers to */
50 unsigned (*get_register_info
)(int regno
, enum be_cpu_addr
* kind
);
52 /* -------------------------------------------------------------------------------
53 * context manipulation
54 * ------------------------------------------------------------------------------- */
55 /* Enables/disables CPU single step mode (depending on enable) */
56 void (*single_step
)(CONTEXT
* ctx
, unsigned enable
);
57 /* Dumps out the content of the context */
58 void (*print_context
)(HANDLE hThread
, const CONTEXT
* ctx
, int all_regs
);
59 /* Prints information about segments. Non segmented CPU should leave this
62 void (*print_segment_info
)(HANDLE hThread
, const CONTEXT
* ctx
);
63 /* all the CONTEXT's relative variables, bound to this CPU */
64 const struct dbg_internal_var
* context_vars
;
66 /* -------------------------------------------------------------------------------
68 * -------------------------------------------------------------------------------*/
69 /* Check whether the instruction at addr is an insn to step over
70 * (like function call, interruption...)
72 unsigned (*is_step_over_insn
)(const void* addr
);
73 /* Check whether instruction at 'addr' is the return from a function call */
74 unsigned (*is_function_return
)(const void* addr
);
75 /* Check whether instruction at 'addr' is the CPU break instruction. On i386,
78 unsigned (*is_break_insn
)(const void*);
79 /* Check whether instruction at 'addr' is a function call */
80 unsigned (*is_function_call
)(const void* insn
, ADDRESS64
* callee
);
81 /* Ask for disassembling one instruction. If display is true, assembly code
82 * will be printed. In all cases, 'addr' is advanced at next instruction
84 void (*disasm_one_insn
)(ADDRESS64
* addr
, int display
);
85 /* -------------------------------------------------------------------------------
86 * break points / watchpoints handling
87 * -------------------------------------------------------------------------------*/
88 /* Inserts an Xpoint in the CPU context and/or debuggee address space */
89 unsigned (*insert_Xpoint
)(HANDLE hProcess
, const struct be_process_io
* pio
,
90 CONTEXT
* ctx
, enum be_xpoint_type type
,
91 void* addr
, unsigned long* val
, unsigned size
);
92 /* Removes an Xpoint in the CPU context and/or debuggee address space */
93 unsigned (*remove_Xpoint
)(HANDLE hProcess
, const struct be_process_io
* pio
,
94 CONTEXT
* ctx
, enum be_xpoint_type type
,
95 void* addr
, unsigned long val
, unsigned size
);
96 /* Checks whether a given watchpoint has been triggered */
97 unsigned (*is_watchpoint_set
)(const CONTEXT
* ctx
, unsigned idx
);
98 /* Clears the watchpoint indicator */
99 void (*clear_watchpoint
)(CONTEXT
* ctx
, unsigned idx
);
100 /* After a break instruction is executed, in the corresponding exception handler,
101 * some CPUs report the address of the insn after the break insn, some others
102 * report the address of the break insn itself.
103 * This function lets adjust the context PC to reflect this behavior.
105 int (*adjust_pc_for_break
)(CONTEXT
* ctx
, BOOL way
);
106 /* -------------------------------------------------------------------------------
107 * basic type read/write
108 * -------------------------------------------------------------------------------*/
109 /* Reads an integer from memory and stores it inside a long long int */
110 int (*fetch_integer
)(const struct dbg_lvalue
* lvalue
, unsigned size
, unsigned is_signed
, LONGLONG
*);
111 /* Reads a real from memory and stores it inside a long double */
112 int (*fetch_float
)(const struct dbg_lvalue
* lvalue
, unsigned size
, long double*);
115 extern struct backend_cpu
* be_cpu
;
117 /* some handy functions for non segmented CPUs */
118 void* be_cpu_linearize(HANDLE hThread
, const ADDRESS64
*);
119 unsigned be_cpu_build_addr(HANDLE hThread
, const CONTEXT
* ctx
, ADDRESS64
* addr
,
120 unsigned seg
, unsigned long offset
);