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1 
2 /*--------------------------------------------------------------------*/
3 /*--- Obtaining information about an address.  pub_tool_addrinfo.h ---*/
4 /*--------------------------------------------------------------------*/
5 
6 /*
7    This file is part of Valgrind, a dynamic binary instrumentation
8    framework.
9 
10    Copyright (C) 2000-2017 Julian Seward
11       jseward@acm.org
12 
13    This program is free software; you can redistribute it and/or
14    modify it under the terms of the GNU General Public License as
15    published by the Free Software Foundation; either version 2 of the
16    License, or (at your option) any later version.
17 
18    This program is distributed in the hope that it will be useful, but
19    WITHOUT ANY WARRANTY; without even the implied warranty of
20    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
21    General Public License for more details.
22 
23    You should have received a copy of the GNU General Public License
24    along with this program; if not, write to the Free Software
25    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
26    02111-1307, USA.
27 
28    The GNU General Public License is contained in the file COPYING.
29 */
30 
31 #ifndef __PUB_TOOL_ADDRINFO_H
32 #define __PUB_TOOL_ADDRINFO_H
33 
34 #include "pub_tool_basics.h"   // VG_ macro
35 #include "pub_tool_aspacemgr.h"  // SegKind
36 
37 /*====================================================================*/
38 /*=== Obtaining information about an address                       ===*/
39 /*====================================================================*/
40 
41 // Different kinds of blocks.
42 // Block_Mallocd is used by tools that maintain detailed information about
43 //   Client allocated heap blocks.
44 // Block_Freed is used by tools such as memcheck that maintain a 'quarantine'
45 //   list of blocks freed by the Client but not yet physically freed.
46 // Block_MempoolChunk and Block_UserG are used for mempool or user defined heap
47 //   blocks.
48 // Block_ClientArenaMallocd and Block_ClientArenaFree are used when the tool
49 //   replaces the malloc/free/... functions but does not maintain detailed
50 //   information about Client allocated heap blocks.
51 // Block_ValgrindArenaMallocd and Block_ValgrindArenaFree are used for heap
52 //   blocks of Valgrind internal heap.
53 typedef enum {
54    Block_Mallocd = 111,
55    Block_Freed,
56    Block_MempoolChunk,
57    Block_UserG,
58    Block_ClientArenaMallocd,
59    Block_ClientArenaFree,
60    Block_ValgrindArenaMallocd,
61    Block_ValgrindArenaFree,
62 } BlockKind;
63 
64 /* ------------------ Addresses -------------------- */
65 
66 /* The classification of a faulting address. */
67 typedef
68    enum {
69       Addr_Undescribed, // as-yet unclassified
70       Addr_Unknown,     // classification yielded nothing useful
71       Addr_Block,       // in malloc'd/free'd block
72       Addr_Stack,       // on a thread's stack
73       Addr_DataSym,     // in a global data sym
74       Addr_Variable,    // variable described by the debug info
75       Addr_SectKind,    // Section from a mmap-ed object file
76       Addr_BrkSegment,  // address in brk data segment
77       Addr_SegmentKind  // Client segment (mapped memory)
78    }
79    AddrTag;
80 
81 /* For an address in a stack, gives the address position in this stack. */
82 typedef
83    enum {
84       StackPos_stacked,         // Addressable and 'active' stack zone.
85       StackPos_below_stack_ptr, // Below stack ptr
86       StackPos_guard_page       // In the guard page
87    }
88    StackPos;
89 
90 
91 /* Note about ThreadInfo tid and tnr in various parts of _Addrinfo:
92    A tid is an index in the VG_(threads)[] array. The entries
93    in  VG_(threads) array are re-used, so the tid in an 'old' _Addrinfo
94    might be misleading: if the thread that was using tid has been terminated
95    and the tid was re-used by another thread, the tid will very probably
96    be wrongly interpreted by the user.
97    So, such an _Addrinfo should be printed just after it has been produced,
98    before the tid could possibly be re-used by another thread.
99 
100    A tool such as helgrind is uniquely/unambiguously identifying each thread
101    by a number. If the tool sets tnr between the call to
102    VG_(describe_addr) and the call to VG_(pp_addrinfo), then VG_(pp_addrinfo)
103    will by preference print tnr instead of tid.
104    Visually, a tid will be printed as   thread %d
105    while a tnr will be printed as       thread #%d
106 */
107 
108 typedef
109    struct _ThreadInfo {
110       ThreadId tid;   // 0 means thread not known.
111       UInt     tnr;   // 0 means no tool specific thread nr, or not known.
112    } ThreadInfo;
113 
114 /* Zeroes/clear all the fields of *tinfo. */
115 extern void VG_(initThreadInfo) (ThreadInfo *tinfo);
116 
117 typedef
118    struct _AddrInfo
119    AddrInfo;
120 
121 struct _AddrInfo {
122    AddrTag tag;
123    union {
124       // As-yet unclassified.
125       struct { } Undescribed;
126 
127       // On a stack. tinfo indicates which thread's stack?
128       // IP is the address of an instruction of the function where the
129       // stack address was. 0 if not found.
130       // frameNo is the frame nr of the call where the stack address was.
131       // -1 if not found.
132       // stackPos describes the address 'position' in the stack.
133       // If stackPos is StackPos_below_stack_ptr or StackPos_guard_page,
134       // spoffset gives the offset from the thread stack pointer.
135       // (spoffset will be negative, as stacks are assumed growing down).
136       struct {
137          ThreadInfo tinfo;
138          Addr     IP;
139          Int      frameNo;
140          StackPos stackPos;
141          PtrdiffT spoffset;
142       } Stack;
143 
144       // This covers heap blocks (normal and from mempools), user-defined
145       // blocks and Arena blocks.
146       // alloc_tinfo identifies the thread that has allocated the block.
147       // This is used by tools such as helgrind that maintain
148       // more detailed information about client blocks.
149       struct {
150          BlockKind   block_kind;
151          const HChar* block_desc;   // "block","mempool","user-defined",arena
152          SizeT       block_szB;
153          PtrdiffT    rwoffset;
154          ExeContext* allocated_at;  // might be null_ExeContext.
155          ThreadInfo  alloc_tinfo;   // which thread did alloc this block.
156          ExeContext* freed_at;      // might be null_ExeContext.
157       } Block;
158 
159       // In a global .data symbol.  This holds
160       // the variable's name (zero terminated), plus a (memory) offset.
161       struct {
162          HChar   *name;
163          PtrdiffT offset;
164       } DataSym;
165 
166       // Is described by Dwarf debug info.  XArray*s of HChar.
167       struct {
168          XArray* /* of HChar */ descr1;
169          XArray* /* of HChar */ descr2;
170       } Variable;
171 
172       // Could only narrow it down to be the PLT/GOT/etc of a given
173       // object.  Better than nothing, perhaps.
174       struct {
175          HChar      *objname;
176          VgSectKind kind;
177       } SectKind;
178 
179       // Described address is or was in the brk data segment.
180       // brk_limit is the limit that was in force
181       // at the time address was described.
182       // If address is >= brk_limit, it means address is in a zone
183       // of the data segment that was shrinked.
184       struct {
185          Addr brk_limit; // limit in force when address was described.
186       } BrkSegment;
187 
188       struct {
189          SegKind segkind;   // SkAnonC, SkFileC or SkShmC.
190          HChar   *filename; // NULL if segkind != SkFileC
191          Bool    hasR;
192          Bool    hasW;
193          Bool    hasX;
194       } SegmentKind;
195 
196       // Classification yielded nothing useful.
197       struct { } Unknown;
198 
199    } Addr;
200 };
201 
202 
203 /* Describe an address as best you can, putting the result in ai.
204    On entry, ai->tag must be equal to Addr_Undescribed.
205    This might allocate some memory, that can be cleared with
206    VG_(clear_addrinfo). */
207 extern void VG_(describe_addr) ( Addr a, /*OUT*/AddrInfo* ai );
208 
209 extern void VG_(clear_addrinfo) ( AddrInfo* ai);
210 
211 /* Prints the AddrInfo ai describing a.
212    Note that an ai with tag Addr_Undescribed will cause an assert.*/
213 extern void VG_(pp_addrinfo) ( Addr a, const AddrInfo* ai );
214 
215 /* Same as VG_(pp_addrinfo) but provides some memcheck specific behaviour:
216    * maybe_gcc indicates Addr a was just below the stack ptr when the error
217      with a was encountered.
218    * the message for Unknown tag is slightly different, as memcheck
219      has a recently freed list. */
220 extern void VG_(pp_addrinfo_mc) ( Addr a, const AddrInfo* ai, Bool maybe_gcc );
221 
222 #endif   // __PUB_TOOL_ADDRINFO_H
223 
224 /*--------------------------------------------------------------------*/
225 /*--- end                                                          ---*/
226 /*--------------------------------------------------------------------*/
227