blob: 95cc25152969422c43148a2714fc2ac1cd844116 [file] [log] [blame]
/*
* MS debug info dumping utility
*
* Copyright 2006 Eric Pouech
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include "wine/port.h"
#include <stdlib.h>
#include <stdarg.h>
#include <stdio.h>
#ifdef HAVE_UNISTD_H
# include <unistd.h>
#endif
#include <time.h>
#ifdef HAVE_SYS_TYPES_H
# include <sys/types.h>
#endif
#ifdef HAVE_SYS_STAT_H
# include <sys/stat.h>
#endif
#ifdef HAVE_SYS_MMAN_H
#include <sys/mman.h>
#endif
#include <fcntl.h>
#define NONAMELESSUNION
#define NONAMELESSSTRUCT
#include "windef.h"
#include "winbase.h"
#include "winedump.h"
#include "wine/mscvpdb.h"
#define PSTRING(adr, ofs) \
((const struct p_string*)((const char*)(adr) + (ofs)))
static const char* p_string(const struct p_string* s)
{
static char tmp[256 + 1];
memcpy(tmp, s->name, s->namelen);
tmp[s->namelen] = '\0';
return tmp;
}
struct full_value
{
enum {fv_integer, fv_longlong} type;
union
{
int i;
long long unsigned llu;
} v;
};
static int full_numeric_leaf(struct full_value* fv, const unsigned short int* leaf)
{
unsigned short int type = *leaf++;
int length = 2;
fv->type = fv_integer;
if (type < LF_NUMERIC)
{
fv->v.i = type;
}
else
{
switch (type)
{
case LF_CHAR:
length += 1;
fv->v.i = *(const char*)leaf;
break;
case LF_SHORT:
length += 2;
fv->v.i = *(const short*)leaf;
break;
case LF_USHORT:
length += 2;
fv->v.i = *(const unsigned short*)leaf;
break;
case LF_LONG:
length += 4;
fv->v.i = *(const int*)leaf;
break;
case LF_ULONG:
length += 4;
fv->v.i = *(const unsigned int*)leaf;
break;
case LF_QUADWORD:
length += 8;
fv->type = fv_longlong;
fv->v.llu = *(const long long int*)leaf;
break;
case LF_UQUADWORD:
length += 8;
fv->type = fv_longlong;
fv->v.llu = *(const long long unsigned int*)leaf;
break;
case LF_REAL32:
length += 4;
printf(">>> unsupported leaf value %04x\n", type);
fv->v.i = 0; /* FIXME */
break;
case LF_REAL48:
length += 6;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_REAL64:
length += 8;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_REAL80:
length += 10;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_REAL128:
length += 16;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_COMPLEX32:
length += 4;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_COMPLEX64:
length += 8;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_COMPLEX80:
length += 10;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_COMPLEX128:
length += 16;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
case LF_VARSTRING:
length += 2 + *leaf;
fv->v.i = 0; /* FIXME */
printf(">>> unsupported leaf value %04x\n", type);
break;
default:
printf(">>> Unsupported numeric leaf-id %04x\n", type);
fv->v.i = 0;
break;
}
}
return length;
}
static const char* full_value_string(const struct full_value* fv)
{
static char tmp[128];
switch (fv->type)
{
case fv_integer: sprintf(tmp, "0x%x", fv->v.i); break;
case fv_longlong: sprintf(tmp, "0x%x%08x", (unsigned)(fv->v.llu >> 32), (unsigned)fv->v.llu); break;
}
return tmp;
}
static int numeric_leaf(int* value, const unsigned short int* leaf)
{
struct full_value fv;
int len = len = full_numeric_leaf(&fv, leaf);
switch (fv.type)
{
case fv_integer: *value = fv.v.i; break;
case fv_longlong: *value = (unsigned)fv.v.llu; printf("bad conversion\n"); break;
}
return len;
}
static const char* get_attr(unsigned attr)
{
static char tmp[256];
switch (attr & 3)
{
case 0: strcpy(tmp, ""); break;
case 1: strcpy(tmp, "private "); break;
case 2: strcpy(tmp, "protected "); break;
case 3: strcpy(tmp, "public "); break;
}
switch ((attr >> 2) & 7)
{
case 0: strcat(tmp, ""); break;
case 1: strcat(tmp, "virtual "); break;
case 2: strcat(tmp, "static "); break;
case 3: strcat(tmp, "friend "); break;
case 4: strcat(tmp, "introducing virtual "); break;
case 5: strcat(tmp, "pure virtual "); break;
case 6: strcat(tmp, "pure introducing virtual "); break;
case 7: strcat(tmp, "reserved "); break;
}
if ((attr >> 5) & 1) strcat(tmp, "pseudo ");
if ((attr >> 6) & 1) strcat(tmp, "no-inherit ");
if ((attr >> 7) & 1) strcat(tmp, "no-construct ");
return tmp;
}
static const char* get_property(unsigned prop)
{
static char tmp[1024];
unsigned pos = 0;
if (!prop) return "none";
#define X(s) {if (pos) tmp[pos++] = ';'; strcpy(tmp + pos, s); pos += strlen(s);}
if (prop & 0x0001) X("packed");
if (prop & 0x0002) X("w/{cd}tor");
if (prop & 0x0004) X("w/overloaded-ops");
if (prop & 0x0008) X("nested-class");
if (prop & 0x0010) X("has-nested-classes");
if (prop & 0x0020) X("w/overloaded-assign");
if (prop & 0x0040) X("w/casting-methods");
if (prop & 0x0080) X("forward");
if (prop & 0x0100) X("scoped");
#undef X
if (prop & ~0x01FF) pos += sprintf(tmp, "unk%x", prop & ~0x01FF);
else tmp[pos] = '\0';
assert(pos < sizeof(tmp));
return tmp;
}
static void do_field(const unsigned char* start, const unsigned char* end)
{
/*
* A 'field list' is a CodeView-specific data type which doesn't
* directly correspond to any high-level data type. It is used
* to hold the collection of members of a struct, class, union
* or enum type. The actual definition of that type will follow
* later, and refer to the field list definition record.
*
* As we don't have a field list type ourselves, we look ahead
* in the field list to try to find out whether this field list
* will be used for an enum or struct type, and create a dummy
* type of the corresponding sort. Later on, the definition of
* the 'real' type will copy the member / enumeration data.
*/
const unsigned char* ptr = start;
const char* cstr;
const struct p_string* pstr;
int leaf_len, value;
while (ptr < end)
{
const union codeview_fieldtype* fieldtype = (const union codeview_fieldtype*)ptr;
if (*ptr >= 0xf0) /* LF_PAD... */
{
ptr +=* ptr & 0x0f;
continue;
}
switch (fieldtype->generic.id)
{
case LF_ENUMERATE_V1:
leaf_len = numeric_leaf(&value, &fieldtype->enumerate_v1.value);
pstr = PSTRING(&fieldtype->enumerate_v1.value, leaf_len);
printf("\t\tEnumerate V1: '%s' value:%d\n",
p_string(pstr), value);
ptr += 2 + 2 + leaf_len + 1 + pstr->namelen;
break;
case LF_ENUMERATE_V3:
leaf_len = numeric_leaf(&value, &fieldtype->enumerate_v3.value);
cstr = (const char*)&fieldtype->enumerate_v3.value + leaf_len;
printf("\t\tEnumerate V3: '%s' value:%d\n",
cstr, value);
ptr += 2 + 2 + leaf_len + strlen(cstr) + 1;
break;
case LF_MEMBER_V1:
leaf_len = numeric_leaf(&value, &fieldtype->member_v1.offset);
pstr = PSTRING(&fieldtype->member_v1.offset, leaf_len);
printf("\t\tMember V1: '%s' type:%x attr:%s @%d\n",
p_string(pstr), fieldtype->member_v1.type,
get_attr(fieldtype->member_v1.attribute), value);
ptr += 2 + 2 + 2 + leaf_len + 1 + pstr->namelen;
break;
case LF_MEMBER_V2:
leaf_len = numeric_leaf(&value, &fieldtype->member_v2.offset);
pstr = PSTRING(&fieldtype->member_v2.offset, leaf_len);
printf("\t\tMember V2: '%s' type:%x attr:%s @%d\n",
p_string(pstr), fieldtype->member_v2.type,
get_attr(fieldtype->member_v2.attribute), value);
ptr += 2 + 2 + 4 + leaf_len + 1 + pstr->namelen;
break;
case LF_MEMBER_V3:
leaf_len = numeric_leaf(&value, &fieldtype->member_v3.offset);
cstr = (const char*)&fieldtype->member_v3.offset + leaf_len;
printf("\t\tMember V3: '%s' type:%x attr:%s @%d\n",
cstr, fieldtype->member_v3.type,
get_attr(fieldtype->member_v3.attribute), value);
ptr += 2 + 2 + 4 + leaf_len + strlen(cstr) + 1;
break;
case LF_ONEMETHOD_V1:
switch ((fieldtype->onemethod_v1.attribute >> 2) & 7)
{
case 4: case 6:
printf("\t\tVirtual-method V1: '%s' attr:%s type:%x vtable_offset:%u\n",
p_string(&fieldtype->onemethod_virt_v1.p_name),
get_attr(fieldtype->onemethod_virt_v1.attribute),
fieldtype->onemethod_virt_v1.type,
fieldtype->onemethod_virt_v1.vtab_offset);
ptr += 2 + 2 + 2 + 4 + (1 + fieldtype->onemethod_virt_v1.p_name.namelen);
break;
default:
printf("\t\tMethod V1: '%s' attr:%s type:%x\n",
p_string(&fieldtype->onemethod_v1.p_name),
get_attr(fieldtype->onemethod_v1.attribute),
fieldtype->onemethod_v1.type);
ptr += 2 + 2 + 2 + (1 + fieldtype->onemethod_v1.p_name.namelen);
break;
}
break;
case LF_ONEMETHOD_V2:
switch ((fieldtype->onemethod_v2.attribute >> 2) & 7)
{
case 4: case 6:
printf("\t\tVirtual-method V2: '%s' attr:%s type:%x vtable_offset:%u\n",
p_string(&fieldtype->onemethod_virt_v2.p_name),
get_attr(fieldtype->onemethod_virt_v2.attribute),
fieldtype->onemethod_virt_v2.type,
fieldtype->onemethod_virt_v2.vtab_offset);
ptr += 2 + 2 + 4 + 4 + (1 + fieldtype->onemethod_virt_v2.p_name.namelen);
break;
default:
printf("\t\tMethod V2: '%s' attr:%s type:%x\n",
p_string(&fieldtype->onemethod_v2.p_name),
get_attr(fieldtype->onemethod_v2.attribute),
fieldtype->onemethod_v2.type);
ptr += 2 + 2 + 4 + (1 + fieldtype->onemethod_v2.p_name.namelen);
break;
}
break;
case LF_ONEMETHOD_V3:
switch ((fieldtype->onemethod_v3.attribute >> 2) & 7)
{
case 4: case 6:
printf("\t\tVirtual-method V3: '%s' attr:%s type:%x vtable_offset:%u\n",
fieldtype->onemethod_virt_v3.name,
get_attr(fieldtype->onemethod_virt_v3.attribute),
fieldtype->onemethod_virt_v3.type,
fieldtype->onemethod_virt_v3.vtab_offset);
ptr += 2 + 2 + 4 + 4 + (strlen(fieldtype->onemethod_virt_v3.name) + 1);
break;
default:
printf("\t\tMethod V3: '%s' attr:%s type:%x\n",
fieldtype->onemethod_v3.name,
get_attr(fieldtype->onemethod_v3.attribute),
fieldtype->onemethod_v3.type);
ptr += 2 + 2 + 4 + (strlen(fieldtype->onemethod_v3.name) + 1);
break;
}
break;
case LF_METHOD_V1:
printf("\t\tMethod V1: '%s' overloaded=#%d method-list=%x\n",
p_string(&fieldtype->method_v1.p_name),
fieldtype->method_v1.count, fieldtype->method_v1.mlist);
ptr += 2 + 2 + 2 + (1 + fieldtype->method_v1.p_name.namelen);
break;
case LF_METHOD_V2:
printf("\t\tMethod V2: '%s' overloaded=#%d method-list=%x\n",
p_string(&fieldtype->method_v2.p_name),
fieldtype->method_v2.count, fieldtype->method_v2.mlist);
ptr += 2 + 2 + 4 + (1 + fieldtype->method_v2.p_name.namelen);
break;
case LF_METHOD_V3:
printf("\t\tMethod V3: '%s' overloaded=#%d method-list=%x\n",
fieldtype->method_v3.name,
fieldtype->method_v3.count, fieldtype->method_v3.mlist);
ptr += 2 + 2 + 4 + (strlen(fieldtype->method_v3.name) + 1);
break;
case LF_STMEMBER_V1:
printf("\t\tStatic member V1: '%s' attr:%s type:%x\n",
p_string(&fieldtype->stmember_v1.p_name),
get_attr(fieldtype->stmember_v1.attribute),
fieldtype->stmember_v1.type);
ptr += 2 + 2 + 2 + (1 + fieldtype->stmember_v1.p_name.namelen);
break;
case LF_STMEMBER_V2:
printf("\t\tStatic member V2: '%s' attr:%s type:%x\n",
p_string(&fieldtype->stmember_v2.p_name),
get_attr(fieldtype->stmember_v2.attribute),
fieldtype->stmember_v2.type);
ptr += 2 + 2 + 4 + (1 + fieldtype->stmember_v2.p_name.namelen);
break;
case LF_STMEMBER_V3:
printf("\t\tStatic member V3: '%s' attr:%s type:%x\n",
fieldtype->stmember_v3.name,
get_attr(fieldtype->stmember_v3.attribute),
fieldtype->stmember_v3.type);
ptr += 2 + 2 + 4 + (strlen(fieldtype->stmember_v3.name) + 1);
break;
case LF_FRIENDFCN_V1:
printf("\t\tFriend function V1: '%s' type:%x\n",
p_string(&fieldtype->friendfcn_v1.p_name),
fieldtype->friendfcn_v1.type);
break;
case LF_FRIENDFCN_V2:
printf("\t\tFriend function V2: '%s' type:%x\n",
p_string(&fieldtype->friendfcn_v2.p_name),
fieldtype->friendfcn_v2.type);
break;
#if 0
case LF_FRIENDFCN_V3:
printf("\t\tFriend function V3: '%s' type:%x\n",
fieldtype->friendfcn_v3.name,
fieldtype->friendfcn_v3.type);
break;
#endif
case LF_BCLASS_V1:
leaf_len = numeric_leaf(&value, &fieldtype->bclass_v1.offset);
printf("\t\tBase class V1: type:%x attr:%s @%d\n",
fieldtype->bclass_v1.type,
get_attr(fieldtype->bclass_v1.attribute), value);
ptr += 2 + 2 + 2 + leaf_len;
break;
case LF_BCLASS_V2:
leaf_len = numeric_leaf(&value, &fieldtype->bclass_v2.offset);
printf("\t\tBase class V2: type:%x attr:%s @%d\n",
fieldtype->bclass_v2.type,
get_attr(fieldtype->bclass_v2.attribute), value);
ptr += 2 + 2 + 4 + leaf_len;
break;
case LF_VBCLASS_V1:
case LF_IVBCLASS_V1:
leaf_len = numeric_leaf(&value, &fieldtype->vbclass_v1.vbpoff);
printf("\t\t%sirtual base class V1: type:%x (ptr:%x) attr:%s vbpoff:%d ",
(fieldtype->generic.id == LF_VBCLASS_V2) ? "V" : "Indirect v",
fieldtype->vbclass_v1.btype, fieldtype->vbclass_v1.vbtype,
get_attr(fieldtype->vbclass_v1.attribute), value);
ptr += 2 + 2 + 2 + 2 + leaf_len;
leaf_len = numeric_leaf(&value, (const unsigned short*)ptr);
printf("vboff:%d\n", value);
ptr += leaf_len;
break;
case LF_VBCLASS_V2:
case LF_IVBCLASS_V2:
leaf_len = numeric_leaf(&value, &fieldtype->vbclass_v1.vbpoff);
printf("\t\t%sirtual base class V2: type:%x (ptr:%x) attr:%s vbpoff:%d ",
(fieldtype->generic.id == LF_VBCLASS_V2) ? "V" : "Indirect v",
fieldtype->vbclass_v2.btype, fieldtype->vbclass_v2.vbtype,
get_attr(fieldtype->vbclass_v2.attribute), value);
ptr += 2 + 2 + 4 + 4 + leaf_len;
leaf_len = numeric_leaf(&value, (const unsigned short*)ptr);
printf("vboff:%d\n", value);
ptr += leaf_len;
break;
case LF_FRIENDCLS_V1:
printf("\t\tFriend class V1: type:%x\n", fieldtype->friendcls_v1.type);
break;
case LF_FRIENDCLS_V2:
printf("\t\tFriend class V2: type:%x\n", fieldtype->friendcls_v2.type);
break;
case LF_NESTTYPE_V1:
printf("\t\tNested type V1: '%s' type:%x\n",
p_string(&fieldtype->nesttype_v1.p_name),
fieldtype->nesttype_v1.type);
ptr += 2 + 2 + (1 + fieldtype->nesttype_v1.p_name.namelen);
break;
case LF_NESTTYPE_V2:
printf("\t\tNested type V2: '%s' pad0:%u type:%x\n",
p_string(&fieldtype->nesttype_v2.p_name),
fieldtype->nesttype_v2._pad0, fieldtype->nesttype_v2.type);
ptr += 2 + 2 + 4 + (1 + fieldtype->nesttype_v2.p_name.namelen);
break;
case LF_NESTTYPE_V3:
printf("\t\tNested type V3: '%s' pad0:%u type:%x\n",
fieldtype->nesttype_v3.name,
fieldtype->nesttype_v3._pad0, fieldtype->nesttype_v3.type);
ptr += 2 + 2 + 4 + (strlen(fieldtype->nesttype_v3.name) + 1);
break;
case LF_VFUNCTAB_V1:
printf("\t\tVirtual function table V1: type:%x\n",
fieldtype->vfunctab_v1.type);
ptr += 2 + 2;
break;
case LF_VFUNCTAB_V2:
printf("\t\tVirtual function table V2: type:%x\n",
fieldtype->vfunctab_v2.type);
ptr += 2 + 2 + 4;
break;
case LF_VFUNCOFF_V1:
printf("\t\tVirtual function table offset V1: type:%x offset:%x\n",
fieldtype->vfuncoff_v1.type, fieldtype->vfuncoff_v1.offset);
break;
case LF_VFUNCOFF_V2:
printf("\t\tVirtual function table offset V2: type:%x offset:%x\n",
fieldtype->vfuncoff_v2.type, fieldtype->vfuncoff_v2.offset);
break;
default:
printf(">>> Unsupported field-id %x\n", fieldtype->generic.id);
dump_data((const void*)fieldtype, 0x30, "\t");
break;
}
}
}
static void codeview_dump_one_type(unsigned curr_type, const union codeview_type* type)
{
const union codeview_reftype* reftype = (const union codeview_reftype*)type;
int i, leaf_len, value;
unsigned int j;
const char* str;
switch (type->generic.id)
{
case LF_POINTER_V1:
printf("\t%x => Pointer V1 to type:%x\n",
curr_type, type->pointer_v1.datatype);
break;
case LF_POINTER_V2:
printf("\t%x => Pointer V2 to type:%x\n",
curr_type, type->pointer_v2.datatype);
break;
case LF_ARRAY_V1:
leaf_len = numeric_leaf(&value, &type->array_v1.arrlen);
printf("\t%x => Array V1-'%s'[%u type:%x] type:%x\n",
curr_type, p_string(PSTRING(&type->array_v1.arrlen, leaf_len)),
value, type->array_v1.idxtype, type->array_v1.elemtype);
break;
case LF_ARRAY_V2:
leaf_len = numeric_leaf(&value, &type->array_v2.arrlen);
printf("\t%x => Array V2-'%s'[%u type:%x] type:%x\n",
curr_type, p_string(PSTRING(&type->array_v2.arrlen, leaf_len)),
value, type->array_v2.idxtype, type->array_v2.elemtype);
break;
case LF_ARRAY_V3:
leaf_len = numeric_leaf(&value, &type->array_v3.arrlen);
str = (const char*)&type->array_v3.arrlen + leaf_len;
printf("\t%x => Array V3-'%s'[%u type:%x] type:%x\n",
curr_type, str, value,
type->array_v3.idxtype, type->array_v3.elemtype);
break;
/* a bitfields is a CodeView specific data type which represent a bitfield
* in a structure or a class. For now, we store it in a SymTag-like type
* (so that the rest of the process is seamless), but check at udt inclusion
* type for its presence
*/
case LF_BITFIELD_V1:
printf("\t%x => Bitfield V1:%x offset:%u #bits:%u\n",
curr_type, reftype->bitfield_v1.type, reftype->bitfield_v1.bitoff,
reftype->bitfield_v1.nbits);
break;
case LF_BITFIELD_V2:
printf("\t%x => Bitfield V2:%x offset:%u #bits:%u\n",
curr_type, reftype->bitfield_v2.type, reftype->bitfield_v2.bitoff,
reftype->bitfield_v2.nbits);
break;
case LF_FIELDLIST_V1:
case LF_FIELDLIST_V2:
printf("\t%x => Fieldlist\n", curr_type);
do_field(reftype->fieldlist.list, (const BYTE*)type + reftype->generic.len + 2);
break;
case LF_STRUCTURE_V1:
case LF_CLASS_V1:
leaf_len = numeric_leaf(&value, &type->struct_v1.structlen);
printf("\t%x => %s V1 '%s' elts:%u property:%s fieldlist-type:%x derived-type:%x vshape:%x size:%u\n",
curr_type, type->generic.id == LF_CLASS_V1 ? "Class" : "Struct",
p_string(PSTRING(&type->struct_v1.structlen, leaf_len)),
type->struct_v1.n_element, get_property(type->struct_v1.property),
type->struct_v1.fieldlist, type->struct_v1.derived,
type->struct_v1.vshape, value);
break;
case LF_STRUCTURE_V2:
case LF_CLASS_V2:
leaf_len = numeric_leaf(&value, &type->struct_v2.structlen);
printf("\t%x => %s V2 '%s' elts:%u property:%s\n"
" fieldlist-type:%x derived-type:%x vshape:%x size:%u\n",
curr_type, type->generic.id == LF_CLASS_V2 ? "Class" : "Struct",
p_string(PSTRING(&type->struct_v2.structlen, leaf_len)),
type->struct_v2.n_element, get_property(type->struct_v2.property),
type->struct_v2.fieldlist, type->struct_v2.derived,
type->struct_v2.vshape, value);
break;
case LF_STRUCTURE_V3:
case LF_CLASS_V3:
leaf_len = numeric_leaf(&value, &type->struct_v3.structlen);
str = (const char*)&type->struct_v3.structlen + leaf_len;
printf("\t%x => %s V3 '%s' elts:%u property:%s\n"
" fieldlist-type:%x derived-type:%x vshape:%x size:%u\n",
curr_type, type->generic.id == LF_CLASS_V3 ? "Class" : "Struct",
str, type->struct_v3.n_element, get_property(type->struct_v3.property),
type->struct_v3.fieldlist, type->struct_v3.derived,
type->struct_v3.vshape, value);
break;
case LF_UNION_V1:
leaf_len = numeric_leaf(&value, &type->union_v1.un_len);
printf("\t%x => Union V1 '%s' count:%u property:%s fieldlist-type:%x size:%u\n",
curr_type, p_string(PSTRING(&type->union_v1.un_len, leaf_len)),
type->union_v1.count, get_property(type->union_v1.property),
type->union_v1.fieldlist, value);
break;
case LF_UNION_V2:
leaf_len = numeric_leaf(&value, &type->union_v2.un_len);
printf("\t%x => Union V2 '%s' count:%u property:%s fieldlist-type:%x size:%u\n",
curr_type, p_string(PSTRING(&type->union_v2.un_len, leaf_len)),
type->union_v2.count, get_property(type->union_v2.property),
type->union_v2.fieldlist, value);
break;
case LF_UNION_V3:
leaf_len = numeric_leaf(&value, &type->union_v3.un_len);
str = (const char*)&type->union_v3.un_len + leaf_len;
printf("\t%x => Union V3 '%s' count:%u property:%s fieldlist-type:%x size:%u\n",
curr_type, str, type->union_v3.count,
get_property(type->union_v3.property),
type->union_v3.fieldlist, value);
break;
case LF_ENUM_V1:
printf("\t%x => Enum V1 '%s' type:%x field-type:%x count:%u property:%s\n",
curr_type, p_string(&type->enumeration_v1.p_name),
type->enumeration_v1.type,
type->enumeration_v1.fieldlist,
type->enumeration_v1.count,
get_property(type->enumeration_v1.property));
break;
case LF_ENUM_V2:
printf("\t%x => Enum V2 '%s' type:%x field-type:%x count:%u property:%s\n",
curr_type, p_string(&type->enumeration_v2.p_name),
type->enumeration_v2.type,
type->enumeration_v2.fieldlist,
type->enumeration_v2.count,
get_property(type->enumeration_v2.property));
break;
case LF_ENUM_V3:
printf("\t%x => Enum V3 '%s' type:%x field-type:%x count:%u property:%s\n",
curr_type, type->enumeration_v3.name,
type->enumeration_v3.type,
type->enumeration_v3.fieldlist,
type->enumeration_v3.count,
get_property(type->enumeration_v3.property));
break;
case LF_ARGLIST_V1:
printf("\t%x => Arglist V1(#%u):", curr_type, reftype->arglist_v1.num);
for (i = 0; i < reftype->arglist_v1.num; i++)
{
printf(" %x", reftype->arglist_v1.args[i]);
}
printf("\n");
break;
case LF_ARGLIST_V2:
printf("\t%x => Arglist V2(#%u):", curr_type, reftype->arglist_v2.num);
for (j = 0; j < reftype->arglist_v2.num; j++)
{
printf("\t %x", reftype->arglist_v2.args[j]);
}
printf("\t\n");
break;
case LF_PROCEDURE_V1:
/* FIXME: unknown could be the calling convention for the proc */
printf("\t%x => Procedure V1 ret_type:%x call:%x (#%u args_type:%x)\n",
curr_type, type->procedure_v1.rvtype,
type->procedure_v1.call, type->procedure_v1.params,
type->procedure_v1.arglist);
break;
case LF_PROCEDURE_V2:
printf("\t%x => Procedure V2 ret_type:%x unk:%x (#%u args_type:%x)\n",
curr_type, type->procedure_v2.rvtype,
type->procedure_v2.call, type->procedure_v2.params,
type->procedure_v2.arglist);
break;
case LF_MFUNCTION_V2:
printf("\t%x => MFunction V2 ret-type:%x call:%x class-type:%x this-type:%x\n"
"\t\t#args:%x args-type:%x this_adjust:%x\n",
curr_type,
type->mfunction_v2.rvtype,
type->mfunction_v2.call,
type->mfunction_v2.class_type,
type->mfunction_v2.this_type,
type->mfunction_v2.params,
type->mfunction_v2.arglist,
type->mfunction_v2.this_adjust);
break;
case LF_MODIFIER_V1:
printf("\t%x => Modifier V1 type:%x modif:%x\n",
curr_type, type->modifier_v1.type, type->modifier_v1.attribute);
break;
case LF_MODIFIER_V2:
printf("\t%x => Modifier V2 type:%x modif:%x\n",
curr_type, type->modifier_v2.type, type->modifier_v2.attribute);
break;
case LF_METHODLIST_V1:
{
const unsigned short* pattr = (const unsigned short*)((const char*)type + 4);
printf("\t%x => Method list\n", curr_type);
while ((const char*)pattr < (const char*)type + type->generic.len + 2)
{
switch ((*pattr >> 2) & 7)
{
case 4: case 6:
printf("\t\t\tattr:%s type:%x vtab-offset:%x\n",
get_attr(pattr[0]), pattr[1],
*(const unsigned*)(&pattr[2]));
pattr += 3;
break;
default:
printf("\t\t\tattr:%s type:%x\n",
get_attr(pattr[0]), pattr[1]);
pattr += 2;
}
}
}
break;
case LF_METHODLIST_V2:
{
const unsigned* pattr = (const unsigned*)((const char*)type + 4);
printf("\t%x => Method list\n", curr_type);
while ((const char*)pattr < (const char*)type + type->generic.len + 2)
{
switch ((*pattr >> 2) & 7)
{
case 4: case 6:
printf("\t\t\tattr:%s type:%x vtab-offset:%x\n",
get_attr(pattr[0]), pattr[1], pattr[2]);
pattr += 3;
break;
default:
printf("\t\t\tattr:%s type:%x\n",
get_attr(pattr[0]), pattr[1]);
pattr += 2;
}
}
}
break;
case LF_VTSHAPE_V1:
{
int count = *(const unsigned short*)((const char*)type + 4);
int shift = 0;
const char* ptr = (const char*)type + 6;
const char* desc[] = {"Near", "Far", "Thin", "Disp to outtermost",
"Pointer to metaclass", "Near32", "Far32"};
printf("\t%x => VT Shape #%d: ", curr_type, count);
while (count--)
{
if (((*ptr << shift) & 0xF) <= 6)
printf("%s ", desc[(*ptr << shift) & 0xF]);
else
printf("%x ", (*ptr << shift) & 0xF);
if (shift == 0) shift = 4; else {shift = 0; ptr++;}
}
printf("\n");
}
break;
case LF_DERIVED_V1:
printf("\t%x => Derived V1(#%u):", curr_type, reftype->derived_v1.num);
for (i = 0; i < reftype->derived_v1.num; i++)
{
printf(" %x", reftype->derived_v1.drvdcls[i]);
}
printf("\n");
break;
case LF_DERIVED_V2:
printf("\t%x => Derived V2(#%u):", curr_type, reftype->derived_v2.num);
for (j = 0; j < reftype->derived_v2.num; j++)
{
printf(" %x", reftype->derived_v2.drvdcls[j]);
}
printf("\n");
break;
default:
printf(">>> Unsupported type-id %x for %x\n", type->generic.id, curr_type);
dump_data((const void*)type, type->generic.len + 2, "");
break;
}
}
int codeview_dump_types_from_offsets(const void* table, const DWORD* offsets, unsigned num_types)
{
unsigned long i;
for (i = 0; i < num_types; i++)
{
codeview_dump_one_type(0x1000 + i,
(const union codeview_type*)((const char*)table + offsets[i]));
}
return TRUE;
}
int codeview_dump_types_from_block(const void* table, unsigned long len)
{
unsigned int curr_type = 0x1000;
const unsigned char*ptr = table;
while (ptr - (const unsigned char*)table < len)
{
const union codeview_type* type = (const union codeview_type*)ptr;
codeview_dump_one_type(curr_type, type);
curr_type++;
ptr += (type->generic.len + 2 + 3) & ~3;
}
return TRUE;
}
int codeview_dump_symbols(const void* root, unsigned long size)
{
unsigned int i;
int length;
char* curr_func = NULL;
int nest_block = 0;
/*
* Loop over the different types of records and whenever we
* find something we are interested in, record it and move on.
*/
for (i = 0; i < size; i += length)
{
const union codeview_symbol* sym = (const union codeview_symbol*)((const char*)root + i);
length = sym->generic.len + 2;
if (!sym->generic.id || length < 4) break;
switch (sym->generic.id)
{
/*
* Global and local data symbols. We don't associate these
* with any given source file.
*/
case S_GDATA_V2:
case S_LDATA_V2:
printf("\tS-%s-Data V2 '%s' %04x:%08x type:%08x\n",
sym->generic.id == S_GDATA_V2 ? "Global" : "Local",
get_symbol_str(p_string(&sym->data_v2.p_name)),
sym->data_v2.segment, sym->data_v2.offset, sym->data_v2.symtype);
break;
case S_LDATA_V3:
case S_GDATA_V3:
/* EPP case S_DATA_V3: */
printf("\tS-%s-Data V3 '%s' (%04x:%08x) type:%08x\n",
sym->generic.id == S_GDATA_V3 ? "Global" : "Local",
get_symbol_str(sym->data_v3.name),
sym->data_v3.segment, sym->data_v3.offset,
sym->data_v3.symtype);
break;
case S_PUB_V2:
printf("\tS-Public V2 '%s' %04x:%08x type:%08x\n",
get_symbol_str(p_string(&sym->public_v2.p_name)),
sym->public_v2.segment, sym->public_v2.offset,
sym->public_v2.symtype);
break;
case S_PUB_V3:
/* not completely sure of those two anyway */
case S_PUB_FUNC1_V3:
case S_PUB_FUNC2_V3:
printf("\tS-Public%s V3 '%s' %04x:%08x type:%08x\n",
sym->generic.id == S_PUB_V3 ? "" :
(sym->generic.id == S_PUB_FUNC1_V3 ? "<subkind1" : "<subkind2"),
get_symbol_str(sym->public_v3.name),
sym->public_v3.segment,
sym->public_v3.offset, sym->public_v3.symtype);
break;
/*
* Sort of like a global function, but it just points
* to a thunk, which is a stupid name for what amounts to
* a PLT slot in the normal jargon that everyone else uses.
*/
case S_THUNK_V1:
printf("\tS-Thunk V1 '%s' (%04x:%08x#%x) type:%x\n",
p_string(&sym->thunk_v1.p_name),
sym->thunk_v1.segment, sym->thunk_v1.offset,
sym->thunk_v1.thunk_len, sym->thunk_v1.thtype);
curr_func = strdup(p_string(&sym->thunk_v1.p_name));
break;
case S_THUNK_V3:
printf("\tS-Thunk V3 '%s' (%04x:%08x#%x) type:%x\n",
sym->thunk_v3.name,
sym->thunk_v3.segment, sym->thunk_v3.offset,
sym->thunk_v3.thunk_len, sym->thunk_v3.thtype);
curr_func = strdup(sym->thunk_v3.name);
break;
/* Global and static functions */
case S_GPROC_V1:
case S_LPROC_V1:
printf("\tS-%s-Proc V1: '%s' (%04x:%08x#%x) type:%x attr:%x\n",
sym->generic.id == S_GPROC_V1 ? "Global" : "-Local",
p_string(&sym->proc_v1.p_name),
sym->proc_v1.segment, sym->proc_v1.offset,
sym->proc_v1.proc_len, sym->proc_v1.proctype,
sym->proc_v1.flags);
printf("\t Debug: start=%08x end=%08x\n",
sym->proc_v1.debug_start, sym->proc_v1.debug_end);
if (nest_block)
{
printf(">>> prev func '%s' still has nest_block %u count\n", curr_func, nest_block);
nest_block = 0;
}
curr_func = strdup(p_string(&sym->proc_v1.p_name));
/* EPP unsigned int pparent; */
/* EPP unsigned int pend; */
/* EPP unsigned int next; */
break;
case S_GPROC_V2:
case S_LPROC_V2:
printf("\tS-%s-Proc V2: '%s' (%04x:%08x#%x) type:%x attr:%x\n",
sym->generic.id == S_GPROC_V2 ? "Global" : "-Local",
p_string(&sym->proc_v2.p_name),
sym->proc_v2.segment, sym->proc_v2.offset,
sym->proc_v2.proc_len, sym->proc_v2.proctype,
sym->proc_v2.flags);
printf("\t Debug: start=%08x end=%08x\n",
sym->proc_v2.debug_start, sym->proc_v2.debug_end);
if (nest_block)
{
printf(">>> prev func '%s' still has nest_block %u count\n", curr_func, nest_block);
nest_block = 0;
}
curr_func = strdup(p_string(&sym->proc_v2.p_name));
/* EPP unsigned int pparent; */
/* EPP unsigned int pend; */
/* EPP unsigned int next; */
break;
case S_LPROC_V3:
case S_GPROC_V3:
printf("\tS-%s-Procedure V3 '%s' (%04x:%08x#%x) type:%x attr:%x\n",
sym->generic.id == S_GPROC_V3 ? "Global" : "Local",
sym->proc_v3.name,
sym->proc_v3.segment, sym->proc_v3.offset,
sym->proc_v3.proc_len, sym->proc_v3.proctype,
sym->proc_v3.flags);
printf("\t Debug: start=%08x end=%08x\n",
sym->proc_v3.debug_start, sym->proc_v3.debug_end);
if (nest_block)
{
printf(">>> prev func '%s' still has nest_block %u count\n", curr_func, nest_block);
nest_block = 0;
}
curr_func = strdup(sym->proc_v3.name);
/* EPP unsigned int pparent; */
/* EPP unsigned int pend; */
/* EPP unsigned int next; */
break;
/* Function parameters and stack variables */
case S_BPREL_V1:
printf("\tS-BP-relative V1: '%s' @%d type:%x (%s)\n",
p_string(&sym->stack_v1.p_name),
sym->stack_v1.offset, sym->stack_v1.symtype, curr_func);
break;
case S_BPREL_V2:
printf("\tS-BP-relative V2: '%s' @%d type:%x (%s)\n",
p_string(&sym->stack_v2.p_name),
sym->stack_v2.offset, sym->stack_v2.symtype, curr_func);
break;
case S_BPREL_V3:
printf("\tS-BP-relative V3: '%s' @%d type:%x (in %s)\n",
sym->stack_v3.name, sym->stack_v3.offset,
sym->stack_v3.symtype, curr_func);
break;
case S_BPREL_XXXX_V3:
printf("\tS-BP-relative XXXX V3: '%s' @%d type:%x unkn:%x (in %s)\n",
sym->stack_xxxx_v3.name, sym->stack_xxxx_v3.offset,
sym->stack_xxxx_v3.symtype, sym->stack_xxxx_v3.unknown, curr_func);
break;
case S_REGISTER_V1:
printf("\tS-Register V1 '%s' in %s type:%x register:%x\n",
p_string(&sym->register_v1.p_name),
curr_func, sym->register_v1.reg, sym->register_v1.type);
break;
case S_REGISTER_V2:
printf("\tS-Register V2 '%s' in %s type:%x register:%x\n",
p_string(&sym->register_v2.p_name),
curr_func, sym->register_v2.reg, sym->register_v2.type);
break;
case S_REGISTER_V3:
printf("\tS-Register V3 '%s' in %s type:%x register:%x\n",
sym->register_v3.name,
curr_func, sym->register_v3.reg, sym->register_v3.type);
break;
case S_BLOCK_V1:
printf("\tS-Block V1 '%s' in '%s' (%04x:%08x#%08x)\n",
p_string(&sym->block_v1.p_name),
curr_func,
sym->block_v1.segment, sym->block_v1.offset,
sym->block_v1.length);
nest_block++;
break;
case S_BLOCK_V3:
printf("\tS-Block V3 '%s' in '%s' (%04x:%08x#%08x) parent:%u end:%x\n",
sym->block_v3.name, curr_func,
sym->block_v3.segment, sym->block_v3.offset, sym->block_v3.length,
sym->block_v3.parent, sym->block_v3.end);
nest_block++;
break;
/* Additional function information */
case S_FUNCINFO_V2:
printf("\tFunction info V2 unk1:%x unk2:%x unk3:%x unk4:%x unk5:%x unk6:%x flags:%04x unk7:%x\n",
sym->func_info_v2.unknown1,
sym->func_info_v2.unknown2,
sym->func_info_v2.unknown3,
sym->func_info_v2.unknown4,
sym->func_info_v2.unknown5,
sym->func_info_v2.unknown6,
sym->func_info_v2.flags,
sym->func_info_v2.unknown7);
break;
case S_SECUCOOKIE_V3:
printf("\tSecurity Cookie V3 @%d unk:%x\n",
sym->security_cookie_v3.offset, sym->security_cookie_v3.unknown);
break;
case S_END_V1:
if (nest_block)
{
nest_block--;
printf("\tS-End-Of block (%u)\n", nest_block);
}
else
{
printf("\tS-End-Of %s\n", curr_func);
free(curr_func);
curr_func = NULL;
}
break;
case S_COMPILAND_V1:
{
const char* machine;
const char* lang;
switch (sym->compiland_v1.unknown & 0xFF)
{
case 0x00: machine = "Intel 8080"; break;
case 0x01: machine = "Intel 8086"; break;
case 0x02: machine = "Intel 80286"; break;
case 0x03: machine = "Intel 80386"; break;
case 0x04: machine = "Intel 80486"; break;
case 0x05: machine = "Intel Pentium"; break;
case 0x10: machine = "MIPS R4000"; break;
default:
{
static char tmp[16];
sprintf(tmp, "machine=%x", sym->compiland_v1.unknown & 0xFF);
machine = tmp;
}
break;
}
switch ((sym->compiland_v1.unknown >> 8) & 0xFF)
{
case 0x00: lang = "C"; break;
case 0x01: lang = "C++"; break;
case 0x02: lang = "Fortran"; break;
case 0x03: lang = "Masm"; break;
case 0x04: lang = "Pascal"; break;
case 0x05: lang = "Basic"; break;
case 0x06: lang = "Cobol"; break;
default:
{
static char tmp[16];
sprintf(tmp, "language=%x", (sym->compiland_v1.unknown >> 8) & 0xFF);
lang = tmp;
}
break;
}
printf("\tS-Compiland V1 '%s' %s %s unk:%x\n",
p_string(&sym->compiland_v1.p_name), machine, lang,
sym->compiland_v1.unknown >> 16);
}
break;
case S_COMPILAND_V2:
printf("\tS-Compiland V2 '%s'\n",
p_string(&sym->compiland_v2.p_name));
dump_data((const void*)sym, sym->generic.len + 2, " ");
{
const char* ptr = sym->compiland_v2.p_name.name + sym->compiland_v2.p_name.namelen;
while (*ptr)
{
printf("\t\t%s => ", ptr); ptr += strlen(ptr) + 1;
printf("%s\n", ptr); ptr += strlen(ptr) + 1;
}
}
break;
case S_COMPILAND_V3:
printf("\tS-Compiland V3 '%s' unknown:%x\n",
sym->compiland_v3.name, sym->compiland_v3.unknown);
break;
case S_OBJNAME_V1:
printf("\tS-ObjName V1 sig:%.4s '%s'\n",
sym->objname_v1.signature, p_string(&sym->objname_v1.p_name));
break;
case S_LABEL_V1:
printf("\tS-Label V1 '%s' in '%s' (%04x:%08x)\n",
p_string(&sym->label_v1.p_name),
curr_func, sym->label_v1.segment, sym->label_v1.offset);
break;
case S_LABEL_V3:
printf("\tS-Label V3 '%s' in '%s' (%04x:%08x) flag:%x\n",
sym->label_v3.name, curr_func, sym->label_v3.segment,
sym->label_v3.offset, sym->label_v3.flags);
break;
case S_CONSTANT_V2:
{
int vlen;
struct full_value fv;
vlen = full_numeric_leaf(&fv, &sym->constant_v2.cvalue);
printf("\tS-Constant V2 '%s' = %s type:%x\n",
p_string(PSTRING(&sym->constant_v2.cvalue, vlen)),
full_value_string(&fv), sym->constant_v2.type);
}
break;
case S_CONSTANT_V3:
{
int vlen;
struct full_value fv;
vlen = full_numeric_leaf(&fv, &sym->constant_v3.cvalue);
printf("\tS-Constant V3 '%s' = %s type:%x\n",
(const char*)&sym->constant_v3.cvalue + vlen,
full_value_string(&fv), sym->constant_v3.type);
}
break;
case S_UDT_V1:
printf("\tS-Udt V1 '%s': type:0x%x\n",
p_string(&sym->udt_v1.p_name), sym->udt_v1.type);
break;
case S_UDT_V2:
printf("\tS-Udt V2 '%s': type:0x%x\n",
p_string(&sym->udt_v2.p_name), sym->udt_v2.type);
break;
case S_UDT_V3:
printf("\tS-Udt V3 '%s': type:0x%x\n",
sym->udt_v3.name, sym->udt_v3.type);
break;
/*
* These are special, in that they are always followed by an
* additional length-prefixed string which is *not* included
* into the symbol length count. We need to skip it.
*/
case S_PROCREF_V1:
printf("\tS-Procref V1 "); goto doaref;
case S_DATAREF_V1:
printf("\tS-Dataref V1 "); goto doaref;
case S_LPROCREF_V1:
printf("\tS-L-Procref V1 "); goto doaref;
doaref:
{
const struct p_string* pname;
pname = PSTRING(sym, length);
length += (pname->namelen + 1 + 3) & ~3;
printf("\t%08x %08x %08x '%s'\n",
*(((const DWORD*)sym) + 1), *(((const DWORD*)sym) + 2), *(((const DWORD*)sym) + 3),
p_string(pname));
}
break;
case S_MSTOOL_V3: /* info about tool used to create CU */
{
const unsigned short* ptr = ((const unsigned short*)sym) + 2;
const char* x1;
const char* x2 = (const char*)&ptr[9];
/* FIXME: what are all those values for ? */
printf("\tTool V3 unk=%04x%04x%04x front=%d.%d.%d.0 back=%d.%d.%d.0 %s\n",
ptr[0], ptr[1], ptr[2], ptr[3], ptr[4], ptr[5], ptr[6], ptr[7],
ptr[8], x2);
while (*(x1 = x2 + strlen(x2) + 1))
{
x2 = x1 + strlen(x1) + 1;
if (!*x2) break;
printf("\t\t%s: %s\n", x1, x2);
}
}
break;
case S_MSTOOLINFO_V3:
{
const unsigned short* ptr = ((const unsigned short*)sym) + 2;
printf("\tTool info V3: unk=%04x%04x%04x front=%d.%d.%d.%d back=%d.%d.%d.%d %s\n",
ptr[0], ptr[1], ptr[2],
ptr[3], ptr[4], ptr[5], ptr[6],
ptr[7], ptr[8], ptr[9], ptr[10],
(const char*)(ptr + 11));
}
break;
case S_MSTOOLENV_V3:
{
const char* x1 = (const char*)sym + 4 + 1;
const char* x2;
printf("\tTool conf V3\n");
while (*x1)
{
x2 = x1 + strlen(x1) + 1;
if (!*x2) break;
printf("\t\t%s: %s\n", x1, x2);
x1 = x2 + strlen(x2) + 1;
}
}
break;
case S_ALIGN_V1:
/* simply skip it */
break;
case S_SSEARCH_V1:
printf("\tSSearch V1: (%04x:%08x)\n",
sym->ssearch_v1.segment, sym->ssearch_v1.offset);
break;
case S_SECTINFO_V3:
printf("\tSSection Info: seg=%04x ?=%04x rva=%08x size=%08x attr=%08x %s\n",
*(unsigned short*)((const char*)sym + 4),
*(unsigned short*)((const char*)sym + 6),
*(unsigned*)((const char*)sym + 8),
*(unsigned*)((const char*)sym + 12),
*(unsigned*)((const char*)sym + 16),
(const char*)sym + 20);
break;
case S_SUBSECTINFO_V3:
printf("\tSSubSection Info: addr=%04x:%08x size=%08x attr=%08x %s\n",
*(unsigned short*)((const char*)sym + 16),
*(unsigned*)((const char*)sym + 12),
*(unsigned*)((const char*)sym + 4),
*(unsigned*)((const char*)sym + 8),
(const char*)sym + 18);
break;
case S_ENTRYPOINT_V3:
printf("\tSEntryPoint: id=%x '%s'\n",
*(unsigned*)((const char*)sym + 4), (const char*)sym + 8);
break;
default:
printf(">>> Unsupported symbol-id %x sz=%d\n", sym->generic.id, sym->generic.len + 2);
dump_data((const void*)sym, sym->generic.len + 2, " ");
}
}
return 0;
}
void codeview_dump_linetab(const char* linetab, DWORD size, BOOL pascal_str, const char* pfx)
{
const char* ptr = linetab;
int nfile, nseg, nline;
int i, j, k;
const unsigned int* filetab;
const unsigned int* lt_ptr;
const struct startend* start;
nfile = *(const short*)linetab;
filetab = (const unsigned int*)(linetab + 2 * sizeof(short));
printf("%s%d files with %d ???\n", pfx, nfile, *(const short*)(linetab + sizeof(short)));
for (i = 0; i < nfile; i++)
{
ptr = linetab + filetab[i];
nseg = *(const short*)ptr;
ptr += 2 * sizeof(short);
lt_ptr = (const unsigned int*)ptr;
start = (const struct startend*)(lt_ptr + nseg);
/*
* Now snarf the filename for all of the segments for this file.
*/
if (pascal_str)
{
char filename[MAX_PATH];
const struct p_string* p_fn;
p_fn = (const struct p_string*)(start + nseg);
memset(filename, 0, sizeof(filename));
memcpy(filename, p_fn->name, p_fn->namelen);
printf("%slines for file #%d/%d %s %d\n", pfx, i, nfile, filename, nseg);
}
else
printf("%slines for file #%d/%d %s %d\n", pfx, i, nfile, (const char*)(start + nseg), nseg);
for (j = 0; j < nseg; j++)
{
ptr = linetab + *lt_ptr++;
nline = *(const short*)(ptr + 2);
printf("%s %04x:%08x-%08x #%d\n",
pfx, *(const short*)(ptr + 0), start[j].start, start[j].end, nline);
ptr += 4;
for (k = 0; k < nline; k++)
{
printf("%s %x %d\n",
pfx, ((const unsigned int*)ptr)[k],
((const unsigned short*)((const unsigned int*)ptr + nline))[k]);
}
}
}
}
void codeview_dump_linetab2(const char* linetab, DWORD size, const char* strimage, DWORD strsize, const char* pfx)
{
unsigned i;
const struct codeview_linetab2* lt2;
const struct codeview_linetab2* lt2_files = NULL;
const struct codeview_lt2blk_lines* lines_blk;
const struct codeview_linetab2_file*fd;
/* locate LT2_FILES_BLOCK (if any) */
lt2 = (const struct codeview_linetab2*)linetab;
while ((const char*)(lt2 + 1) < linetab + size)
{
if (lt2->header == LT2_FILES_BLOCK)
{
lt2_files = lt2;
break;
}
lt2 = codeview_linetab2_next_block(lt2);
}
if (!lt2_files)
{
printf("%sNo LT2_FILES_BLOCK found\n", pfx);
return;
}
lt2 = (const struct codeview_linetab2*)linetab;
while ((const char*)(lt2 + 1) < linetab + size)
{
/* FIXME: should also check that whole lbh fits in linetab + size */
switch (lt2->header)
{
case LT2_LINES_BLOCK:
lines_blk = (const struct codeview_lt2blk_lines*)lt2;
printf("%sblock from %04x:%08x #%x (%x lines) fo=%x\n",
pfx, lines_blk->seg, lines_blk->start, lines_blk->size,
lines_blk->nlines, lines_blk->file_offset);
/* FIXME: should check that file_offset is within the LT2_FILES_BLOCK we've seen */
fd = (const struct codeview_linetab2_file*)((const char*)lt2_files + 8 + lines_blk->file_offset);
printf("%s md5=%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x%02x\n",
pfx, fd->md5[ 0], fd->md5[ 1], fd->md5[ 2], fd->md5[ 3],
fd->md5[ 4], fd->md5[ 5], fd->md5[ 6], fd->md5[ 7],
fd->md5[ 8], fd->md5[ 9], fd->md5[10], fd->md5[11],
fd->md5[12], fd->md5[13], fd->md5[14], fd->md5[15]);
/* FIXME: should check that string is within strimage + strsize */
printf("%s file=%s\n", pfx, strimage ? strimage + fd->offset : "--none--");
for (i = 0; i < lines_blk->nlines; i++)
{
printf("%s offset=%08x line=%d\n",
pfx, lines_blk->l[i].offset, lines_blk->l[i].lineno ^ 0x80000000);
}
break;
case LT2_FILES_BLOCK: /* skip */
break;
default:
printf("%sblock end %x\n", pfx, lt2->header);
lt2 = (const struct codeview_linetab2*)((const char*)linetab + size);
continue;
}
lt2 = codeview_linetab2_next_block(lt2);
}
}