wine/dlls/dbghelp/msc.c
Eric Pouech 552bc893e1 dbghelp: Don't expected a fixed number of substreams in DBI header (PDB).
MSC no longer emits a fixed number of substreams (depending on version of
PDB file), but can emit less.

Signed-off-by: Eric Pouech <epouech@codeweavers.com>
2024-02-20 10:51:37 +01:00

4637 lines
178 KiB
C

/*
* File msc.c - read VC++ debug information from COFF and eventually
* from PDB files.
*
* Copyright (C) 1996, Eric Youngdale.
* Copyright (C) 1999-2000, Ulrich Weigand.
* Copyright (C) 2004-2009, 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
*/
/*
* Note - this handles reading debug information for 32 bit applications
* that run under Windows-NT for example. I doubt that this would work well
* for 16 bit applications, but I don't think it really matters since the
* file format is different, and we should never get in here in such cases.
*
* TODO:
* Get 16 bit CV stuff working.
* Add symbol size to internal symbol table.
*/
#include <assert.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include "windef.h"
#include "winbase.h"
#include "winternl.h"
#include "wine/exception.h"
#include "wine/debug.h"
#include "dbghelp_private.h"
#include "wine/mscvpdb.h"
WINE_DEFAULT_DEBUG_CHANNEL(dbghelp_msc);
struct pdb_stream_name
{
const char* name;
unsigned index;
};
struct pdb_file_info
{
enum pdb_kind kind;
DWORD age;
HANDLE hMap;
const char* image;
struct pdb_stream_name* stream_dict;
unsigned fpoext_stream;
union
{
struct
{
DWORD timestamp;
struct PDB_JG_TOC* toc;
} jg;
struct
{
GUID guid;
struct PDB_DS_TOC* toc;
} ds;
} u;
};
/* FIXME: don't make it static */
#define CV_MAX_MODULES 32
struct pdb_module_info
{
unsigned used_subfiles;
struct pdb_file_info pdb_files[CV_MAX_MODULES];
};
#define loc_cv_local_range (loc_user + 0) /* loc.offset contain the copy of all defrange* Codeview records following S_LOCAL */
struct cv_module_snarf
{
const struct codeview_type_parse* ipi_ctp;
const struct CV_DebugSSubsectionHeader_t* dbgsubsect;
unsigned dbgsubsect_size;
const PDB_STRING_TABLE* strimage;
};
/*========================================================================
* Debug file access helper routines
*/
static void dump(const void* ptr, unsigned len)
{
unsigned int i, j;
char msg[128];
const char* hexof = "0123456789abcdef";
const BYTE* x = ptr;
for (i = 0; i < len; i += 16)
{
sprintf(msg, "%08x: ", i);
memset(msg + 10, ' ', 3 * 16 + 1 + 16);
for (j = 0; j < min(16, len - i); j++)
{
msg[10 + 3 * j + 0] = hexof[x[i + j] >> 4];
msg[10 + 3 * j + 1] = hexof[x[i + j] & 15];
msg[10 + 3 * j + 2] = ' ';
msg[10 + 3 * 16 + 1 + j] = (x[i + j] >= 0x20 && x[i + j] < 0x7f) ?
x[i + j] : '.';
}
msg[10 + 3 * 16] = ' ';
msg[10 + 3 * 16 + 1 + 16] = '\0';
FIXME("%s\n", msg);
}
}
/*========================================================================
* Process CodeView type information.
*/
static struct symt* cv_basic_types[T_MAXPREDEFINEDTYPE];
struct cv_defined_module
{
BOOL allowed;
unsigned int first_type_index;
unsigned int last_type_index;
struct symt** defined_types;
};
/* FIXME: don't make it static */
#define CV_MAX_MODULES 32
static struct cv_defined_module cv_zmodules[CV_MAX_MODULES];
static struct cv_defined_module*cv_current_module;
static void codeview_init_basic_types(struct module* module)
{
unsigned ptrsz = module->cpu->word_size;
/*
* These are the common builtin types that are used by VC++.
*/
cv_basic_types[T_NOTYPE] = NULL;
cv_basic_types[T_ABS] = NULL;
cv_basic_types[T_VOID] = &symt_get_basic(btVoid, 0)->symt; /* void */
cv_basic_types[T_CHAR] = &symt_get_basic(btInt, 1)->symt; /* signed char (and char in C) */
cv_basic_types[T_SHORT] = &symt_get_basic(btInt, 2)->symt; /* short int */
cv_basic_types[T_LONG] = &symt_get_basic(btLong, 4)->symt; /* long int */
cv_basic_types[T_QUAD] = &symt_get_basic(btInt, 8)->symt; /* long long int */
cv_basic_types[T_UCHAR] = &symt_get_basic(btUInt, 1)->symt; /* unsigned char */
cv_basic_types[T_USHORT] = &symt_get_basic(btUInt, 2)->symt; /* unsigned short */
cv_basic_types[T_ULONG] = &symt_get_basic(btULong, 4)->symt; /* unsigned long */
cv_basic_types[T_UQUAD] = &symt_get_basic(btUInt, 8)->symt; /* unsigned long long */
cv_basic_types[T_BOOL08] = &symt_get_basic(btBool, 1)->symt; /* BOOL08 */
cv_basic_types[T_BOOL16] = &symt_get_basic(btBool, 2)->symt; /* BOOL16 */
cv_basic_types[T_BOOL32] = &symt_get_basic(btBool, 4)->symt; /* BOOL32 */
cv_basic_types[T_BOOL64] = &symt_get_basic(btBool, 8)->symt; /* BOOL64 */
cv_basic_types[T_REAL32] = &symt_get_basic(btFloat, 4)->symt; /* float */
cv_basic_types[T_REAL64] = &symt_get_basic(btFloat, 8)->symt; /* double */
cv_basic_types[T_REAL80] = &symt_get_basic(btFloat, 10)->symt; /* long double */
cv_basic_types[T_RCHAR] = &symt_get_basic(btChar, 1)->symt; /* "real" char (char in C++) */
cv_basic_types[T_WCHAR] = &symt_get_basic(btWChar, 2)->symt; /* char8_t */
cv_basic_types[T_CHAR16] = &symt_get_basic(btChar16, 2)->symt; /* char16_t */
cv_basic_types[T_CHAR32] = &symt_get_basic(btChar32, 4)->symt; /* char32_t */
cv_basic_types[T_CHAR8] = &symt_get_basic(btChar8, 1)->symt; /* char8_t */
cv_basic_types[T_INT2] = &symt_get_basic(btInt, 2)->symt; /* INT2 */
cv_basic_types[T_UINT2] = &symt_get_basic(btUInt, 2)->symt; /* UINT2 */
cv_basic_types[T_INT4] = &symt_get_basic(btInt, 4)->symt; /* INT4 */
cv_basic_types[T_UINT4] = &symt_get_basic(btUInt, 4)->symt; /* UINT4 */
cv_basic_types[T_INT8] = &symt_get_basic(btInt, 8)->symt; /* INT8 */
cv_basic_types[T_UINT8] = &symt_get_basic(btUInt, 8)->symt; /* UINT8 */
cv_basic_types[T_HRESULT]= &symt_get_basic(btUInt, 4)->symt; /* HRESULT */
cv_basic_types[T_32PVOID] = &symt_new_pointer(module, cv_basic_types[T_VOID], 4)->symt;
cv_basic_types[T_32PCHAR] = &symt_new_pointer(module, cv_basic_types[T_CHAR], 4)->symt;
cv_basic_types[T_32PSHORT] = &symt_new_pointer(module, cv_basic_types[T_SHORT], 4)->symt;
cv_basic_types[T_32PLONG] = &symt_new_pointer(module, cv_basic_types[T_LONG], 4)->symt;
cv_basic_types[T_32PQUAD] = &symt_new_pointer(module, cv_basic_types[T_QUAD], 4)->symt;
cv_basic_types[T_32PUCHAR] = &symt_new_pointer(module, cv_basic_types[T_UCHAR], 4)->symt;
cv_basic_types[T_32PUSHORT] = &symt_new_pointer(module, cv_basic_types[T_USHORT], 4)->symt;
cv_basic_types[T_32PULONG] = &symt_new_pointer(module, cv_basic_types[T_ULONG], 4)->symt;
cv_basic_types[T_32PUQUAD] = &symt_new_pointer(module, cv_basic_types[T_UQUAD], 4)->symt;
cv_basic_types[T_32PBOOL08] = &symt_new_pointer(module, cv_basic_types[T_BOOL08], 4)->symt;
cv_basic_types[T_32PBOOL16] = &symt_new_pointer(module, cv_basic_types[T_BOOL16], 4)->symt;
cv_basic_types[T_32PBOOL32] = &symt_new_pointer(module, cv_basic_types[T_BOOL32], 4)->symt;
cv_basic_types[T_32PBOOL64] = &symt_new_pointer(module, cv_basic_types[T_BOOL64], 4)->symt;
cv_basic_types[T_32PREAL32] = &symt_new_pointer(module, cv_basic_types[T_REAL32], 4)->symt;
cv_basic_types[T_32PREAL64] = &symt_new_pointer(module, cv_basic_types[T_REAL64], 4)->symt;
cv_basic_types[T_32PREAL80] = &symt_new_pointer(module, cv_basic_types[T_REAL80], 4)->symt;
cv_basic_types[T_32PRCHAR] = &symt_new_pointer(module, cv_basic_types[T_RCHAR], 4)->symt;
cv_basic_types[T_32PWCHAR] = &symt_new_pointer(module, cv_basic_types[T_WCHAR], 4)->symt;
cv_basic_types[T_32PCHAR16] = &symt_new_pointer(module, cv_basic_types[T_CHAR16], 4)->symt;
cv_basic_types[T_32PCHAR32] = &symt_new_pointer(module, cv_basic_types[T_CHAR32], 4)->symt;
cv_basic_types[T_32PCHAR8] = &symt_new_pointer(module, cv_basic_types[T_CHAR8], 4)->symt;
cv_basic_types[T_32PINT2] = &symt_new_pointer(module, cv_basic_types[T_INT2], 4)->symt;
cv_basic_types[T_32PUINT2] = &symt_new_pointer(module, cv_basic_types[T_UINT2], 4)->symt;
cv_basic_types[T_32PINT4] = &symt_new_pointer(module, cv_basic_types[T_INT4], 4)->symt;
cv_basic_types[T_32PUINT4] = &symt_new_pointer(module, cv_basic_types[T_UINT4], 4)->symt;
cv_basic_types[T_32PINT8] = &symt_new_pointer(module, cv_basic_types[T_INT8], 4)->symt;
cv_basic_types[T_32PUINT8] = &symt_new_pointer(module, cv_basic_types[T_UINT8], 4)->symt;
cv_basic_types[T_32PHRESULT]= &symt_new_pointer(module, cv_basic_types[T_HRESULT], 4)->symt;
cv_basic_types[T_64PVOID] = &symt_new_pointer(module, cv_basic_types[T_VOID], 8)->symt;
cv_basic_types[T_64PCHAR] = &symt_new_pointer(module, cv_basic_types[T_CHAR], 8)->symt;
cv_basic_types[T_64PSHORT] = &symt_new_pointer(module, cv_basic_types[T_SHORT], 8)->symt;
cv_basic_types[T_64PLONG] = &symt_new_pointer(module, cv_basic_types[T_LONG], 8)->symt;
cv_basic_types[T_64PQUAD] = &symt_new_pointer(module, cv_basic_types[T_QUAD], 8)->symt;
cv_basic_types[T_64PUCHAR] = &symt_new_pointer(module, cv_basic_types[T_UCHAR], 8)->symt;
cv_basic_types[T_64PUSHORT] = &symt_new_pointer(module, cv_basic_types[T_USHORT], 8)->symt;
cv_basic_types[T_64PULONG] = &symt_new_pointer(module, cv_basic_types[T_ULONG], 8)->symt;
cv_basic_types[T_64PUQUAD] = &symt_new_pointer(module, cv_basic_types[T_UQUAD], 8)->symt;
cv_basic_types[T_64PBOOL08] = &symt_new_pointer(module, cv_basic_types[T_BOOL08], 8)->symt;
cv_basic_types[T_64PBOOL16] = &symt_new_pointer(module, cv_basic_types[T_BOOL16], 8)->symt;
cv_basic_types[T_64PBOOL32] = &symt_new_pointer(module, cv_basic_types[T_BOOL32], 8)->symt;
cv_basic_types[T_64PBOOL64] = &symt_new_pointer(module, cv_basic_types[T_BOOL64], 8)->symt;
cv_basic_types[T_64PREAL32] = &symt_new_pointer(module, cv_basic_types[T_REAL32], 8)->symt;
cv_basic_types[T_64PREAL64] = &symt_new_pointer(module, cv_basic_types[T_REAL64], 8)->symt;
cv_basic_types[T_64PREAL80] = &symt_new_pointer(module, cv_basic_types[T_REAL80], 8)->symt;
cv_basic_types[T_64PRCHAR] = &symt_new_pointer(module, cv_basic_types[T_RCHAR], 8)->symt;
cv_basic_types[T_64PWCHAR] = &symt_new_pointer(module, cv_basic_types[T_WCHAR], 8)->symt;
cv_basic_types[T_64PCHAR16] = &symt_new_pointer(module, cv_basic_types[T_CHAR16], 8)->symt;
cv_basic_types[T_64PCHAR32] = &symt_new_pointer(module, cv_basic_types[T_CHAR32], 8)->symt;
cv_basic_types[T_64PCHAR8] = &symt_new_pointer(module, cv_basic_types[T_CHAR8], 8)->symt;
cv_basic_types[T_64PINT2] = &symt_new_pointer(module, cv_basic_types[T_INT2], 8)->symt;
cv_basic_types[T_64PUINT2] = &symt_new_pointer(module, cv_basic_types[T_UINT2], 8)->symt;
cv_basic_types[T_64PINT4] = &symt_new_pointer(module, cv_basic_types[T_INT4], 8)->symt;
cv_basic_types[T_64PUINT4] = &symt_new_pointer(module, cv_basic_types[T_UINT4], 8)->symt;
cv_basic_types[T_64PINT8] = &symt_new_pointer(module, cv_basic_types[T_INT8], 8)->symt;
cv_basic_types[T_64PUINT8] = &symt_new_pointer(module, cv_basic_types[T_UINT8], 8)->symt;
cv_basic_types[T_64PHRESULT]= &symt_new_pointer(module, cv_basic_types[T_HRESULT], 8)->symt;
cv_basic_types[T_PVOID] = &symt_new_pointer(module, cv_basic_types[T_VOID], ptrsz)->symt;
cv_basic_types[T_PCHAR] = &symt_new_pointer(module, cv_basic_types[T_CHAR], ptrsz)->symt;
cv_basic_types[T_PSHORT] = &symt_new_pointer(module, cv_basic_types[T_SHORT], ptrsz)->symt;
cv_basic_types[T_PLONG] = &symt_new_pointer(module, cv_basic_types[T_LONG], ptrsz)->symt;
cv_basic_types[T_PQUAD] = &symt_new_pointer(module, cv_basic_types[T_QUAD], ptrsz)->symt;
cv_basic_types[T_PUCHAR] = &symt_new_pointer(module, cv_basic_types[T_UCHAR], ptrsz)->symt;
cv_basic_types[T_PUSHORT] = &symt_new_pointer(module, cv_basic_types[T_USHORT], ptrsz)->symt;
cv_basic_types[T_PULONG] = &symt_new_pointer(module, cv_basic_types[T_ULONG], ptrsz)->symt;
cv_basic_types[T_PUQUAD] = &symt_new_pointer(module, cv_basic_types[T_UQUAD], ptrsz)->symt;
cv_basic_types[T_PBOOL08] = &symt_new_pointer(module, cv_basic_types[T_BOOL08], ptrsz)->symt;
cv_basic_types[T_PBOOL16] = &symt_new_pointer(module, cv_basic_types[T_BOOL16], ptrsz)->symt;
cv_basic_types[T_PBOOL32] = &symt_new_pointer(module, cv_basic_types[T_BOOL32], ptrsz)->symt;
cv_basic_types[T_PBOOL64] = &symt_new_pointer(module, cv_basic_types[T_BOOL64], ptrsz)->symt;
cv_basic_types[T_PREAL32] = &symt_new_pointer(module, cv_basic_types[T_REAL32], ptrsz)->symt;
cv_basic_types[T_PREAL64] = &symt_new_pointer(module, cv_basic_types[T_REAL64], ptrsz)->symt;
cv_basic_types[T_PREAL80] = &symt_new_pointer(module, cv_basic_types[T_REAL80], ptrsz)->symt;
cv_basic_types[T_PRCHAR] = &symt_new_pointer(module, cv_basic_types[T_RCHAR], ptrsz)->symt;
cv_basic_types[T_PWCHAR] = &symt_new_pointer(module, cv_basic_types[T_WCHAR], ptrsz)->symt;
cv_basic_types[T_PCHAR16] = &symt_new_pointer(module, cv_basic_types[T_CHAR16], ptrsz)->symt;
cv_basic_types[T_PCHAR32] = &symt_new_pointer(module, cv_basic_types[T_CHAR32], ptrsz)->symt;
cv_basic_types[T_PCHAR8] = &symt_new_pointer(module, cv_basic_types[T_CHAR8], ptrsz)->symt;
cv_basic_types[T_PINT2] = &symt_new_pointer(module, cv_basic_types[T_INT2], ptrsz)->symt;
cv_basic_types[T_PUINT2] = &symt_new_pointer(module, cv_basic_types[T_UINT2], ptrsz)->symt;
cv_basic_types[T_PINT4] = &symt_new_pointer(module, cv_basic_types[T_INT4], ptrsz)->symt;
cv_basic_types[T_PUINT4] = &symt_new_pointer(module, cv_basic_types[T_UINT4], ptrsz)->symt;
cv_basic_types[T_PINT8] = &symt_new_pointer(module, cv_basic_types[T_INT8], ptrsz)->symt;
cv_basic_types[T_PUINT8] = &symt_new_pointer(module, cv_basic_types[T_UINT8], ptrsz)->symt;
}
static int leaf_as_variant(VARIANT* v, const unsigned short int* leaf)
{
unsigned short int type = *leaf++;
int length = 2;
if (type < LF_NUMERIC)
{
V_VT(v) = VT_UINT;
V_UINT(v) = type;
}
else
{
switch (type)
{
case LF_CHAR:
length += 1;
V_VT(v) = VT_I1;
V_I1(v) = *(const char*)leaf;
break;
case LF_SHORT:
length += 2;
V_VT(v) = VT_I2;
V_I2(v) = *(const short*)leaf;
break;
case LF_USHORT:
length += 2;
V_VT(v) = VT_UI2;
V_UI2(v) = *leaf;
break;
case LF_LONG:
length += 4;
V_VT(v) = VT_I4;
V_I4(v) = *(const int*)leaf;
break;
case LF_ULONG:
length += 4;
V_VT(v) = VT_UI4;
V_UI4(v) = *(const unsigned int*)leaf;
break;
case LF_QUADWORD:
length += 8;
V_VT(v) = VT_I8;
V_I8(v) = *(const long long int*)leaf;
break;
case LF_UQUADWORD:
length += 8;
V_VT(v) = VT_UI8;
V_UI8(v) = *(const long long unsigned int*)leaf;
break;
case LF_REAL32:
length += 4;
V_VT(v) = VT_R4;
V_R4(v) = *(const float*)leaf;
break;
case LF_REAL48:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 6;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_REAL64:
length += 8;
V_VT(v) = VT_R8;
V_R8(v) = *(const double*)leaf;
break;
case LF_REAL80:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 10;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_REAL128:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 16;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_COMPLEX32:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 4;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_COMPLEX64:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 8;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_COMPLEX80:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 10;
break;
case LF_COMPLEX128:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 16;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
case LF_VARSTRING:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 2 + *leaf;
V_VT(v) = VT_EMPTY; /* FIXME */
break;
default:
FIXME("Unknown numeric leaf type %04x\n", type);
V_VT(v) = VT_EMPTY; /* FIXME */
break;
}
}
return length;
}
static int numeric_leaf(int* value, const unsigned short int* leaf)
{
unsigned short int type = *leaf++;
int length = 2;
if (type < LF_NUMERIC)
{
*value = type;
}
else
{
switch (type)
{
case LF_CHAR:
length += 1;
*value = *(const char*)leaf;
break;
case LF_SHORT:
length += 2;
*value = *(const short*)leaf;
break;
case LF_USHORT:
length += 2;
*value = *leaf;
break;
case LF_LONG:
length += 4;
*value = *(const int*)leaf;
break;
case LF_ULONG:
length += 4;
*value = *(const unsigned int*)leaf;
break;
case LF_QUADWORD:
case LF_UQUADWORD:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 8;
*value = 0; /* FIXME */
break;
case LF_REAL32:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 4;
*value = 0; /* FIXME */
break;
case LF_REAL48:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 6;
*value = 0; /* FIXME */
break;
case LF_REAL64:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 8;
*value = 0; /* FIXME */
break;
case LF_REAL80:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 10;
*value = 0; /* FIXME */
break;
case LF_REAL128:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 16;
*value = 0; /* FIXME */
break;
case LF_COMPLEX32:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 4;
*value = 0; /* FIXME */
break;
case LF_COMPLEX64:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 8;
*value = 0; /* FIXME */
break;
case LF_COMPLEX80:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 10;
*value = 0; /* FIXME */
break;
case LF_COMPLEX128:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 16;
*value = 0; /* FIXME */
break;
case LF_VARSTRING:
FIXME("Unsupported numeric leaf type %04x\n", type);
length += 2 + *leaf;
*value = 0; /* FIXME */
break;
default:
FIXME("Unknown numeric leaf type %04x\n", type);
*value = 0;
break;
}
}
return length;
}
/* convert a pascal string (as stored in debug information) into
* a C string (null terminated).
*/
static const char* terminate_string(const struct p_string* p_name)
{
static char symname[256];
memcpy(symname, p_name->name, p_name->namelen);
symname[p_name->namelen] = '\0';
return (!*symname || strcmp(symname, "__unnamed") == 0) ? NULL : symname;
}
static struct symt* codeview_get_type(unsigned int typeno, BOOL quiet)
{
struct symt* symt = NULL;
/*
* Convert Codeview type numbers into something we can grok internally.
* Numbers < T_MAXPREDEFINEDTYPE all fixed builtin types.
* Numbers from T_FIRSTDEFINABLETYPE and up are all user defined (structs, etc).
*/
if (typeno < T_MAXPREDEFINEDTYPE)
symt = cv_basic_types[typeno];
else if (typeno >= T_FIRSTDEFINABLETYPE)
{
unsigned mod_index = typeno >> 24;
unsigned mod_typeno = typeno & 0x00FFFFFF;
struct cv_defined_module* mod;
mod = (mod_index == 0) ? cv_current_module : &cv_zmodules[mod_index];
if (mod_index >= CV_MAX_MODULES || !mod->allowed)
FIXME("Module of index %d isn't loaded yet (%x)\n", mod_index, typeno);
else
{
if (mod_typeno >= mod->first_type_index && mod_typeno < mod->last_type_index)
symt = mod->defined_types[mod_typeno - mod->first_type_index];
}
}
if (!quiet && !symt && typeno) FIXME("Returning NULL symt for type-id %x\n", typeno);
return symt;
}
struct hash_link
{
unsigned id;
struct hash_link* next;
};
struct codeview_type_parse
{
struct module* module;
PDB_TYPES header;
const BYTE* table;
const DWORD* offset; /* typeindex => offset in 'table' */
BYTE* hash_stream; /* content of stream header.hash_file */
struct hash_link** hash; /* hash_table (deserialized from PDB hash table) */
struct hash_link* alloc_hash; /* allocated hash_link (id => hash_link) */
};
static inline const void* codeview_jump_to_type(const struct codeview_type_parse* ctp, DWORD idx)
{
return (idx >= ctp->header.first_index && idx < ctp->header.last_index) ?
ctp->table + ctp->offset[idx - ctp->header.first_index] : NULL;
}
static int codeview_add_type(unsigned int typeno, struct symt* dt)
{
unsigned idx;
if (!cv_current_module)
{
FIXME("Adding %x to non allowed module\n", typeno);
return FALSE;
}
if ((typeno >> 24) != 0)
FIXME("No module index while inserting type-id assumption is wrong %x\n",
typeno);
if (typeno < cv_current_module->first_type_index || typeno >= cv_current_module->last_type_index)
{
FIXME("Type number %x out of bounds [%x, %x)\n",
typeno, cv_current_module->first_type_index, typeno >= cv_current_module->last_type_index);
return FALSE;
}
idx = typeno - cv_current_module->first_type_index;
if (cv_current_module->defined_types[idx])
{
if (cv_current_module->defined_types[idx] != dt)
FIXME("Overwriting at %x\n", typeno);
}
cv_current_module->defined_types[idx] = dt;
return TRUE;
}
static void codeview_clear_type_table(void)
{
int i;
for (i = 0; i < CV_MAX_MODULES; i++)
{
if (cv_zmodules[i].allowed)
free(cv_zmodules[i].defined_types);
cv_zmodules[i].allowed = FALSE;
cv_zmodules[i].defined_types = NULL;
cv_zmodules[i].first_type_index = 0;
cv_zmodules[i].last_type_index = 0;
}
cv_current_module = NULL;
}
static struct symt* codeview_parse_one_type(struct codeview_type_parse* ctp,
unsigned curr_type,
const union codeview_type* type);
static struct symt* codeview_fetch_type(struct codeview_type_parse* ctp,
unsigned typeno)
{
struct symt* symt;
const union codeview_type* p;
if (!typeno) return NULL;
if ((symt = codeview_get_type(typeno, TRUE))) return symt;
if ((p = codeview_jump_to_type(ctp, typeno)))
symt = codeview_parse_one_type(ctp, typeno, p);
if (!symt) FIXME("Couldn't load type %x\n", typeno);
return symt;
}
static UINT32 codeview_compute_hash(const char* ptr, unsigned len)
{
const char* last = ptr + len;
UINT32 ret = 0;
while (ptr + sizeof(UINT32) <= last)
{
ret ^= *(UINT32*)ptr;
ptr += sizeof(UINT32);
}
if (ptr + sizeof(UINT16) <= last)
{
ret ^= *(UINT16*)ptr;
ptr += sizeof(UINT16);
}
if (ptr + sizeof(BYTE) <= last)
ret ^= *(BYTE*)ptr;
ret |= 0x20202020;
ret ^= (ret >> 11);
return ret ^ (ret >> 16);
}
/* We call 'forwardable' a type which can have a forward declaration, and we need to merge
* (when they both exist) the type record of the forward declaration and the type record
* of the full definition into a single symt.
*/
static BOOL codeview_is_forwardable_type(const union codeview_type* type)
{
switch (type->generic.id)
{
case LF_CLASS_V1:
case LF_CLASS_V2:
case LF_CLASS_V3:
case LF_ENUM_V1:
case LF_ENUM_V2:
case LF_ENUM_V3:
case LF_STRUCTURE_V1:
case LF_STRUCTURE_V2:
case LF_STRUCTURE_V3:
case LF_UNION_V1:
case LF_UNION_V2:
case LF_UNION_V3:
return TRUE;
default:
return FALSE;
}
}
static BOOL codeview_type_is_forward(const union codeview_type* cvtype)
{
cv_property_t property;
switch (cvtype->generic.id)
{
case LF_STRUCTURE_V1:
case LF_CLASS_V1: property = cvtype->struct_v1.property; break;
case LF_STRUCTURE_V2:
case LF_CLASS_V2: property = cvtype->struct_v2.property; break;
case LF_STRUCTURE_V3:
case LF_CLASS_V3: property = cvtype->struct_v3.property; break;
case LF_UNION_V1: property = cvtype->union_v1.property; break;
case LF_UNION_V2: property = cvtype->union_v2.property; break;
case LF_UNION_V3: property = cvtype->union_v3.property; break;
case LF_ENUM_V1: property = cvtype->enumeration_v1.property; break;
case LF_ENUM_V2: property = cvtype->enumeration_v2.property; break;
case LF_ENUM_V3: property = cvtype->enumeration_v3.property; break;
default:
return FALSE;
}
return property.is_forward_defn;
}
static BOOL codeview_type_extract_name(const union codeview_type* cvtype,
const char** name, unsigned* len, const char** decorated_name)
{
int value, leaf_len;
const struct p_string* p_name = NULL;
const char* c_name = NULL;
BOOL decorated = FALSE;
switch (cvtype->generic.id)
{
case LF_STRUCTURE_V1:
case LF_CLASS_V1:
leaf_len = numeric_leaf(&value, &cvtype->struct_v1.structlen);
p_name = (const struct p_string*)((const unsigned char*)&cvtype->struct_v1.structlen + leaf_len);
break;
case LF_STRUCTURE_V2:
case LF_CLASS_V2:
leaf_len = numeric_leaf(&value, &cvtype->struct_v2.structlen);
p_name = (const struct p_string*)((const unsigned char*)&cvtype->struct_v2.structlen + leaf_len);
break;
case LF_STRUCTURE_V3:
case LF_CLASS_V3:
leaf_len = numeric_leaf(&value, &cvtype->struct_v3.structlen);
c_name = (const char*)&cvtype->struct_v3.structlen + leaf_len;
decorated = cvtype->struct_v3.property.has_decorated_name;
break;
case LF_UNION_V1:
leaf_len = numeric_leaf(&value, &cvtype->union_v1.un_len);
p_name = (const struct p_string*)((const unsigned char*)&cvtype->union_v1.un_len + leaf_len);
break;
case LF_UNION_V2:
leaf_len = numeric_leaf(&value, &cvtype->union_v2.un_len);
p_name = (const struct p_string*)((const unsigned char*)&cvtype->union_v2.un_len + leaf_len);
break;
case LF_UNION_V3:
leaf_len = numeric_leaf(&value, &cvtype->union_v3.un_len);
c_name = (const char*)&cvtype->union_v3.un_len + leaf_len;
decorated = cvtype->union_v3.property.has_decorated_name;
break;
case LF_ENUM_V1:
p_name = &cvtype->enumeration_v1.p_name;
break;
case LF_ENUM_V2:
p_name = &cvtype->enumeration_v2.p_name;
break;
case LF_ENUM_V3:
c_name = cvtype->enumeration_v3.name;
decorated = cvtype->union_v3.property.has_decorated_name;
break;
default:
return FALSE;
}
if (p_name)
{
*name = p_name->name;
*len = p_name->namelen;
*decorated_name = NULL;
return TRUE;
}
if (c_name)
{
*name = c_name;
*len = strlen(c_name);
*decorated_name = decorated ? (c_name + *len + 1) : NULL;
return TRUE;
}
return FALSE;
}
static unsigned pdb_read_hash_value(const struct codeview_type_parse* ctp, unsigned idx)
{
const void* where = ctp->hash_stream + ctp->header.hash_offset + (idx - ctp->header.first_index) * ctp->header.hash_value_size;
switch (ctp->header.hash_value_size)
{
case 2: return *(unsigned short*)where;
case 4: return *(unsigned*)where;
}
return 0;
}
static BOOL codeview_resolve_forward_type(struct codeview_type_parse* ctp, const union codeview_type* cvref,
unsigned reftype, unsigned *impl_type)
{
const union codeview_type* cvdecl;
struct hash_link* hl;
const char* nameref;
const char* decoratedref;
unsigned lenref;
unsigned hash;
/* Unfortunately, hash of forward defs are computed on the whole type record, not its name
* (unlike hash of UDT & enum implementations which is based primarily on the name... sigh)
* So compute the hash of the expected implementation.
*/
if (!codeview_type_extract_name(cvref, &nameref, &lenref, &decoratedref)) return FALSE;
hash = codeview_compute_hash(nameref, lenref) % ctp->header.hash_num_buckets;
for (hl = ctp->hash[hash]; hl; hl = hl->next)
{
if (hl->id == reftype) continue;
cvdecl = codeview_jump_to_type(ctp, hl->id);
if (cvdecl && !codeview_type_is_forward(cvdecl) && cvref->generic.id == cvdecl->generic.id)
{
const char* namedecl;
const char* decorateddecl;
unsigned lendecl;
if (codeview_type_extract_name(cvdecl, &namedecl, &lendecl, &decorateddecl) &&
((decoratedref && decorateddecl && !strcmp(decoratedref, decorateddecl)) ||
(!decoratedref && !decorateddecl && lenref == lendecl && !memcmp(nameref, namedecl, lenref))))
{
TRACE("mapping forward type %.*s (%s) %x into %x\n", lenref, nameref, debugstr_a(decoratedref), reftype, hl->id);
*impl_type = hl->id;
return TRUE;
}
}
}
return FALSE;
}
static struct symt* codeview_add_type_pointer(struct codeview_type_parse* ctp,
unsigned int pointee_type)
{
struct symt* pointee;
pointee = codeview_fetch_type(ctp, pointee_type);
if (!pointee) return NULL;
return &symt_new_pointer(ctp->module, pointee, ctp->module->cpu->word_size)->symt;
}
static struct symt* codeview_add_type_array(struct codeview_type_parse* ctp,
const char* name,
unsigned int elemtype,
unsigned int indextype,
unsigned int arr_len)
{
struct symt* elem = codeview_fetch_type(ctp, elemtype);
struct symt* index = codeview_fetch_type(ctp, indextype);
DWORD64 elem_size;
DWORD count = 0;
if (symt_get_info(ctp->module, elem, TI_GET_LENGTH, &elem_size) && elem_size)
{
if (arr_len % (DWORD)elem_size)
FIXME("array size should be a multiple of element size %u %I64u\n", arr_len, elem_size);
count = arr_len / (unsigned)elem_size;
}
return &symt_new_array(ctp->module, 0, count, elem, index)->symt;
}
static BOOL codeview_add_type_enum_field_list(struct codeview_type_parse* ctp,
struct symt_enum* symt,
unsigned typeno)
{
const union codeview_reftype* ref_type;
const unsigned char* ptr;
const unsigned char* last;
const union codeview_fieldtype* type;
if (!typeno) return TRUE;
if (!(ref_type = codeview_jump_to_type(ctp, typeno))) return FALSE;
ptr = ref_type->fieldlist.list;
last = (const BYTE*)ref_type + ref_type->generic.len + 2;
while (ptr < last)
{
if (*ptr >= 0xf0) /* LF_PAD... */
{
ptr += *ptr & 0x0f;
continue;
}
type = (const union codeview_fieldtype*)ptr;
switch (type->generic.id)
{
case LF_ENUMERATE_V1:
{
int value, vlen = numeric_leaf(&value, &type->enumerate_v1.value);
const struct p_string* p_name = (const struct p_string*)((const unsigned char*)&type->enumerate_v1.value + vlen);
symt_add_enum_element(ctp->module, symt, terminate_string(p_name), value);
ptr += 2 + 2 + vlen + (1 + p_name->namelen);
break;
}
case LF_ENUMERATE_V3:
{
int value, vlen = numeric_leaf(&value, &type->enumerate_v3.value);
const char* name = (const char*)&type->enumerate_v3.value + vlen;
symt_add_enum_element(ctp->module, symt, name, value);
ptr += 2 + 2 + vlen + (1 + strlen(name));
break;
}
case LF_INDEX_V1:
if (!codeview_add_type_enum_field_list(ctp, symt, type->index_v1.ref))
return FALSE;
ptr += 2 + 2;
break;
case LF_INDEX_V2:
if (!codeview_add_type_enum_field_list(ctp, symt, type->index_v2.ref))
return FALSE;
ptr += 2 + 2 + 4;
break;
default:
FIXME("Unsupported type %04x in ENUM field list\n", type->generic.id);
return FALSE;
}
}
return TRUE;
}
static void codeview_add_udt_element(struct codeview_type_parse* ctp,
struct symt_udt* symt, const char* name,
int value, unsigned type)
{
struct symt* subtype;
const union codeview_reftype*cv_type;
if ((cv_type = codeview_jump_to_type(ctp, type)))
{
switch (cv_type->generic.id)
{
case LF_BITFIELD_V1:
symt_add_udt_element(ctp->module, symt, name,
codeview_fetch_type(ctp, cv_type->bitfield_v1.type),
value, cv_type->bitfield_v1.bitoff,
cv_type->bitfield_v1.nbits);
return;
case LF_BITFIELD_V2:
symt_add_udt_element(ctp->module, symt, name,
codeview_fetch_type(ctp, cv_type->bitfield_v2.type),
value, cv_type->bitfield_v2.bitoff,
cv_type->bitfield_v2.nbits);
return;
}
}
subtype = codeview_fetch_type(ctp, type);
if (subtype)
{
DWORD64 elem_size = 0;
symt_get_info(ctp->module, subtype, TI_GET_LENGTH, &elem_size);
symt_add_udt_element(ctp->module, symt, name, subtype, value, 0, 0);
}
}
static int codeview_add_type_struct_field_list(struct codeview_type_parse* ctp,
struct symt_udt* symt,
unsigned fieldlistno)
{
const unsigned char* ptr;
const unsigned char* last;
int value, leaf_len;
const struct p_string* p_name;
const char* c_name;
const union codeview_reftype*type_ref;
const union codeview_fieldtype* type;
if (!fieldlistno) return TRUE;
type_ref = codeview_jump_to_type(ctp, fieldlistno);
ptr = type_ref->fieldlist.list;
last = (const BYTE*)type_ref + type_ref->generic.len + 2;
while (ptr < last)
{
if (*ptr >= 0xf0) /* LF_PAD... */
{
ptr += *ptr & 0x0f;
continue;
}
type = (const union codeview_fieldtype*)ptr;
switch (type->generic.id)
{
case LF_BCLASS_V1:
leaf_len = numeric_leaf(&value, &type->bclass_v1.offset);
/* FIXME: ignored for now */
ptr += 2 + 2 + 2 + leaf_len;
break;
case LF_BCLASS_V2:
leaf_len = numeric_leaf(&value, &type->bclass_v2.offset);
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + leaf_len;
break;
case LF_VBCLASS_V1:
case LF_IVBCLASS_V1:
{
const unsigned short int* p_vboff;
int vpoff, vplen;
leaf_len = numeric_leaf(&value, &type->vbclass_v1.vbpoff);
p_vboff = (const unsigned short int*)((const char*)&type->vbclass_v1.vbpoff + leaf_len);
vplen = numeric_leaf(&vpoff, p_vboff);
/* FIXME: ignored for now */
ptr += 2 + 2 + 2 + 2 + leaf_len + vplen;
}
break;
case LF_VBCLASS_V2:
case LF_IVBCLASS_V2:
{
const unsigned short int* p_vboff;
int vpoff, vplen;
leaf_len = numeric_leaf(&value, &type->vbclass_v2.vbpoff);
p_vboff = (const unsigned short int*)((const char*)&type->vbclass_v2.vbpoff + leaf_len);
vplen = numeric_leaf(&vpoff, p_vboff);
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + 4 + leaf_len + vplen;
}
break;
case LF_MEMBER_V1:
leaf_len = numeric_leaf(&value, &type->member_v1.offset);
p_name = (const struct p_string*)((const char*)&type->member_v1.offset + leaf_len);
codeview_add_udt_element(ctp, symt, terminate_string(p_name), value,
type->member_v1.type);
ptr += 2 + 2 + 2 + leaf_len + (1 + p_name->namelen);
break;
case LF_MEMBER_V2:
leaf_len = numeric_leaf(&value, &type->member_v2.offset);
p_name = (const struct p_string*)((const unsigned char*)&type->member_v2.offset + leaf_len);
codeview_add_udt_element(ctp, symt, terminate_string(p_name), value,
type->member_v2.type);
ptr += 2 + 2 + 4 + leaf_len + (1 + p_name->namelen);
break;
case LF_MEMBER_V3:
leaf_len = numeric_leaf(&value, &type->member_v3.offset);
c_name = (const char*)&type->member_v3.offset + leaf_len;
codeview_add_udt_element(ctp, symt, c_name, value, type->member_v3.type);
ptr += 2 + 2 + 4 + leaf_len + (strlen(c_name) + 1);
break;
case LF_STMEMBER_V1:
/* FIXME: ignored for now */
ptr += 2 + 2 + 2 + (1 + type->stmember_v1.p_name.namelen);
break;
case LF_STMEMBER_V2:
/* FIXME: ignored for now */
ptr += 2 + 4 + 2 + (1 + type->stmember_v2.p_name.namelen);
break;
case LF_STMEMBER_V3:
/* FIXME: ignored for now */
ptr += 2 + 4 + 2 + (strlen(type->stmember_v3.name) + 1);
break;
case LF_METHOD_V1:
/* FIXME: ignored for now */
ptr += 2 + 2 + 2 + (1 + type->method_v1.p_name.namelen);
break;
case LF_METHOD_V2:
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + (1 + type->method_v2.p_name.namelen);
break;
case LF_METHOD_V3:
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + (strlen(type->method_v3.name) + 1);
break;
case LF_NESTTYPE_V1:
/* FIXME: ignored for now */
ptr += 2 + 2 + (1 + type->nesttype_v1.p_name.namelen);
break;
case LF_NESTTYPE_V2:
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + (1 + type->nesttype_v2.p_name.namelen);
break;
case LF_NESTTYPE_V3:
/* FIXME: ignored for now */
ptr += 2 + 2 + 4 + (strlen(type->nesttype_v3.name) + 1);
break;
case LF_VFUNCTAB_V1:
/* FIXME: ignored for now */
ptr += 2 + 2;
break;
case LF_VFUNCTAB_V2:
/* FIXME: ignored for now */
ptr += 2 + 2 + 4;
break;
case LF_ONEMETHOD_V1:
/* FIXME: ignored for now */
switch ((type->onemethod_v1.attribute >> 2) & 7)
{
case 4: case 6: /* (pure) introducing virtual method */
ptr += 2 + 2 + 2 + 4 + (1 + type->onemethod_virt_v1.p_name.namelen);
break;
default:
ptr += 2 + 2 + 2 + (1 + type->onemethod_v1.p_name.namelen);
break;
}
break;
case LF_ONEMETHOD_V2:
/* FIXME: ignored for now */
switch ((type->onemethod_v2.attribute >> 2) & 7)
{
case 4: case 6: /* (pure) introducing virtual method */
ptr += 2 + 2 + 4 + 4 + (1 + type->onemethod_virt_v2.p_name.namelen);
break;
default:
ptr += 2 + 2 + 4 + (1 + type->onemethod_v2.p_name.namelen);
break;
}
break;
case LF_ONEMETHOD_V3:
/* FIXME: ignored for now */
switch ((type->onemethod_v3.attribute >> 2) & 7)
{
case 4: case 6: /* (pure) introducing virtual method */
ptr += 2 + 2 + 4 + 4 + (strlen(type->onemethod_virt_v3.name) + 1);
break;
default:
ptr += 2 + 2 + 4 + (strlen(type->onemethod_v3.name) + 1);
break;
}
break;
case LF_INDEX_V1:
if (!codeview_add_type_struct_field_list(ctp, symt, type->index_v1.ref))
return FALSE;
ptr += 2 + 2;
break;
case LF_INDEX_V2:
if (!codeview_add_type_struct_field_list(ctp, symt, type->index_v2.ref))
return FALSE;
ptr += 2 + 2 + 4;
break;
default:
FIXME("Unsupported type %04x in STRUCT field list\n", type->generic.id);
return FALSE;
}
}
return TRUE;
}
static struct symt* codeview_new_func_signature(struct codeview_type_parse* ctp,
enum CV_call_e call_conv)
{
struct symt_function_signature* sym;
sym = symt_new_function_signature(ctp->module, NULL, call_conv);
return &sym->symt;
}
static void codeview_add_func_signature_args(struct codeview_type_parse* ctp,
struct symt_function_signature* sym,
unsigned ret_type,
unsigned args_list)
{
const union codeview_reftype* reftype;
sym->rettype = codeview_fetch_type(ctp, ret_type);
if (args_list && (reftype = codeview_jump_to_type(ctp, args_list)))
{
unsigned int i;
switch (reftype->generic.id)
{
case LF_ARGLIST_V1:
for (i = 0; i < reftype->arglist_v1.num; i++)
symt_add_function_signature_parameter(ctp->module, sym,
codeview_fetch_type(ctp, reftype->arglist_v1.args[i]));
break;
case LF_ARGLIST_V2:
for (i = 0; i < reftype->arglist_v2.num; i++)
symt_add_function_signature_parameter(ctp->module, sym,
codeview_fetch_type(ctp, reftype->arglist_v2.args[i]));
break;
default:
FIXME("Unexpected leaf %x for signature's pmt\n", reftype->generic.id);
}
}
}
static struct symt* codeview_parse_one_type(struct codeview_type_parse* ctp,
unsigned curr_type,
const union codeview_type* type)
{
struct symt* symt = NULL;
int value, leaf_len;
const struct p_string* p_name;
const char* c_name;
switch (type->generic.id)
{
case LF_MODIFIER_V1:
/* FIXME: we don't handle modifiers,
* but read previous type on the curr_type
*/
WARN("Modifier on %x: %s%s%s%s\n",
type->modifier_v1.type,
type->modifier_v1.attribute & 0x01 ? "const " : "",
type->modifier_v1.attribute & 0x02 ? "volatile " : "",
type->modifier_v1.attribute & 0x04 ? "unaligned " : "",
type->modifier_v1.attribute & ~0x07 ? "unknown " : "");
symt = codeview_fetch_type(ctp, type->modifier_v1.type);
break;
case LF_MODIFIER_V2:
/* FIXME: we don't handle modifiers, but readd previous type on the curr_type */
WARN("Modifier on %x: %s%s%s%s\n",
type->modifier_v2.type,
type->modifier_v2.attribute & 0x01 ? "const " : "",
type->modifier_v2.attribute & 0x02 ? "volatile " : "",
type->modifier_v2.attribute & 0x04 ? "unaligned " : "",
type->modifier_v2.attribute & ~0x07 ? "unknown " : "");
symt = codeview_fetch_type(ctp, type->modifier_v2.type);
break;
case LF_POINTER_V1:
symt = codeview_add_type_pointer(ctp, type->pointer_v1.datatype);
break;
case LF_POINTER_V2:
symt = codeview_add_type_pointer(ctp, type->pointer_v2.datatype);
break;
case LF_ARRAY_V1:
leaf_len = numeric_leaf(&value, &type->array_v1.arrlen);
p_name = (const struct p_string*)((const unsigned char*)&type->array_v1.arrlen + leaf_len);
symt = codeview_add_type_array(ctp, terminate_string(p_name),
type->array_v1.elemtype,
type->array_v1.idxtype, value);
break;
case LF_ARRAY_V2:
leaf_len = numeric_leaf(&value, &type->array_v2.arrlen);
p_name = (const struct p_string*)((const unsigned char*)&type->array_v2.arrlen + leaf_len);
symt = codeview_add_type_array(ctp, terminate_string(p_name),
type->array_v2.elemtype,
type->array_v2.idxtype, value);
break;
case LF_ARRAY_V3:
leaf_len = numeric_leaf(&value, &type->array_v3.arrlen);
c_name = (const char*)&type->array_v3.arrlen + leaf_len;
symt = codeview_add_type_array(ctp, c_name,
type->array_v3.elemtype,
type->array_v3.idxtype, value);
break;
case LF_STRUCTURE_V1:
case LF_CLASS_V1:
if (!type->struct_v1.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->struct_v1.fieldlist);
break;
case LF_STRUCTURE_V2:
case LF_CLASS_V2:
if (!type->struct_v2.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->struct_v2.fieldlist);
break;
case LF_STRUCTURE_V3:
case LF_CLASS_V3:
if (!type->struct_v3.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->struct_v3.fieldlist);
break;
case LF_UNION_V1:
if (!type->union_v1.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->union_v1.fieldlist);
break;
case LF_UNION_V2:
if (!type->union_v2.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->union_v2.fieldlist);
break;
case LF_UNION_V3:
if (!type->union_v3.property.is_forward_defn)
codeview_add_type_struct_field_list(ctp, (struct symt_udt*)codeview_get_type(curr_type, TRUE),
type->union_v3.fieldlist);
break;
case LF_ENUM_V1:
{
struct symt_enum* senum = (struct symt_enum*)codeview_get_type(curr_type, TRUE);
senum->base_type = codeview_fetch_type(ctp, type->enumeration_v1.type);
codeview_add_type_enum_field_list(ctp, senum, type->enumeration_v1.fieldlist);
}
break;
case LF_ENUM_V2:
{
struct symt_enum* senum = (struct symt_enum*)codeview_get_type(curr_type, TRUE);
senum->base_type = codeview_fetch_type(ctp, type->enumeration_v2.type);
codeview_add_type_enum_field_list(ctp, senum, type->enumeration_v2.fieldlist);
}
break;
case LF_ENUM_V3:
{
struct symt_enum* senum = (struct symt_enum*)codeview_get_type(curr_type, TRUE);
senum->base_type = codeview_fetch_type(ctp, type->enumeration_v3.type);
codeview_add_type_enum_field_list(ctp, senum, type->enumeration_v3.fieldlist);
}
break;
case LF_PROCEDURE_V1:
symt = codeview_new_func_signature(ctp, type->procedure_v1.callconv);
codeview_add_func_signature_args(ctp,
(struct symt_function_signature*)symt,
type->procedure_v1.rvtype,
type->procedure_v1.arglist);
break;
case LF_PROCEDURE_V2:
symt = codeview_new_func_signature(ctp,type->procedure_v2.callconv);
codeview_add_func_signature_args(ctp,
(struct symt_function_signature*)symt,
type->procedure_v2.rvtype,
type->procedure_v2.arglist);
break;
case LF_MFUNCTION_V1:
/* FIXME: for C++, this is plain wrong, but as we don't use arg types
* nor class information, this would just do for now
*/
symt = codeview_new_func_signature(ctp, type->mfunction_v1.callconv);
codeview_add_func_signature_args(ctp,
(struct symt_function_signature*)symt,
type->mfunction_v1.rvtype,
type->mfunction_v1.arglist);
break;
case LF_MFUNCTION_V2:
/* FIXME: for C++, this is plain wrong, but as we don't use arg types
* nor class information, this would just do for now
*/
symt = codeview_new_func_signature(ctp, type->mfunction_v2.callconv);
codeview_add_func_signature_args(ctp,
(struct symt_function_signature*)symt,
type->mfunction_v2.rvtype,
type->mfunction_v2.arglist);
break;
case LF_VTSHAPE_V1:
/* this is an ugly hack... FIXME when we have C++ support */
{
char buf[128];
snprintf(buf, sizeof(buf), "__internal_vt_shape_%x\n", curr_type);
symt = &symt_new_udt(ctp->module, buf, 0, UdtStruct)->symt;
}
break;
default:
FIXME("Unsupported type-id leaf %x\n", type->generic.id);
dump(type, 2 + type->generic.len);
return NULL;
}
return symt && codeview_add_type(curr_type, symt) ? symt : NULL;
}
static struct symt* codeview_load_forwardable_type(struct codeview_type_parse* ctp,
const union codeview_type* type)
{
struct symt* symt;
int value, leaf_len;
const struct p_string* p_name;
const char* c_name;
switch (type->generic.id)
{
case LF_STRUCTURE_V1:
case LF_CLASS_V1:
leaf_len = numeric_leaf(&value, &type->struct_v1.structlen);
p_name = (const struct p_string*)((const unsigned char*)&type->struct_v1.structlen + leaf_len);
symt = &symt_new_udt(ctp->module, terminate_string(p_name), value,
type->generic.id == LF_CLASS_V1 ? UdtClass : UdtStruct)->symt;
break;
case LF_STRUCTURE_V2:
case LF_CLASS_V2:
leaf_len = numeric_leaf(&value, &type->struct_v2.structlen);
p_name = (const struct p_string*)((const unsigned char*)&type->struct_v2.structlen + leaf_len);
symt = &symt_new_udt(ctp->module, terminate_string(p_name), value,
type->generic.id == LF_CLASS_V2 ? UdtClass : UdtStruct)->symt;
break;
case LF_STRUCTURE_V3:
case LF_CLASS_V3:
leaf_len = numeric_leaf(&value, &type->struct_v3.structlen);
c_name = (const char*)&type->struct_v3.structlen + leaf_len;
symt = &symt_new_udt(ctp->module, c_name, value,
type->generic.id == LF_CLASS_V3 ? UdtClass : UdtStruct)->symt;
break;
case LF_UNION_V1:
leaf_len = numeric_leaf(&value, &type->union_v1.un_len);
p_name = (const struct p_string*)((const unsigned char*)&type->union_v1.un_len + leaf_len);
symt = &symt_new_udt(ctp->module, terminate_string(p_name), value, UdtUnion)->symt;
break;
case LF_UNION_V2:
leaf_len = numeric_leaf(&value, &type->union_v2.un_len);
p_name = (const struct p_string*)((const unsigned char*)&type->union_v2.un_len + leaf_len);
symt = &symt_new_udt(ctp->module, terminate_string(p_name), value, UdtUnion)->symt;
break;
case LF_UNION_V3:
leaf_len = numeric_leaf(&value, &type->union_v3.un_len);
c_name = (const char*)&type->union_v3.un_len + leaf_len;
symt = &symt_new_udt(ctp->module, c_name, value, UdtUnion)->symt;
break;
case LF_ENUM_V1:
symt = &symt_new_enum(ctp->module, terminate_string(&type->enumeration_v1.p_name), NULL)->symt;
break;
case LF_ENUM_V2:
symt = &symt_new_enum(ctp->module, terminate_string(&type->enumeration_v2.p_name), NULL)->symt;
break;
case LF_ENUM_V3:
symt = &symt_new_enum(ctp->module, type->enumeration_v3.name, NULL)->symt;
break;
default: symt = NULL;
}
return symt;
}
static inline BOOL codeview_is_top_level_type(const union codeview_type* type)
{
/* type records we're interested in are the ones referenced by symbols
* The known ranges are (X mark the ones we want):
* X 0000-0016 for V1 types
* 0200-020c for V1 types referenced by other types
* 0400-040f for V1 types (complex lists & sets)
* X 1000-100f for V2 types
* 1200-120c for V2 types referenced by other types
* 1400-140f for V1 types (complex lists & sets)
* X 1500-150d for V3 types
* 8000-8010 for numeric leafes
*/
return !(type->generic.id & 0x8600) || (type->generic.id & 0x0100);
}
static BOOL codeview_parse_type_table(struct codeview_type_parse* ctp)
{
unsigned int i, curr_type;
const union codeview_type* type;
cv_current_module->first_type_index = ctp->header.first_index;
cv_current_module->last_type_index = ctp->header.last_index;
cv_current_module->defined_types = calloc(ctp->header.last_index - ctp->header.first_index,
sizeof(*cv_current_module->defined_types));
/* pass I: + load implementation of forwardable types, but without their content
* + merge forward declarations with their implementations (when the later exists)
* + do it in the order generated from PDB hash table to preserve that order
* (several versions coming from different compilations can exist in the PDB file,
* and using PDB order ensures that we use the relevant one.
* (needed for forward resolution and type lookup by name)
* (dbghelp hash table inserts new elements at the end of bucket's list)
* Note: for a given type, we must handle:
* - only an implementation type record
* - only a forward type record (eg using struct foo* without struct foo being defined)
* - a forward type record and on an implementation type record: this is the most common, but
* depending on hash values, we cannot tell which on will show up first
*/
for (i = 0; i < ctp->header.hash_num_buckets; i++)
{
struct hash_link* hl;
for (hl = ctp->hash[i]; hl; hl = hl->next)
{
struct symt* symt;
type = codeview_jump_to_type(ctp, hl->id);
if (!codeview_is_top_level_type(type)) continue;
if (codeview_type_is_forward(type))
{
unsigned impl_type;
/* make the forward declaration point to the implementation (if any) */
if (codeview_resolve_forward_type(ctp, type, hl->id, &impl_type))
{
/* impl already loaded? */
if (!(symt = codeview_get_type(impl_type, TRUE)))
{
/* no load it */
if ((symt = codeview_load_forwardable_type(ctp, codeview_jump_to_type(ctp, impl_type))))
codeview_add_type(impl_type, symt);
else
FIXME("forward def of %x => %x, unable to load impl\n", hl->id, impl_type);
}
}
else
/* forward type definition without implementation, create empty type */
symt = codeview_load_forwardable_type(ctp, type);
}
else
{
/* if not already loaded (from previous forward declaration), load it */
if (!(symt = codeview_get_type(hl->id, TRUE)))
symt = codeview_load_forwardable_type(ctp, type);
}
codeview_add_type(hl->id, symt);
}
}
/* pass II: + non forwardable types: load them, but since they can be indirectly
* loaded (from another type), but don't load them twice
* + forwardable types: load their content
*/
for (curr_type = ctp->header.first_index; curr_type < ctp->header.last_index; curr_type++)
{
type = codeview_jump_to_type(ctp, curr_type);
if (codeview_is_top_level_type(type) &&
(!codeview_get_type(curr_type, TRUE) || codeview_is_forwardable_type(type)))
codeview_parse_one_type(ctp, curr_type, type);
}
return TRUE;
}
/*========================================================================
* Process CodeView line number information.
*/
static ULONG_PTR codeview_get_address(const struct msc_debug_info* msc_dbg,
unsigned seg, unsigned offset);
static void codeview_snarf_linetab(const struct msc_debug_info* msc_dbg, const BYTE* linetab,
int size, BOOL pascal_str)
{
const BYTE* ptr = linetab;
int nfile, nseg;
int i, j;
unsigned int k;
const unsigned int* filetab;
const unsigned int* lt_ptr;
const unsigned short* linenos;
const struct startend* start;
unsigned source;
ULONG_PTR addr, func_addr0;
struct symt_function* func;
const struct codeview_linetab_block* ltb;
nfile = *(const short*)linetab;
filetab = (const unsigned int*)(linetab + 2 * sizeof(short));
for (i = 0; i < nfile; i++)
{
ptr = linetab + filetab[i];
nseg = *(const short*)ptr;
lt_ptr = (const unsigned int*)(ptr + 2 * sizeof(short));
start = (const struct startend*)(lt_ptr + nseg);
/*
* Now snarf the filename for all of the segments for this file.
*/
if (pascal_str)
source = source_new(msc_dbg->module, NULL, terminate_string((const struct p_string*)(start + nseg)));
else
source = source_new(msc_dbg->module, NULL, (const char*)(start + nseg));
for (j = 0; j < nseg; j++)
{
ltb = (const struct codeview_linetab_block*)(linetab + *lt_ptr++);
linenos = (const unsigned short*)&ltb->offsets[ltb->num_lines];
func_addr0 = codeview_get_address(msc_dbg, ltb->seg, start[j].start);
if (!func_addr0) continue;
for (func = NULL, k = 0; k < ltb->num_lines; k++)
{
/* now locate function (if any) */
addr = func_addr0 + ltb->offsets[k] - start[j].start;
/* unfortunately, we can have several functions in the same block, if there's no
* gap between them... find the new function if needed
*/
if (!func || addr >= func->ranges[0].high)
{
func = (struct symt_function*)symt_find_symbol_at(msc_dbg->module, addr);
/* FIXME: at least labels support line numbers */
if (!symt_check_tag(&func->symt, SymTagFunction) && !symt_check_tag(&func->symt, SymTagInlineSite))
{
WARN("--not a func at %04x:%08x %Ix tag=%d\n",
ltb->seg, ltb->offsets[k], addr, func ? func->symt.tag : -1);
func = NULL;
break;
}
}
symt_add_func_line(msc_dbg->module, func, source, linenos[k], addr);
}
}
}
}
static const char* pdb_get_string_table_entry(const PDB_STRING_TABLE* table, unsigned offset);
static void codeview_snarf_linetab2(const struct msc_debug_info* msc_dbg, const struct cv_module_snarf* cvmod)
{
unsigned i;
const void* hdr_last = (const char*)cvmod->dbgsubsect + cvmod->dbgsubsect_size;
const struct CV_DebugSSubsectionHeader_t* hdr;
const struct CV_DebugSSubsectionHeader_t* hdr_next;
const struct CV_DebugSSubsectionHeader_t* hdr_files = NULL;
const struct CV_DebugSLinesHeader_t* lines_hdr;
const struct CV_DebugSLinesFileBlockHeader_t* files_hdr;
const struct CV_Line_t* lines;
const struct CV_Checksum_t* chksms;
unsigned source;
struct symt_function* func;
/* locate DEBUG_S_FILECHKSMS (if any) */
for (hdr = cvmod->dbgsubsect; CV_IS_INSIDE(hdr, hdr_last); hdr = CV_RECORD_GAP(hdr, hdr->cbLen))
{
if (hdr->type == DEBUG_S_FILECHKSMS)
{
hdr_files = hdr;
break;
}
}
if (!hdr_files)
{
TRACE("No DEBUG_S_FILECHKSMS found\n");
return;
}
for (hdr = cvmod->dbgsubsect; CV_IS_INSIDE(hdr, hdr_last); hdr = hdr_next)
{
hdr_next = CV_RECORD_GAP(hdr, hdr->cbLen);
if (!(hdr->type & DEBUG_S_IGNORE))
{
ULONG_PTR lineblk_base;
/* FIXME: should also check that whole lines_blk fits in linetab + size */
switch (hdr->type)
{
case DEBUG_S_LINES:
lines_hdr = CV_RECORD_AFTER(hdr);
files_hdr = CV_RECORD_AFTER(lines_hdr);
/* Skip blocks that are too small - Intel C Compiler generates these. */
if (!CV_IS_INSIDE(files_hdr, hdr_next)) break;
TRACE("block from %04x:%08x #%x\n",
lines_hdr->segCon, lines_hdr->offCon, lines_hdr->cbCon);
chksms = CV_RECORD_GAP(hdr_files, files_hdr->offFile);
if (!CV_IS_INSIDE(chksms, CV_RECORD_GAP(hdr_files, hdr_files->cbLen)))
{
WARN("Corrupt PDB file: offset in CHKSMS subsection is invalid\n");
break;
}
source = source_new(msc_dbg->module, NULL, pdb_get_string_table_entry(cvmod->strimage, chksms->strOffset));
lineblk_base = codeview_get_address(msc_dbg, lines_hdr->segCon, lines_hdr->offCon);
lines = CV_RECORD_AFTER(files_hdr);
for (i = 0; i < files_hdr->nLines; i++)
{
func = (struct symt_function*)symt_find_symbol_at(msc_dbg->module, lineblk_base + lines[i].offset);
/* FIXME: at least labels support line numbers */
if (!symt_check_tag(&func->symt, SymTagFunction) && !symt_check_tag(&func->symt, SymTagInlineSite))
{
WARN("--not a func at %04x:%08x %Ix tag=%d\n",
lines_hdr->segCon, lines_hdr->offCon + lines[i].offset, lineblk_base + lines[i].offset, func ? func->symt.tag : -1);
continue;
}
symt_add_func_line(msc_dbg->module, func, source,
lines[i].linenumStart, lineblk_base + lines[i].offset);
}
break;
case DEBUG_S_FILECHKSMS: /* skip */
break;
default:
break;
}
}
hdr = hdr_next;
}
}
/*========================================================================
* Process CodeView symbol information.
*/
static unsigned int codeview_map_offset(const struct msc_debug_info* msc_dbg,
unsigned int offset)
{
int nomap = msc_dbg->nomap;
const OMAP* omapp = msc_dbg->omapp;
int i;
if (!nomap || !omapp) return offset;
/* FIXME: use binary search */
for (i = 0; i < nomap - 1; i++)
if (omapp[i].rva <= offset && omapp[i+1].rva > offset)
return !omapp[i].rvaTo ? 0 : omapp[i].rvaTo + (offset - omapp[i].rva);
return 0;
}
static ULONG_PTR codeview_get_address(const struct msc_debug_info* msc_dbg,
unsigned seg, unsigned offset)
{
int nsect = msc_dbg->nsect;
const IMAGE_SECTION_HEADER* sectp = msc_dbg->sectp;
if (!seg || seg > nsect) return 0;
return msc_dbg->module->module.BaseOfImage +
codeview_map_offset(msc_dbg, sectp[seg-1].VirtualAddress + offset);
}
static BOOL func_has_local(struct symt_function* func, const char* name)
{
int i;
for (i = 0; i < func->vchildren.num_elts; ++i)
{
struct symt* p = *(struct symt**)vector_at(&func->vchildren, i);
if (symt_check_tag(p, SymTagData) && !strcmp(((struct symt_data*)p)->hash_elt.name, name))
return TRUE;
}
return FALSE;
}
static const union codeview_symbol* get_next_sym(const union codeview_symbol* sym)
{
return (const union codeview_symbol*)((const char*)sym + sym->generic.len + 2);
}
static inline void codeview_add_variable(const struct msc_debug_info* msc_dbg,
struct symt_compiland* compiland,
struct symt_function* func,
struct symt_block* block,
const char* name,
unsigned segment, unsigned offset,
unsigned symtype, BOOL is_local, BOOL in_tls, BOOL dontcheck)
{
if (name && *name)
{
struct location loc;
loc.kind = in_tls ? loc_tlsrel : loc_absolute;
loc.reg = 0;
loc.offset = in_tls ? offset : codeview_get_address(msc_dbg, segment, offset);
if (func)
{
if (!is_local || in_tls) WARN("Unsupported construct\n");
symt_add_func_local(msc_dbg->module, func, DataIsStaticLocal, &loc, block,
codeview_get_type(symtype, FALSE), name);
return;
}
if (!dontcheck && !in_tls)
{
/* Check that we don't add twice the same variable */
struct hash_table_iter hti;
void* ptr;
struct symt_ht* sym;
hash_table_iter_init(&msc_dbg->module->ht_symbols, &hti, name);
while ((ptr = hash_table_iter_up(&hti)))
{
sym = CONTAINING_RECORD(ptr, struct symt_ht, hash_elt);
if (symt_check_tag(&sym->symt, SymTagData) && !strcmp(sym->hash_elt.name, name))
{
struct symt_data* symdata = (struct symt_data*)&sym->symt;
if (symdata->kind == (is_local ? DataIsFileStatic : DataIsGlobal) &&
symdata->u.var.kind == loc.kind &&
symdata->u.var.offset == loc.offset &&
symdata->container == &compiland->symt)
{
/* We don't compare types yet... Unfortunately, they are not
* always the same typeid... it'd require full type equivalence
* (eg: we've seen 'int* foo' <> 'int[4] foo')
*/
return;
}
}
}
}
if (is_local ^ (compiland != NULL)) FIXME("Unsupported construct\n");
symt_new_global_variable(msc_dbg->module, compiland, name, is_local, loc, 0,
codeview_get_type(symtype, FALSE));
}
}
struct cv_local_info
{
unsigned short kind; /* the S_DEFRANGE* */
unsigned short ngaps; /* number of gaps */
unsigned short reg;
unsigned short rangelen; /* after start */
short offset;
DWORD_PTR start;
struct cv_addr_gap gaps[0];
};
static const struct cv_addr_gap* codeview_get_gaps(const union codeview_symbol* symrange)
{
const struct cv_addr_gap* gap;
switch (symrange->generic.id)
{
case S_DEFRANGE: gap = symrange->defrange_v3.gaps; break;
case S_DEFRANGE_SUBFIELD: gap = symrange->defrange_subfield_v3.gaps; break;
case S_DEFRANGE_REGISTER: gap = symrange->defrange_register_v3.gaps; break;
case S_DEFRANGE_FRAMEPOINTER_REL: gap = symrange->defrange_frameptrrel_v3.gaps; break;
case S_DEFRANGE_SUBFIELD_REGISTER: gap = symrange->defrange_subfield_register_v3.gaps; break;
case S_DEFRANGE_REGISTER_REL: gap = symrange->defrange_registerrel_v3.gaps; break;
/* no gaps for that one */
case S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE:
default: return NULL;
}
return gap != (const struct cv_addr_gap*)get_next_sym(symrange) ? gap : NULL;
}
static void codeview_xform_range(const struct msc_debug_info* msc_dbg,
struct cv_local_info* locinfo,
const struct cv_addr_range* adrange)
{
locinfo->start = codeview_get_address(msc_dbg, adrange->isectStart, adrange->offStart);
locinfo->rangelen = adrange->cbRange;
}
static unsigned codeview_defrange_length(const union codeview_symbol* sym)
{
const union codeview_symbol* first_symrange = get_next_sym(sym);
const union codeview_symbol* symrange;
for (symrange = first_symrange;
symrange->generic.id >= S_DEFRANGE && symrange->generic.id <= S_DEFRANGE_REGISTER_REL;
symrange = get_next_sym(symrange)) {}
return (const char*)symrange - (const char*)first_symrange;
}
static unsigned codeview_transform_defrange(const struct msc_debug_info* msc_dbg,
struct symt_function* curr_func,
const union codeview_symbol* sym,
struct location* loc)
{
const union codeview_symbol* first_symrange = get_next_sym(sym);
const union codeview_symbol* symrange;
const struct cv_addr_gap* gap;
unsigned len, alloc = sizeof(DWORD); /* for terminating kind = 0 */
unsigned char* ptr;
/* we need to transform the cv_addr_range into cv_local_info */
for (symrange = first_symrange;
symrange->generic.id >= S_DEFRANGE && symrange->generic.id <= S_DEFRANGE_REGISTER_REL;
symrange = get_next_sym(symrange))
{
gap = codeview_get_gaps(symrange);
alloc += sizeof(struct cv_local_info) +
(gap ? (const char*)get_next_sym(symrange) - (const char*)gap : 0);
}
/* total length of all S_DEFRANGE* records (in bytes) following S_LOCAL */
len = (const char*)symrange - (const char*)first_symrange;
ptr = pool_alloc(&msc_dbg->module->pool, alloc);
if (ptr)
{
struct cv_local_info* locinfo = (struct cv_local_info*)ptr;
loc->kind = loc_cv_local_range;
loc->offset = (DWORD_PTR)ptr;
/* transform the cv_addr_range into cv_local_info */
for (symrange = first_symrange;
symrange->generic.id >= S_DEFRANGE && symrange->generic.id <= S_DEFRANGE_REGISTER_REL;
symrange = get_next_sym(symrange))
{
locinfo->kind = symrange->generic.id;
switch (symrange->generic.id)
{
case S_DEFRANGE:
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_v3.range);
/* FIXME: transformation unsupported; let loc_compute bark if actually needed */
break;
case S_DEFRANGE_SUBFIELD:
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_subfield_v3.range);
/* FIXME: transformation unsupported; let loc_compute bark if actually needed */
break;
case S_DEFRANGE_REGISTER:
locinfo->reg = symrange->defrange_register_v3.reg;
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_register_v3.range);
break;
case S_DEFRANGE_FRAMEPOINTER_REL:
locinfo->offset = symrange->defrange_frameptrrel_v3.offFramePointer;
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_frameptrrel_v3.range);
break;
case S_DEFRANGE_SUBFIELD_REGISTER:
locinfo->reg = symrange->defrange_subfield_register_v3.reg;
locinfo->offset = symrange->defrange_subfield_register_v3.offParent;
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_subfield_register_v3.range);
break;
case S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE:
locinfo->offset = symrange->defrange_frameptr_relfullscope_v3.offFramePointer;
locinfo->start = curr_func->ranges[0].low;
locinfo->rangelen = addr_range_size(&curr_func->ranges[0]);
break;
case S_DEFRANGE_REGISTER_REL:
locinfo->reg = symrange->defrange_registerrel_v3.baseReg;
locinfo->offset = symrange->defrange_registerrel_v3.offBasePointer;
codeview_xform_range(msc_dbg, locinfo, &symrange->defrange_registerrel_v3.range);
break;
default:
assert(0);
}
gap = codeview_get_gaps(symrange);
if (gap)
{
unsigned gaplen = (const char*)get_next_sym(symrange) - (const char*)gap;
locinfo->ngaps = gaplen / sizeof(*gap);
memcpy(locinfo->gaps, gap, gaplen);
locinfo = (struct cv_local_info*)((char*)(locinfo + 1) + gaplen);
}
else
{
locinfo->ngaps = 0;
locinfo++;
}
}
*(DWORD*)locinfo = 0; /* store terminating kind == 0 */
}
else
{
loc->kind = loc_error;
loc->reg = loc_err_internal;
}
return len;
}
static unsigned codeview_binannot_uncompress(const unsigned char** pptr)
{
unsigned res = (unsigned)(-1);
const unsigned char* ptr = *pptr;
if ((*ptr & 0x80) == 0x00)
res = (unsigned)(*ptr++);
else if ((*ptr & 0xC0) == 0x80)
{
res = (unsigned)((*ptr++ & 0x3f) << 8);
res |= *ptr++;
}
else if ((*ptr & 0xE0) == 0xC0)
{
res = (*ptr++ & 0x1f) << 24;
res |= *ptr++ << 16;
res |= *ptr++ << 8;
res |= *ptr++;
}
else res = (unsigned)(-1);
*pptr = ptr;
return res;
}
struct cv_binannot
{
const unsigned char* annot; /* current pointer */
const unsigned char* last_annot; /* end of binary annotation stream (first byte after) */
unsigned opcode; /* last decoded opcode */
unsigned arg1, arg2;
};
static BOOL codeview_advance_binannot(struct cv_binannot* cvba)
{
if (cvba->annot >= cvba->last_annot) return FALSE;
cvba->opcode = codeview_binannot_uncompress(&cvba->annot);
if (cvba->opcode <= BA_OP_Invalid || cvba->opcode > BA_OP_ChangeColumnEnd) return FALSE;
if (cvba->annot >= cvba->last_annot) return FALSE;
cvba->arg1 = codeview_binannot_uncompress(&cvba->annot);
if (cvba->opcode == BA_OP_ChangeCodeOffsetAndLineOffset)
{
cvba->arg2 = cvba->arg1 >> 4;
cvba->arg1 &= 0x0F;
}
else if (cvba->opcode == BA_OP_ChangeCodeLengthAndCodeOffset)
{
if (cvba->annot >= cvba->last_annot) return FALSE;
cvba->arg2 = codeview_binannot_uncompress(&cvba->annot);
}
else cvba->arg2 = 0;
return TRUE;
}
static inline int binannot_getsigned(unsigned i)
{
return (i & 1) ? -(int)(i >> 1) : (int)(i >> 1);
}
static BOOL cv_dbgsubsect_find_inlinee(const struct msc_debug_info* msc_dbg,
unsigned inlineeid,
const struct cv_module_snarf* cvmod,
const struct CV_DebugSSubsectionHeader_t* hdr_files,
unsigned* srcfile, unsigned* srcline)
{
const struct CV_DebugSSubsectionHeader_t* hdr;
const struct CV_DebugSSubsectionHeader_t* next_hdr;
const struct CV_InlineeSourceLine_t* inlsrc;
const struct CV_InlineeSourceLineEx_t* inlsrcex;
const struct CV_Checksum_t* chksms;
for (hdr = cvmod->dbgsubsect; CV_IS_INSIDE(hdr, cvmod->dbgsubsect + cvmod->dbgsubsect_size); hdr = next_hdr)
{
next_hdr = CV_RECORD_GAP(hdr, hdr->cbLen);
if (hdr->type != DEBUG_S_INLINEELINES) continue;
/* subsection starts with a DWORD signature */
switch (*(DWORD*)CV_RECORD_AFTER(hdr))
{
case CV_INLINEE_SOURCE_LINE_SIGNATURE:
inlsrc = CV_RECORD_GAP(hdr, sizeof(DWORD));
while (CV_IS_INSIDE(inlsrc, next_hdr))
{
if (inlsrc->inlinee == inlineeid)
{
chksms = CV_RECORD_GAP(hdr_files, inlsrc->fileId);
if (!CV_IS_INSIDE(chksms, CV_RECORD_GAP(hdr_files, hdr_files->cbLen))) return FALSE;
*srcfile = source_new(msc_dbg->module, NULL, pdb_get_string_table_entry(cvmod->strimage, chksms->strOffset));
*srcline = inlsrc->sourceLineNum;
return TRUE;
}
++inlsrc;
}
break;
case CV_INLINEE_SOURCE_LINE_SIGNATURE_EX:
inlsrcex = CV_RECORD_GAP(hdr, sizeof(DWORD));
while (CV_IS_INSIDE(inlsrcex, next_hdr))
{
if (inlsrcex->inlinee == inlineeid)
{
chksms = CV_RECORD_GAP(hdr_files, inlsrcex->fileId);
if (!CV_IS_INSIDE(chksms, CV_RECORD_GAP(hdr_files, hdr_files->cbLen))) return FALSE;
*srcfile = source_new(msc_dbg->module, NULL, pdb_get_string_table_entry(cvmod->strimage, chksms->strOffset));
*srcline = inlsrcex->sourceLineNum;
return TRUE;
}
inlsrcex = CV_RECORD_GAP(inlsrcex, inlsrcex->countOfExtraFiles * sizeof(inlsrcex->extraFileId[0]));
}
break;
default:
FIXME("Unknown signature %lx in INLINEELINES subsection\n", *(DWORD*)CV_RECORD_AFTER(hdr));
break;
}
}
return FALSE;
}
static inline void inline_site_update_last_range(struct symt_function* inlined, unsigned index, ULONG_PTR hi)
{
if (index && index <= inlined->num_ranges)
{
struct addr_range* range = &inlined->ranges[index - 1];
/* only change range if it has no span (code start without code end) */
if (range->low == range->high)
range->high = hi;
}
}
static unsigned inline_site_get_num_ranges(const unsigned char* annot,
const unsigned char* last_annot)
{
struct cv_binannot cvba;
unsigned num_ranges = 0;
cvba.annot = annot;
cvba.last_annot = last_annot;
while (codeview_advance_binannot(&cvba))
{
switch (cvba.opcode)
{
case BA_OP_CodeOffset:
case BA_OP_ChangeCodeLength:
case BA_OP_ChangeFile:
case BA_OP_ChangeLineOffset:
break;
case BA_OP_ChangeCodeOffset:
case BA_OP_ChangeCodeOffsetAndLineOffset:
case BA_OP_ChangeCodeLengthAndCodeOffset:
num_ranges++;
break;
default:
WARN("Unsupported op %d\n", cvba.opcode);
break;
}
}
return num_ranges;
}
static struct symt_function* codeview_create_inline_site(const struct msc_debug_info* msc_dbg,
const struct cv_module_snarf* cvmod,
struct symt_function* top_func,
struct symt* container,
cv_itemid_t inlinee,
const unsigned char* annot,
const unsigned char* last_annot)
{
const struct CV_DebugSSubsectionHeader_t* hdr_files = NULL;
const union codeview_type* cvt;
struct symt_function* inlined;
struct cv_binannot cvba;
BOOL srcok;
unsigned num_ranges;
unsigned offset, index, line, srcfile;
const struct CV_Checksum_t* chksms;
if (!cvmod->ipi_ctp || !(cvt = codeview_jump_to_type(cvmod->ipi_ctp, inlinee)))
{
FIXME("Couldn't find type %x in IPI stream\n", inlinee);
return NULL;
}
num_ranges = inline_site_get_num_ranges(annot, last_annot);
if (!num_ranges) return NULL;
switch (cvt->generic.id)
{
case LF_FUNC_ID:
inlined = symt_new_inlinesite(msc_dbg->module, top_func, container,
cvt->func_id_v3.name,
codeview_get_type(cvt->func_id_v3.type, FALSE),
num_ranges);
break;
case LF_MFUNC_ID:
/* FIXME we just declare a function, not a method */
inlined = symt_new_inlinesite(msc_dbg->module, top_func, container,
cvt->mfunc_id_v3.name,
codeview_get_type(cvt->mfunc_id_v3.type, FALSE),
num_ranges);
break;
default:
FIXME("unsupported inlinee kind %x\n", cvt->generic.id);
return NULL;
}
for (hdr_files = cvmod->dbgsubsect;
CV_IS_INSIDE(hdr_files, cvmod->dbgsubsect + cvmod->dbgsubsect_size);
hdr_files = CV_RECORD_GAP(hdr_files, hdr_files->cbLen))
{
if (hdr_files->type == DEBUG_S_FILECHKSMS)
break;
}
if (!hdr_files) return FALSE;
srcok = cv_dbgsubsect_find_inlinee(msc_dbg, inlinee, cvmod, hdr_files, &srcfile, &line);
if (!srcok)
srcfile = line = 0;
/* rescan all annotations and store ranges & line information */
offset = 0;
index = 0;
cvba.annot = annot;
cvba.last_annot = last_annot;
while (codeview_advance_binannot(&cvba))
{
switch (cvba.opcode)
{
case BA_OP_CodeOffset:
offset = cvba.arg1;
break;
case BA_OP_ChangeCodeOffset:
offset += cvba.arg1;
inline_site_update_last_range(inlined, index, top_func->ranges[0].low + offset);
if (srcok)
symt_add_func_line(msc_dbg->module, inlined, srcfile, line, top_func->ranges[0].low + offset);
inlined->ranges[index ].low = top_func->ranges[0].low + offset;
inlined->ranges[index++].high = top_func->ranges[0].low + offset;
break;
case BA_OP_ChangeCodeLength:
/* this op isn't widely used by MSVC, but clang uses it a lot... */
offset += cvba.arg1;
inline_site_update_last_range(inlined, index, top_func->ranges[0].low + offset);
break;
case BA_OP_ChangeFile:
chksms = CV_RECORD_GAP(hdr_files, cvba.arg1);
if (CV_IS_INSIDE(chksms, CV_RECORD_GAP(hdr_files, hdr_files->cbLen)))
srcfile = source_new(msc_dbg->module, NULL, pdb_get_string_table_entry(cvmod->strimage, chksms->strOffset));
break;
case BA_OP_ChangeLineOffset:
line += binannot_getsigned(cvba.arg1);
break;
case BA_OP_ChangeCodeOffsetAndLineOffset:
line += binannot_getsigned(cvba.arg2);
offset += cvba.arg1;
inline_site_update_last_range(inlined, index, top_func->ranges[0].low + offset);
if (srcok)
symt_add_func_line(msc_dbg->module, inlined, srcfile, line, top_func->ranges[0].low + offset);
inlined->ranges[index ].low = top_func->ranges[0].low + offset;
inlined->ranges[index++].high = top_func->ranges[0].low + offset;
break;
case BA_OP_ChangeCodeLengthAndCodeOffset:
offset += cvba.arg2;
inline_site_update_last_range(inlined, index, top_func->ranges[0].low + offset);
if (srcok)
symt_add_func_line(msc_dbg->module, inlined, srcfile, line, top_func->ranges[0].low + offset);
inlined->ranges[index ].low = top_func->ranges[0].low + offset;
inlined->ranges[index++].high = top_func->ranges[0].low + offset + cvba.arg1;
break;
default:
WARN("Unsupported op %d\n", cvba.opcode);
break;
}
}
if (index != num_ranges) /* sanity check */
FIXME("Internal logic error\n");
if (inlined->num_ranges)
{
struct addr_range* range = &inlined->ranges[inlined->num_ranges - 1];
if (range->low == range->high) WARN("pending empty range at end of %s inside %s\n",
inlined->hash_elt.name,
top_func->hash_elt.name);
}
return inlined;
}
static struct symt_compiland* codeview_new_compiland(const struct msc_debug_info* msc_dbg, const char* objname)
{
unsigned int src_idx = source_new(msc_dbg->module, NULL, objname);
unsigned int i;
/* In some cases MSVC generates several compiland entries with same pathname in PDB file.
* (for example: for an import library, one compiland entry per imported function is generated).
* But native dbghelp (in this case) merges in a single compiland instance.
*/
for (i = 0; i < msc_dbg->module->top->vchildren.num_elts; i++)
{
struct symt_compiland** p = vector_at(&msc_dbg->module->top->vchildren, i);
if (symt_check_tag(&(*p)->symt, SymTagCompiland) && (*p)->source == src_idx)
return *p;
}
return symt_new_compiland(msc_dbg->module, src_idx);
}
static BOOL codeview_snarf(const struct msc_debug_info* msc_dbg,
const BYTE* root, unsigned offset, unsigned size,
const struct cv_module_snarf* cvmod,
const char* objname)
{
struct symt_function* top_func = NULL;
struct symt_function* curr_func = NULL;
int i, length;
struct symt_block* block = NULL;
struct symt* symt;
struct symt_compiland* compiland = NULL;
struct location loc;
/* overwrite compiland name from outer context (if any) */
if (objname)
compiland = codeview_new_compiland(msc_dbg, objname);
/*
* Loop over the different types of records and whenever we
* find something we are interested in, record it and move on.
*/
for (i = offset; i < size; i += length)
{
const union codeview_symbol* sym = (const union codeview_symbol*)(root + i);
length = sym->generic.len + 2;
if (i + length > size) break;
if (!sym->generic.id || length < 4) break;
if (length & 3) FIXME("unpadded len %u\n", length);
switch (sym->generic.id)
{
/*
* Global and local data symbols. We don't associate these
* with any given source file.
*/
case S_GDATA32_16t:
case S_LDATA32_16t:
codeview_add_variable(msc_dbg, compiland, curr_func, block, terminate_string(&sym->data_v1.p_name),
sym->data_v1.segment, sym->data_v1.offset, sym->data_v1.symtype,
sym->generic.id == S_LDATA32_16t, FALSE, TRUE);
break;
case S_GDATA32_ST:
case S_LDATA32_ST:
codeview_add_variable(msc_dbg, compiland, curr_func, block, terminate_string(&sym->data_v2.p_name),
sym->data_v2.segment, sym->data_v2.offset, sym->data_v2.symtype,
sym->generic.id == S_LDATA32_ST, FALSE, TRUE);
break;
case S_GDATA32:
case S_LDATA32:
codeview_add_variable(msc_dbg, compiland, curr_func, block, sym->data_v3.name,
sym->data_v3.segment, sym->data_v3.offset, sym->data_v3.symtype,
sym->generic.id == S_LDATA32, FALSE, TRUE);
break;
/* variables with thread storage */
case S_GTHREAD32_16t:
case S_LTHREAD32_16t:
codeview_add_variable(msc_dbg, compiland, curr_func, block, terminate_string(&sym->thread_v1.p_name),
sym->thread_v1.segment, sym->thread_v1.offset, sym->thread_v1.symtype,
sym->generic.id == S_LTHREAD32_16t, TRUE, TRUE);
break;
case S_GTHREAD32_ST:
case S_LTHREAD32_ST:
codeview_add_variable(msc_dbg, compiland, curr_func, block, terminate_string(&sym->thread_v2.p_name),
sym->thread_v2.segment, sym->thread_v2.offset, sym->thread_v2.symtype,
sym->generic.id == S_LTHREAD32_ST, TRUE, TRUE);
break;
case S_GTHREAD32:
case S_LTHREAD32:
codeview_add_variable(msc_dbg, compiland, curr_func, block, sym->thread_v3.name,
sym->thread_v3.segment, sym->thread_v3.offset, sym->thread_v3.symtype,
sym->generic.id == S_LTHREAD32, TRUE, TRUE);
break;
/* Public symbols */
case S_PUB32_16t:
case S_PUB32_ST:
case S_PUB32:
case S_PROCREF:
case S_LPROCREF:
/* will be handled later on in codeview_snarf_public */
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_THUNK32_ST:
symt_new_thunk(msc_dbg->module, compiland,
terminate_string(&sym->thunk_v1.p_name), sym->thunk_v1.thtype,
codeview_get_address(msc_dbg, sym->thunk_v1.segment, sym->thunk_v1.offset),
sym->thunk_v1.thunk_len);
break;
case S_THUNK32:
symt_new_thunk(msc_dbg->module, compiland,
sym->thunk_v3.name, sym->thunk_v3.thtype,
codeview_get_address(msc_dbg, sym->thunk_v3.segment, sym->thunk_v3.offset),
sym->thunk_v3.thunk_len);
break;
/*
* Global and static functions.
*/
case S_GPROC32_16t:
case S_LPROC32_16t:
if (top_func) FIXME("nested function\n");
top_func = symt_new_function(msc_dbg->module, compiland,
terminate_string(&sym->proc_v1.p_name),
codeview_get_address(msc_dbg, sym->proc_v1.segment, sym->proc_v1.offset),
sym->proc_v1.proc_len,
codeview_get_type(sym->proc_v1.proctype, FALSE));
curr_func = top_func;
loc.kind = loc_absolute;
loc.offset = sym->proc_v1.debug_start;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugStart, &loc, NULL);
loc.offset = sym->proc_v1.debug_end;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugEnd, &loc, NULL);
break;
case S_GPROC32_ST:
case S_LPROC32_ST:
if (top_func) FIXME("nested function\n");
top_func = symt_new_function(msc_dbg->module, compiland,
terminate_string(&sym->proc_v2.p_name),
codeview_get_address(msc_dbg, sym->proc_v2.segment, sym->proc_v2.offset),
sym->proc_v2.proc_len,
codeview_get_type(sym->proc_v2.proctype, FALSE));
curr_func = top_func;
loc.kind = loc_absolute;
loc.offset = sym->proc_v2.debug_start;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugStart, &loc, NULL);
loc.offset = sym->proc_v2.debug_end;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugEnd, &loc, NULL);
break;
case S_GPROC32:
case S_LPROC32:
if (top_func) FIXME("nested function\n");
top_func = symt_new_function(msc_dbg->module, compiland,
sym->proc_v3.name,
codeview_get_address(msc_dbg, sym->proc_v3.segment, sym->proc_v3.offset),
sym->proc_v3.proc_len,
codeview_get_type(sym->proc_v3.proctype, FALSE));
curr_func = top_func;
loc.kind = loc_absolute;
loc.offset = sym->proc_v3.debug_start;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugStart, &loc, NULL);
loc.offset = sym->proc_v3.debug_end;
symt_add_function_point(msc_dbg->module, curr_func, SymTagFuncDebugEnd, &loc, NULL);
break;
/*
* Function parameters and stack variables.
*/
case S_BPREL32_16t:
loc.kind = loc_regrel;
/* Yes, it's i386 dependent, but that's the symbol purpose. S_REGREL is used on other CPUs */
loc.reg = CV_REG_EBP;
loc.offset = sym->stack_v1.offset;
symt_add_func_local(msc_dbg->module, curr_func,
sym->stack_v1.offset > 0 ? DataIsParam : DataIsLocal,
&loc, block,
codeview_get_type(sym->stack_v1.symtype, FALSE),
terminate_string(&sym->stack_v1.p_name));
break;
case S_BPREL32_ST:
loc.kind = loc_regrel;
/* Yes, it's i386 dependent, but that's the symbol purpose. S_REGREL is used on other CPUs */
loc.reg = CV_REG_EBP;
loc.offset = sym->stack_v2.offset;
symt_add_func_local(msc_dbg->module, curr_func,
sym->stack_v2.offset > 0 ? DataIsParam : DataIsLocal,
&loc, block,
codeview_get_type(sym->stack_v2.symtype, FALSE),
terminate_string(&sym->stack_v2.p_name));
break;
case S_BPREL32:
/* S_BPREL32 can be present after S_LOCAL; prefer S_LOCAL when present */
if (func_has_local(curr_func, sym->stack_v3.name)) break;
loc.kind = loc_regrel;
/* Yes, it's i386 dependent, but that's the symbol purpose. S_REGREL is used on other CPUs */
loc.reg = CV_REG_EBP;
loc.offset = sym->stack_v3.offset;
symt_add_func_local(msc_dbg->module, curr_func,
sym->stack_v3.offset > 0 ? DataIsParam : DataIsLocal,
&loc, block,
codeview_get_type(sym->stack_v3.symtype, FALSE),
sym->stack_v3.name);
break;
case S_REGREL32:
/* S_REGREL32 can be present after S_LOCAL; prefer S_LOCAL when present */
if (func_has_local(curr_func, sym->regrel_v3.name)) break;
loc.kind = loc_regrel;
loc.reg = sym->regrel_v3.reg;
loc.offset = sym->regrel_v3.offset;
symt_add_func_local(msc_dbg->module, curr_func,
/* FIXME this is wrong !!! */
sym->regrel_v3.offset > 0 ? DataIsParam : DataIsLocal,
&loc, block,
codeview_get_type(sym->regrel_v3.symtype, FALSE),
sym->regrel_v3.name);
break;
case S_REGISTER_16t:
loc.kind = loc_register;
loc.reg = sym->register_v1.reg;
loc.offset = 0;
symt_add_func_local(msc_dbg->module, curr_func,
DataIsLocal, &loc,
block, codeview_get_type(sym->register_v1.type, FALSE),
terminate_string(&sym->register_v1.p_name));
break;
case S_REGISTER_ST:
loc.kind = loc_register;
loc.reg = sym->register_v2.reg;
loc.offset = 0;
symt_add_func_local(msc_dbg->module, curr_func,
DataIsLocal, &loc,
block, codeview_get_type(sym->register_v2.type, FALSE),
terminate_string(&sym->register_v2.p_name));
break;
case S_REGISTER:
/* S_REGISTER can be present after S_LOCAL; prefer S_LOCAL when present */
if (func_has_local(curr_func, sym->register_v3.name)) break;
loc.kind = loc_register;
loc.reg = sym->register_v3.reg;
loc.offset = 0;
symt_add_func_local(msc_dbg->module, curr_func,
DataIsLocal, &loc,
block, codeview_get_type(sym->register_v3.type, FALSE),
sym->register_v3.name);
break;
case S_BLOCK32_ST:
block = symt_open_func_block(msc_dbg->module, curr_func, block, 1);
block->ranges[0].low = codeview_get_address(msc_dbg, sym->block_v1.segment, sym->block_v1.offset);
block->ranges[0].high = block->ranges[0].low + sym->block_v1.length;
break;
case S_BLOCK32:
block = symt_open_func_block(msc_dbg->module, curr_func, block, 1);
block->ranges[0].low = codeview_get_address(msc_dbg, sym->block_v3.segment, sym->block_v3.offset);
block->ranges[0].high = block->ranges[0].low + sym->block_v3.length;
break;
case S_END:
if (block)
{
block = symt_close_func_block(msc_dbg->module, curr_func, block);
}
else if (top_func)
{
if (curr_func != top_func) FIXME("shouldn't close a top function with an opened inlined function\n");
top_func = curr_func = NULL;
}
break;
case S_COMPILE:
TRACE("S-Compile-V1 machine:%x language:%x %s\n",
sym->compile_v1.machine, sym->compile_v1.flags.language, terminate_string(&sym->compile_v1.p_name));
break;
case S_COMPILE2_ST:
TRACE("S-Compile-V2 machine:%x language:%x %s\n",
sym->compile2_v2.machine, sym->compile2_v2.flags.iLanguage, terminate_string(&sym->compile2_v2.p_name));
break;
case S_COMPILE2:
TRACE("S-Compile-V3 machine:%x language:%x %s\n", sym->compile2_v3.machine, sym->compile2_v3.flags.iLanguage, sym->compile2_v3.name);
break;
case S_COMPILE3:
TRACE("S-Compile3-V3 machine:%x language:%x %s\n", sym->compile3_v3.machine, sym->compile3_v3.flags.iLanguage, sym->compile3_v3.name);
break;
case S_ENVBLOCK:
break;
case S_OBJNAME:
TRACE("S-ObjName-V3 %s\n", sym->objname_v3.name);
if (!compiland)
compiland = codeview_new_compiland(msc_dbg, sym->objname_v3.name);
break;
case S_OBJNAME_ST:
TRACE("S-ObjName-V1 %s\n", terminate_string(&sym->objname_v1.p_name));
if (!compiland)
compiland = codeview_new_compiland(msc_dbg, terminate_string(&sym->objname_v1.p_name));
break;
case S_LABEL32_ST:
if (curr_func)
{
loc.kind = loc_absolute;
loc.offset = codeview_get_address(msc_dbg, sym->label_v1.segment, sym->label_v1.offset) - curr_func->ranges[0].low;
symt_add_function_point(msc_dbg->module, curr_func, SymTagLabel, &loc,
terminate_string(&sym->label_v1.p_name));
}
else symt_new_label(msc_dbg->module, compiland,
terminate_string(&sym->label_v1.p_name),
codeview_get_address(msc_dbg, sym->label_v1.segment, sym->label_v1.offset));
break;
case S_LABEL32:
if (curr_func)
{
loc.kind = loc_absolute;
loc.offset = codeview_get_address(msc_dbg, sym->label_v3.segment, sym->label_v3.offset) - curr_func->ranges[0].low;
symt_add_function_point(msc_dbg->module, curr_func, SymTagLabel,
&loc, sym->label_v3.name);
}
else symt_new_label(msc_dbg->module, compiland, sym->label_v3.name,
codeview_get_address(msc_dbg, sym->label_v3.segment, sym->label_v3.offset));
break;
case S_CONSTANT_16t:
{
int vlen;
const struct p_string* name;
struct symt* se;
VARIANT v;
vlen = leaf_as_variant(&v, &sym->constant_v1.cvalue);
name = (const struct p_string*)((const char*)&sym->constant_v1.cvalue + vlen);
se = codeview_get_type(sym->constant_v1.type, FALSE);
TRACE("S-Constant-V1 %u %s %x\n", V_INT(&v), terminate_string(name), sym->constant_v1.type);
symt_new_constant(msc_dbg->module, compiland, terminate_string(name),
se, &v);
}
break;
case S_CONSTANT_ST:
{
int vlen;
const struct p_string* name;
struct symt* se;
VARIANT v;
vlen = leaf_as_variant(&v, &sym->constant_v2.cvalue);
name = (const struct p_string*)((const char*)&sym->constant_v2.cvalue + vlen);
se = codeview_get_type(sym->constant_v2.type, FALSE);
TRACE("S-Constant-V2 %u %s %x\n", V_INT(&v), terminate_string(name), sym->constant_v2.type);
symt_new_constant(msc_dbg->module, compiland, terminate_string(name),
se, &v);
}
break;
case S_CONSTANT:
{
int vlen;
const char* name;
struct symt* se;
VARIANT v;
vlen = leaf_as_variant(&v, &sym->constant_v3.cvalue);
name = (const char*)&sym->constant_v3.cvalue + vlen;
se = codeview_get_type(sym->constant_v3.type, FALSE);
TRACE("S-Constant-V3 %u %s %x\n", V_INT(&v), name, sym->constant_v3.type);
/* FIXME: we should add this as a constant value */
symt_new_constant(msc_dbg->module, compiland, name, se, &v);
}
break;
case S_UDT_16t:
if (sym->udt_v1.type)
{
if ((symt = codeview_get_type(sym->udt_v1.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt,
terminate_string(&sym->udt_v1.p_name));
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
terminate_string(&sym->udt_v1.p_name), sym->udt_v1.type);
}
break;
case S_UDT_ST:
if (sym->udt_v2.type)
{
if ((symt = codeview_get_type(sym->udt_v2.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt,
terminate_string(&sym->udt_v2.p_name));
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
terminate_string(&sym->udt_v2.p_name), sym->udt_v2.type);
}
break;
case S_UDT:
if (sym->udt_v3.type)
{
if ((symt = codeview_get_type(sym->udt_v3.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt, sym->udt_v3.name);
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
sym->udt_v3.name, sym->udt_v3.type);
}
break;
case S_LOCAL:
/* FIXME: don't store global/static variables accessed through registers... we don't support that
* in locals... anyway, global data record should be present as well (so the variable will be available
* through the global definition, but potentially not updated)
*/
if (!sym->local_v3.varflags.enreg_global && !sym->local_v3.varflags.enreg_static)
{
length += codeview_transform_defrange(msc_dbg, curr_func, sym, &loc);
symt_add_func_local(msc_dbg->module, curr_func,
sym->local_v3.varflags.is_param ? DataIsParam : DataIsLocal,
&loc, block,
codeview_get_type(sym->local_v3.symtype, FALSE),
sym->local_v3.name);
}
else
length += codeview_defrange_length(sym);
break;
case S_INLINESITE:
{
struct symt_function* inlined = codeview_create_inline_site(msc_dbg, cvmod, top_func,
block ? &block->symt : &curr_func->symt,
sym->inline_site_v3.inlinee,
sym->inline_site_v3.binaryAnnotations,
(const unsigned char*)sym + length);
if (inlined)
{
curr_func = inlined;
block = NULL;
}
else
{
/* skip all records until paired S_INLINESITE_END */
sym = (const union codeview_symbol*)(root + sym->inline_site_v3.pEnd);
if (sym->generic.id != S_INLINESITE_END) FIXME("complete wreckage\n");
length = sym->inline_site_v3.pEnd - i + sym->generic.len;
}
}
break;
case S_INLINESITE2:
{
struct symt_function* inlined = codeview_create_inline_site(msc_dbg, cvmod, top_func,
block ? &block->symt : &curr_func->symt,
sym->inline_site2_v3.inlinee,
sym->inline_site2_v3.binaryAnnotations,
(const unsigned char*)sym + length);
if (inlined)
{
curr_func = inlined;
block = NULL;
}
else
{
/* skip all records until paired S_INLINESITE_END */
sym = (const union codeview_symbol*)(root + sym->inline_site2_v3.pEnd);
if (sym->generic.id != S_INLINESITE_END) FIXME("complete wreckage\n");
length = sym->inline_site_v3.pEnd - i + sym->generic.len;
}
}
break;
case S_INLINESITE_END:
block = symt_check_tag(curr_func->container, SymTagBlock) ?
(struct symt_block*)curr_func->container : NULL;
curr_func = (struct symt_function*)symt_get_upper_inlined(curr_func);
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_ST:
case S_DATAREF_ST:
case S_LPROCREF_ST:
{
const char* name;
name = (const char*)sym + length;
length += (*name + 1 + 3) & ~3;
break;
}
case S_SSEARCH:
TRACE("Start search: seg=0x%x at offset 0x%08x\n",
sym->ssearch_v1.segment, sym->ssearch_v1.offset);
break;
case S_ALIGN:
TRACE("S-Align V1\n");
break;
case S_HEAPALLOCSITE:
TRACE("S-heap site V3: offset=0x%08x at sect_idx 0x%04x, inst_len 0x%08x, index 0x%08x\n",
sym->heap_alloc_site_v3.offset, sym->heap_alloc_site_v3.sect_idx,
sym->heap_alloc_site_v3.inst_len, sym->heap_alloc_site_v3.index);
break;
case S_SEPCODE:
if (!top_func)
{
ULONG_PTR parent_addr = codeview_get_address(msc_dbg, sym->sepcode_v3.sectParent, sym->sepcode_v3.offParent);
struct symt_ht* parent = symt_find_symbol_at(msc_dbg->module, parent_addr);
if (symt_check_tag(&parent->symt, SymTagFunction))
{
struct symt_function* pfunc = (struct symt_function*)parent;
top_func = symt_new_function(msc_dbg->module, compiland, pfunc->hash_elt.name,
codeview_get_address(msc_dbg, sym->sepcode_v3.sect, sym->sepcode_v3.off),
sym->sepcode_v3.length, pfunc->type);
curr_func = top_func;
}
else
WARN("Couldn't find function referenced by S_SEPCODE at %04x:%08x\n",
sym->sepcode_v3.sectParent, sym->sepcode_v3.offParent);
}
else
FIXME("S_SEPCODE inside top-level function %s\n", top_func->hash_elt.name);
break;
/* the symbols we can safely ignore for now */
case S_TRAMPOLINE:
case S_FRAMEPROC:
case S_FRAMECOOKIE:
case S_SECTION:
case S_COFFGROUP:
case S_EXPORT:
case S_CALLSITEINFO:
/* even if S_LOCAL groks all the S_DEFRANGE* records following itself,
* those kinds of records can also be present after a S_FILESTATIC record
* so silence them until (at least) S_FILESTATIC is supported
*/
case S_DEFRANGE_REGISTER:
case S_DEFRANGE_FRAMEPOINTER_REL:
case S_DEFRANGE_SUBFIELD_REGISTER:
case S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE:
case S_DEFRANGE_REGISTER_REL:
case S_BUILDINFO:
case S_FILESTATIC:
case S_CALLEES:
case S_CALLERS:
case S_UNAMESPACE:
case S_INLINEES:
case S_POGODATA:
TRACE("Unsupported symbol id %x\n", sym->generic.id);
break;
default:
FIXME("Unsupported symbol id %x\n", sym->generic.id);
dump(sym, 2 + sym->generic.len);
break;
}
}
if (cvmod) codeview_snarf_linetab2(msc_dbg, cvmod);
return TRUE;
}
static BOOL codeview_is_inside(const struct cv_local_info* locinfo, const struct symt_function* func, DWORD_PTR ip)
{
unsigned i;
/* ip must be in local_info range, but not in any of its gaps */
if (ip < locinfo->start || ip >= locinfo->start + locinfo->rangelen) return FALSE;
for (i = 0; i < locinfo->ngaps; ++i)
if (func->ranges[0].low + locinfo->gaps[i].gapStartOffset <= ip &&
ip < func->ranges[0].low + locinfo->gaps[i].gapStartOffset + locinfo->gaps[i].cbRange)
return FALSE;
return TRUE;
}
static void pdb_location_compute(struct process* pcs,
const struct module_format* modfmt,
const struct symt_function* func,
struct location* loc)
{
const struct cv_local_info* locinfo;
switch (loc->kind)
{
case loc_cv_local_range:
for (locinfo = (const struct cv_local_info*)loc->offset;
locinfo->kind != 0;
locinfo = (const struct cv_local_info*)((const char*)(locinfo + 1) + locinfo->ngaps * sizeof(locinfo->gaps[0])))
{
if (!codeview_is_inside(locinfo, func, pcs->localscope_pc)) continue;
switch (locinfo->kind)
{
case S_DEFRANGE:
case S_DEFRANGE_SUBFIELD:
default:
FIXME("Unsupported defrange %d\n", locinfo->kind);
loc->kind = loc_error;
loc->reg = loc_err_internal;
return;
case S_DEFRANGE_SUBFIELD_REGISTER:
FIXME("sub-field part not handled\n");
/* fall through */
case S_DEFRANGE_REGISTER:
loc->kind = loc_register;
loc->reg = locinfo->reg;
return;
case S_DEFRANGE_REGISTER_REL:
loc->kind = loc_regrel;
loc->reg = locinfo->reg;
loc->offset = locinfo->offset;
return;
case S_DEFRANGE_FRAMEPOINTER_REL:
case S_DEFRANGE_FRAMEPOINTER_REL_FULL_SCOPE:
loc->kind = loc_regrel;
loc->reg = modfmt->module->cpu->frame_regno;
loc->offset = locinfo->offset;
return;
}
}
break;
default: break;
}
loc->kind = loc_error;
loc->reg = loc_err_internal;
}
static void* pdb_read_stream(const struct pdb_file_info* pdb_file, DWORD stream_nr);
static unsigned pdb_get_stream_size(const struct pdb_file_info* pdb_file, DWORD stream_nr);
static BOOL codeview_snarf_sym_hashtable(const struct msc_debug_info* msc_dbg, const BYTE* symroot, DWORD symsize,
const BYTE* hashroot, DWORD hashsize,
BOOL (*feed)(const struct msc_debug_info* msc_dbg, const union codeview_symbol*))
{
const DBI_HASH_HEADER* hash_hdr = (const DBI_HASH_HEADER*)hashroot;
unsigned num_hash_records, i;
const DBI_HASH_RECORD* hr;
if (hashsize < sizeof(DBI_HASH_HEADER) ||
hash_hdr->signature != 0xFFFFFFFF ||
hash_hdr->version != 0xeffe0000 + 19990810 ||
(hash_hdr->hash_records_size % sizeof(DBI_HASH_RECORD)) != 0 ||
sizeof(DBI_HASH_HEADER) + hash_hdr->hash_records_size + DBI_BITMAP_HASH_SIZE > hashsize ||
(hashsize - (sizeof(DBI_HASH_HEADER) + hash_hdr->hash_records_size + DBI_BITMAP_HASH_SIZE)) % sizeof(unsigned))
{
FIXME("Incorrect hash structure\n");
return FALSE;
}
hr = (DBI_HASH_RECORD*)(hash_hdr + 1);
num_hash_records = hash_hdr->hash_records_size / sizeof(DBI_HASH_RECORD);
/* Only iterate over the records listed in the hash table.
* We assume that records present in stream, but not listed in hash table, are
* invalid (and thus not loaded).
*/
for (i = 0; i < num_hash_records; i++)
{
if (hr[i].offset && hr[i].offset < symsize)
{
const union codeview_symbol* sym = (const union codeview_symbol*)(symroot + hr[i].offset - 1);
(*feed)(msc_dbg, sym);
}
}
return TRUE;
}
static BOOL pdb_global_feed_types(const struct msc_debug_info* msc_dbg, const union codeview_symbol* sym)
{
struct symt* symt;
switch (sym->generic.id)
{
case S_UDT_16t:
if (sym->udt_v1.type)
{
if ((symt = codeview_get_type(sym->udt_v1.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt,
terminate_string(&sym->udt_v1.p_name));
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
terminate_string(&sym->udt_v1.p_name), sym->udt_v1.type);
}
break;
case S_UDT_ST:
if (sym->udt_v2.type)
{
if ((symt = codeview_get_type(sym->udt_v2.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt,
terminate_string(&sym->udt_v2.p_name));
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
terminate_string(&sym->udt_v2.p_name), sym->udt_v2.type);
}
break;
case S_UDT:
if (sym->udt_v3.type)
{
if ((symt = codeview_get_type(sym->udt_v3.type, FALSE)))
symt_new_typedef(msc_dbg->module, symt, sym->udt_v3.name);
else
FIXME("S-Udt %s: couldn't find type 0x%x\n",
sym->udt_v3.name, sym->udt_v3.type);
}
break;
default: return FALSE;
}
return TRUE;
}
static BOOL pdb_global_feed_variables(const struct msc_debug_info* msc_dbg, const union codeview_symbol* sym)
{
/* The only interest here is to add global variables that haven't been seen
* in module (=compilation unit) stream.
* So we don't care about 'local' symbols since we cannot tell their compiland.
*/
switch (sym->generic.id)
{
case S_GDATA32_16t:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, terminate_string(&sym->data_v1.p_name),
sym->data_v1.segment, sym->data_v1.offset, sym->data_v1.symtype,
FALSE, FALSE, FALSE);
break;
case S_GDATA32_ST:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, terminate_string(&sym->data_v2.p_name),
sym->data_v2.segment, sym->data_v2.offset, sym->data_v2.symtype,
FALSE, FALSE, FALSE);
break;
case S_GDATA32:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, sym->data_v3.name,
sym->data_v3.segment, sym->data_v3.offset, sym->data_v3.symtype,
FALSE, FALSE, FALSE);
break;
/* variables with thread storage */
case S_GTHREAD32_16t:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, terminate_string(&sym->thread_v1.p_name),
sym->thread_v1.segment, sym->thread_v1.offset, sym->thread_v1.symtype,
FALSE, TRUE, FALSE);
break;
case S_GTHREAD32_ST:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, terminate_string(&sym->thread_v2.p_name),
sym->thread_v2.segment, sym->thread_v2.offset, sym->thread_v2.symtype,
FALSE, TRUE, FALSE);
break;
case S_GTHREAD32:
codeview_add_variable(msc_dbg, NULL, NULL, NULL, sym->thread_v3.name,
sym->thread_v3.segment, sym->thread_v3.offset, sym->thread_v3.symtype,
FALSE, TRUE, FALSE);
break;
default: return FALSE;
}
return TRUE;
}
static BOOL pdb_global_feed_public(const struct msc_debug_info* msc_dbg, const union codeview_symbol* sym)
{
switch (sym->generic.id)
{
case S_PUB32_16t:
symt_new_public(msc_dbg->module, NULL,
terminate_string(&sym->public_v1.p_name),
sym->public_v1.pubsymflags == SYMTYPE_FUNCTION,
codeview_get_address(msc_dbg, sym->public_v1.segment, sym->public_v1.offset), 1);
break;
case S_PUB32_ST:
symt_new_public(msc_dbg->module, NULL,
terminate_string(&sym->public_v2.p_name),
sym->public_v2.pubsymflags == SYMTYPE_FUNCTION,
codeview_get_address(msc_dbg, sym->public_v2.segment, sym->public_v2.offset), 1);
break;
case S_PUB32:
symt_new_public(msc_dbg->module, NULL,
sym->public_v3.name,
sym->public_v3.pubsymflags == SYMTYPE_FUNCTION,
codeview_get_address(msc_dbg, sym->public_v3.segment, sym->public_v3.offset), 1);
break;
default: return FALSE;
}
return TRUE;
}
/*========================================================================
* Process PDB file.
*/
static void* pdb_jg_read(const struct PDB_JG_HEADER* pdb, const WORD* block_list,
int size)
{
int i, num_blocks;
BYTE* buffer;
if (!size) return NULL;
num_blocks = (size + pdb->block_size - 1) / pdb->block_size;
buffer = HeapAlloc(GetProcessHeap(), 0, num_blocks * pdb->block_size);
if (!buffer) return NULL;
for (i = 0; i < num_blocks; i++)
memcpy(buffer + i * pdb->block_size,
(const char*)pdb + block_list[i] * pdb->block_size, pdb->block_size);
return buffer;
}
static void* pdb_ds_read(const struct PDB_DS_HEADER* pdb, const UINT *block_list,
int size)
{
int i, num_blocks;
BYTE* buffer;
if (!size) return NULL;
num_blocks = (size + pdb->block_size - 1) / pdb->block_size;
buffer = HeapAlloc(GetProcessHeap(), 0, num_blocks * pdb->block_size);
if (!buffer) return NULL;
for (i = 0; i < num_blocks; i++)
memcpy(buffer + i * pdb->block_size,
(const char*)pdb + block_list[i] * pdb->block_size, pdb->block_size);
return buffer;
}
static void* pdb_read_jg_stream(const struct PDB_JG_HEADER* pdb,
const struct PDB_JG_TOC* toc, DWORD stream_nr)
{
const WORD* block_list;
DWORD i;
if (!toc || stream_nr >= toc->num_streams) return NULL;
block_list = (const WORD*) &toc->streams[toc->num_streams];
for (i = 0; i < stream_nr; i++)
block_list += (toc->streams[i].size + pdb->block_size - 1) / pdb->block_size;
return pdb_jg_read(pdb, block_list, toc->streams[stream_nr].size);
}
static void* pdb_read_ds_stream(const struct PDB_DS_HEADER* pdb,
const struct PDB_DS_TOC* toc, DWORD stream_nr)
{
const UINT *block_list;
DWORD i;
if (!toc || stream_nr >= toc->num_streams) return NULL;
if (toc->stream_size[stream_nr] == 0 || toc->stream_size[stream_nr] == 0xFFFFFFFF) return NULL;
block_list = &toc->stream_size[toc->num_streams];
for (i = 0; i < stream_nr; i++)
block_list += (toc->stream_size[i] + pdb->block_size - 1) / pdb->block_size;
return pdb_ds_read(pdb, block_list, toc->stream_size[stream_nr]);
}
static void* pdb_read_stream(const struct pdb_file_info* pdb_file,
DWORD stream_nr)
{
switch (pdb_file->kind)
{
case PDB_JG:
return pdb_read_jg_stream((const struct PDB_JG_HEADER*)pdb_file->image,
pdb_file->u.jg.toc, stream_nr);
case PDB_DS:
return pdb_read_ds_stream((const struct PDB_DS_HEADER*)pdb_file->image,
pdb_file->u.ds.toc, stream_nr);
}
return NULL;
}
static unsigned pdb_get_stream_size(const struct pdb_file_info* pdb_file, DWORD stream_nr)
{
switch (pdb_file->kind)
{
case PDB_JG: return pdb_file->u.jg.toc->streams[stream_nr].size;
case PDB_DS: return pdb_file->u.ds.toc->stream_size[stream_nr];
}
return 0;
}
static void pdb_free(void* buffer)
{
HeapFree(GetProcessHeap(), 0, buffer);
}
static void pdb_free_file(struct pdb_file_info* pdb_file)
{
switch (pdb_file->kind)
{
case PDB_JG:
pdb_free(pdb_file->u.jg.toc);
pdb_file->u.jg.toc = NULL;
break;
case PDB_DS:
pdb_free(pdb_file->u.ds.toc);
pdb_file->u.ds.toc = NULL;
break;
}
HeapFree(GetProcessHeap(), 0, pdb_file->stream_dict);
}
static BOOL pdb_load_stream_name_table(struct pdb_file_info* pdb_file, const char* str, unsigned cb)
{
DWORD* pdw;
DWORD* ok_bits;
DWORD count, numok;
unsigned i, j;
char* cpstr;
pdw = (DWORD*)(str + cb);
numok = *pdw++;
count = *pdw++;
pdb_file->stream_dict = HeapAlloc(GetProcessHeap(), 0, (numok + 1) * sizeof(struct pdb_stream_name) + cb);
if (!pdb_file->stream_dict) return FALSE;
cpstr = (char*)(pdb_file->stream_dict + numok + 1);
memcpy(cpstr, str, cb);
/* bitfield: first dword is len (in dword), then data */
ok_bits = pdw;
pdw += *ok_bits++ + 1;
pdw += *pdw + 1; /* skip deleted vector */
for (i = j = 0; i < count; i++)
{
if (ok_bits[i / 32] & (1 << (i % 32)))
{
if (j >= numok) break;
pdb_file->stream_dict[j].name = &cpstr[*pdw++];
pdb_file->stream_dict[j].index = *pdw++;
j++;
}
}
/* add sentinel */
pdb_file->stream_dict[numok].name = NULL;
pdb_file->fpoext_stream = -1;
return TRUE;
}
static unsigned pdb_get_stream_by_name(const struct pdb_file_info* pdb_file, const char* name)
{
struct pdb_stream_name* psn;
for (psn = pdb_file->stream_dict; psn && psn->name; psn++)
{
if (!strcmp(psn->name, name)) return psn->index;
}
return -1;
}
static PDB_STRING_TABLE* pdb_read_strings(const struct pdb_file_info* pdb_file)
{
unsigned idx;
PDB_STRING_TABLE *ret;
idx = pdb_get_stream_by_name(pdb_file, "/names");
if (idx != -1)
{
ret = pdb_read_stream( pdb_file, idx );
if (ret && ret->magic == 0xeffeeffe &&
sizeof(*ret) + ret->length <= pdb_get_stream_size(pdb_file, idx)) return ret;
pdb_free( ret );
}
WARN("string table not found\n");
return NULL;
}
static const char* pdb_get_string_table_entry(const PDB_STRING_TABLE* table, unsigned offset)
{
return (!table || offset >= table->length) ? NULL : (const char*)(table + 1) + offset;
}
static void pdb_module_remove(struct process* pcsn, struct module_format* modfmt)
{
unsigned i;
for (i = 0; i < modfmt->u.pdb_info->used_subfiles; i++)
{
pdb_free_file(&modfmt->u.pdb_info->pdb_files[i]);
if (modfmt->u.pdb_info->pdb_files[i].image)
UnmapViewOfFile(modfmt->u.pdb_info->pdb_files[i].image);
if (modfmt->u.pdb_info->pdb_files[i].hMap)
CloseHandle(modfmt->u.pdb_info->pdb_files[i].hMap);
}
HeapFree(GetProcessHeap(), 0, modfmt);
}
static BOOL pdb_convert_types_header(PDB_TYPES* types, const BYTE* image)
{
if (!image) return FALSE;
if (*(const DWORD*)image < 19960000) /* FIXME: correct version? */
{
/* Old version of the types record header */
const PDB_TYPES_OLD* old = (const PDB_TYPES_OLD*)image;
memset(types, 0, sizeof(PDB_TYPES));
types->version = old->version;
types->type_offset = sizeof(PDB_TYPES_OLD);
types->type_size = old->type_size;
types->first_index = old->first_index;
types->last_index = old->last_index;
types->hash_stream = old->hash_stream;
}
else
{
/* New version of the types record header */
*types = *(const PDB_TYPES*)image;
}
return TRUE;
}
static void pdb_convert_symbols_header(PDB_SYMBOLS* symbols,
int* header_size, const BYTE* image)
{
memset(symbols, 0, sizeof(PDB_SYMBOLS));
if (!image) return;
if (*(const DWORD*)image != 0xffffffff)
{
/* Old version of the symbols record header */
const PDB_SYMBOLS_OLD* old = (const PDB_SYMBOLS_OLD*)image;
symbols->version = 0;
symbols->module_size = old->module_size;
symbols->sectcontrib_size = old->sectcontrib_size;
symbols->segmap_size = old->segmap_size;
symbols->srcmodule_size = old->srcmodule_size;
symbols->pdbimport_size = 0;
symbols->global_hash_stream = old->global_hash_stream;
symbols->public_stream = old->public_stream;
symbols->gsym_stream = old->gsym_stream;
*header_size = sizeof(PDB_SYMBOLS_OLD);
}
else
{
/* New version of the symbols record header */
*symbols = *(const PDB_SYMBOLS*)image;
*header_size = sizeof(PDB_SYMBOLS);
}
}
static void pdb_convert_symbol_file(const PDB_SYMBOLS* symbols,
PDB_SYMBOL_FILE_EX* sfile,
unsigned* size, const void* image)
{
if (symbols->version < 19970000)
{
const PDB_SYMBOL_FILE *sym_file = image;
memset(sfile, 0, sizeof(*sfile));
sfile->stream = sym_file->stream;
sfile->range.index = sym_file->range.index;
sfile->symbol_size = sym_file->symbol_size;
sfile->lineno_size = sym_file->lineno_size;
sfile->lineno2_size = sym_file->lineno2_size;
*size = sizeof(PDB_SYMBOL_FILE) - 1;
}
else
{
memcpy(sfile, image, sizeof(PDB_SYMBOL_FILE_EX));
*size = sizeof(PDB_SYMBOL_FILE_EX) - 1;
}
}
static HANDLE map_pdb_file(const struct process* pcs,
const struct pdb_lookup* lookup,
struct module* module)
{
HANDLE hFile, hMap = NULL;
WCHAR dbg_file_path[MAX_PATH];
BOOL ret = FALSE;
switch (lookup->kind)
{
case PDB_JG:
ret = path_find_symbol_file(pcs, module, lookup->filename, TRUE, NULL, lookup->timestamp,
lookup->age, dbg_file_path, &module->module.PdbUnmatched);
break;
case PDB_DS:
ret = path_find_symbol_file(pcs, module, lookup->filename, TRUE, &lookup->guid, 0,
lookup->age, dbg_file_path, &module->module.PdbUnmatched);
break;
}
if (!ret)
{
WARN("\tCouldn't find %s\n", lookup->filename);
return NULL;
}
if ((hFile = CreateFileW(dbg_file_path, GENERIC_READ, FILE_SHARE_READ, NULL,
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL)) != INVALID_HANDLE_VALUE)
{
hMap = CreateFileMappingW(hFile, NULL, PAGE_READONLY, 0, 0, NULL);
CloseHandle(hFile);
}
return hMap;
}
static void pdb_dispose_type_parse(struct codeview_type_parse* ctp)
{
pdb_free(ctp->hash_stream);
free((DWORD*)ctp->offset);
free((DWORD*)ctp->hash);
free((DWORD*)ctp->alloc_hash);
}
static BOOL pdb_bitfield_is_bit_set(const unsigned* dw, unsigned len, unsigned i)
{
if (i >= len * sizeof(unsigned) * 8) return FALSE;
return (dw[i >> 5] & (1u << (i & 31u))) != 0;
}
static BOOL pdb_init_type_parse(const struct msc_debug_info* msc_dbg,
const struct pdb_file_info* pdb_file,
struct codeview_type_parse* ctp,
BYTE* image)
{
const BYTE* ptr;
DWORD* offset;
int i;
ctp->hash_stream = NULL;
ctp->offset = NULL;
ctp->hash = NULL;
ctp->alloc_hash = NULL;
if (!pdb_convert_types_header(&ctp->header, image))
return FALSE;
/* Check for unknown versions */
switch (ctp->header.version)
{
case 19950410: /* VC 4.0 */
case 19951122:
case 19961031: /* VC 5.0 / 6.0 */
case 19990903: /* VC 7.0 */
case 20040203: /* VC 8.0 */
break;
default:
ERR("-Unknown type info version %d\n", ctp->header.version);
return FALSE;
}
if (ctp->header.hash_value_size != 2 && ctp->header.hash_value_size != 4)
{
ERR("-Unsupported hash of size %u\n", ctp->header.hash_value_size);
return FALSE;
}
ctp->hash_stream = pdb_read_stream(pdb_file, ctp->header.hash_stream);
/* FIXME always present? if not reconstruct ?*/
if (!ctp->hash_stream)
{
ERR("-Missing hash table in PDB file\n");
return FALSE;
}
ctp->module = msc_dbg->module;
/* Reconstruct the types offset table
* Note: the hash stream of the PDB_TYPES only contains a partial table
* (not all the indexes are present, so it requires first a binary search in partial table,
* followed by a linear search...)
*/
offset = malloc(sizeof(DWORD) * (ctp->header.last_index - ctp->header.first_index));
if (!offset) goto oom;
ctp->table = ptr = image + ctp->header.type_offset;
for (i = ctp->header.first_index; i < ctp->header.last_index; i++)
{
offset[i - ctp->header.first_index] = ptr - ctp->table;
ptr += ((const union codeview_type*)ptr)->generic.len + 2;
}
ctp->offset = offset;
ctp->hash = calloc(ctp->header.hash_num_buckets, sizeof(struct hash_link*));
if (!ctp->hash) goto oom;
ctp->alloc_hash = calloc(ctp->header.last_index - ctp->header.first_index, sizeof(struct hash_link));
if (!ctp->alloc_hash) goto oom;
for (i = ctp->header.first_index; i < ctp->header.last_index; i++)
{
unsigned hash_i = pdb_read_hash_value(ctp, i);
ctp->alloc_hash[i - ctp->header.first_index].id = i;
ctp->alloc_hash[i - ctp->header.first_index].next = ctp->hash[hash_i];
ctp->hash[hash_i] = &ctp->alloc_hash[i - ctp->header.first_index];
}
/* parse the remap table
* => move listed type_id at first position of their hash buckets so that we force remap to them
*/
if (ctp->header.type_remap_size)
{
const unsigned* remap = (const unsigned*)((const BYTE*)ctp->hash_stream + ctp->header.type_remap_offset);
unsigned i, capa, count_present;
const unsigned* present_bitset;
remap++; /* no need of num */
capa = *remap++;
count_present = *remap++;
present_bitset = remap;
remap += count_present;
remap += *remap + 1; /* skip deleted bit set */
for (i = 0; i < capa; ++i)
{
if (pdb_bitfield_is_bit_set(present_bitset, count_present, i))
{
unsigned hash_i;
struct hash_link** phl;
/* remap[0] is an offset for a string in /string stream, followed by type_id to force */
hash_i = pdb_read_hash_value(ctp, remap[1]);
for (phl = &ctp->hash[hash_i]; *phl; phl = &(*phl)->next)
if ((*phl)->id == remap[1])
{
struct hash_link* hl = *phl;
/* move hl node at first position of its hash bucket */
*phl = hl->next;
hl->next = ctp->hash[hash_i];
ctp->hash[hash_i] = hl;
break;
}
remap += 2;
}
}
}
return TRUE;
oom:
pdb_dispose_type_parse(ctp);
return FALSE;
}
static void pdb_process_types(const struct msc_debug_info* msc_dbg,
const struct pdb_file_info* pdb_file)
{
struct codeview_type_parse ctp;
BYTE* types_image = pdb_read_stream(pdb_file, 2);
if (types_image)
{
if (pdb_init_type_parse(msc_dbg, pdb_file, &ctp, types_image))
{
/* Read type table */
codeview_parse_type_table(&ctp);
pdb_dispose_type_parse(&ctp);
}
pdb_free(types_image);
}
}
static const char PDB_JG_IDENT[] = "Microsoft C/C++ program database 2.00\r\n\032JG\0";
static const char PDB_DS_IDENT[] = "Microsoft C/C++ MSF 7.00\r\n\032DS\0";
/******************************************************************
* pdb_init
*
* Tries to load a pdb file
* 'matched' is filled with the number of correct matches for this file:
* - age counts for one
* - timestamp or guid depending on kind counts for one
* a wrong kind of file returns FALSE (FIXME ?)
*/
static BOOL pdb_init(const struct pdb_lookup* pdb_lookup, struct pdb_file_info* pdb_file,
const char* image, unsigned* matched)
{
BOOL ret = TRUE;
/* check the file header, and if ok, load the TOC */
TRACE("PDB(%s): %.40s\n", pdb_lookup->filename, debugstr_an(image, 40));
*matched = 0;
if (!memcmp(image, PDB_JG_IDENT, sizeof(PDB_JG_IDENT)))
{
const struct PDB_JG_HEADER* pdb = (const struct PDB_JG_HEADER*)image;
struct PDB_JG_ROOT* root;
pdb_file->u.jg.toc = pdb_jg_read(pdb, pdb->toc_block, pdb->toc.size);
root = pdb_read_jg_stream(pdb, pdb_file->u.jg.toc, 1);
if (!root)
{
ERR("-Unable to get root from .PDB in %s\n", pdb_lookup->filename);
return FALSE;
}
switch (root->Version)
{
case 19950623: /* VC 4.0 */
case 19950814:
case 19960307: /* VC 5.0 */
case 19970604: /* VC 6.0 */
break;
default:
ERR("-Unknown root block version %d\n", root->Version);
}
if (pdb_lookup->kind != PDB_JG)
{
WARN("Found %s, but wrong PDB kind\n", pdb_lookup->filename);
pdb_free(root);
return FALSE;
}
pdb_file->kind = PDB_JG;
pdb_file->u.jg.timestamp = root->TimeDateStamp;
pdb_file->age = root->Age;
if (root->TimeDateStamp == pdb_lookup->timestamp) (*matched)++;
else WARN("Found %s, but wrong signature: %08x %08x\n",
pdb_lookup->filename, root->TimeDateStamp, pdb_lookup->timestamp);
if (root->Age == pdb_lookup->age) (*matched)++;
else WARN("Found %s, but wrong age: %08x %08x\n",
pdb_lookup->filename, root->Age, pdb_lookup->age);
TRACE("found JG for %s: age=%x timestamp=%x\n",
pdb_lookup->filename, root->Age, root->TimeDateStamp);
ret = pdb_load_stream_name_table(pdb_file, &root->names[0], root->cbNames);
pdb_free(root);
}
else if (!memcmp(image, PDB_DS_IDENT, sizeof(PDB_DS_IDENT)))
{
const struct PDB_DS_HEADER* pdb = (const struct PDB_DS_HEADER*)image;
struct PDB_DS_ROOT* root;
pdb_file->u.ds.toc =
pdb_ds_read(pdb, (const UINT*)((const char*)pdb + pdb->toc_block * pdb->block_size),
pdb->toc_size);
root = pdb_read_ds_stream(pdb, pdb_file->u.ds.toc, 1);
if (!root)
{
ERR("-Unable to get root from .PDB in %s\n", pdb_lookup->filename);
return FALSE;
}
switch (root->Version)
{
case 20000404:
break;
default:
ERR("-Unknown root block version %u\n", root->Version);
}
pdb_file->kind = PDB_DS;
pdb_file->u.ds.guid = root->guid;
pdb_file->age = root->Age;
if (!memcmp(&root->guid, &pdb_lookup->guid, sizeof(GUID))) (*matched)++;
else WARN("Found %s, but wrong GUID: %s %s\n",
pdb_lookup->filename, debugstr_guid(&root->guid),
debugstr_guid(&pdb_lookup->guid));
if (root->Age == pdb_lookup->age) (*matched)++;
else WARN("Found %s, but wrong age: %08x %08x\n",
pdb_lookup->filename, root->Age, pdb_lookup->age);
TRACE("found DS for %s: age=%x guid=%s\n",
pdb_lookup->filename, root->Age, debugstr_guid(&root->guid));
ret = pdb_load_stream_name_table(pdb_file, &root->names[0], root->cbNames);
pdb_free(root);
}
if (0) /* some tool to dump the internal files from a PDB file */
{
int i, num_streams;
switch (pdb_file->kind)
{
case PDB_JG: num_streams = pdb_file->u.jg.toc->num_streams; break;
case PDB_DS: num_streams = pdb_file->u.ds.toc->num_streams; break;
}
for (i = 1; i < num_streams; i++)
{
unsigned char* x = pdb_read_stream(pdb_file, i);
FIXME("********************** [%u]: size=%08x\n",
i, pdb_get_stream_size(pdb_file, i));
dump(x, pdb_get_stream_size(pdb_file, i));
pdb_free(x);
}
}
return ret;
}
static BOOL pdb_process_internal(const struct process* pcs,
const struct msc_debug_info* msc_dbg,
const struct pdb_lookup* pdb_lookup,
struct pdb_module_info* pdb_module_info,
unsigned module_index);
DWORD pdb_get_file_indexinfo(void* image, DWORD size, SYMSRV_INDEX_INFOW* info)
{
/* check the file header, and if ok, load the TOC */
TRACE("PDB: %.40s\n", debugstr_an(image, 40));
if (!memcmp(image, PDB_JG_IDENT, sizeof(PDB_JG_IDENT)))
{
const struct PDB_JG_HEADER* pdb = (const struct PDB_JG_HEADER*)image;
struct PDB_JG_TOC* jg_toc;
struct PDB_JG_ROOT* root;
DWORD ec = ERROR_SUCCESS;
jg_toc = pdb_jg_read(pdb, pdb->toc_block, pdb->toc.size);
root = pdb_read_jg_stream(pdb, jg_toc, 1);
if (!root)
{
ERR("-Unable to get root from .PDB\n");
pdb_free(jg_toc);
return ERROR_FILE_CORRUPT;
}
switch (root->Version)
{
case 19950623: /* VC 4.0 */
case 19950814:
case 19960307: /* VC 5.0 */
case 19970604: /* VC 6.0 */
break;
default:
ERR("-Unknown root block version %d\n", root->Version);
ec = ERROR_FILE_CORRUPT;
}
if (ec == ERROR_SUCCESS)
{
info->dbgfile[0] = '\0';
memset(&info->guid, 0, sizeof(GUID));
info->guid.Data1 = root->TimeDateStamp;
info->pdbfile[0] = '\0';
info->age = root->Age;
info->sig = root->TimeDateStamp;
info->size = 0;
info->stripped = FALSE;
info->timestamp = 0;
}
pdb_free(jg_toc);
pdb_free(root);
return ec;
}
if (!memcmp(image, PDB_DS_IDENT, sizeof(PDB_DS_IDENT)))
{
const struct PDB_DS_HEADER* pdb = (const struct PDB_DS_HEADER*)image;
struct PDB_DS_TOC* ds_toc;
struct PDB_DS_ROOT* root;
DWORD ec = ERROR_SUCCESS;
ds_toc = pdb_ds_read(pdb, (const UINT*)((const char*)pdb + pdb->toc_block * pdb->block_size),
pdb->toc_size);
root = pdb_read_ds_stream(pdb, ds_toc, 1);
if (!root)
{
pdb_free(ds_toc);
return ERROR_FILE_CORRUPT;
}
switch (root->Version)
{
case 20000404:
break;
default:
ERR("-Unknown root block version %u\n", root->Version);
ec = ERROR_FILE_CORRUPT;
}
/* The age field is present twice (in PDB_ROOT and in PDB_SYMBOLS ),
* It's the one in PDB_SYMBOLS which is reported.
*/
if (ec == ERROR_SUCCESS)
{
PDB_SYMBOLS* symbols = pdb_read_ds_stream(pdb, ds_toc, 3);
if (symbols && symbols->version == 19990903)
{
info->age = symbols->age;
}
else
{
if (symbols)
ERR("-Unknown symbol info version %u %08x\n", symbols->version, symbols->version);
ec = ERROR_FILE_CORRUPT;
}
pdb_free(symbols);
}
if (ec == ERROR_SUCCESS)
{
info->dbgfile[0] = '\0';
info->guid = root->guid;
info->pdbfile[0] = '\0';
info->sig = 0;
info->size = 0;
info->stripped = FALSE;
info->timestamp = 0;
}
pdb_free(ds_toc);
pdb_free(root);
return ec;
}
return ERROR_BAD_FORMAT;
}
static void pdb_process_symbol_imports(const struct process* pcs,
const struct msc_debug_info* msc_dbg,
const PDB_SYMBOLS* symbols,
const void* symbols_image,
const char* image,
const struct pdb_lookup* pdb_lookup,
struct pdb_module_info* pdb_module_info,
unsigned module_index)
{
if (module_index == -1 && symbols && symbols->pdbimport_size)
{
const PDB_SYMBOL_IMPORT*imp;
const void* first;
const void* last;
const char* ptr;
int i = 0;
struct pdb_file_info sf0 = pdb_module_info->pdb_files[0];
imp = (const PDB_SYMBOL_IMPORT*)((const char*)symbols_image + sizeof(PDB_SYMBOLS) +
symbols->module_size + symbols->sectcontrib_size +
symbols->segmap_size + symbols->srcmodule_size);
first = imp;
last = (const char*)imp + symbols->pdbimport_size;
while (imp < (const PDB_SYMBOL_IMPORT*)last)
{
ptr = (const char*)imp + sizeof(*imp) + strlen(imp->filename);
if (i >= CV_MAX_MODULES) FIXME("Out of bounds!!!\n");
if (!stricmp(pdb_lookup->filename, imp->filename))
{
if (module_index != -1) FIXME("Twice the entry\n");
else module_index = i;
pdb_module_info->pdb_files[i] = sf0;
}
else
{
struct pdb_lookup imp_pdb_lookup;
/* FIXME: this is an import of a JG PDB file
* how's a DS PDB handled ?
*/
imp_pdb_lookup.filename = imp->filename;
imp_pdb_lookup.kind = PDB_JG;
imp_pdb_lookup.timestamp = imp->TimeDateStamp;
imp_pdb_lookup.age = imp->Age;
TRACE("got for %s: age=%u ts=%x\n",
imp->filename, imp->Age, imp->TimeDateStamp);
pdb_process_internal(pcs, msc_dbg, &imp_pdb_lookup, pdb_module_info, i);
}
i++;
imp = (const PDB_SYMBOL_IMPORT*)((const char*)first + ((ptr - (const char*)first + strlen(ptr) + 1 + 3) & ~3));
}
pdb_module_info->used_subfiles = i;
}
if (module_index == -1)
{
module_index = 0;
pdb_module_info->used_subfiles = 1;
}
cv_current_module = &cv_zmodules[module_index];
if (cv_current_module->allowed) FIXME("Already allowed??\n");
cv_current_module->allowed = TRUE;
}
static BOOL pdb_process_internal(const struct process* pcs,
const struct msc_debug_info* msc_dbg,
const struct pdb_lookup* pdb_lookup,
struct pdb_module_info* pdb_module_info,
unsigned module_index)
{
HANDLE hMap = NULL;
char* image = NULL;
BYTE* symbols_image = NULL;
PDB_STRING_TABLE* files_image = NULL;
unsigned matched;
struct pdb_file_info* pdb_file;
TRACE("Processing PDB file %s\n", pdb_lookup->filename);
pdb_file = &pdb_module_info->pdb_files[module_index == -1 ? 0 : module_index];
/* Open and map() .PDB file */
if ((hMap = map_pdb_file(pcs, pdb_lookup, msc_dbg->module)) == NULL ||
((image = MapViewOfFile(hMap, FILE_MAP_READ, 0, 0, 0)) == NULL))
{
WARN("Unable to open .PDB file: %s\n", pdb_lookup->filename);
CloseHandle(hMap);
return FALSE;
}
if (!pdb_init(pdb_lookup, pdb_file, image, &matched) || matched != 2)
{
CloseHandle(hMap);
UnmapViewOfFile(image);
return FALSE;
}
pdb_file->hMap = hMap;
pdb_file->image = image;
symbols_image = pdb_read_stream(pdb_file, 3);
if (symbols_image)
{
PDB_SYMBOLS symbols;
BYTE* globalimage;
BYTE* modimage;
BYTE* ipi_image;
struct codeview_type_parse ipi_ctp;
BYTE* file;
int header_size = 0;
unsigned num_sub_streams;
const unsigned short* sub_streams;
BOOL ipi_ok;
pdb_convert_symbols_header(&symbols, &header_size, symbols_image);
switch (symbols.version)
{
case 0: /* VC 4.0 */
case 19960307: /* VC 5.0 */
case 19970606: /* VC 6.0 */
case 19990903:
break;
default:
ERR("-Unknown symbol info version %u %08x\n",
symbols.version, symbols.version);
}
num_sub_streams = symbols.stream_index_size / sizeof(sub_streams[0]);
sub_streams = (const unsigned short*)((const char*)symbols_image + sizeof(PDB_SYMBOLS) +
symbols.module_size + symbols.sectcontrib_size +
symbols.segmap_size + symbols.srcmodule_size +
symbols.pdbimport_size + symbols.unknown2_size);
if (PDB_SIDX_FPO < num_sub_streams)
pdb_file->fpoext_stream = sub_streams[PDB_SIDX_FPO];
files_image = pdb_read_strings(pdb_file);
pdb_process_symbol_imports(pcs, msc_dbg, &symbols, symbols_image, image,
pdb_lookup, pdb_module_info, module_index);
pdb_process_types(msc_dbg, pdb_file);
ipi_image = pdb_read_stream(pdb_file, 4);
ipi_ok = pdb_init_type_parse(msc_dbg, pdb_file, &ipi_ctp, ipi_image);
/* Read global types first, so that lookup by name in module (=compilation unit)
* streams' loading can succeed them.
*/
globalimage = pdb_read_stream(pdb_file, symbols.gsym_stream);
if (globalimage)
{
const BYTE* data;
unsigned global_size = pdb_get_stream_size(pdb_file, symbols.gsym_stream);
data = pdb_read_stream(pdb_file, symbols.global_hash_stream);
if (data)
{
codeview_snarf_sym_hashtable(msc_dbg, globalimage, global_size,
data, pdb_get_stream_size(pdb_file, symbols.global_hash_stream),
pdb_global_feed_types);
pdb_free((void*)data);
}
}
/* Read per-module symbols' tables */
file = symbols_image + header_size;
while (file - symbols_image < header_size + symbols.module_size)
{
PDB_SYMBOL_FILE_EX sfile;
const char* file_name;
unsigned size;
HeapValidate(GetProcessHeap(), 0, NULL);
pdb_convert_symbol_file(&symbols, &sfile, &size, file);
modimage = pdb_read_stream(pdb_file, sfile.stream);
file_name = (const char*)file + size;
if (modimage)
{
struct cv_module_snarf cvmod = {ipi_ok ? &ipi_ctp : NULL, (const void*)(modimage + sfile.symbol_size), sfile.lineno2_size,
files_image};
codeview_snarf(msc_dbg, modimage, sizeof(DWORD), sfile.symbol_size, &cvmod, file_name);
if (sfile.lineno_size && sfile.lineno2_size)
FIXME("Both line info present... only supporting second\n");
else if (sfile.lineno_size)
codeview_snarf_linetab(msc_dbg,
modimage + sfile.symbol_size,
sfile.lineno_size,
pdb_file->kind == PDB_JG);
pdb_free(modimage);
}
file_name += strlen(file_name) + 1;
/* now at lib_name */
file = (BYTE*)((DWORD_PTR)(file_name + strlen(file_name) + 1 + 3) & ~3);
}
/* Load the global variables and constants (if not yet loaded) and public information */
if (globalimage)
{
const BYTE* data;
unsigned global_size = pdb_get_stream_size(pdb_file, symbols.gsym_stream);
data = pdb_read_stream(pdb_file, symbols.global_hash_stream);
if (data)
{
codeview_snarf_sym_hashtable(msc_dbg, globalimage, global_size,
data, pdb_get_stream_size(pdb_file, symbols.global_hash_stream),
pdb_global_feed_variables);
pdb_free((void*)data);
}
if (!(dbghelp_options & SYMOPT_NO_PUBLICS) && (data = pdb_read_stream(pdb_file, symbols.public_stream)))
{
const DBI_PUBLIC_HEADER* pubhdr = (const DBI_PUBLIC_HEADER*)data;
codeview_snarf_sym_hashtable(msc_dbg, globalimage, pdb_get_stream_size(pdb_file, symbols.gsym_stream),
(const BYTE*)(pubhdr + 1), pubhdr->hash_size, pdb_global_feed_public);
pdb_free((void*)data);
}
pdb_free(globalimage);
}
HeapFree(GetProcessHeap(), 0, (DWORD*)ipi_ctp.offset);
pdb_free(ipi_image);
}
else
pdb_process_symbol_imports(pcs, msc_dbg, NULL, NULL, image,
pdb_lookup, pdb_module_info, module_index);
pdb_free(symbols_image);
pdb_free(files_image);
return TRUE;
}
static BOOL pdb_process_file(const struct process* pcs,
const struct msc_debug_info* msc_dbg,
struct pdb_lookup* pdb_lookup)
{
BOOL ret;
struct module_format* modfmt;
struct pdb_module_info* pdb_module_info;
modfmt = HeapAlloc(GetProcessHeap(), 0,
sizeof(struct module_format) + sizeof(struct pdb_module_info));
if (!modfmt) return FALSE;
pdb_module_info = (void*)(modfmt + 1);
msc_dbg->module->format_info[DFI_PDB] = modfmt;
modfmt->module = msc_dbg->module;
modfmt->remove = pdb_module_remove;
modfmt->loc_compute = pdb_location_compute;
modfmt->u.pdb_info = pdb_module_info;
memset(cv_zmodules, 0, sizeof(cv_zmodules));
codeview_init_basic_types(msc_dbg->module);
ret = pdb_process_internal(pcs, msc_dbg, pdb_lookup,
msc_dbg->module->format_info[DFI_PDB]->u.pdb_info, -1);
codeview_clear_type_table();
if (ret)
{
struct pdb_module_info* pdb_info = msc_dbg->module->format_info[DFI_PDB]->u.pdb_info;
msc_dbg->module->module.SymType = SymPdb;
if (pdb_info->pdb_files[0].kind == PDB_JG)
msc_dbg->module->module.PdbSig = pdb_info->pdb_files[0].u.jg.timestamp;
else
msc_dbg->module->module.PdbSig70 = pdb_info->pdb_files[0].u.ds.guid;
msc_dbg->module->module.PdbAge = pdb_info->pdb_files[0].age;
MultiByteToWideChar(CP_ACP, 0, pdb_lookup->filename, -1,
msc_dbg->module->module.LoadedPdbName,
ARRAY_SIZE(msc_dbg->module->module.LoadedPdbName));
/* FIXME: we could have a finer grain here */
msc_dbg->module->module.LineNumbers = TRUE;
msc_dbg->module->module.GlobalSymbols = TRUE;
msc_dbg->module->module.TypeInfo = TRUE;
msc_dbg->module->module.SourceIndexed = TRUE;
msc_dbg->module->module.Publics = TRUE;
}
else
{
msc_dbg->module->format_info[DFI_PDB] = NULL;
HeapFree(GetProcessHeap(), 0, modfmt);
}
return ret;
}
BOOL pdb_fetch_file_info(const struct pdb_lookup* pdb_lookup, unsigned* matched)
{
HANDLE hFile, hMap = NULL;
char* image = NULL;
BOOL ret;
struct pdb_file_info pdb_file;
if ((hFile = CreateFileA(pdb_lookup->filename, GENERIC_READ, FILE_SHARE_READ, NULL,
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL)) == INVALID_HANDLE_VALUE ||
((hMap = CreateFileMappingW(hFile, NULL, PAGE_READONLY, 0, 0, NULL)) == NULL) ||
((image = MapViewOfFile(hMap, FILE_MAP_READ, 0, 0, 0)) == NULL))
{
WARN("Unable to open .PDB file: %s\n", pdb_lookup->filename);
ret = FALSE;
}
else
{
ret = pdb_init(pdb_lookup, &pdb_file, image, matched);
pdb_free_file(&pdb_file);
}
if (image) UnmapViewOfFile(image);
if (hMap) CloseHandle(hMap);
if (hFile != INVALID_HANDLE_VALUE) CloseHandle(hFile);
return ret;
}
/*========================================================================
* FPO unwinding code
*/
/* Stack unwinding is based on postfixed operations.
* Let's define our Postfix EValuator
*/
#define PEV_MAX_LEN 32
struct pevaluator
{
struct cpu_stack_walk* csw;
struct pool pool;
struct vector stack;
unsigned stk_index;
struct hash_table values;
char error[64];
};
struct zvalue
{
DWORD_PTR value;
struct hash_table_elt elt;
};
#define PEV_ERROR(pev, msg) snprintf((pev)->error, sizeof((pev)->error), "%s", (msg))
#define PEV_ERROR1(pev, msg, pmt) snprintf((pev)->error, sizeof((pev)->error), (msg), (pmt))
#if 0
static void pev_dump_stack(struct pevaluator* pev)
{
unsigned i;
FIXME("stack #%d\n", pev->stk_index);
for (i = 0; i < pev->stk_index; i++)
{
FIXME("\t%d) %s\n", i, *(char**)vector_at(&pev->stack, i));
}
}
#endif
/* get the value out of an operand (variable or literal) */
static BOOL pev_get_val(struct pevaluator* pev, const char* str, DWORD_PTR* val)
{
char* n;
struct hash_table_iter hti;
void* ptr;
switch (str[0])
{
case '$':
case '.':
hash_table_iter_init(&pev->values, &hti, str);
while ((ptr = hash_table_iter_up(&hti)))
{
if (!strcmp(CONTAINING_RECORD(ptr, struct zvalue, elt)->elt.name, str))
{
*val = CONTAINING_RECORD(ptr, struct zvalue, elt)->value;
return TRUE;
}
}
return PEV_ERROR1(pev, "get_zvalue: no value found (%s)", str);
default:
*val = strtol(str, &n, 10);
if (n == str || *n != '\0')
return PEV_ERROR1(pev, "get_val: not a literal (%s)", str);
return TRUE;
}
}
/* push an operand onto the stack */
static BOOL pev_push(struct pevaluator* pev, const char* elt)
{
char** at;
if (pev->stk_index < vector_length(&pev->stack))
at = vector_at(&pev->stack, pev->stk_index);
else
at = vector_add(&pev->stack, &pev->pool);
if (!at) return PEV_ERROR(pev, "push: out of memory");
*at = pool_strdup(&pev->pool, elt);
pev->stk_index++;
return TRUE;
}
/* pop an operand from the stack */
static BOOL pev_pop(struct pevaluator* pev, char* elt)
{
char** at = vector_at(&pev->stack, --pev->stk_index);
if (!at) return PEV_ERROR(pev, "pop: stack empty");
strcpy(elt, *at);
return TRUE;
}
/* pop an operand from the stack, and gets its value */
static BOOL pev_pop_val(struct pevaluator* pev, DWORD_PTR* val)
{
char p[PEV_MAX_LEN];
return pev_pop(pev, p) && pev_get_val(pev, p, val);
}
/* set var 'name' a new value (creates the var if it doesn't exist) */
static BOOL pev_set_value(struct pevaluator* pev, const char* name, DWORD_PTR val)
{
struct hash_table_iter hti;
void* ptr;
hash_table_iter_init(&pev->values, &hti, name);
while ((ptr = hash_table_iter_up(&hti)))
{
if (!strcmp(CONTAINING_RECORD(ptr, struct zvalue, elt)->elt.name, name))
{
CONTAINING_RECORD(ptr, struct zvalue, elt)->value = val;
break;
}
}
if (!ptr)
{
struct zvalue* zv = pool_alloc(&pev->pool, sizeof(*zv));
if (!zv) return PEV_ERROR(pev, "set_value: out of memory");
zv->value = val;
zv->elt.name = pool_strdup(&pev->pool, name);
hash_table_add(&pev->values, &zv->elt);
}
return TRUE;
}
/* execute a binary operand from the two top most values on the stack.
* puts result on top of the stack */
static BOOL pev_binop(struct pevaluator* pev, char op)
{
char res[PEV_MAX_LEN];
DWORD_PTR v1, v2, c;
if (!pev_pop_val(pev, &v1) || !pev_pop_val(pev, &v2)) return FALSE;
switch (op)
{
case '+': c = v1 + v2; break;
case '-': c = v1 - v2; break;
case '*': c = v1 * v2; break;
case '/': c = v1 / v2; break;
case '%': c = v1 % v2; break;
default: return PEV_ERROR1(pev, "binop: unknown op (%c)", op);
}
snprintf(res, sizeof(res), "%Id", c);
pev_push(pev, res);
return TRUE;
}
/* pops top most operand, dereference it, on pushes the result on top of the stack */
static BOOL pev_deref(struct pevaluator* pev)
{
char res[PEV_MAX_LEN];
DWORD_PTR v1, v2 = 0;
if (!pev_pop_val(pev, &v1)) return FALSE;
if (!sw_read_mem(pev->csw, v1, &v2, pev->csw->cpu->word_size))
return PEV_ERROR1(pev, "deref: cannot read mem at %Ix\n", v1);
snprintf(res, sizeof(res), "%Id", v2);
pev_push(pev, res);
return TRUE;
}
/* assign value to variable (from two top most operands) */
static BOOL pev_assign(struct pevaluator* pev)
{
char p2[PEV_MAX_LEN];
DWORD_PTR v1;
if (!pev_pop_val(pev, &v1) || !pev_pop(pev, p2)) return FALSE;
if (p2[0] != '$') return PEV_ERROR1(pev, "assign: %s isn't a variable", p2);
pev_set_value(pev, p2, v1);
return TRUE;
}
/* initializes the postfix evaluator */
static void pev_init(struct pevaluator* pev, struct cpu_stack_walk* csw,
PDB_FPO_DATA* fpoext, struct pdb_cmd_pair* cpair)
{
pev->csw = csw;
pool_init(&pev->pool, 512);
vector_init(&pev->stack, sizeof(char*), 8);
pev->stk_index = 0;
hash_table_init(&pev->pool, &pev->values, 8);
pev->error[0] = '\0';
for (; cpair->name; cpair++)
pev_set_value(pev, cpair->name, *cpair->pvalue);
pev_set_value(pev, ".raSearchStart", fpoext->start);
pev_set_value(pev, ".cbLocals", fpoext->locals_size);
pev_set_value(pev, ".cbParams", fpoext->params_size);
pev_set_value(pev, ".cbSavedRegs", fpoext->savedregs_size);
}
static BOOL pev_free(struct pevaluator* pev, struct pdb_cmd_pair* cpair)
{
DWORD_PTR val;
if (cpair) for (; cpair->name; cpair++)
{
if (pev_get_val(pev, cpair->name, &val))
*cpair->pvalue = val;
}
pool_destroy(&pev->pool);
return TRUE;
}
static BOOL pdb_parse_cmd_string(struct cpu_stack_walk* csw, PDB_FPO_DATA* fpoext,
const char* cmd, struct pdb_cmd_pair* cpair)
{
char token[PEV_MAX_LEN];
char* ptok = token;
const char* ptr;
BOOL over = FALSE;
struct pevaluator pev;
if (!cmd) return FALSE;
pev_init(&pev, csw, fpoext, cpair);
for (ptr = cmd; !over; ptr++)
{
if (*ptr == ' ' || (over = *ptr == '\0'))
{
*ptok = '\0';
if (!strcmp(token, "+") || !strcmp(token, "-") || !strcmp(token, "*") ||
!strcmp(token, "/") || !strcmp(token, "%"))
{
if (!pev_binop(&pev, token[0])) goto done;
}
else if (!strcmp(token, "^"))
{
if (!pev_deref(&pev)) goto done;
}
else if (!strcmp(token, "="))
{
if (!pev_assign(&pev)) goto done;
}
else
{
if (!pev_push(&pev, token)) goto done;
}
ptok = token;
}
else
{
if (ptok - token >= PEV_MAX_LEN - 1)
{
PEV_ERROR1(&pev, "parse: token too long (%s)", ptr - (ptok - token));
goto done;
}
*ptok++ = *ptr;
}
}
pev_free(&pev, cpair);
return TRUE;
done:
FIXME("Couldn't evaluate %s => %s\n", wine_dbgstr_a(cmd), pev.error);
pev_free(&pev, NULL);
return FALSE;
}
BOOL pdb_virtual_unwind(struct cpu_stack_walk *csw, DWORD_PTR ip,
union ctx *context, struct pdb_cmd_pair *cpair)
{
struct module_pair pair;
struct pdb_module_info* pdb_info;
PDB_FPO_DATA* fpoext;
unsigned i, size;
PDB_STRING_TABLE* strbase;
BOOL ret = TRUE;
if (!module_init_pair(&pair, csw->hProcess, ip)) return FALSE;
if (!pair.effective->format_info[DFI_PDB]) return FALSE;
pdb_info = pair.effective->format_info[DFI_PDB]->u.pdb_info;
TRACE("searching %Ix => %Ix\n", ip, ip - (DWORD_PTR)pair.effective->module.BaseOfImage);
ip -= (DWORD_PTR)pair.effective->module.BaseOfImage;
strbase = pdb_read_strings(&pdb_info->pdb_files[0]);
if (!strbase) return FALSE;
fpoext = pdb_read_stream(&pdb_info->pdb_files[0], pdb_info->pdb_files[0].fpoext_stream);
size = pdb_get_stream_size(&pdb_info->pdb_files[0], pdb_info->pdb_files[0].fpoext_stream);
if (fpoext && (size % sizeof(*fpoext)) == 0)
{
size /= sizeof(*fpoext);
for (i = 0; i < size; i++)
{
if (fpoext[i].start <= ip && ip < fpoext[i].start + fpoext[i].func_size)
{
TRACE("\t%08x %08x %8x %8x %4x %4x %4x %08x %s\n",
fpoext[i].start, fpoext[i].func_size, fpoext[i].locals_size,
fpoext[i].params_size, fpoext[i].maxstack_size, fpoext[i].prolog_size,
fpoext[i].savedregs_size, fpoext[i].flags,
wine_dbgstr_a(pdb_get_string_table_entry(strbase, fpoext[i].str_offset)));
ret = pdb_parse_cmd_string(csw, &fpoext[i],
pdb_get_string_table_entry(strbase, fpoext[i].str_offset),
cpair);
break;
}
}
}
else ret = FALSE;
pdb_free(fpoext);
pdb_free(strbase);
return ret;
}
/*========================================================================
* Process CodeView debug information.
*/
#define MAKESIG(a,b,c,d) ((a) | ((b) << 8) | ((c) << 16) | ((d) << 24))
#define CODEVIEW_NB09_SIG MAKESIG('N','B','0','9')
#define CODEVIEW_NB10_SIG MAKESIG('N','B','1','0')
#define CODEVIEW_NB11_SIG MAKESIG('N','B','1','1')
#define CODEVIEW_RSDS_SIG MAKESIG('R','S','D','S')
static BOOL codeview_process_info(const struct process* pcs,
const struct msc_debug_info* msc_dbg)
{
const DWORD* signature = (const DWORD*)msc_dbg->root;
BOOL ret = FALSE;
struct pdb_lookup pdb_lookup;
TRACE("Processing signature %.4s\n", (const char*)signature);
switch (*signature)
{
case CODEVIEW_NB09_SIG:
case CODEVIEW_NB11_SIG:
{
const OMFSignature* cv = (const OMFSignature*)msc_dbg->root;
const OMFDirHeader* hdr = (const OMFDirHeader*)(msc_dbg->root + cv->filepos);
const OMFDirEntry* ent;
const OMFDirEntry* prev;
const OMFDirEntry* next;
unsigned int i;
codeview_init_basic_types(msc_dbg->module);
for (i = 0; i < hdr->cDir; i++)
{
ent = (const OMFDirEntry*)((const BYTE*)hdr + hdr->cbDirHeader + i * hdr->cbDirEntry);
if (ent->SubSection == sstGlobalTypes)
{
const OMFGlobalTypes* types;
struct codeview_type_parse ctp;
types = (const OMFGlobalTypes*)(msc_dbg->root + ent->lfo);
ctp.module = msc_dbg->module;
ctp.offset = (const DWORD*)(types + 1);
memset(&ctp.header, 0, sizeof(ctp.header));
ctp.header.first_index = T_FIRSTDEFINABLETYPE;
ctp.header.last_index = ctp.header.first_index + types->cTypes;
ctp.table = (const BYTE*)(ctp.offset + types->cTypes);
cv_current_module = &cv_zmodules[0];
if (cv_current_module->allowed) FIXME("Already allowed??\n");
cv_current_module->allowed = TRUE;
codeview_parse_type_table(&ctp);
break;
}
}
ent = (const OMFDirEntry*)((const BYTE*)hdr + hdr->cbDirHeader);
for (i = 0; i < hdr->cDir; i++, ent = next)
{
next = (i == hdr->cDir-1) ? NULL :
(const OMFDirEntry*)((const BYTE*)ent + hdr->cbDirEntry);
prev = (i == 0) ? NULL :
(const OMFDirEntry*)((const BYTE*)ent - hdr->cbDirEntry);
if (ent->SubSection == sstAlignSym)
{
codeview_snarf(msc_dbg, msc_dbg->root + ent->lfo, sizeof(DWORD), ent->cb, NULL, NULL);
/*
* Check the next and previous entry. If either is a
* sstSrcModule, it contains the line number info for
* this file.
*
* FIXME: This is not a general solution!
*/
if (next && next->iMod == ent->iMod && next->SubSection == sstSrcModule)
codeview_snarf_linetab(msc_dbg, msc_dbg->root + next->lfo,
next->cb, TRUE);
if (prev && prev->iMod == ent->iMod && prev->SubSection == sstSrcModule)
codeview_snarf_linetab(msc_dbg, msc_dbg->root + prev->lfo,
prev->cb, TRUE);
}
}
msc_dbg->module->module.SymType = SymCv;
/* FIXME: we could have a finer grain here */
msc_dbg->module->module.LineNumbers = TRUE;
msc_dbg->module->module.GlobalSymbols = TRUE;
msc_dbg->module->module.TypeInfo = TRUE;
msc_dbg->module->module.SourceIndexed = TRUE;
msc_dbg->module->module.Publics = TRUE;
codeview_clear_type_table();
ret = TRUE;
break;
}
case CODEVIEW_NB10_SIG:
{
const CODEVIEW_PDB_DATA* pdb = (const CODEVIEW_PDB_DATA*)msc_dbg->root;
pdb_lookup.filename = pdb->name;
pdb_lookup.kind = PDB_JG;
pdb_lookup.timestamp = pdb->timestamp;
pdb_lookup.age = pdb->age;
ret = pdb_process_file(pcs, msc_dbg, &pdb_lookup);
break;
}
case CODEVIEW_RSDS_SIG:
{
const OMFSignatureRSDS* rsds = (const OMFSignatureRSDS*)msc_dbg->root;
TRACE("Got RSDS type of PDB file: guid=%s age=%08x name=%s\n",
wine_dbgstr_guid(&rsds->guid), rsds->age, rsds->name);
pdb_lookup.filename = rsds->name;
pdb_lookup.kind = PDB_DS;
pdb_lookup.guid = rsds->guid;
pdb_lookup.age = rsds->age;
ret = pdb_process_file(pcs, msc_dbg, &pdb_lookup);
break;
}
default:
ERR("Unknown CODEVIEW signature %08lx in module %s\n",
*signature, debugstr_w(msc_dbg->module->modulename));
break;
}
if (ret)
{
msc_dbg->module->module.CVSig = *signature;
memcpy(msc_dbg->module->module.CVData, msc_dbg->root,
sizeof(msc_dbg->module->module.CVData));
}
return ret;
}
/*========================================================================
* Process debug directory.
*/
BOOL pe_load_debug_directory(const struct process* pcs, struct module* module,
const BYTE* mapping,
const IMAGE_SECTION_HEADER* sectp, DWORD nsect,
const IMAGE_DEBUG_DIRECTORY* dbg, int nDbg)
{
BOOL ret;
int i;
struct msc_debug_info msc_dbg;
msc_dbg.module = module;
msc_dbg.nsect = nsect;
msc_dbg.sectp = sectp;
msc_dbg.nomap = 0;
msc_dbg.omapp = NULL;
__TRY
{
ret = FALSE;
/* First, watch out for OMAP data */
for (i = 0; i < nDbg; i++)
{
if (dbg[i].Type == IMAGE_DEBUG_TYPE_OMAP_FROM_SRC)
{
msc_dbg.nomap = dbg[i].SizeOfData / sizeof(OMAP);
msc_dbg.omapp = (const OMAP*)(mapping + dbg[i].PointerToRawData);
break;
}
}
/* Now, try to parse CodeView debug info */
for (i = 0; i < nDbg; i++)
{
if (dbg[i].Type == IMAGE_DEBUG_TYPE_CODEVIEW)
{
msc_dbg.root = mapping + dbg[i].PointerToRawData;
if ((ret = codeview_process_info(pcs, &msc_dbg))) goto done;
}
}
/* If not found, try to parse COFF debug info */
for (i = 0; i < nDbg; i++)
{
if (dbg[i].Type == IMAGE_DEBUG_TYPE_COFF)
{
msc_dbg.root = mapping + dbg[i].PointerToRawData;
if ((ret = coff_process_info(&msc_dbg))) goto done;
}
}
done:
/* FIXME: this should be supported... this is the debug information for
* functions compiled without a frame pointer (FPO = frame pointer omission)
* the associated data helps finding out the relevant information
*/
for (i = 0; i < nDbg; i++)
if (dbg[i].Type == IMAGE_DEBUG_TYPE_FPO)
FIXME("This guy has FPO information\n");
#if 0
#define FRAME_FPO 0
#define FRAME_TRAP 1
#define FRAME_TSS 2
typedef struct _FPO_DATA
{
DWORD ulOffStart; /* offset 1st byte of function code */
DWORD cbProcSize; /* # bytes in function */
DWORD cdwLocals; /* # bytes in locals/4 */
WORD cdwParams; /* # bytes in params/4 */
WORD cbProlog : 8; /* # bytes in prolog */
WORD cbRegs : 3; /* # regs saved */
WORD fHasSEH : 1; /* TRUE if SEH in func */
WORD fUseBP : 1; /* TRUE if EBP has been allocated */
WORD reserved : 1; /* reserved for future use */
WORD cbFrame : 2; /* frame type */
} FPO_DATA;
#endif
}
__EXCEPT_PAGE_FAULT
{
ERR("Got a page fault while loading symbols\n");
ret = FALSE;
}
__ENDTRY
return ret;
}
DWORD msc_get_file_indexinfo(void* image, const IMAGE_DEBUG_DIRECTORY* debug_dir, DWORD num_dir, SYMSRV_INDEX_INFOW* info)
{
DWORD i;
unsigned num_misc_records = 0;
info->age = 0;
memset(&info->guid, 0, sizeof(info->guid));
info->sig = 0;
info->dbgfile[0] = L'\0';
info->pdbfile[0] = L'\0';
for (i = 0; i < num_dir; i++)
{
if (debug_dir[i].Type == IMAGE_DEBUG_TYPE_CODEVIEW)
{
const CODEVIEW_PDB_DATA* data = (const CODEVIEW_PDB_DATA*)((char*)image + debug_dir[i].PointerToRawData);
const OMFSignatureRSDS* rsds_data = (const OMFSignatureRSDS*)data;
if (!memcmp(data->Signature, "NB10", 4))
{
info->age = data->age;
info->sig = data->timestamp;
MultiByteToWideChar(CP_ACP, 0, data->name, -1, info->pdbfile, ARRAY_SIZE(info->pdbfile));
}
if (!memcmp(rsds_data->Signature, "RSDS", 4))
{
info->age = rsds_data->age;
info->guid = rsds_data->guid;
MultiByteToWideChar(CP_ACP, 0, rsds_data->name, -1, info->pdbfile, ARRAY_SIZE(info->pdbfile));
}
}
else if (debug_dir[i].Type == IMAGE_DEBUG_TYPE_MISC && info->stripped)
{
const IMAGE_DEBUG_MISC* misc = (const IMAGE_DEBUG_MISC*)
((const char*)image + debug_dir[i].PointerToRawData);
if (misc->Unicode)
wcscpy(info->dbgfile, (WCHAR*)misc->Data);
else
MultiByteToWideChar(CP_ACP, 0, (const char*)misc->Data, -1, info->dbgfile, ARRAY_SIZE(info->dbgfile));
num_misc_records++;
}
}
return info->stripped && !num_misc_records ? ERROR_BAD_EXE_FORMAT : ERROR_SUCCESS;
}
DWORD dbg_get_file_indexinfo(void* image, DWORD size, SYMSRV_INDEX_INFOW* info)
{
const IMAGE_SEPARATE_DEBUG_HEADER *header;
DWORD num_directories;
if (size < sizeof(*header)) return ERROR_BAD_EXE_FORMAT;
header = image;
if (header->Signature != 0x4944 /* DI */ ||
size < sizeof(*header) + header->NumberOfSections * sizeof(IMAGE_SECTION_HEADER) + header->ExportedNamesSize + header->DebugDirectorySize)
return ERROR_BAD_EXE_FORMAT;
/* header is followed by:
* - header->NumberOfSections of IMAGE_SECTION_HEADER
* - header->ExportedNameSize
* - then num_directories of IMAGE_DEBUG_DIRECTORY
*/
num_directories = header->DebugDirectorySize / sizeof(IMAGE_DEBUG_DIRECTORY);
if (!num_directories) return ERROR_BAD_EXE_FORMAT;
info->age = 0;
memset(&info->guid, 0, sizeof(info->guid));
info->sig = 0;
info->dbgfile[0] = L'\0';
info->pdbfile[0] = L'\0';
info->size = header->SizeOfImage;
/* seems to use header's timestamp, not debug_directory one */
info->timestamp = header->TimeDateStamp;
info->stripped = FALSE; /* FIXME */
return ERROR_SUCCESS;
}