/* * File symbol.c - management of symbols (lexical tree) * * Copyright (C) 1993, Eric Youngdale. * 2004, 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 */ #define NONAMELESSUNION #include #include #include #include #include #include "wine/debug.h" #include "dbghelp_private.h" #include "winnls.h" WINE_DEFAULT_DEBUG_CHANNEL(dbghelp); WINE_DECLARE_DEBUG_CHANNEL(dbghelp_symt); extern char * CDECL __unDName(char *buffer, const char *mangled, int len, void * (CDECL *pfn_alloc)(size_t), void (CDECL *pfn_free)(void *), unsigned short flags); static inline int cmp_addr(ULONG64 a1, ULONG64 a2) { if (a1 > a2) return 1; if (a1 < a2) return -1; return 0; } static inline int cmp_sorttab_addr(struct module* module, int idx, ULONG64 addr) { ULONG64 ref; symt_get_address(&module->addr_sorttab[idx]->symt, &ref); return cmp_addr(ref, addr); } int __cdecl symt_cmp_addr(const void* p1, const void* p2) { const struct symt* sym1 = *(const struct symt* const *)p1; const struct symt* sym2 = *(const struct symt* const *)p2; ULONG64 a1, a2; symt_get_address(sym1, &a1); symt_get_address(sym2, &a2); return cmp_addr(a1, a2); } #define BASE_CUSTOM_SYMT 0x80000000 /* dbghelp exposes the internal symbols/types with DWORD indexes. * - custom symbols are always stored with index starting at BASE_CUSTOM_SYMT * - for all the other (non custom) symbols: * + on 32-bit machines, index is set to the actual address of symt * + on 64-bit machines, the symt address is stored in a dedicated array * which is exposed to the caller and index is the index of the symbol in * this array */ DWORD symt_ptr2index(struct module* module, const struct symt* sym) { struct vector* vector; DWORD offset; const struct symt** c; int len, i; if (!sym) return 0; if (sym->tag == SymTagCustom) { vector = &module->vcustom_symt; offset = BASE_CUSTOM_SYMT; } else { #ifdef _WIN64 vector = &module->vsymt; offset = 1; #else return (DWORD)sym; #endif } len = vector_length(vector); /* FIXME: this is inefficient */ for (i = 0; i < len; i++) { if (*(struct symt**)vector_at(vector, i) == sym) return i + offset; } /* not found */ c = vector_add(vector, &module->pool); if (c) *c = sym; return len + offset; } struct symt* symt_index2ptr(struct module* module, DWORD id) { struct vector* vector; if (id >= BASE_CUSTOM_SYMT) { id -= BASE_CUSTOM_SYMT; vector = &module->vcustom_symt; } else { #ifdef _WIN64 if (!id--) return NULL; vector = &module->vsymt; #else return (struct symt*)id; #endif } return (id >= vector_length(vector)) ? NULL : *(struct symt**)vector_at(vector, id); } static BOOL symt_grow_sorttab(struct module* module, unsigned sz) { struct symt_ht** new; unsigned int size; if (sz <= module->sorttab_size) return TRUE; if (module->addr_sorttab) { size = module->sorttab_size * 2; new = HeapReAlloc(GetProcessHeap(), 0, module->addr_sorttab, size * sizeof(struct symt_ht*)); } else { size = 64; new = HeapAlloc(GetProcessHeap(), 0, size * sizeof(struct symt_ht*)); } if (!new) return FALSE; module->sorttab_size = size; module->addr_sorttab = new; return TRUE; } static void symt_add_module_ht(struct module* module, struct symt_ht* ht) { ULONG64 addr; hash_table_add(&module->ht_symbols, &ht->hash_elt); /* Don't store in sorttab a symbol without address, they are of * no use here (e.g. constant values) */ if (symt_get_address(&ht->symt, &addr) && symt_grow_sorttab(module, module->num_symbols + 1)) { module->addr_sorttab[module->num_symbols++] = ht; module->sortlist_valid = FALSE; } } static WCHAR* file_regex(const char* srcfile) { WCHAR* mask; WCHAR* p; if (!srcfile || !*srcfile) { if (!(p = mask = HeapAlloc(GetProcessHeap(), 0, 3 * sizeof(WCHAR)))) return NULL; *p++ = '?'; *p++ = '#'; } else { DWORD sz = MultiByteToWideChar(CP_ACP, 0, srcfile, -1, NULL, 0); WCHAR* srcfileW; /* FIXME: we use here the largest conversion for every char... could be optimized */ p = mask = HeapAlloc(GetProcessHeap(), 0, (5 * strlen(srcfile) + 1 + sz) * sizeof(WCHAR)); if (!mask) return NULL; srcfileW = mask + 5 * strlen(srcfile) + 1; MultiByteToWideChar(CP_ACP, 0, srcfile, -1, srcfileW, sz); while (*srcfileW) { switch (*srcfileW) { case '\\': case '/': *p++ = '['; *p++ = '\\'; *p++ = '\\'; *p++ = '/'; *p++ = ']'; break; case '.': *p++ = '?'; break; default: *p++ = *srcfileW; break; } srcfileW++; } } *p = 0; return mask; } struct symt_module* symt_new_module(struct module* module) { struct symt_module* sym; TRACE_(dbghelp_symt)("Adding toplevel exe symbol %s\n", debugstr_w(module->modulename)); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagExe; sym->module = module; vector_init(&sym->vchildren, sizeof(struct symt*), 8); } return sym; } struct symt_compiland* symt_new_compiland(struct module* module, ULONG_PTR address, unsigned src_idx) { struct symt_compiland* sym; struct symt_compiland** p; TRACE_(dbghelp_symt)("Adding compiland symbol %s:%s\n", debugstr_w(module->modulename), source_get(module, src_idx)); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagCompiland; sym->container = module->top; sym->address = address; sym->source = src_idx; vector_init(&sym->vchildren, sizeof(struct symt*), 32); sym->user = NULL; p = vector_add(&module->top->vchildren, &module->pool); *p = sym; } return sym; } struct symt_public* symt_new_public(struct module* module, struct symt_compiland* compiland, const char* name, BOOL is_function, ULONG_PTR address, unsigned size) { struct symt_public* sym; struct symt** p; TRACE_(dbghelp_symt)("Adding public symbol %s:%s @%Ix\n", debugstr_w(module->modulename), name, address); if ((dbghelp_options & SYMOPT_AUTO_PUBLICS) && symt_find_nearest(module, address) != NULL) return NULL; if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagPublicSymbol; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->container = compiland ? &compiland->symt : NULL; sym->is_function = is_function; sym->address = address; sym->size = size; symt_add_module_ht(module, (struct symt_ht*)sym); if (compiland) { p = vector_add(&compiland->vchildren, &module->pool); *p = &sym->symt; } } return sym; } struct symt_data* symt_new_global_variable(struct module* module, struct symt_compiland* compiland, const char* name, unsigned is_static, struct location loc, ULONG_PTR size, struct symt* type) { struct symt_data* sym; struct symt** p; DWORD64 tsz; TRACE_(dbghelp_symt)("Adding global symbol %s:%s %d@%Ix %p\n", debugstr_w(module->modulename), name, loc.kind, loc.offset, type); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagData; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->kind = is_static ? DataIsFileStatic : DataIsGlobal; sym->container = compiland ? &compiland->symt : &module->top->symt; sym->type = type; sym->u.var = loc; if (type && size && symt_get_info(module, type, TI_GET_LENGTH, &tsz)) { if (tsz != size) FIXME("Size mismatch for %s.%s between type (%s) and src (%Iu)\n", debugstr_w(module->modulename), name, wine_dbgstr_longlong(tsz), size); } symt_add_module_ht(module, (struct symt_ht*)sym); p = vector_add(compiland ? &compiland->vchildren : &module->top->vchildren, &module->pool); *p = &sym->symt; } return sym; } static void init_function_or_inlinesite(struct symt_function* sym, struct module* module, DWORD tag, struct symt* container, const char* name, ULONG_PTR addr, ULONG_PTR size, struct symt* sig_type) { assert(!sig_type || sig_type->tag == SymTagFunctionType); sym->symt.tag = tag; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->container = container; sym->address = addr; sym->type = sig_type; sym->size = size; vector_init(&sym->vlines, sizeof(struct line_info), 64); vector_init(&sym->vchildren, sizeof(struct symt*), 8); } struct symt_function* symt_new_function(struct module* module, struct symt_compiland* compiland, const char* name, ULONG_PTR addr, ULONG_PTR size, struct symt* sig_type) { struct symt_function* sym; TRACE_(dbghelp_symt)("Adding global function %s:%s @%Ix-%Ix\n", debugstr_w(module->modulename), name, addr, addr + size - 1); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { struct symt** p; init_function_or_inlinesite(sym, module, SymTagFunction, &compiland->symt, name, addr, size, sig_type); sym->next_inlinesite = NULL; /* first of list */ symt_add_module_ht(module, (struct symt_ht*)sym); if (compiland) { p = vector_add(&compiland->vchildren, &module->pool); *p = &sym->symt; } } return sym; } struct symt_inlinesite* symt_new_inlinesite(struct module* module, struct symt_function* func, struct symt* container, const char* name, ULONG_PTR addr, struct symt* sig_type) { struct symt_inlinesite* sym; TRACE_(dbghelp_symt)("Adding inline site %s @%Ix\n", name, addr); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { struct symt** p; assert(container); init_function_or_inlinesite(&sym->func, module, SymTagInlineSite, container, name, addr, 0, sig_type); vector_init(&sym->vranges, sizeof(struct addr_range), 2); /* FIXME: number of elts => to be set on input */ /* chain inline sites */ sym->func.next_inlinesite = func->next_inlinesite; func->next_inlinesite = sym; if (container->tag == SymTagFunction || container->tag == SymTagInlineSite) p = vector_add(&((struct symt_function*)container)->vchildren, &module->pool); else { assert(container->tag == SymTagBlock); p = vector_add(&((struct symt_block*)container)->vchildren, &module->pool); } *p = &sym->func.symt; } return sym; } void symt_add_func_line(struct module* module, struct symt_function* func, unsigned source_idx, int line_num, ULONG_PTR addr) { struct line_info* dli; unsigned vlen; struct line_info* prev; BOOL last_matches = FALSE; int i; if (func == NULL || !(dbghelp_options & SYMOPT_LOAD_LINES)) return; TRACE_(dbghelp_symt)("(%p)%s:%Ix %s:%u\n", func, func->hash_elt.name, addr, source_get(module, source_idx), line_num); assert(func->symt.tag == SymTagFunction || func->symt.tag == SymTagInlineSite); for (i=vector_length(&func->vlines)-1; i>=0; i--) { dli = vector_at(&func->vlines, i); if (dli->is_source_file) { last_matches = (source_idx == dli->u.source_file); break; } } vlen = vector_length(&func->vlines); prev = vlen ? vector_at(&func->vlines, vlen - 1) : NULL; if (last_matches && prev && addr == prev->u.address) { WARN("Duplicate addition of line number in %s\n", func->hash_elt.name); return; } if (!last_matches) { /* we shouldn't have line changes on first line of function */ dli = vector_add(&func->vlines, &module->pool); dli->is_source_file = 1; dli->is_first = (prev == NULL); dli->is_last = 0; dli->line_number = 0; dli->u.source_file = source_idx; } /* clear previous last */ if (prev) prev->is_last = 0; dli = vector_add(&func->vlines, &module->pool); dli->is_source_file = 0; dli->is_first = 0; /* only a source file can be first */ dli->is_last = 1; dli->line_number = line_num; dli->u.address = addr; } /****************************************************************** * symt_add_func_local * * Adds a new local/parameter to a given function: * In any cases, dt tells whether it's a local variable or a parameter * If regno it's not 0: * - then variable is stored in a register * - otherwise, value is referenced by register + offset * Otherwise, the variable is stored on the stack: * - offset is then the offset from the frame register */ struct symt_data* symt_add_func_local(struct module* module, struct symt_function* func, enum DataKind dt, const struct location* loc, struct symt_block* block, struct symt* type, const char* name) { struct symt_data* locsym; struct symt** p; TRACE_(dbghelp_symt)("Adding local symbol (%s:%s): %s %p\n", debugstr_w(module->modulename), func->hash_elt.name, name, type); assert(symt_check_tag(&func->symt, SymTagFunction) || symt_check_tag(&func->symt, SymTagInlineSite)); assert(dt == DataIsParam || dt == DataIsLocal); locsym = pool_alloc(&module->pool, sizeof(*locsym)); locsym->symt.tag = SymTagData; locsym->hash_elt.name = pool_strdup(&module->pool, name); locsym->hash_elt.next = NULL; locsym->kind = dt; locsym->container = block ? &block->symt : &func->symt; locsym->type = type; locsym->u.var = *loc; if (block) p = vector_add(&block->vchildren, &module->pool); else p = vector_add(&func->vchildren, &module->pool); *p = &locsym->symt; return locsym; } /****************************************************************** * symt_add_func_local * * Adds a new (local) constant to a given function */ struct symt_data* symt_add_func_constant(struct module* module, struct symt_function* func, struct symt_block* block, struct symt* type, const char* name, VARIANT* v) { struct symt_data* locsym; struct symt** p; TRACE_(dbghelp_symt)("Adding local constant (%s:%s): %s %p\n", debugstr_w(module->modulename), func->hash_elt.name, name, type); assert(symt_check_tag(&func->symt, SymTagFunction) || symt_check_tag(&func->symt, SymTagInlineSite)); locsym = pool_alloc(&module->pool, sizeof(*locsym)); locsym->symt.tag = SymTagData; locsym->hash_elt.name = pool_strdup(&module->pool, name); locsym->hash_elt.next = NULL; locsym->kind = DataIsConstant; locsym->container = block ? &block->symt : &func->symt; locsym->type = type; locsym->u.value = *v; if (block) p = vector_add(&block->vchildren, &module->pool); else p = vector_add(&func->vchildren, &module->pool); *p = &locsym->symt; return locsym; } struct symt_block* symt_open_func_block(struct module* module, struct symt_function* func, struct symt_block* parent_block, unsigned pc, unsigned len) { struct symt_block* block; struct symt** p; assert(symt_check_tag(&func->symt, SymTagFunction) || symt_check_tag(&func->symt, SymTagInlineSite)); assert(!parent_block || parent_block->symt.tag == SymTagBlock); block = pool_alloc(&module->pool, sizeof(*block)); block->symt.tag = SymTagBlock; block->address = func->address + pc; block->size = len; block->container = parent_block ? &parent_block->symt : &func->symt; vector_init(&block->vchildren, sizeof(struct symt*), 4); if (parent_block) p = vector_add(&parent_block->vchildren, &module->pool); else p = vector_add(&func->vchildren, &module->pool); *p = &block->symt; return block; } struct symt_block* symt_close_func_block(struct module* module, const struct symt_function* func, struct symt_block* block, unsigned pc) { assert(symt_check_tag(&func->symt, SymTagFunction) || symt_check_tag(&func->symt, SymTagInlineSite)); if (pc) block->size = func->address + pc - block->address; return (block->container->tag == SymTagBlock) ? CONTAINING_RECORD(block->container, struct symt_block, symt) : NULL; } struct symt_hierarchy_point* symt_add_function_point(struct module* module, struct symt_function* func, enum SymTagEnum point, const struct location* loc, const char* name) { struct symt_hierarchy_point*sym; struct symt** p; if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = point; sym->parent = &func->symt; sym->loc = *loc; sym->hash_elt.name = name ? pool_strdup(&module->pool, name) : NULL; p = vector_add(&func->vchildren, &module->pool); *p = &sym->symt; } return sym; } /* low and high are absolute addresses */ BOOL symt_add_inlinesite_range(struct module* module, struct symt_inlinesite* inlined, ULONG_PTR low, ULONG_PTR high) { struct addr_range* p; p = vector_add(&inlined->vranges, &module->pool); p->low = low; p->high = high; if (TRUE) { int i; /* see dbghelp_private.h for the assumptions */ for (i = 0; i < inlined->vranges.num_elts - 1; i++) { if (!addr_range_disjoint((struct addr_range*)vector_at(&inlined->vranges, i), p)) { FIXME("Added addr_range isn't disjoint from siblings\n"); } } for ( ; inlined->func.symt.tag != SymTagFunction; inlined = (struct symt_inlinesite*)symt_get_upper_inlined(inlined)) { for (i = 0; i < inlined->vranges.num_elts; i++) { struct addr_range* ar = (struct addr_range*)vector_at(&inlined->vranges, i); if (!addr_range_disjoint(ar, p) && !addr_range_inside(ar, p)) WARN("Added addr_range not compatible with parent\n"); } } } return TRUE; } struct symt_thunk* symt_new_thunk(struct module* module, struct symt_compiland* compiland, const char* name, THUNK_ORDINAL ord, ULONG_PTR addr, ULONG_PTR size) { struct symt_thunk* sym; TRACE_(dbghelp_symt)("Adding global thunk %s:%s @%Ix-%Ix\n", debugstr_w(module->modulename), name, addr, addr + size - 1); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagThunk; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->container = &compiland->symt; sym->address = addr; sym->size = size; sym->ordinal = ord; symt_add_module_ht(module, (struct symt_ht*)sym); if (compiland) { struct symt** p; p = vector_add(&compiland->vchildren, &module->pool); *p = &sym->symt; } } return sym; } struct symt_data* symt_new_constant(struct module* module, struct symt_compiland* compiland, const char* name, struct symt* type, const VARIANT* v) { struct symt_data* sym; TRACE_(dbghelp_symt)("Adding constant value %s:%s\n", debugstr_w(module->modulename), name); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagData; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->kind = DataIsConstant; sym->container = compiland ? &compiland->symt : &module->top->symt; sym->type = type; sym->u.value = *v; symt_add_module_ht(module, (struct symt_ht*)sym); if (compiland) { struct symt** p; p = vector_add(&compiland->vchildren, &module->pool); *p = &sym->symt; } } return sym; } struct symt_hierarchy_point* symt_new_label(struct module* module, struct symt_compiland* compiland, const char* name, ULONG_PTR address) { struct symt_hierarchy_point* sym; TRACE_(dbghelp_symt)("Adding global label value %s:%s\n", debugstr_w(module->modulename), name); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagLabel; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->loc.kind = loc_absolute; sym->loc.offset = address; sym->parent = compiland ? &compiland->symt : NULL; symt_add_module_ht(module, (struct symt_ht*)sym); if (compiland) { struct symt** p; p = vector_add(&compiland->vchildren, &module->pool); *p = &sym->symt; } } return sym; } struct symt_custom* symt_new_custom(struct module* module, const char* name, DWORD64 addr, DWORD size) { struct symt_custom* sym; TRACE_(dbghelp_symt)("Adding custom symbol %s:%s\n", debugstr_w(module->modulename), name); if ((sym = pool_alloc(&module->pool, sizeof(*sym)))) { sym->symt.tag = SymTagCustom; sym->hash_elt.name = pool_strdup(&module->pool, name); sym->address = addr; sym->size = size; symt_add_module_ht(module, (struct symt_ht*)sym); } return sym; } /* expect sym_info->MaxNameLen to be set before being called */ static void symt_fill_sym_info(struct module_pair* pair, const struct symt_function* func, const struct symt* sym, SYMBOL_INFO* sym_info) { const char* name; DWORD64 size; char* tmp; if (!symt_get_info(pair->effective, sym, TI_GET_TYPE, &sym_info->TypeIndex)) sym_info->TypeIndex = 0; sym_info->Index = symt_ptr2index(pair->effective, sym); sym_info->Reserved[0] = sym_info->Reserved[1] = 0; if (!symt_get_info(pair->effective, sym, TI_GET_LENGTH, &size) && (!sym_info->TypeIndex || !symt_get_info(pair->effective, symt_index2ptr(pair->effective, sym_info->TypeIndex), TI_GET_LENGTH, &size))) size = 0; sym_info->Size = (DWORD)size; sym_info->ModBase = pair->requested->module.BaseOfImage; sym_info->Flags = 0; sym_info->Value = 0; switch (sym->tag) { case SymTagData: { const struct symt_data* data = (const struct symt_data*)sym; switch (data->kind) { case DataIsParam: sym_info->Flags |= SYMFLAG_PARAMETER; /* fall through */ case DataIsLocal: sym_info->Flags |= SYMFLAG_LOCAL; { struct location loc = data->u.var; if (loc.kind >= loc_user) { unsigned i; struct module_format* modfmt; for (i = 0; i < DFI_LAST; i++) { modfmt = pair->effective->format_info[i]; if (modfmt && modfmt->loc_compute) { modfmt->loc_compute(pair->pcs, modfmt, func, &loc); break; } } } switch (loc.kind) { case loc_error: /* for now we report error cases as a negative register number */ /* fall through */ case loc_register: sym_info->Flags |= SYMFLAG_REGISTER; sym_info->Register = loc.reg; sym_info->Address = 0; break; case loc_regrel: sym_info->Flags |= SYMFLAG_REGREL; sym_info->Register = loc.reg; if (loc.reg == CV_REG_NONE || (int)loc.reg < 0 /* error */) FIXME("suspicious register value %x\n", loc.reg); sym_info->Address = loc.offset; break; case loc_absolute: sym_info->Flags |= SYMFLAG_VALUEPRESENT; sym_info->Value = loc.offset; break; default: FIXME("Shouldn't happen (kind=%d), debug reader backend is broken\n", loc.kind); assert(0); } } break; case DataIsGlobal: case DataIsFileStatic: switch (data->u.var.kind) { case loc_tlsrel: sym_info->Flags |= SYMFLAG_TLSREL; /* fall through */ case loc_absolute: symt_get_address(sym, &sym_info->Address); sym_info->Register = 0; break; default: FIXME("Shouldn't happen (kind=%d), debug reader backend is broken\n", data->u.var.kind); assert(0); } break; case DataIsConstant: sym_info->Flags |= SYMFLAG_VALUEPRESENT; if (data->container && (data->container->tag == SymTagFunction || data->container->tag == SymTagBlock)) sym_info->Flags |= SYMFLAG_LOCAL; switch (V_VT(&data->u.value)) { case VT_I8: sym_info->Value = (LONG64)V_I8(&data->u.value); break; case VT_I4: sym_info->Value = (LONG64)V_I4(&data->u.value); break; case VT_I2: sym_info->Value = (LONG64)V_I2(&data->u.value); break; case VT_I1: sym_info->Value = (LONG64)V_I1(&data->u.value); break; case VT_UINT:sym_info->Value = V_UINT(&data->u.value); break; case VT_UI8: sym_info->Value = V_UI8(&data->u.value); break; case VT_UI4: sym_info->Value = V_UI4(&data->u.value); break; case VT_UI2: sym_info->Value = V_UI2(&data->u.value); break; case VT_UI1: sym_info->Value = V_UI1(&data->u.value); break; case VT_BYREF: sym_info->Value = (DWORD_PTR)V_BYREF(&data->u.value); break; case VT_EMPTY: sym_info->Value = 0; break; default: FIXME("Unsupported variant type (%u)\n", V_VT(&data->u.value)); sym_info->Value = 0; break; } break; default: FIXME("Unhandled kind (%u) in sym data\n", data->kind); } } break; case SymTagPublicSymbol: { const struct symt_public* pub = (const struct symt_public*)sym; if (pub->is_function) sym_info->Flags |= SYMFLAG_PUBLIC_CODE; else sym_info->Flags |= SYMFLAG_EXPORT; symt_get_address(sym, &sym_info->Address); } break; case SymTagFunction: case SymTagInlineSite: symt_get_address(sym, &sym_info->Address); break; case SymTagThunk: sym_info->Flags |= SYMFLAG_THUNK; symt_get_address(sym, &sym_info->Address); break; case SymTagCustom: symt_get_address(sym, &sym_info->Address); sym_info->Flags |= SYMFLAG_VIRTUAL; break; default: symt_get_address(sym, &sym_info->Address); sym_info->Register = 0; break; } sym_info->Scope = 0; /* FIXME */ sym_info->Tag = sym->tag; name = symt_get_name(sym); if (sym_info->MaxNameLen && sym->tag == SymTagPublicSymbol && (dbghelp_options & SYMOPT_UNDNAME) && (tmp = __unDName(NULL, name, 0, malloc, free, UNDNAME_NAME_ONLY)) != NULL) { symbol_setname(sym_info, tmp); free(tmp); } else symbol_setname(sym_info, name); TRACE_(dbghelp_symt)("%p => %s %lu %s\n", sym, sym_info->Name, sym_info->Size, wine_dbgstr_longlong(sym_info->Address)); } struct sym_enum { PSYM_ENUMERATESYMBOLS_CALLBACK cb; PVOID user; SYMBOL_INFO* sym_info; DWORD index; DWORD tag; DWORD64 addr; char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME]; }; static BOOL send_symbol(const struct sym_enum* se, struct module_pair* pair, const struct symt_function* func, const struct symt* sym) { symt_fill_sym_info(pair, func, sym, se->sym_info); if (se->index && se->sym_info->Index != se->index) return FALSE; if (se->tag && se->sym_info->Tag != se->tag) return FALSE; if (se->addr && !(se->addr >= se->sym_info->Address && se->addr < se->sym_info->Address + se->sym_info->Size)) return FALSE; return !se->cb(se->sym_info, se->sym_info->Size, se->user); } static BOOL symt_enum_module(struct module_pair* pair, const WCHAR* match, const struct sym_enum* se) { void* ptr; struct symt_ht* sym = NULL; struct hash_table_iter hti; WCHAR* nameW; BOOL ret; hash_table_iter_init(&pair->effective->ht_symbols, &hti, NULL); while ((ptr = hash_table_iter_up(&hti))) { sym = CONTAINING_RECORD(ptr, struct symt_ht, hash_elt); nameW = symt_get_nameW(&sym->symt); ret = SymMatchStringW(nameW, match, FALSE); HeapFree(GetProcessHeap(), 0, nameW); if (ret) { se->sym_info->SizeOfStruct = sizeof(SYMBOL_INFO); se->sym_info->MaxNameLen = sizeof(se->buffer) - sizeof(SYMBOL_INFO); if (send_symbol(se, pair, NULL, &sym->symt)) return TRUE; } } return FALSE; } static inline unsigned where_to_insert(struct module* module, unsigned high, const struct symt_ht* elt) { unsigned low = 0, mid = high / 2; ULONG64 addr; if (!high) return 0; symt_get_address(&elt->symt, &addr); do { switch (cmp_sorttab_addr(module, mid, addr)) { case 0: return mid; case -1: low = mid + 1; break; case 1: high = mid; break; } mid = low + (high - low) / 2; } while (low < high); return mid; } /*********************************************************************** * resort_symbols * * Rebuild sorted list of symbols for a module. */ static BOOL resort_symbols(struct module* module) { int delta; if (!(module->module.NumSyms = module->num_symbols)) return FALSE; /* we know that set from 0 up to num_sorttab is already sorted * so sort the remaining (new) symbols, and merge the two sets * (unless the first set is empty) */ delta = module->num_symbols - module->num_sorttab; qsort(&module->addr_sorttab[module->num_sorttab], delta, sizeof(struct symt_ht*), symt_cmp_addr); if (module->num_sorttab) { int i, ins_idx = module->num_sorttab, prev_ins_idx; static struct symt_ht** tmp; static unsigned num_tmp; if (num_tmp < delta) { static struct symt_ht** new; if (tmp) new = HeapReAlloc(GetProcessHeap(), 0, tmp, delta * sizeof(struct symt_ht*)); else new = HeapAlloc(GetProcessHeap(), 0, delta * sizeof(struct symt_ht*)); if (!new) { module->num_sorttab = 0; return resort_symbols(module); } tmp = new; num_tmp = delta; } memcpy(tmp, &module->addr_sorttab[module->num_sorttab], delta * sizeof(struct symt_ht*)); qsort(tmp, delta, sizeof(struct symt_ht*), symt_cmp_addr); for (i = delta - 1; i >= 0; i--) { prev_ins_idx = ins_idx; ins_idx = where_to_insert(module, ins_idx, tmp[i]); memmove(&module->addr_sorttab[ins_idx + i + 1], &module->addr_sorttab[ins_idx], (prev_ins_idx - ins_idx) * sizeof(struct symt_ht*)); module->addr_sorttab[ins_idx + i] = tmp[i]; } } module->num_sorttab = module->num_symbols; return module->sortlist_valid = TRUE; } static void symt_get_length(struct module* module, const struct symt* symt, ULONG64* size) { DWORD type_index; if (symt_get_info(module, symt, TI_GET_LENGTH, size) && *size) return; if (symt_get_info(module, symt, TI_GET_TYPE, &type_index) && symt_get_info(module, symt_index2ptr(module, type_index), TI_GET_LENGTH, size)) return; *size = 1; /* no size info */ } /* needed by symt_find_nearest */ static int symt_get_best_at(struct module* module, int idx_sorttab) { ULONG64 ref_addr; int idx_sorttab_orig = idx_sorttab; if (module->addr_sorttab[idx_sorttab]->symt.tag == SymTagPublicSymbol) { symt_get_address(&module->addr_sorttab[idx_sorttab]->symt, &ref_addr); while (idx_sorttab > 0 && module->addr_sorttab[idx_sorttab]->symt.tag == SymTagPublicSymbol && !cmp_sorttab_addr(module, idx_sorttab - 1, ref_addr)) idx_sorttab--; if (module->addr_sorttab[idx_sorttab]->symt.tag == SymTagPublicSymbol) { idx_sorttab = idx_sorttab_orig; while (idx_sorttab < module->num_sorttab - 1 && module->addr_sorttab[idx_sorttab]->symt.tag == SymTagPublicSymbol && !cmp_sorttab_addr(module, idx_sorttab + 1, ref_addr)) idx_sorttab++; } /* if no better symbol was found restore the original */ if (module->addr_sorttab[idx_sorttab]->symt.tag == SymTagPublicSymbol) idx_sorttab = idx_sorttab_orig; } return idx_sorttab; } /* assume addr is in module */ struct symt_ht* symt_find_nearest(struct module* module, DWORD_PTR addr) { int mid, high, low; ULONG64 ref_addr, ref_size; if (!module->sortlist_valid || !module->addr_sorttab) { if (!resort_symbols(module)) return NULL; } /* * Binary search to find closest symbol. */ low = 0; high = module->num_sorttab; symt_get_address(&module->addr_sorttab[0]->symt, &ref_addr); if (addr < ref_addr) return NULL; if (high) { symt_get_address(&module->addr_sorttab[high - 1]->symt, &ref_addr); symt_get_length(module, &module->addr_sorttab[high - 1]->symt, &ref_size); if (addr >= ref_addr + ref_size) return NULL; } while (high > low + 1) { mid = (high + low) / 2; if (cmp_sorttab_addr(module, mid, addr) < 0) low = mid; else high = mid; } if (low != high && high != module->num_sorttab && cmp_sorttab_addr(module, high, addr) <= 0) low = high; /* If found symbol is a public symbol, check if there are any other entries that * might also have the same address, but would get better information */ low = symt_get_best_at(module, low); return module->addr_sorttab[low]; } struct symt_ht* symt_find_symbol_at(struct module* module, DWORD_PTR addr) { struct symt_ht* nearest = symt_find_nearest(module, addr); if (nearest) { ULONG64 symaddr, symsize; symt_get_address(&nearest->symt, &symaddr); symt_get_length(module, &nearest->symt, &symsize); if (addr < symaddr || addr >= symaddr + symsize) nearest = NULL; } return nearest; } static BOOL symt_enum_locals_helper(struct module_pair* pair, const WCHAR* match, const struct sym_enum* se, struct symt_function* func, const struct vector* v) { struct symt* lsym = NULL; DWORD_PTR pc = pair->pcs->localscope_pc; unsigned int i; WCHAR* nameW; BOOL ret; for (i=0; itag) { case SymTagBlock: { struct symt_block* block = (struct symt_block*)lsym; if (pc < block->address || block->address + block->size <= pc) continue; if (!symt_enum_locals_helper(pair, match, se, func, &block->vchildren)) return FALSE; } break; case SymTagData: nameW = symt_get_nameW(lsym); ret = SymMatchStringW(nameW, match, !(dbghelp_options & SYMOPT_CASE_INSENSITIVE)); HeapFree(GetProcessHeap(), 0, nameW); if (ret) { if (send_symbol(se, pair, func, lsym)) return FALSE; } break; case SymTagLabel: case SymTagFuncDebugStart: case SymTagFuncDebugEnd: case SymTagCustom: case SymTagInlineSite: break; default: FIXME("Unknown type: %u (%x)\n", lsym->tag, lsym->tag); assert(0); } } return TRUE; } static BOOL symt_enum_locals(struct process* pcs, const WCHAR* mask, const struct sym_enum* se) { struct module_pair pair; se->sym_info->SizeOfStruct = sizeof(*se->sym_info); se->sym_info->MaxNameLen = sizeof(se->buffer) - sizeof(SYMBOL_INFO); pair.pcs = pcs; pair.requested = module_find_by_addr(pair.pcs, pcs->localscope_pc, DMT_UNKNOWN); if (!module_get_debug(&pair)) return FALSE; if (symt_check_tag(pcs->localscope_symt, SymTagFunction) || symt_check_tag(pcs->localscope_symt, SymTagInlineSite)) { struct symt_function* func = (struct symt_function*)pcs->localscope_symt; return symt_enum_locals_helper(&pair, mask ? mask : L"*", se, func, &func->vchildren); } return FALSE; } /********************************************************** * symbol_setname * * Properly sets Name and NameLen in SYMBOL_INFO * according to MaxNameLen value */ void symbol_setname(SYMBOL_INFO* sym_info, const char* name) { SIZE_T len = 0; if (name) { sym_info->NameLen = strlen(name); if (sym_info->MaxNameLen) { len = min(sym_info->NameLen, sym_info->MaxNameLen - 1); memcpy(sym_info->Name, name, len); } } else sym_info->NameLen = 0; sym_info->Name[len] = '\0'; } /****************************************************************** * copy_symbolW * * Helper for transforming an ANSI symbol info into a UNICODE one. * Assume that MaxNameLen is the same for both version (A & W). */ void copy_symbolW(SYMBOL_INFOW* siw, const SYMBOL_INFO* si) { siw->SizeOfStruct = si->SizeOfStruct; siw->TypeIndex = si->TypeIndex; siw->Reserved[0] = si->Reserved[0]; siw->Reserved[1] = si->Reserved[1]; siw->Index = si->Index; siw->Size = si->Size; siw->ModBase = si->ModBase; siw->Flags = si->Flags; siw->Value = si->Value; siw->Address = si->Address; siw->Register = si->Register; siw->Scope = si->Scope; siw->Tag = si->Tag; siw->NameLen = si->NameLen; siw->MaxNameLen = si->MaxNameLen; MultiByteToWideChar(CP_ACP, 0, si->Name, -1, siw->Name, siw->MaxNameLen); } /* return the lowest inline site inside a function */ struct symt_inlinesite* symt_find_lowest_inlined(struct symt_function* func, DWORD64 addr) { struct symt_inlinesite* current; int i; assert(func->symt.tag == SymTagFunction); for (current = func->next_inlinesite; current; current = current->func.next_inlinesite) { for (i = 0; i < current->vranges.num_elts; ++i) { struct addr_range* ar = (struct addr_range*)vector_at(¤t->vranges, i); /* first matching range gives the lowest inline site; see dbghelp_private.h for details */ if (ar->low <= addr && addr < ar->high) return current; } } return NULL; } /* from an inline function, get either the enclosing inlined function, or the top function when no inlined */ struct symt* symt_get_upper_inlined(struct symt_inlinesite* inlined) { struct symt* symt = &inlined->func.symt; do { assert(symt); if (symt->tag == SymTagBlock) symt = ((struct symt_block*)symt)->container; else symt = ((struct symt_function*)symt)->container; } while (symt->tag == SymTagBlock); assert(symt->tag == SymTagFunction || symt->tag == SymTagInlineSite); return symt; } /* lookup in module for an inline site (from addr and inline_ctx) */ struct symt_inlinesite* symt_find_inlined_site(struct module* module, DWORD64 addr, DWORD inline_ctx) { struct symt_ht* symt = symt_find_symbol_at(module, addr); if (symt_check_tag(&symt->symt, SymTagFunction)) { struct symt_function* func = (struct symt_function*)symt; struct symt_inlinesite* curr = symt_find_lowest_inlined(func, addr); DWORD depth = IFC_DEPTH(inline_ctx); if (curr) for ( ; &curr->func != func; curr = (struct symt_inlinesite*)symt_get_upper_inlined(curr)) if (depth-- == 0) return curr; } return NULL; } DWORD symt_get_inlinesite_depth(HANDLE hProcess, DWORD64 addr) { struct module_pair pair; DWORD depth = 0; if (module_init_pair(&pair, hProcess, addr)) { struct symt_ht* symt = symt_find_symbol_at(pair.effective, addr); if (symt_check_tag(&symt->symt, SymTagFunction)) { struct symt_inlinesite* inlined = symt_find_lowest_inlined((struct symt_function*)symt, addr); if (inlined) { for ( ; &inlined->func.symt != &symt->symt; inlined = (struct symt_inlinesite*)symt_get_upper_inlined(inlined)) ++depth; } } } return depth; } /****************************************************************** * sym_enum * * Core routine for most of the enumeration of symbols */ static BOOL sym_enum(HANDLE hProcess, ULONG64 BaseOfDll, PCWSTR Mask, const struct sym_enum* se) { struct module_pair pair; const WCHAR* bang; WCHAR* mod; pair.pcs = process_find_by_handle(hProcess); if (!pair.pcs) return FALSE; if (BaseOfDll == 0) { /* do local variables ? */ if (!Mask || !(bang = wcschr(Mask, '!'))) return symt_enum_locals(pair.pcs, Mask, se); if (bang == Mask) return FALSE; mod = HeapAlloc(GetProcessHeap(), 0, (bang - Mask + 1) * sizeof(WCHAR)); if (!mod) return FALSE; memcpy(mod, Mask, (bang - Mask) * sizeof(WCHAR)); mod[bang - Mask] = 0; for (pair.requested = pair.pcs->lmodules; pair.requested; pair.requested = pair.requested->next) { if (pair.requested->type == DMT_PE && module_get_debug(&pair)) { if (SymMatchStringW(pair.requested->modulename, mod, FALSE) && symt_enum_module(&pair, bang + 1, se)) break; } } /* not found in PE modules, retry on the ELF ones */ if (!pair.requested && dbghelp_opt_native) { for (pair.requested = pair.pcs->lmodules; pair.requested; pair.requested = pair.requested->next) { if ((pair.requested->type == DMT_ELF || pair.requested->type == DMT_MACHO) && !module_get_containee(pair.pcs, pair.requested) && module_get_debug(&pair)) { if (SymMatchStringW(pair.requested->modulename, mod, FALSE) && symt_enum_module(&pair, bang + 1, se)) break; } } } HeapFree(GetProcessHeap(), 0, mod); return TRUE; } pair.requested = module_find_by_addr(pair.pcs, BaseOfDll, DMT_UNKNOWN); if (!module_get_debug(&pair)) return FALSE; /* we always ignore module name from Mask when BaseOfDll is defined */ if (Mask && (bang = wcschr(Mask, '!'))) { if (bang == Mask) return FALSE; Mask = bang + 1; } symt_enum_module(&pair, Mask ? Mask : L"*", se); return TRUE; } static inline BOOL doSymEnumSymbols(HANDLE hProcess, ULONG64 BaseOfDll, PCWSTR Mask, PSYM_ENUMERATESYMBOLS_CALLBACK EnumSymbolsCallback, PVOID UserContext) { struct sym_enum se; se.cb = EnumSymbolsCallback; se.user = UserContext; se.index = 0; se.tag = 0; se.addr = 0; se.sym_info = (PSYMBOL_INFO)se.buffer; return sym_enum(hProcess, BaseOfDll, Mask, &se); } /****************************************************************** * SymEnumSymbols (DBGHELP.@) * * cases BaseOfDll = 0 * !foo fails always (despite what MSDN states) * RE1!RE2 looks up all modules matching RE1, and in all these modules, lookup RE2 * no ! in Mask, lookup in local Context * cases BaseOfDll != 0 * !foo fails always (despite what MSDN states) * RE1!RE2 gets RE2 from BaseOfDll (whatever RE1 is) */ BOOL WINAPI SymEnumSymbols(HANDLE hProcess, ULONG64 BaseOfDll, PCSTR Mask, PSYM_ENUMERATESYMBOLS_CALLBACK EnumSymbolsCallback, PVOID UserContext) { BOOL ret; PWSTR maskW = NULL; TRACE("(%p %s %s %p %p)\n", hProcess, wine_dbgstr_longlong(BaseOfDll), debugstr_a(Mask), EnumSymbolsCallback, UserContext); if (Mask) { DWORD sz = MultiByteToWideChar(CP_ACP, 0, Mask, -1, NULL, 0); if (!(maskW = HeapAlloc(GetProcessHeap(), 0, sz * sizeof(WCHAR)))) return FALSE; MultiByteToWideChar(CP_ACP, 0, Mask, -1, maskW, sz); } ret = doSymEnumSymbols(hProcess, BaseOfDll, maskW, EnumSymbolsCallback, UserContext); HeapFree(GetProcessHeap(), 0, maskW); return ret; } struct sym_enumW { PSYM_ENUMERATESYMBOLS_CALLBACKW cb; void* ctx; PSYMBOL_INFOW sym_info; char buffer[sizeof(SYMBOL_INFOW) + MAX_SYM_NAME * sizeof(WCHAR)]; }; static BOOL CALLBACK sym_enumW(PSYMBOL_INFO si, ULONG size, PVOID ctx) { struct sym_enumW* sew = ctx; copy_symbolW(sew->sym_info, si); return (sew->cb)(sew->sym_info, size, sew->ctx); } /****************************************************************** * SymEnumSymbolsW (DBGHELP.@) * */ BOOL WINAPI SymEnumSymbolsW(HANDLE hProcess, ULONG64 BaseOfDll, PCWSTR Mask, PSYM_ENUMERATESYMBOLS_CALLBACKW EnumSymbolsCallback, PVOID UserContext) { struct sym_enumW sew; sew.ctx = UserContext; sew.cb = EnumSymbolsCallback; sew.sym_info = (PSYMBOL_INFOW)sew.buffer; return doSymEnumSymbols(hProcess, BaseOfDll, Mask, sym_enumW, &sew); } struct sym_enumerate { void* ctx; PSYM_ENUMSYMBOLS_CALLBACK cb; }; static BOOL CALLBACK sym_enumerate_cb(PSYMBOL_INFO syminfo, ULONG size, void* ctx) { struct sym_enumerate* se = ctx; return (se->cb)(syminfo->Name, syminfo->Address, syminfo->Size, se->ctx); } /*********************************************************************** * SymEnumerateSymbols (DBGHELP.@) */ BOOL WINAPI SymEnumerateSymbols(HANDLE hProcess, DWORD BaseOfDll, PSYM_ENUMSYMBOLS_CALLBACK EnumSymbolsCallback, PVOID UserContext) { struct sym_enumerate se; se.ctx = UserContext; se.cb = EnumSymbolsCallback; return SymEnumSymbols(hProcess, BaseOfDll, NULL, sym_enumerate_cb, &se); } struct sym_enumerate64 { void* ctx; PSYM_ENUMSYMBOLS_CALLBACK64 cb; }; static BOOL CALLBACK sym_enumerate_cb64(PSYMBOL_INFO syminfo, ULONG size, void* ctx) { struct sym_enumerate64* se = ctx; return (se->cb)(syminfo->Name, syminfo->Address, syminfo->Size, se->ctx); } /*********************************************************************** * SymEnumerateSymbols64 (DBGHELP.@) */ BOOL WINAPI SymEnumerateSymbols64(HANDLE hProcess, DWORD64 BaseOfDll, PSYM_ENUMSYMBOLS_CALLBACK64 EnumSymbolsCallback, PVOID UserContext) { struct sym_enumerate64 se; se.ctx = UserContext; se.cb = EnumSymbolsCallback; return SymEnumSymbols(hProcess, BaseOfDll, NULL, sym_enumerate_cb64, &se); } /****************************************************************** * SymFromAddr (DBGHELP.@) * */ BOOL WINAPI SymFromAddr(HANDLE hProcess, DWORD64 Address, DWORD64* Displacement, PSYMBOL_INFO Symbol) { struct module_pair pair; struct symt_ht* sym; if (!module_init_pair(&pair, hProcess, Address)) return FALSE; if ((sym = symt_find_symbol_at(pair.effective, Address)) == NULL) return FALSE; symt_fill_sym_info(&pair, NULL, &sym->symt, Symbol); if (Displacement) *Displacement = (Address >= Symbol->Address) ? (Address - Symbol->Address) : (DWORD64)-1; return TRUE; } /****************************************************************** * SymFromAddrW (DBGHELP.@) * */ BOOL WINAPI SymFromAddrW(HANDLE hProcess, DWORD64 Address, DWORD64* Displacement, PSYMBOL_INFOW Symbol) { PSYMBOL_INFO si; unsigned len; BOOL ret; len = sizeof(*si) + Symbol->MaxNameLen * sizeof(WCHAR); si = HeapAlloc(GetProcessHeap(), 0, len); if (!si) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = Symbol->MaxNameLen; if ((ret = SymFromAddr(hProcess, Address, Displacement, si))) { copy_symbolW(Symbol, si); } HeapFree(GetProcessHeap(), 0, si); return ret; } /****************************************************************** * SymGetSymFromAddr (DBGHELP.@) * */ BOOL WINAPI SymGetSymFromAddr(HANDLE hProcess, DWORD Address, PDWORD Displacement, PIMAGEHLP_SYMBOL Symbol) { char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME]; SYMBOL_INFO*si = (SYMBOL_INFO*)buffer; size_t len; DWORD64 Displacement64; if (Symbol->SizeOfStruct < sizeof(*Symbol)) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = MAX_SYM_NAME; if (!SymFromAddr(hProcess, Address, &Displacement64, si)) return FALSE; if (Displacement) *Displacement = Displacement64; Symbol->Address = si->Address; Symbol->Size = si->Size; Symbol->Flags = si->Flags; len = min(Symbol->MaxNameLength, si->MaxNameLen); lstrcpynA(Symbol->Name, si->Name, len); return TRUE; } /****************************************************************** * SymGetSymFromAddr64 (DBGHELP.@) * */ BOOL WINAPI SymGetSymFromAddr64(HANDLE hProcess, DWORD64 Address, PDWORD64 Displacement, PIMAGEHLP_SYMBOL64 Symbol) { char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME]; SYMBOL_INFO*si = (SYMBOL_INFO*)buffer; size_t len; DWORD64 Displacement64; if (Symbol->SizeOfStruct < sizeof(*Symbol)) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = MAX_SYM_NAME; if (!SymFromAddr(hProcess, Address, &Displacement64, si)) return FALSE; if (Displacement) *Displacement = Displacement64; Symbol->Address = si->Address; Symbol->Size = si->Size; Symbol->Flags = si->Flags; len = min(Symbol->MaxNameLength, si->MaxNameLen); lstrcpynA(Symbol->Name, si->Name, len); return TRUE; } static BOOL find_name(struct process* pcs, struct module* module, const char* name, SYMBOL_INFO* symbol) { struct hash_table_iter hti; void* ptr; struct symt_ht* sym = NULL; struct module_pair pair; pair.pcs = pcs; if (!(pair.requested = module)) return FALSE; if (!module_get_debug(&pair)) return FALSE; hash_table_iter_init(&pair.effective->ht_symbols, &hti, name); while ((ptr = hash_table_iter_up(&hti))) { sym = CONTAINING_RECORD(ptr, struct symt_ht, hash_elt); if (!strcmp(sym->hash_elt.name, name)) { symt_fill_sym_info(&pair, NULL, &sym->symt, symbol); return TRUE; } } return FALSE; } /****************************************************************** * SymFromName (DBGHELP.@) * */ BOOL WINAPI SymFromName(HANDLE hProcess, PCSTR Name, PSYMBOL_INFO Symbol) { struct process* pcs = process_find_by_handle(hProcess); struct module* module; const char* name; TRACE("(%p, %s, %p)\n", hProcess, Name, Symbol); if (!pcs) return FALSE; if (Symbol->SizeOfStruct < sizeof(*Symbol)) return FALSE; name = strchr(Name, '!'); if (name) { char tmp[128]; assert(name - Name < sizeof(tmp)); memcpy(tmp, Name, name - Name); tmp[name - Name] = '\0'; module = module_find_by_nameA(pcs, tmp); return find_name(pcs, module, name + 1, Symbol); } for (module = pcs->lmodules; module; module = module->next) { if (module->type == DMT_PE && find_name(pcs, module, Name, Symbol)) return TRUE; } /* not found in PE modules, retry on the ELF ones */ if (dbghelp_opt_native) { for (module = pcs->lmodules; module; module = module->next) { if ((module->type == DMT_ELF || module->type == DMT_MACHO) && !module_get_containee(pcs, module) && find_name(pcs, module, Name, Symbol)) return TRUE; } } return FALSE; } /*********************************************************************** * SymFromNameW (DBGHELP.@) */ BOOL WINAPI SymFromNameW(HANDLE process, const WCHAR *name, SYMBOL_INFOW *symbol) { SYMBOL_INFO *si; DWORD len; char *tmp; BOOL ret; TRACE("(%p, %s, %p)\n", process, debugstr_w(name), symbol); len = sizeof(*si) + symbol->MaxNameLen; if (!(si = HeapAlloc(GetProcessHeap(), 0, len))) return FALSE; len = WideCharToMultiByte(CP_ACP, 0, name, -1, NULL, 0, NULL, NULL); if (!(tmp = HeapAlloc(GetProcessHeap(), 0, len))) { HeapFree(GetProcessHeap(), 0, si); return FALSE; } WideCharToMultiByte(CP_ACP, 0, name, -1, tmp, len, NULL, NULL); si->SizeOfStruct = sizeof(*si); si->MaxNameLen = symbol->MaxNameLen; if ((ret = SymFromName(process, tmp, si))) copy_symbolW(symbol, si); HeapFree(GetProcessHeap(), 0, tmp); HeapFree(GetProcessHeap(), 0, si); return ret; } /*********************************************************************** * SymGetSymFromName64 (DBGHELP.@) */ BOOL WINAPI SymGetSymFromName64(HANDLE hProcess, PCSTR Name, PIMAGEHLP_SYMBOL64 Symbol) { char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME]; SYMBOL_INFO*si = (SYMBOL_INFO*)buffer; size_t len; if (Symbol->SizeOfStruct < sizeof(*Symbol)) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = MAX_SYM_NAME; if (!SymFromName(hProcess, Name, si)) return FALSE; Symbol->Address = si->Address; Symbol->Size = si->Size; Symbol->Flags = si->Flags; len = min(Symbol->MaxNameLength, si->MaxNameLen); lstrcpynA(Symbol->Name, si->Name, len); return TRUE; } /*********************************************************************** * SymGetSymFromName (DBGHELP.@) */ BOOL WINAPI SymGetSymFromName(HANDLE hProcess, PCSTR Name, PIMAGEHLP_SYMBOL Symbol) { char buffer[sizeof(SYMBOL_INFO) + MAX_SYM_NAME]; SYMBOL_INFO*si = (SYMBOL_INFO*)buffer; size_t len; if (Symbol->SizeOfStruct < sizeof(*Symbol)) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = MAX_SYM_NAME; if (!SymFromName(hProcess, Name, si)) return FALSE; Symbol->Address = si->Address; Symbol->Size = si->Size; Symbol->Flags = si->Flags; len = min(Symbol->MaxNameLength, si->MaxNameLen); lstrcpynA(Symbol->Name, si->Name, len); return TRUE; } struct internal_line_t { BOOL unicode; PVOID key; DWORD line_number; union { CHAR* file_nameA; WCHAR* file_nameW; }; DWORD64 address; }; static void init_internal_line(struct internal_line_t* intl, BOOL unicode) { intl->unicode = unicode; intl->key = NULL; intl->line_number = 0; intl->file_nameA = NULL; intl->address = 0; } static BOOL internal_line_copy_toA32(const struct internal_line_t* intl, IMAGEHLP_LINE* l32) { if (intl->unicode) return FALSE; l32->Key = intl->key; l32->LineNumber = intl->line_number; l32->FileName = intl->file_nameA; l32->Address = intl->address; return TRUE; } static BOOL internal_line_copy_toA64(const struct internal_line_t* intl, IMAGEHLP_LINE64* l64) { if (intl->unicode) return FALSE; l64->Key = intl->key; l64->LineNumber = intl->line_number; l64->FileName = intl->file_nameA; l64->Address = intl->address; return TRUE; } static BOOL internal_line_copy_toW64(const struct internal_line_t* intl, IMAGEHLP_LINEW64* l64) { if (!intl->unicode) return FALSE; l64->Key = intl->key; l64->LineNumber = intl->line_number; l64->FileName = intl->file_nameW; l64->Address = intl->address; return TRUE; } static BOOL internal_line_set_nameA(struct process* pcs, struct internal_line_t* intl, char* str, BOOL copy) { DWORD len; if (intl->unicode) { len = MultiByteToWideChar(CP_ACP, 0, str, -1, NULL, 0); if (!(intl->file_nameW = fetch_buffer(pcs, len * sizeof(WCHAR)))) return FALSE; MultiByteToWideChar(CP_ACP, 0, str, -1, intl->file_nameW, len); } else { if (copy) { len = strlen(str) + 1; if (!(intl->file_nameA = fetch_buffer(pcs, len))) return FALSE; memcpy(intl->file_nameA, str, len); } else intl->file_nameA = str; } return TRUE; } static BOOL internal_line_set_nameW(struct process* pcs, struct internal_line_t* intl, WCHAR* wstr, BOOL copy) { DWORD len; if (intl->unicode) { if (copy) { len = (lstrlenW(wstr) + 1) * sizeof(WCHAR); if (!(intl->file_nameW = fetch_buffer(pcs, len))) return FALSE; memcpy(intl->file_nameW, wstr, len); } else intl->file_nameW = wstr; } else { DWORD len = WideCharToMultiByte(CP_ACP, 0, wstr, -1, NULL, 0, NULL, NULL); if (!(intl->file_nameA = fetch_buffer(pcs, len))) return FALSE; WideCharToMultiByte(CP_ACP, 0, wstr, -1, intl->file_nameA, len, NULL, NULL); } return TRUE; } static BOOL get_line_from_function(struct module_pair* pair, struct symt_function* func, DWORD64 addr, PDWORD pdwDisplacement, struct internal_line_t* intl) { struct line_info* dli = NULL; struct line_info* found_dli = NULL; int i; for (i = vector_length(&func->vlines) - 1; i >= 0; i--) { dli = vector_at(&func->vlines, i); if (!dli->is_source_file) { if (found_dli || dli->u.address > addr) continue; intl->line_number = dli->line_number; intl->address = dli->u.address; intl->key = dli; found_dli = dli; continue; } if (found_dli) { BOOL ret; if (dbghelp_opt_native) { /* Return native file paths when using winedbg */ ret = internal_line_set_nameA(pair->pcs, intl, (char*)source_get(pair->effective, dli->u.source_file), FALSE); } else { WCHAR *dospath = wine_get_dos_file_name(source_get(pair->effective, dli->u.source_file)); ret = internal_line_set_nameW(pair->pcs, intl, dospath, TRUE); HeapFree( GetProcessHeap(), 0, dospath ); } if (ret) *pdwDisplacement = addr - found_dli->u.address; return ret; } } return FALSE; } /****************************************************************** * get_line_from_addr * * fills source file information from an address */ static BOOL get_line_from_addr(HANDLE hProcess, DWORD64 addr, PDWORD pdwDisplacement, struct internal_line_t* intl) { struct module_pair pair; struct symt_ht* symt; if (!module_init_pair(&pair, hProcess, addr)) return FALSE; if ((symt = symt_find_symbol_at(pair.effective, addr)) == NULL) return FALSE; if (symt->symt.tag != SymTagFunction && symt->symt.tag != SymTagInlineSite) return FALSE; return get_line_from_function(&pair, (struct symt_function*)symt, addr, pdwDisplacement, intl); } /*********************************************************************** * SymGetSymNext64 (DBGHELP.@) */ BOOL WINAPI SymGetSymNext64(HANDLE hProcess, PIMAGEHLP_SYMBOL64 Symbol) { /* algo: * get module from Symbol.Address * get index in module.addr_sorttab of Symbol.Address * increment index * if out of module bounds, move to next module in process address space */ FIXME("(%p, %p): stub\n", hProcess, Symbol); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } /*********************************************************************** * SymGetSymNext (DBGHELP.@) */ BOOL WINAPI SymGetSymNext(HANDLE hProcess, PIMAGEHLP_SYMBOL Symbol) { FIXME("(%p, %p): stub\n", hProcess, Symbol); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } /*********************************************************************** * SymGetSymPrev64 (DBGHELP.@) */ BOOL WINAPI SymGetSymPrev64(HANDLE hProcess, PIMAGEHLP_SYMBOL64 Symbol) { FIXME("(%p, %p): stub\n", hProcess, Symbol); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } /*********************************************************************** * SymGetSymPrev (DBGHELP.@) */ BOOL WINAPI SymGetSymPrev(HANDLE hProcess, PIMAGEHLP_SYMBOL Symbol) { FIXME("(%p, %p): stub\n", hProcess, Symbol); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } /****************************************************************** * SymGetLineFromAddr (DBGHELP.@) * */ BOOL WINAPI SymGetLineFromAddr(HANDLE hProcess, DWORD dwAddr, PDWORD pdwDisplacement, PIMAGEHLP_LINE Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!get_line_from_addr(hProcess, dwAddr, pdwDisplacement, &intl)) return FALSE; return internal_line_copy_toA32(&intl, Line); } /****************************************************************** * SymGetLineFromAddr64 (DBGHELP.@) * */ BOOL WINAPI SymGetLineFromAddr64(HANDLE hProcess, DWORD64 dwAddr, PDWORD pdwDisplacement, PIMAGEHLP_LINE64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!get_line_from_addr(hProcess, dwAddr, pdwDisplacement, &intl)) return FALSE; return internal_line_copy_toA64(&intl, Line); } /****************************************************************** * SymGetLineFromAddrW64 (DBGHELP.@) * */ BOOL WINAPI SymGetLineFromAddrW64(HANDLE hProcess, DWORD64 dwAddr, PDWORD pdwDisplacement, PIMAGEHLP_LINEW64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, TRUE); if (!get_line_from_addr(hProcess, dwAddr, pdwDisplacement, &intl)) return FALSE; return internal_line_copy_toW64(&intl, Line); } static BOOL symt_get_func_line_prev(HANDLE hProcess, struct internal_line_t* intl, void* key, DWORD64 addr) { struct module_pair pair; struct line_info* li; struct line_info* srcli; if (!module_init_pair(&pair, hProcess, addr)) return FALSE; if (key == NULL) return FALSE; li = key; while (!li->is_first) { li--; if (!li->is_source_file) { intl->line_number = li->line_number; intl->address = li->u.address; intl->key = li; /* search source file */ for (srcli = li; !srcli->is_source_file; srcli--); return internal_line_set_nameA(pair.pcs, intl, (char*)source_get(pair.effective, srcli->u.source_file), FALSE); } } SetLastError(ERROR_NO_MORE_ITEMS); /* FIXME */ return FALSE; } /****************************************************************** * SymGetLinePrev64 (DBGHELP.@) * */ BOOL WINAPI SymGetLinePrev64(HANDLE hProcess, PIMAGEHLP_LINE64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!symt_get_func_line_prev(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toA64(&intl, Line); } /****************************************************************** * SymGetLinePrev (DBGHELP.@) * */ BOOL WINAPI SymGetLinePrev(HANDLE hProcess, PIMAGEHLP_LINE Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!symt_get_func_line_prev(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toA32(&intl, Line); } /****************************************************************** * SymGetLinePrevW64 (DBGHELP.@) * */ BOOL WINAPI SymGetLinePrevW64(HANDLE hProcess, PIMAGEHLP_LINEW64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, TRUE); if (!symt_get_func_line_prev(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toW64(&intl, Line); } static BOOL symt_get_func_line_next(HANDLE hProcess, struct internal_line_t* intl, void* key, DWORD64 addr) { struct module_pair pair; struct line_info* li; struct line_info* srcli; if (key == NULL) return FALSE; if (!module_init_pair(&pair, hProcess, addr)) return FALSE; /* search current source file */ for (srcli = key; !srcli->is_source_file; srcli--); li = key; while (!li->is_last) { li++; if (!li->is_source_file) { intl->line_number = li->line_number; intl->address = li->u.address; intl->key = li; return internal_line_set_nameA(pair.pcs, intl, (char*)source_get(pair.effective, srcli->u.source_file), FALSE); } srcli = li; } SetLastError(ERROR_NO_MORE_ITEMS); /* FIXME */ return FALSE; } /****************************************************************** * SymGetLineNext64 (DBGHELP.@) * */ BOOL WINAPI SymGetLineNext64(HANDLE hProcess, PIMAGEHLP_LINE64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!symt_get_func_line_next(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toA64(&intl, Line); } /****************************************************************** * SymGetLineNext (DBGHELP.@) * */ BOOL WINAPI SymGetLineNext(HANDLE hProcess, PIMAGEHLP_LINE Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, FALSE); if (!symt_get_func_line_next(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toA32(&intl, Line); } /****************************************************************** * SymGetLineNextW64 (DBGHELP.@) * */ BOOL WINAPI SymGetLineNextW64(HANDLE hProcess, PIMAGEHLP_LINEW64 Line) { struct internal_line_t intl; TRACE("(%p %p)\n", hProcess, Line); if (Line->SizeOfStruct < sizeof(*Line)) return FALSE; init_internal_line(&intl, TRUE); if (!symt_get_func_line_next(hProcess, &intl, Line->Key, Line->Address)) return FALSE; return internal_line_copy_toW64(&intl, Line); } /*********************************************************************** * SymUnDName (DBGHELP.@) */ BOOL WINAPI SymUnDName(PIMAGEHLP_SYMBOL sym, PSTR UnDecName, DWORD UnDecNameLength) { return UnDecorateSymbolName(sym->Name, UnDecName, UnDecNameLength, UNDNAME_COMPLETE) != 0; } /*********************************************************************** * SymUnDName64 (DBGHELP.@) */ BOOL WINAPI SymUnDName64(PIMAGEHLP_SYMBOL64 sym, PSTR UnDecName, DWORD UnDecNameLength) { return UnDecorateSymbolName(sym->Name, UnDecName, UnDecNameLength, UNDNAME_COMPLETE) != 0; } /*********************************************************************** * UnDecorateSymbolName (DBGHELP.@) */ DWORD WINAPI UnDecorateSymbolName(const char *decorated_name, char *undecorated_name, DWORD undecorated_length, DWORD flags) { TRACE("(%s, %p, %ld, 0x%08lx)\n", debugstr_a(decorated_name), undecorated_name, undecorated_length, flags); if (!undecorated_name || !undecorated_length) return 0; if (!__unDName(undecorated_name, decorated_name, undecorated_length, malloc, free, flags)) return 0; return strlen(undecorated_name); } /*********************************************************************** * UnDecorateSymbolNameW (DBGHELP.@) */ DWORD WINAPI UnDecorateSymbolNameW(const WCHAR *decorated_name, WCHAR *undecorated_name, DWORD undecorated_length, DWORD flags) { char *buf, *ptr; int len, ret = 0; TRACE("(%s, %p, %ld, 0x%08lx)\n", debugstr_w(decorated_name), undecorated_name, undecorated_length, flags); if (!undecorated_name || !undecorated_length) return 0; len = WideCharToMultiByte(CP_ACP, 0, decorated_name, -1, NULL, 0, NULL, NULL); if ((buf = HeapAlloc(GetProcessHeap(), 0, len))) { WideCharToMultiByte(CP_ACP, 0, decorated_name, -1, buf, len, NULL, NULL); if ((ptr = __unDName(NULL, buf, 0, malloc, free, flags))) { MultiByteToWideChar(CP_ACP, 0, ptr, -1, undecorated_name, undecorated_length); undecorated_name[undecorated_length - 1] = 0; ret = lstrlenW(undecorated_name); free(ptr); } HeapFree(GetProcessHeap(), 0, buf); } return ret; } #define WILDCHAR(x) (-(x)) static int re_fetch_char(const WCHAR** re) { switch (**re) { case '\\': (*re)++; return *(*re)++; case '*': case '[': case '?': case '+': case '#': case ']': return WILDCHAR(*(*re)++); default: return *(*re)++; } } static inline int re_match_char(WCHAR ch1, WCHAR ch2, BOOL _case) { return _case ? ch1 - ch2 : towupper(ch1) - towupper(ch2); } static const WCHAR* re_match_one(const WCHAR* string, const WCHAR* elt, BOOL _case) { int ch1, prev = 0; unsigned state = 0; switch (ch1 = re_fetch_char(&elt)) { default: return (ch1 >= 0 && re_match_char(*string, ch1, _case) == 0) ? ++string : NULL; case WILDCHAR('?'): return *string ? ++string : NULL; case WILDCHAR('*'): assert(0); case WILDCHAR('['): break; } for (;;) { ch1 = re_fetch_char(&elt); if (ch1 == WILDCHAR(']')) return NULL; if (state == 1 && ch1 == '-') state = 2; else { if (re_match_char(*string, ch1, _case) == 0) return ++string; switch (state) { case 0: state = 1; prev = ch1; break; case 1: state = 0; break; case 2: if (prev >= 0 && ch1 >= 0 && re_match_char(prev, *string, _case) <= 0 && re_match_char(*string, ch1, _case) <= 0) return ++string; state = 0; break; } } } } /****************************************************************** * re_match_multi * * match a substring of *pstring according to *pre regular expression * pstring and pre are only updated in case of successful match */ static BOOL re_match_multi(const WCHAR** pstring, const WCHAR** pre, BOOL _case) { const WCHAR* re_end = *pre; const WCHAR* string_end = *pstring; const WCHAR* re_beg; const WCHAR* string_beg; const WCHAR* next; int ch; while (*re_end && *string_end) { string_beg = string_end; re_beg = re_end; switch (ch = re_fetch_char(&re_end)) { case WILDCHAR(']'): case WILDCHAR('+'): case WILDCHAR('#'): return FALSE; case WILDCHAR('*'): /* transform '*' into '?#' */ re_beg = L"?"; goto closure; case WILDCHAR('['): do { if (!(ch = re_fetch_char(&re_end))) return FALSE; } while (ch != WILDCHAR(']')); /* fall through */ case WILDCHAR('?'): default: break; } switch (*re_end) { case '+': if (!(next = re_match_one(string_end, re_beg, _case))) return FALSE; string_beg++; /* fall through */ case '#': re_end++; closure: while ((next = re_match_one(string_end, re_beg, _case))) string_end = next; for ( ; string_end >= string_beg; string_end--) { if (re_match_multi(&string_end, &re_end, _case)) goto found; } return FALSE; default: if (!(next = re_match_one(string_end, re_beg, _case))) return FALSE; string_end = next; } } if (*re_end || *string_end) return FALSE; found: *pre = re_end; *pstring = string_end; return TRUE; } /****************************************************************** * SymMatchStringA (DBGHELP.@) * */ BOOL WINAPI SymMatchStringA(PCSTR string, PCSTR re, BOOL _case) { WCHAR* strW; WCHAR* reW; BOOL ret = FALSE; DWORD sz; if (!string || !re) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } TRACE("%s %s %c\n", string, re, _case ? 'Y' : 'N'); sz = MultiByteToWideChar(CP_ACP, 0, string, -1, NULL, 0); if ((strW = HeapAlloc(GetProcessHeap(), 0, sz * sizeof(WCHAR)))) MultiByteToWideChar(CP_ACP, 0, string, -1, strW, sz); sz = MultiByteToWideChar(CP_ACP, 0, re, -1, NULL, 0); if ((reW = HeapAlloc(GetProcessHeap(), 0, sz * sizeof(WCHAR)))) MultiByteToWideChar(CP_ACP, 0, re, -1, reW, sz); if (strW && reW) ret = SymMatchStringW(strW, reW, _case); HeapFree(GetProcessHeap(), 0, strW); HeapFree(GetProcessHeap(), 0, reW); return ret; } /****************************************************************** * SymMatchStringW (DBGHELP.@) * */ BOOL WINAPI SymMatchStringW(PCWSTR string, PCWSTR re, BOOL _case) { TRACE("%s %s %c\n", debugstr_w(string), debugstr_w(re), _case ? 'Y' : 'N'); if (!string || !re) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } return re_match_multi(&string, &re, _case); } static inline BOOL doSymSearch(HANDLE hProcess, ULONG64 BaseOfDll, DWORD Index, DWORD SymTag, PCWSTR Mask, DWORD64 Address, PSYM_ENUMERATESYMBOLS_CALLBACK EnumSymbolsCallback, PVOID UserContext, DWORD Options) { struct sym_enum se; if (Options != SYMSEARCH_GLOBALSONLY) { FIXME("Unsupported searching with options (%lx)\n", Options); SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } se.cb = EnumSymbolsCallback; se.user = UserContext; se.index = Index; se.tag = SymTag; se.addr = Address; se.sym_info = (PSYMBOL_INFO)se.buffer; return sym_enum(hProcess, BaseOfDll, Mask, &se); } /****************************************************************** * SymSearch (DBGHELP.@) */ BOOL WINAPI SymSearch(HANDLE hProcess, ULONG64 BaseOfDll, DWORD Index, DWORD SymTag, PCSTR Mask, DWORD64 Address, PSYM_ENUMERATESYMBOLS_CALLBACK EnumSymbolsCallback, PVOID UserContext, DWORD Options) { LPWSTR maskW = NULL; BOOLEAN ret; TRACE("(%p %s %lu %lu %s %s %p %p %lx)\n", hProcess, wine_dbgstr_longlong(BaseOfDll), Index, SymTag, Mask, wine_dbgstr_longlong(Address), EnumSymbolsCallback, UserContext, Options); if (Mask) { DWORD sz = MultiByteToWideChar(CP_ACP, 0, Mask, -1, NULL, 0); if (!(maskW = HeapAlloc(GetProcessHeap(), 0, sz * sizeof(WCHAR)))) return FALSE; MultiByteToWideChar(CP_ACP, 0, Mask, -1, maskW, sz); } ret = doSymSearch(hProcess, BaseOfDll, Index, SymTag, maskW, Address, EnumSymbolsCallback, UserContext, Options); HeapFree(GetProcessHeap(), 0, maskW); return ret; } /****************************************************************** * SymSearchW (DBGHELP.@) */ BOOL WINAPI SymSearchW(HANDLE hProcess, ULONG64 BaseOfDll, DWORD Index, DWORD SymTag, PCWSTR Mask, DWORD64 Address, PSYM_ENUMERATESYMBOLS_CALLBACKW EnumSymbolsCallback, PVOID UserContext, DWORD Options) { struct sym_enumW sew; TRACE("(%p %s %lu %lu %s %s %p %p %lx)\n", hProcess, wine_dbgstr_longlong(BaseOfDll), Index, SymTag, debugstr_w(Mask), wine_dbgstr_longlong(Address), EnumSymbolsCallback, UserContext, Options); sew.ctx = UserContext; sew.cb = EnumSymbolsCallback; sew.sym_info = (PSYMBOL_INFOW)sew.buffer; return doSymSearch(hProcess, BaseOfDll, Index, SymTag, Mask, Address, sym_enumW, &sew, Options); } /****************************************************************** * SymAddSymbol (DBGHELP.@) * */ BOOL WINAPI SymAddSymbol(HANDLE hProcess, ULONG64 BaseOfDll, PCSTR name, DWORD64 addr, DWORD size, DWORD flags) { struct module_pair pair; TRACE("(%p %s %s %lu)\n", hProcess, wine_dbgstr_a(name), wine_dbgstr_longlong(addr), size); if (!module_init_pair(&pair, hProcess, BaseOfDll)) return FALSE; return symt_new_custom(pair.effective, name, addr, size) != NULL; } /****************************************************************** * SymAddSymbolW (DBGHELP.@) * */ BOOL WINAPI SymAddSymbolW(HANDLE hProcess, ULONG64 BaseOfDll, PCWSTR nameW, DWORD64 addr, DWORD size, DWORD flags) { char name[MAX_SYM_NAME]; TRACE("(%p %s %s %lu)\n", hProcess, wine_dbgstr_w(nameW), wine_dbgstr_longlong(addr), size); WideCharToMultiByte(CP_ACP, 0, nameW, -1, name, ARRAY_SIZE(name), NULL, NULL); return SymAddSymbol(hProcess, BaseOfDll, name, addr, size, flags); } /****************************************************************** * SymEnumLines (DBGHELP.@) * */ BOOL WINAPI SymEnumLines(HANDLE hProcess, ULONG64 base, PCSTR compiland, PCSTR srcfile, PSYM_ENUMLINES_CALLBACK cb, PVOID user) { struct module_pair pair; struct hash_table_iter hti; struct symt_ht* sym; WCHAR* srcmask; struct line_info* dli; void* ptr; SRCCODEINFO sci; const char* file; if (!cb) return FALSE; if (!(dbghelp_options & SYMOPT_LOAD_LINES)) return TRUE; if (!module_init_pair(&pair, hProcess, base)) return FALSE; if (compiland) FIXME("Unsupported yet (filtering on compiland %s)\n", compiland); if (!(srcmask = file_regex(srcfile))) return FALSE; sci.SizeOfStruct = sizeof(sci); sci.ModBase = base; hash_table_iter_init(&pair.effective->ht_symbols, &hti, NULL); while ((ptr = hash_table_iter_up(&hti))) { unsigned int i; sym = CONTAINING_RECORD(ptr, struct symt_ht, hash_elt); if (sym->symt.tag != SymTagFunction) continue; sci.FileName[0] = '\0'; for (i=0; ivlines); i++) { dli = vector_at(&((struct symt_function*)sym)->vlines, i); if (dli->is_source_file) { file = source_get(pair.effective, dli->u.source_file); if (!file) sci.FileName[0] = '\0'; else { DWORD sz = MultiByteToWideChar(CP_ACP, 0, file, -1, NULL, 0); WCHAR* fileW; if ((fileW = HeapAlloc(GetProcessHeap(), 0, sz * sizeof(WCHAR)))) MultiByteToWideChar(CP_ACP, 0, file, -1, fileW, sz); if (SymMatchStringW(fileW, srcmask, FALSE)) strcpy(sci.FileName, file); else sci.FileName[0] = '\0'; HeapFree(GetProcessHeap(), 0, fileW); } } else if (sci.FileName[0]) { sci.Key = dli; sci.Obj[0] = '\0'; /* FIXME */ sci.LineNumber = dli->line_number; sci.Address = dli->u.address; if (!cb(&sci, user)) break; } } } HeapFree(GetProcessHeap(), 0, srcmask); return TRUE; } BOOL WINAPI SymGetLineFromName(HANDLE hProcess, PCSTR ModuleName, PCSTR FileName, DWORD dwLineNumber, PLONG plDisplacement, PIMAGEHLP_LINE Line) { FIXME("(%p) (%s, %s, %ld %p %p): stub\n", hProcess, ModuleName, FileName, dwLineNumber, plDisplacement, Line); return FALSE; } BOOL WINAPI SymGetLineFromName64(HANDLE hProcess, PCSTR ModuleName, PCSTR FileName, DWORD dwLineNumber, PLONG lpDisplacement, PIMAGEHLP_LINE64 Line) { FIXME("(%p) (%s, %s, %ld %p %p): stub\n", hProcess, ModuleName, FileName, dwLineNumber, lpDisplacement, Line); return FALSE; } BOOL WINAPI SymGetLineFromNameW64(HANDLE hProcess, PCWSTR ModuleName, PCWSTR FileName, DWORD dwLineNumber, PLONG plDisplacement, PIMAGEHLP_LINEW64 Line) { FIXME("(%p) (%s, %s, %ld %p %p): stub\n", hProcess, debugstr_w(ModuleName), debugstr_w(FileName), dwLineNumber, plDisplacement, Line); return FALSE; } /****************************************************************** * SymFromIndex (DBGHELP.@) * */ BOOL WINAPI SymFromIndex(HANDLE hProcess, ULONG64 BaseOfDll, DWORD index, PSYMBOL_INFO symbol) { FIXME("hProcess = %p, BaseOfDll = %s, index = %ld, symbol = %p\n", hProcess, wine_dbgstr_longlong(BaseOfDll), index, symbol); return FALSE; } /****************************************************************** * SymFromIndexW (DBGHELP.@) * */ BOOL WINAPI SymFromIndexW(HANDLE hProcess, ULONG64 BaseOfDll, DWORD index, PSYMBOL_INFOW symbol) { FIXME("hProcess = %p, BaseOfDll = %s, index = %ld, symbol = %p\n", hProcess, wine_dbgstr_longlong(BaseOfDll), index, symbol); return FALSE; } /****************************************************************** * SymSetHomeDirectory (DBGHELP.@) * */ PCHAR WINAPI SymSetHomeDirectory(HANDLE hProcess, PCSTR dir) { FIXME("(%p, %s): stub\n", hProcess, dir); return NULL; } /****************************************************************** * SymSetHomeDirectoryW (DBGHELP.@) * */ PWSTR WINAPI SymSetHomeDirectoryW(HANDLE hProcess, PCWSTR dir) { FIXME("(%p, %s): stub\n", hProcess, debugstr_w(dir)); return NULL; } /****************************************************************** * SymFromInlineContext (DBGHELP.@) * */ BOOL WINAPI SymFromInlineContext(HANDLE hProcess, DWORD64 addr, ULONG inline_ctx, PDWORD64 disp, PSYMBOL_INFO si) { struct module_pair pair; struct symt_inlinesite* inlined; TRACE("(%p, %#I64x, 0x%lx, %p, %p)\n", hProcess, addr, inline_ctx, disp, si); switch (IFC_MODE(inline_ctx)) { case IFC_MODE_IGNORE: case IFC_MODE_REGULAR: return SymFromAddr(hProcess, addr, disp, si); case IFC_MODE_INLINE: if (!module_init_pair(&pair, hProcess, addr)) return FALSE; inlined = symt_find_inlined_site(pair.effective, addr, inline_ctx); if (inlined) { symt_fill_sym_info(&pair, NULL, &inlined->func.symt, si); *disp = addr - inlined->func.address; return TRUE; } /* fall through */ default: SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } } /****************************************************************** * SymFromInlineContextW (DBGHELP.@) * */ BOOL WINAPI SymFromInlineContextW(HANDLE hProcess, DWORD64 addr, ULONG inline_ctx, PDWORD64 disp, PSYMBOL_INFOW siW) { PSYMBOL_INFO si; unsigned len; BOOL ret; TRACE("(%p, %#I64x, 0x%lx, %p, %p)\n", hProcess, addr, inline_ctx, disp, siW); len = sizeof(*si) + siW->MaxNameLen * sizeof(WCHAR); si = HeapAlloc(GetProcessHeap(), 0, len); if (!si) return FALSE; si->SizeOfStruct = sizeof(*si); si->MaxNameLen = siW->MaxNameLen; if ((ret = SymFromInlineContext(hProcess, addr, inline_ctx, disp, si))) { copy_symbolW(siW, si); } HeapFree(GetProcessHeap(), 0, si); return ret; } static BOOL get_line_from_inline_context(HANDLE hProcess, DWORD64 addr, ULONG inline_ctx, DWORD64 mod_addr, PDWORD disp, struct internal_line_t* intl) { struct module_pair pair; struct symt_inlinesite* inlined; if (!module_init_pair(&pair, hProcess, mod_addr ? mod_addr : addr)) return FALSE; switch (IFC_MODE(inline_ctx)) { case IFC_MODE_INLINE: inlined = symt_find_inlined_site(pair.effective, addr, inline_ctx); if (inlined && get_line_from_function(&pair, &inlined->func, addr, disp, intl)) return TRUE; /* fall through: check if we can find line info at top function level */ case IFC_MODE_IGNORE: case IFC_MODE_REGULAR: return get_line_from_addr(hProcess, addr, disp, intl); default: SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } } /****************************************************************** * SymGetLineFromInlineContext (DBGHELP.@) * */ BOOL WINAPI SymGetLineFromInlineContext(HANDLE hProcess, DWORD64 addr, ULONG inline_ctx, DWORD64 mod_addr, PDWORD disp, PIMAGEHLP_LINE64 line) { struct internal_line_t intl; TRACE("(%p, %#I64x, 0x%lx, %#I64x, %p, %p)\n", hProcess, addr, inline_ctx, mod_addr, disp, line); if (line->SizeOfStruct < sizeof(*line)) return FALSE; init_internal_line(&intl, FALSE); if (!get_line_from_inline_context(hProcess, addr, inline_ctx, mod_addr, disp, &intl)) return FALSE; return internal_line_copy_toA64(&intl, line); } /****************************************************************** * SymGetLineFromInlineContextW (DBGHELP.@) * */ BOOL WINAPI SymGetLineFromInlineContextW(HANDLE hProcess, DWORD64 addr, ULONG inline_ctx, DWORD64 mod_addr, PDWORD disp, PIMAGEHLP_LINEW64 line) { struct internal_line_t intl; TRACE("(%p, %#I64x, 0x%lx, %#I64x, %p, %p)\n", hProcess, addr, inline_ctx, mod_addr, disp, line); if (line->SizeOfStruct < sizeof(*line)) return FALSE; init_internal_line(&intl, TRUE); if (!get_line_from_inline_context(hProcess, addr, inline_ctx, mod_addr, disp, &intl)) return FALSE; return internal_line_copy_toW64(&intl, line); }