Added GetState, GetManagedProperties, CreateNetwork methods to WiFiService.
[chromium-blink-merge.git] / sandbox / win / src / sandbox_nt_util.cc
blob613d4859dd7488fe77bdec3707fc79cdb6e53a43
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "sandbox/win/src/sandbox_nt_util.h"
7 #include "base/win/pe_image.h"
8 #include "sandbox/win/src/sandbox_factory.h"
9 #include "sandbox/win/src/target_services.h"
11 namespace sandbox {
13 // This is the list of all imported symbols from ntdll.dll.
14 SANDBOX_INTERCEPT NtExports g_nt;
16 } // namespace sandbox
18 namespace {
20 #if defined(_WIN64)
21 void* AllocateNearTo(void* source, size_t size) {
22 using sandbox::g_nt;
24 // Start with 1 GB above the source.
25 const size_t kOneGB = 0x40000000;
26 void* base = reinterpret_cast<char*>(source) + kOneGB;
27 SIZE_T actual_size = size;
28 ULONG_PTR zero_bits = 0; // Not the correct type if used.
29 ULONG type = MEM_RESERVE;
31 NTSTATUS ret;
32 int attempts = 0;
33 for (; attempts < 41; attempts++) {
34 ret = g_nt.AllocateVirtualMemory(NtCurrentProcess, &base, zero_bits,
35 &actual_size, type, PAGE_READWRITE);
36 if (NT_SUCCESS(ret)) {
37 if (base < source ||
38 base >= reinterpret_cast<char*>(source) + 4 * kOneGB) {
39 // We won't be able to patch this dll.
40 VERIFY_SUCCESS(g_nt.FreeVirtualMemory(NtCurrentProcess, &base, &size,
41 MEM_RELEASE));
42 return NULL;
44 break;
47 if (attempts == 30) {
48 // Try the first GB.
49 base = reinterpret_cast<char*>(source);
50 } else if (attempts == 40) {
51 // Try the highest available address.
52 base = NULL;
53 type |= MEM_TOP_DOWN;
56 // Try 100 MB higher.
57 base = reinterpret_cast<char*>(base) + 100 * 0x100000;
60 if (attempts == 41)
61 return NULL;
63 ret = g_nt.AllocateVirtualMemory(NtCurrentProcess, &base, zero_bits,
64 &actual_size, MEM_COMMIT, PAGE_READWRITE);
66 if (!NT_SUCCESS(ret)) {
67 VERIFY_SUCCESS(g_nt.FreeVirtualMemory(NtCurrentProcess, &base, &size,
68 MEM_RELEASE));
69 base = NULL;
72 return base;
74 #else // defined(_WIN64).
75 void* AllocateNearTo(void* source, size_t size) {
76 using sandbox::g_nt;
77 UNREFERENCED_PARAMETER(source);
79 // In 32-bit processes allocations below 512k are predictable, so mark
80 // anything in that range as reserved and retry until we get a good address.
81 const void* const kMinAddress = reinterpret_cast<void*>(512 * 1024);
82 NTSTATUS ret;
83 SIZE_T actual_size;
84 void* base;
85 do {
86 base = NULL;
87 actual_size = 64 * 1024;
88 ret = g_nt.AllocateVirtualMemory(NtCurrentProcess, &base, 0, &actual_size,
89 MEM_RESERVE, PAGE_NOACCESS);
90 if (!NT_SUCCESS(ret))
91 return NULL;
92 } while (base < kMinAddress);
94 actual_size = size;
95 ret = g_nt.AllocateVirtualMemory(NtCurrentProcess, &base, 0, &actual_size,
96 MEM_COMMIT, PAGE_READWRITE);
97 if (!NT_SUCCESS(ret))
98 return NULL;
99 return base;
101 #endif // defined(_WIN64).
103 } // namespace.
105 namespace sandbox {
107 // Handle for our private heap.
108 void* g_heap = NULL;
110 SANDBOX_INTERCEPT HANDLE g_shared_section;
111 SANDBOX_INTERCEPT size_t g_shared_IPC_size = 0;
112 SANDBOX_INTERCEPT size_t g_shared_policy_size = 0;
114 void* volatile g_shared_policy_memory = NULL;
115 void* volatile g_shared_IPC_memory = NULL;
117 // Both the IPC and the policy share a single region of memory in which the IPC
118 // memory is first and the policy memory is last.
119 bool MapGlobalMemory() {
120 if (NULL == g_shared_IPC_memory) {
121 void* memory = NULL;
122 SIZE_T size = 0;
123 // Map the entire shared section from the start.
124 NTSTATUS ret = g_nt.MapViewOfSection(g_shared_section, NtCurrentProcess,
125 &memory, 0, 0, NULL, &size, ViewUnmap,
126 0, PAGE_READWRITE);
128 if (!NT_SUCCESS(ret) || NULL == memory) {
129 NOTREACHED_NT();
130 return false;
133 if (NULL != _InterlockedCompareExchangePointer(&g_shared_IPC_memory,
134 memory, NULL)) {
135 // Somebody beat us to the memory setup.
136 ret = g_nt.UnmapViewOfSection(NtCurrentProcess, memory);
137 VERIFY_SUCCESS(ret);
139 DCHECK_NT(g_shared_IPC_size > 0);
140 g_shared_policy_memory = reinterpret_cast<char*>(g_shared_IPC_memory)
141 + g_shared_IPC_size;
143 DCHECK_NT(g_shared_policy_memory);
144 DCHECK_NT(g_shared_policy_size > 0);
145 return true;
148 void* GetGlobalIPCMemory() {
149 if (!MapGlobalMemory())
150 return NULL;
151 return g_shared_IPC_memory;
154 void* GetGlobalPolicyMemory() {
155 if (!MapGlobalMemory())
156 return NULL;
157 return g_shared_policy_memory;
160 bool InitHeap() {
161 if (!g_heap) {
162 // Create a new heap using default values for everything.
163 void* heap = g_nt.RtlCreateHeap(HEAP_GROWABLE, NULL, 0, 0, NULL, NULL);
164 if (!heap)
165 return false;
167 if (NULL != _InterlockedCompareExchangePointer(&g_heap, heap, NULL)) {
168 // Somebody beat us to the memory setup.
169 g_nt.RtlDestroyHeap(heap);
172 return (g_heap != NULL);
175 // Physically reads or writes from memory to verify that (at this time), it is
176 // valid. Returns a dummy value.
177 int TouchMemory(void* buffer, size_t size_bytes, RequiredAccess intent) {
178 const int kPageSize = 4096;
179 int dummy = 0;
180 char* start = reinterpret_cast<char*>(buffer);
181 char* end = start + size_bytes - 1;
183 if (WRITE == intent) {
184 for (; start < end; start += kPageSize) {
185 *start = 0;
187 *end = 0;
188 } else {
189 for (; start < end; start += kPageSize) {
190 dummy += *start;
192 dummy += *end;
195 return dummy;
198 bool ValidParameter(void* buffer, size_t size, RequiredAccess intent) {
199 DCHECK_NT(size);
200 __try {
201 TouchMemory(buffer, size, intent);
202 } __except(EXCEPTION_EXECUTE_HANDLER) {
203 return false;
205 return true;
208 NTSTATUS CopyData(void* destination, const void* source, size_t bytes) {
209 NTSTATUS ret = STATUS_SUCCESS;
210 __try {
211 g_nt.memcpy(destination, source, bytes);
212 } __except(EXCEPTION_EXECUTE_HANDLER) {
213 ret = GetExceptionCode();
215 return ret;
218 // Hacky code... replace with AllocAndCopyObjectAttributes.
219 NTSTATUS AllocAndCopyName(const OBJECT_ATTRIBUTES* in_object,
220 wchar_t** out_name, uint32* attributes,
221 HANDLE* root) {
222 if (!InitHeap())
223 return STATUS_NO_MEMORY;
225 DCHECK_NT(out_name);
226 *out_name = NULL;
227 NTSTATUS ret = STATUS_UNSUCCESSFUL;
228 __try {
229 do {
230 if (in_object->RootDirectory != static_cast<HANDLE>(0) && !root)
231 break;
232 if (NULL == in_object->ObjectName)
233 break;
234 if (NULL == in_object->ObjectName->Buffer)
235 break;
237 size_t size = in_object->ObjectName->Length + sizeof(wchar_t);
238 *out_name = new(NT_ALLOC) wchar_t[size/sizeof(wchar_t)];
239 if (NULL == *out_name)
240 break;
242 ret = CopyData(*out_name, in_object->ObjectName->Buffer,
243 size - sizeof(wchar_t));
244 if (!NT_SUCCESS(ret))
245 break;
247 (*out_name)[size / sizeof(wchar_t) - 1] = L'\0';
249 if (attributes)
250 *attributes = in_object->Attributes;
252 if (root)
253 *root = in_object->RootDirectory;
254 ret = STATUS_SUCCESS;
255 } while (false);
256 } __except(EXCEPTION_EXECUTE_HANDLER) {
257 ret = GetExceptionCode();
260 if (!NT_SUCCESS(ret) && *out_name) {
261 operator delete(*out_name, NT_ALLOC);
262 *out_name = NULL;
265 return ret;
268 NTSTATUS GetProcessId(HANDLE process, ULONG *process_id) {
269 PROCESS_BASIC_INFORMATION proc_info;
270 ULONG bytes_returned;
272 NTSTATUS ret = g_nt.QueryInformationProcess(process, ProcessBasicInformation,
273 &proc_info, sizeof(proc_info),
274 &bytes_returned);
275 if (!NT_SUCCESS(ret) || sizeof(proc_info) != bytes_returned)
276 return ret;
278 *process_id = proc_info.UniqueProcessId;
279 return STATUS_SUCCESS;
282 bool IsSameProcess(HANDLE process) {
283 if (NtCurrentProcess == process)
284 return true;
286 static ULONG s_process_id = 0;
288 if (!s_process_id) {
289 NTSTATUS ret = GetProcessId(NtCurrentProcess, &s_process_id);
290 if (!NT_SUCCESS(ret))
291 return false;
294 ULONG process_id;
295 NTSTATUS ret = GetProcessId(process, &process_id);
296 if (!NT_SUCCESS(ret))
297 return false;
299 return (process_id == s_process_id);
302 bool IsValidImageSection(HANDLE section, PVOID *base, PLARGE_INTEGER offset,
303 PSIZE_T view_size) {
304 if (!section || !base || !view_size || offset)
305 return false;
307 HANDLE query_section;
309 NTSTATUS ret = g_nt.DuplicateObject(NtCurrentProcess, section,
310 NtCurrentProcess, &query_section,
311 SECTION_QUERY, 0, 0);
312 if (!NT_SUCCESS(ret))
313 return false;
315 SECTION_BASIC_INFORMATION basic_info;
316 SIZE_T bytes_returned;
317 ret = g_nt.QuerySection(query_section, SectionBasicInformation, &basic_info,
318 sizeof(basic_info), &bytes_returned);
320 VERIFY_SUCCESS(g_nt.Close(query_section));
322 if (!NT_SUCCESS(ret) || sizeof(basic_info) != bytes_returned)
323 return false;
325 if (!(basic_info.Attributes & SEC_IMAGE))
326 return false;
328 return true;
331 UNICODE_STRING* AnsiToUnicode(const char* string) {
332 ANSI_STRING ansi_string;
333 ansi_string.Length = static_cast<USHORT>(g_nt.strlen(string));
334 ansi_string.MaximumLength = ansi_string.Length + 1;
335 ansi_string.Buffer = const_cast<char*>(string);
337 if (ansi_string.Length > ansi_string.MaximumLength)
338 return NULL;
340 size_t name_bytes = ansi_string.MaximumLength * sizeof(wchar_t) +
341 sizeof(UNICODE_STRING);
343 UNICODE_STRING* out_string = reinterpret_cast<UNICODE_STRING*>(
344 new(NT_ALLOC) char[name_bytes]);
345 if (!out_string)
346 return NULL;
348 out_string->MaximumLength = ansi_string.MaximumLength * sizeof(wchar_t);
349 out_string->Buffer = reinterpret_cast<wchar_t*>(&out_string[1]);
351 BOOLEAN alloc_destination = FALSE;
352 NTSTATUS ret = g_nt.RtlAnsiStringToUnicodeString(out_string, &ansi_string,
353 alloc_destination);
354 DCHECK_NT(STATUS_BUFFER_OVERFLOW != ret);
355 if (!NT_SUCCESS(ret)) {
356 operator delete(out_string, NT_ALLOC);
357 return NULL;
360 return out_string;
363 UNICODE_STRING* GetImageInfoFromModule(HMODULE module, uint32* flags) {
364 UNICODE_STRING* out_name = NULL;
365 __try {
366 do {
367 *flags = 0;
368 base::win::PEImage pe(module);
370 if (!pe.VerifyMagic())
371 break;
372 *flags |= MODULE_IS_PE_IMAGE;
374 PIMAGE_EXPORT_DIRECTORY exports = pe.GetExportDirectory();
375 if (exports) {
376 char* name = reinterpret_cast<char*>(pe.RVAToAddr(exports->Name));
377 out_name = AnsiToUnicode(name);
380 PIMAGE_NT_HEADERS headers = pe.GetNTHeaders();
381 if (headers) {
382 if (headers->OptionalHeader.AddressOfEntryPoint)
383 *flags |= MODULE_HAS_ENTRY_POINT;
384 if (headers->OptionalHeader.SizeOfCode)
385 *flags |= MODULE_HAS_CODE;
387 } while (false);
388 } __except(EXCEPTION_EXECUTE_HANDLER) {
391 return out_name;
394 UNICODE_STRING* GetBackingFilePath(PVOID address) {
395 // We'll start with something close to max_path charactes for the name.
396 ULONG buffer_bytes = MAX_PATH * 2;
398 for (;;) {
399 MEMORY_SECTION_NAME* section_name = reinterpret_cast<MEMORY_SECTION_NAME*>(
400 new(NT_ALLOC) char[buffer_bytes]);
402 if (!section_name)
403 return NULL;
405 ULONG returned_bytes;
406 NTSTATUS ret = g_nt.QueryVirtualMemory(NtCurrentProcess, address,
407 MemorySectionName, section_name,
408 buffer_bytes, &returned_bytes);
410 if (STATUS_BUFFER_OVERFLOW == ret) {
411 // Retry the call with the given buffer size.
412 operator delete(section_name, NT_ALLOC);
413 section_name = NULL;
414 buffer_bytes = returned_bytes;
415 continue;
417 if (!NT_SUCCESS(ret)) {
418 operator delete(section_name, NT_ALLOC);
419 return NULL;
422 return reinterpret_cast<UNICODE_STRING*>(section_name);
426 UNICODE_STRING* ExtractModuleName(const UNICODE_STRING* module_path) {
427 if ((!module_path) || (!module_path->Buffer))
428 return NULL;
430 wchar_t* sep = NULL;
431 int start_pos = module_path->Length / sizeof(wchar_t) - 1;
432 int ix = start_pos;
434 for (; ix >= 0; --ix) {
435 if (module_path->Buffer[ix] == L'\\') {
436 sep = &module_path->Buffer[ix];
437 break;
441 // Ends with path separator. Not a valid module name.
442 if ((ix == start_pos) && sep)
443 return NULL;
445 // No path separator found. Use the entire name.
446 if (!sep) {
447 sep = &module_path->Buffer[-1];
450 // Add one to the size so we can null terminate the string.
451 size_t size_bytes = (start_pos - ix + 1) * sizeof(wchar_t);
453 // Based on the code above, size_bytes should always be small enough
454 // to make the static_cast below safe.
455 DCHECK_NT(kuint16max > size_bytes);
456 char* str_buffer = new(NT_ALLOC) char[size_bytes + sizeof(UNICODE_STRING)];
457 if (!str_buffer)
458 return NULL;
460 UNICODE_STRING* out_string = reinterpret_cast<UNICODE_STRING*>(str_buffer);
461 out_string->Buffer = reinterpret_cast<wchar_t*>(&out_string[1]);
462 out_string->Length = static_cast<USHORT>(size_bytes - sizeof(wchar_t));
463 out_string->MaximumLength = static_cast<USHORT>(size_bytes);
465 NTSTATUS ret = CopyData(out_string->Buffer, &sep[1], out_string->Length);
466 if (!NT_SUCCESS(ret)) {
467 operator delete(out_string, NT_ALLOC);
468 return NULL;
471 out_string->Buffer[out_string->Length / sizeof(wchar_t)] = L'\0';
472 return out_string;
475 NTSTATUS AutoProtectMemory::ChangeProtection(void* address, size_t bytes,
476 ULONG protect) {
477 DCHECK_NT(!changed_);
478 SIZE_T new_bytes = bytes;
479 NTSTATUS ret = g_nt.ProtectVirtualMemory(NtCurrentProcess, &address,
480 &new_bytes, protect, &old_protect_);
481 if (NT_SUCCESS(ret)) {
482 changed_ = true;
483 address_ = address;
484 bytes_ = new_bytes;
487 return ret;
490 NTSTATUS AutoProtectMemory::RevertProtection() {
491 if (!changed_)
492 return STATUS_SUCCESS;
494 DCHECK_NT(address_);
495 DCHECK_NT(bytes_);
497 SIZE_T new_bytes = bytes_;
498 NTSTATUS ret = g_nt.ProtectVirtualMemory(NtCurrentProcess, &address_,
499 &new_bytes, old_protect_,
500 &old_protect_);
501 DCHECK_NT(NT_SUCCESS(ret));
503 changed_ = false;
504 address_ = NULL;
505 bytes_ = 0;
506 old_protect_ = 0;
508 return ret;
511 bool IsSupportedRenameCall(FILE_RENAME_INFORMATION* file_info, DWORD length,
512 uint32 file_info_class) {
513 if (FileRenameInformation != file_info_class)
514 return false;
516 if (length < sizeof(FILE_RENAME_INFORMATION))
517 return false;
519 // Make sure file name length doesn't exceed the message length
520 if (length - offsetof(FILE_RENAME_INFORMATION, FileName) <
521 file_info->FileNameLength)
522 return false;
524 // We don't support a root directory.
525 if (file_info->RootDirectory)
526 return false;
528 // Check if it starts with \\??\\. We don't support relative paths.
529 if (file_info->FileNameLength < 4 || file_info->FileNameLength > kuint16max)
530 return false;
532 if (file_info->FileName[0] != L'\\' ||
533 file_info->FileName[1] != L'?' ||
534 file_info->FileName[2] != L'?' ||
535 file_info->FileName[3] != L'\\')
536 return false;
538 return true;
541 } // namespace sandbox
543 void* operator new(size_t size, sandbox::AllocationType type,
544 void* near_to) {
545 using namespace sandbox;
547 if (NT_ALLOC == type) {
548 if (!InitHeap())
549 return NULL;
551 // Use default flags for the allocation.
552 return g_nt.RtlAllocateHeap(sandbox::g_heap, 0, size);
553 } else if (NT_PAGE == type) {
554 return AllocateNearTo(near_to, size);
556 NOTREACHED_NT();
557 return NULL;
560 void operator delete(void* memory, sandbox::AllocationType type) {
561 using namespace sandbox;
563 if (NT_ALLOC == type) {
564 // Use default flags.
565 VERIFY(g_nt.RtlFreeHeap(sandbox::g_heap, 0, memory));
566 } else if (NT_PAGE == type) {
567 void* base = memory;
568 SIZE_T size = 0;
569 VERIFY_SUCCESS(g_nt.FreeVirtualMemory(NtCurrentProcess, &base, &size,
570 MEM_RELEASE));
571 } else {
572 NOTREACHED_NT();
576 void operator delete(void* memory, sandbox::AllocationType type,
577 void* near_to) {
578 UNREFERENCED_PARAMETER(near_to);
579 operator delete(memory, type);
582 void* __cdecl operator new(size_t size, void* buffer,
583 sandbox::AllocationType type) {
584 UNREFERENCED_PARAMETER(size);
585 UNREFERENCED_PARAMETER(type);
586 return buffer;
589 void __cdecl operator delete(void* memory, void* buffer,
590 sandbox::AllocationType type) {
591 UNREFERENCED_PARAMETER(memory);
592 UNREFERENCED_PARAMETER(buffer);
593 UNREFERENCED_PARAMETER(type);