sandbox/win/src/process_thread_dispatcher.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "sandbox/win/src/process_thread_dispatcher.h"

 #include "base/basictypes.h"
 #include "base/logging.h"
 #include "sandbox/win/src/crosscall_client.h"
 #include "sandbox/win/src/interception.h"
 #include "sandbox/win/src/interceptors.h"
 #include "sandbox/win/src/ipc_tags.h"
 #include "sandbox/win/src/policy_broker.h"
 #include "sandbox/win/src/policy_params.h"
 #include "sandbox/win/src/process_thread_interception.h"
 #include "sandbox/win/src/process_thread_policy.h"
 #include "sandbox/win/src/sandbox.h"

 namespace {

 // Extracts the application name from a command line.
 //
 // The application name is the first element of the command line. If
 // there is no quotes, the first element is delimited by the first space.
 // If there are quotes, the first element is delimited by the quotes.
 //
 // The create process call is smarter than us. It tries really hard to launch
 // the process even if the command line is wrong. For example:
 // "c:\program files\test param" will first try to launch c:\program.exe then
 // c:\program files\test.exe. We don't do that, we stop after at the first
 // space when there is no quotes.
 std::wstring GetPathFromCmdLine(const std::wstring &cmd_line) {
   std::wstring exe_name;
   // Check if it starts with '"'.
   if (cmd_line[0] == L'\"') {
     // Find the position of the second '"', this terminates the path.
     std::wstring::size_type pos = cmd_line.find(L'\"', 1);
     if (std::wstring::npos == pos)
       return cmd_line;
     exe_name = cmd_line.substr(1, pos - 1);
   } else {
     // There is no '"', that means that the appname is terminated at the
     // first space.
     std::wstring::size_type pos = cmd_line.find(L' ');
     if (std::wstring::npos == pos) {
       // There is no space, the cmd_line contains only the app_name
       exe_name = cmd_line;
     } else {
       exe_name = cmd_line.substr(0, pos);
     }
   }

   return exe_name;
 }

 // Returns true is the path in parameter is relative. False if it's
 // absolute.
 bool IsPathRelative(const std::wstring &path) {
   // A path is Relative if it's not a UNC path beginnning with \\ or a
   // path beginning with a drive. (i.e. X:\)
   if (path.find(L"\\\\") == 0 || path.find(L":\\") == 1)
     return false;
   return true;
 }

 // Converts a relative path to an absolute path.
 bool ConvertToAbsolutePath(const std::wstring& child_current_directory,
                            bool use_env_path, std::wstring *path) {
   wchar_t file_buffer[MAX_PATH];
   wchar_t *file_part = NULL;

   // Here we should start by looking at the path where the child application was
   // started. We don't have this information yet.
   DWORD result = 0;
   if (use_env_path) {
     // Try with the complete path
     result = ::SearchPath(NULL, path->c_str(), NULL, MAX_PATH, file_buffer,
                           &file_part);
   }

   if (0 == result) {
     // Try with the current directory of the child
     result = ::SearchPath(child_current_directory.c_str(), path->c_str(), NULL,
                           MAX_PATH, file_buffer, &file_part);
   }

   if (0 == result || result >= MAX_PATH)
     return false;

   *path = file_buffer;
   return true;
 }

 }  // namespace
 namespace sandbox {

 ThreadProcessDispatcher::ThreadProcessDispatcher(PolicyBase* policy_base)
     : policy_base_(policy_base) {
   static const IPCCall open_thread = {
     {IPC_NTOPENTHREAD_TAG, ULONG_TYPE, ULONG_TYPE},
     reinterpret_cast<CallbackGeneric>(
         &ThreadProcessDispatcher::NtOpenThread)
   };

   static const IPCCall open_process = {
     {IPC_NTOPENPROCESS_TAG, ULONG_TYPE, ULONG_TYPE},
     reinterpret_cast<CallbackGeneric>(
         &ThreadProcessDispatcher::NtOpenProcess)
   };

   static const IPCCall process_token = {
     {IPC_NTOPENPROCESSTOKEN_TAG, VOIDPTR_TYPE, ULONG_TYPE},
     reinterpret_cast<CallbackGeneric>(
         &ThreadProcessDispatcher::NtOpenProcessToken)
   };

   static const IPCCall process_tokenex = {
     {IPC_NTOPENPROCESSTOKENEX_TAG, VOIDPTR_TYPE, ULONG_TYPE, ULONG_TYPE},
     reinterpret_cast<CallbackGeneric>(
         &ThreadProcessDispatcher::NtOpenProcessTokenEx)
   };

   static const IPCCall create_params = {
     {IPC_CREATEPROCESSW_TAG, WCHAR_TYPE, WCHAR_TYPE, WCHAR_TYPE, INOUTPTR_TYPE},
     reinterpret_cast<CallbackGeneric>(
         &ThreadProcessDispatcher::CreateProcessW)
   };

   ipc_calls_.push_back(open_thread);
   ipc_calls_.push_back(open_process);
   ipc_calls_.push_back(process_token);
   ipc_calls_.push_back(process_tokenex);
   ipc_calls_.push_back(create_params);
 }

 bool ThreadProcessDispatcher::SetupService(InterceptionManager* manager,
                                            int service) {
   switch (service) {
     case IPC_NTOPENTHREAD_TAG:
     case IPC_NTOPENPROCESS_TAG:
     case IPC_NTOPENPROCESSTOKEN_TAG:
     case IPC_NTOPENPROCESSTOKENEX_TAG:
       // There is no explicit policy for these services.
       NOTREACHED();
       return false;

     case IPC_CREATEPROCESSW_TAG:
       return INTERCEPT_EAT(manager, kKerneldllName, CreateProcessW,
                            CREATE_PROCESSW_ID, 44) &&
              INTERCEPT_EAT(manager, L"kernel32.dll", CreateProcessA,
                            CREATE_PROCESSA_ID, 44);

     default:
       return false;
   }
 }

 bool ThreadProcessDispatcher::NtOpenThread(IPCInfo* ipc, DWORD desired_access,
                                            DWORD thread_id) {
   HANDLE handle;
   NTSTATUS ret = ProcessPolicy::OpenThreadAction(*ipc->client_info,
                                                  desired_access, thread_id,
                                                  &handle);
   ipc->return_info.nt_status = ret;
   ipc->return_info.handle = handle;
   return true;
 }

 bool ThreadProcessDispatcher::NtOpenProcess(IPCInfo* ipc, DWORD desired_access,
                                             DWORD process_id) {
   HANDLE handle;
   NTSTATUS ret = ProcessPolicy::OpenProcessAction(*ipc->client_info,
                                                   desired_access, process_id,
                                                   &handle);
   ipc->return_info.nt_status = ret;
   ipc->return_info.handle = handle;
   return true;
 }

 bool ThreadProcessDispatcher::NtOpenProcessToken(IPCInfo* ipc, HANDLE process,
                                                  DWORD desired_access) {
   HANDLE handle;
   NTSTATUS ret = ProcessPolicy::OpenProcessTokenAction(*ipc->client_info,
                                                        process, desired_access,
                                                        &handle);
   ipc->return_info.nt_status = ret;
   ipc->return_info.handle = handle;
   return true;
 }

 bool ThreadProcessDispatcher::NtOpenProcessTokenEx(IPCInfo* ipc, HANDLE process,
                                                    DWORD desired_access,
                                                    DWORD attributes) {
   HANDLE handle;
   NTSTATUS ret = ProcessPolicy::OpenProcessTokenExAction(*ipc->client_info,
                                                          process,
                                                          desired_access,
                                                          attributes, &handle);
   ipc->return_info.nt_status = ret;
   ipc->return_info.handle = handle;
   return true;
 }

 bool ThreadProcessDispatcher::CreateProcessW(IPCInfo* ipc, std::wstring* name,
                                              std::wstring* cmd_line,
                                              std::wstring* cur_dir,
                                              CountedBuffer* info) {
   if (sizeof(PROCESS_INFORMATION) != info->Size())
     return false;

   // Check if there is an application name.
   std::wstring exe_name;
   if (!name->empty())
     exe_name = *name;
   else
     exe_name = GetPathFromCmdLine(*cmd_line);

   if (IsPathRelative(exe_name)) {
     if (!ConvertToAbsolutePath(*cur_dir, name->empty(), &exe_name)) {
       // Cannot find the path. Maybe the file does not exist.
       ipc->return_info.win32_result = ERROR_FILE_NOT_FOUND;
       return true;
     }
   }

   const wchar_t* const_exe_name = exe_name.c_str();
   CountedParameterSet<NameBased> params;
   params[NameBased::NAME] = ParamPickerMake(const_exe_name);

   EvalResult eval = policy_base_->EvalPolicy(IPC_CREATEPROCESSW_TAG,
                                              params.GetBase());

   PROCESS_INFORMATION* proc_info =
       reinterpret_cast<PROCESS_INFORMATION*>(info->Buffer());
   // Here we force the app_name to be the one we used for the policy lookup.
   // If our logic was wrong, at least we wont allow create a random process.
   DWORD ret = ProcessPolicy::CreateProcessWAction(eval, *ipc->client_info,
                                                   exe_name, *cmd_line,
                                                   proc_info);

   ipc->return_info.win32_result = ret;
   return true;
 }

 }  // namespace sandbox
	// Copyright (c) 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "sandbox/win/src/process_thread_dispatcher.h"

	#include "base/basictypes.h"
	#include "base/logging.h"
	#include "sandbox/win/src/crosscall_client.h"
	#include "sandbox/win/src/interception.h"
	#include "sandbox/win/src/interceptors.h"
	#include "sandbox/win/src/ipc_tags.h"
	#include "sandbox/win/src/policy_broker.h"
	#include "sandbox/win/src/policy_params.h"
	#include "sandbox/win/src/process_thread_interception.h"
	#include "sandbox/win/src/process_thread_policy.h"
	#include "sandbox/win/src/sandbox.h"

	namespace {

	// Extracts the application name from a command line.
	//
	// The application name is the first element of the command line. If
	// there is no quotes, the first element is delimited by the first space.
	// If there are quotes, the first element is delimited by the quotes.
	//
	// The create process call is smarter than us. It tries really hard to launch
	// the process even if the command line is wrong. For example:
	// "c:\program files\test param" will first try to launch c:\program.exe then
	// c:\program files\test.exe. We don't do that, we stop after at the first
	// space when there is no quotes.
	std::wstring GetPathFromCmdLine(const std::wstring &cmd_line) {
	std::wstring exe_name;
	// Check if it starts with '"'.
	if (cmd_line[0] == L'\"') {
	// Find the position of the second '"', this terminates the path.
	std::wstring::size_type pos = cmd_line.find(L'\"', 1);
	if (std::wstring::npos == pos)
	return cmd_line;
	exe_name = cmd_line.substr(1, pos - 1);
	} else {
	// There is no '"', that means that the appname is terminated at the
	// first space.
	std::wstring::size_type pos = cmd_line.find(L' ');
	if (std::wstring::npos == pos) {
	// There is no space, the cmd_line contains only the app_name
	exe_name = cmd_line;
	} else {
	exe_name = cmd_line.substr(0, pos);
	}
	}

	return exe_name;
	}

	// Returns true is the path in parameter is relative. False if it's
	// absolute.
	bool IsPathRelative(const std::wstring &path) {
	// A path is Relative if it's not a UNC path beginnning with \\ or a
	// path beginning with a drive. (i.e. X:\)
	if (path.find(L"\\\\") == 0 \|\| path.find(L":\\") == 1)
	return false;
	return true;
	}

	// Converts a relative path to an absolute path.
	bool ConvertToAbsolutePath(const std::wstring& child_current_directory,
	bool use_env_path, std::wstring *path) {
	wchar_t file_buffer[MAX_PATH];
	wchar_t *file_part = NULL;

	// Here we should start by looking at the path where the child application was
	// started. We don't have this information yet.
	DWORD result = 0;
	if (use_env_path) {
	// Try with the complete path
	result = ::SearchPath(NULL, path->c_str(), NULL, MAX_PATH, file_buffer,
	&file_part);
	}

	if (0 == result) {
	// Try with the current directory of the child
	result = ::SearchPath(child_current_directory.c_str(), path->c_str(), NULL,
	MAX_PATH, file_buffer, &file_part);
	}

	if (0 == result \|\| result >= MAX_PATH)
	return false;

	*path = file_buffer;
	return true;
	}

	} // namespace
	namespace sandbox {

	ThreadProcessDispatcher::ThreadProcessDispatcher(PolicyBase* policy_base)
	: policy_base_(policy_base) {
	static const IPCCall open_thread = {
	{IPC_NTOPENTHREAD_TAG, ULONG_TYPE, ULONG_TYPE},
	reinterpret_cast<CallbackGeneric>(
	&ThreadProcessDispatcher::NtOpenThread)
	};

	static const IPCCall open_process = {
	{IPC_NTOPENPROCESS_TAG, ULONG_TYPE, ULONG_TYPE},
	reinterpret_cast<CallbackGeneric>(
	&ThreadProcessDispatcher::NtOpenProcess)
	};

	static const IPCCall process_token = {
	{IPC_NTOPENPROCESSTOKEN_TAG, VOIDPTR_TYPE, ULONG_TYPE},
	reinterpret_cast<CallbackGeneric>(
	&ThreadProcessDispatcher::NtOpenProcessToken)
	};

	static const IPCCall process_tokenex = {
	{IPC_NTOPENPROCESSTOKENEX_TAG, VOIDPTR_TYPE, ULONG_TYPE, ULONG_TYPE},
	reinterpret_cast<CallbackGeneric>(
	&ThreadProcessDispatcher::NtOpenProcessTokenEx)
	};

	static const IPCCall create_params = {
	{IPC_CREATEPROCESSW_TAG, WCHAR_TYPE, WCHAR_TYPE, WCHAR_TYPE, INOUTPTR_TYPE},
	reinterpret_cast<CallbackGeneric>(
	&ThreadProcessDispatcher::CreateProcessW)
	};

	ipc_calls_.push_back(open_thread);
	ipc_calls_.push_back(open_process);
	ipc_calls_.push_back(process_token);
	ipc_calls_.push_back(process_tokenex);
	ipc_calls_.push_back(create_params);
	}

	bool ThreadProcessDispatcher::SetupService(InterceptionManager* manager,
	int service) {
	switch (service) {
	case IPC_NTOPENTHREAD_TAG:
	case IPC_NTOPENPROCESS_TAG:
	case IPC_NTOPENPROCESSTOKEN_TAG:
	case IPC_NTOPENPROCESSTOKENEX_TAG:
	// There is no explicit policy for these services.
	NOTREACHED();
	return false;

	case IPC_CREATEPROCESSW_TAG:
	return INTERCEPT_EAT(manager, kKerneldllName, CreateProcessW,
	CREATE_PROCESSW_ID, 44) &&
	INTERCEPT_EAT(manager, L"kernel32.dll", CreateProcessA,
	CREATE_PROCESSA_ID, 44);

	default:
	return false;
	}
	}

	bool ThreadProcessDispatcher::NtOpenThread(IPCInfo* ipc, DWORD desired_access,
	DWORD thread_id) {
	HANDLE handle;
	NTSTATUS ret = ProcessPolicy::OpenThreadAction(*ipc->client_info,
	desired_access, thread_id,
	&handle);
	ipc->return_info.nt_status = ret;
	ipc->return_info.handle = handle;
	return true;
	}

	bool ThreadProcessDispatcher::NtOpenProcess(IPCInfo* ipc, DWORD desired_access,
	DWORD process_id) {
	HANDLE handle;
	NTSTATUS ret = ProcessPolicy::OpenProcessAction(*ipc->client_info,
	desired_access, process_id,
	&handle);
	ipc->return_info.nt_status = ret;
	ipc->return_info.handle = handle;
	return true;
	}

	bool ThreadProcessDispatcher::NtOpenProcessToken(IPCInfo* ipc, HANDLE process,
	DWORD desired_access) {
	HANDLE handle;
	NTSTATUS ret = ProcessPolicy::OpenProcessTokenAction(*ipc->client_info,
	process, desired_access,
	&handle);
	ipc->return_info.nt_status = ret;
	ipc->return_info.handle = handle;
	return true;
	}

	bool ThreadProcessDispatcher::NtOpenProcessTokenEx(IPCInfo* ipc, HANDLE process,
	DWORD desired_access,
	DWORD attributes) {
	HANDLE handle;
	NTSTATUS ret = ProcessPolicy::OpenProcessTokenExAction(*ipc->client_info,
	process,
	desired_access,
	attributes, &handle);
	ipc->return_info.nt_status = ret;
	ipc->return_info.handle = handle;
	return true;
	}

	bool ThreadProcessDispatcher::CreateProcessW(IPCInfo* ipc, std::wstring* name,
	std::wstring* cmd_line,
	std::wstring* cur_dir,
	CountedBuffer* info) {
	if (sizeof(PROCESS_INFORMATION) != info->Size())
	return false;

	// Check if there is an application name.
	std::wstring exe_name;
	if (!name->empty())
	exe_name = *name;
	else
	exe_name = GetPathFromCmdLine(*cmd_line);

	if (IsPathRelative(exe_name)) {
	if (!ConvertToAbsolutePath(*cur_dir, name->empty(), &exe_name)) {
	// Cannot find the path. Maybe the file does not exist.
	ipc->return_info.win32_result = ERROR_FILE_NOT_FOUND;
	return true;
	}
	}

	const wchar_t* const_exe_name = exe_name.c_str();
	CountedParameterSet<NameBased> params;
	params[NameBased::NAME] = ParamPickerMake(const_exe_name);

	EvalResult eval = policy_base_->EvalPolicy(IPC_CREATEPROCESSW_TAG,
	params.GetBase());

	PROCESS_INFORMATION* proc_info =
	reinterpret_cast<PROCESS_INFORMATION*>(info->Buffer());
	// Here we force the app_name to be the one we used for the policy lookup.
	// If our logic was wrong, at least we wont allow create a random process.
	DWORD ret = ProcessPolicy::CreateProcessWAction(eval, *ipc->client_info,
	exe_name, *cmd_line,
	proc_info);

	ipc->return_info.win32_result = ret;
	return true;
	}

	} // namespace sandbox