// Copyright (c) 2011 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 "chrome_frame/chrome_frame_helper_util.h" #include "chrome_tab.h" // NOLINT #include #include namespace { const wchar_t kGetBrowserMessage[] = L"GetAutomationObject"; const wchar_t kBHORegistrationPathFmt[] = L"SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Explorer" L"\\Browser Helper Objects\\%s"; const wchar_t kChromeFrameClientKey[] = L"Software\\Google\\Update\\Clients\\" L"{8BA986DA-5100-405E-AA35-86F34A02ACBF}"; const wchar_t kGoogleUpdateVersionValue[] = L"pv"; } // namespace bool UtilIsWebBrowserWindow(HWND window_to_check) { bool is_browser_window = false; if (!IsWindow(window_to_check)) { return is_browser_window; } static wchar_t* known_ie_window_classes[] = { L"IEFrame", L"TabWindowClass" }; for (int i = 0; i < ARRAYSIZE(known_ie_window_classes); i++) { if (IsWindowOfClass(window_to_check, known_ie_window_classes[i])) { is_browser_window = true; break; } } return is_browser_window; } HRESULT UtilGetWebBrowserObjectFromWindow(HWND window, REFIID iid, void** web_browser_object) { if (NULL == web_browser_object) { return E_POINTER; } // Check whether this window is really a web browser window. if (UtilIsWebBrowserWindow(window)) { // IWebBroswer2 interface pointer can be retrieved from the browser // window by simply sending a registered message "GetAutomationObject" // Note that since we are sending a message to parent window make sure that // it is in the same thread. if (GetWindowThreadProcessId(window, NULL) != GetCurrentThreadId()) { return E_UNEXPECTED; } static const ULONG get_browser_message = RegisterWindowMessageW(kGetBrowserMessage); *web_browser_object = reinterpret_cast(SendMessage(window, get_browser_message, reinterpret_cast(&iid), NULL)); if (NULL != *web_browser_object) { return S_OK; } } else { return E_INVALIDARG; } return E_NOINTERFACE; } bool IsWindowOfClass(HWND window_to_check, const wchar_t* window_class) { bool window_matches = false; const int buf_size = MAX_PATH; wchar_t buffer[buf_size] = {0}; DWORD size = GetClassNameW(window_to_check, buffer, buf_size); // If the window name is any longer than this, it isn't the one we want. if (size < (buf_size - 1)) { if (!lstrcmpiW(window_class, buffer)) { window_matches = true; } } return window_matches; } bool IsNamedWindow(HWND window, const wchar_t* window_name) { bool window_matches = false; const int buf_size = MAX_PATH; wchar_t buffer[buf_size] = {0}; DWORD size = GetWindowText(window, buffer, buf_size); if (size < (buf_size - 1)) { if (!lstrcmpiW(window_name, buffer)) { window_matches = true; } } return window_matches; } bool IsNamedProcess(const wchar_t* process_name) { wchar_t file_path[2048] = {0}; GetModuleFileName(NULL, file_path, 2047); wchar_t* file_name = PathFindFileName(file_path); return (0 == lstrcmpiW(file_name, process_name)); } namespace { struct FindWindowParams { HWND parent_; const wchar_t* class_name_; const wchar_t* window_name_; HWND window_found_; DWORD thread_id_; DWORD process_id_; FindWindowParams(HWND parent, const wchar_t* class_name, const wchar_t* window_name, DWORD thread_id, DWORD process_id) : parent_(parent), class_name_(class_name), window_name_(window_name), window_found_(NULL), thread_id_(thread_id), process_id_(process_id) { } }; // Checks a window against a set of parameters defined in params. If the // window matches, fills in params->window_found_ with the HWND of the window // and returns true. Returns false otherwise. bool WindowMatches(HWND window, FindWindowParams* params) { bool found = false; DWORD process_id = 0; DWORD thread_id = GetWindowThreadProcessId(window, &process_id); // First check that the PID and TID match if we're interested. if (params->process_id_ == 0 || params->process_id_ == process_id) { if (params->thread_id_ == 0 || params->thread_id_ == thread_id) { // Then check that we match on class and window names, again only if // we're interested. if ((params->class_name_ == NULL || IsWindowOfClass(window, params->class_name_)) && (params->window_name_ == NULL) || IsNamedWindow(window, params->window_name_)) { found = true; params->window_found_ = window; } } } return found; } } // namespace BOOL CALLBACK WndEnumProc(HWND window, LPARAM lparam) { FindWindowParams* params = reinterpret_cast(lparam); if (!params) { return FALSE; } if (WindowMatches(window, params)) { // We found a match on a top level window. Return false to stop enumerating. return FALSE; } else { // If criteria not satisfied, let us try child windows. HWND child_window = RecurseFindWindow(window, params->class_name_, params->window_name_, params->thread_id_, params->process_id_); if (child_window != NULL) { // We found the window we are looking for. params->window_found_ = child_window; return FALSE; } return TRUE; } } HWND RecurseFindWindow(HWND parent, const wchar_t* class_name, const wchar_t* window_name, DWORD thread_id_to_match, DWORD process_id_to_match) { if ((class_name == NULL) && (window_name == NULL)) { return NULL; } FindWindowParams params(parent, class_name, window_name, thread_id_to_match, process_id_to_match); EnumChildWindows(parent, WndEnumProc, reinterpret_cast(¶ms)); return params.window_found_; } // TODO(robertshield): This is stolen shamelessly from mini_installer.cc. // Refactor this before (more) bad things happen. LONG ReadValue(HKEY key, const wchar_t* value_name, size_t value_size, wchar_t* value) { DWORD type; DWORD byte_length = static_cast(value_size * sizeof(wchar_t)); LONG result = ::RegQueryValueEx(key, value_name, NULL, &type, reinterpret_cast(value), &byte_length); if (result == ERROR_SUCCESS) { if (type != REG_SZ) { result = ERROR_NOT_SUPPORTED; } else if (byte_length == 0) { *value = L'\0'; } else if (value[byte_length/sizeof(wchar_t) - 1] != L'\0') { if ((byte_length / sizeof(wchar_t)) < value_size) value[byte_length / sizeof(wchar_t)] = L'\0'; else result = ERROR_MORE_DATA; } } return result; } bool IsBHOLoadingPolicyRegistered() { wchar_t bho_clsid_as_string[MAX_PATH] = {0}; int count = StringFromGUID2(CLSID_ChromeFrameBHO, bho_clsid_as_string, ARRAYSIZE(bho_clsid_as_string)); bool bho_registered = false; if (count > 0) { wchar_t reg_path_buffer[MAX_PATH] = {0}; int path_count = _snwprintf(reg_path_buffer, MAX_PATH - 1, kBHORegistrationPathFmt, bho_clsid_as_string); if (path_count > 0) { HKEY reg_handle = NULL; LONG result = RegOpenKeyEx(HKEY_LOCAL_MACHINE, reg_path_buffer, 0, KEY_QUERY_VALUE, ®_handle); if (result == ERROR_SUCCESS) { RegCloseKey(reg_handle); bho_registered = true; } } } return bho_registered; } bool IsSystemLevelChromeFrameInstalled() { bool system_level_installed = false; HKEY reg_handle = NULL; LONG result = RegOpenKeyEx(HKEY_LOCAL_MACHINE, kChromeFrameClientKey, 0, KEY_QUERY_VALUE, ®_handle); if (result == ERROR_SUCCESS) { wchar_t version_buffer[MAX_PATH] = {0}; result = ReadValue(reg_handle, kGoogleUpdateVersionValue, MAX_PATH, version_buffer); if (result == ERROR_SUCCESS && version_buffer[0] != L'\0') { system_level_installed = true; } RegCloseKey(reg_handle); } return system_level_installed; }