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The bulk of this commit was generated by running: run-clang-tidy.py \ -checks='-*,llvm-namespace-comment' \ -header-filter=^/.../mozilla-central/.* \ -fix
400 lines
13 KiB
C++
400 lines
13 KiB
C++
// Copyright (c) 2010 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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// Windows Vista uses the Native Wifi (WLAN) API for accessing WiFi cards. See
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// http://msdn.microsoft.com/en-us/library/ms705945(VS.85).aspx. Windows XP
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// Service Pack 3 (and Windows XP Service Pack 2, if upgraded with a hot fix)
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// also support a limited version of the WLAN API. See
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// http://msdn.microsoft.com/en-us/library/bb204766.aspx. The WLAN API uses
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// wlanapi.h, which is not part of the SDK used by Gears, so is replicated
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// locally using data from the MSDN.
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//\
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// Windows XP from Service Pack 2 onwards supports the Wireless Zero
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// Configuration (WZC) programming interface. See
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// http://msdn.microsoft.com/en-us/library/ms706587(VS.85).aspx.
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//
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// The MSDN recommends that one use the WLAN API where available, and WZC
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// otherwise.
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//
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// However, it seems that WZC fails for some wireless cards. Also, WLAN seems
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// not to work on XP SP3. So we use WLAN on Vista, and use NDIS directly
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// otherwise.
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// MOZILLA NOTE:
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// This code is ported from chromium:
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// https://chromium.googlesource.com/chromium/src/+/master/content/browser/geolocation/wifi_data_provider_win.cc
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// Based on changeset 42c5878
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#include "win_xp_wifiScanner.h"
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#include "nsWifiAccessPoint.h"
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#include <windows.h>
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#include <winioctl.h>
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#include <wlanapi.h>
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#include <string>
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#include <vector>
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// Taken from ndis.h for WinCE.
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#define NDIS_STATUS_INVALID_LENGTH ((NDIS_STATUS)0xC0010014L)
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#define NDIS_STATUS_BUFFER_TOO_SHORT ((NDIS_STATUS)0xC0010016L)
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namespace {
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// The limits on the size of the buffer used for the OID query.
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const int kInitialBufferSize = 2 << 12; // Good for about 50 APs.
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const int kMaximumBufferSize = 2 << 20; // 2MB
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// Length for generic string buffers passed to Win32 APIs.
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const int kStringLength = 512;
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// WlanOpenHandle
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typedef DWORD (WINAPI* WlanOpenHandleFunction)(DWORD dwClientVersion,
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PVOID pReserved,
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PDWORD pdwNegotiatedVersion,
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PHANDLE phClientHandle);
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// WlanEnumInterfaces
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typedef DWORD (WINAPI* WlanEnumInterfacesFunction)(
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HANDLE hClientHandle,
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PVOID pReserved,
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PWLAN_INTERFACE_INFO_LIST* ppInterfaceList);
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// WlanGetNetworkBssList
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typedef DWORD (WINAPI* WlanGetNetworkBssListFunction)(
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HANDLE hClientHandle,
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const GUID* pInterfaceGuid,
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const PDOT11_SSID pDot11Ssid,
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DOT11_BSS_TYPE dot11BssType,
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BOOL bSecurityEnabled,
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PVOID pReserved,
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PWLAN_BSS_LIST* ppWlanBssList
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);
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// WlanFreeMemory
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typedef VOID (WINAPI* WlanFreeMemoryFunction)(PVOID pMemory);
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// WlanCloseHandle
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typedef DWORD (WINAPI* WlanCloseHandleFunction)(HANDLE hClientHandle,
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PVOID pReserved);
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// Extracts data for an access point and converts to Gears format.
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bool UndefineDosDevice(const std::string& device_name);
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bool DefineDosDeviceIfNotExists(const std::string& device_name);
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HANDLE GetFileHandle(const std::string& device_name);
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// Makes the OID query and returns a Win32 error code.
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int PerformQuery(HANDLE adapter_handle, std::vector<char>& buffer, DWORD* bytes_out);
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bool ResizeBuffer(size_t requested_size, std::vector<char>& buffer);
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// Gets the system directory and appends a trailing slash if not already
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// present.
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bool GetSystemDirectory(std::string* path);
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bool ConvertToAccessPointData(const NDIS_WLAN_BSSID& data, nsWifiAccessPoint* access_point_data);
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int GetDataFromBssIdList(const NDIS_802_11_BSSID_LIST& bss_id_list,
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int list_size,
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nsCOMArray<nsWifiAccessPoint>& outData);
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} // namespace
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class WindowsNdisApi
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{
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public:
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virtual ~WindowsNdisApi();
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static WindowsNdisApi* Create();
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virtual bool GetAccessPointData(nsCOMArray<nsWifiAccessPoint>& outData);
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private:
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static bool GetInterfacesNDIS(std::vector<std::string>& interface_service_names_out);
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// Swaps in content of the vector passed
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explicit WindowsNdisApi(std::vector<std::string>* interface_service_names);
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bool GetInterfaceDataNDIS(HANDLE adapter_handle, nsCOMArray<nsWifiAccessPoint>& outData);
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// NDIS variables.
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std::vector<std::string> interface_service_names_;
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std::vector<char> _buffer;
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};
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// WindowsNdisApi
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WindowsNdisApi::WindowsNdisApi(
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std::vector<std::string>* interface_service_names)
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: _buffer(kInitialBufferSize) {
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interface_service_names_.swap(*interface_service_names);
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}
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WindowsNdisApi::~WindowsNdisApi() {
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}
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WindowsNdisApi* WindowsNdisApi::Create() {
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std::vector<std::string> interface_service_names;
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if (GetInterfacesNDIS(interface_service_names)) {
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return new WindowsNdisApi(&interface_service_names);
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}
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return NULL;
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}
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bool WindowsNdisApi::GetAccessPointData(nsCOMArray<nsWifiAccessPoint>& outData) {
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int interfaces_failed = 0;
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int interfaces_succeeded = 0;
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for (int i = 0; i < static_cast<int>(interface_service_names_.size()); ++i) {
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// First, check that we have a DOS device for this adapter.
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if (!DefineDosDeviceIfNotExists(interface_service_names_[i])) {
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continue;
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}
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// Get the handle to the device. This will fail if the named device is not
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// valid.
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HANDLE adapter_handle = GetFileHandle(interface_service_names_[i]);
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if (adapter_handle == INVALID_HANDLE_VALUE) {
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continue;
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}
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// Get the data.
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if (GetInterfaceDataNDIS(adapter_handle, outData)) {
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++interfaces_succeeded;
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} else {
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++interfaces_failed;
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}
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// Clean up.
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CloseHandle(adapter_handle);
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UndefineDosDevice(interface_service_names_[i]);
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}
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// Return true if at least one interface succeeded, or at the very least none
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// failed.
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return interfaces_succeeded > 0 || interfaces_failed == 0;
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}
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bool WindowsNdisApi::GetInterfacesNDIS(std::vector<std::string>& interface_service_names_out) {
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HKEY network_cards_key = NULL;
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if (RegOpenKeyEx(
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HKEY_LOCAL_MACHINE,
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"Software\\Microsoft\\Windows NT\\CurrentVersion\\NetworkCards",
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0,
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KEY_READ,
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&network_cards_key) != ERROR_SUCCESS) {
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return false;
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}
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if (!network_cards_key) {
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return false;
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}
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for (int i = 0; ; ++i) {
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TCHAR name[kStringLength];
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DWORD name_size = kStringLength;
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FILETIME time;
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if (RegEnumKeyEx(network_cards_key,
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i,
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name,
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&name_size,
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NULL,
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NULL,
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NULL,
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&time) != ERROR_SUCCESS) {
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break;
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}
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HKEY hardware_key = NULL;
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if (RegOpenKeyEx(network_cards_key, name, 0, KEY_READ, &hardware_key) !=
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ERROR_SUCCESS) {
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break;
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}
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if (!hardware_key) {
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return false;
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}
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TCHAR service_name[kStringLength];
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DWORD service_name_size = kStringLength;
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DWORD type = 0;
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if (RegQueryValueEx(hardware_key,
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"ServiceName",
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NULL,
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&type,
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reinterpret_cast<LPBYTE>(service_name),
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&service_name_size) == ERROR_SUCCESS) {
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interface_service_names_out.push_back(service_name);
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}
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RegCloseKey(hardware_key);
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}
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RegCloseKey(network_cards_key);
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return true;
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}
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bool WindowsNdisApi::GetInterfaceDataNDIS(HANDLE adapter_handle,
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nsCOMArray<nsWifiAccessPoint>& outData) {
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DWORD bytes_out;
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int result;
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while (true) {
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bytes_out = 0;
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result = PerformQuery(adapter_handle, _buffer, &bytes_out);
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if (result == ERROR_GEN_FAILURE || // Returned by some Intel cards.
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result == ERROR_INSUFFICIENT_BUFFER ||
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result == ERROR_MORE_DATA ||
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result == NDIS_STATUS_INVALID_LENGTH ||
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result == NDIS_STATUS_BUFFER_TOO_SHORT) {
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// The buffer we supplied is too small, so increase it. bytes_out should
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// provide the required buffer size, but this is not always the case.
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size_t newSize;
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if (bytes_out > static_cast<DWORD>(_buffer.size())) {
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newSize = bytes_out;
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} else {
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newSize = _buffer.size() * 2;
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}
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if (!ResizeBuffer(newSize, _buffer)) {
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return false;
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}
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} else {
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// The buffer is not too small.
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break;
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}
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}
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if (result == ERROR_SUCCESS) {
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NDIS_802_11_BSSID_LIST* bssid_list =
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reinterpret_cast<NDIS_802_11_BSSID_LIST*>(&_buffer[0]);
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GetDataFromBssIdList(*bssid_list, _buffer.size(), outData);
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}
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return true;
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}
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namespace {
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#define uint8 unsigned char
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bool ConvertToAccessPointData(const NDIS_WLAN_BSSID& data, nsWifiAccessPoint* access_point_data)
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{
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access_point_data->setMac(data.MacAddress);
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access_point_data->setSignal(data.Rssi);
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// Note that _NDIS_802_11_SSID::Ssid::Ssid is not null-terminated.
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const unsigned char* ssid = data.Ssid.Ssid;
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size_t len = data.Ssid.SsidLength;
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access_point_data->setSSID(reinterpret_cast<const char*>(ssid), len);
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return true;
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}
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int GetDataFromBssIdList(const NDIS_802_11_BSSID_LIST& bss_id_list,
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int list_size,
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nsCOMArray<nsWifiAccessPoint>& outData)
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{
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// Walk through the BSS IDs.
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int found = 0;
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const uint8* iterator = reinterpret_cast<const uint8*>(&bss_id_list.Bssid[0]);
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const uint8* end_of_buffer =
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reinterpret_cast<const uint8*>(&bss_id_list) + list_size;
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for (int i = 0; i < static_cast<int>(bss_id_list.NumberOfItems); ++i) {
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const NDIS_WLAN_BSSID *bss_id =
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reinterpret_cast<const NDIS_WLAN_BSSID*>(iterator);
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// Check that the length of this BSS ID is reasonable.
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if (bss_id->Length < sizeof(NDIS_WLAN_BSSID) ||
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iterator + bss_id->Length > end_of_buffer) {
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break;
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}
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nsWifiAccessPoint* ap = new nsWifiAccessPoint();
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if (ConvertToAccessPointData(*bss_id, ap)) {
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outData.AppendObject(ap);
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++found;
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}
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// Move to the next BSS ID.
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iterator += bss_id->Length;
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}
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return found;
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}
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bool UndefineDosDevice(const std::string& device_name) {
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// We remove only the mapping we use, that is \Device\<device_name>.
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std::string target_path = "\\Device\\" + device_name;
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return DefineDosDevice(
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DDD_RAW_TARGET_PATH | DDD_REMOVE_DEFINITION | DDD_EXACT_MATCH_ON_REMOVE,
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device_name.c_str(),
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target_path.c_str()) == TRUE;
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}
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bool DefineDosDeviceIfNotExists(const std::string& device_name) {
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// We create a DOS device name for the device at \Device\<device_name>.
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std::string target_path = "\\Device\\" + device_name;
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TCHAR target[kStringLength];
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if (QueryDosDevice(device_name.c_str(), target, kStringLength) > 0 &&
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target_path.compare(target) == 0) {
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// Device already exists.
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return true;
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}
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if (GetLastError() != ERROR_FILE_NOT_FOUND) {
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return false;
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}
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if (!DefineDosDevice(DDD_RAW_TARGET_PATH,
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device_name.c_str(),
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target_path.c_str())) {
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return false;
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}
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// Check that the device is really there.
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return QueryDosDevice(device_name.c_str(), target, kStringLength) > 0 &&
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target_path.compare(target) == 0;
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}
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HANDLE GetFileHandle(const std::string& device_name) {
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// We access a device with DOS path \Device\<device_name> at
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// \\.\<device_name>.
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std::string formatted_device_name = "\\\\.\\" + device_name;
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return CreateFile(formatted_device_name.c_str(),
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GENERIC_READ,
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FILE_SHARE_READ | FILE_SHARE_WRITE, // share mode
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0, // security attributes
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OPEN_EXISTING,
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0, // flags and attributes
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INVALID_HANDLE_VALUE);
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}
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int PerformQuery(HANDLE adapter_handle,
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std::vector<char>& buffer,
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DWORD* bytes_out) {
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DWORD oid = OID_802_11_BSSID_LIST;
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if (!DeviceIoControl(adapter_handle,
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IOCTL_NDIS_QUERY_GLOBAL_STATS,
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&oid,
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sizeof(oid),
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&buffer[0],
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buffer.size(),
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bytes_out,
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NULL)) {
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return GetLastError();
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}
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return ERROR_SUCCESS;
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}
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bool ResizeBuffer(size_t requested_size, std::vector<char>& buffer) {
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if (requested_size > kMaximumBufferSize) {
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buffer.resize(kInitialBufferSize);
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return false;
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}
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buffer.resize(requested_size);
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return true;
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}
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} // namespace
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nsresult
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WinXPWifiScanner::GetAccessPointsFromWLAN(nsCOMArray<nsWifiAccessPoint> &accessPoints)
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{
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if (!mImplementation) {
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mImplementation = WindowsNdisApi::Create();
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if (!mImplementation) {
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return NS_ERROR_FAILURE;
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}
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}
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accessPoints.Clear();
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bool isOk = mImplementation->GetAccessPointData(accessPoints);
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if (!isOk) {
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mImplementation = 0;
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return NS_ERROR_FAILURE;
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}
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return NS_OK;
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}
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