/* Copyright (C) 2010-2012 Srivats P. This file is part of "Ostinato" This is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see */ #include "portmanager.h" #include "bsdport.h" #include "interfaceinfo.h" #include "linuxport.h" #include "pcapport.h" #include "settings.h" #include "turbo.h" #include "winpcapport.h" #include #include PortManager *PortManager::instance_ = NULL; #if defined(Q_OS_WIN32) #include #include // Define the function prototypes since they are not defined in ipHlpApi.h NETIO_STATUS WINAPI ConvertInterfaceGuidToLuid( const GUID *InterfaceGuid, PNET_LUID InterfaceLuid); NETIO_STATUS WINAPI ConvertInterfaceLuidToAlias( const NET_LUID *InterfaceLuid, PWSTR InterfaceAlias, SIZE_T Length); #define MyGetProcAddress(hDll, function) \ hDll ? reinterpret_cast (GetProcAddress(hDll, #function)) : NULL; #endif PortManager::PortManager() { int i; pcap_if_t *device; AbstractPort::Accuracy txRateAccuracy; qDebug("PCAP Lib: %s", pcap_lib_version()); #ifdef Q_OS_WIN32 qDebug("Service npf status %s\n", pcapServiceStatus(L"npf")); qDebug("Service npcap status %s\n", pcapServiceStatus(L"npcap")); #endif qDebug("Retrieving the device list from the local machine\n"); #if defined(Q_OS_WIN32) WinPcapPort::fetchHostNetworkInfo(); #elif defined(Q_OS_LINUX) LinuxPort::fetchHostNetworkInfo(); #elif defined(Q_OS_BSD4) BsdPort::fetchHostNetworkInfo(); #endif txRateAccuracy = rateAccuracy(); pcap_if_t *deviceList = GetPortList(); for(device = deviceList, i = 0; device != NULL; device = device->next, i++) { AbstractPort *port = nullptr; qDebug("==========\n%d. %s", i, device->name); if (device->description) qDebug(" (%s)\n", device->description); #if defined(Q_OS_WIN32) if (!filterAcceptsPort(device->description)) #else if (!filterAcceptsPort(device->name)) #endif { qDebug("%s (%s) rejected by filter. Skipping!", device->name, device->description); i--; continue; } #if defined(Q_OS_WIN32) port = new WinPcapPort(i, device->name, device->description); #elif defined(Q_OS_LINUX) if (isTurboPort(device->name)) port = createTurboPort(i, device->name); if (!port) port = new LinuxPort(i, device->name); #elif defined(Q_OS_BSD4) port = new BsdPort(i, device->name); #else port = new PcapPort(i, device->name); #endif if (port && !port->isUsable()) { qDebug("%s: unable to open %s. Skipping!", __FUNCTION__, device->name); delete port; i--; continue; } const InterfaceInfo *intfInfo = port->interfaceInfo(); if (intfInfo) { qDebug("Mac: %012llx", intfInfo->mac); foreach(Ip4Config ip, intfInfo->ip4) qDebug("Ip4: %s/%d gw: %s", qPrintable(QHostAddress(ip.address).toString()), ip.prefixLength, qPrintable(QHostAddress(ip.gateway).toString())); foreach(Ip6Config ip, intfInfo->ip6) qDebug("Ip6: %s/%d gw: %s", qPrintable(QHostAddress(ip.address.toArray()).toString()), ip.prefixLength, qPrintable(QHostAddress(ip.gateway.toArray()).toString())); qDebug("Speed: %g Mbps", intfInfo->speed); qDebug("Mtu: %u", intfInfo->mtu); } if (!port->setRateAccuracy(txRateAccuracy)) qWarning("failed to set rateAccuracy (%d)", txRateAccuracy); portList_.append(port); } FreePortList(deviceList); foreach(AbstractPort *port, portList_) port->init(); #if defined(Q_OS_WIN32) WinPcapPort::freeHostNetworkInfo(); #elif defined(Q_OS_LINUX) LinuxPort::freeHostNetworkInfo(); #elif defined(Q_OS_BSD4) BsdPort::freeHostNetworkInfo(); #endif return; } PortManager::~PortManager() { while (!portList_.isEmpty()) delete portList_.takeFirst(); } PortManager* PortManager::instance() { if (!instance_) instance_ = new PortManager; return instance_; } pcap_if_t* PortManager::GetPortList() { pcap_if_t *deviceList = NULL; char errbuf[PCAP_ERRBUF_SIZE]; if (pcap_findalldevs(&deviceList, errbuf) == -1) qDebug("Error in pcap_findalldevs_ex: %s\n", errbuf); #if defined(Q_OS_WIN32) // Use windows' connection name as the description for a better UX ipHlpApi_ = LoadLibrary(TEXT("ipHlpApi.dll")); auto guid2Luid = MyGetProcAddress(ipHlpApi_, ConvertInterfaceGuidToLuid); auto luid2Alias = MyGetProcAddress(ipHlpApi_, ConvertInterfaceLuidToAlias); if (guid2Luid && luid2Alias) { pcap_if_t *device; for(device = deviceList; device != NULL; device = device->next) { GUID guid = static_cast(QUuid( QString(device->name).remove("\\Device\\NPF_"))); NET_LUID luid; oldDescriptions_.append(device->description); newDescriptions_.append(new QByteArray()); if (guid2Luid(&guid, &luid) == NO_ERROR) { WCHAR conn[256]; if (luid2Alias(&luid, conn, 256) == NO_ERROR) { *(newDescriptions_.last()) = QString().fromWCharArray(conn) .toLocal8Bit(); device->description = newDescriptions_.last()->data(); } } } } #endif return deviceList; } void PortManager::FreePortList(pcap_if_t *deviceList) { #if defined(Q_OS_WIN32) int i = 0; pcap_if_t *device; if (oldDescriptions_.size()) { for(device = deviceList; device != NULL; device = device->next) device->description = oldDescriptions_.at(i++); } oldDescriptions_.clear(); while (newDescriptions_.size()) delete newDescriptions_.takeFirst(); if (ipHlpApi_) FreeLibrary(ipHlpApi_); #endif pcap_freealldevs(deviceList); } AbstractPort::Accuracy PortManager::rateAccuracy() { QString rateAccuracy = appSettings->value(kRateAccuracyKey, kRateAccuracyDefaultValue).toString(); if (rateAccuracy == "High") return AbstractPort::kHighAccuracy; else if (rateAccuracy == "Low") return AbstractPort::kLowAccuracy; else qWarning("Unsupported RateAccuracy setting - %s", qPrintable(rateAccuracy)); return AbstractPort::kHighAccuracy; } bool PortManager::filterAcceptsPort(const char *name) { QRegExp pattern; QStringList includeList = appSettings->value(kPortListIncludeKey) .toStringList(); QStringList excludeList = appSettings->value(kPortListExcludeKey) .toStringList(); pattern.setPatternSyntax(QRegExp::Wildcard); // An empty (or missing) includeList accepts all ports // NOTE: A blank "IncludeList=" is read as a stringlist with one // string which is empty => treat it same as an empty stringlist if (includeList.isEmpty() || (includeList.size() == 1 && includeList.at(0).isEmpty())) goto _include_pass; foreach (QString str, includeList) { pattern.setPattern(str); if (pattern.exactMatch(name)) goto _include_pass; } // IncludeList is not empty and port did not match a pattern return false; _include_pass: foreach (QString str, excludeList) { pattern.setPattern(str); if (pattern.exactMatch(name)) return false; } // Port did not match a pattern in ExcludeList return true; }