Added support for MinGW32 - to be working with qticsneo
Tomasz Ziobrowski
parent
3cff831c6b
commit
af2c30885b
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@ -9,7 +9,7 @@
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#include "icsneo/api/eventmanager.h"
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#include "icsneo/communication/ethernetpacketizer.h"
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#include <string>
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#include <vector>
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namespace icsneo {
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class PCAP : public Driver {
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@ -59,7 +59,7 @@ private:
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pcap_stat stats;
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};
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static std::vector<NetworkInterface> knownInterfaces;
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NetworkInterface interface;
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NetworkInterface interfacevar;
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};
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}
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@ -9,6 +9,7 @@
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#include <codecvt>
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#include <chrono>
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#include <iostream>
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#include <locale>
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using namespace icsneo;
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@ -32,7 +33,7 @@ std::vector<PCAP::PCAPFoundDevice> PCAP::FindAll() {
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bool success = false;
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// Calling pcap.findalldevs_ex too quickly can cause various errors. Retry a few times in this case.
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for(auto retry = 0; retry < 10; retry++) {
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auto ret = pcap.findalldevs_ex(PCAP_SRC_IF_STRING, nullptr, &alldevs, errbuf);
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auto ret = pcap.findalldevs_ex((char*)PCAP_SRC_IF_STRING, nullptr, &alldevs, errbuf);
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if(ret == 0) {
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success = true;
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break;
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@ -68,48 +69,48 @@ std::vector<PCAP::PCAPFoundDevice> PCAP::FindAll() {
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}
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// aa->AdapterName constains a unique name of the interface like "{3B1D2791-435A-456F-8A7B-9CB0EEE5DAB3}"
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// interface.nameFromWinPCAP has "rpcap://\Device\NPF_{3B1D2791-435A-456F-8A7B-9CB0EEE5DAB3}"
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// interfacevar.nameFromWinPCAP has "rpcap://\Device\NPF_{3B1D2791-435A-456F-8A7B-9CB0EEE5DAB3}"
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// We're comparing strings to match the Win32 info with the WinPCAP info
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for(IP_ADAPTER_ADDRESSES* aa = (IP_ADAPTER_ADDRESSES*)adapterAddressBuffer.data(); aa != nullptr; aa = aa->Next) {
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for(auto& interface : interfaces) {
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if(interface.nameFromWinPCAP.find(aa->AdapterName) == std::string::npos)
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for(auto& interfacevar : interfaces) {
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if(interfacevar.nameFromWinPCAP.find(aa->AdapterName) == std::string::npos)
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continue; // This is not the interface that corresponds
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memcpy(interface.macAddress, aa->PhysicalAddress, sizeof(interface.macAddress));
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interface.nameFromWin32API = aa->AdapterName;
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interface.descriptionFromWin32API = converter.to_bytes(aa->Description);
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interface.friendlyNameFromWin32API = converter.to_bytes(aa->FriendlyName);
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if(interface.descriptionFromWin32API.find("LAN9512/LAN9514") != std::string::npos) {
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memcpy(interfacevar.macAddress, aa->PhysicalAddress, sizeof(interfacevar.macAddress));
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interfacevar.nameFromWin32API = aa->AdapterName;
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interfacevar.descriptionFromWin32API = converter.to_bytes(aa->Description);
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interfacevar.friendlyNameFromWin32API = converter.to_bytes(aa->FriendlyName);
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if(interfacevar.descriptionFromWin32API.find("LAN9512/LAN9514") != std::string::npos) {
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// This is an Ethernet EVB device
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interface.fullName = "Intrepid Ethernet EVB ( " + interface.friendlyNameFromWin32API + " : " + interface.descriptionFromWin32API + " )";
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interfacevar.fullName = "Intrepid Ethernet EVB ( " + interfacevar.friendlyNameFromWin32API + " : " + interfacevar.descriptionFromWin32API + " )";
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} else {
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interface.fullName = interface.friendlyNameFromWin32API + " : " + interface.descriptionFromWin32API;
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interfacevar.fullName = interfacevar.friendlyNameFromWin32API + " : " + interfacevar.descriptionFromWin32API;
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}
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}
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}
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for(auto& interface : interfaces) {
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for(auto& interfacevar : interfaces) {
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bool exists = false;
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for(auto& known : knownInterfaces)
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if(memcmp(interface.macAddress, known.macAddress, sizeof(interface.macAddress)) == 0)
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if(memcmp(interfacevar.macAddress, known.macAddress, sizeof(interfacevar.macAddress)) == 0)
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exists = true;
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if(!exists)
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knownInterfaces.emplace_back(interface);
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knownInterfaces.emplace_back(interfacevar);
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}
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constexpr auto openflags = (PCAP_OPENFLAG_MAX_RESPONSIVENESS | PCAP_OPENFLAG_NOCAPTURE_LOCAL);
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for(size_t i = 0; i < knownInterfaces.size(); i++) {
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auto& interface = knownInterfaces[i];
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if(interface.fullName.length() == 0)
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auto& interfacevar = knownInterfaces[i];
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if(interfacevar.fullName.length() == 0)
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continue; // Win32 did not find this interface in the previous step
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interface.fp = pcap.open(interface.nameFromWinPCAP.c_str(), 1518, openflags, 1, nullptr, errbuf);
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interfacevar.fp = pcap.open(interfacevar.nameFromWinPCAP.c_str(), 1518, openflags, 1, nullptr, errbuf);
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if(interface.fp == nullptr)
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if(interfacevar.fp == nullptr)
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continue; // Could not open the interface
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EthernetPacketizer::EthernetPacket requestPacket;
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memcpy(requestPacket.srcMAC, interface.macAddress, sizeof(requestPacket.srcMAC));
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memcpy(requestPacket.srcMAC, interfacevar.macAddress, sizeof(requestPacket.srcMAC));
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requestPacket.payload.reserve(4);
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requestPacket.payload = {
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((1 << 4) | (uint8_t)Network::NetID::Main51), // Packet size of 1 on NETID_MAIN51
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@ -119,13 +120,13 @@ std::vector<PCAP::PCAPFoundDevice> PCAP::FindAll() {
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requestPacket.payload.insert(requestPacket.payload.begin(), 0xAA);
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auto bs = requestPacket.getBytestream();
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pcap.sendpacket(interface.fp, bs.data(), (int)bs.size());
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pcap.sendpacket(interfacevar.fp, bs.data(), (int)bs.size());
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auto timeout = std::chrono::high_resolution_clock::now() + std::chrono::milliseconds(5);
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while(std::chrono::high_resolution_clock::now() <= timeout) { // Wait up to 5ms for the response
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struct pcap_pkthdr* header;
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const uint8_t* data;
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auto res = pcap.next_ex(interface.fp, &header, &data);
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auto res = pcap.next_ex(interfacevar.fp, &header, &data);
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if(res < 0) {
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//std::cout << "pcapnextex failed with " << res << std::endl;
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break;
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@ -136,7 +137,7 @@ std::vector<PCAP::PCAPFoundDevice> PCAP::FindAll() {
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EthernetPacketizer::EthernetPacket packet(data, header->caplen);
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// Is this an ICS response packet (0xCAB2) from an ICS MAC, either to broadcast or directly to us?
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if(packet.etherType == 0xCAB2 && packet.srcMAC[0] == 0x00 && packet.srcMAC[1] == 0xFC && packet.srcMAC[2] == 0x70 && (
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memcmp(packet.destMAC, interface.macAddress, sizeof(packet.destMAC)) == 0 ||
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memcmp(packet.destMAC, interfacevar.macAddress, sizeof(packet.destMAC)) == 0 ||
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memcmp(packet.destMAC, BROADCAST_MAC, sizeof(packet.destMAC)) == 0
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)) {
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/* We have received a packet from a device. We don't know if this is the device we're
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@ -168,8 +169,8 @@ std::vector<PCAP::PCAPFoundDevice> PCAP::FindAll() {
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}
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}
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pcap.close(interface.fp);
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interface.fp = nullptr;
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pcap.close(interfacevar.fp);
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interfacevar.fp = nullptr;
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}
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return foundDevices;
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@ -182,8 +183,8 @@ bool PCAP::IsHandleValid(neodevice_handle_t handle) {
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PCAP::PCAP(const device_eventhandler_t& err, neodevice_t& forDevice) : Driver(err), device(forDevice), pcap(PCAPDLL::getInstance()), ethPacketizer(err) {
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if(IsHandleValid(device.handle)) {
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interface = knownInterfaces[(device.handle >> 24) & 0xFF];
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interface.fp = nullptr; // We're going to open our own connection to the interface. This should already be nullptr but just in case.
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interfacevar = knownInterfaces[(device.handle >> 24) & 0xFF];
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interfacevar.fp = nullptr; // We're going to open our own connection to the interfacevar. This should already be nullptr but just in case.
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deviceMAC[0] = 0x00;
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deviceMAC[1] = 0xFC;
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@ -192,7 +193,7 @@ PCAP::PCAP(const device_eventhandler_t& err, neodevice_t& forDevice) : Driver(er
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deviceMAC[4] = (device.handle >> 8) & 0xFF;
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deviceMAC[5] = device.handle & 0xFF;
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memcpy(ethPacketizer.deviceMAC, deviceMAC, 6);
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memcpy(ethPacketizer.hostMAC, interface.macAddress, 6);
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memcpy(ethPacketizer.hostMAC, interfacevar.macAddress, 6);
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} else {
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openable = false;
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}
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@ -215,8 +216,8 @@ bool PCAP::open() {
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}
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// Open the interface
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interface.fp = pcap.open(interface.nameFromWinPCAP.c_str(), 65536, PCAP_OPENFLAG_MAX_RESPONSIVENESS | PCAP_OPENFLAG_NOCAPTURE_LOCAL, 50, nullptr, errbuf);
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if(interface.fp == nullptr) {
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interfacevar.fp = pcap.open(interfacevar.nameFromWinPCAP.c_str(), 65536, PCAP_OPENFLAG_MAX_RESPONSIVENESS | PCAP_OPENFLAG_NOCAPTURE_LOCAL, 50, nullptr, errbuf);
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if(interfacevar.fp == nullptr) {
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report(APIEvent::Type::DriverFailedToOpen, APIEvent::Severity::Error);
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return false;
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}
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@ -230,7 +231,7 @@ bool PCAP::open() {
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}
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bool PCAP::isOpen() {
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return interface.fp != nullptr;
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return interfacevar.fp != nullptr;
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}
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bool PCAP::close() {
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@ -245,8 +246,8 @@ bool PCAP::close() {
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transmitThread.join();
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closing = false;
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pcap.close(interface.fp);
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interface.fp = nullptr;
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pcap.close(interfacevar.fp);
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interfacevar.fp = nullptr;
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uint8_t flush;
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WriteOperation flushop;
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@ -262,7 +263,7 @@ void PCAP::readTask() {
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const uint8_t* data;
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EventManager::GetInstance().downgradeErrorsOnCurrentThread();
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while(!closing) {
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auto readBytes = pcap.next_ex(interface.fp, &header, &data);
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auto readBytes = pcap.next_ex(interfacevar.fp, &header, &data);
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if(readBytes < 0) {
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report(APIEvent::Type::FailedToRead, APIEvent::Severity::Error);
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break;
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@ -333,7 +334,7 @@ void PCAP::transmitTask() {
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if(transmitQueueCV.wait_for(lk, std::chrono::milliseconds(100), [this] { return !!transmitQueue; }) && !closing && transmitQueue) {
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pcap_send_queue* current = transmitQueue;
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lk.unlock();
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pcap.sendqueue_transmit(interface.fp, current, 0);
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pcap.sendqueue_transmit(interfacevar.fp, current, 0);
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{
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std::lock_guard<std::mutex> lk2(transmitQueueMutex);
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transmitQueue = nullptr;
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@ -1,6 +1,7 @@
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#include "icsneo/platform/windows/registry.h"
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#include <codecvt>
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#include <vector>
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#include <locale>
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using namespace icsneo;
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@ -105,4 +106,4 @@ bool Registry::Get(std::wstring path, std::wstring key, uint32_t& value) {
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bool Registry::Get(std::string path, std::string key, uint32_t& value) {
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return Get(converter.from_bytes(path), converter.from_bytes(key), value);
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}
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}
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@ -60,11 +60,13 @@
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#define caddr_t char*
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#ifdef __MSC_VER
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#if _MSC_VER < 1500
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#define snprintf _snprintf
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#define vsnprintf _vsnprintf
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#define strdup _strdup
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#endif
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#endif // __MSC_VER
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//#define inline __inline
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