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298 lines
7.3 KiB
298 lines
7.3 KiB
// ping.cpp
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//
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#include "stdpch.h"
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#pragma hdrstop
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#include "host.h"
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#include "output.h" // COutput
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#include "diag.h"
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#include "async.hh"
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#include "ping.h"
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#include "svcguid.h"
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#include "wire.h" // net structs
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#include <conio.h>
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void fill_icmp_data (char *, int);
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USHORT checksum (USHORT *, int);
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DWORD decode_resp (char *,int ,struct sockaddr_in *, COutput& out);
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BOOL EXPORT CheckPing(TEST_INFO * lpNL)
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{
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g_Q.push_front (new CPing(lpNL));
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return TRUE;
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}
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void CPing::Go()
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{
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SOCKET sockRaw = (SOCKET)NULL;
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struct sockaddr_in dest,from;
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int bread,datasize;
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int fromlen = sizeof(from);
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int timeout;
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int nCount = 0;
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char *icmp_data;
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char *recvbuf;
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unsigned int addr=0;
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USHORT seq_no = 0;
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DWORD dw;
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m_pInfo->dTimeDelta = 0;
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m_pInfo->dwErr = 0;
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if (m_pInfo->host.m_strDescription.size() > 0)
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{
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m_pInfo->output.good(TEXT("pinging (%s) %s<br>"),
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m_pInfo->host.m_strDescription.c_str(),
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m_pInfo->host.GetHost());
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}
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else
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{
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m_pInfo->output.good(TEXT("pinging (%s)<br>"), m_pInfo->host.GetHost());
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}
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//
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// WSA_FLAG_OVERLAPPED flag is required for SO_RCVTIMEO, SO_SNDTIMEO
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// option. If NULL is used as last param for WSASocket, all I/O on the socket
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// is synchronous, the internal user mode wait code never gets a chance to
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// execute, and therefore kernel-mode I/O blocks forever. A socket created
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// via the socket API has the overlapped I/O attribute set internally. But
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// here we need to use WSASocket to specify a RAW socket.
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//
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// If you want to use timeout with a synchronous non-overlapped socket created
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// by WSASocket with last param set to NULL, you can set the timeout using the
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// select API, or use WSAEventSelect and set the timeout in the
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// WSAWaitForMultipleEvents API.
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//
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sockRaw = WSASocket (
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AF_INET,
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SOCK_RAW,
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IPPROTO_ICMP,
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NULL,
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0,
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WSA_FLAG_OVERLAPPED);
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if (sockRaw == INVALID_SOCKET)
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{
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m_pInfo->output.err(TEXT("WSASocket() failed: %d<br>"),m_pInfo->dwErr = WSAGetLastError());
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goto Exit;
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}
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__try
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{
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timeout = 1000;
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bread = setsockopt(
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sockRaw,
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SOL_SOCKET,
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SO_RCVTIMEO,
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(char*)&timeout,
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sizeof(timeout));
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if(bread == SOCKET_ERROR)
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{
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m_pInfo->output.err(TEXT("failed to set recv timeout: %d<br>"), m_pInfo->dwErr = WSAGetLastError());
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__leave;
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}
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timeout = 1000;
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bread = setsockopt(
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sockRaw,
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SOL_SOCKET,
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SO_SNDTIMEO,
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(char*)&timeout,
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sizeof(timeout));
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if(bread == SOCKET_ERROR)
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{
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m_pInfo->output.err(TEXT("failed to set send timeout: %d<br>"), m_pInfo->dwErr = WSAGetLastError());
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__leave;
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}
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memset(&dest, 0, sizeof(dest));
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dest.sin_family = AF_INET;
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if ((dest.sin_addr.s_addr = m_pInfo->host) == INADDR_NONE)
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{
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m_pInfo->output.err(TEXT("failed to gethostbyname (%d)<br>"), m_pInfo->dwErr = WSAHOST_NOT_FOUND);
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__leave;
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}
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datasize = DEF_PACKET_SIZE;
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datasize += sizeof(IcmpHeader);
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icmp_data = (char*)xmalloc(MAX_PACKET);
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recvbuf = (char*)xmalloc(MAX_PACKET);
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if (!icmp_data)
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{
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m_pInfo->output.err(TEXT("HeapAlloc failed %d<br>"),m_pInfo->dwErr = GetLastError());
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__leave;
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}
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memset(icmp_data,0,MAX_PACKET);
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fill_icmp_data(icmp_data,datasize);
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while(1)
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{
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int bwrote;
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if (nCount++ == 4)
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break;
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((IcmpHeader*)icmp_data)->i_cksum = 0;
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((IcmpHeader*)icmp_data)->timestamp = GetTickCount();
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((IcmpHeader*)icmp_data)->i_seq = seq_no++;
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((IcmpHeader*)icmp_data)->i_cksum = checksum((USHORT*)icmp_data,
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datasize);
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bwrote = sendto(sockRaw,icmp_data,datasize,0,(struct sockaddr*)&dest,
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sizeof(dest));
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if (bwrote == SOCKET_ERROR)
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{
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if (WSAGetLastError() == WSAETIMEDOUT)
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{
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m_pInfo->output.err(TEXT("timed out<br>"));
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continue;
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}
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m_pInfo->output.err(TEXT("sendto failed: %d<br>"),m_pInfo->dwErr = WSAGetLastError());
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__leave;
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}
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if (bwrote < datasize )
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{
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m_pInfo->output.good(TEXT("Wrote %d bytes<br>"),bwrote);
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}
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bread = recvfrom(
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sockRaw,
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recvbuf,
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MAX_PACKET,
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0,
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(struct sockaddr*)&from,
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&fromlen);
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if (bread == SOCKET_ERROR)
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{
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if (WSAGetLastError() == WSAETIMEDOUT)
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{
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m_pInfo->output.err(TEXT("timed out<br>"));
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m_pInfo->dwErr = WSAETIMEDOUT;
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continue;
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}
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m_pInfo->output.err(TEXT("recvfrom failed: %d<br>"),m_pInfo->dwErr = WSAGetLastError());
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__leave;
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}
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if (S_OK != (dw = decode_resp(recvbuf, bread, &from, m_pInfo->output)))
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{
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m_pInfo->dwErr = dw;
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continue;
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}
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}
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}
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__finally
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{
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if (sockRaw != INVALID_SOCKET)
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closesocket(sockRaw);
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}
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Exit:
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if (m_pInfo->hEvent)
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SetEvent(m_pInfo->hEvent);
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}
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/*
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The response is an IP packet. We must decode the IP header to locate
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the ICMP data
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*/
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DWORD decode_resp(char *buf, int bytes,struct sockaddr_in *from, COutput& out)
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{
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IpHeader *iphdr;
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IcmpHeader *icmphdr;
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unsigned short iphdrlen;
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iphdr = (IpHeader *)buf;
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iphdrlen = iphdr->h_len * 4 ; // number of 32-bit words *4 = bytes
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if (bytes < iphdrlen + ICMP_MIN)
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{
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out.err(TEXT("Too few bytes from %s<br>"),inet_ntoa(from->sin_addr));
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return ERROR_INVALID_DATA;
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}
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icmphdr = (IcmpHeader*)(buf + iphdrlen);
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if (icmphdr->i_type != ICMP_ECHOREPLY)
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{
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out.err(TEXT("non-echo type %d recvd<br>"),icmphdr->i_type);
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return ERROR_INVALID_DATA;
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}
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if (icmphdr->i_id != (USHORT)GetCurrentProcessId())
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{
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out.err(TEXT("someone else's packet!<br>"));
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return ERROR_INVALID_DATA;
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}
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#ifdef UNICODE
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const wchar_t * szBytes = TEXT("%d bytes from %S:");
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#else
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const char * szBytes = TEXT("%d bytes from %s:");
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#endif
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out.good(szBytes, bytes, inet_ntoa(from->sin_addr));
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out.good(TEXT(" icmp_seq = %d. "),icmphdr->i_seq);
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out.good(TEXT(" time: %d ms<br>"),GetTickCount()-icmphdr->timestamp);
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return S_OK;
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}
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USHORT checksum(USHORT *buffer, int size) {
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unsigned long cksum=0;
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while(size >1) {
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cksum+=*buffer++;
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size -=sizeof(USHORT);
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}
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if(size ) {
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cksum += *(UCHAR*)buffer;
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}
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cksum = (cksum >> 16) + (cksum & 0xffff);
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cksum += (cksum >>16);
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return (USHORT)(~cksum);
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}
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/*
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Helper function to fill in various stuff in our ICMP request.
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*/
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void fill_icmp_data(char * icmp_data, int datasize){
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IcmpHeader *icmp_hdr;
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char *datapart;
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icmp_hdr = (IcmpHeader*)icmp_data;
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icmp_hdr->i_type = ICMP_ECHO;
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icmp_hdr->i_code = 0;
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icmp_hdr->i_id = (USHORT)GetCurrentProcessId();
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icmp_hdr->i_cksum = 0;
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icmp_hdr->i_seq = 0;
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datapart = icmp_data + sizeof(IcmpHeader);
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//
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// Place some junk in the buffer.
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//
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memset(datapart,'E', datasize - sizeof(IcmpHeader));
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}
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