webrtc/base/winping.cc - src - Git at Google

 /*
  *  Copyright 2004 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "webrtc/base/winping.h"

 #include <assert.h>
 #include <Iphlpapi.h>

 #include <algorithm>

 #include "webrtc/base/byteorder.h"
 #include "webrtc/base/common.h"
 #include "webrtc/base/ipaddress.h"
 #include "webrtc/base/logging.h"
 #include "webrtc/base/nethelpers.h"
 #include "webrtc/base/socketaddress.h"

 namespace rtc {

 //////////////////////////////////////////////////////////////////////
 // Found in IPExport.h
 //////////////////////////////////////////////////////////////////////

 typedef struct icmp_echo_reply {
     ULONG   Address;            // Replying address
     ULONG   Status;             // Reply IP_STATUS
     ULONG   RoundTripTime;      // RTT in milliseconds
     USHORT  DataSize;           // Reply data size in bytes
     USHORT  Reserved;           // Reserved for system use
     PVOID   Data;               // Pointer to the reply data
     struct ip_option_information Options; // Reply options
 } ICMP_ECHO_REPLY, * PICMP_ECHO_REPLY;

 typedef struct icmpv6_echo_reply_lh {
   sockaddr_in6    Address;
   ULONG           Status;
   unsigned int    RoundTripTime;
 } ICMPV6_ECHO_REPLY, *PICMPV6_ECHO_REPLY;

 //
 // IP_STATUS codes returned from IP APIs
 //

 #define IP_STATUS_BASE              11000

 #define IP_SUCCESS                  0
 #define IP_BUF_TOO_SMALL            (IP_STATUS_BASE + 1)
 #define IP_DEST_NET_UNREACHABLE     (IP_STATUS_BASE + 2)
 #define IP_DEST_HOST_UNREACHABLE    (IP_STATUS_BASE + 3)
 #define IP_DEST_PROT_UNREACHABLE    (IP_STATUS_BASE + 4)
 #define IP_DEST_PORT_UNREACHABLE    (IP_STATUS_BASE + 5)
 #define IP_NO_RESOURCES             (IP_STATUS_BASE + 6)
 #define IP_BAD_OPTION               (IP_STATUS_BASE + 7)
 #define IP_HW_ERROR                 (IP_STATUS_BASE + 8)
 #define IP_PACKET_TOO_BIG           (IP_STATUS_BASE + 9)
 #define IP_REQ_TIMED_OUT            (IP_STATUS_BASE + 10)
 #define IP_BAD_REQ                  (IP_STATUS_BASE + 11)
 #define IP_BAD_ROUTE                (IP_STATUS_BASE + 12)
 #define IP_TTL_EXPIRED_TRANSIT      (IP_STATUS_BASE + 13)
 #define IP_TTL_EXPIRED_REASSEM      (IP_STATUS_BASE + 14)
 #define IP_PARAM_PROBLEM            (IP_STATUS_BASE + 15)
 #define IP_SOURCE_QUENCH            (IP_STATUS_BASE + 16)
 #define IP_OPTION_TOO_BIG           (IP_STATUS_BASE + 17)
 #define IP_BAD_DESTINATION          (IP_STATUS_BASE + 18)

 #define IP_ADDR_DELETED             (IP_STATUS_BASE + 19)
 #define IP_SPEC_MTU_CHANGE          (IP_STATUS_BASE + 20)
 #define IP_MTU_CHANGE               (IP_STATUS_BASE + 21)
 #define IP_UNLOAD                   (IP_STATUS_BASE + 22)
 #define IP_ADDR_ADDED               (IP_STATUS_BASE + 23)
 #define IP_MEDIA_CONNECT            (IP_STATUS_BASE + 24)
 #define IP_MEDIA_DISCONNECT         (IP_STATUS_BASE + 25)
 #define IP_BIND_ADAPTER             (IP_STATUS_BASE + 26)
 #define IP_UNBIND_ADAPTER           (IP_STATUS_BASE + 27)
 #define IP_DEVICE_DOES_NOT_EXIST    (IP_STATUS_BASE + 28)
 #define IP_DUPLICATE_ADDRESS        (IP_STATUS_BASE + 29)
 #define IP_INTERFACE_METRIC_CHANGE  (IP_STATUS_BASE + 30)
 #define IP_RECONFIG_SECFLTR         (IP_STATUS_BASE + 31)
 #define IP_NEGOTIATING_IPSEC        (IP_STATUS_BASE + 32)
 #define IP_INTERFACE_WOL_CAPABILITY_CHANGE  (IP_STATUS_BASE + 33)
 #define IP_DUPLICATE_IPADD          (IP_STATUS_BASE + 34)

 #define IP_GENERAL_FAILURE          (IP_STATUS_BASE + 50)
 #define MAX_IP_STATUS               IP_GENERAL_FAILURE
 #define IP_PENDING                  (IP_STATUS_BASE + 255)

 //
 // Values used in the IP header Flags field.
 //
 #define IP_FLAG_DF      0x2         // Don't fragment this packet.

 //
 // Supported IP Option Types.
 //
 // These types define the options which may be used in the OptionsData field
 // of the ip_option_information structure.  See RFC 791 for a complete
 // description of each.
 //
 #define IP_OPT_EOL      0          // End of list option
 #define IP_OPT_NOP      1          // No operation
 #define IP_OPT_SECURITY 0x82       // Security option
 #define IP_OPT_LSRR     0x83       // Loose source route
 #define IP_OPT_SSRR     0x89       // Strict source route
 #define IP_OPT_RR       0x7        // Record route
 #define IP_OPT_TS       0x44       // Timestamp
 #define IP_OPT_SID      0x88       // Stream ID (obsolete)
 #define IP_OPT_ROUTER_ALERT 0x94  // Router Alert Option

 #define MAX_OPT_SIZE    40         // Maximum length of IP options in bytes

 //////////////////////////////////////////////////////////////////////
 // Global Constants and Types
 //////////////////////////////////////////////////////////////////////

 const char * const ICMP_DLL_NAME = "Iphlpapi.dll";
 const char * const ICMP_CREATE_FUNC = "IcmpCreateFile";
 const char * const ICMP_CLOSE_FUNC = "IcmpCloseHandle";
 const char * const ICMP_SEND_FUNC = "IcmpSendEcho";
 const char * const ICMP6_CREATE_FUNC = "Icmp6CreateFile";
 const char * const ICMP6_SEND_FUNC = "Icmp6SendEcho2";

 inline uint32 ReplySize(uint32 data_size, int family) {
   if (family == AF_INET) {
     // A ping error message is 8 bytes long, so make sure we allow for at least
     // 8 bytes of reply data.
     return sizeof(ICMP_ECHO_REPLY) + std::max<uint32>(8, data_size);
   } else if (family == AF_INET6) {
     // Per MSDN, Send6IcmpEcho2 needs at least one ICMPV6_ECHO_REPLY,
     // 8 bytes for ICMP header, _and_ an IO_BLOCK_STATUS (2 pointers),
     // in addition to the data size.
     return sizeof(ICMPV6_ECHO_REPLY) + data_size + 8 + (2 * sizeof(DWORD*));
   } else {
     return 0;
   }
 }

 //////////////////////////////////////////////////////////////////////
 // WinPing
 //////////////////////////////////////////////////////////////////////

 WinPing::WinPing()
     : dll_(0), hping_(INVALID_HANDLE_VALUE), create_(0), close_(0), send_(0),
       create6_(0), send6_(0), data_(0), dlen_(0), reply_(0),
       rlen_(0), valid_(false) {

   dll_ = LoadLibraryA(ICMP_DLL_NAME);
   if (!dll_) {
     LOG(LERROR) << "LoadLibrary: " << GetLastError();
     return;
   }

   create_ = (PIcmpCreateFile) GetProcAddress(dll_, ICMP_CREATE_FUNC);
   close_ = (PIcmpCloseHandle) GetProcAddress(dll_, ICMP_CLOSE_FUNC);
   send_ = (PIcmpSendEcho) GetProcAddress(dll_, ICMP_SEND_FUNC);
   if (!create_ || !close_ || !send_) {
     LOG(LERROR) << "GetProcAddress(ICMP_*): " << GetLastError();
     return;
   }
   hping_ = create_();
   if (hping_ == INVALID_HANDLE_VALUE) {
     LOG(LERROR) << "IcmpCreateFile: " << GetLastError();
     return;
   }

   if (HasIPv6Enabled()) {
     create6_ = (PIcmp6CreateFile) GetProcAddress(dll_, ICMP6_CREATE_FUNC);
     send6_ = (PIcmp6SendEcho2) GetProcAddress(dll_, ICMP6_SEND_FUNC);
     if (!create6_ || !send6_) {
       LOG(LERROR) << "GetProcAddress(ICMP6_*): " << GetLastError();
       return;
     }
     hping6_ = create6_();
     if (hping6_ == INVALID_HANDLE_VALUE) {
       LOG(LERROR) << "Icmp6CreateFile: " << GetLastError();
     }
   }

   dlen_ = 0;
   rlen_ = ReplySize(dlen_, AF_INET);
   data_ = new char[dlen_];
   reply_ = new char[rlen_];

   valid_ = true;
 }

 WinPing::~WinPing() {
   if ((hping_ != INVALID_HANDLE_VALUE) && close_) {
     if (!close_(hping_))
       LOG(WARNING) << "IcmpCloseHandle: " << GetLastError();
   }
   if ((hping6_ != INVALID_HANDLE_VALUE) && close_) {
     if (!close_(hping6_)) {
       LOG(WARNING) << "Icmp6CloseHandle: " << GetLastError();
     }
   }

   if (dll_)
     FreeLibrary(dll_);

   delete[] data_;
   delete[] reply_;
 }

 WinPing::PingResult WinPing::Ping(
     IPAddress ip, uint32 data_size, uint32 timeout, uint8 ttl,
     bool allow_fragments) {

   if (data_size == 0 || timeout == 0 || ttl == 0) {
     LOG(LERROR) << "IcmpSendEcho: data_size/timeout/ttl is 0.";
     return PING_INVALID_PARAMS;
   }

   assert(IsValid());

   IP_OPTION_INFORMATION ipopt;
   memset(&ipopt, 0, sizeof(ipopt));
   if (!allow_fragments)
     ipopt.Flags |= IP_FLAG_DF;
   ipopt.Ttl = ttl;

   uint32 reply_size = ReplySize(data_size, ip.family());

   if (data_size > dlen_) {
     delete [] data_;
     dlen_ = data_size;
     data_ = new char[dlen_];
     memset(data_, 'z', dlen_);
   }

   if (reply_size > rlen_) {
     delete [] reply_;
     rlen_ = reply_size;
     reply_ = new char[rlen_];
   }
   DWORD result = 0;
   if (ip.family() == AF_INET) {
     result = send_(hping_, ip.ipv4_address().S_un.S_addr,
                    data_, uint16(data_size), &ipopt,
                    reply_, reply_size, timeout);
   } else if (ip.family() == AF_INET6) {
     sockaddr_in6 src = {0};
     sockaddr_in6 dst = {0};
     src.sin6_family = AF_INET6;
     dst.sin6_family = AF_INET6;
     dst.sin6_addr = ip.ipv6_address();
     result = send6_(hping6_, NULL, NULL, NULL,
                     &src, &dst,
                     data_, int16(data_size), &ipopt,
                     reply_, reply_size, timeout);
   }
   if (result == 0) {
     DWORD error = GetLastError();
     if (error == IP_PACKET_TOO_BIG)
       return PING_TOO_LARGE;
     if (error == IP_REQ_TIMED_OUT)
       return PING_TIMEOUT;
     LOG(LERROR) << "IcmpSendEcho(" << ip.ToSensitiveString()
                 << ", " << data_size << "): " << error;
     return PING_FAIL;
   }

   return PING_SUCCESS;
 }

 //////////////////////////////////////////////////////////////////////
 // Microsoft Documenation
 //////////////////////////////////////////////////////////////////////
 //
 // Routine Name:
 //
 //     IcmpCreateFile
 //
 // Routine Description:
 //
 //     Opens a handle on which ICMP Echo Requests can be issued.
 //
 // Arguments:
 //
 //     None.
 //
 // Return Value:
 //
 //     An open file handle or INVALID_HANDLE_VALUE. Extended error information
 //     is available by calling GetLastError().
 //
 //////////////////////////////////////////////////////////////////////
 //
 // Routine Name:
 //
 //     IcmpCloseHandle
 //
 // Routine Description:
 //
 //     Closes a handle opened by ICMPOpenFile.
 //
 // Arguments:
 //
 //     IcmpHandle  - The handle to close.
 //
 // Return Value:
 //
 //     TRUE if the handle was closed successfully, otherwise FALSE. Extended
 //     error information is available by calling GetLastError().
 //
 //////////////////////////////////////////////////////////////////////
 //
 // Routine Name:
 //
 //     IcmpSendEcho
 //
 // Routine Description:
 //
 //     Sends an ICMP Echo request and returns any replies. The
 //     call returns when the timeout has expired or the reply buffer
 //     is filled.
 //
 // Arguments:
 //
 //     IcmpHandle           - An open handle returned by ICMPCreateFile.
 //
 //     DestinationAddress   - The destination of the echo request.
 //
 //     RequestData          - A buffer containing the data to send in the
 //                            request.
 //
 //     RequestSize          - The number of bytes in the request data buffer.
 //
 //     RequestOptions       - Pointer to the IP header options for the request.
 //                            May be NULL.
 //
 //     ReplyBuffer          - A buffer to hold any replies to the request.
 //                            On return, the buffer will contain an array of
 //                            ICMP_ECHO_REPLY structures followed by the
 //                            options and data for the replies. The buffer
 //                            should be large enough to hold at least one
 //                            ICMP_ECHO_REPLY structure plus
 //                            MAX(RequestSize, 8) bytes of data since an ICMP
 //                            error message contains 8 bytes of data.
 //
 //     ReplySize            - The size in bytes of the reply buffer.
 //
 //     Timeout              - The time in milliseconds to wait for replies.
 //
 // Return Value:
 //
 //     Returns the number of ICMP_ECHO_REPLY structures stored in ReplyBuffer.
 //     The status of each reply is contained in the structure. If the return
 //     value is zero, extended error information is available via
 //     GetLastError().
 //
 //////////////////////////////////////////////////////////////////////

 } // namespace rtc
	/*
	* Copyright 2004 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "webrtc/base/winping.h"

	#include <assert.h>
	#include <Iphlpapi.h>

	#include <algorithm>

	#include "webrtc/base/byteorder.h"
	#include "webrtc/base/common.h"
	#include "webrtc/base/ipaddress.h"
	#include "webrtc/base/logging.h"
	#include "webrtc/base/nethelpers.h"
	#include "webrtc/base/socketaddress.h"

	namespace rtc {

	//////////////////////////////////////////////////////////////////////
	// Found in IPExport.h
	//////////////////////////////////////////////////////////////////////

	typedef struct icmp_echo_reply {
	ULONG Address; // Replying address
	ULONG Status; // Reply IP_STATUS
	ULONG RoundTripTime; // RTT in milliseconds
	USHORT DataSize; // Reply data size in bytes
	USHORT Reserved; // Reserved for system use
	PVOID Data; // Pointer to the reply data
	struct ip_option_information Options; // Reply options
	} ICMP_ECHO_REPLY, * PICMP_ECHO_REPLY;

	typedef struct icmpv6_echo_reply_lh {
	sockaddr_in6 Address;
	ULONG Status;
	unsigned int RoundTripTime;
	} ICMPV6_ECHO_REPLY, *PICMPV6_ECHO_REPLY;

	//
	// IP_STATUS codes returned from IP APIs
	//

	#define IP_STATUS_BASE 11000

	#define IP_SUCCESS 0
	#define IP_BUF_TOO_SMALL (IP_STATUS_BASE + 1)
	#define IP_DEST_NET_UNREACHABLE (IP_STATUS_BASE + 2)
	#define IP_DEST_HOST_UNREACHABLE (IP_STATUS_BASE + 3)
	#define IP_DEST_PROT_UNREACHABLE (IP_STATUS_BASE + 4)
	#define IP_DEST_PORT_UNREACHABLE (IP_STATUS_BASE + 5)
	#define IP_NO_RESOURCES (IP_STATUS_BASE + 6)
	#define IP_BAD_OPTION (IP_STATUS_BASE + 7)
	#define IP_HW_ERROR (IP_STATUS_BASE + 8)
	#define IP_PACKET_TOO_BIG (IP_STATUS_BASE + 9)
	#define IP_REQ_TIMED_OUT (IP_STATUS_BASE + 10)
	#define IP_BAD_REQ (IP_STATUS_BASE + 11)
	#define IP_BAD_ROUTE (IP_STATUS_BASE + 12)
	#define IP_TTL_EXPIRED_TRANSIT (IP_STATUS_BASE + 13)
	#define IP_TTL_EXPIRED_REASSEM (IP_STATUS_BASE + 14)
	#define IP_PARAM_PROBLEM (IP_STATUS_BASE + 15)
	#define IP_SOURCE_QUENCH (IP_STATUS_BASE + 16)
	#define IP_OPTION_TOO_BIG (IP_STATUS_BASE + 17)
	#define IP_BAD_DESTINATION (IP_STATUS_BASE + 18)

	#define IP_ADDR_DELETED (IP_STATUS_BASE + 19)
	#define IP_SPEC_MTU_CHANGE (IP_STATUS_BASE + 20)
	#define IP_MTU_CHANGE (IP_STATUS_BASE + 21)
	#define IP_UNLOAD (IP_STATUS_BASE + 22)
	#define IP_ADDR_ADDED (IP_STATUS_BASE + 23)
	#define IP_MEDIA_CONNECT (IP_STATUS_BASE + 24)
	#define IP_MEDIA_DISCONNECT (IP_STATUS_BASE + 25)
	#define IP_BIND_ADAPTER (IP_STATUS_BASE + 26)
	#define IP_UNBIND_ADAPTER (IP_STATUS_BASE + 27)
	#define IP_DEVICE_DOES_NOT_EXIST (IP_STATUS_BASE + 28)
	#define IP_DUPLICATE_ADDRESS (IP_STATUS_BASE + 29)
	#define IP_INTERFACE_METRIC_CHANGE (IP_STATUS_BASE + 30)
	#define IP_RECONFIG_SECFLTR (IP_STATUS_BASE + 31)
	#define IP_NEGOTIATING_IPSEC (IP_STATUS_BASE + 32)
	#define IP_INTERFACE_WOL_CAPABILITY_CHANGE (IP_STATUS_BASE + 33)
	#define IP_DUPLICATE_IPADD (IP_STATUS_BASE + 34)

	#define IP_GENERAL_FAILURE (IP_STATUS_BASE + 50)
	#define MAX_IP_STATUS IP_GENERAL_FAILURE
	#define IP_PENDING (IP_STATUS_BASE + 255)

	//
	// Values used in the IP header Flags field.
	//
	#define IP_FLAG_DF 0x2 // Don't fragment this packet.

	//
	// Supported IP Option Types.
	//
	// These types define the options which may be used in the OptionsData field
	// of the ip_option_information structure. See RFC 791 for a complete
	// description of each.
	//
	#define IP_OPT_EOL 0 // End of list option
	#define IP_OPT_NOP 1 // No operation
	#define IP_OPT_SECURITY 0x82 // Security option
	#define IP_OPT_LSRR 0x83 // Loose source route
	#define IP_OPT_SSRR 0x89 // Strict source route
	#define IP_OPT_RR 0x7 // Record route
	#define IP_OPT_TS 0x44 // Timestamp
	#define IP_OPT_SID 0x88 // Stream ID (obsolete)
	#define IP_OPT_ROUTER_ALERT 0x94 // Router Alert Option

	#define MAX_OPT_SIZE 40 // Maximum length of IP options in bytes

	//////////////////////////////////////////////////////////////////////
	// Global Constants and Types
	//////////////////////////////////////////////////////////////////////

	const char * const ICMP_DLL_NAME = "Iphlpapi.dll";
	const char * const ICMP_CREATE_FUNC = "IcmpCreateFile";
	const char * const ICMP_CLOSE_FUNC = "IcmpCloseHandle";
	const char * const ICMP_SEND_FUNC = "IcmpSendEcho";
	const char * const ICMP6_CREATE_FUNC = "Icmp6CreateFile";
	const char * const ICMP6_SEND_FUNC = "Icmp6SendEcho2";

	inline uint32 ReplySize(uint32 data_size, int family) {
	if (family == AF_INET) {
	// A ping error message is 8 bytes long, so make sure we allow for at least
	// 8 bytes of reply data.
	return sizeof(ICMP_ECHO_REPLY) + std::max<uint32>(8, data_size);
	} else if (family == AF_INET6) {
	// Per MSDN, Send6IcmpEcho2 needs at least one ICMPV6_ECHO_REPLY,
	// 8 bytes for ICMP header, _and_ an IO_BLOCK_STATUS (2 pointers),
	// in addition to the data size.
	return sizeof(ICMPV6_ECHO_REPLY) + data_size + 8 + (2 * sizeof(DWORD*));
	} else {
	return 0;
	}
	}

	//////////////////////////////////////////////////////////////////////
	// WinPing
	//////////////////////////////////////////////////////////////////////

	WinPing::WinPing()
	: dll_(0), hping_(INVALID_HANDLE_VALUE), create_(0), close_(0), send_(0),
	create6_(0), send6_(0), data_(0), dlen_(0), reply_(0),
	rlen_(0), valid_(false) {

	dll_ = LoadLibraryA(ICMP_DLL_NAME);
	if (!dll_) {
	LOG(LERROR) << "LoadLibrary: " << GetLastError();
	return;
	}

	create_ = (PIcmpCreateFile) GetProcAddress(dll_, ICMP_CREATE_FUNC);
	close_ = (PIcmpCloseHandle) GetProcAddress(dll_, ICMP_CLOSE_FUNC);
	send_ = (PIcmpSendEcho) GetProcAddress(dll_, ICMP_SEND_FUNC);
	if (!create_ \|\| !close_ \|\| !send_) {
	LOG(LERROR) << "GetProcAddress(ICMP_*): " << GetLastError();
	return;
	}
	hping_ = create_();
	if (hping_ == INVALID_HANDLE_VALUE) {
	LOG(LERROR) << "IcmpCreateFile: " << GetLastError();
	return;
	}

	if (HasIPv6Enabled()) {
	create6_ = (PIcmp6CreateFile) GetProcAddress(dll_, ICMP6_CREATE_FUNC);
	send6_ = (PIcmp6SendEcho2) GetProcAddress(dll_, ICMP6_SEND_FUNC);
	if (!create6_ \|\| !send6_) {
	LOG(LERROR) << "GetProcAddress(ICMP6_*): " << GetLastError();
	return;
	}
	hping6_ = create6_();
	if (hping6_ == INVALID_HANDLE_VALUE) {
	LOG(LERROR) << "Icmp6CreateFile: " << GetLastError();
	}
	}

	dlen_ = 0;
	rlen_ = ReplySize(dlen_, AF_INET);
	data_ = new char[dlen_];
	reply_ = new char[rlen_];

	valid_ = true;
	}

	WinPing::~WinPing() {
	if ((hping_ != INVALID_HANDLE_VALUE) && close_) {
	if (!close_(hping_))
	LOG(WARNING) << "IcmpCloseHandle: " << GetLastError();
	}
	if ((hping6_ != INVALID_HANDLE_VALUE) && close_) {
	if (!close_(hping6_)) {
	LOG(WARNING) << "Icmp6CloseHandle: " << GetLastError();
	}
	}

	if (dll_)
	FreeLibrary(dll_);

	delete[] data_;
	delete[] reply_;
	}

	WinPing::PingResult WinPing::Ping(
	IPAddress ip, uint32 data_size, uint32 timeout, uint8 ttl,
	bool allow_fragments) {

	if (data_size == 0 \|\| timeout == 0 \|\| ttl == 0) {
	LOG(LERROR) << "IcmpSendEcho: data_size/timeout/ttl is 0.";
	return PING_INVALID_PARAMS;
	}

	assert(IsValid());

	IP_OPTION_INFORMATION ipopt;
	memset(&ipopt, 0, sizeof(ipopt));
	if (!allow_fragments)
	ipopt.Flags \|= IP_FLAG_DF;
	ipopt.Ttl = ttl;

	uint32 reply_size = ReplySize(data_size, ip.family());

	if (data_size > dlen_) {
	delete [] data_;
	dlen_ = data_size;
	data_ = new char[dlen_];
	memset(data_, 'z', dlen_);
	}

	if (reply_size > rlen_) {
	delete [] reply_;
	rlen_ = reply_size;
	reply_ = new char[rlen_];
	}
	DWORD result = 0;
	if (ip.family() == AF_INET) {
	result = send_(hping_, ip.ipv4_address().S_un.S_addr,
	data_, uint16(data_size), &ipopt,
	reply_, reply_size, timeout);
	} else if (ip.family() == AF_INET6) {
	sockaddr_in6 src = {0};
	sockaddr_in6 dst = {0};
	src.sin6_family = AF_INET6;
	dst.sin6_family = AF_INET6;
	dst.sin6_addr = ip.ipv6_address();
	result = send6_(hping6_, NULL, NULL, NULL,
	&src, &dst,
	data_, int16(data_size), &ipopt,
	reply_, reply_size, timeout);
	}
	if (result == 0) {
	DWORD error = GetLastError();
	if (error == IP_PACKET_TOO_BIG)
	return PING_TOO_LARGE;
	if (error == IP_REQ_TIMED_OUT)
	return PING_TIMEOUT;
	LOG(LERROR) << "IcmpSendEcho(" << ip.ToSensitiveString()
	<< ", " << data_size << "): " << error;
	return PING_FAIL;
	}

	return PING_SUCCESS;
	}

	//////////////////////////////////////////////////////////////////////
	// Microsoft Documenation
	//////////////////////////////////////////////////////////////////////
	//
	// Routine Name:
	//
	// IcmpCreateFile
	//
	// Routine Description:
	//
	// Opens a handle on which ICMP Echo Requests can be issued.
	//
	// Arguments:
	//
	// None.
	//
	// Return Value:
	//
	// An open file handle or INVALID_HANDLE_VALUE. Extended error information
	// is available by calling GetLastError().
	//
	//////////////////////////////////////////////////////////////////////
	//
	// Routine Name:
	//
	// IcmpCloseHandle
	//
	// Routine Description:
	//
	// Closes a handle opened by ICMPOpenFile.
	//
	// Arguments:
	//
	// IcmpHandle - The handle to close.
	//
	// Return Value:
	//
	// TRUE if the handle was closed successfully, otherwise FALSE. Extended
	// error information is available by calling GetLastError().
	//
	//////////////////////////////////////////////////////////////////////
	//
	// Routine Name:
	//
	// IcmpSendEcho
	//
	// Routine Description:
	//
	// Sends an ICMP Echo request and returns any replies. The
	// call returns when the timeout has expired or the reply buffer
	// is filled.
	//
	// Arguments:
	//
	// IcmpHandle - An open handle returned by ICMPCreateFile.
	//
	// DestinationAddress - The destination of the echo request.
	//
	// RequestData - A buffer containing the data to send in the
	// request.
	//
	// RequestSize - The number of bytes in the request data buffer.
	//
	// RequestOptions - Pointer to the IP header options for the request.
	// May be NULL.
	//
	// ReplyBuffer - A buffer to hold any replies to the request.
	// On return, the buffer will contain an array of
	// ICMP_ECHO_REPLY structures followed by the
	// options and data for the replies. The buffer
	// should be large enough to hold at least one
	// ICMP_ECHO_REPLY structure plus
	// MAX(RequestSize, 8) bytes of data since an ICMP
	// error message contains 8 bytes of data.
	//
	// ReplySize - The size in bytes of the reply buffer.
	//
	// Timeout - The time in milliseconds to wait for replies.
	//
	// Return Value:
	//
	// Returns the number of ICMP_ECHO_REPLY structures stored in ReplyBuffer.
	// The status of each reply is contained in the structure. If the return
	// value is zero, extended error information is available via
	// GetLastError().
	//
	//////////////////////////////////////////////////////////////////////

	} // namespace rtc