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502 lines
12 KiB
502 lines
12 KiB
///////////////////////////////////////////////////////////////////////////////
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//
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// Copyright (c) Microsoft Corp. All rights reserved.
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//
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// FILE
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//
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// radpack.cpp
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//
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// SYNOPSIS
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//
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// Defines functions for packing and unpacking RADIUS packets.
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//
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// MODIFICATION HISTORY
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//
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// 02/01/2000 Original version.
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//
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///////////////////////////////////////////////////////////////////////////////
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#include <proxypch.h>
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#include <align.h>
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#include <md5.h>
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#include <hmac.h>
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#include <radpack.h>
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// Return the number of bytes required to round 'length' to a multiple of 16.
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inline ULONG GetPaddingLength16(ULONG length) throw ()
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{
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return ROUND_UP_COUNT(length, 16) - length;
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}
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// Returns 'true' if attr is a Microsoft VSA. The attribute must be of type 26.
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inline bool isMicrosoftVSA(const RadiusAttribute& attr) throw ()
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{
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return attr.length >= 6 && !memcmp(attr.value, "\x00\x00\x01\x37", 4);
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}
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// Returns 'true' if attr is a Cisco AV-Pair VSA containing a LEAP session key.
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// The attribute must be of type 26.
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inline bool isCiscoLeapSessionKey(const RadiusAttribute& attr) throw ()
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{
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return (attr.length == 57) &&
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(memcmp(
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attr.value,
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"\x00\x00\x00\x09\x01\x35leap:session-key=",
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23
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) == 0);
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}
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// Pack a 16-bit integer into a buffer.
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inline void InsertUInt16(PBYTE p, USHORT value) throw ()
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{
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p[0] = (BYTE)(value >> 8);
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p[1] = (BYTE)value;
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}
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// Unpack a 16-bit integer into a buffer.
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inline USHORT ExtractUInt16(const BYTE* p) throw ()
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{
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return (USHORT)(p[0] << 8) | (USHORT)p[1];
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}
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// Returns the number of bytes of padding that should be added when packing the
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// attribute.
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ULONG
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WINAPI
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GetPaddingLength(
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const RadiusAttribute& attr
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) throw ()
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{
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switch (attr.type)
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{
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case RADIUS_USER_PASSWORD:
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return GetPaddingLength16(attr.length);
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case RADIUS_TUNNEL_PASSWORD:
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// Subtract 1 byte for the tag and 2 for the salt.
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return GetPaddingLength16(attr.length - 3);
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case RADIUS_VENDOR_SPECIFIC:
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{
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if (isMicrosoftVSA(attr))
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{
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switch (attr.value[4])
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{
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case MS_CHAP_MPPE_SEND_KEYS:
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case MS_CHAP_MPPE_RECV_KEYS:
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// Vendor-Id = 4 bytes
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// Vendor-Type = 1 byte
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// Vendor-Length = 1 byte
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// Salt = 2 bytes
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return GetPaddingLength16(attr.length - 8);
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}
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}
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break;
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}
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}
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return 0;
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}
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// Returns information about how to encrypt/decrypt an attribute.
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VOID
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WINAPI
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GetCryptParameters(
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const RadiusAttribute& attr,
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CryptParameters& parms
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) throw ()
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{
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memset(&parms, 0, sizeof(parms));
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switch (attr.type)
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{
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case RADIUS_USER_PASSWORD:
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{
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parms.encrypted = TRUE;
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break;
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}
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case RADIUS_TUNNEL_PASSWORD:
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{
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parms.encrypted = TRUE;
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parms.salted = TRUE;
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parms.offset = 1; // Skip the tag.
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break;
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}
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case RADIUS_VENDOR_SPECIFIC:
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{
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if (isMicrosoftVSA(attr))
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{
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switch (attr.value[4])
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{
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case MS_CHAP_MPPE_KEYS:
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{
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parms.encrypted = TRUE;
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parms.offset = 6; // Skip the VSA header.
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break;
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}
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case MS_CHAP_MPPE_SEND_KEYS:
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case MS_CHAP_MPPE_RECV_KEYS:
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{
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parms.encrypted = TRUE;
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parms.salted = TRUE;
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parms.offset = 6; // Skip the VSA header.
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break;
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}
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}
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}
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else if (isCiscoLeapSessionKey(attr))
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{
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parms.encrypted = TRUE;
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parms.salted = TRUE;
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parms.offset = 23;
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}
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break;
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}
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}
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}
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ULONG
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WINAPI
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GetBufferSizeRequired(
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const RadiusPacket& packet,
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const RadiusAttribute* proxyState,
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BOOL alwaysSign
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) throw ()
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{
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// We'll look for the signature as we iterate through the attributes.
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BOOL hasSignature = FALSE;
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// We always need 20 bytes for the header.
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ULONG nbyte = 20;
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// Iterate through the attributes.
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for (const RadiusAttribute* attr = packet.begin; attr != packet.end; ++attr)
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{
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nbyte += 2; // Two bytes for type & length.
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nbyte += attr->length;
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nbyte += GetPaddingLength(*attr);
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if (attr->type == RADIUS_SIGNATURE)
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{
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hasSignature = TRUE;
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}
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else if (attr->type == RADIUS_EAP_MESSAGE)
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{
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alwaysSign = TRUE;
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}
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}
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// Reserve space for the Proxy-State attribute.
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if (proxyState) { nbyte += proxyState->length + 2; }
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// Reserve space for the signature if necessary.
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if (alwaysSign && !hasSignature && packet.code == RADIUS_ACCESS_REQUEST)
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{
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nbyte += 18;
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}
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return nbyte <= 4096 ? nbyte : 0;
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}
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VOID
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WINAPI
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PackBuffer(
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const BYTE* secret,
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ULONG secretLength,
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RadiusPacket& packet,
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const RadiusAttribute* proxyState,
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BOOL alwaysSign,
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BYTE* buffer
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) throw ()
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{
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// Set up a cursor into the buffer.
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BYTE* dst = buffer;
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// Pack the header.
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*dst++ = packet.code;
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*dst++ = packet.identifier;
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InsertUInt16(dst, packet.length);
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dst += 2;
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// Pack the authenticator.
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if (packet.code == RADIUS_ACCESS_REQUEST)
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{
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memcpy(dst, packet.authenticator, 16);
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}
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else
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{
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memset(dst, 0, 16);
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}
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dst += 16;
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// We'll look for the signature as we iterate through the attributes.
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BYTE* signature = NULL;
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for (const RadiusAttribute* attr = packet.begin; attr != packet.end; ++attr)
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{
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// Pack the type.
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*dst++ = attr->type;
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// Pack the length.
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ULONG paddingLength = GetPaddingLength(*attr);
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ULONG valueLength = attr->length + paddingLength;
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*dst++ = (BYTE)(2 + valueLength);
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if (attr->type == RADIUS_SIGNATURE)
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{
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signature = dst;
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}
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else if (attr->type == RADIUS_EAP_MESSAGE)
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{
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alwaysSign = TRUE;
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}
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// Pack the value ...
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memcpy(dst, attr->value, attr->length);
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// ... and add the padding.
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memset(dst + attr->length, 0, paddingLength);
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// Do we need to encrypt this attribute ?
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CryptParameters parms;
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GetCryptParameters(*attr, parms);
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if (parms.encrypted)
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{
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// Yes.
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IASRadiusCrypt(
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TRUE,
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parms.salted,
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secret,
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secretLength,
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buffer + 4,
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dst + parms.offset,
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valueLength - parms.offset
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);
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}
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dst += valueLength;
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}
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// Add the Proxy-State
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if (proxyState)
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{
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*dst++ = proxyState->type;
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*dst++ = proxyState->length + 2;
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memcpy(dst, proxyState->value, proxyState->length);
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dst += proxyState->length;
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}
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if (packet.code == RADIUS_ACCESS_REQUEST)
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{
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if (alwaysSign && (signature == 0))
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{
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*dst++ = RADIUS_SIGNATURE;
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*dst++ = 18;
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signature = dst;
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}
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if (signature != 0)
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{
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// Compute the signature.
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memset(signature, 0, 16);
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HMACMD5_CTX context;
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HMACMD5Init(&context, (BYTE*)secret, secretLength);
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HMACMD5Update(&context, buffer, packet.length);
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HMACMD5Final(&context, signature);
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}
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}
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else
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{
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// For everything but Access-Request, we compute the authenticator.
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MD5_CTX context;
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MD5Init(&context);
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MD5Update(&context, buffer, packet.length);
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MD5Update(&context, secret, secretLength);
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MD5Final(&context);
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memcpy(buffer + 4, context.digest, 16);
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}
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}
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RadiusAttribute*
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WINAPI
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FindAttribute(
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const RadiusPacket& packet,
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BYTE type
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)
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{
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for (const RadiusAttribute* i = packet.begin; i != packet.end; ++i)
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{
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if (i->type == type) { return const_cast<RadiusAttribute*>(i); }
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}
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return NULL;
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}
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ULONG
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WINAPI
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GetAttributeCount(
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const BYTE* buffer,
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ULONG bufferLength
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) throw ()
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{
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if (bufferLength >= 20 && ExtractUInt16(buffer + 2) == bufferLength)
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{
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ULONG count = 0;
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const BYTE* end = buffer + bufferLength;
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for (const BYTE* p = buffer + 20; p < end; p += p[1])
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{
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++count;
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}
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if (p == end) { return count; }
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}
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return MALFORMED_PACKET;
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}
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VOID
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WINAPI
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UnpackBuffer(
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BYTE* buffer,
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ULONG bufferLength,
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RadiusPacket& packet
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) throw ()
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{
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// Set up a cursor into the buffer.
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BYTE* src = buffer;
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packet.code = *src++;
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packet.identifier = *src++;
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packet.length = ExtractUInt16(src);
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src +=2;
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packet.authenticator = src;
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src += 16;
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RadiusAttribute* dst = packet.begin;
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const BYTE* end = buffer + bufferLength;
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while (src < end)
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{
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dst->type = *src++;
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dst->length = *src++ - 2;
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dst->value = src;
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src += dst->length;
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++dst;
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}
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}
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BYTE*
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WINAPI
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FindRawAttribute(
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BYTE type,
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BYTE* buffer,
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ULONG bufferLength
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)
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{
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BYTE* end = buffer + bufferLength;
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for (BYTE* p = buffer + 20; p < buffer + bufferLength; p += p[1])
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{
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if (*p == type) { return p; }
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}
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return NULL;
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}
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AuthResult
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WINAPI
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AuthenticateAndDecrypt(
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const BYTE* requestAuthenticator,
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const BYTE* secret,
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ULONG secretLength,
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BYTE* buffer,
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ULONG bufferLength,
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RadiusPacket& packet
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) throw ()
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{
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AuthResult result = AUTH_UNKNOWN;
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if (!requestAuthenticator) { requestAuthenticator = buffer + 4; }
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// Check the authenticator for everything but Access-Request.
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if (buffer[0] != RADIUS_ACCESS_REQUEST)
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{
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MD5_CTX context;
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MD5Init(&context);
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MD5Update(&context, buffer, 4);
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MD5Update(&context, requestAuthenticator, 16);
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MD5Update(&context, buffer + 20, bufferLength - 20);
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MD5Update(&context, secret, secretLength);
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MD5Final(&context);
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if (memcmp(context.digest, buffer + 4, 16))
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{
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return AUTH_BAD_AUTHENTICATOR;
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}
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result = AUTH_AUTHENTIC;
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}
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// Look for a signature.
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BYTE* signature = FindRawAttribute(
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RADIUS_SIGNATURE,
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buffer,
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bufferLength
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);
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if (signature)
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{
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if (signature[1] != 18) { return AUTH_BAD_SIGNATURE; }
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signature += 2;
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BYTE sent[16];
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memcpy(sent, signature, 16);
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memset(signature, 0, 16);
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HMACMD5_CTX context;
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HMACMD5Init(&context, (BYTE*)secret, secretLength);
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HMACMD5Update(&context, buffer, 4);
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HMACMD5Update(&context, (BYTE*)requestAuthenticator, 16);
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HMACMD5Update(&context, buffer + 20, bufferLength - 20);
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HMACMD5Final(&context, signature);
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if (memcmp(signature, sent, 16)) { return AUTH_BAD_SIGNATURE; }
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result = AUTH_AUTHENTIC;
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}
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else if (FindRawAttribute(RADIUS_EAP_MESSAGE, buffer, bufferLength))
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{
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return AUTH_MISSING_SIGNATURE;
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}
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// The buffer is authentic, so decrypt the attributes.
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for (const RadiusAttribute* attr = packet.begin; attr != packet.end; ++attr)
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{
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// Do we need to decrypt this attribute ?
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CryptParameters parms;
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GetCryptParameters(*attr, parms);
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if (parms.encrypted)
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{
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// Yes.
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IASRadiusCrypt(
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FALSE,
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parms.salted,
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secret,
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secretLength,
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requestAuthenticator,
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attr->value + parms.offset,
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attr->length - parms.offset
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);
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}
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}
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return result;
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}
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