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windivert_shared.c
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/*
* windivert_shared.c
* (C) 2019, all rights reserved,
*
* This file is part of WinDivert.
*
* WinDivert is free software: you can redistribute it and/or modify it under
* the terms of the GNU Lesser General Public License as published by the
* Free Software Foundation, either version 3 of the License, or (at your
* option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public
* License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* WinDivert is free software; you can redistribute it and/or modify it under
* the terms of the GNU General Public License as published by the Free
* Software Foundation; either version 2 of the License, or (at your option)
* any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc., 51
* Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#define WINDIVERT_OBJECT_MAXLEN \
(8 + 4 + 2 + WINDIVERT_FILTER_MAXLEN * (1 + 1 + 2 + 2 + 4*7 + 3 + 3) + 1)
#define MAX(a, b) ((a) > (b)? (a): (b))
/*
* Definitions to remove (some) external dependencies:
*/
#define BYTESWAP16(x) \
((((x) >> 8) & 0x00FFu) | (((x) << 8) & 0xFF00u))
#define BYTESWAP32(x) \
((((x) >> 24) & 0x000000FFu) | (((x) >> 8) & 0x0000FF00u) | \
(((x) << 8) & 0x00FF0000u) | (((x) << 24) & 0xFF000000u))
#define BYTESWAP64(x) \
((((x) >> 56) & 0x00000000000000FFull) | \
(((x) >> 40) & 0x000000000000FF00ull) | \
(((x) >> 24) & 0x0000000000FF0000ull) | \
(((x) >> 8) & 0x00000000FF000000ull) | \
(((x) << 8) & 0x000000FF00000000ull) | \
(((x) << 24) & 0x0000FF0000000000ull) | \
(((x) << 40) & 0x00FF000000000000ull) | \
(((x) << 56) & 0xFF00000000000000ull))
#define ntohs(x) BYTESWAP16(x)
#define htons(x) BYTESWAP16(x)
#define ntohl(x) BYTESWAP32(x)
#define htonl(x) BYTESWAP32(x)
/*
* Layer flags shorthand.
*/
#define WINDIVERT_LAYER_FLAG_NETWORK (1 << WINDIVERT_LAYER_NETWORK)
#define WINDIVERT_LAYER_FLAG_NETWORK_FORWARD \
(1 << WINDIVERT_LAYER_NETWORK_FORWARD)
#define WINDIVERT_LAYER_FLAG_FLOW (1 << WINDIVERT_LAYER_FLOW)
#define WINDIVERT_LAYER_FLAG_SOCKET (1 << WINDIVERT_LAYER_SOCKET)
#define WINDIVERT_LAYER_FLAG_REFLECT (1 << WINDIVERT_LAYER_REFLECT)
#define LNMFSR (WINDIVERT_LAYER_FLAG_NETWORK | \
WINDIVERT_LAYER_FLAG_NETWORK_FORWARD | \
WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_SOCKET | \
WINDIVERT_LAYER_FLAG_REFLECT)
#define LNMFS_ (WINDIVERT_LAYER_FLAG_NETWORK | \
WINDIVERT_LAYER_FLAG_NETWORK_FORWARD | \
WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_SOCKET)
#define L__F_R (WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_REFLECT)
#define LN_FS_ (WINDIVERT_LAYER_FLAG_NETWORK | \
WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_SOCKET)
#define L__FS_ (WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_SOCKET)
#define L___SR (WINDIVERT_LAYER_FLAG_SOCKET | \
WINDIVERT_LAYER_FLAG_REFLECT)
#define L__FSR (WINDIVERT_LAYER_FLAG_FLOW | \
WINDIVERT_LAYER_FLAG_SOCKET | \
WINDIVERT_LAYER_FLAG_REFLECT)
#define LNM___ (WINDIVERT_LAYER_FLAG_NETWORK | \
WINDIVERT_LAYER_FLAG_NETWORK_FORWARD)
#define L__F__ WINDIVERT_LAYER_FLAG_FLOW
#define L___S_ WINDIVERT_LAYER_FLAG_SOCKET
#define L____R WINDIVERT_LAYER_FLAG_REFLECT
#if defined(WIN32) && defined(_MSC_VER)
#pragma intrinsic(__emulu)
static UINT64 WinDivertMul64(UINT64 a, UINT64 b)
{
UINT64 r = __emulu((UINT32)a, (UINT32)b);
r += __emulu((UINT32)(a >> 32), (UINT32)b) << 32;
r += __emulu((UINT32)a, (UINT32)(b >> 32)) << 32;
return r;
}
#define WINDIVERT_MUL64(a, b) WinDivertMul64(a, b)
#else /* WIN32 */
#define WINDIVERT_MUL64(a, b) ((a) * (b))
#endif /* WIN32 */
/*
* IPv6 fragment header.
*/
typedef struct
{
UINT8 NextHdr;
UINT8 Reserved;
UINT16 FragOff0;
UINT32 Id;
} WINDIVERT_IPV6FRAGHDR, *PWINDIVERT_IPV6FRAGHDR;
#define WINDIVERT_IPV6FRAGHDR_GET_FRAGOFF(hdr) \
(((hdr)->FragOff0) & 0xF8FF)
#define WINDIVERT_IPV6FRAGHDR_GET_MF(hdr) \
((((hdr)->FragOff0) & 0x0100) != 0)
#include "windivert_hash.c"
/*
* IPv4/IPv6 pseudo headers.
*/
typedef struct
{
UINT32 SrcAddr;
UINT32 DstAddr;
UINT8 Zero;
UINT8 Protocol;
UINT16 Length;
} WINDIVERT_PSEUDOHDR, *PWINDIVERT_PSEUDOHDR;
typedef struct
{
UINT32 SrcAddr[4];
UINT32 DstAddr[4];
UINT32 Length;
UINT32 Zero:24;
UINT32 NextHdr:8;
} WINDIVERT_PSEUDOV6HDR, *PWINDIVERT_PSEUDOV6HDR;
/*
* Packet info.
*/
typedef struct
{
UINT32 HeaderLength:17;
UINT32 FragOff:13;
UINT32 Fragment:1;
UINT32 MF:1;
UINT32 PayloadLength:16;
UINT32 Protocol:8;
UINT32 Truncated:1;
UINT32 Extended:1;
UINT32 Reserved1:6;
PWINDIVERT_IPHDR IPHeader;
PWINDIVERT_IPV6HDR IPv6Header;
PWINDIVERT_ICMPHDR ICMPHeader;
PWINDIVERT_ICMPV6HDR ICMPv6Header;
PWINDIVERT_TCPHDR TCPHeader;
PWINDIVERT_UDPHDR UDPHeader;
UINT8 *Payload;
} WINDIVERT_PACKET, *PWINDIVERT_PACKET;
/*
* Streams.
*/
typedef struct
{
char *data;
UINT pos;
UINT max;
BOOL overflow;
} WINDIVERT_STREAM, *PWINDIVERT_STREAM;
/*
* Prototypes.
*/
static UINT16 WinDivertInitPseudoHeader(PWINDIVERT_IPHDR ip_header,
PWINDIVERT_IPV6HDR ipv6_header, UINT8 protocol, UINT len,
void *pseudo_header);
static UINT16 WinDivertCalcChecksum(PVOID pseudo_header,
UINT16 pseudo_header_len, PVOID data, UINT len);
/*
* Put a char into a stream.
*/
static void WinDivertPutChar(PWINDIVERT_STREAM stream, char c)
{
if (stream->pos >= stream->max)
{
stream->overflow = TRUE;
return;
}
stream->data[stream->pos] = c;
stream->pos++;
}
/*
* Put a string into a stream.
*/
static void WinDivertPutString(PWINDIVERT_STREAM stream, const char *str)
{
while (*str)
{
WinDivertPutChar(stream, *str);
str++;
}
}
/*
* Put a NUL character into a stream.
*/
static void WinDivertPutNul(PWINDIVERT_STREAM stream)
{
if (stream->pos >= stream->max && stream->max > 0)
{
stream->data[stream->max-1] = '\0'; // Truncate
}
else
{
WinDivertPutChar(stream, '\0');
}
}
/*
* Encode a digit.
*/
static char WinDivertEncodeDigit(UINT8 dig, BOOL final)
{
static const char windivert_digits[64+1] =
"0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz+=";
return windivert_digits[(dig & 0x1F) + (final? 32: 0)];
}
/*
* Serialize a number.
*/
static void WinDivertSerializeNumber(PWINDIVERT_STREAM stream, UINT32 val)
{
UINT32 mask = 0xC0000000;
UINT dig = 6;
UINT8 digit;
BOOL final;
while ((mask & val) == 0 && dig != 0)
{
mask = (dig == 6? 0x3E000000: mask >> 5);
dig--;
}
while (TRUE)
{
final = (dig == 0);
digit = (UINT8)((mask & val) >> (5 * dig));
WinDivertPutChar(stream, WinDivertEncodeDigit(digit, final));
if (final)
{
break;
}
mask = (dig == 6? 0x3E000000: mask >> 5);
dig--;
}
}
/*
* Serialize a label.
*/
static void WinDivertSerializeLabel(PWINDIVERT_STREAM stream, UINT16 label)
{
switch (label)
{
case WINDIVERT_FILTER_RESULT_ACCEPT:
WinDivertPutChar(stream, 'A');
break;
case WINDIVERT_FILTER_RESULT_REJECT:
WinDivertPutChar(stream, 'X');
break;
default:
WinDivertPutChar(stream, 'L');
WinDivertSerializeNumber(stream, label);
break;
}
}
/*
* Serialize a test.
*/
static void WinDivertSerializeTest(PWINDIVERT_STREAM stream,
const WINDIVERT_FILTER *filter)
{
INT idx;
UINT i;
WinDivertPutChar(stream, '_');
WinDivertSerializeNumber(stream, filter->field);
WinDivertSerializeNumber(stream, filter->test);
WinDivertSerializeNumber(stream, filter->neg);
WinDivertSerializeNumber(stream, filter->arg[0]);
switch (filter->field)
{
case WINDIVERT_FILTER_FIELD_IPV6_SRCADDR:
case WINDIVERT_FILTER_FIELD_IPV6_DSTADDR:
case WINDIVERT_FILTER_FIELD_LOCALADDR:
case WINDIVERT_FILTER_FIELD_REMOTEADDR:
for (i = 1; i < 4; i++)
{
WinDivertSerializeNumber(stream, filter->arg[i]);
}
break;
case WINDIVERT_FILTER_FIELD_ENDPOINTID:
case WINDIVERT_FILTER_FIELD_PARENTENDPOINTID:
case WINDIVERT_FILTER_FIELD_TIMESTAMP:
WinDivertSerializeNumber(stream, filter->arg[1]);
break;
case WINDIVERT_FILTER_FIELD_PACKET:
case WINDIVERT_FILTER_FIELD_PACKET16:
case WINDIVERT_FILTER_FIELD_PACKET32:
case WINDIVERT_FILTER_FIELD_TCP_PAYLOAD:
case WINDIVERT_FILTER_FIELD_TCP_PAYLOAD16:
case WINDIVERT_FILTER_FIELD_TCP_PAYLOAD32:
case WINDIVERT_FILTER_FIELD_UDP_PAYLOAD:
case WINDIVERT_FILTER_FIELD_UDP_PAYLOAD16:
case WINDIVERT_FILTER_FIELD_UDP_PAYLOAD32:
idx = (INT)filter->arg[1];
idx += UINT16_MAX;
WinDivertSerializeNumber(stream, (UINT32)idx);
break;
default:
break;
}
WinDivertSerializeLabel(stream, (UINT16)filter->success);
WinDivertSerializeLabel(stream, (UINT16)filter->failure);
}
/*
* Serialize a test.
*/
static void WinDivertSerializeFilter(PWINDIVERT_STREAM stream,
const WINDIVERT_FILTER *filter, UINT8 length)
{
UINT8 i;
WinDivertPutString(stream, "@WinDiv_"); // Magic
WinDivertSerializeNumber(stream, 0); // Version
WinDivertSerializeNumber(stream, length); // Length
for (i = 0; i < length; i++)
{
WinDivertSerializeTest(stream, filter + i);
}
WinDivertPutNul(stream);
}
/*
* Parse IPv4/IPv6/ICMP/ICMPv6/TCP/UDP headers from a raw packet.
*/
static BOOL WinDivertHelperParsePacketEx(const VOID *pPacket, UINT packetLen,
PWINDIVERT_PACKET pInfo)
{
PWINDIVERT_IPHDR ip_header = NULL;
PWINDIVERT_IPV6HDR ipv6_header = NULL;
PWINDIVERT_ICMPHDR icmp_header = NULL;
PWINDIVERT_ICMPV6HDR icmpv6_header = NULL;
PWINDIVERT_TCPHDR tcp_header = NULL;
PWINDIVERT_UDPHDR udp_header = NULL;
PWINDIVERT_IPV6FRAGHDR frag_header;
UINT8 protocol = 0;
UINT8 *data = NULL;
UINT packet_len, total_len, header_len, data_len = 0, frag_off = 0;
BOOL MF = FALSE, fragment = FALSE, is_ext_header;
if (pPacket == NULL || packetLen < sizeof(WINDIVERT_IPHDR))
{
return FALSE;
}
data = (UINT8 *)pPacket;
data_len = packetLen;
ip_header = (PWINDIVERT_IPHDR)data;
switch (ip_header->Version)
{
case 4:
if (packetLen < sizeof(WINDIVERT_IPHDR) ||
ip_header->HdrLength < 5)
{
return FALSE;
}
total_len = (UINT)ntohs(ip_header->Length);
protocol = ip_header->Protocol;
header_len = ip_header->HdrLength * sizeof(UINT32);
if (total_len < header_len || packetLen < header_len)
{
return FALSE;
}
frag_off = ntohs(WINDIVERT_IPHDR_GET_FRAGOFF(ip_header));
MF = (WINDIVERT_IPHDR_GET_MF(ip_header) != 0);
fragment = (MF || frag_off != 0);
packet_len = (total_len < packetLen? total_len: packetLen);
data += header_len;
data_len = packet_len - header_len;
break;
case 6:
ip_header = NULL;
ipv6_header = (PWINDIVERT_IPV6HDR)data;
if (packetLen < sizeof(WINDIVERT_IPV6HDR))
{
return FALSE;
}
protocol = ipv6_header->NextHdr;
total_len = (UINT)ntohs(ipv6_header->Length) +
sizeof(WINDIVERT_IPV6HDR);
packet_len = (total_len < packetLen? total_len: packetLen);
data += sizeof(WINDIVERT_IPV6HDR);
data_len = packet_len - sizeof(WINDIVERT_IPV6HDR);
while (frag_off == 0 && data_len >= 2)
{
header_len = (UINT)data[1];
is_ext_header = TRUE;
switch (protocol)
{
case IPPROTO_FRAGMENT:
header_len = 8;
if (fragment || data_len < header_len)
{
is_ext_header = FALSE;
break;
}
frag_header = (PWINDIVERT_IPV6FRAGHDR)data;
frag_off = ntohs(
WINDIVERT_IPV6FRAGHDR_GET_FRAGOFF(frag_header));
MF = WINDIVERT_IPV6FRAGHDR_GET_MF(frag_header);
fragment = TRUE;
break;
case IPPROTO_AH:
header_len += 2;
header_len *= 4;
break;
case IPPROTO_HOPOPTS:
case IPPROTO_DSTOPTS:
case IPPROTO_ROUTING:
case IPPROTO_MH:
header_len++;
header_len *= 8;
break;
default:
is_ext_header = FALSE;
break;
}
if (!is_ext_header || data_len < header_len)
{
break;
}
protocol = data[0];
data += header_len;
data_len -= header_len;
}
break;
default:
return FALSE;
}
if (frag_off != 0)
{
goto WinDivertHelperParsePacketExit;
}
switch (protocol)
{
case IPPROTO_TCP:
tcp_header = (PWINDIVERT_TCPHDR)data;
if (data_len < sizeof(WINDIVERT_TCPHDR) ||
tcp_header->HdrLength < 5)
{
tcp_header = NULL;
goto WinDivertHelperParsePacketExit;
}
header_len = tcp_header->HdrLength * sizeof(UINT32);
header_len = (header_len > data_len? data_len: header_len);
break;
case IPPROTO_UDP:
if (data_len < sizeof(WINDIVERT_UDPHDR))
{
goto WinDivertHelperParsePacketExit;
}
udp_header = (PWINDIVERT_UDPHDR)data;
header_len = sizeof(WINDIVERT_UDPHDR);
break;
case IPPROTO_ICMP:
if (ip_header == NULL ||
data_len < sizeof(WINDIVERT_ICMPHDR))
{
goto WinDivertHelperParsePacketExit;
}
icmp_header = (PWINDIVERT_ICMPHDR)data;
header_len = sizeof(WINDIVERT_ICMPHDR);
break;
case IPPROTO_ICMPV6:
if (ipv6_header == NULL ||
data_len < sizeof(WINDIVERT_ICMPV6HDR))
{
goto WinDivertHelperParsePacketExit;
}
icmpv6_header = (PWINDIVERT_ICMPV6HDR)data;
header_len = sizeof(WINDIVERT_ICMPV6HDR);
break;
default:
goto WinDivertHelperParsePacketExit;
}
data += header_len;
data_len -= header_len;
WinDivertHelperParsePacketExit:
if (pInfo == NULL)
{
return TRUE;
}
data = (data_len == 0? NULL: data);
pInfo->Protocol = (UINT32)protocol;
pInfo->Fragment = (fragment? 1: 0);
pInfo->MF = (MF? 1: 0);
pInfo->FragOff = (UINT32)frag_off;
pInfo->Truncated = (total_len > packetLen? 1: 0);
pInfo->Extended = (total_len < packetLen? 1: 0);
pInfo->Reserved1 = 0;
pInfo->IPHeader = ip_header;
pInfo->IPv6Header = ipv6_header;
pInfo->ICMPHeader = icmp_header;
pInfo->ICMPv6Header = icmpv6_header;
pInfo->TCPHeader = tcp_header;
pInfo->UDPHeader = udp_header;
pInfo->Payload = data;
pInfo->HeaderLength = (UINT32)(packet_len - data_len);
pInfo->PayloadLength = (UINT32)data_len;
return TRUE;
}
/*
* Calculate IPv4/IPv6/ICMP/ICMPv6/TCP/UDP checksums.
*/
BOOL WinDivertHelperCalcChecksums(PVOID pPacket, UINT packetLen,
WINDIVERT_ADDRESS *pAddr, UINT64 flags)
{
UINT8 pseudo_header[
MAX(sizeof(WINDIVERT_PSEUDOHDR), sizeof(WINDIVERT_PSEUDOV6HDR))];
UINT16 pseudo_header_len;
PWINDIVERT_IPHDR ip_header;
PWINDIVERT_IPV6HDR ipv6_header;
PWINDIVERT_ICMPHDR icmp_header;
PWINDIVERT_ICMPV6HDR icmpv6_header;
PWINDIVERT_TCPHDR tcp_header;
PWINDIVERT_UDPHDR udp_header;
WINDIVERT_PACKET info;
UINT payload_len, checksum_len;
BOOL truncated;
if (!WinDivertHelperParsePacketEx(pPacket, packetLen, &info))
{
return FALSE;
}
ip_header = info.IPHeader;
if (ip_header != NULL && !(flags & WINDIVERT_HELPER_NO_IP_CHECKSUM))
{
ip_header->Checksum = 0;
ip_header->Checksum = WinDivertCalcChecksum(NULL, 0, ip_header,
ip_header->HdrLength * sizeof(UINT32));
if (pAddr != NULL)
{
pAddr->IPChecksum = 1;
}
}
payload_len = info.PayloadLength;
truncated = (info.Truncated || info.MF || info.FragOff != 0);
icmp_header = info.ICMPHeader;
if (icmp_header != NULL)
{
if ((flags & WINDIVERT_HELPER_NO_ICMP_CHECKSUM) != 0)
{
return TRUE;
}
if (truncated)
{
return FALSE;
}
icmp_header->Checksum = 0;
icmp_header->Checksum = WinDivertCalcChecksum(NULL, 0,
icmp_header, payload_len + sizeof(WINDIVERT_ICMPHDR));
return TRUE;
}
icmpv6_header = info.ICMPv6Header;
if (icmpv6_header != NULL)
{
if ((flags & WINDIVERT_HELPER_NO_ICMPV6_CHECKSUM) != 0)
{
return TRUE;
}
if (truncated)
{
return FALSE;
}
ipv6_header = info.IPv6Header;
checksum_len = payload_len + sizeof(WINDIVERT_ICMPV6HDR);
pseudo_header_len = WinDivertInitPseudoHeader(NULL, ipv6_header,
IPPROTO_ICMPV6, checksum_len, pseudo_header);
icmpv6_header->Checksum = 0;
icmpv6_header->Checksum = WinDivertCalcChecksum(pseudo_header,
pseudo_header_len, icmpv6_header, checksum_len);
return TRUE;
}
tcp_header = info.TCPHeader;
if (tcp_header != NULL)
{
if ((flags & WINDIVERT_HELPER_NO_TCP_CHECKSUM) != 0)
{
return TRUE;
}
if (truncated)
{
return FALSE;
}
checksum_len = payload_len + tcp_header->HdrLength * sizeof(UINT32);
ipv6_header = info.IPv6Header;
pseudo_header_len = WinDivertInitPseudoHeader(ip_header,
ipv6_header, IPPROTO_TCP, checksum_len, pseudo_header);
tcp_header->Checksum = 0;
tcp_header->Checksum = WinDivertCalcChecksum(
pseudo_header, pseudo_header_len, tcp_header, checksum_len);
if (pAddr != NULL)
{
pAddr->TCPChecksum = 1;
}
return TRUE;
}
udp_header = info.UDPHeader;
if (udp_header != NULL)
{
if ((flags & WINDIVERT_HELPER_NO_UDP_CHECKSUM) != 0)
{
return TRUE;
}
if (truncated)
{
return FALSE;
}
// Full UDP checksum
checksum_len = payload_len + sizeof(WINDIVERT_UDPHDR);
ipv6_header = info.IPv6Header;
pseudo_header_len = WinDivertInitPseudoHeader(ip_header,
ipv6_header, IPPROTO_UDP, checksum_len, pseudo_header);
udp_header->Checksum = 0;
udp_header->Checksum = WinDivertCalcChecksum(
pseudo_header, pseudo_header_len, udp_header, checksum_len);
if (udp_header->Checksum == 0)
{
udp_header->Checksum = 0xFFFF;
}
if (pAddr != NULL)
{
pAddr->UDPChecksum = 1;
}
return TRUE;
}
return TRUE;
}
/*
* Initialize the IP/IPv6 pseudo header.
*/
static UINT16 WinDivertInitPseudoHeader(PWINDIVERT_IPHDR ip_header,
PWINDIVERT_IPV6HDR ipv6_header, UINT8 protocol, UINT len,
void *pseudo_header)
{
if (ip_header != NULL)
{
PWINDIVERT_PSEUDOHDR pseudo_header_v4 =
(PWINDIVERT_PSEUDOHDR)pseudo_header;
pseudo_header_v4->SrcAddr = ip_header->SrcAddr;
pseudo_header_v4->DstAddr = ip_header->DstAddr;
pseudo_header_v4->Zero = 0;
pseudo_header_v4->Protocol = protocol;
pseudo_header_v4->Length = htons((UINT16)len);
return sizeof(WINDIVERT_PSEUDOHDR);
}
else
{
PWINDIVERT_PSEUDOV6HDR pseudo_header_v6 =
(PWINDIVERT_PSEUDOV6HDR)pseudo_header;
memcpy(pseudo_header_v6->SrcAddr, ipv6_header->SrcAddr,
sizeof(pseudo_header_v6->SrcAddr));
memcpy(pseudo_header_v6->DstAddr, ipv6_header->DstAddr,
sizeof(pseudo_header_v6->DstAddr));
pseudo_header_v6->Length = htonl((UINT32)len);
pseudo_header_v6->NextHdr = protocol;
pseudo_header_v6->Zero = 0;
return sizeof(WINDIVERT_PSEUDOV6HDR);
}
}
/*
* Generic checksum computation.
*/
static UINT16 WinDivertCalcChecksum(PVOID pseudo_header,
UINT16 pseudo_header_len, PVOID data, UINT len)
{
register const UINT16 *data16 = (const UINT16 *)pseudo_header;
register size_t len16 = pseudo_header_len >> 1;
register UINT32 sum = 0;
size_t i;
// Pseudo header:
for (i = 0; i < len16; i++)
{
sum += (UINT32)data16[i];
}
// Main data:
data16 = (const UINT16 *)data;
len16 = len >> 1;
for (i = 0; i < len16; i++)
{
sum += (UINT32)data16[i];
}
if (len & 0x1)
{
const UINT8 *data8 = (const UINT8 *)data;
sum += (UINT16)data8[len-1];
}
sum = (sum & 0xFFFF) + (sum >> 16);
sum += (sum >> 16);
sum = ~sum;
return (UINT16)sum;
}
/*
* Decrement the TTL.
*/
BOOL WinDivertHelperDecrementTTL(VOID *packet, UINT packetLen)
{
PWINDIVERT_IPHDR ip_header;
PWINDIVERT_IPV6HDR ipv6_header;
if (packet == NULL || packetLen < sizeof(WINDIVERT_IPHDR))
{
return FALSE;
}
ip_header = (PWINDIVERT_IPHDR)packet;
switch (ip_header->Version)
{
case 4:
if (ip_header->TTL <= 1)
{
return FALSE;
}
ip_header->TTL--;
// Incremental checksum update:
if (ip_header->Checksum >= 0xFFFE)
{
ip_header->Checksum -= 0xFFFE;
}
else
{
ip_header->Checksum += 1;
}
return TRUE;
case 6:
if (packetLen < sizeof(WINDIVERT_IPV6HDR))
{
return FALSE;
}
ipv6_header = (PWINDIVERT_IPV6HDR)packet;
if (ipv6_header->HopLimit <= 1)
{
return FALSE;
}
ipv6_header->HopLimit--;
return TRUE;
default:
return FALSE;
}
}
/*
* Validate a WinDivert field for given layer.
*/
static BOOL WinDivertValidateField(WINDIVERT_LAYER layer, UINT32 field)
{
static const UINT8 flags[] =
{
LNMFSR, /* WINDIVERT_FILTER_FIELD_ZERO */
LN_FS_, /* WINDIVERT_FILTER_FIELD_INBOUND */
LN_FS_, /* WINDIVERT_FILTER_FIELD_OUTBOUND */
LNM___, /* WINDIVERT_FILTER_FIELD_IFIDX */
LNM___, /* WINDIVERT_FILTER_FIELD_SUBIFIDX */
LNMFS_, /* WINDIVERT_FILTER_FIELD_IP */
LNMFS_, /* WINDIVERT_FILTER_FIELD_IPV6 */
LNMFS_, /* WINDIVERT_FILTER_FIELD_ICMP */
LNMFS_, /* WINDIVERT_FILTER_FIELD_TCP */
LNMFS_, /* WINDIVERT_FILTER_FIELD_UDP */
LNMFS_, /* WINDIVERT_FILTER_FIELD_ICMPV6 */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_HDRLENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_TOS */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_LENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_ID */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_DF */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_MF */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_FRAGOFF */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_TTL */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_PROTOCOL */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_CHECKSUM */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_SRCADDR */
LNM___, /* WINDIVERT_FILTER_FIELD_IP_DSTADDR */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_TRAFFICCLASS */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_FLOWLABEL */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_LENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_NEXTHDR */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_HOPLIMIT */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_SRCADDR */
LNM___, /* WINDIVERT_FILTER_FIELD_IPV6_DSTADDR */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMP_TYPE */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMP_CODE */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMP_CHECKSUM */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMP_BODY */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMPV6_TYPE */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMPV6_CODE */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMPV6_CHECKSUM */
LNM___, /* WINDIVERT_FILTER_FIELD_ICMPV6_BODY */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_SRCPORT */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_DSTPORT */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_SEQNUM */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_ACKNUM */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_HDRLENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_URG */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_ACK */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_PSH */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_RST */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_SYN */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_FIN */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_WINDOW */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_CHECKSUM */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_URGPTR */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_PAYLOADLENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_SRCPORT */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_DSTPORT */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_LENGTH */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_CHECKSUM */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_PAYLOADLENGTH */
LN_FS_, /* WINDIVERT_FILTER_FIELD_LOOPBACK */
LNM___, /* WINDIVERT_FILTER_FIELD_IMPOSTOR */
L__FSR, /* WINDIVERT_FILTER_FIELD_PROCESSID */
LN_FS_, /* WINDIVERT_FILTER_FIELD_LOCALADDR */
LN_FS_, /* WINDIVERT_FILTER_FIELD_REMOTEADDR */
LN_FS_, /* WINDIVERT_FILTER_FIELD_LOCALPORT */
LN_FS_, /* WINDIVERT_FILTER_FIELD_REMOTEPORT */
LN_FS_, /* WINDIVERT_FILTER_FIELD_PROTOCOL */
L__FS_, /* WINDIVERT_FILTER_FIELD_ENDPOINTID */
L__FS_, /* WINDIVERT_FILTER_FIELD_PARENTENDPOINTID */
L____R, /* WINDIVERT_FILTER_FIELD_LAYER */
L____R, /* WINDIVERT_FILTER_FIELD_PRIORITY */
LNMFSR, /* WINDIVERT_FILTER_FIELD_EVENT */
LNM___, /* WINDIVERT_FILTER_FIELD_PACKET */
LNM___, /* WINDIVERT_FILTER_FIELD_PACKET16 */
LNM___, /* WINDIVERT_FILTER_FIELD_PACKET32 */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_PAYLOAD */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_PAYLOAD16 */
LNM___, /* WINDIVERT_FILTER_FIELD_TCP_PAYLOAD32 */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_PAYLOAD */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_PAYLOAD16 */
LNM___, /* WINDIVERT_FILTER_FIELD_UDP_PAYLOAD32 */
LNM___, /* WINDIVERT_FILTER_FIELD_LENGTH */
LNMFSR, /* WINDIVERT_FILTER_FIELD_TIMESTAMP */
LNM___, /* WINDIVERT_FILTER_FIELD_RANDOM8 */
LNM___, /* WINDIVERT_FILTER_FIELD_RANDOM16 */
LNM___, /* WINDIVERT_FILTER_FIELD_RANDOM32 */
LNM___, /* WINDIVERT_FILTER_FIELD_FRAGMENT */
};
if (field > WINDIVERT_FILTER_FIELD_MAX)
{
return FALSE;
}
return ((flags[field] & (1 << layer)) != 0);
}
/*
* Big number comparison.
*/
static int WinDivertCompare128(BOOL neg_a, const UINT32 *a, BOOL neg_b,
const UINT32 *b, BOOL big)
{
int neg;
if (neg_a && !neg_b)
{
return -1;
}
if (!neg_a && neg_b)
{
return 1;
}
neg = (neg_a? -1: 1);
if (big)
{
if (a[3] < b[3])
{
return -neg;
}
if (a[3] > b[3])
{
return neg;
}
if (a[2] < b[2])
{
return -neg;
}
if (a[2] > b[2])
{
return neg;
}
if (a[1] < b[1])
{
return -neg;
}
if (a[1] > b[1])
{
return neg;
}
}
if (a[0] < b[0])
{
return -neg;
}
if (a[0] > b[0])
{
return neg;
}
return 0;
}
/*
* WinDivert filter execute function.
*/
static WINDIVERT_INLINE int WinDivertExecuteFilter(
const WINDIVERT_FILTER *filter,
WINDIVERT_LAYER layer,
LONGLONG timestamp,
WINDIVERT_EVENT event,
BOOL ipv4,
BOOL outbound,
BOOL loopback,
BOOL impostor,
BOOL fragment,
const WINDIVERT_DATA_NETWORK *network_data,
const WINDIVERT_DATA_FLOW *flow_data,
const WINDIVERT_DATA_SOCKET *socket_data,
const WINDIVERT_DATA_REFLECT *reflect_data,
const WINDIVERT_IPHDR *ip_header,
const WINDIVERT_IPV6HDR *ipv6_header,
const WINDIVERT_ICMPHDR *icmp_header,
const WINDIVERT_ICMPV6HDR *icmpv6_header,
const WINDIVERT_TCPHDR *tcp_header,
const WINDIVERT_UDPHDR *udp_header,
UINT8 protocol,
const void *packet,
UINT packet_len,
UINT header_len,
UINT payload_len)
{
UINT64 random64 = 0;
UINT16 ip, ttl;
UINT8 data8;
UINT16 data16;
UINT32 data32;
ULARGE_INTEGER val64;
ip = 0;
ttl = WINDIVERT_FILTER_MAXLEN+1;
while (ttl-- != 0)