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kernel_samsung_sm7125/drivers/net/sk98lin/skcsum.c

872 lines
27 KiB

/******************************************************************************
*
* Name: skcsum.c
* Project: GEnesis, PCI Gigabit Ethernet Adapter
* Version: $Revision: 1.12 $
* Date: $Date: 2003/08/20 13:55:53 $
* Purpose: Store/verify Internet checksum in send/receive packets.
*
******************************************************************************/
/******************************************************************************
*
* (C)Copyright 1998-2003 SysKonnect GmbH.
*
* This program 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.
*
* The information in this file is provided "AS IS" without warranty.
*
******************************************************************************/
#ifdef SK_USE_CSUM /* Check if CSUM is to be used. */
#ifndef lint
static const char SysKonnectFileId[] =
"@(#) $Id: skcsum.c,v 1.12 2003/08/20 13:55:53 mschmid Exp $ (C) SysKonnect.";
#endif /* !lint */
/******************************************************************************
*
* Description:
*
* This is the "GEnesis" common module "CSUM".
*
* This module contains the code necessary to calculate, store, and verify the
* Internet Checksum of IP, TCP, and UDP frames.
*
* "GEnesis" is an abbreviation of "Gigabit Ethernet Network System in Silicon"
* and is the code name of this SysKonnect project.
*
* Compilation Options:
*
* SK_USE_CSUM - Define if CSUM is to be used. Otherwise, CSUM will be an
* empty module.
*
* SKCS_OVERWRITE_PROTO - Define to overwrite the default protocol id
* definitions. In this case, all SKCS_PROTO_xxx definitions must be made
* external.
*
* SKCS_OVERWRITE_STATUS - Define to overwrite the default return status
* definitions. In this case, all SKCS_STATUS_xxx definitions must be made
* external.
*
* Include File Hierarchy:
*
* "h/skdrv1st.h"
* "h/skcsum.h"
* "h/sktypes.h"
* "h/skqueue.h"
* "h/skdrv2nd.h"
*
******************************************************************************/
#include "h/skdrv1st.h"
#include "h/skcsum.h"
#include "h/skdrv2nd.h"
/* defines ********************************************************************/
/* The size of an Ethernet MAC header. */
#define SKCS_ETHERNET_MAC_HEADER_SIZE (6+6+2)
/* The size of the used topology's MAC header. */
#define SKCS_MAC_HEADER_SIZE SKCS_ETHERNET_MAC_HEADER_SIZE
/* The size of the IP header without any option fields. */
#define SKCS_IP_HEADER_SIZE 20
/*
* Field offsets within the IP header.
*/
/* "Internet Header Version" and "Length". */
#define SKCS_OFS_IP_HEADER_VERSION_AND_LENGTH 0
/* "Total Length". */
#define SKCS_OFS_IP_TOTAL_LENGTH 2
/* "Flags" "Fragment Offset". */
#define SKCS_OFS_IP_FLAGS_AND_FRAGMENT_OFFSET 6
/* "Next Level Protocol" identifier. */
#define SKCS_OFS_IP_NEXT_LEVEL_PROTOCOL 9
/* Source IP address. */
#define SKCS_OFS_IP_SOURCE_ADDRESS 12
/* Destination IP address. */
#define SKCS_OFS_IP_DESTINATION_ADDRESS 16
/*
* Field offsets within the UDP header.
*/
/* UDP checksum. */
#define SKCS_OFS_UDP_CHECKSUM 6
/* IP "Next Level Protocol" identifiers (see RFC 790). */
#define SKCS_PROTO_ID_TCP 6 /* Transport Control Protocol */
#define SKCS_PROTO_ID_UDP 17 /* User Datagram Protocol */
/* IP "Don't Fragment" bit. */
#define SKCS_IP_DONT_FRAGMENT SKCS_HTON16(0x4000)
/* Add a byte offset to a pointer. */
#define SKCS_IDX(pPtr, Ofs) ((void *) ((char *) (pPtr) + (Ofs)))
/*
* Macros that convert host to network representation and vice versa, i.e.
* little/big endian conversion on little endian machines only.
*/
#ifdef SK_LITTLE_ENDIAN
#define SKCS_HTON16(Val16) (((unsigned) (Val16) >> 8) | (((Val16) & 0xff) << 8))
#endif /* SK_LITTLE_ENDIAN */
#ifdef SK_BIG_ENDIAN
#define SKCS_HTON16(Val16) (Val16)
#endif /* SK_BIG_ENDIAN */
#define SKCS_NTOH16(Val16) SKCS_HTON16(Val16)
/* typedefs *******************************************************************/
/* function prototypes ********************************************************/
/******************************************************************************
*
* SkCsGetSendInfo - get checksum information for a send packet
*
* Description:
* Get all checksum information necessary to send a TCP or UDP packet. The
* function checks the IP header passed to it. If the high-level protocol
* is either TCP or UDP the pseudo header checksum is calculated and
* returned.
*
* The function returns the total length of the IP header (including any
* IP option fields), which is the same as the start offset of the IP data
* which in turn is the start offset of the TCP or UDP header.
*
* The function also returns the TCP or UDP pseudo header checksum, which
* should be used as the start value for the hardware checksum calculation.
* (Note that any actual pseudo header checksum can never calculate to
* zero.)
*
* Note:
* There is a bug in the GENESIS ASIC which may lead to wrong checksums.
*
* Arguments:
* pAc - A pointer to the adapter context struct.
*
* pIpHeader - Pointer to IP header. Must be at least the IP header *not*
* including any option fields, i.e. at least 20 bytes.
*
* Note: This pointer will be used to address 8-, 16-, and 32-bit
* variables with the respective alignment offsets relative to the pointer.
* Thus, the pointer should point to a 32-bit aligned address. If the
* target system cannot address 32-bit variables on non 32-bit aligned
* addresses, then the pointer *must* point to a 32-bit aligned address.
*
* pPacketInfo - A pointer to the packet information structure for this
* packet. Before calling this SkCsGetSendInfo(), the following field must
* be initialized:
*
* ProtocolFlags - Initialize with any combination of
* SKCS_PROTO_XXX bit flags. SkCsGetSendInfo() will only work on
* the protocols specified here. Any protocol(s) not specified
* here will be ignored.
*
* Note: Only one checksum can be calculated in hardware. Thus, if
* SKCS_PROTO_IP is specified in the 'ProtocolFlags',
* SkCsGetSendInfo() must calculate the IP header checksum in
* software. It might be a better idea to have the calling
* protocol stack calculate the IP header checksum.
*
* Returns: N/A
* On return, the following fields in 'pPacketInfo' may or may not have
* been filled with information, depending on the protocol(s) found in the
* packet:
*
* ProtocolFlags - Returns the SKCS_PROTO_XXX bit flags of the protocol(s)
* that were both requested by the caller and actually found in the packet.
* Protocol(s) not specified by the caller and/or not found in the packet
* will have their respective SKCS_PROTO_XXX bit flags reset.
*
* Note: For IP fragments, TCP and UDP packet information is ignored.
*
* IpHeaderLength - The total length in bytes of the complete IP header
* including any option fields is returned here. This is the start offset
* of the IP data, i.e. the TCP or UDP header if present.
*
* IpHeaderChecksum - If IP has been specified in the 'ProtocolFlags', the
* 16-bit Internet Checksum of the IP header is returned here. This value
* is to be stored into the packet's 'IP Header Checksum' field.
*
* PseudoHeaderChecksum - If this is a TCP or UDP packet and if TCP or UDP
* has been specified in the 'ProtocolFlags', the 16-bit Internet Checksum
* of the TCP or UDP pseudo header is returned here.
*/
void SkCsGetSendInfo(
SK_AC *pAc, /* Adapter context struct. */
void *pIpHeader, /* IP header. */
SKCS_PACKET_INFO *pPacketInfo, /* Packet information struct. */
int NetNumber) /* Net number */
{
/* Internet Header Version found in IP header. */
unsigned InternetHeaderVersion;
/* Length of the IP header as found in IP header. */
unsigned IpHeaderLength;
/* Bit field specifiying the desired/found protocols. */
unsigned ProtocolFlags;
/* Next level protocol identifier found in IP header. */
unsigned NextLevelProtocol;
/* Length of IP data portion. */
unsigned IpDataLength;
/* TCP/UDP pseudo header checksum. */
unsigned long PseudoHeaderChecksum;
/* Pointer to next level protocol statistics structure. */
SKCS_PROTO_STATS *NextLevelProtoStats;
/* Temporary variable. */
unsigned Tmp;
Tmp = *(SK_U8 *)
SKCS_IDX(pIpHeader, SKCS_OFS_IP_HEADER_VERSION_AND_LENGTH);
/* Get the Internet Header Version (IHV). */
/* Note: The IHV is stored in the upper four bits. */
InternetHeaderVersion = Tmp >> 4;
/* Check the Internet Header Version. */
/* Note: We currently only support IP version 4. */
if (InternetHeaderVersion != 4) { /* IPv4? */
SK_DBG_MSG(pAc, SK_DBGMOD_CSUM, SK_DBGCAT_ERR | SK_DBGCAT_TX,
("Tx: Unknown Internet Header Version %u.\n",
InternetHeaderVersion));
pPacketInfo->ProtocolFlags = 0;
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].TxUnableCts++;
return;
}
/* Get the IP header length (IHL). */
/*
* Note: The IHL is stored in the lower four bits as the number of
* 4-byte words.
*/
IpHeaderLength = (Tmp & 0xf) * 4;
pPacketInfo->IpHeaderLength = IpHeaderLength;
/* Check the IP header length. */
/* 04-Aug-1998 sw - Really check the IHL? Necessary? */
if (IpHeaderLength < 5*4) {
SK_DBG_MSG(pAc, SK_DBGMOD_CSUM, SK_DBGCAT_ERR | SK_DBGCAT_TX,
("Tx: Invalid IP Header Length %u.\n", IpHeaderLength));
pPacketInfo->ProtocolFlags = 0;
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].TxUnableCts++;
return;
}
/* This is an IPv4 frame with a header of valid length. */
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].TxOkCts++;
/* Check if we should calculate the IP header checksum. */
ProtocolFlags = pPacketInfo->ProtocolFlags;
if (ProtocolFlags & SKCS_PROTO_IP) {
pPacketInfo->IpHeaderChecksum =
SkCsCalculateChecksum(pIpHeader, IpHeaderLength);
}
/* Get the next level protocol identifier. */
NextLevelProtocol =
*(SK_U8 *) SKCS_IDX(pIpHeader, SKCS_OFS_IP_NEXT_LEVEL_PROTOCOL);
/*
* Check if this is a TCP or UDP frame and if we should calculate the
* TCP/UDP pseudo header checksum.
*
* Also clear all protocol bit flags of protocols not present in the
* frame.
*/
if ((ProtocolFlags & SKCS_PROTO_TCP) != 0 &&
NextLevelProtocol == SKCS_PROTO_ID_TCP) {
/* TCP/IP frame. */
ProtocolFlags &= SKCS_PROTO_TCP | SKCS_PROTO_IP;
NextLevelProtoStats =
&pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_TCP];
}
else if ((ProtocolFlags & SKCS_PROTO_UDP) != 0 &&
NextLevelProtocol == SKCS_PROTO_ID_UDP) {
/* UDP/IP frame. */
ProtocolFlags &= SKCS_PROTO_UDP | SKCS_PROTO_IP;
NextLevelProtoStats =
&pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_UDP];
}
else {
/*
* Either not a TCP or UDP frame and/or TCP/UDP processing not
* specified.
*/
pPacketInfo->ProtocolFlags = ProtocolFlags & SKCS_PROTO_IP;
return;
}
/* Check if this is an IP fragment. */
/*
* Note: An IP fragment has a non-zero "Fragment Offset" field and/or
* the "More Fragments" bit set. Thus, if both the "Fragment Offset"
* and the "More Fragments" are zero, it is *not* a fragment. We can
* easily check both at the same time since they are in the same 16-bit
* word.
*/
if ((*(SK_U16 *)
SKCS_IDX(pIpHeader, SKCS_OFS_IP_FLAGS_AND_FRAGMENT_OFFSET) &
~SKCS_IP_DONT_FRAGMENT) != 0) {
/* IP fragment; ignore all other protocols. */
pPacketInfo->ProtocolFlags = ProtocolFlags & SKCS_PROTO_IP;
NextLevelProtoStats->TxUnableCts++;
return;
}
/*
* Calculate the TCP/UDP pseudo header checksum.
*/
/* Get total length of IP header and data. */
IpDataLength =
*(SK_U16 *) SKCS_IDX(pIpHeader, SKCS_OFS_IP_TOTAL_LENGTH);
/* Get length of IP data portion. */
IpDataLength = SKCS_NTOH16(IpDataLength) - IpHeaderLength;
/* Calculate the sum of all pseudo header fields (16-bit). */
PseudoHeaderChecksum =
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_SOURCE_ADDRESS + 0) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_SOURCE_ADDRESS + 2) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_DESTINATION_ADDRESS + 0) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_DESTINATION_ADDRESS + 2) +
(unsigned long) SKCS_HTON16(NextLevelProtocol) +
(unsigned long) SKCS_HTON16(IpDataLength);
/* Add-in any carries. */
SKCS_OC_ADD(PseudoHeaderChecksum, PseudoHeaderChecksum, 0);
/* Add-in any new carry. */
SKCS_OC_ADD(pPacketInfo->PseudoHeaderChecksum, PseudoHeaderChecksum, 0);
pPacketInfo->ProtocolFlags = ProtocolFlags;
NextLevelProtoStats->TxOkCts++; /* Success. */
} /* SkCsGetSendInfo */
/******************************************************************************
*
* SkCsGetReceiveInfo - verify checksum information for a received packet
*
* Description:
* Verify a received frame's checksum. The function returns a status code
* reflecting the result of the verification.
*
* Note:
* Before calling this function you have to verify that the frame is
* not padded and Checksum1 and Checksum2 are bigger than 1.
*
* Arguments:
* pAc - Pointer to adapter context struct.
*
* pIpHeader - Pointer to IP header. Must be at least the length in bytes
* of the received IP header including any option fields. For UDP packets,
* 8 additional bytes are needed to access the UDP checksum.
*
* Note: The actual length of the IP header is stored in the lower four
* bits of the first octet of the IP header as the number of 4-byte words,
* so it must be multiplied by four to get the length in bytes. Thus, the
* maximum IP header length is 15 * 4 = 60 bytes.
*
* Checksum1 - The first 16-bit Internet Checksum calculated by the
* hardware starting at the offset returned by SkCsSetReceiveFlags().
*
* Checksum2 - The second 16-bit Internet Checksum calculated by the
* hardware starting at the offset returned by SkCsSetReceiveFlags().
*
* Returns:
* SKCS_STATUS_UNKNOWN_IP_VERSION - Not an IP v4 frame.
* SKCS_STATUS_IP_CSUM_ERROR - IP checksum error.
* SKCS_STATUS_IP_CSUM_ERROR_TCP - IP checksum error in TCP frame.
* SKCS_STATUS_IP_CSUM_ERROR_UDP - IP checksum error in UDP frame
* SKCS_STATUS_IP_FRAGMENT - IP fragment (IP checksum ok).
* SKCS_STATUS_IP_CSUM_OK - IP checksum ok (not a TCP or UDP frame).
* SKCS_STATUS_TCP_CSUM_ERROR - TCP checksum error (IP checksum ok).
* SKCS_STATUS_UDP_CSUM_ERROR - UDP checksum error (IP checksum ok).
* SKCS_STATUS_TCP_CSUM_OK - IP and TCP checksum ok.
* SKCS_STATUS_UDP_CSUM_OK - IP and UDP checksum ok.
* SKCS_STATUS_IP_CSUM_OK_NO_UDP - IP checksum OK and no UDP checksum.
*
* Note: If SKCS_OVERWRITE_STATUS is defined, the SKCS_STATUS_XXX values
* returned here can be defined in some header file by the module using CSUM.
* In this way, the calling module can assign return values for its own needs,
* e.g. by assigning bit flags to the individual protocols.
*/
SKCS_STATUS SkCsGetReceiveInfo(
SK_AC *pAc, /* Adapter context struct. */
void *pIpHeader, /* IP header. */
unsigned Checksum1, /* Hardware checksum 1. */
unsigned Checksum2, /* Hardware checksum 2. */
int NetNumber) /* Net number */
{
/* Internet Header Version found in IP header. */
unsigned InternetHeaderVersion;
/* Length of the IP header as found in IP header. */
unsigned IpHeaderLength;
/* Length of IP data portion. */
unsigned IpDataLength;
/* IP header checksum. */
unsigned IpHeaderChecksum;
/* IP header options checksum, if any. */
unsigned IpOptionsChecksum;
/* IP data checksum, i.e. TCP/UDP checksum. */
unsigned IpDataChecksum;
/* Next level protocol identifier found in IP header. */
unsigned NextLevelProtocol;
/* The checksum of the "next level protocol", i.e. TCP or UDP. */
unsigned long NextLevelProtocolChecksum;
/* Pointer to next level protocol statistics structure. */
SKCS_PROTO_STATS *NextLevelProtoStats;
/* Temporary variable. */
unsigned Tmp;
Tmp = *(SK_U8 *)
SKCS_IDX(pIpHeader, SKCS_OFS_IP_HEADER_VERSION_AND_LENGTH);
/* Get the Internet Header Version (IHV). */
/* Note: The IHV is stored in the upper four bits. */
InternetHeaderVersion = Tmp >> 4;
/* Check the Internet Header Version. */
/* Note: We currently only support IP version 4. */
if (InternetHeaderVersion != 4) { /* IPv4? */
SK_DBG_MSG(pAc, SK_DBGMOD_CSUM, SK_DBGCAT_ERR | SK_DBGCAT_RX,
("Rx: Unknown Internet Header Version %u.\n",
InternetHeaderVersion));
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].RxUnableCts++;
return (SKCS_STATUS_UNKNOWN_IP_VERSION);
}
/* Get the IP header length (IHL). */
/*
* Note: The IHL is stored in the lower four bits as the number of
* 4-byte words.
*/
IpHeaderLength = (Tmp & 0xf) * 4;
/* Check the IP header length. */
/* 04-Aug-1998 sw - Really check the IHL? Necessary? */
if (IpHeaderLength < 5*4) {
SK_DBG_MSG(pAc, SK_DBGMOD_CSUM, SK_DBGCAT_ERR | SK_DBGCAT_RX,
("Rx: Invalid IP Header Length %u.\n", IpHeaderLength));
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].RxErrCts++;
return (SKCS_STATUS_IP_CSUM_ERROR);
}
/* This is an IPv4 frame with a header of valid length. */
/* Get the IP header and data checksum. */
IpDataChecksum = Checksum2;
/*
* The IP header checksum is calculated as follows:
*
* IpHeaderChecksum = Checksum1 - Checksum2
*/
SKCS_OC_SUB(IpHeaderChecksum, Checksum1, Checksum2);
/* Check if any IP header options. */
if (IpHeaderLength > SKCS_IP_HEADER_SIZE) {
/* Get the IP options checksum. */
IpOptionsChecksum = SkCsCalculateChecksum(
SKCS_IDX(pIpHeader, SKCS_IP_HEADER_SIZE),
IpHeaderLength - SKCS_IP_HEADER_SIZE);
/* Adjust the IP header and IP data checksums. */
SKCS_OC_ADD(IpHeaderChecksum, IpHeaderChecksum, IpOptionsChecksum);
SKCS_OC_SUB(IpDataChecksum, IpDataChecksum, IpOptionsChecksum);
}
/*
* Check if the IP header checksum is ok.
*
* NOTE: We must check the IP header checksum even if the caller just wants
* us to check upper-layer checksums, because we cannot do any further
* processing of the packet without a valid IP checksum.
*/
/* Get the next level protocol identifier. */
NextLevelProtocol = *(SK_U8 *)
SKCS_IDX(pIpHeader, SKCS_OFS_IP_NEXT_LEVEL_PROTOCOL);
if (IpHeaderChecksum != 0xffff) {
pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_IP].RxErrCts++;
/* the NDIS tester wants to know the upper level protocol too */
if (NextLevelProtocol == SKCS_PROTO_ID_TCP) {
return(SKCS_STATUS_IP_CSUM_ERROR_TCP);
}
else if (NextLevelProtocol == SKCS_PROTO_ID_UDP) {
return(SKCS_STATUS_IP_CSUM_ERROR_UDP);
}
return (SKCS_STATUS_IP_CSUM_ERROR);
}
/*
* Check if this is a TCP or UDP frame and if we should calculate the
* TCP/UDP pseudo header checksum.
*
* Also clear all protocol bit flags of protocols not present in the
* frame.
*/
if ((pAc->Csum.ReceiveFlags[NetNumber] & SKCS_PROTO_TCP) != 0 &&
NextLevelProtocol == SKCS_PROTO_ID_TCP) {
/* TCP/IP frame. */
NextLevelProtoStats =
&pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_TCP];
}
else if ((pAc->Csum.ReceiveFlags[NetNumber] & SKCS_PROTO_UDP) != 0 &&
NextLevelProtocol == SKCS_PROTO_ID_UDP) {
/* UDP/IP frame. */
NextLevelProtoStats =
&pAc->Csum.ProtoStats[NetNumber][SKCS_PROTO_STATS_UDP];
}
else {
/*
* Either not a TCP or UDP frame and/or TCP/UDP processing not
* specified.
*/
return (SKCS_STATUS_IP_CSUM_OK);
}
/* Check if this is an IP fragment. */
/*
* Note: An IP fragment has a non-zero "Fragment Offset" field and/or
* the "More Fragments" bit set. Thus, if both the "Fragment Offset"
* and the "More Fragments" are zero, it is *not* a fragment. We can
* easily check both at the same time since they are in the same 16-bit
* word.
*/
if ((*(SK_U16 *)
SKCS_IDX(pIpHeader, SKCS_OFS_IP_FLAGS_AND_FRAGMENT_OFFSET) &
~SKCS_IP_DONT_FRAGMENT) != 0) {
/* IP fragment; ignore all other protocols. */
NextLevelProtoStats->RxUnableCts++;
return (SKCS_STATUS_IP_FRAGMENT);
}
/*
* 08-May-2000 ra
*
* From RFC 768 (UDP)
* If the computed checksum is zero, it is transmitted as all ones (the
* equivalent in one's complement arithmetic). An all zero transmitted
* checksum value means that the transmitter generated no checksum (for
* debugging or for higher level protocols that don't care).
*/
if (NextLevelProtocol == SKCS_PROTO_ID_UDP &&
*(SK_U16*)SKCS_IDX(pIpHeader, IpHeaderLength + 6) == 0x0000) {
NextLevelProtoStats->RxOkCts++;
return (SKCS_STATUS_IP_CSUM_OK_NO_UDP);
}
/*
* Calculate the TCP/UDP checksum.
*/
/* Get total length of IP header and data. */
IpDataLength =
*(SK_U16 *) SKCS_IDX(pIpHeader, SKCS_OFS_IP_TOTAL_LENGTH);
/* Get length of IP data portion. */
IpDataLength = SKCS_NTOH16(IpDataLength) - IpHeaderLength;
NextLevelProtocolChecksum =
/* Calculate the pseudo header checksum. */
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_SOURCE_ADDRESS + 0) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_SOURCE_ADDRESS + 2) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_DESTINATION_ADDRESS + 0) +
(unsigned long) *(SK_U16 *) SKCS_IDX(pIpHeader,
SKCS_OFS_IP_DESTINATION_ADDRESS + 2) +
(unsigned long) SKCS_HTON16(NextLevelProtocol) +
(unsigned long) SKCS_HTON16(IpDataLength) +
/* Add the TCP/UDP header checksum. */
(unsigned long) IpDataChecksum;
/* Add-in any carries. */
SKCS_OC_ADD(NextLevelProtocolChecksum, NextLevelProtocolChecksum, 0);
/* Add-in any new carry. */
SKCS_OC_ADD(NextLevelProtocolChecksum, NextLevelProtocolChecksum, 0);
/* Check if the TCP/UDP checksum is ok. */
if ((unsigned) NextLevelProtocolChecksum == 0xffff) {
/* TCP/UDP checksum ok. */
NextLevelProtoStats->RxOkCts++;
return (NextLevelProtocol == SKCS_PROTO_ID_TCP ?
SKCS_STATUS_TCP_CSUM_OK : SKCS_STATUS_UDP_CSUM_OK);
}
/* TCP/UDP checksum error. */
NextLevelProtoStats->RxErrCts++;
return (NextLevelProtocol == SKCS_PROTO_ID_TCP ?
SKCS_STATUS_TCP_CSUM_ERROR : SKCS_STATUS_UDP_CSUM_ERROR);
} /* SkCsGetReceiveInfo */
/******************************************************************************
*
* SkCsSetReceiveFlags - set checksum receive flags
*
* Description:
* Use this function to set the various receive flags. According to the
* protocol flags set by the caller, the start offsets within received
* packets of the two hardware checksums are returned. These offsets must
* be stored in all receive descriptors.
*
* Arguments:
* pAc - Pointer to adapter context struct.
*
* ReceiveFlags - Any combination of SK_PROTO_XXX flags of the protocols
* for which the caller wants checksum information on received frames.
*
* pChecksum1Offset - The start offset of the first receive descriptor
* hardware checksum to be calculated for received frames is returned
* here.
*
* pChecksum2Offset - The start offset of the second receive descriptor
* hardware checksum to be calculated for received frames is returned
* here.
*
* Returns: N/A
* Returns the two hardware checksum start offsets.
*/
void SkCsSetReceiveFlags(
SK_AC *pAc, /* Adapter context struct. */
unsigned ReceiveFlags, /* New receive flags. */
unsigned *pChecksum1Offset, /* Offset for hardware checksum 1. */
unsigned *pChecksum2Offset, /* Offset for hardware checksum 2. */
int NetNumber)
{
/* Save the receive flags. */
pAc->Csum.ReceiveFlags[NetNumber] = ReceiveFlags;
/* First checksum start offset is the IP header. */
*pChecksum1Offset = SKCS_MAC_HEADER_SIZE;
/*
* Second checksum start offset is the IP data. Note that this may vary
* if there are any IP header options in the actual packet.
*/
*pChecksum2Offset = SKCS_MAC_HEADER_SIZE + SKCS_IP_HEADER_SIZE;
} /* SkCsSetReceiveFlags */
#ifndef SK_CS_CALCULATE_CHECKSUM
/******************************************************************************
*
* SkCsCalculateChecksum - calculate checksum for specified data
*
* Description:
* Calculate and return the 16-bit Internet Checksum for the specified
* data.
*
* Arguments:
* pData - Pointer to data for which the checksum shall be calculated.
* Note: The pointer should be aligned on a 16-bit boundary.
*
* Length - Length in bytes of data to checksum.
*
* Returns:
* The 16-bit Internet Checksum for the specified data.
*
* Note: The checksum is calculated in the machine's natural byte order,
* i.e. little vs. big endian. Thus, the resulting checksum is different
* for the same input data on little and big endian machines.
*
* However, when written back to the network packet, the byte order is
* always in correct network order.
*/
unsigned SkCsCalculateChecksum(
void *pData, /* Data to checksum. */
unsigned Length) /* Length of data. */
{
SK_U16 *pU16; /* Pointer to the data as 16-bit words. */
unsigned long Checksum; /* Checksum; must be at least 32 bits. */
/* Sum up all 16-bit words. */
pU16 = (SK_U16 *) pData;
for (Checksum = 0; Length > 1; Length -= 2) {
Checksum += *pU16++;
}
/* If this is an odd number of bytes, add-in the last byte. */
if (Length > 0) {
#ifdef SK_BIG_ENDIAN
/* Add the last byte as the high byte. */
Checksum += ((unsigned) *(SK_U8 *) pU16) << 8;
#else /* !SK_BIG_ENDIAN */
/* Add the last byte as the low byte. */
Checksum += *(SK_U8 *) pU16;
#endif /* !SK_BIG_ENDIAN */
}
/* Add-in any carries. */
SKCS_OC_ADD(Checksum, Checksum, 0);
/* Add-in any new carry. */
SKCS_OC_ADD(Checksum, Checksum, 0);
/* Note: All bits beyond the 16-bit limit are now zero. */
return ((unsigned) Checksum);
} /* SkCsCalculateChecksum */
#endif /* SK_CS_CALCULATE_CHECKSUM */
/******************************************************************************
*
* SkCsEvent - the CSUM event dispatcher
*
* Description:
* This is the event handler for the CSUM module.
*
* Arguments:
* pAc - Pointer to adapter context.
*
* Ioc - I/O context.
*
* Event - Event id.
*
* Param - Event dependent parameter.
*
* Returns:
* The 16-bit Internet Checksum for the specified data.
*
* Note: The checksum is calculated in the machine's natural byte order,
* i.e. little vs. big endian. Thus, the resulting checksum is different
* for the same input data on little and big endian machines.
*
* However, when written back to the network packet, the byte order is
* always in correct network order.
*/
int SkCsEvent(
SK_AC *pAc, /* Pointer to adapter context. */
SK_IOC Ioc, /* I/O context. */
SK_U32 Event, /* Event id. */
SK_EVPARA Param) /* Event dependent parameter. */
{
int ProtoIndex;
int NetNumber;
switch (Event) {
/*
* Clear protocol statistics.
*
* Param - Protocol index, or -1 for all protocols.
* - Net number.
*/
case SK_CSUM_EVENT_CLEAR_PROTO_STATS:
ProtoIndex = (int)Param.Para32[1];
NetNumber = (int)Param.Para32[0];
if (ProtoIndex < 0) { /* Clear for all protocols. */
if (NetNumber >= 0) {
SK_MEMSET(&pAc->Csum.ProtoStats[NetNumber][0], 0,
sizeof(pAc->Csum.ProtoStats[NetNumber]));
}
}
else { /* Clear for individual protocol. */
SK_MEMSET(&pAc->Csum.ProtoStats[NetNumber][ProtoIndex], 0,
sizeof(pAc->Csum.ProtoStats[NetNumber][ProtoIndex]));
}
break;
default:
break;
}
return (0); /* Success. */
} /* SkCsEvent */
#endif /* SK_USE_CSUM */