0

我正在构建一个网络设备。我需要支持 NAT 和 IP 数据包分片。当我更改 UDP 数据包的源地址或目标地址时,我必须更正 UDP 校验和(以及 IP 校验和,但这很简单)。当数据包被分段时,我必须收集所有分段以重新计算校验和。我知道旧地址和新地址。我想:

  1. 取消否定校验和
  2. 减去旧地址
  3. 添加新地址
  4. 重新减少和并取反

这个过程并不总是有效。有没有办法更新校验和而不是从头开始重新计算?

我试过了:

long CalcCheckSumAdd(unsigned char *pbHeader, int iSize, long lInitial){

    long lSum = lInitial;

    while (iSize > 1){

        lSum += *((unsigned short*)pbHeader);

        pbHeader += 2;

        iSize -= 2;

    }

    if (iSize > 0) lSum += *pbHeader;

    return lSum;

}

long CalcCheckSumSubract(unsigned char *pbHeader, int iSize, long lInitial){

    long lSum = lInitial;

    while (iSize > 1){

        lSum -= *((unsigned short*)pbHeader);

        pbHeader += 2;

        iSize -= 2;

    }

    if (iSize > 0) lSum -= *pbHeader;

    return lSum;

}

unsigned short CalcCheckSumFinish(long lSum){

    while (lSum >> 16){

        lSum = (lSum & 0xFFFF) + (lSum >> 16);

    }

    return (unsigned short)(~lSum);

}

long CalcCheckSumUnfinish(unsigned short usSum){

    // Can't totally undo lossy finish logic

    return ~usSum;

}

unsigned short CalcCheckSumUpdateAddress(unsigned short usOldSum, unsigned long ulOldAddress, unsigned long ulNewAddress){

    long lSumFixed = CalcCheckSumUnfinish(usOldSum);

    lSumFixed = CalcCheckSumSubract((unsigned char*)&ulOldAddress,sizeof(ulOldAddress),lSumFixed);

    lSumFixed = CalcCheckSumAdd((unsigned char*)&ulNewAddress,sizeof(ulNewAddress),lSumFixed);

    return CalcCheckSumFinish(lSumFixed);

}

谢谢!

编辑:在下面添加了单元测试代码

#include <time.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>

long CalcCheckSumAdd(unsigned char *pbHeader, int iSize, long lInitial){

    long lSum = lInitial;

    while (iSize > 1){

        lSum += *((unsigned short*)pbHeader);

        pbHeader += 2;

        iSize -= 2;

    }

    if (iSize > 0) lSum += *pbHeader;

    return lSum;

}

unsigned short CalcCheckSumFinish(long lSum){

    while (lSum >> 16){

        lSum = (lSum & 0xFFFF) + (lSum >> 16);

    }

    return (unsigned short)(~lSum);

}

void Randomize(unsigned char *pucPacket, unsigned long ulSize){

    for (unsigned long ulByte = 0; ulByte < ulSize; ulByte++){

        pucPacket[ulByte] = (unsigned char)(255 * rand() / RAND_MAX);

    }

}

unsigned short Calc(unsigned char *pucPacket, unsigned long ulSize){

    long lSum = CalcCheckSumAdd(pucPacket,ulSize,0);

    return CalcCheckSumFinish(lSum);

}

unsigned short Fix(unsigned short usOrig, unsigned int uiOld, unsigned int uiNew){

    // TODO: Replace this with something that makes main never fail
    usOrig -= uiOld & 0xffff;
    usOrig -= uiOld >> 16 & 0xffff;
    usOrig += uiNew & 0xffff;
    usOrig += uiNew >>16 & 0xffff;

    return usOrig;

}

void Break(unsigned char *pucPacket, unsigned int *puiOld, unsigned int *puiNew){

    unsigned int *puiChange = (unsigned int*)pucPacket;

    *puiOld = *puiChange;

    Randomize((unsigned char*)puiNew,sizeof(unsigned int));

    *puiChange = *puiNew;

}

void PrintBuffer(const char *szName, unsigned char *pucBuff, unsigned int uiSize){

    printf("%s: ",szName);

    for (unsigned int uiByte = 0; uiByte < uiSize; uiByte++){

        printf("%02X",(unsigned int)pucBuff[uiByte]);

    }

    printf("\n");

}

void PrintTestCase(unsigned char *pucOrig, unsigned char *pucChanged, unsigned int uiSize, unsigned short usOrig, unsigned short usChanged, unsigned short usFixed){

    PrintBuffer("Original Buffer",pucOrig,uiSize);
    PrintBuffer("Changed Buffer ",pucChanged,uiSize);

    printf("Orig    checksum: %04X\n",(unsigned int)usOrig);
    printf("Changed checksum: %04X\n",(unsigned int)usChanged);
    printf("Fixed   checksum: %04X\n",(unsigned int)usFixed);

}

int main(){

    srand((unsigned int)time(nullptr));

    unsigned char pucDataOrig[100];
    unsigned char pucDataChanged[100];

    bool bTestFailed = false;

    while (!bTestFailed){

        Randomize(pucDataOrig,sizeof(pucDataOrig));

        memcpy(pucDataChanged,pucDataOrig,sizeof(pucDataOrig));

        unsigned short usOrig = Calc(pucDataOrig,sizeof(pucDataOrig));

        unsigned int uiOld = 0,
                     uiNew = 0;

        Break(pucDataChanged,&uiOld,&uiNew);

        unsigned short usFixed = Fix(usOrig,uiOld,uiNew);

        unsigned short usChanged = Calc(pucDataChanged,sizeof(pucDataChanged));

        if (usChanged == usFixed){

            printf(".");

        }else{

            printf("\nTest case failed\n");
            PrintTestCase(pucDataOrig,pucDataChanged,sizeof(pucDataOrig),usOrig,usChanged,usFixed);

            bTestFailed = true;

        }

    }

    return 0;

}
4

2 回答 2

2

你是对的,上面的解决方案只适用于某些情况,但我有一个适用于所有类型数据包(分段或不分段,UDP、TCP、IP)的新实现。这是实现:

/* incremental checksum update */
static inline void
cksum_update(uint16_t *csum, uint32_t from, uint32_t to)
{
    uint32_t sum, csum_c, from_c, res, res2, ret, ret2;

    csum_c = ~((uint32_t)*csum);
    from_c = ~from;
    res = csum_c + from_c;
    ret = res + (res < from_c);

   res2 = ret + to;
   ret2 = res2 + (res2 < to);

   sum = ret2;
   sum = (sum & 0xffff) + (sum >> 16);
   sum = (sum & 0xffff) + (sum >> 16);
   *csum = (uint16_t)~sum;

}

您现在可以在翻译数据包地址和发送之前使用此功能:

/* Update L4 checksums on all packet a part from [2nd, n] fragment */
switch (IS_FRAG(ipv4_hdr) ? 0 : ipv4_hdr->next_proto_id) {
case IPPROTO_TCP:
{
    struct tcp_hdr *tcp_hdr = tcp_header(pkt);

    /* Compute TCP checksum using incremental update */
    cksum_update(&tcp_hdr->cksum, old_ip_addr, *address);
    break;
}
case IPPROTO_UDPLITE:
case IPPROTO_UDP:
{
    struct udp_hdr *udp_hdr = udp_header(pkt);

    /* Compute UDP checksum using incremental update */
    cksum_update(&udp_hdr->dgram_cksum, old_ip_addr, *address);
    break;
}
default:
    break;
}
于 2018-09-15T05:46:18.890 回答
0

您必须减去旧的 IP 地址并在 udp 校验和上添加新的,这是伪代码:

udp_hdr->dgram_cksum -= old_ipv4_addr & 0xffff;
udp_hdr->dgram_cksum -= old_ipv4_addr >> 16 & 0xffff;
udp_hdr->dgram_cksum += new_ipv4_addr & 0xffff;
udp_hdr->dgram_cksum += new_ipv4_addr >>16 & 0xffff;

那应该处理IP片段上的UDP校验和。

于 2018-07-16T13:41:10.613 回答