mirror of
https://github.com/oxen-io/lokinet.git
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259 lines
7.3 KiB
C++
259 lines
7.3 KiB
C++
#include <llarp/endian.h>
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#include <algorithm>
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#include <llarp/ip.hpp>
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#include "llarp/buffer.hpp"
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#include "mem.hpp"
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#ifndef _WIN32
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#include <netinet/in.h>
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#endif
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#include <llarp/endian.h>
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#include <map>
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#include <algorithm>
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namespace llarp
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{
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namespace net
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{
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bool
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IPv4Packet::Load(llarp_buffer_t pkt)
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{
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if(pkt.sz > sizeof(buf))
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return false;
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sz = pkt.sz;
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memcpy(buf, pkt.base, sz);
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return true;
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}
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llarp_buffer_t
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IPv4Packet::Buffer()
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{
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return llarp::InitBuffer(buf, sz);
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}
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#if 0
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static uint32_t
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ipchksum_pseudoIPv4(nuint32_t src_ip, nuint32_t dst_ip, uint8_t proto,
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uint16_t innerlen)
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{
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#define IPCS(x) ((uint32_t)(x & 0xFFff) + (uint32_t)(x >> 16))
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uint32_t sum = IPCS(src_ip.n) + IPCS(dst_ip.n) + (uint32_t)proto
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+ (uint32_t)htons(innerlen);
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#undef IPCS
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return sum;
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}
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static uint16_t
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ipchksum(const byte_t *buf, size_t sz, uint32_t sum = 0)
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{
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while(sz > 1)
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{
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sum += *(const uint16_t *)buf;
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sz -= sizeof(uint16_t);
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buf += sizeof(uint16_t);
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}
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if(sz != 0)
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{
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uint16_t x = 0;
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*(byte_t *)&x = *(const byte_t *)buf;
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sum += x;
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}
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// only need to do it 2 times to be sure
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// proof: 0xFFff + 0xFFff = 0x1FFfe -> 0xFFff
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sum = (sum & 0xFFff) + (sum >> 16);
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sum += sum >> 16;
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return uint16_t((~sum) & 0xFFff);
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}
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#endif
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static uint16_t
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deltachksum(uint16_t old_sum, huint32_t old_src_ip, huint32_t old_dst_ip,
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huint32_t new_src_ip, huint32_t new_dst_ip)
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{
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#define ADDIPCS(x) ((uint32_t)(x.h & 0xFFff) + (uint32_t)(x.h >> 16))
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#define SUBIPCS(x) ((uint32_t)((~x.h) & 0xFFff) + (uint32_t)((~x.h) >> 16))
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uint32_t sum = ntohs(old_sum) + ADDIPCS(old_src_ip) + ADDIPCS(old_dst_ip)
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+ SUBIPCS(new_src_ip) + SUBIPCS(new_dst_ip);
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#undef ADDIPCS
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#undef SUBIPCS
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// only need to do it 2 times to be sure
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// proof: 0xFFff + 0xFFff = 0x1FFfe -> 0xFFff
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sum = (sum & 0xFFff) + (sum >> 16);
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sum += sum >> 16;
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return htons(uint16_t(sum & 0xFFff));
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}
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static void
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checksumDstTCP(byte_t *pld, size_t psz, size_t fragoff, size_t chksumoff,
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huint32_t oSrcIP, huint32_t oDstIP, huint32_t nSrcIP,
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huint32_t nDstIP)
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{
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if(fragoff > chksumoff)
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return;
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uint16_t *check = (uint16_t *)(pld + chksumoff - fragoff);
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*check = deltachksum(*check, oSrcIP, oDstIP, nSrcIP, nDstIP);
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// usually, TCP checksum field cannot be 0xFFff,
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// because one's complement addition cannot result in 0x0000,
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// and there's inversion in the end;
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// emulate that.
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if(*check == 0xFFff)
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*check = 0x0000;
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}
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static void
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checksumDstUDP(const ip_header *ohdr, byte_t *pld, size_t psz,
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size_t fragoff, huint32_t oSrcIP, huint32_t oDstIP,
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huint32_t nSrcIP, huint32_t nDstIP)
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{
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if(fragoff > 6)
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return;
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uint16_t *check = (uint16_t *)(pld + 6);
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if(*check == 0x0000)
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return; // 0 is used to indicate "no checksum", don't change
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*check = deltachksum(*check, oSrcIP, oDstIP, nSrcIP, nDstIP);
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// 0 is used to indicate "no checksum"
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// 0xFFff and 0 are equivalent in one's complement math
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// 0xFFff + 1 = 0x10000 -> 0x0001 (same as 0 + 1)
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// infact it's impossible to get 0 with such addition,
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// when starting from non-0 value.
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// inside deltachksum we don't invert so it's safe to skip check there
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// if(*check == 0x0000)
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// *check = 0xFFff;
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}
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void
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IPv4Packet::UpdatePacketOnDst(huint32_t nSrcIP, huint32_t nDstIP)
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{
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auto hdr = Header();
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auto oSrcIP = xntohl(nuint32_t{hdr->saddr});
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auto oDstIP = xntohl(nuint32_t{hdr->daddr});
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// IPv4 checksum
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hdr->check = deltachksum(hdr->check, oSrcIP, oDstIP, nSrcIP, nDstIP);
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// L4 checksum
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auto ihs = size_t(hdr->ihl * 4);
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if(ihs <= sz)
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{
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auto pld = buf + ihs;
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auto psz = sz - ihs;
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auto fragoff = size_t((ntohs(hdr->frag_off) & 0x1Fff) * 8);
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switch(hdr->protocol)
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{
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case 6: // TCP
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checksumDstTCP(pld, psz, fragoff, 16, oSrcIP, oDstIP, nSrcIP,
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nDstIP);
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break;
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case 17: // UDP
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case 136: // UDP-Lite - same checksum place, same 0->0xFFff condition
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checksumDstUDP(hdr, pld, psz, fragoff, oSrcIP, oDstIP, nSrcIP,
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nDstIP);
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break;
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case 33: // DCCP
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checksumDstTCP(pld, psz, fragoff, 6, oSrcIP, oDstIP, nSrcIP,
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nDstIP);
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break;
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}
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}
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// write new IP addresses
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hdr->saddr = xhtonl(nSrcIP).n;
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hdr->daddr = xhtonl(nDstIP).n;
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}
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static void
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checksumSrcTCP(byte_t *pld, size_t psz, size_t fragoff, size_t chksumoff,
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huint32_t oSrcIP, huint32_t oDstIP)
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{
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if(fragoff > chksumoff)
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return;
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uint16_t *check = (uint16_t *)(pld + chksumoff - fragoff);
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*check = deltachksum(*check, oSrcIP, oDstIP, huint32_t{0}, huint32_t{0});
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// usually, TCP checksum field cannot be 0xFFff,
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// because one's complement addition cannot result in 0x0000,
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// and there's inversion in the end;
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// emulate that.
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if(*check == 0xFFff)
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*check = 0x0000;
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}
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static void
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checksumSrcUDP(const ip_header *ohdr, byte_t *pld, size_t psz,
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size_t fragoff, huint32_t oSrcIP, huint32_t oDstIP)
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{
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if(fragoff > 6)
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return;
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uint16_t *check = (uint16_t *)(pld + 6);
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if(*check == 0x0000)
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return; // 0 is used to indicate "no checksum", don't change
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*check = deltachksum(*check, oSrcIP, oDstIP, huint32_t{0}, huint32_t{0});
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// 0 is used to indicate "no checksum"
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// 0xFFff and 0 are equivalent in one's complement math
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// 0xFFff + 1 = 0x10000 -> 0x0001 (same as 0 + 1)
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// infact it's impossible to get 0 with such addition,
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// when starting from non-0 value.
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// inside deltachksum we don't invert so it's safe to skip check there
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// if(*check == 0x0000)
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// *check = 0xFFff;
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}
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void
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IPv4Packet::UpdatePacketOnSrc()
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{
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auto hdr = Header();
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auto oSrcIP = xntohl(nuint32_t{hdr->saddr});
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auto oDstIP = xntohl(nuint32_t{hdr->daddr});
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// L4
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auto ihs = size_t(hdr->ihl * 4);
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if(ihs <= sz)
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{
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auto pld = buf + ihs;
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auto psz = sz - ihs;
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auto fragoff = size_t((ntohs(hdr->frag_off) & 0x1Fff) * 8);
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switch(hdr->protocol)
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{
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case 6: // TCP
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checksumSrcTCP(pld, psz, fragoff, 16, oSrcIP, oDstIP);
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break;
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case 17: // UDP
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case 136: // UDP-Lite
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checksumSrcUDP(hdr, pld, psz, fragoff, oSrcIP, oDstIP);
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break;
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case 33: // DCCP
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checksumSrcTCP(pld, psz, fragoff, 6, oSrcIP, oDstIP);
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break;
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}
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}
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// IPv4
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hdr->check =
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deltachksum(hdr->check, oSrcIP, oDstIP, huint32_t{0}, huint32_t{0});
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// clear addresses
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hdr->saddr = 0;
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hdr->daddr = 0;
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}
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} // namespace net
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} // namespace llarp
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