433d6423c3
Change-Id: Ic716f336b7071063997cf5b4dae6d50e0b4631e9
513 lines
12 KiB
C
513 lines
12 KiB
C
/*
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ip_write.c
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Copyright 1995 Philip Homburg
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*/
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#include "inet.h"
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#include "buf.h"
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#include "event.h"
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#include "type.h"
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#include "arp.h"
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#include "assert.h"
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#include "clock.h"
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#include "eth.h"
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#include "icmp_lib.h"
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#include "io.h"
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#include "ip.h"
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#include "ip_int.h"
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#include "ipr.h"
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THIS_FILE
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static void error_reply ARGS(( ip_fd_t *fd, int error ));
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int ip_write (fd, count)
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int fd;
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size_t count;
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{
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ip_fd_t *ip_fd;
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acc_t *pack;
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int r;
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ip_fd= &ip_fd_table[fd];
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if (count > IP_MAX_PACKSIZE)
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{
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error_reply (ip_fd, EPACKSIZE);
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return NW_OK;
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}
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pack= (*ip_fd->if_get_userdata)(ip_fd->if_srfd, (size_t)0,
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count, FALSE);
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if (!pack)
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return NW_OK;
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r= ip_send(fd, pack, count);
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assert(r != NW_WOULDBLOCK);
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if (r == NW_OK)
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error_reply (ip_fd, count);
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else
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error_reply (ip_fd, r);
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return NW_OK;
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}
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int ip_send(fd, data, data_len)
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int fd;
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acc_t *data;
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size_t data_len;
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{
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ip_port_t *ip_port;
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ip_fd_t *ip_fd;
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ip_hdr_t *ip_hdr, *tmp_hdr;
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ipaddr_t dstaddr, nexthop, hostrep_dst, my_ipaddr, netmask;
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u8_t *addrInBytes;
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acc_t *tmp_pack, *tmp_pack1;
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int hdr_len, hdr_opt_len, r;
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int type, ttl;
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size_t req_mtu;
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ev_arg_t arg;
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ip_fd= &ip_fd_table[fd];
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ip_port= ip_fd->if_port;
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if (!(ip_fd->if_flags & IFF_OPTSET))
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{
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bf_afree(data);
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return EBADMODE;
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}
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if (!(ip_fd->if_port->ip_flags & IPF_IPADDRSET))
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{
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/* Interface is down. */
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bf_afree(data);
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return ENETDOWN;
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}
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data_len= bf_bufsize(data);
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if (ip_fd->if_ipopt.nwio_flags & NWIO_RWDATONLY)
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{
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tmp_pack= bf_memreq(IP_MIN_HDR_SIZE);
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tmp_pack->acc_next= data;
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data= tmp_pack;
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data_len += IP_MIN_HDR_SIZE;
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}
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if (data_len<IP_MIN_HDR_SIZE)
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{
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bf_afree(data);
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return EPACKSIZE;
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}
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data= bf_packIffLess(data, IP_MIN_HDR_SIZE);
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ip_hdr= (ip_hdr_t *)ptr2acc_data(data);
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if (data->acc_linkC != 1 || data->acc_buffer->buf_linkC != 1)
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{
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tmp_pack= bf_memreq(IP_MIN_HDR_SIZE);
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tmp_hdr= (ip_hdr_t *)ptr2acc_data(tmp_pack);
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*tmp_hdr= *ip_hdr;
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tmp_pack->acc_next= bf_cut(data, IP_MIN_HDR_SIZE,
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data_len-IP_MIN_HDR_SIZE);
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bf_afree(data);
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ip_hdr= tmp_hdr;
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data= tmp_pack;
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assert (data->acc_length >= IP_MIN_HDR_SIZE);
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}
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if (ip_fd->if_ipopt.nwio_flags & NWIO_HDR_O_SPEC)
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{
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hdr_opt_len= ip_fd->if_ipopt.nwio_hdropt.iho_opt_siz;
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if (hdr_opt_len)
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{
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tmp_pack= bf_cut(data, 0, IP_MIN_HDR_SIZE);
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tmp_pack1= bf_cut (data, IP_MIN_HDR_SIZE,
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data_len-IP_MIN_HDR_SIZE);
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bf_afree(data);
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data= bf_packIffLess(tmp_pack, IP_MIN_HDR_SIZE);
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ip_hdr= (ip_hdr_t *)ptr2acc_data(data);
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tmp_pack= bf_memreq (hdr_opt_len);
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memcpy (ptr2acc_data(tmp_pack), ip_fd->if_ipopt.
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nwio_hdropt.iho_data, hdr_opt_len);
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data->acc_next= tmp_pack;
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tmp_pack->acc_next= tmp_pack1;
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hdr_len= IP_MIN_HDR_SIZE+hdr_opt_len;
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}
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else
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hdr_len= IP_MIN_HDR_SIZE;
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ip_hdr->ih_vers_ihl= hdr_len/4;
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ip_hdr->ih_tos= ip_fd->if_ipopt.nwio_tos;
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ip_hdr->ih_flags_fragoff= 0;
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if (ip_fd->if_ipopt.nwio_df)
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ip_hdr->ih_flags_fragoff |= HTONS(IH_DONT_FRAG);
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ip_hdr->ih_ttl= ip_fd->if_ipopt.nwio_ttl;
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ttl= ORTD_UNREACHABLE+1; /* Don't check TTL */
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}
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else
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{
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hdr_len= (ip_hdr->ih_vers_ihl & IH_IHL_MASK)*4;
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r= NW_OK;
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if (hdr_len<IP_MIN_HDR_SIZE)
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r= EINVAL;
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else if (hdr_len>data_len)
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r= EPACKSIZE;
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else if (!ip_hdr->ih_ttl)
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r= EINVAL;
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if (r != NW_OK)
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{
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bf_afree(data);
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return r;
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}
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data= bf_packIffLess(data, hdr_len);
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ip_hdr= (ip_hdr_t *)ptr2acc_data(data);
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if (hdr_len != IP_MIN_HDR_SIZE)
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{
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r= ip_chk_hdropt((u8_t *)(ptr2acc_data(data) +
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IP_MIN_HDR_SIZE),
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hdr_len-IP_MIN_HDR_SIZE);
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if (r != NW_OK)
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{
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bf_afree(data);
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return r;
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}
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}
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ttl= ip_hdr->ih_ttl;
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}
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ip_hdr->ih_vers_ihl= (ip_hdr->ih_vers_ihl & IH_IHL_MASK) |
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(IP_VERSION << 4);
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ip_hdr->ih_length= htons(data_len);
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ip_hdr->ih_flags_fragoff &= ~HTONS(IH_FRAGOFF_MASK |
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IH_FLAGS_UNUSED | IH_MORE_FRAGS);
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if (ip_fd->if_ipopt.nwio_flags & NWIO_PROTOSPEC)
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ip_hdr->ih_proto= ip_fd->if_ipopt.nwio_proto;
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ip_hdr->ih_id= htons(ip_port->ip_frame_id++);
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ip_hdr->ih_src= ip_fd->if_port->ip_ipaddr;
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if (ip_fd->if_ipopt.nwio_flags & NWIO_REMSPEC)
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ip_hdr->ih_dst= ip_fd->if_ipopt.nwio_rem;
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netmask= ip_port->ip_subnetmask;
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my_ipaddr= ip_port->ip_ipaddr;
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dstaddr= ip_hdr->ih_dst;
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hostrep_dst= ntohl(dstaddr);
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r= 0;
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if (hostrep_dst == (ipaddr_t)-1)
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; /* OK, local broadcast */
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else if ((hostrep_dst & 0xe0000000l) == 0xe0000000l)
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; /* OK, Multicast */
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else if ((hostrep_dst & 0xf0000000l) == 0xf0000000l)
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r= EAFNOSUPPORT; /* Bad class */
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else if ((dstaddr ^ my_ipaddr) & netmask)
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; /* OK, remote destination */
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else if (!(dstaddr & ~netmask) &&
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(ip_port->ip_flags & IPF_SUBNET_BCAST))
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{
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r= EAFNOSUPPORT; /* Zero host part */
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}
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if (r<0)
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{
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DIFBLOCK(1, r == EAFNOSUPPORT,
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printf("bad destination: ");
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writeIpAddr(ip_hdr->ih_dst);
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printf("\n"));
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bf_afree(data);
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return r;
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}
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ip_hdr_chksum(ip_hdr, hdr_len);
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data= bf_packIffLess(data, IP_MIN_HDR_SIZE);
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assert (data->acc_length >= IP_MIN_HDR_SIZE);
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ip_hdr= (ip_hdr_t *)ptr2acc_data(data);
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if (ip_hdr->ih_flags_fragoff & HTONS(IH_DONT_FRAG))
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{
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req_mtu= bf_bufsize(data);
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if (req_mtu > ip_port->ip_mtu)
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{
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DBLOCK(1, printf(
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"packet is larger than link MTU and DF is set\n"));
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bf_afree(data);
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return EPACKSIZE;
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}
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}
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else
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req_mtu= 0;
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addrInBytes= (u8_t *)&dstaddr;
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if ((addrInBytes[0] & 0xff) == 0x7f) /* local loopback */
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{
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assert (data->acc_linkC == 1);
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dstaddr= ip_hdr->ih_dst; /* swap src and dst
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* addresses */
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ip_hdr->ih_dst= ip_hdr->ih_src;
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ip_hdr->ih_src= dstaddr;
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data->acc_ext_link= NULL;
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if (ip_port->ip_loopb_head == NULL)
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{
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ip_port->ip_loopb_head= data;
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arg.ev_ptr= ip_port;
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ev_enqueue(&ip_port->ip_loopb_event,
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ip_process_loopb, arg);
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}
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else
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ip_port->ip_loopb_tail->acc_ext_link= data;
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ip_port->ip_loopb_tail= data;
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return NW_OK;
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}
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if ((dstaddr & HTONL(0xe0000000)) == HTONL(0xe0000000))
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{
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if (dstaddr == (ipaddr_t)-1)
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{
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r= (*ip_port->ip_dev_send)(ip_port, dstaddr, data,
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IP_LT_BROADCAST);
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return r;
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}
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if (ip_nettype(dstaddr) == IPNT_CLASS_D)
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{
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/* Multicast, what about multicast routing? */
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r= (*ip_port->ip_dev_send)(ip_port, dstaddr, data,
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IP_LT_MULTICAST);
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return r;
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}
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}
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if (dstaddr == my_ipaddr)
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{
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assert (data->acc_linkC == 1);
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data->acc_ext_link= NULL;
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if (ip_port->ip_loopb_head == NULL)
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{
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ip_port->ip_loopb_head= data;
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arg.ev_ptr= ip_port;
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ev_enqueue(&ip_port->ip_loopb_event,
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ip_process_loopb, arg);
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}
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else
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ip_port->ip_loopb_tail->acc_ext_link= data;
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ip_port->ip_loopb_tail= data;
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return NW_OK;
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}
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if (((dstaddr ^ my_ipaddr) & netmask) == 0)
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{
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type= ((dstaddr == (my_ipaddr | ~netmask) &&
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(ip_port->ip_flags & IPF_SUBNET_BCAST)) ?
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IP_LT_BROADCAST : IP_LT_NORMAL);
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r= (*ip_port->ip_dev_send)(ip_port, dstaddr, data, type);
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return r;
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}
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r= oroute_frag (ip_port - ip_port_table, dstaddr, ttl, req_mtu,
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&nexthop);
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if (r == NW_OK)
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{
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if (nexthop == ip_port->ip_ipaddr)
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{
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data->acc_ext_link= NULL;
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if (ip_port->ip_loopb_head == NULL)
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{
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ip_port->ip_loopb_head= data;
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arg.ev_ptr= ip_port;
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ev_enqueue(&ip_port->ip_loopb_event,
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ip_process_loopb, arg);
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}
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else
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ip_port->ip_loopb_tail->acc_ext_link= data;
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ip_port->ip_loopb_tail= data;
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}
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else
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{
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r= (*ip_port->ip_dev_send)(ip_port,
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nexthop, data, IP_LT_NORMAL);
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}
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}
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else
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{
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DBLOCK(0x10, printf("got error %d\n", r));
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bf_afree(data);
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}
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return r;
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}
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void ip_hdr_chksum(ip_hdr, ip_hdr_len)
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ip_hdr_t *ip_hdr;
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int ip_hdr_len;
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{
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ip_hdr->ih_hdr_chk= 0;
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ip_hdr->ih_hdr_chk= ~oneC_sum (0, (u16_t *)ip_hdr, ip_hdr_len);
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}
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acc_t *ip_split_pack (ip_port, ref_last, mtu)
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ip_port_t *ip_port;
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acc_t **ref_last;
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int mtu;
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{
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int pack_siz;
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ip_hdr_t *first_hdr, *second_hdr;
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int first_hdr_len, second_hdr_len;
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int first_data_len, second_data_len;
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int data_len, max_data_len, nfrags, new_first_data_len;
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int first_opt_size, second_opt_size;
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acc_t *first_pack, *second_pack, *tmp_pack;
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u8_t *first_optptr, *second_optptr;
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int i, optlen;
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first_pack= *ref_last;
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*ref_last= 0;
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second_pack= 0;
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first_pack= bf_align(first_pack, IP_MIN_HDR_SIZE, 4);
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first_pack= bf_packIffLess(first_pack, IP_MIN_HDR_SIZE);
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assert (first_pack->acc_length >= IP_MIN_HDR_SIZE);
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first_hdr= (ip_hdr_t *)ptr2acc_data(first_pack);
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first_hdr_len= (first_hdr->ih_vers_ihl & IH_IHL_MASK) * 4;
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if (first_hdr_len>IP_MIN_HDR_SIZE)
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{
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first_pack= bf_packIffLess(first_pack, first_hdr_len);
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first_hdr= (ip_hdr_t *)ptr2acc_data(first_pack);
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}
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pack_siz= bf_bufsize(first_pack);
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assert(pack_siz > mtu);
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assert (!(first_hdr->ih_flags_fragoff & HTONS(IH_DONT_FRAG)));
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if (first_pack->acc_linkC != 1 ||
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first_pack->acc_buffer->buf_linkC != 1)
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{
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/* Get a private copy of the IP header */
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tmp_pack= bf_memreq(first_hdr_len);
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memcpy(ptr2acc_data(tmp_pack), first_hdr, first_hdr_len);
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first_pack= bf_delhead(first_pack, first_hdr_len);
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tmp_pack->acc_next= first_pack;
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first_pack= tmp_pack; tmp_pack= NULL;
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first_hdr= (ip_hdr_t *)ptr2acc_data(first_pack);
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}
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data_len= ntohs(first_hdr->ih_length) - first_hdr_len;
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/* Try to split the packet evenly. */
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assert(mtu > first_hdr_len);
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max_data_len= mtu-first_hdr_len;
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nfrags= (data_len/max_data_len)+1;
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new_first_data_len= data_len/nfrags;
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if (new_first_data_len < 8)
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{
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/* Special case for extremely small MTUs */
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new_first_data_len= 8;
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}
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new_first_data_len &= ~7; /* data goes in 8 byte chuncks */
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assert(new_first_data_len >= 8);
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assert(new_first_data_len+first_hdr_len <= mtu);
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second_data_len= data_len-new_first_data_len;
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second_pack= bf_cut(first_pack, first_hdr_len+
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new_first_data_len, second_data_len);
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tmp_pack= first_pack;
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first_data_len= new_first_data_len;
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first_pack= bf_cut (tmp_pack, 0, first_hdr_len+first_data_len);
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bf_afree(tmp_pack);
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tmp_pack= bf_memreq(first_hdr_len);
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tmp_pack->acc_next= second_pack;
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second_pack= tmp_pack;
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second_hdr= (ip_hdr_t *)ptr2acc_data(second_pack);
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*second_hdr= *first_hdr;
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second_hdr->ih_flags_fragoff= htons(
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ntohs(first_hdr->ih_flags_fragoff)+(first_data_len/8));
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first_opt_size= first_hdr_len-IP_MIN_HDR_SIZE;
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second_opt_size= 0;
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if (first_opt_size)
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{
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first_pack= bf_packIffLess (first_pack,
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first_hdr_len);
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first_hdr= (ip_hdr_t *)ptr2acc_data(first_pack);
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assert (first_pack->acc_length>=first_hdr_len);
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first_optptr= (u8_t *)ptr2acc_data(first_pack)+
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IP_MIN_HDR_SIZE;
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second_optptr= (u8_t *)ptr2acc_data(
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second_pack)+IP_MIN_HDR_SIZE;
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i= 0;
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while (i<first_opt_size)
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{
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switch (*first_optptr & IP_OPT_NUMBER)
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{
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case 0:
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case 1:
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optlen= 1;
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break;
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default:
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optlen= first_optptr[1];
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break;
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}
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assert (i + optlen <= first_opt_size);
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i += optlen;
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if (*first_optptr & IP_OPT_COPIED)
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{
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second_opt_size += optlen;
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while (optlen--)
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*second_optptr++=
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*first_optptr++;
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}
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else
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first_optptr += optlen;
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}
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while (second_opt_size & 3)
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{
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*second_optptr++= 0;
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second_opt_size++;
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}
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}
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second_hdr_len= IP_MIN_HDR_SIZE + second_opt_size;
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second_hdr->ih_vers_ihl= (second_hdr->ih_vers_ihl & 0xf0)
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+ (second_hdr_len/4);
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second_hdr->ih_length= htons(second_data_len+
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second_hdr_len);
|
|
second_pack->acc_length= second_hdr_len;
|
|
|
|
assert(first_pack->acc_linkC == 1);
|
|
assert(first_pack->acc_buffer->buf_linkC == 1);
|
|
|
|
first_hdr->ih_flags_fragoff |= HTONS(IH_MORE_FRAGS);
|
|
first_hdr->ih_length= htons(first_data_len+
|
|
first_hdr_len);
|
|
assert (!(second_hdr->ih_flags_fragoff & HTONS(IH_DONT_FRAG)));
|
|
|
|
ip_hdr_chksum(first_hdr, first_hdr_len);
|
|
if (second_data_len+second_hdr_len <= mtu)
|
|
{
|
|
/* second_pack will not be split any further, so we have to
|
|
* calculate the header checksum.
|
|
*/
|
|
ip_hdr_chksum(second_hdr, second_hdr_len);
|
|
}
|
|
|
|
*ref_last= second_pack;
|
|
|
|
return first_pack;
|
|
}
|
|
|
|
static void error_reply (ip_fd, error)
|
|
ip_fd_t *ip_fd;
|
|
int error;
|
|
{
|
|
if ((*ip_fd->if_get_userdata)(ip_fd->if_srfd, (size_t)error,
|
|
(size_t)0, FALSE))
|
|
{
|
|
ip_panic(( "can't error_reply" ));
|
|
}
|
|
}
|
|
|
|
/*
|
|
* $PchId: ip_write.c,v 1.22 2004/08/03 11:11:04 philip Exp $
|
|
*/
|