/**************************************************************************** * net/sixlowpan/sixlowpan_hc06.c * * SPDX-License-Identifier: BSD-3-Clause * * Copyright (C) 2017, 2019-2020 Gregory Nutt, all rights reserved * Author: Gregory Nutt * * Derives from Contiki: * * Copyright (c) 2008, Swedish Institute of Computer Science. * All rights reserved. * Authors: Adam Dunkels * Nicolas Tsiftes * Niclas Finne * Mathilde Durvy * Julien Abeille * Joakim Eriksson * Joel Hoglund * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following c/onditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the Institute nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE INSTITUTE AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE INSTITUTE OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * ****************************************************************************/ /* FOR HC-06 COMPLIANCE TODO: * * -Add compression options to UDP, currently only supports * both ports compressed or both ports elided * -Verify TC/FL compression works * -Add multicast support for M=1 and DAC=1 */ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include "sixlowpan/sixlowpan_internal.h" #ifdef CONFIG_NET_6LOWPAN_COMPRESSION_HC06 /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* Used in the encoding of address uncompress rules */ #define UNCOMPRESS_POSTLEN_SHIFT 0 #define UNCOMPRESS_POSTLEN_MASK (0x0f << UNCOMPRESS_POSTLEN_SHIFT) # define UNCOMPRESS_POSTLEN(n) (((n) & UNCOMPRESS_POSTLEN_MASK) >> UNCOMPRESS_POSTLEN_SHIFT) #define UNCOMPRESS_PREFLEN_SHIFT 4 #define UNCOMPRESS_PREFLEN_MASK (0x0f << UNCOMPRESS_PREFLEN_SHIFT) # define UNCOMPRESS_PREFLEN(n) (((n) & UNCOMPRESS_PREFLEN_MASK) >> UNCOMPRESS_PREFLEN_SHIFT) #define UNCOMPRESS_MACBASED (1 << 8) #define UNCOMPRESS_ZEROPAD (1 << 9) /**************************************************************************** * Private Types ****************************************************************************/ /* An address context for IPHC address compression each context can have up * to 8 bytes */ struct sixlowpan_addrcontext_s { uint8_t used; /* Possibly use as prefix-length */ uint8_t number; uint8_t prefix[8]; }; /**************************************************************************** * Private Data ****************************************************************************/ /* HC06 specific variables **************************************************/ /* Use of global variables simplifies the logic and is safe in the multi- * device environment because access is serialized via the network lock. * * But note that state may NOT be preserved from packet-to-packet. */ #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 /* Addresses contexts for IPHC. */ static struct sixlowpan_addrcontext_s g_hc06_addrcontexts[CONFIG_NET_6LOWPAN_MAXADDRCONTEXT]; #endif /* Pointer to the byte where to write next inline field. */ static FAR uint8_t *g_hc06ptr; /* Constant Data ************************************************************/ /* Uncompression of linklocal * * 0 -> 16 bytes from packet * 1 -> 2 bytes from prefix - 16 bytes from packet * 2 -> 2 bytes from prefix - 0000::00ff:fe00:XXXX and 2 bytes from packet * 3 -> 2 bytes from prefix - Infer 2 or 8 bytes from MAC address * * NOTE: ipaddr=the uncompress function does change 0xf to 0x100 * NOTE: 0x00 ipaddr=no-autoconfig ipaddr=unspecified */ static const uint16_t g_unc_llconf[] = { 0x000f, 0x0028, 0x0022, 0x0120 }; /* Uncompression of ctx-based * * 0 -> 0 bits from packet [unspecified / reserved] * 1 -> 8 bytes from prefix - Bunch of zeroes and 8 bytes from packet * 2 -> 8 bytes from prefix - 0000::00ff:fe00:XXXX and 2 bytes from packet * 3 -> 8 bytes from prefix - Infer 2 or 8 bytes from MAC address */ static const uint16_t g_unc_ctxconf[] = { 0x0000, 0x0088, 0x0082, 0x0180 }; /* Uncompression of mx-based * * 0 -> 0 bits from prefix / 16 bytes inline * 1 -> 2 bytes from prefix / 5 bytes inline: ffxx::00xx:xxxx:xxxx * 2 -> 2 bytes from prefix / 3 bytes inline: ffxx::00xx:xxxx * 3 -> 2 bytes from prefix / 1 byte inline: ff02::00xx * * All other bits required zero padding. */ static const uint16_t g_unc_mxconf[] = { 0x020f, 0x0225, 0x0223, 0x0221 }; /* Link local prefix */ static const uint8_t g_llprefix[] = { 0xfe, 0x80 }; /* TTL uncompression values */ static const uint8_t g_ttl_values[] = { 0, 1, 64, 255 }; /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: find_addrcontext_bynumber * * Description: * Find the address context with the given number. * ****************************************************************************/ static FAR struct sixlowpan_addrcontext_s * find_addrcontext_bynumber(uint8_t number) { /* Remove code to avoid warnings and save flash if no address context is * used. */ #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 int i; for (i = 0; i < CONFIG_NET_6LOWPAN_MAXADDRCONTEXT; i++) { if ((g_hc06_addrcontexts[i].used == 1) && g_hc06_addrcontexts[i].number == number) { return &g_hc06_addrcontexts[i]; } } #endif /* CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 */ return NULL; } /**************************************************************************** * Name: find_addrcontext_byprefix * * Description: * Find the address context corresponding to the prefix ipaddr. * ****************************************************************************/ static FAR struct sixlowpan_addrcontext_s * find_addrcontext_byprefix(FAR const net_ipv6addr_t ipaddr) { #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 int i; /* Remove code to avoid warnings and save flash if no address context is * used */ for (i = 0; i < CONFIG_NET_6LOWPAN_MAXADDRCONTEXT; i++) { if ((g_hc06_addrcontexts[i].used == 1) && net_ipv6addr_prefixcmp(&g_hc06_addrcontexts[i].prefix, ipaddr, 64)) { ninfo("Context found for " "ipaddr=%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x " "Context: %d\n", NTOHS(ipaddr[0]), NTOHS(ipaddr[1]), NTOHS(ipaddr[2]), NTOHS(ipaddr[3]), NTOHS(ipaddr[4]), NTOHS(ipaddr[5]), NTOHS(ipaddr[6]), NTOHS(ipaddr[7]), g_hc06_addrcontexts[i].number); return &g_hc06_addrcontexts[i]; } } #endif /* CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 */ return NULL; } /**************************************************************************** * Name: compress_ipaddr, compress_tagaddr, and compress_laddr * * Description: * Uncompress addresses based on a prefix and a postfix with zeroes in * between. If the postfix is zero in length it will use the link address * to configure the IP address (autoconf style). * * prefpost takes a byte where the first nibble specify prefix count * and the second postfix count (NOTE: 15/0xf ipaddr=16 bytes copy). * * compress_tagaddr() accepts a remote, variable length, tagged MAC * address; * compress_laddr() accepts a local, fixed length MAC address. * compress_ipaddr() is simply the common logic that does not depend on * the size of the MAC address. * ****************************************************************************/ static uint8_t compress_ipaddr(FAR const net_ipv6addr_t ipaddr, uint8_t bitpos) { if (SIXLOWPAN_IS_IID_16BIT_COMPRESSABLE(ipaddr)) { /* Compress IID to 16 bits: xxxx:xxxx:xxxx:xxxx:0000:00ff:fe00:XXXX */ #ifdef CONFIG_ENDIAN_BIG *g_hc06ptr++ = ipaddr[7] >> 8; /* Preserve big-endian, network order */ *g_hc06ptr++ = ipaddr[7] & 0xff; #else *g_hc06ptr++ = ipaddr[7] & 0xff; /* Preserve big-endian, network order */ *g_hc06ptr++ = ipaddr[7] >> 8; #endif return 2 << bitpos; /* 16-bits */ } else { int i; /* Do not compress IID: xxxx:xxxx:xxxx:xxxx:IID:IID:IID:IID */ for (i = 4; i < 8; i++) { #ifdef CONFIG_ENDIAN_BIG *g_hc06ptr++ = ipaddr[i] >> 8; /* Preserve big-endian, network order */ *g_hc06ptr++ = ipaddr[i] & 0xff; #else *g_hc06ptr++ = ipaddr[i] & 0xff; /* Preserve big-endian, network order */ *g_hc06ptr++ = ipaddr[i] >> 8; #endif } return 1 << bitpos; /* 64-bits */ } } static uint8_t compress_tagaddr(FAR const net_ipv6addr_t ipaddr, FAR const struct netdev_varaddr_s *macaddr, uint8_t bitpos) { uint8_t tag; #ifdef CONFIG_DEBUG_NET_INFO ninfo("Compressing bitpos=%u addrlen=%u\n", bitpos, macaddr->nv_addrlen); ninfo(" ipaddr=%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x\n", NTOHS(ipaddr[0]), NTOHS(ipaddr[1]), NTOHS(ipaddr[2]), NTOHS(ipaddr[3]), NTOHS(ipaddr[4]), NTOHS(ipaddr[5]), NTOHS(ipaddr[6]), NTOHS(ipaddr[7])); switch (macaddr->nv_addrlen) { case 1: ninfo(" addr=%02x\n", macaddr->nv_addr[0]); break; case 2: ninfo(" saddr=%02x:%02x\n", macaddr->nv_addr[0], macaddr->nv_addr[1]); break; case 8: ninfo(" eaddr=%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n", macaddr->nv_addr[0], macaddr->nv_addr[1], macaddr->nv_addr[2], macaddr->nv_addr[3], macaddr->nv_addr[4], macaddr->nv_addr[5], macaddr->nv_addr[6], macaddr->nv_addr[7]); break; default: nerr("ERROR: Unsupported addrlen %u\n", macaddr->nv_addrlen); break; } #endif if (sixlowpan_ismacbased(ipaddr, macaddr)) { tag = (3 << bitpos); /* 0-bits */ } else { tag = compress_ipaddr(ipaddr, bitpos); } ninfo("Tag=%02x\n", tag); return tag; } static uint8_t compress_laddr(FAR const net_ipv6addr_t srcipaddr, FAR const struct netdev_varaddr_s *macaddr, uint8_t bitpos) { uint8_t tag; #ifdef CONFIG_DEBUG_NET_INFO ninfo("Compressing bitpos=%u\n", bitpos); ninfo(" srcipaddr=%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x\n", NTOHS(srcipaddr[0]), NTOHS(srcipaddr[1]), NTOHS(srcipaddr[2]), NTOHS(srcipaddr[3]), NTOHS(srcipaddr[4]), NTOHS(srcipaddr[5]), NTOHS(srcipaddr[6]), NTOHS(srcipaddr[7])); switch (macaddr->nv_addrlen) { case 1: ninfo(" addr=%02x\n", macaddr->nv_addr[0]); break; case 2: ninfo(" saddr=%02x:%02x\n", macaddr->nv_addr[0], macaddr->nv_addr[1]); break; case 8: ninfo(" eaddr=%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x\n", macaddr->nv_addr[0], macaddr->nv_addr[1], macaddr->nv_addr[2], macaddr->nv_addr[3], macaddr->nv_addr[4], macaddr->nv_addr[5], macaddr->nv_addr[6], macaddr->nv_addr[7]); break; default: ninfo(" Unsupported addrlen %u\n", macaddr->nv_addrlen); } #endif if (sixlowpan_ismacbased(srcipaddr, macaddr)) { tag = (3 << bitpos); /* 0-bits */ } else { tag = compress_ipaddr(srcipaddr, bitpos); } ninfo("Tag=%02x\n", tag); return tag; } /**************************************************************************** * Name: uncompress_addr * * Description: * Uncompress addresses based on a prefix and a postfix with zeroes in * between. If the postfix is zero in length it will use the link address * to configure the IP address (autoconf style). * * prefpost takes a byte where the first nibble specify prefix count * and the second postfix count (NOTE: 15/0xf ipaddr=16 bytes copy). * ****************************************************************************/ static void uncompress_addr(FAR const struct netdev_varaddr_s *addr, FAR const uint8_t *prefix, uint16_t prefpost, FAR net_ipv6addr_t ipaddr) { FAR const uint8_t *srcptr; bool usemac = (prefpost & UNCOMPRESS_MACBASED) != 0; uint8_t prefcount = UNCOMPRESS_PREFLEN(prefpost); uint8_t postcount = UNCOMPRESS_POSTLEN(prefpost); int destndx; int i; /* The value 16 is encoded as 0xf in the 4 bit-fields. */ prefcount = prefcount == 15 ? 16 : prefcount; postcount = postcount == 15 ? 16 : postcount; /* Select the data source */ srcptr = g_hc06ptr; if (usemac) { /* Select the source the address data */ srcptr = addr->nv_addr; /* If the provided postcount is zero and we are taking data from the * MAC address, set postcount to the full address length. */ if (postcount == 0) { postcount = addr->nv_addrlen; } } /* Copy any prefix */ if (prefcount > 0) { memcpy(ipaddr, prefix, prefcount); } /* Clear bytes between int prefcount and postcount */ if (prefcount + postcount < 16) { FAR uint8_t *destptr = (FAR uint8_t *)&ipaddr[0]; memset(&destptr[prefcount], 0, 16 - (prefcount + postcount)); } /* Copy the remaining data from the source */ if (postcount > 0) { /* If there is space for the ...:00ff:fe00:... and if we were not * asked t specifically zero pad the address, then add these magic * bits to the decoded address. */ if (postcount <= 2 && prefcount < 11 && (prefpost & UNCOMPRESS_ZEROPAD) == 0) { /* 16 bit uncompression ipaddr=0000:00ff:fe00:xxxx */ ipaddr[5] = HTONS(0x00ff); ipaddr[6] = HTONS(0xfe00); } /* Handle the even bytes in the address. * * If the postcount is even then take extra care with endian-ness. */ destndx = 8 - (postcount >> 1); /* Handle any odd byte first */ if ((postcount & 1) != 0) { #ifdef CONFIG_ENDIAN_BIG /* Preserve big-endian, network order */ ipaddr[destndx - 1] = (uint16_t)(*srcptr); #else /* Preserve big-endian, network order */ ipaddr[destndx - 1] = (uint16_t)(*srcptr) << 8; #endif srcptr++; } for (i = destndx; i < 8; i++) { #ifdef CONFIG_ENDIAN_BIG /* Preserve big-endian, network order */ ipaddr[i] = (uint16_t)srcptr[0] << 8 | (uint16_t)srcptr[1]; #else /* Preserve big-endian, network order */ ipaddr[i] = (uint16_t)srcptr[1] << 8 | (uint16_t)srcptr[0]; #endif srcptr += 2; } /* If the IP is derived from a MAC address big enough to include the * U/L bit, invert it. */ if (usemac && postcount == 8) { ipaddr[4] ^= HTONS(0x0200); } /* If we took the data from packet, then update the packet pointer */ if (!usemac) { g_hc06ptr += postcount; } } else if (prefcount > 0) { /* No IID based configuration if no prefix and no data ipaddr=unspec */ nwarn("WARNING: No IID based configuration\n"); } ninfo("Uncompressing %d + %d " "ipaddr=%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x\n", prefcount, postcount, NTOHS(ipaddr[0]), NTOHS(ipaddr[1]), NTOHS(ipaddr[2]), NTOHS(ipaddr[3]), NTOHS(ipaddr[4]), NTOHS(ipaddr[5]), NTOHS(ipaddr[6]), NTOHS(ipaddr[7])); } /**************************************************************************** * Public Functions ****************************************************************************/ /**************************************************************************** * Name: sixlowpan_hc06_initialize * * Description: * sixlowpan_hc06_initialize() is called during OS initialization at * power-up reset. It is called from the common sixlowpan_initialize() * function. sixlowpan_hc06_initialize() configures HC06 networking data * structures. It is called prior to platform-specific driver * initialization so that the 6LoWPAN networking subsystem is prepared to * deal with network driver initialization actions. * * Input Parameters: * None * * Returned Value: * None * ****************************************************************************/ void sixlowpan_hc06_initialize(void) { #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 1 int i; #endif /* Preinitialize any address contexts for better header compression * (Saves up to 13 bytes per 6lowpan packet). */ g_hc06_addrcontexts[0].used = 1; g_hc06_addrcontexts[0].number = 0; g_hc06_addrcontexts[0].prefix[0] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_0; g_hc06_addrcontexts[0].prefix[1] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_1; g_hc06_addrcontexts[0].prefix[2] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_2; g_hc06_addrcontexts[0].prefix[3] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_3; g_hc06_addrcontexts[0].prefix[4] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_4; g_hc06_addrcontexts[0].prefix[5] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_5; g_hc06_addrcontexts[0].prefix[6] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_6; g_hc06_addrcontexts[0].prefix[7] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_0_7; #if CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 1 for (i = 1; i < CONFIG_NET_6LOWPAN_MAXADDRCONTEXT; i++) { #ifdef CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREINIT_1 if (i == 1) { g_hc06_addrcontexts[1].used = 1; g_hc06_addrcontexts[1].number = 1; g_hc06_addrcontexts[1].prefix[0] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_0; g_hc06_addrcontexts[1].prefix[1] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_1; g_hc06_addrcontexts[1].prefix[2] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_2; g_hc06_addrcontexts[1].prefix[3] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_3; g_hc06_addrcontexts[1].prefix[4] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_4; g_hc06_addrcontexts[1].prefix[5] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_5; g_hc06_addrcontexts[1].prefix[6] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_6; g_hc06_addrcontexts[1].prefix[7] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_1_7; } else #ifdef CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREINIT_2 if (i == 2) { g_hc06_addrcontexts[2].used = 1; g_hc06_addrcontexts[2].number = 2; g_hc06_addrcontexts[2].prefix[0] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_0; g_hc06_addrcontexts[2].prefix[1] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_1; g_hc06_addrcontexts[2].prefix[2] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_2; g_hc06_addrcontexts[2].prefix[3] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_3; g_hc06_addrcontexts[2].prefix[4] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_4; g_hc06_addrcontexts[2].prefix[5] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_5; g_hc06_addrcontexts[2].prefix[6] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_6; g_hc06_addrcontexts[2].prefix[7] = CONFIG_NET_6LOWPAN_MAXADDRCONTEXT_PREFIX_2_7; } else #endif /* SIXLOWPAN_CONF_ADDR_CONTEXT_2 */ { g_hc06_addrcontexts[i].used = 0; } #else g_hc06_addrcontexts[i].used = 0; #endif /* SIXLOWPAN_CONF_ADDR_CONTEXT_1 */ } #endif /* CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 1 */ #endif /* CONFIG_NET_6LOWPAN_MAXADDRCONTEXT > 0 */ } /**************************************************************************** * Name: sixlowpan_compresshdr_hc06 * * Description: * Compress IP/UDP header * * This function is called by the 6lowpan code to create a compressed * 6lowpan packet in the frame buffer from a full IPv6 packet. * * HC-06: * * Originally draft-ietf-6lowpan-hc, version 6: * http://tools.ietf.org/html/draft-ietf-6lowpan-hc-06, * * Updated to: * * RFC 6282: * https://tools.ietf.org/html/rfc6282 * * NOTE: sixlowpan_compresshdr_hc06() does not support ISA100_UDP header * compression * * For LOWPAN_UDP compression, we either compress both ports or none. * General format with LOWPAN_UDP compression is * 1 2 3 * 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * |0|1|1|TF |N|HLI|C|S|SAM|M|D|DAM| SCI | DCI | comp. IPv6 hdr| * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | compressed IPv6 fields ..... | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | LOWPAN_UDP | non compressed UDP fields ... | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * | L4 data ... | * +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ * * NOTE: The address context number 00 is reserved for the link local * prefix. For unicast addresses, if we cannot compress the prefix, we * neither compress the IID. * * Input Parameters: * radio - A reference to a radio network device instance * ipv6 - The IPv6 header to be compressed * destmac - L2 destination address, needed to compress the IP * destination field * fptr - Pointer to frame to be compressed. * * Returned Value: * On success the indications of the defines COMPRESS_HDR_* are returned. * A negated errno value is returned on failure. * ****************************************************************************/ int sixlowpan_compresshdr_hc06(FAR struct radio_driver_s *radio, FAR const struct ipv6_hdr_s *ipv6, FAR const struct netdev_varaddr_s *destmac, FAR uint8_t *fptr) { FAR uint8_t *iphc = fptr + g_frame_hdrlen; FAR struct sixlowpan_addrcontext_s *saddrcontext; FAR struct sixlowpan_addrcontext_s *daddrcontext; uint8_t iphc0; uint8_t iphc1; uint8_t tmp; int ret = COMPRESS_HDR_INLINE; ninfo("fptr=%p g_frame_hdrlen=%u iphc=%p\n", fptr, g_frame_hdrlen, iphc); /* As we copy some bit-length fields, in the IPHC encoding bytes, * we sometimes use |= * If the field is 0, and the current bit value in memory is 1, * this does not work. We therefore reset the IPHC encoding here */ iphc0 = SIXLOWPAN_DISPATCH_IPHC; iphc1 = 0; iphc[2] = 0; /* Might not be used - but needs to be cleared */ /* Point to just after the two IPHC bytes we have committed to */ g_hc06ptr = iphc + 2; /* Address handling needs to be made first since it might cause an extra * byte with [ SCI | DCI ] */ /* Check if dest address context exists (for allocating third byte) */ daddrcontext = find_addrcontext_byprefix(ipv6->destipaddr); saddrcontext = find_addrcontext_byprefix(ipv6->srcipaddr); if (daddrcontext != NULL || saddrcontext != NULL) { /* set address context flag and increase g_hc06ptr */ ninfo("Compressing dest or src ipaddr. Setting CID\n"); iphc1 |= SIXLOWPAN_IPHC_CID; g_hc06ptr++; } /* Traffic class, flow label * * If flow label is 0, compress it. If traffic class is 0, compress it * We have to process both in the same time as the offset of traffic class * depends on the presence of version and flow label */ /* hc06 format of tc is ECN | DSCP , original is DSCP | ECN */ tmp = (ipv6->vtc << 4) | (ipv6->tcf >> 4); tmp = ((tmp & 0x03) << 6) | (tmp >> 2); if (((ipv6->tcf & 0x0f) == 0) && (ipv6->flow == 0)) { /* Flow label can be compressed */ iphc0 |= SIXLOWPAN_IPHC_TC_10; if (((ipv6->vtc & 0x0f) == 0) && ((ipv6->tcf & 0xf0) == 0)) { /* Compress (elide) all */ iphc0 |= SIXLOWPAN_IPHC_TC_01; } else { /* Compress only the flow label */ *g_hc06ptr = tmp; g_hc06ptr += 1; } } else { /* Flow label cannot be compressed */ if (((ipv6->vtc & 0x0f) == 0) && ((ipv6->tcf & 0xf0) == 0)) { /* Compress only traffic class */ iphc0 |= SIXLOWPAN_IPHC_TC_01; *g_hc06ptr = (tmp & 0xc0) | (ipv6->tcf & 0x0f); memcpy(g_hc06ptr + 1, &ipv6->flow, 2); g_hc06ptr += 3; } else { /* Compress nothing */ memcpy(g_hc06ptr, &ipv6->vtc, 4); /* But replace the top byte with the new ECN | DSCP format */ *g_hc06ptr = tmp; g_hc06ptr += 4; } } /* Note that the payload length is always compressed. * * Next header. We compress it if UDP. */ #ifdef CONFIG_NET_UDP if (ipv6->proto == IP_PROTO_UDP) { iphc0 |= SIXLOWPAN_IPHC_NH; } #endif /* CONFIG_NET_UDP */ if ((iphc0 & SIXLOWPAN_IPHC_NH) == 0) { *g_hc06ptr = ipv6->proto; g_hc06ptr += 1; } /* Hop limit * * if 1: compress, encoding is 01 * if 64: compress, encoding is 10 * if 255: compress, encoding is 11 * else do not compress */ switch (ipv6->ttl) { case 1: iphc0 |= SIXLOWPAN_IPHC_HLIM_1; break; case 64: iphc0 |= SIXLOWPAN_IPHC_HLIM_64; break; case 255: iphc0 |= SIXLOWPAN_IPHC_HLIM_255; break; default: *g_hc06ptr = ipv6->ttl; g_hc06ptr += 1; break; } /* Source address - cannot be multicast */ if (net_is_addr_unspecified(ipv6->srcipaddr)) { ninfo("Compressing unspecified srcipaddr. Setting SAC\n"); iphc1 |= SIXLOWPAN_IPHC_SAC; iphc1 |= SIXLOWPAN_IPHC_SAM_128; } else if (saddrcontext != NULL) { /* Elide the prefix - indicate by CID and set address context + SAC */ ninfo("Compressing src with address context." " Setting SAC. Context: %d\n", saddrcontext->number); iphc1 |= SIXLOWPAN_IPHC_SAC; iphc[2] |= saddrcontext->number << 4; /* Compression compare with this nodes address (source) */ iphc1 |= compress_laddr(ipv6->srcipaddr, &radio->r_dev.d_mac.radio, SIXLOWPAN_IPHC_SAM_BIT); } /* No address context found for the source address */ else if (net_is_addr_linklocal(ipv6->srcipaddr) && ipv6->srcipaddr[1] == 0 && ipv6->srcipaddr[2] == 0 && ipv6->srcipaddr[3] == 0) { iphc1 |= compress_laddr(ipv6->srcipaddr, &radio->r_dev.d_mac.radio, SIXLOWPAN_IPHC_SAM_BIT); } else { /* Send the full source address ipaddr: SAC = 0, SAM = 00 */ ninfo("Uncompressable " "srcipaddr=%04x:%04x:%04x:%04x:%04x:%04x:%04x:%04x\n", NTOHS(ipv6->srcipaddr[0]), NTOHS(ipv6->srcipaddr[1]), NTOHS(ipv6->srcipaddr[2]), NTOHS(ipv6->srcipaddr[3]), NTOHS(ipv6->srcipaddr[4]), NTOHS(ipv6->srcipaddr[5]), NTOHS(ipv6->srcipaddr[6]), NTOHS(ipv6->srcipaddr[7])); iphc1 |= SIXLOWPAN_IPHC_SAM_128; /* 128-bits */ memcpy(g_hc06ptr, ipv6->srcipaddr, 16); g_hc06ptr += 16; } /* Destination address */ if (net_is_addr_mcast(ipv6->destipaddr)) { /* Address is multicast, try to compress */ iphc1 |= SIXLOWPAN_IPHC_M; if (SIXLOWPAN_IS_MCASTADDR_COMPRESSABLE8(ipv6->destipaddr)) { iphc1 |= SIXLOWPAN_IPHC_MDAM_8; /* Use "last" byte ("last" meaning the LS byte in host order. * destipaddr is in big-endian network order). */ #ifdef CONFIG_ENDIAN_BIG *g_hc06ptr = (ipv6->destipaddr[7] & 0xff); #else *g_hc06ptr = (ipv6->destipaddr[7] >> 8); #endif g_hc06ptr += 1; } else if (SIXLOWPAN_IS_MCASTADDR_COMPRESSABLE32(ipv6->destipaddr)) { FAR uint8_t *iptr = (FAR uint8_t *)ipv6->destipaddr; iphc1 |= SIXLOWPAN_IPHC_MDAM_32; /* Second byte + the last three */ *g_hc06ptr = iptr[1]; memcpy(g_hc06ptr + 1, &iptr[13], 3); g_hc06ptr += 4; } else if (SIXLOWPAN_IS_MCASTADDR_COMPRESSABLE48(ipv6->destipaddr)) { FAR uint8_t *iptr = (FAR uint8_t *)ipv6->destipaddr; iphc1 |= SIXLOWPAN_IPHC_MDAM_48; /* Second byte + the last five */ *g_hc06ptr = iptr[1]; memcpy(g_hc06ptr + 1, &iptr[11], 5); g_hc06ptr += 6; } else { iphc1 |= SIXLOWPAN_IPHC_MDAM_128; /* Full address */ memcpy(g_hc06ptr, ipv6->destipaddr, 16); g_hc06ptr += 16; } } else { /* Address is unicast, try to compress */ if (daddrcontext != NULL) { /* Elide the prefix */ ninfo("Compressing dest with address context. " "Setting DAC. Context: %d\n", daddrcontext->number); iphc1 |= SIXLOWPAN_IPHC_DAC; iphc[2] |= daddrcontext->number; /* Compession compare with link address (destination) */ iphc1 |= compress_tagaddr(ipv6->destipaddr, destmac, SIXLOWPAN_IPHC_DAM_BIT); } /* No address context found for this address */ else if (net_is_addr_linklocal(ipv6->destipaddr) && ipv6->destipaddr[1] == 0 && ipv6->destipaddr[2] == 0 && ipv6->destipaddr[3] == 0) { iphc1 |= compress_tagaddr(ipv6->destipaddr, destmac, SIXLOWPAN_IPHC_DAM_BIT); } /* Send the full address */ else { iphc1 |= SIXLOWPAN_IPHC_DAM_128; /* 128-bits */ memcpy(g_hc06ptr, ipv6->destipaddr, 16); g_hc06ptr += 16; } } g_uncomp_hdrlen = IPv6_HDRLEN; #ifdef CONFIG_NET_UDP /* UDP header compression */ if (ipv6->proto == IP_PROTO_UDP) { /* The UDP header will follow the IPv6 header */ FAR struct udp_hdr_s *udp = (FAR struct udp_hdr_s *)((FAR uint8_t *)ipv6 + IPv6_HDRLEN); ninfo("Uncompressed UDP ports: srcport=%04x destport=%04x\n", NTOHS(udp->srcport), NTOHS(udp->destport)); /* Mask out the last 4 bits can be used as a mask */ if (((NTOHS(udp->srcport) & 0xfff0) == SIXLOWPAN_UDP_4_BIT_PORT_MIN) && ((NTOHS(udp->destport) & 0xfff0) == SIXLOWPAN_UDP_4_BIT_PORT_MIN)) { /* We can compress 12 bits of both source and dest */ *g_hc06ptr = SIXLOWPAN_NHC_UDP_CS_P_11; ninfo("Remove 12b of both source & dest with prefix 0xf0b*\n"); *(g_hc06ptr + 1) = (uint8_t)((NTOHS(udp->srcport) - SIXLOWPAN_UDP_4_BIT_PORT_MIN) << 4) + (uint8_t)((NTOHS(udp->destport) - SIXLOWPAN_UDP_4_BIT_PORT_MIN)); g_hc06ptr += 2; } else if ((NTOHS(udp->destport) & 0xff00) == SIXLOWPAN_UDP_8_BIT_PORT_MIN) { /* We can compress 8 bits of dest, leave source. */ *g_hc06ptr = SIXLOWPAN_NHC_UDP_CS_P_01; ninfo("Leave source, remove 8 bits of dest with prefix 0xF0\n"); memcpy(g_hc06ptr + 1, &udp->srcport, 2); *(g_hc06ptr + 3) = (uint8_t) ((NTOHS(udp->destport) - SIXLOWPAN_UDP_8_BIT_PORT_MIN)); g_hc06ptr += 4; } else if ((NTOHS(udp->srcport) & 0xff00) == SIXLOWPAN_UDP_8_BIT_PORT_MIN) { /* We can compress 8 bits of src, leave dest. * Copy compressed port */ *g_hc06ptr = SIXLOWPAN_NHC_UDP_CS_P_10; ninfo("Remove 8 bits of source with prefix 0xF0, " "leave dest. hch: %u\n", *g_hc06ptr); *(g_hc06ptr + 1) = (uint8_t)((NTOHS(udp->srcport) - SIXLOWPAN_UDP_8_BIT_PORT_MIN)); memcpy(g_hc06ptr + 2, &udp->destport, 2); g_hc06ptr += 4; } else { /* we cannot compress. Copy uncompressed ports, full checksum */ *g_hc06ptr = SIXLOWPAN_NHC_UDP_CS_P_00; nwarn("WARNING: Cannot compress headers\n"); memcpy(g_hc06ptr + 1, &udp->srcport, 4); g_hc06ptr += 5; } /* Always inline the checksum */ memcpy(g_hc06ptr, &udp->udpchksum, 2); g_hc06ptr += 2; g_uncomp_hdrlen += UDP_HDRLEN; ret = COMPRESS_HDR_ELIDED; } #endif /* CONFIG_NET_UDP */ /* Before the g_frame_hdrlen operation */ iphc[0] = iphc0; iphc[1] = iphc1; g_frame_hdrlen = g_hc06ptr - fptr; ninfo("fptr=%p g_frame_hdrlen=%u iphc=%02x:%02x:%02x g_hc06ptr=%p\n", fptr, g_frame_hdrlen, iphc[0], iphc[1], iphc[2], g_hc06ptr); return ret; } /**************************************************************************** * Name: sixlowpan_uncompresshdr_hc06 * * Description: * Uncompress HC06 (i.e., IPHC and LOWPAN_UDP) headers and put them in * sixlowpan_buf * * This function is called by the input function when the dispatch is HC06. * We process the frame in the IOB buffer, uncompress the header fields, * and copy the result into the driver packet buffer. At the end of the * decompression, g_frame_hdrlen and g_uncompressed_hdrlen are set to the * appropriate values * * Input Parameters: * radio - Reference to a radio network driver state instance. * metadata - Obfuscated MAC metadata including node addressing * information. * iplen - Equal to 0 if the packet is not a fragment (IP length is * then inferred from the L2 length), non 0 if the packet is * a first fragment. * iob - Pointer to the IOB containing the received frame. * fptr - Pointer to frame to be compressed. * bptr - Output goes here. Normally this is a known offset into * d_buf, may be redirected to a "bitbucket" on the case of * FRAGN frames. * * Returned Value: * None * ****************************************************************************/ void sixlowpan_uncompresshdr_hc06(FAR struct radio_driver_s *radio, FAR const void *metadata, uint16_t iplen, FAR struct iob_s *iob, FAR uint8_t *fptr, FAR uint8_t *bptr) { FAR struct ipv6_hdr_s *ipv6 = (FAR struct ipv6_hdr_s *)bptr; struct netdev_varaddr_s addr; FAR uint8_t *iphc; uint8_t iphc0; uint8_t iphc1; uint8_t tmp; int ret; /* iphc points to IPHC. At least two byte will be used for the encoding. */ iphc = fptr + g_frame_hdrlen; iphc0 = iphc[0]; iphc1 = iphc[1]; /* g_hc96ptr points to just after the 2-byte minimum IPHC */ g_hc06ptr = iphc + 2; ninfo("fptr=%p g_frame_hdrlen=%u iphc=%02x:%02x:%02x g_hc06ptr=%p\n", fptr, g_frame_hdrlen, iphc[0], iphc[1], iphc[2], g_hc06ptr); /* Another if the CID flag is set */ if ((iphc1 & SIXLOWPAN_IPHC_CID) != 0) { ninfo("CID flag set. Increase header by one\n"); g_hc06ptr++; } /* Traffic class and flow label */ if ((iphc0 & SIXLOWPAN_IPHC_TC_10) == 0) { /* Flow label are carried inline */ if ((iphc0 & SIXLOWPAN_IPHC_TC_01) == 0) { /* Traffic class is carried inline */ memcpy(&ipv6->tcf, g_hc06ptr + 1, 3); tmp = *g_hc06ptr; g_hc06ptr += 4; /* hc06 format of tc is ECN | DSCP , original is DSCP | ECN * Set version, pick highest DSCP bits and set in vtc. */ ipv6->vtc = 0x60 | ((tmp >> 2) & 0x0f); /* ECN rolled down two steps + lowest DSCP bits at top two bits */ ipv6->tcf = ((tmp >> 2) & 0x30) | (tmp << 6) | (ipv6->tcf & 0x0f); } else { /* Traffic class is compressed (set version and no TC) */ ipv6->vtc = 0x60; /* Highest flow label bits + ECN bits */ ipv6->tcf = (*g_hc06ptr & 0x0f) | ((*g_hc06ptr >> 2) & 0x30); memcpy(&ipv6->flow, g_hc06ptr + 1, 2); g_hc06ptr += 3; } } else { /* Version is always 6! * * Version and flow label are compressed. */ if ((iphc0 & SIXLOWPAN_IPHC_TC_01) == 0) { /* Traffic class is inline */ ipv6->vtc = 0x60 | ((*g_hc06ptr >> 2) & 0x0f); ipv6->tcf = ((*g_hc06ptr << 6) & 0xc0) | ((*g_hc06ptr >> 2) & 0x30); ipv6->flow = 0; g_hc06ptr += 1; } else { /* Traffic class is compressed */ ipv6->vtc = 0x60; ipv6->tcf = 0; ipv6->flow = 0; } } /* Next Header */ if ((iphc0 & SIXLOWPAN_IPHC_NH) == 0) { /* Next header is carried inline */ ipv6->proto = *g_hc06ptr; ninfo("Next header inline: %d\n", ipv6->proto); g_hc06ptr += 1; } /* Hop limit */ if ((iphc0 & SIXLOWPAN_IPHC_HLIM_MASK) != SIXLOWPAN_IPHC_HLIM_INLINE) { ipv6->ttl = g_ttl_values[iphc0 & SIXLOWPAN_IPHC_HLIM_MASK]; } else { ipv6->ttl = *g_hc06ptr; g_hc06ptr += 1; } /* Put the source address compression mode SAM in the tmp var */ tmp = ((iphc1 & SIXLOWPAN_IPHC_SAM_MASK) >> SIXLOWPAN_IPHC_SAM_BIT) & 0x03; /* Address context based compression */ ret = sixlowpan_extract_srcaddr(radio, metadata, &addr); if (ret < 0) { nerr("ERROR: sixlowpan_extract_srcaddr failed: %d\n", ret); return; } if ((iphc1 & SIXLOWPAN_IPHC_SAC) != 0) { FAR struct sixlowpan_addrcontext_s *addrcontext; uint8_t sci = (iphc1 & SIXLOWPAN_IPHC_CID) ? iphc[2] >> 4 : 0; /* Source address - check address context != NULL only if * SAM bits are != 0 */ if (tmp != 0) { addrcontext = find_addrcontext_bynumber(sci); if (addrcontext == NULL) { nerr("ERROR: Address context not found\n"); return; } } /* If tmp == 0 we do not have a address context and therefore no * prefix. * * REVISIT: Source address may not be the same size as the destination * address. */ uncompress_addr(&addr, tmp != 0 ? addrcontext->prefix : NULL, g_unc_ctxconf[tmp], ipv6->srcipaddr); } else { /* No compression and link local. * * REVISIT: Source address may not be the same size as the destination * address. */ uncompress_addr(&addr, g_llprefix, g_unc_llconf[tmp], ipv6->srcipaddr); } /* Destination address. * * Put the destination address compression mode into tmp. */ tmp = ((iphc1 & SIXLOWPAN_IPHC_DAM_MASK) >> SIXLOWPAN_IPHC_DAM_BIT) & 0x03; /* Multicast compression */ ret = sixlowpan_extract_destaddr(radio, metadata, &addr); if (ret < 0) { nerr("ERROR: sixlowpan_extract_srcaddr failed: %d\n", ret); return; } if ((iphc1 & SIXLOWPAN_IPHC_M) != 0) { /* Address context based multicast compression */ if ((iphc1 & SIXLOWPAN_IPHC_DAC) != 0) { /* TODO: implement this */ } else { /* Non-address context based multicast compression * * DAM 00: 128 bits * DAM 01: 48 bits ffxx::00xx:xxxx:xxxx * DAM 10: 32 bits ffxx::00xx:xxxx * DAM 11: 8 bits ff02::00xx */ uint8_t prefix[] = { 0xff, 0x02 }; if (tmp > 0 && tmp < 3) { prefix[1] = *g_hc06ptr; g_hc06ptr++; } uncompress_addr(&addr, prefix, g_unc_mxconf[tmp], ipv6->destipaddr); } } else { /* No multicast. * * Context based. */ if ((iphc1 & SIXLOWPAN_IPHC_DAC) != 0) { FAR struct sixlowpan_addrcontext_s *addrcontext; uint8_t dci = ((iphc1 & SIXLOWPAN_IPHC_CID) != 0) ? iphc[2] & 0x0f : 0; addrcontext = find_addrcontext_bynumber(dci); /* All valid cases below need the address context! */ if (addrcontext == NULL) { nerr("ERROR: Address context not found\n"); return; } uncompress_addr(&addr, addrcontext->prefix, g_unc_ctxconf[tmp], ipv6->destipaddr); } else { /* Not address context based ipaddr=link local M = 0, * DAC = 0 - same as SAC. */ uncompress_addr(&addr, g_llprefix, g_unc_llconf[tmp], ipv6->destipaddr); } } g_uncomp_hdrlen += IPv6_HDRLEN; /* Next header processing - continued */ if ((iphc0 & SIXLOWPAN_IPHC_NH) != 0) { FAR struct udp_hdr_s *udp = (FAR struct udp_hdr_s *)(bptr + IPv6_HDRLEN); /* The next header is compressed, NHC is following */ if ((*g_hc06ptr & SIXLOWPAN_NHC_UDP_MASK) == SIXLOWPAN_NHC_UDP_ID) { uint8_t checksum_compressed; ipv6->proto = IP_PROTO_UDP; checksum_compressed = *g_hc06ptr & SIXLOWPAN_NHC_UDP_CHECKSUMC; ninfo("Incoming header value: %i\n", *g_hc06ptr); switch (*g_hc06ptr & SIXLOWPAN_NHC_UDP_CS_P_11) { case SIXLOWPAN_NHC_UDP_CS_P_00: /* 1 byte for NHC, 4 byte for ports, 2 bytes chksum */ memcpy(&udp->srcport, g_hc06ptr + 1, 2); memcpy(&udp->destport, g_hc06ptr + 3, 2); ninfo("Uncompressed UDP ports (ptr+5): %x, %x\n", HTONS(udp->srcport), HTONS(udp->destport)); g_hc06ptr += 5; break; case SIXLOWPAN_NHC_UDP_CS_P_01: /* 1 byte for NHC + source 16bit inline, dest = 0xF0 + 8 bit * inline */ ninfo("Decompressing destination\n"); memcpy(&udp->srcport, g_hc06ptr + 1, 2); udp->destport = HTONS(SIXLOWPAN_UDP_8_BIT_PORT_MIN + (*(g_hc06ptr + 3))); ninfo("Uncompressed UDP ports (ptr+4): %x, %x\n", HTONS(udp->srcport), HTONS(udp->destport)); g_hc06ptr += 4; break; case SIXLOWPAN_NHC_UDP_CS_P_10: /* 1 byte for NHC + source = 0xF0 + 8bit inline, dest = 16 bit * inline */ ninfo("Decompressing source\n"); udp->srcport = HTONS(SIXLOWPAN_UDP_8_BIT_PORT_MIN + (*(g_hc06ptr + 1))); memcpy(&udp->destport, g_hc06ptr + 2, 2); ninfo("Uncompressed UDP ports (ptr+4): %x, %x\n", HTONS(udp->srcport), HTONS(udp->destport)); g_hc06ptr += 4; break; case SIXLOWPAN_NHC_UDP_CS_P_11: /* 1 byte for NHC, 1 byte for ports */ udp->srcport = HTONS(SIXLOWPAN_UDP_4_BIT_PORT_MIN + (*(g_hc06ptr + 1) >> 4)); udp->destport = HTONS(SIXLOWPAN_UDP_4_BIT_PORT_MIN + ((*(g_hc06ptr + 1)) & 0x0f)); ninfo("Uncompressed UDP ports (ptr+2): %x, %x\n", HTONS(udp->srcport), HTONS(udp->destport)); g_hc06ptr += 2; break; default: nerr("ERROR: Error unsupported UDP compression\n"); return; } if (!checksum_compressed) { /* Has_checksum, default */ memcpy(&udp->udpchksum, g_hc06ptr, 2); g_hc06ptr += 2; ninfo("Checksum included\n"); } else { nwarn("WARNING: checksum *NOT* included\n"); } g_uncomp_hdrlen += UDP_HDRLEN; } } g_frame_hdrlen = g_hc06ptr - fptr; /* IP length field. */ if (iplen == 0) { /* This is not a fragmented packet */ ipv6->len[0] = 0; ipv6->len[1] = iob->io_len - g_frame_hdrlen + g_uncomp_hdrlen - IPv6_HDRLEN; } else { /* This is a first fragment */ ipv6->len[0] = (iplen - IPv6_HDRLEN) >> 8; ipv6->len[1] = (iplen - IPv6_HDRLEN) & 0x00ff; } /* Length field in UDP header */ if (ipv6->proto == IP_PROTO_UDP) { FAR struct udp_hdr_s *udp = (FAR struct udp_hdr_s *)(bptr + IPv6_HDRLEN); memcpy(&udp->udplen, &ipv6->len[0], 2); } } #endif /* CONFIG_NET_6LOWPAN_COMPRESSION_HC06 */