doxygen: Tried to fix documentation (sicslowpan-doc.txt, uip6-doc.txt)
This commit tries to also fix the documentations of sicslowpan and uip6 to reflect the current code state. I’m not sure if everything makes sense. sicslowpan: There are still some references to HC01, can this be replaced by HC06? uip6: Section about timers has changed, is this correct? Doxyfile: The documentations reference static functions, to link to them correctly EXTRACT_STATIC = YES is needed. Congratulations you fixed 134 of doxygen's warnings (old: 134 new: 0).
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3 changed files with 37 additions and 41 deletions
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@ -427,7 +427,7 @@ EXTRACT_PACKAGE = NO
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# included in the documentation.
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# The default value is: NO.
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EXTRACT_STATIC = NO
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EXTRACT_STATIC = YES
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# If the EXTRACT_LOCAL_CLASSES tag is set to YES classes (and structs) defined
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# locally in source files will be included in the documentation. If set to NO
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@ -100,8 +100,8 @@ the link-layer addresses.
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<b>Address Autoconfiguration</b><br>
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The address autoconfiguration mechanism also depends on the format of
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the link-layer address. The dependency is reflected in the
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#uip_netif_addr_autoconf_set function in #uip-netif.c.
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the link-layer address. The dependency is reflected in the
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#uip_ds6_set_addr_iid function in uip-ds6.c.
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\code
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#if (UIP_LLADDR_LEN == 8)
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memcpy(ipaddr->u8 + 8, lladdr, UIP_LLADDR_LEN);
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@ -157,28 +157,28 @@ the header 25 bytes long).
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<b>Compression schemes</b><br>
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The #SICSLOWPAN_CONF_COMPRESSION compilation option defines the
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compression scheme supported. We support HC1, HC01, and IPv6 compression.
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HC1 and IPv6 compression are defined in RFC4944, HC01 in
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draft-hui-6lowpan-hc. What we call IPv6 compression means sending packets
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compression scheme supported. We support HC1, HC06, and IPv6 compression.
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HC1 and IPv6 compression are defined in RFC4944, HC06 in
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draft-hui-6lowpan-hc-06. What we call IPv6 compression means sending packets
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with no compression, and adding the IPv6 dispatch before the IPv6 header.<br>
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If at compile time IPv6 "compression" is chosen, packets sent will never
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be compressed, and compressed packets will not be processed at reception.<br>
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If at compile time either HC1 or HC01 are chosen, we will try to compress
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all fields at sending, and will accept packets compressed with the
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If at compile time either HC1 or HC06 are chosen, we will try to compress
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all fields at sending, and will accept packets compressed with the
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chosen scheme, as well as uncompressed packets.<br>
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Note that HC1 and HC01 supports are mutually exclusive. HC01 should soon
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deprecate HC1.
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Note that HC1 and HC06 supports are mutually exclusive. HC06 should soon
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deprecate HC1.
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<b>Compression related functions</b><br>
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When a packet is received, the #input function is called. Fragmentation
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issues are handled, then we check the dispatch byte: if it is IPv6, we
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treat the packet inline. If it is HC1 or HC01, the corresponding
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decompression function (#uncompress_hdr_hc1 or #uncompress_hdr_hc01)
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treat the packet inline. If it is HC1 or HC06, the corresponding
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decompression function (#uncompress_hdr_hc1 or #uncompress_hdr_hc06)
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is called.<br>
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When a packet needs to be sent, we try to compress it. If only the IPv6
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compression support is enabled, we just add the IPv6 dispatch before the
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802.15.4 payload. If HC1 or HC01 support is enabled, we call the
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corresponding compression function (#compress_hdr_hc1 or #compress_hdr_hc01)
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compression support is enabled, we just add the IPv6 dispatch before the
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802.15.4 payload. If HC1 or HC06 support is enabled, we call the
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corresponding compression function (#compress_hdr_hc1 or #compress_hdr_hc06)
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to compress the packet as much as possible.
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<b>HC1 comments</b><br>
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@ -36,7 +36,7 @@ are part of the uIP IPv6 stack. A complete description can be found in the
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corresponding IETF standards which are available at
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http://www.ietf.org/rfc.html.
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\note The #NETSTACK_CONF_WITH_IPV6 compilation flag is used to enable IPv6.
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\note The NETSTACK_CONF_WITH_IPV6 compilation flag is used to enable IPv6.
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It is also recommended to set #UIP_CONF_IPV6_CHECKS to 1
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if one cannot guarantee that the incoming packets are correctly formed.
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@ -144,10 +144,10 @@ messages are also described in uip-nd6.h although the actual code is in
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uip-nd6-io.c.
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<b>Neighbor discovery structures </b><br>
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We use the following %neighbor discovery structures (declared in uip-nd6.c):
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\li A <em>%neighbor cache</em> with entries of type #uip_nd6_neighbor
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\li A <em>prefix list</em> with entries of type #uip_nd6_prefix
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\li A <em>default router list</em> with entries of type #uip_nd6_defrouter
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We use the following %neighbor discovery structures:
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\li A <em>%neighbor cache</em> with entries of type #uip_ds6_nbr_t declared in uip-ds6-nbr.c.
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\li A <em>prefix list</em> with entries of type #uip_ds6_prefix_t declared in uip-ds6.c.
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\li A <em>default router list</em> with entries of type #uip_ds6_defrt_t declared in uip-ds6-route.c.
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Each of this structure has its own add, remove and lookup
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functions. To update an entry in a ND structure, we first do a lookup
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@ -161,7 +161,7 @@ Determine the link-layer address of a %neighbor given its IPv6 address.\n
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\li Neighbor unreachability detection\n
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Verify that a neighbor is still reachable via a cached link-layer
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address.\n
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-> send a NS (done in #uip_nd6_periodic).
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-> send a NS (done in #uip_ds6_neighbor_periodic).
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\li Next-hop determination\n
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Map an IPv6 destination address into the IPv6 address of the %neighbor
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to which traffic for the destination should be sent.\n
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@ -170,18 +170,18 @@ choose a default router, else send directly (done in #tcpip_ipv6_output).
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\li Router, prefix, and parameter discovery\n
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Update the list of default routers, on-link prefixes, and the network
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parameters.\n
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-> receive a RA (see #uip_nd6_io_ra_input).
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-> receive a RA (see #ra_input).
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\subsection autoconf Stateless Address Autoconfiguration (RFC 4862)
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RFC 4862 defines two main processes:
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\li Duplicate Address Detection (DAD)\n
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Make sure that an address the node wished to use is not already in use
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by another node.\n
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-> send a NS (done in #uip_netif_dad)
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-> send a NS (done in #uip_ds6_dad)
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\li Address Autoconfiguration\n
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Configure an address for an interface by combining a received prefix
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and the interface ID (see #uip_netif_addr_add). The interface ID is
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obtained from the link-layer address using #uip_netif_get_interface_id.\n
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and the interface ID (see #uip_ds6_addr_add). The interface ID is
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obtained from the link-layer address using #uip_ds6_set_addr_iid.\n
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-> Receive a RA with a prefix information option that has the
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autonomous flag set.
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@ -191,7 +191,7 @@ performed for this link-local address. Available routers are
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discovered by sending up to #UIP_ND6_MAX_RTR_SOLICITATIONS RS
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packets. Address autoconfiguration is then performed based on the
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prefix information received in the RA. The interface initialization is
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performed in #uip_netif_init.
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performed in #uip_ds6_init.
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\subsection icmpv6 ICMPv6 (RFC 4443)
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We support ICMPv6 Error messages as well as Echo Reply and Echo Request
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@ -213,22 +213,18 @@ The IPv6 stack (like the IPv4 stack) is a Contiki process
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PROCESS(tcpip_process, "TCP/IP stack");
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\endcode
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In addition to the \ref mainloop "periodic timer" that is used by TCP,
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five IPv6 specific timers are attached to this %process:
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\li The #uip_nd6_timer_periodic is used for periodic checking of the
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%neighbor discovery structures.
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\li The #uip_netif_timer_dad is used to properly paced the Neighbor
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Solicitation packets sent for Duplicate Address Detection.
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\li The #uip_netif_timer_rs is use to delay the sending of Router Solicitations
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three IPv6 specific timers are attached to this %process:
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\li The #uip_ds6_timer_rs is use to delay the sending of Router Solicitations
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packets in particular during the router discovery %process.
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\li The #uip_netif_timer_periodic is used to periodically check the
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validity of the addresses attached to the network interface.
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\li The #uip_ds6_timer_periodic is used to periodically check the
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validity of the addresses attached to the network interface, to
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properly paced the Neighbor Solicitation packets sent for
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Duplicate Address Detection and for periodic checking of the
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%neighbor discovery structures.
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\li The #uip_reass_timer is used to time-out the fragment reassembly
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%process.
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\n
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Both #uip_nd6_timer_periodic and #uip_netif_timer_periodic run continuously.
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This could be avoided by using callback timers to handle ND and Netif structures timeouts.
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<HR>
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\section compileflags Compile time flags and variables
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@ -249,8 +245,8 @@ NBR_TABLE_CONF_MAX_NEIGHBORS
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\section buffers IPv6 Buffers
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The IPv6 code uses the same \ref memory "single global buffer" as the
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IPv4 code. This buffer should be large enough to contain one
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packet of maximum size, i.e., #UIP_LINK_MTU = 1280 bytes. When \ref
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IPv4 code. This buffer should be large enough to contain one
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packet of maximum size, i.e., #UIP_LINK_MTU = 1280 bytes. When
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reass "fragment reassembly" is enabled an additional buffer of the
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same size is used.
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@ -258,7 +254,7 @@ The only difference with the IPv4 code is the per %neighbor buffering
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that is available when #UIP_CONF_IPV6_QUEUE_PKT is set to 1. This
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additional buffering is used to queue one packet per %neighbor while
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performing address resolution for it. This is a very costly feature as
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it increases the RAM usage by approximately #NBR_TABLE_CONF_MAX_NEIGHBORS *
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it increases the RAM usage by approximately NBR_TABLE_CONF_MAX_NEIGHBORS *
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#UIP_LINK_MTU bytes.
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<HR>
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should call #tcpip_input when an IP packet is received.
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The code corresponding to the desired link layer is selected at
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compilation time (see for example the #UIP_LL_802154 flag).
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compilation time (see for example the UIP_CONF_LL_802154 flag).
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<HR>
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