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+/*
+ * Copyright (c) 2017 Cisco and/or its affiliates.
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at:
+ *
+ *     http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+Control Plane Interface (CPI)
+
+Control's the FIB and forwarder interfaces.
+
+Also controls stack behavior, such as flushing the stack.
+
+These messages are meant to be sent up and down transport connections, not
+over the command port.
+
+The matieral below describes the networking model used by the Transport.
+
+=====================================
+
+Most of the API functions are found in cpi_ManageLinks.h and cpi_Forwarding.h.  Those
+have the calls to generate CPIControlMessages for dealing with interfaces and dealing with
+forwarding.
+
+=====================================
+0) Overview
+
+To use the ControlPlaneInterface, you create CPIControlMessages, then send them
+down a Transport connection to a forwarder.  The Forwarder Connector, in conjunction
+with the forwarder will send a CPIControlMessage back up the stack to you.  The
+Response might be an ACK, a NACK, or a Respone with data.
+
+Different Transports and different forwarders will have their own models of
+ports, interfaces, and addresses.  It is the job of the Transport and the
+Forwarder Connector to map those different views in to the single consistent
+view exposed here to the API.
+
+All addressable entities have an "Interface Index" (ifidx), similar to
+RFC 3493, Section 4.  The interface index used by the Transport includes
+virtual interfaces that may not exist at the kernel level, so the ifidx
+is not equal to a kernel interface index.  For some devices, the CCNx
+forwarder might not even be on the same physical entity.
+
+Not all forwarders support all options.  See forwarder specific documentation.
+
+=====================================
+1) Interfaces
+
+An interface is a physical port or virtual device on the system.
+It may have zero or more addresses, depending on the type.
+
+- P2P interface (e.g. serial)
+- Ethernet
+- Loopback
+
+Some interfaces depend on other interfaces:
+
+- VLAN
+- L2TP
+- PPP
+- LAG
+
+Interfaces will have a layer 2 (L2) address and may have L3 addresses too.
+
+All physical and virtual interfaces have an interface index.
+
+=====================================
+2) Overlay Interfaces (Tunnels and Multicast groups)
+
+Tunnels are a special type of Interface that have a point-to-point
+connection with a remote peer.  Another type of overlay is
+an IP multicast group.
+
+Tunnels have a specific local source address.  Each tunnel and multicast
+group overlay has an interface index.
+
+Type types of interaces are:
+- IP/UDP   point-to-point tunnel
+- IPv6/UDP point-to-point tunnel
+- IP/TCP   point-to-point tunnel
+- IPv6/TCP point-to-point tunnel
+- IP/UDP   multicast group
+- IPv6/UDP multicast group
+
+
+=====================================
+3) Addresses
+
+Addresses are used for setting up tunnels and overlays.  They
+are also used in the FIB to indicate a next hop.
+
+An Interface address may be used with tunnels and overlays to
+indicate that a message (i.e. interest) should be sent on that
+overlay.
+
+- IPv4 unicast
+- IPv4 multicast
+- IPv6 unicast
+- IPv6 multicast
+- Link unicast
+- Link group
+- Interface
+
+=====================================
+4) Message information
+
+Similar to RFC 3542, Section 6
+
+An outgoing message can specify:
+- The outgoing interface index
+- The outgoing hop limit
+
+If the outgoing interface is specified, it bypasses the normal
+FIB/PIT forwarding rules and forces the message out that interface.
+
+
+Incoming message information may contain:
+- The destination address
+- The arriving interface index
+- The arriving hop limit
+
+There is currently no specification for traffic class.
+
+The destination address will be specific to how the message was
+received.  If it was over an IP-based interface, the addresses will
+be IP/IPv6.  If it was over a Link interface, the addresses wil be
+media-dependent addresses (e.g. Ethernet MACs).
+
+To control the incoming information, use these functions
+to generate a control message to send down the connection.
+They are similar to an IP(V6)_RECVPKTINFO socket option.
+
+CPIControlMessage * cpi_StartReceivingMessageInfo();
+CPIControlMessage * cpi_StopReceivingMessageInfo();
+
+DESCRIBE HOW IT IS COMMUNICATED IN A CCNxMESSAGE
+
+=====================================
+5) Monitors
+
+A Transport connection can be setup as a Monitor.  A Montior is
+an INBOUND ONLY connection for diagnostic purposes.  It should
+contain only the minimum necessary components (API, CODEC, Forwarder).
+
+A Monitor has directionality.  It may snoop all messages INBOUND or OUTBOUND
+or BOTH on the target.  The snooped messages are sent up the monitor
+connection to the API.
+
+A Monitor may be added to an Interface, in which case it will act like
+a promiscuous tap.  An INBOUND monitor will see all packets received
+on the interface.  An OUTBOUND monitor will see all packets sent on the
+interface.
+
+A Monitor may be added to a namespace.  It can be for an exact namespace,
+or it can be a prefix match.  It may be INBOUND or OUTBOUND or BOTH.
+
+=====================================
+Common Operations
+
+####
+#### NOTE: This example code is out of date.
+####
+
+----------------------------------------------------------------------------
+a) List the interfaces
+
+CPIControlMessage * cpi_NetworkInterfaceList();
+/* send the control message on a connection */
+
+CPIControlMessage *message = /* receive function */
+if( cpi_IsCpiMessage(message) && cpi_GetMessageType(message) == CPI_RESPONSE &&
+    cpi_GetMessageOperation(message) == CPI_INTERFACE_LIST )
+{
+    unsigned count = cpi_NetworkInterfaceList_Count(message);
+    for(i = 0; i < count; i++)
+    {
+        InterfaceService *entry = cpi_NetworkInterfaceList_Get(message, i);
+    }
+}
+
+ccnxControlMessage_Destroy(&message);
+
+
+----------------------------------------------------------------------------
+b) Create a point-to-point tunnel
+
+CPIAddress * dest = cpiAddress_CreateFromInet((struct sockaddr_in) {
+                                     .sa_addr = inet_addr("foo.bar.com"),
+                                     .sa_port = htons(9695)} );
+
+// the address 13.0.1.1. is known to be on the forwarder.
+// You'd learn about it from cpi_NetworkInterfaceList()
+CPIAddress * source = cpiAddress_CreateFromInet((struct sockaddr_in) {
+                                     .sa_family = AF_INET,
+                                     .sa_addr = inet_addr("13.0.1.1") } );
+
+CPIControlMessage *udp_tunnel = cpiTunnel_CreateMessage(dest, source, IPPROTO_UDP)
+/* send message down connection */
+
+CPIControlMessage *response = /* receive message function */
+
+if( cpi_IsCpiMessage(response) && cpi_GetMessageType(response) == CPI_RESPONSE &&
+    cpi_GetMessageOperation(response) == CPI_CREATE_TUNNEL )
+{
+    CPITunnel * tunnel = cpiTunnel_ParseMessage(response);
+
+    unsigned ifidx = cpiTunnel_GetInterfaceIndex(tunnel);
+    // ...
+    cpiTunnel_Destroy(&tunnel);
+}
+
+
+
+----------------------------------------------------------------------------
+c) Create an IP multicast overlay
+
+CPIAddress * dest = cpiAddress_CreateFromInet((struct sockaddr_in) {
+                                     .sa_family = AF_INET,
+                                     .sa_addr = inet_addr("224.1.100.3"),
+                                     .sa_port = htons(9695)} );
+
+// the address 13.0.1.1. is known to be on the forwarder.
+// You'd learn about it from cpi_NetworkInterfaceList()
+CPIAddress * source = cpiAddress_CreateFromInet((struct sockaddr_in) {
+                                     .sa_family = AF_INET,
+                                     .sa_addr = inet_addr("13.0.1.1") } );
+
+unsigned ifidx = /* interface to join the group */
+
+CPIControlMessage *udp_multicast = cpiMulticast_CreateMessage(dest, source, ifidx)
+/* send message down connection */
+
+CPIControlMessage *response = /* receive message function */
+
+if( cpi_IsCpiMessage(response) && cpi_GetMessageType(response) == CPI_RESPONSE &&
+    cpi_GetMessageOperation(response) == CPI_CREATE_MULTICAST )
+{
+    CPIMulticast * mcast = cpiMulticast_ParseMessage(response);
+    // ...
+    cpiMulticast_Destroy(&tunnel);
+}
+
+----------------------------------------------------------------------------
+d) Create an Ethernet group interface
+
+
+
+
+----------------------------------------------------------------------------
+d) remove a tunnel
+
+----------------------------------------------------------------------------
+d) Setup a FIB entry to a point-to-point tuennl
+
+----------------------------------------------------------------------------
+e) Setup a FIB entry to a multicast group
+
+----------------------------------------------------------------------------
+f) Setup a FIB entry to a Link unicast address
+
+----------------------------------------------------------------------------
+g) Setup a FIB entry to a Link group address
+
+
+
+