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RHRouter.cpp
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RHRouter.cpp
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// RHRouter.cpp
//
// Define addressed datagram
//
// Part of the Arduino RH library for operating with HopeRF RH compatible transceivers
// (see http://www.hoperf.com)
// RHDatagram will be received only by the addressed node or all nodes within range if the
// to address is RH_BROADCAST_ADDRESS
//
// Author: Mike McCauley ([email protected])
// Copyright (C) 2011 Mike McCauley
// $Id: RHRouter.cpp,v 1.9 2019/09/06 04:40:40 mikem Exp $
#include <RHRouter.h>
RHRouter::RoutedMessage RHRouter::_tmpMessage;
////////////////////////////////////////////////////////////////////
// Constructors
RHRouter::RHRouter(RHGenericDriver& driver, uint32_t thisAddress)
: RHReliableDatagram(driver, thisAddress)
{
_max_hops = RH_DEFAULT_MAX_HOPS;
_isa_router = true;
clearRoutingTable();
}
////////////////////////////////////////////////////////////////////
// Public methods
bool RHRouter::init()
{
bool ret = RHReliableDatagram::init();
if (ret)
_max_hops = RH_DEFAULT_MAX_HOPS;
return ret;
}
////////////////////////////////////////////////////////////////////
void RHRouter::setMaxHops(uint8_t max_hops)
{
_max_hops = max_hops;
}
////////////////////////////////////////////////////////////////////
void RHRouter::setIsaRouter(bool isa_router)
{
_isa_router = isa_router;
}
////////////////////////////////////////////////////////////////////
void RHRouter::addRouteTo(uint32_t dest, uint32_t next_hop, uint8_t state)
{
uint8_t i;
// First look for an existing entry we can update
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
{
if (_routes[i].dest == dest)
{
_routes[i].dest = dest;
_routes[i].next_hop = next_hop;
_routes[i].state = state;
return;
}
}
// Look for an invalid entry we can use
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
{
if (_routes[i].state == Invalid)
{
_routes[i].dest = dest;
_routes[i].next_hop = next_hop;
_routes[i].state = state;
return;
}
}
// Need to make room for a new one
retireOldestRoute();
// Should be an invalid slot now
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
{
if (_routes[i].state == Invalid)
{
_routes[i].dest = dest;
_routes[i].next_hop = next_hop;
_routes[i].state = state;
}
}
}
////////////////////////////////////////////////////////////////////
RHRouter::RoutingTableEntry* RHRouter::getRouteTo(uint32_t dest)
{
uint8_t i;
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
if (_routes[i].dest == dest && _routes[i].state != Invalid)
return &_routes[i];
return NULL;
}
////////////////////////////////////////////////////////////////////
void RHRouter::deleteRoute(uint8_t index)
{
// Delete a route by copying following routes on top of it
memcpy(&_routes[index], &_routes[index+1],
sizeof(RoutingTableEntry) * (RH_ROUTING_TABLE_SIZE - index - 1));
_routes[RH_ROUTING_TABLE_SIZE - 1].state = Invalid;
}
////////////////////////////////////////////////////////////////////
void RHRouter::printRoutingTable()
{
#ifdef RH_HAVE_SERIAL
uint8_t i;
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
{
Serial.print(i, DEC);
Serial.print(" Dest: ");
Serial.print(_routes[i].dest, DEC);
Serial.print(" Next Hop: ");
Serial.print(_routes[i].next_hop, DEC);
Serial.print(" State: ");
Serial.println(_routes[i].state, DEC);
}
#endif
}
////////////////////////////////////////////////////////////////////
bool RHRouter::deleteRouteTo(uint32_t dest)
{
uint8_t i;
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
{
if (_routes[i].dest == dest)
{
deleteRoute(i);
return true;
}
}
return false;
}
////////////////////////////////////////////////////////////////////
void RHRouter::retireOldestRoute()
{
// We just obliterate the first in the table and clear the last
deleteRoute(0);
}
////////////////////////////////////////////////////////////////////
void RHRouter::clearRoutingTable()
{
uint8_t i;
for (i = 0; i < RH_ROUTING_TABLE_SIZE; i++)
_routes[i].state = Invalid;
}
uint8_t RHRouter::sendtoWait(uint8_t* buf, uint8_t len, uint32_t dest, uint8_t flags)
{
return sendtoFromSourceWait(buf, len, dest, _thisAddress, flags);
}
////////////////////////////////////////////////////////////////////
// Waits for delivery to the next hop (but not for delivery to the final destination)
uint8_t RHRouter::sendtoFromSourceWait(uint8_t* buf, uint8_t len, uint32_t dest, uint32_t source, uint8_t flags)
{
if (((uint16_t)len + sizeof(RoutedMessageHeader)) > _driver.maxMessageLength())
return RH_ROUTER_ERROR_INVALID_LENGTH;
// Construct a RH RouterMessage message
_tmpMessage.header.source = source;
_tmpMessage.header.dest = dest;
_tmpMessage.header.hops = 0;
_tmpMessage.header.id = _lastE2ESequenceNumber++;
_tmpMessage.header.flags = flags;
memcpy(_tmpMessage.data, buf, len);
return route(&_tmpMessage, sizeof(RoutedMessageHeader)+len);
}
////////////////////////////////////////////////////////////////////
uint8_t RHRouter::route(RoutedMessage* message, uint8_t messageLen)
{
// Reliably deliver it if possible. See if we have a route:
uint32_t next_hop = RH_BROADCAST_ADDRESS;
if (message->header.dest != RH_BROADCAST_ADDRESS)
{
RoutingTableEntry* route = getRouteTo(message->header.dest);
if (!route)
return RH_ROUTER_ERROR_NO_ROUTE;
next_hop = route->next_hop;
}
if (!RHReliableDatagram::sendtoWait((uint8_t*)message, messageLen, next_hop))
return RH_ROUTER_ERROR_UNABLE_TO_DELIVER;
return RH_ROUTER_ERROR_NONE;
}
////////////////////////////////////////////////////////////////////
// Subclasses may want to override this to peek at messages going past
void RHRouter::peekAtMessage(RoutedMessage* message, uint8_t messageLen)
{
// Default does nothing
(void)message; // Not used
(void)messageLen; // Not used
}
////////////////////////////////////////////////////////////////////
bool RHRouter::recvfromAck(uint8_t* buf, uint8_t* len, uint32_t* source, uint32_t* dest, uint8_t* id, uint8_t* flags)
{
uint16_t tmpMessageLen = sizeof(_tmpMessage);
uint32_t _from;
uint32_t _to;
uint8_t _id;
uint8_t _flags;
if (RHReliableDatagram::recvfromAck((uint8_t*)&_tmpMessage, &tmpMessageLen, &_from, &_to, &_id, &_flags))
{
// Here we simulate networks with limited visibility between nodes
// so we can test routing
#ifdef RH_TEST_NETWORK
if (
#if RH_TEST_NETWORK==1
// This network looks like 1-2-3-4
(_thisAddress == 1 && _from == 2)
|| (_thisAddress == 2 && (_from == 1 || _from == 3))
|| (_thisAddress == 3 && (_from == 2 || _from == 4))
|| (_thisAddress == 4 && _from == 3)
#elif RH_TEST_NETWORK==2
// This network looks like 1-2-4
// | | |
// --3--
(_thisAddress == 1 && (_from == 2 || _from == 3))
|| _thisAddress == 2
|| _thisAddress == 3
|| (_thisAddress == 4 && (_from == 2 || _from == 3))
#elif RH_TEST_NETWORK==3
// This network looks like 1-2-4
// | |
// --3--
(_thisAddress == 1 && (_from == 2 || _from == 3))
|| (_thisAddress == 2 && (_from == 1 || _from == 4))
|| (_thisAddress == 3 && (_from == 1 || _from == 4))
|| (_thisAddress == 4 && (_from == 2 || _from == 3))
#elif RH_TEST_NETWORK==4
// This network looks like 1-2-3
// |
// 4
(_thisAddress == 1 && _from == 2)
|| _thisAddress == 2
|| (_thisAddress == 3 && _from == 2)
|| (_thisAddress == 4 && _from == 2)
#endif
)
{
// OK
}
else
{
return false; // Pretend we got nothing
}
#endif
peekAtMessage(&_tmpMessage, tmpMessageLen);
// See if its for us or has to be routed
if (_tmpMessage.header.dest == _thisAddress || _tmpMessage.header.dest == RH_BROADCAST_ADDRESS)
{
// Deliver it here
if (source) *source = _tmpMessage.header.source;
if (dest) *dest = _tmpMessage.header.dest;
if (id) *id = _tmpMessage.header.id;
if (flags) *flags = _tmpMessage.header.flags;
uint8_t msgLen = tmpMessageLen - sizeof(RoutedMessageHeader);
if (*len > msgLen)
*len = msgLen;
memcpy(buf, _tmpMessage.data, *len);
return true; // Its for you!
}
else if ( _tmpMessage.header.dest != RH_BROADCAST_ADDRESS
&& _tmpMessage.header.hops++ < _max_hops)
{
// Maybe it has to be routed to the next hop
// REVISIT: if it fails due to no route or unable to deliver to the next hop,
// tell the originator. BUT HOW?
// If we are forwarding packets, do so. Otherwise, drop.
if (_isa_router)
route(&_tmpMessage, tmpMessageLen);
}
// Discard it and maybe wait for another
}
return false;
}
////////////////////////////////////////////////////////////////////
bool RHRouter::recvfromAckTimeout(uint8_t* buf, uint8_t* len, uint16_t timeout, uint32_t* source, uint32_t* dest, uint8_t* id, uint8_t* flags)
{
unsigned long starttime = millis();
int32_t timeLeft;
while ((timeLeft = timeout - (millis() - starttime)) > 0)
{
if (waitAvailableTimeout(timeLeft))
{
if (recvfromAck(buf, len, source, dest, id, flags))
return true;
}
YIELD;
}
return false;
}