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/*
* Copyright (c) 2017-2019 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.
*/
/**
* Embodies the reader/writer for a Hicn connection
*
* NB The Send() function may overflow the output buffer
*
*/
#include <errno.h>
#include <src/config.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <src/core/message.h>
#include <src/io/hicnConnection.h>
#include <src/core/messageHandler.h>
#include <parc/algol/parc_Hash.h>
#include <parc/algol/parc_Memory.h>
#include <parc/assert/parc_Assert.h>
#include <src/core/connection.h>
#include <src/core/forwarder.h>
typedef struct hicn_state {
Forwarder *forwarder;
Logger *logger;
// the hicn listener socket we receive packets on
int hicnListenerSocket;
AddressPair *addressPair;
// We need to access this all the time, so grab it out
// of the addressPair;
struct sockaddr *peerAddress;
socklen_t peerAddressLength;
struct sockaddr *localAddress;
socklen_t localAddressLength;
// this address contains one of the content names reachable
// throught the connection peer. We need this address beacuse it is
// the only way we have to conntact the next hop, since the main tun
// does not have address. Notice that a connection that sends probes
// is a connection that sends interest. In a "data" connection this
// value will remain NULL. We refresh the content address every time
// we send a probe, in this way we don't need to waste to much time in
// copy the address, but we can also react to the routing changes
struct sockaddr *probeDestAddress;
socklen_t probeDestAddressLength;
bool refreshProbeDestAddress;
bool isLocal;
bool isUp;
unsigned id;
unsigned delay;
} _HicnState;
// Prototypes
static bool _send(IoOperations *ops, const Address *nexthop, Message *message);
static const Address *_getRemoteAddress(const IoOperations *ops);
static const AddressPair *_getAddressPair(const IoOperations *ops);
static unsigned _getConnectionId(const IoOperations *ops);
static bool _isUp(const IoOperations *ops);
static bool _isLocal(const IoOperations *ops);
static void _destroy(IoOperations **opsPtr);
static list_connections_type _getConnectionType(const IoOperations *ops);
static Ticks _sendProbe(IoOperations *ops, unsigned probeType,
uint8_t *message);
/*
* This assigns a unique pointer to the void * which we use
* as a GUID for this class.
*/
static const void *_ioOperationsGuid = __FILE__;
/*
* Return our GUID
*/
static const void *_streamConnection_Class(const IoOperations *ops) {
return _ioOperationsGuid;
}
static IoOperations _template = {.closure = NULL,
.send = &_send,
.getRemoteAddress = &_getRemoteAddress,
.getAddressPair = &_getAddressPair,
.getConnectionId = &_getConnectionId,
.isUp = &_isUp,
.isLocal = &_isLocal,
.destroy = &_destroy,
.class = &_streamConnection_Class,
.getConnectionType = &_getConnectionType,
.sendProbe = &_sendProbe};
// =================================================================
static void _setConnectionState(_HicnState *Hicn, bool isUp);
static bool _saveSockaddr(_HicnState *hicnConnState, const AddressPair *pair);
static void _refreshProbeDestAddress(_HicnState *hicnConnState,
const uint8_t *message);
IoOperations *hicnConnection_Create(Forwarder *forwarder, int fd,
const AddressPair *pair, bool isLocal) {
IoOperations *io_ops = NULL;
_HicnState *hicnConnState = parcMemory_AllocateAndClear(sizeof(_HicnState));
parcAssertNotNull(hicnConnState,
"parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(_HicnState));
hicnConnState->forwarder = forwarder;
hicnConnState->logger = logger_Acquire(forwarder_GetLogger(forwarder));
bool saved = _saveSockaddr(hicnConnState, pair);
if (saved) {
hicnConnState->hicnListenerSocket = fd;
hicnConnState->id = forwarder_GetNextConnectionId(forwarder);
hicnConnState->addressPair = addressPair_Acquire(pair);
hicnConnState->isLocal = isLocal;
// allocate a connection
io_ops = parcMemory_AllocateAndClear(sizeof(IoOperations));
parcAssertNotNull(io_ops, "parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(IoOperations));
memcpy(io_ops, &_template, sizeof(IoOperations));
io_ops->closure = hicnConnState;
_setConnectionState(hicnConnState, true);
if (logger_IsLoggable(hicnConnState->logger, LoggerFacility_IO,
PARCLogLevel_Info)) {
char *str = addressPair_ToString(hicnConnState->addressPair);
logger_Log(hicnConnState->logger, LoggerFacility_IO, PARCLogLevel_Info,
__func__,
"HicnConnection %p created for address %s (isLocal %d)",
(void *)hicnConnState, str, hicnConnState->isLocal);
free(str);
}
messenger_Send(
forwarder_GetMessenger(forwarder),
missive_Create(MissiveType_ConnectionCreate, hicnConnState->id));
messenger_Send(forwarder_GetMessenger(forwarder),
missive_Create(MissiveType_ConnectionUp, hicnConnState->id));
} else {
// _saveSockaddr will already log an error, no need for extra log message
// here
logger_Release(&hicnConnState->logger);
parcMemory_Deallocate((void **)&hicnConnState);
}
return io_ops;
}
// =================================================================
// I/O Operations implementation
static void _destroy(IoOperations **opsPtr) {
parcAssertNotNull(opsPtr, "Parameter opsPtr must be non-null double pointer");
parcAssertNotNull(*opsPtr,
"Parameter opsPtr must dereference to non-null pointer");
IoOperations *ops = *opsPtr;
parcAssertNotNull(ioOperations_GetClosure(ops),
"ops->context must not be null");
_HicnState *hicnConnState = (_HicnState *)ioOperations_GetClosure(ops);
addressPair_Release(&hicnConnState->addressPair);
parcMemory_Deallocate((void **)&(hicnConnState->peerAddress));
parcMemory_Deallocate((void **)&(hicnConnState->localAddress));
if (hicnConnState->probeDestAddress != NULL)
parcMemory_Deallocate((void **)&(hicnConnState->probeDestAddress));
messenger_Send(
forwarder_GetMessenger(hicnConnState->forwarder),
missive_Create(MissiveType_ConnectionDestroyed, hicnConnState->id));
if (logger_IsLoggable(hicnConnState->logger, LoggerFacility_IO,
PARCLogLevel_Info)) {
logger_Log(hicnConnState->logger, LoggerFacility_IO, PARCLogLevel_Info,
__func__, "HicnConnection %p destroyed", (void *)hicnConnState);
}
// XXX
// do not close hicListenerSocket, the listener will close
// that when its done
// should I say something to libhicn?
logger_Release(&hicnConnState->logger);
parcMemory_Deallocate((void **)&hicnConnState);
parcMemory_Deallocate((void **)&ops);
*opsPtr = NULL;
}
static bool _isUp(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _HicnState *hicnConnState =
(const _HicnState *)ioOperations_GetClosure(ops);
return hicnConnState->isUp;
}
static bool _isLocal(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _HicnState *hicnConnState =
(const _HicnState *)ioOperations_GetClosure(ops);
return hicnConnState->isLocal;
}
static const Address *_getRemoteAddress(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _HicnState *hicnConnState =
(const _HicnState *)ioOperations_GetClosure(ops);
return addressPair_GetRemote(hicnConnState->addressPair);
}
static const AddressPair *_getAddressPair(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _HicnState *hicnConnState =
(const _HicnState *)ioOperations_GetClosure(ops);
return hicnConnState->addressPair;
}
static unsigned _getConnectionId(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _HicnState *hicnConnState =
(const _HicnState *)ioOperations_GetClosure(ops);
return hicnConnState->id;
}
/**
* @function hicnConnection_Send
* @abstract Non-destructive send of the message.
* @discussion
* sends a message to the peer.
*
* @param dummy is ignored. .
* @return <#return#>
*/
static bool _send(IoOperations *ops, const Address *dummy, Message *message) {
parcAssertNotNull(ops, "Parameter ops must be non-null");
parcAssertNotNull(message, "Parameter message must be non-null");
_HicnState *hicnConnState = (_HicnState *)ioOperations_GetClosure(ops);
// NAT for HICN
// XXX
if (message_GetType(message) == MessagePacketType_ContentObject) {
// this is a data packet. We need to put the remote address in the
// destination field
if (messageHandler_GetIPPacketType(message_FixedHeader(message)) ==
IPv6_TYPE) {
messageHandler_SetDestination_IPv6(
(uint8_t *)message_FixedHeader(message),
&((struct sockaddr_in6 *)hicnConnState->peerAddress)->sin6_addr);
} else {
messageHandler_SetDestination_IPv4(
(uint8_t *)message_FixedHeader(message),
&(((struct sockaddr_in *)hicnConnState->peerAddress)
->sin_addr.s_addr));
}
} else if (message_GetType(message) == MessagePacketType_Interest) {
// this si an interest packet. We need to put the local address in the
// source field
if (messageHandler_GetIPPacketType(message_FixedHeader(message)) ==
IPv6_TYPE) {
messageHandler_SetSource_IPv6(
(uint8_t *)message_FixedHeader(message),
&((struct sockaddr_in6 *)hicnConnState->localAddress)->sin6_addr);
} else {
messageHandler_SetSource_IPv4(
(uint8_t *)message_FixedHeader(message),
&(((struct sockaddr_in *)hicnConnState->localAddress)
->sin_addr.s_addr));
}
// only in this case we may need to set the probeDestAddress
if (hicnConnState->refreshProbeDestAddress) {
_refreshProbeDestAddress(hicnConnState, message_FixedHeader(message));
}
} else if (message_GetType(message) == MessagePacketType_WldrNotification) {
// here we don't need to do anything for now
} else {
// unkown packet
if (logger_IsLoggable(hicnConnState->logger, LoggerFacility_IO,
PARCLogLevel_Debug)) {
logger_Log(hicnConnState->logger, LoggerFacility_IO, PARCLogLevel_Debug,
__func__, "connid %u can't parse the message",
hicnConnState->id);
}
return false;
}
ssize_t writeLength =
write(hicnConnState->hicnListenerSocket, message_FixedHeader(message),
message_Length(message));
if (writeLength < 0) {
if (errno == EAGAIN || errno == EWOULDBLOCK) {
return false;
} else {
// this print is for debugging
printf("Incorrect write length %zd, expected %zd: (%d) %s\n", writeLength,
message_Length(message), errno, strerror(errno));
return false;
}
}
return true;
}
static list_connections_type _getConnectionType(const IoOperations *ops) {
return CONN_HICN;
}
static Ticks _sendProbe(IoOperations *ops, unsigned probeType,
uint8_t *message) {
parcAssertNotNull(ops, "Parameter ops must be non-null");
_HicnState *hicnConnState = (_HicnState *)ioOperations_GetClosure(ops);
if ((hicnConnState->peerAddressLength == sizeof(struct sockaddr_in)) ||
(hicnConnState->localAddressLength == sizeof(struct sockaddr_in)))
return false;
if (hicnConnState->probeDestAddress == NULL &&
probeType == PACKET_TYPE_PROBE_REPLY) {
uint8_t *pkt = parcMemory_AllocateAndClear(
messageHandler_GetICMPPacketSize(IPv6_TYPE));
messageHandler_SetProbePacket(
pkt, probeType,
(struct in6_addr *)messageHandler_GetDestination(message),
(struct in6_addr *)messageHandler_GetSource(message));
ssize_t writeLength = write(hicnConnState->hicnListenerSocket, pkt,
messageHandler_GetICMPPacketSize(IPv6_TYPE));
parcMemory_Deallocate((void **)&pkt);
if (writeLength < 0) {
return 0;
}
} else if (hicnConnState->probeDestAddress != NULL &&
probeType == PACKET_TYPE_PROBE_REQUEST) {
hicnConnState->refreshProbeDestAddress = true;
uint8_t *pkt = parcMemory_AllocateAndClear(
messageHandler_GetICMPPacketSize(IPv6_TYPE));
messageHandler_SetProbePacket(
pkt, probeType,
&((struct sockaddr_in6 *)hicnConnState->localAddress)->sin6_addr,
&((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_addr);
ssize_t writeLength = write(hicnConnState->hicnListenerSocket, pkt,
messageHandler_GetICMPPacketSize(IPv6_TYPE));
parcMemory_Deallocate((void **)&pkt);
if (writeLength < 0) {
return 0;
}
} else {
if (hicnConnState->probeDestAddress == NULL &&
probeType == PACKET_TYPE_PROBE_REQUEST) {
// this happen for the first probe
hicnConnState->refreshProbeDestAddress = true;
}
// do nothing
return 0;
}
return forwarder_GetTicks(hicnConnState->forwarder);
}
// =================================================================
// Internal API
static bool _saveSockaddr(_HicnState *hicnConnState, const AddressPair *pair) {
bool success = false;
const Address *remoteAddress = addressPair_GetRemote(pair);
const Address *localAddress = addressPair_GetLocal(pair);
switch (addressGetType(remoteAddress)) { // local must be of the same type
case ADDR_INET: {
size_t bytes = sizeof(struct sockaddr_in);
hicnConnState->peerAddress = parcMemory_Allocate(bytes);
parcAssertNotNull(hicnConnState->peerAddress,
"parcMemory_Allocate(%zu) returned NULL", bytes);
addressGetInet(remoteAddress,
(struct sockaddr_in *)hicnConnState->peerAddress);
hicnConnState->peerAddressLength = (socklen_t)bytes;
hicnConnState->localAddress = parcMemory_Allocate(bytes);
parcAssertNotNull(hicnConnState->localAddress,
"parcMemory_Allocate(%zu) returned NULL", bytes);
addressGetInet(localAddress,
(struct sockaddr_in *)hicnConnState->localAddress);
hicnConnState->localAddressLength = (socklen_t)bytes;
hicnConnState->probeDestAddress = NULL;
hicnConnState->probeDestAddressLength = (socklen_t)bytes;
hicnConnState->refreshProbeDestAddress = false;
success = true;
break;
}
case ADDR_INET6: {
size_t bytes = sizeof(struct sockaddr_in6);
hicnConnState->peerAddress = parcMemory_Allocate(bytes);
parcAssertNotNull(hicnConnState->peerAddress,
"parcMemory_Allocate(%zu) returned NULL", bytes);
addressGetInet6(remoteAddress,
(struct sockaddr_in6 *)hicnConnState->peerAddress);
hicnConnState->peerAddressLength = (socklen_t)bytes;
hicnConnState->localAddress = parcMemory_Allocate(bytes);
parcAssertNotNull(hicnConnState->localAddress,
"parcMemory_Allocate(%zu) returned NULL", bytes);
addressGetInet6(localAddress,
(struct sockaddr_in6 *)hicnConnState->localAddress);
hicnConnState->localAddressLength = (socklen_t)bytes;
hicnConnState->probeDestAddress = NULL;
hicnConnState->probeDestAddressLength = (socklen_t)bytes;
hicnConnState->refreshProbeDestAddress = false;
success = true;
break;
}
default:
if (logger_IsLoggable(hicnConnState->logger, LoggerFacility_IO,
PARCLogLevel_Error)) {
char *str = addressToString(remoteAddress);
logger_Log(hicnConnState->logger, LoggerFacility_IO, PARCLogLevel_Error,
__func__, "Remote address is not INET or INET6: %s", str);
parcMemory_Deallocate((void **)&str);
}
break;
}
return success;
}
static void _refreshProbeDestAddress(_HicnState *hicnConnState,
const uint8_t *message) {
if ((hicnConnState->peerAddressLength == sizeof(struct sockaddr_in)) ||
(hicnConnState->localAddressLength == sizeof(struct sockaddr_in)))
return;
if (hicnConnState->probeDestAddress == NULL) {
hicnConnState->probeDestAddress =
parcMemory_AllocateAndClear(sizeof(struct sockaddr_in6));
parcAssertNotNull(hicnConnState->probeDestAddress,
"parcMemory_Allocate(%zu) returned NULL",
sizeof(struct sockaddr_in6));
}
((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_family =
AF_INET6;
((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_port =
htons(1234);
((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_scope_id = 0;
((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_flowinfo = 0;
((struct sockaddr_in6 *)hicnConnState->probeDestAddress)->sin6_addr =
*((struct in6_addr *)messageHandler_GetDestination(message));
hicnConnState->refreshProbeDestAddress = false;
}
static void _setConnectionState(_HicnState *hicnConnState, bool isUp) {
parcAssertNotNull(hicnConnState, "Parameter HICN must be non-null");
Messenger *messenger = forwarder_GetMessenger(hicnConnState->forwarder);
bool oldStateIsUp = hicnConnState->isUp;
hicnConnState->isUp = isUp;
if (oldStateIsUp && !isUp) {
// bring connection DOWN
Missive *missive =
missive_Create(MissiveType_ConnectionDown, hicnConnState->id);
messenger_Send(messenger, missive);
return;
}
if (!oldStateIsUp && isUp) {
// bring connection UP
Missive *missive =
missive_Create(MissiveType_ConnectionUp, hicnConnState->id);
messenger_Send(messenger, missive);
return;
}
}
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