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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.
*/
/**
* Common activity for STREAM based listeners.
*/
#include <errno.h>
#include <hicn/hicn-light/config.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <parc/algol/parc_Hash.h>
#include <hicn/core/connection.h>
#include <hicn/core/forwarder.h>
#include <hicn/core/message.h>
#include <hicn/io/streamConnection.h>
#include <parc/algol/parc_Memory.h>
#include <parc/assert/parc_Assert.h>
#include <hicn/core/messageHandler.h>
#include <hicn/utils/commands.h>
#include <hicn/hicn.h>
// 128 KB output queue
#define OUTPUT_QUEUE_BYTES (128 * 1024)
static void _conn_readcb(PARCEventQueue *bufferEventVector, PARCEventType type,
void *ioOpsVoid);
static void _conn_eventcb(PARCEventQueue *bufferEventVector,
PARCEventQueueEventType events, void *ioOpsVoid);
typedef struct stream_state {
Forwarder *forwarder;
char * interfaceName;
Logger *logger;
int fd;
AddressPair *addressPair;
PARCEventQueue *bufferEventVector;
bool isLocal;
bool isUp;
bool isClosed;
unsigned id;
size_t nextMessageLength;
/* This information would better be stored in the connection data structure
* but it is currently not reachable from within the implementation. */
connection_state_t state;
connection_state_t admin_state;
} _StreamState;
// Prototypes
static bool _streamConnection_Send(IoOperations *ops, const Address *nexthop,
Message *message);
static bool _streamConnection_SendIOVBuffer(IoOperations *ops, struct
iovec *msg, size_t size);
static const Address *_streamConnection_GetRemoteAddress(
const IoOperations *ops);
static const AddressPair *_streamConnection_GetAddressPair(
const IoOperations *ops);
static unsigned _streamConnection_GetConnectionId(const IoOperations *ops);
static bool _streamConnection_IsUp(const IoOperations *ops);
static bool _streamConnection_IsLocal(const IoOperations *ops);
static void _streamConnection_DestroyOperations(IoOperations **opsPtr);
static void _setConnectionState(_StreamState *stream, bool isUp);
static list_connections_type _streamConnection_GetConnectionType(
const IoOperations *ops);
static Ticks _sendProbe(IoOperations *ops, unsigned probeType,
uint8_t *message);
static connection_state_t _streamConnection_getState(const IoOperations *ops);
static void _streamConnection_setState(IoOperations *ops, connection_state_t state);
static connection_state_t _streamConnection_getAdminState(const IoOperations *ops);
static void _streamConnection_setAdminState(IoOperations *ops, connection_state_t admin_state);
static const char * _streamConnection_getInterfaceName(const IoOperations *ops);
/*
* 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 = &_streamConnection_Send,
.sendIOVBuffer = &_streamConnection_SendIOVBuffer,
.getRemoteAddress = &_streamConnection_GetRemoteAddress,
.getAddressPair = &_streamConnection_GetAddressPair,
.getConnectionId = &_streamConnection_GetConnectionId,
.isUp = &_streamConnection_IsUp,
.isLocal = &_streamConnection_IsLocal,
.destroy = &_streamConnection_DestroyOperations,
.class = &_streamConnection_Class,
.getConnectionType = &_streamConnection_GetConnectionType,
.sendProbe = &_sendProbe,
.getState = &_streamConnection_getState,
.setState = &_streamConnection_setState,
.getAdminState = &_streamConnection_getAdminState,
.setAdminState = &_streamConnection_setAdminState,
.getInterfaceName = &_streamConnection_getInterfaceName,
};
IoOperations *streamConnection_AcceptConnection(Forwarder *forwarder, int fd,
AddressPair *pair,
bool isLocal) {
_StreamState *stream = parcMemory_AllocateAndClear(sizeof(_StreamState));
parcAssertNotNull(stream, "parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(_StreamState));
Dispatcher *dispatcher = forwarder_GetDispatcher(forwarder);
PARCEventScheduler *eventBase = dispatcher_GetEventScheduler(dispatcher);
stream->bufferEventVector = parcEventQueue_Create(
eventBase, fd,
PARCEventQueueOption_CloseOnFree | PARCEventQueueOption_DeferCallbacks);
stream->forwarder = forwarder;
stream->interfaceName = NULL;
stream->logger = logger_Acquire(forwarder_GetLogger(forwarder));
stream->fd = fd;
stream->id = forwarder_GetNextConnectionId(forwarder);
stream->addressPair = pair;
stream->isClosed = false;
// allocate a connection
IoOperations *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 = stream;
stream->isLocal = isLocal;
parcEventQueue_SetCallbacks(stream->bufferEventVector, _conn_readcb, NULL,
_conn_eventcb, (void *)io_ops);
parcEventQueue_Enable(stream->bufferEventVector, PARCEventType_Read);
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionCreate, stream->id));
// As we are acceting a connection, we begin in the UP state
_setConnectionState(stream, true);
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Debug)) {
char *pair_str = addressPair_ToString(pair);
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Debug, __func__,
"StreamConnection %p accept for address pair %s", (void *)stream,
pair_str);
free(pair_str);
}
return io_ops;
}
IoOperations *streamConnection_OpenConnection(Forwarder *forwarder,
AddressPair *pair, bool isLocal) {
parcAssertNotNull(forwarder, "Parameter hicn-light must be non-null");
parcAssertNotNull(pair, "Parameter pair must be non-null");
// if there's an error on the bind or connect, will return NULL
PARCEventQueue *bufferEventVector =
dispatcher_StreamBufferConnect(forwarder_GetDispatcher(forwarder), pair);
if (bufferEventVector == NULL) {
// error opening connection
return NULL;
}
_StreamState *stream = parcMemory_AllocateAndClear(sizeof(_StreamState));
parcAssertNotNull(stream, "parcMemory_AllocateAndClear(%zu) returned NULL",
sizeof(_StreamState));
stream->forwarder = forwarder;
stream->interfaceName = NULL;
stream->logger = logger_Acquire(forwarder_GetLogger(forwarder));
stream->fd = parcEventQueue_GetFileDescriptor(bufferEventVector);
stream->bufferEventVector = bufferEventVector;
stream->id = forwarder_GetNextConnectionId(forwarder);
stream->addressPair = pair;
stream->isClosed = false;
// allocate a connection
IoOperations *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 = stream;
stream->isLocal = isLocal;
parcEventQueue_SetCallbacks(stream->bufferEventVector, _conn_readcb, NULL,
_conn_eventcb, (void *)io_ops);
parcEventQueue_Enable(stream->bufferEventVector, PARCEventType_Read);
// we start in DOWN state, until remote side answers
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionCreate, stream->id));
_setConnectionState(stream, false);
if (logger_IsLoggable(stream->logger, LoggerFacility_IO, PARCLogLevel_Info)) {
char *pair_str = addressPair_ToString(pair);
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Info, __func__,
"StreamConnection %p connect for address pair %s",
(void *)stream, pair_str);
free(pair_str);
}
return io_ops;
}
static void _streamConnection_DestroyOperations(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");
_StreamState *stream = (_StreamState *)ioOperations_GetClosure(ops);
parcEventQueue_Destroy(&stream->bufferEventVector);
addressPair_Release(&stream->addressPair);
if (!stream->isClosed) {
stream->isClosed = true;
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionClosed, stream->id));
}
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionDestroyed, stream->id));
if (logger_IsLoggable(stream->logger, LoggerFacility_IO, PARCLogLevel_Info)) {
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Info, __func__,
"StreamConnection %p destroyed", (void *)stream);
}
logger_Release(&stream->logger);
parcMemory_Deallocate((void **)&stream);
parcMemory_Deallocate((void **)&ops);
*opsPtr = NULL;
}
static bool _streamConnection_IsUp(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->isUp;
}
static bool _streamConnection_IsLocal(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->isLocal;
}
static const Address *_streamConnection_GetRemoteAddress(
const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return addressPair_GetRemote(stream->addressPair);
}
static const AddressPair *_streamConnection_GetAddressPair(
const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->addressPair;
}
static unsigned _streamConnection_GetConnectionId(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->id;
}
bool _streamConnection_SendIOVBuffer(IoOperations *ops,
struct iovec * message, size_t size) {
parcAssertNotNull(ops, "Parameter ops must be non-null");
parcAssertNotNull(message, "Parameter message must be non-null");
_StreamState *conn = (_StreamState *)ioOperations_GetClosure(ops);
if (!conn->isUp) {
if (logger_IsLoggable(conn->logger, LoggerFacility_IO,
PARCLogLevel_Error)) {
logger_Log(
conn->logger, LoggerFacility_IO, PARCLogLevel_Error, __func__,
"connid %u tried to send to down connection (isUp %d isClosed %d)",
conn->id, conn->isUp, conn->isClosed);
}
return false;
}
PARCEventBuffer *buffer =
parcEventBuffer_GetQueueBufferOutput(conn->bufferEventVector);
size_t buffer_backlog = parcEventBuffer_GetLength(buffer);
parcEventBuffer_Destroy(&buffer);
if (buffer_backlog >= OUTPUT_QUEUE_BYTES) {
if (logger_IsLoggable(conn->logger, LoggerFacility_IO,
PARCLogLevel_Warning)) {
logger_Log(conn->logger, LoggerFacility_IO, PARCLogLevel_Warning,
__func__,
"connid %u Writing to buffer backlog %zu bytes DROP MESSAGE",
conn->id, buffer_backlog);
}
return false;
}
if (logger_IsLoggable(conn->logger, LoggerFacility_IO,
PARCLogLevel_Debug)) {
size_t length = 0;
for (int i = 0; i < size; i++)
length += message[i].iov_len;
logger_Log( conn->logger, LoggerFacility_IO, PARCLogLevel_Debug, __func__,
"connid %u Writing %zu bytes to buffer with backlog %zu bytes",
conn->id, length, buffer_backlog);
}
/* Write directly into the parcEventQueue without passing through message */
for (int i = 0; i < size; i++) {
if (parcEventQueue_Write(conn->bufferEventVector, message[i].iov_base,
message[i].iov_len) != 0)
return false;
}
return true;
}
/**
* @function streamConnection_Send
* @abstract Non-destructive send of the message.
* @discussion
* Send uses message_CopyToStreamBuffer, which is a non-destructive write.
* The send may fail if there's no buffer space in the output queue.
*
* @param dummy is ignored. A stream has only one peer.
* @return <#return#>
*/
static bool _streamConnection_Send(IoOperations *ops, const Address *dummy,
Message *message) {
parcAssertNotNull(ops, "Parameter ops must be non-null");
parcAssertNotNull(message, "Parameter message must be non-null");
_StreamState *stream = (_StreamState *)ioOperations_GetClosure(ops);
bool success = false;
if (stream->isUp) {
PARCEventBuffer *buffer =
parcEventBuffer_GetQueueBufferOutput(stream->bufferEventVector);
size_t buffer_backlog = parcEventBuffer_GetLength(buffer);
parcEventBuffer_Destroy(&buffer);
if (buffer_backlog < OUTPUT_QUEUE_BYTES) {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Debug)) {
logger_Log(
stream->logger, LoggerFacility_IO, PARCLogLevel_Debug, __func__,
"connid %u Writing %zu bytes to buffer with backlog %zu bytes",
stream->id, message_Length(message), buffer_backlog);
}
int failure = message_Write(stream->bufferEventVector, message);
if (failure == 0) {
success = true;
}
} else {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Warning)) {
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Warning,
__func__,
"connid %u Writing to buffer backlog %zu bytes DROP MESSAGE",
stream->id, buffer_backlog);
}
}
} else {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Error)) {
logger_Log(
stream->logger, LoggerFacility_IO, PARCLogLevel_Error, __func__,
"connid %u tried to send to down connection (isUp %d isClosed %d)",
stream->id, stream->isUp, stream->isClosed);
}
}
return success;
}
list_connections_type _streamConnection_GetConnectionType(
const IoOperations *ops) {
return CONN_TCP;
}
static Ticks _sendProbe(IoOperations *ops, unsigned probeType,
uint8_t *message) {
// we don't need to implemet this here, it is a local connection
return 0;
}
// =================================================================
// the actual I/O functions
int _isACommand(PARCEventBuffer *input) {
size_t bytesAvailable = parcEventBuffer_GetLength(input);
parcAssertTrue(bytesAvailable >= sizeof(header_control_message),
"Called with too short an input: %zu", bytesAvailable);
uint8_t *msg = parcEventBuffer_Pullup(input, bytesAvailable);
// read first byte of the header
// first byte: must be a REQUEST_LIGHT
if (msg[0] != REQUEST_LIGHT) {
return LAST_COMMAND_VALUE;
}
// second byte: must be a command_id
if (msg[1] < 0 || msg[1] >= LAST_COMMAND_VALUE) {
return LAST_COMMAND_VALUE;
}
return msg[1];
}
PARCEventBuffer *_tryReadControlMessage(_StreamState *stream,
PARCEventBuffer *input,
command_id command,
struct iovec **request) {
size_t bytesAvailable = parcEventBuffer_GetLength(input);
if (stream->nextMessageLength == 0) {
stream->nextMessageLength =
sizeof(header_control_message) +
payloadLengthDaemon(command); // consider the whole packet.
}
if (bytesAvailable >= stream->nextMessageLength) {
PARCEventBuffer *message = parcEventBuffer_Create();
int bytesRead = parcEventBuffer_ReadIntoBuffer(input, message,
stream->nextMessageLength);
parcAssertTrue(bytesRead == stream->nextMessageLength,
"Partial read, expected %zu got %d",
stream->nextMessageLength, bytesRead);
uint8_t *control =
parcEventBuffer_Pullup(message, stream->nextMessageLength);
if (!(*request = (struct iovec *)parcMemory_AllocateAndClear(
sizeof(struct iovec) * 2))) {
return NULL;
}
(*request)[0].iov_base = control; // header
(*request)[0].iov_len = sizeof(header_control_message);
if (payloadLengthDaemon(command) > 0) {
(*request)[1].iov_base =
control + sizeof(header_control_message); // payload
} else {
(*request)[1].iov_base = NULL;
}
(*request)[1].iov_len = payloadLengthDaemon(command);
// now reset message length for next packet
stream->nextMessageLength = 0;
return message;
}
return NULL;
}
static bool _isAnHicnPacket(PARCEventBuffer *input) {
size_t bytesAvailable = parcEventBuffer_GetLength(input);
parcAssertTrue(bytesAvailable >= sizeof(header_control_message),
"Called with too short an input: %zu", bytesAvailable);
uint8_t *fh = parcEventBuffer_Pullup(input, sizeof(header_control_message));
return messageHandler_IsValidHicnPacket(fh);
}
static Message *_readMessage(_StreamState *stream, Ticks time,
PARCEventBuffer *input) {
Message *message = message_CreateFromEventBuffer(
input, stream->nextMessageLength, stream->id, time, stream->logger);
return message;
}
static void _startNewMessage(_StreamState *stream, PARCEventBuffer *input,
size_t inputBytesAvailable) {
parcAssertTrue(stream->nextMessageLength == 0,
"Invalid state, nextMessageLength not zero: %zu",
stream->nextMessageLength);
parcAssertTrue(inputBytesAvailable >= sizeof(header_control_message),
"read_length not a whole fixed header!: %zd",
inputBytesAvailable);
// this linearizes the first messageHandler_GetIPv6HeaderLength() bytes of the
// input buffer's iovecs and returns a pointer to it.
uint8_t *fh = parcEventBuffer_Pullup(input, sizeof(header_control_message));
// Calculate the total message size based on the fixed header
stream->nextMessageLength = messageHandler_GetTotalPacketLength(fh);
}
static Message *_tryReadMessage(PARCEventBuffer *input, _StreamState *stream) {
size_t bytesAvailable = parcEventBuffer_GetLength(input);
parcAssertTrue(bytesAvailable >= sizeof(header_control_message),
"Called with too short an input: %zu", bytesAvailable);
if (stream->nextMessageLength == 0) {
_startNewMessage(stream, input, bytesAvailable);
}
// This is not an ELSE statement. We can both start a new message then
// check if there's enough bytes to read the whole thing.
if (bytesAvailable >= stream->nextMessageLength) {
Message *message =
_readMessage(stream, forwarder_GetTicks(stream->forwarder), input);
// now reset message length for next packet
stream->nextMessageLength = 0;
return message;
}
return NULL;
}
/**
* @function conn_readcb
* @abstract Event callback for reads
* @discussion
* Will read messages off the input. Continues reading as long as we
* can get a header to determine the next message length or as long as we
* can read a complete message.
*
* This function manipulates the read low water mark. (1) read a fixed header
* plus complete message, then set the low water mark to FIXED_HEADER_LEN. (2)
* read a fixed header, but not a complete message, then set low water mark to
* the total mesage length. Using the low water mark like this means the buffer
* event will only trigger on meaningful byte boundaries when we can get actual
* work done.
*
* @param <#param1#>
* @return <#return#>
*/
static void _conn_readcb(PARCEventQueue *event, PARCEventType type,
void *ioOpsVoid) {
command_id command;
IoOperations *ops = (IoOperations *)ioOpsVoid;
_StreamState *stream = (_StreamState *)ioOperations_GetClosure(ops);
PARCEventBuffer *input = parcEventBuffer_GetQueueBufferInput(event);
// drain the input buffer
// notice that we always try to read at least 8 bytes
// (sizeof(header_control_message)). This is enough to read the length of all
// kind of packets
while (parcEventBuffer_GetLength(input) >= sizeof(header_control_message) &&
parcEventBuffer_GetLength(input) >= stream->nextMessageLength) {
if ((command = _isACommand(input)) != LAST_COMMAND_VALUE) {
struct iovec *rx;
// Get message from the stream and set the stream->nextMessageLength
PARCEventBuffer *message =
_tryReadControlMessage(stream, input, command, &rx);
// If received correctly the whole message, send to dispatcher
if (message) {
forwarder_ReceiveCommand(stream->forwarder, command, rx, stream->id);
parcEventBuffer_Destroy(&message);
}
} else if (_isAnHicnPacket(input)) {
// this is an Hicn packet (here we should distinguish between IPv4 and
// IPv6 tryReadMessage may set nextMessageLength
Message *message = _tryReadMessage(input, stream);
if (message) {
forwarder_Receive(stream->forwarder, message);
}
} else {
parcAssertTrue(false,
"(Local stream connection) malformed packet received");
}
}
if (stream->nextMessageLength == 0) {
// we don't have the next header, so set it to the header length
streamBuffer_SetWatermark(event, true, false,
sizeof(header_control_message), 0);
} else {
// set it to the packet length
streamBuffer_SetWatermark(event, true, false, stream->nextMessageLength, 0);
}
parcEventBuffer_Destroy(&input);
}
static void _setConnectionState(_StreamState *stream, bool isUp) {
parcAssertNotNull(stream, "Parameter stream must be non-null");
Messenger *messenger = forwarder_GetMessenger(stream->forwarder);
bool oldStateIsUp = stream->isUp;
stream->isUp = isUp;
if (oldStateIsUp && !isUp) {
// bring connection DOWN
Missive *missive = missive_Create(MissiveType_ConnectionDown, stream->id);
messenger_Send(messenger, missive);
return;
}
if (!oldStateIsUp && isUp) {
// bring connection UP
Missive *missive = missive_Create(MissiveType_ConnectionUp, stream->id);
messenger_Send(messenger, missive);
return;
}
}
static void _conn_eventcb(PARCEventQueue *event, PARCEventQueueEventType events,
void *ioOpsVoid) {
IoOperations *ops = (IoOperations *)ioOpsVoid;
_StreamState *stream = (_StreamState *)ioOperations_GetClosure(ops);
if (events & PARCEventQueueEventType_Connected) {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Info)) {
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Info, __func__,
"Connection %u is connected", stream->id);
}
// if the stream was closed, do not transition to an UP state
if (!stream->isClosed) {
_setConnectionState(stream, true);
}
} else if (events & PARCEventQueueEventType_EOF) {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Info)) {
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Info, __func__,
"connid %u closed.", stream->id);
}
parcEventQueue_Disable(stream->bufferEventVector, PARCEventType_Read);
_setConnectionState(stream, false);
if (!stream->isClosed) {
stream->isClosed = true;
// this will cause the connection manager to destroy the connection later
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionClosed, stream->id));
}
} else if (events & PARCEventQueueEventType_Error) {
if (logger_IsLoggable(stream->logger, LoggerFacility_IO,
PARCLogLevel_Error)) {
logger_Log(stream->logger, LoggerFacility_IO, PARCLogLevel_Error,
__func__, "Got an error on the connection %u: %s", stream->id,
strerror(errno));
}
parcEventQueue_Disable(stream->bufferEventVector,
PARCEventType_Read | PARCEventType_Write);
_setConnectionState(stream, false);
if (!stream->isClosed) {
stream->isClosed = true;
// this will cause the connection manager to destroy the connection later
messenger_Send(forwarder_GetMessenger(stream->forwarder),
missive_Create(MissiveType_ConnectionClosed, stream->id));
}
}
/* None of the other events can happen here, since we haven't enabled
* timeouts */
}
static connection_state_t _streamConnection_getState(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->state;
}
static void _streamConnection_setState(IoOperations *ops, connection_state_t state) {
parcAssertNotNull(ops, "Parameter must be non-null");
_StreamState *stream =
(_StreamState *)ioOperations_GetClosure(ops);
stream->state = state;
}
static connection_state_t _streamConnection_getAdminState(const IoOperations *ops) {
parcAssertNotNull(ops, "Parameter must be non-null");
const _StreamState *stream =
(const _StreamState *)ioOperations_GetClosure(ops);
return stream->admin_state;
}
static void _streamConnection_setAdminState(IoOperations *ops, connection_state_t admin_state) {
parcAssertNotNull(ops, "Parameter must be non-null");
_StreamState *stream =
(_StreamState *)ioOperations_GetClosure(ops);
stream->admin_state = admin_state;
}
static const char * _streamConnection_getInterfaceName(const IoOperations *ops)
{
parcAssertNotNull(ops, "Parameter must be non-null");
_StreamState *stream =
(_StreamState *)ioOperations_GetClosure(ops);
return stream->interfaceName;
}
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