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+/**************************************************************************/
+/* */
+/* Copyright (c) 2001, 2010 NoMachine, http://www.nomachine.com/. */
+/* */
+/* NXCOMP, NX protocol compression and NX extensions to this software */
+/* are copyright of NoMachine. Redistribution and use of the present */
+/* software is allowed according to terms specified in the file LICENSE */
+/* which comes in the source distribution. */
+/* */
+/* Check http://www.nomachine.com/licensing.html for applicability. */
+/* */
+/* NX and NoMachine are trademarks of Medialogic S.p.A. */
+/* */
+/* All rights reserved. */
+/* */
+/**************************************************************************/
+
+#ifndef Proxy_H
+#define Proxy_H
+
+#include <sys/types.h>
+
+#ifdef _AIX
+#include <sys/select.h>
+#endif
+
+#include "Misc.h"
+#include "Timestamp.h"
+
+#include "List.h"
+#include "Channel.h"
+#include "Transport.h"
+#include "EncodeBuffer.h"
+#include "ProxyReadBuffer.h"
+
+//
+// Forward declaration as we
+// need a pointer.
+//
+
+class Agent;
+
+//
+// Set the verbosity level.
+//
+
+#define PANIC
+#define WARNING
+#undef TEST
+#undef DEBUG
+
+//
+// Log the important tracepoints related
+// to writing packets to the peer proxy.
+//
+
+#undef FLUSH
+
+//
+// Codes used for control messages in
+// proxy-to-proxy protocol.
+//
+// The following codes are currently
+// unused.
+//
+// code_alert_reply,
+// code_reset_request,
+// code_reset_reply,
+// code_load_reply,
+// code_save_reply,
+// code_shutdown_reply,
+// code_configuration_request,
+// code_configuration_reply.
+//
+// These are for compatibility with
+// old versions.
+//
+// code_sync_request,
+// code_sync_reply,
+//
+// The code_new_aux_connection should not
+// be used anymore. Auxiliary X connections
+// are treated as normal X channels since
+// version 1.5.0.
+//
+
+typedef enum
+{
+ code_new_x_connection,
+ code_new_cups_connection,
+ code_new_aux_connection,
+ code_new_smb_connection,
+ code_new_media_connection,
+ code_switch_connection,
+ code_drop_connection,
+ code_finish_connection,
+ code_begin_congestion,
+ code_end_congestion,
+ code_alert_request,
+ code_alert_reply,
+ code_reset_request,
+ code_reset_reply,
+ code_load_request,
+ code_load_reply,
+ code_save_request,
+ code_save_reply,
+ code_shutdown_request,
+ code_shutdown_reply,
+ code_control_token_request,
+ code_control_token_reply,
+ code_configuration_request,
+ code_configuration_reply,
+ code_statistics_request,
+ code_statistics_reply,
+ code_new_http_connection,
+ code_sync_request,
+ code_sync_reply,
+ code_new_font_connection,
+ code_new_slave_connection,
+ code_finish_listeners,
+ code_split_token_request,
+ code_split_token_reply,
+ code_data_token_request,
+ code_data_token_reply,
+ code_last_tag
+
+} T_proxy_code;
+
+typedef enum
+{
+ operation_in_negotiation,
+ operation_in_messages,
+ operation_in_configuration,
+ operation_in_statistics,
+ operation_last_tag
+
+} T_proxy_operation;
+
+typedef enum
+{
+ frame_ping,
+ frame_data,
+
+} T_frame_type;
+
+typedef enum
+{
+ token_control,
+ token_split,
+ token_data
+
+} T_token_type;
+
+typedef enum
+{
+ load_if_any,
+ load_if_first
+
+} T_load_type;
+
+class Proxy
+{
+ public:
+
+ //
+ // Maximum number of supported channels.
+ //
+
+ static const int CONNECTIONS_LIMIT = 256;
+
+ //
+ // Numboer of token types.
+ //
+
+ static const int TOKEN_TYPES = 3;
+
+ //
+ // Lenght of buffer we use to add our
+ // control messages plus the length of
+ // the data frame.
+ //
+
+ static const int CONTROL_CODES_LENGTH = ENCODE_BUFFER_PREFIX_SIZE - 5;
+
+ static const int CONTROL_CODES_THRESHOLD = CONTROL_CODES_LENGTH - 9;
+
+ Proxy(int fd);
+
+ virtual ~Proxy();
+
+ //
+ // Inform the proxy that the negotiation phase is
+ // completed and that it can start handling binary
+ // messages.
+ //
+
+ int setOperational();
+
+ int getOperational()
+ {
+ return (operation_ != operation_in_negotiation);
+ }
+
+ int setReadDescriptors(fd_set *fdSet, int &fdMax, T_timestamp &tsMax);
+
+ int setWriteDescriptors(fd_set *fdSet, int &fdMax, T_timestamp &tsMax);
+
+ //
+ // Perform the operation on the proxy
+ // link or its own channels.
+ //
+
+ int handleRead(int &resultFds, fd_set &fdSet);
+
+ int handleFlush(int &resultFds, fd_set &fdSet);
+
+ int handleRead();
+
+ int handleRead(int fd, const char *data = NULL, int size = 0);
+
+ int handleEvents();
+
+ int handleFlush();
+
+ int handleFlush(int fd);
+
+ int handlePing();
+
+ int handleFinish();
+
+ int handleShutdown();
+
+ int handleStatistics(int type, ostream *statofs);
+
+ int handleAlert(int alert);
+
+ int handleRotate()
+ {
+ activeChannels_.rotate();
+
+ return 1;
+ }
+
+ int handleChannelConfiguration();
+
+ int handleSocketConfiguration();
+
+ int handleLinkConfiguration();
+
+ int handleCacheConfiguration();
+
+ //
+ // These must be called just after initialization to
+ // tell to the proxy where the network connections
+ // have to be forwarded.
+ //
+
+ virtual void handleDisplayConfiguration(const char *xServerDisplay, int xServerAddrFamily,
+ sockaddr * xServerAddr, unsigned int xServerAddrLength) = 0;
+
+ virtual void handlePortConfiguration(int cupsServerPort, int smbServerPort, int mediaServerPort,
+ int httpServerPort, const char *fontServerPort) = 0;
+
+ //
+ // Create new tunneled channels.
+ //
+
+ virtual int handleNewConnection(T_channel_type type, int clientFd) = 0;
+
+ virtual int handleNewConnectionFromProxy(T_channel_type type, int channelId) = 0;
+
+ virtual int handleNewAgentConnection(Agent *agent) = 0;
+
+ virtual int handleNewXConnection(int clientFd) = 0;
+
+ virtual int handleNewXConnectionFromProxy(int channelId) = 0;
+
+ int handleNewGenericConnection(int clientFd, T_channel_type type, const char *label);
+
+ int handleNewGenericConnectionFromProxy(int channelId, T_channel_type type,
+ const char *hostname, int port, const char *label);
+
+ int handleNewGenericConnectionFromProxy(int channelId, T_channel_type type,
+ const char *hostname, const char *path, const char *label);
+
+ int handleNewSlaveConnection(int clientFd);
+
+ int handleNewSlaveConnectionFromProxy(int channelId);
+
+ //
+ // Force closure of channels.
+ //
+
+ int handleCloseConnection(int clientFd);
+
+ int handleCloseAllXConnections();
+
+ int handleCloseAllListeners();
+
+ //
+ // Called when the loop has replaced
+ // or closed a previous alert.
+ //
+
+ void handleResetAlert();
+
+ //
+ // Handle the persistent cache.
+ //
+
+ virtual int handleLoad(T_load_type type) = 0;
+
+ virtual int handleSave() = 0;
+
+ protected:
+
+ //
+ // Timeout related data:
+ //
+ // flush
+ // split
+ // motion
+ //
+ // Timeouts in milliseconds after which the
+ // proxy will have to perform the operation.
+ //
+ // readTs, writeTs
+ //
+ // Timestamp of last packet received or sent
+ // to remote proxy. Used to detect lost con-
+ // nection.
+ //
+ // loopTs
+ //
+ // Timestamp of last loop completed by the
+ // proxy
+ //
+ // pingTs
+ //
+ // Timestamp of last ping request sent to the
+ // remote peer.
+ //
+ // alertTs
+ //
+ // Timestamp of last 'no data received' alert
+ // dialog shown to the user.
+ //
+ // loadTs
+ //
+ // Were message stores populated from data on
+ // disk.
+ //
+ // splitTs
+ // motionTs
+ //
+ // Timestamps of the last operation of this
+ // kind handled by the proxy.
+ //
+
+ typedef struct
+ {
+ int split;
+ int motion;
+
+ T_timestamp readTs;
+ T_timestamp writeTs;
+
+ T_timestamp loopTs;
+ T_timestamp pingTs;
+ T_timestamp alertTs;
+ T_timestamp loadTs;
+
+ T_timestamp splitTs;
+ T_timestamp motionTs;
+
+ } T_proxy_timeouts;
+
+ //
+ // Bytes accumulated so far while waiting
+ // to send the next token, number of tokens
+ // remaining for each token type and other
+ // token related information.
+ //
+
+ typedef struct
+ {
+ int size;
+ int limit;
+
+ int bytes;
+ int remaining;
+
+ T_proxy_code request;
+ T_proxy_code reply;
+
+ T_token_type type;
+
+ } T_proxy_token;
+
+ int handlePostConnectionFromProxy(int channelId, int serverFd,
+ T_channel_type type, const char *label);
+
+ int handleDrain();
+
+ int handleFrame(T_frame_type type);
+
+ int handleFinish(int channelId);
+
+ int handleDrop(int channelId);
+
+ int handleFinishFromProxy(int channelId);
+
+ int handleDropFromProxy(int channelId);
+
+ int handleStatisticsFromProxy(int type);
+
+ int handleStatisticsFromProxy(const unsigned char *message, unsigned int length);
+
+ int handleNegotiation(const unsigned char *message, unsigned int length);
+
+ int handleNegotiationFromProxy(const unsigned char *message, unsigned int length);
+
+ int handleToken(T_frame_type type);
+
+ int handleTokenFromProxy(T_proxy_token &token, int count);
+
+ int handleTokenReplyFromProxy(T_proxy_token &token, int count);
+
+ int handleSyncFromProxy(int channelId);
+
+ int handleSwitch(int channelId);
+
+ int handleControl(T_proxy_code code, int data = -1);
+
+ int handleControlFromProxy(const unsigned char *message);
+
+ //
+ // Interleave reads of the X server
+ // events while writing data to the
+ // remote proxy.
+ //
+
+ virtual int handleAsyncEvents() = 0;
+
+ //
+ // Timer related functions.
+ //
+
+ protected:
+
+ void setTimer(int value)
+ {
+ SetTimer(value);
+ }
+
+ void resetTimer()
+ {
+ ResetTimer();
+
+ timer_ = 0;
+ }
+
+ public:
+
+ void handleTimer()
+ {
+ timer_ = 1;
+ }
+
+ int getTimer()
+ {
+ return timer_;
+ }
+
+ //
+ // Can the channel consume data and the
+ // proxy produce more output?
+ //
+
+ int canRead(int fd) const
+ {
+ return (isTimeToRead() == 1 &&
+ isTimeToRead(getChannel(fd)) == 1);
+ }
+
+ //
+ // Can the proxy read more data from its
+ // peer?
+ //
+
+ int canRead() const
+ {
+ return (transport_ -> readable() != 0);
+ }
+
+ int canFlush() const
+ {
+ return (encodeBuffer_.getLength() +
+ controlLength_ + transport_ -> length() +
+ transport_ -> flushable() > 0);
+ }
+
+ int needFlush(int channelId) const
+ {
+ return (outputChannel_ == channelId &&
+ encodeBuffer_.getLength() > 0);
+ }
+
+ int needFlush() const
+ {
+ return (encodeBuffer_.getLength() > 0);
+ }
+
+ int shouldFlush() const
+ {
+ if ((int) ((encodeBuffer_.getLength() +
+ controlLength_) / statistics ->
+ getStreamRatio()) >= control -> TokenSize)
+ {
+ #if defined(TEST) || defined(INFO) || defined(FLUSH)
+ *logofs << "Proxy: FLUSH! Requesting a flush with "
+ << (encodeBuffer_.getLength() + controlLength_)
+ << " bytes and stream ratio " << (double) statistics ->
+ getStreamRatio() << ".\n" << logofs_flush;
+ #endif
+
+ return 1;
+ }
+
+ #if defined(TEST) || defined(INFO) || defined(FLUSH)
+ *logofs << "Proxy: Not requesting a flush with "
+ << (encodeBuffer_.getLength() + controlLength_)
+ << " bytes and stream ratio " << (double) statistics ->
+ getStreamRatio() << ".\n" << logofs_flush;
+ #endif
+
+ return 0;
+ }
+
+ int needDrain() const
+ {
+ return (congestion_ == 1 || transport_ -> length() >
+ control -> TransportProxyBufferThreshold);
+ }
+
+ int getFd() const
+ {
+ return fd_;
+ }
+
+ int getFlushable(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return (encodeBuffer_.getLength() + controlLength_ +
+ transport_ -> flushable());
+ }
+
+ return 0;
+ }
+
+ int getSplitSize()
+ {
+ return (clientStore_ != NULL ? clientStore_ ->
+ getSplitTotalSize() : 0);
+ }
+
+ int getSplitStorageSize()
+ {
+ return (clientStore_ != NULL ? clientStore_ ->
+ getSplitTotalStorageSize() : 0);
+ }
+
+ //
+ // Returns the number of active channels
+ // that currently managed by this proxy.
+ //
+
+ int getChannels(T_channel_type type = channel_none);
+
+ //
+ // If descriptor corresponds to a valid
+ // channel, returns the type of traffic
+ // carried by it.
+ //
+
+ T_channel_type getType(int fd);
+
+ //
+ // Given a channel type, returns the
+ // literal name.
+ //
+
+ const char *getTypeName(T_channel_type type);
+
+ //
+ // Get a convenient name for 'localhost'.
+ //
+
+ const char *getComputerName();
+
+ //
+ // Set if we have initiated the shutdown
+ // procedure and if the shutdown request
+ // has been received from the remote.
+ //
+
+ int getFinish() const
+ {
+ return finish_;
+ }
+
+ int getShutdown() const
+ {
+ return shutdown_;
+ }
+
+ //
+ // Interfaces to the transport buffers.
+ //
+
+ int getLength(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return transport_ -> length();
+ }
+
+ int channelId = getChannel(fd);
+
+ if (channelId < 0 || channels_[channelId] == NULL)
+ {
+ return 0;
+ }
+
+ return transports_[channelId] -> length();
+ }
+
+ int getPending(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return transport_ -> pending();
+ }
+
+ int channelId = getChannel(fd);
+
+ if (channelId < 0 || channels_[channelId] == NULL)
+ {
+ return 0;
+ }
+
+ return transports_[channelId] -> pending();
+ }
+
+ //
+ // Check if the proxy or the given channel
+ // has data in the buffer because of a
+ // blocking write.
+ //
+
+ int getBlocked(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return transport_ -> blocked();
+ }
+
+ int channelId = getChannel(fd);
+
+ if (channelId < 0 || channels_[channelId] == NULL)
+ {
+ return 0;
+ }
+
+ return transports_[channelId] -> blocked();
+ }
+
+ //
+ // Check if the proxy or the given channel has
+ // data to read.
+ //
+
+ int getReadable(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return transport_ -> readable();
+ }
+
+ int channelId = getChannel(fd);
+
+ if (channelId < 0 || channels_[channelId] == NULL)
+ {
+ return 0;
+ }
+
+ return transports_[channelId] -> readable();
+ }
+
+ //
+ // Return a vale between 0 and 9 in the case
+ // of the proxy descriptor.
+ //
+
+ int getCongestion(int fd) const
+ {
+ if (fd == fd_)
+ {
+ return (agent_ != nothing && congestions_[agent_] == 1 ? 9 :
+ (int) statistics -> getCongestionInFrame());
+ }
+
+ int channelId = getChannel(fd);
+
+ if (channelId < 0 || channels_[channelId] == NULL)
+ {
+ return 0;
+ }
+
+ return channels_[channelId] -> getCongestion();
+ }
+
+ //
+ // Let the statistics class get info
+ // from the message stores.
+ //
+
+ const ClientStore * const getClientStore() const
+ {
+ return clientStore_;
+ }
+
+ const ServerStore * const getServerStore() const
+ {
+ return serverStore_;
+ }
+
+ //
+ // These can be called asynchronously by
+ // channels during their read or write
+ // loop.
+ //
+
+ int handleAsyncRead(int fd)
+ {
+ return handleRead(fd);
+ }
+
+ int handleAsyncCongestion(int fd)
+ {
+ int channelId = getChannel(fd);
+
+ return handleControl(code_begin_congestion, channelId);
+ }
+
+ int handleAsyncDecongestion(int fd)
+ {
+ int channelId = getChannel(fd);
+
+ return handleControl(code_end_congestion, channelId);
+ }
+
+ int handleAsyncSplit(int fd, Split *split)
+ {
+ return channels_[getChannel(fd)] ->
+ handleSplitEvent(encodeBuffer_, split);
+ }
+
+ int handleAsyncInit()
+ {
+ return handleFlush();
+ }
+
+ int handleAsyncPriority()
+ {
+ if (control -> FlushPriority == 1)
+ {
+ return handleFlush();
+ }
+
+ return 0;
+ }
+
+ int canAsyncFlush() const
+ {
+ return shouldFlush();
+ }
+
+ int handleAsyncFlush()
+ {
+ return handleFlush();
+ }
+
+ int handleAsyncSwitch(int fd)
+ {
+ return handleSwitch(getChannel(fd));
+ }
+
+ int handleAsyncKeeperCallback()
+ {
+ KeeperCallback();
+
+ return 1;
+ }
+
+ //
+ // Internal interfaces used to verify the
+ // availability of channels and the proxy
+ // link.
+ //
+
+ protected:
+
+ int isTimeToRead() const
+ {
+ if (congestion_ == 0 && transport_ ->
+ blocked() == 0)
+ {
+ return 1;
+ }
+ else
+ {
+ #if defined(TEST) || defined(INFO)
+ *logofs << "Proxy: Can't read from channels "
+ << "with congestion " << congestion_
+ << " and blocked " << transport_ ->
+ blocked() << ".\n" << logofs_flush;
+ #endif
+
+ return 0;
+ }
+ }
+
+ int isTimeToRead(int channelId) const
+ {
+ if (channelId >= 0 && channelId < CONNECTIONS_LIMIT &&
+ channels_[channelId] != NULL &&
+ congestions_[channelId] == 0)
+ {
+ if (channels_[channelId] -> getType() == channel_x11 ||
+ tokens_[token_data].remaining > 0 ||
+ channels_[channelId] ->
+ getFinish() == 1)
+ {
+ return 1;
+ }
+
+ #if defined(TEST) || defined(INFO)
+ *logofs << "Proxy: Can't read from generic "
+ << "descriptor FD#" << getFd(channelId)
+ << " channel ID#" << channelId << " with "
+ << tokens_[token_data].remaining
+ << " data tokens remaining.\n"
+ << logofs_flush;
+ #endif
+
+ return 0;
+ }
+
+ #if defined(TEST) || defined(INFO)
+
+ if (channelId < 0 || channelId >= CONNECTIONS_LIMIT ||
+ channels_[channelId] == NULL)
+ {
+ *logofs << "Proxy: WARNING! No valid channel for ID#"
+ << channelId << ".\n" << logofs_flush;
+ }
+ else if (channels_[channelId] -> getFinish())
+ {
+ *logofs << "Proxy: Can't read from finishing "
+ << "descriptor FD#" << getFd(channelId)
+ << " channel ID#" << channelId << ".\n"
+ << logofs_flush;
+ }
+ else if (congestions_[channelId] == 1)
+ {
+ *logofs << "Proxy: Can't read from congested "
+ << "descriptor FD#" << getFd(channelId)
+ << " channel ID#" << channelId << ".\n"
+ << logofs_flush;
+ }
+
+ #endif
+
+ return 0;
+ }
+
+ //
+ // Handle the flush and split timeouts.
+ // All these functions should round up
+ // to the value of the latency timeout
+ // to save a further loop.
+ //
+
+ protected:
+
+ int isTimeToSplit() const
+ {
+ if (isTimestamp(timeouts_.splitTs) &&
+ getTimeToNextSplit() <= control ->
+ LatencyTimeout)
+ {
+ if (tokens_[token_split].remaining > 0)
+ {
+ return 1;
+ }
+
+ #if defined(TEST) || defined(INFO)
+ *logofs << "Proxy: WARNING! Can't encode splits "
+ << "with " << tokens_[token_split].remaining
+ << " split tokens remaining.\n"
+ << logofs_flush;
+ #endif
+ }
+
+ return 0;
+ }
+
+ int isTimeToMotion() const
+ {
+ return (isTimestamp(timeouts_.motionTs) &&
+ getTimeToNextMotion() <= control ->
+ LatencyTimeout);
+ }
+
+ int getTimeToNextSplit() const
+ {
+ #if defined(TEST) || defined(INFO) || defined(FLUSH)
+
+ if (isTimestamp(timeouts_.splitTs) == 0)
+ {
+ #ifdef PANIC
+ *logofs << "Proxy: PANIC! No split timeout was set "
+ << "for proxy FD#" << fd_ << ".\n"
+ << logofs_flush;
+ #endif
+
+ cerr << "Error" << ": No split timeout was set "
+ << "for proxy FD#" << fd_ << ".\n";
+
+ HandleCleanup();
+ }
+
+ #endif
+
+ int diffTs = timeouts_.split -
+ diffTimestamp(timeouts_.splitTs,
+ getTimestamp());
+
+ return (diffTs > 0 ? diffTs : 0);
+ }
+
+ int getTimeToNextMotion() const
+ {
+ #if defined(TEST) || defined(INFO) || defined(FLUSH)
+
+ if (isTimestamp(timeouts_.motionTs) == 0)
+ {
+ #ifdef PANIC
+ *logofs << "Proxy: PANIC! No motion timeout was set "
+ << "for proxy FD#" << fd_ << ".\n"
+ << logofs_flush;
+ #endif
+
+ cerr << "Error" << ": No motion timeout was set "
+ << "for proxy FD#" << fd_ << ".\n";
+
+ HandleCleanup();
+ }
+
+ #endif
+
+ int diffTs = timeouts_.motion -
+ diffTimestamp(timeouts_.motionTs,
+ getTimestamp());
+
+ return (diffTs > 0 ? diffTs : 0);
+ }
+
+ protected:
+
+ //
+ // Implement persistence of cache on disk.
+ //
+
+ virtual int handleLoadFromProxy() = 0;
+ virtual int handleSaveFromProxy() = 0;
+
+ int handleLoadStores();
+ int handleSaveStores();
+
+ char *handleSaveAllStores(const char *savePath) const;
+
+ virtual int handleSaveAllStores(ostream *cachefs, md5_state_t *md5StateStream,
+ md5_state_t *md5StateClient) const = 0;
+
+ int handleSaveVersion(unsigned char *buffer, int &major, int &minor, int &patch) const;
+
+ void handleFailOnSave(const char *fullName, const char *failContext) const;
+
+ const char *handleLoadAllStores(const char *loadPath, const char *loadName) const;
+
+ virtual int handleLoadAllStores(istream *cachefs, md5_state_t *md5StateStream) const = 0;
+
+ int handleLoadVersion(const unsigned char *buffer, int &major, int &minor, int &patch) const;
+
+ void handleFailOnLoad(const char *fullName, const char *failContext) const;
+
+ //
+ // Prepare for a new persistent cache.
+ //
+
+ int handleResetPersistentCache();
+
+ //
+ // Reset the stores in the case of a
+ // failure loading the cache.
+ //
+
+ int handleResetStores();
+
+ //
+ // Reset the transport buffer and the
+ // other counters.
+ //
+
+ void handleResetFlush();
+
+ //
+ // Utility functions used to map file
+ // descriptors to channel ids.
+ //
+
+ protected:
+
+ int allocateChannelMap(int fd);
+ int checkChannelMap(int channelId);
+ int assignChannelMap(int channelId, int fd);
+
+ void cleanupChannelMap(int channelId);
+
+ virtual int checkLocalChannelMap(int channelId) = 0;
+
+ int addControlCodes(T_proxy_code code, int data);
+ int addTokenCodes(T_proxy_token &token);
+
+ int getFd(int channelId) const
+ {
+ if (channelId >= 0 && channelId < CONNECTIONS_LIMIT)
+ {
+ return fdMap_[channelId];
+ }
+
+ return -1;
+ }
+
+ int getChannel(int fd) const
+ {
+ if (fd >= 0 && fd < CONNECTIONS_LIMIT)
+ {
+ return channelMap_[fd];
+ }
+
+ return -1;
+ }
+
+ protected:
+
+ void setSplitTimeout(int channelId);
+ void setMotionTimeout(int channelId);
+
+ void increaseChannels(int channelId);
+ void decreaseChannels(int channelId);
+
+ int allocateTransport(int channelFd, int channelId);
+ int deallocateTransport(int channelId);
+
+ //
+ // The proxy has its own transport.
+ //
+
+ ProxyTransport *transport_;
+
+ //
+ // The static compressor is shared among
+ // channels and all the message stores.
+ //
+
+ StaticCompressor *compressor_;
+
+ //
+ // Map NX specific opcodes.
+ //
+
+ OpcodeStore *opcodeStore_;
+
+ //
+ // Stores are shared between channels.
+ //
+
+ ClientStore *clientStore_;
+ ServerStore *serverStore_;
+
+ //
+ // Client and server caches are shared
+ // between channels.
+ //
+
+ ClientCache *clientCache_;
+ ServerCache *serverCache_;
+
+ //
+ // The proxy's file descriptor.
+ //
+
+ int fd_;
+
+ //
+ // Channels currently selected for I/O
+ // operations.
+ //
+
+ int inputChannel_;
+ int outputChannel_;
+
+ //
+ // List of active channels.
+ //
+
+ List activeChannels_;
+
+ //
+ // Used to read data sent from peer proxy.
+ //
+
+ ProxyReadBuffer readBuffer_;
+
+ //
+ // Used to send data to peer proxy.
+ //
+
+ EncodeBuffer encodeBuffer_;
+
+ //
+ // Control messages' array.
+ //
+
+ int controlLength_;
+
+ unsigned char controlCodes_[CONTROL_CODES_LENGTH];
+
+ //
+ // Table of channel classes taking
+ // care of open X connections.
+ //
+
+ Channel *channels_[CONNECTIONS_LIMIT];
+
+ //
+ // Table of open sockets.
+ //
+
+ Transport *transports_[CONNECTIONS_LIMIT];
+
+ //
+ // Timeout related data.
+ //
+
+ T_proxy_timeouts timeouts_;
+
+ //
+ // Proxy can be decoding messages,
+ // handling a link reconfiguration,
+ // or decoding statistics.
+ //
+
+ int operation_;
+
+ //
+ // True if we are currently draining
+ // the proxy link.
+ //
+
+ int draining_;
+
+ //
+ // Force flush because of prioritized
+ // control messages to send.
+ //
+
+ int priority_;
+
+ //
+ // Set if we have initiated the close
+ // down procedure.
+ //
+
+ int finish_;
+
+ //
+ // Remote peer requested the shutdown.
+ //
+
+ int shutdown_;
+
+ //
+ // We are in the middle of a network
+ // congestion in the path to remote
+ // proxy.
+ //
+
+ int congestion_;
+
+ //
+ // Channels at the remote end that
+ // are not consuming their data.
+ //
+
+ int congestions_[CONNECTIONS_LIMIT];
+
+ //
+ // Is the timer expired?
+ //
+
+ int timer_;
+
+ //
+ // Did the proxy request an alert?
+ //
+
+ int alert_;
+
+ //
+ // The channel id of the agent.
+ //
+
+ int agent_;
+
+ //
+ // Token related data.
+ //
+
+ T_proxy_token tokens_[TOKEN_TYPES];
+
+ //
+ // Pointer to stream descriptor where
+ // proxy is producing statistics.
+ //
+
+ ostream *currentStatistics_;
+
+ private:
+
+ //
+ // Map channel ids to file descriptors.
+ //
+
+ int channelMap_[CONNECTIONS_LIMIT];
+ int fdMap_[CONNECTIONS_LIMIT];
+};
+
+#endif /* Proxy_H */