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-This directory provides a number of network services that utilize the
-ACE wrapper features.
-
-	. Logging_Strategy -- Controls the output of all services that are
-	  invoked along with the Logging_Strategy service. Please see below for
-	  details on how to control the output.
-
-	. [Thr_]Server_Logging_Handler.* -- Implements server portion
-	  of the ACE distributed logging service.  Both multi-threaded
-	  and single-threaded implementations are provided.
-
-	. Client_Logging_Handler.* -- Implements the client portion
-	  of the ACE distributed logging service.
-
-	. Name_Handler.* -- Implements a distributed name service that
-	  allows applications to bind, find, and unbind names in
-	  a distributed system.
-
-	. Token_Handler.* -- Implements a distributed token service
-	  that allows distributed applications to acquire and release 
-	  locks in a distributed system.
-
-	. Time_Handler.* -- Implements a distributed time service that
-	  allows distributed applications to synchronize their
-	  time.
-
-The remainder of this README file explains how these services work.
-
-==================== Logging_Strategy Service ====================
-The Logging_Strategy Service can be used to control the output of all the
-network services. It can be invoked with certain flags that determine
-where the output of all the services should go.
-
-The Logging_Strategy Service sets the flags in ACE_Log_Msg which in turn
-controls all the streams through macros such as ACE_DEBUG, ACE_ERROR,
-and ACE_ERROR_RETURN.
-
-If default behavior is required, the Logging_Strategy Service need not be
-invoked or it can be invoked with no paramaters. Here are the command
-line arguments that can be given to the Logging_Strategy Service:
-<CODE>
-
-    -f <flag1>|<flag2>|<flag3>    (etc...)
-</CODE>
-    where a flag can be any of the following:
-
-    STDERR  	-- Write messages to stderr.
-    LOGGER      -- Write messages to the local client logger deamon.
-    OSTREAM     -- Write messages to the ostream that gets created by
-		   specifying a filename (see below)
-    VERBOSE	-- Display messages in a verbose manner 
-    SILENT      -- Do not print messages at all
-
-Note: If more than one flag is specified, the flags need to be 'OR'ed
-as above syntax shows. Make sure there is no space in between the flag
-and '|'.
-
-    -s filename
-
-    If the OSTREAM flag is set, this can be used to specify the
-filename where the output should be directed. Note that if the OSTREAM
-flag is set and no filename is specified, ACE_DEFAULT_LOGFILE will be
-used to write the output to.
-
-Examples:
-
-To direct output only to STDERR, specify command line arguments as:
-	"-f STDERR"
-
-To direct output to both STDERR and a file called "mylog", specify
-command line arguments as: 
-	"-f STDERR|OSTREAM -s mylog"
-
-==================== Name Service ====================
-
-This file describes the principles of the Name_Server server test
-application.
-
-1. Startup configuration
-   ---------------------
-
-To communicate with the server process, a client needs to know the
-INET_Addr, where the server offers its service. Class Name_Options
-holds all the configuration information of the Name Service. This
-consists of :
-
- - nameserver_port : Port number where the server process expects requests
- - nameserver_host : hostname where the server process resides
- - namespace_dir   : directory that holds the NameBinding databases
- - process_name    : name of the client process (argv[0]), NameBindings of
-		     a ProcessLocal namespace are stored in file 
-		     "namespace_dir/process_name". NameBindings of NodeGlobal
-		     namespace are stored in "namespace_dir/localnames".
-		     NameBindings of Net_Local namespace are stored in file
-		     "namespace_dir/globalnames" on the server host.
- These configuration parameters are passed to the process as commandline
- arguments to main:
-		-p nameserver port
-		-h nameserver host
-		-l namespace directory
-
- The main program _must_ initialize an instance of Name_Options with name
- name_options (since the shared libraries depend on this). Main should
- look like :
-
-   #include "ace/Name_Options.h"
-
-   Name_Options name_options;
-
-   int main(int argc, char **argv)
-   {
-     name_options.process_name(argv[0]);
-     name_options.parse_args (argc, argv);
-     ......
-   }
-
-See the examples in the tests subdirectory of
-...Name_Server/Client-Server/client and
-...Name_Server/Client-Server/server
-
-
-2. Class Naming_Context
-   -------------------
-
-This is the main workhorse of the Name Service. It is used by client
-processes as well as by the server process. It manages all accesses to
-the appropriate NameBinding database (that is the file where
-NameBindings are stored) and it also manages the communication between
-a client process and the server (by using class Name_Proxy, which is a
-private member of Naming_Context).  (Note: no IPC is necessary, if a
-client process runs on the same host as the server).
-
-The strategy for all public methods of Naming_Context is common :
-
-1. Transform the format of the arguments to ACE_SString (which is
-   internally used) if necessary.
-
-2. check if work can be done locally : -> call the appropriate local_* method 
-   otherwise call the appropriate global_* method.
-
-Removing Name_Bindings from the database (either with unbind or
-rebind) uses the ACE_Malloc class configured with the
-ACE_MMAP_Memory_Pool.  This allows memory to be reclaimed when
-name/value tuples are unbound.
-
-3. Class Name_Server
-   ----------------
-
-The Name_Server registers in its run method its Name_Acceptor
-(instantiated with the INET_Addr) at the Reactor, to receive incoming
-requests.
-
-4. Class Name_Acceptor
-   ------------------
-
-The Name_Acceptor allocates in its handle_input routine a new instance
-of class Name_Handler on the heap, and accepts connections into this
-Name_Handler.
-
-5. Class Name_Handler
-   -----------------
-
-The Name_Handler represents the server side of communication between
-client and server. It interprets incoming requests to the Net_Local
-namespace and dele- gates the requests to its own Naming_Context
-(which is the Net_Local namespace on the current host). For
-communication it uses the helper classes Name_Request (which up to now
-needs not only contain the request from the client, but also the
-appropriate reply from the server) and Name_Reply.  Note that I want
-to change the usage of these classes to make the structure of the
-software clearer.
-
-6. Dependencies
-   ------------
-
-As the Name service must be able to handle wide character strings, it
-uses ACE_WString String classes.
-
-
-==================== Time Service ====================
-
-The following is a description of the Time Server clerk and server
-services:
-
-1. Startup configuration
-   ---------------------
-
-Configuring a server requires specifying the port number of the
-server. This can be specified as a command line argument as follows:
-
-	-p <port number>
-
-A clerk communicates with one or more server processes. To communicate
-with the server process, a client needs to know the INET_Addr, where
-the server offers its service. The configuration parameters namely the
-server port and server host are passed as command line arguments when
-starting up the clerk service as follows:
-
-    -h <server host1>:<server port1> -h <server host2>:<server port2> ...
-
-Note that multiple servers can be specified in this manner for the
-clerk to connect to when it starts up. The server name and the port
-number need to be concatenated and separated by a ":". In addition,
-the timeout value can also be specified as a command line argument as
-follows: 
-
-	-t timeout
-
-The timeout value specifies the time interval at which the clerk
-should query the servers for time updates.
-
-By default a Clerk does a non-blocking connect to a server. This can
-be overridden and a Clerk can be made to do a blocking connect by
-using the -b flag.
-
-Here is what a config file would look like for starting up a server at
-port 20202:
-
-dynamic Time_Service Service_Object * ../lib/libnet_svcs.so:_make_ACE_TS_Server_Acceptor() "-p 20202"
-
-Here is what a config file would look like for starting up a clerk
-that needs to connect to two servers, one at tango and one at lambada:
-
-dynamic Time_Server_test Service_Object *../lib/libnet_svcs.so:_make_ACE_TS_Clerk_Connector () "-h tango:20202 -h lambada:20202 -t 4"
-
-[Note: these files would vary if the services are run on NT]
-
-
-2. Class TS_Server_Handler
-   -----------------------
-
-TS_Server_Handler represents the server side of communication between
-clerk and server. It interprets incoming requests for time updates,
-gets the system time, creates a reply in response to the request and
-then sends the reply to the clerk from which it received the request.
-For communication it uses the helper class Time_Request.
-
-3. Class TS_Server_Acceptor
-   ------------------------
-
-TS_Server_Acceptor allocates in its handle_input routine a new instance
-of class TS_Server_Handler on the heap, and accepts connections into this
-TS_Server_Handler.
-
-4. Class TS_Clerk_Handler
-   ----------------------
-
-TS_Clerk_Handler represents the clerk side of communication between
-clerk and server. It generates requests for time updates every timeout
-period and then sends these requests to all the servers it is
-connected to asynchronously. It receives the replies to these requests
-from the servers through its handle_input method and then adjusts the
-time using the roundtrip estimate. It caches this time which is later
-retrieved by TS_Clerk_Processor.
-
-5. Class TS_Clerk_Processor
-   ------------------------
-
-TS_Clerk_Processor creates a new instance of TS_Clerk_Handler for
-every server connection it needs to create. It periodically calls
-send_request() of every TS_Clerk_Handler to send a request for time
-update to all the servers. In the process, it retrieves the latest
-time cached by each TS_Clerk_Handler and then uses it to compute its
-notion of the local system time.
-
-6. Algorithms
-   ----------
-
-Currently, updating the system time involves taking the average of all
-the times received from the servers.
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