source: trunk/user/chat/chat.c @ 679

Last change on this file since 679 was 676, checked in by alain, 4 years ago

Introduce chat application to test the named pipes.

File size: 9.0 KB
Line 
1/////////////////////////////////////////////////////////////////////////////////////////
2//  file   : chat.c
3//  author : Alain Greiner
4//  date   : november 2020
5/////////////////////////////////////////////////////////////////////////////////////////
6// This file describes a single thread, fifo based, chat application.
7//
8// The chat[0] process is supposed to communicate with another chat[1] process through
9// two fifos, identified by the P0P1_FIFO_PATH & P1P0_fifo_PATH arguments.
10//
11// The behaviour depends on the process argument (argc/argv mechanism) :
12// - when this argument is 0 the process is P0 (write P0P1 fifo / read P1P0 fifo).
13// - when this argument is non-zero, the process is P1 (write P1P0 fifo / read P0P1 fifo).
14//
15// - For a P0 process :
16//    1) it creates the P0P1 fifo.
17//    2) it open a write-only file descriptor on this P0P1 fifo.
18//    3) in a waiting loop it open a read-only file descriptor on the P1P0 fifo.
19//    4) it enters the chat loop, starting by a send().
20//
21// - For a P1 process :
22//    1) it creates the P1P0 fifo.
23//    2) it open a write-only file descriptor on this P1P0 fifo.
24//    3) in a waiting loop, it open a read-only file descriptor on the P0P1 fifo.
25//    4) it enters the chat loop, starting by a receive().
26//   
27// Both sides can stop the communication and exit by sending an "exit" string.
28///////////////////////////////////////////////////////////////////////////////////////
29
30#include <stdio.h>
31#include <stdlib.h>
32#include <string.h>
33#include <almosmkh.h>
34#include <unistd.h>
35#include <fcntl.h>
36#include <sys/stat.h>
37
38
39#define P0P1_FIFO_PATH  "/misc/chat_p0p1_fifo"
40#define P1P0_FIFO_PATH  "/misc/chat_p1p0_fifo"
41
42#define CHAT_BUF_SIZE       256
43
44#define DEBUG_MAIN          0
45
46///////////////////////////////////////////////////////////////////
47// - This function send the string captured on STDIN to the fifo
48//   and return the number of characters sent if success.
49// - It send an empty string (first character == 0),
50//   and return 0 when the captured string is "exit".
51///////////////////////////////////////////////////////////////////
52int chat_send( int is_0,
53               int fdid )
54{
55    char   buffer[CHAT_BUF_SIZE];   // string buffer for one message
56    int    size;                    // string length (including NUL)
57    int    nbytes;                  // number of characters actually sent
58
59    // display local prompt
60    printf("\n[local] " );
61
62    // build local message
63    size = get_string( buffer , CHAT_BUF_SIZE );
64
65    // send local message
66    nbytes = write( fdid , buffer , size );
67
68    if( nbytes != size )
69    {
70        printf("\n[chat P%d error] cannot send\n", is_0 );
71        // return exit
72        return 0;
73    }
74
75    // handle "exit" string
76    if( strncmp( "exit" , buffer , 4 ) == 0 ) 
77    {
78        printf("\n[chat P%d] local message is <exit> => quit\n", is_0 );
79        // return exit
80        return 0;
81    }
82
83    // return success
84    return nbytes;
85 
86}  // end chat_send()
87
88///////////////////////////////////////////////////////////////////////
89// - This function copies the string received from the fifo to STDOUT,
90//   and return the number of characters received if success.
91// - It returns 0 when the received string is empty, too long,
92//   or when an EOF signals end of communication.
93///////////////////////////////////////////////////////////////////////
94int chat_receive( int is_0,
95                  int fdid )
96{
97    char   buffer[CHAT_BUF_SIZE];      // string buffer for one message
98    int    nbytes;                     // number of characters received in one read
99
100    // initialize loop variables
101    int    space    = CHAT_BUF_SIZE;   // number of empty slots in buffer
102    int    received = 0;               // total number of received bytes
103    char * buf      = &buffer[0];
104
105    // display remote prompt
106    printf("\n[remote] ");
107
108    // get remote message
109    while( 1 )
110    {
111        // try to read as many bytes as available space in buffer
112        nbytes = read( fdid , buf , space );
113
114        // analyse number of bytes received
115        if( (nbytes < 0) || ((nbytes + received) >= CHAT_BUF_SIZE) )  // error
116        {
117            printf("\n\n[chat P%d error] received %d bytes\n", is_0 , received + nbytes );
118            // return exit
119            return 0;
120        }
121        else if( buffer[nbytes - 1] != 0 )    // uncompleted string => new read
122        {
123            buf      = buf + nbytes;
124            space    = space + nbytes;
125            received = received + nbytes;
126        }
127        else                                  // NUL terminated string => exit loop
128        {
129            received = received + nbytes;
130            break;
131        }
132    }
133     
134    // display remote message
135    printf("%s\n", buffer );
136
137    // handle "exit" string
138    if( strncmp( "exit" , buffer , 4 ) == 0 ) // handle "exit" string
139    {
140        printf("\n[chat P%d] remote message is <exit> => quit \n", is_0 );
141        // return exit
142        return 0;
143    }
144
145    // return success
146    return received;
147
148}  // end chat_receive()
149
150
151
152///////////////////////////////////
153int main( int argc , char ** argv )
154{
155    int                  error;
156    int                  is_0;             // P0 process when zero / P1 process otherwise
157    int                  read_fdid;        // file descriptor index for read fifo
158    int                  write_fdid;       // file descriptor index for read fifo
159    unsigned long long   start_cycle;
160
161    // check arguments
162    if( argc == 0 )
163    {
164        printf("\n[chat error] cannot get process argument / pid %x\n", getpid() );
165        exit( 1 );
166    }
167
168    // get process index 0/1
169    is_0 = (strcmp( "0" , argv[0] ) == 0);
170
171    // get  start cycle
172    get_cycle( &start_cycle );
173
174    //////////////////////////
175    if( is_0 )   // P0 process
176    {
177        printf("\n[chat P0] starts at cycle %d\n", (unsigned int)start_cycle );
178
179        // 1. P0 creates the P0P1 fifo
180        error = mkfifo( P0P1_FIFO_PATH, 0 );
181
182        if( error )
183        {
184            printf("\n[chat P0 error] cannot create P0P1 fifo\n" );
185            exit( 1 );
186        }
187
188        printf("\n[chat P0] P0P1 fifo created\n");
189
190        // 2. P0 open the read_fdid file descriptor
191        write_fdid = open( P0P1_FIFO_PATH,
192                           O_WRONLY, 0 ); 
193
194        if( write_fdid < 0 )
195        {
196            printf("\n[chat P0 error] cannot get write_fdid for P0P1 fifo\n" );
197            exit( 1 );
198        }
199
200        printf("\n[chat P0] got write_fdid = %d\n", write_fdid );
201
202        // 3. P0 try to open the read_fdid file descriptor
203        while( 1 )
204        {
205            read_fdid = open( P1P0_FIFO_PATH,
206                              O_RDONLY, 0 );
207
208            if( read_fdid > 0 ) break;
209
210            pthread_yield();
211        }
212
213        printf("\n[chat P0] got read_fdid = %d\n", read_fdid );
214
215#if DEBUG_MAIN
216display_fd_array( getpid() );
217#endif
218        // 4. P0 enter the chat loop
219        while( 1 )
220        {
221            // handle received remote message
222            if( chat_send( is_0, write_fdid ) == 0 ) break;
223
224            // handle local send message
225            if( chat_receive( is_0, read_fdid ) == 0 ) break;
226        }
227
228        // 5. P0 closes file descriptors
229        close( write_fdid );
230        close( read_fdid );
231
232        printf("\n[chat P0] closed write_fdid & read_fdid\n");
233
234        // 6. P0 deletes fifo
235        unlink( P0P1_FIFO_PATH );
236
237        printf("\n[chat P0] deleted P0P1 fifo\n");
238    }
239    /////////////////////////
240    else        // P1 process
241    {
242        printf("\n[chat P1] starts at cycle %d\n", (unsigned int)start_cycle );
243
244        // 1. P1 creates the P1P0 fifo
245        error = mkfifo( P1P0_FIFO_PATH, 0 );
246
247        if( error )
248        {
249            printf("\n[chat P1 error] cannot create P1P0 fifo\n");
250            exit( 1 );
251        }
252
253        printf("\n[chat P1] P1P0 fifo created\n");
254
255        // 2. P1 open the read_fdid file descriptor
256        write_fdid = open( P1P0_FIFO_PATH,
257                           O_WRONLY, 0 ); 
258
259        if( write_fdid < 0 )
260        {
261            printf("\n[chat P1 error] cannot get write_fdid for P1P0 fifo\n" );
262            exit( 1 );
263        }
264
265        printf("\n[chat P1] got write_fdid = %d\n", write_fdid );
266
267        // 3. P1 try to open the read_fdid file descriptor
268        while( 1 )
269        {
270            read_fdid = open( P0P1_FIFO_PATH,
271                              O_RDONLY, 0 );
272
273            if( read_fdid > 0 ) break;
274        }
275
276        printf("\n[chat P1] got read_fdid = %d\n", read_fdid );
277
278#if DEBUG_MAIN
279display_fd_array( getpid() );
280#endif
281
282        // 4. P1 enter the chat loop
283        while( 1 )
284        {
285            // handle received remote message
286            if( chat_receive( is_0, read_fdid ) == 0 ) break;
287
288            // handle local send message
289            if( chat_send( is_0, write_fdid ) == 0 ) break;
290        }
291
292        // 5. P1 closes file descriptors
293        close( write_fdid );
294        close( read_fdid );
295
296        printf("\n[chat P1] closed write_fdid & read_fdid\n");
297
298        // 6. P1 deletes fifo
299        unlink( P1P0_FIFO_PATH );
300
301        printf("\n[chat P1] deleted P1P0 fifo\n");
302    }
303
304    exit( 0 );
305
306    return 0;
307
308}  // end main()
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