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//========================================================================== // // select.c // // Test select implementation // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): nickg // Contributors: nickg // Date: 2000-05-25 // Purpose: Test select implementation // Description: // // // // //####DESCRIPTIONEND#### // //========================================================================== #include <pkgconf/system.h> #include <pkgconf/isoinfra.h> #ifndef CYGINT_ISO_PTHREAD_IMPL # define NA_MSG "POSIX threads needed to run test" #endif #include <cyg/infra/testcase.h> #ifndef NA_MSG #include <pkgconf/hal.h> #include <pkgconf/kernel.h> #include <pkgconf/io_fileio.h> #ifdef CYGPKG_IO_SERIAL #include <pkgconf/io_serial.h> #endif #define __ECOS 1 // dont like this at all #include <cyg/kernel/ktypes.h> // base kernel types #include <cyg/infra/cyg_trac.h> // tracing macros #include <cyg/infra/cyg_ass.h> // assertion macros #include <unistd.h> #include <fcntl.h> #include <sys/stat.h> #include <errno.h> #include <string.h> #ifdef CYGPKG_NET #include <network.h> #include <arpa/inet.h> #define TEST_NET #endif #ifdef CYGPKG_IO_SERIAL_LOOP #define TEST_DEV #endif #include <pthread.h> #include <signal.h> #include <cyg/infra/diag.h> // HAL polled output //-------------------------------------------------------------------------- #define SHOW_RESULT( _fn, _res ) \ diag_printf("INFO: " #_fn "() returned %d %s\n", _res, _res<0?strerror(errno):""); //-------------------------------------------------------------------------- // Thread stack. char thread1_stack[PTHREAD_STACK_MIN*2]; char thread2_stack[PTHREAD_STACK_MIN*2]; //-------------------------------------------------------------------------- // Local variables // Thread IDs pthread_t thread1; pthread_t thread2; #ifdef TEST_NET struct sockaddr_in sa; #endif //-------------------------------------------------------------------------- // Test buffers // The buffer size here must be less that the size of the serial device // buffers since the serial devices do not currently implement flow // control. #define TEST_BUFSIZE 100 #ifdef TEST_NET static char buf1[TEST_BUFSIZE]; static char buf2[TEST_BUFSIZE]; static char buf3[TEST_BUFSIZE]; #endif #ifdef TEST_DEV static char sbuf1[TEST_BUFSIZE]; static char sbuf2[TEST_BUFSIZE]; static char sbuf3[TEST_BUFSIZE]; #endif //-------------------------------------------------------------------------- void show_fdsets( char *s, int nfd, fd_set *rd, fd_set *wr, fd_set *ex ) { int i; diag_printf("INFO:<%s nfd %d ",s,nfd); if( rd ) { diag_printf("rd: ["); for( i = 0; i < nfd ; i++ ) if( FD_ISSET( i, rd ) ) diag_printf("%d ",i); diag_printf("] "); } if( wr ) { diag_printf("wr: ["); for( i = 0; i < nfd ; i++ ) if( FD_ISSET( i, wr ) ) diag_printf("%d ",i); diag_printf("] "); } if( ex ) { diag_printf("ex: ["); for( i = 0; i < nfd ; i++ ) if( FD_ISSET( i, ex ) ) diag_printf("%d ",i); diag_printf("] "); } diag_printf(">\n"); } //-------------------------------------------------------------------------- void *pthread_entry1( void *arg) { #ifdef TEST_NET int fd = 0, fd2 = -1; struct sockaddr_in accsa; socklen_t accsa_len = sizeof(accsa); int netstate = 0; #endif #ifdef TEST_DEV int ser0; int serstate = 0; #endif #if defined(TEST_DEV) || defined(TEST_NET) int i; ssize_t done; #endif int netdone = 0; int serdone = 0; int err; fd_set rd, wr; CYG_TEST_INFO( "Thread 1 running" ); FD_ZERO( &rd ); FD_ZERO( &wr ); #ifdef TEST_DEV CYG_TEST_INFO( "Thread1: calling open()"); ser0 = open("/dev/ser0", O_RDWR ); if( ser0 < 0 ) SHOW_RESULT( open, ser0 ); CYG_TEST_CHECK( ser0 >= 0, "open(/dev/ser0) returned error"); FD_SET( ser0, &rd ); #else serdone = 1; #endif #ifdef TEST_NET for( i = 0; i < TEST_BUFSIZE; i++ ) buf1[i] = i; CYG_TEST_INFO( "Thread1: calling socket()"); fd = socket( AF_INET, SOCK_STREAM, IPPROTO_TCP ); if( fd < 0 ) SHOW_RESULT( socket, fd ); CYG_TEST_CHECK( fd >= 0, "socket() returned error"); CYG_TEST_INFO( "Thread1: calling bind()"); err = bind( fd, (struct sockaddr *)&sa, sizeof(sa)); if( err < 0 ) SHOW_RESULT( bind, err ); CYG_TEST_CHECK( err == 0, "bind() returned error"); CYG_TEST_INFO( "Thread1: calling listen()"); err = listen( fd, 3); if( err < 0 ) SHOW_RESULT( listen, err ); CYG_TEST_CHECK( err == 0, "listen() returned error"); FD_SET( fd, &rd ); #else netdone = 1; #endif while(!(netdone && serdone)) { fd_set rd_res = rd; fd_set wr_res = wr; CYG_TEST_INFO( "Thread1: calling select()"); show_fdsets( "Thread1 request: ", 8, &rd_res, &wr_res, NULL ); err = select( 8, &rd_res, &wr_res, NULL, NULL ); if( err < 0 ) SHOW_RESULT( select, err ); CYG_TEST_CHECK( err >= 0, "select() returned error"); show_fdsets( "Thread1 result: ", 8, &rd_res, &wr_res, NULL ); #ifdef TEST_NET switch( netstate ) { case 0: CYG_TEST_INFO( "Thread1: netstate 0"); if( FD_ISSET( fd, &rd_res ) ) { CYG_TEST_INFO( "Thread1: calling accept(fd)"); fd2 = accept( fd, (struct sockaddr *)&accsa, &accsa_len ); if( fd2 < 0 ) SHOW_RESULT( accept, fd2 ); CYG_TEST_CHECK( fd2 >= 0, "accept() returned error"); FD_CLR( fd, &rd ); FD_SET( fd2, &wr ); netstate++; } break; case 1: CYG_TEST_INFO( "Thread1: netstate 1"); if( FD_ISSET( fd2, &wr_res ) ) { CYG_TEST_INFO( "Thread1: calling write(fd2)"); done = write( fd2, buf1, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( write, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "write() returned bad size"); FD_CLR( fd2, &wr ); FD_SET( fd2, &rd ); netstate++; } break; case 2: CYG_TEST_INFO( "Thread1: netstate 2"); if( FD_ISSET( fd2, &rd_res ) ) { CYG_TEST_INFO( "Thread1: calling read(fd2)"); done = read( fd2, buf3, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( read, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "read() returned bad size"); for( i = 0; i < TEST_BUFSIZE; i++ ) if( buf1[i] != buf3[i] ) diag_printf("buf1[%d](%02x) != buf3[%d](%02x)\n",i,buf1[i],i,buf3[i]); FD_CLR( fd2, &rd ); netstate++; netdone = 1; CYG_TEST_INFO( "Thread1: netdone"); } break; } #endif #ifdef TEST_DEV switch( serstate ) { case 0: CYG_TEST_INFO( "Thread1: serstate 0"); if( FD_ISSET( ser0, &rd_res ) ) { CYG_TEST_INFO( "Thread1: calling read(ser0)"); done = read( ser0, sbuf2, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( read, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "read() returned bad size"); for( i = 0; i < TEST_BUFSIZE; i++ ) if( sbuf1[i] != sbuf2[i] ) diag_printf("buf1[%d](%02x) != buf2[%d](%02x)\n",i,sbuf1[i],i,sbuf2[i]); FD_CLR( ser0, &rd ); FD_SET( ser0, &wr ); serstate++; } break; case 1: CYG_TEST_INFO( "Thread1: serstate 1"); if( FD_ISSET( ser0, &wr_res ) ) { CYG_TEST_INFO( "Thread1: calling write(ser0)"); done = write( ser0, sbuf2, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( write, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "write() returned bad size"); FD_CLR( ser0, &wr ); serstate++; serdone = 1; CYG_TEST_INFO( "Thread1: serdone"); } else FD_SET( ser0, &wr ); break; } #endif } #ifdef TEST_NET CYG_TEST_INFO( "Thread1: calling close(fd)"); err = close(fd); if( err < 0 ) SHOW_RESULT( close, err ); CYG_TEST_CHECK( err == 0, "close() returned error"); if( fd2 >= 0 ) { CYG_TEST_INFO( "Thread1: calling close(fd2)"); err = close(fd2); if( err < 0 ) SHOW_RESULT( close, err ); CYG_TEST_CHECK( err == 0, "close() returned error"); } #endif #ifdef TEST_DEV CYG_TEST_INFO( "Thread1: calling close(ser0)"); err = close(ser0); if( err < 0 ) SHOW_RESULT( close, err ); CYG_TEST_CHECK( err == 0, "close() returned error"); #endif CYG_TEST_INFO( "Thread1: calling pthread_exit()"); pthread_exit( arg ); } //-------------------------------------------------------------------------- void *pthread_entry2( void *arg) { #ifdef TEST_NET int fd; int netstate = 0; #endif #ifdef TEST_DEV int ser1; int serstate = 0; #endif #if defined(TEST_DEV) || defined(TEST_NET) int i; ssize_t done; #endif int netdone = 0; int serdone = 0; int err; fd_set rd, wr; CYG_TEST_INFO( "Thread 2 running" ); FD_ZERO( &rd ); FD_ZERO( &wr ); #ifdef TEST_NET CYG_TEST_INFO( "Thread2: calling socket()"); fd = socket( AF_INET, SOCK_STREAM, IPPROTO_TCP ); if( fd < 0 ) SHOW_RESULT( socket, fd ); CYG_TEST_CHECK( fd >= 0, "socket() returned error"); CYG_TEST_INFO( "Thread2: calling connect()"); err = connect( fd, (struct sockaddr *)&sa, sizeof(sa)); if( err < 0 ) SHOW_RESULT( connect, err ); CYG_TEST_CHECK( err == 0, "connect() returned error"); FD_SET( fd, &rd ); #else netdone = 1; #endif #ifdef TEST_DEV for( i = 0; i < TEST_BUFSIZE; i++ ) sbuf1[i] = i; CYG_TEST_INFO( "Thread2: calling open(/dev/ser1)"); ser1 = open("/dev/ser1", O_RDWR ); if( ser1 < 0 ) SHOW_RESULT( open, ser1 ); CYG_TEST_CHECK( ser1 >= 0, "open(/dev/ser1) returned error"); CYG_TEST_INFO( "Thread2: calling write(ser1)"); done = write( ser1, sbuf1, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( write, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "write() returned bad size"); FD_SET( ser1, &wr ); #else serdone = 1; #endif while(!(netdone && serdone)) { fd_set rd_res = rd; fd_set wr_res = wr; CYG_TEST_INFO( "Thread2: calling select()"); show_fdsets( "Thread2 request: ", 8, &rd_res, &wr_res, NULL ); err = select( 8, &rd_res, &wr_res, NULL, NULL ); if( err < 0 ) SHOW_RESULT( select, err ); CYG_TEST_CHECK( err >= 0, "select() returned error"); show_fdsets( "Thread2 result: ", 8, &rd_res, &wr_res, NULL ); #ifdef TEST_NET switch( netstate ) { case 0: CYG_TEST_INFO( "Thread2: netstate 0"); if( FD_ISSET( fd, &rd_res ) ) { CYG_TEST_INFO( "Thread2: calling read()"); done = read( fd, buf2, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( read, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "read() returned bad size"); for( i = 0; i < TEST_BUFSIZE; i++ ) if( buf1[i] != buf2[i] ) diag_printf("buf1[%d](%02x) != buf2[%d](%02x)\n",i,buf1[i],i,buf2[i]); netstate++; FD_CLR( fd, &rd ); FD_SET( fd, &wr ); } break; case 1: CYG_TEST_INFO( "Thread2: netstate 1"); if( FD_ISSET( fd, &wr_res ) ) { CYG_TEST_INFO( "Thread2: calling write()"); done = write( fd, buf2, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( write, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "write() returned bad size"); FD_CLR( fd, &wr ); netstate++; netdone = 1; CYG_TEST_INFO( "Thread2: netdone"); } break; } #endif #ifdef TEST_DEV switch( serstate ) { case 0: CYG_TEST_INFO( "Thread2: serstate 0"); if( FD_ISSET( ser1, &wr_res ) ) { FD_CLR( ser1, &wr ); FD_SET( ser1, &rd ); serstate++; } break; case 1: CYG_TEST_INFO( "Thread2: serstate 1"); if( FD_ISSET( ser1, &rd_res ) ) { CYG_TEST_INFO( "Thread2: calling read(ser1)"); done = read( ser1, sbuf3, TEST_BUFSIZE); if( done != TEST_BUFSIZE ) SHOW_RESULT( read, done ); CYG_TEST_CHECK( done == TEST_BUFSIZE, "read() returned bad size"); for( i = 0; i < TEST_BUFSIZE; i++ ) if( sbuf1[i] != sbuf3[i] ) diag_printf("sbuf1[%d](%02x) != sbuf3[%d](%02x)\n",i,sbuf1[i],i,sbuf3[i]); FD_CLR( ser1, &rd ); serstate++; serdone = 1; CYG_TEST_INFO( "Thread2: serdone"); } break; } #endif } #ifdef TEST_NET CYG_TEST_INFO( "Thread2: calling close(fd)"); err = close(fd); if( err < 0 ) SHOW_RESULT( close, err ); CYG_TEST_CHECK( err == 0, "close() returned error"); #endif #ifdef TEST_DEV CYG_TEST_INFO( "Thread2: calling close(ser1)"); err = close(ser1); if( err < 0 ) SHOW_RESULT( close, err ); CYG_TEST_CHECK( err == 0, "close(ser1) returned error"); #endif CYG_TEST_INFO( "Thread2: calling pthread_exit()"); pthread_exit( arg ); } //========================================================================== // main int main( int argc, char **argv ) { void *retval; pthread_attr_t attr; struct sched_param schedparam; CYG_TEST_INIT(); #ifdef TEST_NET sa.sin_family = AF_INET; sa.sin_len = sizeof(sa); inet_aton("127.0.0.1", &sa.sin_addr); sa.sin_port = htons(1234); init_all_network_interfaces(); #endif // Create test threads { pthread_attr_init( &attr ); schedparam.sched_priority = 10; pthread_attr_setinheritsched( &attr, PTHREAD_EXPLICIT_SCHED ); pthread_attr_setschedpolicy( &attr, SCHED_RR ); pthread_attr_setschedparam( &attr, &schedparam ); pthread_attr_setstackaddr( &attr, (void *)&thread1_stack[sizeof(thread1_stack)] ); pthread_attr_setstacksize( &attr, sizeof(thread1_stack) ); pthread_create( &thread1, &attr, pthread_entry1, (void *)0x12345671); } { pthread_attr_init( &attr ); schedparam.sched_priority = 5; pthread_attr_setinheritsched( &attr, PTHREAD_EXPLICIT_SCHED ); pthread_attr_setschedpolicy( &attr, SCHED_RR ); pthread_attr_setschedparam( &attr, &schedparam ); pthread_attr_setstackaddr( &attr, (void *)&thread2_stack[sizeof(thread2_stack)] ); pthread_attr_setstacksize( &attr, sizeof(thread2_stack) ); pthread_create( &thread2, &attr, pthread_entry2, (void *)0x12345672); } // Now join with thread1 CYG_TEST_INFO( "Main: calling pthread_join(thread1)"); pthread_join( thread1, &retval ); // And thread 2 CYG_TEST_INFO( "Main: calling pthread_join(thread2)"); pthread_join( thread2, &retval ); CYG_TEST_PASS_FINISH("select"); } #else //========================================================================== // main void cyg_start(void) { CYG_TEST_INIT(); CYG_TEST_NA(NA_MSG); } #endif // ------------------------------------------------------------------------- // EOF socket.c