Example #1
0
int main(int argc, char * argv[]) {
    int i, retval, lastInversion=0, checkpointExists=0, matrixSize=0;
    double fd;
    char input_path[512], output_path[512], chkpt_path[512], buf[256];
    MFILE out;
    FILE* state, *infile;

    generate_random_input_file(MATRIX_SIZE); //call this if you don't want to
                                             //construct the input file manually
    
	for (i=0; i<argc; i++) {
        if (!strcmp(argv[i], "-early_exit")) early_exit = true;
        if (!strcmp(argv[i], "-early_crash")) early_crash = true;
        if (!strcmp(argv[i], "-early_sleep")) early_sleep = true;
        if (!strcmp(argv[i], "-run_slow")) run_slow = true;
        if (!strcmp(argv[i], "-cpu_time")) {
            cpu_time = atof(argv[++i]);
        }
    }
	
    retval = boinc_init();
    if (retval) {
        fprintf(stderr,
            "%s boinc_init returned %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(retval);
    }
    
    // open the input file (resolve logical name first)
    //
    boinc_resolve_filename(INPUT_FILENAME, input_path, sizeof(input_path));
    infile = boinc_fopen(input_path, "r");
    if (!infile) {
        fprintf(stderr,
            "%s Couldn't find input file in boinc\\win_build, resolved name %s.\n",
            boinc_msg_prefix(buf, sizeof(buf)), input_path
        );
        getchar();
        exit(-1);
    }
    
    boinc_resolve_filename(OUTPUT_FILENAME, output_path, sizeof(output_path));
    
    // See if there's a valid checkpoint file.
    // If so retrieve the current matrix and inversion number
    //
    boinc_resolve_filename(CHECKPOINT_FILE, chkpt_path, sizeof(chkpt_path));
    state = boinc_fopen(chkpt_path, "r");
    if (state) {
        printf("Checkpoint file is detected. Read from checkpoint file ... \n");
        checkpointExists=fscanf(state, "%d", &lastInversion); 
        if (checkpointExists == 1) {
            isStateFileInUse=true;
            printf("Last inversion # is : %d\n",lastInversion);	
            fscanf(state,"%d",&matrixSize);
            width=height=matrixSize;
            printf("Initialize host ....\n");
            initialize_host(state);
        }
        fclose(state);
    } else {
        printf("There's no valid checkpoint file!\n");
    }

    retval = out.open(output_path, "wb");

    if (retval) {
        fprintf(stderr,
            "%s APP: matrix_inversion output open failed:\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
        fprintf(stderr,
            "%s resolved name %s, retval %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), output_path, retval
        );
        perror("open");
        exit(1);
    }

#ifdef APP_GRAPHICS
    // create shared mem segment for graphics, and arrange to update it
    //
    shmem = (UC_SHMEM*)boinc_graphics_make_shmem("matrix_inversion", sizeof(UC_SHMEM));
    if (!shmem) {
        fprintf(stderr,
            "%s failed to create shared mem segment\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
    }
    update_shmem();
    boinc_register_timer_callback(update_shmem);
#endif

    if (checkpointExists != 1) { //checkpoint file is not found.
        matrixSize=get_matrix_size(infile);
        printf("Matrix Size: width = height = %d\n",matrixSize);
        width=height=matrixSize;
        // Initialize Host application
        printf("Initialize host ....\n");
        if (initialize_host(infile)==1) {
            return 1;	
        }
        out.printf("\n----------------- Before being inversed ----------------\n\n");
        printf("Computation is running ... Inverse the matrix %d times. Start at inversion #1\n",
               NUM_ITERATIONS);
    } else {
        out.printf("\n----------------- Last checkpointed inversion #%d ----------------\n\n",
                   lastInversion);
        printf("Computation is resumed ... Inverse the matrix %d more times. Start at inversion #%d\n",
               NUM_ITERATIONS-lastInversion,lastInversion+1);
    }

    // Initialize OpenCL resources
    if (initialize_cl()==1) {
        return 1;
    }

    print_to_file(&out,input,matrixSize);

    for (int i=lastInversion+1;i<=NUM_ITERATIONS;++i) {
        //the invert function will trigger kernel calls.
        invert(input,output,matrixSize);
        printf("Finish inversion #%d\n",i);
        for (int j=0;j<matrixSize*matrixSize;++j) {
            input[j]=output[j]; //change the input for the next iteration
        }
        if (run_slow) {
            boinc_sleep(1.);
        }

        if (early_exit && i>30) {
            exit(-10);
        }

        if (early_crash && i>30) {
            boinc_crash();
        }

        if (early_sleep && i>30) {
            g_sleep = true;
            while (1) boinc_sleep(1);
        }
		
        if (boinc_time_to_checkpoint()) {
            printf("Perform checkpointing at inversion # %d\n",i);
            //we'll need to write the current matrix to the state file.
            retval = do_checkpoint(out, i, input, matrixSize); 
            if (retval) {
                fprintf(stderr,
                    "%s APP: matrix_inversion checkpoint failed %d\n",
                    boinc_msg_prefix(buf, sizeof(buf)), retval
                );
                exit(retval);
            }
            boinc_checkpoint_completed();
        }
        fd = i/NUM_ITERATIONS;
        if (cpu_time) fd /= 2;
        boinc_fraction_done(fd);
    }

    out.printf("\n\n----------------- Final inversion #%d ----------------\n\n",
               NUM_ITERATIONS);
    print_to_file(&out,output,matrixSize);

    retval = out.flush(); //force the output file to be closed.
    if (retval) {
        fprintf(stderr,
            "%s APP: matrix_inversion flush failed %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(1);
    }

    // Releases OpenCL resources 
    if (cleanup_cl()==1) {
        printf("Error!");
        return 1;
    }

    // Release host resources
    cleanup_host();

    // burn up some CPU time if needed
    //
    if (cpu_time) {
        printf("\nBurning up some CPU time ... \n");
        double start = dtime();
        for (int i=0; ; i++) {
            double e = dtime()-start;
            if (e > cpu_time) break;
            fd = .5 + .5*(e/cpu_time);
            boinc_fraction_done(fd);

            if (boinc_time_to_checkpoint()) {
                retval = do_checkpoint(out, NUM_ITERATIONS, input, matrixSize);
                if (retval) {
                    fprintf(stderr,
                        "%s APP: maxtrix_inversion checkpoint failed %d\n",
                        boinc_msg_prefix(buf, sizeof(buf)), retval
                    );
                    exit(1);
                }
                boinc_checkpoint_completed();
            }
            comp_result = do_a_giga_flop(i);
        }
    }
    boinc_fraction_done(1);

#ifdef APP_GRAPHICS
    update_shmem();
#endif

    printf("\nDone! Please press ENTER to exit. ");
    getchar();
    boinc_finish(0);
}
int main(int argc, char **argv) {
    int i;
    int c, nchars = 0, retval, n;
    double fsize, fd;
    char input_path[512], output_path[512], chkpt_path[512], buf[256];
    MFILE out;
    FILE* state, *infile;

    for (i=0; i<argc; i++) {
        if (!strcmp(argv[i], "-early_exit")) early_exit = true;
        if (!strcmp(argv[i], "-early_crash")) early_crash = true;
        if (!strcmp(argv[i], "-early_sleep")) early_sleep = true;
        if (!strcmp(argv[i], "-run_slow")) run_slow = true;
        if (!strcmp(argv[i], "-cpu_time")) {
            cpu_time = atof(argv[++i]);
        }
    }

    retval = boinc_init();
    if (retval) {
        fprintf(stderr, "%s boinc_init returned %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(retval);
    }

    // open the input file (resolve logical name first)
    //
    boinc_resolve_filename(INPUT_FILENAME, input_path, sizeof(input_path));
    infile = boinc_fopen(input_path, "r");
    if (!infile) {
        fprintf(stderr,
            "%s Couldn't find input file, resolved name %s.\n",
            boinc_msg_prefix(buf, sizeof(buf)), input_path
        );
        exit(-1);
    }

    // get size of input file (used to compute fraction done)
    //
    file_size(input_path, fsize);

    boinc_resolve_filename(OUTPUT_FILENAME, output_path, sizeof(output_path));

    // See if there's a valid checkpoint file.
    // If so seek input file and truncate output file
    //
    boinc_resolve_filename(CHECKPOINT_FILE, chkpt_path, sizeof(chkpt_path));
    state = boinc_fopen(chkpt_path, "r");
    if (state) {
        n = fscanf(state, "%d", &nchars);
        fclose(state);
    }
    if (state && n==1) {
        fseek(infile, nchars, SEEK_SET);
        boinc_truncate(output_path, nchars);
        retval = out.open(output_path, "ab");
    } else {
        retval = out.open(output_path, "wb");
    }
    if (retval) {
        fprintf(stderr, "%s APP: upper_case output open failed:\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
        fprintf(stderr, "%s resolved name %s, retval %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), output_path, retval
        );
        perror("open");
        exit(1);
    }

#ifdef APP_GRAPHICS
    // create shared mem segment for graphics, and arrange to update it
    //
    shmem = (UC_SHMEM*)boinc_graphics_make_shmem("uppercase", sizeof(UC_SHMEM));
    if (!shmem) {
        fprintf(stderr, "%s failed to create shared mem segment\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
    }
    update_shmem();
    boinc_register_timer_callback(update_shmem);
#endif

    // main loop - read characters, convert to UC, write
    //
    for (i=0; ; i++) {
        c = fgetc(infile);

        if (c == EOF) break;
        c = toupper(c);
        out._putchar(c);
        nchars++;
        if (run_slow) {
            boinc_sleep(1.);
        }

        if (early_exit && i>30) {
            exit(-10);
        }

        if (early_crash && i>30) {
            boinc_crash();
        }
        if (early_sleep && i>30) {
            g_sleep = true;
            while (1) boinc_sleep(1);
        }

        if (boinc_time_to_checkpoint()) {
            retval = do_checkpoint(out, nchars);
            if (retval) {
                fprintf(stderr, "%s APP: upper_case checkpoint failed %d\n",
                    boinc_msg_prefix(buf, sizeof(buf)), retval
                );
                exit(retval);
            }
            boinc_checkpoint_completed();
        }

        fd = nchars/fsize;
        if (cpu_time) fd /= 2;
        boinc_fraction_done(fd);
    }

    retval = out.flush();
    if (retval) {
        fprintf(stderr, "%s APP: upper_case flush failed %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(1);
    }

    // burn up some CPU time if needed
    //
    if (cpu_time) {
        double start = dtime();
        for (i=0; ; i++) {
            double e = dtime()-start;
            if (e > cpu_time) break;
            fd = .5 + .5*(e/cpu_time);
            boinc_fraction_done(fd);

            if (boinc_time_to_checkpoint()) {
                retval = do_checkpoint(out, nchars);
                if (retval) {
                    fprintf(stderr, "%s APP: upper_case checkpoint failed %d\n",
                        boinc_msg_prefix(buf, sizeof(buf)), retval
                    );
                    exit(1);
                }
                boinc_checkpoint_completed();
            }
            comp_result = do_a_giga_flop(i);
        }
    }
    boinc_fraction_done(1);
#ifdef APP_GRAPHICS
    update_shmem();
#endif
    boinc_finish(0);
}
Example #3
0
File: uc2.cpp Project: Ashod/Boinc
int main(int argc, char **argv) {
    int i;
    int c, nchars = 0, retval, n;
    double fsize, fd;
    char input_path[512], output_path[512], chkpt_path[512], buf[256];
    MFILE out;
    FILE* state, *infile;

    for (i=0; i<argc; i++) {
        if (strstr(argv[i], "early_exit")) early_exit = true;
        if (strstr(argv[i], "early_crash")) early_crash = true;
        if (strstr(argv[i], "early_sleep")) early_sleep = true;
        if (strstr(argv[i], "run_slow")) run_slow = true;
        if (strstr(argv[i], "critical_section")) critical_section = true;
        if (strstr(argv[i], "network_usage")) network_usage = true;
        if (strstr(argv[i], "cpu_time")) {
            cpu_time = atof(argv[++i]);
        }
        if (strstr(argv[i], "trickle_up")) trickle_up = true;
        if (strstr(argv[i], "trickle_down")) trickle_down = true;
    }
    retval = boinc_init();
    if (retval) {
        fprintf(stderr, "%s boinc_init returned %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(retval);
    }

    fprintf(stderr, "%s app started; CPU time %f, flags:%s%s%s%s%s%s%s\n",
        boinc_msg_prefix(buf, sizeof(buf)),
        cpu_time,
        early_exit?" early_exit":"",
        early_crash?" early_crash":"",
        early_sleep?" early_sleep":"",
        run_slow?" run_slow":"",
        critical_section?" critical_section":"",
        trickle_up?" trickle_up":"",
        trickle_down?" trickle_down":""
    );

    // open the input file (resolve logical name first)
    //
    boinc_resolve_filename(INPUT_FILENAME, input_path, sizeof(input_path));
    infile = boinc_fopen(input_path, "r");
    if (!infile) {
        fprintf(stderr,
            "%s Couldn't find input file, resolved name %s.\n",
            boinc_msg_prefix(buf, sizeof(buf)), input_path
        );
        exit(-1);
    }

    // get size of input file (used to compute fraction done)
    //
    file_size(input_path, fsize);

    boinc_resolve_filename(OUTPUT_FILENAME, output_path, sizeof(output_path));

    // See if there's a valid checkpoint file.
    // If so seek input file and truncate output file
    //
    boinc_resolve_filename(CHECKPOINT_FILE, chkpt_path, sizeof(chkpt_path));
    state = boinc_fopen(chkpt_path, "r");
    if (state) {
        n = fscanf(state, "%d", &nchars);
        fclose(state);
    }
    if (state && n==1) {
        fseek(infile, nchars, SEEK_SET);
        boinc_truncate(output_path, nchars);
        retval = out.open(output_path, "ab");
    } else {
        retval = out.open(output_path, "wb");
    }
    if (retval) {
        fprintf(stderr, "%s APP: upper_case output open failed:\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
        fprintf(stderr, "%s resolved name %s, retval %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), output_path, retval
        );
        perror("open");
        exit(1);
    }

#ifdef APP_GRAPHICS
    // create shared mem segment for graphics, and arrange to update it
    //
    shmem = (UC_SHMEM*)boinc_graphics_make_shmem("uppercase", sizeof(UC_SHMEM));
    if (!shmem) {
        fprintf(stderr, "%s failed to create shared mem segment\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
    }
    update_shmem();
    boinc_register_timer_callback(update_shmem);
#endif

    if (network_usage) {
        boinc_network_usage(5., 17.);
    }

    // main loop - read characters, convert to UC, write
    //
    for (i=0; ; i++) {
        c = fgetc(infile);
        if (c == EOF) break;

        c = toupper(c);
        out._putchar(c);
        nchars++;

        if (run_slow) {
            boinc_sleep(1.);
        }

        if (early_exit && i>30) {
            exit(-10);
        }

        if (early_crash && i>30) {
            boinc_crash();
        }
        if (early_sleep && i>30) {
            boinc_disable_timer_thread = true;
            while (1) boinc_sleep(1);
        }

        if (boinc_time_to_checkpoint()) {
            retval = do_checkpoint(out, nchars);
            if (retval) {
                fprintf(stderr, "%s APP: upper_case checkpoint failed %d\n",
                    boinc_msg_prefix(buf, sizeof(buf)), retval
                );
                exit(retval);
            }
            boinc_checkpoint_completed();
        }

		if (report_fraction_done) {
			fd = nchars/fsize;
			if (cpu_time) fd /= 2;
			boinc_fraction_done(fd);
		}
    }

    retval = out.flush();
    if (retval) {
        fprintf(stderr, "%s APP: upper_case flush failed %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(1);
    }

    if (trickle_up) {
        boinc_send_trickle_up(
            const_cast<char*>("example_app"),
            const_cast<char*>("sample trickle message")
        );
    }

    if (trickle_down) {
        boinc_sleep(10);
        retval = boinc_receive_trickle_down(buf, sizeof(buf));
        if (!retval) {
            fprintf(stderr, "Got trickle-down message: %s\n", buf);
        }
    }

    // burn up some CPU time if needed
    //
    if (cpu_time) {
        double start = dtime();
        for (i=0; ; i++) {
            double e = dtime()-start;
            if (e > cpu_time) break;
			if (report_fraction_done) {
				fd = .5 + .5*(e/cpu_time);
				boinc_fraction_done(fd);
			}

            if (boinc_time_to_checkpoint()) {
                retval = do_checkpoint(out, nchars);
                if (retval) {
                    fprintf(stderr, "%s APP: upper_case checkpoint failed %d\n",
                        boinc_msg_prefix(buf, sizeof(buf)), retval
                    );
                    exit(1);
                }
                boinc_checkpoint_completed();
            }
            if (critical_section) {
                boinc_begin_critical_section();
            }
            comp_result = do_some_computing(i);
            if (critical_section) {
                boinc_end_critical_section();
            }
        }
    }
    boinc_fraction_done(1);
#ifdef APP_GRAPHICS
    update_shmem();
#endif
    boinc_finish(0);
}
Example #4
0
// Write the client_state.xml file
//
int CLIENT_STATE::write_state_file() {
    MFILE mf;
    int retval, ret1, ret2, attempt;
#ifdef _WIN32
    char win_error_msg[4096];
#endif

    for (attempt=1; attempt<=MAX_STATE_FILE_WRITE_ATTEMPTS; attempt++) {
        if (attempt > 1) boinc_sleep(1.0);
            
        if (log_flags.statefile_debug) {
            msg_printf(0, MSG_INFO,
                "[statefile] Writing state file"
            );
        }
#ifdef _WIN32
        retval = mf.open(STATE_FILE_NEXT, "wc");
#else
        retval = mf.open(STATE_FILE_NEXT, "w");
#endif
        if (retval) {
            if ((attempt == MAX_STATE_FILE_WRITE_ATTEMPTS) || log_flags.statefile_debug) {
                msg_printf(0, MSG_INTERNAL_ERROR,
                    "Can't open %s: %s",
                    STATE_FILE_NEXT, boincerror(retval)
                );
            }
            if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
            return ERR_FOPEN;
        }
        MIOFILE miof;
        miof.init_mfile(&mf);
        ret1 = write_state(miof);
        ret2 = mf.close();
        if (ret1) {
            if ((attempt == MAX_STATE_FILE_WRITE_ATTEMPTS) || log_flags.statefile_debug) {
                msg_printf(NULL, MSG_INTERNAL_ERROR,
                    "Couldn't write state file: %s", boincerror(retval)
                );
            }
            if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
            return ret1;
        }
        if (ret2) {
            if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
            return ret2;
        }

        // only attempt to rename the current state file if it exists.
        //
        if (boinc_file_exists(STATE_FILE_NAME)) {
            if (boinc_file_exists(STATE_FILE_PREV)) {
                retval = boinc_delete_file(STATE_FILE_PREV);
                if (retval) {
                    if ((attempt == MAX_STATE_FILE_WRITE_ATTEMPTS) || log_flags.statefile_debug) {
#ifdef _WIN32
                        msg_printf(0, MSG_INFO,
                            "Can't delete previous state file; %s",
                            windows_format_error_string(GetLastError(), win_error_msg, sizeof(win_error_msg))
                        );
#else
                        msg_printf(0, MSG_INFO,
                            "Can't delete previous state file: %s",
                            strerror(errno)
                        );
#endif
                    }
                    if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
                }
            }
            
            retval = boinc_rename(STATE_FILE_NAME, STATE_FILE_PREV);
            if (retval) {
                if ((attempt == MAX_STATE_FILE_WRITE_ATTEMPTS) || log_flags.statefile_debug) {
#ifdef _WIN32
                    msg_printf(0, MSG_INFO,
                        "Can't rename current state file to previous state file; %s",
                        windows_format_error_string(GetLastError(), win_error_msg, sizeof(win_error_msg))
                    );
#else
                    msg_printf(0, MSG_INFO, 
                        "Can't rename current state file to previous state file: %s", 
                        strerror(errno)
                    );
#endif
                }
                if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
            }
        }

        retval = boinc_rename(STATE_FILE_NEXT, STATE_FILE_NAME);
        if (log_flags.statefile_debug) {
            msg_printf(0, MSG_INFO,
                "[statefile] Done writing state file"
            );
        }
        if (!retval) break;     // Success!
        
        if ((attempt == MAX_STATE_FILE_WRITE_ATTEMPTS) || log_flags.statefile_debug) {
#ifdef _WIN32
            msg_printf(0, MSG_INFO,
                "rename error: %s",
                windows_format_error_string(GetLastError(), win_error_msg, sizeof(win_error_msg))
            );
#elif defined (__APPLE__)
            if (log_flags.statefile_debug) {
                system("ls -al /Library/Application\\ Support/BOINC\\ Data/client*.*");
            }
#endif
        }
        if (attempt < MAX_STATE_FILE_WRITE_ATTEMPTS) continue;
        return ERR_RENAME;
    }
    return 0;
}
Example #5
0
int main(int argc, char **argv) {
    int i,p,q,pq;
    int c, nchars = 0, retval, n;
    double fsize, fd;
    char input_path[512], output_path[512], chkpt_path[512], buf[256],sentence[1025];
    MFILE out;
    FILE* state, *infile;

    for (i=0; i<argc; i++) {
        if (!strcmp(argv[i], "-early_exit")) early_exit = true;
        if (!strcmp(argv[i], "-early_crash")) early_crash = true;
        if (!strcmp(argv[i], "-early_sleep")) early_sleep = true;
        if (!strcmp(argv[i], "-run_slow")) run_slow = true;
        if (!strcmp(argv[i], "-cpu_time")) {
            cpu_time = atof(argv[++i]);
        }
    }

    retval = boinc_init();
    if (retval) {
        fprintf(stderr, "%s boinc_init returned %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(retval);
    }

    // open the input file (resolve logical name first)
    //
    boinc_resolve_filename(INPUT_FILENAME, input_path, sizeof(input_path));
    infile = boinc_fopen(input_path, "r");
    if (!infile) {
        fprintf(stderr,
            "%s Couldn't find input file, resolved name %s.\n",
            boinc_msg_prefix(buf, sizeof(buf)), input_path
        );
        exit(-1);
    }

    // get size of input file (used to compute fraction done)
    //
    file_size(input_path, fsize);

    boinc_resolve_filename(OUTPUT_FILENAME, output_path, sizeof(output_path));

    // See if there's a valid checkpoint file.
    // If so seek input file and truncate output file
    //
    boinc_resolve_filename(CHECKPOINT_FILE, chkpt_path, sizeof(chkpt_path));
    state = boinc_fopen(chkpt_path, "r");
    if (state) {
        n = fscanf(state, "%d", &nchars);
        fclose(state);
    }
    if (state && n==1) {
        fseek(infile, nchars, SEEK_SET);
        boinc_truncate(output_path, nchars);
        retval = out.open(output_path, "ab");
    } else {
        retval = out.open(output_path, "wb");
    }
    if (retval) {
        fprintf(stderr, "%s APP: encrypt output open failed:\n",
            boinc_msg_prefix(buf, sizeof(buf))
        );
        fprintf(stderr, "%s resolved name %s, retval %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), output_path, retval
        );
        perror("open");
        exit(1);
    }

for(i=0; ;i++){
c = fgetc(infile);
if(c==EOF) break;
sentence[i]=c;
}
sentence[i]='\0';
p=43;
q=3;
pq=p*q;
//e=19 d=31
strcpy(sentence,rsaencrypt(sentence,19,pq));

    for (i=0;sentence[i]!='\0'; i++) {
	c=sentence[i];
        out._putchar(c);
        nchars++;
        if (run_slow) {
            boinc_sleep(1.);
        }

        if (early_exit && i>30) {
            exit(-10);
        }

        if (early_crash && i>30) {
            boinc_crash();
        }
        if (early_sleep && i>30) {
            boinc_disable_timer_thread = true;
            while (1) boinc_sleep(1);
        }

        if (boinc_time_to_checkpoint()) {
            retval = do_checkpoint(out, nchars);
            if (retval) {
                fprintf(stderr, "%s APP: encrypt checkpoint failed %d\n",
                    boinc_msg_prefix(buf, sizeof(buf)), retval
                );
                exit(retval);
            }
            boinc_checkpoint_completed();
        }

        fd = nchars/fsize;
        if (cpu_time) fd /= 2;
        boinc_fraction_done(fd);
    }

    retval = out.flush();
    if (retval) {
        fprintf(stderr, "%s APP: encrypt flush failed %d\n",
            boinc_msg_prefix(buf, sizeof(buf)), retval
        );
        exit(1);
    }

    boinc_fraction_done(1);
    boinc_finish(0);
}