OpenXM/src/ox_toolkit/oxf.c - diff

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Diff for /OpenXM/src/ox_toolkit/oxf.c between version 1.15 and 1.20

version 1.15, 2003/03/23 20:17:35

version 1.20, 2005/03/03 06:21:22

Line 1

/* -*- mode: C; coding: euc-japan -*- */

/* $OpenXM: OpenXM/src/ox_toolkit/oxf.c,v 1.14 2003/01/13 12:03:12 ohara Exp $ */

/* $OpenXM: OpenXM/src/ox_toolkit/oxf.c,v 1.19 2005/03/03 04:40:51 ohara Exp $ */

This module includes functions for sending/receiveng CMO's.

Line 15

#include <sys/file.h>

#include <sys/param.h>

#include <time.h>

#include <limits.h>

#if defined(__sun__)

#include <netdb.h>

Line 22

Line 23

#include <netinet/in.h>

#endif

#if defined(__sun__)

#include <synch.h>

#else

#include <inttypes.h>

#endif

#include "mysocket.h"

#include "ox_toolkit.h"

Line 32 static int send_int32_nbo(OXFILE *oxfp, int int32);

Line 39 static int send_int32_nbo(OXFILE *oxfp, int int32);

static int receive_int32_lbo(OXFILE *oxfp);

static int receive_int32_nbo(OXFILE *oxfp);

static int send_int64_nbo_le(OXFILE *oxfp, double int64);

static int send_int64_lbo(OXFILE *oxfp, double int64);

static double receive_int64_nbo_le(OXFILE *oxfp);

static double receive_int64_lbo(OXFILE *oxfp);

static void pipe_send_info(int fd, char *hostname, int port, char *password);

/* translating double of little endian byte order to one of big endian. */

double htonll_le(double n)

{

int i;

double r;

char *sp = (char *)&n, *dp = (char *)&r + sizeof(double)-1;

for(i=0; i<sizeof(double); i++) {

*dp-- = *sp++;

}

return r;

}

/* enable write buffering */

int oxf_setbuffer(OXFILE *oxfp, char *buf, int size)

{

if (buf == NULL && size > 0) {

buf = MALLOC(size);

}

if (oxfp->wbuf != NULL) {

oxf_flush(oxfp);

}

oxfp->wbuf = buf;

oxfp->wbuf_size = size;

oxfp->wbuf_count = 0;

return 0;

}

int oxf_read(void *buffer, size_t size, size_t num, OXFILE *oxfp)

{

int n = read(oxfp->fd, buffer, size*num);

Line 43 int oxf_read(void *buffer, size_t size, size_t num, OX

Line 84 int oxf_read(void *buffer, size_t size, size_t num, OX

int oxf_write(void *buffer, size_t size, size_t num, OXFILE *oxfp)

{

return write(oxfp->fd, buffer, size*num);

size_t sz = size*num;

if (oxfp->wbuf == NULL) { /* no buffering */

return write(oxfp->fd, buffer, sz);

}

if ((oxfp->wbuf_count + sz) >= oxfp->wbuf_size) {

oxf_flush(oxfp);

return write(oxfp->fd, buffer, sz);

}

memcpy(oxfp->wbuf + oxfp->wbuf_count, buffer, sz);

oxfp->wbuf_count += sz;

return sz;

}

/* sending an object of int64 type with Network Byte Order. */

static int send_int64_nbo_le(OXFILE *oxfp, double int64)

{

int64 = htonll_le(int64);

return oxf_write(&int64, sizeof(double), 1, oxfp);

}

/* sending an object of int64 type with Local Byte Order. */

static int send_int64_lbo(OXFILE *oxfp, double int64)

{

return oxf_write(&int64, sizeof(double), 1, oxfp);

}

/* receiving an object of int64 type with Network Byte Order. */

static double receive_int64_nbo_le(OXFILE *oxfp)

{

int tag;

oxf_read(&tag, sizeof(double), 1, oxfp);

return htonll_le(tag);

}

/* receiving an object of int64 type with Local Byte Order. */

static double receive_int64_lbo(OXFILE *oxfp)

{

int tag;

oxf_read(&tag, sizeof(double), 1, oxfp);

return tag;

}

/* sending an object of int32 type with Network Byte Order.

(not equal to cmo_int32 type) */

static int send_int32_nbo(OXFILE *oxfp, int int32)

Line 86 static int receive_int32_lbo(OXFILE *oxfp)

Line 166 static int receive_int32_lbo(OXFILE *oxfp)

OXFILE *oxf_open(int fd)

{

OXFILE *oxfp = (OXFILE *)malloc(sizeof(OXFILE));

OXFILE *oxfp = (OXFILE *)MALLOC(sizeof(OXFILE));

oxfp = (OXFILE *)malloc(sizeof(OXFILE));

oxfp = (OXFILE *)MALLOC(sizeof(OXFILE));

oxfp->fd = fd;

oxfp->send_int32 = send_int32_nbo;

oxfp->receive_int32 = receive_int32_nbo;

Line 95 OXFILE *oxf_open(int fd)

Line 175 OXFILE *oxf_open(int fd)

oxfp->control = NULL;

oxfp->error = 0;

oxfp->mathcap = NULL;

oxfp->wbuf = NULL;

oxfp->wbuf_size = 0;

oxfp->wbuf_count = 0;

oxfp->send_double = send_int64_lbo;

oxfp->receive_double = receive_int64_lbo;

return oxfp;

/* oxfp->fp = fdopen(fd, "a+"); */

/* return (oxfp->fp != NULL)? oxfp: NULL; */

Line 142 void oxf_determine_byteorder_server(OXFILE *oxfp)

Line 227 void oxf_determine_byteorder_server(OXFILE *oxfp)

void oxf_flush(OXFILE *oxfp)

{

/* fflush(oxfp->fp); */

if (oxfp->wbuf != NULL) {

write(oxfp->fd, oxfp->wbuf, oxfp->wbuf_count);

oxfp->wbuf_count = 0;

}

void oxf_close(OXFILE *oxfp)

{

oxf_flush(oxfp);

close(oxfp->fd);

/* fclose(oxfp->fp); */

}

#define OXF_SETOPT_NBO 0

Line 156 void oxf_close(OXFILE *oxfp)

Line 244 void oxf_close(OXFILE *oxfp)

void oxf_setopt(OXFILE *oxfp, int mode)

{

if (mode == OXF_SETOPT_LBO) {

int m = 1;

oxfp->send_int32 = send_int32_lbo;

if (mode == OXF_SETOPT_NBO && *(char *)&m) {

oxfp->receive_int32 = receive_int32_lbo;

/* Little endian architecture. */

}else if (mode == OXF_SETOPT_NBO) {

oxfp->send_int32 = send_int32_nbo;

oxfp->receive_int32 = receive_int32_nbo;

oxfp->send_double = send_int64_nbo_le;

oxfp->receive_double = receive_int64_nbo_le;

}else {

oxfp->send_int32 = send_int32_lbo;

oxfp->receive_int32 = receive_int32_lbo;

oxfp->send_double = send_int64_lbo;

oxfp->receive_double = receive_int64_lbo;

}

int oxf_listen(short *portp)

int oxf_listen(int *portp)

{

char localhost[MAXHOSTNAMELEN];

if (gethostname(localhost, MAXHOSTNAMELEN)==0) {

Line 208 char *generate_otp()

Line 302 char *generate_otp()

int oxf_confirm_client(OXFILE *oxfp, char *passwd)

{

int len = strlen(passwd)+1;

char *buf = alloca(len);

char *buf = ALLOCA(len);

oxf_read(buf, 1, len, oxfp);

return !strcmp(passwd, buf);

Line 244 char *which(char *exe, const char *env)

Line 338 char *which(char *exe, const char *env)

char *tok;

char *path;

char delim[] = ":";

char *e = alloca(strlen(env)+1);

char *e = ALLOCA(strlen(env)+1);

strcpy(e, env);

tok = strtok(e, delim);

while (tok != NULL) {

path = malloc(strlen(tok)+strlen(exe)+2);

path = MALLOC(strlen(tok)+strlen(exe)+2);

sprintf(path, "%s/%s", tok, exe);

if (access(path, X_OK&R_OK) == 0) {

return path;

}

free(path);

FREE(path);

tok = strtok(NULL, delim);

}

return NULL;

}

/* Remarks: ssh determines remote host by his name, i.e. by arg[0]. */

int oxc_start(char *remote_host, short port, char *passwd)

int oxc_start(char *remote_host, int port, char *passwd)

{

char localhost[MAXHOSTNAMELEN];

char ports[128];

Line 282 int oxc_start(char *remote_host, short port, char *pas

Line 376 int oxc_start(char *remote_host, short port, char *pas

int oxc_start_with_pipe(char *remote_host, int port, char *passwd)

{

char localhost[MAXHOSTNAMELEN];

char ports[128];

int pid = 0;

char *cmd = "oxc";

int pipefd[2];

Line 318 static char *pipe_read_string()

Line 411 static char *pipe_read_string()

char *s;

read(0, &len, sizeof(int));

len = ntohl(len)+1;

s = malloc(len);

s = MALLOC(len);

read(0, s, len);

return s;

}

Line 332 void pipe_send_info(int fd, char *hostname, int port,

Line 425 void pipe_send_info(int fd, char *hostname, int port,

pipe_send_string(fd, password);

}

void pipe_read_info(char **hostname, int *port, char **password)

int pipe_read_info(char **hostname, int *port, char **password)

{

if (read(0, port, sizeof(int)) > 0) {

*port = ntohl(*port);

Line 346 void pipe_read_info(char **hostname, int *port, char *

Line 439 void pipe_read_info(char **hostname, int *port, char *

/* Example: oxf_execute_cmd(oxfp, "ox_sm1"); */

OXFILE *oxf_execute_cmd(OXFILE *oxfp, char *cmd)

{

short port = 0;

int port = 0;

int listened;

if ((listened = oxf_listen(&port)) != -1) {

cmo_list *args = list_appendl(NULL, list_append(new_cmo_list(), new_cmo_int32(port)), new_cmo_string(cmd), NULL);

cmo_list *args = list_appendl(NULL, list_append(new_cmo_list(), (cmo *)new_cmo_int32(port)), new_cmo_string(cmd), NULL);

send_ox_cmo(oxfp, (cmo *)args);

send_ox_command(oxfp, SM_control_spawn_server);

return oxf_connect_passive(listened);

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