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Diff for /OpenXM_contrib2/asir2000/io/io.c between version 1.2 and 1.20

version 1.2, 2000/01/18 05:55:07

version 1.20, 2015/08/17 05:42:20

Line 1

/* $OpenXM: OpenXM_contrib2/asir2000/io/io.c,v 1.1.1.1 1999/12/03 07:39:11 noro Exp $ */

* FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,

* non-exclusive and royalty-free license to use, copy, modify and

* redistribute, solely for non-commercial and non-profit purposes, the

* computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and

* conditions of this Agreement. For the avoidance of doubt, you acquire

* only a limited right to use the SOFTWARE hereunder, and FLL or any

* third party developer retains all rights, including but not limited to

* copyrights, in and to the SOFTWARE.

* (1) FLL does not grant you a license in any way for commercial

* purposes. You may use the SOFTWARE only for non-commercial and

* non-profit purposes only, such as academic, research and internal

* business use.

* (2) The SOFTWARE is protected by the Copyright Law of Japan and

* international copyright treaties. If you make copies of the SOFTWARE,

* with or without modification, as permitted hereunder, you shall affix

* to all such copies of the SOFTWARE the above copyright notice.

* (3) An explicit reference to this SOFTWARE and its copyright owner

* shall be made on your publication or presentation in any form of the

* results obtained by use of the SOFTWARE.

* (4) In the event that you modify the SOFTWARE, you shall notify FLL by

* e-mail at risa-admin@sec.flab.fujitsu.co.jp of the detailed specification

* for such modification or the source code of the modified part of the

* SOFTWARE.

* THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL

* MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND

* EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS

* FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'

* RIGHTS. NO FLL DEALER, AGENT, EMPLOYEES IS AUTHORIZED TO MAKE ANY

* MODIFICATIONS, EXTENSIONS, OR ADDITIONS TO THIS WARRANTY.

* UNDER NO CIRCUMSTANCES AND UNDER NO LEGAL THEORY, TORT, CONTRACT,

* OR OTHERWISE, SHALL FLL BE LIABLE TO YOU OR ANY OTHER PERSON FOR ANY

* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, PUNITIVE OR CONSEQUENTIAL

* DAMAGES OF ANY CHARACTER, INCLUDING, WITHOUT LIMITATION, DAMAGES

* ARISING OUT OF OR RELATING TO THE SOFTWARE OR THIS AGREEMENT, DAMAGES

* FOR LOSS OF GOODWILL, WORK STOPPAGE, OR LOSS OF DATA, OR FOR ANY

* DAMAGES, EVEN IF FLL SHALL HAVE BEEN INFORMED OF THE POSSIBILITY OF

* SUCH DAMAGES, OR FOR ANY CLAIM BY ANY OTHER PARTY. EVEN IF A PART

* OF THE SOFTWARE HAS BEEN DEVELOPED BY A THIRD PARTY, THE THIRD PARTY

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/io/io.c,v 1.19 2015/08/14 13:51:55 fujimoto Exp $

#include <stdio.h>

#include "ca.h"

#if defined(VISUAL) || MPI

#include "parse.h"

#if defined(VISUAL) || defined(__MINGW32__) || defined(MPI)

#include "wsio.h"

#endif

extern int little_endian;

extern int little_endian,lib_ox_need_conv;

extern int ox_do_copy, ox_do_count, ox_count_length, ox_file_io, ox_need_conv;

extern char *ox_copy_bptr;

/* XXX */

void write_cmo(pointer,Obj);

void reset_io()

{

ox_file_io = 0;

Line 25 void endian_init()

Line 76 void endian_init()

ox_need_conv = 1;

}

int countobj(p)

int countobj(Obj p)

Obj p;

{

ox_count_length = 0;

ox_do_count = 1; saveobj(0,p); ox_do_count = 0;

return ox_count_length;

}

int count_as_cmo(p)

int count_as_cmo(Obj p)

Obj p;

{

ox_count_length = 0;

ox_do_count = 1; write_cmo(0,p); ox_do_count = 0;

return ox_count_length;

}

int countvl(vl)

int countvl(VL vl)

VL vl;

{

ox_count_length = 0;

ox_do_count = 1; savevl(0,vl); ox_do_count = 0;

return ox_count_length;

}

void ox_copy_init(s)

void ox_copy_init(char *s)

char *s;

{

ox_copy_bptr = s;

}

void ox_obj_to_buf(p)

#if !defined(VISUAL) && !defined(__MINGW32__)

Obj p;

{

* library mode functions

ox_do_copy = 1; saveobj(0,p); ox_do_copy = 0;

* byte order is controlled by lib_ox_need_conv.

}

void ox_buf_to_obj(p)

void ox_obj_to_buf_as_cmo(Obj p)

Obj *p;

{

ox_do_copy = 1; loadobj(0,p); ox_do_copy = 0;

ox_need_conv = lib_ox_need_conv;

}

void ox_obj_to_buf_as_cmo(p)

Obj p;

{

ox_do_copy = 1; write_cmo(0,p); ox_do_copy = 0;

}

void ox_buf_to_obj_as_cmo(p)

void ox_buf_to_obj_as_cmo(Obj *p)

Obj *p;

{

ox_need_conv = lib_ox_need_conv;

ox_do_copy = 1; read_cmo(0,p); ox_do_copy = 0;

}

void ox_vl_to_buf(vl)

void ox_vl_to_buf(VL vl)

VL vl;

{

ox_do_copy = 1; savevl(0,vl); ox_do_copy = 0;

}

#endif

void risa_to_cmo(obj,cmo)

int gen_fread (char *ptr,int size,int nitems,FILE *stream)

Obj obj;

void **cmo;

{

int len;

void *buf;

len = count_as_cmo(obj);

*cmo = buf = (void *)MALLOC_ATOMIC(len);

ox_copy_init(buf);

ox_obj_to_buf_as_cmo(obj);

}

void cmo_to_risa(cmo,obj)

void *cmo;

Obj *obj;

{

ox_copy_init(cmo);

ox_buf_to_obj_as_cmo(obj);

}

int gen_fread (ptr,size,nitems,stream)

char *ptr;

int size,nitems;

FILE *stream;

{

int n;

if ( ox_do_copy ) {

n = size*nitems;

memcpy(ptr,ox_copy_bptr,n);

ox_copy_bptr += n;

/* dummy return */

return 0;

} else {

#if defined(VISUAL)

#if defined(VISUAL) || defined(__MINGW32__)

if ( _fileno(stream) < 0 )

n = cread(ptr,size,nitems,(STREAM *)stream);

else

#elif MPI

#elif defined(MPI)

if ( (char)fileno(stream) < 0 )

n = cread(ptr,size,nitems,(STREAM *)stream);

else

#endif

n = fread(ptr,size,nitems,stream);

if ( !n )

if ( !n ) {

ExitAsir();

else

/* NOTREACHED */

return 0;

} else

return n;

}

int gen_fwrite (ptr,size,nitems,stream)

int gen_fwrite (char *ptr,int size,int nitems,FILE *stream)

char *ptr;

int size,nitems;

FILE *stream;

{

int n;

if ( ox_do_count )

if ( ox_do_count ) {

ox_count_length += size*nitems;

else if ( ox_do_copy ) {

/* dummy return */

return 0;

} else if ( ox_do_copy ) {

n = size*nitems;

memcpy(ox_copy_bptr,ptr,n);

ox_copy_bptr += n;

/* dummy return */

return 0;

} else

#if defined(VISUAL)

#if defined(VISUAL) || defined(__MINGW32__)

if ( _fileno(stream) < 0 )

return cwrite(ptr,size,nitems,(STREAM *)stream);

else

#elif MPI

#elif defined(MPI)

if ( (char)fileno(stream) < 0 )

return cwrite(ptr,size,nitems,(STREAM *)stream);

else

Line 161 FILE *stream;

Line 183 FILE *stream;

return fwrite(ptr,size,nitems,stream);

}

void write_char(f,p)

void write_char(FILE *f,unsigned char *p)

FILE *f;

unsigned char *p;

{

gen_fwrite(p,sizeof(unsigned char),1,f);

}

void write_short(f,p)

void write_short(FILE *f,unsigned short *p)

FILE *f;

unsigned short *p;

{

unsigned short t;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

t = htons(*p);

gen_fwrite(&t,sizeof(unsigned short),1,f);

gen_fwrite((char *)&t,sizeof(unsigned short),1,f);

} else

gen_fwrite(p,sizeof(unsigned short),1,f);

gen_fwrite((char *)p,sizeof(unsigned short),1,f);

}

void write_int(f,p)

void write_int(FILE *f,unsigned int *p)

FILE *f;

unsigned int *p;

{

unsigned int t;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

t = htonl(*p);

gen_fwrite(&t,sizeof(unsigned int),1,f);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

} else

gen_fwrite(p,sizeof(unsigned int),1,f);

gen_fwrite((char *)p,sizeof(unsigned int),1,f);

}

void write_int64(FILE *f,UL *p)

{

unsigned int t;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

t = htonl(((unsigned int *)p)[1]);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

t = htonl(((unsigned int *)p)[0]);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

} else

gen_fwrite((char *)p,sizeof(UL),1,f);

}

#if defined(DES_ENC)

int des_encryption;

static unsigned char asir_deskey[8] = {0xc7,0xe0,0xfc,0xb5,0xc3,0xad,0x8e,0x3a};

static unsigned char deskey_string[96];

Line 207 void init_deskey()

Line 237 void init_deskey()

deskey_initialized = 1;

}

#endif

void write_intarray(f,p,l)

void write_intarray(FILE *f,unsigned int *p,int l)

FILE *f;

unsigned int *p;

int l;

{

int i;

unsigned int t;

#if defined(VISUAL)

#if defined(DES_ENC)

int l2;

unsigned int plain[2],encrypted[2];

Line 227 int l;

Line 255 int l;

des_enc(plain,deskey_string,encrypted);

encrypted[0] = htonl(encrypted[0]);

encrypted[1] = htonl(encrypted[1]);

gen_fwrite(encrypted,sizeof(unsigned int),2,f);

gen_fwrite((char *)encrypted,sizeof(unsigned int),2,f);

}

if ( (l2<<1) < l ) {

plain[0] = *p;

Line 235 int l;

Line 263 int l;

des_enc(plain,deskey_string,encrypted);

encrypted[0] = htonl(encrypted[0]);

encrypted[1] = htonl(encrypted[1]);

gen_fwrite(encrypted,sizeof(unsigned int),2,f);

gen_fwrite((char *)encrypted,sizeof(unsigned int),2,f);

}

} else

#endif

if ( little_endian && (ox_file_io || ox_need_conv) )

for ( i = 0; i < l; i++, p++) {

t = htonl(*p);

gen_fwrite(&t,sizeof(unsigned int),1,f);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

}

else

gen_fwrite(p,sizeof(unsigned int),l,f);

gen_fwrite((char *)p,sizeof(unsigned int),l,f);

}

#if defined(LONG_IS_64BIT)

#if SIZEOF_LONG == 8

void write_longarray(f,p,l)

/* write l word (1word=4bytes) */

FILE *f;

/* l even : low 32of p[0] | high32 of p[0] | ... */

unsigned long *p;

/* l odd : high32 of p[0] | ... */

int l;

void write_longarray(FILE *f,unsigned long *p,int l)

{

int i;

unsigned long w;

unsigned int hi,lo;

if ( l%2 ) {

w = p[0]; hi = w>>32;

if ( little_endian && (ox_file_io || ox_need_conv) )

for ( i = 0; i < l; i++, p++) {

hi = htonl(hi);

w = *p; hi = w>>32; lo = w&0xffffffff;

gen_fwrite((char *)&hi,sizeof(unsigned int),1,f);

hi = htonl(hi); lo = htonl(lo);

i = 1;

gen_fwrite(&hi,sizeof(unsigned int),1,f);

} else

gen_fwrite(&lo,sizeof(unsigned int),1,f);

i = 0;

}

l = (l+1)/2;

else

for ( ; i < l; i++ ) {

gen_fwrite(p,sizeof(unsigned long),l,f);

w = p[i]; hi = w>>32; lo = w&0xffffffff;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

hi = htonl(hi); lo = htonl(lo);

}

gen_fwrite((char *)&lo,sizeof(unsigned int),1,f);

gen_fwrite((char *)&hi,sizeof(unsigned int),1,f);

}

#endif

void write_double(f,p)

void write_double(FILE *f,double *p)

FILE *f;

double *p;

{

unsigned int t;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

t = htonl(((unsigned int *)p)[1]);

gen_fwrite(&t,sizeof(unsigned int),1,f);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

t = htonl(((unsigned int *)p)[0]);

gen_fwrite(&t,sizeof(unsigned int),1,f);

gen_fwrite((char *)&t,sizeof(unsigned int),1,f);

} else

gen_fwrite(p,sizeof(double),1,f);

gen_fwrite((char *)p,sizeof(double),1,f);

}

void write_string(f,p,l)

void write_string(FILE *f,unsigned char *p,int l)

FILE *f;

unsigned char *p;

{

gen_fwrite(p,sizeof(unsigned char),l,f);

}

void read_char(f,p)

void read_char(FILE *f,unsigned char *p)

FILE *f;

unsigned char *p;

{

gen_fread((char *)p,sizeof(unsigned char),1,f);

}

void read_short(f,p)

void read_short(FILE *f,unsigned short *p)

FILE *f;

unsigned short *p;

{

gen_fread(p,sizeof(unsigned short),1,f);

gen_fread((char *)p,sizeof(unsigned short),1,f);

if ( little_endian && (ox_file_io || ox_need_conv) )

*p = ntohs(*p);

}

void read_int(f,p)

void read_int(FILE *f,unsigned int *p)

FILE *f;

unsigned int *p;

{

gen_fread(p,sizeof(unsigned int),1,f);

gen_fread((char *)p,sizeof(unsigned int),1,f);

if ( little_endian && (ox_file_io || ox_need_conv) )

*p = ntohl(*p);

}

void read_intarray(f,p,l)

void read_int64(FILE *f,UL *p)

FILE *f;

unsigned int *p;

int l;

{

int i;

unsigned int t;

#if defined(VISUAL)

if ( little_endian && (ox_file_io || ox_need_conv) ) {

gen_fread((char *)&t,sizeof(unsigned int),1,f);

((unsigned int *)p)[1] = ntohl(t);

gen_fread((char *)&t,sizeof(unsigned int),1,f);

((unsigned int *)p)[0] = ntohl(t);

} else

gen_fread((char *)p,sizeof(UL),1,f);

}

void read_intarray(FILE *f,unsigned int *p,int l)

{

int i;

#if defined(DES_ENC)

int l2;

unsigned int plain[2],encrypted[2];

Line 348 int l;

Line 383 int l;

} else

#endif

{

gen_fread(p,sizeof(unsigned int),l,f);

gen_fread((char *)p,sizeof(unsigned int),l,f);

if ( little_endian && (ox_file_io || ox_need_conv) )

for ( i = 0; i < l; i++, p++ )

*p = ntohl(*p);

}

#if defined(LONG_IS_64BIT)

#if SIZEOF_LONG == 8

void read_longarray(f,p,l)

/* read l word (1word=4bytes) */

FILE *f;

/* pad 0 at low 32 of p[0] if l is odd */

unsigned long *p;

/* low 32 of p[0] | high32 of p[0] | ... */

int l;

void read_longarray(FILE *f,unsigned long *p,int l)

{

int i;

unsigned int hi,lo;

unsigned int *q;

if ( little_endian && (ox_file_io || ox_need_conv) ) {

q = (unsigned int *)p;

for ( i = l; i > 1; i -= 2, p++ ) {

if ( l%2 ) {

gen_fread(&hi,sizeof(unsigned int),1,f);

gen_fread((char *)&hi,sizeof(unsigned int),1,f);

gen_fread(&lo,sizeof(unsigned int),1,f);

if ( little_endian && (ox_file_io || ox_need_conv) )

hi = ntohl(hi); lo = ntohl(lo);

hi = ntohl(hi);

*p = (((unsigned long)hi)<<32)|((unsigned long)lo);

*p = (((unsigned long)hi)<<32);

p++; l--;

}

for ( i = 0; i < l; i += 2, p++ ) {

gen_fread((char *)&lo,sizeof(unsigned int),1,f);

gen_fread((char *)&hi,sizeof(unsigned int),1,f);

if ( little_endian && (ox_file_io || ox_need_conv) ) {

hi = ntohl(hi); lo = ntohl(lo);

}

if ( i == 1 ) {

*p = (((unsigned long)hi)<<32)|((unsigned long)lo);

gen_fread(&hi,sizeof(unsigned int),1,f);

}

hi = ntohl(hi); *p = (((unsigned long)hi)<<32);

}

} else

gen_fread(p,sizeof(unsigned int),l,f);

}

#endif

void read_string(f,p,l)

void read_string(FILE *f,unsigned char *p,int l)

FILE *f;

unsigned char *p;

{

gen_fread((char *)p,sizeof(unsigned char),l,f);

}

void read_double(f,p)

void read_double(FILE *f,double *p)

FILE *f;

double *p;

{

unsigned int t;

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