/* $XConsortium: t1io.c,v 1.4 91/10/10 11:19:41 rws Exp $ */
/* Copyright International Business Machines,Corp. 1991
 * All Rights Reserved
 *
 * License to use, copy, modify, and distribute this software
 * and its documentation for any purpose and without fee is
 * hereby granted, provided that the above copyright notice
 * appear in all copies and that both that copyright notice and
 * this permission notice appear in supporting documentation,
 * and that the name of IBM not be used in advertising or
 * publicity pertaining to distribution of the software without
 * specific, written prior permission.
 *
 * IBM PROVIDES THIS SOFTWARE "AS IS", WITHOUT ANY WARRANTIES
 * OF ANY KIND, EITHER EXPRESS OR IMPLIED, INCLUDING, BUT NOT
 * LIMITED TO ANY IMPLIED WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, AND NONINFRINGEMENT OF
 * THIRD PARTY RIGHTS.  THE ENTIRE RISK AS TO THE QUALITY AND
 * PERFORMANCE OF THE SOFTWARE, INCLUDING ANY DUTY TO SUPPORT
 * OR MAINTAIN, BELONGS TO THE LICENSEE.  SHOULD ANY PORTION OF
 * THE SOFTWARE PROVE DEFECTIVE, THE LICENSEE (NOT IBM) ASSUMES
 * THE ENTIRE COST OF ALL SERVICING, REPAIR AND CORRECTION.  IN
 * NO EVENT SHALL IBM BE LIABLE FOR ANY SPECIAL, INDIRECT OR
 * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
 * FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
 * CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
 * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS
 * SOFTWARE.
 *
 * Author: Carol H. Thompson  IBM Almaden Research Center
 */
/*******************************************************************
*  I/O package for Type 1 font reading
********************************************************************/
 
#ifndef STATIC
#define STATIC static
#endif
 
#include <unistd.h>
#include <stdio.h>
#include <fcntl.h>

#include "t1stdio.h"
#include "t1hdigit.h"

/* we define this to switch to decrypt-debugging mode. The stream of
   decrypted bytes will be written to stdout! This contains binary
   charstring data */
#define DEBUG_DECRYPTION

/* Constants and variables used in the decryption */
#define c1 ((unsigned short)52845)
#define c2 ((unsigned short)22719)
static unsigned short r;
static int asc, Decrypt;
static int extrach;
static int haveextrach;

static int starthex80=0;
static long pfbblocklen=0;
static long accu=0;
static unsigned long bytecnt=0;


 
/* Our single FILE structure and buffer for this package */
STATIC F_FILE TheFile;
STATIC unsigned char TheBuffer[F_BUFSIZ];
 
/* Our routines */
F_FILE *T1Open(), *T1eexec();
int T1Close();
int T1Read(), T1Getc(), T1Ungetc();
void T1io_reset(void);
STATIC int T1Decrypt(), T1Fill();
 
/* -------------------------------------------------------------- */
/*ARGSUSED*/
F_FILE *T1Open(fn, mode)
  char *fn;    /* Pointer to filename */
  char *mode;  /* Pointer to open mode string */
{
  F_FILE *of = &TheFile;
  char c;
  
 
  Decrypt = 0;
 
  /* We know we are only reading */
  /* cygwin32 also needs the binary flag to be set */
#if defined(MSDOS) | defined(_WIN32) | defined (__EMX__)
  if ((of->fd=open(fn, O_RDONLY | O_BINARY)) < 0) return NULL;
#else
  if ((of->fd=open(fn, O_RDONLY)) < 0) return NULL;
#endif

  /* We check for pfa/pfb file */
  if (read( of->fd, &c, 1)!=1) {
    close( of->fd);
    return(NULL);
  }
  else
    if (c==(char)0x80){
      starthex80=1;
    }
  lseek( of->fd, 0, SEEK_SET);
  
  /* Initialize the buffer information of our file descriptor */
  of->b_base = TheBuffer;
  of->b_size = F_BUFSIZ;
  of->b_ptr = NULL;
  of->b_cnt = 0;
  of->flags = 0;
  of->error = 0;
  haveextrach = 0;
  return &TheFile;
} /* end Open */
 
/* -------------------------------------------------------------- */
int T1Getc(f)        /* Read one character */
  F_FILE *f;         /* Stream descriptor */
{
  if (f->b_base == NULL) return EOF;  /* already closed */
 
  if (f->flags & UNGOTTENC) { /* there is an ungotten c */
    f->flags &= ~UNGOTTENC;
    return (int) f->ungotc;
  }
 
  if (f->b_cnt == 0)  /* Buffer needs to be (re)filled */
    f->b_cnt = T1Fill(f);
  if (f->b_cnt > 0) return (f->b_cnt--, (int) *(f->b_ptr++));
  else {
    f->flags |= FIOEOF;
    return EOF;
  }
} /* end Getc */
 
/* -------------------------------------------------------------- */
int T1Ungetc(c, f)   /* Put back one character */
  int c;
  F_FILE *f;         /* Stream descriptor */
{
  if (c != EOF) {
    f->ungotc = c;
    f->flags |= UNGOTTENC;  /* set flag */
    f->flags &= ~FIOEOF;    /* reset EOF */
  }
  return c;
} /* end Ungetc */
 
/* -------------------------------------------------------------- */
int T1Read(buffP, size, n, f)  /* Read n items into caller's buffer */
  char *buffP;       /* Buffer to be filled */
  int   size;        /* Size of each item */
  int   n;           /* Number of items to read */
  F_FILE *f;         /* Stream descriptor */
{
  int bytelen, cnt, i;
  F_char *p = (F_char *)buffP;
  int  icnt;         /* Number of characters to read */
 
  if (f->b_base == NULL) return 0;  /* closed */
  icnt = (size!=1)?n*size:n;  /* Number of bytes we want */
 
  if (f->flags & UNGOTTENC) { /* there is an ungotten c */
    f->flags &= ~UNGOTTENC;
    *(p++) = f->ungotc;
    icnt--; bytelen = 1;
  }
  else bytelen = 0;
 
  while (icnt > 0) {
    /* First use any bytes we have buffered in the stream buffer */
    if ((cnt=f->b_cnt) > 0) {
      if (cnt > icnt) cnt = icnt;
      for (i=0; i<cnt; i++) *(p++) = *(f->b_ptr++);
      f->b_cnt -= cnt;
      icnt -= cnt;
      bytelen += cnt;
    }
 
    if ((icnt == 0) || (f->flags & FIOEOF)) break;
 
    f->b_cnt = T1Fill(f);
  }
  return ((size!=1)?bytelen/size:bytelen);
} /* end Read */
 
/* -------------------------------------------------------------- */
int T1Close(f)       /* Close the file */
  F_FILE *f;         /* Stream descriptor */
{
  if (f->b_base == NULL) return 0;  /* already closed */
  f->b_base = NULL;  /* no valid stream */
  return close(f->fd);
} /* end Close */
 
/* -------------------------------------------------------------- */
F_FILE *T1eexec(f)   /* Initialization */
  F_FILE *f;         /* Stream descriptor */
{
  int i;
  int H;
  
  unsigned char *p;
  unsigned char randomP[8];
 
  r = 55665;  /* initial key */
  asc = 1;    /* indicate ASCII form */
  
  /* Consume the 4 random bytes, determining if we are also to
     ASCIIDecodeHex as we process our input.  (See pages 63-64
     of the Adobe Type 1 Font Format book.)  */

  /* Skipping over initial white space chars has been removed since
     it could lead to unprocessable pfb-fonts if accindentally the
     first cipher text byte was of the class HWHITE_SPACE.
     Instead, we just read ahead, this should suffice for any
     Type 1 font program. (RMz, 08/02/1998) */

  /* If ASCII, the next 7 chars are guaranteed consecutive */
  randomP[0] = getc(f);  /* store first non white space char */
  fread(randomP+1, 1, 3, f);  /* read 3 more, for a total of 4 */
  /* store first four chars */
  for (i=0,p=randomP; i<4; i++) {  /* Check 4 valid ASCIIEncode chars */
    if (HighHexP[*p++] > LAST_HDIGIT) {  /* non-ASCII byte */
      asc = 0;
      break;
    }
  }
  if (asc) {  /* ASCII form, convert first eight bytes to binary */
    fread(randomP+4, 1, 4, f);  /* Need four more */
    for (i=0,p=randomP; i<4; i++) {  /* Convert */
      H = HighHexP[*p++];
      randomP[i] = H | LowHexP[*p++];
    }
  }
 
  /* Adjust our key */
  for (i=0,p=randomP; i<4; i++) {
    r = (*p++ + r) * c1 + c2;
  }

  /* Decrypt the remaining buffered bytes */
  f->b_cnt = T1Decrypt(f->b_ptr, f->b_cnt);
  Decrypt = 1;
  return (feof(f))?NULL:f;
} /* end eexec */
 
/* -------------------------------------------------------------- */
STATIC int T1Decrypt(p, len)
  unsigned char *p;
  int len;
{
  int n;
  int H=0, L=0;
  unsigned char *inp = p;
  unsigned char *tblP;
 
  if (asc) {
    if (haveextrach) {
      H = extrach;
      tblP = LowHexP;
    }
    else tblP = HighHexP;
    for (n=0; len>0; len--) {
      L = tblP[*inp++];
      if (L == HWHITE_SPACE) continue;
      if (L > LAST_HDIGIT) break;
      if (tblP == HighHexP) { /* Got first hexit value */
        H = L;
        tblP = LowHexP;
      } else { /* Got second hexit value; compute value and store it */
        n++;
        tblP = HighHexP;
        H |= L;
        /* H is an int, 0 <= H <= 255, so all of this will work */
        *p++ = H ^ (r >> 8);
        r = (H + r) * c1 + c2;
      }
    }
    if (tblP != HighHexP) {  /* We had an odd number of hexits */
      extrach = H;
      haveextrach = 1;
    } else haveextrach = 0;
    return n;
  } else {
    for (n = len; n>0; n--) {
      H = *inp++;
      *p++ = H ^ (r >> 8);
      r = (H + r) * c1 + c2;
    }
    return len;
  }
} /* end Decrypt */
 
/* -------------------------------------------------------------- */
/* This function has been adapted to support pfb-files with multiple
   data segments */
STATIC int T1Fill(f) /* Refill stream buffer */
  F_FILE *f;         /* Stream descriptor */
{
  int rc,i;
  static unsigned char hdr_buf[6];

  if (starthex80){ /* we have a pfb-file -> be aware of pfb-blocks */
    if ( pfbblocklen-accu >= F_BUFSIZ){
      /* fill the buffer */
      rc = read(f->fd, f->b_base, F_BUFSIZ);
      bytecnt+=rc;
      accu +=rc;
    }
    else{
      if (pfbblocklen-accu>0){
	/* read the remaining of the pfb-block ... */
	rc = read(f->fd, f->b_base, pfbblocklen-accu);
	bytecnt +=rc;
	accu +=rc;
	/* ... and examine the next header */
	i=read(f->fd, hdr_buf, 6);
	bytecnt +=i;
	pfbblocklen=0;
	pfbblocklen += hdr_buf[2]&0xFF  ;
	pfbblocklen += (hdr_buf[3] & 0xFF)  <<8;
	pfbblocklen += (hdr_buf[4] & 0xFF)  <<16;
	pfbblocklen += (hdr_buf[5] & 0xFF)  <<24;
	accu=0;
      }
      else{
	/* We are at the beginning of a new block ->
	   examine header */
	i=read(f->fd, hdr_buf, 6);
	pfbblocklen=0;
	pfbblocklen += hdr_buf[2]&0xFF  ;
	pfbblocklen += (hdr_buf[3] & 0xFF)  <<8;
	pfbblocklen += (hdr_buf[4] & 0xFF)  <<16;
	pfbblocklen += (hdr_buf[5] & 0xFF)  <<24;
	accu=0;
	/* header read, now fill the buffer */
	if (pfbblocklen-accu >= F_BUFSIZ){
	  rc = read(f->fd, f->b_base, F_BUFSIZ);
	  accu +=rc;
	}
	else{
	  /* we have the unusual case that the pfb-block size is
	     shorter than F_BUFSIZ -> Read this block only */
	  rc = read(f->fd, f->b_base, pfbblocklen);
	  accu +=rc;
	}
      }
    }
  }
  else{
    /* We have a pfa-file -> read straight ahead and fill buffer */
    rc = read(f->fd, f->b_base, F_BUFSIZ);
  }
  
  /* propagate any error or eof to current file */
  if (rc <= 0) {
    if (rc == 0)    /* means EOF */
      f->flags |= FIOEOF;
    else {
      f->error = (short)-rc;
      f->flags |= FIOERROR;
      rc = 0;
    }
  }

  f->b_ptr = f->b_base;
  if (Decrypt){
    rc = T1Decrypt(f->b_base, rc);
  }
  
  return rc;
} /* end Fill */


void T1io_reset(void)
{
  pfbblocklen=0;
  accu=0;
  starthex80=0;
}