/* $Xorg: t1io.c,v 1.3 2000/08/17 19:46:33 cpqbld 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 */ /* Copyright (c) 1994-1999 Silicon Graphics, Inc. All Rights Reserved. * * The contents of this file are subject to the CID Font Code Public Licence * Version 1.0 (the "License"). You may not use this file except in compliance * with the Licence. You may obtain a copy of the License at Silicon Graphics, * Inc., attn: Legal Services, 2011 N. Shoreline Blvd., Mountain View, CA * 94043 or at http://www.sgi.com/software/opensource/cid/license.html. * * Software distributed under the License is distributed on an "AS IS" basis. * ALL WARRANTIES ARE DISCLAIMED, INCLUDING, WITHOUT LIMITATION, ANY IMPLIED * WARRANTIES OF MERCHANTABILITY, OF FITNESS FOR A PARTICULAR PURPOSE OR OF * NON-INFRINGEMENT. See the License for the specific language governing * rights and limitations under the License. * * The Original Software is CID font code that was developed by Silicon * Graphics, Inc. */ /* $XFree86: xc/lib/font/Type1/t1io.c,v 3.9 2001/08/27 19:49:54 dawes Exp $ */ /******************************************************************* * I/O package for Type 1 font reading ********************************************************************/ #ifndef STATIC #define STATIC static #endif #ifndef FONTMODULE #include #include #else #include "Xdefs.h" /* Bool declaration */ #include "Xmd.h" /* INT32 declaration */ #include "xf86_ansic.h" #endif #include "t1stdio.h" #include "t1hdigit.h" #ifdef WIN32 #include #endif #include "Xdefs.h" /* 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; /* Our single FILE structure and buffer for this package */ STATIC F_FILE TheFile; STATIC unsigned char TheBuffer[F_BUFSIZ]; /* Our routines */ static int T1Decrypt ( unsigned char *p, int len ); static int T1Fill ( F_FILE *f ); #ifdef BUILDCID void resetDecrypt(void) { Decrypt = 0; } #endif /* -------------------------------------------------------------- */ /*ARGSUSED*/ F_FILE * T1Open(char *fn, /* Pointer to filename */ char *mode) /* Pointer to open mode string */ { F_FILE *of = &TheFile; int oflags = O_RDONLY; /* We know we are only reading */ Decrypt = 0; #ifdef O_BINARY /* VMS or DOS */ oflags |= O_BINARY; #endif of->fd = open(fn, oflags, 0); if (of->fd < 0) return NULL; /* 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 /* Read one character */ T1Getc(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 /* Put back one character */ T1Ungetc(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 /* Read n items into caller's buffer */ T1Read(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; ib_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 /* Close the file */ T1Close(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 * /* Initialization */ T1eexec(F_FILE *f) /* Stream descriptor */ { int i, c; 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.) */ /* Skip over any initial white space chars */ while (HighHexP[c=_XT1getc(f)] == HWHITE_SPACE) ; /* If ASCII, the next 7 chars are guaranteed consecutive */ randomP[0] = c; /* store first non white space char */ T1Read((pointer)(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 */ T1Read((pointer)(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 (T1Feof(f))?NULL:f; } /* end eexec */ #ifdef BUILDCID F_FILE * /* Initialization */ CIDeexec(F_FILE *f) /* Stream descriptor */ { int i, c; 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.) */ /* Skip over any initial white space chars */ while (HighHexP[c=_XT1getc(f)] == HWHITE_SPACE) ; /* If ASCII, the next 7 chars are guaranteed consecutive */ randomP[0] = c; /* store first non white space char */ T1Read((pointer)(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 */ T1Read((pointer)(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 up to, but not including, the first '%' sign */ if (f->b_cnt > 0) { for (i = 0; i < f->b_cnt; i++) if (*(f->b_ptr + i) == '%') break; if (i < f->b_cnt) { if (i == 0) f->b_cnt = 0; else f->b_cnt = T1Decrypt(f->b_ptr, i); } else f->b_cnt = T1Decrypt(f->b_ptr, f->b_cnt); } Decrypt = 1; return (T1Feof(f))?NULL:f; } /* end eexec */ #endif /* -------------------------------------------------------------- */ STATIC int T1Decrypt(unsigned char *p, int len) { int n; int H = 0, L; 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 */ /* -------------------------------------------------------------- */ STATIC int /* Refill stream buffer */ T1Fill(F_FILE *f) /* Stream descriptor */ { int rc; 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 */