src/cmd/postscript/misc/pscrypt.c - plan9 - Git at Google

 /*
  *
  * Adobe's encryption/decryption algorithm for eexec and show. Runs in
  * eexec mode unless told otherwise. Use,
  *
  *		pscrypt file.cypher > file.clear
  *
  * to decrypt eexec input. Assumes file.cypher is hex with the key as the
  * first four bytes, and writes file.clear as binary (omitting the key).
  * Use
  *
  *		pscrypt -e12ab34ef file.clear >file.cypher
  *
  * to encrypt file.clear (for eexec) using 12ab34ef as the key. Input is
  * binary and output is hex. The key must be given as a hex number. Use
  * -sshow to encrypt or decrypt a CharString or Subr,
  *
  *		pscrypt -sshow file.cypher > file.clear
  *
  * Use -b or -x to read binary or hex input, and -B or -X to output binary
  * or hex.
  *
  */

 #include <stdio.h>
 #include <ctype.h>

 #define ENCRYPT		0
 #define DECRYPT		1

 #define NOTSET		-1
 #define BINARY		0
 #define HEX		1
 #define LINELENGTH	40

 #define CHARSTRING	4330
 #define EEXEC		55665
 #define MAGIC1		52845
 #define MAGIC2		22719

 int	argc;
 char	**argv;

 int	mode = DECRYPT;
 int	input = NOTSET;
 int	output = NOTSET;
 int	outoffset = NOTSET;
 int	inoffset = NOTSET;

 int	cryptkey = 0;			/* encryption key set with -e */
 int	linelength = LINELENGTH;	/* only for hex output */
 int	lastchar = 0;

 unsigned long	seed = EEXEC;
 unsigned long	key;

 FILE	*fp_in;

 /*****************************************************************************/

 main(agc, agv)

     int		agc;
     char	*agv[];

 {

 /*
  *
  * Implementation of the encryption/decryption used by eexec and show.
  *
  */

     argc = agc;
     argv = agv;

     fp_in = stdin;

     options();
     initialize();
     arguments();

     exit(0);

 }   /* End of main */

 /*****************************************************************************/

 options()

 {

     int		ch;
     char	*names = "bde:l:os:xBSX";

     extern char	*optarg;
     extern int	optind;

 /*
  *
  * Command line options.
  *
  */

     while ( (ch = getopt(argc, argv, names)) != EOF )
 	switch ( ch ) {
 	    case 'b':			/* binary input */
 		    input = BINARY;
 		    break;

 	    case 'd':			/* decrypt */
 		    mode = DECRYPT;
 		    break;

 	    case 'e':			/* encrypt */
 		    mode = ENCRYPT;
 		    if ( *optarg == '0' && *optarg == 'x' )
 			optarg += 2;
 		    sscanf(optarg, "%8x", &cryptkey);
 		    break;

 	    case 'l':			/* line length hex output */
 		    linelength = atoi(optarg);
 		    break;

 	    case 'o':			/* output all bytes - debugging */
 		    outoffset = 0;
 		    break;

 	    case 's':			/* seed */
 		    if ( *optarg == 'e' )
 			seed = EEXEC;
 		    else if ( *optarg == 's' )
 			seed = CHARSTRING;
 		    else if ( *optarg == '0' && *(optarg+1) == 'x' )
 			sscanf(optarg+2, "%x", &seed);
 		    else if ( *optarg == '0' )
 			sscanf(optarg, "%o", &seed);
 		    else sscanf(optarg, "%d", &seed);
 		    break;

 	    case 'x':			/* hex input */
 		    input = HEX;
 		    break;

 	    case 'B':			/* binary output */
 		    output = BINARY;
 		    break;

 	    case 'X':			/* hex output */
 		    output = HEX;
 		    break;

 	    case '?':			/* don't understand the option */
 		    fprintf(stderr, "bad option -%c\n", ch);
 		    exit(1);
 		    break;

 	    default:			/* don't know what to do for ch */
 		    fprintf(stderr, "missing case for option -%c\n", ch);
 		    exit(1);
 		    break;
 	}   /* End switch */

     argc -= optind;			/* get ready for non-option args */
     argv += optind;

 }   /* End of options */

 /*****************************************************************************/

 initialize()

 {

 /*
  *
  * Initialization that has to be done after the options.
  *
  */

     key = seed;

     if ( mode == DECRYPT ) {
 	input = (input == NOTSET) ? HEX : input;
 	output = (output == NOTSET) ? BINARY : output;
 	inoffset = (inoffset == NOTSET) ? 0 : inoffset;
 	outoffset = (outoffset == NOTSET) ? -4 : outoffset;
     } else {
 	input = (input == NOTSET) ? BINARY : input;
 	output = (output == NOTSET) ? HEX : output;
 	inoffset = (inoffset == NOTSET) ? 4 : inoffset;
 	outoffset = (outoffset == NOTSET) ? 0 : outoffset;
     }	/* End else */

     if ( linelength <= 0 )
 	linelength = LINELENGTH;

 }   /* End of initialize */

 /*****************************************************************************/

 arguments()

 {

 /*
  *
  * Everything left is an input file. No arguments or '-' means stdin.
  *
  */

     if ( argc < 1 )
 	crypt();
     else
 	while ( argc > 0 ) {
 	    if ( strcmp(*argv, "-") == 0 )
 		fp_in = stdin;
 	    else if ( (fp_in = fopen(*argv, "r")) == NULL ) {
 		fprintf(stderr, "can't open %s\n", *argv);
 		exit(1);
 	    }	/* End if */
 	    crypt();
 	    if ( fp_in != stdin )
 		fclose(fp_in);
 	    argc--;
 	    argv++;
 	}   /* End while */

 }   /* End of arguments */

 /*****************************************************************************/

 crypt()

 {

     unsigned int	cypher;
     unsigned int	clear;

 /*
  *
  * Runs the encryption/decryption algorithm.
  *
  */

     while ( lastchar != EOF ) {
 	cypher = nextbyte();
 	clear = ((key >> 8) ^ cypher) & 0xFF;
 	key = (key + (mode == DECRYPT ? cypher : clear)) * MAGIC1 + MAGIC2;
 	if ( ++outoffset > 0 && lastchar != EOF ) {
 	    if ( output == HEX ) {
 		printf("%.2X", clear);
 		if ( linelength > 0 && (outoffset % linelength) == 0 )
 		    putchar('\n');
 	    } else putchar(clear);
 	}   /* End if */
     }	/* End while */

 }   /* End of crypt */

 /*****************************************************************************/

 nextbyte()

 {

     int		val = EOF;

 /*
  *
  * Returns the next byte. Uses cryptkey (i.e. what followed -e) while inoffset is
  * positive, otherwise reads (hex or binary) from fp_in.
  *
  */

     if ( inoffset-- > 0 )
 	val = (cryptkey >> (inoffset*8)) & 0xFF;
     else if ( input == HEX ) {
 	if ( (val = nexthexchar()) != EOF )
 	    val = (val << 4) | nexthexchar();
     } else if ( input == BINARY )
 	val = Getc(fp_in);

     return(val);

 }   /* End of nextbyte */

 /*****************************************************************************/

 nexthexchar()

 {

     int		ch;

 /*
  *
  * Reads the next hex character.
  *
  */

     while ( (ch = Getc(fp_in)) != EOF && ! isxdigit(ch) ) ;

     if ( isdigit(ch) )
 	ch -= '0';
     else if ( isupper(ch) )
 	ch -= 'A' - 10;
     else if ( islower(ch) )
 	ch -= 'a' - 10;

     return(ch);

 }   /* End of nexthexchar */

 /*****************************************************************************/

 Getc(fp)

     FILE	*fp;

 {

 /*
  *
  * Reads the next byte from *fp, sets lastchar, and returns the character.
  *
  */

     return(lastchar = getc(fp));

 }   /* End of Getc */

 /*****************************************************************************/
	/*
	*
	* Adobe's encryption/decryption algorithm for eexec and show. Runs in
	* eexec mode unless told otherwise. Use,
	*
	* pscrypt file.cypher > file.clear
	*
	* to decrypt eexec input. Assumes file.cypher is hex with the key as the
	* first four bytes, and writes file.clear as binary (omitting the key).
	* Use
	*
	* pscrypt -e12ab34ef file.clear >file.cypher
	*
	* to encrypt file.clear (for eexec) using 12ab34ef as the key. Input is
	* binary and output is hex. The key must be given as a hex number. Use
	* -sshow to encrypt or decrypt a CharString or Subr,
	*
	* pscrypt -sshow file.cypher > file.clear
	*
	* Use -b or -x to read binary or hex input, and -B or -X to output binary
	* or hex.
	*
	*/

	#include <stdio.h>
	#include <ctype.h>

	#define ENCRYPT 0
	#define DECRYPT 1

	#define NOTSET -1
	#define BINARY 0
	#define HEX 1
	#define LINELENGTH 40

	#define CHARSTRING 4330
	#define EEXEC 55665
	#define MAGIC1 52845
	#define MAGIC2 22719

	int argc;
	char **argv;

	int mode = DECRYPT;
	int input = NOTSET;
	int output = NOTSET;
	int outoffset = NOTSET;
	int inoffset = NOTSET;

	int cryptkey = 0; /* encryption key set with -e */
	int linelength = LINELENGTH; /* only for hex output */
	int lastchar = 0;

	unsigned long seed = EEXEC;
	unsigned long key;

	FILE *fp_in;

	/*****************************************************************************/

	main(agc, agv)

	int agc;
	char *agv[];

	{

	/*
	*
	* Implementation of the encryption/decryption used by eexec and show.
	*
	*/

	argc = agc;
	argv = agv;

	fp_in = stdin;

	options();
	initialize();
	arguments();

	exit(0);

	} /* End of main */

	/*****************************************************************************/

	options()

	{

	int ch;
	char *names = "bde:l:os:xBSX";

	extern char *optarg;
	extern int optind;

	/*
	*
	* Command line options.
	*
	*/

	while ( (ch = getopt(argc, argv, names)) != EOF )
	switch ( ch ) {
	case 'b': /* binary input */
	input = BINARY;
	break;

	case 'd': /* decrypt */
	mode = DECRYPT;
	break;

	case 'e': /* encrypt */
	mode = ENCRYPT;
	if ( optarg == '0' && optarg == 'x' )
	optarg += 2;
	sscanf(optarg, "%8x", &cryptkey);
	break;

	case 'l': /* line length hex output */
	linelength = atoi(optarg);
	break;

	case 'o': /* output all bytes - debugging */
	outoffset = 0;
	break;

	case 's': /* seed */
	if ( *optarg == 'e' )
	seed = EEXEC;
	else if ( *optarg == 's' )
	seed = CHARSTRING;
	else if ( optarg == '0' && (optarg+1) == 'x' )
	sscanf(optarg+2, "%x", &seed);
	else if ( *optarg == '0' )
	sscanf(optarg, "%o", &seed);
	else sscanf(optarg, "%d", &seed);
	break;

	case 'x': /* hex input */
	input = HEX;
	break;

	case 'B': /* binary output */
	output = BINARY;
	break;

	case 'X': /* hex output */
	output = HEX;
	break;

	case '?': /* don't understand the option */
	fprintf(stderr, "bad option -%c\n", ch);
	exit(1);
	break;

	default: /* don't know what to do for ch */
	fprintf(stderr, "missing case for option -%c\n", ch);
	exit(1);
	break;
	} /* End switch */

	argc -= optind; /* get ready for non-option args */
	argv += optind;

	} /* End of options */

	/*****************************************************************************/

	initialize()

	{

	/*
	*
	* Initialization that has to be done after the options.
	*
	*/

	key = seed;

	if ( mode == DECRYPT ) {
	input = (input == NOTSET) ? HEX : input;
	output = (output == NOTSET) ? BINARY : output;
	inoffset = (inoffset == NOTSET) ? 0 : inoffset;
	outoffset = (outoffset == NOTSET) ? -4 : outoffset;
	} else {
	input = (input == NOTSET) ? BINARY : input;
	output = (output == NOTSET) ? HEX : output;
	inoffset = (inoffset == NOTSET) ? 4 : inoffset;
	outoffset = (outoffset == NOTSET) ? 0 : outoffset;
	} /* End else */

	if ( linelength <= 0 )
	linelength = LINELENGTH;

	} /* End of initialize */

	/*****************************************************************************/

	arguments()

	{

	/*
	*
	* Everything left is an input file. No arguments or '-' means stdin.
	*
	*/

	if ( argc < 1 )
	crypt();
	else
	while ( argc > 0 ) {
	if ( strcmp(*argv, "-") == 0 )
	fp_in = stdin;
	else if ( (fp_in = fopen(*argv, "r")) == NULL ) {
	fprintf(stderr, "can't open %s\n", *argv);
	exit(1);
	} /* End if */
	crypt();
	if ( fp_in != stdin )
	fclose(fp_in);
	argc--;
	argv++;
	} /* End while */

	} /* End of arguments */

	/*****************************************************************************/

	crypt()

	{

	unsigned int cypher;
	unsigned int clear;

	/*
	*
	* Runs the encryption/decryption algorithm.
	*
	*/

	while ( lastchar != EOF ) {
	cypher = nextbyte();
	clear = ((key >> 8) ^ cypher) & 0xFF;
	key = (key + (mode == DECRYPT ? cypher : clear)) * MAGIC1 + MAGIC2;
	if ( ++outoffset > 0 && lastchar != EOF ) {
	if ( output == HEX ) {
	printf("%.2X", clear);
	if ( linelength > 0 && (outoffset % linelength) == 0 )
	putchar('\n');
	} else putchar(clear);
	} /* End if */
	} /* End while */

	} /* End of crypt */

	/*****************************************************************************/

	nextbyte()

	{

	int val = EOF;

	/*
	*
	* Returns the next byte. Uses cryptkey (i.e. what followed -e) while inoffset is
	* positive, otherwise reads (hex or binary) from fp_in.
	*
	*/

	if ( inoffset-- > 0 )
	val = (cryptkey >> (inoffset*8)) & 0xFF;
	else if ( input == HEX ) {
	if ( (val = nexthexchar()) != EOF )
	val = (val << 4) \| nexthexchar();
	} else if ( input == BINARY )
	val = Getc(fp_in);

	return(val);

	} /* End of nextbyte */

	/*****************************************************************************/

	nexthexchar()

	{

	int ch;

	/*
	*
	* Reads the next hex character.
	*
	*/

	while ( (ch = Getc(fp_in)) != EOF && ! isxdigit(ch) ) ;

	if ( isdigit(ch) )
	ch -= '0';
	else if ( isupper(ch) )
	ch -= 'A' - 10;
	else if ( islower(ch) )
	ch -= 'a' - 10;

	return(ch);

	} /* End of nexthexchar */

	/*****************************************************************************/

	Getc(fp)

	FILE *fp;

	{

	/*
	*
	* Reads the next byte from *fp, sets lastchar, and returns the character.
	*
	*/

	return(lastchar = getc(fp));

	} /* End of Getc */

	/*****************************************************************************/