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dumpasn1.c
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dumpasn1.c
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/* ASN.1 data display code, copyright Peter Gutmann
<[email protected]>, based on ASN.1 dump program by David Kemp,
with contributions from various people including Matthew Hamrick, Bruno
Couillard, Hallvard Furuseth, Geoff Thorpe, David Boyce, John Hughes,
'Life is hard, and then you die', Hans-Olof Hermansson, Tor Rustad,
Kjetil Barvik, James Sweeny, Chris Ridd, David Lemley, John Tobey, James
Manger and several other people whose names I've misplaced.
Available from http://www.cs.auckland.ac.nz/~pgut001/dumpasn1.c. Last
updated 8 June 2013 (version 20130608, if you prefer it that way).
To build under Windows, use 'cl /MD dumpasn1.c'. To build on OS390 or
z/OS, use '/bin/c89 -D OS390 -o dumpasn1 dumpasn1.c'.
This code grew slowly over time without much design or planning, and with
extra features being tacked on as required. It's not representative of my
normal coding style. cryptlib,
http://www.cs.auckland.ac.nz/~pgut001/cryptlib/, does a much better job of
checking ASN.1 than this does, since dumpasn1 is a display program written
to accept the widest possible range of input and not a compliance checker.
In other words it will bend over backwards to accept even invalid data,
since a common use for it is to try and locate encoding problems that lead
to invalid encoded data. While it will warn about some types of common
errors, the fact that dumpasn1 will display an ASN.1 data item doesn't mean
that the item is valid.
dumpasn1 requires a config file dumpasn1.cfg to be present in the same
location as the program itself or in a standard directory where binaries
live (it will run without it but will display a warning message, you can
configure the path either by hardcoding it in or using an environment
variable as explained further down). The config file is available from
http://www.cs.auckland.ac.nz/~pgut001/dumpasn1.cfg.
This code assumes that the input data is binary, having come from a MIME-
aware mailer or been piped through a decoding utility if the original
format used base64 encoding. If you need to decode it, it's recommended
that you use a utility like uudeview, which will strip virtually any kind
of encoding (MIME, PEM, PGP, whatever) to recover the binary original.
You can use this code in whatever way you want, as long as you don't try to
claim you wrote it.
Editing notes: Tabs to 4, phasers to malky (and in case anyone wants to
complain about that, see "Program Indentation and Comprehensiblity",
Richard Miara, Joyce Musselman, Juan Navarro, and Ben Shneiderman,
Communications of the ACM, Vol.26, No.11 (November 1983), p.861) */
#include <ctype.h>
#include <limits.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef OS390
#include <unistd.h>
#endif /* OS390 */
/* The update string, printed as part of the help screen */
#define UPDATE_STRING "8 June 2013"
/* Useful defines */
#ifndef TRUE
#define FALSE 0
#define TRUE ( !FALSE )
#endif /* TRUE */
#ifndef BYTE
typedef unsigned char BYTE;
#endif /* BYTE */
/* Tandem Guardian NonStop Kernel options */
#ifdef __TANDEM
#pragma nolist /* Spare us the source listing, no GUI... */
#pragma nowarn (1506) /* Implicit type conversion: int to char etc */
#endif /* __TANDEM */
/* SunOS 4.x doesn't define seek codes or exit codes or FILENAME_MAX (it does
define _POSIX_MAX_PATH, but in funny locations and to different values
depending on which include file you use). Strictly speaking this code
isn't right since we need to use PATH_MAX, however not all systems define
this, some use _POSIX_PATH_MAX, and then there are all sorts of variations
and other defines that you have to check, which require about a page of
code to cover each OS, so we just use max( FILENAME_MAX, 512 ) which
should work for everything */
#ifndef SEEK_SET
#define SEEK_SET 0
#define SEEK_CUR 2
#endif /* No fseek() codes defined */
#ifndef EXIT_FAILURE
#define EXIT_FAILURE 1
#define EXIT_SUCCESS ( !EXIT_FAILURE )
#endif /* No exit() codes defined */
#ifndef FILENAME_MAX
#define FILENAME_MAX 512
#else
#if FILENAME_MAX < 128
#undef FILENAME_MAX
#define FILENAME_MAX 512
#endif /* FILENAME_MAX < 128 */
#endif /* FILENAME_MAX */
/* Under Windows we can do special-case handling for paths and Unicode
strings (although in practice it can't really handle much except
latin-1) */
#if ( defined( _WINDOWS ) || defined( WIN32 ) || defined( _WIN32 ) || \
defined( __WIN32__ ) )
#include <windows.h>
#include <io.h> /* For _setmode() */
#include <fcntl.h> /* For _setmode() codes */
#ifndef _O_U16TEXT
#define _O_U16TEXT 0x20000 /* _setmode() code */
#endif /* !_O_U16TEXT */
#define __WIN32__
#endif /* Win32 */
/* Under Unix we can do special-case handling for paths and Unicode strings.
Detecting Unix systems is a bit tricky but the following should find most
versions. This define implicitly assumes that the system has wchar_t
support, but this is almost always the case except for very old systems,
so it's best to default to allow-all rather than deny-all */
#if defined( linux ) || defined( __linux__ ) || defined( sun ) || \
defined( __bsdi__ ) || defined( __FreeBSD__ ) || defined( __NetBSD__ ) || \
defined( __OpenBSD__ ) || defined( __hpux ) || defined( _M_XENIX ) || \
defined( __osf__ ) || defined( _AIX ) || defined( __MACH__ )
#define __UNIX__
#endif /* Every commonly-used Unix */
#if defined( linux ) || defined( __linux__ )
#ifndef __USE_ISOC99
#define __USE_ISOC99
#endif /* __USE_ISOC99 */
#include <wchar.h>
#endif /* Linux */
/* For IBM mainframe OSes we use the Posix environment, so it looks like
Unix */
#ifdef OS390
#define __OS390__
#define __UNIX__
#endif /* OS390 / z/OS */
/* Tandem NSK: Don't tangle with Tandem OSS, which is almost UNIX */
#ifdef __TANDEM
#ifdef _GUARDIAN_TARGET
#define __TANDEM_NSK__
#else
#define __UNIX__
#endif /* _GUARDIAN_TARGET */
#endif /* __TANDEM */
/* Some OS's don't define the min() macro */
#ifndef min
#define min(a,b) ( ( a ) < ( b ) ? ( a ) : ( b ) )
#endif /* !min */
/* Macros to avoid problems with sign extension */
#define byteToInt( x ) ( ( BYTE ) ( x ) )
/* The level of recursion can get scary for deeply-nested structures so we
use a larger-than-normal stack under DOS */
#ifdef __TURBOC__
extern unsigned _stklen = 16384;
#endif /* __TURBOC__ */
/* Turn off pointless VC++ warnings */
#ifdef _MSC_VER
#pragma warning( disable: 4018 )
#endif /* VC++ */
/* When we dump a nested data object encapsulated within a larger object, the
length is initially set to a magic value which is adjusted to the actual
length once we start parsing the object */
#define LENGTH_MAGIC 177545L
/* Tag classes */
#define CLASS_MASK 0xC0 /* Bits 8 and 7 */
#define UNIVERSAL 0x00 /* 0 = Universal (defined by ITU X.680) */
#define APPLICATION 0x40 /* 1 = Application */
#define CONTEXT 0x80 /* 2 = Context-specific */
#define PRIVATE 0xC0 /* 3 = Private */
/* Encoding type */
#define FORM_MASK 0x20 /* Bit 6 */
#define PRIMITIVE 0x00 /* 0 = primitive */
#define CONSTRUCTED 0x20 /* 1 = constructed */
/* Universal tags */
#define TAG_MASK 0x1F /* Bits 5 - 1 */
#define EOC 0x00 /* 0: End-of-contents octets */
#define BOOLEAN 0x01 /* 1: Boolean */
#define INTEGER 0x02 /* 2: Integer */
#define BITSTRING 0x03 /* 2: Bit string */
#define OCTETSTRING 0x04 /* 4: Byte string */
#define NULLTAG 0x05 /* 5: NULL */
#define OID 0x06 /* 6: Object Identifier */
#define OBJDESCRIPTOR 0x07 /* 7: Object Descriptor */
#define EXTERNAL 0x08 /* 8: External */
#define REAL 0x09 /* 9: Real */
#define ENUMERATED 0x0A /* 10: Enumerated */
#define EMBEDDED_PDV 0x0B /* 11: Embedded Presentation Data Value */
#define UTF8STRING 0x0C /* 12: UTF8 string */
#define SEQUENCE 0x10 /* 16: Sequence/sequence of */
#define SET 0x11 /* 17: Set/set of */
#define NUMERICSTRING 0x12 /* 18: Numeric string */
#define PRINTABLESTRING 0x13 /* 19: Printable string (ASCII subset) */
#define T61STRING 0x14 /* 20: T61/Teletex string */
#define VIDEOTEXSTRING 0x15 /* 21: Videotex string */
#define IA5STRING 0x16 /* 22: IA5/ASCII string */
#define UTCTIME 0x17 /* 23: UTC time */
#define GENERALIZEDTIME 0x18 /* 24: Generalized time */
#define GRAPHICSTRING 0x19 /* 25: Graphic string */
#define VISIBLESTRING 0x1A /* 26: Visible string (ASCII subset) */
#define GENERALSTRING 0x1B /* 27: General string */
#define UNIVERSALSTRING 0x1C /* 28: Universal string */
#define BMPSTRING 0x1E /* 30: Basic Multilingual Plane/Unicode string */
/* Length encoding */
#define LEN_XTND 0x80 /* Indefinite or long form */
#define LEN_MASK 0x7F /* Bits 7 - 1 */
/* Various special-case operations to perform on strings */
typedef enum {
STR_NONE, /* No special handling */
STR_UTCTIME, /* Check it's UTCTime */
STR_GENERALIZED, /* Check it's GeneralizedTime */
STR_PRINTABLE, /* Check it's a PrintableString */
STR_IA5, /* Check it's an IA5String */
STR_LATIN1, /* Read and display string as latin-1 */
STR_BMP, /* Read and display string as Unicode */
STR_BMP_REVERSED /* STR_BMP with incorrect endianness */
} STR_OPTION;
/* Structure to hold info on an ASN.1 item */
typedef struct {
int id; /* Tag class + primitive/constructed */
int tag; /* Tag */
long length; /* Data length */
int indefinite; /* Item has indefinite length */
int nonCanonical; /* Non-canonical length encoding used */
BYTE header[ 16 ]; /* Tag+length data */
int headerSize; /* Size of tag+length */
} ASN1_ITEM;
/* Configuration options */
static int printDots = FALSE; /* Whether to print dots to align columns */
static int doPure = FALSE; /* Print data without LHS info column */
static int doDumpHeader = FALSE; /* Dump tag+len in hex (level = 0, 1, 2) */
static int extraOIDinfo = FALSE; /* Print extra information about OIDs */
static int doHexValues = FALSE; /* Display size, offset in hex not dec.*/
static int useStdin = FALSE; /* Take input from stdin */
static int zeroLengthAllowed = FALSE;/* Zero-length items allowed */
static int dumpText = FALSE; /* Dump text alongside hex data */
static int printAllData = FALSE; /* Whether to print all data in long blocks */
static int checkEncaps = TRUE; /* Print encaps.data in BIT/OCTET STRINGs */
static int checkCharset = TRUE; /* Check val.of char strs.hidden in OCTET STRs */
#ifndef __OS390__
static int reverseBitString = TRUE; /* Print BIT STRINGs in natural order */
#else
static int reverseBitString = FALSE;/* Natural order on OS390 is the same as ASN.1 */
#endif /* __OS390__ */
static int rawTimeString = FALSE; /* Print raw time strings */
static int shallowIndent = FALSE; /* Perform shallow indenting */
static int outputWidth = 80; /* 80-column display */
static int maxNestLevel = 100; /* Maximum nesting level for which to display output */
static int doOutlineOnly = FALSE; /* Only display constructed-object outline */
/* Formatting information used for the fixed informational column to the
left of the displayed data */
static int infoWidth = 4;
static const char *indentStringTbl[] = {
NULL, NULL, NULL,
" : ", /* "xxx xxx: " (3) */
" : ", /* "xxxx xxxx: " (4) */
" : ", /* "xxxxx xxxxx: " (5) */
" : ", /* "xxxxxx xxxxxx: " (6) */
" : ", /* "xxxxxxx xxxxxxx: " (7) */
" : ", /* "xxxxxxxx xxxxxxxx: " (8) */
"", "", "", ""
};
static const char *lenTbl[] = {
NULL, NULL, NULL,
"%3ld %3ld: ", "%4ld %4ld: ", "%5ld %5ld: ",
"%6ld %6ld: ", "%7ld %7ld: ", "%8ld %8ld: ",
"", "", "", ""
};
static const char *lenIndefTbl[] = {
NULL, NULL, NULL,
"%3ld NDF: ", "%4ld NDEF: ", "%5ld INDEF: ",
"%6ld INDEF : ", "%7ld INDEF : ", "%8ld INDEF : ",
"", "", "", ""
};
static const char *lenHexTbl[] = {
NULL, NULL, NULL,
"%03lX %3lX: ", "%04lX %4lX: ", "%05lX %5lX: ",
"%06lX %6lX: ", "%07lX %7lX: ", "%08lX %8lX: ",
"", "", "", ""
};
static const char *lenHexIndefTbl[] = {
NULL, NULL, NULL,
"%03lX NDF: ", "%04lX NDEF: ", "%05lX INDEF: ",
"%06lX INDEF : ", "%07lX INDEF : ", "%08lX INDEF : ",
"", "", "", ""
};
#define INDENT_SIZE ( infoWidth + 1 + infoWidth + 1 + 1 )
#define INDENT_STRING indentStringTbl[ infoWidth ]
#define LEN lenTbl[ infoWidth ]
#define LEN_INDEF lenIndefTbl[ infoWidth ]
#define LEN_HEX lenHexTbl[ infoWidth ]
#define LEN_HEX_INDEF lenHexIndefTbl[ infoWidth ]
/* Error and warning information */
static int noErrors = 0; /* Number of errors found */
static int noWarnings = 0; /* Number of warnings */
/* Position in the input stream */
static int fPos = 0; /* Absolute position in data */
/* The output stream */
static FILE *output; /* Output stream */
/* Information on an ASN.1 Object Identifier */
#define MAX_OID_SIZE 32
typedef struct tagOIDINFO {
struct tagOIDINFO *next; /* Next item in list */
BYTE oid[ MAX_OID_SIZE ];
int oidLength;
char *comment, *description; /* Name, rank, serial number */
int warn; /* Whether to warn if OID encountered */
} OIDINFO;
static OIDINFO *oidList = NULL;
/* If the config file isn't present in the current directory, we search the
following paths (this is needed for Unix with dumpasn1 somewhere in the
path, since this doesn't set up argv[0] to the full path). Anything
beginning with a '$' uses the appropriate environment variable. In
addition under Unix we also walk down $PATH looking for it */
#ifdef __TANDEM_NSK__
#define CONFIG_NAME "asn1cfg"
#else
#define CONFIG_NAME "dumpasn1.cfg"
#endif /* __TANDEM_NSK__ */
#if defined( __TANDEM_NSK__ )
static const char *configPaths[] = {
"$system.security", "$system.system",
NULL
};
#elif defined( __WIN32__ )
static const char *configPaths[] = {
/* Windoze absolute paths (yeah, this code has been around for awhile,
why do you ask?) */
"c:\\windows\\", "c:\\winnt\\",
/* It's my program, I'm allowed to hardcode in strange paths that no-one
else uses */
"c:\\program files\\bin\\",
"c:\\program files (x86)\\bin\\",
/* This one seems to be popular as well */
"c:\\program files\\utilities\\",
"c:\\program files (x86)\\utilities\\",
/* General environment-based paths */
"$DUMPASN1_PATH/",
NULL
};
#elif defined( __OS390__ )
static const char *configPaths[] = {
/* General environment-based paths */
"$DUMPASN1_PATH/",
NULL
};
#else
static const char *configPaths[] = {
#ifndef DEBIAN
/* Unix absolute paths */
"/usr/bin/", "/usr/local/bin/", "/etc/dumpasn1/",
/* Unix environment-based paths */
"$HOME/", "$HOME/bin/",
/* It's my program, I'm allowed to hardcode in strange paths that no-one
else uses */
"$HOME/BIN/",
#else
/* Debian has specific places where you're supposed to dump things. Note
the dot after $HOME, since config files are supposed to start with a
dot for Debian */
"$HOME/.", "/etc/dumpasn1/",
#endif /* DEBIAN-specific paths */
/* General environment-based paths */
"$DUMPASN1_PATH/",
NULL
};
#endif /* OS-specific search paths */
#define isEnvTerminator( c ) \
( ( ( c ) == '/' ) || ( ( c ) == '.' ) || ( ( c ) == '$' ) || \
( ( c ) == '\0' ) || ( ( c ) == '~' ) )
/****************************************************************************
* *
* Object Identification/Description Routines *
* *
****************************************************************************/
/* Return descriptive strings for universal tags */
static char *idstr( const int tagID )
{
switch( tagID )
{
case EOC:
return( "End-of-contents octets" );
case BOOLEAN:
return( "BOOLEAN" );
case INTEGER:
return( "INTEGER" );
case BITSTRING:
return( "BIT STRING" );
case OCTETSTRING:
return( "OCTET STRING" );
case NULLTAG:
return( "NULL" );
case OID:
return( "OBJECT IDENTIFIER" );
case OBJDESCRIPTOR:
return( "ObjectDescriptor" );
case EXTERNAL:
return( "EXTERNAL" );
case REAL:
return( "REAL" );
case ENUMERATED:
return( "ENUMERATED" );
case EMBEDDED_PDV:
return( "EMBEDDED PDV" );
case UTF8STRING:
return( "UTF8String" );
case SEQUENCE:
return( "SEQUENCE" );
case SET:
return( "SET" );
case NUMERICSTRING:
return( "NumericString" );
case PRINTABLESTRING:
return( "PrintableString" );
case T61STRING:
return( "TeletexString" );
case VIDEOTEXSTRING:
return( "VideotexString" );
case IA5STRING:
return( "IA5String" );
case UTCTIME:
return( "UTCTime" );
case GENERALIZEDTIME:
return( "GeneralizedTime" );
case GRAPHICSTRING:
return( "GraphicString" );
case VISIBLESTRING:
return( "VisibleString" );
case GENERALSTRING:
return( "GeneralString" );
case UNIVERSALSTRING:
return( "UniversalString" );
case BMPSTRING:
return( "BMPString" );
default:
return( "Unknown (Reserved)" );
}
}
/* Return information on an object identifier */
static OIDINFO *getOIDinfo( const BYTE *oid, const int oidLength )
{
const BYTE oidByte = oid[ 1 ];
OIDINFO *oidPtr;
for( oidPtr = oidList; oidPtr != NULL; oidPtr = oidPtr->next )
{
if( oidLength != oidPtr->oidLength - 2 )
continue; /* Quick-reject check */
if( oidByte != oidPtr->oid[ 2 + 1 ] )
continue; /* Quick-reject check */
if( !memcmp( oidPtr->oid + 2, oid, oidLength ) )
return( oidPtr );
}
return( NULL );
}
/* Add an OID attribute */
static int addAttribute( char **buffer, char *attribute )
{
if( ( *buffer = ( char * ) malloc( strlen( attribute ) + 1 ) ) == NULL )
{
puts( "Out of memory." );
return( FALSE );
}
strcpy( *buffer, attribute );
return( TRUE );
}
/* Table to identify valid string chars (taken from cryptlib). Note that
IA5String also allows control chars, but we warn about these since
finding them in a certificate is a sign that there's something
seriously wrong */
#define P 1 /* PrintableString */
#define I 2 /* IA5String */
#define PI 3 /* IA5String and PrintableString */
static int charFlags[] = {
/* 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
/* 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F */
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
/* ! " # $ % & ' ( ) * + , - . / */
PI, I, I, I, I, I, I, PI, PI, PI, I, PI, PI, PI, PI, PI,
/* 0 1 2 3 4 5 6 7 8 9 : ; < = > ? */
PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, I, I, PI, I, PI,
/* @ A B C D E F G H I J K L M N O */
I, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI,
/* P Q R S T U V W X Y Z [ \ ] ^ _ */
PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, I, I, I, I, I,
/* ` a b c d e f g h i j k l m n o */
I, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI,
/* p q r s t u v w x y z { | } ~ DL */
PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, PI, I, I, I, I, 0
};
static int isPrintable( int ch )
{
if( ch >= 128 || !( charFlags[ ch ] & P ) )
return( FALSE );
return( TRUE );
}
static int isIA5( int ch )
{
if( ch >= 128 || !( charFlags[ ch ] & I ) )
return( FALSE );
return( TRUE );
}
/****************************************************************************
* *
* Config File Read Routines *
* *
****************************************************************************/
/* Files coming from DOS/Windows systems may have a ^Z (the CP/M EOF char)
at the end, so we need to filter this out */
#define CPM_EOF 0x1A /* ^Z = CPM EOF char */
/* The maximum input line length */
#define MAX_LINESIZE 512
/* Read a line of text from the config file */
static int lineNo;
static int readLine( FILE *file, char *buffer )
{
int bufCount = 0, ch;
/* Skip whitespace */
while( ( ( ch = getc( file ) ) == ' ' || ch == '\t' ) && !feof( file ) );
/* Get a line into the buffer */
while( ch != '\r' && ch != '\n' && ch != CPM_EOF && !feof( file ) )
{
/* Check for an illegal char in the data. Note that we don't just
check for chars with high bits set because these are legal in
non-ASCII strings */
if( !isprint( ch ) )
{
printf( "Bad character '%c' in config file line %d.\n",
ch, lineNo );
return( FALSE );
}
/* Check to see if it's a comment line */
if( ch == '#' && !bufCount )
{
/* Skip comment section and trailing whitespace */
while( ch != '\r' && ch != '\n' && ch != CPM_EOF && !feof( file ) )
ch = getc( file );
break;
}
/* Make sure that the line is of the correct length */
if( bufCount > MAX_LINESIZE )
{
printf( "Config file line %d too long.\n", lineNo );
return( FALSE );
}
else
if( ch ) /* Can happen if we read a binary file */
buffer[ bufCount++ ] = ch;
/* Get next character */
ch = getc( file );
}
/* If we've just passed a CR, check for a following LF */
if( ch == '\r' )
{
if( ( ch = getc( file ) ) != '\n' )
ungetc( ch, file );
}
/* Skip trailing whitespace and add der terminador */
while( bufCount > 0 &&
( ( ch = buffer[ bufCount - 1 ] ) == ' ' || ch == '\t' ) )
bufCount--;
buffer[ bufCount ] = '\0';
/* Handle special-case of ^Z if file came off an MSDOS system */
if( ch == CPM_EOF )
{
while( !feof( file ) )
{
/* Keep going until we hit the true EOF (or some sort of error) */
( void ) getc( file );
}
}
return( ferror( file ) ? FALSE : TRUE );
}
/* Process an OID specified as space-separated decimal or hex digits */
static int processOID( OIDINFO *oidInfo, char *string )
{
BYTE binaryOID[ MAX_OID_SIZE ];
long value;
int firstValue, valueIndex = 0, oidIndex = 3;
memset( binaryOID, 0, MAX_OID_SIZE );
binaryOID[ 0 ] = OID;
while( *string && oidIndex < MAX_OID_SIZE )
{
if( oidIndex >= MAX_OID_SIZE - 4 )
{
printf( "Excessively long OID in config file line %d.\n",
lineNo );
return( FALSE );
}
if( sscanf( string, "%8ld", &value ) != 1 || value < 0 )
{
printf( "Invalid value in config file line %d.\n", lineNo );
return( FALSE );
}
if( valueIndex == 0 )
{
firstValue = value;
valueIndex++;
}
else
{
if( valueIndex == 1 )
{
if( firstValue < 0 || firstValue > 2 || value < 0 || \
( ( firstValue < 2 && value > 39 ) || \
( firstValue == 2 && value > 175 ) ) )
{
printf( "Invalid value in config file line %d.\n",
lineNo );
return( FALSE );
}
binaryOID[ 2 ] = ( firstValue * 40 ) + ( int ) value;
valueIndex++;
}
else
{
int hasHighBits = FALSE;
if( value >= 0x200000L ) /* 2^21 */
{
binaryOID[ oidIndex++ ] = 0x80 | ( int ) ( value >> 21 );
value %= 0x200000L;
hasHighBits = TRUE;
}
if( ( value >= 0x4000 ) || hasHighBits ) /* 2^14 */
{
binaryOID[ oidIndex++ ] = 0x80 | ( int ) ( value >> 14 );
value %= 0x4000;
hasHighBits = TRUE;
}
if( ( value >= 0x80 ) || hasHighBits ) /* 2^7 */
{
binaryOID[ oidIndex++ ] = 0x80 | ( int ) ( value >> 7 );
value %= 128;
}
binaryOID[ oidIndex++ ] = ( int ) value;
}
}
while( *string && isdigit( byteToInt( *string ) ) )
string++;
if( *string && *string++ != ' ' )
{
printf( "Invalid OID string in config file line %d.\n", lineNo );
return( FALSE );
}
}
binaryOID[ 1 ] = oidIndex - 2;
memcpy( oidInfo->oid, binaryOID, oidIndex );
oidInfo->oidLength = oidIndex;
return( TRUE );
}
static int processHexOID( OIDINFO *oidInfo, char *string )
{
int value, index = 0;
while( *string && index < MAX_OID_SIZE - 1 )
{
if( sscanf( string, "%4x", &value ) != 1 || value > 255 )
{
printf( "Invalid hex value in config file line %d.\n", lineNo );
return( FALSE );
}
oidInfo->oid[ index++ ] = value;
string += 2;
if( *string && *string++ != ' ' )
{
printf( "Invalid hex string in config file line %d.\n", lineNo );
return( FALSE );
}
}
oidInfo->oid[ index ] = 0;
oidInfo->oidLength = index;
if( index >= MAX_OID_SIZE - 1 )
{
printf( "OID value in config file line %d too long.\n", lineNo );
return( FALSE );
}
return( TRUE );
}
/* Read a config file */
static int readConfig( const char *path, const int isDefaultConfig )
{
OIDINFO dummyOID = { NULL, "Dummy", 0, "Dummy", "Dummy", 1 }, *oidPtr;
FILE *file;
int seenHexOID = FALSE;
char buffer[ MAX_LINESIZE ];
int status;
/* Try and open the config file */
if( ( file = fopen( path, "rb" ) ) == NULL )
{
/* If we can't open the default config file, issue a warning but
continue anyway */
if( isDefaultConfig )
{
puts( "Cannot open config file 'dumpasn1.cfg', which should be in the same" );
puts( "directory as the dumpasn1 program, a standard system directory, or" );
puts( "in a location pointed to by the DUMPASN1_PATH environment variable." );
puts( "Operation will continue without the ability to display Object " );
puts( "Identifier information." );
puts( "" );
puts( "If the config file is located elsewhere, you can set the environment" );
puts( "variable DUMPASN1_PATH to the path to the file." );
return( TRUE );
}
printf( "Cannot open config file '%s'.\n", path );
return( FALSE );
}
/* Add the new config entries at the appropriate point in the OID list */
if( oidList == NULL )
oidPtr = &dummyOID;
else
for( oidPtr = oidList; oidPtr->next != NULL; oidPtr = oidPtr->next );
/* Read each line in the config file */
lineNo = 1;
while( ( status = readLine( file, buffer ) ) == TRUE && !feof( file ) )
{
/* If it's a comment line, skip it */
if( !*buffer )
{
lineNo++;
continue;
}
/* Check for an attribute tag */
if( !strncmp( buffer, "OID = ", 6 ) )
{
/* Make sure that all of the required attributes for the current
OID are present */
if( oidPtr->description == NULL )
{
printf( "OID ending on config file line %d has no "
"description attribute.\n", lineNo - 1 );
return( FALSE );
}
/* Allocate storage for the new OID */
if( ( oidPtr->next = ( OIDINFO * ) malloc( sizeof( OIDINFO ) ) ) == NULL )
{
puts( "Out of memory." );
return( FALSE );
}
oidPtr = oidPtr->next;
if( oidList == NULL )
oidList = oidPtr;
memset( oidPtr, 0, sizeof( OIDINFO ) );
/* Add the new OID */
if( !strncmp( buffer + 6, "06", 2 ) )
{
seenHexOID = TRUE;
if( !processHexOID( oidPtr, buffer + 6 ) )
return( FALSE );
}
else
{
if( !processOID( oidPtr, buffer + 6 ) )
return( FALSE );
}
/* Check that this OID isn't already present in the OID list.
This is a quick-and-dirty n^2 algorithm so it's not enabled
by default */
#if 0
{
OIDINFO *oidCursor;
for( oidCursor = oidList; oidCursor->next != NULL; oidCursor = oidCursor->next )
{
if( oidCursor->oidLength == oidPtr->oidLength && \
!memcmp( oidCursor->oid, oidPtr->oid, oidCursor->oidLength ) )
{
printf( "Duplicate OID '%s' at line %d.\n",
buffer, lineNo );
}
}
}
#endif /* 0 */
}
else if( !strncmp( buffer, "Description = ", 14 ) )
{
if( oidPtr->description != NULL )
{
printf( "Duplicate OID description in config file line %d.\n",
lineNo );
return( FALSE );
}
if( !addAttribute( &oidPtr->description, buffer + 14 ) )
return( FALSE );
}
else if( !strncmp( buffer, "Comment = ", 10 ) )
{
if( oidPtr->comment != NULL )
{
printf( "Duplicate OID comment in config file line %d.\n",
lineNo );
return( FALSE );
}
if( !addAttribute( &oidPtr->comment, buffer + 10 ) )
return( FALSE );
}
else if( !strncmp( buffer, "Warning", 7 ) )
{
if( oidPtr->warn )
{
printf( "Duplicate OID warning in config file line %d.\n",
lineNo );
return( FALSE );
}
oidPtr->warn = TRUE;
}
else
{
printf( "Unrecognised attribute '%s', line %d.\n", buffer,
lineNo );
return( FALSE );
}
lineNo++;
}
fclose( file );
/* If we're processing an old-style config file, tell the user to
upgrade */
if( seenHexOID )
{
puts( "\nWarning: Use of old-style hex OIDs detected in "
"configuration file, please\n update your dumpasn1 "
"configuration file.\n" );
}
return( status );
}
/* Check for the existence of a config file path (access() isn't available
on all systems) */
static int testConfigPath( const char *path )
{
FILE *file;
/* Try and open the config file */
if( ( file = fopen( path, "rb" ) ) == NULL )
return( FALSE );
fclose( file );
return( TRUE );
}
/* Build a config path by substituting environment strings for $NAMEs */
static void buildConfigPath( char *path, const char *pathTemplate )
{
char pathBuffer[ FILENAME_MAX ], newPath[ FILENAME_MAX ];
int pathLen, pathPos = 0, newPathPos = 0;
/* Add the config file name at the end */
strcpy( pathBuffer, pathTemplate );
strcat( pathBuffer, CONFIG_NAME );
pathLen = strlen( pathBuffer );
while( pathPos < pathLen )
{
char *strPtr;
int substringSize;
/* Find the next $ and copy the data before it to the new path */
if( ( strPtr = strstr( pathBuffer + pathPos, "$" ) ) != NULL )
substringSize = ( int ) ( ( strPtr - pathBuffer ) - pathPos );
else
substringSize = pathLen - pathPos;
if( substringSize > 0 )
{
memcpy( newPath + newPathPos, pathBuffer + pathPos,
substringSize );
}
newPathPos += substringSize;
pathPos += substringSize;
/* Get the environment string for the $NAME */
if( strPtr != NULL )
{
char envName[ MAX_LINESIZE ], *envString;
int i;
/* Skip the '$', find the end of the $NAME, and copy the name
into an internal buffer */
pathPos++; /* Skip the $ */
for( i = 0; !isEnvTerminator( pathBuffer[ pathPos + i ] ); i++ );
memcpy( envName, pathBuffer + pathPos, i );
envName[ i ] = '\0';