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mapcrypto.c
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mapcrypto.c
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/******************************************************************************
* $Id$
*
* Project: MapServer
* Purpose: Encryption functions (see MS-RFC-18)
* Author: Daniel Morissette
*
******************************************************************************
* Copyright (c) 1996-2006 Regents of the University of Minnesota.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies of this Software or works derived from this Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
****************************************************************************/
#include <assert.h>
#include <ctype.h> /* isxdigit() */
#include <stdlib.h> /* rand() */
#include <time.h> /* time() */
#include "mapserver.h"
#include "cpl_conv.h"
/**********************************************************************
* encipher() and decipher() from the Tiny Encryption Algorithm (TEA)
* website at:
* http://www.simonshepherd.supanet.com/tea.htm
*
* TEA was developed and placed in the public domain by David Wheeler
* and Roger Needham at the Computer Laboratory of Cambridge University.
*
* The source below came with the following public domain notice:
*
* "Please feel free to use any of this code in your applications.
* The TEA algorithm (including new-variant TEA) has been placed
* in the public domain, as have my assembly language implementations."
*
* ... and the following usage notes:
*
* All the routines have the general form
*
* void encipher(const unsigned long *const v,unsigned long *const w,
* const unsigned long * const k);
*
* void decipher(const unsigned long *const v,unsigned long *const w,
* const unsigned long * const k);
*
* TEA takes 64 bits of data in v[0] and v[1], and 128 bits of key in
* k[0] - k[3]. The result is returned in w[0] and w[1]. Returning the
* result separately makes implementation of cipher modes other than
* Electronic Code Book a little bit easier.
*
* TEA can be operated in any of the modes of DES.
*
* n is the number of iterations. 32 is ample, 16 is sufficient, as few
* as eight should be OK for most applications, especially ones where
* the data age quickly (real-time video, for example). The algorithm
* achieves good dispersion after six iterations. The iteration count
* can be made variable if required.
*
* Note this algorithm is optimised for 32-bit CPUs with fast shift
* capabilities. It can very easily be ported to assembly language
* on most CPUs.
*
* delta is chosen to be the Golden ratio ((5/4)1/2 - 1/2 ~ 0.618034)
* multiplied by 232. On entry to decipher(), sum is set to be delta * n.
* Which way round you call the functions is arbitrary: DK(EK(P)) = EK(DK(P))
* where EK and DK are encryption and decryption under key K respectively.
*
**********************************************************************/
static void encipher(const ms_uint32 *const v, ms_uint32 *const w,
const ms_uint32 *const k)
{
register ms_uint32 y=v[0],z=v[1],sum=0,delta=0x9E3779B9,n=32;
while(n-->0) {
y += ((z << 4 ^ z >> 5) + z) ^ (sum + k[sum&3]);
sum += delta;
z += ((y << 4 ^ y >> 5) + y) ^ (sum + k[sum>>11 & 3]);
}
w[0]=y;
w[1]=z;
}
static void decipher(const ms_uint32 *const v, ms_uint32 *const w,
const ms_uint32 *const k)
{
register ms_uint32 y=v[0],z=v[1],sum=0xC6EF3720, delta=0x9E3779B9,n=32;
/* sum = delta<<5, in general sum = delta * n */
while(n-->0) {
z -= ((y << 4 ^ y >> 5) + y) ^ (sum + k[sum>>11 & 3]);
sum -= delta;
y -= ((z << 4 ^ z >> 5) + z) ^ (sum + k[sum&3]);
}
w[0]=y;
w[1]=z;
}
/**********************************************************************
* msHexEncode()
*
* Hex-encode numbytes from in[] and return the result in out[].
*
* out[] should be preallocated by the caller to be at least 2*numbytes+1
* (+1 for the terminating '\0')
**********************************************************************/
void msHexEncode(const unsigned char *in, char *out, int numbytes)
{
char *hex = "0123456789ABCDEF";
while (numbytes-- > 0) {
*out++ = hex[*in/16];
*out++ = hex[*in%16];
in++;
}
*out = '\0';
}
/**********************************************************************
* msHexDecode()
*
* Hex-decode numchars from in[] and return the result in out[].
*
* If numchars > 0 then only up to this number of chars from in[] are
* processed, otherwise the full in[] string up to the '\0' is processed.
*
* out[] should be preallocated by the caller to be large enough to hold
* the resulting bytes.
*
* Returns the number of bytes written to out[] which may be different from
* numchars/2 if an error or a '\0' is encountered.
**********************************************************************/
int msHexDecode(const char *in, unsigned char *out, int numchars)
{
int numbytes_out = 0;
/* Make sure numchars is even */
numchars = (numchars/2) * 2;
if (numchars < 2)
numchars = -1; /* Will result in this value being ignored in the loop*/
while (*in != '\0' && *(in+1) != '\0' && numchars != 0) {
*out = 0x10 * (*in >= 'A' ? ((*in & 0xdf) - 'A')+10 : (*in - '0'));
in++;
*out += (*in >= 'A' ? ((*in & 0xdf) - 'A')+10 : (*in - '0'));
in++;
out++;
numbytes_out++;
numchars -= 2;
}
return numbytes_out;
}
/**********************************************************************
* msGenerateEncryptionKey()
*
* Create a new encryption key.
*
* The output buffer should be at least MS_ENCRYPTION_KEY_SIZE bytes.
**********************************************************************/
int msGenerateEncryptionKey(unsigned char *k)
{
int i;
/* Use current time as seed for rand() */
srand( (unsigned int) time( NULL ));
for(i=0; i<MS_ENCRYPTION_KEY_SIZE; i++)
{
/* coverity[dont_call] */
k[i] = (unsigned char)rand();
}
return MS_SUCCESS;
}
/**********************************************************************
* msReadEncryptionKeyFromFile()
*
* Read and decode hex-encoded encryption key from file and returns the
* key in the 'unsigned char k[MS_ENCRYPTION_KEY_SIZE]' buffer that is
* provided by the caller.
*
* Returns MS_SUCCESS/MS_FAILURE.
**********************************************************************/
int msReadEncryptionKeyFromFile(const char *keyfile, unsigned char *k)
{
FILE *fp;
char szBuf[100];
int numchars;
if ((fp = fopen(keyfile, "rt")) == NULL) {
msSetError(MS_MISCERR, "Cannot open key file.",
"msReadEncryptionKeyFromFile()");
return MS_FAILURE;
}
numchars = fread(szBuf, sizeof(unsigned char), MS_ENCRYPTION_KEY_SIZE*2, fp);
fclose(fp);
szBuf[MS_ENCRYPTION_KEY_SIZE*2] = '\0';
if (numchars != MS_ENCRYPTION_KEY_SIZE*2) {
msSetError(MS_MISCERR, "Invalid key file, got %d chars, expected %d.",
"msReadEncryptionKeyFromFile()",
numchars, MS_ENCRYPTION_KEY_SIZE*2);
return MS_FAILURE;
}
msHexDecode(szBuf, k, MS_ENCRYPTION_KEY_SIZE*2);
return MS_SUCCESS;
}
/**********************************************************************
* msLoadEncryptionKey()
*
* Load and decode hex-encoded encryption key from file and returns the
* key in the 'unsigned char k[MS_ENCRYPTION_KEY_SIZE]' buffer that is
* provided by the caller.
*
* The first time that msLoadEncryptionKey() is called for a given mapObj
* it will load the encryption key and cache it in mapObj->encryption_key.
* If the key is already set in the mapObj then it does nothing and returns.
*
* The location of the encryption key can be specified in two ways,
* either by setting the environment variable MS_ENCRYPTION_KEY or using
* a CONFIG directive:
* CONFIG MS_ENCRYPTION_KEY "/path/to/mykey.txt"
* Returns MS_SUCCESS/MS_FAILURE.
**********************************************************************/
static int msLoadEncryptionKey(mapObj *map)
{
const char *keyfile;
if (map == NULL) {
msSetError(MS_MISCERR, "NULL MapObj.", "msLoadEncryptionKey()");
return MS_FAILURE;
}
if (map->encryption_key_loaded)
return MS_SUCCESS; /* Already loaded */
keyfile = msGetConfigOption(map, "MS_ENCRYPTION_KEY");
if(!keyfile) keyfile = CPLGetConfigOption("MS_ENCRYPTION_KEY", NULL);
if (keyfile &&
msReadEncryptionKeyFromFile(keyfile,map->encryption_key) == MS_SUCCESS) {
map->encryption_key_loaded = MS_TRUE;
} else {
msSetError(MS_MISCERR, "Failed reading encryption key. Make sure "
"MS_ENCRYPTION_KEY is set and points to a valid key file.",
"msLoadEncryptionKey()");
return MS_FAILURE;
}
return MS_SUCCESS;
}
/**********************************************************************
* msEncryptStringWithKey()
*
* Encrypts and hex-encodes the contents of string in[] and returns the
* result in out[] which should have been pre-allocated by the caller
* to be at least twice the size of in[] + 16+1 bytes (for padding + '\0').
*
**********************************************************************/
void msEncryptStringWithKey(const unsigned char *key, const char *in, char *out)
{
ms_uint32 v[4], w[4];
const ms_uint32 *k;
int last_block = MS_FALSE;
/* Casting the key this way is safe only as long as longs are 4 bytes
* on this platform */
assert(sizeof(ms_uint32) == 4);
k = (const ms_uint32 *) key;
while(!last_block) {
int i, j;
/* encipher() takes v[2] (64 bits) as input.
* Copy bytes from in[] to the v[2] input array (pair of 4 bytes)
* v[] is padded with zeros if string doesn't align with 8 bytes
*/
v[0] = 0;
v[1] = 0;
for(i=0; !last_block && i<2; i++) {
for(j=0; j<4; j++) {
if (*in == '\0') {
last_block = MS_TRUE;
break;
}
v[i] |= *in << (j*8);
in++;
}
}
if (*in == '\0')
last_block = MS_TRUE;
/* Do the actual encryption */
encipher(v, w, k);
/* Append hex-encoded bytes to output, 4 bytes at a time */
msHexEncode((unsigned char *)w, out, 4);
out += 8;
msHexEncode((unsigned char *)(w+1), out, 4);
out += 8;
}
/* Make sure output is 0-terminated */
*out = '\0';
}
/**********************************************************************
* msDecryptStringWithKey()
*
* Hex-decodes and then decrypts the contents of string in[] and returns the
* result in out[] which should have been pre-allocated by the caller
* to be at least half the size of in[].
*
**********************************************************************/
void msDecryptStringWithKey(const unsigned char *key, const char *in, char *out)
{
ms_uint32 v[4], w[4];
const ms_uint32 *k;
int last_block = MS_FALSE;
/* Casting the key this way is safe only as long as longs are 4 bytes
* on this platform */
assert(sizeof(ms_uint32) == 4);
k = (const ms_uint32 *) key;
while(!last_block) {
int i;
/* decipher() takes v[2] (64 bits) as input.
* Copy bytes from in[] to the v[2] input array (pair of 4 bytes)
* v[] is padded with zeros if string doesn't align with 8 bytes
*/
v[0] = 0;
v[1] = 0;
if (msHexDecode(in, (unsigned char *)v, 8) != 4)
last_block = MS_TRUE;
else {
in += 8;
if (msHexDecode(in, (unsigned char *)(v+1), 8) != 4)
last_block = MS_TRUE;
else
in += 8;
}
/* Do the actual decryption */
decipher(v, w, k);
/* Copy the results to out[] */
for(i=0; i<2; i++) {
*out++ = (w[i] & 0x000000ff);
*out++ = (w[i] & 0x0000ff00) >> 8;
*out++ = (w[i] & 0x00ff0000) >> 16;
*out++ = (w[i] & 0xff000000) >> 24;
}
if (*in == '\0')
last_block = MS_TRUE;
}
/* Make sure output is 0-terminated */
*out = '\0';
}
/**********************************************************************
* msDecryptStringTokens()
*
* Returns a newly allocated string (to be msFree'd by the caller) in
* which all occurences of encrypted strings delimited by {...} have
* been decrypted.
*
**********************************************************************/
char *msDecryptStringTokens(mapObj *map, const char *in)
{
char *outbuf, *out;
if (map == NULL) {
msSetError(MS_MISCERR, "NULL MapObj.", "msLoadEncryptionKey()");
return NULL;
}
/* Start with a copy of the string. Decryption can only result in
* a string with the same or shorter length */
if ((outbuf = (char *)malloc((strlen(in)+1)*sizeof(char))) == NULL) {
msSetError(MS_MEMERR, NULL, "msDecryptStringTokens()");
return NULL;
}
out = outbuf;
while(*in != '\0') {
if (*in == '{') {
/* Possibly beginning of a token, look for closing bracket
** and make sure all chars in between are valid hex encoding chars
*/
const char *pszStart, *pszEnd;
int valid_token = MS_FALSE;
pszStart = in+1;
if ( (pszEnd = strchr(pszStart, '}')) != NULL &&
pszEnd - pszStart > 1) {
const char *pszTmp;
valid_token = MS_TRUE;
for(pszTmp = pszStart; pszTmp < pszEnd; pszTmp++) {
if (!isxdigit(*pszTmp)) {
valid_token = MS_FALSE;
break;
}
}
}
if (valid_token) {
/* Go ahead and decrypt the token */
char *pszTmp;
/* Make sure encryption key is loaded. We do this here instead
* of at the beginning of the function to avoid loading the
* key unless ready necessary. This is a very cheap call if
* the key is already loaded
*/
if (msLoadEncryptionKey(map) != MS_SUCCESS)
return NULL;
pszTmp = (char*)malloc( (pszEnd-pszStart+1)*sizeof(char));
strlcpy(pszTmp, pszStart, (pszEnd-pszStart)+1);
msDecryptStringWithKey(map->encryption_key, pszTmp, out);
out += strlen(out);
in = pszEnd+1;
free(pszTmp);
} else {
/* Not a valid token, just copy the '{' and keep going */
*out++ = *in++;
}
} else {
/* Just copy any other chars */
*out++ = *in++;
}
}
*out = '\0';
return outbuf;
}
#ifdef TEST_MAPCRYPTO
/* Test for mapcrypto.c functions. To run these tests, use the following
** Makefile directive:
test_mapcrypto: $(LIBMAP_STATIC) mapcrypto.c
$(CC) $(CFLAGS) mapcrypto.c -DTEST_MAPCRYPTO $(EXE_LDFLAGS) -o test_mapcrypto
**
*/
int main(int argc, char *argv[])
{
const unsigned char bytes_in[] = {0x12, 0x34, 0xff, 0x00, 0x44, 0x22};
unsigned char bytes_out[8], encryption_key[MS_ENCRYPTION_KEY_SIZE*2+1];
char string_buf[256], string_buf2[256];
int numbytes = 0;
/*
** Test msHexEncode()
*/
msHexEncode(bytes_in, string_buf, 6);
printf("msHexEncode returned '%s'\n", string_buf);
/*
** Test msHexDecode()
*/
memset(bytes_out, 0, 8);
numbytes = msHexDecode(string_buf, bytes_out, -1);
printf("msHexDecode(%s, -1) = %d, bytes_out = %x, %x, %x, %x, %x, %x, %x, %x\n",
string_buf, numbytes,
bytes_out[0], bytes_out[1], bytes_out[2], bytes_out[3],
bytes_out[4], bytes_out[5], bytes_out[6], bytes_out[7]);
memset(bytes_out, 0, 8);
numbytes = msHexDecode(string_buf, bytes_out, 4);
printf("msHexDecode(%s, 4) = %d, bytes_out = %x, %x, %x, %x, %x, %x, %x, %x\n",
string_buf, numbytes,
bytes_out[0], bytes_out[1], bytes_out[2], bytes_out[3],
bytes_out[4], bytes_out[5], bytes_out[6], bytes_out[7]);
memset(bytes_out, 0, 8);
numbytes = msHexDecode(string_buf, bytes_out, 20);
printf("msHexDecode(%s, 20) = %d, bytes_out = %x, %x, %x, %x, %x, %x, %x, %x\n",
string_buf, numbytes,
bytes_out[0], bytes_out[1], bytes_out[2], bytes_out[3],
bytes_out[4], bytes_out[5], bytes_out[6], bytes_out[7]);
/*
** Test loading encryption key
*/
if (msReadEncryptionKeyFromFile("/tmp/test.key", encryption_key) != MS_SUCCESS) {
printf("msReadEncryptionKeyFromFile() = MS_FAILURE\n");
printf("Aborting tests!\n");
msWriteError(stderr);
return -1;
} else {
msHexEncode(encryption_key, string_buf, MS_ENCRYPTION_KEY_SIZE);
printf("msReadEncryptionKeyFromFile() returned '%s'\n", string_buf);
}
/*
** Test Encryption/Decryption
*/
/* First with an 8 bytes input string (test boundaries) */
msEncryptStringWithKey(encryption_key, "test1234", string_buf);
printf("msEncryptStringWithKey('test1234') returned '%s'\n", string_buf);
msDecryptStringWithKey(encryption_key, string_buf, string_buf2);
printf("msDecryptStringWithKey('%s') returned '%s'\n", string_buf, string_buf2);
/* Next with an 1 byte input string */
msEncryptStringWithKey(encryption_key, "t", string_buf);
printf("msEncryptStringWithKey('t') returned '%s'\n", string_buf);
msDecryptStringWithKey(encryption_key, string_buf, string_buf2);
printf("msDecryptStringWithKey('%s') returned '%s'\n", string_buf, string_buf2);
/* Next with an 12 bytes input string */
msEncryptStringWithKey(encryption_key, "test123456", string_buf);
printf("msEncryptStringWithKey('test123456') returned '%s'\n", string_buf);
msDecryptStringWithKey(encryption_key, string_buf, string_buf2);
printf("msDecryptStringWithKey('%s') returned '%s'\n", string_buf, string_buf2);
/*
** Test decryption with tokens
*/
{
char *pszBuf;
mapObj *map;
/* map = msNewMapObj(); */
map = msLoadMap("/tmp/test.map", NULL);
sprintf(string_buf2, "string with a {%s} encrypted token", string_buf);
pszBuf = msDecryptStringTokens(map, string_buf2);
if (pszBuf == NULL) {
printf("msDecryptStringTokens() failed.\n");
printf("Aborting tests!\n");
msWriteError(stderr);
return -1;
} else {
printf("msDecryptStringTokens('%s') returned '%s'\n",
string_buf2, pszBuf);
}
msFree(pszBuf);
msFreeMap(map);
}
return 0;
}
#endif /* TEST_MAPCRYPTO */