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Commit	Line	Data
	1	//-----------------------------------------------------------------------------
	2	// Copyright (C) 2010 iZsh <izsh at fail0verflow.com>
	3	//
	4	// This code is licensed to you under the terms of the GNU GPL, version 2 or,
	5	// at your option, any later version. See the LICENSE.txt file for the text of
	6	// the license.
	7	//-----------------------------------------------------------------------------
	8	// utilities
	9	//-----------------------------------------------------------------------------
	10
	11	#include "util.h"
	12	#define MAX_BIN_BREAK_LENGTH (3072+384+1)
	13
	14	#ifndef _WIN32
	15	#include <sys/ttydefaults.h>
	16
	17	int ukbhit(void) {
	18	int cnt = 0;
	19	int error;
	20	static struct termios Otty, Ntty;
	21
	22	if ( tcgetattr( 0, &Otty) == -1) return -1;
	23	Ntty = Otty;
	24
	25	Ntty.c_iflag = 0; /* input mode */
	26	Ntty.c_oflag = 0; /* output mode */
	27	Ntty.c_lflag &= ~ICANON; /* raw mode */
	28	Ntty.c_cc[VMIN] = CMIN; /* minimum time to wait */
	29	Ntty.c_cc[VTIME] = CTIME; /* minimum characters to wait for */
	30
	31	if (0 == (error = tcsetattr(0, TCSANOW, &Ntty))) {
	32	error += ioctl(0, FIONREAD, &cnt);
	33	error += tcsetattr(0, TCSANOW, &Otty);
	34	}
	35
	36	return ( error == 0 ? cnt : -1 );
	37	}
	38
	39	#else
	40	int ukbhit(void) {
	41	return kbhit();
	42	}
	43	#endif
	44
	45	// log files functions
	46	void AddLogLine(char file, char extData, char *c) {
	47	FILE *f = NULL;
	48	char filename[FILE_PATH_SIZE] = {0x00};
	49	int len = 0;
	50
	51	len = strlen(file);
	52	if (len > FILE_PATH_SIZE) len = FILE_PATH_SIZE;
	53	memcpy(filename, file, len);
	54
	55	f = fopen(filename, "a");
	56	if (!f) {
	57	printf("Could not append log file %s", filename);
	58	return;
	59	}
	60
	61	fprintf(f, "%s", extData);
	62	fprintf(f, "%s\n", c);
	63	fflush(f);
	64	if (f) {
	65	fclose(f);
	66	f = NULL;
	67	}
	68	}
	69
	70	void AddLogHex(char fileName, char extData, const uint8_t * data, const size_t len){
	71	AddLogLine(fileName, extData, sprint_hex(data, len));
	72	}
	73
	74	void AddLogUint64(char fileName, char extData, const uint64_t data) {
	75	char buf[20] = {0};
	76	memset(buf, 0x00, sizeof(buf));
	77	//sprintf(buf, "%X%X", (unsigned int)((data & 0xFFFFFFFF00000000) >> 32), (unsigned int)(data & 0xFFFFFFFF));
	78	sprintf(buf, "%012"llx"", data);
	79	AddLogLine(fileName, extData, buf);
	80	}
	81
	82	void AddLogCurrentDT(char *fileName) {
	83	char buf[20];
	84	memset(buf, 0x00, sizeof(buf));
	85	struct tm *curTime;
	86	time_t now = time(0);
	87	curTime = gmtime(&now);
	88	strftime (buf, sizeof(buf), "%Y-%m-%d %H:%M:%S", curTime);
	89	AddLogLine(fileName, "\nanticollision: ", buf);
	90	}
	91
	92	void FillFileNameByUID(char fileName, uint8_t uid, char *ext, int byteCount) {
	93	if ( fileName == NULL \|\| uid == NULL \|\| ext == NULL ){
	94	printf("error: parameter is NULL\n");
	95	return;
	96	}
	97	char * fnameptr = fileName;
	98	memset(fileName, 0x00, FILE_PATH_SIZE);
	99
	100	for (int j = 0; j < byteCount; j++, fnameptr += 2)
	101	sprintf(fnameptr, "%02X", uid[j]);
	102	sprintf(fnameptr, "%s", ext);
	103	}
	104
	105	// printing and converting functions
	106	void print_hex(const uint8_t * data, const size_t len) {
	107	size_t i;
	108	for (i=0; i < len; ++i)
	109	printf("%02x ", data[i]);
	110	printf("\n");
	111	}
	112
	113	void print_hex_break(const uint8_t *data, const size_t len, uint8_t breaks) {
	114
	115	int rownum = 0;
	116	printf("[%02d] \| ", rownum);
	117	for (int i = 0; i < len; ++i) {
	118
	119	printf("%02X ", data[i]);
	120
	121	// check if a line break is needed
	122	if ( breaks > 0 && !((i+1) % breaks) && (i+1 < len) ) {
	123	++rownum;
	124	printf("\n[%02d] \| ", rownum);
	125	}
	126	}
	127	printf("\n");
	128	}
	129
	130	char sprint_hex(const uint8_t data, const size_t len) {
	131
	132	int maxLen = ( len > 1024/3) ? 1024/3 : len;
	133	static char buf[1024];
	134	memset(buf, 0x00, 1024);
	135	char * tmp = buf;
	136	size_t i;
	137
	138	for (i=0; i < maxLen; ++i, tmp += 3)
	139	sprintf(tmp, "%02X ", data[i]);
	140	return buf;
	141	}
	142
	143	char sprint_bin_break(const uint8_t data, const size_t len, const uint8_t breaks) {
	144
	145	// make sure we don't go beyond our char array memory
	146	size_t in_index = 0, out_index = 0;
	147	int rowlen;
	148	if (breaks==0)
	149	rowlen = ( len > MAX_BIN_BREAK_LENGTH ) ? MAX_BIN_BREAK_LENGTH : len;
	150	else
	151	rowlen = ( len+(len/breaks) > MAX_BIN_BREAK_LENGTH ) ? MAX_BIN_BREAK_LENGTH : len+(len/breaks);
	152
	153	static char buf[MAX_BIN_BREAK_LENGTH]; // 3072 + end of line characters if broken at 8 bits
	154	//clear memory
	155	memset(buf, 0x00, sizeof(buf));
	156	char *tmp = buf;
	157
	158	// loop through the out_index to make sure we don't go too far
	159	for (out_index=0; out_index < rowlen-1; out_index++) {
	160	// set character
	161	sprintf(tmp++, "%u", data[in_index]);
	162	// check if a line break is needed and we have room to print it in our array
	163	if ( (breaks > 0) && !((in_index+1) % breaks) && (out_index+1 != rowlen) ) {
	164	// increment and print line break
	165	out_index++;
	166	sprintf(tmp++, "%s","\n");
	167	}
	168	in_index++;
	169	}
	170	// last char.
	171	sprintf(tmp++, "%u", data[in_index]);
	172	return buf;
	173	}
	174
	175	char sprint_bin(const uint8_t data, const size_t len) {
	176	return sprint_bin_break(data, len, 0);
	177	}
	178
	179	char sprint_hex_ascii(const uint8_t data, const size_t len) {
	180	static char buf[1024];
	181	char *tmp = buf;
	182	memset(buf, 0x00, 1024);
	183	size_t max_len = (len > 1010) ? 1010 : len;
	184
	185	sprintf(tmp, "%s\| ", sprint_hex(data, max_len) );
	186
	187	size_t i = 0;
	188	size_t pos = (max_len * 3)+2;
	189	while(i < max_len){
	190	char c = data[i];
	191	if ( (c < 32) \|\| (c == 127))
	192	c = '.';
	193	sprintf(tmp+pos+i, "%c", c);
	194	++i;
	195	}
	196	return buf;
	197	}
	198
	199	char sprint_ascii(const uint8_t data, const size_t len) {
	200	static char buf[1024];
	201	char *tmp = buf;
	202	memset(buf, 0x00, 1024);
	203	size_t max_len = (len > 1010) ? 1010 : len;
	204	size_t i = 0;
	205	while(i < max_len){
	206	char c = data[i];
	207	tmp[i] = ((c < 32) \|\| (c == 127)) ? '.' : c;
	208	++i;
	209	}
	210	return buf;
	211	}
	212
	213	void num_to_bytes(uint64_t n, size_t len, uint8_t* dest) {
	214	while (len--) {
	215	dest[len] = n & 0xFF;
	216	n >>= 8;
	217	}
	218	}
	219
	220	uint64_t bytes_to_num(uint8_t* src, size_t len) {
	221	uint64_t num = 0;
	222	while (len--) {
	223	num = (num << 8) \| (*src);
	224	src++;
	225	}
	226	return num;
	227	}
	228
	229	// takes a number (uint64_t) and creates a binarray in dest.
	230	void num_to_bytebits(uint64_t n, size_t len, uint8_t *dest) {
	231	while (len--) {
	232	dest[len] = n & 1;
	233	n >>= 1;
	234	}
	235	}
	236
	237	//least significant bit first
	238	void num_to_bytebitsLSBF(uint64_t n, size_t len, uint8_t *dest) {
	239	for(int i = 0 ; i < len ; ++i) {
	240	dest[i] = n & 1;
	241	n >>= 1;
	242	}
	243	}
	244
	245	// aa,bb,cc,dd,ee,ff,gg,hh, ii,jj,kk,ll,mm,nn,oo,pp
	246	// to
	247	// hh,gg,ff,ee,dd,cc,bb,aa, pp,oo,nn,mm,ll,kk,jj,ii
	248	// up to 64 bytes or 512 bits
	249	uint8_t SwapEndian64(const uint8_t src, const size_t len, const uint8_t blockSize){
	250	static uint8_t buf[64];
	251	memset(buf, 0x00, 64);
	252	uint8_t *tmp = buf;
	253	for (uint8_t block=0; block < (uint8_t)(len/blockSize); block++){
	254	for (size_t i = 0; i < blockSize; i++){
	255	tmp[i+(blockSizeblock)] = src[(blockSize-1-i)+(blockSizeblock)];
	256	}
	257	}
	258	return buf;
	259	}
	260
	261	// takes a uint8_t src array, for len items and reverses the byte order in blocksizes (8,16,32,64),
	262	// returns: the dest array contains the reordered src array.
	263	void SwapEndian64ex(const uint8_t src, const size_t len, const uint8_t blockSize, uint8_t dest){
	264	for (uint8_t block=0; block < (uint8_t)(len/blockSize); block++){
	265	for (size_t i = 0; i < blockSize; i++){
	266	dest[i+(blockSizeblock)] = src[(blockSize-1-i)+(blockSizeblock)];
	267	}
	268	}
	269	}
	270
	271	// -------------------------------------------------------------------------
	272	// string parameters lib
	273	// -------------------------------------------------------------------------
	274
	275	// -------------------------------------------------------------------------
	276	// line - param line
	277	// bg, en - symbol numbers in param line of beginning an ending parameter
	278	// paramnum - param number (from 0)
	279	// -------------------------------------------------------------------------
	280	int param_getptr(const char line, int bg, int *en, int paramnum)
	281	{
	282	int i;
	283	int len = strlen(line);
	284
	285	*bg = 0;
	286	*en = 0;
	287
	288	// skip spaces
	289	while (line[bg] ==' ' \|\| line[bg]=='\t') (*bg)++;
	290	if (*bg >= len) {
	291	return 1;
	292	}
	293
	294	for (i = 0; i < paramnum; i++) {
	295	while (line[bg]!=' ' && line[bg]!='\t' && line[bg] != '\0') (bg)++;
	296	while (line[bg]==' ' \|\| line[bg]=='\t') (*bg)++;
	297
	298	if (line[*bg] == '\0') return 1;
	299	}
	300
	301	en = bg;
	302	while (line[en] != ' ' && line[en] != '\t' && line[en] != '\0') (en)++;
	303
	304	(*en)--;
	305
	306	return 0;
	307	}
	308
	309	char param_getchar(const char *line, int paramnum)
	310	{
	311	int bg, en;
	312	if (param_getptr(line, &bg, &en, paramnum)) return 0x00;
	313	return line[bg];
	314	}
	315
	316	uint8_t param_get8(const char *line, int paramnum)
	317	{
	318	return param_get8ex(line, paramnum, 0, 10);
	319	}
	320
	321	/**
	322	* @brief Reads a decimal integer (actually, 0-254, not 255)
	323	* @param line
	324	* @param paramnum
	325	* @return -1 if error
	326	*/
	327	uint8_t param_getdec(const char line, int paramnum, uint8_t destination)
	328	{
	329	uint8_t val = param_get8ex(line, paramnum, 255, 10);
	330	if( (int8_t) val == -1) return 1;
	331	(*destination) = val;
	332	return 0;
	333	}
	334	/**
	335	* @brief Checks if param is decimal
	336	* @param line
	337	* @param paramnum
	338	* @return
	339	*/
	340	uint8_t param_isdec(const char *line, int paramnum)
	341	{
	342	int bg, en;
	343	//TODO, check more thorougly
	344	if (!param_getptr(line, &bg, &en, paramnum)) return 1;
	345	// return strtoul(&line[bg], NULL, 10) & 0xff;
	346
	347	return 0;
	348	}
	349
	350	uint8_t param_get8ex(const char *line, int paramnum, int deflt, int base)
	351	{
	352	int bg, en;
	353	if (!param_getptr(line, &bg, &en, paramnum))
	354	return strtoul(&line[bg], NULL, base) & 0xff;
	355	else
	356	return deflt;
	357	}
	358
	359	uint32_t param_get32ex(const char *line, int paramnum, int deflt, int base)
	360	{
	361	int bg, en;
	362	if (!param_getptr(line, &bg, &en, paramnum))
	363	return strtoul(&line[bg], NULL, base);
	364	else
	365	return deflt;
	366	}
	367
	368	uint64_t param_get64ex(const char *line, int paramnum, int deflt, int base)
	369	{
	370	int bg, en;
	371	if (!param_getptr(line, &bg, &en, paramnum))
	372	return strtoull(&line[bg], NULL, base);
	373	else
	374	return deflt;
	375	}
	376
	377	int param_gethex(const char line, int paramnum, uint8_t data, int hexcnt)
	378	{
	379	int bg, en, temp, i;
	380
	381	if (hexcnt & 1) return 1;
	382
	383	if (param_getptr(line, &bg, &en, paramnum)) return 1;
	384
	385	if (en - bg + 1 != hexcnt) return 1;
	386
	387	for(i = 0; i < hexcnt; i += 2) {
	388	if (!(isxdigit(line[bg + i]) && isxdigit(line[bg + i + 1])) ) return 1;
	389
	390	sscanf((char[]){line[bg + i], line[bg + i + 1], 0}, "%X", &temp);
	391	data[i / 2] = temp & 0xff;
	392	}
	393
	394	return 0;
	395	}
	396	int param_gethex_ex(const char line, int paramnum, uint8_t data, int *hexcnt)
	397	{
	398	int bg, en, temp, i;
	399
	400	//if (hexcnt % 2)
	401	// return 1;
	402
	403	if (param_getptr(line, &bg, &en, paramnum)) return 1;
	404
	405	*hexcnt = en - bg + 1;
	406	if (*hexcnt % 2) //error if not complete hex bytes
	407	return 1;
	408
	409	for(i = 0; i < *hexcnt; i += 2) {
	410	if (!(isxdigit(line[bg + i]) && isxdigit(line[bg + i + 1])) ) return 1;
	411
	412	sscanf((char[]){line[bg + i], line[bg + i + 1], 0}, "%X", &temp);
	413	data[i / 2] = temp & 0xff;
	414	}
	415
	416	return 0;
	417	}
	418	int param_getstr(const char line, int paramnum, char str)
	419	{
	420	int bg, en;
	421	if (param_getptr(line, &bg, &en, paramnum)) return 0;
	422
	423	memcpy(str, line + bg, en - bg + 1);
	424	str[en - bg + 1] = 0;
	425
	426	return en - bg + 1;
	427	}
	428
	429	/*
	430	The following methods comes from Rfidler sourcecode.
	431	https://github.com/ApertureLabsLtd/RFIDler/blob/master/firmware/Pic32/RFIDler.X/src/
	432	*/
	433
	434	// convert hex to sequence of 0/1 bit values
	435	// returns number of bits converted
	436	int hextobinarray(char target, char source)
	437	{
	438	int length, i, count= 0;
	439	char x;
	440
	441	length = strlen(source);
	442	// process 4 bits (1 hex digit) at a time
	443	while(length--)
	444	{
	445	x= *(source++);
	446	// capitalize
	447	if (x >= 'a' && x <= 'f')
	448	x -= 32;
	449	// convert to numeric value
	450	if (x >= '0' && x <= '9')
	451	x -= '0';
	452	else if (x >= 'A' && x <= 'F')
	453	x -= 'A' - 10;
	454	else
	455	return 0;
	456	// output
	457	for(i= 0 ; i < 4 ; ++i, ++count)
	458	*(target++)= (x >> (3 - i)) & 1;
	459	}
	460
	461	return count;
	462	}
	463
	464	// convert hex to human readable binary string
	465	int hextobinstring(char target, char source)
	466	{
	467	int length;
	468
	469	if(!(length= hextobinarray(target, source)))
	470	return 0;
	471	binarraytobinstring(target, target, length);
	472	return length;
	473	}
	474
	475	// convert binary array of 0x00/0x01 values to hex (safe to do in place as target will always be shorter than source)
	476	// return number of bits converted
	477	int binarraytohex(char target, char source, int length)
	478	{
	479	unsigned char i, x;
	480	int j = length;
	481
	482	if(j % 4)
	483	return 0;
	484
	485	while(j)
	486	{
	487	for(i= x= 0 ; i < 4 ; ++i)
	488	x += ( source[i] << (3 - i));
	489	sprintf(target,"%X", x);
	490	++target;
	491	source += 4;
	492	j -= 4;
	493	}
	494	return length;
	495	}
	496
	497	// convert binary array to human readable binary
	498	void binarraytobinstring(char target, char source, int length)
	499	{
	500	int i;
	501
	502	for(i= 0 ; i < length ; ++i)
	503	(target++)= (source++) + '0';
	504	*target= '\0';
	505	}
	506
	507	// return parity bit required to match type
	508	uint8_t GetParity( uint8_t *bits, uint8_t type, int length)
	509	{
	510	int x;
	511	for( x = 0 ; length > 0 ; --length)
	512	x += bits[length - 1];
	513	x %= 2;
	514	return x ^ type;
	515	}
	516
	517	// add HID parity to binary array: EVEN prefix for 1st half of ID, ODD suffix for 2nd half
	518	void wiegand_add_parity(uint8_t target, uint8_t source, uint8_t length)
	519	{
	520	*(target++)= GetParity(source, EVEN, length / 2);
	521	memcpy(target, source, length);
	522	target += length;
	523	*(target)= GetParity(source + length / 2, ODD, length / 2);
	524	}
	525
	526	// xor two arrays together for len items. The dst array contains the new xored values.
	527	void xor(unsigned char * dst, unsigned char * src, size_t len) {
	528	for( ; len > 0; len--,dst++,src++)
	529	dst ^= src;
	530	}
	531
	532	int32_t le24toh (uint8_t data[3]) {
	533	return (data[2] << 16) \| (data[1] << 8) \| data[0];
	534	}
	535	uint32_t le32toh (uint8_t *data) {
	536	return (uint32_t)( (data[3]<<24) \| (data[2]<<16) \| (data[1]<<8) \| data[0]);
	537	}
	538	// Pack a bitarray into a uint32_t.
	539	uint32_t PackBits(uint8_t start, uint8_t len, uint8_t* bits) {
	540
	541	if (len > 32) return 0;
	542
	543	int i = start;
	544	int j = len-1;
	545	uint32_t tmp = 0;
	546
	547	for (; j >= 0; --j, ++i)
	548	tmp \|= bits[i] << j;
	549
	550	return tmp;
	551	}
	552
	553	// RotateLeft - Ultralight, Desfire, works on byte level
	554	// 00-01-02 >> 01-02-00
	555	void rol(uint8_t *data, const size_t len){
	556	uint8_t first = data[0];
	557	for (size_t i = 0; i < len-1; i++) {
	558	data[i] = data[i+1];
	559	}
	560	data[len-1] = first;
	561	}
	562
	563	// Swap bit order on a uint32_t value. Can be limited by nrbits just use say 8bits reversal
	564	// And clears the rest of the bits.
	565	uint32_t SwapBits(uint32_t value, int nrbits) {
	566	uint32_t newvalue = 0;
	567	for(int i = 0; i < nrbits; i++) {
	568	newvalue ^= ((value >> i) & 1) << (nrbits - 1 - i);
	569	}
	570	return newvalue;
	571	}
	572	/*
	573	ref http://www.csm.ornl.gov/~dunigan/crc.html
	574	Returns the value v with the bottom b [0,32] bits reflected.
	575	Example: reflect(0x3e23L,3) == 0x3e26
	576	*/
	577	uint32_t reflect(uint32_t v, int b) {
	578	uint32_t t = v;
	579	for ( int i = 0; i < b; ++i) {
	580	if (t & 1)
	581	v \|= BITMASK((b-1)-i);
	582	else
	583	v &= ~BITMASK((b-1)-i);
	584	t>>=1;
	585	}
	586	return v;
	587	}
	588
	589	uint64_t HornerScheme(uint64_t num, uint64_t divider, uint64_t factor) {
	590	uint64_t remainder=0, quotient=0, result=0;
	591	remainder = num % divider;
	592	quotient = num / divider;
	593	if(!(quotient == 0 && remainder == 0))
	594	result += HornerScheme(quotient, divider, factor) * factor + remainder;
	595	return result;
	596	}