File Coverage

_hex.c

Criterion	Covered	Total	%
statement	74	93	79.5
branch	49	72	68.0
condition			n/a
subroutine			n/a
pod			n/a
total	123	165	74.5

line	stmt	bran	code
1			/* hex.c - conversion for hexadecimal and base32 strings.
2			*
3			* Copyright (c) 2008, Aleksey Kravchenko
4			*
5			* Permission to use, copy, modify, and/or distribute this software for any
6			* purpose with or without fee is hereby granted.
7			*
8			* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
9			* REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
10			* AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
11			* INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM
12			* LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE
13			* OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
14			* PERFORMANCE OF THIS SOFTWARE.
15			*/
16			#include "hex.h"
17			#include
18			#include
19			#include
20
21			/**
22			* Store hexadecimal representation of a binary string to given buffer.
23			*
24			* @param dst the buffer to receive hexadecimal representation
25			* @param src binary string
26			* @param length string length
27			* @param upper_case flag to print string in uppercase
28			*/
29	41		void rhash_byte_to_hex(char* dst, const unsigned char* src, size_t length, int upper_case)
30			{
31	41	50	const char hex_add = (upper_case ? 'A' - 10 : 'a' - 10);
32	1125	100	for (; length > 0; src++, length--) {
33	1084		const unsigned char hi = (*src >> 4) & 15;
34	1084		const unsigned char lo = *src & 15;
35	1084	100	*dst++ = (hi > 9 ? hi + hex_add : hi + '0');
36	1084	100	*dst++ = (lo > 9 ? lo + hex_add : lo + '0');
37			}
38	41		*dst = '\0';
39	41		}
40
41			/**
42			* Encode a binary string to base32.
43			*
44			* @param dst the buffer to store result
45			* @param src binary string
46			* @param length string length
47			* @param upper_case flag to print string in uppercase
48			*/
49	8		void rhash_byte_to_base32(char* dst, const unsigned char* src, size_t length, int upper_case)
50			{
51	8	50	const char a = (upper_case ? 'A' : 'a');
52	8		unsigned shift = 0;
53			unsigned char word;
54	8		const unsigned char* e = src + length;
55	260	100	while (src < e) {
56	252	100	if (shift > 3) {
57	128		word = (*src & (0xFF >> shift));
58	128		shift = (shift + 5) % 8;
59	128		word <<= shift;
60	128	100	if (src + 1 < e)
61	123		word \|= *(src + 1) >> (8 - shift);
62	128		++src;
63			} else {
64	124		shift = (shift + 5) % 8;
65	124		word = ( *src >> ( (8 - shift) & 7 ) ) & 0x1F;
66	124	100	if (shift == 0) src++;
67			}
68	252	100	*dst++ = ( word < 26 ? word + a : word + '2' - 26 );
69			}
70	8		*dst = '\0';
71	8		}
72
73			/**
74			* Encode a binary string to base64.
75			* Encoded output length is always a multiple of 4 bytes.
76			*
77			* @param dst the buffer to store result
78			* @param src binary string
79			* @param length string length
80			*/
81	1		void rhash_byte_to_base64(char* dst, const unsigned char* src, size_t length)
82			{
83			static const char* tail = "0123456789+/";
84	1		unsigned shift = 0;
85			unsigned char word;
86	1		const unsigned char* e = src + length;
87	12	100	while (src < e) {
88	11	100	if (shift > 2) {
89	6		word = (*src & (0xFF >> shift));
90	6		shift = (shift + 6) % 8;
91	6		word <<= shift;
92	6	100	if (src + 1 < e)
93	5		word \|= *(src + 1) >> (8 - shift);
94	6		++src;
95			} else {
96	5		shift = (shift + 6) % 8;
97	5		word = ( *src >> ( (8 - shift) & 7 ) ) & 0x3F;
98	5	100	if (shift == 0) src++;
99			}
100	11	100	*dst++ = ( word < 52 ? (word < 26 ? word + 'A' : word - 26 + 'a') : tail[word - 52]);
		100
101			}
102	1	50	if (shift > 0) {
103	1		*dst++ = '=';
104	1	50	if (shift == 4) *dst++ = '=';
105			}
106	1		*dst = '\0';
107	1		}
108
109	1		size_t rhash_base64_url_encoded_helper(char* dst, const unsigned char* src, size_t length, int url_encode, int upper_case)
110			{
111			#define B64_CHUNK_SIZE 120
112			char buffer[164];
113			assert((BASE64_LENGTH(B64_CHUNK_SIZE) + 4) <= sizeof(buffer));
114			assert((B64_CHUNK_SIZE % 6) == 0);
115	1	50	if (url_encode) {
116	0		size_t result_length = 0;
117	0	0	for (; length > 0; src += B64_CHUNK_SIZE) {
118	0		size_t chunk_size = (length < B64_CHUNK_SIZE ? length : B64_CHUNK_SIZE);
119			size_t encoded_length;
120	0		rhash_byte_to_base64(buffer, src, chunk_size);
121	0		encoded_length = rhash_urlencode(dst, buffer, BASE64_LENGTH(chunk_size), upper_case);
122	0		result_length += encoded_length;
123	0		dst += encoded_length;
124	0		length -= chunk_size;
125			}
126	0		return result_length;
127			}
128	1		rhash_byte_to_base64(dst, src, length);
129	1		return BASE64_LENGTH(length);
130			}
131
132			/* RFC 3986: safe url characters are ascii alpha-numeric and "-._~", other characters should be percent-encoded */
133			static unsigned url_safe_char_mask[4] = { 0, 0x03ff6000, 0x87fffffe, 0x47fffffe };
134			#define IS_URL_GOOD_CHAR(c) ((unsigned)(c) < 128 && (url_safe_char_mask[c >> 5] & (1 << (c & 31))))
135
136			/**
137			* URL-encode specified binary string.
138			*
139			* @param dst (nullable) buffer to output encoded string to,
140			* NULL to just calculate the lengths of encoded string
141			* @param src binary string to encode
142			* @param size size of the binary string
143			* @param upper_case flag to output hex-codes in uppercase
144			* @return the length of the result string
145			*/
146	2		size_t rhash_urlencode(char* dst, const char* src, size_t size, int upper_case)
147			{
148			const char* start;
149			size_t i;
150	2	100	if (!dst) {
151	1		size_t length = size;
152	9	100	for (i = 0; i < size; i++)
153	8	50	if (!IS_URL_GOOD_CHAR(src[i]))
		50
154	0		length += 2;
155	1		return length;
156			} else {
157	1	50	const char hex_add = (upper_case ? 'A' - 10 : 'a' - 10);
158	1		start = dst;
159			/* percent-encode all but unreserved URL characters */
160	9	100	for (i = 0; i < size; i++) {
161	8	50	if (IS_URL_GOOD_CHAR(src[i])) {
		50
162	8		*dst++ = src[i];
163			} else {
164	0		unsigned char hi = ((unsigned char)(src[i]) >> 4) & 0x0f;
165	0		unsigned char lo = (unsigned char)(src[i]) & 0x0f;
166	0		*dst++ = '%';
167	0	0	*dst++ = (hi > 9 ? hi + hex_add : hi + '0');
168	0	0	*dst++ = (lo > 9 ? lo + hex_add : lo + '0');
169			}
170			}
171	1		*dst = 0;
172			}
173	1		return dst - start;
174			}
175
176			/**
177			* Print 64-bit number with trailing '\0' to a string buffer.
178			* if dst is NULL, then just return the length of the number.
179			*
180			* @param dst output buffer
181			* @param number the number to print
182			* @return length of the printed number (without trailing '\0')
183			*/
184	9		int rhash_sprintI64(char* dst, uint64_t number)
185			{
186			/* The biggest number has 20 digits: 2^64 = 18 446 744 073 709 551 616 */
187			char buf[24];
188			char* p;
189			size_t length;
190
191	9	50	if (dst == NULL) {
192			/* just calculate the length of the number */
193	0	0	if (number == 0) return 1;
194	0	0	for (length = 0; number != 0; number /= 10) length++;
195	0		return (int)length;
196			}
197
198	9		p = buf + 23;
199	9		p = '\0'; / last symbol should be '\0' */
200	9	50	if (number == 0) {
201	0		*(--p) = '0';
202			} else {
203	46	50	for (; p >= buf && number != 0; number /= 10) {
		100
204	37		*(--p) = '0' + (char)(number % 10);
205			}
206			}
207	9		length = buf + 23 - p;
208	9		memcpy(dst, p, length + 1);
209	9		return (int)length;
210			}