xref: /btstack/src/btstack_util.c (revision df5c73b695709016d0e1bdda843dae7976ffd157) 
1 /*
2  * Copyright (C) 2014 BlueKitchen GmbH
3  *
4  * Redistribution and use in source and binary forms, with or without
5  * modification, are permitted provided that the following conditions
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7  *
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9  *    notice, this list of conditions and the following disclaimer.
10  * 2. Redistributions in binary form must reproduce the above copyright
11  *    notice, this list of conditions and the following disclaimer in the
12  *    documentation and/or other materials provided with the distribution.
13  * 3. Neither the name of the copyright holders nor the names of
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15  *    from this software without specific prior written permission.
16  * 4. Any redistribution, use, or modification is done solely for
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19  *
20  * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS
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22  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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36  */
37 
38 /*
39  *  btstack_util.c
40  *
41  *  General utility functions
42  *
43  *  Created by Matthias Ringwald on 7/23/09.
44  */
45 
46 #include "btstack_config.h"
47 #include "btstack_util.h"
48 #include <stdio.h>
49 #include <string.h>
50 #include "btstack_debug.h"
51 
52 
53 /**
54  * @brief Compare two Bluetooth addresses
55  * @param a
56  * @param b
57  * @return 0 if equal
58  */
59 int bd_addr_cmp(bd_addr_t a, bd_addr_t b){
60     return memcmp(a,b, BD_ADDR_LEN);
61 }
62 
63 /**
64  * @brief Copy Bluetooth address
65  * @param dest
66  * @param src
67  */
68 void bd_addr_copy(bd_addr_t dest, bd_addr_t src){
69     memcpy(dest,src,BD_ADDR_LEN);
70 }
71 
72 uint16_t little_endian_read_16(const uint8_t * buffer, int pos){
73     return ((uint16_t) buffer[pos]) | (((uint16_t)buffer[(pos)+1]) << 8);
74 }
75 uint32_t little_endian_read_24(const uint8_t * buffer, int pos){
76     return ((uint32_t) buffer[pos]) | (((uint32_t)buffer[(pos)+1]) << 8) | (((uint32_t)buffer[(pos)+2]) << 16);
77 }
78 uint32_t little_endian_read_32(const uint8_t * buffer, int pos){
79     return ((uint32_t) buffer[pos]) | (((uint32_t)buffer[(pos)+1]) << 8) | (((uint32_t)buffer[(pos)+2]) << 16) | (((uint32_t) buffer[(pos)+3]) << 24);
80 }
81 
82 void little_endian_store_16(uint8_t *buffer, uint16_t pos, uint16_t value){
83     buffer[pos++] = value;
84     buffer[pos++] = value >> 8;
85 }
86 
87 void little_endian_store_32(uint8_t *buffer, uint16_t pos, uint32_t value){
88     buffer[pos++] = value;
89     buffer[pos++] = value >> 8;
90     buffer[pos++] = value >> 16;
91     buffer[pos++] = value >> 24;
92 }
93 
94 uint32_t big_endian_read_16( const uint8_t * buffer, int pos) {
95     return ((uint16_t) buffer[(pos)+1]) | (((uint16_t)buffer[ pos   ]) << 8);
96 }
97 
98 uint32_t big_endian_read_32( const uint8_t * buffer, int pos) {
99     return ((uint32_t) buffer[(pos)+3]) | (((uint32_t)buffer[(pos)+2]) << 8) | (((uint32_t)buffer[(pos)+1]) << 16) | (((uint32_t) buffer[pos]) << 24);
100 }
101 
102 void big_endian_store_16(uint8_t *buffer, uint16_t pos, uint16_t value){
103     buffer[pos++] = value >> 8;
104     buffer[pos++] = value;
105 }
106 
107 void big_endian_store_32(uint8_t *buffer, uint16_t pos, uint32_t value){
108     buffer[pos++] = value >> 24;
109     buffer[pos++] = value >> 16;
110     buffer[pos++] = value >> 8;
111     buffer[pos++] = value;
112 }
113 
114 // general swap/endianess utils
115 void reverse_bytes(const uint8_t *src, uint8_t *dst, int len){
116     int i;
117     for (i = 0; i < len; i++)
118         dst[len - 1 - i] = src[i];
119 }
120 void reverse_24(const uint8_t * src, uint8_t * dst){
121     reverse_bytes(src, dst, 3);
122 }
123 void reverse_48(const uint8_t * src, uint8_t * dst){
124     reverse_bytes(src, dst, 6);
125 }
126 void reverse_56(const uint8_t * src, uint8_t * dst){
127     reverse_bytes(src, dst, 7);
128 }
129 void reverse_64(const uint8_t * src, uint8_t * dst){
130     reverse_bytes(src, dst, 8);
131 }
132 void reverse_128(const uint8_t * src, uint8_t * dst){
133     reverse_bytes(src, dst, 16);
134 }
135 void reverse_256(const uint8_t * src, uint8_t * dst){
136     reverse_bytes(src, dst, 32);
137 }
138 
139 void reverse_bd_addr(const bd_addr_t src, bd_addr_t dest){
140     reverse_bytes(src, dest, 6);
141 }
142 
143 uint32_t btstack_min(uint32_t a, uint32_t b){
144     return a < b ? a : b;
145 }
146 
147 uint32_t btstack_max(uint32_t a, uint32_t b){
148     return a > b ? a : b;
149 }
150 
151 char char_for_nibble(int nibble){
152     if (nibble < 10) return '0' + nibble;
153     nibble -= 10;
154     if (nibble < 6) return 'A' + nibble;
155     return '?';
156 }
157 
158 int nibble_for_char(char c){
159     if (c >= '0' && c <= '9') return c - '0';
160     if (c >= 'a' && c <= 'f') return c - 'a' + 10;
161     if (c >= 'A' && c <= 'F') return c - 'A' + 10;
162     return -1;
163 }
164 
165 void printf_hexdump(const void *data, int size){
166     if (size <= 0) return;
167     int i;
168     for (i=0; i<size;i++){
169         printf("%02X ", ((uint8_t *)data)[i]);
170     }
171     printf("\n");
172 }
173 
174 //  void log_info_hexdump(..){
175 //
176 //  }
177 
178 void log_info_hexdump(const void *data, int size){
179 #ifdef ENABLE_LOG_INFO
180     char buffer[6*16+1];
181     int i, j;
182 
183     uint8_t low = 0x0F;
184     uint8_t high = 0xF0;
185     j = 0;
186     for (i=0; i<size;i++){
187         uint8_t byte = ((uint8_t *)data)[i];
188         buffer[j++] = '0';
189         buffer[j++] = 'x';
190         buffer[j++] = char_for_nibble((byte & high) >> 4);
191         buffer[j++] = char_for_nibble(byte & low);
192         buffer[j++] = ',';
193         buffer[j++] = ' ';
194         if (j >= 6*16 ){
195             buffer[j] = 0;
196             log_info("%s", buffer);
197             j = 0;
198         }
199     }
200     if (j != 0){
201         buffer[j] = 0;
202         log_info("%s", buffer);
203     }
204 #endif
205 }
206 
207 void log_info_key(const char * name, sm_key_t key){
208     // log_info("%-6s ", name);
209     // hexdump(key, 16);
210 }
211 
212 // UUIDs are stored in big endian, similar to bd_addr_t
213 
214 // Bluetooth Base UUID: 00000000-0000-1000-8000- 00805F9B34FB
215 const uint8_t bluetooth_base_uuid[] = { 0x00, 0x00, 0x00, 0x00, /* - */ 0x00, 0x00, /* - */ 0x10, 0x00, /* - */
216     0x80, 0x00, /* - */ 0x00, 0x80, 0x5F, 0x9B, 0x34, 0xFB };
217 
218 void uuid_add_bluetooth_prefix(uint8_t *uuid, uint32_t shortUUID){
219     memcpy(uuid, bluetooth_base_uuid, 16);
220     big_endian_store_32(uuid, 0, shortUUID);
221 }
222 
223 int uuid_has_bluetooth_prefix(uint8_t * uuid128){
224     return memcmp(&uuid128[4], &bluetooth_base_uuid[4], 12) == 0;
225 }
226 
227 static char uuid128_to_str_buffer[32+4+1];
228 char * uuid128_to_str(uint8_t * uuid){
229     sprintf(uuid128_to_str_buffer, "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
230            uuid[0], uuid[1], uuid[2], uuid[3], uuid[4], uuid[5], uuid[6], uuid[7],
231            uuid[8], uuid[9], uuid[10], uuid[11], uuid[12], uuid[13], uuid[14], uuid[15]);
232     return uuid128_to_str_buffer;
233 }
234 
235 static char bd_addr_to_str_buffer[6*3];  // 12:45:78:01:34:67\0
236 char * bd_addr_to_str(bd_addr_t addr){
237     // orig code
238     // sprintf(bd_addr_to_str_buffer, "%02x:%02x:%02x:%02x:%02x:%02x", addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]);
239     // sprintf-free code
240     char * p = bd_addr_to_str_buffer;
241     int i;
242     for (i = 0; i < 6 ; i++) {
243         *p++ = char_for_nibble((addr[i] >> 4) & 0x0F);
244         *p++ = char_for_nibble((addr[i] >> 0) & 0x0F);
245         *p++ = ':';
246     }
247     *--p = 0;
248     return (char *) bd_addr_to_str_buffer;
249 }
250 
251 static int scan_hex_byte(const char * byte_string){
252     int upper_nibble = nibble_for_char(*byte_string++);
253     if (upper_nibble < 0) return -1;
254     int lower_nibble = nibble_for_char(*byte_string);
255     if (lower_nibble < 0) return -1;
256     return (upper_nibble << 4) | lower_nibble;
257 }
258 
259 int sscanf_bd_addr(const char * addr_string, bd_addr_t addr){
260     uint8_t buffer[BD_ADDR_LEN];
261     int result = 0;
262     int i;
263     for (i = 0; i < BD_ADDR_LEN; i++) {
264         int single_byte = scan_hex_byte(addr_string);
265         if (single_byte < 0) break;
266         addr_string += 2;
267         buffer[i] = single_byte;
268         // don't check seperator after last byte
269         if (i == BD_ADDR_LEN - 1) {
270             result = 1;
271             break;
272         }
273         char separator = *addr_string++;
274         if (separator != ':' && separator != '-' && separator != ' ') break;
275     }
276 
277     if (result){
278         bd_addr_copy(addr, buffer);
279     }
280 	return result;
281 }
282