1 /******************************************************************************
2  *
3  *  Copyright (C) 2014 Google, Inc.
4  *
5  *  Licensed under the Apache License, Version 2.0 (the "License");
6  *  you may not use this file except in compliance with the License.
7  *  You may obtain a copy of the License at:
8  *
9  *  http://www.apache.org/licenses/LICENSE-2.0
10  *
11  *  Unless required by applicable law or agreed to in writing, software
12  *  distributed under the License is distributed on an "AS IS" BASIS,
13  *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14  *  See the License for the specific language governing permissions and
15  *  limitations under the License.
16  *
17  ******************************************************************************/
18 
19 #include <assert.h>
20 #include <string.h>
21 #include "btcore/include/bdaddr.h"
22 #include "btcore/include/device_class.h"
23 #include "btcore/include/property.h"
24 #include "btcore/include/uuid.h"
25 #include "osi/include/allocator.h"
26 
27 static bt_property_t *property_new_(void *val, size_t len, bt_property_type_t type);
28 
property_copy_array(const bt_property_t * properties,size_t count)29 bt_property_t *property_copy_array(const bt_property_t *properties, size_t count) {
30   assert(properties != NULL);
31   bt_property_t *clone = osi_calloc(sizeof(bt_property_t) * count);
32 
33   memcpy(&clone[0], &properties[0], sizeof(bt_property_t) * count);
34   for (size_t i = 0; i < count; ++i) {
35     clone[i].val = osi_calloc(clone[i].len);
36     memcpy(clone[i].val, properties[i].val, clone[i].len);
37   }
38 
39   return clone;
40 }
41 
property_copy(bt_property_t * dest,const bt_property_t * src)42 bt_property_t *property_copy(bt_property_t *dest, const bt_property_t *src) {
43   assert(dest != NULL);
44   assert(src != NULL);
45   return (bt_property_t *)memcpy(dest, src, sizeof(bt_property_t));
46 }
47 
property_equals(const bt_property_t * p1,const bt_property_t * p2)48 bool property_equals(const bt_property_t *p1, const bt_property_t *p2) {
49   // Two null properties are not the same. May need to revisit that
50   // decision when we have a test case that exercises that condition.
51   if (!p1 || !p2 || p1->type != p2->type) {
52     return false;
53   }
54 
55   // Although the Bluetooth name is a 249-byte array, the implementation
56   // treats it like a variable-length array with its size specified in the
57   // property's `len` field. We special-case the equivalence of BDNAME
58   // types here by truncating the larger, zero-padded name to its string
59   // length and comparing against the shorter name.
60   //
61   // Note: it may be the case that both strings are zero-padded but that
62   // hasn't come up yet so this implementation doesn't handle it.
63   if (p1->type == BT_PROPERTY_BDNAME && p1->len != p2->len) {
64     const bt_property_t *shorter = p1, *longer = p2;
65     if (p1->len > p2->len) {
66       shorter = p2;
67       longer = p1;
68     }
69     return strlen((const char *)longer->val) == (size_t)shorter->len && !memcmp(longer->val, shorter->val, shorter->len);
70   }
71 
72   return p1->len == p2->len && !memcmp(p1->val, p2->val, p1->len);
73 }
74 
property_new_addr(const bt_bdaddr_t * addr)75 bt_property_t *property_new_addr(const bt_bdaddr_t *addr) {
76   assert(addr != NULL);
77   return property_new_((void *)addr, sizeof(bt_bdaddr_t), BT_PROPERTY_BDADDR);
78 }
79 
property_new_device_class(const bt_device_class_t * dc)80 bt_property_t *property_new_device_class(const bt_device_class_t *dc) {
81   assert(dc != NULL);
82   return property_new_((void *)dc, sizeof(bt_device_class_t), BT_PROPERTY_CLASS_OF_DEVICE);
83 }
84 
property_new_device_type(bt_device_type_t type)85 bt_property_t *property_new_device_type(bt_device_type_t type) {
86   return property_new_((void *)&type, sizeof(bt_device_type_t), BT_PROPERTY_TYPE_OF_DEVICE);
87 }
88 
property_new_discovery_timeout(const uint32_t timeout)89 bt_property_t *property_new_discovery_timeout(const uint32_t timeout) {
90   return property_new_((void *)&timeout, sizeof(uint32_t), BT_PROPERTY_ADAPTER_DISCOVERY_TIMEOUT);
91 }
92 
property_new_name(const char * name)93 bt_property_t *property_new_name(const char *name) {
94   assert(name != NULL);
95   return property_new_((void *)name, sizeof(bt_bdname_t), BT_PROPERTY_BDNAME);
96 }
97 
property_new_rssi(int8_t rssi)98 bt_property_t *property_new_rssi(int8_t rssi) {
99   return property_new_((void *)&rssi, sizeof(int8_t), BT_PROPERTY_REMOTE_RSSI);
100 }
101 
property_new_scan_mode(bt_scan_mode_t scan_mode)102 bt_property_t *property_new_scan_mode(bt_scan_mode_t scan_mode) {
103   return property_new_((void *)&scan_mode, sizeof(bt_scan_mode_t), BT_PROPERTY_ADAPTER_SCAN_MODE);
104 }
105 
property_new_uuids(const bt_uuid_t * uuid,size_t count)106 bt_property_t *property_new_uuids(const bt_uuid_t *uuid, size_t count) {
107   assert(uuid != NULL);
108   return property_new_((void *)uuid, sizeof(bt_uuid_t) * count, BT_PROPERTY_UUIDS);
109 }
110 
property_free(bt_property_t * property)111 void property_free(bt_property_t *property) {
112   property_free_array(property, 1);
113 }
114 
property_free_array(bt_property_t * properties,size_t count)115 void property_free_array(bt_property_t *properties, size_t count) {
116   if (properties == NULL)
117     return;
118 
119   for (size_t i = 0; i < count; ++i) {
120     osi_free(properties[i].val);
121   }
122 
123   osi_free(properties);
124 }
125 
property_is_addr(const bt_property_t * property)126 bool property_is_addr(const bt_property_t *property) {
127   assert(property != NULL);
128   return property->type == BT_PROPERTY_BDADDR;
129 }
130 
property_is_device_class(const bt_property_t * property)131 bool property_is_device_class(const bt_property_t *property) {
132   assert(property != NULL);
133   return property->type == BT_PROPERTY_CLASS_OF_DEVICE;
134 }
135 
property_is_device_type(const bt_property_t * property)136 bool property_is_device_type(const bt_property_t *property) {
137   assert(property != NULL);
138   return property->type == BT_PROPERTY_TYPE_OF_DEVICE;
139 }
140 
property_is_discovery_timeout(const bt_property_t * property)141 bool property_is_discovery_timeout(const bt_property_t *property) {
142   assert(property != NULL);
143   return property->type == BT_PROPERTY_ADAPTER_DISCOVERY_TIMEOUT;
144 }
145 
property_is_name(const bt_property_t * property)146 bool property_is_name(const bt_property_t *property) {
147   assert(property != NULL);
148   return property->type == BT_PROPERTY_BDNAME;
149 }
150 
property_is_rssi(const bt_property_t * property)151 bool property_is_rssi(const bt_property_t *property) {
152   assert(property != NULL);
153   return property->type == BT_PROPERTY_REMOTE_RSSI;
154 }
155 
property_is_scan_mode(const bt_property_t * property)156 bool property_is_scan_mode(const bt_property_t *property) {
157   assert(property != NULL);
158   return property->type == BT_PROPERTY_ADAPTER_SCAN_MODE;
159 }
160 
property_is_uuids(const bt_property_t * property)161 bool property_is_uuids(const bt_property_t *property) {
162   assert(property != NULL);
163   return property->type == BT_PROPERTY_UUIDS;
164 }
165 
166 // Convenience conversion methods to property values
property_as_addr(const bt_property_t * property)167 const bt_bdaddr_t *property_as_addr(const bt_property_t *property) {
168   assert(property_is_addr(property));
169   return (const bt_bdaddr_t *)property->val;
170 }
171 
property_as_device_class(const bt_property_t * property)172 const bt_device_class_t *property_as_device_class(const bt_property_t *property) {
173   assert(property_is_device_class(property));
174   return (const bt_device_class_t *)property->val;
175 }
176 
property_as_device_type(const bt_property_t * property)177 bt_device_type_t property_as_device_type(const bt_property_t *property) {
178   assert(property_is_device_type(property));
179   return *(const bt_device_type_t *)property->val;
180 }
181 
property_as_discovery_timeout(const bt_property_t * property)182 uint32_t property_as_discovery_timeout(const bt_property_t *property) {
183   assert(property_is_discovery_timeout(property));
184   return *(const uint32_t *)property->val;
185 }
186 
property_as_name(const bt_property_t * property)187 const bt_bdname_t *property_as_name(const bt_property_t *property) {
188   assert(property_is_name(property));
189   return (const bt_bdname_t *)property->val;
190 }
191 
property_as_rssi(const bt_property_t * property)192 int8_t property_as_rssi(const bt_property_t *property) {
193   assert(property_is_rssi(property));
194   return *(const int8_t *)property->val;
195 }
196 
property_as_scan_mode(const bt_property_t * property)197 bt_scan_mode_t property_as_scan_mode(const bt_property_t *property) {
198   assert(property_is_scan_mode(property));
199   return *(const bt_scan_mode_t *)property->val;
200 }
201 
property_as_uuids(const bt_property_t * property,size_t * count)202 const bt_uuid_t *property_as_uuids(const bt_property_t *property, size_t *count) {
203   assert(property_is_uuids(property));
204   *count = sizeof(bt_uuid_t) / property->len;
205   return (const bt_uuid_t *)property->val;
206 }
207 
property_new_(void * val,size_t len,bt_property_type_t type)208 static bt_property_t *property_new_(void *val, size_t len, bt_property_type_t type) {
209   bt_property_t *property = osi_calloc(sizeof(bt_property_t));
210 
211   property->val = osi_malloc(len);
212   memcpy(property->val, val, len);
213 
214   property->type = type;
215   property->len = len;
216 
217   return property;
218 }
219