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1 //
2 // Copyright 2018 The Android Open Source Project
3 //
4 // Licensed under the Apache License, Version 2.0 (the "License");
5 // you may not use this file except in compliance with the License.
6 // You may obtain a copy of the License at
7 //
8 //      http://www.apache.org/licenses/LICENSE-2.0
9 //
10 // Unless required by applicable law or agreed to in writing, software
11 // distributed under the License is distributed on an "AS IS" BASIS,
12 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 // See the License for the specific language governing permissions and
14 // limitations under the License.
15 //
16 #define LOG_TAG "VtsHidlHandleDriver"
17 
18 #include "hidl_handle_driver/VtsHidlHandleDriver.h"
19 
20 #include <fcntl.h>
21 #include <stdio.h>
22 #include <sys/stat.h>
23 #include <sys/types.h>
24 #include <unistd.h>
25 #include <vector>
26 
27 #include <android-base/logging.h>
28 
29 using android::hardware::hidl_handle;
30 
31 using namespace std;
32 
33 namespace android {
34 namespace vts {
35 
VtsHidlHandleDriver()36 VtsHidlHandleDriver::VtsHidlHandleDriver() {}
37 
~VtsHidlHandleDriver()38 VtsHidlHandleDriver::~VtsHidlHandleDriver() {
39   // clears objects in the map.
40   hidl_handle_map_.clear();
41 }
42 
CreateFileHandle(string filepath,int flag,int mode,vector<int> data)43 HandleId VtsHidlHandleDriver::CreateFileHandle(string filepath, int flag,
44                                                int mode, vector<int> data) {
45   int num_fds = 1;
46   int num_ints = data.size();
47   native_handle_t* native_handle = native_handle_create(num_fds, num_ints);
48   if (native_handle == nullptr) {
49     LOG(ERROR) << "native_handle create failure.";
50     return -1;
51   }
52 
53   for (int i = 0; i < num_fds + num_ints; i++) {
54     if (i < num_fds) {
55       int curr_fd = open(filepath.c_str(), flag, mode);
56       if (curr_fd == -1) {
57         LOG(ERROR) << "Failed to create file descriptor for file with path "
58                    << filepath;
59         // Need to close already opened files because creating handle fails.
60         for (int j = 0; j < i; j++) {
61           close(native_handle->data[j]);
62         }
63         native_handle_delete(native_handle);
64         return -1;
65       }
66       native_handle->data[i] = curr_fd;
67     } else {
68       native_handle->data[i] = data[i - num_fds];
69     }
70   }
71 
72   // This class owns native_handle object, responsible for deleting it
73   // in the destructor.
74   unique_ptr<hidl_handle> hidl_handle_ptr(new hidl_handle());
75   hidl_handle_ptr->setTo(native_handle, true);
76   // Insert the handle object into the map.
77   map_mutex_.lock();
78   size_t new_handle_id = hidl_handle_map_.size();
79   hidl_handle_map_.emplace(new_handle_id, move(hidl_handle_ptr));
80   map_mutex_.unlock();
81   return new_handle_id;
82 }
83 
UnregisterHidlHandle(HandleId handle_id)84 bool VtsHidlHandleDriver::UnregisterHidlHandle(HandleId handle_id) {
85   // true flag to indicate we want smart pointer to release ownership.
86   hidl_handle* handle_obj = FindHandle(handle_id, true);
87   if (handle_obj == nullptr) return false;  // unable to find handle object.
88   delete handle_obj;  // This closes open file descriptors in the handle object.
89   return true;
90 }
91 
ReadFile(HandleId handle_id,void * read_data,size_t num_bytes)92 ssize_t VtsHidlHandleDriver::ReadFile(HandleId handle_id, void* read_data,
93                                       size_t num_bytes) {
94   hidl_handle* handle_obj = FindHandle(handle_id);
95   if (handle_obj == nullptr) return -1;
96 
97   const native_handle_t* native_handle = handle_obj->getNativeHandle();
98   // Check if a file descriptor exists.
99   if (native_handle->numFds == 0) {
100     LOG(ERROR) << "Read from file failure: handle object with id " << handle_id
101                << " has no file descriptor.";
102     return -1;
103   }
104   int fd = native_handle->data[0];
105   ssize_t read_result = read(fd, read_data, num_bytes);
106   if (read_result == -1) {
107     LOG(ERROR) << "Read from file failure: read from file with descriptor "
108                << fd << " failure: " << strerror(errno);
109   }
110   return read_result;
111 }
112 
WriteFile(HandleId handle_id,const void * write_data,size_t num_bytes)113 ssize_t VtsHidlHandleDriver::WriteFile(HandleId handle_id,
114                                        const void* write_data,
115                                        size_t num_bytes) {
116   hidl_handle* handle_obj = FindHandle(handle_id);
117   if (handle_obj == nullptr) return -1;
118 
119   const native_handle_t* native_handle = handle_obj->getNativeHandle();
120   // Check if a file descriptor exists.
121   if (native_handle->numFds == 0) {
122     LOG(ERROR) << "Write to file failure: handle object with id " << handle_id
123                << " has no file descriptor.";
124     return -1;
125   }
126   int fd = native_handle->data[0];
127   ssize_t write_result = write(fd, write_data, num_bytes);
128   if (write_result == -1) {
129     LOG(ERROR) << "Write to file failure: write to file with descriptor " << fd
130                << " failure: " << strerror(errno);
131   }
132   return write_result;
133 }
134 
RegisterHidlHandle(size_t hidl_handle_address)135 HandleId VtsHidlHandleDriver::RegisterHidlHandle(size_t hidl_handle_address) {
136   unique_ptr<hidl_handle> hidl_handle_ptr(
137       reinterpret_cast<hidl_handle*>(hidl_handle_address));
138 
139   map_mutex_.lock();
140   size_t new_handle_id = hidl_handle_map_.size();
141   hidl_handle_map_.emplace(new_handle_id, move(hidl_handle_ptr));
142   map_mutex_.unlock();
143   return new_handle_id;
144 }
145 
GetHidlHandleAddress(HandleId handle_id,size_t * result)146 bool VtsHidlHandleDriver::GetHidlHandleAddress(HandleId handle_id,
147                                                size_t* result) {
148   hidl_handle* handle = FindHandle(handle_id);
149   if (handle == nullptr) return false;  // unable to find handle object.
150   *result = reinterpret_cast<size_t>(handle);
151   return true;
152 }
153 
FindHandle(HandleId handle_id,bool release)154 hidl_handle* VtsHidlHandleDriver::FindHandle(HandleId handle_id, bool release) {
155   hidl_handle* handle;
156   map_mutex_.lock();
157   auto iterator = hidl_handle_map_.find(handle_id);
158   if (iterator == hidl_handle_map_.end()) {
159     LOG(ERROR) << "Unable to find hidl_handle associated with handle_id "
160                << handle_id;
161     map_mutex_.unlock();
162     return nullptr;
163   }
164   // During unregistering a handle, unique_ptr releases ownership.
165   if (release)
166     handle = (iterator->second).release();
167   else
168     handle = (iterator->second).get();
169   map_mutex_.unlock();
170   return handle;
171 }
172 
173 }  // namespace vts
174 }  // namespace android
175