Disable the AppKeepAliveService.
[chromium-blink-merge.git] / ui / surface / transport_dib.h
blob7ec7bb815f7c2c769d59a1d6d7163dc178c1ecf4
1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef UI_SURFACE_TRANSPORT_DIB_H_
6 #define UI_SURFACE_TRANSPORT_DIB_H_
8 #include "base/basictypes.h"
9 #include "ui/surface/surface_export.h"
11 #if !defined(TOOLKIT_GTK)
12 #include "base/memory/shared_memory.h"
13 #endif
15 #if defined(OS_WIN)
16 #include <windows.h>
17 #elif defined(TOOLKIT_GTK)
18 #include "ui/base/x/x11_util.h"
19 #include "ui/gfx/x/x11_types.h"
20 #endif
22 class SkCanvas;
24 // -----------------------------------------------------------------------------
25 // A TransportDIB is a block of memory that is used to transport pixels
26 // between processes: from the renderer process to the browser, and
27 // between renderer and plugin processes.
28 // -----------------------------------------------------------------------------
29 class SURFACE_EXPORT TransportDIB {
30 public:
31 ~TransportDIB();
33 // Two typedefs are defined. A Handle is the type which can be sent over
34 // the wire so that the remote side can map the transport DIB. The Id typedef
35 // is sufficient to identify the transport DIB when you know that the remote
36 // side already may have it mapped.
37 #if defined(OS_WIN)
38 typedef HANDLE Handle;
39 // On Windows, the Id type includes a sequence number (epoch) to solve an ABA
40 // issue:
41 // 1) Process A creates a transport DIB with HANDLE=1 and sends to B.
42 // 2) Process B maps the transport DIB and caches 1 -> DIB.
43 // 3) Process A closes the transport DIB and creates a new one. The new DIB
44 // is also assigned HANDLE=1.
45 // 4) Process A sends the Handle to B, but B incorrectly believes that it
46 // already has it cached.
47 struct HandleAndSequenceNum {
48 HandleAndSequenceNum()
49 : handle(NULL),
50 sequence_num(0) {
53 HandleAndSequenceNum(HANDLE h, uint32 seq_num)
54 : handle(h),
55 sequence_num(seq_num) {
58 bool operator==(const HandleAndSequenceNum& other) const {
59 return other.handle == handle && other.sequence_num == sequence_num;
62 bool operator<(const HandleAndSequenceNum& other) const {
63 // Use the lexicographic order on the tuple <handle, sequence_num>.
64 if (other.handle != handle)
65 return other.handle < handle;
66 return other.sequence_num < sequence_num;
69 HANDLE handle;
70 uint32 sequence_num;
72 typedef HandleAndSequenceNum Id;
74 // Returns a default, invalid handle, that is meant to indicate a missing
75 // Transport DIB.
76 static Handle DefaultHandleValue() { return NULL; }
78 // Returns a value that is ONLY USEFUL FOR TESTS WHERE IT WON'T BE
79 // ACTUALLY USED AS A REAL HANDLE.
80 static Handle GetFakeHandleForTest() {
81 static int fake_handle = 10;
82 return reinterpret_cast<Handle>(fake_handle++);
84 #elif defined(TOOLKIT_GTK)
85 typedef int Handle; // These two ints are SysV IPC shared memory keys
86 struct Id {
87 // Ensure that default initialized Ids are invalid.
88 Id() : shmkey(-1) {
91 bool operator<(const Id& other) const {
92 return shmkey < other.shmkey;
95 bool operator==(const Id& other) const {
96 return shmkey == other.shmkey;
99 int shmkey;
102 // Returns a default, invalid handle, that is meant to indicate a missing
103 // Transport DIB.
104 static Handle DefaultHandleValue() { return -1; }
106 // Returns a value that is ONLY USEFUL FOR TESTS WHERE IT WON'T BE
107 // ACTUALLY USED AS A REAL HANDLE.
108 static Handle GetFakeHandleForTest() {
109 static int fake_handle = 10;
110 return fake_handle++;
112 #else // OS_POSIX
113 typedef base::SharedMemoryHandle Handle;
114 // On POSIX, the inode number of the backing file is used as an id.
115 #if defined(OS_ANDROID)
116 typedef base::SharedMemoryHandle Id;
117 #else
118 typedef base::SharedMemoryId Id;
119 #endif
121 // Returns a default, invalid handle, that is meant to indicate a missing
122 // Transport DIB.
123 static Handle DefaultHandleValue() { return Handle(); }
125 // Returns a value that is ONLY USEFUL FOR TESTS WHERE IT WON'T BE
126 // ACTUALLY USED AS A REAL HANDLE.
127 static Handle GetFakeHandleForTest() {
128 static int fake_handle = 10;
129 return Handle(fake_handle++, false);
131 #endif
133 // Create a new TransportDIB, returning NULL on failure.
135 // The size is the minimum size in bytes of the memory backing the transport
136 // DIB (we may actually allocate more than that to give us better reuse when
137 // cached).
139 // The sequence number is used to uniquely identify the transport DIB. It
140 // should be unique for all transport DIBs ever created in the same
141 // renderer.
142 static TransportDIB* Create(size_t size, uint32 sequence_num);
144 // Map the referenced transport DIB. The caller owns the returned object.
145 // Returns NULL on failure.
146 static TransportDIB* Map(Handle transport_dib);
148 // Create a new |TransportDIB| with a handle to the shared memory. This
149 // always returns a valid pointer. The DIB is not mapped.
150 static TransportDIB* CreateWithHandle(Handle handle);
152 // Returns true if the handle is valid.
153 static bool is_valid_handle(Handle dib);
155 // Returns true if the ID refers to a valid dib.
156 static bool is_valid_id(Id id);
158 // Returns a canvas using the memory of this TransportDIB. The returned
159 // pointer will be owned by the caller. The bitmap will be of the given size,
160 // which should fit inside this memory.
162 // On POSIX, this |TransportDIB| will be mapped if not already. On Windows,
163 // this |TransportDIB| will NOT be mapped and should not be mapped prior,
164 // because PlatformCanvas will map the file internally.
166 // Will return NULL on allocation failure. This could be because the image
167 // is too large to map into the current process' address space.
168 SkCanvas* GetPlatformCanvas(int w, int h);
170 // Map the DIB into the current process if it is not already. This is used to
171 // map a DIB that has already been created. Returns true if the DIB is mapped.
172 bool Map();
174 // Return a pointer to the shared memory.
175 void* memory() const;
177 // Return the maximum size of the shared memory. This is not the amount of
178 // data which is valid, you have to know that via other means, this is simply
179 // the maximum amount that /could/ be valid.
180 size_t size() const { return size_; }
182 // Return the identifier which can be used to refer to this shared memory
183 // on the wire.
184 Id id() const;
186 // Return a handle to the underlying shared memory. This can be sent over the
187 // wire to give this transport DIB to another process.
188 Handle handle() const;
190 #if defined(TOOLKIT_GTK)
191 // Map the shared memory into the X server and return an id for the shared
192 // segment.
193 XID MapToX(XDisplay* connection);
195 void IncreaseInFlightCounter() { inflight_counter_++; }
196 // Decreases the inflight counter, and deletes the transport DIB if it is
197 // detached.
198 void DecreaseInFlightCounter();
200 // Deletes this transport DIB and detaches the shared memory once the
201 // |inflight_counter_| is zero.
202 void Detach();
203 #endif
205 private:
206 TransportDIB();
208 // Verifies that the dib can hold a canvas of the requested dimensions.
209 bool VerifyCanvasSize(int w, int h);
211 #if defined(TOOLKIT_GTK)
212 Id key_; // SysV shared memory id
213 void* address_; // mapped address
214 XSharedMemoryId x_shm_; // X id for the shared segment
215 XDisplay* display_; // connection to the X server
216 size_t inflight_counter_; // How many requests to the X server are in flight
217 bool detached_; // If true, delete the transport DIB when it is idle
218 #else
219 explicit TransportDIB(base::SharedMemoryHandle dib);
220 base::SharedMemory shared_memory_;
221 uint32 sequence_num_;
222 #endif
223 size_t size_; // length, in bytes
225 DISALLOW_COPY_AND_ASSIGN(TransportDIB);
228 #endif // UI_SURFACE_TRANSPORT_DIB_H_