1 // Copyright 2014 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 #include "media/midi/usb_midi_output_stream.h"
7 #include "base/logging.h"
8 #include "media/midi/midi_message_util.h"
9 #include "media/midi/usb_midi_device.h"
13 UsbMidiOutputStream::UsbMidiOutputStream(const UsbMidiJack
& jack
)
14 : jack_(jack
), pending_size_(0), is_sending_sysex_(false) {}
16 void UsbMidiOutputStream::Send(const std::vector
<uint8
>& data
) {
17 // To prevent link errors caused by DCHECK_*.
18 const size_t kPacketContentSize
= UsbMidiOutputStream::kPacketContentSize
;
19 DCHECK_LT(jack_
.cable_number
, 16u);
21 std::vector
<uint8
> data_to_send
;
23 size_t size
= GetSize(data
);
24 while (current
< size
) {
25 uint8 first_byte
= Get(data
, current
);
26 if (first_byte
== kSysExByte
|| is_sending_sysex_
) {
27 // System Exclusive messages
28 if (!PushSysExMessage(data
, ¤t
, &data_to_send
))
30 } else if ((first_byte
& kSysMessageBitMask
) == kSysMessageBitPattern
) {
31 if (first_byte
& 0x08) {
32 // System Real-Time messages
33 PushSysRTMessage(data
, ¤t
, &data_to_send
);
35 // System Common messages
36 if (!PushSysCommonMessage(data
, ¤t
, &data_to_send
))
39 } else if (first_byte
& 0x80) {
40 if (!PushChannelMessage(data
, ¤t
, &data_to_send
))
44 DVLOG(1) << "Unknown byte: " << static_cast<unsigned int>(first_byte
);
49 if (data_to_send
.size() > 0)
50 jack_
.device
->Send(jack_
.endpoint_number(), data_to_send
);
52 DCHECK_LE(current
, size
);
53 DCHECK_LE(size
- current
, kPacketContentSize
);
54 // Note that this can be a self-copying and the iteration order is important.
55 for (size_t i
= current
; i
< size
; ++i
)
56 pending_data_
[i
- current
] = Get(data
, i
);
57 pending_size_
= size
- current
;
60 size_t UsbMidiOutputStream::GetSize(const std::vector
<uint8
>& data
) const {
61 return data
.size() + pending_size_
;
64 uint8_t UsbMidiOutputStream::Get(const std::vector
<uint8
>& data
,
66 DCHECK_LT(index
, GetSize(data
));
67 if (index
< pending_size_
)
68 return pending_data_
[index
];
69 return data
[index
- pending_size_
];
72 bool UsbMidiOutputStream::PushSysExMessage(const std::vector
<uint8
>& data
,
74 std::vector
<uint8
>* data_to_send
) {
75 size_t index
= *current
;
76 size_t message_size
= 0;
77 const size_t kMessageSizeMax
= 3;
78 uint8 message
[kMessageSizeMax
] = {};
80 while (index
< GetSize(data
)) {
81 if (message_size
== kMessageSizeMax
) {
82 // We can't find the end-of-message mark in the three bytes.
84 data_to_send
->push_back((jack_
.cable_number
<< 4) | 0x4);
85 data_to_send
->insert(data_to_send
->end(),
87 message
+ arraysize(message
));
88 is_sending_sysex_
= true;
91 uint8 byte
= Get(data
, index
);
92 if ((byte
& kSysRTMessageBitMask
) == kSysRTMessageBitPattern
) {
93 // System Real-Time messages interleaved in a SysEx message
94 PushSysRTMessage(data
, &index
, data_to_send
);
98 message
[message_size
] = byte
;
100 if (byte
== kEndOfSysExByte
) {
101 uint8 code_index
= message_size
+ 0x4;
102 DCHECK(code_index
== 0x5 || code_index
== 0x6 || code_index
== 0x7);
103 data_to_send
->push_back((jack_
.cable_number
<< 4) | code_index
);
104 data_to_send
->insert(data_to_send
->end(),
106 message
+ arraysize(message
));
107 *current
= index
+ 1;
108 is_sending_sysex_
= false;
116 bool UsbMidiOutputStream::PushSysCommonMessage(
117 const std::vector
<uint8
>& data
,
119 std::vector
<uint8
>* data_to_send
) {
120 size_t index
= *current
;
121 uint8 first_byte
= Get(data
, index
);
122 DCHECK_LE(0xf1, first_byte
);
123 DCHECK_LE(first_byte
, 0xf7);
124 DCHECK_EQ(0xf0, first_byte
& 0xf8);
125 // There are only 6 message types (0xf1 - 0xf7), so the table size is 8.
126 const size_t message_size_table
[8] = {
127 0, 2, 3, 2, 1, 1, 1, 0,
129 size_t message_size
= message_size_table
[first_byte
& 0x07];
130 DCHECK_NE(0u, message_size
);
131 DCHECK_LE(message_size
, 3u);
133 if (GetSize(data
) < index
+ message_size
) {
134 // The message is incomplete.
138 uint8 code_index
= message_size
== 1 ? 0x5 : static_cast<uint8
>(message_size
);
139 data_to_send
->push_back((jack_
.cable_number
<< 4) | code_index
);
140 for (size_t i
= index
; i
< index
+ 3; ++i
)
141 data_to_send
->push_back(i
< index
+ message_size
? Get(data
, i
) : 0);
142 *current
+= message_size
;
146 void UsbMidiOutputStream::PushSysRTMessage(const std::vector
<uint8
>& data
,
148 std::vector
<uint8
>* data_to_send
) {
149 size_t index
= *current
;
150 uint8 first_byte
= Get(data
, index
);
151 DCHECK_LE(0xf8, first_byte
);
152 DCHECK_LE(first_byte
, 0xff);
154 data_to_send
->push_back((jack_
.cable_number
<< 4) | 0x5);
155 data_to_send
->push_back(first_byte
);
156 data_to_send
->push_back(0);
157 data_to_send
->push_back(0);
161 bool UsbMidiOutputStream::PushChannelMessage(const std::vector
<uint8
>& data
,
163 std::vector
<uint8
>* data_to_send
) {
164 size_t index
= *current
;
165 uint8 first_byte
= Get(data
, index
);
167 DCHECK_LE(0x80, (first_byte
& 0xf0));
168 DCHECK_LE((first_byte
& 0xf0), 0xe0);
169 // There are only 7 message types (0x8-0xe in the higher four bits), so the
171 const size_t message_size_table
[8] = {
172 3, 3, 3, 3, 2, 3, 3, 0,
174 uint8 code_index
= first_byte
>> 4;
175 DCHECK_LE(0x08, code_index
);
176 DCHECK_LE(code_index
, 0x0e);
177 size_t message_size
= message_size_table
[code_index
& 0x7];
178 DCHECK_NE(0u, message_size
);
179 DCHECK_LE(message_size
, 3u);
181 if (GetSize(data
) < index
+ message_size
) {
182 // The message is incomplete.
186 data_to_send
->push_back((jack_
.cable_number
<< 4) | code_index
);
187 for (size_t i
= index
; i
< index
+ 3; ++i
)
188 data_to_send
->push_back(i
< index
+ message_size
? Get(data
, i
) : 0);
189 *current
+= message_size
;
