mirror of
https://github.com/gdsports/USBHost_t36
synced 2024-11-15 21:55:01 -05:00
366 lines
10 KiB
C++
366 lines
10 KiB
C++
/* USB EHCI Host for Teensy 3.6
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* Copyright 2017 Paul Stoffregen (paul@pjrc.com)
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*
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* Permission is hereby granted, free of charge, to any person obtaining a
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* copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be included
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* in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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#include <Arduino.h>
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#include "USBHost_t36.h" // Read this header first for key info
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#define print USBHost::print_
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#define println USBHost::println_
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void MIDIDevice::init()
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{
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contribute_Pipes(mypipes, sizeof(mypipes)/sizeof(Pipe_t));
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contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));
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contribute_String_Buffers(mystring_bufs, sizeof(mystring_bufs)/sizeof(strbuf_t));
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handleNoteOff = NULL;
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handleNoteOn = NULL;
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handleVelocityChange = NULL;
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handleControlChange = NULL;
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handleProgramChange = NULL;
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handleAfterTouch = NULL;
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handlePitchChange = NULL;
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handleSysEx = NULL;
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handleRealTimeSystem = NULL;
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handleTimeCodeQuarterFrame = NULL;
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rx_head = 0;
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rx_tail = 0;
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driver_ready_for_device(this);
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}
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// Audio Class-Specific Descriptor Types (audio 1.0, page 99)
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// CS_UNDEFINED 0x20
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// CS_DEVICE 0x21
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// CS_CONFIGURATION 0x22
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// CS_STRING 0x23
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// CS_INTERFACE 0x24
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// CS_ENDPOINT 0x25
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// MS Class-Specific Interface Descriptor Subtypes (midi 1.0, page 36)
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// MS_DESCRIPTOR_UNDEFINED 0x00
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// MS_HEADER 0x01
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// MIDI_IN_JACK 0x02
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// MIDI_OUT_JACK 0x03
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// ELEMENT 0x04
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// MS Class-Specific Endpoint Descriptor Subtypes (midi 1.0, page 36)
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// DESCRIPTOR_UNDEFINED 0x00
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// MS_GENERAL 0x01
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// MS MIDI IN and OUT Jack types (midi 1.0, page 36)
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// JACK_TYPE_UNDEFINED 0x00
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// EMBEDDED 0x01
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// EXTERNAL 0x02
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// Endpoint Control Selectors (midi 1.0, page 36)
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// EP_CONTROL_UNDEFINED 0x00
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// ASSOCIATION_CONTROL 0x01
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bool MIDIDevice::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)
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{
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// only claim at interface level
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if (type != 1) return false;
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println("MIDIDevice claim this=", (uint32_t)this, HEX);
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println("len = ", len);
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const uint8_t *p = descriptors;
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const uint8_t *end = p + len;
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if (p[0] != 9 || p[1] != 4) return false; // interface descriptor
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//println(" bInterfaceClass=", p[5]);
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//println(" bInterfaceSubClass=", p[6]);
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if (p[5] != 1) return false; // bInterfaceClass: 1 = Audio class
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if (p[6] != 3) return false; // bInterfaceSubClass: 3 = MIDI
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p += 9;
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println(" Interface is MIDI");
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rx_ep = 0;
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tx_ep = 0;
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while (p < end) {
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len = *p;
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if (len < 4) return false; // all audio desc are at least 4 bytes
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if (p + len > end) return false; // reject if beyond end of data
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uint32_t type = p[1];
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//println("type: ", type);
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if (type == 4 || type == 11) break; // interface or IAD, not for us
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if (type == 0x24) { // 0x24 = Audio CS_INTERFACE, audio 1.0, page 99
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uint32_t subtype = p[2];
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//println("subtype: ", subtype);
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if (subtype == 1) {
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// Interface Header, midi 1.0, page 21
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println(" MIDI Header (ignored)");
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} else if (subtype == 2) {
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// MIDI IN Jack, midi 1.0, page 22
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println(" MIDI IN Jack (ignored)");
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} else if (subtype == 3) {
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// MIDI OUT Jack, midi 1.0, page 22
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println(" MIDI OUT Jack (ignored)");
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} else if (subtype == 4) {
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// Element Descriptor, midi 1.0, page 23-24
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println(" MIDI Element (ignored)");
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} else {
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return false; // unknown
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}
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} else if (type == 5) {
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// endpoint descriptor
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if (p[0] < 7) return false; // at least 7 bytes
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if (p[3] != 2) return false; // must be bulk type
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println(" MIDI Endpoint: ", p[2], HEX);
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switch (p[2] & 0xF0) {
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case 0x80:
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// IN endpoint
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if (rx_ep == 0) {
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rx_ep = p[2] & 0x0F;
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rx_size = p[4] | (p[5] << 8);
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println(" rx_size = ", rx_size);
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}
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break;
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case 0x00:
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// OUT endpoint
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if (tx_ep == 0) {
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tx_ep = p[2];
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tx_size = p[4] | (p[5] << 8);
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println(" tx_size = ", tx_size);
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}
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break;
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default:
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return false;
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}
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} else if (type == 37) {
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// MIDI endpoint info, midi 1.0: 6.2.2, page 26
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println(" MIDI Endpoint Jack Association (ignored)");
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} else {
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return false; // unknown
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}
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p += len;
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}
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// if an IN endpoint was found, create its pipe
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if (rx_ep && rx_size <= MAX_PACKET_SIZE) {
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rxpipe = new_Pipe(dev, 2, rx_ep, 1, rx_size);
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if (rxpipe) {
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rxpipe->callback_function = rx_callback;
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queue_Data_Transfer(rxpipe, rx_buffer, rx_size, this);
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rx_packet_queued = true;
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}
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} else {
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rxpipe = NULL;
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}
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// if an OUT endpoint was found, create its pipe
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if (tx_ep && tx_size <= MAX_PACKET_SIZE) {
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txpipe = new_Pipe(dev, 2, tx_ep, 0, tx_size);
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if (txpipe) {
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txpipe->callback_function = tx_callback;
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}
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} else {
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txpipe = NULL;
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}
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rx_head = 0;
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rx_tail = 0;
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msg_channel = 0;
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msg_type = 0;
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msg_data1 = 0;
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msg_data2 = 0;
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msg_sysex_len = 0;
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// claim if either pipe created
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return (rxpipe || txpipe);
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}
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void MIDIDevice::rx_callback(const Transfer_t *transfer)
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{
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if (transfer->driver) {
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((MIDIDevice *)(transfer->driver))->rx_data(transfer);
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}
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}
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void MIDIDevice::tx_callback(const Transfer_t *transfer)
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{
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if (transfer->driver) {
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((MIDIDevice *)(transfer->driver))->tx_data(transfer);
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}
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}
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void MIDIDevice::rx_data(const Transfer_t *transfer)
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{
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println("MIDIDevice Receive");
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print(" MIDI Data: ");
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print_hexbytes(transfer->buffer, rx_size);
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uint32_t head = rx_head;
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uint32_t tail = rx_tail;
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uint32_t len = (transfer->length - ((transfer->qtd.token >> 16) & 0x7FFF)) >> 2;
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for (uint32_t i=0; i < len; i++) {
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uint32_t msg = rx_buffer[i];
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if (msg) {
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if (++head >= RX_QUEUE_SIZE) head = 0;
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rx_queue[head] = msg;
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}
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}
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rx_head = head;
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rx_tail = tail;
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uint32_t avail = (head < tail) ? tail - head - 1 : RX_QUEUE_SIZE - 1 - head + tail;
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println("rx_size = ", rx_size);
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println("avail = ", avail);
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if (avail >= (uint32_t)(rx_size>>2)) {
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// enough space to accept another full packet
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println("queue another receive packet");
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queue_Data_Transfer(rxpipe, rx_buffer, rx_size, this);
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rx_packet_queued = true;
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} else {
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// queue can't accept another packet's data, so leave
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// the data waiting on the device until we can accept it
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println("wait to receive more packets");
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rx_packet_queued = false;
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}
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}
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void MIDIDevice::tx_data(const Transfer_t *transfer)
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{
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println("MIDIDevice transmit complete");
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print(" MIDI Data: ");
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print_hexbytes(transfer->buffer, tx_size);
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// TODO: return the buffer to the pool...
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}
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void MIDIDevice::disconnect()
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{
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// should rx_queue be cleared?
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// as-is, the user can still read MIDI messages
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// which arrived before the device disconnected.
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rxpipe = NULL;
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txpipe = NULL;
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}
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bool MIDIDevice::read(uint8_t channel, uint8_t cable)
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{
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uint32_t n, head, tail, avail, ch, type1, type2;
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head = rx_head;
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tail = rx_tail;
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if (head == tail) return false;
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if (++tail >= RX_QUEUE_SIZE) tail = 0;
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n = rx_queue[tail];
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rx_tail = tail;
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if (!rx_packet_queued && rxpipe) {
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avail = (head < tail) ? tail - head - 1 : RX_QUEUE_SIZE - 1 - head + tail;
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if (avail >= (uint32_t)(rx_size>>2)) {
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__disable_irq();
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queue_Data_Transfer(rxpipe, rx_buffer, rx_size, this);
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__enable_irq();
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}
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}
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println("read: ", n, HEX);
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type1 = n & 15;
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type2 = (n >> 12) & 15;
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ch = ((n >> 8) & 15) + 1;
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if (type1 >= 0x08 && type1 <= 0x0E) {
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if (channel && channel != ch) {
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// ignore other channels when user wants single channel read
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return false;
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}
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if (type1 == 0x08 && type2 == 0x08) {
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msg_type = 8; // 8 = Note off
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if (handleNoteOff)
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(*handleNoteOff)(ch, (n >> 16), (n >> 24));
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} else
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if (type1 == 0x09 && type2 == 0x09) {
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if ((n >> 24) > 0) {
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msg_type = 9; // 9 = Note on
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if (handleNoteOn)
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(*handleNoteOn)(ch, (n >> 16), (n >> 24));
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} else {
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msg_type = 8; // 8 = Note off
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if (handleNoteOff)
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(*handleNoteOff)(ch, (n >> 16), (n >> 24));
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}
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} else
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if (type1 == 0x0A && type2 == 0x0A) {
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msg_type = 10; // 10 = Poly Pressure
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if (handleVelocityChange)
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(*handleVelocityChange)(ch, (n >> 16), (n >> 24));
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} else
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if (type1 == 0x0B && type2 == 0x0B) {
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msg_type = 11; // 11 = Control Change
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if (handleControlChange)
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(*handleControlChange)(ch, (n >> 16), (n >> 24));
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} else
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if (type1 == 0x0C && type2 == 0x0C) {
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msg_type = 12; // 12 = Program Change
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if (handleProgramChange) (*handleProgramChange)(ch, (n >> 16));
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} else
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if (type1 == 0x0D && type2 == 0x0D) {
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msg_type = 13; // 13 = After Touch
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if (handleAfterTouch) (*handleAfterTouch)(ch, (n >> 16));
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} else
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if (type1 == 0x0E && type2 == 0x0E) {
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msg_type = 14; // 14 = Pitch Bend
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if (handlePitchChange)
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(*handlePitchChange)(ch, ((n >> 16) & 0x7F) | ((n >> 17) & 0x3F80));
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} else {
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return false;
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}
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msg_channel = ch;
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msg_data1 = (n >> 16);
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msg_data2 = (n >> 24);
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return true;
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}
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if (type1 == 0x04) {
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sysex_byte(n >> 8);
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sysex_byte(n >> 16);
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sysex_byte(n >> 24);
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return false;
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}
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if (type1 >= 0x05 && type1 <= 0x07) {
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sysex_byte(n >> 8);
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if (type1 >= 0x06) sysex_byte(n >> 16);
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if (type1 == 0x07) sysex_byte(n >> 24);
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msg_data1 = msg_sysex_len;
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msg_sysex_len = 0;
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msg_type = 15; // 15 = Sys Ex
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if (handleSysEx)
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(*handleSysEx)(msg_sysex, msg_data1, 1);
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return true;
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}
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// TODO: single byte messages
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// TODO: time code messages?
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return false;
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}
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void MIDIDevice::sysex_byte(uint8_t b)
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{
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// when buffer is full, send another chunk to handler.
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if (msg_sysex_len >= SYSEX_MAX_LEN) {
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if (handleSysEx) {
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(*handleSysEx)(msg_sysex, msg_sysex_len, 0);
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msg_sysex_len = 0;
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}
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}
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if (msg_sysex_len < SYSEX_MAX_LEN) {
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msg_sysex[msg_sysex_len++] = b;
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}
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}
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