pi1541/uspi/lib/usbmidi.c

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2018-05-20 04:53:34 +00:00
//
// usbmidi.c
//
// USPi - An USB driver for Raspberry Pi written in C
// Copyright (C) 2016 R. Stange <rsta2@o2online.de>
// Copyright (C) 2016 J. Otto <joshua.t.otto@gmail.com>
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
// Refer to "Universal Serial Bus Device Class Specification for MIDI Devices"
#include <uspi/usbmidi.h>
#include <uspi/usbhostcontroller.h>
#include <uspi/devicenameservice.h>
#include <uspi/assert.h>
#include <uspios.h>
static const char FromMIDI[] = "umidi";
static unsigned s_nDeviceNumber = 1;
static boolean USBMIDIDeviceStartRequest (TUSBMIDIDevice *pThis);
static void USBMIDIDeviceCompletionRoutine (TUSBRequest *pURB, void *pParam, void *pContext);
// This handy table from the Linux driver encodes the mapping between MIDI
// packet Code Index Number values and encapsulated packet lengths.
static const unsigned cin_to_length[] = {
0, 0, 2, 3, 3, 1, 2, 3, 3, 3, 3, 3, 2, 2, 3, 1
};
#define EVENT_PACKET_SIZE 4
void USBMIDIDevice (TUSBMIDIDevice *pThis, TUSBDevice *pDevice)
{
assert (pThis != 0);
USBDeviceCopy (&pThis->m_USBDevice, pDevice);
pThis->m_USBDevice.Configure = USBMIDIDeviceConfigure;
pThis->m_pEndpointIn = 0;
pThis->m_pPacketHandler = 0;
pThis->m_pURB = 0;
pThis->m_pPacketBuffer = 0;
}
void _CUSBMIDIDevice (TUSBMIDIDevice *pThis)
{
assert (pThis != 0);
if (pThis->m_pPacketBuffer != 0)
{
free (pThis->m_pPacketBuffer);
pThis->m_pPacketBuffer = 0;
}
if (pThis->m_pEndpointIn != 0)
{
_USBEndpoint (pThis->m_pEndpointIn);
free (pThis->m_pEndpointIn);
pThis->m_pEndpointIn = 0;
}
_USBDevice (&pThis->m_USBDevice);
}
boolean USBMIDIDeviceConfigure (TUSBDevice *pUSBDevice)
{
TUSBMIDIDevice *pThis = (TUSBMIDIDevice *)pUSBDevice;
assert (pThis != 0);
TUSBConfigurationDescriptor *pConfDesc =
(TUSBConfigurationDescriptor *) USBDeviceGetDescriptor (&pThis->m_USBDevice, DESCRIPTOR_CONFIGURATION);
if ( pConfDesc == 0
|| pConfDesc->bNumInterfaces < 1)
{
USBDeviceConfigurationError (&pThis->m_USBDevice, FromMIDI);
return FALSE;
}
TUSBInterfaceDescriptor *pInterfaceDesc;
while ((pInterfaceDesc = (TUSBInterfaceDescriptor *) USBDeviceGetDescriptor (&pThis->m_USBDevice, DESCRIPTOR_INTERFACE)) != 0)
{
if ( pInterfaceDesc->bNumEndpoints == 0
|| pInterfaceDesc->bInterfaceClass != 0x01 // Audio class
|| pInterfaceDesc->bInterfaceSubClass != 0x03 // MIDI streaming
|| pInterfaceDesc->bInterfaceProtocol != 0x00) // unused, must be 0
{
continue;
}
// Our strategy for now is simple: we'll take the first MIDI streaming
// bulk-in endpoint on this interface we can find. To distinguish
// between the MIDI streaming bulk-in endpoints we want (which carry
// actual MIDI data streams) and 'transfer bulk data' endpoints (which
// are used to implement features like Downloadable Samples that we
// don't care about), we'll look for an immediately-accompanying
// class-specific endpoint descriptor.
TUSBAudioEndpointDescriptor *pEndpointDesc;
while ((pEndpointDesc = (TUSBAudioEndpointDescriptor *) USBDeviceGetDescriptor (&pThis->m_USBDevice, DESCRIPTOR_ENDPOINT)) != 0)
{
if ( (pEndpointDesc->bEndpointAddress & 0x80) != 0x80 // Input EP
|| (pEndpointDesc->bmAttributes & 0x3F) != 0x02) // Bulk EP
{
continue;
}
TUSBMIDIStreamingEndpointDescriptor *pMIDIDesc =
(TUSBMIDIStreamingEndpointDescriptor *) USBDeviceGetDescriptor (&pThis->m_USBDevice, DESCRIPTOR_CS_ENDPOINT);
if ( pMIDIDesc == 0
|| (u8 *)pEndpointDesc + pEndpointDesc->bLength != (u8 *)pMIDIDesc)
{
continue;
}
assert (pThis->m_pEndpointIn == 0);
pThis->m_pEndpointIn = malloc (sizeof (TUSBEndpoint));
assert (pThis->m_pEndpointIn != 0);
pThis->m_usBufferSize = pEndpointDesc->wMaxPacketSize;
pThis->m_usBufferSize -= pEndpointDesc->wMaxPacketSize % EVENT_PACKET_SIZE;
assert (pThis->m_pPacketBuffer == 0);
pThis->m_pPacketBuffer = malloc (pThis->m_usBufferSize);
assert (pThis->m_pPacketBuffer != 0);
USBEndpoint2 (pThis->m_pEndpointIn, &pThis->m_USBDevice, (TUSBEndpointDescriptor *) pEndpointDesc);
}
}
if (pThis->m_pEndpointIn == 0)
{
USBDeviceConfigurationError (&pThis->m_USBDevice, FromMIDI);
return FALSE;
}
if (!USBDeviceConfigure (&pThis->m_USBDevice))
{
LogWrite (FromMIDI, LOG_ERROR, "Cannot set configuration");
return FALSE;
}
TString DeviceName;
String (&DeviceName);
StringFormat (&DeviceName, "umidi%u", s_nDeviceNumber++);
DeviceNameServiceAddDevice (DeviceNameServiceGet (), StringGet (&DeviceName), pThis, FALSE);
_String(&DeviceName);
return USBMIDIDeviceStartRequest (pThis);
}
void USBMIDIDeviceRegisterPacketHandler (TUSBMIDIDevice *pThis, TMIDIPacketHandler *pPacketHandler)
{
assert (pThis != 0);
assert (pPacketHandler != 0);
pThis->m_pPacketHandler = pPacketHandler;
}
boolean USBMIDIDeviceStartRequest (TUSBMIDIDevice *pThis)
{
assert (pThis != 0);
assert (pThis->m_pEndpointIn != 0);
assert (pThis->m_pPacketBuffer != 0);
assert (pThis->m_pURB == 0);
pThis->m_pURB = malloc (sizeof (TUSBRequest));
assert (pThis->m_pURB != 0);
USBRequest (pThis->m_pURB, pThis->m_pEndpointIn, pThis->m_pPacketBuffer, pThis->m_usBufferSize, 0);
USBRequestSetCompletionRoutine (pThis->m_pURB, USBMIDIDeviceCompletionRoutine, 0, pThis);
return DWHCIDeviceSubmitAsyncRequest (USBDeviceGetHost (&pThis->m_USBDevice), pThis->m_pURB);
}
void USBMIDIDeviceCompletionRoutine (TUSBRequest *pURB, void *pParam, void *pContext)
{
TUSBMIDIDevice *pThis = (TUSBMIDIDevice *) pContext;
assert (pThis != 0);
assert (pURB != 0);
assert (pThis->m_pURB == pURB);
if ( USBRequestGetStatus (pURB) != 0
&& USBRequestGetResultLength (pURB) % EVENT_PACKET_SIZE == 0)
{
assert (pThis->m_pPacketBuffer != 0);
u8 *pEnd = pThis->m_pPacketBuffer + USBRequestGetResultLength(pURB);
for (u8 *pPacket = pThis->m_pPacketBuffer; pPacket < pEnd; pPacket += EVENT_PACKET_SIZE)
{
// Follow the Linux driver's example and ignore packets with Cable
// Number == Code Index Number == 0, which some devices seem to
// generate as padding in spite of their status as reserved.
if (pPacket[0] != 0)
{
if (pThis->m_pPacketHandler != 0)
{
unsigned nCable = pPacket[0] >> 4;
unsigned nLength = cin_to_length[pPacket[0] & 0xf];
pThis->m_pPacketHandler(nCable, nLength, &pPacket[1]);
}
}
}
}
_USBRequest (pThis->m_pURB);
free (pThis->m_pURB);
pThis->m_pURB = 0;
USBMIDIDeviceStartRequest (pThis);
}