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wine/dlls/winealsa.drv/alsamidi.c
Alexandre Julliard 533823ed2a winealsa.drv: Allocate the MIDI device array dynamically.
2023-11-09 23:00:39 +01:00

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/*
* MIDI driver for ALSA (unixlib)
*
* Copyright 1994 Martin Ayotte
* Copyright 1998 Luiz Otavio L. Zorzella
* Copyright 1998, 1999 Eric POUECH
* Copyright 2003 Christian Costa
* Copyright 2022 Huw Davies
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#if 0
#pragma makedep unix
#endif
#include "config.h"
#include <stdarg.h>
#include <stdio.h>
#include <stdint.h>
#include <unistd.h>
#include <pthread.h>
#include <time.h>
#include <alsa/asoundlib.h>
#include "ntstatus.h"
#define WIN32_NO_STATUS
#include "windef.h"
#include "winbase.h"
#include "winternl.h"
#include "mmdeviceapi.h"
#include "mmddk.h"
#include "wine/debug.h"
#include "wine/unixlib.h"
#include "unixlib.h"
WINE_DEFAULT_DEBUG_CHANNEL(midi);
struct midi_dest
{
BOOL bEnabled;
MIDIOPENDESC midiDesc;
BYTE runningStatus;
WORD wFlags;
MIDIOUTCAPSW caps;
snd_seq_t *seq;
snd_seq_addr_t addr;
int port_out;
};
struct midi_src
{
int state; /* -1 disabled, 0 is no recording started, 1 in recording, bit 2 set if in sys exclusive recording */
MIDIOPENDESC midiDesc;
WORD wFlags;
MIDIHDR *lpQueueHdr;
UINT startTime;
MIDIINCAPSW caps;
snd_seq_t *seq;
snd_seq_addr_t addr;
int port_in;
};
static pthread_mutex_t seq_mutex = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t in_buffer_mutex = PTHREAD_MUTEX_INITIALIZER;
static unsigned int num_dests, num_srcs;
static struct midi_dest *dests;
static struct midi_src *srcs;
static snd_seq_t *midi_seq;
static unsigned int seq_refs;
static int port_in = -1;
static unsigned int num_midi_in_started;
static int rec_cancel_pipe[2];
static pthread_t rec_thread_id;
static pthread_mutex_t notify_mutex = PTHREAD_MUTEX_INITIALIZER;
static pthread_cond_t notify_read_cond = PTHREAD_COND_INITIALIZER;
static pthread_cond_t notify_write_cond = PTHREAD_COND_INITIALIZER;
static BOOL notify_quit;
#define NOTIFY_BUFFER_SIZE 64 + 1 /* + 1 for the sentinel */
static struct notify_context notify_buffer[NOTIFY_BUFFER_SIZE];
static struct notify_context *notify_read = notify_buffer, *notify_write = notify_buffer;
static void seq_lock(void)
{
pthread_mutex_lock(&seq_mutex);
}
static void seq_unlock(void)
{
pthread_mutex_unlock(&seq_mutex);
}
static void in_buffer_lock(void)
{
pthread_mutex_lock(&in_buffer_mutex);
}
static void in_buffer_unlock(void)
{
pthread_mutex_unlock(&in_buffer_mutex);
}
static uint64_t get_time_msec(void)
{
struct timespec now = {0, 0};
#ifdef CLOCK_MONOTONIC_RAW
if (!clock_gettime(CLOCK_MONOTONIC_RAW, &now))
return (uint64_t)now.tv_sec * 1000 + now.tv_nsec / 1000000;
#endif
clock_gettime(CLOCK_MONOTONIC, &now);
return (uint64_t)now.tv_sec * 1000 + now.tv_nsec / 1000000;
}
static void set_in_notify(struct notify_context *notify, struct midi_src *src, WORD dev_id, WORD msg,
UINT_PTR param_1, UINT_PTR param_2)
{
notify->send_notify = TRUE;
notify->dev_id = dev_id;
notify->msg = msg;
notify->param_1 = param_1;
notify->param_2 = param_2;
notify->callback = src->midiDesc.dwCallback;
notify->flags = src->wFlags;
notify->device = src->midiDesc.hMidi;
notify->instance = src->midiDesc.dwInstance;
}
/*
* notify buffer: The notification ring buffer is implemented so that
* there is always at least one unused sentinel before the current
* read position in order to allow detection of the full vs empty
* state.
*/
static struct notify_context *notify_buffer_next(struct notify_context *notify)
{
if (++notify >= notify_buffer + ARRAY_SIZE(notify_buffer))
notify = notify_buffer;
return notify;
}
static BOOL notify_buffer_empty(void)
{
return notify_read == notify_write;
}
static BOOL notify_buffer_full(void)
{
return notify_buffer_next(notify_write) == notify_read;
}
static BOOL notify_buffer_add(struct notify_context *notify)
{
if (notify_buffer_full()) return FALSE;
*notify_write = *notify;
notify_write = notify_buffer_next(notify_write);
return TRUE;
}
static BOOL notify_buffer_remove(struct notify_context *notify)
{
if (notify_buffer_empty()) return FALSE;
*notify = *notify_read;
notify_read = notify_buffer_next(notify_read);
return TRUE;
}
static void notify_post(struct notify_context *notify)
{
pthread_mutex_lock(&notify_mutex);
if (notify)
{
while (notify_buffer_full())
pthread_cond_wait(&notify_write_cond, &notify_mutex);
notify_buffer_add(notify);
}
else notify_quit = TRUE;
pthread_cond_signal(&notify_read_cond);
pthread_mutex_unlock(&notify_mutex);
}
static snd_seq_t *seq_open(int *port_in_ret)
{
static int midi_warn;
seq_lock();
if (seq_refs == 0)
{
if (snd_seq_open(&midi_seq, "default", SND_SEQ_OPEN_DUPLEX, 0) < 0)
{
if (!midi_warn)
WARN("Error opening ALSA sequencer.\n");
midi_warn = 1;
seq_unlock();
return NULL;
}
snd_seq_set_client_name(midi_seq, "WINE midi driver");
}
seq_refs++;
if (port_in_ret)
{
if (port_in < 0)
{
port_in = snd_seq_create_simple_port(midi_seq, "WINE ALSA Input",
SND_SEQ_PORT_CAP_WRITE | SND_SEQ_PORT_CAP_SUBS_READ | SND_SEQ_PORT_CAP_SUBS_WRITE,
SND_SEQ_PORT_TYPE_MIDI_GENERIC | SND_SEQ_PORT_TYPE_APPLICATION);
if (port_in < 0)
TRACE("Unable to create input port\n");
else
TRACE("Input port %d created successfully\n", port_in);
}
*port_in_ret = port_in;
}
seq_unlock();
return midi_seq;
}
static void seq_close(void)
{
seq_lock();
if (--seq_refs == 0)
{
if (port_in >= 0)
{
snd_seq_delete_simple_port(midi_seq, port_in);
port_in = -1;
}
snd_seq_close(midi_seq);
midi_seq = NULL;
}
seq_unlock();
}
static int alsa_to_win_device_type(unsigned int type)
{
/* MOD_MIDIPORT output port
* MOD_SYNTH generic internal synth
* MOD_SQSYNTH square wave internal synth
* MOD_FMSYNTH FM internal synth
* MOD_MAPPER MIDI mapper
* MOD_WAVETABLE hardware wavetable internal synth
* MOD_SWSYNTH software internal synth
*/
/* FIXME Is this really the correct equivalence from ALSA to
Windows Sound type? */
if (type & SND_SEQ_PORT_TYPE_SYNTH)
return MOD_FMSYNTH;
if (type & (SND_SEQ_PORT_TYPE_DIRECT_SAMPLE|SND_SEQ_PORT_TYPE_SAMPLE))
return MOD_SYNTH;
if (type & (SND_SEQ_PORT_TYPE_MIDI_GENERIC|SND_SEQ_PORT_TYPE_APPLICATION))
return MOD_MIDIPORT;
ERR("Cannot determine the type (alsa type is %x) of this midi device. Assuming FM Synth\n", type);
return MOD_FMSYNTH;
}
static void port_add(snd_seq_client_info_t* cinfo, snd_seq_port_info_t* pinfo, unsigned int cap, unsigned int type)
{
char name[MAXPNAMELEN];
unsigned int len;
struct midi_dest *dest;
struct midi_src *src;
if (cap & SND_SEQ_PORT_CAP_WRITE) {
TRACE("OUT (%d:%s:%s:%d:%s:%x)\n",snd_seq_client_info_get_client(cinfo),
snd_seq_client_info_get_name(cinfo),
snd_seq_client_info_get_type(cinfo) == SND_SEQ_USER_CLIENT ? "user" : "kernel",
snd_seq_port_info_get_port(pinfo),
snd_seq_port_info_get_name(pinfo),
type);
if (!type)
return;
dests = realloc( dests, (num_dests + 1) * sizeof(*dests) );
dest = dests + num_dests;
memset( dest, 0, sizeof(*dest) );
dest->addr = *snd_seq_port_info_get_addr(pinfo);
/* Manufac ID. We do not have access to this with soundcard.h
* Does not seem to be a problem, because in mmsystem.h only
* Microsoft's ID is listed.
*/
dest->caps.wMid = 0x00FF;
dest->caps.wPid = 0x0001; /* FIXME Product ID */
/* Product Version. We simply say "1" */
dest->caps.vDriverVersion = 0x001;
/* The following are mandatory for MOD_MIDIPORT */
dest->caps.wChannelMask = 0xFFFF;
dest->caps.wVoices = 0;
dest->caps.wNotes = 0;
dest->caps.dwSupport = 0;
/* Try to use both client and port names, if this is too long take the port name only.
In the second case the port name should be explicit enough due to its big size.
*/
len = strlen(snd_seq_port_info_get_name(pinfo));
if ( (strlen(snd_seq_client_info_get_name(cinfo)) + len + 3) < sizeof(name) ) {
sprintf(name, "%s - %s", snd_seq_client_info_get_name(cinfo), snd_seq_port_info_get_name(pinfo));
len = strlen(name);
} else {
len = min(len, sizeof(name) - 1);
memcpy(name, snd_seq_port_info_get_name(pinfo), len);
name[len] = '\0';
}
ntdll_umbstowcs( name, len + 1, dest->caps.szPname, ARRAY_SIZE(dest->caps.szPname));
dest->caps.wTechnology = alsa_to_win_device_type(type);
if (MOD_MIDIPORT != dest->caps.wTechnology) {
/* FIXME Do we have this information?
* Assuming the soundcards can handle
* MIDICAPS_VOLUME and MIDICAPS_LRVOLUME but
* not MIDICAPS_CACHE.
*/
dest->caps.dwSupport = MIDICAPS_VOLUME|MIDICAPS_LRVOLUME;
dest->caps.wVoices = 16;
/* FIXME Is it possible to know the maximum
* number of simultaneous notes of a soundcard ?
* I believe we don't have this information, but
* it's probably equal or more than wVoices
*/
dest->caps.wNotes = 16;
}
dest->bEnabled = TRUE;
dest->port_out = -1;
TRACE("MidiOut[%d]\tname='%s' techn=%d voices=%d notes=%d chnMsk=%04x support=%d\n"
"\tALSA info: midi dev-type=%x, capa=0\n",
num_dests, wine_dbgstr_w(dest->caps.szPname),
dest->caps.wTechnology,
dest->caps.wVoices, dest->caps.wNotes,
dest->caps.wChannelMask, (unsigned)dest->caps.dwSupport,
type);
num_dests++;
}
if (cap & SND_SEQ_PORT_CAP_READ) {
TRACE("IN (%d:%s:%s:%d:%s:%x)\n",snd_seq_client_info_get_client(cinfo),
snd_seq_client_info_get_name(cinfo),
snd_seq_client_info_get_type(cinfo) == SND_SEQ_USER_CLIENT ? "user" : "kernel",
snd_seq_port_info_get_port(pinfo),
snd_seq_port_info_get_name(pinfo),
type);
if (!type)
return;
srcs = realloc( srcs, (num_srcs + 1) * sizeof(*srcs) );
src = srcs + num_srcs;
memset( src, 0, sizeof(*src) );
src->addr = *snd_seq_port_info_get_addr(pinfo);
/* Manufac ID. We do not have access to this with soundcard.h
* Does not seem to be a problem, because in mmsystem.h only
* Microsoft's ID is listed.
*/
src->caps.wMid = 0x00FF;
src->caps.wPid = 0x0001; /* FIXME Product ID */
/* Product Version. We simply say "1" */
src->caps.vDriverVersion = 0x001;
src->caps.dwSupport = 0; /* mandatory with MIDIINCAPS */
/* Try to use both client and port names, if this is too long take the port name only.
In the second case the port name should be explicit enough due to its big size.
*/
len = strlen(snd_seq_port_info_get_name(pinfo));
if ( (strlen(snd_seq_client_info_get_name(cinfo)) + len + 3) < sizeof(name) ) {
sprintf(name, "%s - %s", snd_seq_client_info_get_name(cinfo), snd_seq_port_info_get_name(pinfo));
len = strlen(name);
} else {
len = min(len, sizeof(name) - 1);
memcpy(name, snd_seq_port_info_get_name(pinfo), len);
name[len] = '\0';
}
ntdll_umbstowcs( name, len + 1, src->caps.szPname, ARRAY_SIZE(src->caps.szPname));
src->state = 0;
TRACE("MidiIn [%d]\tname='%s' support=%d\n"
"\tALSA info: midi dev-type=%x, capa=0\n",
num_srcs, wine_dbgstr_w(src->caps.szPname), (unsigned)src->caps.dwSupport, type);
num_srcs++;
}
}
static UINT alsa_midi_init(void)
{
static BOOL init_done;
snd_seq_client_info_t *cinfo;
snd_seq_port_info_t *pinfo;
snd_seq_t *seq;
if (init_done)
return ERROR_ALREADY_INITIALIZED;
TRACE("Initializing the MIDI variables.\n");
init_done = TRUE;
/* try to open device */
if (!(seq = seq_open(NULL)))
return ERROR_OPEN_FAILED;
cinfo = calloc( 1, snd_seq_client_info_sizeof() );
pinfo = calloc( 1, snd_seq_port_info_sizeof() );
/* First, search for all internal midi devices */
snd_seq_client_info_set_client(cinfo, -1);
while (snd_seq_query_next_client(seq, cinfo) >= 0) {
snd_seq_port_info_set_client(pinfo, snd_seq_client_info_get_client(cinfo));
snd_seq_port_info_set_port(pinfo, -1);
while (snd_seq_query_next_port(seq, pinfo) >= 0) {
unsigned int cap = snd_seq_port_info_get_capability(pinfo);
unsigned int type = snd_seq_port_info_get_type(pinfo);
if (!(type & SND_SEQ_PORT_TYPE_PORT))
port_add(cinfo, pinfo, cap, type);
}
}
/* Second, search for all external ports */
snd_seq_client_info_set_client(cinfo, -1);
while (snd_seq_query_next_client(seq, cinfo) >= 0) {
snd_seq_port_info_set_client(pinfo, snd_seq_client_info_get_client(cinfo));
snd_seq_port_info_set_port(pinfo, -1);
while (snd_seq_query_next_port(seq, pinfo) >= 0) {
unsigned int cap = snd_seq_port_info_get_capability(pinfo);
unsigned int type = snd_seq_port_info_get_type(pinfo);
if (type & SND_SEQ_PORT_TYPE_PORT)
port_add(cinfo, pinfo, cap, type);
}
}
seq_close();
free( cinfo );
free( pinfo );
TRACE("End\n");
return NOERROR;
}
NTSTATUS alsa_midi_release(void *args)
{
/* stop the notify_wait thread */
notify_post(NULL);
return STATUS_SUCCESS;
}
static void set_out_notify(struct notify_context *notify, struct midi_dest *dest, WORD dev_id, WORD msg,
UINT_PTR param_1, UINT_PTR param_2)
{
notify->send_notify = TRUE;
notify->dev_id = dev_id;
notify->msg = msg;
notify->param_1 = param_1;
notify->param_2 = param_2;
notify->callback = dest->midiDesc.dwCallback;
notify->flags = dest->wFlags;
notify->device = dest->midiDesc.hMidi;
notify->instance = dest->midiDesc.dwInstance;
}
static UINT midi_out_open(WORD dev_id, MIDIOPENDESC *midi_desc, UINT flags, struct notify_context *notify)
{
int ret;
int port_out;
char port_out_name[32];
snd_seq_t *midi_seq;
struct midi_dest *dest;
TRACE("(%04X, %p, %08X);\n", dev_id, midi_desc, flags);
if (midi_desc == NULL)
{
WARN("Invalid Parameter !\n");
return MMSYSERR_INVALPARAM;
}
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
dest = dests + dev_id;
if (dest->midiDesc.hMidi != 0)
{
WARN("device already open !\n");
return MMSYSERR_ALLOCATED;
}
if (!dest->bEnabled)
{
WARN("device disabled !\n");
return MIDIERR_NODEVICE;
}
if ((flags & ~CALLBACK_TYPEMASK) != 0)
{
WARN("bad dwFlags\n");
return MMSYSERR_INVALFLAG;
}
switch (dest->caps.wTechnology)
{
case MOD_FMSYNTH:
case MOD_MIDIPORT:
case MOD_SYNTH:
if (!(midi_seq = seq_open(NULL)))
return MMSYSERR_ALLOCATED;
break;
default:
WARN("Technology not supported (yet) %d !\n", dest->caps.wTechnology);
return MMSYSERR_NOTENABLED;
}
dest->runningStatus = 0;
dest->wFlags = HIWORD(flags & CALLBACK_TYPEMASK);
dest->midiDesc = *midi_desc;
dest->seq = midi_seq;
seq_lock();
/* Create a port dedicated to a specific device */
/* Keep the old name without a number for the first port */
if (dev_id)
sprintf(port_out_name, "WINE ALSA Output #%d", dev_id);
port_out = snd_seq_create_simple_port(midi_seq, dev_id ? port_out_name : "WINE ALSA Output",
SND_SEQ_PORT_CAP_READ | SND_SEQ_PORT_CAP_SUBS_READ | SND_SEQ_PORT_CAP_SUBS_WRITE,
SND_SEQ_PORT_TYPE_MIDI_GENERIC | SND_SEQ_PORT_TYPE_APPLICATION);
if (port_out < 0)
{
TRACE("Unable to create output port\n");
dest->port_out = -1;
}
else
{
TRACE("Output port %d created successfully\n", port_out);
dest->port_out = port_out;
/* Connect our app port to the device port */
ret = snd_seq_connect_to(midi_seq, port_out, dest->addr.client, dest->addr.port);
/* usually will happen when the port is already connected */
/* other errors should not be fatal either */
if (ret < 0)
WARN("Could not connect port %d to %d:%d: %s\n", dev_id, dest->addr.client,
dest->addr.port, snd_strerror(ret));
}
seq_unlock();
if (port_out < 0)
return MMSYSERR_NOTENABLED;
TRACE("Output port :%d connected %d:%d\n", port_out, dest->addr.client, dest->addr.port);
set_out_notify(notify, dest, dev_id, MOM_OPEN, 0, 0);
return MMSYSERR_NOERROR;
}
static UINT midi_out_close(WORD dev_id, struct notify_context *notify)
{
struct midi_dest *dest;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_dests)
{
WARN("bad device ID : %d\n", dev_id);
return MMSYSERR_BADDEVICEID;
}
dest = dests + dev_id;
if (dest->midiDesc.hMidi == 0)
{
WARN("device not opened !\n");
return MMSYSERR_ERROR;
}
/* FIXME: should test that no pending buffer is still in the queue for
* playing */
if (dest->seq == NULL)
{
WARN("can't close !\n");
return MMSYSERR_ERROR;
}
switch (dest->caps.wTechnology)
{
case MOD_FMSYNTH:
case MOD_MIDIPORT:
case MOD_SYNTH:
seq_lock();
TRACE("Deleting port :%d, connected to %d:%d\n", dest->port_out, dest->addr.client, dest->addr.port);
snd_seq_delete_simple_port(dest->seq, dest->port_out);
dest->port_out = -1;
seq_unlock();
seq_close();
dest->seq = NULL;
break;
default:
WARN("Technology not supported (yet) %d !\n", dest->caps.wTechnology);
return MMSYSERR_NOTENABLED;
}
set_out_notify(notify, dest, dev_id, MOM_CLOSE, 0, 0);
dest->midiDesc.hMidi = 0;
return MMSYSERR_NOERROR;
}
static UINT midi_out_data(WORD dev_id, UINT data)
{
BYTE evt = LOBYTE(LOWORD(data)), d1, d2;
struct midi_dest *dest;
TRACE("(%04X, %08X);\n", dev_id, data);
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
dest = dests + dev_id;
if (!dest->bEnabled) return MIDIERR_NODEVICE;
if (dest->seq == NULL)
{
WARN("can't play !\n");
return MIDIERR_NODEVICE;
}
if (evt & 0x80)
{
d1 = HIBYTE(LOWORD(data));
d2 = LOBYTE(HIWORD(data));
if (evt < 0xF0)
dest->runningStatus = evt;
else if (evt <= 0xF7)
dest->runningStatus = 0;
}
else if (dest->runningStatus)
{
evt = dest->runningStatus;
d1 = LOBYTE(LOWORD(data));
d2 = HIBYTE(LOWORD(data));
}
else
{
FIXME("ooch %x\n", data);
return MMSYSERR_NOERROR;
}
switch (dest->caps.wTechnology)
{
case MOD_SYNTH:
case MOD_MIDIPORT:
{
int handled = 1; /* Assume event is handled */
snd_seq_event_t event;
snd_seq_ev_clear(&event);
snd_seq_ev_set_direct(&event);
snd_seq_ev_set_source(&event, dest->port_out);
snd_seq_ev_set_subs(&event);
switch (evt & 0xF0)
{
case MIDI_CMD_NOTE_OFF:
snd_seq_ev_set_noteoff(&event, evt & 0x0F, d1, d2);
break;
case MIDI_CMD_NOTE_ON:
snd_seq_ev_set_noteon(&event, evt & 0x0F, d1, d2);
break;
case MIDI_CMD_NOTE_PRESSURE:
snd_seq_ev_set_keypress(&event, evt & 0x0F, d1, d2);
break;
case MIDI_CMD_CONTROL:
snd_seq_ev_set_controller(&event, evt & 0x0F, d1, d2);
break;
case MIDI_CMD_BENDER:
snd_seq_ev_set_pitchbend(&event, evt & 0x0F, ((WORD)d2 << 7 | (WORD)d1) - 0x2000);
break;
case MIDI_CMD_PGM_CHANGE:
snd_seq_ev_set_pgmchange(&event, evt & 0x0F, d1);
break;
case MIDI_CMD_CHANNEL_PRESSURE:
snd_seq_ev_set_chanpress(&event, evt & 0x0F, d1);
break;
case MIDI_CMD_COMMON_SYSEX:
switch (evt & 0x0F)
{
case 0x00: /* System Exclusive, don't do it on modData,
* should require modLongData*/
case 0x04: /* Undefined. */
case 0x05: /* Undefined. */
case 0x07: /* End of Exclusive. */
case 0x09: /* Undefined. */
case 0x0D: /* Undefined. */
handled = 0;
break;
case 0x06: /* Tune Request */
case 0x08: /* Timing Clock. */
case 0x0A: /* Start. */
case 0x0B: /* Continue */
case 0x0C: /* Stop */
case 0x0E: /* Active Sensing. */
{
snd_midi_event_t *midi_event;
snd_midi_event_new(1, &midi_event);
snd_midi_event_init(midi_event);
snd_midi_event_encode_byte(midi_event, evt, &event);
snd_midi_event_free(midi_event);
break;
}
case 0x0F: /* Reset */
/* snd_seq_ev_set_sysex(&event, 1, &evt);
this other way may be better */
{
BYTE reset_sysex_seq[] = {MIDI_CMD_COMMON_SYSEX, 0x7e, 0x7f, 0x09, 0x01, 0xf7};
snd_seq_ev_set_sysex(&event, sizeof(reset_sysex_seq), reset_sysex_seq);
dest->runningStatus = 0;
break;
}
case 0x01: /* MTC Quarter frame */
case 0x03: /* Song Select. */
{
BYTE buf[2];
buf[0] = evt;
buf[1] = d1;
snd_seq_ev_set_sysex(&event, sizeof(buf), buf);
break;
}
case 0x02: /* Song Position Pointer. */
{
BYTE buf[3];
buf[0] = evt;
buf[1] = d1;
buf[2] = d2;
snd_seq_ev_set_sysex(&event, sizeof(buf), buf);
break;
}
}
break;
}
if (handled)
{
seq_lock();
snd_seq_event_output_direct(dest->seq, &event);
seq_unlock();
}
break;
}
default:
WARN("Technology not supported (yet) %d !\n", dest->caps.wTechnology);
return MMSYSERR_NOTENABLED;
}
return MMSYSERR_NOERROR;
}
static UINT midi_out_long_data(WORD dev_id, MIDIHDR *hdr, UINT hdr_size, struct notify_context *notify)
{
struct midi_dest *dest;
int len_add = 0;
BYTE *data, *new_data = NULL;
snd_seq_event_t event;
TRACE("(%04X, %p, %08X);\n", dev_id, hdr, hdr_size);
/* Note: MS doc does not say much about the dwBytesRecorded member of the MIDIHDR structure
* but it seems to be used only for midi input.
* Taking a look at the WAVEHDR structure (which is quite similar) confirms this assumption.
*/
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
dest = dests + dev_id;
if (!dest->bEnabled) return MIDIERR_NODEVICE;
if (dest->seq == NULL)
{
WARN("can't play !\n");
return MIDIERR_NODEVICE;
}
data = (BYTE*)hdr->lpData;
if (data == NULL)
return MIDIERR_UNPREPARED;
if (!(hdr->dwFlags & MHDR_PREPARED))
return MIDIERR_UNPREPARED;
if (hdr->dwFlags & MHDR_INQUEUE)
return MIDIERR_STILLPLAYING;
hdr->dwFlags &= ~MHDR_DONE;
hdr->dwFlags |= MHDR_INQUEUE;
/* FIXME: MS doc is not 100% clear. Will lpData only contain system exclusive
* data, or can it also contain raw MIDI data, to be split up and sent to
* modShortData() ?
* If the latest is true, then the following WARNing will fire up
*/
if (data[0] != 0xF0 || data[hdr->dwBufferLength - 1] != 0xF7)
{
WARN("Alleged system exclusive buffer is not correct\n\tPlease report with MIDI file\n");
new_data = malloc(hdr->dwBufferLength + 2);
}
TRACE("dwBufferLength=%u !\n", (unsigned)hdr->dwBufferLength);
TRACE(" %02X %02X %02X ... %02X %02X %02X\n",
data[0], data[1], data[2], data[hdr->dwBufferLength-3],
data[hdr->dwBufferLength-2], data[hdr->dwBufferLength-1]);
switch (dest->caps.wTechnology)
{
case MOD_FMSYNTH:
/* FIXME: I don't think there is much to do here */
free(new_data);
break;
case MOD_MIDIPORT:
if (data[0] != 0xF0)
{
/* Send start of System Exclusive */
len_add = 1;
new_data[0] = 0xF0;
memcpy(new_data + 1, data, hdr->dwBufferLength);
WARN("Adding missing 0xF0 marker at the beginning of system exclusive byte stream\n");
}
if (data[hdr->dwBufferLength-1] != 0xF7)
{
/* Send end of System Exclusive */
if (!len_add)
memcpy(new_data, data, hdr->dwBufferLength);
new_data[hdr->dwBufferLength + len_add] = 0xF7;
len_add++;
WARN("Adding missing 0xF7 marker at the end of system exclusive byte stream\n");
}
snd_seq_ev_clear(&event);
snd_seq_ev_set_direct(&event);
snd_seq_ev_set_source(&event, dest->port_out);
snd_seq_ev_set_subs(&event);
snd_seq_ev_set_sysex(&event, hdr->dwBufferLength + len_add, new_data ? new_data : data);
seq_lock();
snd_seq_event_output_direct(dest->seq, &event);
seq_unlock();
free(new_data);
break;
default:
WARN("Technology not supported (yet) %d !\n", dest->caps.wTechnology);
free(new_data);
return MMSYSERR_NOTENABLED;
}
dest->runningStatus = 0;
hdr->dwFlags &= ~MHDR_INQUEUE;
hdr->dwFlags |= MHDR_DONE;
set_out_notify(notify, dest, dev_id, MOM_DONE, (DWORD_PTR)hdr, 0);
return MMSYSERR_NOERROR;
}
static UINT midi_out_prepare(WORD dev_id, MIDIHDR *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(MIDIHDR, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (hdr->dwFlags & MHDR_PREPARED)
return MMSYSERR_NOERROR;
hdr->lpNext = 0;
hdr->dwFlags |= MHDR_PREPARED;
hdr->dwFlags &= ~(MHDR_DONE | MHDR_INQUEUE);
return MMSYSERR_NOERROR;
}
static UINT midi_out_unprepare(WORD dev_id, MIDIHDR *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(MIDIHDR, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (!(hdr->dwFlags & MHDR_PREPARED))
return MMSYSERR_NOERROR;
if (hdr->dwFlags & MHDR_INQUEUE)
return MIDIERR_STILLPLAYING;
hdr->dwFlags &= ~MHDR_PREPARED;
return MMSYSERR_NOERROR;
}
static UINT midi_out_get_devcaps(WORD dev_id, MIDIOUTCAPSW *caps, UINT size)
{
TRACE("(%04X, %p, %08X);\n", dev_id, caps, size);
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
if (!caps) return MMSYSERR_INVALPARAM;
memcpy(caps, &dests[dev_id].caps, min(size, sizeof(*caps)));
return MMSYSERR_NOERROR;
}
static UINT midi_out_get_volume(WORD dev_id, UINT* volume)
{
if (!volume) return MMSYSERR_INVALPARAM;
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
*volume = 0xFFFFFFFF;
return (dests[dev_id].caps.dwSupport & MIDICAPS_VOLUME) ? 0 : MMSYSERR_NOTSUPPORTED;
}
static UINT midi_out_reset(WORD dev_id)
{
unsigned chn;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_dests) return MMSYSERR_BADDEVICEID;
if (!dests[dev_id].bEnabled) return MIDIERR_NODEVICE;
/* stop all notes */
for (chn = 0; chn < 16; chn++)
{
/* turn off every note */
midi_out_data(dev_id, (MIDI_CTL_ALL_SOUNDS_OFF << 8) | MIDI_CMD_CONTROL | chn);
/* remove sustain on all channels */
midi_out_data(dev_id, (MIDI_CTL_SUSTAIN << 8) | MIDI_CMD_CONTROL | chn);
}
dests[dev_id].runningStatus = 0;
/* FIXME: the LongData buffers must also be returned to the app */
return MMSYSERR_NOERROR;
}
static void handle_sysex_event(struct midi_src *src, BYTE *data, UINT len)
{
UINT pos = 0, copy_len, current_time = get_time_msec() - src->startTime;
struct notify_context notify;
MIDIHDR *hdr;
in_buffer_lock();
while (len)
{
hdr = src->lpQueueHdr;
if (!hdr) break;
copy_len = min(len, hdr->dwBufferLength - hdr->dwBytesRecorded);
memcpy(hdr->lpData + hdr->dwBytesRecorded, data + pos, copy_len);
hdr->dwBytesRecorded += copy_len;
len -= copy_len;
pos += copy_len;
if ((hdr->dwBytesRecorded == hdr->dwBufferLength) ||
(*(BYTE*)(hdr->lpData + hdr->dwBytesRecorded - 1) == 0xF7))
{ /* buffer full or end of sysex message */
src->lpQueueHdr = hdr->lpNext;
hdr->dwFlags &= ~MHDR_INQUEUE;
hdr->dwFlags |= MHDR_DONE;
set_in_notify(&notify, src, src - srcs, MIM_LONGDATA, (DWORD_PTR)hdr, current_time);
notify_post(&notify);
}
}
in_buffer_unlock();
}
static void handle_regular_event(struct midi_src *src, snd_seq_event_t *ev)
{
UINT data = 0, value, current_time = get_time_msec() - src->startTime;
struct notify_context notify;
switch (ev->type)
{
case SND_SEQ_EVENT_NOTEOFF:
data = (ev->data.note.velocity << 16) | (ev->data.note.note << 8) | MIDI_CMD_NOTE_OFF | ev->data.control.channel;
break;
case SND_SEQ_EVENT_NOTEON:
data = (ev->data.note.velocity << 16) | (ev->data.note.note << 8) | MIDI_CMD_NOTE_ON | ev->data.control.channel;
break;
case SND_SEQ_EVENT_KEYPRESS:
data = (ev->data.note.velocity << 16) | (ev->data.note.note << 8) | MIDI_CMD_NOTE_PRESSURE | ev->data.control.channel;
break;
case SND_SEQ_EVENT_CONTROLLER:
data = (ev->data.control.value << 16) | (ev->data.control.param << 8) | MIDI_CMD_CONTROL | ev->data.control.channel;
break;
case SND_SEQ_EVENT_PITCHBEND:
value = ev->data.control.value + 0x2000;
data = (((value >> 7) & 0x7f) << 16) | ((value & 0x7f) << 8) | MIDI_CMD_BENDER | ev->data.control.channel;
break;
case SND_SEQ_EVENT_PGMCHANGE:
data = ((ev->data.control.value & 0x7f) << 8) | MIDI_CMD_PGM_CHANGE | ev->data.control.channel;
break;
case SND_SEQ_EVENT_CHANPRESS:
data = ((ev->data.control.value & 0x7f) << 8) | MIDI_CMD_CHANNEL_PRESSURE | ev->data.control.channel;
break;
case SND_SEQ_EVENT_CLOCK:
data = 0xF8;
break;
case SND_SEQ_EVENT_START:
data = 0xFA;
break;
case SND_SEQ_EVENT_CONTINUE:
data = 0xFB;
break;
case SND_SEQ_EVENT_STOP:
data = 0xFC;
break;
case SND_SEQ_EVENT_SONGPOS:
data = (((ev->data.control.value >> 7) & 0x7f) << 16) | ((ev->data.control.value & 0x7f) << 8) | MIDI_CMD_COMMON_SONG_POS;
break;
case SND_SEQ_EVENT_SONGSEL:
data = ((ev->data.control.value & 0x7f) << 8) | MIDI_CMD_COMMON_SONG_SELECT;
break;
case SND_SEQ_EVENT_RESET:
data = 0xFF;
break;
case SND_SEQ_EVENT_QFRAME:
data = ((ev->data.control.value & 0x7f) << 8) | MIDI_CMD_COMMON_MTC_QUARTER;
break;
case SND_SEQ_EVENT_SENSING:
/* Noting to do */
break;
}
if (data != 0)
{
set_in_notify(&notify, src, src - srcs, MIM_DATA, data, current_time);
notify_post(&notify);
}
}
static void midi_handle_event(snd_seq_event_t *ev)
{
struct midi_src *src;
/* Find the target device */
for (src = srcs; src < srcs + num_srcs; src++)
if ((ev->source.client == src->addr.client) && (ev->source.port == src->addr.port))
break;
if ((src == srcs + num_srcs) || (src->state != 1))
return;
if (ev->type == SND_SEQ_EVENT_SYSEX)
handle_sysex_event(src, ev->data.ext.ptr, ev->data.ext.len);
else
handle_regular_event(src, ev);
}
static void *rec_thread_proc(void *arg)
{
snd_seq_t *midi_seq = (snd_seq_t *)arg;
int num_fds;
struct pollfd *pollfd;
int ret;
/* Add on one for the read end of the cancel pipe */
num_fds = snd_seq_poll_descriptors_count(midi_seq, POLLIN) + 1;
pollfd = malloc(num_fds * sizeof(struct pollfd));
while(1)
{
pollfd[0].fd = rec_cancel_pipe[0];
pollfd[0].events = POLLIN;
seq_lock();
snd_seq_poll_descriptors(midi_seq, pollfd + 1, num_fds - 1, POLLIN);
seq_unlock();
/* Check if an event is present */
if (poll(pollfd, num_fds, -1) <= 0)
continue;
if (pollfd[0].revents & POLLIN) /* cancelled */
break;
do
{
snd_seq_event_t *ev;
seq_lock();
snd_seq_event_input(midi_seq, &ev);
seq_unlock();
if (ev)
{
midi_handle_event(ev);
snd_seq_free_event(ev);
}
seq_lock();
ret = snd_seq_event_input_pending(midi_seq, 0);
seq_unlock();
} while(ret > 0);
}
free(pollfd);
return 0;
}
static UINT midi_in_open(WORD dev_id, MIDIOPENDESC *desc, UINT flags, struct notify_context *notify)
{
struct midi_src *src;
int ret = 0, port_in;
snd_seq_t *midi_seq;
TRACE("(%04X, %p, %08X);\n", dev_id, desc, flags);
if (!desc)
{
WARN("Invalid Parameter !\n");
return MMSYSERR_INVALPARAM;
}
/* FIXME: check that contents of desc are correct */
if (dev_id >= num_srcs)
{
WARN("dev_id too large (%u) !\n", dev_id);
return MMSYSERR_BADDEVICEID;
}
src = srcs + dev_id;
if (src->state == -1)
{
WARN("device disabled\n");
return MIDIERR_NODEVICE;
}
if (src->midiDesc.hMidi)
{
WARN("device already open !\n");
return MMSYSERR_ALLOCATED;
}
if (flags & MIDI_IO_STATUS)
{
WARN("No support for MIDI_IO_STATUS in flags yet, ignoring it\n");
flags &= ~MIDI_IO_STATUS;
}
if (flags & ~CALLBACK_TYPEMASK)
{
FIXME("Bad flags %08X\n", flags);
return MMSYSERR_INVALFLAG;
}
if (!(midi_seq = seq_open(&port_in)))
return MMSYSERR_ERROR;
src->wFlags = HIWORD(flags & CALLBACK_TYPEMASK);
src->lpQueueHdr = NULL;
src->midiDesc = *desc;
src->state = 0;
src->startTime = 0;
src->seq = midi_seq;
src->port_in = port_in;
/* Connect our app port to the device port */
seq_lock();
ret = snd_seq_connect_from(midi_seq, port_in, src->addr.client, src->addr.port);
seq_unlock();
if (ret < 0)
return MMSYSERR_NOTENABLED;
TRACE("Input port :%d connected %d:%d\n", port_in, src->addr.client, src->addr.port);
if (num_midi_in_started++ == 0)
{
pipe(rec_cancel_pipe);
if (pthread_create(&rec_thread_id, NULL, rec_thread_proc, midi_seq))
{
close(rec_cancel_pipe[0]);
close(rec_cancel_pipe[1]);
num_midi_in_started = 0;
WARN("Couldn't create thread for midi-in\n");
seq_close();
return MMSYSERR_ERROR;
}
}
set_in_notify(notify, src, dev_id, MIM_OPEN, 0, 0);
return MMSYSERR_NOERROR;
}
static UINT midi_in_close(WORD dev_id, struct notify_context *notify)
{
struct midi_src *src;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_srcs)
{
WARN("dev_id too big (%u) !\n", dev_id);
return MMSYSERR_BADDEVICEID;
}
src = srcs + dev_id;
if (!src->midiDesc.hMidi)
{
WARN("device not opened !\n");
return MMSYSERR_ERROR;
}
if (src->lpQueueHdr)
return MIDIERR_STILLPLAYING;
if (src->seq == NULL)
{
WARN("ooops !\n");
return MMSYSERR_ERROR;
}
if (--num_midi_in_started == 0)
{
TRACE("Stopping thread for midi-in\n");
write(rec_cancel_pipe[1], "x", 1);
pthread_join(rec_thread_id, NULL);
close(rec_cancel_pipe[0]);
close(rec_cancel_pipe[1]);
TRACE("Stopped thread for midi-in\n");
}
seq_lock();
snd_seq_disconnect_from(src->seq, src->port_in, src->addr.client, src->addr.port);
seq_unlock();
seq_close();
set_in_notify(notify, src, dev_id, MIM_CLOSE, 0, 0);
src->midiDesc.hMidi = 0;
src->seq = NULL;
return MMSYSERR_NOERROR;
}
static UINT midi_in_add_buffer(WORD dev_id, MIDIHDR *hdr, UINT hdr_size)
{
struct midi_src *src;
MIDIHDR **next;
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (dev_id >= num_srcs) return MMSYSERR_BADDEVICEID;
src = srcs + dev_id;
if (src->state == -1) return MIDIERR_NODEVICE;
if (!hdr || hdr_size < offsetof(MIDIHDR, dwOffset) || !hdr->dwBufferLength)
return MMSYSERR_INVALPARAM;
if (hdr->dwFlags & MHDR_INQUEUE) return MIDIERR_STILLPLAYING;
if (!(hdr->dwFlags & MHDR_PREPARED)) return MIDIERR_UNPREPARED;
in_buffer_lock();
hdr->dwFlags &= ~WHDR_DONE;
hdr->dwFlags |= MHDR_INQUEUE;
hdr->dwBytesRecorded = 0;
hdr->lpNext = NULL;
next = &src->lpQueueHdr;
while (*next) next = &(*next)->lpNext;
*next = hdr;
in_buffer_unlock();
return MMSYSERR_NOERROR;
}
static UINT midi_in_prepare(WORD dev_id, MIDIHDR *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(MIDIHDR, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (hdr->dwFlags & MHDR_PREPARED)
return MMSYSERR_NOERROR;
hdr->lpNext = 0;
hdr->dwFlags |= MHDR_PREPARED;
hdr->dwFlags &= ~(MHDR_DONE | MHDR_INQUEUE);
return MMSYSERR_NOERROR;
}
static UINT midi_in_unprepare(WORD dev_id, MIDIHDR *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(MIDIHDR, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (!(hdr->dwFlags & MHDR_PREPARED))
return MMSYSERR_NOERROR;
if (hdr->dwFlags & MHDR_INQUEUE)
return MIDIERR_STILLPLAYING;
hdr->dwFlags &= ~MHDR_PREPARED;
return MMSYSERR_NOERROR;
}
static UINT midi_in_get_devcaps(WORD dev_id, MIDIINCAPSW *caps, UINT size)
{
TRACE("(%04X, %p, %08X);\n", dev_id, caps, size);
if (dev_id >= num_srcs) return MMSYSERR_BADDEVICEID;
if (!caps) return MMSYSERR_INVALPARAM;
memcpy(caps, &srcs[dev_id].caps, min(size, sizeof(*caps)));
return MMSYSERR_NOERROR;
}
static UINT midi_in_start(WORD dev_id)
{
struct midi_src *src;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_srcs) return MMSYSERR_BADDEVICEID;
src = srcs + dev_id;
if (src->state == -1) return MIDIERR_NODEVICE;
src->state = 1;
src->startTime = get_time_msec();
return MMSYSERR_NOERROR;
}
static UINT midi_in_stop(WORD dev_id)
{
struct midi_src *src;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_srcs) return MMSYSERR_BADDEVICEID;
src = srcs + dev_id;
if (src->state == -1) return MIDIERR_NODEVICE;
src->state = 0;
return MMSYSERR_NOERROR;
}
static DWORD midi_in_reset(WORD dev_id, struct notify_context *notify)
{
UINT cur_time = get_time_msec();
UINT err = MMSYSERR_NOERROR;
struct midi_src *src;
MIDIHDR *hdr;
TRACE("(%04X);\n", dev_id);
if (dev_id >= num_srcs) return MMSYSERR_BADDEVICEID;
src = srcs + dev_id;
if (src->state == -1) return MIDIERR_NODEVICE;
in_buffer_lock();
if (src->lpQueueHdr)
{
hdr = src->lpQueueHdr;
src->lpQueueHdr = hdr->lpNext;
hdr->dwFlags &= ~MHDR_INQUEUE;
hdr->dwFlags |= MHDR_DONE;
set_in_notify(notify, src, dev_id, MIM_LONGDATA, (DWORD_PTR)hdr, cur_time - src->startTime);
if (src->lpQueueHdr) err = ERROR_RETRY; /* ask the client to call again */
}
in_buffer_unlock();
return err;
}
NTSTATUS alsa_midi_out_message(void *args)
{
struct midi_out_message_params *params = args;
params->notify->send_notify = FALSE;
switch (params->msg)
{
case DRVM_INIT:
*params->err = alsa_midi_init();
break;
case DRVM_EXIT:
case DRVM_ENABLE:
case DRVM_DISABLE:
/* FIXME: Pretend this is supported */
*params->err = MMSYSERR_NOERROR;
break;
case MODM_OPEN:
*params->err = midi_out_open(params->dev_id, (MIDIOPENDESC *)params->param_1, params->param_2, params->notify);
break;
case MODM_CLOSE:
*params->err = midi_out_close(params->dev_id, params->notify);
break;
case MODM_DATA:
*params->err = midi_out_data(params->dev_id, params->param_1);
break;
case MODM_LONGDATA:
*params->err = midi_out_long_data(params->dev_id, (MIDIHDR *)params->param_1, params->param_2, params->notify);
break;
case MODM_PREPARE:
*params->err = midi_out_prepare(params->dev_id, (MIDIHDR *)params->param_1, params->param_2);
break;
case MODM_UNPREPARE:
*params->err = midi_out_unprepare(params->dev_id, (MIDIHDR *)params->param_1, params->param_2);
break;
case MODM_GETDEVCAPS:
*params->err = midi_out_get_devcaps(params->dev_id, (MIDIOUTCAPSW *)params->param_1, params->param_2);
break;
case MODM_GETNUMDEVS:
*params->err = num_dests;
break;
case MODM_GETVOLUME:
*params->err = midi_out_get_volume(params->dev_id, (UINT *)params->param_1);
break;
case MODM_SETVOLUME:
*params->err = 0;
break;
case MODM_RESET:
*params->err = midi_out_reset(params->dev_id);
break;
default:
TRACE("Unsupported message\n");
*params->err = MMSYSERR_NOTSUPPORTED;
}
return STATUS_SUCCESS;
}
NTSTATUS alsa_midi_in_message(void *args)
{
struct midi_in_message_params *params = args;
params->notify->send_notify = FALSE;
switch (params->msg)
{
case DRVM_INIT:
*params->err = alsa_midi_init();
break;
case DRVM_EXIT:
case DRVM_ENABLE:
case DRVM_DISABLE:
/* FIXME: Pretend this is supported */
*params->err = MMSYSERR_NOERROR;
break;
case MIDM_OPEN:
*params->err = midi_in_open(params->dev_id, (MIDIOPENDESC *)params->param_1, params->param_2, params->notify);
break;
case MIDM_CLOSE:
*params->err = midi_in_close(params->dev_id, params->notify);
break;
case MIDM_ADDBUFFER:
*params->err = midi_in_add_buffer(params->dev_id, (MIDIHDR *)params->param_1, params->param_2);
break;
case MIDM_PREPARE:
*params->err = midi_in_prepare(params->dev_id, (MIDIHDR *)params->param_1, params->param_2);
break;
case MIDM_UNPREPARE:
*params->err = midi_in_unprepare(params->dev_id, (MIDIHDR *)params->param_1, params->param_2);
break;
case MIDM_GETDEVCAPS:
*params->err = midi_in_get_devcaps(params->dev_id, (MIDIINCAPSW *)params->param_1, params->param_2);
break;
case MIDM_GETNUMDEVS:
*params->err = num_srcs;
break;
case MIDM_START:
*params->err = midi_in_start(params->dev_id);
break;
case MIDM_STOP:
*params->err = midi_in_stop(params->dev_id);
break;
case MIDM_RESET:
*params->err = midi_in_reset(params->dev_id, params->notify);
break;
default:
TRACE("Unsupported message\n");
*params->err = MMSYSERR_NOTSUPPORTED;
}
return STATUS_SUCCESS;
}
NTSTATUS alsa_midi_notify_wait(void *args)
{
struct midi_notify_wait_params *params = args;
pthread_mutex_lock(&notify_mutex);
while (!notify_quit && notify_buffer_empty())
pthread_cond_wait(&notify_read_cond, &notify_mutex);
*params->quit = notify_quit;
if (!notify_quit)
{
notify_buffer_remove(params->notify);
pthread_cond_signal(&notify_write_cond);
}
pthread_mutex_unlock(&notify_mutex);
return STATUS_SUCCESS;
}
#ifdef _WIN64
typedef UINT PTR32;
struct notify_context32
{
BOOL send_notify;
WORD dev_id;
WORD msg;
UINT param_1;
UINT param_2;
UINT callback;
UINT flags;
PTR32 device;
UINT instance;
};
static void notify_to_notify32(struct notify_context32 *notify32,
const struct notify_context *notify)
{
notify32->send_notify = notify->send_notify;
notify32->dev_id = notify->dev_id;
notify32->msg = notify->msg;
notify32->param_1 = notify->param_1;
notify32->param_2 = notify->param_2;
notify32->callback = notify->callback;
notify32->flags = notify->flags;
notify32->device = PtrToUlong(notify->device);
notify32->instance = notify->instance;
}
struct midi_open_desc32
{
PTR32 hMidi;
UINT dwCallback;
UINT dwInstance;
UINT dnDevNode;
UINT cIds;
MIDIOPENSTRMID rgIds;
};
struct midi_hdr32
{
PTR32 lpData;
UINT dwBufferLength;
UINT dwBytesRecorded;
UINT dwUser;
UINT dwFlags;
PTR32 lpNext;
UINT reserved;
UINT dwOffset;
UINT dwReserved[8];
};
static UINT wow64_midi_out_prepare(WORD dev_id, struct midi_hdr32 *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(struct midi_hdr32, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (hdr->dwFlags & MHDR_PREPARED)
return MMSYSERR_NOERROR;
hdr->lpNext = 0;
hdr->dwFlags |= MHDR_PREPARED;
hdr->dwFlags &= ~(MHDR_DONE | MHDR_INQUEUE);
return MMSYSERR_NOERROR;
}
static UINT wow64_midi_out_unprepare(WORD dev_id, struct midi_hdr32 *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(struct midi_hdr32, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (!(hdr->dwFlags & MHDR_PREPARED))
return MMSYSERR_NOERROR;
if (hdr->dwFlags & MHDR_INQUEUE)
return MIDIERR_STILLPLAYING;
hdr->dwFlags &= ~MHDR_PREPARED;
return MMSYSERR_NOERROR;
}
NTSTATUS alsa_wow64_midi_out_message(void *args)
{
struct
{
UINT dev_id;
UINT msg;
UINT user;
UINT param_1;
UINT param_2;
PTR32 err;
PTR32 notify;
} *params32 = args;
struct notify_context32 *notify32 = ULongToPtr(params32->notify);
struct midi_open_desc32 *desc32;
struct midi_hdr32 *hdr32;
struct notify_context notify;
MIDIOPENDESC open_desc;
MIDIHDR hdr;
struct midi_out_message_params params =
{
.dev_id = params32->dev_id,
.msg = params32->msg,
.user = params32->user,
.param_1 = params32->param_1,
.param_2 = params32->param_2,
.err = ULongToPtr(params32->err),
.notify = &notify
};
notify32->send_notify = FALSE;
switch (params32->msg)
{
case MODM_OPEN:
desc32 = ULongToPtr(params32->param_1);
open_desc.hMidi = ULongToPtr(desc32->hMidi);
open_desc.dwCallback = desc32->dwCallback;
open_desc.dwInstance = desc32->dwInstance;
open_desc.dnDevNode = desc32->dnDevNode;
open_desc.cIds = desc32->cIds;
open_desc.rgIds.dwStreamID = desc32->rgIds.dwStreamID;
open_desc.rgIds.wDeviceID = desc32->rgIds.wDeviceID;
params.param_1 = (UINT_PTR)&open_desc;
break;
case MODM_LONGDATA:
hdr32 = ULongToPtr(params32->param_1);
memset(&hdr, 0, sizeof(hdr));
hdr.lpData = ULongToPtr(hdr32->lpData);
hdr.dwBufferLength = hdr32->dwBufferLength;
hdr.dwFlags = hdr32->dwFlags;
params.param_1 = (UINT_PTR)&hdr;
params.param_2 = sizeof(hdr);
break;
case MODM_PREPARE: /* prepare and unprepare are easier to handle explicitly */
hdr32 = ULongToPtr(params32->param_1);
*params.err = wow64_midi_out_prepare(params32->dev_id, hdr32, params32->param_2);
return STATUS_SUCCESS;
case MODM_UNPREPARE:
hdr32 = ULongToPtr(params32->param_1);
*params.err = wow64_midi_out_unprepare(params32->dev_id, hdr32, params32->param_2);
return STATUS_SUCCESS;
}
alsa_midi_out_message(&params);
switch (params32->msg)
{
case MODM_LONGDATA:
hdr32 = ULongToPtr(params32->param_1);
hdr32->dwFlags = hdr.dwFlags;
break;
}
if (notify.send_notify)
{
notify_to_notify32(notify32, &notify);
if (notify.msg == MOM_DONE)
notify32->param_1 = params32->param_1; /* restore the 32-bit hdr */
}
return STATUS_SUCCESS;
}
static UINT wow64_midi_in_prepare(WORD dev_id, struct midi_hdr32 *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(struct midi_hdr32, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (hdr->dwFlags & MHDR_PREPARED)
return MMSYSERR_NOERROR;
hdr->lpNext = 0;
hdr->dwFlags |= MHDR_PREPARED;
hdr->dwFlags &= ~(MHDR_DONE | MHDR_INQUEUE);
return MMSYSERR_NOERROR;
}
static UINT wow64_midi_in_unprepare(WORD dev_id, struct midi_hdr32 *hdr, UINT hdr_size)
{
TRACE("(%04X, %p, %d);\n", dev_id, hdr, hdr_size);
if (hdr_size < offsetof(struct midi_hdr32, dwOffset) || !hdr || !hdr->lpData)
return MMSYSERR_INVALPARAM;
if (!(hdr->dwFlags & MHDR_PREPARED))
return MMSYSERR_NOERROR;
if (hdr->dwFlags & MHDR_INQUEUE)
return MIDIERR_STILLPLAYING;
hdr->dwFlags &= ~MHDR_PREPARED;
return MMSYSERR_NOERROR;
}
NTSTATUS alsa_wow64_midi_in_message(void *args)
{
struct
{
UINT dev_id;
UINT msg;
UINT user;
UINT param_1;
UINT param_2;
PTR32 err;
PTR32 notify;
} *params32 = args;
struct notify_context32 *notify32 = ULongToPtr(params32->notify);
struct midi_open_desc32 *desc32;
struct midi_hdr32 *hdr32;
struct notify_context notify;
MIDIOPENDESC open_desc;
MIDIHDR *hdr = NULL;
struct midi_in_message_params params =
{
.dev_id = params32->dev_id,
.msg = params32->msg,
.user = params32->user,
.param_1 = params32->param_1,
.param_2 = params32->param_2,
.err = ULongToPtr(params32->err),
.notify = &notify
};
notify32->send_notify = FALSE;
switch (params32->msg)
{
case MIDM_OPEN:
desc32 = ULongToPtr(params32->param_1);
open_desc.hMidi = ULongToPtr(desc32->hMidi);
open_desc.dwCallback = desc32->dwCallback;
open_desc.dwInstance = desc32->dwInstance;
open_desc.dnDevNode = desc32->dnDevNode;
open_desc.cIds = desc32->cIds;
open_desc.rgIds.dwStreamID = desc32->rgIds.dwStreamID;
open_desc.rgIds.wDeviceID = desc32->rgIds.wDeviceID;
params.param_1 = (UINT_PTR)&open_desc;
break;
case MIDM_ADDBUFFER:
hdr32 = ULongToPtr(params32->param_1);
hdr = calloc(1, sizeof(*hdr));
hdr->lpData = ULongToPtr(hdr32->lpData);
hdr->dwBufferLength = hdr32->dwBufferLength;
hdr->dwFlags = hdr32->dwFlags;
hdr->dwReserved[7] = params32->param_1; /* keep hdr32 for MIM_LONGDATA notification */
params.param_1 = (UINT_PTR)hdr;
params.param_2 = sizeof(*hdr);
break;
case MIDM_PREPARE: /* prepare and unprepare are easier to handle explicitly */
hdr32 = ULongToPtr(params32->param_1);
*params.err = wow64_midi_in_prepare(params32->dev_id, hdr32, params32->param_2);
return STATUS_SUCCESS;
case MIDM_UNPREPARE:
hdr32 = ULongToPtr(params32->param_1);
*params.err = wow64_midi_in_unprepare(params32->dev_id, hdr32, params32->param_2);
return STATUS_SUCCESS;
}
alsa_midi_in_message(&params);
switch (params32->msg)
{
case MIDM_ADDBUFFER:
hdr32 = ULongToPtr(params32->param_1);
if (!*params.err)
{
hdr32->dwFlags = hdr->dwFlags;
hdr32->dwBytesRecorded = hdr->dwBytesRecorded;
hdr32->lpNext = 0;
}
else
free(hdr);
break;
}
if (notify.send_notify)
{
notify_to_notify32(notify32, &notify);
if (notify.msg == MIM_LONGDATA)
{
hdr = (MIDIHDR *)notify.param_1;
notify32->param_1 = hdr->dwReserved[7];
hdr32 = ULongToPtr(notify32->param_1);
hdr32->dwBytesRecorded = hdr->dwBytesRecorded;
hdr32->dwFlags = hdr->dwFlags;
free(hdr);
}
}
return STATUS_SUCCESS;
}
NTSTATUS alsa_wow64_midi_notify_wait(void *args)
{
struct
{
PTR32 quit;
PTR32 notify;
} *params32 = args;
struct notify_context32 *notify32 = ULongToPtr(params32->notify);
struct midi_hdr32 *hdr32;
struct notify_context notify;
MIDIHDR *hdr;
struct midi_notify_wait_params params =
{
.quit = ULongToPtr(params32->quit),
.notify = &notify
};
notify32->send_notify = FALSE;
alsa_midi_notify_wait(&params);
if (!*params.quit && notify.send_notify)
{
notify_to_notify32(notify32, &notify);
if (notify.msg == MIM_LONGDATA)
{
hdr = (MIDIHDR *)notify.param_1;
notify32->param_1 = hdr->dwReserved[7];
hdr32 = ULongToPtr(notify32->param_1);
hdr32->dwBytesRecorded = hdr->dwBytesRecorded;
hdr32->dwFlags = hdr->dwFlags;
free(hdr);
}
}
return STATUS_SUCCESS;
}
#endif /* _WIN64 */
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