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pipewire/spa/plugins/alsa/alsa-seq-bridge.c
Wim Taymans 37224ac84c alsa-seq: configure pool sizes better 
The default kernel pool size on the input is 200 cells. A cell is
about 28 bytes long so the maximum message that can be received in one
go is about 5600 bytes. This causes problems when using amidi to upload
larger sysex messages because they simply can't be received by the
sequencer.

It if however possible to increase this limit with the set_client_pool()
function. Increase the pool size to at least the quantum_limit * 2.
This ensures we can receive and send at least 2 quantums of raw data,
which should be a fairly long sysex message.

Make a min and max value for the pool size. There is an upper limit of
2000 in the kernel but make this configurable and clamp the final
pool size to the min/max.

Make the MAX_EVENT_SIZE 256, because this is how the sequencer seems to
splits the input data as well and it results in less wasted space in the
output buffer.

See #4005
2024-05-13 15:25:52 +02:00

1006 lines
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/* Spa ALSA Source */
/* SPDX-FileCopyrightText: Copyright © 2018 Wim Taymans */
/* SPDX-License-Identifier: MIT */
#include <stddef.h>
#include <ctype.h>
#include <alsa/asoundlib.h>
#include <spa/node/node.h>
#include <spa/node/utils.h>
#include <spa/node/keys.h>
#include <spa/utils/keys.h>
#include <spa/utils/names.h>
#include <spa/utils/string.h>
#include <spa/utils/list.h>
#include <spa/monitor/device.h>
#include <spa/param/audio/format.h>
#include <spa/param/latency-utils.h>
#include <spa/pod/filter.h>
#include "alsa-seq.h"
#define DEFAULT_DEVICE "default"
#define DEFAULT_CLOCK_NAME "clock.system.monotonic"
static void reset_props(struct props *props)
{
strncpy(props->device, DEFAULT_DEVICE, sizeof(props->device));
strncpy(props->clock_name, DEFAULT_CLOCK_NAME, sizeof(props->clock_name));
props->disable_longname = 0;
}
static int impl_node_enum_params(void *object, int seq,
uint32_t id, uint32_t start, uint32_t num,
const struct spa_pod *filter)
{
struct seq_state *this = object;
struct spa_pod *param;
uint8_t buffer[1024];
struct spa_pod_builder b = { 0 };
struct props *p;
struct spa_result_node_params result;
uint32_t count = 0;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(num != 0, -EINVAL);
p = &this->props;
result.id = id;
result.next = start;
next:
result.index = result.next++;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
switch (id) {
case SPA_PARAM_PropInfo:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_PropInfo, id,
SPA_PROP_INFO_id, SPA_POD_Id(SPA_PROP_device),
SPA_PROP_INFO_description, SPA_POD_String("The ALSA device"),
SPA_PROP_INFO_type, SPA_POD_Stringn(p->device, sizeof(p->device)));
break;
default:
return 0;
}
break;
case SPA_PARAM_Props:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Props, id,
SPA_PROP_device, SPA_POD_Stringn(p->device, sizeof(p->device)));
break;
default:
return 0;
}
break;
case SPA_PARAM_IO:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamIO, id,
SPA_PARAM_IO_id, SPA_POD_Id(SPA_IO_Clock),
SPA_PARAM_IO_size, SPA_POD_Int(sizeof(struct spa_io_clock)));
break;
case 1:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamIO, id,
SPA_PARAM_IO_id, SPA_POD_Id(SPA_IO_Position),
SPA_PARAM_IO_size, SPA_POD_Int(sizeof(struct spa_io_position)));
break;
default:
return 0;
}
break;
default:
return -ENOENT;
}
if (spa_pod_filter(&b, &result.param, param, filter) < 0)
goto next;
spa_node_emit_result(&this->hooks, seq, 0, SPA_RESULT_TYPE_NODE_PARAMS, &result);
if (++count != num)
goto next;
return 0;
}
static int impl_node_set_io(void *object, uint32_t id, void *data, size_t size)
{
struct seq_state *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
switch (id) {
case SPA_IO_Clock:
this->clock = data;
if (this->clock != NULL)
spa_scnprintf(this->clock->name, sizeof(this->clock->name),
"%s", this->props.clock_name);
break;
case SPA_IO_Position:
this->position = data;
break;
default:
return -ENOENT;
}
spa_alsa_seq_reassign_follower(this);
return 0;
}
static int impl_node_set_param(void *object, uint32_t id, uint32_t flags,
const struct spa_pod *param)
{
struct seq_state *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
switch (id) {
case SPA_PARAM_Props:
{
struct props *p = &this->props;
if (param == NULL) {
reset_props(p);
return 0;
}
spa_pod_parse_object(param,
SPA_TYPE_OBJECT_Props, NULL,
SPA_PROP_device, SPA_POD_OPT_Stringn(p->device, sizeof(p->device)));
break;
}
default:
return -ENOENT;
}
return 0;
}
static int impl_node_send_command(void *object, const struct spa_command *command)
{
struct seq_state *this = object;
int res;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(command != NULL, -EINVAL);
switch (SPA_NODE_COMMAND_ID(command)) {
case SPA_NODE_COMMAND_Start:
if ((res = spa_alsa_seq_start(this)) < 0)
return res;
break;
case SPA_NODE_COMMAND_Pause:
case SPA_NODE_COMMAND_Suspend:
if ((res = spa_alsa_seq_pause(this)) < 0)
return res;
break;
default:
return -ENOTSUP;
}
return 0;
}
static const struct spa_dict_item node_info_items[] = {
{ SPA_KEY_DEVICE_API, "alsa" },
{ SPA_KEY_MEDIA_CLASS, "Midi/Bridge" },
{ SPA_KEY_NODE_DRIVER, "true" },
{ "priority.driver", "1" },
};
static void emit_node_info(struct seq_state *this, bool full)
{
uint64_t old = full ? this->info.change_mask : 0;
if (full)
this->info.change_mask = this->info_all;
if (this->info.change_mask) {
this->info.props = &SPA_DICT_INIT_ARRAY(node_info_items);
spa_node_emit_info(&this->hooks, &this->info);
this->info.change_mask = old;
}
}
static inline void clean_name(char *name)
{
char *c;
for (c = name; *c; ++c) {
if (!isalnum(*c) && strchr(" /_:()[]", *c) == NULL)
*c = '-';
}
}
static void emit_port_info(struct seq_state *this, struct seq_port *port, bool full)
{
uint64_t old = full ? port->info.change_mask : 0;
if (full)
port->info.change_mask = port->info_all;
if (port->info.change_mask) {
struct spa_dict_item items[5];
uint32_t n_items = 0;
int id;
snd_seq_port_info_t *info;
snd_seq_client_info_t *client_info;
char card[8];
char name[256];
char path[128];
char alias[128];
snd_seq_port_info_alloca(&info);
snd_seq_get_any_port_info(this->sys.hndl,
port->addr.client, port->addr.port, info);
snd_seq_client_info_alloca(&client_info);
snd_seq_get_any_client_info(this->sys.hndl,
port->addr.client, client_info);
int card_id;
// Failed to obtain card number (software device) or disabled
if (this->props.disable_longname || (card_id = snd_seq_client_info_get_card(client_info)) < 0) {
snprintf(name, sizeof(name), "%s:(%s_%d) %s",
snd_seq_client_info_get_name(client_info),
port->direction == SPA_DIRECTION_OUTPUT ? "capture" : "playback",
port->addr.port,
snd_seq_port_info_get_name(info));
} else {
char *longname;
if (snd_card_get_longname(card_id, &longname) == 0) {
snprintf(name, sizeof(name), "%s:(%s_%d) %s",
longname,
port->direction == SPA_DIRECTION_OUTPUT ? "capture" : "playback",
port->addr.port,
snd_seq_port_info_get_name(info));
free(longname);
} else {
// At least add card number to be distinct
snprintf(name, sizeof(name), "%s %d:(%s_%d) %s",
snd_seq_client_info_get_name(client_info),
card_id,
port->direction == SPA_DIRECTION_OUTPUT ? "capture" : "playback",
port->addr.port,
snd_seq_port_info_get_name(info));
}
}
clean_name(name);
snprintf(path, sizeof(path), "alsa:seq:%s:client_%d:%s_%d",
this->props.device,
port->addr.client,
port->direction == SPA_DIRECTION_OUTPUT ? "capture" : "playback",
port->addr.port);
clean_name(path);
snprintf(alias, sizeof(alias), "%s:%s",
snd_seq_client_info_get_name(client_info),
snd_seq_port_info_get_name(info));
clean_name(alias);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_FORMAT_DSP, "8 bit raw midi");
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_OBJECT_PATH, path);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_PORT_NAME, name);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_PORT_ALIAS, alias);
if ((id = snd_seq_client_info_get_card(client_info)) != -1) {
snprintf(card, sizeof(card), "%d", id);
items[n_items++] = SPA_DICT_ITEM_INIT(SPA_KEY_API_ALSA_CARD, card);
}
port->info.props = &SPA_DICT_INIT(items, n_items);
spa_node_emit_port_info(&this->hooks,
port->direction, port->id, &port->info);
port->info.change_mask = old;
}
}
static void emit_stream_info(struct seq_state *this, struct seq_stream *stream, bool full)
{
uint32_t i;
for (i = 0; i < MAX_PORTS; i++) {
struct seq_port *port = &stream->ports[i];
if (port->valid)
emit_port_info(this, port, full);
}
}
static int
impl_node_add_listener(void *object,
struct spa_hook *listener,
const struct spa_node_events *events,
void *data)
{
struct seq_state *this = object;
struct spa_hook_list save;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_hook_list_isolate(&this->hooks, &save, listener, events, data);
emit_node_info(this, true);
emit_stream_info(this, &this->streams[SPA_DIRECTION_INPUT], true);
emit_stream_info(this, &this->streams[SPA_DIRECTION_OUTPUT], true);
spa_hook_list_join(&this->hooks, &save);
return 0;
}
static int
impl_node_set_callbacks(void *object,
const struct spa_node_callbacks *callbacks,
void *data)
{
struct seq_state *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
this->callbacks = SPA_CALLBACKS_INIT(callbacks, data);
return 0;
}
static int impl_node_sync(void *object, int seq)
{
struct seq_state *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_node_emit_result(&this->hooks, seq, 0, 0, NULL);
return 0;
}
static struct seq_port *find_port(struct seq_state *state,
struct seq_stream *stream, const snd_seq_addr_t *addr)
{
uint32_t i;
for (i = 0; i < stream->last_port; i++) {
struct seq_port *port = &stream->ports[i];
if (port->valid &&
port->addr.client == addr->client &&
port->addr.port == addr->port)
return port;
}
return NULL;
}
static struct seq_port *alloc_port(struct seq_state *state, struct seq_stream *stream)
{
uint32_t i;
for (i = 0; i < MAX_PORTS; i++) {
struct seq_port *port = &stream->ports[i];
if (!port->valid) {
port->id = i;
port->direction = stream->direction;
port->valid = true;
if (stream->last_port < i + 1)
stream->last_port = i + 1;
return port;
}
}
return NULL;
}
static void free_port(struct seq_state *state, struct seq_stream *stream, struct seq_port *port)
{
port->valid = false;
if (port->id + 1 == stream->last_port) {
int i;
for (i = stream->last_port - 1; i >= 0; i--)
if (stream->ports[i].valid)
break;
stream->last_port = i + 1;
}
spa_node_emit_port_info(&state->hooks,
port->direction, port->id, NULL);
spa_zero(*port);
}
static void init_port(struct seq_state *state, struct seq_port *port, const snd_seq_addr_t *addr,
unsigned int type)
{
enum spa_direction reverse = SPA_DIRECTION_REVERSE(port->direction);
port->addr = *addr;
port->info_all = SPA_PORT_CHANGE_MASK_FLAGS |
SPA_PORT_CHANGE_MASK_PROPS |
SPA_PORT_CHANGE_MASK_PARAMS;
port->info = SPA_PORT_INFO_INIT();
port->info.flags = SPA_PORT_FLAG_LIVE;
if (type & (SND_SEQ_PORT_TYPE_HARDWARE|SND_SEQ_PORT_TYPE_PORT|SND_SEQ_PORT_TYPE_SPECIFIC))
port->info.flags |= SPA_PORT_FLAG_PHYSICAL | SPA_PORT_FLAG_TERMINAL;
port->params[PORT_EnumFormat] = SPA_PARAM_INFO(SPA_PARAM_EnumFormat, SPA_PARAM_INFO_READ);
port->params[PORT_Meta] = SPA_PARAM_INFO(SPA_PARAM_Meta, SPA_PARAM_INFO_READ);
port->params[PORT_IO] = SPA_PARAM_INFO(SPA_PARAM_IO, SPA_PARAM_INFO_READ);
port->params[PORT_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[PORT_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, 0);
port->params[PORT_Latency] = SPA_PARAM_INFO(SPA_PARAM_Latency, SPA_PARAM_INFO_READWRITE);
port->info.params = port->params;
port->info.n_params = N_PORT_PARAMS;
spa_list_init(&port->free);
spa_list_init(&port->ready);
port->latency[port->direction] = SPA_LATENCY_INFO(
port->direction,
.min_quantum = 1.0f,
.max_quantum = 1.0f);
port->latency[reverse] = SPA_LATENCY_INFO(reverse);
spa_alsa_seq_activate_port(state, port, true);
emit_port_info(state, port, true);
}
static void update_stream_port(struct seq_state *state, struct seq_stream *stream,
const snd_seq_addr_t *addr, unsigned int caps, const snd_seq_port_info_t *info)
{
struct seq_port *port = find_port(state, stream, addr);
if (info == NULL) {
spa_log_debug(state->log, "free port %d.%d", addr->client, addr->port);
if (port)
free_port(state, stream, port);
} else {
if (port == NULL && (caps & stream->caps) == stream->caps) {
spa_log_debug(state->log, "new port %d.%d", addr->client, addr->port);
port = alloc_port(state, stream);
if (port == NULL)
return;
init_port(state, port, addr, snd_seq_port_info_get_type(info));
} else if (port != NULL) {
if ((caps & stream->caps) != stream->caps) {
spa_log_debug(state->log, "free port %d.%d", addr->client, addr->port);
free_port(state, stream, port);
}
else {
spa_log_debug(state->log, "update port %d.%d", addr->client, addr->port);
port->info.change_mask = SPA_PORT_CHANGE_MASK_PROPS;
emit_port_info(state, port, false);
}
}
}
}
static int on_port_info(void *data, const snd_seq_addr_t *addr, const snd_seq_port_info_t *info)
{
struct seq_state *state = data;
if (info == NULL) {
update_stream_port(state, &state->streams[SPA_DIRECTION_INPUT], addr, 0, info);
update_stream_port(state, &state->streams[SPA_DIRECTION_OUTPUT], addr, 0, info);
} else {
unsigned int caps = snd_seq_port_info_get_capability(info);
if (caps & SND_SEQ_PORT_CAP_NO_EXPORT)
return 0;
update_stream_port(state, &state->streams[SPA_DIRECTION_INPUT], addr, caps, info);
update_stream_port(state, &state->streams[SPA_DIRECTION_OUTPUT], addr, caps, info);
}
return 0;
}
static int impl_node_add_port(void *object, enum spa_direction direction, uint32_t port_id,
const struct spa_dict *props)
{
return -ENOTSUP;
}
static int impl_node_remove_port(void *object, enum spa_direction direction, uint32_t port_id)
{
return -ENOTSUP;
}
static int
impl_node_port_enum_params(void *object, int seq,
enum spa_direction direction, uint32_t port_id,
uint32_t id, uint32_t start, uint32_t num,
const struct spa_pod *filter)
{
struct seq_state *this = object;
struct seq_port *port;
struct spa_pod *param;
struct spa_pod_builder b = { 0 };
uint8_t buffer[1024];
struct spa_result_node_params result;
uint32_t count = 0;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(num != 0, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = GET_PORT(this, direction, port_id);
result.id = id;
result.next = start;
next:
result.index = result.next++;
spa_pod_builder_init(&b, buffer, sizeof(buffer));
switch (id) {
case SPA_PARAM_EnumFormat:
if (result.index > 0)
return 0;
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Format, SPA_PARAM_EnumFormat,
SPA_FORMAT_mediaType, SPA_POD_Id(SPA_MEDIA_TYPE_application),
SPA_FORMAT_mediaSubtype, SPA_POD_Id(SPA_MEDIA_SUBTYPE_control));
break;
case SPA_PARAM_Format:
if (!port->have_format)
return -EIO;
if (result.index > 0)
return 0;
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_Format, SPA_PARAM_Format,
SPA_FORMAT_mediaType, SPA_POD_Id(SPA_MEDIA_TYPE_application),
SPA_FORMAT_mediaSubtype, SPA_POD_Id(SPA_MEDIA_SUBTYPE_control));
break;
case SPA_PARAM_Buffers:
if (!port->have_format)
return -EIO;
if (result.index > 0)
return 0;
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamBuffers, id,
SPA_PARAM_BUFFERS_buffers, SPA_POD_CHOICE_RANGE_Int(2, 1, MAX_BUFFERS),
SPA_PARAM_BUFFERS_blocks, SPA_POD_Int(1),
SPA_PARAM_BUFFERS_size, SPA_POD_CHOICE_RANGE_Int(
this->quantum_limit, this->quantum_limit, INT32_MAX),
SPA_PARAM_BUFFERS_stride, SPA_POD_Int(1));
break;
case SPA_PARAM_Meta:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamMeta, id,
SPA_PARAM_META_type, SPA_POD_Id(SPA_META_Header),
SPA_PARAM_META_size, SPA_POD_Int(sizeof(struct spa_meta_header)));
break;
default:
return 0;
}
break;
case SPA_PARAM_IO:
switch (result.index) {
case 0:
param = spa_pod_builder_add_object(&b,
SPA_TYPE_OBJECT_ParamIO, id,
SPA_PARAM_IO_id, SPA_POD_Id(SPA_IO_Buffers),
SPA_PARAM_IO_size, SPA_POD_Int(sizeof(struct spa_io_buffers)));
break;
default:
return 0;
}
break;
case SPA_PARAM_Latency:
switch (result.index) {
case 0: case 1:
param = spa_latency_build(&b, id, &port->latency[result.index]);
break;
default:
return 0;
}
break;
default:
return -ENOENT;
}
if (spa_pod_filter(&b, &result.param, param, filter) < 0)
goto next;
spa_node_emit_result(&this->hooks, seq, 0, SPA_RESULT_TYPE_NODE_PARAMS, &result);
if (++count != num)
goto next;
return 0;
}
static int clear_buffers(struct seq_state *this, struct seq_port *port)
{
if (port->n_buffers > 0) {
spa_list_init(&port->free);
spa_list_init(&port->ready);
port->n_buffers = 0;
}
return 0;
}
static int port_set_format(void *object, struct seq_port *port,
uint32_t flags, const struct spa_pod *format)
{
struct seq_state *this = object;
int err;
if (format == NULL) {
if (!port->have_format)
return 0;
clear_buffers(this, port);
port->have_format = false;
} else {
struct spa_audio_info info = { 0 };
if ((err = spa_format_parse(format, &info.media_type, &info.media_subtype)) < 0)
return err;
if (info.media_type != SPA_MEDIA_TYPE_application ||
info.media_subtype != SPA_MEDIA_SUBTYPE_control)
return -EINVAL;
port->current_format = info;
port->have_format = true;
}
port->info.change_mask |= SPA_PORT_CHANGE_MASK_RATE;
port->info.rate = SPA_FRACTION(1, 1);
port->info.change_mask |= SPA_PORT_CHANGE_MASK_PARAMS;
if (port->have_format) {
port->params[PORT_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_READWRITE);
port->params[PORT_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, SPA_PARAM_INFO_READ);
} else {
port->params[PORT_Format] = SPA_PARAM_INFO(SPA_PARAM_Format, SPA_PARAM_INFO_WRITE);
port->params[PORT_Buffers] = SPA_PARAM_INFO(SPA_PARAM_Buffers, 0);
}
emit_port_info(this, port, false);
return 0;
}
static int
impl_node_port_set_param(void *object,
enum spa_direction direction, uint32_t port_id,
uint32_t id, uint32_t flags,
const struct spa_pod *param)
{
struct seq_state *this = object;
struct seq_port *port;
int res = 0;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = GET_PORT(this, direction, port_id);
switch (id) {
case SPA_PARAM_Format:
res = port_set_format(this, port, flags, param);
break;
case SPA_PARAM_Latency:
{
struct spa_latency_info info;
if (param == NULL)
info = SPA_LATENCY_INFO(SPA_DIRECTION_REVERSE(direction));
else if ((res = spa_latency_parse(param, &info)) < 0)
return res;
if (direction == info.direction)
return -EINVAL;
port->latency[info.direction] = info;
port->info.change_mask |= SPA_PORT_CHANGE_MASK_PARAMS;
port->params[PORT_Latency].flags ^= SPA_PARAM_INFO_SERIAL;
emit_port_info(this, port, false);
break;
}
default:
res = -ENOENT;
break;
}
return res;
}
static int
impl_node_port_use_buffers(void *object,
enum spa_direction direction, uint32_t port_id,
uint32_t flags,
struct spa_buffer **buffers, uint32_t n_buffers)
{
struct seq_state *this = object;
struct seq_port *port;
uint32_t i;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = GET_PORT(this, direction, port_id);
spa_log_debug(this->log, "%p: port %d.%d buffers:%d format:%d", this,
direction, port_id, n_buffers, port->have_format);
clear_buffers(this, port);
if (n_buffers > 0 && !port->have_format)
return -EIO;
if (n_buffers > MAX_BUFFERS)
return -ENOSPC;
for (i = 0; i < n_buffers; i++) {
struct buffer *b = &port->buffers[i];
struct spa_data *d = buffers[i]->datas;
b->buf = buffers[i];
b->id = i;
b->flags = BUFFER_FLAG_OUT;
b->h = spa_buffer_find_meta_data(b->buf, SPA_META_Header, sizeof(*b->h));
if (d[0].data == NULL) {
spa_log_error(this->log, "%p: need mapped memory", this);
return -EINVAL;
}
if (direction == SPA_DIRECTION_OUTPUT)
spa_alsa_seq_recycle_buffer(this, port, i);
}
port->n_buffers = n_buffers;
return 0;
}
static int
impl_node_port_set_io(void *object,
enum spa_direction direction,
uint32_t port_id,
uint32_t id,
void *data, size_t size)
{
struct seq_state *this = object;
struct seq_port *port;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(CHECK_PORT(this, direction, port_id), -EINVAL);
port = GET_PORT(this, direction, port_id);
spa_log_debug(this->log, "%p: io %d.%d %d %p %zd", this,
direction, port_id, id, data, size);
switch (id) {
case SPA_IO_Buffers:
port->io = data;
break;
default:
return -ENOENT;
}
return 0;
}
static int impl_node_port_reuse_buffer(void *object, uint32_t port_id, uint32_t buffer_id)
{
struct seq_state *this = object;
struct seq_port *port;
spa_return_val_if_fail(this != NULL, -EINVAL);
spa_return_val_if_fail(!CHECK_PORT(this, SPA_DIRECTION_OUTPUT, port_id), -EINVAL);
port = GET_PORT(this, SPA_DIRECTION_OUTPUT, port_id);
if (port->n_buffers == 0)
return -EIO;
if (buffer_id >= port->n_buffers)
return -EINVAL;
spa_alsa_seq_recycle_buffer(this, port, buffer_id);
return 0;
}
static int impl_node_process(void *object)
{
struct seq_state *this = object;
spa_return_val_if_fail(this != NULL, -EINVAL);
return spa_alsa_seq_process(this);
}
static const struct spa_node_methods impl_node = {
SPA_VERSION_NODE_METHODS,
.add_listener = impl_node_add_listener,
.set_callbacks = impl_node_set_callbacks,
.sync = impl_node_sync,
.enum_params = impl_node_enum_params,
.set_param = impl_node_set_param,
.set_io = impl_node_set_io,
.send_command = impl_node_send_command,
.add_port = impl_node_add_port,
.remove_port = impl_node_remove_port,
.port_enum_params = impl_node_port_enum_params,
.port_set_param = impl_node_port_set_param,
.port_use_buffers = impl_node_port_use_buffers,
.port_set_io = impl_node_port_set_io,
.port_reuse_buffer = impl_node_port_reuse_buffer,
.process = impl_node_process,
};
static int impl_get_interface(struct spa_handle *handle, const char *type, void **interface)
{
struct seq_state *this;
spa_return_val_if_fail(handle != NULL, -EINVAL);
spa_return_val_if_fail(interface != NULL, -EINVAL);
this = (struct seq_state *) handle;
if (spa_streq(type, SPA_TYPE_INTERFACE_Node))
*interface = &this->node;
else
return -ENOENT;
return 0;
}
static int impl_clear(struct spa_handle *handle)
{
struct seq_state *this;
spa_return_val_if_fail(handle != NULL, -EINVAL);
this = (struct seq_state *) handle;
spa_alsa_seq_close(this);
return 0;
}
static size_t
impl_get_size(const struct spa_handle_factory *factory,
const struct spa_dict *params)
{
return sizeof(struct seq_state);
}
static int
impl_init(const struct spa_handle_factory *factory,
struct spa_handle *handle,
const struct spa_dict *info,
const struct spa_support *support,
uint32_t n_support)
{
struct seq_state *this;
uint32_t i;
int res;
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(handle != NULL, -EINVAL);
handle->get_interface = impl_get_interface;
handle->clear = impl_clear;
this = (struct seq_state *) handle;
this->log = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Log);
alsa_log_topic_init(this->log);
this->data_system = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_DataSystem);
this->data_loop = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_DataLoop);
this->main_loop = spa_support_find(support, n_support, SPA_TYPE_INTERFACE_Loop);
if (this->data_loop == NULL) {
spa_log_error(this->log, "a data loop is needed");
return -EINVAL;
}
if (this->data_system == NULL) {
spa_log_error(this->log, "a data system is needed");
return -EINVAL;
}
this->node.iface = SPA_INTERFACE_INIT(SPA_TYPE_INTERFACE_Node, SPA_VERSION_NODE, &impl_node, this);
spa_hook_list_init(&this->hooks);
this->info_all = SPA_NODE_CHANGE_MASK_FLAGS |
SPA_NODE_CHANGE_MASK_PROPS |
SPA_NODE_CHANGE_MASK_PARAMS;
this->info.max_input_ports = MAX_PORTS;
this->info.max_output_ports = MAX_PORTS;
this->info.flags = SPA_NODE_FLAG_RT;
this->params[NODE_PropInfo] = SPA_PARAM_INFO(SPA_PARAM_PropInfo, SPA_PARAM_INFO_READ);
this->params[NODE_Props] = SPA_PARAM_INFO(SPA_PARAM_Props, SPA_PARAM_INFO_READWRITE);
this->params[NODE_IO] = SPA_PARAM_INFO(SPA_PARAM_IO, SPA_PARAM_INFO_READ);
this->info.params = this->params;
this->info.n_params = N_NODE_PARAMS;
reset_props(&this->props);
this->quantum_limit = 8192;
this->min_pool_size = 500;
this->max_pool_size = 2000;
for (i = 0; info && i < info->n_items; i++) {
const char *k = info->items[i].key;
const char *s = info->items[i].value;
if (spa_streq(k, SPA_KEY_API_ALSA_PATH)) {
spa_scnprintf(this->props.device,
sizeof(this->props.device), "%s", s);
} else if (spa_streq(k, "clock.name")) {
spa_scnprintf(this->props.clock_name,
sizeof(this->props.clock_name), "%s", s);
} else if (spa_streq(k, "clock.quantum-limit")) {
spa_atou32(s, &this->quantum_limit, 0);
} else if (spa_streq(k, SPA_KEY_API_ALSA_DISABLE_LONGNAME)) {
this->props.disable_longname = spa_atob(s);
} else if (spa_streq(k, "api.alsa.seq.min-pool")) {
spa_atou32(s, &this->min_pool_size, 0);
} else if (spa_streq(k, "api.alsa.seq.max-pool")) {
spa_atou32(s, &this->max_pool_size, 0);
}
}
this->port_info = on_port_info;
this->port_info_data = this;
if ((res = spa_alsa_seq_open(this)) < 0)
return res;
return 0;
}
static const struct spa_interface_info impl_interfaces[] = {
{SPA_TYPE_INTERFACE_Node,},
};
static int
impl_enum_interface_info(const struct spa_handle_factory *factory,
const struct spa_interface_info **info,
uint32_t *index)
{
spa_return_val_if_fail(factory != NULL, -EINVAL);
spa_return_val_if_fail(info != NULL, -EINVAL);
spa_return_val_if_fail(index != NULL, -EINVAL);
if (*index >= SPA_N_ELEMENTS(impl_interfaces))
return 0;
*info = &impl_interfaces[(*index)++];
return 1;
}
static const struct spa_dict_item info_items[] = {
{ SPA_KEY_FACTORY_AUTHOR, "Wim Taymans <wim.taymans@gmail.com>" },
{ SPA_KEY_FACTORY_DESCRIPTION, "Bridge midi ports with the alsa sequencer API" },
{ SPA_KEY_FACTORY_USAGE,
"["SPA_KEY_API_ALSA_PATH"=<device, default \"default\">] "
"[ clock.name=<clock name, default \"clock.system.monotonic\">] "
"[ clock.quantum-limit=<limit, default 8192>] "
"["SPA_KEY_API_ALSA_DISABLE_LONGNAME"=<bool, default false>] "
"[ api.alsa.seq.min-pool=<min-pool, default 500>] "
"[ api.alsa.seq.max-pool=<max-pool, default 2000>]"
},
};
static const struct spa_dict info = SPA_DICT_INIT_ARRAY(info_items);
const struct spa_handle_factory spa_alsa_seq_bridge_factory = {
SPA_VERSION_HANDLE_FACTORY,
SPA_NAME_API_ALSA_SEQ_BRIDGE,
&info,
impl_get_size,
impl_init,
impl_enum_interface_info,
};
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