/* This file is part of Patchage.
* Copyright 2007-2014 David Robillard <http://drobilla.net>
*
* Patchage 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.
*
* Patchage 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 details.
*
* You should have received a copy of the GNU General Public License
* along with Patchage. If not, see <http://www.gnu.org/licenses/>.
*/
#include "JackDriver.hpp"
#include "Patchage.hpp"
#include "PatchageCanvas.hpp"
#include "PatchageEvent.hpp"
#include "PatchageModule.hpp"
#include "Queue.hpp"
#include "patchage_config.h"
#ifdef HAVE_JACK_METADATA
# include "jackey.h"
# include <jack/metadata.h>
#endif
#include <boost/format.hpp>
#include <jack/jack.h>
#include <jack/statistics.h>
#include <cassert>
#include <cstring>
#include <set>
#include <string>
using boost::format;
JackDriver::JackDriver(Patchage* app)
: _app(app)
, _client(NULL)
, _events(128)
, _xruns(0)
, _xrun_delay(0)
, _is_activated(false)
{
_last_pos.frame = 0;
_last_pos.valid = (jack_position_bits_t)0;
}
JackDriver::~JackDriver()
{
detach();
}
/** Connect to Jack.
*/
void
JackDriver::attach(bool launch_daemon)
{
// Already connected
if (_client)
return;
jack_options_t options =
(!launch_daemon) ? JackNoStartServer : JackNullOption;
_client = jack_client_open("Patchage", options, NULL);
if (_client == NULL) {
_app->error_msg("Jack: Unable to create client.");
_is_activated = false;
} else {
jack_client_t* const client = _client;
jack_on_shutdown(client, jack_shutdown_cb, this);
jack_set_client_registration_callback(
client, jack_client_registration_cb, this);
jack_set_port_registration_callback(
client, jack_port_registration_cb, this);
jack_set_port_connect_callback(client, jack_port_connect_cb, this);
jack_set_xrun_callback(client, jack_xrun_cb, this);
_buffer_size = jack_get_buffer_size(client);
if (!jack_activate(client)) {
_is_activated = true;
signal_attached.emit();
std::stringstream ss;
_app->info_msg("Jack: Attached.");
} else {
_app->error_msg("Jack: Client activation failed.");
_is_activated = false;
}
}
}
void
JackDriver::detach()
{
Glib::Mutex::Lock lock(_shutdown_mutex);
if (_client) {
jack_deactivate(_client);
jack_client_close(_client);
_client = NULL;
}
_is_activated = false;
signal_detached.emit();
_app->info_msg("Jack: Detached.");
}
static bool
is_jack_port(const PatchagePort* port)
{
return (port->type() == JACK_AUDIO || port->type() == JACK_MIDI ||
port->type() == JACK_OSC || port->type() == JACK_CV);
}
/** Destroy all JACK (canvas) ports.
*/
void
JackDriver::destroy_all()
{
if (_app->canvas()) {
_app->canvas()->remove_ports(is_jack_port);
}
}
PatchagePort*
JackDriver::create_port_view(Patchage* patchage, const PortID& id)
{
assert(id.type == PortID::JACK_ID);
jack_port_t* jack_port = jack_port_by_id(_client, id.id.jack_id);
if (!jack_port) {
_app->error_msg(
(format("Jack: Failed to find port with ID `%1%'.") % id).str());
;
return NULL;
}
const int jack_flags = jack_port_flags(jack_port);
std::string module_name, port_name;
port_names(id, module_name, port_name);
ModuleType type = InputOutput;
if (_app->conf()->get_module_split(module_name,
(jack_flags & JackPortIsTerminal))) {
if (jack_flags & JackPortIsInput) {
type = Input;
} else {
type = Output;
}
}
PatchageModule* parent = _app->canvas()->find_module(module_name, type);
if (!parent) {
parent = new PatchageModule(patchage, module_name, type);
parent->load_location();
patchage->canvas()->add_module(module_name, parent);
}
if (parent->get_port(port_name)) {
_app->error_msg((format("Jack: Module `%1%' already has port `%2%'.") %
module_name % port_name)
.str());
return NULL;
}
PatchagePort* port = create_port(*parent, jack_port, id);
port->show();
if (port->is_input()) {
parent->set_is_source(false);
}
return port;
}
#ifdef HAVE_JACK_METADATA
static std::string
get_property(jack_uuid_t subject, const char* key)
{
std::string result;
char* value = NULL;
char* datatype = NULL;
if (!jack_get_property(subject, key, &value, &datatype)) {
result = value;
}
jack_free(datatype);
jack_free(value);
return result;
}
#endif
PatchagePort*
JackDriver::create_port(PatchageModule& parent, jack_port_t* port, PortID id)
{
if (!port) {
return NULL;
}
std::string label;
boost::optional<int> order;
#ifdef HAVE_JACK_METADATA
const jack_uuid_t uuid = jack_port_uuid(port);
if (_app->conf()->get_sort_ports()) {
const std::string order_str = get_property(uuid, JACKEY_ORDER);
label = get_property(uuid, JACK_METADATA_PRETTY_NAME);
if (!order_str.empty()) {
order = atoi(order_str.c_str());
}
}
#endif
const char* const type_str = jack_port_type(port);
PortType port_type;
if (!strcmp(type_str, JACK_DEFAULT_AUDIO_TYPE)) {
port_type = JACK_AUDIO;
#ifdef HAVE_JACK_METADATA
if (get_property(uuid, JACKEY_SIGNAL_TYPE) == "CV") {
port_type = JACK_CV;
}
#endif
} else if (!strcmp(type_str, JACK_DEFAULT_MIDI_TYPE)) {
port_type = JACK_MIDI;
#ifdef HAVE_JACK_METADATA
if (get_property(uuid, JACKEY_EVENT_TYPES) == "OSC") {
port_type = JACK_OSC;
}
#endif
} else {
_app->warning_msg((format("Jack: Port `%1%' has unknown type `%2%'.") %
jack_port_name(port) % type_str)
.str());
return NULL;
}
PatchagePort* ret(
new PatchagePort(parent,
port_type,
jack_port_short_name(port),
label,
(jack_port_flags(port) & JackPortIsInput),
_app->conf()->get_port_color(port_type),
_app->show_human_names(),
order));
if (id.type != PortID::NULL_PORT_ID) {
dynamic_cast<PatchageCanvas*>(parent.canvas())->index_port(id, ret);
}
return ret;
}
void
JackDriver::shutdown()
{
signal_detached.emit();
}
/** Refresh all Jack audio ports/connections.
* To be called from GTK thread only.
*/
void
JackDriver::refresh()
{
const char** ports;
jack_port_t* port;
// Jack can take _client away from us at any time throughout here :/
// Shortest locks possible is the best solution I can figure out
Glib::Mutex::Lock lock(_shutdown_mutex);
if (_client == NULL) {
shutdown();
return;
}
ports = jack_get_ports(_client, NULL, NULL, 0); // get all existing ports
if (!ports) {
return;
}
std::string client1_name;
std::string port1_name;
std::string client2_name;
std::string port2_name;
size_t colon;
// Add all ports
for (int i = 0; ports[i]; ++i) {
port = jack_port_by_name(_client, ports[i]);
client1_name = ports[i];
client1_name = client1_name.substr(0, client1_name.find(":"));
ModuleType type = InputOutput;
if (_app->conf()->get_module_split(
client1_name, (jack_port_flags(port) & JackPortIsTerminal))) {
if (jack_port_flags(port) & JackPortIsInput) {
type = Input;
} else {
type = Output;
}
}
PatchageModule* m = _app->canvas()->find_module(client1_name, type);
if (!m) {
m = new PatchageModule(_app, client1_name, type);
m->load_location();
_app->canvas()->add_module(client1_name, m);
}
if (!m->get_port(jack_port_short_name(port)))
create_port(*m, port, PortID());
}
// Add all connections
for (int i = 0; ports[i]; ++i) {
port = jack_port_by_name(_client, ports[i]);
const char** connected_ports =
jack_port_get_all_connections(_client, port);
client1_name = ports[i];
colon = client1_name.find(':');
port1_name = client1_name.substr(colon + 1);
client1_name = client1_name.substr(0, colon);
const ModuleType port1_type =
(jack_port_flags(port) & JackPortIsInput) ? Input : Output;
PatchageModule* client1_module =
_app->canvas()->find_module(client1_name, port1_type);
if (connected_ports) {
for (int j = 0; connected_ports[j]; ++j) {
client2_name = connected_ports[j];
colon = client2_name.find(':');
port2_name = client2_name.substr(colon + 1);
client2_name = client2_name.substr(0, colon);
const ModuleType port2_type =
(port1_type == Input) ? Output : Input;
PatchageModule* client2_module =
_app->canvas()->find_module(client2_name, port2_type);
Ganv::Port* port1 = client1_module->get_port(port1_name);
Ganv::Port* port2 = client2_module->get_port(port2_name);
if (!port1 || !port2)
continue;
Ganv::Port* src = NULL;
Ganv::Port* dst = NULL;
if (port1->is_output() && port2->is_input()) {
src = port1;
dst = port2;
} else {
src = port2;
dst = port1;
}
if (src && dst && !_app->canvas()->get_edge(src, dst))
_app->canvas()->make_connection(src, dst);
}
jack_free(connected_ports);
}
}
jack_free(ports);
}
bool
JackDriver::port_names(const PortID& id,
std::string& module_name,
std::string& port_name)
{
jack_port_t* jack_port = NULL;
if (id.type == PortID::JACK_ID)
jack_port = jack_port_by_id(_client, id.id.jack_id);
if (!jack_port) {
module_name.clear();
port_name.clear();
return false;
}
const std::string full_name = jack_port_name(jack_port);
module_name = full_name.substr(0, full_name.find(":"));
port_name = full_name.substr(full_name.find(":") + 1);
return true;
}
/** Connects two Jack audio ports.
* To be called from GTK thread only.
* \return Whether connection succeeded.
*/
bool
JackDriver::connect(PatchagePort* src_port, PatchagePort* dst_port)
{
if (_client == NULL)
return false;
int result = jack_connect(
_client, src_port->full_name().c_str(), dst_port->full_name().c_str());
if (result == 0)
_app->info_msg(std::string("Jack: Connected ") + src_port->full_name() +
" => " + dst_port->full_name());
else
_app->error_msg(std::string("Jack: Unable to connect ") +
src_port->full_name() + " => " + dst_port->full_name());
return (!result);
}
/** Disconnects two Jack audio ports.
* To be called from GTK thread only.
* \return Whether disconnection succeeded.
*/
bool
JackDriver::disconnect(PatchagePort* const src_port,
PatchagePort* const dst_port)
{
if (_client == NULL)
return false;
int result = jack_disconnect(
_client, src_port->full_name().c_str(), dst_port->full_name().c_str());
if (result == 0)
_app->info_msg(std::string("Jack: Disconnected ") +
src_port->full_name() + " => " + dst_port->full_name());
else
_app->error_msg(std::string("Jack: Unable to disconnect ") +
src_port->full_name() + " => " + dst_port->full_name());
return (!result);
}
void
JackDriver::jack_client_registration_cb(const char* name,
int registered,
void* jack_driver)
{
JackDriver* me = reinterpret_cast<JackDriver*>(jack_driver);
assert(me->_client);
if (registered) {
me->_events.push(PatchageEvent(PatchageEvent::CLIENT_CREATION, name));
} else {
me->_events.push(
PatchageEvent(PatchageEvent::CLIENT_DESTRUCTION, name));
}
}
void
JackDriver::jack_port_registration_cb(jack_port_id_t port_id,
int registered,
void* jack_driver)
{
JackDriver* me = reinterpret_cast<JackDriver*>(jack_driver);
assert(me->_client);
if (registered) {
me->_events.push(PatchageEvent(PatchageEvent::PORT_CREATION, port_id));
} else {
me->_events.push(
PatchageEvent(PatchageEvent::PORT_DESTRUCTION, port_id));
}
}
void
JackDriver::jack_port_connect_cb(jack_port_id_t src,
jack_port_id_t dst,
int connect,
void* jack_driver)
{
JackDriver* me = reinterpret_cast<JackDriver*>(jack_driver);
assert(me->_client);
if (connect) {
me->_events.push(PatchageEvent(PatchageEvent::CONNECTION, src, dst));
} else {
me->_events.push(PatchageEvent(PatchageEvent::DISCONNECTION, src, dst));
}
}
int
JackDriver::jack_xrun_cb(void* jack_driver)
{
JackDriver* me = reinterpret_cast<JackDriver*>(jack_driver);
assert(me->_client);
++me->_xruns;
me->_xrun_delay = jack_get_xrun_delayed_usecs(me->_client);
jack_reset_max_delayed_usecs(me->_client);
return 0;
}
void
JackDriver::jack_shutdown_cb(void* jack_driver)
{
assert(jack_driver);
JackDriver* me = reinterpret_cast<JackDriver*>(jack_driver);
me->_app->info_msg("Jack: Shutdown.");
Glib::Mutex::Lock lock(me->_shutdown_mutex);
me->_client = NULL;
me->_is_activated = false;
me->signal_detached.emit();
}
jack_nframes_t
JackDriver::buffer_size()
{
if (_is_activated)
return _buffer_size;
else
return jack_get_buffer_size(_client);
}
void
JackDriver::reset_xruns()
{
_xruns = 0;
_xrun_delay = 0;
}
float
JackDriver::get_max_dsp_load()
{
float max_load = 0.0f;
if (_client) {
const float max_delay = jack_get_max_delayed_usecs(_client);
const float rate = sample_rate();
const float size = buffer_size();
const float period = size / rate * 1000000; // usec
if (max_delay > period) {
max_load = 1.0;
jack_reset_max_delayed_usecs(_client);
} else {
max_load = max_delay / period;
}
}
return max_load;
}
void
JackDriver::reset_max_dsp_load()
{
if (_client) {
jack_reset_max_delayed_usecs(_client);
}
}
bool
JackDriver::set_buffer_size(jack_nframes_t size)
{
if (buffer_size() == size) {
return true;
}
if (!_client) {
_buffer_size = size;
return true;
}
if (jack_set_buffer_size(_client, size)) {
_app->error_msg("[JACK] Unable to set buffer size");
return false;
} else {
_buffer_size = size;
return true;
}
}
void
JackDriver::process_events(Patchage* app)
{
while (!_events.empty()) {
PatchageEvent& ev = _events.front();
ev.execute(app);
_events.pop();
}
}