/*
This file is part of Ingen.
Copyright 2007-2016 David Robillard
Ingen is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License as published by the Free
Software Foundation, either version 3 of the License, or any later version.
Ingen 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 Affero General Public License for details.
You should have received a copy of the GNU Affero General Public License
along with Ingen. If not, see .
*/
#include "Delta.hpp"
#include "BlockFactory.hpp"
#include "BlockImpl.hpp"
#include "Broadcaster.hpp"
#include "CompiledGraph.hpp"
#include "ControlBindings.hpp"
#include "CreateBlock.hpp"
#include "CreateGraph.hpp"
#include "CreatePort.hpp"
#include "Engine.hpp"
#include "GraphImpl.hpp"
#include "NodeImpl.hpp"
#include "PluginImpl.hpp"
#include "PortImpl.hpp"
#include "PortType.hpp"
#include "SetPortValue.hpp"
#include "ingen/Atom.hpp"
#include "ingen/FilePath.hpp"
#include "ingen/Forge.hpp"
#include "ingen/Interface.hpp"
#include "ingen/Log.hpp"
#include "ingen/Message.hpp"
#include "ingen/Node.hpp"
#include "ingen/Status.hpp"
#include "ingen/Store.hpp"
#include "ingen/URIs.hpp"
#include "ingen/World.hpp"
#include "ingen/paths.hpp"
#include "lilv/lilv.h"
#include "raul/Path.hpp"
#include
#include
#include
#include
#include
#include
#include
namespace ingen::server {
class PreProcessContext;
namespace events {
Delta::Delta(Engine& engine,
const std::shared_ptr& client,
SampleCount timestamp,
const ingen::Put& msg)
: Event(engine, client, msg.seq, timestamp)
, _subject(msg.uri)
, _properties(msg.properties)
, _context(msg.ctx)
, _type(Type::PUT)
{
init();
}
Delta::Delta(Engine& engine,
const std::shared_ptr& client,
SampleCount timestamp,
const ingen::Delta& msg)
: Event(engine, client, msg.seq, timestamp)
, _create_event(nullptr)
, _subject(msg.uri)
, _properties(msg.add)
, _remove(msg.remove)
, _context(msg.ctx)
, _type(Type::PATCH)
{
init();
}
Delta::Delta(Engine& engine,
const std::shared_ptr& client,
SampleCount timestamp,
const ingen::SetProperty& msg)
: Event(engine, client, msg.seq, timestamp)
, _subject(msg.subject)
, _properties{{msg.predicate, msg.value}}
, _context(msg.ctx)
, _type(Type::SET)
{
init();
}
void
Delta::init()
{
if (_context != Resource::Graph::DEFAULT) {
for (auto& p : _properties) {
p.second.set_context(_context);
}
}
// Set atomic execution if polyphony is to be changed
const ingen::URIs& uris = _engine.world().uris();
if (_properties.count(uris.ingen_polyphonic) ||
_properties.count(uris.ingen_polyphony)) {
_block = true;
}
}
void
Delta::add_set_event(const char* port_symbol,
const void* value,
uint32_t size,
uint32_t type)
{
auto* block = dynamic_cast(_object);
auto* port = block->port_by_symbol(port_symbol);
if (!port) {
_engine.log().warn("Unknown port `%1%' in state", port_symbol);
return;
}
_set_events.emplace_back(
std::make_unique(
_engine, _request_client, _request_id, _time,
port, Atom(size, type, value), false, true));
}
static void
s_add_set_event(const char* port_symbol,
void* user_data,
const void* value,
uint32_t size,
uint32_t type)
{
static_cast(user_data)->add_set_event(port_symbol, value, size, type);
}
static LilvNode*
get_file_node(LilvWorld* lworld, const URIs& uris, const Atom& value)
{
if (value.type() == uris.atom_Path) {
return lilv_new_file_uri(lworld, nullptr, value.ptr());
}
if (uris.forge.is_uri(value)) {
const std::string str = uris.forge.str(value, false);
if (str.substr(0, 5) == "file:") {
return lilv_new_uri(lworld, value.ptr());
}
}
return nullptr;
}
bool
Delta::pre_process(PreProcessContext& ctx)
{
const ingen::URIs& uris = _engine.world().uris();
const bool is_graph_object = uri_is_path(_subject);
const bool is_client = (_subject == "ingen:/clients/this");
const bool is_engine = (_subject == "ingen:/");
const bool is_file = (_subject.scheme() == "file");
if (_type == Type::PUT && is_file) {
// Ensure type is Preset, the only supported file put
const auto t = _properties.find(uris.rdf_type);
if (t == _properties.end() || t->second != uris.pset_Preset) {
return Event::pre_process_done(Status::BAD_REQUEST, _subject);
}
// Get "prototype" for preset (node to save state for)
const auto p = _properties.find(uris.lv2_prototype);
if (p == _properties.end() ||
!_engine.world().forge().is_uri(p->second)) {
return Event::pre_process_done(Status::BAD_REQUEST, _subject);
}
const URI prot(_engine.world().forge().str(p->second, false));
if (!uri_is_path(prot)) {
return Event::pre_process_done(Status::BAD_URI, _subject);
}
Node* node = _engine.store()->get(uri_to_path(prot));
if (!node) {
return Event::pre_process_done(Status::NOT_FOUND, prot);
}
auto* block = dynamic_cast(node);
if (!block) {
return Event::pre_process_done(Status::BAD_OBJECT_TYPE, prot);
}
if ((_preset = block->save_preset(_subject, _properties))) {
return Event::pre_process_done(Status::SUCCESS);
}
return Event::pre_process_done(Status::FAILURE);
}
const std::lock_guard lock{_engine.store()->mutex()};
_object = is_graph_object
? static_cast(_engine.store()->get(uri_to_path(_subject)))
: static_cast(_engine.block_factory()->plugin(_subject));
if (!_object && !is_client && !is_engine &&
(!is_graph_object || _type != Type::PUT)) {
return Event::pre_process_done(Status::NOT_FOUND, _subject);
}
if (is_graph_object && !_object) {
const raul::Path path{uri_to_path(_subject)};
bool is_graph = false;
bool is_block = false;
bool is_port = false;
bool is_output = false;
ingen::Resource::type(uris, _properties, is_graph, is_block, is_port, is_output);
if (is_graph) {
_create_event = std::make_unique(
_engine, _request_client, _request_id, _time, path, _properties);
} else if (is_block) {
_create_event = std::make_unique(
_engine, _request_client, _request_id, _time, path, _properties);
} else if (is_port) {
_create_event = std::make_unique(
_engine, _request_client, _request_id, _time,
path, _properties);
}
if (_create_event) {
if (_create_event->pre_process(ctx)) {
_object = _engine.store()->get(path); // Get object for setting
} else {
return Event::pre_process_done(Status::CREATION_FAILED, _subject);
}
} else {
return Event::pre_process_done(Status::BAD_OBJECT_TYPE, _subject);
}
}
_types.reserve(_properties.size());
auto* obj = dynamic_cast(_object);
// Remove any properties removed in delta
for (const auto& r : _remove) {
const URI& key = r.first;
const Atom& value = r.second;
if (key == uris.midi_binding && value == uris.patch_wildcard) {
auto* port = dynamic_cast(_object);
if (port) {
_engine.control_bindings()->get_all(port->path(), _removed_bindings);
}
}
if (_object) {
_removed.emplace(key, value);
_object->remove_property(key, value);
} else if (is_engine && key == uris.ingen_loadedBundle) {
LilvWorld* lworld = _engine.world().lilv_world();
LilvNode* bundle = get_file_node(lworld, uris, value);
if (bundle) {
for (const auto& p : _engine.block_factory()->plugins()) {
if (p.second->bundle_uri() == lilv_node_as_string(bundle)) {
p.second->set_is_zombie(true);
_update.del(p.second->uri());
}
}
lilv_world_unload_bundle(lworld, bundle);
_engine.block_factory()->refresh();
lilv_node_free(bundle);
} else {
_status = Status::BAD_VALUE;
}
}
}
// Remove all added properties if this is a put or set
if (_object && (_type == Type::PUT || _type == Type::SET)) {
for (auto p = _properties.begin();
p != _properties.end();
p = _properties.upper_bound(p->first)) {
for (auto q = _object->properties().find(p->first);
q != _object->properties().end() && q->first == p->first;) {
auto next = q;
++next;
if (!_properties.contains(q->first, q->second)) {
const auto r = std::make_pair(q->first, q->second);
_object->properties().erase(q);
_object->on_property_removed(r.first, r.second);
_removed.insert(r);
}
q = next;
}
}
}
for (const auto& p : _properties) {
const URI& key = p.first;
const Property& value = p.second;
SpecialType op = SpecialType::NONE;
if (obj) {
Resource& resource = *obj;
if (value != uris.patch_wildcard) {
if (resource.add_property(key, value, value.context())) {
_added.emplace(key, value);
}
}
BlockImpl* block = nullptr;
auto* port = dynamic_cast(_object);
if (port) {
if (key == uris.ingen_broadcast) {
if (value.type() == uris.forge.Bool) {
op = SpecialType::ENABLE_BROADCAST;
} else {
_status = Status::BAD_VALUE_TYPE;
}
} else if (key == uris.ingen_value || key == uris.ingen_activity) {
_set_events.emplace_back(
std::make_unique(
_engine, _request_client, _request_id, _time,
port, value, key == uris.ingen_activity));
} else if (key == uris.midi_binding) {
if (port->is_a(PortType::CONTROL) || port->is_a(PortType::CV)) {
if (value == uris.patch_wildcard) {
_engine.control_bindings()->start_learn(port);
} else if (value.type() == uris.atom_Object) {
op = SpecialType::CONTROL_BINDING;
_binding = new ControlBindings::Binding();
} else {
_status = Status::BAD_VALUE_TYPE;
}
} else {
_status = Status::BAD_OBJECT_TYPE;
}
} else if (key == uris.lv2_index) {
op = SpecialType::PORT_INDEX;
port->set_property(key, value);
}
} else if ((block = dynamic_cast(_object))) {
if (key == uris.midi_binding && value == uris.patch_wildcard) {
op = SpecialType::CONTROL_BINDING; // Internal block learn
} else if (key == uris.ingen_enabled) {
if (value.type() == uris.forge.Bool) {
op = SpecialType::ENABLE;
} else {
_status = Status::BAD_VALUE_TYPE;
}
} else if (key == uris.pset_preset) {
URI uri;
if (uris.forge.is_uri(value)) {
const std::string uri_str = uris.forge.str(value, false);
if (URI::is_valid(uri_str)) {
uri = URI(uri_str);
}
} else if (value.type() == uris.forge.Path) {
uri = URI(FilePath(value.ptr()));
}
if (!uri.empty()) {
op = SpecialType::PRESET;
if ((_state = block->load_preset(uri))) {
lilv_state_emit_port_values(_state.get(),
s_add_set_event,
this);
} else {
_engine.log().warn("Failed to load preset <%1%>\n", uri);
}
} else {
_status = Status::BAD_VALUE;
}
}
}
if ((_graph = dynamic_cast(_object))) {
if (key == uris.ingen_enabled) {
if (value.type() == uris.forge.Bool) {
op = SpecialType::ENABLE;
// FIXME: defer until all other data has been processed
if (value.get() && !_graph->enabled()) {
if (!(_compiled_graph = compile(*_graph))) {
_status = Status::COMPILATION_FAILED;
}
}
} else {
_status = Status::BAD_VALUE_TYPE;
}
} else if (key == uris.ingen_polyphony) {
if (value.type() == uris.forge.Int) {
if (value.get() < 1 || value.get() > 128) {
_status = Status::INVALID_POLY;
} else {
op = SpecialType::POLYPHONY;
_graph->prepare_internal_poly(
*_engine.buffer_factory(), value.get());
}
} else {
_status = Status::BAD_VALUE_TYPE;
}
}
}
if (!_create_event && key == uris.ingen_polyphonic) {
auto* parent = dynamic_cast(obj->parent());
if (!parent) {
_status = Status::BAD_OBJECT_TYPE;
} else if (value.type() != uris.forge.Bool) {
_status = Status::BAD_VALUE_TYPE;
} else {
op = SpecialType::POLYPHONIC;
obj->set_property(key, value, value.context());
if (block) {
block->set_polyphonic(value.get());
}
if (value.get()) {
obj->prepare_poly(*_engine.buffer_factory(), parent->internal_poly());
} else {
obj->prepare_poly(*_engine.buffer_factory(), 1);
}
}
}
} else if (is_client && key == uris.ingen_broadcast) {
_engine.broadcaster()->set_broadcast(
_request_client, value.get());
} else if (is_engine && key == uris.ingen_loadedBundle) {
LilvWorld* lworld = _engine.world().lilv_world();
LilvNode* bundle = get_file_node(lworld, uris, value);
if (bundle) {
lilv_world_load_bundle(lworld, bundle);
const auto new_plugins = _engine.block_factory()->refresh();
for (const auto& plugin : new_plugins) {
if (plugin->bundle_uri() == lilv_node_as_string(bundle)) {
_update.put_plugin(plugin.get());
}
}
lilv_node_free(bundle);
} else {
_status = Status::BAD_VALUE;
}
}
if (_status != Status::NOT_PREPARED) {
break;
}
_types.push_back(op);
}
for (auto& s : _set_events) {
s->pre_process(ctx);
}
return Event::pre_process_done(
_status == Status::NOT_PREPARED ? Status::SUCCESS : _status,
_subject);
}
void
Delta::execute(RunContext& ctx)
{
if (_status != Status::SUCCESS || _preset) {
return;
}
const ingen::URIs& uris = _engine.world().uris();
if (_create_event) {
_create_event->set_time(_time);
_create_event->execute(ctx);
}
for (auto& s : _set_events) {
s->set_time(_time);
s->execute(ctx);
}
if (!_removed_bindings.empty()) {
_engine.control_bindings()->remove(ctx, _removed_bindings);
}
auto* const object = dynamic_cast(_object);
auto* const block = dynamic_cast(_object);
auto* const port = dynamic_cast(_object);
auto t = _types.begin();
for (const auto& p : _properties) {
const URI& key = p.first;
const Atom& value = p.second;
switch (*t++) {
case SpecialType::ENABLE_BROADCAST:
if (port) {
port->enable_monitoring(value.get());
}
break;
case SpecialType::ENABLE:
if (_graph) {
if (value.get()) {
if (_compiled_graph) {
_compiled_graph = _graph->swap_compiled_graph(std::move(_compiled_graph));
}
_graph->enable();
} else {
_graph->disable(ctx);
}
} else if (block) {
block->set_enabled(value.get());
}
break;
case SpecialType::POLYPHONIC: {
if (object) {
if (value.get()) {
auto* parent = reinterpret_cast(object->parent());
object->apply_poly(ctx, parent->internal_poly_process());
} else {
object->apply_poly(ctx, 1);
}
}
} break;
case SpecialType::POLYPHONY:
if (_graph &&
!_graph->apply_internal_poly(ctx,
*_engine.buffer_factory(),
*_engine.maid(),
value.get())) {
_status = Status::INTERNAL_ERROR;
}
break;
case SpecialType::PORT_INDEX:
if (port) {
port->set_index(ctx, value.get());
}
break;
case SpecialType::CONTROL_BINDING:
if (port) {
if (!_engine.control_bindings()->set_port_binding(ctx, port, _binding, value)) {
_status = Status::BAD_VALUE;
}
} else if (block) {
if (uris.ingen_Internal == block->plugin_impl()->type()) {
block->learn();
}
}
break;
case SpecialType::PRESET:
if (block) {
block->set_enabled(false);
}
break;
case SpecialType::NONE:
if (port) {
if (key == uris.lv2_minimum) {
port->set_minimum(value);
} else if (key == uris.lv2_maximum) {
port->set_maximum(value);
}
}
break;
case SpecialType::LOADED_BUNDLE:
break;
}
}
}
void
Delta::post_process()
{
if (_state) {
auto* block = dynamic_cast(_object);
if (block) {
block->apply_state(_engine.sync_worker(), _state.get());
block->set_enabled(true);
}
_state.reset();
}
const Broadcaster::Transfer t{*_engine.broadcaster()};
if (_create_event) {
_create_event->post_process();
if (_create_event->status() != Status::SUCCESS) {
return; // Creation failed, nothing else to do
}
}
for (auto& s : _set_events) {
if (s->synthetic() || s->status() != Status::SUCCESS) {
s->post_process(); // Set failed, report error
}
}
if (respond() == Status::SUCCESS) {
_update.send(*_engine.broadcaster());
switch (_type) {
case Type::SET:
/* Kludge to avoid feedback for set events only. The GUI
depends on put responses to e.g. initially place blocks.
Some more sensible way of controlling this is needed. */
if (_mode == Mode::NORMAL) {
_engine.broadcaster()->set_ignore_client(_request_client);
}
_engine.broadcaster()->set_property(
_subject,
_properties.begin()->first,
_properties.begin()->second);
if (_mode == Mode::NORMAL) {
_engine.broadcaster()->clear_ignore_client();
}
break;
case Type::PUT:
if (_type == Type::PUT && _subject.scheme() == "file") {
// Preset save
ClientUpdate response;
response.put(_preset->uri(), _preset->properties());
response.send(*_engine.broadcaster());
} else {
// Graph object put
_engine.broadcaster()->put(_subject, _properties, _context);
}
break;
case Type::PATCH:
_engine.broadcaster()->delta(_subject, _remove, _properties, _context);
break;
}
}
}
void
Delta::undo(Interface& target)
{
if (_create_event) {
_create_event->undo(target);
} else if (_type == Type::PATCH) {
target.delta(_subject, _added, _removed, _context);
} else if (_type == Type::SET || _type == Type::PUT) {
if (_removed.size() == 1) {
target.set_property(_subject,
_removed.begin()->first,
_removed.begin()->second,
_context);
} else if (_removed.empty()) {
target.delta(_subject, _added, {}, _context);
} else {
target.put(_subject, _removed, _context);
}
}
}
Event::Execution
Delta::get_execution() const
{
return _block ? Execution::ATOMIC : Execution::NORMAL;
}
} // namespace events
} // namespace ingen::server