/* Copyright (C) 2000-2007 Paul Davis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include "pbd/compose.h" #include "pbd/event_loop.h" #include "pbd/file_utils.h" #include "pbd/error.h" #include "control_protocol/control_protocol.h" #include "ardour/debug.h" #include "ardour/control_protocol_manager.h" #include "ardour/search_paths.h" using namespace ARDOUR; using namespace std; using namespace PBD; #include "pbd/i18n.h" ControlProtocolManager* ControlProtocolManager::_instance = 0; const string ControlProtocolManager::state_node_name = X_("ControlProtocols"); ControlProtocolInfo::~ControlProtocolInfo () { if (protocol && descriptor) { descriptor->destroy (descriptor, protocol); protocol = 0; } delete state; state = 0; if (descriptor) { delete (Glib::Module*) descriptor->module; descriptor = 0; } } ControlProtocolManager::ControlProtocolManager () { } ControlProtocolManager::~ControlProtocolManager() { Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator i = control_protocols.begin(); i != control_protocols.end(); ++i) { delete (*i); } control_protocols.clear (); for (list::iterator p = control_protocol_info.begin(); p != control_protocol_info.end(); ++p) { delete (*p); } control_protocol_info.clear(); } void ControlProtocolManager::set_session (Session* s) { SessionHandlePtr::set_session (s); if (_session) { Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { if ((*i)->requested || (*i)->mandatory) { (void) activate (**i); } } } } int ControlProtocolManager::activate (ControlProtocolInfo& cpi) { ControlProtocol* cp; cpi.requested = true; if ((cp = instantiate (cpi)) == 0) { return -1; } /* we split the set_state() and set_active() operations so that protocols that need state to configure themselves (e.g. "What device is connected, or supposed to be connected?") can get it before actually starting any interaction. */ if (cpi.state) { /* force this by tweaking the internals of the state * XMLNode. Ugh. */ cp->set_state (*cpi.state, Stateful::loading_state_version); } else { /* guarantee a call to set_state() whether we have existing state or not */ cp->set_state (XMLNode(""), Stateful::loading_state_version); } if (cp->set_active (true)) { error << string_compose (_("Control protocol support for %1 failed to activate"), cpi.name) << endmsg; teardown (cpi, false); } return 0; } int ControlProtocolManager::deactivate (ControlProtocolInfo& cpi) { cpi.requested = false; return teardown (cpi, true); } void ControlProtocolManager::session_going_away() { SessionHandlePtr::session_going_away (); /* Session::destroy() will explicitly call drop_protocols() so we don't * have to worry about that here. */ } void ControlProtocolManager::drop_protocols () { /* called explicitly by Session::destroy() so that we can clean up * before the process cycle stops and ports vanish. */ Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator p = control_protocols.begin(); p != control_protocols.end(); ++p) { delete *p; } control_protocols.clear (); for (list::iterator p = control_protocol_info.begin(); p != control_protocol_info.end(); ++p) { // mark existing protocols as requested // otherwise the ControlProtocol instances are not recreated in set_session if ((*p)->protocol) { (*p)->requested = true; (*p)->protocol = 0; } } } ControlProtocol* ControlProtocolManager::instantiate (ControlProtocolInfo& cpi) { /* CALLER MUST HOLD LOCK */ if (_session == 0) { return 0; } cpi.descriptor = get_descriptor (cpi.path); DEBUG_TRACE (DEBUG::ControlProtocols, string_compose ("instantiating %1\n", cpi.name)); if (cpi.descriptor == 0) { error << string_compose (_("control protocol name \"%1\" has no descriptor"), cpi.name) << endmsg; return 0; } DEBUG_TRACE (DEBUG::ControlProtocols, string_compose ("initializing %1\n", cpi.name)); if ((cpi.protocol = cpi.descriptor->initialize (cpi.descriptor, _session)) == 0) { error << string_compose (_("control protocol name \"%1\" could not be initialized"), cpi.name) << endmsg; return 0; } control_protocols.push_back (cpi.protocol); ProtocolStatusChange (&cpi); return cpi.protocol; } int ControlProtocolManager::teardown (ControlProtocolInfo& cpi, bool lock_required) { if (!cpi.protocol) { /* we could still have a descriptor even if the protocol was never instantiated. Close the associated module (shared object/DLL) and make sure we forget about it. */ if (cpi.descriptor) { cerr << "Closing descriptor for CPI anyway\n"; delete (Glib::Module*) cpi.descriptor->module; cpi.descriptor = 0; } return 0; } if (!cpi.descriptor) { return 0; } if (cpi.mandatory) { return 0; } /* save current state */ delete cpi.state; cpi.state = new XMLNode (cpi.protocol->get_state()); cpi.state->add_property (X_("active"), "no"); cpi.descriptor->destroy (cpi.descriptor, cpi.protocol); if (lock_required) { Glib::Threads::Mutex::Lock lm (protocols_lock); list::iterator p = find (control_protocols.begin(), control_protocols.end(), cpi.protocol); if (p != control_protocols.end()) { control_protocols.erase (p); } else { cerr << "Programming error: ControlProtocolManager::teardown() called for " << cpi.name << ", but it was not found in control_protocols" << endl; } } else { list::iterator p = find (control_protocols.begin(), control_protocols.end(), cpi.protocol); if (p != control_protocols.end()) { control_protocols.erase (p); } else { cerr << "Programming error: ControlProtocolManager::teardown() called for " << cpi.name << ", but it was not found in control_protocols" << endl; } } cpi.protocol = 0; delete cpi.state; cpi.state = 0; delete (Glib::Module*) cpi.descriptor->module; /* cpi->descriptor is now inaccessible since dlclose() or equivalent * has been performed, and the descriptor is (or could be) a static * object made accessible by dlopen(). */ cpi.descriptor = 0; ProtocolStatusChange (&cpi); return 0; } void ControlProtocolManager::load_mandatory_protocols () { if (_session == 0) { return; } Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { if ((*i)->mandatory && ((*i)->protocol == 0)) { DEBUG_TRACE (DEBUG::ControlProtocols, string_compose (_("Instantiating mandatory control protocol %1"), (*i)->name)); instantiate (**i); } } } void ControlProtocolManager::discover_control_protocols () { vector cp_modules; #ifdef COMPILER_MSVC /** * Different build targets (Debug / Release etc) use different versions * of the 'C' runtime (which can't be 'mixed & matched'). Therefore, in * case the supplied search path contains multiple version(s) of a given * module, only select the one(s) which match the current build target */ #if defined (_DEBUG) Glib::PatternSpec dll_extension_pattern("*D.dll"); #elif defined (RDC_BUILD) Glib::PatternSpec dll_extension_pattern("*RDC.dll"); #elif defined (_WIN64) Glib::PatternSpec dll_extension_pattern("*64.dll"); #else Glib::PatternSpec dll_extension_pattern("*32.dll"); #endif #else Glib::PatternSpec dll_extension_pattern("*.dll"); #endif Glib::PatternSpec so_extension_pattern("*.so"); Glib::PatternSpec dylib_extension_pattern("*.dylib"); find_files_matching_pattern (cp_modules, control_protocol_search_path (), dll_extension_pattern); find_files_matching_pattern (cp_modules, control_protocol_search_path (), so_extension_pattern); find_files_matching_pattern (cp_modules, control_protocol_search_path (), dylib_extension_pattern); DEBUG_TRACE (DEBUG::ControlProtocols, string_compose (_("looking for control protocols in %1\n"), control_protocol_search_path().to_string())); for (vector::iterator i = cp_modules.begin(); i != cp_modules.end(); ++i) { control_protocol_discover (*i); } } int ControlProtocolManager::control_protocol_discover (string path) { ControlProtocolDescriptor* descriptor; #ifdef __APPLE__ /* don't load OS X shared objects that are just symlinks to the real thing. */ if (path.find (".dylib") && Glib::file_test (path, Glib::FILE_TEST_IS_SYMLINK)) { return 0; } #endif if ((descriptor = get_descriptor (path)) != 0) { if (!descriptor->probe (descriptor)) { warning << string_compose (_("Control protocol %1 not usable"), descriptor->name) << endmsg; } else { ControlProtocolInfo* cpi = new ControlProtocolInfo (); cpi->descriptor = descriptor; cpi->name = descriptor->name; cpi->path = path; cpi->protocol = 0; cpi->requested = false; cpi->mandatory = descriptor->mandatory; cpi->supports_feedback = descriptor->supports_feedback; cpi->state = 0; control_protocol_info.push_back (cpi); DEBUG_TRACE (DEBUG::ControlProtocols, string_compose(_("Control surface protocol discovered: \"%1\"\n"), cpi->name)); } } return 0; } ControlProtocolDescriptor* ControlProtocolManager::get_descriptor (string path) { Glib::Module* module = new Glib::Module(path); ControlProtocolDescriptor *descriptor = 0; ControlProtocolDescriptor* (*dfunc)(void); void* func = 0; if (!(*module)) { error << string_compose(_("ControlProtocolManager: cannot load module \"%1\" (%2)"), path, Glib::Module::get_last_error()) << endmsg; delete module; return 0; } if (!module->get_symbol("protocol_descriptor", func)) { error << string_compose(_("ControlProtocolManager: module \"%1\" has no descriptor function."), path) << endmsg; error << Glib::Module::get_last_error() << endmsg; delete module; return 0; } dfunc = (ControlProtocolDescriptor* (*)(void))func; descriptor = dfunc(); if (descriptor) { descriptor->module = (void*)module; } return descriptor; } void ControlProtocolManager::foreach_known_protocol (boost::function method) { for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { method (*i); } } ControlProtocolInfo* ControlProtocolManager::cpi_by_name (string name) { for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { if (name == (*i)->name) { return *i; } } return 0; } int ControlProtocolManager::set_state (const XMLNode& node, int /*version*/) { XMLNodeList clist; XMLNodeConstIterator citer; XMLProperty const * prop; Glib::Threads::Mutex::Lock lm (protocols_lock); clist = node.children(); for (citer = clist.begin(); citer != clist.end(); ++citer) { XMLNode const * child = *citer; if (child->name() == X_("Protocol")) { if ((prop = child->property (X_("active"))) == 0) { continue; } bool active = string_is_affirmative (prop->value()); if ((prop = child->property (X_("name"))) == 0) { continue; } ControlProtocolInfo* cpi = cpi_by_name (prop->value()); if (cpi) { delete cpi->state; cpi->state = new XMLNode (**citer); std::cerr << "protocol " << prop->value() << " active ? " << active << std::endl; if (active) { if (_session) { instantiate (*cpi); } else { cpi->requested = true; } } else { if (_session) { teardown (*cpi, true); } else { cpi->requested = false; } } } else { std::cerr << "protocol " << prop->value() << " not found\n"; } } } return 0; } XMLNode& ControlProtocolManager::get_state () { XMLNode* root = new XMLNode (state_node_name); Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { if ((*i)->protocol) { XMLNode& child_state ((*i)->protocol->get_state()); child_state.add_property (X_("active"), "yes"); root->add_child_nocopy (child_state); } else if ((*i)->state) { XMLNode* child_state = new XMLNode (*(*i)->state); child_state->add_property (X_("active"), "no"); root->add_child_nocopy (*child_state); } else { XMLNode* child_state = new XMLNode (X_("Protocol")); child_state->add_property (X_("name"), (*i)->name); child_state->add_property (X_("active"), "no"); root->add_child_nocopy (*child_state); } } return *root; } ControlProtocolManager& ControlProtocolManager::instance () { if (_instance == 0) { _instance = new ControlProtocolManager (); } return *_instance; } void ControlProtocolManager::midi_connectivity_established () { Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator p = control_protocols.begin(); p != control_protocols.end(); ++p) { (*p)->midi_connectivity_established (); } } void ControlProtocolManager::register_request_buffer_factories () { Glib::Threads::Mutex::Lock lm (protocols_lock); for (list::iterator i = control_protocol_info.begin(); i != control_protocol_info.end(); ++i) { if ((*i)->descriptor == 0) { warning << string_compose (_("Control protocol \"%1\" has no descriptor"), (*i)->name) << endmsg; continue; } if ((*i)->descriptor->request_buffer_factory) { EventLoop::register_request_buffer_factory ((*i)->descriptor->name, (*i)->descriptor->request_buffer_factory); } } }