/* Copyright (C) 2001-2003 Paul Davis Copyright (C) 2004-2008 Grame This program 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 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "JackClient.h" #include "JackError.h" #include "JackGraphManager.h" #include "JackEngineControl.h" #include "JackClientControl.h" #include "JackGlobals.h" #include "JackTime.h" #include "JackCompilerDeps.h" #include "JackPortType.h" #include "JackPlatformPlug.h" #include #ifdef __CLIENTDEBUG__ #include "JackLibGlobals.h" #endif using namespace Jack; #ifdef __cplusplus extern "C" { #endif typedef void (*print_function)(const char *); typedef void *(*thread_routine)(void*); EXPORT void jack_get_version( int *major_ptr, int *minor_ptr, int *micro_ptr, int *proto_ptr); EXPORT const char * jack_get_version_string(); jack_client_t * jack_client_new_aux (const char *client_name, jack_options_t options, jack_status_t *status); EXPORT jack_client_t * jack_client_open (const char *client_name, jack_options_t options, jack_status_t *status, ...); EXPORT jack_client_t * jack_client_new (const char *client_name); EXPORT int jack_client_name_size (void); EXPORT char* jack_get_client_name (jack_client_t *client); EXPORT int jack_internal_client_new (const char *client_name, const char *load_name, const char *load_init); EXPORT void jack_internal_client_close (const char *client_name); EXPORT int jack_is_realtime (jack_client_t *client); EXPORT void jack_on_shutdown (jack_client_t *client, JackShutdownCallback shutdown_callback, void *arg); EXPORT void jack_on_info_shutdown (jack_client_t *client, JackInfoShutdownCallback shutdown_callback, void *arg); EXPORT int jack_set_process_callback (jack_client_t *client, JackProcessCallback process_callback, void *arg); EXPORT jack_nframes_t jack_thread_wait(jack_client_t *client, int status); // new EXPORT jack_nframes_t jack_cycle_wait (jack_client_t*); EXPORT void jack_cycle_signal (jack_client_t*, int status); EXPORT int jack_set_process_thread(jack_client_t* client, JackThreadCallback fun, void *arg); EXPORT int jack_set_thread_init_callback (jack_client_t *client, JackThreadInitCallback thread_init_callback, void *arg); EXPORT int jack_set_freewheel_callback (jack_client_t *client, JackFreewheelCallback freewheel_callback, void *arg); EXPORT int jack_set_freewheel(jack_client_t* client, int onoff); EXPORT int jack_set_buffer_size (jack_client_t *client, jack_nframes_t nframes); EXPORT int jack_set_buffer_size_callback (jack_client_t *client, JackBufferSizeCallback bufsize_callback, void *arg); EXPORT int jack_set_sample_rate_callback (jack_client_t *client, JackSampleRateCallback srate_callback, void *arg); EXPORT int jack_set_client_registration_callback (jack_client_t *, JackClientRegistrationCallback registration_callback, void *arg); EXPORT int jack_set_port_registration_callback (jack_client_t *, JackPortRegistrationCallback registration_callback, void *arg); EXPORT int jack_set_port_connect_callback (jack_client_t *, JackPortConnectCallback connect_callback, void *arg); EXPORT int jack_set_port_rename_callback (jack_client_t *, JackPortRenameCallback rename_callback, void *arg); EXPORT int jack_set_graph_order_callback (jack_client_t *, JackGraphOrderCallback graph_callback, void *); EXPORT int jack_set_xrun_callback (jack_client_t *, JackXRunCallback xrun_callback, void *arg); EXPORT int jack_activate (jack_client_t *client); EXPORT int jack_deactivate (jack_client_t *client); EXPORT jack_port_t * jack_port_register (jack_client_t *client, const char *port_name, const char *port_type, unsigned long flags, unsigned long buffer_size); EXPORT int jack_port_unregister (jack_client_t *, jack_port_t *); EXPORT void * jack_port_get_buffer (jack_port_t *, jack_nframes_t); EXPORT const char * jack_port_name (const jack_port_t *port); EXPORT const char * jack_port_short_name (const jack_port_t *port); EXPORT int jack_port_flags (const jack_port_t *port); EXPORT const char * jack_port_type (const jack_port_t *port); EXPORT jack_port_type_id_t jack_port_type_id (const jack_port_t *port); EXPORT int jack_port_is_mine (const jack_client_t *, const jack_port_t *port); EXPORT int jack_port_connected (const jack_port_t *port); EXPORT int jack_port_connected_to (const jack_port_t *port, const char *port_name); EXPORT const char ** jack_port_get_connections (const jack_port_t *port); EXPORT const char ** jack_port_get_all_connections (const jack_client_t *client, const jack_port_t *port); EXPORT int jack_port_tie (jack_port_t *src, jack_port_t *dst); EXPORT int jack_port_untie (jack_port_t *port); EXPORT jack_nframes_t jack_port_get_latency (jack_port_t *port); EXPORT jack_nframes_t jack_port_get_total_latency (jack_client_t *, jack_port_t *port); EXPORT void jack_port_set_latency (jack_port_t *, jack_nframes_t); EXPORT int jack_recompute_total_latency (jack_client_t*, jack_port_t* port); EXPORT int jack_recompute_total_latencies (jack_client_t*); EXPORT int jack_port_set_name (jack_port_t *port, const char *port_name); EXPORT int jack_port_set_alias (jack_port_t *port, const char *alias); EXPORT int jack_port_unset_alias (jack_port_t *port, const char *alias); EXPORT int jack_port_get_aliases (const jack_port_t *port, char* const aliases[2]); EXPORT int jack_port_request_monitor (jack_port_t *port, int onoff); EXPORT int jack_port_request_monitor_by_name (jack_client_t *client, const char *port_name, int onoff); EXPORT int jack_port_ensure_monitor (jack_port_t *port, int onoff); EXPORT int jack_port_monitoring_input (jack_port_t *port); EXPORT int jack_connect (jack_client_t *, const char *source_port, const char *destination_port); EXPORT int jack_disconnect (jack_client_t *, const char *source_port, const char *destination_port); EXPORT int jack_port_disconnect (jack_client_t *, jack_port_t *); EXPORT int jack_port_name_size(void); EXPORT int jack_port_type_size(void); EXPORT jack_nframes_t jack_get_sample_rate (jack_client_t *); EXPORT jack_nframes_t jack_get_buffer_size (jack_client_t *); EXPORT const char ** jack_get_ports (jack_client_t *, const char *port_name_pattern, const char *type_name_pattern, unsigned long flags); EXPORT jack_port_t * jack_port_by_name (jack_client_t *, const char *port_name); EXPORT jack_port_t * jack_port_by_id (jack_client_t *client, jack_port_id_t port_id); EXPORT int jack_engine_takeover_timebase (jack_client_t *); EXPORT jack_nframes_t jack_frames_since_cycle_start (const jack_client_t *); EXPORT jack_time_t jack_get_time(); EXPORT jack_nframes_t jack_time_to_frames(const jack_client_t *client, jack_time_t time); EXPORT jack_time_t jack_frames_to_time(const jack_client_t *client, jack_nframes_t frames); EXPORT jack_nframes_t jack_frame_time (const jack_client_t *); EXPORT jack_nframes_t jack_last_frame_time (const jack_client_t *client); EXPORT float jack_cpu_load (jack_client_t *client); EXPORT pthread_t jack_client_thread_id (jack_client_t *); EXPORT void jack_set_error_function (print_function); EXPORT void jack_set_info_function (print_function); EXPORT float jack_get_max_delayed_usecs (jack_client_t *client); EXPORT float jack_get_xrun_delayed_usecs (jack_client_t *client); EXPORT void jack_reset_max_delayed_usecs (jack_client_t *client); EXPORT int jack_release_timebase (jack_client_t *client); EXPORT int jack_set_sync_callback (jack_client_t *client, JackSyncCallback sync_callback, void *arg); EXPORT int jack_set_sync_timeout (jack_client_t *client, jack_time_t timeout); EXPORT int jack_set_timebase_callback (jack_client_t *client, int conditional, JackTimebaseCallback timebase_callback, void *arg); EXPORT int jack_transport_locate (jack_client_t *client, jack_nframes_t frame); EXPORT jack_transport_state_t jack_transport_query (const jack_client_t *client, jack_position_t *pos); EXPORT jack_nframes_t jack_get_current_transport_frame (const jack_client_t *client); EXPORT int jack_transport_reposition (jack_client_t *client, jack_position_t *pos); EXPORT void jack_transport_start (jack_client_t *client); EXPORT void jack_transport_stop (jack_client_t *client); EXPORT void jack_get_transport_info (jack_client_t *client, jack_transport_info_t *tinfo); EXPORT void jack_set_transport_info (jack_client_t *client, jack_transport_info_t *tinfo); EXPORT int jack_client_real_time_priority (jack_client_t*); EXPORT int jack_client_max_real_time_priority (jack_client_t*); EXPORT int jack_acquire_real_time_scheduling (pthread_t thread, int priority); EXPORT int jack_client_create_thread (jack_client_t* client, pthread_t *thread, int priority, int realtime, // boolean thread_routine routine, void *arg); EXPORT int jack_drop_real_time_scheduling (pthread_t thread); EXPORT int jack_client_stop_thread (jack_client_t* client, pthread_t thread); EXPORT int jack_client_kill_thread (jack_client_t* client, pthread_t thread); #ifndef WIN32 EXPORT void jack_set_thread_creator (jack_thread_creator_t jtc); #endif EXPORT char * jack_get_internal_client_name (jack_client_t *client, jack_intclient_t intclient); EXPORT jack_intclient_t jack_internal_client_handle (jack_client_t *client, const char *client_name, jack_status_t *status); EXPORT jack_intclient_t jack_internal_client_load (jack_client_t *client, const char *client_name, jack_options_t options, jack_status_t *status, ...); EXPORT jack_intclient_t jack_internal_client_load_aux (jack_client_t *client, const char *client_name, jack_options_t options, jack_status_t *status, va_list ap); EXPORT jack_status_t jack_internal_client_unload (jack_client_t *client, jack_intclient_t intclient); EXPORT void jack_free(void* ptr); #ifdef __cplusplus } #endif static inline bool CheckPort(jack_port_id_t port_index) { return (port_index > 0 && port_index < PORT_NUM_MAX); } static inline bool CheckBufferSize(jack_nframes_t buffer_size) { return (buffer_size <= BUFFER_SIZE_MAX); } static inline void WaitGraphChange() { /* TLS key that is set only in RT thread, so never waits for pending graph change in RT context (just read the current graph state). */ if (jack_tls_get(JackGlobals::fRealTime) == NULL) { JackGraphManager* manager = GetGraphManager(); JackEngineControl* control = GetEngineControl(); assert(manager); assert(control); if (manager->IsPendingChange()) { jack_log("WaitGraphChange..."); JackSleep(int(control->fPeriodUsecs * 1.1f)); } } } EXPORT void jack_set_error_function (print_function func) { jack_error_callback = (func == NULL) ? &default_jack_error_callback : func; } EXPORT void jack_set_info_function (print_function func) { jack_info_callback = (func == NULL) ? &default_jack_info_callback : func; } EXPORT jack_client_t* jack_client_new(const char* client_name) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_new"); #endif try { assert(JackGlobals::fOpenMutex); JackGlobals::fOpenMutex->Lock(); jack_error("jack_client_new: deprecated"); int options = JackUseExactName; if (getenv("JACK_START_SERVER") == NULL) options |= JackNoStartServer; jack_client_t* res = jack_client_new_aux(client_name, (jack_options_t)options, NULL); JackGlobals::fOpenMutex->Unlock(); return res; } catch (std::bad_alloc& e) { jack_error("Memory allocation error..."); return NULL; } catch (...) { jack_error("Unknown error..."); return NULL; } } EXPORT void* jack_port_get_buffer(jack_port_t* port, jack_nframes_t frames) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_buffer"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_buffer called with an incorrect port %ld", myport); return NULL; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetBuffer(myport, frames) : NULL); } } EXPORT const char* jack_port_name(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_name"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_name called with an incorrect port %ld", myport); return NULL; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetName() : NULL); } } EXPORT const char* jack_port_short_name(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_short_name"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_short_name called with an incorrect port %ld", myport); return NULL; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetShortName() : NULL); } } EXPORT int jack_port_flags(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_flags"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_flags called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetFlags() : -1); } } EXPORT const char* jack_port_type(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_type"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_flags called an incorrect port %ld", myport); return NULL; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetType() : NULL); } } EXPORT jack_port_type_id_t jack_port_type_id(const jack_port_t *port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_type_id"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_type_id called an incorrect port %ld", myport); return 0; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? GetPortTypeId(manager->GetPort(myport)->GetType()) : 0); } } EXPORT int jack_port_connected(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_connected"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_connected called with an incorrect port %ld", myport); return -1; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetConnectionsNum(myport) : -1); } } EXPORT int jack_port_connected_to(const jack_port_t* port, const char* port_name) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_connected_to"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t src = (jack_port_id_t)port_aux; if (!CheckPort(src)) { jack_error("jack_port_connected_to called with an incorrect port %ld", src); return -1; } else if (port_name == NULL) { jack_error("jack_port_connected_to called with a NULL port name"); return -1; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); jack_port_id_t dst = (manager ? manager->GetPort(port_name) : NO_PORT); if (dst == NO_PORT) { jack_error("Unknown destination port port_name = %s", port_name); return 0; } else { return manager->IsConnected(src, dst); } } } EXPORT int jack_port_tie(jack_port_t* src, jack_port_t* dst) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_tie"); #endif uintptr_t src_aux = (uintptr_t)src; jack_port_id_t mysrc = (jack_port_id_t)src_aux; if (!CheckPort(mysrc)) { jack_error("jack_port_tie called with a NULL src port"); return -1; } uintptr_t dst_aux = (uintptr_t)dst; jack_port_id_t mydst = (jack_port_id_t)dst_aux; if (!CheckPort(mydst)) { jack_error("jack_port_tie called with a NULL dst port"); return -1; } JackGraphManager* manager = GetGraphManager(); if (manager && manager->GetPort(mysrc)->GetRefNum() != manager->GetPort(mydst)->GetRefNum()) { jack_error("jack_port_tie called with ports not belonging to the same client"); return -1; } else { return manager->GetPort(mydst)->Tie(mysrc); } } EXPORT int jack_port_untie(jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_untie"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_untie called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->UnTie() : -1); } } EXPORT jack_nframes_t jack_port_get_latency(jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_latency"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_latency called with an incorrect port %ld", myport); return 0; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetLatency() : 0); } } EXPORT void jack_port_set_latency(jack_port_t* port, jack_nframes_t frames) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_set_latency"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_set_latency called with an incorrect port %ld", myport); } else { JackGraphManager* manager = GetGraphManager(); if (manager) manager->GetPort(myport)->SetLatency(frames); } } EXPORT int jack_recompute_total_latency(jack_client_t* ext_client, jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_recompute_total_latency"); #endif JackClient* client = (JackClient*)ext_client; uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (client == NULL) { jack_error("jack_recompute_total_latencies called with a NULL client"); return -1; } else if (!CheckPort(myport)) { jack_error("jack_recompute_total_latencies called with a NULL port"); return -1; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->ComputeTotalLatency(myport) : -1); } } EXPORT int jack_recompute_total_latencies(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_recompute_total_latencies"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_recompute_total_latencies called with a NULL client"); return -1; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->ComputeTotalLatencies() : -1); } } /* This is unsafe if case of concurrent access, and should be "serialized" doing a server call. */ EXPORT int jack_port_set_name(jack_port_t* port, const char* name) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_set_name"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_set_name called with an incorrect port %ld", myport); return -1; } else if (name == NULL) { jack_error("jack_port_set_name called with a NULL port name"); return -1; } else { JackGraphManager* manager = GetGraphManager(); int refnum; if (manager && ((refnum = manager->GetPort(myport)->GetRefNum()) > 0)) { JackClient* client = JackGlobals::fClientTable[refnum]; assert(client); return client->PortRename(myport, name); } else { return -1; } } } EXPORT int jack_port_set_alias(jack_port_t* port, const char* name) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_set_alias"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_set_alias called with an incorrect port %ld", myport); return -1; } else if (name == NULL) { jack_error("jack_port_set_alias called with a NULL port name"); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->SetAlias(name) : -1); } } EXPORT int jack_port_unset_alias(jack_port_t* port, const char* name) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_unset_alias"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_unset_alias called with an incorrect port %ld", myport); return -1; } else if (name == NULL) { jack_error("jack_port_unset_alias called with a NULL port name"); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->UnsetAlias(name) : -1); } } EXPORT int jack_port_get_aliases(const jack_port_t* port, char* const aliases[2]) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_aliases"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_aliases called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->GetAliases(aliases) : -1); } } EXPORT int jack_port_request_monitor(jack_port_t* port, int onoff) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_request_monitor"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_request_monitor called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->RequestMonitor(myport, onoff) : -1); } } EXPORT int jack_port_request_monitor_by_name(jack_client_t* ext_client, const char* port_name, int onoff) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_request_monitor_by_name"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_request_monitor_by_name called with a NULL client"); return -1; } else { JackGraphManager* manager = GetGraphManager(); if (!manager) return -1; jack_port_id_t myport = manager->GetPort(port_name); if (!CheckPort(myport)) { jack_error("jack_port_request_monitor_by_name called with an incorrect port %s", port_name); return -1; } else { return manager->RequestMonitor(myport, onoff); } } } EXPORT int jack_port_ensure_monitor(jack_port_t* port, int onoff) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_ensure_monitor"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_ensure_monitor called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->EnsureMonitor(onoff) : -1); } } EXPORT int jack_port_monitoring_input(jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_monitoring_input"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_monitoring_input called with an incorrect port %ld", myport); return -1; } else { JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPort(myport)->MonitoringInput() : -1); } } EXPORT int jack_is_realtime(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_is_realtime"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_is_realtime called with a NULL client"); return -1; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fRealTime : -1); } } EXPORT void jack_on_shutdown(jack_client_t* ext_client, JackShutdownCallback callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_on_shutdown"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_on_shutdown called with a NULL client"); } else { client->OnShutdown(callback, arg); } } EXPORT void jack_on_info_shutdown(jack_client_t* ext_client, JackInfoShutdownCallback callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_on_info_shutdown"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_on_info_shutdown called with a NULL client"); } else { client->OnInfoShutdown(callback, arg); } } EXPORT int jack_set_process_callback(jack_client_t* ext_client, JackProcessCallback callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_process_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_process_callback called with a NULL client"); return -1; } else { return client->SetProcessCallback(callback, arg); } } EXPORT jack_nframes_t jack_thread_wait(jack_client_t* ext_client, int status) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_thread_wait"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_thread_wait called with a NULL client"); return 0; } else { jack_error("jack_thread_wait: deprecated, use jack_cycle_wait/jack_cycle_signal"); return 0; } } EXPORT jack_nframes_t jack_cycle_wait(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_cycle_wait"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_cycle_wait called with a NULL client"); return 0; } else { return client->CycleWait(); } } EXPORT void jack_cycle_signal(jack_client_t* ext_client, int status) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_cycle_signal"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_cycle_signal called with a NULL client"); } else { client->CycleSignal(status); } } EXPORT int jack_set_process_thread(jack_client_t* ext_client, JackThreadCallback fun, void *arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_process_thread"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_process_thread called with a NULL client"); return -1; } else { return client->SetProcessThread(fun, arg); } } EXPORT int jack_set_freewheel_callback(jack_client_t* ext_client, JackFreewheelCallback freewheel_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_freewheel_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_freewheel_callback called with a NULL client"); return -1; } else { return client->SetFreewheelCallback(freewheel_callback, arg); } } EXPORT int jack_set_freewheel(jack_client_t* ext_client, int onoff) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_freewheel"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_freewheel called with a NULL client"); return -1; } else { return client->SetFreeWheel(onoff); } } EXPORT int jack_set_buffer_size(jack_client_t* ext_client, jack_nframes_t buffer_size) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_buffer_size"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_buffer_size called with a NULL client"); return -1; } else if (!CheckBufferSize(buffer_size)) { return -1; } else { return client->SetBufferSize(buffer_size); } } EXPORT int jack_set_buffer_size_callback(jack_client_t* ext_client, JackBufferSizeCallback bufsize_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_buffer_size_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_buffer_size_callback called with a NULL client"); return -1; } else { return client->SetBufferSizeCallback(bufsize_callback, arg); } } EXPORT int jack_set_sample_rate_callback(jack_client_t* ext_client, JackSampleRateCallback srate_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_sample_rate_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_sample_rate_callback called with a NULL client"); return -1; } else { return client->SetSampleRateCallback(srate_callback, arg); } } EXPORT int jack_set_client_registration_callback(jack_client_t* ext_client, JackClientRegistrationCallback registration_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_client_registration_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_client_registration_callback called with a NULL client"); return -1; } else { return client->SetClientRegistrationCallback(registration_callback, arg); } } EXPORT int jack_set_port_registration_callback(jack_client_t* ext_client, JackPortRegistrationCallback registration_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_port_registration_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_port_registration_callback called with a NULL client"); return -1; } else { return client->SetPortRegistrationCallback(registration_callback, arg); } } EXPORT int jack_set_port_connect_callback(jack_client_t* ext_client, JackPortConnectCallback portconnect_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_port_connect_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_port_connect_callback called with a NULL client"); return -1; } else { return client->SetPortConnectCallback(portconnect_callback, arg); } } EXPORT int jack_set_port_rename_callback(jack_client_t* ext_client, JackPortRenameCallback rename_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_port_rename_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_port_rename_callback called with a NULL client"); return -1; } else { return client->SetPortRenameCallback(rename_callback, arg); } } EXPORT int jack_set_graph_order_callback(jack_client_t* ext_client, JackGraphOrderCallback graph_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_graph_order_callback"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_set_graph_order_callback ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_set_graph_order_callback called with a NULL client"); return -1; } else { return client->SetGraphOrderCallback(graph_callback, arg); } } EXPORT int jack_set_xrun_callback(jack_client_t* ext_client, JackXRunCallback xrun_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_xrun_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_xrun_callback called with a NULL client"); return -1; } else { return client->SetXRunCallback(xrun_callback, arg); } } EXPORT int jack_set_thread_init_callback(jack_client_t* ext_client, JackThreadInitCallback init_callback, void *arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_thread_init_callback"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_set_thread_init_callback ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_set_thread_init_callback called with a NULL client"); return -1; } else { return client->SetInitCallback(init_callback, arg); } } EXPORT int jack_activate(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_activate"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_activate called with a NULL client"); return -1; } else { return client->Activate(); } } EXPORT int jack_deactivate(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_deactivate"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_deactivate called with a NULL client"); return -1; } else { return client->Deactivate(); } } EXPORT jack_port_t* jack_port_register(jack_client_t* ext_client, const char* port_name, const char* port_type, unsigned long flags, unsigned long buffer_size) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_register"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_register called with a NULL client"); return NULL; } else if ((port_name == NULL) || (port_type == NULL)) { jack_error("jack_port_register called with a NULL port name or a NULL port_type"); return NULL; } else { return (jack_port_t *)((uintptr_t)client->PortRegister(port_name, port_type, flags, buffer_size)); } } EXPORT int jack_port_unregister(jack_client_t* ext_client, jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_unregister"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_unregister called with a NULL client"); return -1; } uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_unregister called with an incorrect port %ld", myport); return -1; } return client->PortUnRegister(myport); } EXPORT int jack_port_is_mine(const jack_client_t* ext_client, const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_is_mine"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_is_mine called with a NULL client"); return -1; } uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_is_mine called with an incorrect port %ld", myport); return -1; } return client->PortIsMine(myport); } EXPORT const char** jack_port_get_connections(const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_connections"); #endif uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_connections called with an incorrect port %ld", myport); return NULL; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetConnections(myport) : NULL); } } // Calling client does not need to "own" the port EXPORT const char** jack_port_get_all_connections(const jack_client_t* ext_client, const jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_all_connections"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_get_all_connections called with a NULL client"); return NULL; } uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_all_connections called with an incorrect port %ld", myport); return NULL; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetConnections(myport) : NULL); } } EXPORT jack_nframes_t jack_port_get_total_latency(jack_client_t* ext_client, jack_port_t* port) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_get_total_latency"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_get_total_latency called with a NULL client"); return 0; } uintptr_t port_aux = (uintptr_t)port; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_get_total_latency called with an incorrect port %ld", myport); return 0; } else { WaitGraphChange(); JackGraphManager* manager = GetGraphManager(); if (manager) { manager->ComputeTotalLatency(myport); return manager->GetPort(myport)->GetTotalLatency(); } else { return 0; } } } EXPORT int jack_connect(jack_client_t* ext_client, const char* src, const char* dst) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_connect"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_connect called with a NULL client"); return -1; } else if ((src == NULL) || (dst == NULL)) { jack_error("jack_connect called with a NULL port name"); return -1; } else { return client->PortConnect(src, dst); } } EXPORT int jack_disconnect(jack_client_t* ext_client, const char* src, const char* dst) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_disconnect"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_disconnect called with a NULL client"); return -1; } else if ((src == NULL) || (dst == NULL)) { jack_error("jack_connect called with a NULL port name"); return -1; } else { return client->PortDisconnect(src, dst); } } EXPORT int jack_port_disconnect(jack_client_t* ext_client, jack_port_t* src) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_disconnect"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_port_disconnect called with a NULL client"); return -1; } uintptr_t port_aux = (uintptr_t)src; jack_port_id_t myport = (jack_port_id_t)port_aux; if (!CheckPort(myport)) { jack_error("jack_port_disconnect called with an incorrect port %ld", myport); return -1; } return client->PortDisconnect(myport); } EXPORT jack_nframes_t jack_get_sample_rate(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_sample_rate"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_sample_rate called with a NULL client"); return 0; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fSampleRate : 0); } } EXPORT jack_nframes_t jack_get_buffer_size(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_buffer_size"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_buffer_size called with a NULL client"); return 0; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fBufferSize : 0); } } EXPORT const char** jack_get_ports(jack_client_t* ext_client, const char* port_name_pattern, const char* type_name_pattern, unsigned long flags) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_ports"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_ports called with a NULL client"); return NULL; } JackGraphManager* manager = GetGraphManager(); return (manager ? manager->GetPorts(port_name_pattern, type_name_pattern, flags) : NULL); } EXPORT jack_port_t* jack_port_by_name(jack_client_t* ext_client, const char* portname) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_by_name"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_ports called with a NULL client"); return 0; } if (portname == NULL) { jack_error("jack_port_by_name called with a NULL port name"); return NULL; } else { JackGraphManager* manager = GetGraphManager(); if (!manager) return NULL; int res = manager->GetPort(portname); // returns a port index at least > 1 return (res == NO_PORT) ? NULL : (jack_port_t*)((uintptr_t)res); } } EXPORT jack_port_t* jack_port_by_id(jack_client_t* ext_client, jack_port_id_t id) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_port_by_id"); #endif /* jack_port_t* type is actually the port index */ return (jack_port_t*)((uintptr_t)id); } EXPORT int jack_engine_takeover_timebase(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_engine_takeover_timebase"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_engine_takeover_timebase called with a NULL client"); return -1; } else { jack_error("jack_engine_takeover_timebase: deprecated\n"); return 0; } } EXPORT jack_nframes_t jack_frames_since_cycle_start(const jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_frames_since_cycle_start"); #endif JackTimer timer; JackEngineControl* control = GetEngineControl(); if (control) { control->ReadFrameTime(&timer); return timer.FramesSinceCycleStart(GetMicroSeconds(), control->fSampleRate); } else { return 0; } } EXPORT jack_time_t jack_get_time() { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_time"); #endif return GetMicroSeconds(); } EXPORT jack_time_t jack_frames_to_time(const jack_client_t* ext_client, jack_nframes_t frames) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_frames_to_time"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_frames_to_time called with a NULL client"); return 0; } else { JackTimer timer; JackEngineControl* control = GetEngineControl(); if (control) { control->ReadFrameTime(&timer); return timer.Frames2Time(frames, control->fBufferSize); } else { return 0; } } } EXPORT jack_nframes_t jack_time_to_frames(const jack_client_t* ext_client, jack_time_t time) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_time_to_frames"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_time_to_frames called with a NULL client"); return 0; } else { JackTimer timer; JackEngineControl* control = GetEngineControl(); if (control) { control->ReadFrameTime(&timer); return timer.Time2Frames(time, control->fBufferSize); } else { return 0; } } } EXPORT jack_nframes_t jack_frame_time(const jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_frame_time"); #endif return jack_time_to_frames(ext_client, GetMicroSeconds()); } EXPORT jack_nframes_t jack_last_frame_time(const jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_last_frame_time"); #endif JackEngineControl* control = GetEngineControl(); return (control) ? control->fFrameTimer.ReadCurrentState()->CurFrame() : 0; } EXPORT float jack_cpu_load(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_cpu_load"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_cpu_load called with a NULL client"); return 0.0f; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fCPULoad : 0.0f); } } EXPORT pthread_t jack_client_thread_id(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_thread_id"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_client_thread_id called with a NULL client"); return (pthread_t)NULL; } else { return client->GetThreadID(); } } EXPORT char* jack_get_client_name(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_client_name"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_client_name called with a NULL client"); return NULL; } else { return client->GetClientControl()->fName; } } EXPORT int jack_client_name_size(void) { return JACK_CLIENT_NAME_SIZE; } EXPORT int jack_port_name_size(void) { return JACK_PORT_NAME_SIZE; } EXPORT int jack_port_type_size(void) { return JACK_PORT_TYPE_SIZE; } // transport.h EXPORT int jack_release_timebase(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_release_timebase"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_release_timebase called with a NULL client"); return -1; } else { return client->ReleaseTimebase(); } } EXPORT int jack_set_sync_callback(jack_client_t* ext_client, JackSyncCallback sync_callback, void *arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_sync_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_sync_callback called with a NULL client"); return -1; } else { return client->SetSyncCallback(sync_callback, arg); } } EXPORT int jack_set_sync_timeout(jack_client_t* ext_client, jack_time_t timeout) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_sync_timeout"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_sync_timeout called with a NULL client"); return -1; } else { return client->SetSyncTimeout(timeout); } } EXPORT int jack_set_timebase_callback(jack_client_t* ext_client, int conditional, JackTimebaseCallback timebase_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_timebase_callback"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_set_timebase_callback called with a NULL client"); return -1; } else { return client->SetTimebaseCallback(conditional, timebase_callback, arg); } } EXPORT int jack_transport_locate(jack_client_t* ext_client, jack_nframes_t frame) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_transport_locate"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_transport_locate called with a NULL client"); return -1; } else { client->TransportLocate(frame); return 0; } } EXPORT jack_transport_state_t jack_transport_query(const jack_client_t* ext_client, jack_position_t* pos) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_transport_query"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_transport_query called with a NULL client"); return JackTransportStopped; } else { return client->TransportQuery(pos); } } EXPORT jack_nframes_t jack_get_current_transport_frame(const jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_current_transport_frame"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_current_transport_frame called with a NULL client"); return 0; } else { return client->GetCurrentTransportFrame(); } } EXPORT int jack_transport_reposition(jack_client_t* ext_client, jack_position_t* pos) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_transport_reposition"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_transport_reposition called with a NULL client"); return -1; } else { client->TransportReposition(pos); return 0; } } EXPORT void jack_transport_start(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_transport_start"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_transport_start called with a NULL client"); } else { client->TransportStart(); } } EXPORT void jack_transport_stop(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_transport_stop"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_transport_stop called with a NULL client"); } else { client->TransportStop(); } } // deprecated EXPORT void jack_get_transport_info(jack_client_t* ext_client, jack_transport_info_t* tinfo) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_transport_info"); #endif jack_error("jack_get_transport_info: deprecated"); if (tinfo) memset(tinfo, 0, sizeof(jack_transport_info_t)); } EXPORT void jack_set_transport_info(jack_client_t* ext_client, jack_transport_info_t* tinfo) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_transport_info"); #endif jack_error("jack_set_transport_info: deprecated"); if (tinfo) memset(tinfo, 0, sizeof(jack_transport_info_t)); } // statistics.h EXPORT float jack_get_max_delayed_usecs(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_max_delayed_usecs"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_max_delayed_usecs called with a NULL client"); return 0.f; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fMaxDelayedUsecs : 0.f); } } EXPORT float jack_get_xrun_delayed_usecs(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_xrun_delayed_usecs"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_xrun_delayed_usecs called with a NULL client"); return 0.f; } else { JackEngineControl* control = GetEngineControl(); return (control ? control->fXrunDelayedUsecs : 0.f); } } EXPORT void jack_reset_max_delayed_usecs(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_reset_max_delayed_usecs"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_reset_max_delayed_usecs called with a NULL client"); } else { JackEngineControl* control = GetEngineControl(); control->ResetXRun(); } } // thread.h EXPORT int jack_client_real_time_priority(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_real_time_priority"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_client_real_time_priority called with a NULL client"); return -1; } else { JackEngineControl* control = GetEngineControl(); return (control->fRealTime) ? control->fClientPriority : -1; } } EXPORT int jack_client_max_real_time_priority(jack_client_t* ext_client) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_max_real_time_priority"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_client_max_real_time_priority called with a NULL client"); return -1; } else { JackEngineControl* control = GetEngineControl(); return (control->fRealTime) ? control->fMaxClientPriority : -1; } } EXPORT int jack_acquire_real_time_scheduling(pthread_t thread, int priority) { JackEngineControl* control = GetEngineControl(); return (control ? JackThread::AcquireRealTimeImp(thread, priority, GetEngineControl()->fPeriod, GetEngineControl()->fComputation, GetEngineControl()->fConstraint) : -1); } EXPORT int jack_client_create_thread(jack_client_t* client, pthread_t *thread, int priority, int realtime, /* boolean */ thread_routine routine, void *arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_create_thread"); #endif return JackThread::StartImp(thread, priority, realtime, routine, arg); } EXPORT int jack_drop_real_time_scheduling(pthread_t thread) { return JackThread::DropRealTimeImp(thread); } EXPORT int jack_client_stop_thread(jack_client_t* client, pthread_t thread) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_stop_thread"); #endif return JackThread::StopImp(thread); } EXPORT int jack_client_kill_thread(jack_client_t* client, pthread_t thread) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_client_kill_thread"); #endif return JackThread::KillImp(thread); } #ifndef WIN32 EXPORT void jack_set_thread_creator (jack_thread_creator_t jtc) { JackGlobals::fJackThreadCreator = (jtc == NULL) ? pthread_create : jtc; } #endif // intclient.h EXPORT int jack_internal_client_new (const char *client_name, const char *load_name, const char *load_init) { jack_error("jack_internal_client_new: deprecated"); return -1; } EXPORT void jack_internal_client_close (const char *client_name) { jack_error("jack_internal_client_close: deprecated"); } EXPORT char* jack_get_internal_client_name(jack_client_t* ext_client, jack_intclient_t intclient) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_internal_client_name"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_get_internal_client_name called with a NULL client"); return NULL; } else if (intclient >= CLIENT_NUM) { jack_error("jack_get_internal_client_name: incorrect client"); return NULL; } else { return client->GetInternalClientName(intclient); } } EXPORT jack_intclient_t jack_internal_client_handle(jack_client_t* ext_client, const char* client_name, jack_status_t* status) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_internal_client_handle"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_internal_client_handle called with a NULL client"); return 0; } else { jack_status_t my_status; if (status == NULL) /* no status from caller? */ status = &my_status; /* use local status word */ *status = (jack_status_t)0; return client->InternalClientHandle(client_name, status); } } EXPORT jack_intclient_t jack_internal_client_load_aux(jack_client_t* ext_client, const char* client_name, jack_options_t options, jack_status_t* status, va_list ap) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_internal_client_load_aux"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_internal_client_load called with a NULL client"); return 0; } else { jack_varargs_t va; jack_status_t my_status; if (status == NULL) /* no status from caller? */ status = &my_status; /* use local status word */ *status = (jack_status_t)0; /* validate parameters */ if ((options & ~JackLoadOptions)) { int my_status1 = *status | (JackFailure | JackInvalidOption); *status = (jack_status_t)my_status1; return 0; } /* parse variable arguments */ jack_varargs_parse(options, ap, &va); return client->InternalClientLoad(client_name, options, status, &va); } } EXPORT jack_intclient_t jack_internal_client_load(jack_client_t *client, const char *client_name, jack_options_t options, jack_status_t *status, ...) { va_list ap; va_start(ap, status); jack_intclient_t res = jack_internal_client_load_aux(client, client_name, options, status, ap); va_end(ap); return res; } EXPORT jack_status_t jack_internal_client_unload(jack_client_t* ext_client, jack_intclient_t intclient) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_internal_client_load"); #endif JackClient* client = (JackClient*)ext_client; if (client == NULL) { jack_error("jack_internal_client_unload called with a NULL client"); return (jack_status_t)(JackNoSuchClient | JackFailure); } else if (intclient >= CLIENT_NUM) { jack_error("jack_internal_client_unload: incorrect client"); return (jack_status_t)(JackNoSuchClient | JackFailure); } else { jack_status_t my_status; client->InternalClientUnload(intclient, &my_status); return my_status; } } EXPORT void jack_get_version( int *major_ptr, int *minor_ptr, int *micro_ptr, int *proto_ptr) { // FIXME: We need these comming from build system *major_ptr = 0; *minor_ptr = 0; *micro_ptr = 0; *proto_ptr = 0; } EXPORT const char * jack_get_version_string() { return VERSION; } EXPORT void jack_free(void* ptr) { if (ptr) { free(ptr); } } // session.h EXPORT int jack_set_session_callback(jack_client_t* ext_client, JackSessionCallback session_callback, void* arg) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_set_session_callback"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_set_session_callback ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_set_session_callback called with a NULL client"); return -1; } else { return client->SetSessionCallback(session_callback, arg); } } EXPORT jack_session_command_t *jack_session_notify(jack_client_t* ext_client, const char* target, jack_session_event_type_t ev_type, const char *path) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_session_notify"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_session_notify ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_session_notify called with a NULL client"); return NULL; } else { return client->SessionNotify(target, ev_type, path); } } EXPORT int jack_session_reply(jack_client_t *ext_client, jack_session_event_t *event) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_session_reply"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_session_reply ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_session_reply called with a NULL client"); return -1; } else { return client->SessionReply(event); } } EXPORT void jack_session_event_free(jack_session_event_t* ev) { if (ev) { if (ev->session_dir) free((void *)ev->session_dir); if (ev->client_uuid) free((void *)ev->client_uuid); if (ev->command_line) free(ev->command_line); free(ev); } } EXPORT char *jack_get_uuid_for_client_name( jack_client_t *ext_client, const char *client_name ) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_uuid_for_client_name"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_get_uuid_for_client_name ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_get_uuid_for_client_name called with a NULL client"); return NULL; } else { return client->GetUUIDForClientName(client_name); } } EXPORT char *jack_get_client_name_by_uuid( jack_client_t *ext_client, const char *client_uuid ) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_get_client_name_by_uuid"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_get_uuid_for_client_name ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_get_client_name_by_uuid called with a NULL client"); return NULL; } else { return client->GetClientNameForUUID(client_uuid); } } EXPORT int jack_reserve_client_name( jack_client_t *ext_client, const char *name, const char *uuid ) { #ifdef __CLIENTDEBUG__ JackGlobals::CheckContext("jack_reserve_client_name"); #endif JackClient* client = (JackClient*)ext_client; jack_log("jack_reserve_client_name ext_client %x client %x ", ext_client, client); if (client == NULL) { jack_error("jack_reserve_client_name called with a NULL client"); return -1; } else { return client->ReserveClientName(name, uuid); } } EXPORT void jack_session_commands_free( jack_session_command_t *cmds ) { if (!cmds) return; int i=0; while(1) { if (cmds[i].client_name) free ((char *)cmds[i].client_name); if (cmds[i].command) free ((char *)cmds[i].command); if (cmds[i].uuid) free ((char *)cmds[i].uuid); else break; i += 1; } free(cmds); }