/* Copyright 2007-2016 David Robillard Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THIS SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #define _POSIX_C_SOURCE 200809L /* for mkdtemp */ #define _DARWIN_C_SOURCE /* for mkdtemp on OSX */ #include #include #include #include #include #include #include #include #ifndef __cplusplus # include #endif #ifdef _WIN32 # include /* for _mktemp */ # define snprintf _snprintf #else # include #endif #include "jalv_config.h" #include "jalv_internal.h" #include "lv2/lv2plug.in/ns/ext/atom/atom.h" #include "lv2/lv2plug.in/ns/ext/buf-size/buf-size.h" #include "lv2/lv2plug.in/ns/ext/data-access/data-access.h" #include "lv2/lv2plug.in/ns/ext/event/event.h" #include "lv2/lv2plug.in/ns/ext/options/options.h" #include "lv2/lv2plug.in/ns/ext/parameters/parameters.h" #include "lv2/lv2plug.in/ns/ext/patch/patch.h" #include "lv2/lv2plug.in/ns/ext/port-groups/port-groups.h" #include "lv2/lv2plug.in/ns/ext/port-props/port-props.h" #include "lv2/lv2plug.in/ns/ext/presets/presets.h" #include "lv2/lv2plug.in/ns/ext/state/state.h" #include "lv2/lv2plug.in/ns/ext/time/time.h" #include "lv2/lv2plug.in/ns/ext/uri-map/uri-map.h" #include "lv2/lv2plug.in/ns/ext/urid/urid.h" #include "lv2/lv2plug.in/ns/ext/worker/worker.h" #include "lv2/lv2plug.in/ns/extensions/ui/ui.h" #include "lilv/lilv.h" #include "suil/suil.h" #include "lv2_evbuf.h" #include "worker.h" #define NS_RDF "http://www.w3.org/1999/02/22-rdf-syntax-ns#" #define NS_XSD "http://www.w3.org/2001/XMLSchema#" #ifndef MIN # define MIN(a, b) (((a) < (b)) ? (a) : (b)) #endif #ifndef MAX # define MAX(a, b) (((a) > (b)) ? (a) : (b)) #endif /* Size factor for UI ring buffers. The ring size is a few times the size of an event output to give the UI a chance to keep up. Experiments with Ingen, which can highly saturate its event output, led me to this value. It really ought to be enough for anybody(TM). */ #define N_BUFFER_CYCLES 16 ZixSem exit_sem; /**< Exit semaphore */ static LV2_URID map_uri(LV2_URID_Map_Handle handle, const char* uri) { Jalv* jalv = (Jalv*)handle; zix_sem_wait(&jalv->symap_lock); const LV2_URID id = symap_map(jalv->symap, uri); zix_sem_post(&jalv->symap_lock); return id; } static const char* unmap_uri(LV2_URID_Unmap_Handle handle, LV2_URID urid) { Jalv* jalv = (Jalv*)handle; zix_sem_wait(&jalv->symap_lock); const char* uri = symap_unmap(jalv->symap, urid); zix_sem_post(&jalv->symap_lock); return uri; } /** Map function for URI map extension. */ static uint32_t uri_to_id(LV2_URI_Map_Callback_Data callback_data, const char* map, const char* uri) { Jalv* jalv = (Jalv*)callback_data; zix_sem_wait(&jalv->symap_lock); const LV2_URID id = symap_map(jalv->symap, uri); zix_sem_post(&jalv->symap_lock); return id; } #define NS_EXT "http://lv2plug.in/ns/ext/" static LV2_URI_Map_Feature uri_map = { NULL, &uri_to_id }; static LV2_Extension_Data_Feature ext_data = { NULL }; LV2_Feature uri_map_feature = { NS_EXT "uri-map", NULL }; LV2_Feature map_feature = { LV2_URID__map, NULL }; LV2_Feature unmap_feature = { LV2_URID__unmap, NULL }; LV2_Feature make_path_feature = { LV2_STATE__makePath, NULL }; LV2_Feature sched_feature = { LV2_WORKER__schedule, NULL }; LV2_Feature state_sched_feature = { LV2_WORKER__schedule, NULL }; LV2_Feature safe_restore_feature = { LV2_STATE__threadSafeRestore, NULL }; LV2_Feature log_feature = { LV2_LOG__log, NULL }; LV2_Feature options_feature = { LV2_OPTIONS__options, NULL }; LV2_Feature def_state_feature = { LV2_STATE__loadDefaultState, NULL }; /** These features have no data */ static LV2_Feature buf_size_features[3] = { { LV2_BUF_SIZE__powerOf2BlockLength, NULL }, { LV2_BUF_SIZE__fixedBlockLength, NULL }, { LV2_BUF_SIZE__boundedBlockLength, NULL } }; const LV2_Feature* features[12] = { &uri_map_feature, &map_feature, &unmap_feature, &sched_feature, &log_feature, &options_feature, &def_state_feature, &safe_restore_feature, &buf_size_features[0], &buf_size_features[1], &buf_size_features[2], NULL }; /** Return true iff Jalv supports the given feature. */ static bool feature_is_supported(const char* uri) { if (!strcmp(uri, "http://lv2plug.in/ns/lv2core#isLive")) { return true; } for (const LV2_Feature*const* f = features; *f; ++f) { if (!strcmp(uri, (*f)->URI)) { return true; } } return false; } /** Abort and exit on error */ static void die(const char* msg) { fprintf(stderr, "%s\n", msg); exit(EXIT_FAILURE); } /** Create a port structure from data description. This is called before plugin and Jack instantiation. The remaining instance-specific setup (e.g. buffers) is done later in activate_port(). */ static void create_port(Jalv* jalv, uint32_t port_index, float default_value) { struct Port* const port = &jalv->ports[port_index]; port->lilv_port = lilv_plugin_get_port_by_index(jalv->plugin, port_index); port->sys_port = NULL; port->evbuf = NULL; port->buf_size = 0; port->index = port_index; port->control = 0.0f; port->flow = FLOW_UNKNOWN; const bool optional = lilv_port_has_property( jalv->plugin, port->lilv_port, jalv->nodes.lv2_connectionOptional); /* Set the port flow (input or output) */ if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.lv2_InputPort)) { port->flow = FLOW_INPUT; } else if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.lv2_OutputPort)) { port->flow = FLOW_OUTPUT; } else if (!optional) { die("Mandatory port has unknown type (neither input nor output)"); } /* Set control values */ if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.lv2_ControlPort)) { port->type = TYPE_CONTROL; port->control = isnan(default_value) ? 0.0f : default_value; if (jalv->opts.show_hidden || !lilv_port_has_property(jalv->plugin, port->lilv_port, jalv->nodes.pprops_notOnGUI)) { add_control(&jalv->controls, new_port_control(jalv, port->index)); } } else if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.lv2_AudioPort)) { port->type = TYPE_AUDIO; #ifdef HAVE_JACK_METADATA } else if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.lv2_CVPort)) { port->type = TYPE_CV; #endif } else if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.ev_EventPort)) { port->type = TYPE_EVENT; port->old_api = true; } else if (lilv_port_is_a(jalv->plugin, port->lilv_port, jalv->nodes.atom_AtomPort)) { port->type = TYPE_EVENT; port->old_api = false; } else if (!optional) { die("Mandatory port has unknown data type"); } LilvNode* min_size = lilv_port_get( jalv->plugin, port->lilv_port, jalv->nodes.rsz_minimumSize); if (min_size && lilv_node_is_int(min_size)) { port->buf_size = lilv_node_as_int(min_size); jalv->opts.buffer_size = MAX( jalv->opts.buffer_size, port->buf_size * N_BUFFER_CYCLES); } lilv_node_free(min_size); /* Update longest symbol for aligned console printing */ const LilvNode* sym = lilv_port_get_symbol(jalv->plugin, port->lilv_port); const size_t len = strlen(lilv_node_as_string(sym)); if (len > jalv->longest_sym) { jalv->longest_sym = len; } } /** Create port structures from data (via create_port()) for all ports. */ void jalv_create_ports(Jalv* jalv) { jalv->num_ports = lilv_plugin_get_num_ports(jalv->plugin); jalv->ports = (struct Port*)calloc(jalv->num_ports, sizeof(struct Port)); float* default_values = (float*)calloc( lilv_plugin_get_num_ports(jalv->plugin), sizeof(float)); lilv_plugin_get_port_ranges_float(jalv->plugin, NULL, NULL, default_values); for (uint32_t i = 0; i < jalv->num_ports; ++i) { create_port(jalv, i, default_values[i]); } const LilvPort* control_input = lilv_plugin_get_port_by_designation( jalv->plugin, jalv->nodes.lv2_InputPort, jalv->nodes.lv2_control); if (control_input) { jalv->control_in = lilv_port_get_index(jalv->plugin, control_input); } free(default_values); } /** Allocate port buffers (only necessary for MIDI). */ void jalv_allocate_port_buffers(Jalv* jalv) { for (uint32_t i = 0; i < jalv->num_ports; ++i) { struct Port* const port = &jalv->ports[i]; switch (port->type) { case TYPE_EVENT: { lv2_evbuf_free(port->evbuf); const size_t buf_size = (port->buf_size > 0) ? port->buf_size : jalv->midi_buf_size; port->evbuf = lv2_evbuf_new( buf_size, port->old_api ? LV2_EVBUF_EVENT : LV2_EVBUF_ATOM, jalv->map.map(jalv->map.handle, lilv_node_as_string(jalv->nodes.atom_Chunk)), jalv->map.map(jalv->map.handle, lilv_node_as_string(jalv->nodes.atom_Sequence))); lilv_instance_connect_port( jalv->instance, i, lv2_evbuf_get_buffer(port->evbuf)); } default: break; } } } /** Get a port structure by symbol. TODO: Build an index to make this faster, currently O(n) which may be a problem when restoring the state of plugins with many ports. */ struct Port* jalv_port_by_symbol(Jalv* jalv, const char* sym) { for (uint32_t i = 0; i < jalv->num_ports; ++i) { struct Port* const port = &jalv->ports[i]; const LilvNode* port_sym = lilv_port_get_symbol(jalv->plugin, port->lilv_port); if (!strcmp(lilv_node_as_string(port_sym), sym)) { return port; } } return NULL; } ControlID* jalv_control_by_symbol(Jalv* jalv, const char* sym) { for (size_t i = 0; i < jalv->controls.n_controls; ++i) { if (!strcmp(lilv_node_as_string(jalv->controls.controls[i]->symbol), sym)) { return jalv->controls.controls[i]; } } return NULL; } static void print_control_value(Jalv* jalv, const struct Port* port, float value) { const LilvNode* sym = lilv_port_get_symbol(jalv->plugin, port->lilv_port); printf("%-*s = %f\n", jalv->longest_sym, lilv_node_as_string(sym), value); } void jalv_create_controls(Jalv* jalv, bool writable) { const LilvPlugin* plugin = jalv->plugin; LilvWorld* world = jalv->world; LilvNode* patch_writable = lilv_new_uri(world, LV2_PATCH__writable); LilvNode* patch_readable = lilv_new_uri(world, LV2_PATCH__readable); LilvNodes* properties = lilv_world_find_nodes( world, lilv_plugin_get_uri(plugin), writable ? patch_writable : patch_readable, NULL); LILV_FOREACH(nodes, p, properties) { const LilvNode* property = lilv_nodes_get(properties, p); ControlID* record = NULL; if (!writable && lilv_world_ask(world, lilv_plugin_get_uri(plugin), patch_writable, property)) { // Find existing writable control for (size_t i = 0; i < jalv->controls.n_controls; ++i) { if (lilv_node_equals(jalv->controls.controls[i]->node, property)) { record = jalv->controls.controls[i]; record->is_readable = true; break; } } if (record) { continue; } } record = new_property_control(jalv, property); if (writable) { record->is_writable = true; } else { record->is_readable = true; } if (record->value_type) { add_control(&jalv->controls, record); } else { fprintf(stderr, "Parameter <%s> has unknown value type, ignored\n", lilv_node_as_string(record->node)); free(record); } } lilv_nodes_free(properties); lilv_node_free(patch_readable); lilv_node_free(patch_writable); } void jalv_set_control(const ControlID* control, uint32_t size, LV2_URID type, const void* body) { Jalv* jalv = control->jalv; if (control->type == PORT && type == jalv->forge.Float) { struct Port* port = &control->jalv->ports[control->index]; port->control = *(float*)body; } else if (control->type == PROPERTY) { // Copy forge since it is used by process thread LV2_Atom_Forge forge = jalv->forge; LV2_Atom_Forge_Frame frame; uint8_t buf[1024]; lv2_atom_forge_set_buffer(&forge, buf, sizeof(buf)); lv2_atom_forge_object(&forge, &frame, 0, jalv->urids.patch_Set); lv2_atom_forge_key(&forge, jalv->urids.patch_property); lv2_atom_forge_urid(&forge, control->property); lv2_atom_forge_key(&forge, jalv->urids.patch_value); lv2_atom_forge_atom(&forge, size, type); lv2_atom_forge_write(&forge, body, size); const LV2_Atom* atom = lv2_atom_forge_deref(&forge, frame.ref); jalv_ui_write(jalv, jalv->control_in, lv2_atom_total_size(atom), jalv->urids.atom_eventTransfer, atom); } } void jalv_ui_instantiate(Jalv* jalv, const char* native_ui_type, void* parent) { jalv->ui_host = suil_host_new(jalv_ui_write, jalv_ui_port_index, NULL, NULL); const LV2_Feature parent_feature = { LV2_UI__parent, parent }; const LV2_Feature instance_feature = { NS_EXT "instance-access", lilv_instance_get_handle(jalv->instance) }; const LV2_Feature data_feature = { LV2_DATA_ACCESS_URI, &ext_data }; const LV2_Feature idle_feature = { LV2_UI__idleInterface, NULL }; const LV2_Feature* ui_features[] = { &uri_map_feature, &map_feature, &unmap_feature, &instance_feature, &data_feature, &log_feature, &parent_feature, &options_feature, &idle_feature, NULL }; const char* bundle_uri = lilv_node_as_uri(lilv_ui_get_bundle_uri(jalv->ui)); const char* binary_uri = lilv_node_as_uri(lilv_ui_get_binary_uri(jalv->ui)); char* bundle_path = lilv_file_uri_parse(bundle_uri, NULL); char* binary_path = lilv_file_uri_parse(binary_uri, NULL); jalv->ui_instance = suil_instance_new( jalv->ui_host, jalv, native_ui_type, lilv_node_as_uri(lilv_plugin_get_uri(jalv->plugin)), lilv_node_as_uri(lilv_ui_get_uri(jalv->ui)), lilv_node_as_uri(jalv->ui_type), bundle_path, binary_path, ui_features); lilv_free(binary_path); lilv_free(bundle_path); } bool jalv_ui_is_resizable(Jalv* jalv) { if (!jalv->ui) { return false; } const LilvNode* s = lilv_ui_get_uri(jalv->ui); LilvNode* p = lilv_new_uri(jalv->world, LV2_CORE__optionalFeature); LilvNode* fs = lilv_new_uri(jalv->world, LV2_UI__fixedSize); LilvNode* nrs = lilv_new_uri(jalv->world, LV2_UI__noUserResize); LilvNodes* fs_matches = lilv_world_find_nodes(jalv->world, s, p, fs); LilvNodes* nrs_matches = lilv_world_find_nodes(jalv->world, s, p, nrs); lilv_nodes_free(nrs_matches); lilv_nodes_free(fs_matches); lilv_node_free(nrs); lilv_node_free(fs); lilv_node_free(p); return !fs_matches && !nrs_matches; } void jalv_ui_write(void* const jalv_handle, uint32_t port_index, uint32_t buffer_size, uint32_t protocol, const void* buffer) { Jalv* const jalv = (Jalv*)jalv_handle; if (protocol != 0 && protocol != jalv->urids.atom_eventTransfer) { fprintf(stderr, "UI write with unsupported protocol %d (%s)\n", protocol, unmap_uri(jalv, protocol)); return; } if (port_index >= jalv->num_ports) { fprintf(stderr, "UI write to out of range port index %d\n", port_index); return; } if (jalv->opts.dump && protocol == jalv->urids.atom_eventTransfer) { const LV2_Atom* atom = (const LV2_Atom*)buffer; char* str = sratom_to_turtle( jalv->sratom, &jalv->unmap, "jalv:", NULL, NULL, atom->type, atom->size, LV2_ATOM_BODY_CONST(atom)); jalv_ansi_start(stdout, 36); printf("\n## UI => Plugin (%u bytes) ##\n%s\n", atom->size, str); jalv_ansi_reset(stdout); free(str); } char buf[sizeof(ControlChange) + buffer_size]; ControlChange* ev = (ControlChange*)buf; ev->index = port_index; ev->protocol = protocol; ev->size = buffer_size; memcpy(ev->body, buffer, buffer_size); zix_ring_write(jalv->ui_events, buf, sizeof(buf)); } void jalv_apply_ui_events(Jalv* jalv, uint32_t nframes) { if (!jalv->has_ui) { return; } ControlChange ev; const size_t space = zix_ring_read_space(jalv->ui_events); for (size_t i = 0; i < space; i += sizeof(ev) + ev.size) { zix_ring_read(jalv->ui_events, (char*)&ev, sizeof(ev)); char body[ev.size]; if (zix_ring_read(jalv->ui_events, body, ev.size) != ev.size) { fprintf(stderr, "error: Error reading from UI ring buffer\n"); break; } assert(ev.index < jalv->num_ports); struct Port* const port = &jalv->ports[ev.index]; if (ev.protocol == 0) { assert(ev.size == sizeof(float)); port->control = *(float*)body; } else if (ev.protocol == jalv->urids.atom_eventTransfer) { LV2_Evbuf_Iterator e = lv2_evbuf_end(port->evbuf); const LV2_Atom* const atom = (const LV2_Atom*)body; lv2_evbuf_write(&e, nframes, 0, atom->type, atom->size, (const uint8_t*)LV2_ATOM_BODY_CONST(atom)); } else { fprintf(stderr, "error: Unknown control change protocol %d\n", ev.protocol); } } } uint32_t jalv_ui_port_index(void* const controller, const char* symbol) { Jalv* const jalv = (Jalv*)controller; struct Port* port = jalv_port_by_symbol(jalv, symbol); return port ? port->index : LV2UI_INVALID_PORT_INDEX; } void jalv_init_ui(Jalv* jalv) { // Set initial control port values for (uint32_t i = 0; i < jalv->num_ports; ++i) { if (jalv->ports[i].type == TYPE_CONTROL) { jalv_ui_port_event(jalv, i, sizeof(float), 0, &jalv->ports[i].control); } } if (jalv->control_in != (uint32_t)-1) { // Send patch:Get message for initial parameters/etc LV2_Atom_Forge forge = jalv->forge; LV2_Atom_Forge_Frame frame; uint8_t buf[1024]; lv2_atom_forge_set_buffer(&forge, buf, sizeof(buf)); lv2_atom_forge_object(&forge, &frame, 0, jalv->urids.patch_Get); const LV2_Atom* atom = lv2_atom_forge_deref(&forge, frame.ref); jalv_ui_write(jalv, jalv->control_in, lv2_atom_total_size(atom), jalv->urids.atom_eventTransfer, atom); lv2_atom_forge_pop(&forge, &frame); } } bool jalv_send_to_ui(Jalv* jalv, uint32_t port_index, uint32_t type, uint32_t size, const void* body) { /* TODO: Be more disciminate about what to send */ char evbuf[sizeof(ControlChange) + sizeof(LV2_Atom)]; ControlChange* ev = (ControlChange*)evbuf; ev->index = port_index; ev->protocol = jalv->urids.atom_eventTransfer; ev->size = sizeof(LV2_Atom) + size; LV2_Atom* atom = (LV2_Atom*)ev->body; atom->type = type; atom->size = size; if (zix_ring_write_space(jalv->plugin_events) >= sizeof(evbuf) + size) { zix_ring_write(jalv->plugin_events, evbuf, sizeof(evbuf)); zix_ring_write(jalv->plugin_events, (const char*)body, size); return true; } else { fprintf(stderr, "Plugin => UI buffer overflow!\n"); return false; } } bool jalv_run(Jalv* jalv, uint32_t nframes) { /* Read and apply control change events from UI */ jalv_apply_ui_events(jalv, nframes); /* Run plugin for this cycle */ lilv_instance_run(jalv->instance, nframes); /* Process any worker replies. */ jalv_worker_emit_responses(&jalv->state_worker, jalv->instance); jalv_worker_emit_responses(&jalv->worker, jalv->instance); /* Notify the plugin the run() cycle is finished */ if (jalv->worker.iface && jalv->worker.iface->end_run) { jalv->worker.iface->end_run(jalv->instance->lv2_handle); } /* Check if it's time to send updates to the UI */ jalv->event_delta_t += nframes; bool send_ui_updates = false; uint32_t update_frames = jalv->sample_rate / jalv->ui_update_hz; if (jalv->has_ui && (jalv->event_delta_t > update_frames)) { send_ui_updates = true; jalv->event_delta_t = 0; } return send_ui_updates; } bool jalv_update(Jalv* jalv) { /* Check quit flag and close if set. */ if (zix_sem_try_wait(&exit_sem)) { jalv_close_ui(jalv); return false; } /* Emit UI events. */ ControlChange ev; const size_t space = zix_ring_read_space(jalv->plugin_events); for (size_t i = 0; i + sizeof(ev) < space; i += sizeof(ev) + ev.size) { /* Read event header to get the size */ zix_ring_read(jalv->plugin_events, (char*)&ev, sizeof(ev)); /* Resize read buffer if necessary */ jalv->ui_event_buf = realloc(jalv->ui_event_buf, ev.size); void* const buf = jalv->ui_event_buf; /* Read event body */ zix_ring_read(jalv->plugin_events, (char*)buf, ev.size); if (jalv->opts.dump && ev.protocol == jalv->urids.atom_eventTransfer) { /* Dump event in Turtle to the console */ LV2_Atom* atom = (LV2_Atom*)buf; char* str = sratom_to_turtle( jalv->ui_sratom, &jalv->unmap, "jalv:", NULL, NULL, atom->type, atom->size, LV2_ATOM_BODY(atom)); jalv_ansi_start(stdout, 35); printf("\n## Plugin => UI (%u bytes) ##\n%s\n", atom->size, str); jalv_ansi_reset(stdout); free(str); } jalv_ui_port_event(jalv, ev.index, ev.size, ev.protocol, buf); if (ev.protocol == 0 && jalv->opts.print_controls) { print_control_value(jalv, &jalv->ports[ev.index], *(float*)buf); } } return true; } static bool jalv_apply_control_arg(Jalv* jalv, const char* s) { char sym[256]; float val = 0.0f; if (sscanf(s, "%[^=]=%f", sym, &val) != 2) { fprintf(stderr, "warning: Ignoring invalid value `%s'\n", s); return false; } ControlID* control = jalv_control_by_symbol(jalv, sym); if (!control) { fprintf(stderr, "warning: Ignoring value for unknown control `%s'\n", sym); return false; } jalv_set_control(control, sizeof(float), jalv->urids.atom_Float, &val); printf("%-*s = %f\n", jalv->longest_sym, sym, val); return true; } static void signal_handler(int ignored) { zix_sem_post(&exit_sem); } int main(int argc, char** argv) { Jalv jalv; memset(&jalv, '\0', sizeof(Jalv)); jalv.prog_name = argv[0]; jalv.block_length = 4096; /* Should be set by backend */ jalv.midi_buf_size = 1024; /* Should be set by backend */ jalv.play_state = JALV_PAUSED; jalv.bpm = 120.0f; jalv.control_in = (uint32_t)-1; suil_init(&argc, &argv, SUIL_ARG_NONE); if (jalv_init(&argc, &argv, &jalv.opts)) { return EXIT_FAILURE; } if (jalv.opts.uuid) { printf("UUID: %s\n", jalv.opts.uuid); } jalv.symap = symap_new(); zix_sem_init(&jalv.symap_lock, 1); zix_sem_init(&jalv.work_lock, 1); uri_map_feature.data = &uri_map; uri_map.callback_data = &jalv; jalv.map.handle = &jalv; jalv.map.map = map_uri; map_feature.data = &jalv.map; jalv.worker.jalv = &jalv; jalv.state_worker.jalv = &jalv; jalv.unmap.handle = &jalv; jalv.unmap.unmap = unmap_uri; unmap_feature.data = &jalv.unmap; lv2_atom_forge_init(&jalv.forge, &jalv.map); jalv.env = serd_env_new(NULL); serd_env_set_prefix_from_strings( jalv.env, (const uint8_t*)"patch", (const uint8_t*)LV2_PATCH_PREFIX); serd_env_set_prefix_from_strings( jalv.env, (const uint8_t*)"time", (const uint8_t*)LV2_TIME_PREFIX); serd_env_set_prefix_from_strings( jalv.env, (const uint8_t*)"xsd", (const uint8_t*)NS_XSD); jalv.sratom = sratom_new(&jalv.map); jalv.ui_sratom = sratom_new(&jalv.map); sratom_set_env(jalv.sratom, jalv.env); sratom_set_env(jalv.ui_sratom, jalv.env); jalv.midi_event_id = uri_to_id( &jalv, "http://lv2plug.in/ns/ext/event", LV2_MIDI__MidiEvent); jalv.urids.atom_Float = symap_map(jalv.symap, LV2_ATOM__Float); jalv.urids.atom_Int = symap_map(jalv.symap, LV2_ATOM__Int); jalv.urids.atom_Object = symap_map(jalv.symap, LV2_ATOM__Object); jalv.urids.atom_Path = symap_map(jalv.symap, LV2_ATOM__Path); jalv.urids.atom_String = symap_map(jalv.symap, LV2_ATOM__String); jalv.urids.atom_eventTransfer = symap_map(jalv.symap, LV2_ATOM__eventTransfer); jalv.urids.bufsz_maxBlockLength = symap_map(jalv.symap, LV2_BUF_SIZE__maxBlockLength); jalv.urids.bufsz_minBlockLength = symap_map(jalv.symap, LV2_BUF_SIZE__minBlockLength); jalv.urids.bufsz_sequenceSize = symap_map(jalv.symap, LV2_BUF_SIZE__sequenceSize); jalv.urids.log_Error = symap_map(jalv.symap, LV2_LOG__Error); jalv.urids.log_Trace = symap_map(jalv.symap, LV2_LOG__Trace); jalv.urids.log_Warning = symap_map(jalv.symap, LV2_LOG__Warning); jalv.urids.midi_MidiEvent = symap_map(jalv.symap, LV2_MIDI__MidiEvent); jalv.urids.param_sampleRate = symap_map(jalv.symap, LV2_PARAMETERS__sampleRate); jalv.urids.patch_Get = symap_map(jalv.symap, LV2_PATCH__Get); jalv.urids.patch_Put = symap_map(jalv.symap, LV2_PATCH__Put); jalv.urids.patch_Set = symap_map(jalv.symap, LV2_PATCH__Set); jalv.urids.patch_body = symap_map(jalv.symap, LV2_PATCH__body); jalv.urids.patch_property = symap_map(jalv.symap, LV2_PATCH__property); jalv.urids.patch_value = symap_map(jalv.symap, LV2_PATCH__value); jalv.urids.time_Position = symap_map(jalv.symap, LV2_TIME__Position); jalv.urids.time_bar = symap_map(jalv.symap, LV2_TIME__bar); jalv.urids.time_barBeat = symap_map(jalv.symap, LV2_TIME__barBeat); jalv.urids.time_beatUnit = symap_map(jalv.symap, LV2_TIME__beatUnit); jalv.urids.time_beatsPerBar = symap_map(jalv.symap, LV2_TIME__beatsPerBar); jalv.urids.time_beatsPerMinute = symap_map(jalv.symap, LV2_TIME__beatsPerMinute); jalv.urids.time_frame = symap_map(jalv.symap, LV2_TIME__frame); jalv.urids.time_speed = symap_map(jalv.symap, LV2_TIME__speed); jalv.urids.ui_updateRate = symap_map(jalv.symap, LV2_UI__updateRate); #ifdef _WIN32 jalv.temp_dir = jalv_strdup("jalvXXXXXX"); _mktemp(jalv.temp_dir); #else char* templ = jalv_strdup("/tmp/jalv-XXXXXX"); jalv.temp_dir = jalv_strjoin(mkdtemp(templ), "/"); free(templ); #endif LV2_State_Make_Path make_path = { &jalv, jalv_make_path }; make_path_feature.data = &make_path; LV2_Worker_Schedule sched = { &jalv.worker, jalv_worker_schedule }; sched_feature.data = &sched; LV2_Worker_Schedule ssched = { &jalv.state_worker, jalv_worker_schedule }; state_sched_feature.data = &ssched; LV2_Log_Log llog = { &jalv, jalv_printf, jalv_vprintf }; log_feature.data = &llog; zix_sem_init(&exit_sem, 0); jalv.done = &exit_sem; zix_sem_init(&jalv.paused, 0); zix_sem_init(&jalv.worker.sem, 0); #ifdef HAVE_SIGACTION struct sigaction action; sigemptyset(&action.sa_mask); action.sa_flags = 0; action.sa_handler = signal_handler; sigaction(SIGINT, &action, NULL); sigaction(SIGTERM, &action, NULL); #else /* May not work in combination with fgets in the console interface */ signal(SIGINT, signal_handler); signal(SIGTERM, signal_handler); #endif /* Find all installed plugins */ LilvWorld* world = lilv_world_new(); lilv_world_load_all(world); jalv.world = world; const LilvPlugins* plugins = lilv_world_get_all_plugins(world); /* Cache URIs for concepts we'll use */ jalv.nodes.atom_AtomPort = lilv_new_uri(world, LV2_ATOM__AtomPort); jalv.nodes.atom_Chunk = lilv_new_uri(world, LV2_ATOM__Chunk); jalv.nodes.atom_Float = lilv_new_uri(world, LV2_ATOM__Float); jalv.nodes.atom_Path = lilv_new_uri(world, LV2_ATOM__Path); jalv.nodes.atom_Sequence = lilv_new_uri(world, LV2_ATOM__Sequence); jalv.nodes.ev_EventPort = lilv_new_uri(world, LV2_EVENT__EventPort); jalv.nodes.lv2_AudioPort = lilv_new_uri(world, LV2_CORE__AudioPort); jalv.nodes.lv2_CVPort = lilv_new_uri(world, LV2_CORE__CVPort); jalv.nodes.lv2_ControlPort = lilv_new_uri(world, LV2_CORE__ControlPort); jalv.nodes.lv2_InputPort = lilv_new_uri(world, LV2_CORE__InputPort); jalv.nodes.lv2_OutputPort = lilv_new_uri(world, LV2_CORE__OutputPort); jalv.nodes.lv2_connectionOptional = lilv_new_uri(world, LV2_CORE__connectionOptional); jalv.nodes.lv2_control = lilv_new_uri(world, LV2_CORE__control); jalv.nodes.lv2_default = lilv_new_uri(world, LV2_CORE__default); jalv.nodes.lv2_enumeration = lilv_new_uri(world, LV2_CORE__enumeration); jalv.nodes.lv2_integer = lilv_new_uri(world, LV2_CORE__integer); jalv.nodes.lv2_maximum = lilv_new_uri(world, LV2_CORE__maximum); jalv.nodes.lv2_minimum = lilv_new_uri(world, LV2_CORE__minimum); jalv.nodes.lv2_name = lilv_new_uri(world, LV2_CORE__name); jalv.nodes.lv2_reportsLatency = lilv_new_uri(world, LV2_CORE__reportsLatency); jalv.nodes.lv2_sampleRate = lilv_new_uri(world, LV2_CORE__sampleRate); jalv.nodes.lv2_symbol = lilv_new_uri(world, LV2_CORE__symbol); jalv.nodes.lv2_toggled = lilv_new_uri(world, LV2_CORE__toggled); jalv.nodes.midi_MidiEvent = lilv_new_uri(world, LV2_MIDI__MidiEvent); jalv.nodes.pg_group = lilv_new_uri(world, LV2_PORT_GROUPS__group); jalv.nodes.pprops_logarithmic = lilv_new_uri(world, LV2_PORT_PROPS__logarithmic); jalv.nodes.pprops_notOnGUI = lilv_new_uri(world, LV2_PORT_PROPS__notOnGUI); jalv.nodes.pprops_rangeSteps = lilv_new_uri(world, LV2_PORT_PROPS__rangeSteps); jalv.nodes.pset_Preset = lilv_new_uri(world, LV2_PRESETS__Preset); jalv.nodes.pset_bank = lilv_new_uri(world, LV2_PRESETS__bank); jalv.nodes.rdfs_comment = lilv_new_uri(world, LILV_NS_RDFS "comment"); jalv.nodes.rdfs_label = lilv_new_uri(world, LILV_NS_RDFS "label"); jalv.nodes.rdfs_range = lilv_new_uri(world, LILV_NS_RDFS "range"); jalv.nodes.rsz_minimumSize = lilv_new_uri(world, LV2_RESIZE_PORT__minimumSize); jalv.nodes.work_interface = lilv_new_uri(world, LV2_WORKER__interface); jalv.nodes.work_schedule = lilv_new_uri(world, LV2_WORKER__schedule); jalv.nodes.end = NULL; /* Get plugin URI from loaded state or command line */ LilvState* state = NULL; LilvNode* plugin_uri = NULL; if (jalv.opts.load) { struct stat info; stat(jalv.opts.load, &info); if (S_ISDIR(info.st_mode)) { char* path = jalv_strjoin(jalv.opts.load, "/state.ttl"); state = lilv_state_new_from_file(jalv.world, &jalv.map, NULL, path); free(path); } else { state = lilv_state_new_from_file(jalv.world, &jalv.map, NULL, jalv.opts.load); } if (!state) { fprintf(stderr, "Failed to load state from %s\n", jalv.opts.load); return EXIT_FAILURE; } plugin_uri = lilv_node_duplicate(lilv_state_get_plugin_uri(state)); } else if (argc > 1) { plugin_uri = lilv_new_uri(world, argv[argc - 1]); } if (!plugin_uri) { fprintf(stderr, "Missing plugin URI, try lv2ls to list plugins\n"); return EXIT_FAILURE; } /* Find plugin */ printf("Plugin: %s\n", lilv_node_as_string(plugin_uri)); jalv.plugin = lilv_plugins_get_by_uri(plugins, plugin_uri); lilv_node_free(plugin_uri); if (!jalv.plugin) { fprintf(stderr, "Failed to find plugin\n"); lilv_world_free(world); return EXIT_FAILURE; } /* Load preset, if specified */ if (jalv.opts.preset) { LilvNode* preset = lilv_new_uri(jalv.world, jalv.opts.preset); jalv_load_presets(&jalv, NULL, NULL); state = lilv_state_new_from_world(jalv.world, &jalv.map, preset); jalv.preset = state; lilv_node_free(preset); if (!state) { fprintf(stderr, "Failed to find preset <%s>\n", jalv.opts.preset); lilv_world_free(world); return EXIT_FAILURE; } } /* Check that any required features are supported */ LilvNodes* req_feats = lilv_plugin_get_required_features(jalv.plugin); LILV_FOREACH(nodes, f, req_feats) { const char* uri = lilv_node_as_uri(lilv_nodes_get(req_feats, f)); if (!feature_is_supported(uri)) { fprintf(stderr, "Feature %s is not supported\n", uri); lilv_world_free(world); return EXIT_FAILURE; } } lilv_nodes_free(req_feats); /* Check for thread-safe state restore() method. */ LilvNode* state_threadSafeRestore = lilv_new_uri( jalv.world, LV2_STATE__threadSafeRestore); if (lilv_plugin_has_feature(jalv.plugin, state_threadSafeRestore)) { jalv.safe_restore = true; } lilv_node_free(state_threadSafeRestore); if (!state) { /* Not restoring state, load the plugin as a preset to get default */ state = lilv_state_new_from_world( jalv.world, &jalv.map, lilv_plugin_get_uri(jalv.plugin)); } /* Get a plugin UI */ const char* native_ui_type_uri = jalv_native_ui_type(&jalv); jalv.uis = lilv_plugin_get_uis(jalv.plugin); if (!jalv.opts.generic_ui && native_ui_type_uri) { const LilvNode* native_ui_type = lilv_new_uri(jalv.world, native_ui_type_uri); LILV_FOREACH(uis, u, jalv.uis) { const LilvUI* this_ui = lilv_uis_get(jalv.uis, u); if (lilv_ui_is_supported(this_ui, suil_ui_supported, native_ui_type, &jalv.ui_type)) { /* TODO: Multiple UI support */ jalv.ui = this_ui; break; } } } else if (!jalv.opts.generic_ui && jalv.opts.show_ui) { jalv.ui = lilv_uis_get(jalv.uis, lilv_uis_begin(jalv.uis)); } /* Create ringbuffers for UI if necessary */ if (jalv.ui) { fprintf(stderr, "UI: %s\n", lilv_node_as_uri(lilv_ui_get_uri(jalv.ui))); } else { fprintf(stderr, "UI: None\n"); } /* Create port and control structures */ jalv_create_ports(&jalv); jalv_create_controls(&jalv, true); jalv_create_controls(&jalv, false); if (!(jalv.backend = jalv_backend_init(&jalv))) { die("Failed to connect to audio system"); } printf("Sample rate: %u Hz\n", jalv.sample_rate); printf("Block length: %u frames\n", jalv.block_length); printf("MIDI buffers: %zu bytes\n", jalv.midi_buf_size); if (jalv.opts.buffer_size == 0) { /* The UI ring is fed by plugin output ports (usually one), and the UI updates roughly once per cycle. The ring size is a few times the size of the MIDI output to give the UI a chance to keep up. The UI should be able to keep up with 4 cycles, and tests show this works for me, but this value might need increasing to avoid overflows. */ jalv.opts.buffer_size = jalv.midi_buf_size * N_BUFFER_CYCLES; } if (jalv.opts.update_rate == 0.0) { /* Calculate a reasonable UI update frequency. */ jalv.ui_update_hz = (float)jalv.sample_rate / jalv.midi_buf_size * 2.0f; jalv.ui_update_hz = MAX(25.0f, jalv.ui_update_hz); } else { /* Use user-specified UI update rate. */ jalv.ui_update_hz = jalv.opts.update_rate; jalv.ui_update_hz = MAX(1.0f, jalv.ui_update_hz); } /* The UI can only go so fast, clamp to reasonable limits */ jalv.ui_update_hz = MIN(60, jalv.ui_update_hz); jalv.opts.buffer_size = MAX(4096, jalv.opts.buffer_size); fprintf(stderr, "Comm buffers: %d bytes\n", jalv.opts.buffer_size); fprintf(stderr, "Update rate: %.01f Hz\n", jalv.ui_update_hz); /* Build options array to pass to plugin */ const LV2_Options_Option options[] = { { LV2_OPTIONS_INSTANCE, 0, jalv.urids.param_sampleRate, sizeof(float), jalv.urids.atom_Float, &jalv.sample_rate }, { LV2_OPTIONS_INSTANCE, 0, jalv.urids.bufsz_minBlockLength, sizeof(int32_t), jalv.urids.atom_Int, &jalv.block_length }, { LV2_OPTIONS_INSTANCE, 0, jalv.urids.bufsz_maxBlockLength, sizeof(int32_t), jalv.urids.atom_Int, &jalv.block_length }, { LV2_OPTIONS_INSTANCE, 0, jalv.urids.bufsz_sequenceSize, sizeof(int32_t), jalv.urids.atom_Int, &jalv.midi_buf_size }, { LV2_OPTIONS_INSTANCE, 0, jalv.urids.ui_updateRate, sizeof(float), jalv.urids.atom_Float, &jalv.ui_update_hz }, { LV2_OPTIONS_INSTANCE, 0, 0, 0, 0, NULL } }; options_feature.data = (void*)&options; /* Create Plugin <=> UI communication buffers */ jalv.ui_events = zix_ring_new(jalv.opts.buffer_size); jalv.plugin_events = zix_ring_new(jalv.opts.buffer_size); zix_ring_mlock(jalv.ui_events); zix_ring_mlock(jalv.plugin_events); /* Instantiate the plugin */ jalv.instance = lilv_plugin_instantiate( jalv.plugin, jalv.sample_rate, features); if (!jalv.instance) { die("Failed to instantiate plugin.\n"); } ext_data.data_access = lilv_instance_get_descriptor(jalv.instance)->extension_data; fprintf(stderr, "\n"); if (!jalv.buf_size_set) { jalv_allocate_port_buffers(&jalv); } /* Create workers if necessary */ if (lilv_plugin_has_extension_data(jalv.plugin, jalv.nodes.work_interface)) { const LV2_Worker_Interface* iface = (const LV2_Worker_Interface*) lilv_instance_get_extension_data(jalv.instance, LV2_WORKER__interface); jalv_worker_init(&jalv, &jalv.worker, iface, true); if (jalv.safe_restore) { jalv_worker_init(&jalv, &jalv.state_worker, iface, false); } } /* Apply loaded state to plugin instance if necessary */ if (state) { jalv_apply_state(&jalv, state); } if (jalv.opts.controls) { for (char** c = jalv.opts.controls; *c; ++c) { jalv_apply_control_arg(&jalv, *c); } } /* Set Jack callbacks */ jalv_backend_init(&jalv); /* Create Jack ports and connect plugin ports to buffers */ for (uint32_t i = 0; i < jalv.num_ports; ++i) { jalv_backend_activate_port(&jalv, i); } /* Print initial control values */ for (size_t i = 0; i < jalv.controls.n_controls; ++i) { ControlID* control = jalv.controls.controls[i]; if (control->type == PORT) {// && control->value_type == jalv->forge.Float) { struct Port* port = &jalv.ports[control->index]; print_control_value(&jalv, port, port->control); } } /* Activate plugin */ lilv_instance_activate(jalv.instance); /* Discover UI */ jalv.has_ui = jalv_discover_ui(&jalv); /* Activate Jack */ jalv_backend_activate(&jalv); jalv.play_state = JALV_RUNNING; /* Run UI (or prompt at console) */ jalv_open_ui(&jalv); /* Wait for finish signal from UI or signal handler */ zix_sem_wait(&exit_sem); jalv.exit = true; fprintf(stderr, "Exiting...\n"); /* Terminate the worker */ jalv_worker_finish(&jalv.worker); /* Deactivate audio */ jalv_backend_deactivate(&jalv); for (uint32_t i = 0; i < jalv.num_ports; ++i) { if (jalv.ports[i].evbuf) { lv2_evbuf_free(jalv.ports[i].evbuf); } } jalv_backend_close(&jalv); /* Destroy the worker */ jalv_worker_destroy(&jalv.worker); /* Deactivate plugin */ suil_instance_free(jalv.ui_instance); lilv_instance_deactivate(jalv.instance); lilv_instance_free(jalv.instance); /* Clean up */ free(jalv.ports); zix_ring_free(jalv.ui_events); zix_ring_free(jalv.plugin_events); for (LilvNode** n = (LilvNode**)&jalv.nodes; *n; ++n) { lilv_node_free(*n); } symap_free(jalv.symap); zix_sem_destroy(&jalv.symap_lock); suil_host_free(jalv.ui_host); sratom_free(jalv.sratom); sratom_free(jalv.ui_sratom); lilv_uis_free(jalv.uis); lilv_world_free(world); zix_sem_destroy(&exit_sem); remove(jalv.temp_dir); free(jalv.temp_dir); free(jalv.ui_event_buf); return 0; }