/* PipeWire * * Copyright © 2018 Wim Taymans * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include "config.h" #include #include #include #include #include #include #if !defined(__FreeBSD__) && !defined(__MidnightBSD__) #include #endif #include #include #ifdef HAVE_READLINE #include #include #endif #include #if !defined(FNM_EXTMATCH) #define FNM_EXTMATCH 0 #endif #define spa_debug(fmt,...) printf(fmt"\n", ## __VA_ARGS__) #include #include #include #include #include #include #include #include #include static const char WHITESPACE[] = " \t"; static char prompt[64]; struct remote_data; struct proxy_data; typedef void (*info_func_t) (struct proxy_data *pd); struct class { const char *type; uint32_t version; const void *events; pw_destroy_t destroy; info_func_t info; const char *name_key; }; struct data { struct pw_main_loop *loop; struct pw_context *context; struct spa_list remotes; struct remote_data *current; struct pw_map vars; unsigned int interactive:1; unsigned int monitoring:1; unsigned int quit:1; }; struct global { struct remote_data *rd; uint32_t id; uint32_t permissions; uint32_t version; char *type; const struct class *class; struct pw_proxy *proxy; bool info_pending; struct pw_properties *properties; }; struct remote_data { struct spa_list link; struct data *data; char *name; uint32_t id; int prompt_pending; struct pw_core *core; struct spa_hook core_listener; struct spa_hook proxy_core_listener; struct pw_registry *registry; struct spa_hook registry_listener; struct pw_map globals; }; struct proxy_data { struct remote_data *rd; struct global *global; struct pw_proxy *proxy; void *info; const struct class *class; struct spa_hook proxy_listener; struct spa_hook object_listener; }; struct command { const char *name; const char *alias; const char *description; bool (*func) (struct data *data, const char *cmd, char *args, char **error); }; static struct spa_dict * global_props(struct global *global); static struct global * obj_global(struct remote_data *rd, uint32_t id); static int children_of(struct remote_data *rd, uint32_t parent_id, const char *child_type, uint32_t **children); static void print_properties(struct spa_dict *props, char mark, bool header) { const struct spa_dict_item *item; if (header) printf("%c\tproperties:\n", mark); if (props == NULL || props->n_items == 0) { if (header) printf("\t\tnone\n"); return; } spa_dict_for_each(item, props) { printf("%c\t\t%s = \"%s\"\n", mark, item->key, item->value); } } static void print_params(struct spa_param_info *params, uint32_t n_params, char mark, bool header) { uint32_t i; if (header) printf("%c\tparams: (%u)\n", mark, n_params); if (params == NULL || n_params == 0) { if (header) printf("\t\tnone\n"); return; } for (i = 0; i < n_params; i++) { const struct spa_type_info *type_info = spa_type_param; printf("%c\t %d (%s) %c%c\n", params[i].user > 0 ? mark : ' ', params[i].id, spa_debug_type_find_name(type_info, params[i].id), params[i].flags & SPA_PARAM_INFO_READ ? 'r' : '-', params[i].flags & SPA_PARAM_INFO_WRITE ? 'w' : '-'); params[i].user = 0; } } static bool do_not_implemented(struct data *data, const char *cmd, char *args, char **error) { *error = spa_aprintf("Command \"%s\" not yet implemented", cmd); return false; } static bool do_help(struct data *data, const char *cmd, char *args, char **error); static bool do_load_module(struct data *data, const char *cmd, char *args, char **error); static bool do_list_objects(struct data *data, const char *cmd, char *args, char **error); static bool do_connect(struct data *data, const char *cmd, char *args, char **error); static bool do_disconnect(struct data *data, const char *cmd, char *args, char **error); static bool do_list_remotes(struct data *data, const char *cmd, char *args, char **error); static bool do_switch_remote(struct data *data, const char *cmd, char *args, char **error); static bool do_info(struct data *data, const char *cmd, char *args, char **error); static bool do_create_device(struct data *data, const char *cmd, char *args, char **error); static bool do_create_node(struct data *data, const char *cmd, char *args, char **error); static bool do_destroy(struct data *data, const char *cmd, char *args, char **error); static bool do_create_link(struct data *data, const char *cmd, char *args, char **error); static bool do_export_node(struct data *data, const char *cmd, char *args, char **error); static bool do_enum_params(struct data *data, const char *cmd, char *args, char **error); static bool do_set_param(struct data *data, const char *cmd, char *args, char **error); static bool do_permissions(struct data *data, const char *cmd, char *args, char **error); static bool do_get_permissions(struct data *data, const char *cmd, char *args, char **error); static bool do_send_command(struct data *data, const char *cmd, char *args, char **error); static bool do_quit(struct data *data, const char *cmd, char *args, char **error); #define DUMP_NAMES "Core|Module|Device|Node|Port|Factory|Client|Link|Session|Endpoint|EndpointStream" static const struct command command_list[] = { { "help", "h", "Show this help", do_help }, { "load-module", "lm", "Load a module. []", do_load_module }, { "unload-module", "um", "Unload a module. ", do_not_implemented }, { "connect", "con", "Connect to a remote. []", do_connect }, { "disconnect", "dis", "Disconnect from a remote. []", do_disconnect }, { "list-remotes", "lr", "List connected remotes.", do_list_remotes }, { "switch-remote", "sr", "Switch between current remotes. []", do_switch_remote }, { "list-objects", "ls", "List objects or current remote. []", do_list_objects }, { "info", "i", "Get info about an object. |all", do_info }, { "create-device", "cd", "Create a device from a factory. []", do_create_device }, { "create-node", "cn", "Create a node from a factory. []", do_create_node }, { "destroy", "d", "Destroy a global object. ", do_destroy }, { "create-link", "cl", "Create a link between nodes. []", do_create_link }, { "export-node", "en", "Export a local node to the current remote. [remote-var]", do_export_node }, { "enum-params", "e", "Enumerate params of an object ", do_enum_params }, { "set-param", "s", "Set param of an object ", do_set_param }, { "permissions", "sp", "Set permissions for a client ", do_permissions }, { "get-permissions", "gp", "Get permissions of a client ", do_get_permissions }, { "send-command", "c", "Send a command ", do_send_command }, { "quit", "q", "Quit", do_quit }, }; static bool do_quit(struct data *data, const char *cmd, char *args, char **error) { pw_main_loop_quit(data->loop); data->quit = true; return true; } static bool do_help(struct data *data, const char *cmd, char *args, char **error) { printf("Available commands:\n"); SPA_FOR_EACH_ELEMENT_VAR(command_list, c) { char cmd[256]; snprintf(cmd, sizeof(cmd), "%s | %s", c->name, c->alias); printf("\t%-20.20s\t%s\n", cmd, c->description); } return true; } static bool do_load_module(struct data *data, const char *cmd, char *args, char **error) { struct pw_impl_module *module; char *a[2]; int n; uint32_t id; n = pw_split_ip(args, WHITESPACE, 2, a); if (n < 1) { *error = spa_aprintf("%s []", cmd); return false; } module = pw_context_load_module(data->context, a[0], n == 2 ? a[1] : NULL, NULL); if (module == NULL) { *error = spa_aprintf("Could not load module"); return false; } id = pw_map_insert_new(&data->vars, module); if (data->interactive) printf("%d = @module:%d\n", id, pw_global_get_id(pw_impl_module_get_global(module))); return true; } static void on_core_info(void *_data, const struct pw_core_info *info) { struct remote_data *rd = _data; free(rd->name); rd->name = info->name ? strdup(info->name) : NULL; if (rd->data->interactive) printf("remote %d is named '%s'\n", rd->id, rd->name); } static void set_prompt(struct remote_data *rd) { snprintf(prompt, sizeof(prompt), "%s>> ", rd->name); #ifdef HAVE_READLINE rl_set_prompt(prompt); #else printf("%s", prompt); fflush(stdout); #endif } static void on_core_done(void *_data, uint32_t id, int seq) { struct remote_data *rd = _data; struct data *d = rd->data; if (seq == rd->prompt_pending) { if (d->interactive) { set_prompt(rd); rd->data->monitoring = true; } else { pw_main_loop_quit(d->loop); } } } static bool global_matches(struct global *g, const char *pattern) { const char *str; if (g->properties == NULL) return false; if (strstr(g->type, pattern) != NULL) return true; if ((str = pw_properties_get(g->properties, PW_KEY_OBJECT_PATH)) != NULL && fnmatch(pattern, str, FNM_EXTMATCH) == 0) return true; if ((str = pw_properties_get(g->properties, PW_KEY_OBJECT_SERIAL)) != NULL && spa_streq(pattern, str)) return true; if (g->class != NULL && g->class->name_key != NULL && (str = pw_properties_get(g->properties, g->class->name_key)) != NULL && fnmatch(pattern, str, FNM_EXTMATCH) == 0) return true; return false; } static int print_global(void *obj, void *data) { struct global *global = obj; const char *filter = data; if (global == NULL) return 0; if (filter && !global_matches(global, filter)) return 0; printf("\tid %d, type %s/%d\n", global->id, global->type, global->version); if (global->properties) print_properties(&global->properties->dict, ' ', false); return 0; } static bool bind_global(struct remote_data *rd, struct global *global, char **error); static void registry_event_global(void *data, uint32_t id, uint32_t permissions, const char *type, uint32_t version, const struct spa_dict *props) { struct remote_data *rd = data; struct global *global; size_t size; char *error; bool ret; global = calloc(1, sizeof(struct global)); global->rd = rd; global->id = id; global->permissions = permissions; global->type = strdup(type); global->version = version; global->properties = props ? pw_properties_new_dict(props) : NULL; if (rd->data->monitoring) { printf("remote %d added global: ", rd->id); print_global(global, NULL); } size = pw_map_get_size(&rd->globals); while (id > size) pw_map_insert_at(&rd->globals, size++, NULL); pw_map_insert_at(&rd->globals, id, global); /* immediately bind the object always */ ret = bind_global(rd, global, &error); if (!ret) { if (rd->data->interactive) fprintf(stderr, "Error: \"%s\"\n", error); free(error); } } static int destroy_global(void *obj, void *data) { struct global *global = obj; if (global == NULL) return 0; if (global->proxy) pw_proxy_destroy(global->proxy); pw_map_insert_at(&global->rd->globals, global->id, NULL); pw_properties_free(global->properties); free(global->type); free(global); return 0; } static void registry_event_global_remove(void *data, uint32_t id) { struct remote_data *rd = data; struct global *global; global = pw_map_lookup(&rd->globals, id); if (global == NULL) { fprintf(stderr, "remote %d removed unknown global %d\n", rd->id, id); return; } if (rd->data->monitoring) { printf("remote %d removed global: ", rd->id); print_global(global, NULL); } destroy_global(global, rd); } static const struct pw_registry_events registry_events = { PW_VERSION_REGISTRY_EVENTS, .global = registry_event_global, .global_remove = registry_event_global_remove, }; static struct global *find_global(struct remote_data *rd, const char *pattern) { uint32_t id; union pw_map_item *item; if (spa_atou32(pattern, &id, 0)) return pw_map_lookup(&rd->globals, id); pw_array_for_each(item, &rd->globals.items) { struct global *g = item->data; if (pw_map_item_is_free(item) || g == NULL) continue; if (global_matches(g, pattern)) return g; } return NULL; } static void on_core_error(void *_data, uint32_t id, int seq, int res, const char *message) { struct remote_data *rd = _data; struct data *data = rd->data; pw_log_error("remote %p: error id:%u seq:%d res:%d (%s): %s", rd, id, seq, res, spa_strerror(res), message); if (id == PW_ID_CORE && res == -EPIPE) pw_main_loop_quit(data->loop); } static const struct pw_core_events remote_core_events = { PW_VERSION_CORE_EVENTS, .info = on_core_info, .done = on_core_done, .error = on_core_error, }; static void on_core_destroy(void *_data) { struct remote_data *rd = _data; struct data *data = rd->data; spa_list_remove(&rd->link); spa_hook_remove(&rd->core_listener); spa_hook_remove(&rd->proxy_core_listener); pw_map_remove(&data->vars, rd->id); pw_map_for_each(&rd->globals, destroy_global, rd); pw_map_clear(&rd->globals); if (data->current == rd) data->current = NULL; free(rd->name); } static const struct pw_proxy_events proxy_core_events = { PW_VERSION_PROXY_EVENTS, .destroy = on_core_destroy, }; static void remote_data_free(struct remote_data *rd) { spa_hook_remove(&rd->registry_listener); pw_proxy_destroy((struct pw_proxy*)rd->registry); pw_core_disconnect(rd->core); } static bool do_connect(struct data *data, const char *cmd, char *args, char **error) { char *a[1]; int n; struct pw_properties *props = NULL; struct pw_core *core; struct remote_data *rd; n = args ? pw_split_ip(args, WHITESPACE, 1, a) : 0; if (n == 1) { props = pw_properties_new(PW_KEY_REMOTE_NAME, a[0], NULL); } core = pw_context_connect(data->context, props, sizeof(struct remote_data)); if (core == NULL) { *error = spa_aprintf("failed to connect: %m"); return false; } rd = pw_proxy_get_user_data((struct pw_proxy*)core); rd->core = core; rd->data = data; pw_map_init(&rd->globals, 64, 16); rd->id = pw_map_insert_new(&data->vars, rd); spa_list_append(&data->remotes, &rd->link); if (rd->data->interactive) printf("%d = @remote:%p\n", rd->id, rd->core); data->current = rd; pw_core_add_listener(rd->core, &rd->core_listener, &remote_core_events, rd); pw_proxy_add_listener((struct pw_proxy*)rd->core, &rd->proxy_core_listener, &proxy_core_events, rd); rd->registry = pw_core_get_registry(rd->core, PW_VERSION_REGISTRY, 0); pw_registry_add_listener(rd->registry, &rd->registry_listener, ®istry_events, rd); rd->prompt_pending = pw_core_sync(rd->core, 0, 0); return true; } static bool do_disconnect(struct data *data, const char *cmd, char *args, char **error) { char *a[1]; int n; uint32_t idx; struct remote_data *rd = data->current; n = pw_split_ip(args, WHITESPACE, 1, a); if (n >= 1) { idx = atoi(a[0]); rd = pw_map_lookup(&data->vars, idx); if (rd == NULL) goto no_remote; } if (rd) remote_data_free(rd); if (data->current == NULL) { if (spa_list_is_empty(&data->remotes)) { return true; } data->current = spa_list_last(&data->remotes, struct remote_data, link); } return true; no_remote: *error = spa_aprintf("Remote %d does not exist", idx); return false; } static bool do_list_remotes(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd; spa_list_for_each(rd, &data->remotes, link) printf("\t%d = @remote:%p '%s'\n", rd->id, rd->core, rd->name); return true; } static bool do_switch_remote(struct data *data, const char *cmd, char *args, char **error) { char *a[1]; int n, idx = 0; struct remote_data *rd; n = pw_split_ip(args, WHITESPACE, 1, a); if (n == 1) idx = atoi(a[0]); rd = pw_map_lookup(&data->vars, idx); if (rd == NULL) goto no_remote; spa_list_remove(&rd->link); spa_list_append(&data->remotes, &rd->link); data->current = rd; return true; no_remote: *error = spa_aprintf("Remote %d does not exist", idx); return false; } #define MARK_CHANGE(f) ((((info)->change_mask & (f))) ? '*' : ' ') static void info_global(struct proxy_data *pd) { struct global *global = pd->global; if (global == NULL) return; printf("\tid: %d\n", global->id); printf("\tpermissions: "PW_PERMISSION_FORMAT"\n", PW_PERMISSION_ARGS(global->permissions)); printf("\ttype: %s/%d\n", global->type, global->version); } static void info_core(struct proxy_data *pd) { struct pw_core_info *info = pd->info; info_global(pd); printf("\tcookie: %u\n", info->cookie); printf("\tuser-name: \"%s\"\n", info->user_name); printf("\thost-name: \"%s\"\n", info->host_name); printf("\tversion: \"%s\"\n", info->version); printf("\tname: \"%s\"\n", info->name); print_properties(info->props, MARK_CHANGE(PW_CORE_CHANGE_MASK_PROPS), true); info->change_mask = 0; } static void info_module(struct proxy_data *pd) { struct pw_module_info *info = pd->info; info_global(pd); printf("\tname: \"%s\"\n", info->name); printf("\tfilename: \"%s\"\n", info->filename); printf("\targs: \"%s\"\n", info->args); print_properties(info->props, MARK_CHANGE(PW_MODULE_CHANGE_MASK_PROPS), true); info->change_mask = 0; } static void info_node(struct proxy_data *pd) { struct pw_node_info *info = pd->info; info_global(pd); printf("%c\tinput ports: %u/%u\n", MARK_CHANGE(PW_NODE_CHANGE_MASK_INPUT_PORTS), info->n_input_ports, info->max_input_ports); printf("%c\toutput ports: %u/%u\n", MARK_CHANGE(PW_NODE_CHANGE_MASK_OUTPUT_PORTS), info->n_output_ports, info->max_output_ports); printf("%c\tstate: \"%s\"", MARK_CHANGE(PW_NODE_CHANGE_MASK_STATE), pw_node_state_as_string(info->state)); if (info->state == PW_NODE_STATE_ERROR && info->error) printf(" \"%s\"\n", info->error); else printf("\n"); print_properties(info->props, MARK_CHANGE(PW_NODE_CHANGE_MASK_PROPS), true); print_params(info->params, info->n_params, MARK_CHANGE(PW_NODE_CHANGE_MASK_PARAMS), true); info->change_mask = 0; } static void info_port(struct proxy_data *pd) { struct pw_port_info *info = pd->info; info_global(pd); printf("\tdirection: \"%s\"\n", pw_direction_as_string(info->direction)); print_properties(info->props, MARK_CHANGE(PW_PORT_CHANGE_MASK_PROPS), true); print_params(info->params, info->n_params, MARK_CHANGE(PW_PORT_CHANGE_MASK_PARAMS), true); info->change_mask = 0; } static void info_factory(struct proxy_data *pd) { struct pw_factory_info *info = pd->info; info_global(pd); printf("\tname: \"%s\"\n", info->name); printf("\tobject-type: %s/%d\n", info->type, info->version); print_properties(info->props, MARK_CHANGE(PW_FACTORY_CHANGE_MASK_PROPS), true); info->change_mask = 0; } static void info_client(struct proxy_data *pd) { struct pw_client_info *info = pd->info; info_global(pd); print_properties(info->props, MARK_CHANGE(PW_CLIENT_CHANGE_MASK_PROPS), true); info->change_mask = 0; } static void info_link(struct proxy_data *pd) { struct pw_link_info *info = pd->info; info_global(pd); printf("\toutput-node-id: %u\n", info->output_node_id); printf("\toutput-port-id: %u\n", info->output_port_id); printf("\tinput-node-id: %u\n", info->input_node_id); printf("\tinput-port-id: %u\n", info->input_port_id); printf("%c\tstate: \"%s\"", MARK_CHANGE(PW_LINK_CHANGE_MASK_STATE), pw_link_state_as_string(info->state)); if (info->state == PW_LINK_STATE_ERROR && info->error) printf(" \"%s\"\n", info->error); else printf("\n"); printf("%c\tformat:\n", MARK_CHANGE(PW_LINK_CHANGE_MASK_FORMAT)); if (info->format) spa_debug_pod(2, NULL, info->format); else printf("\t\tnone\n"); print_properties(info->props, MARK_CHANGE(PW_LINK_CHANGE_MASK_PROPS), true); info->change_mask = 0; } static void info_device(struct proxy_data *pd) { struct pw_device_info *info = pd->info; info_global(pd); print_properties(info->props, MARK_CHANGE(PW_DEVICE_CHANGE_MASK_PROPS), true); print_params(info->params, info->n_params, MARK_CHANGE(PW_DEVICE_CHANGE_MASK_PARAMS), true); info->change_mask = 0; } static void info_session(struct proxy_data *pd) { struct pw_session_info *info = pd->info; info_global(pd); print_properties(info->props, MARK_CHANGE(0), true); print_params(info->params, info->n_params, MARK_CHANGE(1), true); info->change_mask = 0; } static void info_endpoint(struct proxy_data *pd) { struct pw_endpoint_info *info = pd->info; const char *direction; info_global(pd); printf("\tname: %s\n", info->name); printf("\tmedia-class: %s\n", info->media_class); switch(info->direction) { case PW_DIRECTION_OUTPUT: direction = "source"; break; case PW_DIRECTION_INPUT: direction = "sink"; break; default: direction = "invalid"; break; } printf("\tdirection: %s\n", direction); printf("\tflags: 0x%x\n", info->flags); printf("%c\tstreams: %u\n", MARK_CHANGE(0), info->n_streams); printf("%c\tsession: %u\n", MARK_CHANGE(1), info->session_id); print_properties(info->props, MARK_CHANGE(2), true); print_params(info->params, info->n_params, MARK_CHANGE(3), true); info->change_mask = 0; } static void info_endpoint_stream(struct proxy_data *pd) { struct pw_endpoint_stream_info *info = pd->info; info_global(pd); printf("\tid: %u\n", info->id); printf("\tendpoint-id: %u\n", info->endpoint_id); printf("\tname: %s\n", info->name); print_properties(info->props, MARK_CHANGE(1), true); print_params(info->params, info->n_params, MARK_CHANGE(2), true); info->change_mask = 0; } static void core_event_info(void *data, const struct pw_core_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d core %d changed\n", rd->id, info->id); pd->info = pw_core_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_core(pd); pd->global->info_pending = false; } } static const struct pw_core_events core_events = { PW_VERSION_CORE_EVENTS, .info = core_event_info }; static void module_event_info(void *data, const struct pw_module_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d module %d changed\n", rd->id, info->id); pd->info = pw_module_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_module(pd); pd->global->info_pending = false; } } static const struct pw_module_events module_events = { PW_VERSION_MODULE_EVENTS, .info = module_event_info }; static void node_event_info(void *data, const struct pw_node_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d node %d changed\n", rd->id, info->id); pd->info = pw_node_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_node(pd); pd->global->info_pending = false; } } static void event_param(void *_data, int seq, uint32_t id, uint32_t index, uint32_t next, const struct spa_pod *param) { struct proxy_data *data = _data; struct remote_data *rd = data->rd; if (rd->data->interactive) printf("remote %d object %d param %d index %d\n", rd->id, data->global->id, id, index); spa_debug_pod(2, NULL, param); } static const struct pw_node_events node_events = { PW_VERSION_NODE_EVENTS, .info = node_event_info, .param = event_param }; static void port_event_info(void *data, const struct pw_port_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d port %d changed\n", rd->id, info->id); pd->info = pw_port_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_port(pd); pd->global->info_pending = false; } } static const struct pw_port_events port_events = { PW_VERSION_PORT_EVENTS, .info = port_event_info, .param = event_param }; static void factory_event_info(void *data, const struct pw_factory_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d factory %d changed\n", rd->id, info->id); pd->info = pw_factory_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_factory(pd); pd->global->info_pending = false; } } static const struct pw_factory_events factory_events = { PW_VERSION_FACTORY_EVENTS, .info = factory_event_info }; static void client_event_info(void *data, const struct pw_client_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d client %d changed\n", rd->id, info->id); pd->info = pw_client_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_client(pd); pd->global->info_pending = false; } } static void client_event_permissions(void *_data, uint32_t index, uint32_t n_permissions, const struct pw_permission *permissions) { struct proxy_data *data = _data; struct remote_data *rd = data->rd; uint32_t i; printf("remote %d node %d index %d\n", rd->id, data->global->id, index); for (i = 0; i < n_permissions; i++) { if (permissions[i].id == PW_ID_ANY) printf(" default:"); else printf(" %u:", permissions[i].id); printf(" "PW_PERMISSION_FORMAT"\n", PW_PERMISSION_ARGS(permissions[i].permissions)); } } static const struct pw_client_events client_events = { PW_VERSION_CLIENT_EVENTS, .info = client_event_info, .permissions = client_event_permissions }; static void link_event_info(void *data, const struct pw_link_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d link %d changed\n", rd->id, info->id); pd->info = pw_link_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_link(pd); pd->global->info_pending = false; } } static const struct pw_link_events link_events = { PW_VERSION_LINK_EVENTS, .info = link_event_info }; static void device_event_info(void *data, const struct pw_device_info *info) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; if (pd->info && rd->data->monitoring) printf("remote %d device %d changed\n", rd->id, info->id); pd->info = pw_device_info_update(pd->info, info); if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_device(pd); pd->global->info_pending = false; } } static const struct pw_device_events device_events = { PW_VERSION_DEVICE_EVENTS, .info = device_event_info, .param = event_param }; static void session_info_free(struct pw_session_info *info) { free(info->params); pw_properties_free ((struct pw_properties *)info->props); free(info); } static void session_event_info(void *data, const struct pw_session_info *update) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; struct pw_session_info *info = pd->info; if (!info) { info = pd->info = calloc(1, sizeof(*info)); info->id = update->id; } if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_PARAMS) { info->n_params = update->n_params; free(info->params); info->params = malloc(info->n_params * sizeof(struct spa_param_info)); memcpy(info->params, update->params, info->n_params * sizeof(struct spa_param_info)); } if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_PROPS) { pw_properties_free ((struct pw_properties *)info->props); info->props = (struct spa_dict *) pw_properties_new_dict (update->props); } if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_session(pd); pd->global->info_pending = false; } } static const struct pw_session_events session_events = { PW_VERSION_SESSION_EVENTS, .info = session_event_info, .param = event_param }; static void endpoint_info_free(struct pw_endpoint_info *info) { free(info->name); free(info->media_class); free(info->params); pw_properties_free ((struct pw_properties *)info->props); free(info); } static void endpoint_event_info(void *data, const struct pw_endpoint_info *update) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; struct pw_endpoint_info *info = pd->info; if (!info) { info = pd->info = calloc(1, sizeof(*info)); info->id = update->id; info->name = update->name ? strdup(update->name) : NULL; info->media_class = update->media_class ? strdup(update->media_class) : NULL; info->direction = update->direction; info->flags = update->flags; } if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_STREAMS) info->n_streams = update->n_streams; if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_SESSION) info->session_id = update->session_id; if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_PARAMS) { info->n_params = update->n_params; free(info->params); info->params = malloc(info->n_params * sizeof(struct spa_param_info)); memcpy(info->params, update->params, info->n_params * sizeof(struct spa_param_info)); } if (update->change_mask & PW_ENDPOINT_CHANGE_MASK_PROPS) { pw_properties_free ((struct pw_properties *)info->props); info->props = (struct spa_dict *) pw_properties_new_dict (update->props); } if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_endpoint(pd); pd->global->info_pending = false; } } static const struct pw_endpoint_events endpoint_events = { PW_VERSION_ENDPOINT_EVENTS, .info = endpoint_event_info, .param = event_param }; static void endpoint_stream_info_free(struct pw_endpoint_stream_info *info) { free(info->name); free(info->params); pw_properties_free ((struct pw_properties *)info->props); free(info); } static void endpoint_stream_event_info(void *data, const struct pw_endpoint_stream_info *update) { struct proxy_data *pd = data; struct remote_data *rd = pd->rd; struct pw_endpoint_stream_info *info = pd->info; if (!info) { info = pd->info = calloc(1, sizeof(*info)); info->id = update->id; info->endpoint_id = update->endpoint_id; info->name = update->name ? strdup(update->name) : NULL; } if (update->change_mask & PW_ENDPOINT_STREAM_CHANGE_MASK_PARAMS) { info->n_params = update->n_params; free(info->params); info->params = malloc(info->n_params * sizeof(struct spa_param_info)); memcpy(info->params, update->params, info->n_params * sizeof(struct spa_param_info)); } if (update->change_mask & PW_ENDPOINT_STREAM_CHANGE_MASK_PROPS) { pw_properties_free ((struct pw_properties *)info->props); info->props = (struct spa_dict *) pw_properties_new_dict (update->props); } if (pd->global == NULL) pd->global = pw_map_lookup(&rd->globals, info->id); if (pd->global && pd->global->info_pending) { info_endpoint_stream(pd); pd->global->info_pending = false; } } static const struct pw_endpoint_stream_events endpoint_stream_events = { PW_VERSION_ENDPOINT_STREAM_EVENTS, .info = endpoint_stream_event_info, .param = event_param }; static void removed_proxy (void *data) { struct proxy_data *pd = data; pw_proxy_destroy(pd->proxy); } static void destroy_proxy (void *data) { struct proxy_data *pd = data; spa_hook_remove(&pd->proxy_listener); spa_hook_remove(&pd->object_listener); if (pd->global) pd->global->proxy = NULL; if (pd->info == NULL) return; if (pd->class->destroy) pd->class->destroy(pd->info); pd->info = NULL; } static const struct pw_proxy_events proxy_events = { PW_VERSION_PROXY_EVENTS, .removed = removed_proxy, .destroy = destroy_proxy, }; static bool do_list_objects(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; pw_map_for_each(&rd->globals, print_global, args); return true; } static const struct class core_class = { .type = PW_TYPE_INTERFACE_Core, .version = PW_VERSION_CORE, .events = &core_events, .destroy = (pw_destroy_t) pw_core_info_free, .info = info_core, .name_key = PW_KEY_CORE_NAME, }; static const struct class module_class = { .type = PW_TYPE_INTERFACE_Module, .version = PW_VERSION_MODULE, .events = &module_events, .destroy = (pw_destroy_t) pw_module_info_free, .info = info_module, .name_key = PW_KEY_MODULE_NAME, }; static const struct class factory_class = { .type = PW_TYPE_INTERFACE_Factory, .version = PW_VERSION_FACTORY, .events = &factory_events, .destroy = (pw_destroy_t) pw_factory_info_free, .info = info_factory, .name_key = PW_KEY_FACTORY_NAME, }; static const struct class client_class = { .type = PW_TYPE_INTERFACE_Client, .version = PW_VERSION_CLIENT, .events = &client_events, .destroy = (pw_destroy_t) pw_client_info_free, .info = info_client, .name_key = PW_KEY_APP_NAME, }; static const struct class device_class = { .type = PW_TYPE_INTERFACE_Device, .version = PW_VERSION_DEVICE, .events = &device_events, .destroy = (pw_destroy_t) pw_device_info_free, .info = info_device, .name_key = PW_KEY_DEVICE_NAME, }; static const struct class node_class = { .type = PW_TYPE_INTERFACE_Node, .version = PW_VERSION_NODE, .events = &node_events, .destroy = (pw_destroy_t) pw_node_info_free, .info = info_node, .name_key = PW_KEY_NODE_NAME, }; static const struct class port_class = { .type = PW_TYPE_INTERFACE_Port, .version = PW_VERSION_PORT, .events = &port_events, .destroy = (pw_destroy_t) pw_port_info_free, .info = info_port, .name_key = PW_KEY_PORT_NAME, }; static const struct class link_class = { .type = PW_TYPE_INTERFACE_Link, .version = PW_VERSION_LINK, .events = &link_events, .destroy = (pw_destroy_t) pw_link_info_free, .info = info_link, }; static const struct class session_class = { .type = PW_TYPE_INTERFACE_Session, .version = PW_VERSION_SESSION, .events = &session_events, .destroy = (pw_destroy_t) session_info_free, .info = info_session, }; static const struct class endpoint_class = { .type = PW_TYPE_INTERFACE_Endpoint, .version = PW_VERSION_ENDPOINT, .events = &endpoint_events, .destroy = (pw_destroy_t) endpoint_info_free, .info = info_endpoint, }; static const struct class endpoint_stream_class = { .type = PW_TYPE_INTERFACE_EndpointStream, .version = PW_VERSION_ENDPOINT_STREAM, .events = &endpoint_stream_events, .destroy = (pw_destroy_t) endpoint_stream_info_free, .info = info_endpoint_stream, }; static const struct class metadata_class = { .type = PW_TYPE_INTERFACE_Metadata, .version = PW_VERSION_METADATA, .name_key = PW_KEY_METADATA_NAME, }; static const struct class *classes[] = { &core_class, &module_class, &factory_class, &client_class, &device_class, &node_class, &port_class, &link_class, &session_class, &endpoint_class, &endpoint_stream_class, &metadata_class, }; static const struct class *find_class(const char *type, uint32_t version) { SPA_FOR_EACH_ELEMENT_VAR(classes, c) { if (spa_streq((*c)->type, type) && (*c)->version <= version) return *c; } return NULL; } static bool bind_global(struct remote_data *rd, struct global *global, char **error) { const struct class *class; struct proxy_data *pd; struct pw_proxy *proxy; class = find_class(global->type, global->version); if (class == NULL) { *error = spa_aprintf("unsupported type %s", global->type); return false; } global->class = class; proxy = pw_registry_bind(rd->registry, global->id, global->type, class->version, sizeof(struct proxy_data)); pd = pw_proxy_get_user_data(proxy); pd->rd = rd; pd->global = global; pd->proxy = proxy; pd->class = class; pw_proxy_add_object_listener(proxy, &pd->object_listener, class->events, pd); pw_proxy_add_listener(proxy, &pd->proxy_listener, &proxy_events, pd); global->proxy = proxy; rd->prompt_pending = pw_core_sync(rd->core, 0, 0); return true; } static bool do_global_info(struct global *global, char **error) { struct remote_data *rd = global->rd; struct proxy_data *pd; if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; global->info_pending = true; } else { pd = pw_proxy_get_user_data(global->proxy); if (pd->class->info) pd->class->info(pd); } return true; } static int do_global_info_all(void *obj, void *data) { struct global *global = obj; char *error; if (global == NULL) return 0; if (!do_global_info(global, &error)) { fprintf(stderr, "info: %s\n", error); free(error); } return 0; } static bool do_info(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[1]; int n; struct global *global; n = pw_split_ip(args, WHITESPACE, 1, a); if (n < 1) { *error = spa_aprintf("%s |all", cmd); return false; } if (spa_streq(a[0], "all")) { pw_map_for_each(&rd->globals, do_global_info_all, NULL); } else { global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } return do_global_info(global, error); } return true; } static bool do_create_device(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[2]; int n; uint32_t id; struct pw_proxy *proxy; struct pw_properties *props = NULL; struct proxy_data *pd; n = pw_split_ip(args, WHITESPACE, 2, a); if (n < 1) { *error = spa_aprintf("%s []", cmd); return false; } if (n == 2) props = pw_properties_new_string(a[1]); proxy = pw_core_create_object(rd->core, a[0], PW_TYPE_INTERFACE_Device, PW_VERSION_DEVICE, props ? &props->dict : NULL, sizeof(struct proxy_data)); pw_properties_free(props); pd = pw_proxy_get_user_data(proxy); pd->rd = rd; pd->proxy = proxy; pd->class = &device_class; pw_proxy_add_object_listener(proxy, &pd->object_listener, &device_events, pd); pw_proxy_add_listener(proxy, &pd->proxy_listener, &proxy_events, pd); id = pw_map_insert_new(&data->vars, proxy); if (rd->data->interactive) printf("%d = @proxy:%d\n", id, pw_proxy_get_id(proxy)); return true; } static bool do_create_node(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[2]; int n; uint32_t id; struct pw_proxy *proxy; struct pw_properties *props = NULL; struct proxy_data *pd; n = pw_split_ip(args, WHITESPACE, 2, a); if (n < 1) { *error = spa_aprintf("%s []", cmd); return false; } if (n == 2) props = pw_properties_new_string(a[1]); proxy = pw_core_create_object(rd->core, a[0], PW_TYPE_INTERFACE_Node, PW_VERSION_NODE, props ? &props->dict : NULL, sizeof(struct proxy_data)); pw_properties_free(props); pd = pw_proxy_get_user_data(proxy); pd->rd = rd; pd->proxy = proxy; pd->class = &node_class; pw_proxy_add_object_listener(proxy, &pd->object_listener, &node_events, pd); pw_proxy_add_listener(proxy, &pd->proxy_listener, &proxy_events, pd); id = pw_map_insert_new(&data->vars, proxy); if (rd->data->interactive) printf("%d = @proxy:%d\n", id, pw_proxy_get_id(proxy)); return true; } static bool do_destroy(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[1]; int n; struct global *global; n = pw_split_ip(args, WHITESPACE, 1, a); if (n < 1) { *error = spa_aprintf("%s ", cmd); return false; } global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } pw_registry_destroy(rd->registry, global->id); return true; } static struct global * obj_global_port(struct remote_data *rd, struct global *global, const char *port_direction, const char *port_id) { struct global *global_port_found = NULL; uint32_t *ports = NULL; int port_count; port_count = children_of(rd, global->id, PW_TYPE_INTERFACE_Port, &ports); if (port_count <= 0) return NULL; for (int i = 0; i < port_count; i++) { struct global *global_port = obj_global(rd, ports[i]); if (!global_port) continue; struct spa_dict *props_port = global_props(global_port); if (spa_streq(spa_dict_lookup(props_port, "port.direction"), port_direction) && spa_streq(spa_dict_lookup(props_port, "port.id"), port_id)) { global_port_found = global_port; break; } } free(ports); return global_port_found; } static void create_link_with_properties(struct data *data, struct pw_properties *props) { struct remote_data *rd = data->current; uint32_t id; struct pw_proxy *proxy; struct proxy_data *pd; proxy = (struct pw_proxy*)pw_core_create_object(rd->core, "link-factory", PW_TYPE_INTERFACE_Link, PW_VERSION_LINK, props ? &props->dict : NULL, sizeof(struct proxy_data)); pd = pw_proxy_get_user_data(proxy); pd->rd = rd; pd->proxy = proxy; pd->class = &link_class; pw_proxy_add_object_listener(proxy, &pd->object_listener, &link_events, pd); pw_proxy_add_listener(proxy, &pd->proxy_listener, &proxy_events, pd); id = pw_map_insert_new(&data->vars, proxy); if (rd->data->interactive) printf("%d = @proxy:%d\n", id, pw_proxy_get_id((struct pw_proxy*)proxy)); } static bool do_create_link(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[5]; int n; struct pw_properties *props = NULL; n = pw_split_ip(args, WHITESPACE, 5, a); if (n < 4) { *error = spa_aprintf("%s []", cmd); return false; } if (n == 5) props = pw_properties_new_string(a[4]); else props = pw_properties_new(NULL, NULL); if (!spa_streq(a[0], "-")) pw_properties_set(props, PW_KEY_LINK_OUTPUT_NODE, a[0]); if (!spa_streq(a[1], "-")) pw_properties_set(props, PW_KEY_LINK_OUTPUT_PORT, a[1]); if (!spa_streq(a[2], "-")) pw_properties_set(props, PW_KEY_LINK_INPUT_NODE, a[2]); if (!spa_streq(a[3], "-")) pw_properties_set(props, PW_KEY_LINK_INPUT_PORT, a[3]); if (spa_streq(a[1], "*") && spa_streq(a[3], "*")) { struct global *global_out, *global_in; struct proxy_data *pd_out, *pd_in; uint32_t n_output_ports, n_input_ports; global_out = find_global(rd, a[0]); if (global_out == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } global_in = find_global(rd, a[2]); if (global_in == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[2]); return false; } pd_out = pw_proxy_get_user_data(global_out->proxy); pd_in = pw_proxy_get_user_data(global_in->proxy); n_output_ports = ((struct pw_node_info *)pd_out->info)->n_output_ports; n_input_ports = ((struct pw_node_info *)pd_in->info)->n_input_ports; if (n_output_ports != n_input_ports) { *error = spa_aprintf("%s: Number of ports don't match (%u != %u)", cmd, n_output_ports, n_input_ports); return false; } for (uint32_t i = 0; i < n_output_ports; i++) { char port_id[4]; struct global *global_port_out, *global_port_in; snprintf(port_id, 4, "%d", i); global_port_out = obj_global_port(rd, global_out, "out", port_id); global_port_in = obj_global_port(rd, global_in, "in", port_id); if (!global_port_out || !global_port_in) continue; pw_properties_setf(props, PW_KEY_LINK_OUTPUT_PORT, "%d", global_port_out->id); pw_properties_setf(props, PW_KEY_LINK_INPUT_PORT, "%d", global_port_in->id); create_link_with_properties(data, props); } } else create_link_with_properties(data, props); pw_properties_free(props); return true; } static bool do_export_node(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; struct pw_global *global; struct pw_node *node; struct pw_proxy *proxy; char *a[2]; int n, idx; uint32_t id; n = pw_split_ip(args, WHITESPACE, 2, a); if (n < 1) { *error = spa_aprintf("%s []", cmd); return false; } if (n == 2) { idx = atoi(a[1]); rd = pw_map_lookup(&data->vars, idx); if (rd == NULL) goto no_remote; } global = pw_context_find_global(data->context, atoi(a[0])); if (global == NULL) { *error = spa_aprintf("object %d does not exist", atoi(a[0])); return false; } if (!pw_global_is_type(global, PW_TYPE_INTERFACE_Node)) { *error = spa_aprintf("object %d is not a node", atoi(a[0])); return false; } node = pw_global_get_object(global); proxy = pw_core_export(rd->core, PW_TYPE_INTERFACE_Node, NULL, node, 0); id = pw_map_insert_new(&data->vars, proxy); if (rd->data->interactive) printf("%d = @proxy:%d\n", id, pw_proxy_get_id((struct pw_proxy*)proxy)); return true; no_remote: *error = spa_aprintf("Remote %d does not exist", idx); return false; } static bool do_enum_params(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[2]; int n; uint32_t param_id; const struct spa_type_info *ti; struct global *global; n = pw_split_ip(args, WHITESPACE, 2, a); if (n < 2) { *error = spa_aprintf("%s ", cmd); return false; } ti = spa_debug_type_find_short(spa_type_param, a[1]); if (ti == NULL) { *error = spa_aprintf("%s: unknown param type: %s", cmd, a[1]); return false; } param_id = ti->type; global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; } if (spa_streq(global->type, PW_TYPE_INTERFACE_Node)) pw_node_enum_params((struct pw_node*)global->proxy, 0, param_id, 0, 0, NULL); else if (spa_streq(global->type, PW_TYPE_INTERFACE_Port)) pw_port_enum_params((struct pw_port*)global->proxy, 0, param_id, 0, 0, NULL); else if (spa_streq(global->type, PW_TYPE_INTERFACE_Device)) pw_device_enum_params((struct pw_device*)global->proxy, 0, param_id, 0, 0, NULL); else if (spa_streq(global->type, PW_TYPE_INTERFACE_Endpoint)) pw_endpoint_enum_params((struct pw_endpoint*)global->proxy, 0, param_id, 0, 0, NULL); else { *error = spa_aprintf("enum-params not implemented on object %d type:%s", atoi(a[0]), global->type); return false; } return true; } static bool do_set_param(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[3]; int res, n; uint32_t param_id; struct global *global; uint8_t buffer[1024]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, sizeof(buffer)); const struct spa_type_info *ti; struct spa_pod *pod; n = pw_split_ip(args, WHITESPACE, 3, a); if (n < 3) { *error = spa_aprintf("%s ", cmd); return false; } global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; } ti = spa_debug_type_find_short(spa_type_param, a[1]); if (ti == NULL) { *error = spa_aprintf("%s: unknown param type: %s", cmd, a[1]); return false; } if ((res = spa_json_to_pod(&b, 0, ti, a[2], strlen(a[2]))) < 0) { *error = spa_aprintf("%s: can't make pod: %s", cmd, spa_strerror(res)); return false; } if ((pod = spa_pod_builder_deref(&b, 0)) == NULL) { *error = spa_aprintf("%s: can't make pod", cmd); return false; } spa_debug_pod(0, NULL, pod); param_id = ti->type; if (spa_streq(global->type, PW_TYPE_INTERFACE_Node)) pw_node_set_param((struct pw_node*)global->proxy, param_id, 0, pod); else if (spa_streq(global->type, PW_TYPE_INTERFACE_Device)) pw_device_set_param((struct pw_device*)global->proxy, param_id, 0, pod); else if (spa_streq(global->type, PW_TYPE_INTERFACE_Endpoint)) pw_endpoint_set_param((struct pw_endpoint*)global->proxy, param_id, 0, pod); else { *error = spa_aprintf("set-param not implemented on object %d type:%s", atoi(a[0]), global->type); return false; } return true; } static bool do_permissions(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[3]; int n; uint32_t p; struct global *global; struct pw_permission permissions[1]; n = pw_split_ip(args, WHITESPACE, 3, a); if (n < 3) { *error = spa_aprintf("%s ", cmd); return false; } global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } if (!spa_streq(global->type, PW_TYPE_INTERFACE_Client)) { *error = spa_aprintf("object %d is not a client", atoi(a[0])); return false; } if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; } p = strtol(a[2], NULL, 0); if (rd->data->interactive) printf("setting permissions: "PW_PERMISSION_FORMAT"\n", PW_PERMISSION_ARGS(p)); permissions[0] = PW_PERMISSION_INIT(atoi(a[1]), p); pw_client_update_permissions((struct pw_client*)global->proxy, 1, permissions); return true; } static bool do_get_permissions(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[3]; int n; struct global *global; n = pw_split_ip(args, WHITESPACE, 1, a); if (n < 1) { *error = spa_aprintf("%s ", cmd); return false; } global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } if (!spa_streq(global->type, PW_TYPE_INTERFACE_Client)) { *error = spa_aprintf("object %d is not a client", atoi(a[0])); return false; } if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; } pw_client_get_permissions((struct pw_client*)global->proxy, 0, UINT32_MAX); return true; } static bool do_send_command(struct data *data, const char *cmd, char *args, char **error) { struct remote_data *rd = data->current; char *a[3]; int res, n; struct global *global; uint8_t buffer[1024]; struct spa_pod_builder b = SPA_POD_BUILDER_INIT(buffer, sizeof(buffer)); const struct spa_type_info *ti; struct spa_pod *pod; n = pw_split_ip(args, WHITESPACE, 3, a); if (n < 3) { *error = spa_aprintf("%s ", cmd); return false; } global = find_global(rd, a[0]); if (global == NULL) { *error = spa_aprintf("%s: unknown global '%s'", cmd, a[0]); return false; } if (global->proxy == NULL) { if (!bind_global(rd, global, error)) return false; } if (spa_streq(global->type, PW_TYPE_INTERFACE_Node)) { ti = spa_debug_type_find_short(spa_type_node_command_id, a[1]); } else { *error = spa_aprintf("send-command not implemented on object %d type:%s", atoi(a[0]), global->type); return false; } if (ti == NULL) { *error = spa_aprintf("%s: unknown node command type: %s", cmd, a[1]); return false; } if ((res = spa_json_to_pod(&b, 0, ti, a[2], strlen(a[2]))) < 0) { *error = spa_aprintf("%s: can't make pod: %s", cmd, spa_strerror(res)); return false; } if ((pod = spa_pod_builder_deref(&b, 0)) == NULL) { *error = spa_aprintf("%s: can't make pod", cmd); return false; } spa_debug_pod(0, NULL, pod); pw_node_send_command((struct pw_node*)global->proxy, (struct spa_command*)pod); return true; } static struct global * obj_global(struct remote_data *rd, uint32_t id) { struct global *global; struct proxy_data *pd; if (!rd) return NULL; global = pw_map_lookup(&rd->globals, id); if (!global) return NULL; pd = pw_proxy_get_user_data(global->proxy); if (!pd || !pd->info) return NULL; return global; } static struct spa_dict * global_props(struct global *global) { struct proxy_data *pd; if (!global) return NULL; pd = pw_proxy_get_user_data(global->proxy); if (!pd || !pd->info) return NULL; if (spa_streq(global->type, PW_TYPE_INTERFACE_Core)) return ((struct pw_core_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Module)) return ((struct pw_module_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Device)) return ((struct pw_device_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Node)) return ((struct pw_node_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Port)) return ((struct pw_port_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Factory)) return ((struct pw_factory_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Client)) return ((struct pw_client_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Link)) return ((struct pw_link_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Session)) return ((struct pw_session_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_Endpoint)) return ((struct pw_endpoint_info *)pd->info)->props; if (spa_streq(global->type, PW_TYPE_INTERFACE_EndpointStream)) return ((struct pw_endpoint_stream_info *)pd->info)->props; return NULL; } static const char * global_lookup(struct global *global, const char *key) { struct spa_dict *dict; dict = global_props(global); if (!dict) return NULL; return spa_dict_lookup(dict, key); } static int children_of(struct remote_data *rd, uint32_t parent_id, const char *child_type, uint32_t **children) { const char *parent_type; union pw_map_item *item; struct global *global; struct proxy_data *pd; const char *parent_key = NULL, *child_key = NULL; const char *parent_value = NULL, *child_value = NULL; int pass, i, count; if (!rd || !children) return -1; /* get the device info */ global = obj_global(rd, parent_id); if (!global) return -1; parent_type = global->type; pd = pw_proxy_get_user_data(global->proxy); if (!pd || !pd->info) return -1; /* supported combinations */ if (spa_streq(parent_type, PW_TYPE_INTERFACE_Device) && spa_streq(child_type, PW_TYPE_INTERFACE_Node)) { parent_key = PW_KEY_OBJECT_ID; child_key = PW_KEY_DEVICE_ID; } else if (spa_streq(parent_type, PW_TYPE_INTERFACE_Node) && spa_streq(child_type, PW_TYPE_INTERFACE_Port)) { parent_key = PW_KEY_OBJECT_ID; child_key = PW_KEY_NODE_ID; } else if (spa_streq(parent_type, PW_TYPE_INTERFACE_Module) && spa_streq(child_type, PW_TYPE_INTERFACE_Factory)) { parent_key = PW_KEY_OBJECT_ID; child_key = PW_KEY_MODULE_ID; } else if (spa_streq(parent_type, PW_TYPE_INTERFACE_Factory) && spa_streq(child_type, PW_TYPE_INTERFACE_Device)) { parent_key = PW_KEY_OBJECT_ID; child_key = PW_KEY_FACTORY_ID; } else return -1; /* get the parent key value */ if (parent_key) { parent_value = global_lookup(global, parent_key); if (!parent_value) return -1; } count = 0; *children = NULL; i = 0; for (pass = 1; pass <= 2; pass++) { if (pass == 2) { count = i; if (!count) return 0; *children = malloc(sizeof(uint32_t) * count); if (!*children) return -1; } i = 0; pw_array_for_each(item, &rd->globals.items) { if (pw_map_item_is_free(item) || item->data == NULL) continue; global = item->data; if (!spa_streq(global->type, child_type)) continue; pd = pw_proxy_get_user_data(global->proxy); if (!pd || !pd->info) return -1; if (child_key) { /* get the device path */ child_value = global_lookup(global, child_key); if (!child_value) continue; } /* match? */ if (!spa_streq(parent_value, child_value)) continue; if (*children) (*children)[i] = global->id; i++; } } return count; } #define INDENT(_level) \ ({ \ int __level = (_level); \ char *_indent = alloca(__level + 1); \ memset(_indent, '\t', __level); \ _indent[__level] = '\0'; \ (const char *)_indent; \ }) static bool parse(struct data *data, char *buf, char **error) { char *a[2]; int n; char *p, *cmd, *args; if ((p = strchr(buf, '#'))) *p = '\0'; p = pw_strip(buf, "\n\r \t"); if (*p == '\0') return true; n = pw_split_ip(p, WHITESPACE, 2, a); if (n < 1) return true; cmd = a[0]; args = n > 1 ? a[1] : ""; SPA_FOR_EACH_ELEMENT_VAR(command_list, c) { if (spa_streq(c->name, cmd) || spa_streq(c->alias, cmd)) { return c->func(data, cmd, args, error); } } *error = spa_aprintf("Command \"%s\" does not exist. Type 'help' for usage.", cmd); return false; } /* We need a global variable, readline doesn't have a closure arg */ static struct data *input_dataptr; static void input_process_line(char *line) { struct data *d = input_dataptr; char *error; if (!line) line = strdup("quit"); if (line[0] != '\0') { #ifdef HAVE_READLINE add_history(line); #endif if (!parse(d, line, &error)) { fprintf(stderr, "Error: \"%s\"\n", error); free(error); } } free(line); } static void do_input(void *data, int fd, uint32_t mask) { struct data *d = data; if (mask & SPA_IO_IN) { input_dataptr = d; #ifdef HAVE_READLINE rl_callback_read_char(); #else { char *line = NULL; size_t s = 0; if (getline(&line, &s, stdin) < 0) { free(line); line = NULL; } input_process_line(line); } #endif if (d->current == NULL) pw_main_loop_quit(d->loop); else { struct remote_data *rd = d->current; if (rd->core) rd->prompt_pending = pw_core_sync(rd->core, 0, 0); } } } #ifdef HAVE_READLINE static char * readline_match_command(const char *text, int state) { static size_t idx; static int len; if (!state) { idx = 0; len = strlen(text); } while (idx < SPA_N_ELEMENTS(command_list)) { const char *name = command_list[idx].name; const char *alias = command_list[idx].alias; idx++; if (spa_strneq(name, text, len) || spa_strneq(alias, text, len)) return strdup(name); } return NULL; } static char ** readline_command_completion(const char *text, int start, int end) { char **matches = NULL; /* Only try to complete the first word in a line */ if (start == 0) matches = rl_completion_matches(text, readline_match_command); /* Don't fall back to filename completion */ rl_attempted_completion_over = true; return matches; } static void readline_init(void) { rl_attempted_completion_function = readline_command_completion; rl_callback_handler_install(">> ", input_process_line); } static void readline_cleanup(void) { rl_callback_handler_remove(); } #endif static void do_quit_on_signal(void *data, int signal_number) { struct data *d = data; d->quit = true; pw_main_loop_quit(d->loop); } static void show_help(struct data *data, const char *name, bool error) { fprintf(error ? stderr : stdout, _("%s [options] [command]\n" " -h, --help Show this help\n" " --version Show version\n" " -d, --daemon Start as daemon (Default false)\n" " -r, --remote Remote daemon name\n" " -m, --monitor Monitor activity\n\n"), name); do_help(data, "help", "", NULL); } int main(int argc, char *argv[]) { struct data data = { 0 }; struct pw_loop *l; char *opt_remote = NULL; char *error; bool daemon = false, monitor = false; struct remote_data *rd; static const struct option long_options[] = { { "help", no_argument, NULL, 'h' }, { "version", no_argument, NULL, 'V' }, { "monitor", no_argument, NULL, 'm' }, { "daemon", no_argument, NULL, 'd' }, { "remote", required_argument, NULL, 'r' }, { NULL, 0, NULL, 0} }; int c, i; setlinebuf(stdout); setlocale(LC_ALL, ""); pw_init(&argc, &argv); while ((c = getopt_long(argc, argv, "hVmdr:", long_options, NULL)) != -1) { switch (c) { case 'h': show_help(&data, argv[0], false); return 0; case 'V': printf("%s\n" "Compiled with libpipewire %s\n" "Linked with libpipewire %s\n", argv[0], pw_get_headers_version(), pw_get_library_version()); return 0; case 'd': daemon = true; break; case 'm': monitor = true; break; case 'r': opt_remote = optarg; break; default: show_help(&data, argv[0], true); return -1; } } data.loop = pw_main_loop_new(NULL); if (data.loop == NULL) { fprintf(stderr, "Broken installation: %m\n"); return -1; } l = pw_main_loop_get_loop(data.loop); pw_loop_add_signal(l, SIGINT, do_quit_on_signal, &data); pw_loop_add_signal(l, SIGTERM, do_quit_on_signal, &data); spa_list_init(&data.remotes); pw_map_init(&data.vars, 64, 16); data.context = pw_context_new(l, pw_properties_new( PW_KEY_CORE_DAEMON, daemon ? "true" : NULL, NULL), 0); if (data.context == NULL) { fprintf(stderr, "Can't create context: %m\n"); return -1; } pw_context_load_module(data.context, "libpipewire-module-link-factory", NULL, NULL); if (!do_connect(&data, "connect", opt_remote, &error)) { fprintf(stderr, "Error: \"%s\"\n", error); return -1; } if (optind == argc) { data.interactive = true; printf("Welcome to PipeWire version %s. Type 'help' for usage.\n", pw_get_library_version()); #ifdef HAVE_READLINE readline_init(); #endif pw_loop_add_io(l, STDIN_FILENO, SPA_IO_IN|SPA_IO_HUP, false, do_input, &data); pw_main_loop_run(data.loop); #ifdef HAVE_READLINE readline_cleanup(); #endif } else { char buf[4096], *p, *error; p = buf; for (i = optind; i < argc; i++) { p = stpcpy(p, argv[i]); p = stpcpy(p, " "); } pw_main_loop_run(data.loop); if (!parse(&data, buf, &error)) { fprintf(stderr, "Error: \"%s\"\n", error); free(error); } data.current->prompt_pending = pw_core_sync(data.current->core, 0, 0); while (!data.quit && data.current) { pw_main_loop_run(data.loop); if (!monitor) break; } } spa_list_consume(rd, &data.remotes, link) remote_data_free(rd); pw_context_destroy(data.context); pw_main_loop_destroy(data.loop); pw_map_clear(&data.vars); pw_deinit(); return 0; }