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jackdbus/dbus/controller.c

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/* -*- Mode: C ; c-basic-offset: 4 -*- */
/*
Copyright (C) 2007,2008,2010,2011 Nedko Arnaudov
Copyright (C) 2007-2008 Juuso Alasuutari
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#if defined(HAVE_CONFIG_H)
#include "config.h"
#endif
#include <stdint.h>
#include <string.h>
#include <dbus/dbus.h>
#include <assert.h>
#include <unistd.h>
#include <sys/sysinfo.h>
#include <errno.h>
#include "controller.h"
#include "controller_internal.h"
#include "xml.h"
#include "reserve.h"
struct jack_dbus_interface_descriptor * g_jackcontroller_interfaces[] =
{
&g_jack_controller_iface_introspectable,
&g_jack_controller_iface_control,
&g_jack_controller_iface_configure,
&g_jack_controller_iface_patchbay,
&g_jack_controller_iface_session_manager,
&g_jack_controller_iface_transport,
NULL
};
static
jackctl_driver_t *
jack_controller_find_driver(
jackctl_server_t *server,
const char *driver_name)
{
const JSList * node_ptr;
node_ptr = jackctl_server_get_drivers_list(server);
while (node_ptr)
{
if (strcmp(jackctl_driver_get_name((jackctl_driver_t *)node_ptr->data), driver_name) == 0)
{
return node_ptr->data;
}
node_ptr = jack_slist_next(node_ptr);
}
return NULL;
}
static bool jack_controller_check_slave_driver(struct jack_controller * controller_ptr, const char * name)
{
struct list_head * node_ptr;
struct jack_controller_slave_driver * driver_ptr;
list_for_each(node_ptr, &controller_ptr->slave_drivers)
{
driver_ptr = list_entry(node_ptr, struct jack_controller_slave_driver, siblings);
if (strcmp(name, driver_ptr->name) == 0)
{
return true;
}
}
return false;
}
static bool jack_controller_load_slave_drivers(struct jack_controller * controller_ptr)
{
struct list_head * node_ptr;
struct jack_controller_slave_driver * driver_ptr;
list_for_each(node_ptr, &controller_ptr->slave_drivers)
{
driver_ptr = list_entry(node_ptr, struct jack_controller_slave_driver, siblings);
assert(driver_ptr->handle != NULL);
assert(!driver_ptr->loaded);
if (!jackctl_server_add_slave(controller_ptr->server, driver_ptr->handle))
{
jack_error("Driver \"%s\" cannot be loaded", driver_ptr->name);
return false;
}
driver_ptr->loaded = true;
}
return true;
}
static void jack_controller_unload_slave_drivers(struct jack_controller * controller_ptr)
{
struct list_head * node_ptr;
struct jack_controller_slave_driver * driver_ptr;
list_for_each(node_ptr, &controller_ptr->slave_drivers)
{
driver_ptr = list_entry(node_ptr, struct jack_controller_slave_driver, siblings);
if (driver_ptr->loaded)
{
jackctl_server_remove_slave(controller_ptr->server, driver_ptr->handle);
driver_ptr->loaded = false;
}
}
}
static void jack_controller_remove_slave_drivers(struct jack_controller * controller_ptr)
{
struct jack_controller_slave_driver * driver_ptr;
while (!list_empty(&controller_ptr->slave_drivers))
{
driver_ptr = list_entry(controller_ptr->slave_drivers.next, struct jack_controller_slave_driver, siblings);
assert(!driver_ptr->loaded);
list_del(&driver_ptr->siblings);
free(driver_ptr->name);
free(driver_ptr);
}
controller_ptr->slave_drivers_vparam_value.str[0] = 0;
}
static
jackctl_internal_t *
jack_controller_find_internal(
jackctl_server_t *server,
const char *internal_name)
{
const JSList * node_ptr;
node_ptr = jackctl_server_get_internals_list(server);
while (node_ptr)
{
if (strcmp(jackctl_internal_get_name((jackctl_internal_t *)node_ptr->data), internal_name) == 0)
{
return node_ptr->data;
}
node_ptr = jack_slist_next(node_ptr);
}
return NULL;
}
bool
jack_controller_select_driver(
struct jack_controller * controller_ptr,
const char * driver_name)
{
if (!jack_params_set_driver(controller_ptr->params, driver_name))
{
return false;
}
jack_info("driver \"%s\" selected", driver_name);
return true;
}
static
int
jack_controller_xrun(void * arg)
{
((struct jack_controller *)arg)->xruns++;
return 0;
}
bool
jack_controller_start_server(
struct jack_controller * controller_ptr,
void *dbus_call_context_ptr)
{
int ret;
jack_info("Starting jack server...");
assert(!controller_ptr->started); /* should be ensured by caller */
controller_ptr->xruns = 0;
if (!jackctl_server_open(
controller_ptr->server,
jack_params_get_driver(controller_ptr->params)))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to open server");
goto fail;
}
jack_controller_load_slave_drivers(controller_ptr);
if (!jackctl_server_start(
controller_ptr->server))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to start server");
goto fail_close_server;
}
controller_ptr->client = jack_client_open(
"dbusapi",
JackNoStartServer,
NULL);
if (controller_ptr->client == NULL)
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "failed to create dbusapi jack client");
goto fail_stop_server;
}
ret = jack_set_xrun_callback(controller_ptr->client, jack_controller_xrun, controller_ptr);
if (ret != 0)
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "failed to set xrun callback. error is %d", ret);
goto fail_close_client;
}
if (!jack_controller_patchbay_init(controller_ptr))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to initialize patchbay district");
goto fail_close_client;
}
ret = jack_activate(controller_ptr->client);
if (ret != 0)
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "failed to activate dbusapi jack client. error is %d", ret);
goto fail_patchbay_uninit;
}
controller_ptr->started = true;
return TRUE;
fail_patchbay_uninit:
jack_controller_patchbay_uninit(controller_ptr);
fail_close_client:
ret = jack_client_close(controller_ptr->client);
if (ret != 0)
{
jack_error("jack_client_close() failed with error %d", ret);
}
controller_ptr->client = NULL;
fail_stop_server:
if (!jackctl_server_stop(controller_ptr->server))
{
jack_error("failed to stop jack server");
}
fail_close_server:
jack_controller_unload_slave_drivers(controller_ptr);
if (!jackctl_server_close(controller_ptr->server))
{
jack_error("failed to close jack server");
}
fail:
return FALSE;
}
bool
jack_controller_stop_server(
struct jack_controller * controller_ptr,
void *dbus_call_context_ptr)
{
int ret;
pthread_mutex_lock(&controller_ptr->lock);
if (!list_empty(&controller_ptr->session_pending_commands))
{
pthread_mutex_unlock(&controller_ptr->lock);
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Refusing to stop JACK server because of pending session commands");
return false;
}
pthread_mutex_unlock(&controller_ptr->lock);
jack_info("Stopping jack server...");
assert(controller_ptr->started); /* should be ensured by caller */
ret = jack_deactivate(controller_ptr->client);
if (ret != 0)
{
jack_error("failed to deactivate dbusapi jack client. error is %d", ret);
}
jack_controller_patchbay_uninit(controller_ptr);
ret = jack_client_close(controller_ptr->client);
if (ret != 0)
{
jack_error("jack_client_close() failed with error %d", ret);
}
controller_ptr->client = NULL;
if (!jackctl_server_stop(controller_ptr->server))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to stop server");
return FALSE;
}
jack_controller_unload_slave_drivers(controller_ptr);
if (!jackctl_server_close(controller_ptr->server))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to close server");
return FALSE;
}
controller_ptr->started = false;
return TRUE;
}
bool
jack_controller_switch_master(
struct jack_controller * controller_ptr,
void *dbus_call_context_ptr)
{
assert(controller_ptr->started); /* should be ensured by caller */
if (!jackctl_server_switch_master(
controller_ptr->server,
jack_params_get_driver(controller_ptr->params)))
{
jack_dbus_error(dbus_call_context_ptr, JACK_DBUS_ERROR_GENERIC, "Failed to switch master");
controller_ptr->started = false;
return FALSE;
}
return TRUE;
}
#define DEVICE_MAX 2
typedef struct reserved_audio_device {
char device_name[64];
rd_device * reserved_device;
} reserved_audio_device;
int g_device_count = 0;
static reserved_audio_device g_reserved_device[DEVICE_MAX];
static
bool
on_device_acquire(const char * device_name)
{
int ret;
DBusError error;
dbus_error_init(&error);
ret = rd_acquire(
&g_reserved_device[g_device_count].reserved_device,
g_connection,
device_name,
"Jack audio server",
INT32_MAX,
NULL,
&error);
if (ret < 0)
{
jack_error("Failed to acquire device name : %s error : %s", device_name, (error.message ? error.message : strerror(-ret)));
dbus_error_free(&error);
return false;
}
strcpy(g_reserved_device[g_device_count].device_name, device_name);
g_device_count++;
jack_info("Acquired audio card %s", device_name);
return true;
}
static
void
on_device_release(const char * device_name)
{
int i;
// Look for corresponding reserved device
for (i = 0; i < DEVICE_MAX; i++) {
if (strcmp(g_reserved_device[i].device_name, device_name) == 0)
break;
}
if (i < DEVICE_MAX) {
jack_info("Released audio card %s", device_name);
rd_release(g_reserved_device[i].reserved_device);
} else {
jack_error("Audio card %s not found!!", device_name);
}
g_device_count--;
}
#define controller_ptr ((struct jack_controller *)obj)
static bool slave_drivers_parameter_is_set(void * obj)
{
return controller_ptr->slave_drivers_set;
}
static bool slave_drivers_parameter_reset(void * obj)
{
if (controller_ptr->started)
{
jack_error("Cannot modify slave-drivers when server is started");
return false;
}
jack_controller_remove_slave_drivers(controller_ptr);
controller_ptr->slave_drivers_set = false;
return true;
}
static union jackctl_parameter_value slave_drivers_parameter_get_value(void * obj)
{
return controller_ptr->slave_drivers_vparam_value;
}
static bool slave_drivers_parameter_set_value(void * obj, const union jackctl_parameter_value * value_ptr)
{
char * buffer;
char * save;
const char * token;
struct list_head old_list;
struct list_head new_list;
union jackctl_parameter_value old_value;
union jackctl_parameter_value new_value;
bool old_set;
if (controller_ptr->started)
{
jack_error("Cannot modify slave-drivers when server is started");
return false;
}
old_set = controller_ptr->slave_drivers_set;
old_value = controller_ptr->slave_drivers_vparam_value;
controller_ptr->slave_drivers_vparam_value.str[0] = 0;
old_list = controller_ptr->slave_drivers;
INIT_LIST_HEAD(&controller_ptr->slave_drivers);
buffer = strdup(value_ptr->str);
if (buffer == NULL)
{
jack_error("strdup() failed.");
return false;
}
token = strtok_r(buffer, ",", &save);
while (token)
{
//jack_info("slave driver '%s'", token);
if (!jack_controller_add_slave_driver(controller_ptr, token))
{
jack_controller_remove_slave_drivers(controller_ptr);
controller_ptr->slave_drivers = old_list;
controller_ptr->slave_drivers_vparam_value = old_value;
controller_ptr->slave_drivers_set = old_set;
free(buffer);
return false;
}
token = strtok_r(NULL, ",", &save);
}
new_value = controller_ptr->slave_drivers_vparam_value;
new_list = controller_ptr->slave_drivers;
controller_ptr->slave_drivers = old_list;
jack_controller_remove_slave_drivers(controller_ptr);
controller_ptr->slave_drivers_vparam_value = new_value;
controller_ptr->slave_drivers = new_list;
controller_ptr->slave_drivers_set = true;
free(buffer);
return true;
}
static union jackctl_parameter_value slave_drivers_parameter_get_default_value(void * obj)
{
union jackctl_parameter_value value;
value.str[0] = 0;
return value;
}
#undef controller_ptr
void *
jack_controller_create(
DBusConnection *connection)
{
int error;
struct jack_controller *controller_ptr;
const char * address[PARAM_ADDRESS_SIZE];
DBusObjectPathVTable vtable =
{
jack_dbus_message_handler_unregister,
jack_dbus_message_handler,
NULL
};
controller_ptr = malloc(sizeof(struct jack_controller));
if (!controller_ptr)
{
jack_error("Ran out of memory trying to allocate struct jack_controller");
goto fail;
}
error = pthread_mutex_init(&controller_ptr->lock, NULL);
if (error != 0)
{
jack_error("Failed to initialize mutex. error %d", error);
goto fail_free;
}
INIT_LIST_HEAD(&controller_ptr->session_pending_commands);
controller_ptr->server = jackctl_server_create(on_device_acquire, on_device_release);
if (controller_ptr->server == NULL)
{
jack_error("Failed to create server object");
goto fail_uninit_mutex;
}
controller_ptr->params = jack_params_create(controller_ptr->server);
if (controller_ptr->params == NULL)
{
jack_error("Failed to initialize parameter tree");
goto fail_destroy_server;
}
controller_ptr->client = NULL;
controller_ptr->started = false;
controller_ptr->pending_save = 0;
INIT_LIST_HEAD(&controller_ptr->slave_drivers);
controller_ptr->slave_drivers_set = false;
controller_ptr->slave_drivers_vparam_value.str[0] = 0;
controller_ptr->slave_drivers_vparam.obj = controller_ptr;
controller_ptr->slave_drivers_vparam.vtable.is_set = slave_drivers_parameter_is_set;
controller_ptr->slave_drivers_vparam.vtable.reset = slave_drivers_parameter_reset;
controller_ptr->slave_drivers_vparam.vtable.get_value = slave_drivers_parameter_get_value;
controller_ptr->slave_drivers_vparam.vtable.set_value = slave_drivers_parameter_set_value;
controller_ptr->slave_drivers_vparam.vtable.get_default_value = slave_drivers_parameter_get_default_value;
controller_ptr->slave_drivers_vparam.type = JackParamString;
controller_ptr->slave_drivers_vparam.name = "slave-drivers";
controller_ptr->slave_drivers_vparam.short_decr = "Slave drivers to use";
controller_ptr->slave_drivers_vparam.long_descr = "A comma separated list of slave drivers";
controller_ptr->slave_drivers_vparam.constraint_flags = 0;
address[0] = PTNODE_ENGINE;
address[1] = NULL;
jack_params_add_parameter(controller_ptr->params, address, true, &controller_ptr->slave_drivers_vparam);
controller_ptr->dbus_descriptor.context = controller_ptr;
controller_ptr->dbus_descriptor.interfaces = g_jackcontroller_interfaces;
if (!dbus_connection_register_object_path(
connection,
JACK_CONTROLLER_OBJECT_PATH,
&vtable,
&controller_ptr->dbus_descriptor))
{
jack_error("Ran out of memory trying to register D-Bus object path");
goto fail_destroy_params;
}
jack_controller_settings_load(controller_ptr);
return controller_ptr;
fail_destroy_params:
jack_params_destroy(controller_ptr->params);
fail_destroy_server:
jackctl_server_destroy(controller_ptr->server);
fail_uninit_mutex:
pthread_mutex_destroy(&controller_ptr->lock);
fail_free:
free(controller_ptr);
fail:
return NULL;
}
bool
jack_controller_add_slave_driver(
struct jack_controller * controller_ptr,
const char * driver_name)
{
jackctl_driver_t * driver;
struct jack_controller_slave_driver * driver_ptr;
size_t len_old;
size_t len_new;
len_old = strlen(controller_ptr->slave_drivers_vparam_value.str);
len_new = strlen(driver_name);
if (len_old + len_new + 2 > sizeof(controller_ptr->slave_drivers_vparam_value.str))
{
jack_error("No more space for slave drivers.");
return false;
}
driver = jack_controller_find_driver(controller_ptr->server, driver_name);
if (driver == NULL)
{
jack_error("Unknown driver \"%s\"", driver_name);
return false;
}
if (jack_controller_check_slave_driver(controller_ptr, driver_name))
{
jack_info("Driver \"%s\" is already slave", driver_name);
return true;
}
driver_ptr = malloc(sizeof(struct jack_controller_slave_driver));
if (driver_ptr == NULL)
{
jack_error("malloc() failed to allocate jack_controller_slave_driver struct");
return false;
}
driver_ptr->name = strdup(driver_name);
if (driver_ptr->name == NULL)
{
jack_error("strdup() failed for slave driver name \"%s\"", driver_name);
free(driver_ptr);
return false;
}
driver_ptr->handle = driver;
driver_ptr->loaded = false;
jack_info("driver \"%s\" set as slave", driver_name);
list_add_tail(&driver_ptr->siblings, &controller_ptr->slave_drivers);
if (len_old != 0)
{
controller_ptr->slave_drivers_vparam_value.str[len_old++] = ',';
}
memcpy(controller_ptr->slave_drivers_vparam_value.str + len_old, driver_name, len_new + 1);
controller_ptr->slave_drivers_set = true;
return true;
}
bool
jack_controller_remove_slave_driver(
struct jack_controller * controller_ptr,
const char * driver_name)
{
struct list_head * node_ptr;
struct jack_controller_slave_driver * driver_ptr;
list_for_each(node_ptr, &controller_ptr->slave_drivers)
{
driver_ptr = list_entry(node_ptr, struct jack_controller_slave_driver, siblings);
if (strcmp(driver_ptr->name, driver_name) == 0)
{
list_del(&driver_ptr->siblings);
free(driver_ptr->name);
free(driver_ptr);
/* update the slave-drivers param value */
controller_ptr->slave_drivers_vparam_value.str[0] = 0;
list_for_each(node_ptr, &controller_ptr->slave_drivers)
{
driver_ptr = list_entry(node_ptr, struct jack_controller_slave_driver, siblings);
if (controller_ptr->slave_drivers_vparam_value.str[0] != 0)
{
strcat(controller_ptr->slave_drivers_vparam_value.str, ",");
}
strcat(controller_ptr->slave_drivers_vparam_value.str, driver_ptr->name);
}
jack_info("driver \"%s\" is not slave anymore", driver_name);
return true;
}
}
return false;
}
bool
jack_controller_load_internal(
struct jack_controller *controller_ptr,
const char * internal_name)
{
jackctl_internal_t *internal;
internal = jack_controller_find_internal(controller_ptr->server, internal_name);
if (internal == NULL)
{
return false;
}
jack_info("internal \"%s\" selected", internal_name);
return jackctl_server_load_internal(controller_ptr->server, internal);
}
bool
jack_controller_unload_internal(
struct jack_controller *controller_ptr,
const char * internal_name)
{
jackctl_internal_t *internal;
internal = jack_controller_find_internal(controller_ptr->server, internal_name);
if (internal == NULL)
{
return false;
}
jack_info("internal \"%s\" selected", internal_name);
return jackctl_server_unload_internal(controller_ptr->server, internal);
}
#define controller_ptr ((struct jack_controller *)context)
void
jack_controller_destroy(
void * context)
{
if (controller_ptr->started)
{
while (!jack_controller_stop_server(controller_ptr, NULL))
{
jack_info("jack server failed to stop, retrying in 3 seconds...");
usleep(3000000);
}
}
jack_controller_remove_slave_drivers(controller_ptr);
jack_params_destroy(controller_ptr->params);
jackctl_server_destroy(controller_ptr->server);
pthread_mutex_destroy(&controller_ptr->lock);
free(controller_ptr);
}
void
jack_controller_run(
void * context)
{
struct sysinfo si;
if (controller_ptr->pending_save == 0)
{
return;
}
if (sysinfo(&si) != 0)
{
jack_error("sysinfo() failed with %d", errno);
}
else if (si.uptime < controller_ptr->pending_save + 2) /* delay save by two seconds */
{
return;
}
controller_ptr->pending_save = 0;
jack_controller_settings_save_auto(controller_ptr);
}
#undef controller_ptr
void
jack_controller_pending_save(
struct jack_controller * controller_ptr)
{
struct sysinfo si;
if (sysinfo(&si) != 0)
{
jack_error("sysinfo() failed with %d.", errno);
controller_ptr->pending_save = 0;
jack_controller_settings_save_auto(controller_ptr);
return;
}
controller_ptr->pending_save = si.uptime;
}
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