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|
/*************************************************************************/
/* audio_driver_pulseaudio.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
/* https://godotengine.org */
/*************************************************************************/
/* Copyright (c) 2007-2019 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2019 Godot Engine contributors (cf. AUTHORS.md) */
/* */
/* 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 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 "audio_driver_pulseaudio.h"
#ifdef PULSEAUDIO_ENABLED
#include "core/os/os.h"
#include "core/project_settings.h"
void AudioDriverPulseAudio::pa_state_cb(pa_context *c, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
switch (pa_context_get_state(c)) {
case PA_CONTEXT_TERMINATED:
case PA_CONTEXT_FAILED:
ad->pa_ready = -1;
break;
case PA_CONTEXT_READY:
ad->pa_ready = 1;
break;
default:
// TODO: Check if we want to handle some of the other
// PA context states like PA_CONTEXT_UNCONNECTED.
break;
}
}
void AudioDriverPulseAudio::pa_sink_info_cb(pa_context *c, const pa_sink_info *l, int eol, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
// If eol is set to a positive number, you're at the end of the list
if (eol > 0) {
return;
}
ad->pa_map = l->channel_map;
ad->pa_status++;
}
void AudioDriverPulseAudio::pa_source_info_cb(pa_context *c, const pa_source_info *l, int eol, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
// If eol is set to a positive number, you're at the end of the list
if (eol > 0) {
return;
}
ad->pa_rec_map = l->channel_map;
ad->pa_status++;
}
void AudioDriverPulseAudio::pa_server_info_cb(pa_context *c, const pa_server_info *i, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
ad->capture_default_device = i->default_source_name;
ad->default_device = i->default_sink_name;
ad->pa_status++;
}
void AudioDriverPulseAudio::detect_channels(bool capture) {
pa_channel_map_init_stereo(capture ? &pa_rec_map : &pa_map);
String device = capture ? capture_device_name : device_name;
if (device == "Default") {
// Get the default output device name
pa_status = 0;
pa_operation *pa_op = pa_context_get_server_info(pa_ctx, &AudioDriverPulseAudio::pa_server_info_cb, (void *)this);
if (pa_op) {
while (pa_status == 0) {
int ret = pa_mainloop_iterate(pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
pa_operation_unref(pa_op);
} else {
ERR_PRINT("pa_context_get_server_info error");
}
}
char dev[1024];
if (device == "Default") {
strcpy(dev, capture ? capture_default_device.utf8().get_data() : default_device.utf8().get_data());
} else {
strcpy(dev, device.utf8().get_data());
}
// Now using the device name get the amount of channels
pa_status = 0;
pa_operation *pa_op;
if (capture) {
pa_op = pa_context_get_source_info_by_name(pa_ctx, dev, &AudioDriverPulseAudio::pa_source_info_cb, (void *)this);
} else {
pa_op = pa_context_get_sink_info_by_name(pa_ctx, dev, &AudioDriverPulseAudio::pa_sink_info_cb, (void *)this);
}
if (pa_op) {
while (pa_status == 0) {
int ret = pa_mainloop_iterate(pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
pa_operation_unref(pa_op);
} else {
if (capture) {
ERR_PRINT("pa_context_get_source_info_by_name error");
} else {
ERR_PRINT("pa_context_get_sink_info_by_name error");
}
}
}
Error AudioDriverPulseAudio::init_device() {
// If there is a specified device check that it is really present
if (device_name != "Default") {
Array list = get_device_list();
if (list.find(device_name) == -1) {
device_name = "Default";
new_device = "Default";
}
}
// Detect the amount of channels PulseAudio is using
// Note: If using an even amount of channels (2, 4, etc) channels and pa_map.channels will be equal,
// if not then pa_map.channels will have the real amount of channels PulseAudio is using and channels
// will have the amount of channels Godot is using (in this case it's pa_map.channels + 1)
detect_channels();
switch (pa_map.channels) {
case 1: // Mono
case 3: // Surround 2.1
case 5: // Surround 5.0
case 7: // Surround 7.0
channels = pa_map.channels + 1;
break;
case 2: // Stereo
case 4: // Surround 4.0
case 6: // Surround 5.1
case 8: // Surround 7.1
channels = pa_map.channels;
break;
default:
WARN_PRINTS("PulseAudio: Unsupported number of channels: " + itos(pa_map.channels));
pa_channel_map_init_stereo(&pa_map);
channels = 2;
break;
}
int latency = GLOBAL_DEF_RST("audio/output_latency", DEFAULT_OUTPUT_LATENCY);
buffer_frames = closest_power_of_2(latency * mix_rate / 1000);
pa_buffer_size = buffer_frames * pa_map.channels;
print_verbose("PulseAudio: detected " + itos(pa_map.channels) + " channels");
print_verbose("PulseAudio: audio buffer frames: " + itos(buffer_frames) + " calculated latency: " + itos(buffer_frames * 1000 / mix_rate) + "ms");
pa_sample_spec spec;
spec.format = PA_SAMPLE_S16LE;
spec.channels = pa_map.channels;
spec.rate = mix_rate;
pa_map.map[0] = PA_CHANNEL_POSITION_FRONT_LEFT;
pa_map.map[1] = PA_CHANNEL_POSITION_FRONT_RIGHT;
pa_map.map[2] = PA_CHANNEL_POSITION_FRONT_CENTER;
pa_map.map[3] = PA_CHANNEL_POSITION_LFE;
pa_map.map[4] = PA_CHANNEL_POSITION_REAR_LEFT;
pa_map.map[5] = PA_CHANNEL_POSITION_REAR_RIGHT;
pa_map.map[6] = PA_CHANNEL_POSITION_SIDE_LEFT;
pa_map.map[7] = PA_CHANNEL_POSITION_SIDE_RIGHT;
pa_str = pa_stream_new(pa_ctx, "Sound", &spec, &pa_map);
if (pa_str == NULL) {
ERR_PRINTS("PulseAudio: pa_stream_new error: " + String(pa_strerror(pa_context_errno(pa_ctx))));
ERR_FAIL_V(ERR_CANT_OPEN);
}
pa_buffer_attr attr;
// set to appropriate buffer length (in bytes) from global settings
// Note: PulseAudio defaults to 4 fragments, which means that the actual
// latency is tlength / fragments. It seems that the PulseAudio has no way
// to get the fragments number so we're hardcoding this to the default of 4
const int fragments = 4;
attr.tlength = pa_buffer_size * sizeof(int16_t) * fragments;
// set them to be automatically chosen
attr.prebuf = (uint32_t)-1;
attr.maxlength = (uint32_t)-1;
attr.minreq = (uint32_t)-1;
const char *dev = device_name == "Default" ? NULL : device_name.utf8().get_data();
pa_stream_flags flags = pa_stream_flags(PA_STREAM_INTERPOLATE_TIMING | PA_STREAM_ADJUST_LATENCY | PA_STREAM_AUTO_TIMING_UPDATE);
int error_code = pa_stream_connect_playback(pa_str, dev, &attr, flags, NULL, NULL);
ERR_FAIL_COND_V(error_code < 0, ERR_CANT_OPEN);
samples_in.resize(buffer_frames * channels);
samples_out.resize(pa_buffer_size);
// Reset audio input to keep synchronisation.
capture_position = 0;
capture_size = 0;
return OK;
}
Error AudioDriverPulseAudio::init() {
active = false;
thread_exited = false;
exit_thread = false;
mix_rate = GLOBAL_DEF_RST("audio/mix_rate", DEFAULT_MIX_RATE);
pa_ml = pa_mainloop_new();
ERR_FAIL_COND_V(pa_ml == NULL, ERR_CANT_OPEN);
pa_ctx = pa_context_new(pa_mainloop_get_api(pa_ml), "Godot");
ERR_FAIL_COND_V(pa_ctx == NULL, ERR_CANT_OPEN);
pa_ready = 0;
pa_context_set_state_callback(pa_ctx, pa_state_cb, (void *)this);
int ret = pa_context_connect(pa_ctx, NULL, PA_CONTEXT_NOFLAGS, NULL);
if (ret < 0) {
if (pa_ctx) {
pa_context_unref(pa_ctx);
pa_ctx = NULL;
}
if (pa_ml) {
pa_mainloop_free(pa_ml);
pa_ml = NULL;
}
return ERR_CANT_OPEN;
}
while (pa_ready == 0) {
ret = pa_mainloop_iterate(pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
if (pa_ready < 0) {
if (pa_ctx) {
pa_context_disconnect(pa_ctx);
pa_context_unref(pa_ctx);
pa_ctx = NULL;
}
if (pa_ml) {
pa_mainloop_free(pa_ml);
pa_ml = NULL;
}
return ERR_CANT_OPEN;
}
Error err = init_device();
if (err == OK) {
mutex = Mutex::create();
thread = Thread::create(AudioDriverPulseAudio::thread_func, this);
}
return OK;
}
float AudioDriverPulseAudio::get_latency() {
if (latency == 0) { //only do this once since it's approximate anyway
lock();
pa_usec_t palat = 0;
if (pa_stream_get_state(pa_str) == PA_STREAM_READY) {
int negative = 0;
if (pa_stream_get_latency(pa_str, &palat, &negative) >= 0) {
if (negative) {
palat = 0;
}
}
}
if (palat > 0) {
latency = double(palat) / 1000000.0;
}
unlock();
}
return latency;
}
void AudioDriverPulseAudio::thread_func(void *p_udata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)p_udata;
unsigned int write_ofs = 0;
size_t avail_bytes = 0;
uint32_t default_device_msec = OS::get_singleton()->get_ticks_msec();
while (!ad->exit_thread) {
size_t read_bytes = 0;
size_t written_bytes = 0;
if (avail_bytes == 0) {
ad->lock();
ad->start_counting_ticks();
if (!ad->active) {
for (unsigned int i = 0; i < ad->pa_buffer_size; i++) {
ad->samples_out.write[i] = 0;
}
} else {
ad->audio_server_process(ad->buffer_frames, ad->samples_in.ptrw());
if (ad->channels == ad->pa_map.channels) {
for (unsigned int i = 0; i < ad->pa_buffer_size; i++) {
ad->samples_out.write[i] = ad->samples_in[i] >> 16;
}
} else {
// Uneven amount of channels
unsigned int in_idx = 0;
unsigned int out_idx = 0;
for (unsigned int i = 0; i < ad->buffer_frames; i++) {
for (int j = 0; j < ad->pa_map.channels - 1; j++) {
ad->samples_out.write[out_idx++] = ad->samples_in[in_idx++] >> 16;
}
uint32_t l = ad->samples_in[in_idx++] >> 16;
uint32_t r = ad->samples_in[in_idx++] >> 16;
ad->samples_out.write[out_idx++] = (l + r) / 2;
}
}
}
avail_bytes = ad->pa_buffer_size * sizeof(int16_t);
write_ofs = 0;
ad->stop_counting_ticks();
ad->unlock();
}
ad->lock();
ad->start_counting_ticks();
int ret;
do {
ret = pa_mainloop_iterate(ad->pa_ml, 0, NULL);
} while (ret > 0);
if (avail_bytes > 0 && pa_stream_get_state(ad->pa_str) == PA_STREAM_READY) {
size_t bytes = pa_stream_writable_size(ad->pa_str);
if (bytes > 0) {
size_t bytes_to_write = MIN(bytes, avail_bytes);
const void *ptr = ad->samples_out.ptr();
ret = pa_stream_write(ad->pa_str, (char *)ptr + write_ofs, bytes_to_write, NULL, 0LL, PA_SEEK_RELATIVE);
if (ret != 0) {
ERR_PRINTS("PulseAudio: pa_stream_write error: " + String(pa_strerror(ret)));
} else {
avail_bytes -= bytes_to_write;
write_ofs += bytes_to_write;
written_bytes += bytes_to_write;
}
}
}
// User selected a new device, finish the current one so we'll init the new device
if (ad->device_name != ad->new_device) {
ad->device_name = ad->new_device;
ad->finish_device();
Error err = ad->init_device();
if (err != OK) {
ERR_PRINT("PulseAudio: init_device error");
ad->device_name = "Default";
ad->new_device = "Default";
err = ad->init_device();
if (err != OK) {
ad->active = false;
ad->exit_thread = true;
break;
}
}
avail_bytes = 0;
write_ofs = 0;
}
// If we're using the default device check that the current device is still the default
if (ad->device_name == "Default") {
uint32_t msec = OS::get_singleton()->get_ticks_msec();
if (msec > (default_device_msec + 1000)) {
String old_default_device = ad->default_device;
default_device_msec = msec;
ad->pa_status = 0;
pa_operation *pa_op = pa_context_get_server_info(ad->pa_ctx, &AudioDriverPulseAudio::pa_server_info_cb, (void *)ad);
if (pa_op) {
while (ad->pa_status == 0) {
ret = pa_mainloop_iterate(ad->pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
pa_operation_unref(pa_op);
} else {
ERR_PRINT("pa_context_get_server_info error");
}
if (old_default_device != ad->default_device) {
ad->finish_device();
Error err = ad->init_device();
if (err != OK) {
ERR_PRINT("PulseAudio: init_device error");
ad->active = false;
ad->exit_thread = true;
break;
}
avail_bytes = 0;
write_ofs = 0;
}
}
}
if (ad->pa_rec_str && pa_stream_get_state(ad->pa_rec_str) == PA_STREAM_READY) {
size_t bytes = pa_stream_readable_size(ad->pa_rec_str);
if (bytes > 0) {
const void *ptr = NULL;
size_t maxbytes = ad->capture_buffer.size() * sizeof(int16_t);
bytes = MIN(bytes, maxbytes);
ret = pa_stream_peek(ad->pa_rec_str, &ptr, &bytes);
if (ret != 0) {
ERR_PRINT("pa_stream_peek error");
} else {
int16_t *srcptr = (int16_t *)ptr;
for (size_t i = bytes >> 1; i > 0; i--) {
int32_t sample = int32_t(*srcptr++) << 16;
ad->capture_buffer_write(sample);
if (ad->pa_rec_map.channels == 1) {
// In case capture device is single channel convert it to Stereo
ad->capture_buffer_write(sample);
}
}
read_bytes += bytes;
ret = pa_stream_drop(ad->pa_rec_str);
if (ret != 0) {
ERR_PRINT("pa_stream_drop error");
}
}
}
// User selected a new device, finish the current one so we'll init the new device
if (ad->capture_device_name != ad->capture_new_device) {
ad->capture_device_name = ad->capture_new_device;
ad->capture_finish_device();
Error err = ad->capture_init_device();
if (err != OK) {
ERR_PRINT("PulseAudio: capture_init_device error");
ad->capture_device_name = "Default";
ad->capture_new_device = "Default";
err = ad->capture_init_device();
if (err != OK) {
ad->active = false;
ad->exit_thread = true;
break;
}
}
}
}
ad->stop_counting_ticks();
ad->unlock();
// Let the thread rest a while if we haven't read or write anything
if (written_bytes == 0 && read_bytes == 0) {
OS::get_singleton()->delay_usec(1000);
}
}
ad->thread_exited = true;
}
void AudioDriverPulseAudio::start() {
active = true;
}
int AudioDriverPulseAudio::get_mix_rate() const {
return mix_rate;
}
AudioDriver::SpeakerMode AudioDriverPulseAudio::get_speaker_mode() const {
return get_speaker_mode_by_total_channels(channels);
}
void AudioDriverPulseAudio::pa_sinklist_cb(pa_context *c, const pa_sink_info *l, int eol, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
// If eol is set to a positive number, you're at the end of the list
if (eol > 0) {
return;
}
ad->pa_devices.push_back(l->name);
ad->pa_status++;
}
Array AudioDriverPulseAudio::get_device_list() {
pa_devices.clear();
pa_devices.push_back("Default");
if (pa_ctx == NULL) {
return pa_devices;
}
lock();
// Get the device list
pa_status = 0;
pa_operation *pa_op = pa_context_get_sink_info_list(pa_ctx, pa_sinklist_cb, (void *)this);
if (pa_op) {
while (pa_status == 0) {
int ret = pa_mainloop_iterate(pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
pa_operation_unref(pa_op);
} else {
ERR_PRINT("pa_context_get_server_info error");
}
unlock();
return pa_devices;
}
String AudioDriverPulseAudio::get_device() {
return device_name;
}
void AudioDriverPulseAudio::set_device(String device) {
lock();
new_device = device;
unlock();
}
void AudioDriverPulseAudio::lock() {
if (!thread || !mutex)
return;
mutex->lock();
}
void AudioDriverPulseAudio::unlock() {
if (!thread || !mutex)
return;
mutex->unlock();
}
void AudioDriverPulseAudio::finish_device() {
if (pa_str) {
pa_stream_disconnect(pa_str);
pa_stream_unref(pa_str);
pa_str = NULL;
}
}
void AudioDriverPulseAudio::finish() {
if (!thread)
return;
exit_thread = true;
Thread::wait_to_finish(thread);
finish_device();
if (pa_ctx) {
pa_context_disconnect(pa_ctx);
pa_context_unref(pa_ctx);
pa_ctx = NULL;
}
if (pa_ml) {
pa_mainloop_free(pa_ml);
pa_ml = NULL;
}
memdelete(thread);
if (mutex) {
memdelete(mutex);
mutex = NULL;
}
thread = NULL;
}
Error AudioDriverPulseAudio::capture_init_device() {
// If there is a specified device check that it is really present
if (capture_device_name != "Default") {
Array list = capture_get_device_list();
if (list.find(capture_device_name) == -1) {
capture_device_name = "Default";
capture_new_device = "Default";
}
}
detect_channels(true);
switch (pa_rec_map.channels) {
case 1: // Mono
case 2: // Stereo
break;
default:
WARN_PRINTS("PulseAudio: Unsupported number of capture channels: " + itos(pa_rec_map.channels));
pa_channel_map_init_stereo(&pa_rec_map);
break;
}
pa_sample_spec spec;
spec.format = PA_SAMPLE_S16LE;
spec.channels = pa_rec_map.channels;
spec.rate = mix_rate;
int input_latency = 30;
int input_buffer_frames = closest_power_of_2(input_latency * mix_rate / 1000);
int input_buffer_size = input_buffer_frames * spec.channels;
pa_buffer_attr attr;
attr.fragsize = input_buffer_size * sizeof(int16_t);
pa_rec_str = pa_stream_new(pa_ctx, "Record", &spec, &pa_rec_map);
if (pa_rec_str == NULL) {
ERR_PRINTS("PulseAudio: pa_stream_new error: " + String(pa_strerror(pa_context_errno(pa_ctx))));
ERR_FAIL_V(ERR_CANT_OPEN);
}
const char *dev = capture_device_name == "Default" ? NULL : capture_device_name.utf8().get_data();
pa_stream_flags flags = pa_stream_flags(PA_STREAM_INTERPOLATE_TIMING | PA_STREAM_ADJUST_LATENCY | PA_STREAM_AUTO_TIMING_UPDATE);
int error_code = pa_stream_connect_record(pa_rec_str, dev, &attr, flags);
if (error_code < 0) {
ERR_PRINTS("PulseAudio: pa_stream_connect_record error: " + String(pa_strerror(error_code)));
ERR_FAIL_V(ERR_CANT_OPEN);
}
capture_buffer_init(input_buffer_frames);
print_verbose("PulseAudio: detected " + itos(pa_rec_map.channels) + " capture channels");
print_verbose("PulseAudio: capture buffer frames: " + itos(input_buffer_frames) + " calculated latency: " + itos(input_buffer_frames * 1000 / mix_rate) + "ms");
return OK;
}
void AudioDriverPulseAudio::capture_finish_device() {
if (pa_rec_str) {
int ret = pa_stream_disconnect(pa_rec_str);
if (ret != 0) {
ERR_PRINTS("PulseAudio: pa_stream_disconnect error: " + String(pa_strerror(ret)));
}
pa_stream_unref(pa_rec_str);
pa_rec_str = NULL;
}
}
Error AudioDriverPulseAudio::capture_start() {
lock();
Error err = capture_init_device();
unlock();
return err;
}
Error AudioDriverPulseAudio::capture_stop() {
lock();
capture_finish_device();
unlock();
return OK;
}
void AudioDriverPulseAudio::capture_set_device(const String &p_name) {
lock();
capture_new_device = p_name;
unlock();
}
void AudioDriverPulseAudio::pa_sourcelist_cb(pa_context *c, const pa_source_info *l, int eol, void *userdata) {
AudioDriverPulseAudio *ad = (AudioDriverPulseAudio *)userdata;
// If eol is set to a positive number, you're at the end of the list
if (eol > 0) {
return;
}
if (l->monitor_of_sink == PA_INVALID_INDEX) {
ad->pa_rec_devices.push_back(l->name);
}
ad->pa_status++;
}
Array AudioDriverPulseAudio::capture_get_device_list() {
pa_rec_devices.clear();
pa_rec_devices.push_back("Default");
if (pa_ctx == NULL) {
return pa_rec_devices;
}
lock();
// Get the device list
pa_status = 0;
pa_operation *pa_op = pa_context_get_source_info_list(pa_ctx, pa_sourcelist_cb, (void *)this);
if (pa_op) {
while (pa_status == 0) {
int ret = pa_mainloop_iterate(pa_ml, 1, NULL);
if (ret < 0) {
ERR_PRINT("pa_mainloop_iterate error");
}
}
pa_operation_unref(pa_op);
} else {
ERR_PRINT("pa_context_get_server_info error");
}
unlock();
return pa_rec_devices;
}
String AudioDriverPulseAudio::capture_get_device() {
lock();
String name = capture_device_name;
unlock();
return name;
}
AudioDriverPulseAudio::AudioDriverPulseAudio() :
thread(NULL),
mutex(NULL),
pa_ml(NULL),
pa_ctx(NULL),
pa_str(NULL),
pa_rec_str(NULL),
device_name("Default"),
new_device("Default"),
default_device(""),
mix_rate(0),
buffer_frames(0),
pa_buffer_size(0),
channels(0),
pa_ready(0),
pa_status(0),
active(false),
thread_exited(false),
exit_thread(false),
latency(0) {
samples_in.clear();
samples_out.clear();
}
AudioDriverPulseAudio::~AudioDriverPulseAudio() {
}
#endif
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