guacamole-spice-protocol/src/protocols/rdp/audio_input.c

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/*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
#include "config.h"
#include "audio_input.h"
#include "dvc.h"
#include "ptr_string.h"
#include "rdp.h"
#include <freerdp/freerdp.h>
#include <freerdp/channels/channels.h>
#include <guacamole/protocol.h>
#include <guacamole/socket.h>
#include <guacamole/stream.h>
#include <guacamole/user.h>
#include <assert.h>
#include <errno.h>
#include <stdlib.h>
#include <pthread.h>
/**
* Parses the given raw audio mimetype, producing the corresponding rate,
* number of channels, and bytes per sample.
*
* @param mimetype
* The raw auduio mimetype to parse.
*
* @param rate
* A pointer to an int where the sample rate for the PCM format described
* by the given mimetype should be stored.
*
* @param channels
* A pointer to an int where the number of channels used by the PCM format
* described by the given mimetype should be stored.
*
* @param bps
* A pointer to an int where the number of bytes used the PCM format for
* each sample (independent of number of channels) described by the given
* mimetype should be stored.
*
* @return
* Zero if the given mimetype is a raw audio mimetype and has been parsed
* successfully, non-zero otherwise.
*/
static int guac_rdp_audio_parse_mimetype(const char* mimetype,
int* rate, int* channels, int* bps) {
int parsed_rate = -1;
int parsed_channels = 1;
int parsed_bps;
/* PCM audio with one byte per sample */
if (strncmp(mimetype, "audio/L8;", 9) == 0) {
mimetype += 8; /* Advance to semicolon ONLY */
parsed_bps = 1;
}
/* PCM audio with two bytes per sample */
else if (strncmp(mimetype, "audio/L16;", 10) == 0) {
mimetype += 9; /* Advance to semicolon ONLY */
parsed_bps = 2;
}
/* Unsupported mimetype */
else
return 1;
/* Parse each parameter name/value pair within the mimetype */
do {
/* Advance to first character of parameter (current is either a
* semicolon or a comma) */
mimetype++;
/* Parse number of channels */
if (strncmp(mimetype, "channels=", 9) == 0) {
mimetype += 9;
parsed_channels = strtol(mimetype, (char**) &mimetype, 10);
/* Fail if value invalid / out of range */
if (errno == EINVAL || errno == ERANGE)
return 1;
}
/* Parse number of rate */
else if (strncmp(mimetype, "rate=", 5) == 0) {
mimetype += 5;
parsed_rate = strtol(mimetype, (char**) &mimetype, 10);
/* Fail if value invalid / out of range */
if (errno == EINVAL || errno == ERANGE)
return 1;
}
/* Advance to next parameter */
mimetype = strchr(mimetype, ',');
} while (mimetype != NULL);
/* Mimetype is invalid if rate was not specified */
if (parsed_rate == -1)
return 1;
/* Parse success */
*rate = parsed_rate;
*channels = parsed_channels;
*bps = parsed_bps;
return 0;
}
int guac_rdp_audio_handler(guac_user* user, guac_stream* stream,
char* mimetype) {
guac_client* client = user->client;
guac_rdp_client* rdp_client = (guac_rdp_client*) client->data;
int rate;
int channels;
int bps;
/* Parse mimetype, abort on parse error */
if (guac_rdp_audio_parse_mimetype(mimetype, &rate, &channels, &bps)) {
guac_user_log(user, GUAC_LOG_WARNING, "Denying user audio stream with "
"unsupported mimetype: \"%s\"", mimetype);
guac_protocol_send_ack(user->socket, stream, "Unsupported audio "
"mimetype", GUAC_PROTOCOL_STATUS_CLIENT_BAD_TYPE);
return 0;
}
/* Init stream data */
stream->blob_handler = guac_rdp_audio_blob_handler;
stream->end_handler = guac_rdp_audio_end_handler;
/* Associate stream with audio buffer */
guac_rdp_audio_buffer_set_stream(rdp_client->audio_input, user, stream,
rate, channels, bps);
return 0;
}
int guac_rdp_audio_blob_handler(guac_user* user, guac_stream* stream,
void* data, int length) {
guac_client* client = user->client;
guac_rdp_client* rdp_client = (guac_rdp_client*) client->data;
/* Write blob to audio stream, buffering if necessary */
guac_rdp_audio_buffer_write(rdp_client->audio_input, data, length);
return 0;
}
int guac_rdp_audio_end_handler(guac_user* user, guac_stream* stream) {
/* Ignore - the AUDIO_INPUT channel will simply not receive anything */
return 0;
}
void guac_rdp_audio_load_plugin(rdpContext* context, guac_rdp_dvc_list* list) {
guac_client* client = ((rdp_freerdp_context*) context)->client;
/* Add "AUDIO_INPUT" channel */
guac_rdp_dvc_list_add(list, "guacai", guac_rdp_ptr_to_string(client), NULL);
}
guac_rdp_audio_buffer* guac_rdp_audio_buffer_alloc() {
guac_rdp_audio_buffer* buffer = calloc(1, sizeof(guac_rdp_audio_buffer));
pthread_mutex_init(&(buffer->lock), NULL);
return buffer;
}
/**
* Sends an "ack" instruction over the socket associated with the Guacamole
* stream over which audio data is being received. The "ack" instruction will
* only be sent if the Guacamole audio stream has been established (through
* receipt of an "audio" instruction), is still open (has not received an "end"
* instruction nor been associated with an "ack" having an error code), and is
* associated with an active RDP AUDIO_INPUT channel.
*
* @param audio_buffer
* The audio buffer associated with the guac_stream for which the "ack"
* instruction should be sent, if any. If there is no associated
* guac_stream, this function has no effect.
*
* @param message
* An arbitrary human-readable message to send along with the "ack".
*
* @param status
* The Guacamole protocol status code to send with the "ack". This should
* be GUAC_PROTOCOL_STATUS_SUCCESS if the audio stream has been set up
* successfully or GUAC_PROTOCOL_STATUS_RESOURCE_CLOSED if the audio stream
* has been closed (but may usable again if reopened).
*/
static void guac_rdp_audio_buffer_ack(guac_rdp_audio_buffer* audio_buffer,
const char* message, guac_protocol_status status) {
guac_user* user = audio_buffer->user;
guac_stream* stream = audio_buffer->stream;
/* Do not send ack unless both sides of the audio stream are ready */
if (user == NULL || stream == NULL || audio_buffer->packet == NULL)
return;
/* Send ack instruction */
guac_protocol_send_ack(user->socket, stream, message, status);
guac_socket_flush(user->socket);
}
void guac_rdp_audio_buffer_set_stream(guac_rdp_audio_buffer* audio_buffer,
guac_user* user, guac_stream* stream, int rate, int channels, int bps) {
pthread_mutex_lock(&(audio_buffer->lock));
/* Associate received stream */
audio_buffer->user = user;
audio_buffer->stream = stream;
audio_buffer->in_format.rate = rate;
audio_buffer->in_format.channels = channels;
audio_buffer->in_format.bps = bps;
/* Acknowledge stream creation (if buffer is ready to receive) */
guac_rdp_audio_buffer_ack(audio_buffer,
"OK", GUAC_PROTOCOL_STATUS_SUCCESS);
guac_user_log(user, GUAC_LOG_DEBUG, "User is requesting to provide audio "
"input as %i-channel, %i Hz PCM audio at %i bytes/sample.",
audio_buffer->in_format.channels,
audio_buffer->in_format.rate,
audio_buffer->in_format.bps);
pthread_mutex_unlock(&(audio_buffer->lock));
}
void guac_rdp_audio_buffer_set_output(guac_rdp_audio_buffer* audio_buffer,
int rate, int channels, int bps) {
pthread_mutex_lock(&(audio_buffer->lock));
/* Set output format */
audio_buffer->out_format.rate = rate;
audio_buffer->out_format.channels = channels;
audio_buffer->out_format.bps = bps;
pthread_mutex_unlock(&(audio_buffer->lock));
}
void guac_rdp_audio_buffer_begin(guac_rdp_audio_buffer* audio_buffer,
int packet_frames, guac_rdp_audio_buffer_flush_handler* flush_handler,
void* data) {
pthread_mutex_lock(&(audio_buffer->lock));
/* Reset buffer state to provided values */
audio_buffer->bytes_written = 0;
audio_buffer->flush_handler = flush_handler;
audio_buffer->data = data;
/* Calculate size of each packet in bytes */
audio_buffer->packet_size = packet_frames
* audio_buffer->out_format.channels
* audio_buffer->out_format.bps;
/* Allocate new buffer */
free(audio_buffer->packet);
audio_buffer->packet = malloc(audio_buffer->packet_size);
/* Acknowledge stream creation (if stream is ready to receive) */
guac_rdp_audio_buffer_ack(audio_buffer,
"OK", GUAC_PROTOCOL_STATUS_SUCCESS);
pthread_mutex_unlock(&(audio_buffer->lock));
}
/**
* Reads a single sample from the given buffer of data, using the input
* format defined within the given audio buffer. Each read sample is
* translated to a signed 16-bit value, even if the input format is 8-bit.
* The offset into the given buffer will be determined according to the
* input and output formats, the number of bytes sent thus far, and the
* number of bytes received (excluding the contents of the buffer).
*
* @param audio_buffer
* The audio buffer dictating the format of the given data buffer, as
* well as the offset from which the sample should be read.
*
* @param buffer
* The buffer of raw PCM audio data from which the sample should be read.
* This buffer MUST NOT contain data already taken into account by the
* audio buffer's total_bytes_received counter.
*
* @param length
* The number of bytes within the given buffer of PCM data.
*
* @param sample
* A pointer to the int16_t in which the read sample should be stored. If
* the input format is 8-bit, the sample will be shifted left by 8 bits
* to produce a 16-bit sample.
*
* @return
* Non-zero if a sample was successfully read, zero if no data remains
* within the given buffer that has not already been mapped to an
* output sample.
*/
static int guac_rdp_audio_buffer_read_sample(
guac_rdp_audio_buffer* audio_buffer, const char* buffer, int length,
int16_t* sample) {
int in_bps = audio_buffer->in_format.bps;
int in_rate = audio_buffer->in_format.rate;
int in_channels = audio_buffer->in_format.channels;
int out_bps = audio_buffer->out_format.bps;
int out_rate = audio_buffer->out_format.rate;
int out_channels = audio_buffer->out_format.channels;
/* Calculate position within audio output */
int current_sample = audio_buffer->total_bytes_sent / out_bps;
int current_frame = current_sample / out_channels;
int current_channel = current_sample % out_channels;
/* Map output channel to input channel */
if (current_channel >= in_channels)
current_channel = in_channels - 1;
/* Transform output position to input position */
current_frame = (int) current_frame * ((double) in_rate / out_rate);
current_sample = current_frame * in_channels + current_channel;
/* Calculate offset within given buffer from absolute input position */
int offset = current_sample * in_bps
- audio_buffer->total_bytes_received;
/* It should be impossible for the offset to ever go negative */
assert(offset >= 0);
/* Apply offset to buffer */
buffer += offset;
length -= offset;
/* Read only if sufficient data is present in the given buffer */
if (length < in_bps)
return 0;
/* Simply read sample directly if input is 16-bit */
if (in_bps == 2) {
*sample = *((int16_t*) buffer);
return 1;
}
/* Translate to 16-bit if input is 8-bit */
if (in_bps == 1) {
*sample = *buffer << 8;
return 1;
}
/* Accepted audio formats are required to be 8- or 16-bit */
return 0;
}
void guac_rdp_audio_buffer_write(guac_rdp_audio_buffer* audio_buffer,
char* buffer, int length) {
int16_t sample;
pthread_mutex_lock(&(audio_buffer->lock));
/* Ignore packet if there is no buffer */
if (audio_buffer->packet_size == 0 || audio_buffer->packet == NULL) {
pthread_mutex_unlock(&(audio_buffer->lock));
return;
}
int out_bps = audio_buffer->out_format.bps;
/* Continuously write packets until no data remains */
while (guac_rdp_audio_buffer_read_sample(audio_buffer,
buffer, length, &sample) > 0) {
char* current = audio_buffer->packet + audio_buffer->bytes_written;
/* Store as 16-bit or 8-bit, depending on output format */
if (out_bps == 2)
*((int16_t*) current) = sample;
else if (out_bps == 1)
*current = sample >> 8;
/* Accepted audio formats are required to be 8- or 16-bit */
else
assert(0);
/* Update byte counters */
audio_buffer->bytes_written += out_bps;
audio_buffer->total_bytes_sent += out_bps;
/* Invoke flush handler if full */
if (audio_buffer->bytes_written == audio_buffer->packet_size) {
/* Only actually invoke if defined */
if (audio_buffer->flush_handler)
audio_buffer->flush_handler(audio_buffer->packet,
audio_buffer->bytes_written, audio_buffer->data);
/* Reset buffer in all cases */
audio_buffer->bytes_written = 0;
}
} /* end packet write loop */
/* Track current position in audio stream */
audio_buffer->total_bytes_received += length;
pthread_mutex_unlock(&(audio_buffer->lock));
}
void guac_rdp_audio_buffer_end(guac_rdp_audio_buffer* audio_buffer) {
pthread_mutex_lock(&(audio_buffer->lock));
/* The stream is now closed */
guac_rdp_audio_buffer_ack(audio_buffer,
"CLOSED", GUAC_PROTOCOL_STATUS_RESOURCE_CLOSED);
/* Unset user and stream */
audio_buffer->user = NULL;
audio_buffer->stream = NULL;
/* Reset buffer state */
audio_buffer->bytes_written = 0;
audio_buffer->packet_size = 0;
audio_buffer->flush_handler = NULL;
/* Reset I/O counters */
audio_buffer->total_bytes_sent = 0;
audio_buffer->total_bytes_received = 0;
/* Free packet (if any) */
free(audio_buffer->packet);
audio_buffer->packet = NULL;
pthread_mutex_unlock(&(audio_buffer->lock));
}
void guac_rdp_audio_buffer_free(guac_rdp_audio_buffer* audio_buffer) {
pthread_mutex_destroy(&(audio_buffer->lock));
free(audio_buffer->packet);
free(audio_buffer);
}