FreeRDP/channels/rdpsnd/rdpsnd_main.c
2011-08-15 15:08:23 +08:00

532 lines
14 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol client.
* Audio Output Virtual Channel
*
* Copyright 2009-2011 Jay Sorg
* Copyright 2010-2011 Vic Lee
*
* Licensed 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 <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <freerdp/constants.h>
#include <freerdp/types.h>
#include <freerdp/utils/memory.h>
#include <freerdp/utils/stream.h>
#include <freerdp/utils/list.h>
#include <freerdp/utils/load_plugin.h>
#include <freerdp/utils/svc_plugin.h>
#include "rdpsnd_main.h"
#define SNDC_CLOSE 1
#define SNDC_WAVE 2
#define SNDC_SETVOLUME 3
#define SNDC_SETPITCH 4
#define SNDC_WAVECONFIRM 5
#define SNDC_TRAINING 6
#define SNDC_FORMATS 7
#define SNDC_CRYPTKEY 8
#define SNDC_WAVEENCRYPT 9
#define SNDC_UDPWAVE 10
#define SNDC_UDPWAVELAST 11
#define SNDC_QUALITYMODE 12
#define TSSNDCAPS_ALIVE 1
#define TSSNDCAPS_VOLUME 2
#define TSSNDCAPS_PITCH 4
#define DYNAMIC_QUALITY 0x0000
#define MEDIUM_QUALITY 0x0001
#define HIGH_QUALITY 0x0002
struct rdpsnd_plugin
{
rdpSvcPlugin plugin;
LIST* data_out_list;
uint8 cBlockNo;
rdpsndFormat* supported_formats;
int n_supported_formats;
int current_format;
boolean expectingWave;
uint8 waveData[4];
uint16 waveDataSize;
uint32 wTimeStamp; /* server timestamp */
uint32 wave_timestamp; /* client timestamp */
boolean is_open;
uint32 close_timestamp;
uint16 fixed_format;
uint16 fixed_channel;
uint32 fixed_rate;
/* Device plugin */
rdpsndDevicePlugin* device;
};
struct data_out_item
{
STREAM* data_out;
uint32 out_timestamp;
};
/* get time in milliseconds */
static uint32 get_mstime(void)
{
struct timeval tp;
gettimeofday(&tp, 0);
return (tp.tv_sec * 1000) + (tp.tv_usec / 1000);
}
/* process the linked list of data that has queued to be sent */
static void rdpsnd_process_interval(rdpSvcPlugin* plugin)
{
rdpsndPlugin* rdpsnd = (rdpsndPlugin*)plugin;
struct data_out_item* item;
uint32 cur_time;
while (rdpsnd->data_out_list->head)
{
item = (struct data_out_item*)rdpsnd->data_out_list->head->data;
cur_time = get_mstime();
if (cur_time <= item->out_timestamp)
break;
item = (struct data_out_item*)list_dequeue(rdpsnd->data_out_list);
svc_plugin_send(plugin, item->data_out);
xfree(item);
DEBUG_SVC("processed data_out");
}
if (rdpsnd->is_open && rdpsnd->close_timestamp > 0)
{
cur_time = get_mstime();
if (cur_time > rdpsnd->close_timestamp)
{
if (rdpsnd->device)
IFCALL(rdpsnd->device->Close, rdpsnd->device);
rdpsnd->is_open = False;
rdpsnd->close_timestamp = 0;
DEBUG_SVC("processed close");
}
}
if (rdpsnd->data_out_list->head == NULL && !rdpsnd->is_open)
{
rdpsnd->plugin.interval_ms = 0;
}
}
static void rdpsnd_free_supported_formats(rdpsndPlugin* rdpsnd)
{
uint16 i;
for (i = 0; i < rdpsnd->n_supported_formats; i++)
xfree(rdpsnd->supported_formats[i].data);
xfree(rdpsnd->supported_formats);
rdpsnd->supported_formats = NULL;
rdpsnd->n_supported_formats = 0;
}
/* receives a list of server supported formats and returns a list
of client supported formats */
static void rdpsnd_process_message_formats(rdpsndPlugin* rdpsnd, STREAM* data_in)
{
uint16 wNumberOfFormats;
uint16 nFormat;
uint16 wVersion;
STREAM* data_out;
rdpsndFormat* out_formats;
uint16 n_out_formats;
rdpsndFormat* format;
uint8* format_mark;
uint8* data_mark;
int pos;
rdpsnd_free_supported_formats(rdpsnd);
stream_seek_uint32(data_in); /* dwFlags */
stream_seek_uint32(data_in); /* dwVolume */
stream_seek_uint32(data_in); /* dwPitch */
stream_seek_uint16(data_in); /* wDGramPort */
stream_read_uint16(data_in, wNumberOfFormats);
stream_read_uint8(data_in, rdpsnd->cBlockNo); /* cLastBlockConfirmed */
stream_read_uint16(data_in, wVersion);
stream_seek_uint8(data_in); /* bPad */
DEBUG_SVC("wNumberOfFormats %d wVersion %d", wNumberOfFormats, wVersion);
if (wNumberOfFormats < 1)
{
DEBUG_WARN("wNumberOfFormats is 0");
return;
}
out_formats = (rdpsndFormat*)xzalloc(wNumberOfFormats * sizeof(rdpsndFormat));
n_out_formats = 0;
data_out = stream_new(24);
stream_write_uint8(data_out, SNDC_FORMATS); /* msgType */
stream_write_uint8(data_out, 0); /* bPad */
stream_seek_uint16(data_out); /* BodySize */
stream_write_uint32(data_out, TSSNDCAPS_ALIVE); /* dwFlags */
stream_write_uint32(data_out, 0); /* dwVolume */
stream_write_uint32(data_out, 0); /* dwPitch */
stream_write_uint16_be(data_out, 0); /* wDGramPort */
stream_seek_uint16(data_out); /* wNumberOfFormats */
stream_write_uint8(data_out, 0); /* cLastBlockConfirmed */
stream_write_uint16(data_out, 6); /* wVersion */
stream_write_uint8(data_out, 0); /* bPad */
for (nFormat = 0; nFormat < wNumberOfFormats; nFormat++)
{
stream_get_mark(data_in, format_mark);
format = &out_formats[n_out_formats];
stream_read_uint16(data_in, format->wFormatTag);
stream_read_uint16(data_in, format->nChannels);
stream_read_uint32(data_in, format->nSamplesPerSec);
stream_seek_uint32(data_in); /* nAvgBytesPerSec */
stream_read_uint16(data_in, format->nBlockAlign);
stream_read_uint16(data_in, format->wBitsPerSample);
stream_read_uint16(data_in, format->cbSize);
stream_get_mark(data_in, data_mark);
stream_seek(data_in, format->cbSize);
format->data = NULL;
if (rdpsnd->fixed_format > 0 && rdpsnd->fixed_format != format->wFormatTag)
continue;
if (rdpsnd->fixed_channel > 0 && rdpsnd->fixed_channel != format->nChannels)
continue;
if (rdpsnd->fixed_rate > 0 && rdpsnd->fixed_rate != format->nSamplesPerSec)
continue;
if (rdpsnd->device && rdpsnd->device->FormatSupported(rdpsnd->device, format))
{
stream_check_size(data_out, 18 + format->cbSize);
stream_write(data_out, format_mark, 18 + format->cbSize);
if (format->cbSize > 0)
{
format->data = xmalloc(format->cbSize);
memcpy(format->data, data_mark, format->cbSize);
}
n_out_formats++;
}
}
rdpsnd->n_supported_formats = n_out_formats;
if (n_out_formats > 0)
{
rdpsnd->supported_formats = out_formats;
}
else
{
xfree(out_formats);
DEBUG_WARN("no formats supported");
}
pos = stream_get_pos(data_out);
stream_set_pos(data_out, 2);
stream_write_uint16(data_out, pos - 4);
stream_set_pos(data_out, 18);
stream_write_uint16(data_out, n_out_formats);
stream_set_pos(data_out, pos);
svc_plugin_send((rdpSvcPlugin*)rdpsnd, data_out);
if (wVersion >= 6)
{
data_out = stream_new(8);
stream_write_uint8(data_out, SNDC_QUALITYMODE); /* msgType */
stream_write_uint8(data_out, 0); /* bPad */
stream_write_uint16(data_out, 4); /* BodySize */
stream_write_uint16(data_out, HIGH_QUALITY); /* wQualityMode */
stream_write_uint16(data_out, 0); /* Reserved */
svc_plugin_send((rdpSvcPlugin*)rdpsnd, data_out);
}
}
/* server is getting a feel of the round trip time */
static void rdpsnd_process_message_training(rdpsndPlugin* rdpsnd, STREAM* data_in)
{
uint16 wTimeStamp;
uint16 wPackSize;
STREAM* data_out;
stream_read_uint16(data_in, wTimeStamp);
stream_read_uint16(data_in, wPackSize);
data_out = stream_new(8);
stream_write_uint8(data_out, SNDC_TRAINING); /* msgType */
stream_write_uint8(data_out, 0); /* bPad */
stream_write_uint16(data_out, 4); /* BodySize */
stream_write_uint16(data_out, wTimeStamp);
stream_write_uint16(data_out, wPackSize);
svc_plugin_send((rdpSvcPlugin*)rdpsnd, data_out);
}
static void rdpsnd_process_message_wave_info(rdpsndPlugin* rdpsnd, STREAM* data_in, uint16 BodySize)
{
uint16 wFormatNo;
stream_read_uint16(data_in, rdpsnd->wTimeStamp);
stream_read_uint16(data_in, wFormatNo);
stream_read_uint8(data_in, rdpsnd->cBlockNo);
stream_seek(data_in, 3); /* bPad */
stream_read(data_in, rdpsnd->waveData, 4);
rdpsnd->waveDataSize = BodySize - 8;
rdpsnd->wave_timestamp = get_mstime();
rdpsnd->expectingWave = True;
DEBUG_SVC("waveDataSize %d wFormatNo %d", rdpsnd->waveDataSize, wFormatNo);
if (!rdpsnd->is_open)
{
rdpsnd->current_format = wFormatNo;
rdpsnd->is_open = True;
if (rdpsnd->device)
IFCALL(rdpsnd->device->Open, rdpsnd->device, &rdpsnd->supported_formats[wFormatNo]);
}
else if (wFormatNo != rdpsnd->current_format)
{
rdpsnd->current_format = wFormatNo;
if (rdpsnd->device)
IFCALL(rdpsnd->device->SetFormat, rdpsnd->device, &rdpsnd->supported_formats[wFormatNo]);
}
}
/* header is not removed from data in this function */
static void rdpsnd_process_message_wave(rdpsndPlugin* rdpsnd, STREAM* data_in)
{
uint16 wTimeStamp;
uint32 delay_ms;
uint32 process_ms;
struct data_out_item* item;
rdpsnd->expectingWave = 0;
memcpy(stream_get_head(data_in), rdpsnd->waveData, 4);
if (stream_get_size(data_in) != rdpsnd->waveDataSize)
{
DEBUG_WARN("size error");
return;
}
if (rdpsnd->device)
IFCALL(rdpsnd->device->Play, rdpsnd->device, stream_get_head(data_in), stream_get_size(data_in));
process_ms = get_mstime() - rdpsnd->wave_timestamp;
delay_ms = 250;
wTimeStamp = rdpsnd->wTimeStamp + delay_ms;
DEBUG_SVC("data_size %d delay_ms %u process_ms %u",
stream_get_size(data_in), delay_ms, process_ms);
item = xnew(struct data_out_item);
item->data_out = stream_new(8);
stream_write_uint8(item->data_out, SNDC_WAVECONFIRM);
stream_write_uint8(item->data_out, 0);
stream_write_uint16(item->data_out, 4);
stream_write_uint16(item->data_out, wTimeStamp);
stream_write_uint8(item->data_out, rdpsnd->cBlockNo); /* cConfirmedBlockNo */
stream_write_uint8(item->data_out, 0); /* bPad */
item->out_timestamp = rdpsnd->wave_timestamp + delay_ms;
list_enqueue(rdpsnd->data_out_list, item);
rdpsnd->plugin.interval_ms = 10;
}
static void rdpsnd_process_message_close(rdpsndPlugin* rdpsnd)
{
DEBUG_SVC("server closes.");
rdpsnd->close_timestamp = get_mstime() + 2000;
rdpsnd->plugin.interval_ms = 10;
}
static void rdpsnd_process_message_setvolume(rdpsndPlugin* rdpsnd, STREAM* data_in)
{
uint32 dwVolume;
stream_read_uint32(data_in, dwVolume);
DEBUG_SVC("dwVolume 0x%X", dwVolume);
if (rdpsnd->device)
IFCALL(rdpsnd->device->SetVolume, rdpsnd->device, dwVolume);
}
static void rdpsnd_process_receive(rdpSvcPlugin* plugin, STREAM* data_in)
{
rdpsndPlugin* rdpsnd = (rdpsndPlugin*)plugin;
uint8 msgType;
uint16 BodySize;
if (rdpsnd->expectingWave)
{
rdpsnd_process_message_wave(rdpsnd, data_in);
return;
}
stream_read_uint8(data_in, msgType); /* msgType */
stream_seek_uint8(data_in); /* bPad */
stream_read_uint16(data_in, BodySize);
DEBUG_SVC("msgType %d BodySize %d", msgType, BodySize);
switch (msgType)
{
case SNDC_FORMATS:
rdpsnd_process_message_formats(rdpsnd, data_in);
break;
case SNDC_TRAINING:
rdpsnd_process_message_training(rdpsnd, data_in);
break;
case SNDC_WAVE:
rdpsnd_process_message_wave_info(rdpsnd, data_in, BodySize);
break;
case SNDC_CLOSE:
rdpsnd_process_message_close(rdpsnd);
break;
case SNDC_SETVOLUME:
rdpsnd_process_message_setvolume(rdpsnd, data_in);
break;
default:
DEBUG_WARN("unknown msgType %d", msgType);
break;
}
}
static void rdpsnd_register_device_plugin(rdpsndPlugin* rdpsnd, rdpsndDevicePlugin* device)
{
if (rdpsnd->device)
{
DEBUG_WARN("existing device, abort.");
return;
}
rdpsnd->device = device;
}
static boolean rdpsnd_load_device_plugin(rdpsndPlugin* rdpsnd, const char* name, FRDP_PLUGIN_DATA* data)
{
FREERDP_RDPSND_DEVICE_ENTRY_POINTS entryPoints;
PFREERDP_RDPSND_DEVICE_ENTRY entry;
entry = (PFREERDP_RDPSND_DEVICE_ENTRY)freerdp_load_plugin(name, RDPSND_DEVICE_EXPORT_FUNC_NAME);
if (entry == NULL)
{
return False;
}
entryPoints.rdpsnd = rdpsnd;
entryPoints.pRegisterRdpsndDevice = rdpsnd_register_device_plugin;
entryPoints.plugin_data = data;
if (entry(&entryPoints) != 0)
{
DEBUG_WARN("%s entry returns error.", name);
return False;
}
return True;
}
static void rdpsnd_process_plugin_data(rdpsndPlugin* rdpsnd, FRDP_PLUGIN_DATA* data)
{
if (strcmp((char*)data->data[0], "format") == 0)
{
rdpsnd->fixed_format = atoi(data->data[1]);
}
else if (strcmp((char*)data->data[0], "rate") == 0)
{
rdpsnd->fixed_rate = atoi(data->data[1]);
}
else if (strcmp((char*)data->data[0], "channel") == 0)
{
rdpsnd->fixed_channel = atoi(data->data[1]);
}
else
{
rdpsnd_load_device_plugin(rdpsnd, (char*)data->data[0], data);
}
}
static void rdpsnd_process_connect(rdpSvcPlugin* plugin)
{
rdpsndPlugin* rdpsnd = (rdpsndPlugin*)plugin;
FRDP_PLUGIN_DATA* data;
FRDP_PLUGIN_DATA default_data[2] = { { 0 }, { 0 } };
DEBUG_SVC("connecting");
plugin->interval_callback = rdpsnd_process_interval;
rdpsnd->data_out_list = list_new();
data = (FRDP_PLUGIN_DATA*)plugin->channel_entry_points.pExtendedData;
while (data && data->size > 0)
{
rdpsnd_process_plugin_data(rdpsnd, data);
data = (FRDP_PLUGIN_DATA*) (((void*) data) + data->size);
}
if (rdpsnd->device == NULL)
{
default_data[0].size = sizeof(FRDP_PLUGIN_DATA);
default_data[0].data[0] = "pulse";
default_data[0].data[1] = "";
if (!rdpsnd_load_device_plugin(rdpsnd, "pulse", default_data))
{
default_data[0].data[0] = "alsa";
default_data[0].data[1] = "default";
rdpsnd_load_device_plugin(rdpsnd, "alsa", default_data);
}
}
if (rdpsnd->device == NULL)
{
DEBUG_WARN("no sound device.");
}
}
static void rdpsnd_process_event(rdpSvcPlugin* plugin, FRDP_EVENT* event)
{
freerdp_event_free(event);
}
static void rdpsnd_process_terminate(rdpSvcPlugin* plugin)
{
rdpsndPlugin* rdpsnd = (rdpsndPlugin*)plugin;
struct data_out_item* item;
if (rdpsnd->device)
IFCALL(rdpsnd->device->Free, rdpsnd->device);
while ((item = list_dequeue(rdpsnd->data_out_list)) != NULL)
{
stream_free(item->data_out);
xfree(item);
}
list_free(rdpsnd->data_out_list);
rdpsnd_free_supported_formats(rdpsnd);
xfree(plugin);
}
DEFINE_SVC_PLUGIN(rdpsnd, "rdpsnd",
CHANNEL_OPTION_INITIALIZED | CHANNEL_OPTION_ENCRYPT_RDP)