FreeRDP/client/DirectFB/dfreerdp.c

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/**
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* FreeRDP: A Remote Desktop Protocol Implementation
* DirectFB Client
*
* Copyright 2011 Marc-Andre Moreau <marcandre.moreau@gmail.com>
*
* 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 <errno.h>
#include <pthread.h>
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#include <locale.h>
#include <freerdp/freerdp.h>
#include <freerdp/constants.h>
#include <freerdp/utils/event.h>
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#include <freerdp/client/file.h>
#include <freerdp/client/cmdline.h>
#include <freerdp/client/channels.h>
#include <freerdp/client/cliprdr.h>
#include <winpr/crt.h>
#include <winpr/synch.h>
#include "df_event.h"
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#include "df_graphics.h"
#include "dfreerdp.h"
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#include <freerdp/log.h>
#define TAG CLIENT_TAG("directFB")
static HANDLE g_sem;
static int g_thread_count = 0;
struct thread_data
{
freerdp* instance;
};
BOOL df_context_new(freerdp* instance, rdpContext* context)
{
if (!(context->channels = freerdp_channels_new()))
return FALSE;
return TRUE;
}
void df_context_free(freerdp* instance, rdpContext* context)
{
if (context && context->channels)
{
freerdp_channels_close(context->channels, instance);
freerdp_channels_free(context->channels);
context->channels = NULL;
}
}
void df_begin_paint(rdpContext* context)
{
rdpGdi* gdi = context->gdi;
gdi->primary->hdc->hwnd->invalid->null = 1;
}
void df_end_paint(rdpContext* context)
{
rdpGdi* gdi;
dfInfo* dfi;
gdi = context->gdi;
dfi = ((dfContext*) context)->dfi;
if (gdi->primary->hdc->hwnd->invalid->null)
return;
#if 1
dfi->update_rect.x = gdi->primary->hdc->hwnd->invalid->x;
dfi->update_rect.y = gdi->primary->hdc->hwnd->invalid->y;
dfi->update_rect.w = gdi->primary->hdc->hwnd->invalid->w;
dfi->update_rect.h = gdi->primary->hdc->hwnd->invalid->h;
#else
dfi->update_rect.x = 0;
dfi->update_rect.y = 0;
dfi->update_rect.w = gdi->width;
dfi->update_rect.h = gdi->height;
#endif
dfi->primary->Blit(dfi->primary, dfi->surface, &(dfi->update_rect), dfi->update_rect.x, dfi->update_rect.y);
}
BOOL df_get_fds(freerdp* instance, void** rfds, int* rcount, void** wfds, int* wcount)
{
dfInfo* dfi;
dfi = ((dfContext*) instance->context)->dfi;
rfds[*rcount] = (void*)(long)(dfi->read_fds);
(*rcount)++;
return TRUE;
}
BOOL df_check_fds(freerdp* instance, fd_set* set)
{
dfInfo* dfi;
dfi = ((dfContext*) instance->context)->dfi;
if (!FD_ISSET(dfi->read_fds, set))
return TRUE;
if (read(dfi->read_fds, &(dfi->event), sizeof(dfi->event)) > 0)
df_event_process(instance, &(dfi->event));
return TRUE;
}
BOOL df_pre_connect(freerdp* instance)
{
dfInfo* dfi;
BOOL bitmap_cache;
dfContext* context;
rdpSettings* settings;
dfi = (dfInfo*) malloc(sizeof(dfInfo));
ZeroMemory(dfi, sizeof(dfInfo));
context = ((dfContext*) instance->context);
context->dfi = dfi;
settings = instance->settings;
bitmap_cache = settings->BitmapCacheEnabled;
settings->OrderSupport[NEG_DSTBLT_INDEX] = TRUE;
settings->OrderSupport[NEG_PATBLT_INDEX] = TRUE;
settings->OrderSupport[NEG_SCRBLT_INDEX] = TRUE;
settings->OrderSupport[NEG_OPAQUE_RECT_INDEX] = TRUE;
settings->OrderSupport[NEG_DRAWNINEGRID_INDEX] = FALSE;
settings->OrderSupport[NEG_MULTIDSTBLT_INDEX] = FALSE;
settings->OrderSupport[NEG_MULTIPATBLT_INDEX] = FALSE;
settings->OrderSupport[NEG_MULTISCRBLT_INDEX] = FALSE;
settings->OrderSupport[NEG_MULTIOPAQUERECT_INDEX] = TRUE;
settings->OrderSupport[NEG_MULTI_DRAWNINEGRID_INDEX] = FALSE;
settings->OrderSupport[NEG_LINETO_INDEX] = TRUE;
settings->OrderSupport[NEG_POLYLINE_INDEX] = TRUE;
settings->OrderSupport[NEG_MEMBLT_INDEX] = bitmap_cache;
settings->OrderSupport[NEG_MEM3BLT_INDEX] = FALSE;
settings->OrderSupport[NEG_MEMBLT_V2_INDEX] = bitmap_cache;
settings->OrderSupport[NEG_MEM3BLT_V2_INDEX] = FALSE;
settings->OrderSupport[NEG_SAVEBITMAP_INDEX] = FALSE;
settings->OrderSupport[NEG_GLYPH_INDEX_INDEX] = FALSE;
settings->OrderSupport[NEG_FAST_INDEX_INDEX] = FALSE;
settings->OrderSupport[NEG_FAST_GLYPH_INDEX] = FALSE;
settings->OrderSupport[NEG_POLYGON_SC_INDEX] = FALSE;
settings->OrderSupport[NEG_POLYGON_CB_INDEX] = FALSE;
settings->OrderSupport[NEG_ELLIPSE_SC_INDEX] = FALSE;
settings->OrderSupport[NEG_ELLIPSE_CB_INDEX] = FALSE;
dfi->clrconv = (CLRCONV*) malloc(sizeof(CLRCONV));
ZeroMemory(dfi->clrconv, sizeof(CLRCONV));
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dfi->clrconv->alpha = 1;
dfi->clrconv->invert = 0;
dfi->clrconv->rgb555 = 0;
dfi->clrconv->palette = (rdpPalette*) malloc(sizeof(rdpPalette));
ZeroMemory(dfi->clrconv->palette, sizeof(rdpPalette));
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if (freerdp_channels_pre_connect(instance->context->channels, instance) != CHANNEL_RC_OK)
return FALSE;
return (instance->context->cache = cache_new(instance->settings)) != NULL;
}
BOOL df_post_connect(freerdp* instance)
{
rdpGdi* gdi;
dfInfo* dfi;
dfContext* context;
context = ((dfContext*) instance->context);
dfi = context->dfi;
if (!gdi_init(instance, CLRCONV_ALPHA | CLRCONV_INVERT | CLRBUF_16BPP | CLRBUF_32BPP, NULL))
return FALSE;
gdi = instance->context->gdi;
dfi->err = DirectFBCreate(&(dfi->dfb));
dfi->dsc.flags = DSDESC_CAPS;
dfi->dsc.caps = DSCAPS_PRIMARY;
dfi->err = dfi->dfb->CreateSurface(dfi->dfb, &(dfi->dsc), &(dfi->primary));
dfi->err = dfi->primary->GetSize(dfi->primary, &(gdi->width), &(gdi->height));
dfi->dfb->SetVideoMode(dfi->dfb, gdi->width, gdi->height, gdi->dstBpp);
dfi->dfb->CreateInputEventBuffer(dfi->dfb, DICAPS_ALL, DFB_TRUE, &(dfi->event_buffer));
dfi->event_buffer->CreateFileDescriptor(dfi->event_buffer, &(dfi->read_fds));
dfi->dfb->GetDisplayLayer(dfi->dfb, 0, &(dfi->layer));
dfi->layer->EnableCursor(dfi->layer, 1);
dfi->dsc.flags = DSDESC_CAPS | DSDESC_WIDTH | DSDESC_HEIGHT | DSDESC_PREALLOCATED | DSDESC_PIXELFORMAT;
dfi->dsc.caps = DSCAPS_SYSTEMONLY;
dfi->dsc.width = gdi->width;
dfi->dsc.height = gdi->height;
if (gdi->dstBpp == 32 || gdi->dstBpp == 24)
dfi->dsc.pixelformat = DSPF_AiRGB;
else if (gdi->dstBpp == 16 || gdi->dstBpp == 15)
dfi->dsc.pixelformat = DSPF_RGB16;
else if (gdi->dstBpp == 8)
dfi->dsc.pixelformat = DSPF_RGB332;
else
dfi->dsc.pixelformat = DSPF_AiRGB;
dfi->dsc.preallocated[0].data = gdi->primary_buffer;
dfi->dsc.preallocated[0].pitch = gdi->width * gdi->bytesPerPixel;
dfi->dfb->CreateSurface(dfi->dfb, &(dfi->dsc), &(dfi->surface));
instance->update->BeginPaint = df_begin_paint;
instance->update->EndPaint = df_end_paint;
df_keyboard_init();
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pointer_cache_register_callbacks(instance->update);
df_register_graphics(instance->context->graphics);
return freerdp_channels_post_connect(instance->context->channels, instance) == CHANNEL_RC_OK;
}
BOOL df_verify_certificate(freerdp* instance, char* subject, char* issuer, char* fingerprint)
{
char answer;
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WLog_INFO(TAG, "Certificate details:");
WLog_INFO(TAG, "\tSubject: %s", subject);
WLog_INFO(TAG, "\tIssuer: %s", issuer);
WLog_INFO(TAG, "\tThumbprint: %s", fingerprint);
WLog_INFO(TAG, "The above X.509 certificate could not be verified, possibly because you do not have "
"the CA certificate in your certificate store, or the certificate has expired. "
"Please look at the documentation on how to create local certificate store for a private CA.");
while (1)
{
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WLog_INFO(TAG, "Do you trust the above certificate? (Y/N) ");
answer = fgetc(stdin);
if (answer == 'y' || answer == 'Y')
{
return TRUE;
}
else if (answer == 'n' || answer == 'N')
{
break;
}
}
return FALSE;
}
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static int df_receive_channel_data(freerdp* instance, UINT16 channelId, BYTE* data, int size, int flags, int total_size)
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{
return freerdp_channels_data(instance, channelId, data, size, flags, total_size);
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}
static void df_process_cb_monitor_ready_event(rdpChannels* channels, freerdp* instance)
{
wMessage* event;
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RDP_CB_FORMAT_LIST_EVENT* format_list_event;
event = freerdp_event_new(CliprdrChannel_Class, CliprdrChannel_FormatList, NULL, NULL);
format_list_event = (RDP_CB_FORMAT_LIST_EVENT*) event;
format_list_event->num_formats = 0;
freerdp_channels_send_event(channels, event);
}
static void df_process_channel_event(rdpChannels* channels, freerdp* instance)
{
wMessage* event;
event = freerdp_channels_pop_event(channels);
if (event)
{
switch (GetMessageType(event->id))
{
case CliprdrChannel_MonitorReady:
df_process_cb_monitor_ready_event(channels, instance);
break;
default:
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WLog_ERR(TAG, "df_process_channel_event: unknown event type %d", GetMessageType(event->id));
break;
}
freerdp_event_free(event);
}
}
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static void df_free(dfInfo* dfi)
{
dfi->dfb->Release(dfi->dfb);
free(dfi);
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}
int dfreerdp_run(freerdp* instance)
{
int i;
int fds;
int max_fds;
int rcount;
int wcount;
void* rfds[32];
void* wfds[32];
fd_set rfds_set;
fd_set wfds_set;
dfInfo* dfi;
dfContext* context;
rdpChannels* channels;
ZeroMemory(rfds, sizeof(rfds));
ZeroMemory(wfds, sizeof(wfds));
if (!freerdp_connect(instance))
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return 0;
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context = (dfContext*) instance->context;
dfi = context->dfi;
channels = instance->context->channels;
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while (1)
{
rcount = 0;
wcount = 0;
if (freerdp_get_fds(instance, rfds, &rcount, wfds, &wcount) != TRUE)
{
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WLog_ERR(TAG, "Failed to get FreeRDP file descriptor");
break;
}
if (freerdp_channels_get_fds(channels, instance, rfds, &rcount, wfds, &wcount) != TRUE)
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{
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WLog_ERR(TAG, "Failed to get channel manager file descriptor");
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break;
}
if (df_get_fds(instance, rfds, &rcount, wfds, &wcount) != TRUE)
{
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WLog_ERR(TAG, "Failed to get dfreerdp file descriptor");
break;
}
max_fds = 0;
FD_ZERO(&rfds_set);
FD_ZERO(&wfds_set);
for (i = 0; i < rcount; i++)
{
fds = (int)(long)(rfds[i]);
if (fds > max_fds)
max_fds = fds;
FD_SET(fds, &rfds_set);
}
if (max_fds == 0)
break;
if (select(max_fds + 1, &rfds_set, &wfds_set, NULL, NULL) == -1)
{
/* these are not really errors */
if (!((errno == EAGAIN) ||
(errno == EWOULDBLOCK) ||
(errno == EINPROGRESS) ||
(errno == EINTR))) /* signal occurred */
{
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WLog_ERR(TAG, "dfreerdp_run: select failed");
break;
}
}
if (freerdp_check_fds(instance) != TRUE)
{
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WLog_ERR(TAG, "Failed to check FreeRDP file descriptor");
break;
}
if (df_check_fds(instance, &rfds_set) != TRUE)
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{
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WLog_ERR(TAG, "Failed to check dfreerdp file descriptor");
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break;
}
if (freerdp_channels_check_fds(channels, instance) != TRUE)
{
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WLog_ERR(TAG, "Failed to check channel manager file descriptor");
break;
}
df_process_channel_event(channels, instance);
}
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freerdp_channels_disconnect(channels, instance);
freerdp_disconnect(instance);
freerdp_channels_close(channels, instance);
freerdp_channels_free(channels);
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df_free(dfi);
gdi_free(instance);
freerdp_disconnect(instance);
freerdp_free(instance);
return 0;
}
void* thread_func(void* param)
{
struct thread_data* data;
data = (struct thread_data*) param;
dfreerdp_run(data->instance);
free(data);
pthread_detach(pthread_self());
g_thread_count--;
if (g_thread_count < 1)
ReleaseSemaphore(g_sem, 1, NULL);
return NULL;
}
int main(int argc, char* argv[])
{
int status;
pthread_t thread;
freerdp* instance;
dfContext* context;
rdpChannels* channels;
struct thread_data* data;
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setlocale(LC_ALL, "");
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if (!(g_sem = CreateSemaphore(NULL, 0, 1, NULL)))
{
WLog_ERR(TAG, "Failed to create semaphore");
exit(1);
}
instance = freerdp_new();
instance->PreConnect = df_pre_connect;
instance->PostConnect = df_post_connect;
instance->VerifyCertificate = df_verify_certificate;
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instance->ReceiveChannelData = df_receive_channel_data;
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instance->ContextSize = sizeof(dfContext);
instance->ContextNew = df_context_new;
instance->ContextFree = df_context_free;
if (!freerdp_context_new(instance))
{
WLog_ERR(TAG, "Failed to create FreeRDP context");
exit(1);
}
context = (dfContext*) instance->context;
channels = instance->context->channels;
DirectFBInit(&argc, &argv);
instance->context->argc = argc;
instance->context->argv = argv;
status = freerdp_client_settings_parse_command_line(instance->settings, argc, argv, FALSE);
if (status < 0)
exit(0);
if (!freerdp_client_load_addins(instance->context->channels, instance->settings))
exit(-1);
data = (struct thread_data*) malloc(sizeof(struct thread_data));
ZeroMemory(data, sizeof(sizeof(struct thread_data)));
data->instance = instance;
g_thread_count++;
pthread_create(&thread, 0, thread_func, data);
while (g_thread_count > 0)
{
WaitForSingleObject(g_sem, INFINITE);
}
return 0;
}