#ifdef HAVE_CONFIG_H #include "config.h" #endif #include "rfb.h" #include "d3des.h" #include #include #include #define RFB_GET_UINT32(ptr) GST_READ_UINT32_BE(ptr) #define RFB_GET_UINT16(ptr) GST_READ_UINT16_BE(ptr) #define RFB_GET_UINT8(ptr) GST_READ_UINT8(ptr) #define RFB_SET_UINT32(ptr, val) GST_WRITE_UINT32_BE((ptr),(val)) #define RFB_SET_UINT16(ptr, val) GST_WRITE_UINT16_BE((ptr),(val)) #define RFB_SET_UINT8(ptr, val) GST_WRITE_UINT8((ptr),(val)) GST_DEBUG_CATEGORY_EXTERN (rfbdecoder_debug); #define GST_CAT_DEFAULT rfbdecoder_debug static gboolean rfb_decoder_state_wait_for_protocol_version (RfbDecoder * decoder); static gboolean rfb_decoder_state_wait_for_security (RfbDecoder * decoder); static gboolean rfb_decoder_state_send_client_initialisation (RfbDecoder * decoder); static gboolean rfb_decoder_state_wait_for_server_initialisation (RfbDecoder * decoder); static gboolean rfb_decoder_state_security_result (RfbDecoder * decoder); static gboolean rfb_decoder_state_normal (RfbDecoder * decoder); static gboolean rfb_decoder_state_framebuffer_update (RfbDecoder * decoder); static gboolean rfb_decoder_state_framebuffer_update_rectangle (RfbDecoder * decoder); static gboolean rfb_decoder_state_set_colour_map_entries (RfbDecoder * decoder); static gboolean rfb_decoder_state_server_cut_text (RfbDecoder * decoder); static void rfb_decoder_raw_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h); static void rfb_decoder_copyrect_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h); static void rfb_decoder_rre_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h); static void rfb_decoder_corre_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h); static void rfb_decoder_hextile_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h); RfbDecoder * rfb_decoder_new (void) { RfbDecoder *decoder = g_new0 (RfbDecoder, 1); decoder->socket = NULL; decoder->cancellable = g_cancellable_new (); decoder->password = NULL; decoder->use_copyrect = FALSE; decoder->offset_x = 0; decoder->offset_y = 0; decoder->rect_width = 0; decoder->rect_height = 0; decoder->shared_flag = TRUE; decoder->disconnected = FALSE; decoder->data = NULL; decoder->data_len = 0; return decoder; } void rfb_decoder_free (RfbDecoder * decoder) { g_return_if_fail (decoder != NULL); if (decoder->cancellable) { g_cancellable_cancel (decoder->cancellable); g_object_unref (decoder->cancellable); decoder->cancellable = NULL; } if (decoder->socket) { g_object_unref (decoder->socket); decoder->socket = NULL; } if (decoder->data) g_free (decoder->data); } gboolean rfb_decoder_connect_tcp (RfbDecoder * decoder, gchar * host, guint port) { GError *err = NULL; GInetAddress *addr; GSocketAddress *saddr; GResolver *resolver; GST_DEBUG ("connecting to the rfb server"); g_return_val_if_fail (decoder != NULL, FALSE); g_return_val_if_fail (decoder->socket == NULL, FALSE); g_return_val_if_fail (host != NULL, FALSE); /* look up name if we need to */ addr = g_inet_address_new_from_string (host); if (!addr) { GList *results; resolver = g_resolver_get_default (); results = g_resolver_lookup_by_name (resolver, host, decoder->cancellable, &err); if (!results) goto name_resolve; addr = G_INET_ADDRESS (g_object_ref (results->data)); g_resolver_free_addresses (results); g_object_unref (resolver); } saddr = g_inet_socket_address_new (addr, port); decoder->socket = g_socket_new (g_socket_address_get_family (saddr), G_SOCKET_TYPE_STREAM, G_SOCKET_PROTOCOL_TCP, &err); if (!decoder->socket) goto no_socket; GST_DEBUG ("opened receiving client socket"); if (!g_socket_connect (decoder->socket, saddr, decoder->cancellable, &err)) goto connect_failed; g_object_unref (saddr); decoder->disconnected = FALSE; return TRUE; no_socket: { GST_ERROR ("Failed to create socket: %s", err->message); g_clear_error (&err); g_object_unref (saddr); return FALSE; } name_resolve: { if (g_error_matches (err, G_IO_ERROR, G_IO_ERROR_CANCELLED)) { GST_DEBUG ("Cancelled name resolval"); } else { GST_ERROR ("Failed to resolve host '%s': %s", host, err->message); } g_clear_error (&err); g_object_unref (resolver); return FALSE; } connect_failed: { if (g_error_matches (err, G_IO_ERROR, G_IO_ERROR_CANCELLED)) { GST_DEBUG ("Cancelled connecting"); } else { GST_ERROR ("Failed to connect to host '%s:%d': %s", host, port, err->message); } g_clear_error (&err); g_object_unref (saddr); return FALSE; } } /** * rfb_decoder_iterate: * @decoder: The rfb context * * Initializes the connection with the rfb server * * Returns: TRUE if initialization was succesfull, FALSE on fail. */ gboolean rfb_decoder_iterate (RfbDecoder * decoder) { g_return_val_if_fail (decoder != NULL, FALSE); g_return_val_if_fail (decoder->socket != NULL, FALSE); if (decoder->state == NULL) { GST_DEBUG ("First iteration: set state to -> wait for protocol version"); decoder->state = rfb_decoder_state_wait_for_protocol_version; } GST_DEBUG ("Executing next state in initialization"); return decoder->state (decoder); } static guint8 * rfb_decoder_read (RfbDecoder * decoder, guint32 len) { guint32 total = 0; gssize now = 0; GError *err = NULL; g_return_val_if_fail (decoder->socket != NULL, NULL); g_return_val_if_fail (len > 0, NULL); if (G_UNLIKELY (len > decoder->data_len)) { if (decoder->data) g_free (decoder->data); decoder->data = g_malloc (len); decoder->data_len = len; } while (total < len) { now = g_socket_receive (decoder->socket, (gchar *) decoder->data + total, len - total, decoder->cancellable, &err); if (now < 0) goto recv_error; total += now; } return decoder->data; recv_error: { if (g_error_matches (err, G_IO_ERROR, G_IO_ERROR_CANCELLED)) { GST_DEBUG ("Read on socket cancelled"); } else { GST_ERROR ("Read error on socket: %s", err->message); } g_clear_error (&err); decoder->disconnected = TRUE; return NULL; } } static gint rfb_decoder_send (RfbDecoder * decoder, guint8 * buffer, guint len) { gssize now = 0; GError *err = NULL; g_return_val_if_fail (decoder->socket != NULL, 0); g_return_val_if_fail (buffer != NULL, 0); g_return_val_if_fail (len > 0, 0); now = g_socket_send (decoder->socket, (gchar *) buffer, len, decoder->cancellable, &err); if (now < 0) goto send_error; done: return now; send_error: { if (g_error_matches (err, G_IO_ERROR, G_IO_ERROR_CANCELLED)) { GST_DEBUG ("Send on socket cancelled"); } else { GST_ERROR ("Send error on socket: %s", err->message); } g_clear_error (&err); goto done; } } void rfb_decoder_send_update_request (RfbDecoder * decoder, gboolean incremental, gint x, gint y, gint width, gint height) { guint8 data[10]; g_return_if_fail (decoder != NULL); g_return_if_fail (decoder->socket != NULL); data[0] = 3; data[1] = incremental; RFB_SET_UINT16 (data + 2, x); RFB_SET_UINT16 (data + 4, y); RFB_SET_UINT16 (data + 6, width); RFB_SET_UINT16 (data + 8, height); rfb_decoder_send (decoder, data, 10); /* create a backup of the prev frame for copyrect encoding */ if (decoder->use_copyrect) { memcpy (decoder->prev_frame, decoder->frame, decoder->rect_width * decoder->rect_height * decoder->bpp / 8); } decoder->state = rfb_decoder_state_normal; } void rfb_decoder_send_key_event (RfbDecoder * decoder, guint key, gboolean down_flag) { guint8 data[8]; g_return_if_fail (decoder != NULL); g_return_if_fail (decoder->socket != NULL); data[0] = 4; data[1] = down_flag; RFB_SET_UINT16 (data + 2, 0); RFB_SET_UINT32 (data + 4, key); rfb_decoder_send (decoder, data, 8); } void rfb_decoder_send_pointer_event (RfbDecoder * decoder, gint button_mask, gint x, gint y) { guint8 data[6]; g_return_if_fail (decoder != NULL); g_return_if_fail (decoder->socket != NULL); data[0] = 5; data[1] = button_mask; RFB_SET_UINT16 (data + 2, x); RFB_SET_UINT16 (data + 4, y); rfb_decoder_send (decoder, data, 6); } /** * rfb_decoder_state_wait_for_protocol_version: * * Negotiate the rfb version used * * \TODO Support for versions 3.7 and 3.8 */ static gboolean rfb_decoder_state_wait_for_protocol_version (RfbDecoder * decoder) { rfb_decoder_read (decoder, 12); g_return_val_if_fail (memcmp (decoder->data, "RFB 003.00", 10) == 0, FALSE); g_return_val_if_fail (*(decoder->data + 11) == 0x0a, FALSE); GST_DEBUG ("\"%.11s\"", decoder->data); *(decoder->data) = 0x00; *(decoder->data + 11) = 0x00; decoder->protocol_major = atoi ((char *) (decoder->data + 4)); decoder->protocol_minor = atoi ((char *) (decoder->data + 8)); GST_DEBUG ("Major version : %d", decoder->protocol_major); GST_DEBUG ("Minor version : %d", decoder->protocol_minor); if (decoder->protocol_major != 3) { GST_INFO ("A major protocol version of %d is not supported, falling back to 3", decoder->protocol_major); decoder->protocol_major = 3; } switch (decoder->protocol_minor) { case 3: break; default: GST_INFO ("Minor version %d is not supported, using 3", decoder->protocol_minor); decoder->protocol_minor = 3; } rfb_decoder_send (decoder, (guint8 *) "RFB 003.003\n", 12); decoder->state = rfb_decoder_state_wait_for_security; return TRUE; } /* * a string describing the reason (where a string is specified as a length followed * by that many ASCII characters) **/ static gboolean rfb_decoder_state_reason (RfbDecoder * decoder) { gint reason_length; rfb_decoder_read (decoder, 4); reason_length = RFB_GET_UINT32 (decoder->data); rfb_decoder_read (decoder, reason_length); GST_WARNING ("Reason by server: %s", decoder->data); return FALSE; } static gboolean rfb_decoder_state_wait_for_security (RfbDecoder * decoder) { /* * Version 3.3 The server decides the security type and sends a single word * * The security-type may only take the value 0, 1 or 2. A value of 0 means that the * connection has failed and is followed by a string giving the reason, as described * above. */ if (IS_VERSION_3_3 (decoder)) { rfb_decoder_read (decoder, 4); decoder->security_type = RFB_GET_UINT32 (decoder->data); GST_DEBUG ("security = %d", decoder->security_type); g_return_val_if_fail (decoder->security_type < 3, FALSE); g_return_val_if_fail (decoder->security_type != SECURITY_FAIL, rfb_decoder_state_reason (decoder)); } else { /* \TODO Add behavoir for the rfb 3.7 and 3.8 servers */ GST_WARNING ("Other versions are not yet supported"); } switch (decoder->security_type) { case SECURITY_NONE: GST_DEBUG ("Security type is None"); if (IS_VERSION_3_8 (decoder)) { decoder->state = rfb_decoder_state_security_result; } else { decoder->state = rfb_decoder_state_send_client_initialisation; } break; case SECURITY_VNC:{ unsigned char key[8], *challenge; gsize password_len; /* * VNC authentication is to be used and protocol data is to be sent unencrypted. The * server sends a random 16-byte challenge */ GST_DEBUG ("Security type is VNC Authentication"); /* VNC Authentication can't be used if the password is not set */ if (!decoder->password) { GST_WARNING ("VNC Authentication can't be used if the password is not set"); return FALSE; } /* key is 8 bytes and made up of password (padded with 0s if needed) */ memset (key, 0, 8); password_len = strlen (decoder->password); memcpy (key, decoder->password, MIN (password_len, 8)); /* read challenge */ challenge = rfb_decoder_read (decoder, 16); if (challenge == NULL) return FALSE; /* encrypt 16 challenge bytes in place using key */ deskey (key, EN0); des (challenge, challenge); des (challenge + 8, challenge + 8); /* .. and send back to server */ rfb_decoder_send (decoder, challenge, 16); GST_DEBUG ("Encrypted challenge sent to server"); decoder->state = rfb_decoder_state_security_result; break; } default: GST_WARNING ("Security type is not known"); return FALSE; break; } return TRUE; } /* * The server sends a word to inform the client whether the security handshaking was * successful. */ static gboolean rfb_decoder_state_security_result (RfbDecoder * decoder) { rfb_decoder_read (decoder, 4); if (RFB_GET_UINT32 (decoder->data) != 0) { GST_WARNING ("Security handshaking failed"); if (IS_VERSION_3_8 (decoder)) { decoder->state = rfb_decoder_state_reason; return TRUE; } return FALSE; } GST_DEBUG ("Security handshaking succesfull"); decoder->state = rfb_decoder_state_send_client_initialisation; return TRUE; } static guint8 * rfb_decoder_message_set_encodings (GSList * encodings_list) { guint8 *message = g_malloc0 (4 + 4 * g_slist_length (encodings_list)); guint32 *encoding_type; message[0] = 0x02; /* message type */ RFB_SET_UINT16 (message + 2, g_slist_length (encodings_list)); /* number of encodings */ /* write all the encoding types */ encoding_type = (guint32 *) (message + 4); while (encodings_list) { RFB_SET_UINT32 (encoding_type, GPOINTER_TO_UINT (encodings_list->data)); encoding_type++; encodings_list = encodings_list->next; } return message; } /* * rfb_decoder_state_set_encodings: * @decoder: The rfb context * * Sends the encoding types that the client can decode to the server * * Returns: TRUE if initialization was succesfull, FALSE on fail. */ static gboolean rfb_decoder_state_set_encodings (RfbDecoder * decoder) { GSList *encoder_list = NULL; guint8 *message; GST_DEBUG ("entered set encodings"); encoder_list = g_slist_append (encoder_list, GUINT_TO_POINTER (ENCODING_TYPE_HEXTILE)); encoder_list = g_slist_append (encoder_list, GUINT_TO_POINTER (ENCODING_TYPE_CORRE)); encoder_list = g_slist_append (encoder_list, GUINT_TO_POINTER (ENCODING_TYPE_RRE)); if (decoder->use_copyrect) { encoder_list = g_slist_append (encoder_list, GUINT_TO_POINTER (ENCODING_TYPE_COPYRECT)); } encoder_list = g_slist_append (encoder_list, GUINT_TO_POINTER (ENCODING_TYPE_RAW)); message = rfb_decoder_message_set_encodings (encoder_list); rfb_decoder_send (decoder, message, 4 + 4 * g_slist_length (encoder_list)); g_free (message); decoder->state = rfb_decoder_state_normal; decoder->inited = TRUE; return TRUE; } static gboolean rfb_decoder_state_send_client_initialisation (RfbDecoder * decoder) { guint8 shared_flag; shared_flag = decoder->shared_flag; rfb_decoder_send (decoder, &shared_flag, 1); GST_DEBUG ("shared_flag is %d", shared_flag); decoder->state = rfb_decoder_state_wait_for_server_initialisation; return TRUE; } static gboolean rfb_decoder_state_wait_for_server_initialisation (RfbDecoder * decoder) { guint32 name_length; rfb_decoder_read (decoder, 24); decoder->width = RFB_GET_UINT16 (decoder->data + 0); decoder->height = RFB_GET_UINT16 (decoder->data + 2); decoder->bpp = RFB_GET_UINT8 (decoder->data + 4); decoder->depth = RFB_GET_UINT8 (decoder->data + 5); decoder->big_endian = RFB_GET_UINT8 (decoder->data + 6); decoder->true_colour = RFB_GET_UINT8 (decoder->data + 7); decoder->red_max = RFB_GET_UINT16 (decoder->data + 8); decoder->green_max = RFB_GET_UINT16 (decoder->data + 10); decoder->blue_max = RFB_GET_UINT16 (decoder->data + 12); decoder->red_shift = RFB_GET_UINT8 (decoder->data + 14); decoder->green_shift = RFB_GET_UINT8 (decoder->data + 15); decoder->blue_shift = RFB_GET_UINT8 (decoder->data + 16); GST_DEBUG ("Server Initialization"); GST_DEBUG ("width = %d", decoder->width); GST_DEBUG ("height = %d", decoder->height); GST_DEBUG ("bpp = %d", decoder->bpp); GST_DEBUG ("depth = %d", decoder->depth); GST_DEBUG ("big_endian = %d", decoder->big_endian); GST_DEBUG ("true_colour= %d", decoder->true_colour); GST_DEBUG ("red_max = %d", decoder->red_max); GST_DEBUG ("green_max = %d", decoder->green_max); GST_DEBUG ("blue_max = %d", decoder->blue_max); GST_DEBUG ("red_shift = %d", decoder->red_shift); GST_DEBUG ("green_shift= %d", decoder->green_shift); GST_DEBUG ("blue_shift = %d", decoder->blue_shift); name_length = RFB_GET_UINT32 (decoder->data + 20); rfb_decoder_read (decoder, name_length); decoder->name = g_strndup ((gchar *) (decoder->data), name_length); GST_DEBUG ("name = %s", decoder->name); /* check if we need cropping */ if (decoder->offset_x > 0) { if (decoder->offset_x > decoder->width) { GST_WARNING ("Trying to crop more than the width of the server"); } else { decoder->width -= decoder->offset_x; } } if (decoder->offset_y > 0) { if (decoder->offset_y > decoder->height) { GST_WARNING ("Trying to crop more than the height of the server"); } else { decoder->height -= decoder->offset_y; } } if (decoder->rect_width > 0) { if (decoder->rect_width > decoder->width) { GST_WARNING ("Trying to crop more than the width of the server"); } else { decoder->width = decoder->rect_width; } } if (decoder->rect_height > 0) { if (decoder->rect_height > decoder->height) { GST_WARNING ("Trying to crop more than the height of the server"); } else { decoder->height = decoder->rect_height; } } decoder->state = rfb_decoder_state_set_encodings; return TRUE; } static gboolean rfb_decoder_state_normal (RfbDecoder * decoder) { gint message_type; GST_DEBUG ("decoder_state_normal"); rfb_decoder_read (decoder, 1); message_type = RFB_GET_UINT8 (decoder->data); switch (message_type) { case MESSAGE_TYPE_FRAMEBUFFER_UPDATE: GST_DEBUG ("Receiving framebuffer update"); decoder->state = rfb_decoder_state_framebuffer_update; break; case 1: decoder->state = rfb_decoder_state_set_colour_map_entries; break; case 2: /* bell, ignored */ decoder->state = rfb_decoder_state_normal; break; case 3: decoder->state = rfb_decoder_state_server_cut_text; break; default: g_critical ("unknown message type %d", message_type); } return TRUE; } static gboolean rfb_decoder_state_framebuffer_update (RfbDecoder * decoder) { rfb_decoder_read (decoder, 3); decoder->n_rects = RFB_GET_UINT16 (decoder->data + 1); GST_DEBUG ("Number of rectangles : %d", decoder->n_rects); decoder->state = rfb_decoder_state_framebuffer_update_rectangle; return TRUE; } static gboolean rfb_decoder_state_framebuffer_update_rectangle (RfbDecoder * decoder) { gint x, y, w, h; gint encoding; rfb_decoder_read (decoder, 12); x = RFB_GET_UINT16 (decoder->data + 0) - decoder->offset_x; y = RFB_GET_UINT16 (decoder->data + 2) - decoder->offset_y; w = RFB_GET_UINT16 (decoder->data + 4); h = RFB_GET_UINT16 (decoder->data + 6); encoding = RFB_GET_UINT32 (decoder->data + 8); GST_DEBUG ("update recieved"); GST_DEBUG ("x:%d y:%d", x, y); GST_DEBUG ("w:%d h:%d", w, h); GST_DEBUG ("encoding: %d", encoding); if (((w * h) + (x * y)) > (decoder->width * decoder->height)) { GST_ERROR ("Desktop resize is unsupported."); decoder->state = NULL; decoder->disconnected = TRUE; return TRUE; } switch (encoding) { case ENCODING_TYPE_RAW: rfb_decoder_raw_encoding (decoder, x, y, w, h); break; case ENCODING_TYPE_COPYRECT: rfb_decoder_copyrect_encoding (decoder, x, y, w, h); break; case ENCODING_TYPE_RRE: rfb_decoder_rre_encoding (decoder, x, y, w, h); break; case ENCODING_TYPE_CORRE: rfb_decoder_corre_encoding (decoder, x, y, w, h); break; case ENCODING_TYPE_HEXTILE: rfb_decoder_hextile_encoding (decoder, x, y, w, h); break; default: g_critical ("unimplemented encoding\n"); break; } decoder->n_rects--; if (decoder->n_rects == 0 || decoder->disconnected) { decoder->state = NULL; } else { decoder->state = rfb_decoder_state_framebuffer_update_rectangle; } return TRUE; } static void rfb_decoder_raw_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h) { gint size; guint8 *frame, *p; guint32 raw_line_size; raw_line_size = rect_w * decoder->bytespp; size = rect_h * raw_line_size; GST_DEBUG ("Reading %d bytes (%dx%d)", size, rect_w, rect_h); rfb_decoder_read (decoder, size); frame = decoder->frame + (((start_y * decoder->rect_width) + start_x) * decoder->bytespp); p = decoder->data; while (rect_h--) { memcpy (frame, p, raw_line_size); p += raw_line_size; frame += decoder->line_size; } } static void rfb_decoder_copyrect_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h) { guint16 src_x, src_y; gint line_width, copyrect_width; guint8 *src, *dst; rfb_decoder_read (decoder, 4); /* don't forget the offset */ src_x = RFB_GET_UINT16 (decoder->data) - decoder->offset_x; src_y = RFB_GET_UINT16 (decoder->data + 2) - decoder->offset_y; GST_DEBUG ("Copyrect from %d %d", src_x, src_y); copyrect_width = rect_w * decoder->bytespp; line_width = decoder->line_size; src = decoder->prev_frame + ((src_y * decoder->rect_width) + src_x) * decoder->bytespp; dst = decoder->frame + ((start_y * decoder->rect_width) + start_x) * decoder->bytespp; while (rect_h--) { memcpy (dst, src, copyrect_width); src += line_width; dst += line_width; } } static void rfb_decoder_fill_rectangle (RfbDecoder * decoder, gint x, gint y, gint w, gint h, guint32 color) { /* fill the whole region with the same color */ guint32 *offset; gint i, j; for (i = 0; i < h; i++) { offset = (guint32 *) (decoder->frame + ((x + (y + i) * decoder->rect_width)) * decoder->bytespp); for (j = 0; j < w; j++) { *(offset++) = color; } } } static void rfb_decoder_rre_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h) { guint32 number_of_rectangles, color; guint16 x, y, w, h; rfb_decoder_read (decoder, 4 + decoder->bytespp); number_of_rectangles = RFB_GET_UINT32 (decoder->data); color = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data + 4))); GST_DEBUG ("number of rectangles :%d", number_of_rectangles); /* color the background of this rectangle */ rfb_decoder_fill_rectangle (decoder, start_x, start_y, rect_w, rect_h, color); while (number_of_rectangles--) { rfb_decoder_read (decoder, decoder->bytespp + 8); color = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data))); x = RFB_GET_UINT16 (decoder->data + decoder->bytespp); y = RFB_GET_UINT16 (decoder->data + decoder->bytespp + 2); w = RFB_GET_UINT16 (decoder->data + decoder->bytespp + 4); h = RFB_GET_UINT16 (decoder->data + decoder->bytespp + 6); /* draw the rectangle in the foreground */ rfb_decoder_fill_rectangle (decoder, start_x + x, start_y + y, w, h, color); } } static void rfb_decoder_corre_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h) { guint32 number_of_rectangles, color; guint8 x, y, w, h; rfb_decoder_read (decoder, 4 + decoder->bytespp); number_of_rectangles = RFB_GET_UINT32 (decoder->data); color = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data + 4))); g_free (decoder->data); GST_DEBUG ("number of rectangles :%d", number_of_rectangles); /* color the background of this rectangle */ rfb_decoder_fill_rectangle (decoder, start_x, start_y, rect_w, rect_h, color); while (number_of_rectangles--) { rfb_decoder_read (decoder, decoder->bytespp + 4); color = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data))); x = RFB_GET_UINT8 (decoder->data + decoder->bytespp); y = RFB_GET_UINT8 (decoder->data + decoder->bytespp + 1); w = RFB_GET_UINT8 (decoder->data + decoder->bytespp + 2); h = RFB_GET_UINT8 (decoder->data + decoder->bytespp + 3); /* draw the rectangle in the foreground */ rfb_decoder_fill_rectangle (decoder, start_x + x, start_y + y, w, h, color); g_free (decoder->data); } } static void rfb_decoder_hextile_encoding (RfbDecoder * decoder, gint start_x, gint start_y, gint rect_w, gint rect_h) { gint32 x, x_count G_GNUC_UNUSED, x_end, x_max, x_max_16; gint32 y, y_count G_GNUC_UNUSED, y_end, y_max, y_max_16; guint8 subencoding, nr_subrect, xy, wh; guint32 background, foreground; foreground = background = 0; x_end = rect_w % 16; x_count = rect_w / 16 + (x_end > 0 ? 1 : 0); y_end = rect_h % 16; y_count = rect_h / 16 + (y_end > 0 ? 1 : 0); x_max = start_x + rect_w; y_max = start_y + rect_h; x_max_16 = x_max - 16; y_max_16 = y_max - 16; for (y = start_y; y < y_max; y += 16) { for (x = start_x; x < x_max; x += 16) { rfb_decoder_read (decoder, 1); subencoding = RFB_GET_UINT8 (decoder->data); if (subencoding & SUBENCODING_RAW) { rfb_decoder_raw_encoding (decoder, x, y, (x <= x_max_16 ? 16 : x_end), (y <= y_max_16 ? 16 : y_end)); continue; } if (subencoding & SUBENCODING_BACKGROUND) { rfb_decoder_read (decoder, decoder->bytespp); background = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data))); } rfb_decoder_fill_rectangle (decoder, x, y, (x <= x_max_16 ? 16 : x_end), (y <= y_max_16 ? 16 : y_end), background); if (subencoding & SUBENCODING_FOREGROUND) { rfb_decoder_read (decoder, decoder->bytespp); foreground = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data))); } if (subencoding & SUBENCODING_ANYSUBRECTS) { rfb_decoder_read (decoder, 1); nr_subrect = RFB_GET_UINT8 (decoder->data); } else { continue; } if (subencoding & SUBENCODING_SUBRECTSCOLORED) { guint offset = 0; rfb_decoder_read (decoder, nr_subrect * (2 + decoder->bytespp)); while (nr_subrect--) { foreground = GUINT32_SWAP_LE_BE ((RFB_GET_UINT32 (decoder->data + offset))); offset += decoder->bytespp; xy = RFB_GET_UINT8 (decoder->data + offset++); wh = RFB_GET_UINT8 (decoder->data + offset++); rfb_decoder_fill_rectangle (decoder, x + (xy >> 4), y + (xy & 0xF), 1 + (wh >> 4), 1 + (wh & 0xF), foreground); } } else { guint offset = 0; rfb_decoder_read (decoder, 2 * nr_subrect); while (nr_subrect--) { xy = RFB_GET_UINT8 (decoder->data + offset++); wh = RFB_GET_UINT8 (decoder->data + offset++); rfb_decoder_fill_rectangle (decoder, x + (xy >> 4), y + (xy & 0xF), 1 + (wh >> 4), 1 + (wh & 0xF), foreground); } } } } } static gboolean rfb_decoder_state_set_colour_map_entries (RfbDecoder * decoder) { g_critical ("not implemented"); return FALSE; } static gboolean rfb_decoder_state_server_cut_text (RfbDecoder * decoder) { gint cut_text_length; /* 3 bytes padding, 4 bytes cut_text_length */ rfb_decoder_read (decoder, 7); cut_text_length = RFB_GET_UINT32 (decoder->data + 3); rfb_decoder_read (decoder, cut_text_length); GST_DEBUG ("rfb_decoder_state_server_cut_text: throw away '%s'", decoder->data); decoder->state = rfb_decoder_state_normal; return TRUE; }