/** * FreeRDP: A Remote Desktop Protocol Client * Fast Path * * Copyright 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 #include #include #include #include #include "orders.h" #include "per.h" #include "update.h" #include "surface.h" #include "fastpath.h" /** * Fast-Path packet format is defined in [MS-RDPBCGR] 2.2.9.1.2, which revises * server output packets from the first byte with the goal of improving * bandwidth. * * Slow-Path packet always starts with TPKT header, which has the first * byte 0x03, while Fast-Path packet starts with 2 zero bits in the first * two less significant bits of the first byte. */ #define FASTPATH_MAX_PACKET_SIZE 0x3FFF /* * The fastpath header may be two or three bytes long. * This function assumes that at least two bytes are available in the stream * and doesn't touch third byte. */ uint16 fastpath_header_length(STREAM* s) { uint8 length1; stream_seek_uint8(s); stream_read_uint8(s, length1); stream_rewind(s, 2); return ((length1 & 0x80) != 0 ? 3 : 2); } /** * Read a Fast-Path packet header.\n * @param s stream * @param encryptionFlags * @return length */ uint16 fastpath_read_header(rdpFastPath* fastpath, STREAM* s) { uint8 header; uint16 length; stream_read_uint8(s, header); if (fastpath != NULL) { fastpath->encryptionFlags = (header & 0xC0) >> 6; fastpath->numberEvents = (header & 0x3C) >> 2; } per_read_length(s, &length); return length; } INLINE void fastpath_read_update_header(STREAM* s, uint8* updateCode, uint8* fragmentation, uint8* compression) { uint8 updateHeader; stream_read_uint8(s, updateHeader); *updateCode = updateHeader & 0x0F; *fragmentation = (updateHeader >> 4) & 0x03; *compression = (updateHeader >> 6) & 0x03; } INLINE void fastpath_write_update_header(STREAM* s, uint8 updateCode, uint8 fragmentation, uint8 compression) { uint8 updateHeader = 0; updateHeader |= updateCode & 0x0F; updateHeader |= (fragmentation & 0x03) << 4; updateHeader |= (compression & 0x03) << 6; stream_write_uint8(s, updateHeader); } uint16 fastpath_read_header_rdp(rdpFastPath* fastpath, STREAM* s) { uint8 header; uint16 length; stream_read_uint8(s, header); if (fastpath != NULL) { fastpath->encryptionFlags = (header & 0xC0) >> 6; fastpath->numberEvents = (header & 0x3C) >> 2; } per_read_length(s, &length); return length - stream_get_length(s); } static void fastpath_recv_orders(rdpFastPath* fastpath, STREAM* s) { rdpUpdate* update = fastpath->rdp->update; uint16 numberOrders; stream_read_uint16(s, numberOrders); /* numberOrders (2 bytes) */ while (numberOrders > 0) { update_recv_order(update, s); numberOrders--; } } static void fastpath_recv_update_common(rdpFastPath* fastpath, STREAM* s) { uint16 updateType; rdpUpdate* update = fastpath->rdp->update; rdpContext* context = update->context; stream_read_uint16(s, updateType); /* updateType (2 bytes) */ switch (updateType) { case UPDATE_TYPE_BITMAP: update_read_bitmap(update, s, &update->bitmap_update); IFCALL(update->BitmapUpdate, context, &update->bitmap_update); break; case UPDATE_TYPE_PALETTE: update_read_palette(update, s, &update->palette_update); IFCALL(update->Palette, context, &update->palette_update); break; } } static void fastpath_recv_update_synchronize(rdpFastPath* fastpath, STREAM* s) { stream_seek_uint16(s); /* size (2 bytes), must be set to zero */ } static void fastpath_recv_update(rdpFastPath* fastpath, uint8 updateCode, uint32 size, STREAM* s) { rdpUpdate* update = fastpath->rdp->update; rdpContext* context = fastpath->rdp->update->context; rdpPointerUpdate* pointer = update->pointer; switch (updateCode) { case FASTPATH_UPDATETYPE_ORDERS: fastpath_recv_orders(fastpath, s); break; case FASTPATH_UPDATETYPE_BITMAP: case FASTPATH_UPDATETYPE_PALETTE: fastpath_recv_update_common(fastpath, s); break; case FASTPATH_UPDATETYPE_SYNCHRONIZE: fastpath_recv_update_synchronize(fastpath, s); IFCALL(update->Synchronize, context); break; case FASTPATH_UPDATETYPE_SURFCMDS: update_recv_surfcmds(update, size, s); break; case FASTPATH_UPDATETYPE_PTR_NULL: pointer->pointer_system.type = SYSPTR_NULL; IFCALL(pointer->PointerSystem, context, &pointer->pointer_system); break; case FASTPATH_UPDATETYPE_PTR_DEFAULT: update->pointer->pointer_system.type = SYSPTR_DEFAULT; IFCALL(pointer->PointerSystem, context, &pointer->pointer_system); break; case FASTPATH_UPDATETYPE_PTR_POSITION: update_read_pointer_position(s, &pointer->pointer_position); IFCALL(pointer->PointerPosition, context, &pointer->pointer_position); break; case FASTPATH_UPDATETYPE_COLOR: update_read_pointer_color(s, &pointer->pointer_color); IFCALL(pointer->PointerColor, context, &pointer->pointer_color); break; case FASTPATH_UPDATETYPE_CACHED: update_read_pointer_cached(s, &pointer->pointer_cached); IFCALL(pointer->PointerCached, context, &pointer->pointer_cached); break; case FASTPATH_UPDATETYPE_POINTER: update_read_pointer_new(s, &pointer->pointer_new); IFCALL(pointer->PointerNew, context, &pointer->pointer_new); break; default: DEBUG_WARN("unknown updateCode 0x%X", updateCode); break; } } static void fastpath_recv_update_data(rdpFastPath* fastpath, STREAM* s) { uint16 size; int next_pos; uint32 totalSize; uint8 updateCode; uint8 fragmentation; uint8 compression; uint8 compressionFlags; STREAM* update_stream; STREAM* comp_stream; rdpRdp *rdp; uint32 roff; uint32 rlen; rdp = fastpath->rdp; fastpath_read_update_header(s, &updateCode, &fragmentation, &compression); if (compression == FASTPATH_OUTPUT_COMPRESSION_USED) stream_read_uint8(s, compressionFlags); else compressionFlags = 0; stream_read_uint16(s, size); next_pos = stream_get_pos(s) + size; comp_stream = s; if (compressionFlags & PACKET_COMPRESSED) { if (decompress_rdp(rdp, s->p, size, compressionFlags, &roff, &rlen)) { comp_stream = stream_new(0); comp_stream->data = rdp->mppc->history_buf + roff; comp_stream->p = comp_stream->data; comp_stream->size = rlen; size = comp_stream->size; } else { printf("decompress_rdp() failed\n"); stream_seek(s, size); } } update_stream = NULL; if (fragmentation == FASTPATH_FRAGMENT_SINGLE) { totalSize = size; update_stream = comp_stream; } else { if (fragmentation == FASTPATH_FRAGMENT_FIRST) stream_set_pos(fastpath->updateData, 0); stream_check_size(fastpath->updateData, size); stream_copy(fastpath->updateData, comp_stream, size); if (fragmentation == FASTPATH_FRAGMENT_LAST) { update_stream = fastpath->updateData; totalSize = stream_get_length(update_stream); stream_set_pos(update_stream, 0); } } if (update_stream) fastpath_recv_update(fastpath, updateCode, totalSize, update_stream); stream_set_pos(s, next_pos); if (comp_stream != s) xfree(comp_stream); } boolean fastpath_recv_updates(rdpFastPath* fastpath, STREAM* s) { rdpUpdate* update = fastpath->rdp->update; IFCALL(update->BeginPaint, update->context); while (stream_get_left(s) >= 3) { fastpath_recv_update_data(fastpath, s); } IFCALL(update->EndPaint, update->context); return true; } static boolean fastpath_read_input_event_header(STREAM* s, uint8* eventFlags, uint8* eventCode) { uint8 eventHeader; if (stream_get_left(s) < 1) return false; stream_read_uint8(s, eventHeader); /* eventHeader (1 byte) */ *eventFlags = (eventHeader & 0x1F); *eventCode = (eventHeader >> 5); return true; } static boolean fastpath_recv_input_event_scancode(rdpFastPath* fastpath, STREAM* s, uint8 eventFlags) { uint16 flags; uint16 code; if (stream_get_left(s) < 1) return false; stream_read_uint8(s, code); /* keyCode (1 byte) */ flags = 0; if ((eventFlags & FASTPATH_INPUT_KBDFLAGS_RELEASE)) flags |= KBD_FLAGS_RELEASE; else flags |= KBD_FLAGS_DOWN; if ((eventFlags & FASTPATH_INPUT_KBDFLAGS_EXTENDED)) flags |= KBD_FLAGS_EXTENDED; IFCALL(fastpath->rdp->input->KeyboardEvent, fastpath->rdp->input, flags, code); return true; } static boolean fastpath_recv_input_event_mouse(rdpFastPath* fastpath, STREAM* s, uint8 eventFlags) { uint16 pointerFlags; uint16 xPos; uint16 yPos; if (stream_get_left(s) < 6) return false; stream_read_uint16(s, pointerFlags); /* pointerFlags (2 bytes) */ stream_read_uint16(s, xPos); /* xPos (2 bytes) */ stream_read_uint16(s, yPos); /* yPos (2 bytes) */ IFCALL(fastpath->rdp->input->MouseEvent, fastpath->rdp->input, pointerFlags, xPos, yPos); return true; } static boolean fastpath_recv_input_event_mousex(rdpFastPath* fastpath, STREAM* s, uint8 eventFlags) { uint16 pointerFlags; uint16 xPos; uint16 yPos; if (stream_get_left(s) < 6) return false; stream_read_uint16(s, pointerFlags); /* pointerFlags (2 bytes) */ stream_read_uint16(s, xPos); /* xPos (2 bytes) */ stream_read_uint16(s, yPos); /* yPos (2 bytes) */ IFCALL(fastpath->rdp->input->ExtendedMouseEvent, fastpath->rdp->input, pointerFlags, xPos, yPos); return true; } static boolean fastpath_recv_input_event_sync(rdpFastPath* fastpath, STREAM* s, uint8 eventFlags) { IFCALL(fastpath->rdp->input->SynchronizeEvent, fastpath->rdp->input, eventFlags); return true; } static boolean fastpath_recv_input_event_unicode(rdpFastPath* fastpath, STREAM* s, uint8 eventFlags) { uint16 unicodeCode; uint16 flags; if (stream_get_left(s) < 2) return false; stream_read_uint16(s, unicodeCode); /* unicodeCode (2 bytes) */ flags = 0; if ((eventFlags & FASTPATH_INPUT_KBDFLAGS_RELEASE)) flags |= KBD_FLAGS_RELEASE; else flags |= KBD_FLAGS_DOWN; IFCALL(fastpath->rdp->input->UnicodeKeyboardEvent, fastpath->rdp->input, flags, unicodeCode); return true; } static boolean fastpath_recv_input_event(rdpFastPath* fastpath, STREAM* s) { uint8 eventFlags; uint8 eventCode; if (!fastpath_read_input_event_header(s, &eventFlags, &eventCode)) return false; switch (eventCode) { case FASTPATH_INPUT_EVENT_SCANCODE: if (!fastpath_recv_input_event_scancode(fastpath, s, eventFlags)) return false; break; case FASTPATH_INPUT_EVENT_MOUSE: if (!fastpath_recv_input_event_mouse(fastpath, s, eventFlags)) return false; break; case FASTPATH_INPUT_EVENT_MOUSEX: if (!fastpath_recv_input_event_mousex(fastpath, s, eventFlags)) return false; break; case FASTPATH_INPUT_EVENT_SYNC: if (!fastpath_recv_input_event_sync(fastpath, s, eventFlags)) return false; break; case FASTPATH_INPUT_EVENT_UNICODE: if (!fastpath_recv_input_event_unicode(fastpath, s, eventFlags)) return false; break; default: printf("Unknown eventCode %d\n", eventCode); break; } return true; } boolean fastpath_recv_inputs(rdpFastPath* fastpath, STREAM* s) { uint8 i; if (fastpath->numberEvents == 0) { /** * If numberEvents is not provided in fpInputHeader, it will be provided * as one additional byte here. */ if (stream_get_left(s) < 1) return false; stream_read_uint8(s, fastpath->numberEvents); /* eventHeader (1 byte) */ } for (i = 0; i < fastpath->numberEvents; i++) { if (!fastpath_recv_input_event(fastpath, s)) return false; } return true; } static uint32 fastpath_get_sec_bytes(rdpRdp* rdp) { uint32 sec_bytes; if (rdp->do_crypt) { sec_bytes = 8; if (rdp->settings->encryption_method == ENCRYPTION_METHOD_FIPS) sec_bytes += 4; } else sec_bytes = 0; return sec_bytes; } STREAM* fastpath_input_pdu_init(rdpFastPath* fastpath, uint8 eventFlags, uint8 eventCode) { rdpRdp *rdp; STREAM* s; rdp = fastpath->rdp; s = transport_send_stream_init(rdp->transport, 256); stream_seek(s, 3); /* fpInputHeader, length1 and length2 */ if (rdp->do_crypt) { rdp->sec_flags |= SEC_ENCRYPT; if (rdp->do_secure_checksum) rdp->sec_flags |= SEC_SECURE_CHECKSUM; } stream_seek(s, fastpath_get_sec_bytes(rdp)); stream_write_uint8(s, eventFlags | (eventCode << 5)); /* eventHeader (1 byte) */ return s; } boolean fastpath_send_input_pdu(rdpFastPath* fastpath, STREAM* s) { rdpRdp *rdp; uint16 length; uint8 eventHeader; int sec_bytes; rdp = fastpath->rdp; length = stream_get_length(s); if (length > 127) { printf("Maximum FastPath PDU length is 127\n"); return false; } eventHeader = FASTPATH_INPUT_ACTION_FASTPATH; eventHeader |= (1 << 2); /* numberEvents */ if (rdp->sec_flags & SEC_ENCRYPT) eventHeader |= (FASTPATH_INPUT_ENCRYPTED << 6); if (rdp->sec_flags & SEC_SECURE_CHECKSUM) eventHeader |= (FASTPATH_INPUT_SECURE_CHECKSUM << 6); stream_set_pos(s, 0); stream_write_uint8(s, eventHeader); sec_bytes = fastpath_get_sec_bytes(fastpath->rdp); /* * We always encode length in two bytes, eventhough we could use * only one byte if length <= 0x7F. It is just easier that way, * because we can leave room for fixed-length header, store all * the data first and then store the header. */ stream_write_uint16_be(s, 0x8000 | (length + sec_bytes)); if (sec_bytes > 0) { uint8* ptr; ptr = stream_get_tail(s) + sec_bytes; if (rdp->sec_flags & SEC_SECURE_CHECKSUM) security_salted_mac_signature(rdp, ptr, length - 3, true, stream_get_tail(s)); else security_mac_signature(rdp, ptr, length - 3, stream_get_tail(s)); security_encrypt(ptr, length - 3, rdp); } rdp->sec_flags = 0; stream_set_pos(s, length + sec_bytes); if (transport_write(fastpath->rdp->transport, s) < 0) return false; return true; } STREAM* fastpath_update_pdu_init(rdpFastPath* fastpath) { STREAM* s; s = transport_send_stream_init(fastpath->rdp->transport, FASTPATH_MAX_PACKET_SIZE); stream_seek(s, 3); /* fpOutputHeader, length1 and length2 */ stream_seek(s, fastpath_get_sec_bytes(fastpath->rdp)); stream_seek(s, 3); /* updateHeader, size */ return s; } boolean fastpath_send_update_pdu(rdpFastPath* fastpath, uint8 updateCode, STREAM* s) { rdpRdp *rdp; uint8* bm; uint8* ptr; int fragment; int sec_bytes; uint16 length; boolean result; uint16 pduLength; uint16 maxLength; uint32 totalLength; uint8 fragmentation; uint8 header; STREAM* update; result = true; rdp = fastpath->rdp; sec_bytes = fastpath_get_sec_bytes(rdp); maxLength = FASTPATH_MAX_PACKET_SIZE - 6 - sec_bytes; totalLength = stream_get_length(s) - 6 - sec_bytes; stream_set_pos(s, 0); update = stream_new(0); for (fragment = 0; totalLength > 0; fragment++) { length = MIN(maxLength, totalLength); totalLength -= length; pduLength = length + 6 + sec_bytes; if (totalLength == 0) fragmentation = (fragment == 0) ? FASTPATH_FRAGMENT_SINGLE : FASTPATH_FRAGMENT_LAST; else fragmentation = (fragment == 0) ? FASTPATH_FRAGMENT_FIRST : FASTPATH_FRAGMENT_NEXT; stream_get_mark(s, bm); header = 0; if (sec_bytes > 0) header |= (FASTPATH_OUTPUT_ENCRYPTED << 6); stream_write_uint8(s, header); /* fpOutputHeader (1 byte) */ stream_write_uint8(s, 0x80 | (pduLength >> 8)); /* length1 */ stream_write_uint8(s, pduLength & 0xFF); /* length2 */ if (sec_bytes > 0) stream_seek(s, sec_bytes); fastpath_write_update_header(s, updateCode, fragmentation, 0); stream_write_uint16(s, length); stream_attach(update, bm, pduLength); stream_seek(update, pduLength); if (sec_bytes > 0) { ptr = bm + 3 + sec_bytes; if (rdp->sec_flags & SEC_SECURE_CHECKSUM) security_salted_mac_signature(rdp, ptr, length + 3, true, bm + 3); else security_mac_signature(rdp, ptr, length + 3, bm + 3); security_encrypt(ptr, length + 3, rdp); } if (transport_write(fastpath->rdp->transport, update) < 0) { stream_detach(update); result = false; break; } stream_detach(update); /* Reserve 6+sec_bytes bytes for the next fragment header, if any. */ stream_seek(s, length - 6 - sec_bytes); } stream_free(update); return result; } rdpFastPath* fastpath_new(rdpRdp* rdp) { rdpFastPath* fastpath; fastpath = xnew(rdpFastPath); fastpath->rdp = rdp; fastpath->updateData = stream_new(4096); return fastpath; } void fastpath_free(rdpFastPath* fastpath) { stream_free(fastpath->updateData); xfree(fastpath); }