/* -*- c-basic-offset: 8 -*- rdesktop: A Remote Desktop Protocol client. RDP order processing Copyright (C) Matthew Chapman 1999-2007 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* * Oracle GPL Disclaimer: For the avoidance of doubt, except that if any license choice * other than GPL or LGPL is available it will apply instead, Oracle elects to use only * the General Public License version 2 (GPLv2) at this time for any software where * a choice of GPL license versions is made available with the language indicating * that GPLv2 or any later version may be used, or where a choice of which version * of the GPL is applied is otherwise unspecified. */ #include "rdesktop.h" #include "orders.h" extern uint8 *g_next_packet; static RDP_ORDER_STATE g_order_state; extern RD_BOOL g_use_rdp5; /* Read field indicating which parameters are present */ static void rdp_in_present(STREAM s, uint32 * present, uint8 flags, int size) { uint8 bits; int i; if (flags & RDP_ORDER_SMALL) { size--; } if (flags & RDP_ORDER_TINY) { if (size < 2) size = 0; else size -= 2; } *present = 0; for (i = 0; i < size; i++) { in_uint8(s, bits); *present |= bits << (i * 8); } } /* Read a co-ordinate (16-bit, or 8-bit delta) */ static void rdp_in_coord(STREAM s, sint16 * coord, RD_BOOL delta) { sint8 change; if (delta) { in_uint8(s, change); *coord += change; } else { in_uint16_le(s, *coord); } } /* Parse a delta co-ordinate in polyline/polygon order form */ static int parse_delta(uint8 * buffer, int *offset) { int value = buffer[(*offset)++]; int two_byte = value & 0x80; if (value & 0x40) /* sign bit */ value |= ~0x3f; else value &= 0x3f; if (two_byte) value = (value << 8) | buffer[(*offset)++]; return value; } /* Read a colour entry */ static void rdp_in_colour(STREAM s, uint32 * colour) { uint32 i; in_uint8(s, i); *colour = i; in_uint8(s, i); *colour |= i << 8; in_uint8(s, i); *colour |= i << 16; } /* Parse bounds information */ static RD_BOOL rdp_parse_bounds(STREAM s, BOUNDS * bounds) { uint8 present; in_uint8(s, present); if (present & 1) rdp_in_coord(s, &bounds->left, False); else if (present & 16) rdp_in_coord(s, &bounds->left, True); if (present & 2) rdp_in_coord(s, &bounds->top, False); else if (present & 32) rdp_in_coord(s, &bounds->top, True); if (present & 4) rdp_in_coord(s, &bounds->right, False); else if (present & 64) rdp_in_coord(s, &bounds->right, True); if (present & 8) rdp_in_coord(s, &bounds->bottom, False); else if (present & 128) rdp_in_coord(s, &bounds->bottom, True); return s_check(s); } /* Parse a pen */ static RD_BOOL rdp_parse_pen(STREAM s, PEN * pen, uint32 present) { if (present & 1) in_uint8(s, pen->style); if (present & 2) in_uint8(s, pen->width); if (present & 4) rdp_in_colour(s, &pen->colour); return s_check(s); } /* Parse a brush */ static RD_BOOL rdp_parse_brush(STREAM s, BRUSH * brush, uint32 present) { if (present & 1) in_uint8(s, brush->xorigin); if (present & 2) in_uint8(s, brush->yorigin); if (present & 4) in_uint8(s, brush->style); if (present & 8) in_uint8(s, brush->pattern[0]); if (present & 16) in_uint8a(s, &brush->pattern[1], 7); return s_check(s); } /* Process a destination blt order */ static void process_destblt(STREAM s, DESTBLT_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x01) rdp_in_coord(s, &os->x, delta); if (present & 0x02) rdp_in_coord(s, &os->y, delta); if (present & 0x04) rdp_in_coord(s, &os->cx, delta); if (present & 0x08) rdp_in_coord(s, &os->cy, delta); if (present & 0x10) in_uint8(s, os->opcode); DEBUG(("DESTBLT(op=0x%x,x=%d,y=%d,cx=%d,cy=%d)\n", os->opcode, os->x, os->y, os->cx, os->cy)); ui_destblt(ROP2_S(os->opcode), os->x, os->y, os->cx, os->cy); } /* Process a pattern blt order */ static void process_patblt(STREAM s, PATBLT_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x0001) rdp_in_coord(s, &os->x, delta); if (present & 0x0002) rdp_in_coord(s, &os->y, delta); if (present & 0x0004) rdp_in_coord(s, &os->cx, delta); if (present & 0x0008) rdp_in_coord(s, &os->cy, delta); if (present & 0x0010) in_uint8(s, os->opcode); if (present & 0x0020) rdp_in_colour(s, &os->bgcolour); if (present & 0x0040) rdp_in_colour(s, &os->fgcolour); rdp_parse_brush(s, &os->brush, present >> 7); DEBUG(("PATBLT(op=0x%x,x=%d,y=%d,cx=%d,cy=%d,bs=%d,bg=0x%x,fg=0x%x)\n", os->opcode, os->x, os->y, os->cx, os->cy, os->brush.style, os->bgcolour, os->fgcolour)); ui_patblt(ROP2_P(os->opcode), os->x, os->y, os->cx, os->cy, &os->brush, os->bgcolour, os->fgcolour); } /* Process a screen blt order */ static void process_screenblt(STREAM s, SCREENBLT_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x0001) rdp_in_coord(s, &os->x, delta); if (present & 0x0002) rdp_in_coord(s, &os->y, delta); if (present & 0x0004) rdp_in_coord(s, &os->cx, delta); if (present & 0x0008) rdp_in_coord(s, &os->cy, delta); if (present & 0x0010) in_uint8(s, os->opcode); if (present & 0x0020) rdp_in_coord(s, &os->srcx, delta); if (present & 0x0040) rdp_in_coord(s, &os->srcy, delta); DEBUG(("SCREENBLT(op=0x%x,x=%d,y=%d,cx=%d,cy=%d,srcx=%d,srcy=%d)\n", os->opcode, os->x, os->y, os->cx, os->cy, os->srcx, os->srcy)); ui_screenblt(ROP2_S(os->opcode), os->x, os->y, os->cx, os->cy, os->srcx, os->srcy); } /* Process a line order */ static void process_line(STREAM s, LINE_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x0001) in_uint16_le(s, os->mixmode); if (present & 0x0002) rdp_in_coord(s, &os->startx, delta); if (present & 0x0004) rdp_in_coord(s, &os->starty, delta); if (present & 0x0008) rdp_in_coord(s, &os->endx, delta); if (present & 0x0010) rdp_in_coord(s, &os->endy, delta); if (present & 0x0020) rdp_in_colour(s, &os->bgcolour); if (present & 0x0040) in_uint8(s, os->opcode); rdp_parse_pen(s, &os->pen, present >> 7); DEBUG(("LINE(op=0x%x,sx=%d,sy=%d,dx=%d,dy=%d,fg=0x%x)\n", os->opcode, os->startx, os->starty, os->endx, os->endy, os->pen.colour)); if (os->opcode < 0x01 || os->opcode > 0x10) { error("bad ROP2 0x%x\n", os->opcode); return; } ui_line(os->opcode - 1, os->startx, os->starty, os->endx, os->endy, &os->pen); } /* Process an opaque rectangle order */ static void process_rect(STREAM s, RECT_ORDER * os, uint32 present, RD_BOOL delta) { uint32 i; if (present & 0x01) rdp_in_coord(s, &os->x, delta); if (present & 0x02) rdp_in_coord(s, &os->y, delta); if (present & 0x04) rdp_in_coord(s, &os->cx, delta); if (present & 0x08) rdp_in_coord(s, &os->cy, delta); if (present & 0x10) { in_uint8(s, i); os->colour = (os->colour & 0xffffff00) | i; } if (present & 0x20) { in_uint8(s, i); os->colour = (os->colour & 0xffff00ff) | (i << 8); } if (present & 0x40) { in_uint8(s, i); os->colour = (os->colour & 0xff00ffff) | (i << 16); } DEBUG(("RECT(x=%d,y=%d,cx=%d,cy=%d,fg=0x%x)\n", os->x, os->y, os->cx, os->cy, os->colour)); ui_rect(os->x, os->y, os->cx, os->cy, os->colour); } /* Process a desktop save order */ static void process_desksave(STREAM s, DESKSAVE_ORDER * os, uint32 present, RD_BOOL delta) { int width, height; if (present & 0x01) in_uint32_le(s, os->offset); if (present & 0x02) rdp_in_coord(s, &os->left, delta); if (present & 0x04) rdp_in_coord(s, &os->top, delta); if (present & 0x08) rdp_in_coord(s, &os->right, delta); if (present & 0x10) rdp_in_coord(s, &os->bottom, delta); if (present & 0x20) in_uint8(s, os->action); DEBUG(("DESKSAVE(l=%d,t=%d,r=%d,b=%d,off=%d,op=%d)\n", os->left, os->top, os->right, os->bottom, os->offset, os->action)); width = os->right - os->left + 1; height = os->bottom - os->top + 1; if (os->action == 0) ui_desktop_save(os->offset, os->left, os->top, width, height); else ui_desktop_restore(os->offset, os->left, os->top, width, height); } /* Process a memory blt order */ static void process_memblt(STREAM s, MEMBLT_ORDER * os, uint32 present, RD_BOOL delta) { RD_HBITMAP bitmap; if (present & 0x0001) { in_uint8(s, os->cache_id); in_uint8(s, os->colour_table); } if (present & 0x0002) rdp_in_coord(s, &os->x, delta); if (present & 0x0004) rdp_in_coord(s, &os->y, delta); if (present & 0x0008) rdp_in_coord(s, &os->cx, delta); if (present & 0x0010) rdp_in_coord(s, &os->cy, delta); if (present & 0x0020) in_uint8(s, os->opcode); if (present & 0x0040) rdp_in_coord(s, &os->srcx, delta); if (present & 0x0080) rdp_in_coord(s, &os->srcy, delta); if (present & 0x0100) in_uint16_le(s, os->cache_idx); DEBUG(("MEMBLT(op=0x%x,x=%d,y=%d,cx=%d,cy=%d,id=%d,idx=%d)\n", os->opcode, os->x, os->y, os->cx, os->cy, os->cache_id, os->cache_idx)); bitmap = cache_get_bitmap(os->cache_id, os->cache_idx); if (bitmap == NULL) return; ui_memblt(ROP2_S(os->opcode), os->x, os->y, os->cx, os->cy, bitmap, os->srcx, os->srcy); } /* Process a 3-way blt order */ static void process_triblt(STREAM s, TRIBLT_ORDER * os, uint32 present, RD_BOOL delta) { RD_HBITMAP bitmap; if (present & 0x000001) { in_uint8(s, os->cache_id); in_uint8(s, os->colour_table); } if (present & 0x000002) rdp_in_coord(s, &os->x, delta); if (present & 0x000004) rdp_in_coord(s, &os->y, delta); if (present & 0x000008) rdp_in_coord(s, &os->cx, delta); if (present & 0x000010) rdp_in_coord(s, &os->cy, delta); if (present & 0x000020) in_uint8(s, os->opcode); if (present & 0x000040) rdp_in_coord(s, &os->srcx, delta); if (present & 0x000080) rdp_in_coord(s, &os->srcy, delta); if (present & 0x000100) rdp_in_colour(s, &os->bgcolour); if (present & 0x000200) rdp_in_colour(s, &os->fgcolour); rdp_parse_brush(s, &os->brush, present >> 10); if (present & 0x008000) in_uint16_le(s, os->cache_idx); if (present & 0x010000) in_uint16_le(s, os->unknown); DEBUG(("TRIBLT(op=0x%x,x=%d,y=%d,cx=%d,cy=%d,id=%d,idx=%d,bs=%d,bg=0x%x,fg=0x%x)\n", os->opcode, os->x, os->y, os->cx, os->cy, os->cache_id, os->cache_idx, os->brush.style, os->bgcolour, os->fgcolour)); bitmap = cache_get_bitmap(os->cache_id, os->cache_idx); if (bitmap == NULL) return; ui_triblt(os->opcode, os->x, os->y, os->cx, os->cy, bitmap, os->srcx, os->srcy, &os->brush, os->bgcolour, os->fgcolour); } /* Process a polygon order */ static void process_polygon(STREAM s, POLYGON_ORDER * os, uint32 present, RD_BOOL delta) { int index, data, next; uint8 flags = 0; RD_POINT *points; if (present & 0x01) rdp_in_coord(s, &os->x, delta); if (present & 0x02) rdp_in_coord(s, &os->y, delta); if (present & 0x04) in_uint8(s, os->opcode); if (present & 0x08) in_uint8(s, os->fillmode); if (present & 0x10) rdp_in_colour(s, &os->fgcolour); if (present & 0x20) in_uint8(s, os->npoints); if (present & 0x40) { in_uint8(s, os->datasize); in_uint8a(s, os->data, os->datasize); } DEBUG(("POLYGON(x=%d,y=%d,op=0x%x,fm=%d,fg=0x%x,n=%d,sz=%d)\n", os->x, os->y, os->opcode, os->fillmode, os->fgcolour, os->npoints, os->datasize)); DEBUG(("Data: ")); for (index = 0; index < os->datasize; index++) DEBUG(("%02x ", os->data[index])); DEBUG(("\n")); if (os->opcode < 0x01 || os->opcode > 0x10) { error("bad ROP2 0x%x\n", os->opcode); return; } points = (RD_POINT *) xmalloc((os->npoints + 1) * sizeof(RD_POINT)); memset(points, 0, (os->npoints + 1) * sizeof(RD_POINT)); points[0].x = os->x; points[0].y = os->y; index = 0; data = ((os->npoints - 1) / 4) + 1; for (next = 1; (next <= os->npoints) && (next < 256) && (data < os->datasize); next++) { if ((next - 1) % 4 == 0) flags = os->data[index++]; if (~flags & 0x80) points[next].x = parse_delta(os->data, &data); if (~flags & 0x40) points[next].y = parse_delta(os->data, &data); flags <<= 2; } if (next - 1 == os->npoints) ui_polygon(os->opcode - 1, os->fillmode, points, os->npoints + 1, NULL, 0, os->fgcolour); else error("polygon parse error\n"); xfree(points); } /* Process a polygon2 order */ static void process_polygon2(STREAM s, POLYGON2_ORDER * os, uint32 present, RD_BOOL delta) { int index, data, next; uint8 flags = 0; RD_POINT *points; if (present & 0x0001) rdp_in_coord(s, &os->x, delta); if (present & 0x0002) rdp_in_coord(s, &os->y, delta); if (present & 0x0004) in_uint8(s, os->opcode); if (present & 0x0008) in_uint8(s, os->fillmode); if (present & 0x0010) rdp_in_colour(s, &os->bgcolour); if (present & 0x0020) rdp_in_colour(s, &os->fgcolour); rdp_parse_brush(s, &os->brush, present >> 6); if (present & 0x0800) in_uint8(s, os->npoints); if (present & 0x1000) { in_uint8(s, os->datasize); in_uint8a(s, os->data, os->datasize); } DEBUG(("POLYGON2(x=%d,y=%d,op=0x%x,fm=%d,bs=%d,bg=0x%x,fg=0x%x,n=%d,sz=%d)\n", os->x, os->y, os->opcode, os->fillmode, os->brush.style, os->bgcolour, os->fgcolour, os->npoints, os->datasize)); DEBUG(("Data: ")); for (index = 0; index < os->datasize; index++) DEBUG(("%02x ", os->data[index])); DEBUG(("\n")); if (os->opcode < 0x01 || os->opcode > 0x10) { error("bad ROP2 0x%x\n", os->opcode); return; } points = (RD_POINT *) xmalloc((os->npoints + 1) * sizeof(RD_POINT)); memset(points, 0, (os->npoints + 1) * sizeof(RD_POINT)); points[0].x = os->x; points[0].y = os->y; index = 0; data = ((os->npoints - 1) / 4) + 1; for (next = 1; (next <= os->npoints) && (next < 256) && (data < os->datasize); next++) { if ((next - 1) % 4 == 0) flags = os->data[index++]; if (~flags & 0x80) points[next].x = parse_delta(os->data, &data); if (~flags & 0x40) points[next].y = parse_delta(os->data, &data); flags <<= 2; } if (next - 1 == os->npoints) ui_polygon(os->opcode - 1, os->fillmode, points, os->npoints + 1, &os->brush, os->bgcolour, os->fgcolour); else error("polygon2 parse error\n"); xfree(points); } /* Process a polyline order */ static void process_polyline(STREAM s, POLYLINE_ORDER * os, uint32 present, RD_BOOL delta) { int index, next, data; uint8 flags = 0; PEN pen; RD_POINT *points; if (present & 0x01) rdp_in_coord(s, &os->x, delta); if (present & 0x02) rdp_in_coord(s, &os->y, delta); if (present & 0x04) in_uint8(s, os->opcode); if (present & 0x10) rdp_in_colour(s, &os->fgcolour); if (present & 0x20) in_uint8(s, os->lines); if (present & 0x40) { in_uint8(s, os->datasize); in_uint8a(s, os->data, os->datasize); } DEBUG(("POLYLINE(x=%d,y=%d,op=0x%x,fg=0x%x,n=%d,sz=%d)\n", os->x, os->y, os->opcode, os->fgcolour, os->lines, os->datasize)); DEBUG(("Data: ")); for (index = 0; index < os->datasize; index++) DEBUG(("%02x ", os->data[index])); DEBUG(("\n")); if (os->opcode < 0x01 || os->opcode > 0x10) { error("bad ROP2 0x%x\n", os->opcode); return; } points = (RD_POINT *) xmalloc((os->lines + 1) * sizeof(RD_POINT)); memset(points, 0, (os->lines + 1) * sizeof(RD_POINT)); points[0].x = os->x; points[0].y = os->y; pen.style = pen.width = 0; pen.colour = os->fgcolour; index = 0; data = ((os->lines - 1) / 4) + 1; for (next = 1; (next <= os->lines) && (data < os->datasize); next++) { if ((next - 1) % 4 == 0) flags = os->data[index++]; if (~flags & 0x80) points[next].x = parse_delta(os->data, &data); if (~flags & 0x40) points[next].y = parse_delta(os->data, &data); flags <<= 2; } if (next - 1 == os->lines) ui_polyline(os->opcode - 1, points, os->lines + 1, &pen); else error("polyline parse error\n"); xfree(points); } /* Process an ellipse order */ static void process_ellipse(STREAM s, ELLIPSE_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x01) rdp_in_coord(s, &os->left, delta); if (present & 0x02) rdp_in_coord(s, &os->top, delta); if (present & 0x04) rdp_in_coord(s, &os->right, delta); if (present & 0x08) rdp_in_coord(s, &os->bottom, delta); if (present & 0x10) in_uint8(s, os->opcode); if (present & 0x20) in_uint8(s, os->fillmode); if (present & 0x40) rdp_in_colour(s, &os->fgcolour); DEBUG(("ELLIPSE(l=%d,t=%d,r=%d,b=%d,op=0x%x,fm=%d,fg=0x%x)\n", os->left, os->top, os->right, os->bottom, os->opcode, os->fillmode, os->fgcolour)); ui_ellipse(os->opcode - 1, os->fillmode, os->left, os->top, os->right - os->left, os->bottom - os->top, NULL, 0, os->fgcolour); } /* Process an ellipse2 order */ static void process_ellipse2(STREAM s, ELLIPSE2_ORDER * os, uint32 present, RD_BOOL delta) { if (present & 0x0001) rdp_in_coord(s, &os->left, delta); if (present & 0x0002) rdp_in_coord(s, &os->top, delta); if (present & 0x0004) rdp_in_coord(s, &os->right, delta); if (present & 0x0008) rdp_in_coord(s, &os->bottom, delta); if (present & 0x0010) in_uint8(s, os->opcode); if (present & 0x0020) in_uint8(s, os->fillmode); if (present & 0x0040) rdp_in_colour(s, &os->bgcolour); if (present & 0x0080) rdp_in_colour(s, &os->fgcolour); rdp_parse_brush(s, &os->brush, present >> 8); DEBUG(("ELLIPSE2(l=%d,t=%d,r=%d,b=%d,op=0x%x,fm=%d,bs=%d,bg=0x%x,fg=0x%x)\n", os->left, os->top, os->right, os->bottom, os->opcode, os->fillmode, os->brush.style, os->bgcolour, os->fgcolour)); ui_ellipse(os->opcode - 1, os->fillmode, os->left, os->top, os->right - os->left, os->bottom - os->top, &os->brush, os->bgcolour, os->fgcolour); } /* Process a text order */ static void process_text2(STREAM s, TEXT2_ORDER * os, uint32 present, RD_BOOL delta) { int i; if (present & 0x000001) in_uint8(s, os->font); if (present & 0x000002) in_uint8(s, os->flags); if (present & 0x000004) in_uint8(s, os->opcode); if (present & 0x000008) in_uint8(s, os->mixmode); if (present & 0x000010) rdp_in_colour(s, &os->fgcolour); if (present & 0x000020) rdp_in_colour(s, &os->bgcolour); if (present & 0x000040) in_uint16_le(s, os->clipleft); if (present & 0x000080) in_uint16_le(s, os->cliptop); if (present & 0x000100) in_uint16_le(s, os->clipright); if (present & 0x000200) in_uint16_le(s, os->clipbottom); if (present & 0x000400) in_uint16_le(s, os->boxleft); if (present & 0x000800) in_uint16_le(s, os->boxtop); if (present & 0x001000) in_uint16_le(s, os->boxright); if (present & 0x002000) in_uint16_le(s, os->boxbottom); rdp_parse_brush(s, &os->brush, present >> 14); if (present & 0x080000) in_uint16_le(s, os->x); if (present & 0x100000) in_uint16_le(s, os->y); if (present & 0x200000) { in_uint8(s, os->length); in_uint8a(s, os->text, os->length); } DEBUG(("TEXT2(x=%d,y=%d,cl=%d,ct=%d,cr=%d,cb=%d,bl=%d,bt=%d,br=%d,bb=%d,bs=%d,bg=0x%x,fg=0x%x,font=%d,fl=0x%x,op=0x%x,mix=%d,n=%d)\n", os->x, os->y, os->clipleft, os->cliptop, os->clipright, os->clipbottom, os->boxleft, os->boxtop, os->boxright, os->boxbottom, os->brush.style, os->bgcolour, os->fgcolour, os->font, os->flags, os->opcode, os->mixmode, os->length)); DEBUG(("Text: ")); for (i = 0; i < os->length; i++) DEBUG(("%02x ", os->text[i])); DEBUG(("\n")); ui_draw_text(os->font, os->flags, os->opcode - 1, os->mixmode, os->x, os->y, os->clipleft, os->cliptop, os->clipright - os->clipleft, os->clipbottom - os->cliptop, os->boxleft, os->boxtop, os->boxright - os->boxleft, os->boxbottom - os->boxtop, &os->brush, os->bgcolour, os->fgcolour, os->text, os->length); } /* Process a raw bitmap cache order */ static void process_raw_bmpcache(STREAM s) { RD_HBITMAP bitmap; uint16 cache_idx, bufsize; uint8 cache_id, width, height, bpp, Bpp; uint8 *data, *inverted; int y; in_uint8(s, cache_id); in_uint8s(s, 1); /* pad */ in_uint8(s, width); in_uint8(s, height); in_uint8(s, bpp); Bpp = (bpp + 7) / 8; in_uint16_le(s, bufsize); in_uint16_le(s, cache_idx); in_uint8p(s, data, bufsize); DEBUG(("RAW_BMPCACHE(cx=%d,cy=%d,id=%d,idx=%d)\n", width, height, cache_id, cache_idx)); inverted = (uint8 *) xmalloc(width * height * Bpp); for (y = 0; y < height; y++) { memcpy(&inverted[(height - y - 1) * (width * Bpp)], &data[y * (width * Bpp)], width * Bpp); } bitmap = ui_create_bitmap(width, height, inverted); xfree(inverted); cache_put_bitmap(cache_id, cache_idx, bitmap); } /* Process a bitmap cache order */ static void process_bmpcache(STREAM s) { RD_HBITMAP bitmap; uint16 cache_idx, size; uint8 cache_id, width, height, bpp, Bpp; uint8 *data, *bmpdata; uint16 bufsize, pad2, row_size, final_size; uint8 pad1; pad2 = row_size = final_size = 0xffff; /* Shut the compiler up */ in_uint8(s, cache_id); in_uint8(s, pad1); /* pad */ in_uint8(s, width); in_uint8(s, height); in_uint8(s, bpp); Bpp = (bpp + 7) / 8; in_uint16_le(s, bufsize); /* bufsize */ in_uint16_le(s, cache_idx); if (g_use_rdp5) { size = bufsize; } else { /* Begin compressedBitmapData */ in_uint16_le(s, pad2); /* pad */ in_uint16_le(s, size); /* in_uint8s(s, 4); *//* row_size, final_size */ in_uint16_le(s, row_size); in_uint16_le(s, final_size); } in_uint8p(s, data, size); DEBUG(("BMPCACHE(cx=%d,cy=%d,id=%d,idx=%d,bpp=%d,size=%d,pad1=%d,bufsize=%d,pad2=%d,rs=%d,fs=%d)\n", width, height, cache_id, cache_idx, bpp, size, pad1, bufsize, pad2, row_size, final_size)); bmpdata = (uint8 *) xmalloc(width * height * Bpp); if (bitmap_decompress(bmpdata, width, height, data, size, Bpp)) { bitmap = ui_create_bitmap(width, height, bmpdata); cache_put_bitmap(cache_id, cache_idx, bitmap); } else { DEBUG(("Failed to decompress bitmap data\n")); } xfree(bmpdata); } /* Process a bitmap cache v2 order */ static void process_bmpcache2(STREAM s, uint16 flags, RD_BOOL compressed) { RD_HBITMAP bitmap; int y; uint8 cache_id, cache_idx_low, width, height, Bpp; uint16 cache_idx, bufsize; uint8 *data, *bmpdata, *bitmap_id; bitmap_id = NULL; /* prevent compiler warning */ cache_id = flags & ID_MASK; Bpp = ((flags & MODE_MASK) >> MODE_SHIFT) - 2; if (flags & PERSIST) { in_uint8p(s, bitmap_id, 8); } if (flags & SQUARE) { in_uint8(s, width); height = width; } else { in_uint8(s, width); in_uint8(s, height); } in_uint16_be(s, bufsize); bufsize &= BUFSIZE_MASK; in_uint8(s, cache_idx); if (cache_idx & LONG_FORMAT) { in_uint8(s, cache_idx_low); cache_idx = ((cache_idx ^ LONG_FORMAT) << 8) + cache_idx_low; } in_uint8p(s, data, bufsize); DEBUG(("BMPCACHE2(compr=%d,flags=%x,cx=%d,cy=%d,id=%d,idx=%d,Bpp=%d,bs=%d)\n", compressed, flags, width, height, cache_id, cache_idx, Bpp, bufsize)); bmpdata = (uint8 *) xmalloc(width * height * Bpp); if (compressed) { if (!bitmap_decompress(bmpdata, width, height, data, bufsize, Bpp)) { DEBUG(("Failed to decompress bitmap data\n")); xfree(bmpdata); return; } } else { for (y = 0; y < height; y++) memcpy(&bmpdata[(height - y - 1) * (width * Bpp)], &data[y * (width * Bpp)], width * Bpp); } bitmap = ui_create_bitmap(width, height, bmpdata); if (bitmap) { cache_put_bitmap(cache_id, cache_idx, bitmap); if (flags & PERSIST) pstcache_save_bitmap(cache_id, cache_idx, bitmap_id, width, height, width * height * Bpp, bmpdata); } else { DEBUG(("process_bmpcache2: ui_create_bitmap failed\n")); } xfree(bmpdata); } /* Process a colourmap cache order */ static void process_colcache(STREAM s) { COLOURENTRY *entry; COLOURMAP map; RD_HCOLOURMAP hmap; uint8 cache_id; int i; in_uint8(s, cache_id); in_uint16_le(s, map.ncolours); map.colours = (COLOURENTRY *) xmalloc(sizeof(COLOURENTRY) * map.ncolours); for (i = 0; i < map.ncolours; i++) { entry = &map.colours[i]; in_uint8(s, entry->blue); in_uint8(s, entry->green); in_uint8(s, entry->red); in_uint8s(s, 1); /* pad */ } DEBUG(("COLCACHE(id=%d,n=%d)\n", cache_id, map.ncolours)); hmap = ui_create_colourmap(&map); if (cache_id) ui_set_colourmap(hmap); xfree(map.colours); } /* Process a font cache order */ static void process_fontcache(STREAM s) { RD_HGLYPH bitmap; uint8 font, nglyphs; uint16 character, offset, baseline, width, height; int i, datasize; uint8 *data; in_uint8(s, font); in_uint8(s, nglyphs); DEBUG(("FONTCACHE(font=%d,n=%d)\n", font, nglyphs)); for (i = 0; i < nglyphs; i++) { in_uint16_le(s, character); in_uint16_le(s, offset); in_uint16_le(s, baseline); in_uint16_le(s, width); in_uint16_le(s, height); datasize = (height * ((width + 7) / 8) + 3) & ~3; in_uint8p(s, data, datasize); bitmap = ui_create_glyph(width, height, data); cache_put_font(font, character, offset, baseline, width, height, bitmap); } } /* Process a secondary order */ static void process_secondary_order(STREAM s) { /* The length isn't calculated correctly by the server. * For very compact orders the length becomes negative * so a signed integer must be used. */ uint16 length; uint16 flags; uint8 type; uint8 *next_order; in_uint16_le(s, length); in_uint16_le(s, flags); /* used by bmpcache2 */ in_uint8(s, type); next_order = s->p + (sint16) length + 7; switch (type) { case RDP_ORDER_RAW_BMPCACHE: process_raw_bmpcache(s); break; case RDP_ORDER_COLCACHE: process_colcache(s); break; case RDP_ORDER_BMPCACHE: process_bmpcache(s); break; case RDP_ORDER_FONTCACHE: process_fontcache(s); break; case RDP_ORDER_RAW_BMPCACHE2: process_bmpcache2(s, flags, False); /* uncompressed */ break; case RDP_ORDER_BMPCACHE2: process_bmpcache2(s, flags, True); /* compressed */ break; default: unimpl("secondary order %d\n", type); } s->p = next_order; } /* Process an order PDU */ void process_orders(STREAM s, uint16 num_orders) { RDP_ORDER_STATE *os = &g_order_state; uint32 present; uint8 order_flags; int size, processed = 0; RD_BOOL delta; while (processed < num_orders) { in_uint8(s, order_flags); if (!(order_flags & RDP_ORDER_STANDARD)) { error("order parsing failed\n"); break; } if (order_flags & RDP_ORDER_SECONDARY) { process_secondary_order(s); } else { if (order_flags & RDP_ORDER_CHANGE) { in_uint8(s, os->order_type); } switch (os->order_type) { case RDP_ORDER_TRIBLT: case RDP_ORDER_TEXT2: size = 3; break; case RDP_ORDER_PATBLT: case RDP_ORDER_MEMBLT: case RDP_ORDER_LINE: case RDP_ORDER_POLYGON2: case RDP_ORDER_ELLIPSE2: size = 2; break; default: size = 1; } rdp_in_present(s, &present, order_flags, size); if (order_flags & RDP_ORDER_BOUNDS) { if (!(order_flags & RDP_ORDER_LASTBOUNDS)) rdp_parse_bounds(s, &os->bounds); ui_set_clip(os->bounds.left, os->bounds.top, os->bounds.right - os->bounds.left + 1, os->bounds.bottom - os->bounds.top + 1); } delta = order_flags & RDP_ORDER_DELTA; switch (os->order_type) { case RDP_ORDER_DESTBLT: process_destblt(s, &os->destblt, present, delta); break; case RDP_ORDER_PATBLT: process_patblt(s, &os->patblt, present, delta); break; case RDP_ORDER_SCREENBLT: process_screenblt(s, &os->screenblt, present, delta); break; case RDP_ORDER_LINE: process_line(s, &os->line, present, delta); break; case RDP_ORDER_RECT: process_rect(s, &os->rect, present, delta); break; case RDP_ORDER_DESKSAVE: process_desksave(s, &os->desksave, present, delta); break; case RDP_ORDER_MEMBLT: process_memblt(s, &os->memblt, present, delta); break; case RDP_ORDER_TRIBLT: process_triblt(s, &os->triblt, present, delta); break; case RDP_ORDER_POLYGON: process_polygon(s, &os->polygon, present, delta); break; case RDP_ORDER_POLYGON2: process_polygon2(s, &os->polygon2, present, delta); break; case RDP_ORDER_POLYLINE: process_polyline(s, &os->polyline, present, delta); break; case RDP_ORDER_ELLIPSE: process_ellipse(s, &os->ellipse, present, delta); break; case RDP_ORDER_ELLIPSE2: process_ellipse2(s, &os->ellipse2, present, delta); break; case RDP_ORDER_TEXT2: process_text2(s, &os->text2, present, delta); break; default: unimpl("order %d\n", os->order_type); return; } if (order_flags & RDP_ORDER_BOUNDS) ui_reset_clip(); } processed++; } #if 0 /* not true when RDP_COMPRESSION is set */ if (s->p != g_next_packet) error("%d bytes remaining\n", (int) (g_next_packet - s->p)); #endif } /* Reset order state */ void reset_order_state(void) { memset(&g_order_state, 0, sizeof(g_order_state)); g_order_state.order_type = RDP_ORDER_PATBLT; }