/* -*- c-basic-offset: 8 -*- rdesktop: A Remote Desktop Protocol client. Cache routines Copyright (C) Matthew Chapman 1999-2008 Copyright (C) Jeroen Meijer 2005 Copyright 2003-2011 Peter Astrand for Cendio AB 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 3 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, see . */ /* * 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" /* BITMAP CACHE */ extern int g_pstcache_fd[]; #define NUM_ELEMENTS(array) (sizeof(array) / sizeof(array[0])) #define IS_PERSISTENT(id) (g_pstcache_fd[id] > 0) #define TO_TOP -1 #define NOT_SET -1 #define IS_SET(idx) (idx >= 0) /* * TODO: Test for optimal value of BUMP_COUNT. TO_TOP gives lowest cpu utilisation but using * a positive value will hopefully result in less frequently used bitmaps having a greater chance * of being evicted from the cache, and therby reducing the need to load bitmaps from disk. * (Jeroen) */ #define BUMP_COUNT 40 struct bmpcache_entry { RD_HBITMAP bitmap; sint16 previous; sint16 next; }; static struct bmpcache_entry g_bmpcache[3][0xa00]; static RD_HBITMAP g_volatile_bc[3]; static int g_bmpcache_lru[3] = { NOT_SET, NOT_SET, NOT_SET }; static int g_bmpcache_mru[3] = { NOT_SET, NOT_SET, NOT_SET }; static int g_bmpcache_count[3]; /* Setup the bitmap cache lru/mru linked list */ void cache_rebuild_bmpcache_linked_list(uint8 id, sint16 * idx, int count) { int n = count, c = 0; sint16 n_idx; /* find top, skip evicted bitmaps */ while (--n >= 0 && g_bmpcache[id][idx[n]].bitmap == NULL); if (n < 0) { g_bmpcache_mru[id] = g_bmpcache_lru[id] = NOT_SET; return; } g_bmpcache_mru[id] = idx[n]; g_bmpcache[id][idx[n]].next = NOT_SET; n_idx = idx[n]; c++; /* link list */ while (n >= 0) { /* skip evicted bitmaps */ while (--n >= 0 && g_bmpcache[id][idx[n]].bitmap == NULL); if (n < 0) break; g_bmpcache[id][n_idx].previous = idx[n]; g_bmpcache[id][idx[n]].next = n_idx; n_idx = idx[n]; c++; } g_bmpcache[id][n_idx].previous = NOT_SET; g_bmpcache_lru[id] = n_idx; if (c != g_bmpcache_count[id]) { error("Oops. %d in bitmap cache linked list, %d in ui cache...\n", c, g_bmpcache_count[id]); exit(EX_SOFTWARE); } } /* Move a bitmap to a new position in the linked list. */ void cache_bump_bitmap(uint8 id, uint16 idx, int bump) { int p_idx, n_idx, n; if (!IS_PERSISTENT(id)) return; if (g_bmpcache_mru[id] == idx) return; DEBUG_RDP5(("bump bitmap: id=%d, idx=%d, bump=%d\n", id, idx, bump)); n_idx = g_bmpcache[id][idx].next; p_idx = g_bmpcache[id][idx].previous; if (IS_SET(n_idx)) { /* remove */ --g_bmpcache_count[id]; if (IS_SET(p_idx)) g_bmpcache[id][p_idx].next = n_idx; else g_bmpcache_lru[id] = n_idx; if (IS_SET(n_idx)) g_bmpcache[id][n_idx].previous = p_idx; else g_bmpcache_mru[id] = p_idx; } else { p_idx = NOT_SET; n_idx = g_bmpcache_lru[id]; } if (bump >= 0) { for (n = 0; n < bump && IS_SET(n_idx); n++) { p_idx = n_idx; n_idx = g_bmpcache[id][p_idx].next; } } else { p_idx = g_bmpcache_mru[id]; n_idx = NOT_SET; } /* insert */ ++g_bmpcache_count[id]; g_bmpcache[id][idx].previous = p_idx; g_bmpcache[id][idx].next = n_idx; if (p_idx >= 0) g_bmpcache[id][p_idx].next = idx; else g_bmpcache_lru[id] = idx; if (n_idx >= 0) g_bmpcache[id][n_idx].previous = idx; else g_bmpcache_mru[id] = idx; } /* Evict the least-recently used bitmap from the cache */ void cache_evict_bitmap(uint8 id) { uint16 idx; int n_idx; if (!IS_PERSISTENT(id)) return; idx = g_bmpcache_lru[id]; n_idx = g_bmpcache[id][idx].next; DEBUG_RDP5(("evict bitmap: id=%d idx=%d n_idx=%d bmp=%p\n", id, idx, n_idx, g_bmpcache[id][idx].bitmap)); ui_destroy_bitmap(g_bmpcache[id][idx].bitmap); --g_bmpcache_count[id]; g_bmpcache[id][idx].bitmap = 0; g_bmpcache_lru[id] = n_idx; g_bmpcache[id][n_idx].previous = NOT_SET; pstcache_touch_bitmap(id, idx, 0); } /* Retrieve a bitmap from the cache */ RD_HBITMAP cache_get_bitmap(uint8 id, uint16 idx) { if ((id < NUM_ELEMENTS(g_bmpcache)) && (idx < NUM_ELEMENTS(g_bmpcache[0]))) { if (g_bmpcache[id][idx].bitmap || pstcache_load_bitmap(id, idx)) { if (IS_PERSISTENT(id)) cache_bump_bitmap(id, idx, BUMP_COUNT); return g_bmpcache[id][idx].bitmap; } } else if ((id < NUM_ELEMENTS(g_volatile_bc)) && (idx == 0x7fff)) { return g_volatile_bc[id]; } error("get bitmap %d:%d\n", id, idx); return NULL; } /* Store a bitmap in the cache */ void cache_put_bitmap(uint8 id, uint16 idx, RD_HBITMAP bitmap) { RD_HBITMAP old; if ((id < NUM_ELEMENTS(g_bmpcache)) && (idx < NUM_ELEMENTS(g_bmpcache[0]))) { old = g_bmpcache[id][idx].bitmap; if (old != NULL) ui_destroy_bitmap(old); g_bmpcache[id][idx].bitmap = bitmap; if (IS_PERSISTENT(id)) { if (old == NULL) g_bmpcache[id][idx].previous = g_bmpcache[id][idx].next = NOT_SET; cache_bump_bitmap(id, idx, TO_TOP); if (g_bmpcache_count[id] > BMPCACHE2_C2_CELLS) cache_evict_bitmap(id); } } else if ((id < NUM_ELEMENTS(g_volatile_bc)) && (idx == 0x7fff)) { old = g_volatile_bc[id]; if (old != NULL) ui_destroy_bitmap(old); g_volatile_bc[id] = bitmap; } else { error("put bitmap %d:%d\n", id, idx); } } /* Updates the persistent bitmap cache MRU information on exit */ void cache_save_state(void) { uint32 id = 0, t = 0; int idx; for (id = 0; id < NUM_ELEMENTS(g_bmpcache); id++) if (IS_PERSISTENT(id)) { DEBUG_RDP5(("Saving cache state for bitmap cache %d...", id)); idx = g_bmpcache_lru[id]; while (idx >= 0) { pstcache_touch_bitmap(id, idx, ++t); idx = g_bmpcache[id][idx].next; } DEBUG_RDP5((" %d stamps written.\n", t)); } } /* FONT CACHE */ static FONTGLYPH g_fontcache[12][256]; /* Retrieve a glyph from the font cache */ FONTGLYPH * cache_get_font(uint8 font, uint16 character) { FONTGLYPH *glyph; if ((font < NUM_ELEMENTS(g_fontcache)) && (character < NUM_ELEMENTS(g_fontcache[0]))) { glyph = &g_fontcache[font][character]; if (glyph->pixmap != NULL) return glyph; } error("get font %d:%d\n", font, character); return NULL; } /* Store a glyph in the font cache */ void cache_put_font(uint8 font, uint16 character, uint16 offset, uint16 baseline, uint16 width, uint16 height, RD_HGLYPH pixmap) { FONTGLYPH *glyph; if ((font < NUM_ELEMENTS(g_fontcache)) && (character < NUM_ELEMENTS(g_fontcache[0]))) { glyph = &g_fontcache[font][character]; if (glyph->pixmap != NULL) ui_destroy_glyph(glyph->pixmap); glyph->offset = offset; glyph->baseline = baseline; glyph->width = width; glyph->height = height; glyph->pixmap = pixmap; } else { error("put font %d:%d\n", font, character); } } /* TEXT CACHE */ static DATABLOB g_textcache[256]; /* Retrieve a text item from the cache */ DATABLOB * cache_get_text(uint8 cache_id) { DATABLOB *text; text = &g_textcache[cache_id]; return text; } /* Store a text item in the cache */ void cache_put_text(uint8 cache_id, void *data, int length) { DATABLOB *text; text = &g_textcache[cache_id]; if (text->data != NULL) xfree(text->data); text->data = xmalloc(length); text->size = length; memcpy(text->data, data, length); } /* DESKTOP CACHE */ static uint8 g_deskcache[0x38400 * 4]; /* Retrieve desktop data from the cache */ uint8 * cache_get_desktop(uint32 offset, int cx, int cy, int bytes_per_pixel) { int length = cx * cy * bytes_per_pixel; if (offset > sizeof(g_deskcache)) offset = 0; if ((offset + length) <= sizeof(g_deskcache)) { return &g_deskcache[offset]; } error("get desktop %d:%d\n", offset, length); return NULL; } /* Store desktop data in the cache */ void cache_put_desktop(uint32 offset, int cx, int cy, int scanline, int bytes_per_pixel, uint8 * data) { int length = cx * cy * bytes_per_pixel; if (offset > sizeof(g_deskcache)) offset = 0; if ((offset + length) <= sizeof(g_deskcache)) { cx *= bytes_per_pixel; while (cy--) { memcpy(&g_deskcache[offset], data, cx); data += scanline; offset += cx; } } else { error("put desktop %d:%d\n", offset, length); } } /* CURSOR CACHE */ static RD_HCURSOR g_cursorcache[0x20]; /* Retrieve cursor from cache */ RD_HCURSOR cache_get_cursor(uint16 cache_idx) { RD_HCURSOR cursor; if (cache_idx < NUM_ELEMENTS(g_cursorcache)) { cursor = g_cursorcache[cache_idx]; if (cursor != NULL) return cursor; } error("get cursor %d\n", cache_idx); return NULL; } /* Store cursor in cache */ void cache_put_cursor(uint16 cache_idx, RD_HCURSOR cursor) { RD_HCURSOR old; if (cache_idx < NUM_ELEMENTS(g_cursorcache)) { old = g_cursorcache[cache_idx]; if (old != NULL) ui_destroy_cursor(old); g_cursorcache[cache_idx] = cursor; } else { error("put cursor %d\n", cache_idx); } } /* BRUSH CACHE */ /* index 0 is 2 colour brush, index 1 is muti colour brush */ static BRUSHDATA g_brushcache[2][64]; /* Retrieve brush from cache */ BRUSHDATA * cache_get_brush_data(uint8 colour_code, uint8 idx) { colour_code = colour_code == 1 ? 0 : 1; if (idx < NUM_ELEMENTS(g_brushcache[0])) { return &g_brushcache[colour_code][idx]; } error("get brush %d %d\n", colour_code, idx); return NULL; } /* Store brush in cache */ /* this function takes over the data pointer in struct, eg, caller gives it up */ void cache_put_brush_data(uint8 colour_code, uint8 idx, BRUSHDATA * brush_data) { BRUSHDATA *bd; colour_code = colour_code == 1 ? 0 : 1; if (idx < NUM_ELEMENTS(g_brushcache[0])) { bd = &g_brushcache[colour_code][idx]; if (bd->data != 0) { xfree(bd->data); } memcpy(bd, brush_data, sizeof(BRUSHDATA)); } else { error("put brush %d %d\n", colour_code, idx); } }