#include "rfb-proto.h" #include "bitmap.h" #include "util.h" #include "vec.h" #include #include #include #include #include #include #include #include #define POPCOUNT(x) __builtin_popcount(x) struct bitmap; size_t bitmap_popcount(struct bitmap*); #define bitmap_for_each(b) void pixel_format_into_native(struct rfb_pixel_format *fmt) { #if __BYTE_ORDER__ == __LITTLE_ENDIAN__ if (!fmt->big_endian_flag) return; fmt->big_endian_flag = 0; #else if (fmt->big_endian_flag) return; fmt->big_endian_flag = 1; #endif fmt->red_shift = fmt->bits_per_pixel - fmt->red_shift; fmt->green_shift = fmt->bits_per_pixel - fmt->green_shift; fmt->blue_shift = fmt->bits_per_pixel - fmt->blue_shift; } void pixel32_to_cpixel(uint8_t *restrict dst, const struct rfb_pixel_format* dst_fmt, const uint32_t *restrict src, const struct rfb_pixel_format* src_fmt, size_t bytes_per_cpixel, size_t len) { assert(src_fmt->true_colour_flag); assert(src_fmt->bits_per_pixel == 32); assert(src_fmt->depth <= 32); assert(dst_fmt->true_colour_flag); assert(dst_fmt->bits_per_pixel <= 32); assert(dst_fmt->depth <= 24); assert(bytes_per_cpixel <= 3 && bytes_per_cpixel >= 1); uint32_t src_red_shift = src_fmt->red_shift; uint32_t src_green_shift = src_fmt->green_shift; uint32_t src_blue_shift = src_fmt->blue_shift; uint32_t dst_red_shift = dst_fmt->red_shift; uint32_t dst_green_shift = dst_fmt->green_shift; uint32_t dst_blue_shift = dst_fmt->blue_shift; uint32_t src_red_max = src_fmt->red_max; uint32_t src_green_max = src_fmt->green_max; uint32_t src_blue_max = src_fmt->blue_max; uint32_t dst_red_max = dst_fmt->red_max; uint32_t dst_green_max = dst_fmt->green_max; uint32_t dst_blue_max = dst_fmt->blue_max; uint32_t src_red_bits = POPCOUNT(src_fmt->red_max); uint32_t src_green_bits = POPCOUNT(src_fmt->green_max); uint32_t src_blue_bits = POPCOUNT(src_fmt->blue_max); uint32_t dst_red_bits = POPCOUNT(dst_fmt->red_max); uint32_t dst_green_bits = POPCOUNT(dst_fmt->green_max); uint32_t dst_blue_bits = POPCOUNT(dst_fmt->blue_max); uint32_t dst_endian_correction; #define CONVERT_PIXELS(cpx, px) \ { \ uint32_t r, g, b; \ r = ((px >> src_red_shift) & src_red_max) << dst_red_bits \ >> src_red_bits << dst_red_shift; \ g = ((px >> src_green_shift) & src_green_max) << dst_green_bits \ >> src_green_bits << dst_green_shift; \ b = ((px >> src_blue_shift) & src_blue_max) << dst_blue_bits \ >> src_blue_bits << dst_blue_shift; \ cpx = r | g | b; \ } switch (bytes_per_cpixel) { case 3: if (dst_fmt->bits_per_pixel == 32 && dst_fmt->depth <= 24) { uint32_t min_dst_shift = dst_red_shift; if (min_dst_shift > dst_green_shift) min_dst_shift = dst_green_shift; if (min_dst_shift > dst_blue_shift) min_dst_shift = dst_blue_shift; dst_red_shift -= min_dst_shift; dst_green_shift -= min_dst_shift; dst_blue_shift -= min_dst_shift; } dst_endian_correction = dst_fmt->big_endian_flag ? 16 : 0; while (len--) { uint32_t cpx, px = *src++; CONVERT_PIXELS(cpx, px) *dst++ = (cpx >> (0 ^ dst_endian_correction)) & 0xff; *dst++ = (cpx >> 8) & 0xff; *dst++ = (cpx >> (16 ^ dst_endian_correction)) & 0xff; } break; case 2: dst_endian_correction = dst_fmt->big_endian_flag ? 8 : 0; while (len--) { uint32_t cpx, px = *src++; CONVERT_PIXELS(cpx, px) *dst++ = (cpx >> (0 ^ dst_endian_correction)) & 0xff; *dst++ = (cpx >> (8 ^ dst_endian_correction)) & 0xff; } break; case 1: while (len--) { uint32_t cpx, px = *src++; CONVERT_PIXELS(cpx, px) *dst++ = cpx & 0xff; } break; default: abort(); } #undef CONVERT_PIXELS } void zrle_encode_tile(struct vec *dst, const struct rfb_pixel_format *dst_fmt, const uint32_t *src, const struct rfb_pixel_format *src_fmt, int stride, int width, int height) { int bytes_per_cpixel = dst_fmt->depth / 8; vec_clear(dst); vec_fast_append_8(dst, 0); for (int y = 0; y < height; ++y) pixel32_to_cpixel(((uint8_t*)dst->data) + 1 + width * y * bytes_per_cpixel, dst_fmt, src + stride * y, src_fmt, bytes_per_cpixel, width); dst->len += bytes_per_cpixel * width * height; } int zrle_encode_box(uv_stream_t *stream, const struct rfb_pixel_format *dst_fmt, uint8_t *src, const struct rfb_pixel_format *src_fmt, int x, int y, int stride, int width, int height) { int r = -1; int zr = Z_STREAM_ERROR; int bytes_per_cpixel = dst_fmt->depth / 8; int chunk_size = 1 + bytes_per_cpixel * 64 * 64; z_stream zs = { 0 }; struct vec out; struct vec in; if (vec_init(&in, 1 + bytes_per_cpixel * 64 * 64) < 0) goto failure; if (vec_init(&out, bytes_per_cpixel * width * height * 2) < 0) goto failure; r = deflateInit(&zs, Z_DEFAULT_COMPRESSION); if (r != Z_OK) goto failure; /* Reserve space for size */ vec_append_zero(&out, 4); int n_tiles = UDIV_UP(width, 64) * UDIV_UP(height, 64); for (int i = 0; i < n_tiles; ++i) { int tile_x = x + (i % UDIV_UP(width, 64)) * 64; int tile_y = y + (i / UDIV_UP(width, 64)) * 64; int tile_width = width - tile_x >= 64 ? 64 : width - tile_x; int tile_height = height - tile_y >= 64 ? 64 : height - tile_y; printf("Encoding tile @ %dx%d. width: %d, height: %d\n", tile_x, tile_y, tile_width, tile_height); zrle_encode_tile(&in, dst_fmt, ((uint32_t*)src) + tile_x + tile_y * width, src_fmt, stride, tile_width, tile_height); zs.next_in = in.data; zs.avail_in = in.len; int flush = (i == n_tiles - 1) ? Z_FINISH : Z_NO_FLUSH; do { /* r = vec_reserve(&out, out.len + chunk_size); if (r < 0) goto failure; */ zs.next_out = ((Bytef*)out.data) + out.len; zs.avail_out = out.cap - out.len; zr = deflate(&zs, flush); assert(zr != Z_STREAM_ERROR); out.len = out.cap - zs.avail_out; } while (zs.avail_out == 0); assert(zs.avail_in == 0); } assert(zr == Z_STREAM_END); deflateEnd(&zs); uint32_t *out_size = out.data; *out_size = htonl(out.len - 8); printf("Sending %lu bytes\n", out.len - 4); r = vnc__write(stream, out.data, out.len - 4, NULL); failure: // vec_destroy(&out); vec_destroy(&in); return r; #undef CHUNK } int zrle_encode_frame(uv_stream_t *stream, const struct rfb_pixel_format *dst_fmt, uint8_t *src, const struct rfb_pixel_format *src_fmt, int width, int height, struct pixman_region16 *region) { int rc = -1; int n_rects = 0; struct pixman_box16 *box = pixman_region_rectangles(region, &n_rects); if (n_rects > UINT16_MAX) { box = pixman_region_extents(region); n_rects = 1; } struct rfb_server_fb_update_msg head = { .type = RFB_SERVER_TO_CLIENT_FRAMEBUFFER_UPDATE, .n_rects = htons(n_rects), }; rc = vnc__write(stream, &head, sizeof(head), NULL); if (rc < 0) return -1; for (int i = 0; i < n_rects; ++i) { int x = box[i].x1; int y = box[i].y1; int box_width = box[i].x2 - x; int box_height = box[i].y2 - y; struct rfb_server_fb_rect rect = { .encoding = htonl(RFB_ENCODING_ZRLE), .x = htons(x), .y = htons(y), .width = htons(box_width), .height = htons(box_height), }; rc = vnc__write(stream, &rect, sizeof(rect), NULL); if (rc < 0) return -1; rc = zrle_encode_box(stream, dst_fmt, src, src_fmt, x, y, width, box_width, box_height); if (rc < 0) return -1; } return 0; }