kmsvnc/kmsvnc.c

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#define _GNU_SOURCE
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#include <fcntl.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <signal.h>
#include <time.h>
#include <argp.h>
#include <arpa/inet.h>
#include "kmsvnc.h"
#include "keymap.h"
#include "input.h"
#include "drm.h"
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#include "va.h"
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struct kmsvnc_data *kmsvnc = NULL;
#define NS_IN_S 1000000000
static void between_frames()
{
static struct timespec now = {0, 0}, then = {0, 0}, tmp = {0, 0};
clock_gettime(CLOCK_MONOTONIC, &now);
memcpy((char *)&then, (char *)&tmp, sizeof(struct timespec));
tmp.tv_nsec += kmsvnc->vnc_opt->sleep_ns;
if (tmp.tv_nsec >= NS_IN_S)
{
tmp.tv_sec++;
tmp.tv_nsec %= NS_IN_S;
}
if (now.tv_sec < tmp.tv_sec || (now.tv_sec == tmp.tv_sec && now.tv_nsec < tmp.tv_nsec))
{
then.tv_sec = tmp.tv_sec - now.tv_sec;
then.tv_nsec = tmp.tv_nsec - now.tv_nsec;
if (then.tv_nsec < 0)
{
then.tv_sec--;
then.tv_nsec += NS_IN_S;
}
nanosleep(&then, &then);
}
memcpy((char *)&now, (char *)&then, sizeof(struct timespec));
}
static void update_screen_buf(char* to, char *from, int width, int height) {
uint64_t *double_pix_from = (uint64_t *)from;
uint64_t *double_pix_to = (uint64_t *)to;
int min_x = INT32_MAX;
int min_y = INT32_MAX;
int max_x = -1;
int max_y = -1;
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if (!kmsvnc->vnc_opt->disable_cmpfb && width % 2 == 0) {
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for (int y = 0; y < height; y++) {
for (int x = 0; x < width; x+=2) {
if (*double_pix_from != *double_pix_to) {
if (x < min_x) {
min_x = x;
}
if (x > max_x) {
max_x = x;
}
if (y < min_y) {
min_y = y;
}
if (y > max_y) {
max_y = y;
}
}
double_pix_from ++;
double_pix_to ++;
}
}
}
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else {
memcpy(to, from, width * height * BYTES_PER_PIXEL);
rfbMarkRectAsModified(kmsvnc->server, 0, 0, width, height);
return;
}
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max_x = max_x < 0 ? 0 : max_x;
max_y = max_y < 0 ? 0 : max_y;
min_x = min_x > width ? 0 : min_x;
min_y = min_y > height ? 0 : min_y;
//printf("dirty: %d, %d, %d, %d\n", min_x, min_y, max_x, max_y);
if (max_x || max_y || min_x || min_y) {
memcpy(to, from, width * height * BYTES_PER_PIXEL);
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rfbMarkRectAsModified(kmsvnc->server, min_x, min_y, max_x + 2, max_y + 1);
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}
}
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static inline void update_vnc_cursor(char *data, int width, int height) {
uint8_t r, g, b, a;
#define CURSOR_MIN_A 160 // ~63%
int min_x = width;
int max_x = -1;
int min_y = height;
int max_y = -1;
int x, y;
for (int i = 0; i < width * height * BYTES_PER_PIXEL; i += BYTES_PER_PIXEL) {
uint32_t pixdata = htonl(*((uint32_t*)(data + i)));
//r = (pixdata & 0xff000000u) >> 24;
//g = (pixdata & 0x00ff0000u) >> 16;
//b = (pixdata & 0x0000ff00u) >> 8;
a = pixdata & 0xff;
if (a > CURSOR_MIN_A) {
x = (i / BYTES_PER_PIXEL) % width;
y = (i / BYTES_PER_PIXEL) / width;
if (x < min_x) min_x = x;
if (y < min_y) min_y = y;
if (x > max_x) max_x = x;
if (y > max_y) max_y = y;
}
}
if (min_x > max_x || min_y > max_y) {
// no cursor detected
return;
}
int rwidth = max_x - min_x + 1;
int rheight = max_y - min_y + 1;
if (kmsvnc->cursor_bitmap_len < rwidth * rheight * BYTES_PER_PIXEL)
{
if (kmsvnc->cursor_bitmap)
free(kmsvnc->cursor_bitmap);
kmsvnc->cursor_bitmap = malloc(rwidth * rheight * BYTES_PER_PIXEL);
if (!kmsvnc->cursor_bitmap) return;
kmsvnc->cursor_bitmap_len = rwidth * rheight * BYTES_PER_PIXEL;
}
unsigned char *rich_source = malloc(rwidth * rheight * BYTES_PER_PIXEL);
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if (!rich_source) return;
char *maskString = malloc(rwidth * rheight);
if (!maskString) {
free(rich_source);
return;
}
memset(maskString, ' ', rwidth * rheight);
for (int i = 0; i < rwidth; i++) {
for (int j = 0; j < rheight; j++) {
int t = (i + j * rwidth) * BYTES_PER_PIXEL;
int s = ((i+min_x) + (j+min_y) * width) * BYTES_PER_PIXEL;
*((uint32_t*)(rich_source + t)) = *((uint32_t*)(data + s));
if ((uint8_t)*(rich_source + t + 3) > CURSOR_MIN_A) {
maskString[i + j * rwidth] = 'x';
}
}
}
if ((kmsvnc->server->cursor->width != rwidth || kmsvnc->server->cursor->height != rheight) || memcmp(kmsvnc->cursor_bitmap, rich_source, rwidth * rheight * BYTES_PER_PIXEL)) {
KMSVNC_DEBUG("cursor update %dx%d\n", rwidth, rheight);
memcpy(kmsvnc->cursor_bitmap, rich_source, kmsvnc->cursor_bitmap_len);
char *cursorString = malloc(rwidth * rheight);
if (!cursorString) {
free(rich_source);
free(maskString);
return;
}
memset(cursorString, 'x', rwidth * rheight);
rfbCursorPtr cursor = rfbMakeXCursor(rwidth, rheight, cursorString, maskString);
free(cursorString);
cursor->richSource = rich_source;
cursor->cleanupRichSource = TRUE;
cursor->xhot = 0;
cursor->yhot = 0;
rfbSetCursor(kmsvnc->server, cursor);
}
else {
free(rich_source);
free(maskString);
}
}
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static void cleanup() {
if (kmsvnc->keymap) {
xkb_cleanup();
}
if (kmsvnc->input) {
uinput_cleanup();
}
if (kmsvnc->drm) {
drm_cleanup();
}
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if (kmsvnc->va) {
va_cleanup();
}
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if (kmsvnc) {
if (kmsvnc->vnc_opt) {
free(kmsvnc->vnc_opt);
kmsvnc->vnc_opt = NULL;
}
if (kmsvnc->buf1) {
free(kmsvnc->buf1);
kmsvnc->buf1 = NULL;
}
if (kmsvnc->buf) {
free(kmsvnc->buf);
kmsvnc->buf = NULL;
}
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if (kmsvnc->cursor_bitmap) {
free(kmsvnc->cursor_bitmap);
kmsvnc->cursor_bitmap = NULL;
}
kmsvnc->cursor_bitmap_len = 0;
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free(kmsvnc);
kmsvnc = NULL;
}
}
void signal_handler_noop(int signum){}
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void signal_handler(int signum){
if (kmsvnc->shutdown) {
return;
}
kmsvnc->shutdown = 1;
if (kmsvnc->server) {
rfbShutdownServer(kmsvnc->server,TRUE);
}
}
static struct argp_option kmsvnc_main_options[] = {
{"device", 'd', "/dev/dri/card0", 0, "DRM device"},
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{"source-plane", 0xfefc, "0", 0, "Use specific plane"},
{"source-crtc", 0xfefd, "0", 0, "Use specific crtc (to list all crtcs and planes, set this to -1)"},
{"force-driver", 0xfefe, "i915", 0, "force a certain driver (for debugging)"},
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{"bind", 'b', "0.0.0.0", 0, "Listen on (ipv4 address)"},
{"bind6", 0xfeff, "::", 0, "Listen on (ipv6 address)"},
{"port", 'p', "5900", 0, "Listen port"},
{"disable-ipv6", '4', 0, OPTION_ARG_OPTIONAL, "Disable ipv6"},
{"fps", 0xff00, "30", 0, "Target frames per second"},
{"disable-always-shared", 0xff01, 0, OPTION_ARG_OPTIONAL, "Do not always treat incoming connections as shared"},
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{"disable-compare-fb", 0xff02, 0, OPTION_ARG_OPTIONAL, "Do not compare pixels"},
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{"capture-cursor", 'c', 0, OPTION_ARG_OPTIONAL, "Capture mouse cursor"},
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{"capture-raw-fb", 0xff03, "/tmp/rawfb.bin", 0, "Capture RAW framebuffer instead of starting the vnc server (for debugging)"},
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{"va-derive", 0xff04, "off", 0, "Enable derive with vaapi"},
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{"debug", 0xff05, 0, OPTION_ARG_OPTIONAL, "Print debug message"},
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{"input-width", 0xff06, "0", 0, "Explicitly set input width, normally this is inferred from screen width on a single display system"},
{"input-height", 0xff07, "0", 0, "Explicitly set input height"},
{"input-offx", 0xff08, "0", 0, "Set input offset of x axis on a multi display system"},
{"input-offy", 0xff09, "0", 0, "Set input offset of y axis on a multi display system"},
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{"screen-blank", 0xff0a, 0, OPTION_ARG_OPTIONAL, "Blank screen with gamma set on crtc"},
{"screen-blank-restore-linear", 0xff0b, 0, OPTION_ARG_OPTIONAL, "Restore linear values on exit in case of messed up gamma"},
{"wakeup", 'w', 0, OPTION_ARG_OPTIONAL, "Move mouse to wake the system up before start"},
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{"disable-input", 'i', 0, OPTION_ARG_OPTIONAL, "Disable uinput"},
{"desktop-name", 'n', "kmsvnc", 0, "Specify vnc desktop name"},
{0}
};
static error_t parse_opt(int key, char *arg, struct argp_state *state) {
int *arg_cout = state->input;
switch (key) {
case 'd':
kmsvnc->card = arg;
break;
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case 0xfefc:
kmsvnc->source_plane = atoi(arg);
break;
case 0xfefd:
kmsvnc->source_crtc = atoi(arg);
break;
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case 0xfefe:
kmsvnc->force_driver = arg;
break;
case 'b':
if (!inet_aton(arg, kmsvnc->vnc_opt->bind)) {
argp_error(state, "invalid ipv4 address %s", arg);
}
break;
case 0xfeff:
kmsvnc->vnc_opt->bind6 = arg;
break;
case 'p':
{
int port = atoi(arg);
if (port > 0 && port < 65536) {
kmsvnc->vnc_opt->port = port;
}
else {
argp_error(state, "invalid port %s", arg);
}
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}
break;
case '4':
kmsvnc->vnc_opt->disable_ipv6 = 1;
break;
case 0xff00:
{
int fps = atoi(arg);
if (fps > 0 && fps < 1000) {
kmsvnc->vnc_opt->sleep_ns = NS_IN_S / fps;
}
else {
argp_error(state, "invalid fps %s", arg);
}
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}
break;
case 0xff01:
kmsvnc->vnc_opt->always_shared = 0;
break;
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case 0xff02:
kmsvnc->vnc_opt->disable_cmpfb = 1;
break;
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case 'c':
kmsvnc->capture_cursor = 1;
break;
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case 0xff03:
kmsvnc->debug_capture_fb = arg;
kmsvnc->disable_input = 1;
break;
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case 0xff04:
if (!strcmp("on", arg) || !strcmp("y", arg) || !strcmp("yes", arg) || !strcmp("1", arg)) {
kmsvnc->va_derive_enabled = 1;
}
else {
kmsvnc->va_derive_enabled = 0;
}
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break;
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case 0xff05:
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kmsvnc->debug_enabled = 1;
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break;
case 0xff06:
{
int width = atoi(arg);
if (width > 0) {
kmsvnc->input_width = width;
}
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}
break;
case 0xff07:
{
int height = atoi(arg);
if (height > 0) {
kmsvnc->input_height = height;
}
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}
break;
case 0xff08:
{
int offset_x = atoi(arg);
if (offset_x > 0) {
kmsvnc->input_offx = offset_x;
}
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}
break;
case 0xff09:
{
int offset_y = atoi(arg);
if (offset_y > 0) {
kmsvnc->input_offy = offset_y;
}
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}
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break;
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case 0xff0a:
kmsvnc->screen_blank = 1;
break;
case 0xff0b:
kmsvnc->screen_blank_restore = 1;
break;
case 'w':
kmsvnc->input_wakeup = 1;
break;
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case 'i':
kmsvnc->disable_input = 1;
break;
case 'n':
kmsvnc->vnc_opt->desktop_name = arg;
break;
case ARGP_KEY_ARG:
return ARGP_ERR_UNKNOWN;
default:
return ARGP_ERR_UNKNOWN;
}
return 0;
}
int main(int argc, char **argv)
{
kmsvnc = malloc(sizeof(struct kmsvnc_data));
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if (!kmsvnc) KMSVNC_FATAL("memory allocation error at %s:%d\n", __FILE__, __LINE__);
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memset(kmsvnc, 0, sizeof(struct kmsvnc_data));
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struct vnc_opt *vncopt = malloc(sizeof(struct vnc_opt));
if (!vncopt) {
free(kmsvnc);
KMSVNC_FATAL("memory allocation error at %s:%d\n", __FILE__, __LINE__);
}
memset(vncopt, 0, sizeof(struct vnc_opt));
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kmsvnc->vnc_opt = vncopt;
kmsvnc->card = "/dev/dri/card0";
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kmsvnc->va_derive_enabled = -1;
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kmsvnc->vnc_opt->bind = &(struct in_addr){0};
kmsvnc->vnc_opt->always_shared = 1;
kmsvnc->vnc_opt->port = 5900;
kmsvnc->vnc_opt->sleep_ns = NS_IN_S / 30;
kmsvnc->vnc_opt->desktop_name = "kmsvnc";
static char *args_doc = "";
static char *doc = "kmsvnc -- vncserver for DRM/KMS capable GNU/Linux devices";
struct argp argp = {kmsvnc_main_options, parse_opt, args_doc, doc};
argp_parse(&argp, argc, argv, 0, 0, NULL);
if (!kmsvnc->disable_input) {
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const char* XKB_DEFAULT_LAYOUT = getenv("XKB_DEFAULT_LAYOUT");
if (!XKB_DEFAULT_LAYOUT || strcmp(XKB_DEFAULT_LAYOUT, "") == 0) {
printf("No keyboard layout set from environment variables, use US layout by default\n");
printf("See https://xkbcommon.org/doc/current/structxkb__rule__names.html\n");
setenv("XKB_DEFAULT_LAYOUT", "us", 1);
}
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if (xkb_init()) {
cleanup();
return 1;
}
if (uinput_init()) {
cleanup();
return 1;
}
}
if (drm_open()) {
cleanup();
return 1;
}
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if (kmsvnc->debug_capture_fb) {
int wfd = open(kmsvnc->debug_capture_fb, O_WRONLY | O_CREAT, 00644);
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int max_size = 0;
for (int i = 0; i < 4; i++) {
int size = kmsvnc->drm->mfb->offsets[i] + kmsvnc->drm->mfb->height * kmsvnc->drm->mfb->pitches[i];
if (size > max_size) max_size = size;
}
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printf("attempt to write %d bytes\n", max_size);
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if (wfd > 0) {
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if (kmsvnc->va) {
if (!kmsvnc->drm->mapped) kmsvnc->drm->mapped = malloc(max_size);
if (!kmsvnc->drm->mapped) {
cleanup();
KMSVNC_FATAL("memory allocation error at %s:%d\n", __FILE__, __LINE__);
}
va_hwframe_to_vaapi(kmsvnc->drm->mapped);
}
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KMSVNC_WRITE_MAY(wfd, kmsvnc->drm->mapped, (ssize_t)max_size);
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fsync(wfd);
printf("wrote raw frame buffer to %s\n", kmsvnc->debug_capture_fb);
}
else {
fprintf(stderr, "open file %s failed, %s\n", kmsvnc->debug_capture_fb, strerror(errno));
}
if (kmsvnc->screen_blank) {
sigset_t signal_set;
int sig;
sigemptyset(&signal_set);
signal(SIGHUP, &signal_handler_noop);
signal(SIGINT, &signal_handler_noop);
signal(SIGTERM, &signal_handler_noop);
sigaddset(&signal_set, SIGHUP);
sigaddset(&signal_set, SIGINT);
sigaddset(&signal_set, SIGTERM);
fprintf(stderr, "blanking screen...\n");
sigwait(&signal_set, &sig);
fprintf(stderr, "got sig %d\n", sig);
}
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cleanup();
return 0;
}
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size_t buflen = kmsvnc->drm->mfb->width * kmsvnc->drm->mfb->height * BYTES_PER_PIXEL;
kmsvnc->buf = malloc(buflen);
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if (!kmsvnc->buf) {
cleanup();
KMSVNC_FATAL("memory allocation error at %s:%d\n", __FILE__, __LINE__);
}
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memset(kmsvnc->buf, 0, buflen);
kmsvnc->buf1 = malloc(buflen);
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if (!kmsvnc->buf1) {
cleanup();
KMSVNC_FATAL("memory allocation error at %s:%d\n", __FILE__, __LINE__);
}
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memset(kmsvnc->buf1, 0, buflen);
signal(SIGHUP, &signal_handler);
signal(SIGINT, &signal_handler);
signal(SIGTERM, &signal_handler);
kmsvnc->server = rfbGetScreen(0, NULL, kmsvnc->drm->mfb->width, kmsvnc->drm->mfb->height, 8, 3, 4);
if (!kmsvnc->server) {
cleanup();
return 1;
}
kmsvnc->server->desktopName = kmsvnc->vnc_opt->desktop_name;
kmsvnc->server->frameBuffer = kmsvnc->buf;
kmsvnc->server->port = kmsvnc->vnc_opt->port;
kmsvnc->server->listenInterface = kmsvnc->vnc_opt->bind->s_addr;
kmsvnc->server->ipv6port = kmsvnc->vnc_opt->disable_ipv6 ? 0 : kmsvnc->vnc_opt->port;
kmsvnc->server->listen6Interface = kmsvnc->vnc_opt->bind6;
kmsvnc->server->alwaysShared = kmsvnc->vnc_opt->always_shared;
if (!kmsvnc->disable_input) {
kmsvnc->server->kbdAddEvent = rfb_key_hook;
kmsvnc->server->ptrAddEvent = rfb_ptr_hook;
}
rfbInitServer(kmsvnc->server);
rfbRunEventLoop(kmsvnc->server, -1, TRUE);
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int cursor_frame = 0;
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while (rfbIsActive(kmsvnc->server))
{
between_frames();
if (kmsvnc->server->clientHead)
{
kmsvnc->drm->funcs->sync_start(kmsvnc->drm->prime_fd);
kmsvnc->drm->funcs->convert(kmsvnc->drm->mapped, kmsvnc->drm->mfb->width, kmsvnc->drm->mfb->height, kmsvnc->buf1);
kmsvnc->drm->funcs->sync_end(kmsvnc->drm->prime_fd);
update_screen_buf(kmsvnc->buf, kmsvnc->buf1, kmsvnc->drm->mfb->width, kmsvnc->drm->mfb->height);
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if (kmsvnc->capture_cursor) {
cursor_frame++;
cursor_frame %= CURSOR_FRAMESKIP;
if (!cursor_frame) {
char *data = NULL;
int width, height;
int err = drm_dump_cursor_plane(&data, &width, &height);
if (!err && data) {
update_vnc_cursor(data, width, height);
}
}
}
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}
}
cleanup();
return 0;
}