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libtdevnc/x11vnc/rates.c

596 lines
12 KiB

/* -- rates.c -- */
#include "x11vnc.h"
#include "xwrappers.h"
#include "scan.h"
int measure_speeds = 1;
int speeds_net_rate = 0;
int speeds_net_rate_measured = 0;
int speeds_net_latency = 0;
int speeds_net_latency_measured = 0;
int speeds_read_rate = 0;
int speeds_read_rate_measured = 0;
int get_cmp_rate(void);
int get_raw_rate(void);
void initialize_speeds(void);
int get_read_rate(void);
int link_rate(int *latency, int *netrate);
int get_net_rate(void);
int get_net_latency(void);
void measure_send_rates(int init);
static void measure_display_hook(rfbClientPtr cl);
static int get_rate(int which);
static int get_latency(void);
static void measure_display_hook(rfbClientPtr cl) {
ClientData *cd = (ClientData *) cl->clientData;
dtime0(&cd->timer);
}
static int get_rate(int which) {
rfbClientIteratorPtr iter;
rfbClientPtr cl;
int irate, irate_min = 1; /* 1 KB/sec */
int irate_max = 100000; /* 100 MB/sec */
int count = 0;
double slowest = -1.0, rate;
static double save_rate = 1000 * NETRATE0;
if (!screen) {
return 0;
}
iter = rfbGetClientIterator(screen);
while( (cl = rfbClientIteratorNext(iter)) ) {
ClientData *cd = (ClientData *) cl->clientData;
if (cl->state != RFB_NORMAL) {
continue;
}
if (cd->send_cmp_rate == 0.0 || cd->send_raw_rate == 0.0) {
continue;
}
count++;
if (which == 0) {
rate = cd->send_cmp_rate;
} else {
rate = cd->send_raw_rate;
}
if (slowest == -1.0 || rate < slowest) {
slowest = rate;
}
}
rfbReleaseClientIterator(iter);
if (! count) {
return NETRATE0;
}
if (slowest == -1.0) {
slowest = save_rate;
} else {
save_rate = slowest;
}
irate = (int) (slowest/1000.0);
if (irate < irate_min) {
irate = irate_min;
}
if (irate > irate_max) {
irate = irate_max;
}
if (0) fprintf(stderr, "get_rate(%d) %d %.3f/%.3f\n", which, irate, save_rate, slowest);
return irate;
}
static int get_latency(void) {
rfbClientIteratorPtr iter;
rfbClientPtr cl;
int ilat, ilat_min = 1; /* 1 ms */
int ilat_max = 2000; /* 2 sec */
double slowest = -1.0, lat;
static double save_lat = ((double) LATENCY0)/1000.0;
int count = 0;
if (!screen) {
return 0;
}
iter = rfbGetClientIterator(screen);
while( (cl = rfbClientIteratorNext(iter)) ) {
ClientData *cd = (ClientData *) cl->clientData;
if (cl->state != RFB_NORMAL) {
continue;
}
if (cd->latency == 0.0) {
continue;
}
count++;
lat = cd->latency;
if (slowest == -1.0 || lat > slowest) {
slowest = lat;
}
}
rfbReleaseClientIterator(iter);
if (! count) {
return LATENCY0;
}
if (slowest == -1.0) {
slowest = save_lat;
} else {
save_lat = slowest;
}
ilat = (int) (slowest * 1000.0);
if (ilat < ilat_min) {
ilat = ilat_min;
}
if (ilat > ilat_max) {
ilat = ilat_max;
}
return ilat;
}
int get_cmp_rate(void) {
return get_rate(0);
}
int get_raw_rate(void) {
return get_rate(1);
}
void initialize_speeds(void) {
char *s, *s_in, *p;
int i;
speeds_read_rate = 0;
speeds_net_rate = 0;
speeds_net_latency = 0;
if (! speeds_str || *speeds_str == '\0') {
s_in = strdup("");
} else {
s_in = strdup(speeds_str);
}
if (!strcmp(s_in, "modem")) {
s = strdup("6,4,200");
} else if (!strcmp(s_in, "dsl")) {
s = strdup("6,100,50");
} else if (!strcmp(s_in, "lan")) {
s = strdup("6,5000,1");
} else {
s = strdup(s_in);
}
p = strtok(s, ",");
i = 0;
while (p) {
double val;
if (*p != '\0') {
val = atof(p);
if (i==0) {
speeds_read_rate = (int) 1000000 * val;
} else if (i==1) {
speeds_net_rate = (int) 1000 * val;
} else if (i==2) {
speeds_net_latency = (int) val;
}
}
i++;
p = strtok(NULL, ",");
}
free(s);
free(s_in);
if (! speeds_read_rate) {
int n = 0;
double dt, timer;
dtime0(&timer);
if (fullscreen) {
copy_image(fullscreen, 0, 0, 0, 0);
n = fullscreen->bytes_per_line * fullscreen->height;
} else if (scanline) {
copy_image(scanline, 0, 0, 0, 0);
n = scanline->bytes_per_line * scanline->height;
}
dt = dtime(&timer);
if (n && dt > 0.0) {
double rate = ((double) n) / dt;
speeds_read_rate_measured = (int) (rate/1000000.0);
if (speeds_read_rate_measured < 1) {
speeds_read_rate_measured = 1;
} else {
rfbLog("fb read rate: %d MB/sec\n",
speeds_read_rate_measured);
}
}
}
}
int get_read_rate(void) {
if (speeds_read_rate) {
return speeds_read_rate;
}
if (speeds_read_rate_measured) {
return speeds_read_rate_measured;
}
return 0;
}
int link_rate(int *latency, int *netrate) {
*latency = get_net_latency();
*netrate = get_net_rate();
if (speeds_str) {
if (!strcmp(speeds_str, "modem")) {
return LR_DIALUP;
} else if (!strcmp(speeds_str, "dsl")) {
return LR_BROADBAND;
} else if (!strcmp(speeds_str, "lan")) {
return LR_LAN;
}
}
if (*latency == LATENCY0 && *netrate == NETRATE0) {
return LR_UNSET;
} else if (*latency > 150 || *netrate < 20) {
return LR_DIALUP;
} else if (*latency > 50 || *netrate < 150) {
return LR_BROADBAND;
} else if (*latency < 10 && *netrate > 300) {
return LR_LAN;
} else {
return LR_UNKNOWN;
}
}
int get_net_rate(void) {
int spm = speeds_net_rate_measured;
if (speeds_net_rate) {
return speeds_net_rate;
}
if (! spm || spm == NETRATE0) {
speeds_net_rate_measured = get_cmp_rate();
}
if (speeds_net_rate_measured) {
return speeds_net_rate_measured;
}
return 0;
}
int get_net_latency(void) {
int spm = speeds_net_latency_measured;
if (speeds_net_latency) {
return speeds_net_latency;
}
if (! spm || spm == LATENCY0) {
speeds_net_latency_measured = get_latency();
}
if (speeds_net_latency_measured) {
return speeds_net_latency_measured;
}
return 0;
}
void measure_send_rates(int init) {
double cmp_rate, raw_rate;
static double now, start = 0.0;
static rfbDisplayHookPtr orig_display_hook = NULL;
double cmp_max = 1.0e+08; /* 100 MB/sec */
double cmp_min = 1000.0; /* 9600baud */
double lat_max = 5.0; /* 5 sec */
double lat_min = .0005; /* 0.5 ms */
int min_cmp = 10000, nclients;
rfbClientIteratorPtr iter;
rfbClientPtr cl;
int db = 0, msg = 0;
db = 0;
if (! measure_speeds) {
return;
}
if (speeds_net_rate && speeds_net_latency) {
return;
}
if (! orig_display_hook) {
orig_display_hook = screen->displayHook;
}
if (start == 0.0) {
dtime(&start);
}
dtime0(&now);
now = now - start;
nclients = 0;
if (!screen) {
return;
}
iter = rfbGetClientIterator(screen);
while( (cl = rfbClientIteratorNext(iter)) ) {
int defer, i, cbs, rbs;
char *httpdir;
double dt, dt1 = 0.0, dt2, dt3;
double tm, spin_max = 15.0, spin_lat_max = 1.5;
int got_t2 = 0, got_t3 = 0;
ClientData *cd = (ClientData *) cl->clientData;
if (cd->send_cmp_rate > 0.0) {
continue;
}
nclients++;
cbs = 0;
for (i=0; i<MAX_ENCODINGS; i++) {
cbs += cl->bytesSent[i];
}
rbs = cl->rawBytesEquivalent;
if (init) {
if (db) fprintf(stderr, "%d client num rects req: %d mod: %d cbs: %d "
"rbs: %d dt1: %.3f t: %.3f\n", init,
(int) sraRgnCountRects(cl->requestedRegion),
(int) sraRgnCountRects(cl->modifiedRegion), cbs, rbs, dt1, now);
cd->timer = dnow();
cd->cmp_bytes_sent = cbs;
cd->raw_bytes_sent = rbs;
continue;
}
/* first part of the bulk transfer of initial screen */
dt1 = dtime(&cd->timer);
if (db) fprintf(stderr, "%d client num rects req: %d mod: %d cbs: %d "
"rbs: %d dt1: %.3f t: %.3f\n", init,
(int) sraRgnCountRects(cl->requestedRegion),
(int) sraRgnCountRects(cl->modifiedRegion), cbs, rbs, dt1, now);
if (dt1 <= 0.0) {
continue;
}
cbs = cbs - cd->cmp_bytes_sent;
rbs = rbs - cd->raw_bytes_sent;
if (cbs < min_cmp) {
continue;
}
rfbPE(1000);
if (sraRgnCountRects(cl->modifiedRegion)) {
rfbPE(1000);
}
defer = screen->deferUpdateTime;
httpdir = screen->httpDir;
screen->deferUpdateTime = 0;
screen->httpDir = NULL;
/* mark a small rectangle: */
mark_rect_as_modified(0, 0, 16, 16, 1);
dtime0(&tm);
dt2 = 0.0;
dt3 = 0.0;
if (dt1 < 0.25) {
/* try to cut it down to avoid long pauses. */
spin_max = 5.0;
}
/* when req1 = 1 mod1 == 0, end of 2nd part of bulk transfer */
while (1) {
int req0, req1, mod0, mod1;
req0 = sraRgnCountRects(cl->requestedRegion);
mod0 = sraRgnCountRects(cl->modifiedRegion);
if (use_threads) {
usleep(1000);
} else {
if (mod0) {
rfbPE(1000);
} else {
rfbCFD(1000);
}
}
dt = dtime(&tm);
dt2 += dt;
if (dt2 > spin_max) {
break;
}
req1 = sraRgnCountRects(cl->requestedRegion);
mod1 = sraRgnCountRects(cl->modifiedRegion);
if (db) fprintf(stderr, "dt2 calc: num rects req: %d/%d mod: %d/%d "
"fbu-sent: %d dt: %.4f dt2: %.4f tm: %.4f\n",
req0, req1, mod0, mod1, cl->framebufferUpdateMessagesSent, dt, dt2, tm);
if (req1 != 0 && mod1 == 0) {
got_t2 = 1;
break;
}
}
if (! got_t2) {
dt2 = 0.0;
} else {
int tr, trm = 3;
double dts[10];
/*
* Note: since often select(2) cannot sleep
* less than 1/HZ (e.g. 10ms), the resolution
* of the latency may be messed up by something
* of this order. Effect may occur on both ends,
* i.e. the viewer may not respond immediately.
*/
for (tr = 0; tr < trm; tr++) {
usleep(5000);
/* mark a 2nd small rectangle: */
mark_rect_as_modified(0, 0, 16, 16, 1);
i = 0;
dtime0(&tm);
dt3 = 0.0;
/*
* when req1 > 0 and mod1 == 0, we say
* that is the "ping" time.
*/
while (1) {
int req0, req1, mod0, mod1;
req0 = sraRgnCountRects(
cl->requestedRegion);
mod0 = sraRgnCountRects(
cl->modifiedRegion);
if (i == 0) {
rfbPE(0);
} else {
if (use_threads) {
usleep(1000);
} else {
/* try to get it all */
rfbCFD(1000*1000);
}
}
dt = dtime(&tm);
i++;
dt3 += dt;
if (dt3 > spin_lat_max) {
break;
}
req1 = sraRgnCountRects(
cl->requestedRegion);
mod1 = sraRgnCountRects(
cl->modifiedRegion);
if (db) fprintf(stderr, "dt3 calc: num rects req: %d/%d mod: %d/%d "
"fbu-sent: %d dt: %.4f dt3: %.4f tm: %.4f\n",
req0, req1, mod0, mod1, cl->framebufferUpdateMessagesSent, dt, dt3, tm);
if (req1 != 0 && mod1 == 0) {
dts[got_t3++] = dt3;
break;
}
}
}
if (! got_t3) {
dt3 = 0.0;
} else {
if (got_t3 == 1) {
dt3 = dts[0];
} else if (got_t3 == 2) {
dt3 = dts[1];
} else {
if (dts[2] >= 0.0) {
double rat = dts[1]/dts[2];
if (rat > 0.5 && rat < 2.0) {
dt3 = dts[1]+dts[2];
dt3 *= 0.5;
} else {
dt3 = dts[1];
}
} else {
dt3 = dts[1];
}
}
}
}
screen->deferUpdateTime = defer;
screen->httpDir = httpdir;
dt = dt1 + dt2;
if (dt3 <= dt2/2.0) {
/* guess only 1/2 a ping for reply... */
dt = dt - dt3/2.0;
}
cmp_rate = cbs/dt;
raw_rate = rbs/dt;
if (cmp_rate > cmp_max) {
cmp_rate = cmp_max;
}
if (cmp_rate <= cmp_min) {
cmp_rate = cmp_min;
}
cd->send_cmp_rate = cmp_rate;
cd->send_raw_rate = raw_rate;
if (dt3 > lat_max) {
dt3 = lat_max;
}
if (dt3 <= lat_min) {
dt3 = lat_min;
}
cd->latency = dt3;
rfbLog("client %d network rate %.1f KB/sec (%.1f eff KB/sec)\n",
cd->uid, cmp_rate/1000.0, raw_rate/1000.0);
rfbLog("client %d latency: %.1f ms\n", cd->uid, 1000.0*dt3);
rfbLog("dt1: %.4f, dt2: %.4f dt3: %.4f bytes: %d\n",
dt1, dt2, dt3, cbs);
msg = 1;
}
rfbReleaseClientIterator(iter);
if (msg) {
int link, latency, netrate;
char *str = "error";
link = link_rate(&latency, &netrate);
if (link == LR_UNSET) {
str = "LR_UNSET";
} else if (link == LR_UNKNOWN) {
str = "LR_UNKNOWN";
} else if (link == LR_DIALUP) {
str = "LR_DIALUP";
} else if (link == LR_BROADBAND) {
str = "LR_BROADBAND";
} else if (link == LR_LAN) {
str = "LR_LAN";
}
rfbLog("link_rate: %s - %d ms, %d KB/s\n", str, latency,
netrate);
}
if (init) {
if (nclients) {
screen->displayHook = measure_display_hook;
}
} else {
screen->displayHook = orig_display_hook;
}
}