static void serve_index(int s, struct scope *sc, char *param)
{
+ int i;
+ struct channel_s *ch;
+
send_text(s, "HTTP/1.0 200 OK\n");
send_text(s, "Content-type: text/html\n\n");
send_text(s, "<html><head><title>%s</title></head><body bgcolor=\"#ffffff\" text=\"#000000\">\n", scope_idn(sc));
claimscope(sc);
update_scope_status(sc);
+ releasescope(sc);
- send_text(s, "System: Language: %s, Counter: %d, Beep: %d<br>\n",
+ send_text(s, "System: Language: %s, Counter: %d, Beep: %d<br><br>\n",
sc->status.system.lang,
sc->status.system.counter_enabled,
sc->status.system.beep_enabled);
- send_text(s, "Keyboard: Key Lock: %d<br>\n",
+ send_text(s, "Keyboard: Key Lock: %d<br><br>\n",
sc->status.keyboard.key_lock);
-
- send_text(s, "Acquire: Type: %s, Mode: %s, Averages: %d<br>\n",
+
+ send_text(s, "Measure: Source: %s, Total: %d<br>\n",
+ sc->status.measure.source,
+ sc->status.measure.total);
+
+ send_text(s, "Measure CH1:<br>\n");
+ send_text(s, "VPP: %lg, VMAX: %lg, VMIN: %lg, VAMPLITUDE: %lg, VTOP: %lg, VBASE: %lg, VAVERAGE: %lg, VRMS: %lg<br>\n",
+ sc->status.measure.ch1.vpp,
+ sc->status.measure.ch1.vmax,
+ sc->status.measure.ch1.vmin,
+ sc->status.measure.ch1.vamplitude,
+ sc->status.measure.ch1.vtop,
+ sc->status.measure.ch1.vbase,
+ sc->status.measure.ch1.vaverage,
+ sc->status.measure.ch1.vrms);
+
+ send_text(s, "Overshoot: %lg, Preshoot: %lg<br>\n",
+ sc->status.measure.ch1.overshoot,
+ sc->status.measure.ch1.preshoot);
+
+ send_text(s, "Frequency: %lg, Risetime: %lg, Falltime: %lg<br>\n",
+ sc->status.measure.ch1.frequency,
+ sc->status.measure.ch1.risetime,
+ sc->status.measure.ch1.falltime);
+
+ send_text(s, "Period: %lg, Pwidth: %lg, Nwidth: %lg, Pdutycycle: %lg, Ndutycycle: %lg<br>\n",
+ sc->status.measure.ch1.period,
+ sc->status.measure.ch1.pwidth,
+ sc->status.measure.ch1.nwidth,
+ sc->status.measure.ch1.pdutycycle,
+ sc->status.measure.ch1.ndutycycle);
+
+ send_text(s, "Pdelay: %lg, Ndelay: %lg<br>\n",
+ sc->status.measure.ch1.pdelay,
+ sc->status.measure.ch1.ndelay);
+
+ send_text(s, "Measure CH2:<br>\n");
+ send_text(s, "VPP: %lg, VMAX: %lg, VMIN: %lg, VAMPLITUDE: %lg, VTOP: %lg, VBASE: %lg, VAVERAGE: %lg, VRMS: %lg<br>\n",
+ sc->status.measure.ch2.vpp,
+ sc->status.measure.ch2.vmax,
+ sc->status.measure.ch2.vmin,
+ sc->status.measure.ch2.vamplitude,
+ sc->status.measure.ch2.vtop,
+ sc->status.measure.ch2.vbase,
+ sc->status.measure.ch2.vaverage,
+ sc->status.measure.ch2.vrms);
+
+ send_text(s, "Overshoot: %lg, Preshoot: %lg<br>\n",
+ sc->status.measure.ch2.overshoot,
+ sc->status.measure.ch2.preshoot);
+
+ send_text(s, "Frequency: %lg, Risetime: %lg, Falltime: %lg<br>\n",
+ sc->status.measure.ch2.frequency,
+ sc->status.measure.ch2.risetime,
+ sc->status.measure.ch2.falltime);
+
+ send_text(s, "Period: %lg, Pwidth: %lg, Nwidth: %lg, Pdutycycle: %lg, Ndutycycle: %lg<br>\n",
+ sc->status.measure.ch2.period,
+ sc->status.measure.ch2.pwidth,
+ sc->status.measure.ch2.nwidth,
+ sc->status.measure.ch2.pdutycycle,
+ sc->status.measure.ch2.ndutycycle);
+
+ send_text(s, "Pdelay: %lg, Ndelay: %lg<br>\n",
+ sc->status.measure.ch2.pdelay,
+ sc->status.measure.ch2.ndelay);
+
+ send_text(s, "<br>Acquire: Type: %s, Mode: %s, Averages: %d, CH1: %.10lg samples/s, CH2: %.10lg samples/s<br>\n",
sc->status.acquire.type,
sc->status.acquire.mode,
- sc->status.acquire.averages);
+ sc->status.acquire.averages,
+ sc->status.acquire.srate_ch1,
+ sc->status.acquire.srate_ch2);
+
+ send_text(s, "<br>Display: Type: %s, Grid: %s, Persist: %d, MNUDisplay: %s, MNUStatus: %d, Screen: %s, Brightness: %d, Intensity: %d<br><br>\n",
+ sc->status.display.type,
+ sc->status.display.grid,
+ sc->status.display.persist,
+ sc->status.display.mnudisplay,
+ sc->status.display.mnustatus,
+ sc->status.display.screen,
+ sc->status.display.brightness,
+ sc->status.display.intensity);
+
+ for (i = 1; i <= 2; i++) {
+ if (i == 1) {
+ ch = &(sc->status.channel.ch1);
+ } else {
+ ch = &(sc->status.channel.ch2);
+ }
+ send_text(s, "Channel %d: ", i);
+
+ send_text(s, "BWLimit: %d, Coupling: %s, Displayed: %d, Inverted: %d, Offset: %lg, Probe: %lgX, Scale: %lg, Filter: %d, Memory Depth: %d, Vernier: %s<br>\n",
+ ch->bwlimit_enabled,
+ ch->coupling,
+ ch->displayed,
+ ch->inverted,
+ ch->offset,
+ ch->probe,
+ ch->scale,
+ ch->filter_enabled,
+ ch->memory_depth,
+ ch->vernier);
+ }
- send_text(s, "Horizontal: Mode: %s, Offset: %lg, Delayed Offset: %lg, Scale: %lg, Format: %s<br>\n",
+ send_text(s, "<br>Horizontal: Mode: %s, Offset: %lg, Delayed Offset: %lg, Scale: %lg, Format: %s<br>\n",
sc->status.timebase.mode,
sc->status.timebase.offset,
sc->status.timebase.delayed_offset,
sc->status.timebase.scale,
sc->status.timebase.format);
- send_text(s, "Display: ");
- send_command_output(s, sc, ":DISP:TYPE?");
- send_text(s, ", ");
- send_command_output(s, sc, ":DISP:SCR?");
- send_text(s, ", Grid: ");
- send_command_output(s, sc, ":DISP:GRID?");
- send_text(s, ", Persistence: ");
- send_command_output(s, sc, ":DISP:PERS?");
- send_text(s, ", Menu: ");
- send_command_output(s, sc, ":DISP:MNUS?");
- send_text(s, ", Brightness: ");
- send_command_output(s, sc, ":DISP:BRIG?");
- send_text(s, ", Intensity: ");
- send_command_output(s, sc, ":DISP:INT?");
- send_text(s, "<br>\n");
-
- send_text(s, "Channel 1: ");
- send_command_output(s, sc, ":CHAN1:DISP?");
- send_text(s, ", ");
- send_command_output(s, sc, ":CHAN1:MEMD?");
- send_text(s, " sample depth, %.10lg samples/s<br>\n", sc->status.acquire.srate_chan1);
- send_text(s, "Channel 2: ");
- send_command_output(s, sc, ":CHAN2:DISP?");
- send_text(s, ", ");
- send_command_output(s, sc, ":CHAN2:MEMD?");
- send_text(s, " sample depth, %.10lg samples/s<br>\n", sc->status.acquire.srate_chan2);
-
- releasescope(sc);
-
- send_text(s, sc->status.system.lang);
+ send_text(s, "<br>Math: Math Displayed: %d, FFT Displayed: %d<br>\n",
+ sc->status.math.displayed,
+ sc->status.fft.displayed);
send_text(s, "<br>\n");
send_text(s, "<form method=\"get\" action=\"\">\n");