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KEK/ESP32/main.ino
folkert van heusden c363bebfe0 multiple telnet clients fix
2022-03-19 13:01:01 +01:00

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8.1 KiB
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// (C) 2018-2022 by Folkert van Heusden
// Released under Apache License v2.0
#include <FastLED.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include <WiFi.h>
#include <sys/poll.h>
#include <sys/socket.h>
#include <sys/types.h>
#include "cpu.h"
#include "error.h"
#include "esp32.h"
#include "memory.h"
#include "tty.h"
#include "utils.h"
#define NEOPIXELS_PIN 25
bus *b = nullptr;
cpu *c = nullptr;
tty *tty_ = nullptr;
uint16_t exec_addr = 0;
uint32_t start_ts = 0;
void setBootLoader(bus *const b) {
cpu *const c = b->getCpu();
const uint16_t offset = 01000;
constexpr uint16_t bootrom[] = {
0012700,
0177406,
0012710,
0177400,
0012740,
0000005,
0105710,
0100376,
0005007
};
for(size_t i=0; i<sizeof bootrom / 2; i++)
b->writeWord(offset + i * 2, bootrom[i]);
c->setRegister(7, offset);
}
void panel(void *p) {
Serial.println(F("panel task started"));
bus *const b = reinterpret_cast<bus *>(p);
cpu *const c = b->getCpu();
CRGB leds[32] { 0 };
FastLED.addLeds<NEOPIXEL, NEOPIXELS_PIN>(leds, 32);
FastLED.setBrightness(50);
FastLED.show();
const CRGB run_mode_led_color[4] = { CRGB::Red, CRGB::Yellow, CRGB::Blue, CRGB::Green };
for(;;) {
vTaskDelay(20 / portTICK_RATE_MS);
uint16_t current_PC = c->getPC();
uint32_t full_addr = b->calculate_full_address(current_PC);
uint16_t current_PSW = c->getPSW();
const CRGB & led_color = run_mode_led_color[current_PSW >> 14];
for(int b=0; b<22; b++)
leds[b] = full_addr & (1 << b) ? led_color : CRGB::Black;
leds[22] = c->getPSW_c() ? CRGB::Magenta : CRGB::Black;
leds[23] = c->getPSW_v() ? CRGB::Magenta : CRGB::Black;
leds[24] = c->getPSW_z() ? CRGB::Magenta : CRGB::Black;
leds[25] = c->getPSW_n() ? CRGB::Magenta : CRGB::Black;
FastLED.show();
}
}
SemaphoreHandle_t terminal_mutex = xSemaphoreCreateMutex();
char terminal[25][80];
uint8_t tx = 0, ty = 0;
QueueHandle_t queue = xQueueCreate(10, sizeof(char));
void delete_first_line() {
memmove(&terminal[0][0], &terminal[1][0], sizeof(terminal[1]));
memset(&terminal[24][0], ' ', sizeof(terminal[24]));
}
void telnet_terminal(void *p) {
bus *const b = reinterpret_cast<bus *>(p);
tty *const tty_ = b->getTty();
Serial.println(F("telnet_terminal task started"));
if (!tty_)
Serial.println(F(" *** NO TTY ***"));
for(;;) {
char c { 0 };
xQueueReceive(tty_->getTerminalQueue(), &c, portMAX_DELAY);
// update terminal buffer
xSemaphoreTake(terminal_mutex, portMAX_DELAY);
if (c == 13 || c == 10) {
tx = 0;
ty++;
if (ty == 25) {
delete_first_line();
ty--;
}
}
else {
terminal[ty][tx] = c;
tx++;
if (tx == 80) {
tx = 0;
ty++;
if (ty == 25) {
delete_first_line();
ty--;
}
}
}
xSemaphoreGive(terminal_mutex);
// pass through to telnet clients
if (xQueueSend(queue, &c, portMAX_DELAY) != pdTRUE)
Serial.println(F("queue TTY character failed"));
}
}
void wifi(void *p) {
Serial.println(F("wifi task started"));
uint32_t ulNotifiedValue = 0;
int fd = socket(AF_INET, SOCK_STREAM, 0);
struct sockaddr_in server { 0 };
server.sin_family = AF_INET;
server.sin_addr.s_addr = INADDR_ANY;
server.sin_port = htons(23);
if (bind(fd, (struct sockaddr *)&server, sizeof(server)) == -1)
Serial.println(F("bind failed"));
if (listen(fd, 3) == -1)
Serial.println(F("listen failed"));
struct pollfd fds[] = { { fd, POLLIN, 0 } };
std::vector<int> clients;
for(;;) {
int rc = poll(fds, 1, 10);
if (rc == 1) {
int client = accept(fd, nullptr, nullptr);
if (client != -1) {
clients.push_back(client);
// send initial terminal stat
std::string out = "\033[2J";
xSemaphoreTake(terminal_mutex, portMAX_DELAY);
for(int y=0; y<25; y++)
out += format("\033[%dH", y + 1) + std::string(&terminal[y][0], 80);
xSemaphoreGive(terminal_mutex);
write(client, out.c_str(), out.size());
}
}
std::string out;
char c { 0 };
while (xQueueReceive(tty_->getTerminalQueue(), &c, 10 / portMAX_DELAY) == pdTRUE)
out += c;
if (!out.empty()) {
for(size_t i=0; i<clients.size();) {
if (write(clients.at(i), out.c_str(), out.size()) == -1) {
close(clients.at(i));
clients.erase(clients.begin() + i);
}
else {
i++;
}
}
}
}
}
void setup_wifi_stations()
{
WiFi.mode(WIFI_STA);
WiFi.softAP("PDP-11 KEK", nullptr, 5, 0, 4);
#if 0
Serial.println(F("Scanning for WiFi access points..."));
int n = WiFi.scanNetworks();
Serial.println(F("scan done"));
if (n == 0)
Serial.println(F("no networks found"));
else {
for (int i = 0; i < n; ++i) {
// Print SSID and RSSI for each network found
Serial.print(i + 1);
Serial.print(F(": "));
Serial.print(WiFi.SSID(i));
Serial.print(F(" ("));
Serial.print(WiFi.RSSI(i));
Serial.print(F(")"));
Serial.println(WiFi.encryptionType(i) == WIFI_AUTH_OPEN ? " " : "*");
delay(10);
}
}
std::string ssid = read_terminal_line("SSID: ");
std::string password = read_terminal_line("password: ");
WiFi.begin(ssid.c_str(), password.c_str());
#else
//WiFi.begin("www.vanheusden.com", "Ditiseentest31415926");
WiFi.begin("NURDspace-guest", "harkharkhark");
#endif
while (WiFi.status() != WL_CONNECTED) {
Serial.print('.');
delay(250);
}
Serial.println(WiFi.localIP());
}
void setup() {
Serial.begin(115200);
Serial.println(F("This PDP-11 emulator is called \"kek\" (reason for that is forgotten) and was written by Folkert van Heusden."));
Serial.print(F("Size of int: "));
Serial.println(sizeof(int));
Serial.print(F("CPU clock frequency (MHz): "));
Serial.println(getCpuFrequencyMhz());
Serial.print(F("Free RAM before init (decimal bytes): "));
Serial.println(ESP.getFreeHeap());
Serial.println(F("Init bus"));
b = new bus();
Serial.println(F("Init CPU"));
c = new cpu(b);
Serial.println(F("Connect CPU to BUS"));
b->add_cpu(c);
c->setEmulateMFPT(true);
Serial.println(F("Init TTY"));
tty_ = new tty(false);
Serial.println(F("Connect TTY to bus"));
b->add_tty(tty_);
Serial.print(F("Starting panel (on CPU 0, main emulator runs on CPU "));
Serial.print(xPortGetCoreID());
Serial.println(F(")"));
xTaskCreatePinnedToCore(&panel, "panel", 2048, b, 1, nullptr, 0);
memset(terminal, ' ', sizeof(terminal));
xTaskCreatePinnedToCore(&telnet_terminal, "telnet", 2048, b, 7, nullptr, 0);
xTaskCreatePinnedToCore(&wifi, "wifi", 2048, b, 7, nullptr, 0);
setup_wifi_stations();
Serial.println(F("Load RK05"));
b->add_rk05(new rk05("", b));
setBootLoader(b);
Serial.print(F("Free RAM after init: "));
Serial.println(ESP.getFreeHeap());
pinMode(LED_BUILTIN, OUTPUT);
Serial.flush();
Serial.println(F("Press <enter> to start"));
for(;;) {
if (Serial.available()) {
int c = Serial.read();
if (c == 13 || c == 10)
break;
}
delay(1);
}
Serial.println(F("Emulation starting!"));
start_ts = millis();
}
uint32_t icount = 0;
void dump_state(bus *const b) {
cpu *const c = b->getCpu();
uint32_t now = millis();
uint32_t t_diff = now - start_ts;
double mips = icount / (1000.0 * t_diff);
// see https://retrocomputing.stackexchange.com/questions/6960/what-was-the-clock-speed-and-ips-for-the-original-pdp-11
constexpr double pdp11_clock_cycle = 150; // ns, for the 11/70
constexpr double pdp11_mhz = 1000.0 / pdp11_clock_cycle;
constexpr double pdp11_avg_cycles_per_instruction = (1 + 5) / 2.0;
constexpr double pdp11_estimated_mips = pdp11_mhz / pdp11_avg_cycles_per_instruction;
Serial.print(F("MIPS: "));
Serial.println(mips);
Serial.print(F("emulation speed (aproximately): "));
Serial.print(mips * 100 / pdp11_estimated_mips);
Serial.println('%');
Serial.print(F("PC: "));
Serial.println(c->getPC());
Serial.print(F("Uptime (ms): "));
Serial.println(t_diff);
}
void loop() {
icount++;
if ((icount & 1023) == 0) {
if (Serial.available()) {
char c = Serial.read();
if (c == 5)
dump_state(b);
else if (c > 0 && c < 127)
tty_->sendChar(c);
}
}
if (c->step()) {
Serial.println(F(""));
Serial.println(F(" *** EMULATION STOPPED *** "));
dump_state(b);
delay(3000);
Serial.println(F(" *** EMULATION RESTARTING *** "));
c->setRegister(7, exec_addr);
c->resetHalt();
start_ts = millis();
icount = 0;
}
}
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