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KEK/debugger.cpp
folkert van heusden f75293a9b0
log psw as value
2024-04-04 16:39:27 +02:00

590 lines
16 KiB
C++
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// (C) 2018-2023 by Folkert van Heusden
// Released under MIT license
#include <optional>
#include "bus.h"
#include "console.h"
#include "cpu.h"
#include "gen.h"
#include "log.h"
#include "tty.h"
#include "utils.h"
#if defined(ESP32) || defined(BUILD_FOR_RP2040)
#if defined(ESP32)
#include "esp32.h"
#elif defined(BUILD_FOR_RP2040)
#include "rp2040.h"
#endif
void setBootLoader(bus *const b);
void configure_disk(console *const c);
void configure_network(console *const c);
void check_network(console *const c);
void start_network(console *const c);
void set_tty_serial_speed(console *const c, const uint32_t bps);
void recall_configuration(console *const c);
#endif
// returns size of instruction (in bytes)
int disassemble(cpu *const c, console *const cnsl, const uint16_t pc, const bool instruction_only)
{
auto data = c->disassemble(pc);
auto registers = data["registers"];
auto psw = data["psw"][0];
std::string instruction_values;
for(auto iv : data["instruction-values"])
instruction_values += (instruction_values.empty() ? "" : ",") + iv;
std::string work_values;
for(auto wv : data["work-values"])
work_values += (work_values.empty() ? "" : ",") + wv;
std::string instruction = data["instruction-text"].at(0);
std::string MMR0 = data["MMR0"].at(0);
std::string MMR1 = data["MMR1"].at(0);
std::string MMR2 = data["MMR2"].at(0);
std::string MMR3 = data["MMR3"].at(0);
std::string result;
if (instruction_only)
result = format("PC: %06o, instr: %s\t%s\t%s",
pc,
instruction_values.c_str(),
instruction.c_str(),
work_values.c_str()
);
else
result = format("R0: %s, R1: %s, R2: %s, R3: %s, R4: %s, R5: %s, SP: %s, PC: %06o, PSW: %s (%s), instr: %s: %s - MMR0/1/2/3: %s/%s/%s/%s",
registers[0].c_str(), registers[1].c_str(), registers[2].c_str(), registers[3].c_str(), registers[4].c_str(), registers[5].c_str(),
registers[6].c_str(), pc,
psw.c_str(), data["psw-value"][0].c_str(),
instruction_values.c_str(),
instruction.c_str(),
MMR0.c_str(), MMR1.c_str(), MMR2.c_str(), MMR3.c_str()
);
#if defined(COMPARE_OUTPUT)
{
std::string temp = format("R0: %s, R1: %s, R2: %s, R3: %s, R4: %s, R5: %s, SP: %s, PC: %06o, PSW: %s, instr: %s",
registers[0].c_str(), registers[1].c_str(), registers[2].c_str(), registers[3].c_str(), registers[4].c_str(), registers[5].c_str(), registers[6].c_str(), pc,
psw.c_str(),
data["instruction-values"][0].c_str()
);
FILE *fh = fopen("compare.dat", "a+");
fprintf(fh, "%s\n", temp.c_str());
fclose(fh);
}
#endif
if (cnsl)
cnsl->debug(result);
else
DOLOG(debug, true, "%s", result.c_str());
std::string sp;
for(auto sp_val : data["sp"])
sp += (sp.empty() ? "" : ",") + sp_val;
DOLOG(debug, true, "SP: %s", sp.c_str());
return data["instruction-values"].size() * 2;
}
std::map<std::string, std::string> split(const std::vector<std::string> & kv_array, const std::string & splitter)
{
std::map<std::string, std::string> out;
for(auto pair : kv_array) {
auto kv = split(pair, splitter);
if (kv.size() == 1)
out.insert({ kv[0], "" });
else if (kv.size() == 2)
out.insert({ kv[0], kv[1] });
}
return out;
}
void dump_par_pdr(console *const cnsl, bus *const b, const uint16_t pdrs, const uint16_t pars, const std::string & name, const int state)
{
if (state == 0 || state == 2)
cnsl->put_string_lf(name);
else
cnsl->put_string_lf(format("%s DISABLED", name.c_str()));
cnsl->put_string_lf(" PAR PDR");
for(int i=0; i<8; i++) {
uint16_t par_value = b->read(pars + i * 2, wm_word, rm_cur, true);
uint16_t pdr_value = b->read(pdrs + i * 2, wm_word, rm_cur, true);
uint16_t pdr_len = (((pdr_value >> 8) & 127) + 1) * 64;
cnsl->put_string_lf(format("%d] %06o %08o %06o %04o D%d A%d", i, par_value, par_value * 64, pdr_value, pdr_len, !!(pdr_value & 8), pdr_value & 7));
}
}
void mmu_dump(console *const cnsl, bus *const b)
{
uint16_t mmr0 = b->getMMR0();
cnsl->put_string_lf(mmr0 & 1 ? "MMU enabled" : "MMU NOT enabled");
uint16_t mmr3 = b->getMMR3();
cnsl->put_string_lf(format("MMR0: %06o", mmr0));
cnsl->put_string_lf(format("MMR1: %06o", b->getMMR1()));
cnsl->put_string_lf(format("MMR2: %06o", b->getMMR2()));
cnsl->put_string_lf(format("MMR3: %06o", mmr3));
dump_par_pdr(cnsl, b, ADDR_PDR_SV_START, ADDR_PAR_SV_START, "supervisor i-space", 0);
dump_par_pdr(cnsl, b, ADDR_PDR_SV_START + 020, ADDR_PAR_SV_START + 020, "supervisor d-space", 1 + (!!(mmr3 & 2)));
dump_par_pdr(cnsl, b, ADDR_PDR_K_START, ADDR_PAR_K_START, "kernel i-space", 0);
dump_par_pdr(cnsl, b, ADDR_PDR_K_START + 020, ADDR_PAR_K_START + 020, "kernel d-space", 1 + (!!(mmr3 & 4)));
dump_par_pdr(cnsl, b, ADDR_PDR_U_START, ADDR_PAR_U_START, "user i-space", 0);
dump_par_pdr(cnsl, b, ADDR_PDR_U_START + 020, ADDR_PAR_U_START + 020, "user d-space", 1 + (!!(mmr3 & 1)));
}
void reg_dump(console *const cnsl, cpu *const c)
{
constexpr const char *const run_mode_name[] = { "kernel", "superv", " -", " user" };
for(uint8_t set=0; set<4; set++) {
cnsl->put_string_lf(format("%s, R0: %06o, R1: %06o, R2: %06o, R3: %06o, R4: %06o, R5: %06o",
run_mode_name[set],
c->lowlevel_register_get(set, 0),
c->lowlevel_register_get(set, 1),
c->lowlevel_register_get(set, 2),
c->lowlevel_register_get(set, 3),
c->lowlevel_register_get(set, 4),
c->lowlevel_register_get(set, 5)));
}
cnsl->put_string_lf(format("PSW: %06o, PC: %06o, run mode: %d", c->getPSW(), c->lowlevel_register_get(0, 7), c->getPSW_runmode()));
cnsl->put_string_lf(format("STACK: k:%06o, sv:%06o, -:%06o, usr: %06o",
c->lowlevel_register_sp_get(0),
c->lowlevel_register_sp_get(1),
c->lowlevel_register_sp_get(2),
c->lowlevel_register_sp_get(3)));
}
void show_run_statistics(console *const cnsl, cpu *const c)
{
auto stats = c->get_mips_rel_speed();
cnsl->put_string_lf(format("Executed %zu instructions in %u ms of which %.2f ms idle", size_t(std::get<2>(stats)), std::get<3>(stats), std::get<4>(stats)));
cnsl->put_string_lf(format("MIPS: %.2f, relative speed: %.2f%%", std::get<0>(stats), std::get<1>(stats)));
}
void debugger(console *const cnsl, bus *const b, std::atomic_uint32_t *const stop_event, const bool tracing_in)
{
int32_t trace_start_addr = -1;
bool tracing = tracing_in;
int n_single_step = 1;
bool turbo = false;
std::optional<int> t_rl; // trace runlevel
cpu *const c = b->getCpu();
b->set_debug_mode();
bool single_step = false;
while(*stop_event != EVENT_TERMINATE) {
try {
std::string cmd = cnsl->read_line(format("%d", stop_event->load()));
auto parts = split(cmd, " ");
auto kv = split(parts, "=");
if (parts.empty())
continue;
if (cmd == "go") {
single_step = false;
*stop_event = EVENT_NONE;
}
else if (parts[0] == "single" || parts[0] == "s") {
single_step = true;
if (parts.size() == 2)
n_single_step = atoi(parts[1].c_str());
else
n_single_step = 1;
*stop_event = EVENT_NONE;
}
else if ((parts[0] == "sbp" || parts[0] == "cbp") && parts.size() == 2){
uint16_t pc = std::stoi(parts[1].c_str(), nullptr, 8);
if (parts[0] == "sbp") {
c->set_breakpoint(pc);
cnsl->put_string_lf(format("Set breakpoint at %06o", pc));
}
else {
c->remove_breakpoint(pc);
cnsl->put_string_lf(format("Clear breakpoint at %06o", pc));
}
continue;
}
else if (cmd == "lbp") {
auto bps = c->list_breakpoints();
cnsl->put_string_lf("Breakpoints:");
for(auto a : bps) {
cnsl->put_string(format(" %06o> ", a));
disassemble(c, cnsl, a, true);
}
continue;
}
else if (parts[0] == "disassemble" || parts[0] == "d") {
uint16_t pc = kv.find("pc") != kv.end() ? std::stoi(kv.find("pc")->second, nullptr, 8) : c->getPC();
int n = kv.find("n") != kv.end() ? std::stoi(kv.find("n") ->second, nullptr, 10) : 1;
cnsl->put_string_lf(format("Disassemble %d instructions starting at %o", n, pc));
bool show_registers = kv.find("pc") == kv.end();
for(int i=0; i<n; i++) {
pc += disassemble(c, cnsl, pc, !show_registers);
show_registers = false;
}
continue;
}
else if (parts[0] == "setpc") {
if (parts.size() == 2) {
uint16_t new_pc = std::stoi(parts.at(1), nullptr, 8);
c->setPC(new_pc);
cnsl->put_string_lf(format("Set PC to %06o", new_pc));
}
else {
cnsl->put_string_lf("setpc requires an (octal address as) parameter");
}
continue;
}
else if (parts[0] == "toggle") {
auto s_it = kv.find("s");
auto t_it = kv.find("t");
if (s_it == kv.end() || t_it == kv.end())
cnsl->put_string_lf(format("toggle: parameter missing? current switches states: 0o%06o", c->getBus()->get_console_switches()));
else {
int s = std::stoi(s_it->second, nullptr, 8);
int t = std::stoi(t_it->second, nullptr, 8);
c->getBus()->set_console_switch(s, t);
cnsl->put_string_lf(format("Set switch %d to %d", s, t));
}
continue;
}
else if (parts[0] == "setmem") {
auto a_it = kv.find("a");
auto v_it = kv.find("v");
if (a_it == kv.end() || v_it == kv.end())
cnsl->put_string_lf("setmem: parameter missing?");
else {
uint16_t a = std::stoi(a_it->second, nullptr, 8);
uint8_t v = std::stoi(v_it->second, nullptr, 8);
c->getBus()->writeByte(a, v);
cnsl->put_string_lf(format("Set %06o to %03o", a, v));
}
continue;
}
else if (parts[0] == "trace" || parts[0] == "t") {
tracing = !tracing;
cnsl->put_string_lf(format("Tracing set to %s", tracing ? "ON" : "OFF"));
continue;
}
else if (parts[0] == "mmudump") {
mmu_dump(cnsl, b);
continue;
}
else if (parts[0] == "regdump") {
reg_dump(cnsl, c);
continue;
}
else if (parts[0] == "strace") {
if (parts.size() != 2) {
trace_start_addr = -1;
cnsl->put_string_lf("Tracing start address reset");
}
else {
trace_start_addr = std::stoi(parts[1], nullptr, 8);
cnsl->put_string_lf(format("Tracing start address set to %06o", trace_start_addr));
}
continue;
}
else if (parts[0] == "examine" || parts[0] == "e") {
if (parts.size() < 3)
cnsl->put_string_lf("parameter missing");
else {
uint32_t addr = std::stoi(parts[1], nullptr, 8);
int n = parts.size() == 4 ? atoi(parts[3].c_str()) : 1;
if (parts[2] != "p" && parts[2] != "v") {
cnsl->put_string_lf("expected p (physical address) or v (virtual address)");
continue;
}
std::string out;
for(int i=0; i<n; i++) {
int val = parts[2] == "v" ? b->read(addr + i, wm_word, rm_cur, true) : b->readPhysical(addr + i);
if (val == -1) {
cnsl->put_string_lf(format("Can't read from %06o\n", addr + i));
break;
}
if (n == 1)
cnsl->put_string_lf(format("value at %06o, octal: %o, hex: %x, dec: %d\n", addr + i, val, val, val));
if (n > 1) {
if (i > 0)
out += " ";
out += format("%06o", val);
}
}
if (n > 1)
cnsl->put_string_lf(out);
}
continue;
}
else if (cmd == "reset" || cmd == "r") {
#if defined(ESP32)
ESP.restart();
#else
*stop_event = EVENT_NONE;
c->reset();
#endif
continue;
}
#if defined(ESP32) || defined(BUILD_FOR_RP2040)
else if (cmd == "cfgdisk") {
configure_disk(cnsl);
continue;
}
#endif
#if defined(ESP32)
else if (cmd == "cfgnet") {
configure_network(cnsl);
continue;
}
else if (cmd == "chknet") {
check_network(cnsl);
continue;
}
else if (cmd == "startnet") {
start_network(cnsl);
continue;
}
else if (parts.at(0) == "serspd") {
if (parts.size() == 2) {
uint32_t speed = std::stoi(parts.at(1), nullptr, 10);
set_tty_serial_speed(cnsl, speed);
cnsl->put_string_lf(format("Set baudrate to %d", speed));
}
else {
cnsl->put_string_lf("serspd requires an (decimal) parameter");
}
continue;
}
else if (cmd == "init") {
recall_configuration(cnsl);
continue;
}
#endif
else if (cmd == "stats") {
show_run_statistics(cnsl, c);
continue;
}
else if (parts[0] == "trl") {
if (parts.size() == 1)
t_rl.reset();
else
t_rl = std::stoi(parts.at(1));
continue;
}
else if (cmd == "cls") {
const char cls[] = { 27, '[', '2', 'J', 12, 0 };
cnsl->put_string_lf(cls);
continue;
}
else if (cmd == "turbo") {
turbo = !turbo;
cnsl->put_string_lf(format("Turbo set to %s", turbo ? "ON" : "OFF"));
continue;
}
else if (cmd == "quit" || cmd == "q") {
#if defined(ESP32)
ESP.restart();
#endif
break;
}
else if (cmd == "help" || cmd == "h" || cmd == "?") {
cnsl->put_string_lf("disassemble/d - show current instruction (pc=/n=)");
cnsl->put_string_lf("go - run until trap or ^e");
#if !defined(ESP32)
cnsl->put_string_lf("quit/q - stop emulator");
#endif
cnsl->put_string_lf("examine/e - show memory address (<octal address> <p|v> [<n>])");
cnsl->put_string_lf("reset/r - reset cpu/bus/etc");
cnsl->put_string_lf("single/s - run 1 instruction (implicit 'disassemble' command)");
cnsl->put_string_lf("sbp/cbp/lbp - set/clear/list breakpoint(s)");
cnsl->put_string_lf("trace/t - toggle tracing");
cnsl->put_string_lf("turbo - toggle turbo mode (cannot be interrupted)");
cnsl->put_string_lf("strace - start tracing from address - invoke without address to disable");
cnsl->put_string_lf("trl - set trace run-level, empty for all");
cnsl->put_string_lf("regdump - dump register contents");
cnsl->put_string_lf("mmudump - dump MMU settings (PARs/PDRs)");
cnsl->put_string_lf("setpc - set PC to value");
cnsl->put_string_lf("setmem - set memory (a=) to value (v=), both in octal, one byte");
cnsl->put_string_lf("toggle - set switch (s=, 0...15 (decimal)) of the front panel to state (t=, 0 or 1)");
cnsl->put_string_lf("cls - clear screen");
cnsl->put_string_lf("stats - show run statistics");
#if defined(ESP32)
cnsl->put_string_lf("cfgnet - configure network (e.g. WiFi)");
cnsl->put_string_lf("startnet - start network");
cnsl->put_string_lf("chknet - check network status");
cnsl->put_string_lf("serspd - set serial speed in bps (8N1 are default)");
cnsl->put_string_lf("init - reload (disk-)configuration from flash");
#endif
#if defined(ESP32) || defined(BUILD_FOR_RP2040)
cnsl->put_string_lf("cfgdisk - configure disk");
#endif
continue;
}
else {
cnsl->put_string_lf("?");
continue;
}
c->emulation_start();
*cnsl->get_running_flag() = true;
bool reset_cpu = true;
if (turbo) {
while(*stop_event == EVENT_NONE) {
c->step_a();
c->step_b();
}
}
else {
reset_cpu = false;
while(*stop_event == EVENT_NONE) {
if (!single_step)
DOLOG(debug, false, "---");
c->step_a();
if (trace_start_addr != -1 && c->getPC() == trace_start_addr)
tracing = true;
if ((tracing || single_step) && (t_rl.has_value() == false || t_rl.value() == c->getPSW_runmode()))
disassemble(c, single_step ? cnsl : nullptr, c->getPC(), false);
if (c->check_breakpoint() && !single_step) {
cnsl->put_string_lf("Breakpoint");
break;
}
c->step_b();
if (single_step && --n_single_step == 0)
break;
}
}
*cnsl->get_running_flag() = false;
if (reset_cpu)
c->reset();
}
catch(const std::exception & e) {
cnsl->put_string_lf(format("Exception caught: %s", e.what()));
}
catch(...) {
cnsl->put_string_lf("Unspecified exception caught");
}
}
}
void run_bic(console *const cnsl, bus *const b, std::atomic_uint32_t *const stop_event, const bool tracing, const uint16_t start_addr)
{
cpu *const c = b->getCpu();
c->setRegister(7, start_addr);
*cnsl->get_running_flag() = true;
while(*stop_event == EVENT_NONE) {
c->step_a();
if (tracing)
disassemble(c, nullptr, c->getPC(), false);
c->step_b();
}
*cnsl->get_running_flag() = false;
}
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