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[/] [eco32/] [trunk/] [sim/] [command.c] - Rev 130
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/* * command.c -- command interpreter */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <setjmp.h> #include "common.h" #include "console.h" #include "error.h" #include "except.h" #include "command.h" #include "asm.h" #include "disasm.h" #include "cpu.h" #include "mmu.h" #include "memory.h" #include "timer.h" #include "dspkbd.h" #include "term.h" #include "disk.h" #include "output.h" #include "shutdown.h" #include "graph.h" #define MAX_TOKENS 10 static Bool quit; typedef struct { char *name; void (*hlpProc)(void); void (*cmdProc)(char *tokens[], int n); } Command; extern Command commands[]; extern int numCommands; static void help(void) { cPrintf("valid commands are:\n"); cPrintf(" help get help\n"); cPrintf(" + add and subtract\n"); cPrintf(" a assemble\n"); cPrintf(" u unassemble\n"); cPrintf(" b set/reset breakpoint\n"); cPrintf(" c continue from breakpoint\n"); cPrintf(" s single-step\n"); cPrintf(" # show/set PC\n"); cPrintf(" p show/set PSW\n"); cPrintf(" r show/set register\n"); cPrintf(" d dump memory\n"); cPrintf(" mw show/set memory word\n"); cPrintf(" mh show/set memory halfword\n"); cPrintf(" mb show/set memory byte\n"); cPrintf(" t show/set TLB contents\n"); cPrintf(" i initialize hardware\n"); cPrintf(" q quit simulator\n"); cPrintf("type 'help <cmd>' to get help for <cmd>\n"); } static void help00(void) { cPrintf(" help show a list of commands\n"); cPrintf(" help <cmd> show help for <cmd>\n"); } static void help01(void) { cPrintf(" + <num1> <num2> add and subtract <num1> and <num2>\n"); } static void help02(void) { cPrintf(" a assemble starting at PC\n"); cPrintf(" a <addr> assemble starting at <addr>\n"); } static void help03(void) { cPrintf(" u unassemble 16 instrs starting at PC\n"); cPrintf(" u <addr> unassemble 16 instrs starting at <addr>\n"); cPrintf(" u <addr> <cnt> unassemble <cnt> instrs starting at <addr>\n"); } static void help04(void) { cPrintf(" b reset break\n"); cPrintf(" b <addr> set break at <addr>\n"); } static void help05(void) { cPrintf(" c continue execution\n"); cPrintf(" c <cnt> continue execution <cnt> times\n"); } static void help06(void) { cPrintf(" s single-step one instruction\n"); cPrintf(" s <cnt> single-step <cnt> instructions\n"); } static void help07(void) { cPrintf(" # show PC\n"); cPrintf(" # <addr> set PC to <addr>\n"); } static void help08(void) { cPrintf(" p show PSW\n"); cPrintf(" p <data> set PSW to <data>\n"); } static void help09(void) { cPrintf(" r show all registers\n"); cPrintf(" r <reg> show register <reg>\n"); cPrintf(" r <reg> <data> set register <reg> to <data>\n"); } static void help10(void) { cPrintf(" d dump 256 bytes starting at PC\n"); cPrintf(" d <addr> dump 256 bytes starting at <addr>\n"); cPrintf(" d <addr> <cnt> dump <cnt> bytes starting at <addr>\n"); } static void help11(void) { cPrintf(" mw show memory word at PC\n"); cPrintf(" mw <addr> show memory word at <addr>\n"); cPrintf(" mw <addr> <data> set memory word at <addr> to <data>\n"); } static void help12(void) { cPrintf(" mh show memory halfword at PC\n"); cPrintf(" mh <addr> show memory halfword at <addr>\n"); cPrintf(" mh <addr> <data> set memory halfword at <addr> to <data>\n"); } static void help13(void) { cPrintf(" mb show memory byte at PC\n"); cPrintf(" mb <addr> show memory byte at <addr>\n"); cPrintf(" mb <addr> <data> set memory byte at <addr> to <data>\n"); } static void help14(void) { cPrintf(" t show TLB contents\n"); cPrintf(" t <i> show TLB contents at <i>\n"); cPrintf(" t <i> p <data> set TLB contents at <i> to page <data>\n"); cPrintf(" t <i> f <data> set TLB contents at <i> to frame <data>\n"); } static void help15(void) { cPrintf(" i initialize hardware\n"); } static void help16(void) { cPrintf(" q quit simulator\n"); } static char *cause[32] = { /* 0 */ "serial line 0 xmt interrupt", /* 1 */ "serial line 0 rcv interrupt", /* 2 */ "serial line 1 xmt interrupt", /* 3 */ "serial line 1 rcv interrupt", /* 4 */ "keyboard interrupt", /* 5 */ "unknown interrupt", /* 6 */ "unknown interrupt", /* 7 */ "unknown interrupt", /* 8 */ "disk interrupt", /* 9 */ "unknown interrupt", /* 10 */ "unknown interrupt", /* 11 */ "unknown interrupt", /* 12 */ "unknown interrupt", /* 13 */ "unknown interrupt", /* 14 */ "timer 0 interrupt", /* 15 */ "timer 1 interrupt", /* 16 */ "bus timeout exception", /* 17 */ "illegal instruction exception", /* 18 */ "privileged instruction exception", /* 19 */ "divide instruction exception", /* 20 */ "trap instruction exception", /* 21 */ "TLB miss exception", /* 22 */ "TLB write exception", /* 23 */ "TLB invalid exception", /* 24 */ "illegal address exception", /* 25 */ "privileged address exception", /* 26 */ "unknown exception", /* 27 */ "unknown exception", /* 28 */ "unknown exception", /* 29 */ "unknown exception", /* 30 */ "unknown exception", /* 31 */ "unknown exception" }; static char *exceptionToString(int exception) { if (exception < 0 || exception >= sizeof(cause)/sizeof(cause[0])) { error("exception number out of bounds"); } return cause[exception]; } static Bool getHexNumber(char *str, Word *valptr) { char *end; *valptr = strtoul(str, &end, 16); return *end == '\0'; } static Bool getDecNumber(char *str, int *valptr) { char *end; *valptr = strtoul(str, &end, 10); return *end == '\0'; } static void showPC(void) { Word pc, psw; Word instr; pc = cpuGetPC(); psw = cpuGetPSW(); instr = mmuReadWord(pc, psw & PSW_UM); cPrintf("PC %08X [PC] %08X %s\n", pc, instr, disasm(instr, pc)); } static void showBreakAndTotal(void) { Word brk; Word tot; brk = cpuGetBreak(); tot = cpuGetTotal(); cPrintf("Brk "); if (cpuTestBreak()) { cPrintf("%08X", brk); } else { cPrintf("--------"); } cPrintf(" Total %08X instructions\n", tot); } static void showIRQ(void) { Word irq; int i; irq = cpuGetIRQ(); cPrintf("IRQ "); for (i = 15; i >= 0; i--) { cPrintf("%c", irq & (1 << i) ? '1' : '0'); } cPrintf("\n"); } static void showPSW(void) { Word psw; int i; psw = cpuGetPSW(); cPrintf(" xxxx V UPO IPO IACK MASK\n"); cPrintf("PSW "); for (i = 31; i >= 0; i--) { if (i == 27 || i == 26 || i == 23 || i == 20 || i == 15) { cPrintf(" "); } cPrintf("%c", psw & (1 << i) ? '1' : '0'); } cPrintf("\n"); } static void doHelp(char *tokens[], int n) { int i; if (n == 1) { help(); } else if (n == 2) { for (i = 0; i < numCommands; i++) { if (strcmp(commands[i].name, tokens[1]) == 0) { (*commands[i].hlpProc)(); return; } } cPrintf("no help available for '%s', sorry\n", tokens[1]); } else { help00(); } } static void doArith(char *tokens[], int n) { Word num1, num2, num3, num4; if (n == 3) { if (!getHexNumber(tokens[1], &num1)) { cPrintf("illegal first number\n"); return; } if (!getHexNumber(tokens[2], &num2)) { cPrintf("illegal second number\n"); return; } num3 = num1 + num2; num4 = num1 - num2; cPrintf("add = %08X, sub = %08X\n", num3, num4); } else { help01(); } } static void doAssemble(char *tokens[], int n) { Word addr; Word psw; char prompt[30]; char *line; char *msg; Word instr; if (n == 1) { addr = cpuGetPC(); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } } else { help02(); return; } addr &= ~0x00000003; psw = cpuGetPSW(); while (1) { sprintf(prompt, "ASM # %08X: ", addr); line = cGetLine(prompt); if (*line == '\0' || *line == '\n') { break; } cAddHist(line); msg = asmInstr(line, addr, &instr); if (msg != NULL) { cPrintf("%s\n", msg); } else { mmuWriteWord(addr, instr, psw & PSW_UM); addr += 4; } } } static void doUnassemble(char *tokens[], int n) { Word addr, count; Word psw; int i; Word instr; if (n == 1) { addr = cpuGetPC(); count = 16; } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } count = 16; } else if (n == 3) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } if (!getHexNumber(tokens[2], &count)) { cPrintf("illegal count\n"); return; } if (count == 0) { return; } } else { help03(); return; } addr &= ~0x00000003; psw = cpuGetPSW(); for (i = 0; i < count; i++) { instr = mmuReadWord(addr, psw & PSW_UM); cPrintf("%08X: %08X %s\n", addr, instr, disasm(instr, addr)); if (addr + 4 < addr) { /* wrap-around */ break; } addr += 4; } } static void doBreak(char *tokens[], int n) { Word addr; if (n == 1) { cpuResetBreak(); showBreakAndTotal(); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } addr &= ~0x00000003; cpuSetBreak(addr); showBreakAndTotal(); } else { help04(); } } static void doContinue(char *tokens[], int n) { Word count, i; Word addr; if (n == 1) { count = 1; } else if (n == 2) { if (!getHexNumber(tokens[1], &count) || count == 0) { cPrintf("illegal count\n"); return; } } else { help05(); return; } cPrintf("CPU is running, press ^C to interrupt...\n"); for (i = 0; i < count; i++) { cpuRun(); } addr = cpuGetPC(); cPrintf("Break at %08X\n", addr); showPC(); } static void doStep(char *tokens[], int n) { Word count, i; if (n == 1) { count = 1; } else if (n == 2) { if (!getHexNumber(tokens[1], &count) || count == 0) { cPrintf("illegal count\n"); return; } } else { help06(); return; } for (i = 0; i < count; i++) { cpuStep(); } showPC(); } static void doPC(char *tokens[], int n) { Word addr; if (n == 1) { showPC(); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } addr &= ~0x00000003; cpuSetPC(addr); showPC(); } else { help07(); } } static void explainPSW(Word data) { int i; cPrintf("interrupt vector : %s (%s)\n", data & PSW_V ? "on " : "off", data & PSW_V ? "RAM" : "ROM"); cPrintf("current user mode : %s (%s)\n", data & PSW_UM ? "on " : "off", data & PSW_UM ? "user" : "kernel"); cPrintf("previous user mode : %s (%s)\n", data & PSW_PUM ? "on " : "off", data & PSW_PUM ? "user" : "kernel"); cPrintf("old user mode : %s (%s)\n", data & PSW_OUM ? "on " : "off", data & PSW_OUM ? "user" : "kernel"); cPrintf("current interrupt enable : %s (%s)\n", data & PSW_IE ? "on " : "off", data & PSW_IE ? "enabled" : "disabled"); cPrintf("previous interrupt enable : %s (%s)\n", data & PSW_PIE ? "on " : "off", data & PSW_PIE ? "enabled" : "disabled"); cPrintf("old interrupt enable : %s (%s)\n", data & PSW_OIE ? "on " : "off", data & PSW_OIE ? "enabled" : "disabled"); cPrintf("last interrupt acknowledged : %02X (%s)\n", (data & PSW_PRIO_MASK) >> 16, exceptionToString((data & PSW_PRIO_MASK) >> 16)); for (i = 15; i >= 0; i--) { cPrintf("%-35s: %s (%s)\n", exceptionToString(i), data & (1 << i) ? "on " : "off", data & (1 << i) ? "enabled" : "disabled"); } } static void doPSW(char *tokens[], int n) { Word data; if (n == 1) { data = cpuGetPSW(); showPSW(); showIRQ(); explainPSW(data); } else if (n == 2) { if (!getHexNumber(tokens[1], &data)) { cPrintf("illegal data\n"); return; } data &= 0x0FFFFFFF; cpuSetPSW(data); showPSW(); showIRQ(); explainPSW(data); } else { help08(); } } static void doRegister(char *tokens[], int n) { int i, j; int reg; Word data; if (n == 1) { for (i = 0; i < 8; i++) { for (j = 0; j < 4; j++) { reg = 8 * j + i; data = cpuGetReg(reg); cPrintf("$%-2d %08X ", reg, data); } cPrintf("\n"); } showPSW(); showIRQ(); showBreakAndTotal(); showPC(); } else if (n == 2) { if (!getDecNumber(tokens[1], ®) || reg < 0 || reg >= 32) { cPrintf("illegal register number\n"); return; } data = cpuGetReg(reg); cPrintf("$%-2d %08X\n", reg, data); } else if (n == 3) { if (!getDecNumber(tokens[1], ®) || reg < 0 || reg >= 32) { cPrintf("illegal register number\n"); return; } if (!getHexNumber(tokens[2], &data)) { cPrintf("illegal data\n"); return; } cpuSetReg(reg, data); } else { help09(); } } static void doDump(char *tokens[], int n) { Word addr, count; Word psw; Word lo, hi, curr; int lines, i, j; Word tmp; Byte c; if (n == 1) { addr = cpuGetPC(); count = 16 * 16; } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } count = 16 * 16; } else if (n == 3) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } if (!getHexNumber(tokens[2], &count)) { cPrintf("illegal count\n"); return; } if (count == 0) { return; } } else { help10(); return; } psw = cpuGetPSW(); lo = addr & ~0x0000000F; hi = addr + count - 1; if (hi < lo) { /* wrap-around */ hi = 0xFFFFFFFF; } lines = (hi - lo + 16) >> 4; curr = lo; for (i = 0; i < lines; i++) { cPrintf("%08X: ", curr); for (j = 0; j < 16; j++) { tmp = curr + j; if (tmp < addr || tmp > hi) { cPrintf(" "); } else { c = mmuReadByte(tmp, psw & PSW_UM); cPrintf("%02X", c); } cPrintf(" "); } cPrintf(" "); for (j = 0; j < 16; j++) { tmp = curr + j; if (tmp < addr || tmp > hi) { cPrintf(" "); } else { c = mmuReadByte(tmp, psw & PSW_UM); if (c >= 32 && c <= 126) { cPrintf("%c", c); } else { cPrintf("."); } } } cPrintf("\n"); curr += 16; } } static void doMemoryWord(char *tokens[], int n) { Word psw; Word addr; Word data; Word tmpData; psw = cpuGetPSW(); if (n == 1) { addr = cpuGetPC(); data = mmuReadWord(addr, psw & PSW_UM); cPrintf("%08X: %08X\n", addr, data); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } data = mmuReadWord(addr, psw & PSW_UM); cPrintf("%08X: %08X\n", addr, data); } else if (n == 3) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } if (!getHexNumber(tokens[2], &tmpData)) { cPrintf("illegal data\n"); return; } data = tmpData; mmuWriteWord(addr, data, psw & PSW_UM); } else { help11(); } } static void doMemoryHalf(char *tokens[], int n) { Word psw; Word addr; Half data; Word tmpData; psw = cpuGetPSW(); if (n == 1) { addr = cpuGetPC(); data = mmuReadHalf(addr, psw & PSW_UM); cPrintf("%08X: %04X\n", addr, data); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } data = mmuReadHalf(addr, psw & PSW_UM); cPrintf("%08X: %04X\n", addr, data); } else if (n == 3) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } if (!getHexNumber(tokens[2], &tmpData)) { cPrintf("illegal data\n"); return; } data = (Half) tmpData; mmuWriteHalf(addr, data, psw & PSW_UM); } else { help12(); } } static void doMemoryByte(char *tokens[], int n) { Word psw; Word addr; Byte data; Word tmpData; psw = cpuGetPSW(); if (n == 1) { addr = cpuGetPC(); data = mmuReadByte(addr, psw & PSW_UM); cPrintf("%08X: %02X\n", addr, data); } else if (n == 2) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } data = mmuReadByte(addr, psw & PSW_UM); cPrintf("%08X: %02X\n", addr, data); } else if (n == 3) { if (!getHexNumber(tokens[1], &addr)) { cPrintf("illegal address\n"); return; } if (!getHexNumber(tokens[2], &tmpData)) { cPrintf("illegal data\n"); return; } data = (Byte) tmpData; mmuWriteByte(addr, data, psw & PSW_UM); } else { help13(); } } static void doTLB(char *tokens[], int n) { int index; TLB_Entry tlbEntry; Word data; if (n == 1) { for (index = 0; index < TLB_SIZE; index++) { tlbEntry = mmuGetTLB(index); cPrintf("TLB[%02d] page %08X frame %08X %c %c\n", index, tlbEntry.page, tlbEntry.frame, tlbEntry.write ? 'w' : '-', tlbEntry.valid ? 'v' : '-'); } cPrintf("Index(1) %08X\n", mmuGetIndex()); cPrintf("EntryHi(2) %08X\n", mmuGetEntryHi()); cPrintf("EntryLo(3) %08X\n", mmuGetEntryLo()); cPrintf("BadAddr(4) %08X\n", mmuGetBadAddr()); } else if (n == 2) { if (!getDecNumber(tokens[1], &index) || index < 0 || index >= TLB_SIZE) { cPrintf("illegal TLB index\n"); return; } tlbEntry = mmuGetTLB(index); cPrintf("TLB[%02d] page %08X frame %08X %c %c\n", index, tlbEntry.page, tlbEntry.frame, tlbEntry.write ? 'w' : '-', tlbEntry.valid ? 'v' : '-'); } else if (n == 3) { help14(); } else if (n == 4) { if (!getDecNumber(tokens[1], &index) || index < 0 || index >= TLB_SIZE) { cPrintf("illegal TLB index\n"); return; } if (!getHexNumber(tokens[3], &data)) { cPrintf("illegal data\n"); return; } tlbEntry = mmuGetTLB(index); if (strcmp(tokens[2], "p") == 0) { tlbEntry.page = data & PAGE_MASK; } else if (strcmp(tokens[2], "f") == 0) { tlbEntry.frame = data & PAGE_MASK; tlbEntry.write = data & TLB_WRITE ? true : false; tlbEntry.valid = data & TLB_VALID ? true : false; } else { cPrintf("TLB selector is not one of 'p' or 'f'\n"); return; } mmuSetTLB(index, tlbEntry); cPrintf("TLB[%02d] page %08X frame %08X %c %c\n", index, tlbEntry.page, tlbEntry.frame, tlbEntry.write ? 'w' : '-', tlbEntry.valid ? 'v' : '-'); } else { help14(); } } static void doInit(char *tokens[], int n) { if (n == 1) { timerReset(); displayReset(); keyboardReset(); termReset(); diskReset(); outputReset(); shutdownReset(); graphReset(); memoryReset(); mmuReset(); cpuReset(); } else { help15(); } } static void doQuit(char *tokens[], int n) { if (n == 1) { quit = true; } else { help16(); } } Command commands[] = { { "help", help00, doHelp }, { "+", help01, doArith }, { "a", help02, doAssemble }, { "u", help03, doUnassemble }, { "b", help04, doBreak }, { "c", help05, doContinue }, { "s", help06, doStep }, { "#", help07, doPC }, { "p", help08, doPSW }, { "r", help09, doRegister }, { "d", help10, doDump }, { "mw", help11, doMemoryWord }, { "mh", help12, doMemoryHalf }, { "mb", help13, doMemoryByte }, { "t", help14, doTLB }, { "i", help15, doInit }, { "q", help16, doQuit }, }; int numCommands = sizeof(commands) / sizeof(commands[0]); static Bool doCommand(char *line) { char *tokens[MAX_TOKENS]; int n; char *p; int i; n = 0; p = strtok(line, " \t\n"); while (p != NULL) { if (n == MAX_TOKENS) { cPrintf("too many tokens on line\n"); return false; } tokens[n++] = p; p = strtok(NULL, " \t\n"); } if (n == 0) { return false; } quit = false; for (i = 0; i < sizeof(commands)/sizeof(commands[0]); i++) { if (strcmp(commands[i].name, tokens[0]) == 0) { (*commands[i].cmdProc)(tokens, n); return quit; } } help(); return false; } static char *article(char firstLetterOfNoun) { switch (firstLetterOfNoun) { case 'a': case 'e': case 'i': case 'o': case 'u': return "An"; default: return "A"; } } static void interactiveException(int exception) { char *what; what = exceptionToString(exception); cPrintf("\n"); cPrintf("NOTE: %s %s occurred while executing the command.\n", article(*what), what); cPrintf(" This event will not alter the state of the CPU.\n"); } Bool execCommand(char *line) { jmp_buf myEnvironment; int exception; Bool quit; exception = setjmp(myEnvironment); if (exception == 0) { /* initialization */ pushEnvironment(&myEnvironment); quit = doCommand(line); } else { /* an exception was thrown */ interactiveException(exception); quit = false; } popEnvironment(); return quit; }
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