/** $Id: DBGConsole.cpp 9838 2008-06-20 09:06:35Z vboxsync $ */ /** @file * DBGC - Debugger Console. */ /* * Copyright (C) 2006-2007 Sun Microsystems, Inc. * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa * Clara, CA 95054 USA or visit http://www.sun.com if you need * additional information or have any questions. */ /** @page pg_dbgc DBGC - The Debug Console * * The debugger console is an early attempt to make some interactive * debugging facilities for the VirtualBox VMM. It was initially only * accessible thru a telnet session on debug builds. Later it was hastily * built into the VBoxDbg module with a very simple Qt wrapper around it. * * The debugger is optional and presently not built into release builds * of VirtualBox. It is therefore necessary to enclose code related to it * in \#ifdef VBOX_WITH_DEBUGGER blocks. This is mandatory for components * that register extenral commands. * * * @section sec_dbgc_op Operation (intentions) * * The console will process commands in a manner similar to the OS/2 and * windows kernel debuggers. This means ';' is a command separator and * that when possible we'll use the same command names as these two uses. * * * @subsection sec_dbg_op_numbers Numbers * * Numbers are hexadecimal unless specified with a prefix indicating * elsewise. Prefixes: * - '0x' - hexadecimal. * - '0i' - decimal * - '0t' - octal. * - '0y' - binary. * * Some of the prefixes are a bit uncommon, the reason for this that * the typical binary prefix '0b' can also be a hexadecimal value since * no prefix or suffix is required for such values. Ditto for '0d' and * '0' for decimal and octal. * * * @subsection sec_dbg_op_address Addressing modes * * - Default is flat. For compatability '%' also means flat. * - Segmented addresses are specified selector:offset. * - Physical addresses are specified using '%%'. * - The default target for the addressing is the guest context, the '#' * will override this and set it to the host. * Note that several operations won't work on host addresses. * * The '%', '%%' and '#' prefixes is implemented as unary operators, while ':' * is a binary operator. Operator precedence takes care of evaluation order. * * * @subsection sec_dbg_op_evalution Evaluation * * Most unary and binary C operators are supported, check the help text for * details. However, some of these are not yet implemented because this is * tiresome and annoying work. So, if something is missing and you need it * you implement it or complain to bird. (Ditto for missing functions.) * * Simple variable support is provided thru the 'set' and 'unset' commands and * the unary '$' operator. * * The unary '@' operator will indicate function calls. Commands and functions * are the same thing, except that functions has a return type. * * * @subsection sec_dbg_op_registers Registers * * Registers are addressed using their name. Some registers which have several fields * (like gdtr) will have separate names indicating the different fields. The default * register set is the guest one. To access the hypervisor register one have to * prefix the register names with '.'. * * The registers are implemented as built-in symbols. For making gdb guys more at * home it is possible to access them with the '$' operator, i.e. as a variable. * * * @subsection sec_dbg_op_commands Commands and Functions * * Commands and functions are the same thing, except that functions may return a * value. So, functions may be used as commands. The command/function handlers * can detect whether they are invoked as a command or function by checking whether * there is a return variable or not. * * The command/function names are all lowercase, case sensitive, and starting * with a letter. Operator characters are not permitted in the names of course. * Space is allowed, but must be flagged so the parser can check for multiple * spaces and tabs. (This feature is for 'dump xyz' and for emulating the * gdb 'info abc'.) * * The '.' prefix indicates the set of external commands. External commands are * command registered by VMM components. * * * @section sec_dbgc_logging Logging * * The idea is to be able to pass thru debug and release logs to the console * if the user so wishes. This feature requires some kind of hook into the * logger instance and while this was sketched it hasn't yet been implemented * (dbgcProcessLog and DBGC::fLog). * * * * @section sec_dbgc_linking Linking and API * * The DBGC code is linked into the VBoxVMM module. (At present it is also * linked into VBoxDbg, but this is obviously very wrong.) * * A COM object will be created for the DBGC so it can be operated remotely * without using TCP. VBoxDbg is the intended audience for this usage. Some * questions about callbacks (for output) and security (you may wish to * restrict users from debugging a VM) needs to be answered first though. */ /******************************************************************************* * Header Files * *******************************************************************************/ #define LOG_GROUP LOG_GROUP_DBGC #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "DBGCInternal.h" #include "DBGPlugIns.h" /******************************************************************************* * Global Variables * *******************************************************************************/ /** Bitmap where set bits indicates the characters the may start an operator name. */ static uint32_t g_bmOperatorChars[256 / (4*8)]; /******************************************************************************* * Internal Functions * *******************************************************************************/ static int dbgcProcessLog(PDBGC pDbgc); /** * Initalizes g_bmOperatorChars. */ static void dbgcInitOpCharBitMap(void) { memset(g_bmOperatorChars, 0, sizeof(g_bmOperatorChars)); for (unsigned iOp = 0; iOp < g_cOps; iOp++) ASMBitSet(&g_bmOperatorChars[0], (uint8_t)g_aOps[iOp].szName[0]); } /** * Checks whether the character may be the start of an operator. * * @returns true/false. * @param ch The character. */ DECLINLINE(bool) dbgcIsOpChar(char ch) { return ASMBitTest(&g_bmOperatorChars[0], (uint8_t)ch); } /** * Resolves a symbol (or tries to do so at least). * * @returns 0 on success. * @returns VBox status on failure. * @param pDbgc The debug console instance. * @param pszSymbol The symbol name. * @param enmType The result type. * @param pResult Where to store the result. */ int dbgcSymbolGet(PDBGC pDbgc, const char *pszSymbol, DBGCVARTYPE enmType, PDBGCVAR pResult) { /* * Builtin? */ PCDBGCSYM pSymDesc = dbgcLookupRegisterSymbol(pDbgc, pszSymbol); if (pSymDesc) { if (!pSymDesc->pfnGet) return VERR_PARSE_WRITEONLY_SYMBOL; return pSymDesc->pfnGet(pSymDesc, &pDbgc->CmdHlp, enmType, pResult); } /* * Ask PDM. */ /** @todo resolve symbols using PDM. */ /* * Ask the debug info manager. */ DBGFSYMBOL Symbol; int rc = DBGFR3SymbolByName(pDbgc->pVM, pszSymbol, &Symbol); if (VBOX_SUCCESS(rc)) { /* * Default return is a flat gc address. */ memset(pResult, 0, sizeof(*pResult)); pResult->enmRangeType = Symbol.cb ? DBGCVAR_RANGE_BYTES : DBGCVAR_RANGE_NONE; pResult->u64Range = Symbol.cb; pResult->enmType = DBGCVAR_TYPE_GC_FLAT; pResult->u.GCFlat = Symbol.Value; DBGCVAR VarTmp; switch (enmType) { /* nothing to do. */ case DBGCVAR_TYPE_GC_FLAT: case DBGCVAR_TYPE_GC_FAR: case DBGCVAR_TYPE_ANY: return VINF_SUCCESS; /* simply make it numeric. */ case DBGCVAR_TYPE_NUMBER: pResult->enmType = DBGCVAR_TYPE_NUMBER; pResult->u.u64Number = Symbol.Value; return VINF_SUCCESS; /* cast it. */ case DBGCVAR_TYPE_GC_PHYS: VarTmp = *pResult; return dbgcOpAddrPhys(pDbgc, &VarTmp, pResult); case DBGCVAR_TYPE_HC_FAR: case DBGCVAR_TYPE_HC_FLAT: VarTmp = *pResult; return dbgcOpAddrHost(pDbgc, &VarTmp, pResult); case DBGCVAR_TYPE_HC_PHYS: VarTmp = *pResult; return dbgcOpAddrHostPhys(pDbgc, &VarTmp, pResult); default: AssertMsgFailed(("Internal error enmType=%d\n", enmType)); return VERR_INVALID_PARAMETER; } } return VERR_PARSE_NOT_IMPLEMENTED; } static int dbgcEvalSubString(PDBGC pDbgc, char *pszExpr, size_t cchExpr, PDBGCVAR pArg) { Log2(("dbgcEvalSubString: cchExpr=%d pszExpr=%s\n", cchExpr, pszExpr)); /* * Removing any quoting and escapings. */ char ch = *pszExpr; if (ch == '"' || ch == '\'' || ch == '`') { if (pszExpr[--cchExpr] != ch) return VERR_PARSE_UNBALANCED_QUOTE; cchExpr--; pszExpr++; /** @todo string unescaping. */ } pszExpr[cchExpr] = '\0'; /* * Make the argument. */ pArg->pDesc = NULL; pArg->pNext = NULL; pArg->enmType = DBGCVAR_TYPE_STRING; pArg->u.pszString = pszExpr; pArg->enmRangeType = DBGCVAR_RANGE_BYTES; pArg->u64Range = cchExpr; NOREF(pDbgc); return 0; } static int dbgcEvalSubNum(char *pszExpr, unsigned uBase, PDBGCVAR pArg) { Log2(("dbgcEvalSubNum: uBase=%d pszExpr=%s\n", uBase, pszExpr)); /* * Convert to number. */ uint64_t u64 = 0; char ch; while ((ch = *pszExpr) != '\0') { uint64_t u64Prev = u64; unsigned u = ch - '0'; if (u < 10 && u < uBase) u64 = u64 * uBase + u; else if (ch >= 'a' && (u = ch - ('a' - 10)) < uBase) u64 = u64 * uBase + u; else if (ch >= 'A' && (u = ch - ('A' - 10)) < uBase) u64 = u64 * uBase + u; else return VERR_PARSE_INVALID_NUMBER; /* check for overflow - ARG!!! How to detect overflow correctly!?!?!? */ if (u64Prev != u64 / uBase) return VERR_PARSE_NUMBER_TOO_BIG; /* next */ pszExpr++; } /* * Initialize the argument. */ pArg->pDesc = NULL; pArg->pNext = NULL; pArg->enmType = DBGCVAR_TYPE_NUMBER; pArg->u.u64Number = u64; pArg->enmRangeType = DBGCVAR_RANGE_NONE; pArg->u64Range = 0; return 0; } /** * Match variable and variable descriptor, promoting the variable if necessary. * * @returns VBox status code. * @param pDbgc Debug console instanace. * @param pVar Variable. * @param pVarDesc Variable descriptor. */ static int dbgcEvalSubMatchVar(PDBGC pDbgc, PDBGCVAR pVar, PCDBGCVARDESC pVarDesc) { /* * (If match or promoted to match, return, else break.) */ switch (pVarDesc->enmCategory) { /* * Anything goes */ case DBGCVAR_CAT_ANY: return VINF_SUCCESS; /* * Pointer with and without range. * We can try resolve strings and symbols as symbols and * promote numbers to flat GC pointers. */ case DBGCVAR_CAT_POINTER_NO_RANGE: if (pVar->enmRangeType != DBGCVAR_RANGE_NONE) return VERR_PARSE_NO_RANGE_ALLOWED; /* fallthru */ case DBGCVAR_CAT_POINTER: switch (pVar->enmType) { case DBGCVAR_TYPE_GC_FLAT: case DBGCVAR_TYPE_GC_FAR: case DBGCVAR_TYPE_GC_PHYS: case DBGCVAR_TYPE_HC_FLAT: case DBGCVAR_TYPE_HC_FAR: case DBGCVAR_TYPE_HC_PHYS: return VINF_SUCCESS; case DBGCVAR_TYPE_SYMBOL: case DBGCVAR_TYPE_STRING: { DBGCVAR Var; int rc = dbgcSymbolGet(pDbgc, pVar->u.pszString, DBGCVAR_TYPE_GC_FLAT, &Var); if (VBOX_SUCCESS(rc)) { /* deal with range */ if (pVar->enmRangeType != DBGCVAR_RANGE_NONE) { Var.enmRangeType = pVar->enmRangeType; Var.u64Range = pVar->u64Range; } else if (pVarDesc->enmCategory == DBGCVAR_CAT_POINTER_NO_RANGE) Var.enmRangeType = DBGCVAR_RANGE_NONE; *pVar = Var; return rc; } break; } case DBGCVAR_TYPE_NUMBER: { RTGCPTR GCPtr = (RTGCPTR)pVar->u.u64Number; pVar->enmType = DBGCVAR_TYPE_GC_FLAT; pVar->u.GCFlat = GCPtr; return VINF_SUCCESS; } default: break; } break; /* * GC pointer with and without range. * We can try resolve strings and symbols as symbols and * promote numbers to flat GC pointers. */ case DBGCVAR_CAT_GC_POINTER_NO_RANGE: if (pVar->enmRangeType != DBGCVAR_RANGE_NONE) return VERR_PARSE_NO_RANGE_ALLOWED; /* fallthru */ case DBGCVAR_CAT_GC_POINTER: switch (pVar->enmType) { case DBGCVAR_TYPE_GC_FLAT: case DBGCVAR_TYPE_GC_FAR: case DBGCVAR_TYPE_GC_PHYS: return VINF_SUCCESS; case DBGCVAR_TYPE_HC_FLAT: case DBGCVAR_TYPE_HC_FAR: case DBGCVAR_TYPE_HC_PHYS: return VERR_PARSE_CONVERSION_FAILED; case DBGCVAR_TYPE_SYMBOL: case DBGCVAR_TYPE_STRING: { DBGCVAR Var; int rc = dbgcSymbolGet(pDbgc, pVar->u.pszString, DBGCVAR_TYPE_GC_FLAT, &Var); if (VBOX_SUCCESS(rc)) { /* deal with range */ if (pVar->enmRangeType != DBGCVAR_RANGE_NONE) { Var.enmRangeType = pVar->enmRangeType; Var.u64Range = pVar->u64Range; } else if (pVarDesc->enmCategory == DBGCVAR_CAT_POINTER_NO_RANGE) Var.enmRangeType = DBGCVAR_RANGE_NONE; *pVar = Var; return rc; } break; } case DBGCVAR_TYPE_NUMBER: { RTGCPTR GCPtr = (RTGCPTR)pVar->u.u64Number; pVar->enmType = DBGCVAR_TYPE_GC_FLAT; pVar->u.GCFlat = GCPtr; return VINF_SUCCESS; } default: break; } break; /* * Number with or without a range. * Numbers can be resolved from symbols, but we cannot demote a pointer * to a number. */ case DBGCVAR_CAT_NUMBER_NO_RANGE: if (pVar->enmRangeType != DBGCVAR_RANGE_NONE) return VERR_PARSE_NO_RANGE_ALLOWED; /* fallthru */ case DBGCVAR_CAT_NUMBER: switch (pVar->enmType) { case DBGCVAR_TYPE_NUMBER: return VINF_SUCCESS; case DBGCVAR_TYPE_SYMBOL: case DBGCVAR_TYPE_STRING: { DBGCVAR Var; int rc = dbgcSymbolGet(pDbgc, pVar->u.pszString, DBGCVAR_TYPE_NUMBER, &Var); if (VBOX_SUCCESS(rc)) { *pVar = Var; return rc; } break; } default: break; } break; /* * Strings can easily be made from symbols (and of course strings). * We could consider reformatting the addresses and numbers into strings later... */ case DBGCVAR_CAT_STRING: switch (pVar->enmType) { case DBGCVAR_TYPE_SYMBOL: pVar->enmType = DBGCVAR_TYPE_STRING; /* fallthru */ case DBGCVAR_TYPE_STRING: return VINF_SUCCESS; default: break; } break; /* * Symol is pretty much the same thing as a string (at least until we actually implement it). */ case DBGCVAR_CAT_SYMBOL: switch (pVar->enmType) { case DBGCVAR_TYPE_STRING: pVar->enmType = DBGCVAR_TYPE_SYMBOL; /* fallthru */ case DBGCVAR_TYPE_SYMBOL: return VINF_SUCCESS; default: break; } break; /* * Anything else is illegal. */ default: AssertMsgFailed(("enmCategory=%d\n", pVar->enmType)); break; } return VERR_PARSE_NO_ARGUMENT_MATCH; } /** * Matches a set of variables with a description set. * * This is typically used for routine arguments before a call. The effects in * addition to the validation, is that some variables might be propagated to * other types in order to match the description. The following transformations * are supported: * - String reinterpreted as a symbol and resolved to a number or pointer. * - Number to a pointer. * - Pointer to a number. * @returns 0 on success with paVars. * @returns VBox error code for match errors. */ static int dbgcEvalSubMatchVars(PDBGC pDbgc, unsigned cVarsMin, unsigned cVarsMax, PCDBGCVARDESC paVarDescs, unsigned cVarDescs, PDBGCVAR paVars, unsigned cVars) { /* * Just do basic min / max checks first. */ if (cVars < cVarsMin) return VERR_PARSE_TOO_FEW_ARGUMENTS; if (cVars > cVarsMax) return VERR_PARSE_TOO_MANY_ARGUMENTS; /* * Match the descriptors and actual variables. */ PCDBGCVARDESC pPrevDesc = NULL; unsigned cCurDesc = 0; unsigned iVar = 0; unsigned iVarDesc = 0; while (iVar < cVars) { /* walk the descriptors */ if (iVarDesc >= cVarDescs) return VERR_PARSE_TOO_MANY_ARGUMENTS; if ( ( paVarDescs[iVarDesc].fFlags & DBGCVD_FLAGS_DEP_PREV && &paVarDescs[iVarDesc - 1] != pPrevDesc) || cCurDesc >= paVarDescs[iVarDesc].cTimesMax) { iVarDesc++; if (iVarDesc >= cVarDescs) return VERR_PARSE_TOO_MANY_ARGUMENTS; cCurDesc = 0; } /* * Skip thru optional arguments until we find something which matches * or can easily be promoted to what the descriptor want. */ for (;;) { int rc = dbgcEvalSubMatchVar(pDbgc, &paVars[iVar], &paVarDescs[iVarDesc]); if (VBOX_SUCCESS(rc)) { paVars[iVar].pDesc = &paVarDescs[iVarDesc]; cCurDesc++; break; } /* can we advance? */ if (paVarDescs[iVarDesc].cTimesMin > cCurDesc) return VERR_PARSE_ARGUMENT_TYPE_MISMATCH; if (++iVarDesc >= cVarDescs) return VERR_PARSE_ARGUMENT_TYPE_MISMATCH; cCurDesc = 0; } /* next var */ iVar++; } /* * Check that the rest of the descriptors are optional. */ while (iVarDesc < cVarDescs) { if (paVarDescs[iVarDesc].cTimesMin > cCurDesc) return VERR_PARSE_TOO_FEW_ARGUMENTS; cCurDesc = 0; /* next */ iVarDesc++; } return 0; } /** * Evaluates one argument with respect to unary operators. * * @returns 0 on success. pResult contains the result. * @returns VBox error code on parse or other evaluation error. * * @param pDbgc Debugger console instance data. * @param pszExpr The expression string. * @param pResult Where to store the result of the expression evaluation. */ static int dbgcEvalSubUnary(PDBGC pDbgc, char *pszExpr, size_t cchExpr, PDBGCVAR pResult) { Log2(("dbgcEvalSubUnary: cchExpr=%d pszExpr=%s\n", cchExpr, pszExpr)); /* * The state of the expression is now such that it will start by zero or more * unary operators and being followed by an expression of some kind. * The expression is either plain or in parenthesis. * * Being in a lazy, recursive mode today, the parsing is done as simple as possible. :-) * ASSUME: unary operators are all of equal precedence. */ int rc = 0; PCDBGCOP pOp = dbgcOperatorLookup(pDbgc, pszExpr, false, ' '); if (pOp) { /* binary operators means syntax error. */ if (pOp->fBinary) return VERR_PARSE_UNEXPECTED_OPERATOR; /* * If the next expression (the one following the unary operator) is in a * parenthesis a full eval is needed. If not the unary eval will suffice. */ /* calc and strip next expr. */ char *pszExpr2 = pszExpr + pOp->cchName; while (isblank(*pszExpr2)) pszExpr2++; if (!*pszExpr2) rc = VERR_PARSE_EMPTY_ARGUMENT; else { DBGCVAR Arg; if (*pszExpr2 == '(') rc = dbgcEvalSub(pDbgc, pszExpr2, cchExpr - (pszExpr2 - pszExpr), &Arg); else rc = dbgcEvalSubUnary(pDbgc, pszExpr2, cchExpr - (pszExpr2 - pszExpr), &Arg); if (VBOX_SUCCESS(rc)) rc = pOp->pfnHandlerUnary(pDbgc, &Arg, pResult); } } else { /* * Didn't find any operators, so it we have to check if this can be an * function call before assuming numeric or string expression. * * (ASSUMPTIONS:) * A function name only contains alphanumerical chars and it can not start * with a numerical character. * Immediately following the name is a parenthesis which must over * the remaining part of the expression. */ bool fExternal = *pszExpr == '.'; char *pszFun = fExternal ? pszExpr + 1 : pszExpr; char *pszFunEnd = NULL; if (pszExpr[cchExpr - 1] == ')' && isalpha(*pszFun)) { pszFunEnd = pszExpr + 1; while (*pszFunEnd != '(' && isalnum(*pszFunEnd)) pszFunEnd++; if (*pszFunEnd != '(') pszFunEnd = NULL; } if (pszFunEnd) { /* * Ok, it's a function call. */ if (fExternal) pszExpr++, cchExpr--; PCDBGCCMD pFun = dbgcRoutineLookup(pDbgc, pszExpr, pszFunEnd - pszExpr, fExternal); if (!pFun) return VERR_PARSE_FUNCTION_NOT_FOUND; if (!pFun->pResultDesc) return VERR_PARSE_NOT_A_FUNCTION; /* * Parse the expression in parenthesis. */ cchExpr -= pszFunEnd - pszExpr; pszExpr = pszFunEnd; /** @todo implement multiple arguments. */ DBGCVAR Arg; rc = dbgcEvalSub(pDbgc, pszExpr, cchExpr, &Arg); if (!rc) { rc = dbgcEvalSubMatchVars(pDbgc, pFun->cArgsMin, pFun->cArgsMax, pFun->paArgDescs, pFun->cArgDescs, &Arg, 1); if (!rc) rc = pFun->pfnHandler(pFun, &pDbgc->CmdHlp, pDbgc->pVM, &Arg, 1, pResult); } else if (rc == VERR_PARSE_EMPTY_ARGUMENT && pFun->cArgsMin == 0) rc = pFun->pfnHandler(pFun, &pDbgc->CmdHlp, pDbgc->pVM, NULL, 0, pResult); } else { /* * Didn't find any operators, so it must be a plain expression. * This might be numeric or a string expression. */ char ch = pszExpr[0]; char ch2 = pszExpr[1]; if (ch == '0' && (ch2 == 'x' || ch2 == 'X')) rc = dbgcEvalSubNum(pszExpr + 2, 16, pResult); else if (ch == '0' && (ch2 == 'i' || ch2 == 'i')) rc = dbgcEvalSubNum(pszExpr + 2, 10, pResult); else if (ch == '0' && (ch2 == 't' || ch2 == 'T')) rc = dbgcEvalSubNum(pszExpr + 2, 8, pResult); /// @todo 0b doesn't work as a binary prefix, we confuse it with 0bf8:0123 and stuff. //else if (ch == '0' && (ch2 == 'b' || ch2 == 'b')) // rc = dbgcEvalSubNum(pszExpr + 2, 2, pResult); else { /* * Hexadecimal number or a string? */ char *psz = pszExpr; while (isxdigit(*psz)) psz++; if (!*psz) rc = dbgcEvalSubNum(pszExpr, 16, pResult); else if ((*psz == 'h' || *psz == 'H') && !psz[1]) { *psz = '\0'; rc = dbgcEvalSubNum(pszExpr, 16, pResult); } else rc = dbgcEvalSubString(pDbgc, pszExpr, cchExpr, pResult); } } } return rc; } /** * Evaluates one argument. * * @returns 0 on success. pResult contains the result. * @returns VBox error code on parse or other evaluation error. * * @param pDbgc Debugger console instance data. * @param pszExpr The expression string. * @param pResult Where to store the result of the expression evaluation. */ int dbgcEvalSub(PDBGC pDbgc, char *pszExpr, size_t cchExpr, PDBGCVAR pResult) { Log2(("dbgcEvalSub: cchExpr=%d pszExpr=%s\n", cchExpr, pszExpr)); /* * First we need to remove blanks in both ends. * ASSUMES: There is no quoting unless the entire expression is a string. */ /* stripping. */ while (cchExpr > 0 && isblank(pszExpr[cchExpr - 1])) pszExpr[--cchExpr] = '\0'; while (isblank(*pszExpr)) pszExpr++, cchExpr--; if (!*pszExpr) return VERR_PARSE_EMPTY_ARGUMENT; /* it there is any kind of quoting in the expression, it's string meat. */ if (strpbrk(pszExpr, "\"'`")) return dbgcEvalSubString(pDbgc, pszExpr, cchExpr, pResult); /* * Check if there are any parenthesis which needs removing. */ if (pszExpr[0] == '(' && pszExpr[cchExpr - 1] == ')') { do { unsigned cPar = 1; char *psz = pszExpr + 1; char ch; while ((ch = *psz) != '\0') { if (ch == '(') cPar++; else if (ch == ')') { if (cPar <= 0) return VERR_PARSE_UNBALANCED_PARENTHESIS; cPar--; if (cPar == 0 && psz[1]) /* If not at end, there's nothing to do. */ break; } /* next */ psz++; } if (ch) break; /* remove the parenthesis. */ pszExpr++; cchExpr -= 2; pszExpr[cchExpr] = '\0'; /* strip blanks. */ while (cchExpr > 0 && isblank(pszExpr[cchExpr - 1])) pszExpr[--cchExpr] = '\0'; while (isblank(*pszExpr)) pszExpr++, cchExpr--; if (!*pszExpr) return VERR_PARSE_EMPTY_ARGUMENT; } while (pszExpr[0] == '(' && pszExpr[cchExpr - 1] == ')'); } /* tabs to spaces. */ char *psz = pszExpr; while ((psz = strchr(psz, '\t')) != NULL) *psz = ' '; /* * Now, we need to look for the binary operator with the lowest precedence. * * If there are no operators we're left with a simple expression which we * evaluate with respect to unary operators */ char *pszOpSplit = NULL; PCDBGCOP pOpSplit = NULL; unsigned cBinaryOps = 0; unsigned cPar = 0; char ch; char chPrev = ' '; bool fBinary = false; psz = pszExpr; while ((ch = *psz) != '\0') { //Log2(("ch=%c cPar=%d fBinary=%d\n", ch, cPar, fBinary)); /* * Parenthesis. */ if (ch == '(') { cPar++; fBinary = false; } else if (ch == ')') { if (cPar <= 0) return VERR_PARSE_UNBALANCED_PARENTHESIS; cPar--; fBinary = true; } /* * Potential operator. */ else if (cPar == 0 && !isblank(ch)) { PCDBGCOP pOp = dbgcIsOpChar(ch) ? dbgcOperatorLookup(pDbgc, psz, fBinary, chPrev) : NULL; if (pOp) { /* If not the right kind of operator we've got a syntax error. */ if (pOp->fBinary != fBinary) return VERR_PARSE_UNEXPECTED_OPERATOR; /* * Update the parse state and skip the operator. */ if (!pOpSplit) { pOpSplit = pOp; pszOpSplit = psz; cBinaryOps = fBinary; } else if (fBinary) { cBinaryOps++; if (pOp->iPrecedence >= pOpSplit->iPrecedence) { pOpSplit = pOp; pszOpSplit = psz; } } psz += pOp->cchName - 1; fBinary = false; } else fBinary = true; } /* next */ psz++; chPrev = ch; } /* parse loop. */ /* * Either we found an operator to divide the expression by * or we didn't find any. In the first case it's divide and * conquer. In the latter it's a single expression which * needs dealing with its unary operators if any. */ int rc; if ( cBinaryOps && pOpSplit->fBinary) { /* process 1st sub expression. */ *pszOpSplit = '\0'; DBGCVAR Arg1; rc = dbgcEvalSub(pDbgc, pszExpr, pszOpSplit - pszExpr, &Arg1); if (VBOX_SUCCESS(rc)) { /* process 2nd sub expression. */ char *psz2 = pszOpSplit + pOpSplit->cchName; DBGCVAR Arg2; rc = dbgcEvalSub(pDbgc, psz2, cchExpr - (psz2 - pszExpr), &Arg2); if (VBOX_SUCCESS(rc)) /* apply the operator. */ rc = pOpSplit->pfnHandlerBinary(pDbgc, &Arg1, &Arg2, pResult); } } else if (cBinaryOps) { /* process sub expression. */ pszOpSplit += pOpSplit->cchName; DBGCVAR Arg; rc = dbgcEvalSub(pDbgc, pszOpSplit, cchExpr - (pszOpSplit - pszExpr), &Arg); if (VBOX_SUCCESS(rc)) /* apply the operator. */ rc = pOpSplit->pfnHandlerUnary(pDbgc, &Arg, pResult); } else /* plain expression or using unary operators perhaps with paratheses. */ rc = dbgcEvalSubUnary(pDbgc, pszExpr, cchExpr, pResult); return rc; } /** * Parses the arguments of one command. * * @returns 0 on success. * @returns VBox error code on parse error with *pcArg containing the argument causing trouble. * @param pDbgc Debugger console instance data. * @param pCmd Pointer to the command descriptor. * @param pszArg Pointer to the arguments to parse. * @param paArgs Where to store the parsed arguments. * @param cArgs Size of the paArgs array. * @param pcArgs Where to store the number of arguments. * In the event of an error this is used to store the index of the offending argument. */ static int dbgcProcessArguments(PDBGC pDbgc, PCDBGCCMD pCmd, char *pszArgs, PDBGCVAR paArgs, unsigned cArgs, unsigned *pcArgs) { Log2(("dbgcProcessArguments: pCmd=%s pszArgs='%s'\n", pCmd->pszCmd, pszArgs)); /* * Check if we have any argument and if the command takes any. */ *pcArgs = 0; /* strip leading blanks. */ while (*pszArgs && isblank(*pszArgs)) pszArgs++; if (!*pszArgs) { if (!pCmd->cArgsMin) return 0; return VERR_PARSE_TOO_FEW_ARGUMENTS; } /** @todo fixme - foo() doesn't work. */ if (!pCmd->cArgsMax) return VERR_PARSE_TOO_MANY_ARGUMENTS; /* * This is a hack, it's "temporary" and should go away "when" the parser is * modified to match arguments while parsing. */ if ( pCmd->cArgsMax == 1 && pCmd->cArgsMin == 1 && pCmd->cArgDescs == 1 && pCmd->paArgDescs[0].enmCategory == DBGCVAR_CAT_STRING && cArgs >= 1) { *pcArgs = 1; RTStrStripR(pszArgs); return dbgcEvalSubString(pDbgc, pszArgs, strlen(pszArgs), &paArgs[0]); } /* * The parse loop. */ PDBGCVAR pArg0 = &paArgs[0]; PDBGCVAR pArg = pArg0; *pcArgs = 0; do { /* * Can we have another argument? */ if (*pcArgs >= pCmd->cArgsMax) return VERR_PARSE_TOO_MANY_ARGUMENTS; if (pArg >= &paArgs[cArgs]) return VERR_PARSE_ARGUMENT_OVERFLOW; /* * Find the end of the argument. */ int cPar = 0; char chQuote = '\0'; char *pszEnd = NULL; char *psz = pszArgs; char ch; bool fBinary = false; for (;;) { /* * Check for the end. */ if ((ch = *psz) == '\0') { if (chQuote) return VERR_PARSE_UNBALANCED_QUOTE; if (cPar) return VERR_PARSE_UNBALANCED_PARENTHESIS; pszEnd = psz; break; } /* * When quoted we ignore everything but the quotation char. * We use the REXX way of escaping the quotation char, i.e. double occurence. */ else if (ch == '\'' || ch == '"' || ch == '`') { if (chQuote) { /* end quote? */ if (ch == chQuote) { if (psz[1] == ch) psz++; /* skip the escaped quote char */ else chQuote = '\0'; /* end of quoted string. */ } } else chQuote = ch; /* open new quote */ } /* * Parenthesis can of course be nested. */ else if (ch == '(') { cPar++; fBinary = false; } else if (ch == ')') { if (!cPar) return VERR_PARSE_UNBALANCED_PARENTHESIS; cPar--; fBinary = true; } else if (!chQuote && !cPar) { /* * Encountering blanks may mean the end of it all. A binary operator * will force continued parsing. */ if (isblank(*psz)) { pszEnd = psz++; /* just in case. */ while (isblank(*psz)) psz++; PCDBGCOP pOp = dbgcOperatorLookup(pDbgc, psz, fBinary, ' '); if (!pOp || pOp->fBinary != fBinary) break; /* the end. */ psz += pOp->cchName; while (isblank(*psz)) /* skip blanks so we don't get here again */ psz++; fBinary = false; continue; } /* * Look for operators without a space up front. */ if (dbgcIsOpChar(*psz)) { PCDBGCOP pOp = dbgcOperatorLookup(pDbgc, psz, fBinary, ' '); if (pOp) { if (pOp->fBinary != fBinary) { pszEnd = psz; /** @todo this is a parsing error really. */ break; /* the end. */ } psz += pOp->cchName; while (isblank(*psz)) /* skip blanks so we don't get here again */ psz++; fBinary = false; continue; } } fBinary = true; } /* next char */ psz++; } *pszEnd = '\0'; /* (psz = next char to process) */ /* * Parse and evaluate the argument. */ int rc = dbgcEvalSub(pDbgc, pszArgs, strlen(pszArgs), pArg); if (VBOX_FAILURE(rc)) return rc; /* * Next. */ pArg++; (*pcArgs)++; pszArgs = psz; while (*pszArgs && isblank(*pszArgs)) pszArgs++; } while (*pszArgs); /* * Match the arguments. */ return dbgcEvalSubMatchVars(pDbgc, pCmd->cArgsMin, pCmd->cArgsMax, pCmd->paArgDescs, pCmd->cArgDescs, pArg0, pArg - pArg0); } /** * Process one command. * * @returns VBox status code. Any error indicates the termination of the console session. * @param pDbgc Debugger console instance data. * @param pszCmd Pointer to the command. * @param cchCmd Length of the command. * @param fNoExecute Indicates that no commands should actually be executed. */ int dbgcProcessCommand(PDBGC pDbgc, char *pszCmd, size_t cchCmd, bool fNoExecute) { char *pszCmdInput = pszCmd; /* * Skip blanks. */ while (isblank(*pszCmd)) pszCmd++, cchCmd--; /* external command? */ bool fExternal = *pszCmd == '.'; if (fExternal) pszCmd++, cchCmd--; /* * Find arguments. */ char *pszArgs = pszCmd; while (isalnum(*pszArgs)) pszArgs++; if (*pszArgs && (!isblank(*pszArgs) || pszArgs == pszCmd)) { pDbgc->rcCmd = VINF_PARSE_INVALD_COMMAND_NAME; pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error in command '%s'!\n", pszCmdInput); return 0; } /* * Find the command. */ PCDBGCCMD pCmd = dbgcRoutineLookup(pDbgc, pszCmd, pszArgs - pszCmd, fExternal); if (!pCmd || (pCmd->fFlags & DBGCCMD_FLAGS_FUNCTION)) { pDbgc->rcCmd = VINF_PARSE_COMMAND_NOT_FOUND; return pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Unknown command '%s'!\n", pszCmdInput); } /* * Parse arguments (if any). */ unsigned cArgs; int rc = dbgcProcessArguments(pDbgc, pCmd, pszArgs, &pDbgc->aArgs[pDbgc->iArg], ELEMENTS(pDbgc->aArgs) - pDbgc->iArg, &cArgs); /* * Execute the command. */ if (!rc) { if (!fNoExecute) rc = pCmd->pfnHandler(pCmd, &pDbgc->CmdHlp, pDbgc->pVM, &pDbgc->aArgs[0], cArgs, NULL); pDbgc->rcCmd = rc; if (rc == VERR_DBGC_COMMAND_FAILED) rc = VINF_SUCCESS; } else { pDbgc->rcCmd = rc; /* report parse / eval error. */ switch (rc) { case VERR_PARSE_TOO_FEW_ARGUMENTS: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Too few arguments. Minimum is %d for command '%s'.\n", pCmd->cArgsMin, pCmd->pszCmd); break; case VERR_PARSE_TOO_MANY_ARGUMENTS: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Too many arguments. Maximum is %d for command '%s'.\n", pCmd->cArgsMax, pCmd->pszCmd); break; case VERR_PARSE_ARGUMENT_OVERFLOW: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Too many arguments.\n"); break; case VERR_PARSE_UNBALANCED_QUOTE: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Unbalanced quote (argument %d).\n", cArgs); break; case VERR_PARSE_UNBALANCED_PARENTHESIS: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Unbalanced parenthesis (argument %d).\n", cArgs); break; case VERR_PARSE_EMPTY_ARGUMENT: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: An argument or subargument contains nothing useful (argument %d).\n", cArgs); break; case VERR_PARSE_UNEXPECTED_OPERATOR: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Invalid operator usage (argument %d).\n", cArgs); break; case VERR_PARSE_INVALID_NUMBER: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Syntax error: Ivalid numeric value (argument %d). If a string was the intention, then quote it.\n", cArgs); break; case VERR_PARSE_NUMBER_TOO_BIG: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Numeric overflow (argument %d).\n", cArgs); break; case VERR_PARSE_INVALID_OPERATION: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Invalid operation attempted (argument %d).\n", cArgs); break; case VERR_PARSE_FUNCTION_NOT_FOUND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Function not found (argument %d).\n", cArgs); break; case VERR_PARSE_NOT_A_FUNCTION: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: The function specified is not a function (argument %d).\n", cArgs); break; case VERR_PARSE_NO_MEMORY: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Out memory in the regular heap! Expect odd stuff to happen...\n", cArgs); break; case VERR_PARSE_INCORRECT_ARG_TYPE: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Incorrect argument type (argument %d?).\n", cArgs); break; case VERR_PARSE_VARIABLE_NOT_FOUND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: An undefined variable was referenced (argument %d).\n", cArgs); break; case VERR_PARSE_CONVERSION_FAILED: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: A conversion between two types failed (argument %d).\n", cArgs); break; case VERR_PARSE_NOT_IMPLEMENTED: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: You hit a debugger feature which isn't implemented yet (argument %d).\n", cArgs); break; case VERR_PARSE_BAD_RESULT_TYPE: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Couldn't satisfy a request for a specific result type (argument %d). (Usually applies to symbols)\n", cArgs); break; case VERR_PARSE_WRITEONLY_SYMBOL: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Cannot get symbol, it's set only (argument %d).\n", cArgs); break; case VERR_DBGC_COMMAND_FAILED: rc = VINF_SUCCESS; break; default: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Error: Unknown error %d!\n", rc); return rc; } /* * Parse errors are non fatal. */ if (rc >= VERR_PARSE_FIRST && rc < VERR_PARSE_LAST) rc = VINF_SUCCESS; } return rc; } /** * Process all commands currently in the buffer. * * @returns VBox status code. Any error indicates the termination of the console session. * @param pDbgc Debugger console instance data. * @param fNoExecute Indicates that no commands should actually be executed. */ static int dbgcProcessCommands(PDBGC pDbgc, bool fNoExecute) { int rc = 0; while (pDbgc->cInputLines) { /* * Empty the log buffer if we're hooking the log. */ if (pDbgc->fLog) { rc = dbgcProcessLog(pDbgc); if (VBOX_FAILURE(rc)) break; } if (pDbgc->iRead == pDbgc->iWrite) { AssertMsgFailed(("The input buffer is empty while cInputLines=%d!\n", pDbgc->cInputLines)); pDbgc->cInputLines = 0; return 0; } /* * Copy the command to the parse buffer. */ char ch; char *psz = &pDbgc->achInput[pDbgc->iRead]; char *pszTrg = &pDbgc->achScratch[0]; while ((*pszTrg = ch = *psz++) != ';' && ch != '\n' ) { if (psz == &pDbgc->achInput[sizeof(pDbgc->achInput)]) psz = &pDbgc->achInput[0]; if (psz == &pDbgc->achInput[pDbgc->iWrite]) { AssertMsgFailed(("The buffer contains no commands while cInputLines=%d!\n", pDbgc->cInputLines)); pDbgc->cInputLines = 0; return 0; } pszTrg++; } *pszTrg = '\0'; /* * Advance the buffer. */ pDbgc->iRead = psz - &pDbgc->achInput[0]; if (ch == '\n') pDbgc->cInputLines--; /* * Parse and execute this command. */ pDbgc->pszScratch = psz; pDbgc->iArg = 0; rc = dbgcProcessCommand(pDbgc, &pDbgc->achScratch[0], psz - &pDbgc->achScratch[0] - 1, fNoExecute); if (rc) break; } return rc; } /** * Handle input buffer overflow. * * Will read any available input looking for a '\n' to reset the buffer on. * * @returns VBox status. * @param pDbgc Debugger console instance data. */ static int dbgcInputOverflow(PDBGC pDbgc) { /* * Assert overflow status and reset the input buffer. */ if (!pDbgc->fInputOverflow) { pDbgc->fInputOverflow = true; pDbgc->iRead = pDbgc->iWrite = 0; pDbgc->cInputLines = 0; pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Input overflow!!\n"); } /* * Eat input till no more or there is a '\n'. * When finding a '\n' we'll continue normal processing. */ while (pDbgc->pBack->pfnInput(pDbgc->pBack, 0)) { size_t cbRead; int rc = pDbgc->pBack->pfnRead(pDbgc->pBack, &pDbgc->achInput[0], sizeof(pDbgc->achInput) - 1, &cbRead); if (VBOX_FAILURE(rc)) return rc; char *psz = (char *)memchr(&pDbgc->achInput[0], '\n', cbRead); if (psz) { pDbgc->fInputOverflow = false; pDbgc->iRead = psz - &pDbgc->achInput[0] + 1; pDbgc->iWrite = (unsigned)cbRead; pDbgc->cInputLines = 0; break; } } return 0; } /** * Read input and do some preprocessing. * * @returns VBox status. * In addition to the iWrite and achInput, cInputLines is maintained. * In case of an input overflow the fInputOverflow flag will be set. * @param pDbgc Debugger console instance data. */ static int dbgcInputRead(PDBGC pDbgc) { /* * We have ready input. * Read it till we don't have any or we have a full input buffer. */ int rc = 0; do { /* * More available buffer space? */ size_t cbLeft; if (pDbgc->iWrite > pDbgc->iRead) cbLeft = sizeof(pDbgc->achInput) - pDbgc->iWrite - (pDbgc->iRead == 0); else cbLeft = pDbgc->iRead - pDbgc->iWrite - 1; if (!cbLeft) { /* overflow? */ if (!pDbgc->cInputLines) rc = dbgcInputOverflow(pDbgc); break; } /* * Read one char and interpret it. */ char achRead[128]; size_t cbRead; rc = pDbgc->pBack->pfnRead(pDbgc->pBack, &achRead[0], RT_MIN(cbLeft, sizeof(achRead)), &cbRead); if (VBOX_FAILURE(rc)) return rc; char *psz = &achRead[0]; while (cbRead-- > 0) { char ch = *psz++; switch (ch) { /* * Ignore. */ case '\0': case '\r': case '\a': break; /* * Backspace. */ case '\b': Log2(("DBGC: backspace\n")); if (pDbgc->iRead != pDbgc->iWrite) { unsigned iWriteUndo = pDbgc->iWrite; if (pDbgc->iWrite) pDbgc->iWrite--; else pDbgc->iWrite = sizeof(pDbgc->achInput) - 1; if (pDbgc->achInput[pDbgc->iWrite] == '\n') pDbgc->iWrite = iWriteUndo; } break; /* * Add char to buffer. */ case '\t': case '\n': case ';': switch (ch) { case '\t': ch = ' '; break; case '\n': pDbgc->cInputLines++; break; } default: Log2(("DBGC: ch=%02x\n", (unsigned char)ch)); pDbgc->achInput[pDbgc->iWrite] = ch; if (++pDbgc->iWrite >= sizeof(pDbgc->achInput)) pDbgc->iWrite = 0; break; } } /* Terminate it to make it easier to read in the debugger. */ pDbgc->achInput[pDbgc->iWrite] = '\0'; } while (pDbgc->pBack->pfnInput(pDbgc->pBack, 0)); return rc; } /** * Reads input, parses it and executes commands on '\n'. * * @returns VBox status. * @param pDbgc Debugger console instance data. * @param fNoExecute Indicates that no commands should actually be executed. */ int dbgcProcessInput(PDBGC pDbgc, bool fNoExecute) { /* * We know there's input ready, so let's read it first. */ int rc = dbgcInputRead(pDbgc); if (VBOX_FAILURE(rc)) return rc; /* * Now execute any ready commands. */ if (pDbgc->cInputLines) { /** @todo this fReady stuff is broken. */ pDbgc->fReady = false; rc = dbgcProcessCommands(pDbgc, fNoExecute); if (VBOX_SUCCESS(rc) && rc != VWRN_DBGC_CMD_PENDING) pDbgc->fReady = true; if ( VBOX_SUCCESS(rc) && pDbgc->iRead == pDbgc->iWrite && pDbgc->fReady) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); } else /* Received nonsense; just skip it. */ pDbgc->iRead = pDbgc->iWrite; return rc; } /** * Gets the event context identifier string. * @returns Read only string. * @param enmCtx The context. */ static const char *dbgcGetEventCtx(DBGFEVENTCTX enmCtx) { switch (enmCtx) { case DBGFEVENTCTX_RAW: return "raw"; case DBGFEVENTCTX_REM: return "rem"; case DBGFEVENTCTX_HWACCL: return "hwaccl"; case DBGFEVENTCTX_HYPER: return "hyper"; case DBGFEVENTCTX_OTHER: return "other"; case DBGFEVENTCTX_INVALID: return "!Invalid Event Ctx!"; default: AssertMsgFailed(("enmCtx=%d\n", enmCtx)); return "!Unknown Event Ctx!"; } } /** * Processes debugger events. * * @returns VBox status. * @param pDbgc DBGC Instance data. * @param pEvent Pointer to event data. */ static int dbgcProcessEvent(PDBGC pDbgc, PCDBGFEVENT pEvent) { /* * Flush log first. */ if (pDbgc->fLog) { int rc = dbgcProcessLog(pDbgc); if (VBOX_FAILURE(rc)) return rc; } /* * Process the event. */ pDbgc->pszScratch = &pDbgc->achInput[0]; pDbgc->iArg = 0; bool fPrintPrompt = true; int rc = VINF_SUCCESS; switch (pEvent->enmType) { /* * The first part is events we have initiated with commands. */ case DBGFEVENT_HALT_DONE: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: VM %p is halted! (%s)\n", pDbgc->pVM, dbgcGetEventCtx(pEvent->enmCtx)); pDbgc->fRegCtxGuest = true; /* we're always in guest context when halted. */ if (VBOX_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); break; } /* * The second part is events which can occur at any time. */ case DBGFEVENT_FATAL_ERROR: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbf event: Fatal error! (%s)\n", dbgcGetEventCtx(pEvent->enmCtx)); pDbgc->fRegCtxGuest = false; /* fatal errors are always in hypervisor. */ if (VBOX_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); break; } case DBGFEVENT_BREAKPOINT: case DBGFEVENT_BREAKPOINT_HYPER: { bool fRegCtxGuest = pDbgc->fRegCtxGuest; pDbgc->fRegCtxGuest = pEvent->enmType == DBGFEVENT_BREAKPOINT; rc = dbgcBpExec(pDbgc, pEvent->u.Bp.iBp); switch (rc) { case VERR_DBGC_BP_NOT_FOUND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: Unknown breakpoint %u! (%s)\n", pEvent->u.Bp.iBp, dbgcGetEventCtx(pEvent->enmCtx)); break; case VINF_DBGC_BP_NO_COMMAND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: Breakpoint %u! (%s)\n", pEvent->u.Bp.iBp, dbgcGetEventCtx(pEvent->enmCtx)); break; case VINF_BUFFER_OVERFLOW: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: Breakpoint %u! Command too long to execute! (%s)\n", pEvent->u.Bp.iBp, dbgcGetEventCtx(pEvent->enmCtx)); break; default: break; } if (VBOX_SUCCESS(rc) && DBGFR3IsHalted(pDbgc->pVM)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); else pDbgc->fRegCtxGuest = fRegCtxGuest; break; } case DBGFEVENT_STEPPED: case DBGFEVENT_STEPPED_HYPER: { pDbgc->fRegCtxGuest = pEvent->enmType == DBGFEVENT_STEPPED; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: Single step! (%s)\n", dbgcGetEventCtx(pEvent->enmCtx)); if (VBOX_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); break; } case DBGFEVENT_ASSERTION_HYPER: { pDbgc->fRegCtxGuest = false; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event: Hypervisor Assertion! (%s)\n" "%s" "%s" "\n", dbgcGetEventCtx(pEvent->enmCtx), pEvent->u.Assert.pszMsg1, pEvent->u.Assert.pszMsg2); if (VBOX_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); break; } case DBGFEVENT_DEV_STOP: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\n" "dbgf event: DBGFSTOP (%s)\n" "File: %s\n" "Line: %d\n" "Function: %s\n", dbgcGetEventCtx(pEvent->enmCtx), pEvent->u.Src.pszFile, pEvent->u.Src.uLine, pEvent->u.Src.pszFunction); if (VBOX_SUCCESS(rc) && pEvent->u.Src.pszMessage && *pEvent->u.Src.pszMessage) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Message: %s\n", pEvent->u.Src.pszMessage); if (VBOX_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r"); break; } case DBGFEVENT_INVALID_COMMAND: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf/dbgc error: Invalid command event!\n"); fPrintPrompt = !pDbgc->fReady; break; } case DBGFEVENT_TERMINATING: { pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\nVM is terminating!\n"); rc = VERR_GENERAL_FAILURE; break; } default: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf/dbgc error: Unknown event %d!\n", pEvent->enmType); fPrintPrompt = !pDbgc->fReady; break; } } /* * Prompt, anyone? */ if (fPrintPrompt && VBOX_SUCCESS(rc)) { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); } return rc; } /** * Prints any log lines from the log buffer. * * The caller must not call function this unless pDbgc->fLog is set. * * @returns VBox status. (output related) * @param pDbgc Debugger console instance data. */ static int dbgcProcessLog(PDBGC pDbgc) { /** @todo */ NOREF(pDbgc); return 0; } /** * Run the debugger console. * * @returns VBox status. * @param pDbgc Pointer to the debugger console instance data. */ int dbgcRun(PDBGC pDbgc) { /* * Main Debugger Loop. * * This loop will either block on waiting for input or on waiting on * debug events. If we're forwarding the log we cannot wait for long * before we must flush the log. */ int rc = VINF_SUCCESS; for (;;) { if (pDbgc->pVM && DBGFR3CanWait(pDbgc->pVM)) { /* * Wait for a debug event. */ PCDBGFEVENT pEvent; rc = DBGFR3EventWait(pDbgc->pVM, pDbgc->fLog ? 1 : 32, &pEvent); if (VBOX_SUCCESS(rc)) { rc = dbgcProcessEvent(pDbgc, pEvent); if (VBOX_FAILURE(rc)) break; } else if (rc != VERR_TIMEOUT) break; /* * Check for input. */ if (pDbgc->pBack->pfnInput(pDbgc->pBack, 0)) { rc = dbgcProcessInput(pDbgc, false /* fNoExecute */); if (VBOX_FAILURE(rc)) break; } } else { /* * Wait for input. If Logging is enabled we'll only wait very briefly. */ if (pDbgc->pBack->pfnInput(pDbgc->pBack, pDbgc->fLog ? 1 : 1000)) { rc = dbgcProcessInput(pDbgc, false /* fNoExecute */); if (VBOX_FAILURE(rc)) break; } } /* * Forward log output. */ if (pDbgc->fLog) { rc = dbgcProcessLog(pDbgc); if (VBOX_FAILURE(rc)) break; } } return rc; } /** * Creates a a new instance. * * @returns VBox status code. * @param ppDbgc Where to store the pointer to the instance data. * @param pBack Pointer to the backend. * @param fFlags The flags. */ int dbgcCreate(PDBGC *ppDbgc, PDBGCBACK pBack, unsigned fFlags) { /* * Validate input. */ AssertPtrReturn(pBack, VERR_INVALID_POINTER); AssertMsgReturn(!fFlags, ("%#x", fFlags), VERR_INVALID_PARAMETER); /* * Allocate and initialize. */ PDBGC pDbgc = (PDBGC)RTMemAllocZ(sizeof(*pDbgc)); if (!pDbgc) return VERR_NO_MEMORY; dbgcInitCmdHlp(pDbgc); pDbgc->pBack = pBack; pDbgc->pVM = NULL; pDbgc->pszEmulation = "CodeView/WinDbg"; pDbgc->paEmulationCmds = &g_aCmdsCodeView[0]; pDbgc->cEmulationCmds = g_cCmdsCodeView; //pDbgc->fLog = false; pDbgc->fRegCtxGuest = true; pDbgc->fRegTerse = true; //pDbgc->DisasmPos = {0}; //pDbgc->SourcePos = {0}; //pDbgc->DumpPos = {0}; //pDbgc->cbDumpElement = 0; //pDbgc->cVars = 0; //pDbgc->paVars = NULL; //pDbgc->pFirstBp = NULL; //pDbgc->abSearch = {0}; //pDbgc->cbSearch = 0; pDbgc->cbSearchUnit = 1; pDbgc->cMaxSearchHits = 1; //pDbgc->SearchAddr = {0}; //pDbgc->cbSearchRange = 0; //pDbgc->uInputZero = 0; //pDbgc->iRead = 0; //pDbgc->iWrite = 0; //pDbgc->cInputLines = 0; //pDbgc->fInputOverflow = false; pDbgc->fReady = true; pDbgc->pszScratch = &pDbgc->achScratch[0]; //pDbgc->iArg = 0; //pDbgc->rcOutput = 0; //pDbgc->rcCmd = 0; dbgcInitOpCharBitMap(); *ppDbgc = pDbgc; return VINF_SUCCESS; } /** * Destroys a DBGC instance created by dbgcCreate. * * @param pDbgc Pointer to the debugger console instance data. */ void dbgcDestroy(PDBGC pDbgc) { AssertPtr(pDbgc); /* Disable log hook. */ if (pDbgc->fLog) { } /* Detach from the VM. */ if (pDbgc->pVM) DBGFR3Detach(pDbgc->pVM); /* finally, free the instance memory. */ RTMemFree(pDbgc); } /** * Make a console instance. * * This will not return until either an 'exit' command is issued or a error code * indicating connection loss is encountered. * * @returns VINF_SUCCESS if console termination caused by the 'exit' command. * @returns The VBox status code causing the console termination. * * @param pVM VM Handle. * @param pBack Pointer to the backend structure. This must contain * a full set of function pointers to service the console. * @param fFlags Reserved, must be zero. * @remark A forced termination of the console is easiest done by forcing the * callbacks to return fatal failures. */ DBGDECL(int) DBGCCreate(PVM pVM, PDBGCBACK pBack, unsigned fFlags) { /* * Validate input. */ AssertPtrNullReturn(pVM, VERR_INVALID_POINTER); /* * Allocate and initialize instance data */ PDBGC pDbgc; int rc = dbgcCreate(&pDbgc, pBack, fFlags); if (RT_FAILURE(rc)) return rc; /* * Print welcome message. */ rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Welcome to the VirtualBox Debugger!\n"); /* * Attach to the specified VM. */ if (RT_SUCCESS(rc) && pVM) { rc = DBGFR3Attach(pVM); if (RT_SUCCESS(rc)) { pDbgc->pVM = pVM; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Current VM is %08x\n" /** @todo get and print the VM name! */ , pDbgc->pVM); } else rc = pDbgc->CmdHlp.pfnVBoxError(&pDbgc->CmdHlp, rc, "When trying to attach to VM %p\n", pDbgc->pVM); } /* * Load plugins. * This is currently hardcoded simplicity. */ if (RT_SUCCESS(rc) && pVM) { static PCDBGFOSREG s_aPlugIns[] = { //&g_DBGDiggerFreeBSD, //&g_DBGDiggerLinux, //&g_DBGDiggerOS2, &g_DBGDiggerSolaris, //&g_DBGDiggerWinNt }; pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Loading Plugins:"); for (unsigned i = 0; i < RT_ELEMENTS(s_aPlugIns); i++) { pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, " %s", s_aPlugIns[i]->szName); rc = DBGFR3OSRegister(pVM, s_aPlugIns[i]); if (RT_FAILURE(rc) && rc != VERR_ALREADY_LOADED) pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "->%Rrc", rc); } pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\n"); } if (RT_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); /* * Run the debugger main loop. */ if (RT_SUCCESS(rc)) rc = dbgcRun(pDbgc); /* * Cleanup console debugger session. */ dbgcDestroy(pDbgc); return rc; }