/* $Id: DBGConsole.cpp $ */ /** @file * DBGC - Debugger Console. */ /* * Copyright (C) 2006-2022 Oracle and/or its affiliates. * * This file is part of VirtualBox base platform packages, as * available from https://www.virtualbox.org. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation, in version 3 of the * License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . * * SPDX-License-Identifier: GPL-3.0-only */ /** @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 in debug builds. Later it was hastily built * into the VBoxDbg module with a very simple Qt wrapper around it. * * The current state is that it's by default shipped with all standard * VirtualBox builds. The GUI component is by default accessible in all * non-release builds, while release builds require extra data, environment or * command line options to make it visible. * * Now, even if we ship it with all standard builds we would like it to remain * an optional feature that can be omitted when building VirtualBox. Therefore, * all external code interfacing DBGC need to be enclosed in * \#ifdef VBOX_WITH_DEBUGGER blocks. This is mandatory for components that * register external commands. * * * @section sec_dbgc_op Operation * * 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. As an * alternative we intent to provide a set of gdb-like commands as well and let * the user decide which should take precedence. * * * @subsection sec_dbg_op_numbers Numbers * * Numbers are hexadecimal unless specified with a prefix indicating * elsewise. Prefixes: * - '0x' - hexadecimal. * - '0n' - 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 '0n' and '0' for decimal and * octal. * * The '`' can be used in the numeric value to separate parts as the user * wishes. Generally, though the debugger may use it in output as thousand * separator in decimal numbers and 32-bit separator in hex numbers. * * For historical reasons, a 'h' suffix is suffered on hex numbers. Unlike most * assemblers, a leading 0 before a-f is not required with the 'h' suffix. * * The prefix '0i' can be used instead of '0n', as it was the early decimal * prefix employed by DBGC. It's being deprecated and may be removed later. * * * @subsection sec_dbg_op_strings Strings and Symbols * * The debugger will try to guess, convert or promote what the type of an * argument to a command, function or operator based on the input description of * the receiver. If the user wants to make it clear to the debugger that * something is a string, put it inside double quotes. Symbols should use * single quotes, though we're current still a bit flexible on this point. * * If you need to put a quote character inside the quoted text, you escape it by * repating it once: echo "printf(""hello world"");" * * * @subsection sec_dbg_op_address Addressing modes * * - Default is flat. For compatibility '%' 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_c_operators C/C++ Operators * * Most unary and binary arithmetic, comparison, logical and bitwise C/C++ * operators are supported by the debugger, with the same precedence rules of * course. There is one notable change made due to the unary '%' and '%%' * operators, and that is that the modulo (remainder) operator is called 'mod' * instead of '%'. This saves a lot of trouble separating argument. * * There are no assignment operators. Instead some simple global variable space * is provided thru the 'set' and 'unset' commands and the unary '$' operator. * * * @subsection sec_dbg_op_registers Registers * * All registers and their sub-fields exposed by the DBGF API are accessible via * the '\@' operator. A few CPU register are accessible directly (as symbols) * without using the '\@' operator. Hypervisor registers are accessible by * prefixing the register name with a dot ('.'). * * * @subsection sec_dbg_op_commands Commands * * Commands names are case sensitive. By convention they are lower cased, starts * with a letter but may contain digits and underscores afterwards. Operators * are not allowed in the name (not even part of it), as we would risk * misunderstanding it otherwise. * * Commands returns a status code. * * The '.' prefix indicates the set of external commands. External commands are * command registered by VMM components. * * * @subsection sec_dbg_op_functions Functions * * Functions are similar to commands, but return a variable and can only be used * as part of an expression making up the argument of a command, function, * operator or language statement (if we get around to implement that). * * * @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). * * This feature has not materialized and probably never will. * * * @section sec_dbgc_linking Linking and API * * The DBGC code is linked into the VBoxVMM module. * * IMachineDebugger may one day be extended with a DBGC interface so we can work * with DBGC remotely without requiring TCP. 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 /* VMR3GetVM() */ #include /* HMR3IsEnabled */ #include /* NEMR3IsEnabled */ #include #include #include #include #include #include #include #include #include "DBGCInternal.h" #include "DBGPlugIns.h" /********************************************************************************************************************************* * Internal Functions * *********************************************************************************************************************************/ static int dbgcProcessLog(PDBGC pDbgc); /** * 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. Specifying DBGCVAR_TYPE_GC_FAR may * cause failure, avoid it. * @param pResult Where to store the result. */ int dbgcSymbolGet(PDBGC pDbgc, const char *pszSymbol, DBGCVARTYPE enmType, PDBGCVAR pResult) { int rc; /* * Builtin? */ PCDBGCSYM pSymDesc = dbgcLookupRegisterSymbol(pDbgc, pszSymbol); if (pSymDesc) { if (!pSymDesc->pfnGet) return VERR_DBGC_PARSE_WRITEONLY_SYMBOL; return pSymDesc->pfnGet(pSymDesc, &pDbgc->CmdHlp, enmType, pResult); } /* * A typical register? (Guest only) */ static const char s_szSixLetterRegisters[] = "rflags;eflags;" ; static const char s_szThreeLetterRegisters[] = "eax;rax;" "r10;" "r8d;r8w;r8b;" "cr0;" "dr0;" "ebx;rbx;" "r11;" "r9d;r9w;r8b;" "dr1;" "ecx;rcx;" "r12;" "cr2;" "dr2;" "edx;rdx;" "r13;" "cr3;" "dr3;" "edi;rdi;dil;" "r14;" "cr4;" "dr4;" "esi;rsi;sil;" "r15;" "cr8;" "ebp;rbp;" "esp;rsp;" "dr6;" "rip;eip;" "dr7;" "efl;" ; static const char s_szTwoLetterRegisters[] = "ax;al;ah;" "r8;" "bx;bl;bh;" "r9;" "cx;cl;ch;" "cs;" "dx;dl;dh;" "ds;" "di;" "es;" "si;" "fs;" "bp;" "gs;" "sp;" "ss;" "ip;" ; const char *pszRegSym = *pszSymbol == '.' ? pszSymbol + 1 : pszSymbol; size_t const cchRegSym = strlen(pszRegSym); if ( (cchRegSym == 2 && strstr(s_szTwoLetterRegisters, pszRegSym)) || (cchRegSym == 3 && strstr(s_szThreeLetterRegisters, pszRegSym)) || (cchRegSym == 6 && strstr(s_szSixLetterRegisters, pszRegSym))) { if (!strchr(pszSymbol, ';')) { DBGCVAR Var; DBGCVAR_INIT_SYMBOL(&Var, pszSymbol); rc = dbgcOpRegister(pDbgc, &Var, DBGCVAR_CAT_ANY, pResult); if (RT_SUCCESS(rc)) return DBGCCmdHlpConvert(&pDbgc->CmdHlp, pResult, enmType, false /*fConvSyms*/, pResult); } } /* * Ask PDM. */ /** @todo resolve symbols using PDM. */ /* * Ask the debug info manager. */ RTDBGSYMBOL Symbol; rc = DBGFR3AsSymbolByName(pDbgc->pUVM, pDbgc->hDbgAs, pszSymbol, &Symbol, NULL); if (RT_SUCCESS(rc)) { /* * Default return is a flat gc address. */ DBGCVAR_INIT_GC_FLAT(pResult, Symbol.Value); if (Symbol.cb) DBGCVAR_SET_RANGE(pResult, DBGCVAR_RANGE_BYTES, Symbol.cb); switch (enmType) { /* nothing to do. */ case DBGCVAR_TYPE_GC_FLAT: case DBGCVAR_TYPE_ANY: return VINF_SUCCESS; /* impossible at the moment. */ case DBGCVAR_TYPE_GC_FAR: return VERR_DBGC_PARSE_CONVERSION_FAILED; /* 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: case DBGCVAR_TYPE_HC_FLAT: case DBGCVAR_TYPE_HC_PHYS: return DBGCCmdHlpConvert(&pDbgc->CmdHlp, pResult, enmType, false /*fConvSyms*/, pResult); default: AssertMsgFailed(("Internal error enmType=%d\n", enmType)); return VERR_INVALID_PARAMETER; } } return VERR_DBGC_PARSE_NOT_IMPLEMENTED; } /** * 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) { /** @todo Replace this with a sh/ksh/csh/rexx like toplevel language that * allows doing function, loops, if, cases, and such. */ int rc = VINF_SUCCESS; while (pDbgc->cInputLines) { /* * Empty the log buffer if we're hooking the log. */ if (pDbgc->fLog) { rc = dbgcProcessLog(pDbgc); if (RT_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 chQuote = 0; char ch; char *psz = &pDbgc->achInput[pDbgc->iRead]; char *pszTrg = &pDbgc->achScratch[0]; AssertCompile(sizeof(pDbgc->achScratch) > sizeof(pDbgc->achInput)); while ((ch = *psz++) != '\0') { /* ';' and '\n' are termination characters, except for when they are inside quotes. So, track quoting. */ if (ch == '"' || ch == '\'') chQuote = chQuote == ch ? 0 : chQuote == 0 ? ch : chQuote; else if ((ch == ';' || ch == '\n') && chQuote == 0) break; *pszTrg = ch; if (psz == &pDbgc->achInput[sizeof(pDbgc->achInput)]) psz = &pDbgc->achInput[0]; /** @todo r=bird: off by one issue here? */ 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 = pszTrg + 1; pDbgc->iArg = 0; rc = dbgcEvalCommand(pDbgc, &pDbgc->achScratch[0], pszTrg - &pDbgc->achScratch[0], fNoExecute); if ( rc == VERR_DBGC_QUIT || rc == VWRN_DBGC_CMD_PENDING) break; rc = VINF_SUCCESS; /* ignore other statuses */ } return rc; } /** * Handle input buffer overflow. * * Will read any available input looking for a '\n' to reset the buffer on. * * @returns VBox status code. * @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->pIo->pfnInput(pDbgc->pIo, 0)) { size_t cbRead; int rc = pDbgc->pIo->pfnRead(pDbgc->pIo, &pDbgc->achInput[0], sizeof(pDbgc->achInput) - 1, &cbRead); if (RT_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 code. * 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->pIo->pfnRead(pDbgc->pIo, &achRead[0], RT_MIN(cbLeft, sizeof(achRead)), &cbRead); if (RT_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; } RT_FALL_THRU(); 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->pIo->pfnInput(pDbgc->pIo, 0)); return rc; } /** * Reads input, parses it and executes commands on '\n'. * * @returns VBox status code. * @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 (RT_FAILURE(rc)) return rc; /* * Now execute any ready commands. */ if (pDbgc->cInputLines) { pDbgc->pIo->pfnSetReady(pDbgc->pIo, false); pDbgc->fReady = false; rc = dbgcProcessCommands(pDbgc, fNoExecute); if (RT_SUCCESS(rc) && rc != VWRN_DBGC_CMD_PENDING) pDbgc->fReady = true; if ( RT_SUCCESS(rc) && pDbgc->iRead == pDbgc->iWrite && pDbgc->fReady) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); if ( RT_SUCCESS(rc) && pDbgc->fReady) pDbgc->pIo->pfnSetReady(pDbgc->pIo, true); } /* * else - we have incomplete line, so leave it in the buffer and * wait for more input. * * Windows telnet client is in "character at a time" mode by * default and putty sends eol as a separate packet that will be * most likely read separately from the command line it * terminates. */ return rc; } /** * Gets the event context identifier string. * @returns Read only string. * @param enmCtx The context. */ DECLHIDDEN(const char *) dbgcGetEventCtx(DBGFEVENTCTX enmCtx) { switch (enmCtx) { case DBGFEVENTCTX_RAW: return "raw"; case DBGFEVENTCTX_REM: return "rem"; case DBGFEVENTCTX_HM: 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!"; } } /** * Looks up a generic debug event. * * @returns Pointer to DBGCSXEVT structure if found, otherwise NULL. * @param enmType The possibly generic event to find the descriptor for. */ DECLHIDDEN(PCDBGCSXEVT) dbgcEventLookup(DBGFEVENTTYPE enmType) { uint32_t i = g_cDbgcSxEvents; while (i-- > 0) if (g_aDbgcSxEvents[i].enmType == enmType) return &g_aDbgcSxEvents[i]; return NULL; } /** * Processes debugger events. * * @returns VBox status code. * @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 (RT_FAILURE(rc)) return rc; } /* * Process the event. */ pDbgc->pszScratch = &pDbgc->achInput[0]; pDbgc->iArg = 0; bool fPrintPrompt = true; int rc = VINF_SUCCESS; VMCPUID const idCpuSaved = pDbgc->idCpu; switch (pEvent->enmType) { /* * The first part is events we have initiated with commands. */ case DBGFEVENT_HALT_DONE: { /** @todo add option to suppress this on CPUs that aren't selected (like * fRegTerse). */ rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: CPU %u has halted! (%s)\n", pEvent->idCpu, pEvent->idCpu, dbgcGetEventCtx(pEvent->enmCtx)); if (RT_SUCCESS(rc)) rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); break; } /* * The second part is events which can occur at any time. */ case DBGFEVENT_FATAL_ERROR: { pDbgc->idCpu = pEvent->idCpu; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbf event/%u: Fatal error! (%s)\n", pEvent->idCpu, dbgcGetEventCtx(pEvent->enmCtx)); if (RT_SUCCESS(rc)) rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); break; } case DBGFEVENT_BREAKPOINT: case DBGFEVENT_BREAKPOINT_IO: case DBGFEVENT_BREAKPOINT_MMIO: case DBGFEVENT_BREAKPOINT_HYPER: { pDbgc->idCpu = pEvent->idCpu; rc = dbgcBpExec(pDbgc, pEvent->u.Bp.hBp); switch (rc) { case VERR_DBGC_BP_NOT_FOUND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: Unknown breakpoint %u! (%s)\n", pEvent->idCpu, pEvent->u.Bp.hBp, dbgcGetEventCtx(pEvent->enmCtx)); break; case VINF_DBGC_BP_NO_COMMAND: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: Breakpoint %u! (%s)\n", pEvent->idCpu, pEvent->u.Bp.hBp, dbgcGetEventCtx(pEvent->enmCtx)); break; case VINF_BUFFER_OVERFLOW: rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: Breakpoint %u! Command too long to execute! (%s)\n", pEvent->idCpu, pEvent->u.Bp.hBp, dbgcGetEventCtx(pEvent->enmCtx)); break; default: break; } if (RT_SUCCESS(rc) && DBGFR3IsHalted(pDbgc->pUVM, pEvent->idCpu)) { rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); /* Set the resume flag to ignore the breakpoint when resuming execution. */ if ( RT_SUCCESS(rc) && pEvent->enmType == DBGFEVENT_BREAKPOINT) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "r eflags.rf = 1"); } else pDbgc->idCpu = idCpuSaved; break; } case DBGFEVENT_STEPPED: case DBGFEVENT_STEPPED_HYPER: { if (!pDbgc->cMultiStepsLeft || pEvent->idCpu != idCpuSaved) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: Single step! (%s)\n", pEvent->idCpu, dbgcGetEventCtx(pEvent->enmCtx)); else pDbgc->cMultiStepsLeft -= 1; if (RT_SUCCESS(rc)) { if (pDbgc->fStepTraceRegs) rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); else { char szCmd[80]; if (DBGFR3CpuIsIn64BitCode(pDbgc->pUVM, pDbgc->idCpu)) rc = DBGFR3RegPrintf(pDbgc->pUVM, pDbgc->idCpu, szCmd, sizeof(szCmd), "u %016VR{rip} L 0"); else if (DBGFR3CpuIsInV86Code(pDbgc->pUVM, pDbgc->idCpu)) rc = DBGFR3RegPrintf(pDbgc->pUVM, pDbgc->idCpu, szCmd, sizeof(szCmd), "uv86 %04VR{cs}:%08VR{eip} L 0"); else rc = DBGFR3RegPrintf(pDbgc->pUVM, pDbgc->idCpu, szCmd, sizeof(szCmd), "u %04VR{cs}:%08VR{eip} L 0"); if (RT_SUCCESS(rc)) rc = pDbgc->CmdHlp.pfnExec(&pDbgc->CmdHlp, "%s", szCmd); } } /* If multi-stepping, take the next step: */ if (pDbgc->cMultiStepsLeft > 0 && pEvent->idCpu == idCpuSaved) { int rc2 = DBGFR3StepEx(pDbgc->pUVM, pDbgc->idCpu, DBGF_STEP_F_INTO, NULL, NULL, 0, pDbgc->uMultiStepStrideLength); if (RT_SUCCESS(rc2)) fPrintPrompt = false; else DBGCCmdHlpFailRc(&pDbgc->CmdHlp, pDbgc->pMultiStepCmd, rc2, "DBGFR3StepEx(,,DBGF_STEP_F_INTO,) failed"); } else pDbgc->idCpu = pEvent->idCpu; break; } case DBGFEVENT_ASSERTION_HYPER: { pDbgc->idCpu = pEvent->idCpu; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: Hypervisor Assertion! (%s)\n" "%s" "%s" "\n", pEvent->idCpu, dbgcGetEventCtx(pEvent->enmCtx), pEvent->u.Assert.pszMsg1, pEvent->u.Assert.pszMsg2); if (RT_SUCCESS(rc)) rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); break; } case DBGFEVENT_DEV_STOP: { pDbgc->idCpu = pEvent->idCpu; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\n" "dbgf event/%u: DBGFSTOP (%s)\n" "File: %s\n" "Line: %d\n" "Function: %s\n", pEvent->idCpu, dbgcGetEventCtx(pEvent->enmCtx), pEvent->u.Src.pszFile, pEvent->u.Src.uLine, pEvent->u.Src.pszFunction); if (RT_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 (RT_SUCCESS(rc)) rc = DBGCCmdHlpRegPrintf(&pDbgc->CmdHlp, pEvent->idCpu, -1, pDbgc->fRegTerse); break; } case DBGFEVENT_INVALID_COMMAND: { rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf/dbgc error: Invalid command event!\n"); break; } case DBGFEVENT_POWERING_OFF: { pDbgc->fReady = false; pDbgc->pIo->pfnSetReady(pDbgc->pIo, false); pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\nVM is powering off!\n"); fPrintPrompt = false; rc = VERR_GENERAL_FAILURE; break; } default: { /* * Probably a generic event. Look it up to find its name. */ PCDBGCSXEVT pEvtDesc = dbgcEventLookup(pEvent->enmType); if (pEvtDesc) { if (pEvtDesc->enmKind == kDbgcSxEventKind_Interrupt) { Assert(pEvtDesc->pszDesc); Assert(pEvent->u.Generic.cArgs == 1); rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s no %#llx! (%s)\n", pEvent->idCpu, pEvtDesc->pszDesc, pEvent->u.Generic.auArgs[0], pEvtDesc->pszName); } else if (pEvtDesc->fFlags & DBGCSXEVT_F_BUGCHECK) { Assert(pEvent->u.Generic.cArgs >= 5); char szDetails[512]; DBGFR3FormatBugCheck(pDbgc->pUVM, szDetails, sizeof(szDetails), pEvent->u.Generic.auArgs[0], pEvent->u.Generic.auArgs[1], pEvent->u.Generic.auArgs[2], pEvent->u.Generic.auArgs[3], pEvent->u.Generic.auArgs[4]); rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s %s%s!\n%s", pEvent->idCpu, pEvtDesc->pszName, pEvtDesc->pszDesc ? "- " : "", pEvtDesc->pszDesc ? pEvtDesc->pszDesc : "", szDetails); } else if ( (pEvtDesc->fFlags & DBGCSXEVT_F_TAKE_ARG) || pEvent->u.Generic.cArgs > 1 || ( pEvent->u.Generic.cArgs == 1 && pEvent->u.Generic.auArgs[0] != 0)) { if (pEvtDesc->pszDesc) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s - %s!", pEvent->idCpu, pEvtDesc->pszName, pEvtDesc->pszDesc); else rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s!", pEvent->idCpu, pEvtDesc->pszName); if (pEvent->u.Generic.cArgs <= 1) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, " arg=%#llx\n", pEvent->u.Generic.auArgs[0]); else { for (uint32_t i = 0; i < pEvent->u.Generic.cArgs; i++) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, " args[%u]=%#llx", i, pEvent->u.Generic.auArgs[i]); rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\n"); } } else { if (pEvtDesc->pszDesc) rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s - %s!\n", pEvent->idCpu, pEvtDesc->pszName, pEvtDesc->pszDesc); else rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf event/%u: %s!\n", pEvent->idCpu, pEvtDesc->pszName); } } else rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\ndbgf/dbgc error: Unknown event %d on CPU %u!\n", pEvent->enmType, pEvent->idCpu); break; } } /* * Prompt, anyone? */ if (fPrintPrompt && RT_SUCCESS(rc)) { /** @todo add CPU indicator to the prompt if an SMP VM? */ rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); pDbgc->fReady = true; if (RT_SUCCESS(rc)) pDbgc->pIo->pfnSetReady(pDbgc->pIo, true); pDbgc->cMultiStepsLeft = 0; } 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 code. (output related) * @param pDbgc Debugger console instance data. */ static int dbgcProcessLog(PDBGC pDbgc) { /** @todo */ NOREF(pDbgc); return 0; } /** @callback_method_impl{FNRTDBGCFGLOG} */ static DECLCALLBACK(void) dbgcDbgCfgLogCallback(RTDBGCFG hDbgCfg, uint32_t iLevel, const char *pszMsg, void *pvUser) { /** @todo Add symbol noise setting. */ NOREF(hDbgCfg); NOREF(iLevel); PDBGC pDbgc = (PDBGC)pvUser; pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "%s", pszMsg); } /** * Run the debugger console. * * @returns VBox status code. * @param pDbgc Pointer to the debugger console instance data. */ int dbgcRun(PDBGC pDbgc) { /* * We're ready for commands now. */ pDbgc->fReady = true; pDbgc->pIo->pfnSetReady(pDbgc->pIo, true); /* * 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; for (;;) { rc = VERR_SEM_OUT_OF_TURN; if (pDbgc->pUVM) rc = DBGFR3QueryWaitable(pDbgc->pUVM); if (RT_SUCCESS(rc)) { /* * Wait for a debug event. */ DBGFEVENT Event; rc = DBGFR3EventWait(pDbgc->pUVM, pDbgc->fLog ? 1 : 32, &Event); if (RT_SUCCESS(rc)) { rc = dbgcProcessEvent(pDbgc, &Event); if (RT_FAILURE(rc)) break; } else if (rc != VERR_TIMEOUT) break; /* * Check for input. */ if (pDbgc->pIo->pfnInput(pDbgc->pIo, 0)) { rc = dbgcProcessInput(pDbgc, false /* fNoExecute */); if (RT_FAILURE(rc)) break; } } else if (rc == VERR_SEM_OUT_OF_TURN) { /* * Wait for input. If Logging is enabled we'll only wait very briefly. */ if (pDbgc->pIo->pfnInput(pDbgc->pIo, pDbgc->fLog ? 1 : 1000)) { rc = dbgcProcessInput(pDbgc, false /* fNoExecute */); if (RT_FAILURE(rc)) break; } } else break; /* * Forward log output. */ if (pDbgc->fLog) { rc = dbgcProcessLog(pDbgc); if (RT_FAILURE(rc)) break; } } return rc; } /** * Run the init scripts, if present. * * @param pDbgc The console instance. */ static void dbgcRunInitScripts(PDBGC pDbgc) { /* * Do the global one, if it exists. */ if ( pDbgc->pszGlobalInitScript && *pDbgc->pszGlobalInitScript != '\0' && RTFileExists(pDbgc->pszGlobalInitScript)) dbgcEvalScript(pDbgc, pDbgc->pszGlobalInitScript, true /*fAnnounce*/); /* * Then do the local one, if it exists. */ if ( pDbgc->pszLocalInitScript && *pDbgc->pszLocalInitScript != '\0' && RTFileExists(pDbgc->pszLocalInitScript)) dbgcEvalScript(pDbgc, pDbgc->pszLocalInitScript, true /*fAnnounce*/); } /** * Reads the CFGM configuration of the DBGC. * * Popuplates the PDBGC::pszHistoryFile, PDBGC::pszGlobalInitScript and * PDBGC::pszLocalInitScript members. * * @returns VBox status code. * @param pDbgc The console instance. * @param pUVM The user mode VM handle. */ static int dbgcReadConfig(PDBGC pDbgc, PUVM pUVM) { /* * Get and validate the configuration node. */ PCFGMNODE pNode = CFGMR3GetChild(CFGMR3GetRootU(pUVM), "DBGC"); int rc = CFGMR3ValidateConfig(pNode, "/DBGC/", "Enabled|" "HistoryFile|" "LocalInitScript|" "GlobalInitScript|", "*", "DBGC", 0); AssertRCReturn(rc, rc); /* * Query the values. */ char szHomeDefault[RTPATH_MAX]; rc = RTPathUserHome(szHomeDefault, sizeof(szHomeDefault) - 32); AssertLogRelRCReturn(rc, rc); size_t cchHome = strlen(szHomeDefault); /** @cfgm{/DBGC/HistoryFile, string, ${HOME}/.vboxdbgc-history} * The command history file of the VBox debugger. */ rc = RTPathAppend(szHomeDefault, sizeof(szHomeDefault), ".vboxdbgc-history"); AssertLogRelRCReturn(rc, rc); char szPath[RTPATH_MAX]; rc = CFGMR3QueryStringDef(pNode, "HistoryFile", szPath, sizeof(szPath), szHomeDefault); AssertLogRelRCReturn(rc, rc); pDbgc->pszHistoryFile = RTStrDup(szPath); AssertReturn(pDbgc->pszHistoryFile, VERR_NO_STR_MEMORY); /** @cfgm{/DBGC/GlobalInitFile, string, ${HOME}/.vboxdbgc-init} * The global init script of the VBox debugger. */ szHomeDefault[cchHome] = '\0'; rc = RTPathAppend(szHomeDefault, sizeof(szHomeDefault), ".vboxdbgc-init"); AssertLogRelRCReturn(rc, rc); rc = CFGMR3QueryStringDef(pNode, "GlobalInitScript", szPath, sizeof(szPath), szHomeDefault); AssertLogRelRCReturn(rc, rc); pDbgc->pszGlobalInitScript = RTStrDup(szPath); AssertReturn(pDbgc->pszGlobalInitScript, VERR_NO_STR_MEMORY); /** @cfgm{/DBGC/LocalInitFile, string, none} * The VM local init script of the VBox debugger. */ rc = CFGMR3QueryString(pNode, "LocalInitScript", szPath, sizeof(szPath)); if (RT_SUCCESS(rc)) { pDbgc->pszLocalInitScript = RTStrDup(szPath); AssertReturn(pDbgc->pszLocalInitScript, VERR_NO_STR_MEMORY); } else { AssertLogRelReturn(rc == VERR_CFGM_VALUE_NOT_FOUND || rc == VERR_CFGM_NO_PARENT, rc); pDbgc->pszLocalInitScript = NULL; } return VINF_SUCCESS; } /** * @copydoc DBGC::pfnOutput */ static DECLCALLBACK(int) dbgcOutputNative(void *pvUser, const char *pachChars, size_t cbChars) { PDBGC pDbgc = (PDBGC)pvUser; return pDbgc->pIo->pfnWrite(pDbgc->pIo, pachChars, cbChars, NULL /*pcbWritten*/); } /** * Creates a a new instance. * * @returns VBox status code. * @param ppDbgc Where to store the pointer to the instance data. * @param pIo Pointer to the I/O callback table. * @param fFlags The flags. */ int dbgcCreate(PDBGC *ppDbgc, PCDBGCIO pIo, unsigned fFlags) { /* * Validate input. */ AssertPtrReturn(pIo, 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->pIo = pIo; pDbgc->pfnOutput = dbgcOutputNative; pDbgc->pvOutputUser = pDbgc; pDbgc->pVM = NULL; pDbgc->pUVM = NULL; pDbgc->idCpu = 0; pDbgc->hDbgAs = DBGF_AS_GLOBAL; pDbgc->pszEmulation = "CodeView/WinDbg"; pDbgc->paEmulationCmds = &g_aCmdsCodeView[0]; pDbgc->cEmulationCmds = g_cCmdsCodeView; pDbgc->paEmulationFuncs = &g_aFuncsCodeView[0]; pDbgc->cEmulationFuncs = g_cFuncsCodeView; //pDbgc->fLog = false; pDbgc->fRegTerse = true; pDbgc->fStepTraceRegs = true; //pDbgc->cPagingHierarchyDumps = 0; //pDbgc->DisasmPos = {0}; //pDbgc->SourcePos = {0}; //pDbgc->DumpPos = {0}; pDbgc->pLastPos = &pDbgc->DisasmPos; //pDbgc->cbDumpElement = 0; //pDbgc->cVars = 0; //pDbgc->paVars = NULL; //pDbgc->pPlugInHead = NULL; //pDbgc->pFirstBp = NULL; RTListInit(&pDbgc->LstTraceFlowMods); //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; //pDbgc->pszHistoryFile = NULL; //pDbgc->pszGlobalInitScript = NULL; //pDbgc->pszLocalInitScript = NULL; dbgcEvalInit(); *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->pUVM) DBGFR3Detach(pDbgc->pUVM); /* Free config strings. */ RTStrFree(pDbgc->pszGlobalInitScript); pDbgc->pszGlobalInitScript = NULL; RTStrFree(pDbgc->pszLocalInitScript); pDbgc->pszLocalInitScript = NULL; RTStrFree(pDbgc->pszHistoryFile); pDbgc->pszHistoryFile = NULL; /* 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 pUVM The user mode VM handle. * @param pIo Pointer to the I/O callback structure. This must contain * a full set of function pointers to service the console. * @param fFlags Reserved, must be zero. * @remarks A forced termination of the console is easiest done by forcing the * callbacks to return fatal failures. */ DBGDECL(int) DBGCCreate(PUVM pUVM, PCDBGCIO pIo, unsigned fFlags) { /* * Validate input. */ AssertPtrNullReturn(pUVM, VERR_INVALID_VM_HANDLE); PVM pVM = NULL; if (pUVM) { pVM = VMR3GetVM(pUVM); AssertPtrReturn(pVM, VERR_INVALID_VM_HANDLE); } /* * Allocate and initialize instance data */ PDBGC pDbgc; int rc = dbgcCreate(&pDbgc, pIo, fFlags); if (RT_FAILURE(rc)) return rc; if (!HMR3IsEnabled(pUVM) && !NEMR3IsEnabled(pUVM)) pDbgc->hDbgAs = DBGF_AS_RC_AND_GC_GLOBAL; /* * 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) && pUVM) { rc = dbgcReadConfig(pDbgc, pUVM); if (RT_SUCCESS(rc)) { rc = DBGFR3Attach(pUVM); if (RT_SUCCESS(rc)) { pDbgc->pVM = pVM; pDbgc->pUVM = pUVM; pDbgc->idCpu = 0; rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "Current VM is %08x, CPU #%u\n" /** @todo get and print the VM name! */ , pDbgc->pVM, pDbgc->idCpu); } else rc = pDbgc->CmdHlp.pfnVBoxError(&pDbgc->CmdHlp, rc, "When trying to attach to VM %p\n", pDbgc->pVM); } else rc = pDbgc->CmdHlp.pfnVBoxError(&pDbgc->CmdHlp, rc, "Error reading configuration\n"); } /* * Load plugins. */ if (RT_SUCCESS(rc)) { if (pVM) DBGFR3PlugInLoadAll(pDbgc->pUVM); dbgcEventInit(pDbgc); dbgcRunInitScripts(pDbgc); rc = pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "VBoxDbg> "); if (RT_SUCCESS(rc)) { /* * Set debug config log callback. */ RTDBGCFG hDbgCfg = DBGFR3AsGetConfig(pUVM); if ( hDbgCfg != NIL_RTDBGCFG && RTDbgCfgRetain(hDbgCfg) != UINT32_MAX) { int rc2 = RTDbgCfgSetLogCallback(hDbgCfg, dbgcDbgCfgLogCallback, pDbgc); if (RT_FAILURE(rc2)) { hDbgCfg = NIL_RTDBGCFG; RTDbgCfgRelease(hDbgCfg); } } else hDbgCfg = NIL_RTDBGCFG; /* * Run the debugger main loop. */ rc = dbgcRun(pDbgc); /* * Remove debug config log callback. */ if (hDbgCfg != NIL_RTDBGCFG) { RTDbgCfgSetLogCallback(hDbgCfg, NULL, NULL); RTDbgCfgRelease(hDbgCfg); } } dbgcEventTerm(pDbgc); } else pDbgc->CmdHlp.pfnPrintf(&pDbgc->CmdHlp, NULL, "\nDBGCCreate error: %Rrc\n", rc); /* * Cleanup console debugger session. */ dbgcDestroy(pDbgc); return rc == VERR_DBGC_QUIT ? VINF_SUCCESS : rc; }