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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-27 14:19:18 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-27 14:19:18 +0000
commit4035b1bfb1e5843a539a8b624d21952b756974d1 (patch)
treef1e9cd5bf548cbc57ff2fddfb2b4aa9ae95587e2 /src/VBox/Debugger/DBGCEmulateCodeView.cpp
parentInitial commit. (diff)
downloadvirtualbox-4035b1bfb1e5843a539a8b624d21952b756974d1.tar.xz
virtualbox-4035b1bfb1e5843a539a8b624d21952b756974d1.zip
Adding upstream version 6.1.22-dfsg.upstream/6.1.22-dfsgupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/VBox/Debugger/DBGCEmulateCodeView.cpp')
-rw-r--r--src/VBox/Debugger/DBGCEmulateCodeView.cpp6519
1 files changed, 6519 insertions, 0 deletions
diff --git a/src/VBox/Debugger/DBGCEmulateCodeView.cpp b/src/VBox/Debugger/DBGCEmulateCodeView.cpp
new file mode 100644
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+++ b/src/VBox/Debugger/DBGCEmulateCodeView.cpp
@@ -0,0 +1,6519 @@
+/* $Id: DBGCEmulateCodeView.cpp $ */
+/** @file
+ * DBGC - Debugger Console, CodeView / WinDbg Emulation.
+ */
+
+/*
+ * Copyright (C) 2006-2020 Oracle Corporation
+ *
+ * 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.
+ */
+
+
+/*********************************************************************************************************************************
+* Header Files *
+*********************************************************************************************************************************/
+#define LOG_GROUP LOG_GROUP_DBGC
+#include <VBox/dbg.h>
+#include <VBox/vmm/dbgf.h>
+#include <VBox/vmm/pgm.h>
+#include <VBox/vmm/cpum.h>
+#include <VBox/dis.h>
+#include <VBox/param.h>
+#include <VBox/err.h>
+#include <VBox/log.h>
+
+#include <iprt/asm.h>
+#include <iprt/mem.h>
+#include <iprt/string.h>
+#include <iprt/assert.h>
+#include <iprt/ctype.h>
+#include <iprt/time.h>
+
+#include <stdlib.h>
+#include <stdio.h>
+
+#include "DBGCInternal.h"
+
+
+/*********************************************************************************************************************************
+* Internal Functions *
+*********************************************************************************************************************************/
+static FNDBGCCMD dbgcCmdBrkAccess;
+static FNDBGCCMD dbgcCmdBrkClear;
+static FNDBGCCMD dbgcCmdBrkDisable;
+static FNDBGCCMD dbgcCmdBrkEnable;
+static FNDBGCCMD dbgcCmdBrkList;
+static FNDBGCCMD dbgcCmdBrkSet;
+static FNDBGCCMD dbgcCmdBrkREM;
+static FNDBGCCMD dbgcCmdDumpMem;
+static FNDBGCCMD dbgcCmdDumpDT;
+static FNDBGCCMD dbgcCmdDumpIDT;
+static FNDBGCCMD dbgcCmdDumpPageDir;
+static FNDBGCCMD dbgcCmdDumpPageDirBoth;
+static FNDBGCCMD dbgcCmdDumpPageHierarchy;
+static FNDBGCCMD dbgcCmdDumpPageTable;
+static FNDBGCCMD dbgcCmdDumpPageTableBoth;
+static FNDBGCCMD dbgcCmdDumpTSS;
+static FNDBGCCMD dbgcCmdDumpTypeInfo;
+static FNDBGCCMD dbgcCmdDumpTypedVal;
+static FNDBGCCMD dbgcCmdEditMem;
+static FNDBGCCMD dbgcCmdGo;
+static FNDBGCCMD dbgcCmdGoUp;
+static FNDBGCCMD dbgcCmdListModules;
+static FNDBGCCMD dbgcCmdListNear;
+static FNDBGCCMD dbgcCmdListSource;
+static FNDBGCCMD dbgcCmdListSymbols;
+static FNDBGCCMD dbgcCmdMemoryInfo;
+static FNDBGCCMD dbgcCmdReg;
+static FNDBGCCMD dbgcCmdRegGuest;
+static FNDBGCCMD dbgcCmdRegTerse;
+static FNDBGCCMD dbgcCmdSearchMem;
+static FNDBGCCMD dbgcCmdSearchMemType;
+static FNDBGCCMD dbgcCmdStepTrace;
+static FNDBGCCMD dbgcCmdStepTraceTo;
+static FNDBGCCMD dbgcCmdStepTraceToggle;
+static FNDBGCCMD dbgcCmdEventCtrl;
+static FNDBGCCMD dbgcCmdEventCtrlList;
+static FNDBGCCMD dbgcCmdEventCtrlReset;
+static FNDBGCCMD dbgcCmdStack;
+static FNDBGCCMD dbgcCmdUnassemble;
+static FNDBGCCMD dbgcCmdUnassembleCfg;
+
+
+/*********************************************************************************************************************************
+* Global Variables *
+*********************************************************************************************************************************/
+/** 'ba' arguments. */
+static const DBGCVARDESC g_aArgBrkAcc[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_STRING, 0, "access", "The access type: x=execute, rw=read/write (alias r), w=write, i=not implemented." },
+ { 1, 1, DBGCVAR_CAT_NUMBER, 0, "size", "The access size: 1, 2, 4, or 8. 'x' access requires 1, and 8 requires amd64 long mode." },
+ { 1, 1, DBGCVAR_CAT_GC_POINTER, 0, "address", "The address." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "passes", "The number of passes before we trigger the breakpoint. (0 is default)" },
+ { 0, 1, DBGCVAR_CAT_NUMBER, DBGCVD_FLAGS_DEP_PREV, "max passes", "The number of passes after which we stop triggering the breakpoint. (~0 is default)" },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "cmds", "String of commands to be executed when the breakpoint is hit. Quote it!" },
+};
+
+
+/** 'bc', 'bd', 'be' arguments. */
+static const DBGCVARDESC g_aArgBrks[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_NUMBER, 0, "#bp", "Breakpoint number." },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "all", "All breakpoints." },
+};
+
+
+/** 'bp' arguments. */
+static const DBGCVARDESC g_aArgBrkSet[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_GC_POINTER, 0, "address", "The address." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "passes", "The number of passes before we trigger the breakpoint. (0 is default)" },
+ { 0, 1, DBGCVAR_CAT_NUMBER, DBGCVD_FLAGS_DEP_PREV, "max passes", "The number of passes after which we stop triggering the breakpoint. (~0 is default)" },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "cmds", "String of commands to be executed when the breakpoint is hit. Quote it!" },
+};
+
+
+/** 'br' arguments. */
+static const DBGCVARDESC g_aArgBrkREM[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_GC_POINTER, 0, "address", "The address." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "passes", "The number of passes before we trigger the breakpoint. (0 is default)" },
+ { 0, 1, DBGCVAR_CAT_NUMBER, DBGCVD_FLAGS_DEP_PREV, "max passes", "The number of passes after which we stop triggering the breakpoint. (~0 is default)" },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "cmds", "String of commands to be executed when the breakpoint is hit. Quote it!" },
+};
+
+
+/** 'd?' arguments. */
+static const DBGCVARDESC g_aArgDumpMem[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address where to start dumping memory." },
+};
+
+
+/** 'dg', 'dga', 'dl', 'dla' arguments. */
+static const DBGCVARDESC g_aArgDumpDT[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_NUMBER, 0, "sel", "Selector or selector range." },
+ { 0, ~0U, DBGCVAR_CAT_POINTER, 0, "address", "Far address which selector should be dumped." },
+};
+
+
+/** 'di', 'dia' arguments. */
+static const DBGCVARDESC g_aArgDumpIDT[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_NUMBER, 0, "int", "The interrupt vector or interrupt vector range." },
+};
+
+
+/** 'dpd*' arguments. */
+static const DBGCVARDESC g_aArgDumpPD[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "index", "Index into the page directory." },
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address which page directory entry to start dumping from. Range is applied to the page directory." },
+};
+
+
+/** 'dpda' arguments. */
+static const DBGCVARDESC g_aArgDumpPDAddr[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address of the page directory entry to start dumping from." },
+};
+
+
+/** 'dph*' arguments. */
+static const DBGCVARDESC g_aArgDumpPH[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_GC_POINTER, 0, "address", "Where in the address space to start dumping and for how long (range). The default address/range will be used if omitted." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, DBGCVD_FLAGS_DEP_PREV, "cr3", "The CR3 value to use. The current CR3 of the context will be used if omitted." },
+ { 0, 1, DBGCVAR_CAT_STRING, DBGCVD_FLAGS_DEP_PREV, "mode", "The paging mode: legacy, pse, pae, long, ept. Append '-np' for nested paging and '-nx' for no-execute. The current mode will be used if omitted." },
+};
+
+
+/** 'dpt?' arguments. */
+static const DBGCVARDESC g_aArgDumpPT[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address which page directory entry to start dumping from." },
+};
+
+
+/** 'dpta' arguments. */
+static const DBGCVARDESC g_aArgDumpPTAddr[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address of the page table entry to start dumping from." },
+};
+
+
+/** 'dt' arguments. */
+static const DBGCVARDESC g_aArgDumpTSS[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "tss", "TSS selector number." },
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "tss:ign|addr", "TSS address. If the selector is a TSS selector, the offset will be ignored." }
+};
+
+
+/** 'dti' arguments. */
+static const DBGCVARDESC g_aArgDumpTypeInfo[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_STRING, 0, "type", "The type to dump" },
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "levels", "How many levels to dump the type information" }
+};
+
+
+/** 'dtv' arguments. */
+static const DBGCVARDESC g_aArgDumpTypedVal[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_STRING, 0, "type", "The type to use" },
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address to start dumping from." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "levels", "How many levels to dump" }
+};
+
+
+/** 'e?' arguments. */
+static const DBGCVARDESC g_aArgEditMem[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address where to write." },
+ { 1, ~0U, DBGCVAR_CAT_NUMBER, 0, "value", "Value to write." },
+};
+
+
+/** 'lm' arguments. */
+static const DBGCVARDESC g_aArgListMods[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_STRING, 0, "module", "Module name." },
+};
+
+
+/** 'ln' arguments. */
+static const DBGCVARDESC g_aArgListNear[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_POINTER, 0, "address", "Address of the symbol to look up." },
+ { 0, ~0U, DBGCVAR_CAT_SYMBOL, 0, "symbol", "Symbol to lookup." },
+};
+
+
+/** 'ls' arguments. */
+static const DBGCVARDESC g_aArgListSource[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address where to start looking for source lines." },
+};
+
+
+/** 'm' argument. */
+static const DBGCVARDESC g_aArgMemoryInfo[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Pointer to obtain info about." },
+};
+
+
+/** 'p', 'pc', 'pt', 't', 'tc' and 'tt' arguments. */
+static const DBGCVARDESC g_aArgStepTrace[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_NUMBER, 0, "count", "Number of instructions or source lines to step." },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "cmds", "String of commands to be executed afterwards. Quote it!" },
+};
+
+
+/** 'pa' and 'ta' arguments. */
+static const DBGCVARDESC g_aArgStepTraceTo[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER, 0, "address", "Where to stop" },
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "cmds", "String of commands to be executed afterwards. Quote it!" },
+};
+
+
+/** 'r' arguments. */
+static const DBGCVARDESC g_aArgReg[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_SYMBOL, 0, "register", "Register to show or set." },
+ { 0, 1, DBGCVAR_CAT_STRING, DBGCVD_FLAGS_DEP_PREV, "=", "Equal sign." },
+ { 0, 1, DBGCVAR_CAT_NUMBER, DBGCVD_FLAGS_DEP_PREV, "value", "New register value." },
+};
+
+
+/** 's' arguments. */
+static const DBGCVARDESC g_aArgSearchMem[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-b", "Byte string." },
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-w", "Word string." },
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-d", "DWord string." },
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-q", "QWord string." },
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-a", "ASCII string." },
+ { 0, 1, DBGCVAR_CAT_OPTION, 0, "-u", "Unicode string." },
+ { 0, 1, DBGCVAR_CAT_OPTION_NUMBER, 0, "-n <Hits>", "Maximum number of hits." },
+ { 0, 1, DBGCVAR_CAT_GC_POINTER, 0, "range", "Register to show or set." },
+ { 0, ~0U, DBGCVAR_CAT_ANY, 0, "pattern", "Pattern to search for." },
+};
+
+
+/** 's?' arguments. */
+static const DBGCVARDESC g_aArgSearchMemType[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_GC_POINTER, 0, "range", "Register to show or set." },
+ { 1, ~0U, DBGCVAR_CAT_ANY, 0, "pattern", "Pattern to search for." },
+};
+
+
+/** 'sxe', 'sxn', 'sxi', 'sx-' arguments. */
+static const DBGCVARDESC g_aArgEventCtrl[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_STRING, 0, "-c", "The -c option, requires <cmds>." },
+ { 0, 1, DBGCVAR_CAT_STRING, DBGCVD_FLAGS_DEP_PREV, "cmds", "Command to execute on this event." },
+ { 0 /*weird*/, ~0U, DBGCVAR_CAT_STRING, 0, "event", "One or more events, 'all' refering to all events." },
+};
+
+/** 'sx' and 'sr' arguments. */
+static const DBGCVARDESC g_aArgEventCtrlOpt[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, ~0U, DBGCVAR_CAT_STRING, 0, "event", "Zero or more events, 'all' refering to all events and being the default." },
+};
+
+/** 'u' arguments. */
+static const DBGCVARDESC g_aArgUnassemble[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address where to start disassembling." },
+};
+
+/** 'ucfg' arguments. */
+static const DBGCVARDESC g_aArgUnassembleCfg[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 0, 1, DBGCVAR_CAT_POINTER, 0, "address", "Address where to start disassembling." },
+};
+
+/** 'x' arguments. */
+static const DBGCVARDESC g_aArgListSyms[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_STRING, 0, "symbols", "The symbols to list, format is Module!Symbol with wildcards being supoprted." }
+};
+
+
+/** Command descriptors for the CodeView / WinDbg emulation.
+ * The emulation isn't attempting to be identical, only somewhat similar.
+ */
+const DBGCCMD g_aCmdsCodeView[] =
+{
+ /* pszCmd, cArgsMin, cArgsMax, paArgDescs, cArgDescs, fFlags, pfnHandler pszSyntax, ....pszDescription */
+ { "ba", 3, 6, &g_aArgBrkAcc[0], RT_ELEMENTS(g_aArgBrkAcc), 0, dbgcCmdBrkAccess, "<access> <size> <address> [passes [max passes]] [cmds]",
+ "Sets a data access breakpoint." },
+ { "bc", 1, ~0U, &g_aArgBrks[0], RT_ELEMENTS(g_aArgBrks), 0, dbgcCmdBrkClear, "all | <bp#> [bp# []]", "Deletes a set of breakpoints." },
+ { "bd", 1, ~0U, &g_aArgBrks[0], RT_ELEMENTS(g_aArgBrks), 0, dbgcCmdBrkDisable, "all | <bp#> [bp# []]", "Disables a set of breakpoints." },
+ { "be", 1, ~0U, &g_aArgBrks[0], RT_ELEMENTS(g_aArgBrks), 0, dbgcCmdBrkEnable, "all | <bp#> [bp# []]", "Enables a set of breakpoints." },
+ { "bl", 0, 0, NULL, 0, 0, dbgcCmdBrkList, "", "Lists all the breakpoints." },
+ { "bp", 1, 4, &g_aArgBrkSet[0], RT_ELEMENTS(g_aArgBrkSet), 0, dbgcCmdBrkSet, "<address> [passes [max passes]] [cmds]",
+ "Sets a breakpoint (int 3)." },
+ { "br", 1, 4, &g_aArgBrkREM[0], RT_ELEMENTS(g_aArgBrkREM), 0, dbgcCmdBrkREM, "<address> [passes [max passes]] [cmds]",
+ "Sets a recompiler specific breakpoint." },
+ { "d", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory using last element size and type." },
+ { "dF", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as far 16:16." },
+ { "dFs", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as far 16:16 with near symbols." },
+ { "da", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as ascii string." },
+ { "db", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in bytes." },
+ { "dd", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in double words." },
+ { "dds", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as double words with near symbols." },
+ { "da", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as ascii string." },
+ { "dg", 0, ~0U, &g_aArgDumpDT[0], RT_ELEMENTS(g_aArgDumpDT), 0, dbgcCmdDumpDT, "[sel [..]]", "Dump the global descriptor table (GDT)." },
+ { "dga", 0, ~0U, &g_aArgDumpDT[0], RT_ELEMENTS(g_aArgDumpDT), 0, dbgcCmdDumpDT, "[sel [..]]", "Dump the global descriptor table (GDT) including not-present entries." },
+ { "di", 0, ~0U, &g_aArgDumpIDT[0], RT_ELEMENTS(g_aArgDumpIDT), 0, dbgcCmdDumpIDT, "[int [..]]", "Dump the interrupt descriptor table (IDT)." },
+ { "dia", 0, ~0U, &g_aArgDumpIDT[0], RT_ELEMENTS(g_aArgDumpIDT), 0, dbgcCmdDumpIDT, "[int [..]]", "Dump the interrupt descriptor table (IDT) including not-present entries." },
+ { "dl", 0, ~0U, &g_aArgDumpDT[0], RT_ELEMENTS(g_aArgDumpDT), 0, dbgcCmdDumpDT, "[sel [..]]", "Dump the local descriptor table (LDT)." },
+ { "dla", 0, ~0U, &g_aArgDumpDT[0], RT_ELEMENTS(g_aArgDumpDT), 0, dbgcCmdDumpDT, "[sel [..]]", "Dump the local descriptor table (LDT) including not-present entries." },
+ { "dpd", 0, 1, &g_aArgDumpPD[0], RT_ELEMENTS(g_aArgDumpPD), 0, dbgcCmdDumpPageDir, "[addr|index]", "Dumps page directory entries of the default context." },
+ { "dpda", 0, 1, &g_aArgDumpPDAddr[0],RT_ELEMENTS(g_aArgDumpPDAddr), 0, dbgcCmdDumpPageDir, "[addr]", "Dumps memory at given address as a page directory." },
+ { "dpdb", 0, 1, &g_aArgDumpPD[0], RT_ELEMENTS(g_aArgDumpPD), 0, dbgcCmdDumpPageDirBoth, "[addr|index]", "Dumps page directory entries of the guest and the hypervisor. " },
+ { "dpdg", 0, 1, &g_aArgDumpPD[0], RT_ELEMENTS(g_aArgDumpPD), 0, dbgcCmdDumpPageDir, "[addr|index]", "Dumps page directory entries of the guest." },
+ { "dpdh", 0, 1, &g_aArgDumpPD[0], RT_ELEMENTS(g_aArgDumpPD), 0, dbgcCmdDumpPageDir, "[addr|index]", "Dumps page directory entries of the hypervisor. " },
+ { "dph", 0, 3, &g_aArgDumpPH[0], RT_ELEMENTS(g_aArgDumpPH), 0, dbgcCmdDumpPageHierarchy, "[addr [cr3 [mode]]", "Dumps the paging hierarchy at for specfied address range. Default context." },
+ { "dphg", 0, 3, &g_aArgDumpPH[0], RT_ELEMENTS(g_aArgDumpPH), 0, dbgcCmdDumpPageHierarchy, "[addr [cr3 [mode]]", "Dumps the paging hierarchy at for specfied address range. Guest context." },
+ { "dphh", 0, 3, &g_aArgDumpPH[0], RT_ELEMENTS(g_aArgDumpPH), 0, dbgcCmdDumpPageHierarchy, "[addr [cr3 [mode]]", "Dumps the paging hierarchy at for specfied address range. Hypervisor context." },
+ { "dp", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in mode sized words." },
+ { "dps", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in mode sized words with near symbols." },
+ { "dpt", 1, 1, &g_aArgDumpPT[0], RT_ELEMENTS(g_aArgDumpPT), 0, dbgcCmdDumpPageTable,"<addr>", "Dumps page table entries of the default context." },
+ { "dpta", 1, 1, &g_aArgDumpPTAddr[0],RT_ELEMENTS(g_aArgDumpPTAddr), 0, dbgcCmdDumpPageTable,"<addr>", "Dumps memory at given address as a page table." },
+ { "dptb", 1, 1, &g_aArgDumpPT[0], RT_ELEMENTS(g_aArgDumpPT), 0, dbgcCmdDumpPageTableBoth,"<addr>", "Dumps page table entries of the guest and the hypervisor." },
+ { "dptg", 1, 1, &g_aArgDumpPT[0], RT_ELEMENTS(g_aArgDumpPT), 0, dbgcCmdDumpPageTable,"<addr>", "Dumps page table entries of the guest." },
+ { "dpth", 1, 1, &g_aArgDumpPT[0], RT_ELEMENTS(g_aArgDumpPT), 0, dbgcCmdDumpPageTable,"<addr>", "Dumps page table entries of the hypervisor." },
+ { "dq", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in quad words." },
+ { "dqs", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as quad words with near symbols." },
+ { "dt", 0, 1, &g_aArgDumpTSS[0], RT_ELEMENTS(g_aArgDumpTSS), 0, dbgcCmdDumpTSS, "[tss|tss:ign|addr]", "Dump the task state segment (TSS)." },
+ { "dt16", 0, 1, &g_aArgDumpTSS[0], RT_ELEMENTS(g_aArgDumpTSS), 0, dbgcCmdDumpTSS, "[tss|tss:ign|addr]", "Dump the 16-bit task state segment (TSS)." },
+ { "dt32", 0, 1, &g_aArgDumpTSS[0], RT_ELEMENTS(g_aArgDumpTSS), 0, dbgcCmdDumpTSS, "[tss|tss:ign|addr]", "Dump the 32-bit task state segment (TSS)." },
+ { "dt64", 0, 1, &g_aArgDumpTSS[0], RT_ELEMENTS(g_aArgDumpTSS), 0, dbgcCmdDumpTSS, "[tss|tss:ign|addr]", "Dump the 64-bit task state segment (TSS)." },
+ { "dti", 1, 2, &g_aArgDumpTypeInfo[0],RT_ELEMENTS(g_aArgDumpTypeInfo), 0, dbgcCmdDumpTypeInfo,"<type> [levels]", "Dump type information." },
+ { "dtv", 2, 3, &g_aArgDumpTypedVal[0],RT_ELEMENTS(g_aArgDumpTypedVal), 0, dbgcCmdDumpTypedVal,"<type> <addr> [levels]", "Dump a memory buffer using the information in the given type." },
+ { "du", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory as unicode string (little endian)." },
+ { "dw", 0, 1, &g_aArgDumpMem[0], RT_ELEMENTS(g_aArgDumpMem), 0, dbgcCmdDumpMem, "[addr]", "Dump memory in words." },
+ /** @todo add 'e', 'ea str', 'eza str', 'eu str' and 'ezu str'. See also
+ * dbgcCmdSearchMem and its dbgcVarsToBytes usage. */
+ { "eb", 2, 2, &g_aArgEditMem[0], RT_ELEMENTS(g_aArgEditMem), 0, dbgcCmdEditMem, "<addr> <value>", "Write a 1-byte value to memory." },
+ { "ew", 2, 2, &g_aArgEditMem[0], RT_ELEMENTS(g_aArgEditMem), 0, dbgcCmdEditMem, "<addr> <value>", "Write a 2-byte value to memory." },
+ { "ed", 2, 2, &g_aArgEditMem[0], RT_ELEMENTS(g_aArgEditMem), 0, dbgcCmdEditMem, "<addr> <value>", "Write a 4-byte value to memory." },
+ { "eq", 2, 2, &g_aArgEditMem[0], RT_ELEMENTS(g_aArgEditMem), 0, dbgcCmdEditMem, "<addr> <value>", "Write a 8-byte value to memory." },
+ { "g", 0, 0, NULL, 0, 0, dbgcCmdGo, "", "Continue execution." },
+ { "gu", 0, 0, NULL, 0, 0, dbgcCmdGoUp, "", "Go up - continue execution till after return." },
+ { "k", 0, 0, NULL, 0, 0, dbgcCmdStack, "", "Callstack." },
+ { "kv", 0, 0, NULL, 0, 0, dbgcCmdStack, "", "Verbose callstack." },
+ { "kg", 0, 0, NULL, 0, 0, dbgcCmdStack, "", "Callstack - guest." },
+ { "kgv", 0, 0, NULL, 0, 0, dbgcCmdStack, "", "Verbose callstack - guest." },
+ { "kh", 0, 0, NULL, 0, 0, dbgcCmdStack, "", "Callstack - hypervisor." },
+ { "lm", 0, ~0U, &g_aArgListMods[0], RT_ELEMENTS(g_aArgListMods), 0, dbgcCmdListModules, "[module [..]]", "List modules." },
+ { "lmv", 0, ~0U, &g_aArgListMods[0], RT_ELEMENTS(g_aArgListMods), 0, dbgcCmdListModules, "[module [..]]", "List modules, verbose." },
+ { "lmo", 0, ~0U, &g_aArgListMods[0], RT_ELEMENTS(g_aArgListMods), 0, dbgcCmdListModules, "[module [..]]", "List modules and their segments." },
+ { "lmov", 0, ~0U, &g_aArgListMods[0], RT_ELEMENTS(g_aArgListMods), 0, dbgcCmdListModules, "[module [..]]", "List modules and their segments, verbose." },
+ { "ln", 0, ~0U, &g_aArgListNear[0], RT_ELEMENTS(g_aArgListNear), 0, dbgcCmdListNear, "[addr/sym [..]]", "List symbols near to the address. Default address is CS:EIP." },
+ { "ls", 0, 1, &g_aArgListSource[0],RT_ELEMENTS(g_aArgListSource), 0, dbgcCmdListSource, "[addr]", "Source." },
+ { "m", 1, 1, &g_aArgMemoryInfo[0],RT_ELEMENTS(g_aArgMemoryInfo), 0, dbgcCmdMemoryInfo, "<addr>", "Display information about that piece of memory." },
+ { "p", 0, 2, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Step over." },
+ { "pr", 0, 0, NULL, 0, 0, dbgcCmdStepTraceToggle, "", "Toggle displaying registers for tracing & stepping (no code executed)." },
+ { "pa", 1, 1, &g_aArgStepTraceTo[0], RT_ELEMENTS(g_aArgStepTraceTo), 0, dbgcCmdStepTraceTo, "<addr> [count] [cmds]","Step to the given address." },
+ { "pc", 0, 0, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Step to the next call instruction." },
+ { "pt", 0, 0, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Step to the next return instruction." },
+ { "r", 0, 3, &g_aArgReg[0], RT_ELEMENTS(g_aArgReg), 0, dbgcCmdReg, "[reg [[=] newval]]", "Show or set register(s) - active reg set." },
+ { "rg", 0, 3, &g_aArgReg[0], RT_ELEMENTS(g_aArgReg), 0, dbgcCmdRegGuest, "[reg [[=] newval]]", "Show or set register(s) - guest reg set." },
+ { "rg32", 0, 0, NULL, 0, 0, dbgcCmdRegGuest, "", "Show 32-bit guest registers." },
+ { "rg64", 0, 0, NULL, 0, 0, dbgcCmdRegGuest, "", "Show 64-bit guest registers." },
+ { "rt", 0, 0, NULL, 0, 0, dbgcCmdRegTerse, "", "Toggles terse / verbose register info." },
+ { "s", 0, ~0U, &g_aArgSearchMem[0], RT_ELEMENTS(g_aArgSearchMem), 0, dbgcCmdSearchMem, "[options] <range> <pattern>", "Continue last search." },
+ { "sa", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for an ascii string." },
+ { "sb", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for one or more bytes." },
+ { "sd", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for one or more double words." },
+ { "sq", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for one or more quad words." },
+ { "su", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for an unicode string." },
+ { "sw", 2, ~0U, &g_aArgSearchMemType[0], RT_ELEMENTS(g_aArgSearchMemType),0, dbgcCmdSearchMemType, "<range> <pattern>", "Search memory for one or more words." },
+ { "sx", 0, ~0U, &g_aArgEventCtrlOpt[0], RT_ELEMENTS(g_aArgEventCtrlOpt), 0, dbgcCmdEventCtrlList, "[<event> [..]]", "Lists settings for exceptions, exits and other events. All if no filter is specified." },
+ { "sx-", 3, ~0U, &g_aArgEventCtrl[0], RT_ELEMENTS(g_aArgEventCtrl), 0, dbgcCmdEventCtrl, "-c <cmd> <event> [..]", "Modifies the command for one or more exceptions, exits or other event. 'all' addresses all." },
+ { "sxe", 1, ~0U, &g_aArgEventCtrl[0], RT_ELEMENTS(g_aArgEventCtrl), 0, dbgcCmdEventCtrl, "[-c <cmd>] <event> [..]", "Enable: Break into the debugger on the specified exceptions, exits and other events. 'all' addresses all." },
+ { "sxn", 1, ~0U, &g_aArgEventCtrl[0], RT_ELEMENTS(g_aArgEventCtrl), 0, dbgcCmdEventCtrl, "[-c <cmd>] <event> [..]", "Notify: Display info in the debugger and continue on the specified exceptions, exits and other events. 'all' addresses all." },
+ { "sxi", 1, ~0U, &g_aArgEventCtrl[0], RT_ELEMENTS(g_aArgEventCtrl), 0, dbgcCmdEventCtrl, "[-c <cmd>] <event> [..]", "Ignore: Ignore the specified exceptions, exits and other events ('all' = all of them). Without the -c option, the guest runs like normal." },
+ { "sxr", 0, 0, &g_aArgEventCtrlOpt[0], RT_ELEMENTS(g_aArgEventCtrlOpt), 0, dbgcCmdEventCtrlReset, "", "Reset the settings to default for exceptions, exits and other events. All if no filter is specified." },
+ { "t", 0, 2, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Trace ." },
+ { "tr", 0, 0, NULL, 0, 0, dbgcCmdStepTraceToggle, "", "Toggle displaying registers for tracing & stepping (no code executed)." },
+ { "ta", 1, 1, &g_aArgStepTraceTo[0], RT_ELEMENTS(g_aArgStepTraceTo), 0, dbgcCmdStepTraceTo, "<addr> [count] [cmds]","Trace to the given address." },
+ { "tc", 0, 0, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Trace to the next call instruction." },
+ { "tt", 0, 0, &g_aArgStepTrace[0], RT_ELEMENTS(g_aArgStepTrace), 0, dbgcCmdStepTrace, "[count] [cmds]", "Trace to the next return instruction." },
+ { "u", 0, 1, &g_aArgUnassemble[0],RT_ELEMENTS(g_aArgUnassemble), 0, dbgcCmdUnassemble, "[addr]", "Unassemble." },
+ { "u64", 0, 1, &g_aArgUnassemble[0],RT_ELEMENTS(g_aArgUnassemble), 0, dbgcCmdUnassemble, "[addr]", "Unassemble 64-bit code." },
+ { "u32", 0, 1, &g_aArgUnassemble[0],RT_ELEMENTS(g_aArgUnassemble), 0, dbgcCmdUnassemble, "[addr]", "Unassemble 32-bit code." },
+ { "u16", 0, 1, &g_aArgUnassemble[0],RT_ELEMENTS(g_aArgUnassemble), 0, dbgcCmdUnassemble, "[addr]", "Unassemble 16-bit code." },
+ { "uv86", 0, 1, &g_aArgUnassemble[0],RT_ELEMENTS(g_aArgUnassemble), 0, dbgcCmdUnassemble, "[addr]", "Unassemble 16-bit code with v8086/real mode addressing." },
+ { "ucfg", 0, 1, &g_aArgUnassembleCfg[0], RT_ELEMENTS(g_aArgUnassembleCfg), 0, dbgcCmdUnassembleCfg, "[addr]", "Unassemble creating a control flow graph." },
+ { "ucfgc", 0, 1, &g_aArgUnassembleCfg[0], RT_ELEMENTS(g_aArgUnassembleCfg), 0, dbgcCmdUnassembleCfg, "[addr]", "Unassemble creating a control flow graph with colors." },
+ { "x", 1, 1, &g_aArgListSyms[0], RT_ELEMENTS(g_aArgListSyms), 0, dbgcCmdListSymbols, "* | <Module!Symbol>", "Examine symbols." },
+};
+
+/** The number of commands in the CodeView/WinDbg emulation. */
+const uint32_t g_cCmdsCodeView = RT_ELEMENTS(g_aCmdsCodeView);
+
+
+/**
+ * Selectable debug event descriptors.
+ *
+ * @remarks Sorted by DBGCSXEVT::enmType value.
+ */
+const DBGCSXEVT g_aDbgcSxEvents[] =
+{
+ { DBGFEVENT_INTERRUPT_HARDWARE, "hwint", NULL, kDbgcSxEventKind_Interrupt, kDbgcEvtState_Disabled, 0, "Hardware interrupt" },
+ { DBGFEVENT_INTERRUPT_SOFTWARE, "swint", NULL, kDbgcSxEventKind_Interrupt, kDbgcEvtState_Disabled, 0, "Software interrupt" },
+ { DBGFEVENT_TRIPLE_FAULT, "triplefault", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Enabled, 0, "Triple fault "},
+ { DBGFEVENT_XCPT_DE, "xcpt_de", "de", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#DE (integer divide error)" },
+ { DBGFEVENT_XCPT_DB, "xcpt_db", "db", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#DB (debug)" },
+ { DBGFEVENT_XCPT_02, "xcpt_02", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_BP, "xcpt_bp", "bp", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#BP (breakpoint)" },
+ { DBGFEVENT_XCPT_OF, "xcpt_of", "of", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#OF (overflow (INTO))" },
+ { DBGFEVENT_XCPT_BR, "xcpt_br", "br", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#BR (bound range exceeded)" },
+ { DBGFEVENT_XCPT_UD, "xcpt_ud", "ud", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#UD (undefined opcode)" },
+ { DBGFEVENT_XCPT_NM, "xcpt_nm", "nm", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#NM (FPU not available)" },
+ { DBGFEVENT_XCPT_DF, "xcpt_df", "df", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#DF (double fault)" },
+ { DBGFEVENT_XCPT_09, "xcpt_09", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "Coprocessor segment overrun" },
+ { DBGFEVENT_XCPT_TS, "xcpt_ts", "ts", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#TS (task switch)" },
+ { DBGFEVENT_XCPT_NP, "xcpt_np", "np", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#NP (segment not present)" },
+ { DBGFEVENT_XCPT_SS, "xcpt_ss", "ss", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#SS (stack segment fault)" },
+ { DBGFEVENT_XCPT_GP, "xcpt_gp", "gp", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#GP (general protection fault)" },
+ { DBGFEVENT_XCPT_PF, "xcpt_pf", "pf", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#PF (page fault)" },
+ { DBGFEVENT_XCPT_0f, "xcpt_0f", "xcpt0f", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_MF, "xcpt_mf", "mf", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#MF (math fault)" },
+ { DBGFEVENT_XCPT_AC, "xcpt_ac", "ac", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#AC (alignment check)" },
+ { DBGFEVENT_XCPT_MC, "xcpt_mc", "mc", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#MC (machine check)" },
+ { DBGFEVENT_XCPT_XF, "xcpt_xf", "xf", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#XF (SIMD floating-point exception)" },
+ { DBGFEVENT_XCPT_VE, "xcpt_vd", "ve", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, "#VE (virtualization exception)" },
+ { DBGFEVENT_XCPT_15, "xcpt_15", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_16, "xcpt_16", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_17, "xcpt_17", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_18, "xcpt_18", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_19, "xcpt_19", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_1a, "xcpt_1a", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_1b, "xcpt_1b", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_1c, "xcpt_1c", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_1d, "xcpt_1d", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_XCPT_SX, "xcpt_sx", "sx", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, "#SX (security exception)" },
+ { DBGFEVENT_XCPT_1f, "xcpt_1f", "xcpt1f", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_HALT, "instr_halt", "hlt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_MWAIT, "instr_mwait", "mwait", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_MONITOR, "instr_monitor", "monitor", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_CPUID, "instr_cpuid", "cpuid", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_INVD, "instr_invd", "invd", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_WBINVD, "instr_wbinvd", "wbinvd", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_INVLPG, "instr_invlpg", "invlpg", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDTSC, "instr_rdtsc", "rdtsc", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDTSCP, "instr_rdtscp", "rdtscp", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDPMC, "instr_rdpmc", "rdpmc", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDMSR, "instr_rdmsr", "rdmsr", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_WRMSR, "instr_wrmsr", "wrmsr", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_CRX_READ, "instr_crx_read", "crx_read", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, NULL },
+ { DBGFEVENT_INSTR_CRX_WRITE, "instr_crx_write", "crx_write",kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, NULL },
+ { DBGFEVENT_INSTR_DRX_READ, "instr_drx_read", "drx_read", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, NULL },
+ { DBGFEVENT_INSTR_DRX_WRITE, "instr_drx_write", "drx_write",kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_TAKE_ARG, NULL },
+ { DBGFEVENT_INSTR_PAUSE, "instr_pause", "pause", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_XSETBV, "instr_xsetbv", "xsetbv", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SIDT, "instr_sidt", "sidt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_LIDT, "instr_lidt", "lidt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SGDT, "instr_sgdt", "sgdt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_LGDT, "instr_lgdt", "lgdt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SLDT, "instr_sldt", "sldt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_LLDT, "instr_lldt", "lldt", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_STR, "instr_str", "str", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_LTR, "instr_ltr", "ltr", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_GETSEC, "instr_getsec", "getsec", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RSM, "instr_rsm", "rsm", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDRAND, "instr_rdrand", "rdrand", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_RDSEED, "instr_rdseed", "rdseed", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_XSAVES, "instr_xsaves", "xsaves", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_XRSTORS, "instr_xrstors", "xrstors", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMM_CALL, "instr_vmm_call", "vmm_call", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMCLEAR, "instr_vmx_vmclear", "vmclear", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMLAUNCH, "instr_vmx_vmlaunch", "vmlaunch", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMPTRLD, "instr_vmx_vmptrld", "vmptrld", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMPTRST, "instr_vmx_vmptrst", "vmptrst", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMREAD, "instr_vmx_vmread", "vmread", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMRESUME, "instr_vmx_vmresume", "vmresume", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMWRITE, "instr_vmx_vmwrite", "vmwrite", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMXOFF, "instr_vmx_vmxoff", "vmxoff", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMXON, "instr_vmx_vmxon", "vmxon", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_VMFUNC, "instr_vmx_vmfunc", "vmfunc", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_INVEPT, "instr_vmx_invept", "invept", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_INVVPID, "instr_vmx_invvpid", "invvpid", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_VMX_INVPCID, "instr_vmx_invpcid", "invpcid", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SVM_VMRUN, "instr_svm_vmrun", "vmrun", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SVM_VMLOAD, "instr_svm_vmload", "vmload", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SVM_VMSAVE, "instr_svm_vmsave", "vmsave", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SVM_STGI, "instr_svm_stgi", "stgi", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_INSTR_SVM_CLGI, "instr_svm_clgi", "clgi", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_TASK_SWITCH, "exit_task_switch", "task_switch", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_HALT, "exit_halt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_MWAIT, "exit_mwait", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_MONITOR, "exit_monitor", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_CPUID, "exit_cpuid", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_INVD, "exit_invd", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_WBINVD, "exit_wbinvd", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_INVLPG, "exit_invlpg", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDTSC, "exit_rdtsc", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDTSCP, "exit_rdtscp", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDPMC, "exit_rdpmc", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDMSR, "exit_rdmsr", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_WRMSR, "exit_wrmsr", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_CRX_READ, "exit_crx_read", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_CRX_WRITE, "exit_crx_write", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_DRX_READ, "exit_drx_read", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_DRX_WRITE, "exit_drx_write", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_PAUSE, "exit_pause", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_XSETBV, "exit_xsetbv", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SIDT, "exit_sidt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_LIDT, "exit_lidt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SGDT, "exit_sgdt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_LGDT, "exit_lgdt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SLDT, "exit_sldt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_LLDT, "exit_lldt", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_STR, "exit_str", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_LTR, "exit_ltr", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_GETSEC, "exit_getsec", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RSM, "exit_rsm", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDRAND, "exit_rdrand", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_RDSEED, "exit_rdseed", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_XSAVES, "exit_xsaves", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_XRSTORS, "exit_xrstors", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMM_CALL, "exit_vmm_call", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMCLEAR, "exit_vmx_vmclear", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMLAUNCH, "exit_vmx_vmlaunch", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMPTRLD, "exit_vmx_vmptrld", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMPTRST, "exit_vmx_vmptrst", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMREAD, "exit_vmx_vmread", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMRESUME, "exit_vmx_vmresume", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMWRITE, "exit_vmx_vmwrite", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMXOFF, "exit_vmx_vmxoff", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMXON, "exit_vmx_vmxon", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VMFUNC, "exit_vmx_vmfunc", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_INVEPT, "exit_vmx_invept", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_INVVPID, "exit_vmx_invvpid", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_INVPCID, "exit_vmx_invpcid", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_EPT_VIOLATION, "exit_vmx_ept_violation", "eptvio", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_EPT_MISCONFIG, "exit_vmx_ept_misconfig", "eptmis", kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VAPIC_ACCESS, "exit_vmx_vapic_access", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_VMX_VAPIC_WRITE, "exit_vmx_vapic_write", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SVM_VMRUN, "exit_svm_vmrun", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SVM_VMLOAD, "exit_svm_vmload", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SVM_VMSAVE, "exit_svm_vmsave", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SVM_STGI, "exit_svm_stgi", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_EXIT_SVM_CLGI, "exit_svm_clgi", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_IOPORT_UNASSIGNED, "pio_unassigned", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_IOPORT_UNUSED, "pio_unused", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_MEMORY_UNASSIGNED, "mmio_unassigned", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_MEMORY_ROM_WRITE, "rom_write", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, 0, NULL },
+ { DBGFEVENT_BSOD_MSR, "bsod_msr", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_BUGCHECK, NULL },
+ { DBGFEVENT_BSOD_EFI, "bsod_efi", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_BUGCHECK, NULL },
+ { DBGFEVENT_BSOD_VMMDEV, "bsod_vmmdev", NULL, kDbgcSxEventKind_Plain, kDbgcEvtState_Disabled, DBGCSXEVT_F_BUGCHECK, NULL },
+};
+/** Number of entries in g_aDbgcSxEvents. */
+const uint32_t g_cDbgcSxEvents = RT_ELEMENTS(g_aDbgcSxEvents);
+
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'g' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdGo(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Check if the VM is halted or not before trying to resume it.
+ */
+ if (!DBGFR3IsHalted(pUVM))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "The VM is already running");
+
+ int rc = DBGFR3Resume(pUVM);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3Resume");
+
+ NOREF(paArgs); NOREF(cArgs);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'gu' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdGoUp(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ RT_NOREF(pCmd, paArgs, cArgs);
+
+ /* The simple way out. */
+ PDBGFADDRESS pStackPop = NULL; /** @todo try set up some stack limitations */
+ RTGCPTR cbStackPop = 0;
+ int rc = DBGFR3StepEx(pUVM, pDbgc->idCpu, DBGF_STEP_F_OVER | DBGF_STEP_F_STOP_AFTER_RET, NULL, pStackPop, cbStackPop, _512K);
+ if (RT_SUCCESS(rc))
+ pDbgc->fReady = false;
+ else
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3StepEx(,,DBGF_STEP_F_OVER | DBGF_STEP_F_STOP_AFTER_RET,) failed");
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'ba' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkAccess(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Interpret access type.
+ */
+ if ( !strchr("xrwi", paArgs[0].u.pszString[0])
+ || paArgs[0].u.pszString[1])
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid access type '%s' for '%s'. Valid types are 'e', 'r', 'w' and 'i'",
+ paArgs[0].u.pszString, pCmd->pszCmd);
+ uint8_t fType = 0;
+ switch (paArgs[0].u.pszString[0])
+ {
+ case 'x': fType = X86_DR7_RW_EO; break;
+ case 'r': fType = X86_DR7_RW_RW; break;
+ case 'w': fType = X86_DR7_RW_WO; break;
+ case 'i': fType = X86_DR7_RW_IO; break;
+ }
+
+ /*
+ * Validate size.
+ */
+ if (fType == X86_DR7_RW_EO && paArgs[1].u.u64Number != 1)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid access size %RX64 for '%s'. 'x' access type requires size 1!",
+ paArgs[1].u.u64Number, pCmd->pszCmd);
+ switch (paArgs[1].u.u64Number)
+ {
+ case 1:
+ case 2:
+ case 4:
+ break;
+ /*case 8: - later*/
+ default:
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid access size %RX64 for '%s'. 1, 2 or 4!",
+ paArgs[1].u.u64Number, pCmd->pszCmd);
+ }
+ uint8_t cb = (uint8_t)paArgs[1].u.u64Number;
+
+ /*
+ * Convert the pointer to a DBGF address.
+ */
+ DBGFADDRESS Address;
+ int rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &paArgs[2], &Address);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr(,%DV,)", &paArgs[2]);
+
+ /*
+ * Pick out the optional arguments.
+ */
+ uint64_t iHitTrigger = 0;
+ uint64_t iHitDisable = UINT64_MAX;
+ const char *pszCmds = NULL;
+ unsigned iArg = 3;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitTrigger = paArgs[iArg].u.u64Number;
+ iArg++;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitDisable = paArgs[iArg].u.u64Number;
+ iArg++;
+ }
+ }
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_STRING)
+ {
+ pszCmds = paArgs[iArg].u.pszString;
+ iArg++;
+ }
+
+ /*
+ * Try set the breakpoint.
+ */
+ uint32_t iBp;
+ rc = DBGFR3BpSetReg(pUVM, &Address, iHitTrigger, iHitDisable, fType, cb, &iBp);
+ if (RT_SUCCESS(rc))
+ {
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ rc = dbgcBpAdd(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Set access breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ if (rc == VERR_DBGC_BP_EXISTS)
+ {
+ rc = dbgcBpUpdate(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Updated access breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ }
+ int rc2 = DBGFR3BpClear(pDbgc->pUVM, iBp);
+ AssertRC(rc2);
+ }
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "Failed to set access breakpoint at %RGv", Address.FlatPtr);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'bc' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkClear(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Enumerate the arguments.
+ */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ int rc = VINF_SUCCESS;
+ for (unsigned iArg = 0; iArg < cArgs && RT_SUCCESS(rc); iArg++)
+ {
+ if (paArgs[iArg].enmType != DBGCVAR_TYPE_STRING)
+ {
+ /* one */
+ uint32_t iBp = (uint32_t)paArgs[iArg].u.u64Number;
+ if (iBp == paArgs[iArg].u.u64Number)
+ {
+ int rc2 = DBGFR3BpClear(pUVM, iBp);
+ if (RT_FAILURE(rc2))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc2, "DBGFR3BpClear(,%#x)", iBp);
+ if (RT_SUCCESS(rc2) || rc2 == VERR_DBGF_BP_NOT_FOUND)
+ dbgcBpDelete(pDbgc, iBp);
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Breakpoint id %RX64 is too large", paArgs[iArg].u.u64Number);
+ }
+ else if (!strcmp(paArgs[iArg].u.pszString, "all"))
+ {
+ /* all */
+ PDBGCBP pBp = pDbgc->pFirstBp;
+ while (pBp)
+ {
+ uint32_t iBp = pBp->iBp;
+ pBp = pBp->pNext;
+
+ int rc2 = DBGFR3BpClear(pUVM, iBp);
+ if (RT_FAILURE(rc2))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc2, "DBGFR3BpClear(,%#x)", iBp);
+ if (RT_SUCCESS(rc2) || rc2 == VERR_DBGF_BP_NOT_FOUND)
+ dbgcBpDelete(pDbgc, iBp);
+ }
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid argument '%s'", paArgs[iArg].u.pszString);
+ }
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'bd' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkDisable(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Enumerate the arguments.
+ */
+ int rc = VINF_SUCCESS;
+ for (unsigned iArg = 0; iArg < cArgs && RT_SUCCESS(rc); iArg++)
+ {
+ if (paArgs[iArg].enmType != DBGCVAR_TYPE_STRING)
+ {
+ /* one */
+ uint32_t iBp = (uint32_t)paArgs[iArg].u.u64Number;
+ if (iBp == paArgs[iArg].u.u64Number)
+ {
+ rc = DBGFR3BpDisable(pUVM, iBp);
+ if (RT_FAILURE(rc))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3BpDisable failed for breakpoint %#x", iBp);
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Breakpoint id %RX64 is too large", paArgs[iArg].u.u64Number);
+ }
+ else if (!strcmp(paArgs[iArg].u.pszString, "all"))
+ {
+ /* all */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ for (PDBGCBP pBp = pDbgc->pFirstBp; pBp; pBp = pBp->pNext)
+ {
+ int rc2 = DBGFR3BpDisable(pUVM, pBp->iBp);
+ if (RT_FAILURE(rc2))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc2, "DBGFR3BpDisable failed for breakpoint %#x", pBp->iBp);
+ }
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid argument '%s'", paArgs[iArg].u.pszString);
+ }
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'be' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkEnable(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Enumerate the arguments.
+ */
+ int rc = VINF_SUCCESS;
+ for (unsigned iArg = 0; iArg < cArgs && RT_SUCCESS(rc); iArg++)
+ {
+ if (paArgs[iArg].enmType != DBGCVAR_TYPE_STRING)
+ {
+ /* one */
+ uint32_t iBp = (uint32_t)paArgs[iArg].u.u64Number;
+ if (iBp == paArgs[iArg].u.u64Number)
+ {
+ rc = DBGFR3BpEnable(pUVM, iBp);
+ if (RT_FAILURE(rc))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3BpEnable failed for breakpoint %#x", iBp);
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Breakpoint id %RX64 is too large", paArgs[iArg].u.u64Number);
+ }
+ else if (!strcmp(paArgs[iArg].u.pszString, "all"))
+ {
+ /* all */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ for (PDBGCBP pBp = pDbgc->pFirstBp; pBp; pBp = pBp->pNext)
+ {
+ int rc2 = DBGFR3BpEnable(pUVM, pBp->iBp);
+ if (RT_FAILURE(rc2))
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc2, "DBGFR3BpEnable failed for breakpoint %#x", pBp->iBp);
+ }
+ }
+ else
+ rc = DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid argument '%s'", paArgs[iArg].u.pszString);
+ }
+ return rc;
+}
+
+
+/**
+ * Breakpoint enumeration callback function.
+ *
+ * @returns VBox status code. Any failure will stop the enumeration.
+ * @param pUVM The user mode VM handle.
+ * @param pvUser The user argument.
+ * @param pBp Pointer to the breakpoint information. (readonly)
+ */
+static DECLCALLBACK(int) dbgcEnumBreakpointsCallback(PUVM pUVM, void *pvUser, PCDBGFBP pBp)
+{
+ PDBGC pDbgc = (PDBGC)pvUser;
+ PDBGCBP pDbgcBp = dbgcBpGet(pDbgc, pBp->iBp);
+
+ /*
+ * BP type and size.
+ */
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%#4x %c ", pBp->iBp, pBp->fEnabled ? 'e' : 'd');
+ bool fHasAddress = false;
+ switch (pBp->enmType)
+ {
+ case DBGFBPTYPE_INT3:
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " p %RGv", pBp->u.Int3.GCPtr);
+ fHasAddress = true;
+ break;
+ case DBGFBPTYPE_REG:
+ {
+ char chType;
+ switch (pBp->u.Reg.fType)
+ {
+ case X86_DR7_RW_EO: chType = 'x'; break;
+ case X86_DR7_RW_WO: chType = 'w'; break;
+ case X86_DR7_RW_IO: chType = 'i'; break;
+ case X86_DR7_RW_RW: chType = 'r'; break;
+ default: chType = '?'; break;
+
+ }
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%d %c %RGv", pBp->u.Reg.cb, chType, pBp->u.Reg.GCPtr);
+ fHasAddress = true;
+ break;
+ }
+
+ case DBGFBPTYPE_REM:
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " r %RGv", pBp->u.Rem.GCPtr);
+ fHasAddress = true;
+ break;
+
+/** @todo realign the list when I/O and MMIO breakpoint command have been added and it's possible to test this code. */
+ case DBGFBPTYPE_PORT_IO:
+ case DBGFBPTYPE_MMIO:
+ {
+ uint32_t fAccess = pBp->enmType == DBGFBPTYPE_PORT_IO ? pBp->u.PortIo.fAccess : pBp->u.Mmio.fAccess;
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, pBp->enmType == DBGFBPTYPE_PORT_IO ? " i" : " m");
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " %c%c%c%c%c%c",
+ fAccess & DBGFBPIOACCESS_READ_MASK ? 'r' : '-',
+ fAccess & DBGFBPIOACCESS_READ_BYTE ? '1' : '-',
+ fAccess & DBGFBPIOACCESS_READ_WORD ? '2' : '-',
+ fAccess & DBGFBPIOACCESS_READ_DWORD ? '4' : '-',
+ fAccess & DBGFBPIOACCESS_READ_QWORD ? '8' : '-',
+ fAccess & DBGFBPIOACCESS_READ_OTHER ? '+' : '-');
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " %c%c%c%c%c%c",
+ fAccess & DBGFBPIOACCESS_WRITE_MASK ? 'w' : '-',
+ fAccess & DBGFBPIOACCESS_WRITE_BYTE ? '1' : '-',
+ fAccess & DBGFBPIOACCESS_WRITE_WORD ? '2' : '-',
+ fAccess & DBGFBPIOACCESS_WRITE_DWORD ? '4' : '-',
+ fAccess & DBGFBPIOACCESS_WRITE_QWORD ? '8' : '-',
+ fAccess & DBGFBPIOACCESS_WRITE_OTHER ? '+' : '-');
+ if (pBp->enmType == DBGFBPTYPE_PORT_IO)
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " %04x-%04x",
+ pBp->u.PortIo.uPort, pBp->u.PortIo.uPort + pBp->u.PortIo.cPorts - 1);
+ else
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%RGp LB %03x", pBp->u.Mmio.PhysAddr, pBp->u.Mmio.cb);
+ break;
+ }
+
+ default:
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " unknown type %d!!", pBp->enmType);
+ AssertFailed();
+ break;
+
+ }
+ if (pBp->iHitDisable == ~(uint64_t)0)
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " %04RX64 (%04RX64 to ~0) ", pBp->cHits, pBp->iHitTrigger);
+ else
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " %04RX64 (%04RX64 to %04RX64)", pBp->cHits, pBp->iHitTrigger, pBp->iHitDisable);
+
+ /*
+ * Try resolve the address if it has one.
+ */
+ if (fHasAddress)
+ {
+ RTDBGSYMBOL Sym;
+ RTINTPTR off;
+ DBGFADDRESS Addr;
+ int rc = DBGFR3AsSymbolByAddr(pUVM, pDbgc->hDbgAs, DBGFR3AddrFromFlat(pDbgc->pUVM, &Addr, pBp->u.GCPtr),
+ RTDBGSYMADDR_FLAGS_LESS_OR_EQUAL | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &off, &Sym, NULL);
+ if (RT_SUCCESS(rc))
+ {
+ if (!off)
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%s", Sym.szName);
+ else if (off > 0)
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%s+%RGv", Sym.szName, off);
+ else
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "%s-%RGv", Sym.szName, -off);
+ }
+ }
+
+ /*
+ * The commands.
+ */
+ if (pDbgcBp)
+ {
+ if (pDbgcBp->cchCmd)
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "\n cmds: '%s'\n", pDbgcBp->szCmd);
+ else
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, "\n");
+ }
+ else
+ DBGCCmdHlpPrintf(&pDbgc->CmdHlp, " [unknown bp]\n");
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'bl' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkList(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, -1, cArgs == 0);
+ NOREF(paArgs);
+
+ /*
+ * Enumerate the breakpoints.
+ */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ int rc = DBGFR3BpEnum(pUVM, dbgcEnumBreakpointsCallback, pDbgc);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3BpEnum");
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'bp' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkSet(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Convert the pointer to a DBGF address.
+ */
+ DBGFADDRESS Address;
+ int rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &paArgs[0], &Address);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr(,'%DV',)", &paArgs[0]);
+
+ /*
+ * Pick out the optional arguments.
+ */
+ uint64_t iHitTrigger = 0;
+ uint64_t iHitDisable = UINT64_MAX;
+ const char *pszCmds = NULL;
+ unsigned iArg = 1;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitTrigger = paArgs[iArg].u.u64Number;
+ iArg++;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitDisable = paArgs[iArg].u.u64Number;
+ iArg++;
+ }
+ }
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_STRING)
+ {
+ pszCmds = paArgs[iArg].u.pszString;
+ iArg++;
+ }
+
+ /*
+ * Try set the breakpoint.
+ */
+ uint32_t iBp;
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ rc = DBGFR3BpSetInt3(pUVM, pDbgc->idCpu, &Address, iHitTrigger, iHitDisable, &iBp);
+ if (RT_SUCCESS(rc))
+ {
+ rc = dbgcBpAdd(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Set breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ if (rc == VERR_DBGC_BP_EXISTS)
+ {
+ rc = dbgcBpUpdate(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Updated breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ }
+ int rc2 = DBGFR3BpClear(pDbgc->pUVM, iBp);
+ AssertRC(rc2);
+ }
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "Failed to set breakpoint at %RGv", Address.FlatPtr);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'br' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdBrkREM(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Convert the pointer to a DBGF address.
+ */
+ DBGFADDRESS Address;
+ int rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &paArgs[0], &Address);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr(,'%DV',)", &paArgs[0]);
+
+ /*
+ * Pick out the optional arguments.
+ */
+ uint64_t iHitTrigger = 0;
+ uint64_t iHitDisable = UINT64_MAX;
+ const char *pszCmds = NULL;
+ unsigned iArg = 1;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitTrigger = paArgs[iArg].u.u64Number;
+ iArg++;
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ iHitDisable = paArgs[iArg].u.u64Number;
+ iArg++;
+ }
+ }
+ if (iArg < cArgs && paArgs[iArg].enmType == DBGCVAR_TYPE_STRING)
+ {
+ pszCmds = paArgs[iArg].u.pszString;
+ iArg++;
+ }
+
+ /*
+ * Try set the breakpoint.
+ */
+ uint32_t iBp;
+ rc = DBGFR3BpSetREM(pUVM, &Address, iHitTrigger, iHitDisable, &iBp);
+ if (RT_SUCCESS(rc))
+ {
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ rc = dbgcBpAdd(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Set REM breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ if (rc == VERR_DBGC_BP_EXISTS)
+ {
+ rc = dbgcBpUpdate(pDbgc, iBp, pszCmds);
+ if (RT_SUCCESS(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Updated REM breakpoint %u at %RGv\n", iBp, Address.FlatPtr);
+ }
+ int rc2 = DBGFR3BpClear(pDbgc->pUVM, iBp);
+ AssertRC(rc2);
+ }
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "Failed to set REM breakpoint at %RGv", Address.FlatPtr);
+}
+
+
+/**
+ * Helps the unassmble ('u') command display symbols it starts at and passes.
+ *
+ * @param pUVM The user mode VM handle.
+ * @param pCmdHlp The command helpers for printing via.
+ * @param hDbgAs The address space to look up addresses in.
+ * @param pAddress The current address.
+ * @param pcbCallAgain Where to return the distance to the next check (in
+ * instruction bytes).
+ */
+static void dbgcCmdUnassambleHelpListNear(PUVM pUVM, PDBGCCMDHLP pCmdHlp, RTDBGAS hDbgAs, PCDBGFADDRESS pAddress,
+ PRTUINTPTR pcbCallAgain)
+{
+ RTDBGSYMBOL Symbol;
+ RTGCINTPTR offDispSym;
+ int rc = DBGFR3AsSymbolByAddr(pUVM, hDbgAs, pAddress,
+ RTDBGSYMADDR_FLAGS_LESS_OR_EQUAL | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &offDispSym, &Symbol, NULL);
+ if (RT_FAILURE(rc) || offDispSym > _1G)
+ rc = DBGFR3AsSymbolByAddr(pUVM, hDbgAs, pAddress,
+ RTDBGSYMADDR_FLAGS_GREATER_OR_EQUAL | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &offDispSym, &Symbol, NULL);
+ if (RT_SUCCESS(rc) && offDispSym < _1G)
+ {
+ if (!offDispSym)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%s:\n", Symbol.szName);
+ *pcbCallAgain = !Symbol.cb ? 64 : Symbol.cb;
+ }
+ else if (offDispSym > 0)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%s+%#llx:\n", Symbol.szName, (uint64_t)offDispSym);
+ *pcbCallAgain = !Symbol.cb ? 64 : Symbol.cb > (RTGCUINTPTR)offDispSym ? Symbol.cb - (RTGCUINTPTR)offDispSym : 1;
+ }
+ else
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%s-%#llx:\n", Symbol.szName, (uint64_t)-offDispSym);
+ *pcbCallAgain = !Symbol.cb ? 64 : (RTGCUINTPTR)-offDispSym + Symbol.cb;
+ }
+ }
+ else
+ *pcbCallAgain = UINT32_MAX;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'u' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdUnassemble(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, -1, cArgs <= 1);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 0 || DBGCVAR_ISPOINTER(paArgs[0].enmType));
+
+ if (!cArgs && !DBGCVAR_ISPOINTER(pDbgc->DisasmPos.enmType))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Don't know where to start disassembling");
+
+ /*
+ * Check the desired mode.
+ */
+ unsigned fFlags = DBGF_DISAS_FLAGS_NO_ADDRESS | DBGF_DISAS_FLAGS_UNPATCHED_BYTES | DBGF_DISAS_FLAGS_ANNOTATE_PATCHED;
+ switch (pCmd->pszCmd[1])
+ {
+ default: AssertFailed(); RT_FALL_THRU();
+ case '\0': fFlags |= DBGF_DISAS_FLAGS_DEFAULT_MODE; break;
+ case '6': fFlags |= DBGF_DISAS_FLAGS_64BIT_MODE; break;
+ case '3': fFlags |= DBGF_DISAS_FLAGS_32BIT_MODE; break;
+ case '1': fFlags |= DBGF_DISAS_FLAGS_16BIT_MODE; break;
+ case 'v': fFlags |= DBGF_DISAS_FLAGS_16BIT_REAL_MODE; break;
+ }
+
+ /** @todo should use DBGFADDRESS for everything */
+
+ /*
+ * Find address.
+ */
+ if (!cArgs)
+ {
+ if (!DBGCVAR_ISPOINTER(pDbgc->DisasmPos.enmType))
+ {
+ /** @todo Batch query CS, RIP, CPU mode and flags. */
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pUVM, pDbgc->idCpu);
+ if (CPUMIsGuestIn64BitCode(pVCpu))
+ {
+ pDbgc->DisasmPos.enmType = DBGCVAR_TYPE_GC_FLAT;
+ pDbgc->SourcePos.u.GCFlat = CPUMGetGuestRIP(pVCpu);
+ }
+ else
+ {
+ pDbgc->DisasmPos.enmType = DBGCVAR_TYPE_GC_FAR;
+ pDbgc->SourcePos.u.GCFar.off = CPUMGetGuestEIP(pVCpu);
+ pDbgc->SourcePos.u.GCFar.sel = CPUMGetGuestCS(pVCpu);
+ if ( (fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_DEFAULT_MODE
+ && (CPUMGetGuestEFlags(pVCpu) & X86_EFL_VM))
+ {
+ fFlags &= ~DBGF_DISAS_FLAGS_MODE_MASK;
+ fFlags |= DBGF_DISAS_FLAGS_16BIT_REAL_MODE;
+ }
+ }
+
+ fFlags |= DBGF_DISAS_FLAGS_CURRENT_GUEST;
+ }
+ else if ((fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_DEFAULT_MODE && pDbgc->fDisasm)
+ {
+ fFlags &= ~DBGF_DISAS_FLAGS_MODE_MASK;
+ fFlags |= pDbgc->fDisasm & DBGF_DISAS_FLAGS_MODE_MASK;
+ }
+ pDbgc->DisasmPos.enmRangeType = DBGCVAR_RANGE_NONE;
+ }
+ else
+ pDbgc->DisasmPos = paArgs[0];
+ pDbgc->pLastPos = &pDbgc->DisasmPos;
+
+ /*
+ * Range.
+ */
+ switch (pDbgc->DisasmPos.enmRangeType)
+ {
+ case DBGCVAR_RANGE_NONE:
+ pDbgc->DisasmPos.enmRangeType = DBGCVAR_RANGE_ELEMENTS;
+ pDbgc->DisasmPos.u64Range = 10;
+ break;
+
+ case DBGCVAR_RANGE_ELEMENTS:
+ if (pDbgc->DisasmPos.u64Range > 2048)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Too many lines requested. Max is 2048 lines");
+ break;
+
+ case DBGCVAR_RANGE_BYTES:
+ if (pDbgc->DisasmPos.u64Range > 65536)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "The requested range is too big. Max is 64KB");
+ break;
+
+ default:
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Unknown range type %d", pDbgc->DisasmPos.enmRangeType);
+ }
+
+ /*
+ * Convert physical and host addresses to guest addresses.
+ */
+ RTDBGAS hDbgAs = pDbgc->hDbgAs;
+ int rc;
+ switch (pDbgc->DisasmPos.enmType)
+ {
+ case DBGCVAR_TYPE_GC_FLAT:
+ case DBGCVAR_TYPE_GC_FAR:
+ break;
+ case DBGCVAR_TYPE_GC_PHYS:
+ hDbgAs = DBGF_AS_PHYS;
+ RT_FALL_THRU();
+ case DBGCVAR_TYPE_HC_FLAT:
+ case DBGCVAR_TYPE_HC_PHYS:
+ {
+ DBGCVAR VarTmp;
+ rc = DBGCCmdHlpEval(pCmdHlp, &VarTmp, "%%(%Dv)", &pDbgc->DisasmPos);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "failed to evaluate '%%(%Dv)'", &pDbgc->DisasmPos);
+ pDbgc->DisasmPos = VarTmp;
+ break;
+ }
+ default: AssertFailed(); break;
+ }
+
+ DBGFADDRESS CurAddr;
+ if ( (fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_16BIT_REAL_MODE
+ && pDbgc->DisasmPos.enmType == DBGCVAR_TYPE_GC_FAR)
+ DBGFR3AddrFromFlat(pUVM, &CurAddr, ((uint32_t)pDbgc->DisasmPos.u.GCFar.sel << 4) + pDbgc->DisasmPos.u.GCFar.off);
+ else
+ {
+ rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &pDbgc->DisasmPos, &CurAddr);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr failed on '%Dv'", &pDbgc->DisasmPos);
+ }
+
+ pDbgc->fDisasm = fFlags;
+
+ /*
+ * Figure out where we are and display it. Also calculate when we need to
+ * check for a new symbol if possible.
+ */
+ RTGCUINTPTR cbCheckSymbol;
+ dbgcCmdUnassambleHelpListNear(pUVM, pCmdHlp, hDbgAs, &CurAddr, &cbCheckSymbol);
+
+ /*
+ * Do the disassembling.
+ */
+ unsigned cTries = 32;
+ int iRangeLeft = (int)pDbgc->DisasmPos.u64Range;
+ if (iRangeLeft == 0) /* kludge for 'r'. */
+ iRangeLeft = -1;
+ for (;;)
+ {
+ /*
+ * Disassemble the instruction.
+ */
+ char szDis[256];
+ uint32_t cbInstr = 1;
+ if (pDbgc->DisasmPos.enmType == DBGCVAR_TYPE_GC_FLAT)
+ rc = DBGFR3DisasInstrEx(pUVM, pDbgc->idCpu, DBGF_SEL_FLAT, pDbgc->DisasmPos.u.GCFlat, fFlags,
+ &szDis[0], sizeof(szDis), &cbInstr);
+ else
+ rc = DBGFR3DisasInstrEx(pUVM, pDbgc->idCpu, pDbgc->DisasmPos.u.GCFar.sel, pDbgc->DisasmPos.u.GCFar.off, fFlags,
+ &szDis[0], sizeof(szDis), &cbInstr);
+ if (RT_SUCCESS(rc))
+ {
+ /* print it */
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%-16DV %s\n", &pDbgc->DisasmPos, &szDis[0]);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+ else
+ {
+ /* bitch. */
+ int rc2 = DBGCCmdHlpPrintf(pCmdHlp, "Failed to disassemble instruction, skipping one byte.\n");
+ if (RT_FAILURE(rc2))
+ return rc2;
+ if (cTries-- > 0)
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "Too many disassembly failures. Giving up");
+ cbInstr = 1;
+ }
+
+ /* advance */
+ if (iRangeLeft < 0) /* 'r' */
+ break;
+ if (pDbgc->DisasmPos.enmRangeType == DBGCVAR_RANGE_ELEMENTS)
+ iRangeLeft--;
+ else
+ iRangeLeft -= cbInstr;
+ rc = DBGCCmdHlpEval(pCmdHlp, &pDbgc->DisasmPos, "(%Dv) + %x", &pDbgc->DisasmPos, cbInstr);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpEval(,,'(%Dv) + %x')", &pDbgc->DisasmPos, cbInstr);
+ if (iRangeLeft <= 0)
+ break;
+ fFlags &= ~DBGF_DISAS_FLAGS_CURRENT_GUEST;
+
+ /* Print next symbol? */
+ if (cbCheckSymbol <= cbInstr)
+ {
+ if ( (fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_16BIT_REAL_MODE
+ && pDbgc->DisasmPos.enmType == DBGCVAR_TYPE_GC_FAR)
+ DBGFR3AddrFromFlat(pUVM, &CurAddr, ((uint32_t)pDbgc->DisasmPos.u.GCFar.sel << 4) + pDbgc->DisasmPos.u.GCFar.off);
+ else
+ rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &pDbgc->DisasmPos, &CurAddr);
+ if (RT_SUCCESS(rc))
+ dbgcCmdUnassambleHelpListNear(pUVM, pCmdHlp, hDbgAs, &CurAddr, &cbCheckSymbol);
+ else
+ cbCheckSymbol = UINT32_MAX;
+ }
+ else
+ cbCheckSymbol -= cbInstr;
+ }
+
+ NOREF(pCmd);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDGCSCREENBLIT}
+ */
+static DECLCALLBACK(int) dbgcCmdUnassembleCfgBlit(const char *psz, void *pvUser)
+{
+ PDBGCCMDHLP pCmdHlp = (PDBGCCMDHLP)pvUser;
+ return DBGCCmdHlpPrintf(pCmdHlp, "%s", psz);
+}
+
+
+/**
+ * Checks whether both addresses are equal.
+ *
+ * @returns true if both addresses point to the same location, false otherwise.
+ * @param pAddr1 First address.
+ * @param pAddr2 Second address.
+ */
+static bool dbgcCmdUnassembleCfgAddrEqual(PDBGFADDRESS pAddr1, PDBGFADDRESS pAddr2)
+{
+ return pAddr1->Sel == pAddr2->Sel
+ && pAddr1->off == pAddr2->off;
+}
+
+
+/**
+ * Checks whether the first given address is lower than the second one.
+ *
+ * @returns true if both addresses point to the same location, false otherwise.
+ * @param pAddr1 First address.
+ * @param pAddr2 Second address.
+ */
+static bool dbgcCmdUnassembleCfgAddrLower(PDBGFADDRESS pAddr1, PDBGFADDRESS pAddr2)
+{
+ return pAddr1->Sel == pAddr2->Sel
+ && pAddr1->off < pAddr2->off;
+}
+
+
+/**
+ * Calculates the size required for the given basic block including the
+ * border and spacing on the edges.
+ *
+ * @returns nothing.
+ * @param hFlowBb The basic block handle.
+ * @param pDumpBb The dumper state to fill in for the basic block.
+ */
+static void dbgcCmdUnassembleCfgDumpCalcBbSize(DBGFFLOWBB hFlowBb, PDBGCFLOWBBDUMP pDumpBb)
+{
+ uint32_t fFlags = DBGFR3FlowBbGetFlags(hFlowBb);
+ uint32_t cInstr = DBGFR3FlowBbGetInstrCount(hFlowBb);
+
+ pDumpBb->hFlowBb = hFlowBb;
+ pDumpBb->cchHeight = cInstr + 4; /* Include spacing and border top and bottom. */
+ pDumpBb->cchWidth = 0;
+ DBGFR3FlowBbGetStartAddress(hFlowBb, &pDumpBb->AddrStart);
+
+ DBGFFLOWBBENDTYPE enmType = DBGFR3FlowBbGetType(hFlowBb);
+ if ( enmType == DBGFFLOWBBENDTYPE_COND
+ || enmType == DBGFFLOWBBENDTYPE_UNCOND_JMP
+ || enmType == DBGFFLOWBBENDTYPE_UNCOND_INDIRECT_JMP)
+ DBGFR3FlowBbGetBranchAddress(hFlowBb, &pDumpBb->AddrTarget);
+
+ if (fFlags & DBGF_FLOW_BB_F_INCOMPLETE_ERR)
+ {
+ const char *pszErr = NULL;
+ DBGFR3FlowBbQueryError(hFlowBb, &pszErr);
+ if (pszErr)
+ {
+ pDumpBb->cchHeight++;
+ pDumpBb->cchWidth = RT_MAX(pDumpBb->cchWidth, (uint32_t)strlen(pszErr));
+ }
+ }
+ for (unsigned i = 0; i < cInstr; i++)
+ {
+ const char *pszInstr = NULL;
+ int rc = DBGFR3FlowBbQueryInstr(hFlowBb, i, NULL, NULL, &pszInstr);
+ AssertRC(rc);
+ pDumpBb->cchWidth = RT_MAX(pDumpBb->cchWidth, (uint32_t)strlen(pszInstr));
+ }
+ pDumpBb->cchWidth += 4; /* Include spacing and border left and right. */
+}
+
+
+/**
+ * Dumps a top or bottom boundary line.
+ *
+ * @returns nothing.
+ * @param hScreen The screen to draw to.
+ * @param uStartX Where to start drawing the boundary.
+ * @param uStartY Y coordinate.
+ * @param cchWidth Width of the boundary.
+ * @param enmColor The color to use for drawing.
+ */
+static void dbgcCmdUnassembleCfgDumpBbBoundary(DBGCSCREEN hScreen, uint32_t uStartX, uint32_t uStartY, uint32_t cchWidth,
+ DBGCSCREENCOLOR enmColor)
+{
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX, uStartY, '+', enmColor);
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, uStartX + 1, uStartX + 1 + cchWidth - 2,
+ uStartY, '-', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX + cchWidth - 1, uStartY, '+', enmColor);
+}
+
+
+/**
+ * Dumps a spacing line between the top or bottom boundary and the actual disassembly.
+ *
+ * @returns nothing.
+ * @param hScreen The screen to draw to.
+ * @param uStartX Where to start drawing the spacing.
+ * @param uStartY Y coordinate.
+ * @param cchWidth Width of the spacing.
+ * @param enmColor The color to use for drawing.
+ */
+static void dbgcCmdUnassembleCfgDumpBbSpacing(DBGCSCREEN hScreen, uint32_t uStartX, uint32_t uStartY, uint32_t cchWidth,
+ DBGCSCREENCOLOR enmColor)
+{
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX, uStartY, '|', enmColor);
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, uStartX + 1, uStartX + 1 + cchWidth - 2,
+ uStartY, ' ', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX + cchWidth - 1, uStartY, '|', enmColor);
+}
+
+
+/**
+ * Writes a given text to the screen.
+ *
+ * @returns nothing.
+ * @param hScreen The screen to draw to.
+ * @param uStartX Where to start drawing the line.
+ * @param uStartY Y coordinate.
+ * @param cchWidth Maximum width of the text.
+ * @param pszText The text to write.
+ * @param enmTextColor The color to use for drawing the text.
+ * @param enmBorderColor The color to use for drawing the border.
+ */
+static void dbgcCmdUnassembleCfgDumpBbText(DBGCSCREEN hScreen, uint32_t uStartX, uint32_t uStartY,
+ uint32_t cchWidth, const char *pszText,
+ DBGCSCREENCOLOR enmTextColor, DBGCSCREENCOLOR enmBorderColor)
+{
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX, uStartY, '|', enmBorderColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX + 1, uStartY, ' ', enmTextColor);
+ dbgcScreenAsciiDrawString(hScreen, uStartX + 2, uStartY, pszText, enmTextColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uStartX + cchWidth - 1, uStartY, '|', enmBorderColor);
+}
+
+
+/**
+ * Dumps one basic block using the dumper callback.
+ *
+ * @returns nothing.
+ * @param pDumpBb The basic block dump state to dump.
+ * @param hScreen The screen to draw to.
+ */
+static void dbgcCmdUnassembleCfgDumpBb(PDBGCFLOWBBDUMP pDumpBb, DBGCSCREEN hScreen)
+{
+ uint32_t uStartY = pDumpBb->uStartY;
+ bool fError = RT_BOOL(DBGFR3FlowBbGetFlags(pDumpBb->hFlowBb) & DBGF_FLOW_BB_F_INCOMPLETE_ERR);
+ DBGCSCREENCOLOR enmColor = fError ? DBGCSCREENCOLOR_RED_BRIGHT : DBGCSCREENCOLOR_DEFAULT;
+
+ dbgcCmdUnassembleCfgDumpBbBoundary(hScreen, pDumpBb->uStartX, uStartY, pDumpBb->cchWidth, enmColor);
+ uStartY++;
+ dbgcCmdUnassembleCfgDumpBbSpacing(hScreen, pDumpBb->uStartX, uStartY, pDumpBb->cchWidth, enmColor);
+ uStartY++;
+
+ uint32_t cInstr = DBGFR3FlowBbGetInstrCount(pDumpBb->hFlowBb);
+ for (unsigned i = 0; i < cInstr; i++)
+ {
+ const char *pszInstr = NULL;
+ DBGFR3FlowBbQueryInstr(pDumpBb->hFlowBb, i, NULL, NULL, &pszInstr);
+ dbgcCmdUnassembleCfgDumpBbText(hScreen, pDumpBb->uStartX, uStartY + i,
+ pDumpBb->cchWidth, pszInstr, DBGCSCREENCOLOR_DEFAULT,
+ enmColor);
+ }
+ uStartY += cInstr;
+
+ if (fError)
+ {
+ const char *pszErr = NULL;
+ DBGFR3FlowBbQueryError(pDumpBb->hFlowBb, &pszErr);
+ if (pszErr)
+ dbgcCmdUnassembleCfgDumpBbText(hScreen, pDumpBb->uStartX, uStartY,
+ pDumpBb->cchWidth, pszErr, enmColor,
+ enmColor);
+ uStartY++;
+ }
+
+ dbgcCmdUnassembleCfgDumpBbSpacing(hScreen, pDumpBb->uStartX, uStartY, pDumpBb->cchWidth, enmColor);
+ uStartY++;
+ dbgcCmdUnassembleCfgDumpBbBoundary(hScreen, pDumpBb->uStartX, uStartY, pDumpBb->cchWidth, enmColor);
+ uStartY++;
+}
+
+
+/**
+ * Dumps one branch table using the dumper callback.
+ *
+ * @returns nothing.
+ * @param pDumpBranchTbl The basic block dump state to dump.
+ * @param hScreen The screen to draw to.
+ */
+static void dbgcCmdUnassembleCfgDumpBranchTbl(PDBGCFLOWBRANCHTBLDUMP pDumpBranchTbl, DBGCSCREEN hScreen)
+{
+ uint32_t uStartY = pDumpBranchTbl->uStartY;
+ DBGCSCREENCOLOR enmColor = DBGCSCREENCOLOR_CYAN_BRIGHT;
+
+ dbgcCmdUnassembleCfgDumpBbBoundary(hScreen, pDumpBranchTbl->uStartX, uStartY, pDumpBranchTbl->cchWidth, enmColor);
+ uStartY++;
+ dbgcCmdUnassembleCfgDumpBbSpacing(hScreen, pDumpBranchTbl->uStartX, uStartY, pDumpBranchTbl->cchWidth, enmColor);
+ uStartY++;
+
+ uint32_t cSlots = DBGFR3FlowBranchTblGetSlots(pDumpBranchTbl->hFlowBranchTbl);
+ for (unsigned i = 0; i < cSlots; i++)
+ {
+ DBGFADDRESS Addr;
+ char szAddr[128];
+
+ RT_ZERO(szAddr);
+ DBGFR3FlowBranchTblGetAddrAtSlot(pDumpBranchTbl->hFlowBranchTbl, i, &Addr);
+
+ if (Addr.Sel == DBGF_SEL_FLAT)
+ RTStrPrintf(&szAddr[0], sizeof(szAddr), "%RGv", Addr.FlatPtr);
+ else
+ RTStrPrintf(&szAddr[0], sizeof(szAddr), "%04x:%RGv", Addr.Sel, Addr.off);
+
+ dbgcCmdUnassembleCfgDumpBbText(hScreen, pDumpBranchTbl->uStartX, uStartY + i,
+ pDumpBranchTbl->cchWidth, &szAddr[0], DBGCSCREENCOLOR_DEFAULT,
+ enmColor);
+ }
+ uStartY += cSlots;
+
+ dbgcCmdUnassembleCfgDumpBbSpacing(hScreen, pDumpBranchTbl->uStartX, uStartY, pDumpBranchTbl->cchWidth, enmColor);
+ uStartY++;
+ dbgcCmdUnassembleCfgDumpBbBoundary(hScreen, pDumpBranchTbl->uStartX, uStartY, pDumpBranchTbl->cchWidth, enmColor);
+ uStartY++;
+}
+
+
+/**
+ * Fills in the dump states for the basic blocks and branch tables.
+ *
+ * @returns VBox status code.
+ * @param hFlowIt The control flow graph iterator handle.
+ * @param hFlowBranchTblIt The control flow graph branch table iterator handle.
+ * @param paDumpBb The array of basic block dump states.
+ * @param paDumpBranchTbl The array of branch table dump states.
+ * @param cBbs Number of basic blocks.
+ * @param cBranchTbls Number of branch tables.
+ */
+static int dbgcCmdUnassembleCfgDumpCalcDimensions(DBGFFLOWIT hFlowIt, DBGFFLOWBRANCHTBLIT hFlowBranchTblIt,
+ PDBGCFLOWBBDUMP paDumpBb, PDBGCFLOWBRANCHTBLDUMP paDumpBranchTbl,
+ uint32_t cBbs, uint32_t cBranchTbls)
+{
+ RT_NOREF2(cBbs, cBranchTbls);
+
+ /* Calculate the sizes of each basic block first. */
+ DBGFFLOWBB hFlowBb = DBGFR3FlowItNext(hFlowIt);
+ uint32_t idx = 0;
+ while (hFlowBb)
+ {
+ dbgcCmdUnassembleCfgDumpCalcBbSize(hFlowBb, &paDumpBb[idx]);
+ idx++;
+ hFlowBb = DBGFR3FlowItNext(hFlowIt);
+ }
+
+ if (paDumpBranchTbl)
+ {
+ idx = 0;
+ DBGFFLOWBRANCHTBL hFlowBranchTbl = DBGFR3FlowBranchTblItNext(hFlowBranchTblIt);
+ while (hFlowBranchTbl)
+ {
+ paDumpBranchTbl[idx].hFlowBranchTbl = hFlowBranchTbl;
+ paDumpBranchTbl[idx].cchHeight = DBGFR3FlowBranchTblGetSlots(hFlowBranchTbl) + 4; /* Spacing and border. */
+ paDumpBranchTbl[idx].cchWidth = 25 + 4; /* Spacing and border. */
+ idx++;
+ hFlowBranchTbl = DBGFR3FlowBranchTblItNext(hFlowBranchTblIt);
+ }
+ }
+
+ return VINF_SUCCESS;
+}
+
+/**
+ * Dumps the given control flow graph to the output.
+ *
+ * @returns VBox status code.
+ * @param hCfg The control flow graph handle.
+ * @param fUseColor Flag whether the output should be colorized.
+ * @param pCmdHlp The command helper callback table.
+ */
+static int dbgcCmdUnassembleCfgDump(DBGFFLOW hCfg, bool fUseColor, PDBGCCMDHLP pCmdHlp)
+{
+ int rc = VINF_SUCCESS;
+ DBGFFLOWIT hCfgIt = NULL;
+ DBGFFLOWBRANCHTBLIT hFlowBranchTblIt = NULL;
+ uint32_t cBbs = DBGFR3FlowGetBbCount(hCfg);
+ uint32_t cBranchTbls = DBGFR3FlowGetBranchTblCount(hCfg);
+ PDBGCFLOWBBDUMP paDumpBb = (PDBGCFLOWBBDUMP)RTMemTmpAllocZ(cBbs * sizeof(DBGCFLOWBBDUMP));
+ PDBGCFLOWBRANCHTBLDUMP paDumpBranchTbl = NULL;
+
+ if (cBranchTbls)
+ paDumpBranchTbl = (PDBGCFLOWBRANCHTBLDUMP)RTMemAllocZ(cBranchTbls * sizeof(DBGCFLOWBRANCHTBLDUMP));
+
+ if (RT_UNLIKELY(!paDumpBb || (!paDumpBranchTbl && cBranchTbls > 0)))
+ rc = VERR_NO_MEMORY;
+ if (RT_SUCCESS(rc))
+ rc = DBGFR3FlowItCreate(hCfg, DBGFFLOWITORDER_BY_ADDR_LOWEST_FIRST, &hCfgIt);
+ if (RT_SUCCESS(rc) && cBranchTbls > 0)
+ rc = DBGFR3FlowBranchTblItCreate(hCfg, DBGFFLOWITORDER_BY_ADDR_LOWEST_FIRST, &hFlowBranchTblIt);
+
+ if (RT_SUCCESS(rc))
+ {
+ rc = dbgcCmdUnassembleCfgDumpCalcDimensions(hCfgIt, hFlowBranchTblIt, paDumpBb, paDumpBranchTbl,
+ cBbs, cBranchTbls);
+
+ /* Calculate the ASCII screen dimensions and create one. */
+ uint32_t cchWidth = 0;
+ uint32_t cchLeftExtra = 5;
+ uint32_t cchRightExtra = 5;
+ uint32_t cchHeight = 0;
+ for (unsigned i = 0; i < cBbs; i++)
+ {
+ PDBGCFLOWBBDUMP pDumpBb = &paDumpBb[i];
+ cchWidth = RT_MAX(cchWidth, pDumpBb->cchWidth);
+ cchHeight += pDumpBb->cchHeight;
+
+ /* Incomplete blocks don't have a successor. */
+ if (DBGFR3FlowBbGetFlags(pDumpBb->hFlowBb) & DBGF_FLOW_BB_F_INCOMPLETE_ERR)
+ continue;
+
+ switch (DBGFR3FlowBbGetType(pDumpBb->hFlowBb))
+ {
+ case DBGFFLOWBBENDTYPE_EXIT:
+ case DBGFFLOWBBENDTYPE_LAST_DISASSEMBLED:
+ break;
+ case DBGFFLOWBBENDTYPE_UNCOND_JMP:
+ if ( dbgcCmdUnassembleCfgAddrLower(&pDumpBb->AddrTarget, &pDumpBb->AddrStart)
+ || dbgcCmdUnassembleCfgAddrEqual(&pDumpBb->AddrTarget, &pDumpBb->AddrStart))
+ cchLeftExtra++;
+ else
+ cchRightExtra++;
+ break;
+ case DBGFFLOWBBENDTYPE_UNCOND:
+ cchHeight += 2; /* For the arrow down to the next basic block. */
+ break;
+ case DBGFFLOWBBENDTYPE_COND:
+ cchHeight += 2; /* For the arrow down to the next basic block. */
+ if ( dbgcCmdUnassembleCfgAddrLower(&pDumpBb->AddrTarget, &pDumpBb->AddrStart)
+ || dbgcCmdUnassembleCfgAddrEqual(&pDumpBb->AddrTarget, &pDumpBb->AddrStart))
+ cchLeftExtra++;
+ else
+ cchRightExtra++;
+ break;
+ case DBGFFLOWBBENDTYPE_UNCOND_INDIRECT_JMP:
+ default:
+ AssertFailed();
+ }
+ }
+
+ for (unsigned i = 0; i < cBranchTbls; i++)
+ {
+ PDBGCFLOWBRANCHTBLDUMP pDumpBranchTbl = &paDumpBranchTbl[i];
+ cchWidth = RT_MAX(cchWidth, pDumpBranchTbl->cchWidth);
+ cchHeight += pDumpBranchTbl->cchHeight;
+ }
+
+ cchWidth += 2;
+
+ DBGCSCREEN hScreen = NULL;
+ rc = dbgcScreenAsciiCreate(&hScreen, cchWidth + cchLeftExtra + cchRightExtra, cchHeight);
+ if (RT_SUCCESS(rc))
+ {
+ uint32_t uY = 0;
+
+ /* Dump the branch tables first. */
+ for (unsigned i = 0; i < cBranchTbls; i++)
+ {
+ paDumpBranchTbl[i].uStartX = cchLeftExtra + (cchWidth - paDumpBranchTbl[i].cchWidth) / 2;
+ paDumpBranchTbl[i].uStartY = uY;
+ dbgcCmdUnassembleCfgDumpBranchTbl(&paDumpBranchTbl[i], hScreen);
+ uY += paDumpBranchTbl[i].cchHeight;
+ }
+
+ /* Dump the basic blocks and connections to the immediate successor. */
+ for (unsigned i = 0; i < cBbs; i++)
+ {
+ paDumpBb[i].uStartX = cchLeftExtra + (cchWidth - paDumpBb[i].cchWidth) / 2;
+ paDumpBb[i].uStartY = uY;
+ dbgcCmdUnassembleCfgDumpBb(&paDumpBb[i], hScreen);
+ uY += paDumpBb[i].cchHeight;
+
+ /* Incomplete blocks don't have a successor. */
+ if (DBGFR3FlowBbGetFlags(paDumpBb[i].hFlowBb) & DBGF_FLOW_BB_F_INCOMPLETE_ERR)
+ continue;
+
+ switch (DBGFR3FlowBbGetType(paDumpBb[i].hFlowBb))
+ {
+ case DBGFFLOWBBENDTYPE_EXIT:
+ case DBGFFLOWBBENDTYPE_LAST_DISASSEMBLED:
+ case DBGFFLOWBBENDTYPE_UNCOND_JMP:
+ case DBGFFLOWBBENDTYPE_UNCOND_INDIRECT_JMP:
+ break;
+ case DBGFFLOWBBENDTYPE_UNCOND:
+ /* Draw the arrow down to the next block. */
+ dbgcScreenAsciiDrawCharacter(hScreen, cchLeftExtra + cchWidth / 2, uY,
+ '|', DBGCSCREENCOLOR_BLUE_BRIGHT);
+ uY++;
+ dbgcScreenAsciiDrawCharacter(hScreen, cchLeftExtra + cchWidth / 2, uY,
+ 'V', DBGCSCREENCOLOR_BLUE_BRIGHT);
+ uY++;
+ break;
+ case DBGFFLOWBBENDTYPE_COND:
+ /* Draw the arrow down to the next block. */
+ dbgcScreenAsciiDrawCharacter(hScreen, cchLeftExtra + cchWidth / 2, uY,
+ '|', DBGCSCREENCOLOR_RED_BRIGHT);
+ uY++;
+ dbgcScreenAsciiDrawCharacter(hScreen, cchLeftExtra + cchWidth / 2, uY,
+ 'V', DBGCSCREENCOLOR_RED_BRIGHT);
+ uY++;
+ break;
+ default:
+ AssertFailed();
+ }
+ }
+
+ /* Last pass, connect all remaining branches. */
+ uint32_t uBackConns = 0;
+ uint32_t uFwdConns = 0;
+ for (unsigned i = 0; i < cBbs; i++)
+ {
+ PDBGCFLOWBBDUMP pDumpBb = &paDumpBb[i];
+ DBGFFLOWBBENDTYPE enmEndType = DBGFR3FlowBbGetType(pDumpBb->hFlowBb);
+
+ /* Incomplete blocks don't have a successor. */
+ if (DBGFR3FlowBbGetFlags(pDumpBb->hFlowBb) & DBGF_FLOW_BB_F_INCOMPLETE_ERR)
+ continue;
+
+ switch (enmEndType)
+ {
+ case DBGFFLOWBBENDTYPE_EXIT:
+ case DBGFFLOWBBENDTYPE_LAST_DISASSEMBLED:
+ case DBGFFLOWBBENDTYPE_UNCOND:
+ break;
+ case DBGFFLOWBBENDTYPE_COND:
+ case DBGFFLOWBBENDTYPE_UNCOND_JMP:
+ {
+ /* Find the target first to get the coordinates. */
+ PDBGCFLOWBBDUMP pDumpBbTgt = NULL;
+ for (unsigned idxDumpBb = 0; idxDumpBb < cBbs; idxDumpBb++)
+ {
+ pDumpBbTgt = &paDumpBb[idxDumpBb];
+ if (dbgcCmdUnassembleCfgAddrEqual(&pDumpBb->AddrTarget, &pDumpBbTgt->AddrStart))
+ break;
+ }
+
+ DBGCSCREENCOLOR enmColor = enmEndType == DBGFFLOWBBENDTYPE_UNCOND_JMP
+ ? DBGCSCREENCOLOR_YELLOW_BRIGHT
+ : DBGCSCREENCOLOR_GREEN_BRIGHT;
+
+ /*
+ * Use the right side for targets with higher addresses,
+ * left when jumping backwards.
+ */
+ if ( dbgcCmdUnassembleCfgAddrLower(&pDumpBb->AddrTarget, &pDumpBb->AddrStart)
+ || dbgcCmdUnassembleCfgAddrEqual(&pDumpBb->AddrTarget, &pDumpBb->AddrStart))
+ {
+ /* Going backwards. */
+ uint32_t uXVerLine = /*cchLeftExtra - 1 -*/ uBackConns + 1;
+ uint32_t uYHorLine = pDumpBb->uStartY + pDumpBb->cchHeight - 1 - 2;
+ uBackConns++;
+
+ /* Draw the arrow pointing to the target block. */
+ dbgcScreenAsciiDrawCharacter(hScreen, pDumpBbTgt->uStartX - 1, pDumpBbTgt->uStartY,
+ '>', enmColor);
+ /* Draw the horizontal line. */
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, uXVerLine + 1, pDumpBbTgt->uStartX - 2,
+ pDumpBbTgt->uStartY, '-', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uXVerLine, pDumpBbTgt->uStartY, '+',
+ enmColor);
+ /* Draw the vertical line down to the source block. */
+ dbgcScreenAsciiDrawLineVertical(hScreen, uXVerLine, pDumpBbTgt->uStartY + 1, uYHorLine - 1,
+ '|', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uXVerLine, uYHorLine, '+', enmColor);
+ /* Draw the horizontal connection between the source block and vertical part. */
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, uXVerLine + 1, pDumpBb->uStartX - 1,
+ uYHorLine, '-', enmColor);
+
+ }
+ else
+ {
+ /* Going forward. */
+ uint32_t uXVerLine = cchWidth + cchLeftExtra + (cchRightExtra - uFwdConns) - 1;
+ uint32_t uYHorLine = pDumpBb->uStartY + pDumpBb->cchHeight - 1 - 2;
+ uFwdConns++;
+
+ /* Draw the horizontal line. */
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, pDumpBb->uStartX + pDumpBb->cchWidth,
+ uXVerLine - 1, uYHorLine, '-', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uXVerLine, uYHorLine, '+', enmColor);
+ /* Draw the vertical line down to the target block. */
+ dbgcScreenAsciiDrawLineVertical(hScreen, uXVerLine, uYHorLine + 1, pDumpBbTgt->uStartY - 1,
+ '|', enmColor);
+ /* Draw the horizontal connection between the target block and vertical part. */
+ dbgcScreenAsciiDrawLineHorizontal(hScreen, pDumpBbTgt->uStartX + pDumpBbTgt->cchWidth,
+ uXVerLine, pDumpBbTgt->uStartY, '-', enmColor);
+ dbgcScreenAsciiDrawCharacter(hScreen, uXVerLine, pDumpBbTgt->uStartY, '+',
+ enmColor);
+ /* Draw the arrow pointing to the target block. */
+ dbgcScreenAsciiDrawCharacter(hScreen, pDumpBbTgt->uStartX + pDumpBbTgt->cchWidth,
+ pDumpBbTgt->uStartY, '<', enmColor);
+ }
+ break;
+ }
+ case DBGFFLOWBBENDTYPE_UNCOND_INDIRECT_JMP:
+ default:
+ AssertFailed();
+ }
+ }
+
+ rc = dbgcScreenAsciiBlit(hScreen, dbgcCmdUnassembleCfgBlit, pCmdHlp, fUseColor);
+ dbgcScreenAsciiDestroy(hScreen);
+ }
+ }
+
+ if (paDumpBb)
+ {
+ for (unsigned i = 0; i < cBbs; i++)
+ DBGFR3FlowBbRelease(paDumpBb[i].hFlowBb);
+ RTMemTmpFree(paDumpBb);
+ }
+
+ if (paDumpBranchTbl)
+ {
+ for (unsigned i = 0; i < cBranchTbls; i++)
+ DBGFR3FlowBranchTblRelease(paDumpBranchTbl[i].hFlowBranchTbl);
+ RTMemTmpFree(paDumpBranchTbl);
+ }
+
+ if (hCfgIt)
+ DBGFR3FlowItDestroy(hCfgIt);
+ if (hFlowBranchTblIt)
+ DBGFR3FlowBranchTblItDestroy(hFlowBranchTblIt);
+
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'ucfg' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdUnassembleCfg(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, -1, cArgs <= 1);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 0 || DBGCVAR_ISPOINTER(paArgs[0].enmType));
+
+ if (!cArgs && !DBGCVAR_ISPOINTER(pDbgc->DisasmPos.enmType))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Don't know where to start disassembling");
+
+ /*
+ * Check the desired mode.
+ */
+ unsigned fFlags = DBGF_DISAS_FLAGS_UNPATCHED_BYTES | DBGF_DISAS_FLAGS_ANNOTATE_PATCHED;
+ bool fUseColor = false;
+ switch (pCmd->pszCmd[4])
+ {
+ default: AssertFailed(); RT_FALL_THRU();
+ case '\0': fFlags |= DBGF_DISAS_FLAGS_DEFAULT_MODE; break;
+ case '6': fFlags |= DBGF_DISAS_FLAGS_64BIT_MODE; break;
+ case '3': fFlags |= DBGF_DISAS_FLAGS_32BIT_MODE; break;
+ case '1': fFlags |= DBGF_DISAS_FLAGS_16BIT_MODE; break;
+ case 'v': fFlags |= DBGF_DISAS_FLAGS_16BIT_REAL_MODE; break;
+ case 'c': fUseColor = true; break;
+ }
+
+ /** @todo should use DBGFADDRESS for everything */
+
+ /*
+ * Find address.
+ */
+ if (!cArgs)
+ {
+ if (!DBGCVAR_ISPOINTER(pDbgc->DisasmPos.enmType))
+ {
+ /** @todo Batch query CS, RIP, CPU mode and flags. */
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pUVM, pDbgc->idCpu);
+ if (CPUMIsGuestIn64BitCode(pVCpu))
+ {
+ pDbgc->DisasmPos.enmType = DBGCVAR_TYPE_GC_FLAT;
+ pDbgc->SourcePos.u.GCFlat = CPUMGetGuestRIP(pVCpu);
+ }
+ else
+ {
+ pDbgc->DisasmPos.enmType = DBGCVAR_TYPE_GC_FAR;
+ pDbgc->SourcePos.u.GCFar.off = CPUMGetGuestEIP(pVCpu);
+ pDbgc->SourcePos.u.GCFar.sel = CPUMGetGuestCS(pVCpu);
+ if ( (fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_DEFAULT_MODE
+ && (CPUMGetGuestEFlags(pVCpu) & X86_EFL_VM))
+ {
+ fFlags &= ~DBGF_DISAS_FLAGS_MODE_MASK;
+ fFlags |= DBGF_DISAS_FLAGS_16BIT_REAL_MODE;
+ }
+ }
+
+ fFlags |= DBGF_DISAS_FLAGS_CURRENT_GUEST;
+ }
+ else if ((fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_DEFAULT_MODE && pDbgc->fDisasm)
+ {
+ fFlags &= ~DBGF_DISAS_FLAGS_MODE_MASK;
+ fFlags |= pDbgc->fDisasm & DBGF_DISAS_FLAGS_MODE_MASK;
+ }
+ pDbgc->DisasmPos.enmRangeType = DBGCVAR_RANGE_NONE;
+ }
+ else
+ pDbgc->DisasmPos = paArgs[0];
+ pDbgc->pLastPos = &pDbgc->DisasmPos;
+
+ /*
+ * Range.
+ */
+ switch (pDbgc->DisasmPos.enmRangeType)
+ {
+ case DBGCVAR_RANGE_NONE:
+ pDbgc->DisasmPos.enmRangeType = DBGCVAR_RANGE_ELEMENTS;
+ pDbgc->DisasmPos.u64Range = 10;
+ break;
+
+ case DBGCVAR_RANGE_ELEMENTS:
+ if (pDbgc->DisasmPos.u64Range > 2048)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Too many lines requested. Max is 2048 lines");
+ break;
+
+ case DBGCVAR_RANGE_BYTES:
+ if (pDbgc->DisasmPos.u64Range > 65536)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "The requested range is too big. Max is 64KB");
+ break;
+
+ default:
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Unknown range type %d", pDbgc->DisasmPos.enmRangeType);
+ }
+
+ /*
+ * Convert physical and host addresses to guest addresses.
+ */
+ RTDBGAS hDbgAs = pDbgc->hDbgAs;
+ int rc;
+ switch (pDbgc->DisasmPos.enmType)
+ {
+ case DBGCVAR_TYPE_GC_FLAT:
+ case DBGCVAR_TYPE_GC_FAR:
+ break;
+ case DBGCVAR_TYPE_GC_PHYS:
+ hDbgAs = DBGF_AS_PHYS;
+ RT_FALL_THRU();
+ case DBGCVAR_TYPE_HC_FLAT:
+ case DBGCVAR_TYPE_HC_PHYS:
+ {
+ DBGCVAR VarTmp;
+ rc = DBGCCmdHlpEval(pCmdHlp, &VarTmp, "%%(%Dv)", &pDbgc->DisasmPos);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "failed to evaluate '%%(%Dv)'", &pDbgc->DisasmPos);
+ pDbgc->DisasmPos = VarTmp;
+ break;
+ }
+ default: AssertFailed(); break;
+ }
+
+ DBGFADDRESS CurAddr;
+ if ( (fFlags & DBGF_DISAS_FLAGS_MODE_MASK) == DBGF_DISAS_FLAGS_16BIT_REAL_MODE
+ && pDbgc->DisasmPos.enmType == DBGCVAR_TYPE_GC_FAR)
+ DBGFR3AddrFromFlat(pUVM, &CurAddr, ((uint32_t)pDbgc->DisasmPos.u.GCFar.sel << 4) + pDbgc->DisasmPos.u.GCFar.off);
+ else
+ {
+ rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &pDbgc->DisasmPos, &CurAddr);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr failed on '%Dv'", &pDbgc->DisasmPos);
+ }
+
+ DBGFFLOW hCfg;
+ rc = DBGFR3FlowCreate(pUVM, pDbgc->idCpu, &CurAddr, 0 /*cbDisasmMax*/,
+ DBGF_FLOW_CREATE_F_TRY_RESOLVE_INDIRECT_BRANCHES, fFlags, &hCfg);
+ if (RT_SUCCESS(rc))
+ {
+ /* Dump the graph. */
+ rc = dbgcCmdUnassembleCfgDump(hCfg, fUseColor, pCmdHlp);
+ DBGFR3FlowRelease(hCfg);
+ }
+ else
+ rc = DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3FlowCreate failed on '%Dv'", &pDbgc->DisasmPos);
+
+ NOREF(pCmd);
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'ls' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdListSource(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs <= 1);
+ if (cArgs == 1)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ if (!pUVM && !cArgs && !DBGCVAR_ISPOINTER(pDbgc->SourcePos.enmType))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Don't know where to start listing...");
+ if (!pUVM && cArgs && DBGCVAR_ISGCPOINTER(paArgs[0].enmType))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "GC address but no VM");
+
+ /*
+ * Find address.
+ */
+ if (!cArgs)
+ {
+ if (!DBGCVAR_ISPOINTER(pDbgc->SourcePos.enmType))
+ {
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pUVM, pDbgc->idCpu);
+ pDbgc->SourcePos.enmType = DBGCVAR_TYPE_GC_FAR;
+ pDbgc->SourcePos.u.GCFar.off = CPUMGetGuestEIP(pVCpu);
+ pDbgc->SourcePos.u.GCFar.sel = CPUMGetGuestCS(pVCpu);
+ }
+ pDbgc->SourcePos.enmRangeType = DBGCVAR_RANGE_NONE;
+ }
+ else
+ pDbgc->SourcePos = paArgs[0];
+ pDbgc->pLastPos = &pDbgc->SourcePos;
+
+ /*
+ * Ensure the source address is flat GC.
+ */
+ switch (pDbgc->SourcePos.enmType)
+ {
+ case DBGCVAR_TYPE_GC_FLAT:
+ break;
+ case DBGCVAR_TYPE_GC_PHYS:
+ case DBGCVAR_TYPE_GC_FAR:
+ case DBGCVAR_TYPE_HC_FLAT:
+ case DBGCVAR_TYPE_HC_PHYS:
+ {
+ int rc = DBGCCmdHlpEval(pCmdHlp, &pDbgc->SourcePos, "%%(%Dv)", &pDbgc->SourcePos);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: Invalid address or address type. (rc=%d)\n", rc);
+ break;
+ }
+ default: AssertFailed(); break;
+ }
+
+ /*
+ * Range.
+ */
+ switch (pDbgc->SourcePos.enmRangeType)
+ {
+ case DBGCVAR_RANGE_NONE:
+ pDbgc->SourcePos.enmRangeType = DBGCVAR_RANGE_ELEMENTS;
+ pDbgc->SourcePos.u64Range = 10;
+ break;
+
+ case DBGCVAR_RANGE_ELEMENTS:
+ if (pDbgc->SourcePos.u64Range > 2048)
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: Too many lines requested. Max is 2048 lines.\n");
+ break;
+
+ case DBGCVAR_RANGE_BYTES:
+ if (pDbgc->SourcePos.u64Range > 65536)
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: The requested range is too big. Max is 64KB.\n");
+ break;
+
+ default:
+ return DBGCCmdHlpPrintf(pCmdHlp, "internal error: Unknown range type %d.\n", pDbgc->SourcePos.enmRangeType);
+ }
+
+ /*
+ * Do the disassembling.
+ */
+ bool fFirst = 1;
+ RTDBGLINE LinePrev = { 0, 0, 0, 0, 0, "" };
+ int iRangeLeft = (int)pDbgc->SourcePos.u64Range;
+ if (iRangeLeft == 0) /* kludge for 'r'. */
+ iRangeLeft = -1;
+ for (;;)
+ {
+ /*
+ * Get line info.
+ */
+ RTDBGLINE Line;
+ RTGCINTPTR off;
+ DBGFADDRESS SourcePosAddr;
+ int rc = DBGCCmdHlpVarToDbgfAddr(pCmdHlp, &pDbgc->SourcePos, &SourcePosAddr);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGCCmdHlpVarToDbgfAddr(,%Dv)", &pDbgc->SourcePos);
+ rc = DBGFR3AsLineByAddr(pUVM, pDbgc->hDbgAs, &SourcePosAddr, &off, &Line, NULL);
+ if (RT_FAILURE(rc))
+ return VINF_SUCCESS;
+
+ unsigned cLines = 0;
+ if (memcmp(&Line, &LinePrev, sizeof(Line)))
+ {
+ /*
+ * Print filenamename
+ */
+ if (!fFirst && strcmp(Line.szFilename, LinePrev.szFilename))
+ fFirst = true;
+ if (fFirst)
+ {
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "[%s @ %d]\n", Line.szFilename, Line.uLineNo);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+
+ /*
+ * Try open the file and read the line.
+ */
+ FILE *phFile = fopen(Line.szFilename, "r");
+ if (phFile)
+ {
+ /* Skip ahead to the desired line. */
+ char szLine[4096];
+ unsigned cBefore = fFirst ? RT_MIN(2, Line.uLineNo - 1) : Line.uLineNo - LinePrev.uLineNo - 1;
+ if (cBefore > 7)
+ cBefore = 0;
+ unsigned cLeft = Line.uLineNo - cBefore;
+ while (cLeft > 0)
+ {
+ szLine[0] = '\0';
+ if (!fgets(szLine, sizeof(szLine), phFile))
+ break;
+ cLeft--;
+ }
+ if (!cLeft)
+ {
+ /* print the before lines */
+ for (;;)
+ {
+ size_t cch = strlen(szLine);
+ while (cch > 0 && (szLine[cch - 1] == '\r' || szLine[cch - 1] == '\n' || RT_C_IS_SPACE(szLine[cch - 1])) )
+ szLine[--cch] = '\0';
+ if (cBefore-- <= 0)
+ break;
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %4d: %s\n", Line.uLineNo - cBefore - 1, szLine);
+ szLine[0] = '\0';
+ const char *pszShutUpGcc = fgets(szLine, sizeof(szLine), phFile); NOREF(pszShutUpGcc);
+ cLines++;
+ }
+ /* print the actual line */
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%08llx %4d: %s\n", Line.Address, Line.uLineNo, szLine);
+ }
+ fclose(phFile);
+ if (RT_FAILURE(rc))
+ return rc;
+ fFirst = false;
+ }
+ else
+ return DBGCCmdHlpPrintf(pCmdHlp, "Warning: couldn't open source file '%s'\n", Line.szFilename);
+
+ LinePrev = Line;
+ }
+
+
+ /*
+ * Advance
+ */
+ if (iRangeLeft < 0) /* 'r' */
+ break;
+ if (pDbgc->SourcePos.enmRangeType == DBGCVAR_RANGE_ELEMENTS)
+ iRangeLeft -= cLines;
+ else
+ iRangeLeft -= 1;
+ rc = DBGCCmdHlpEval(pCmdHlp, &pDbgc->SourcePos, "(%Dv) + %x", &pDbgc->SourcePos, 1);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Expression: (%Dv) + %x\n", &pDbgc->SourcePos, 1);
+ if (iRangeLeft <= 0)
+ break;
+ }
+
+ NOREF(pCmd);
+ return 0;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'r' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdReg(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ return dbgcCmdRegGuest(pCmd, pCmdHlp, pUVM, paArgs, cArgs);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, Common worker for the dbgcCmdReg*()
+ * commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdRegCommon(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs,
+ const char *pszPrefix)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 1 || cArgs == 2 || cArgs == 3);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType == DBGCVAR_TYPE_STRING
+ || paArgs[0].enmType == DBGCVAR_TYPE_SYMBOL);
+
+ /*
+ * Parse the register name and kind.
+ */
+ const char *pszReg = paArgs[0].u.pszString;
+ if (*pszReg == '@')
+ pszReg++;
+ VMCPUID idCpu = pDbgc->idCpu;
+ if (*pszPrefix)
+ idCpu |= DBGFREG_HYPER_VMCPUID;
+ if (*pszReg == '.')
+ {
+ pszReg++;
+ idCpu |= DBGFREG_HYPER_VMCPUID;
+ }
+ const char * const pszActualPrefix = idCpu & DBGFREG_HYPER_VMCPUID ? "." : "";
+
+ /*
+ * Query the register type & value (the setter needs the type).
+ */
+ DBGFREGVALTYPE enmType;
+ DBGFREGVAL Value;
+ int rc = DBGFR3RegNmQuery(pUVM, idCpu, pszReg, &Value, &enmType);
+ if (RT_FAILURE(rc))
+ {
+ if (rc == VERR_DBGF_REGISTER_NOT_FOUND)
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "Unknown register: '%s%s'.\n",
+ pszActualPrefix, pszReg);
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3RegNmQuery failed querying '%s%s': %Rrc.\n",
+ pszActualPrefix, pszReg, rc);
+ }
+ if (cArgs == 1)
+ {
+ /*
+ * Show the register.
+ */
+ char szValue[160];
+ rc = DBGFR3RegFormatValue(szValue, sizeof(szValue), &Value, enmType, true /*fSpecial*/);
+ if (RT_SUCCESS(rc))
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%s%s=%s\n", pszActualPrefix, pszReg, szValue);
+ else
+ rc = DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3RegFormatValue failed: %Rrc.\n", rc);
+ }
+ else
+ {
+ DBGCVAR NewValueTmp;
+ PCDBGCVAR pNewValue;
+ if (cArgs == 3)
+ {
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 1, paArgs[1].enmType == DBGCVAR_TYPE_STRING);
+ if (strcmp(paArgs[1].u.pszString, "="))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Second argument must be '='.");
+ pNewValue = &paArgs[2];
+ }
+ else
+ {
+ /* Not possible to convince the parser to support both codeview and
+ windbg syntax and make the equal sign optional. Try help it. */
+ /** @todo make DBGCCmdHlpConvert do more with strings. */
+ rc = DBGCCmdHlpConvert(pCmdHlp, &paArgs[1], DBGCVAR_TYPE_NUMBER, true /*fConvSyms*/, &NewValueTmp);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "The last argument must be a value or valid symbol.");
+ pNewValue = &NewValueTmp;
+ }
+
+ /*
+ * Modify the register.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 1, pNewValue->enmType == DBGCVAR_TYPE_NUMBER);
+ if (enmType != DBGFREGVALTYPE_DTR)
+ {
+ enmType = DBGFREGVALTYPE_U64;
+ rc = DBGCCmdHlpVarToNumber(pCmdHlp, pNewValue, &Value.u64);
+ }
+ else
+ {
+ enmType = DBGFREGVALTYPE_DTR;
+ rc = DBGCCmdHlpVarToNumber(pCmdHlp, pNewValue, &Value.dtr.u64Base);
+ if (RT_SUCCESS(rc) && pNewValue->enmRangeType != DBGCVAR_RANGE_NONE)
+ Value.dtr.u32Limit = (uint32_t)pNewValue->u64Range;
+ }
+ if (RT_SUCCESS(rc))
+ {
+ rc = DBGFR3RegNmSet(pUVM, idCpu, pszReg, &Value, enmType);
+ if (RT_FAILURE(rc))
+ rc = DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3RegNmSet failed settings '%s%s': %Rrc\n",
+ pszActualPrefix, pszReg, rc);
+ if (rc != VINF_SUCCESS)
+ DBGCCmdHlpPrintf(pCmdHlp, "%s: warning: %Rrc\n", pCmd->pszCmd, rc);
+ }
+ else
+ rc = DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3RegFormatValue failed: %Rrc.\n", rc);
+ }
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD,
+ * The 'rg'\, 'rg64' and 'rg32' commands\, worker for 'r'.}
+ */
+static DECLCALLBACK(int) dbgcCmdRegGuest(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Show all registers our selves.
+ */
+ if (cArgs == 0)
+ {
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ bool const f64BitMode = !strcmp(pCmd->pszCmd, "rg64")
+ || ( strcmp(pCmd->pszCmd, "rg32") != 0
+ && DBGFR3CpuIsIn64BitCode(pUVM, pDbgc->idCpu));
+ char szDisAndRegs[8192];
+ int rc;
+
+ if (pDbgc->fRegTerse)
+ {
+ if (f64BitMode)
+ rc = DBGFR3RegPrintf(pUVM, pDbgc->idCpu, &szDisAndRegs[0], sizeof(szDisAndRegs),
+ "u %016VR{rip} L 0\n"
+ "rax=%016VR{rax} rbx=%016VR{rbx} rcx=%016VR{rcx} rdx=%016VR{rdx}\n"
+ "rsi=%016VR{rsi} rdi=%016VR{rdi} r8 =%016VR{r8} r9 =%016VR{r9}\n"
+ "r10=%016VR{r10} r11=%016VR{r11} r12=%016VR{r12} r13=%016VR{r13}\n"
+ "r14=%016VR{r14} r15=%016VR{r15} %VRF{rflags}\n"
+ "rip=%016VR{rip} rsp=%016VR{rsp} rbp=%016VR{rbp}\n"
+ "cs=%04VR{cs} ds=%04VR{ds} es=%04VR{es} fs=%04VR{fs} gs=%04VR{gs} ss=%04VR{ss} rflags=%08VR{rflags}\n");
+ else
+ rc = DBGFR3RegPrintf(pUVM, pDbgc->idCpu, szDisAndRegs, sizeof(szDisAndRegs),
+ "u %04VR{cs}:%08VR{eip} L 0\n"
+ "eax=%08VR{eax} ebx=%08VR{ebx} ecx=%08VR{ecx} edx=%08VR{edx} esi=%08VR{esi} edi=%08VR{edi}\n"
+ "eip=%08VR{eip} esp=%08VR{esp} ebp=%08VR{ebp} %VRF{eflags}\n"
+ "cs=%04VR{cs} ds=%04VR{ds} es=%04VR{es} fs=%04VR{fs} gs=%04VR{gs} ss=%04VR{ss} eflags=%08VR{eflags}\n");
+ }
+ else
+ {
+ if (f64BitMode)
+ rc = DBGFR3RegPrintf(pUVM, pDbgc->idCpu, &szDisAndRegs[0], sizeof(szDisAndRegs),
+ "u %016VR{rip} L 0\n"
+ "rax=%016VR{rax} rbx=%016VR{rbx} rcx=%016VR{rcx} rdx=%016VR{rdx}\n"
+ "rsi=%016VR{rsi} rdi=%016VR{rdi} r8 =%016VR{r8} r9 =%016VR{r9}\n"
+ "r10=%016VR{r10} r11=%016VR{r11} r12=%016VR{r12} r13=%016VR{r13}\n"
+ "r14=%016VR{r14} r15=%016VR{r15} %VRF{rflags}\n"
+ "rip=%016VR{rip} rsp=%016VR{rsp} rbp=%016VR{rbp}\n"
+ "cs={%04VR{cs} base=%016VR{cs_base} limit=%08VR{cs_lim} flags=%04VR{cs_attr}} cr0=%016VR{cr0}\n"
+ "ds={%04VR{ds} base=%016VR{ds_base} limit=%08VR{ds_lim} flags=%04VR{ds_attr}} cr2=%016VR{cr2}\n"
+ "es={%04VR{es} base=%016VR{es_base} limit=%08VR{es_lim} flags=%04VR{es_attr}} cr3=%016VR{cr3}\n"
+ "fs={%04VR{fs} base=%016VR{fs_base} limit=%08VR{fs_lim} flags=%04VR{fs_attr}} cr4=%016VR{cr4}\n"
+ "gs={%04VR{gs} base=%016VR{gs_base} limit=%08VR{gs_lim} flags=%04VR{gs_attr}} cr8=%016VR{cr8}\n"
+ "ss={%04VR{ss} base=%016VR{ss_base} limit=%08VR{ss_lim} flags=%04VR{ss_attr}}\n"
+ "dr0=%016VR{dr0} dr1=%016VR{dr1} dr2=%016VR{dr2} dr3=%016VR{dr3}\n"
+ "dr6=%016VR{dr6} dr7=%016VR{dr7}\n"
+ "gdtr=%016VR{gdtr_base}:%04VR{gdtr_lim} idtr=%016VR{idtr_base}:%04VR{idtr_lim} rflags=%08VR{rflags}\n"
+ "ldtr={%04VR{ldtr} base=%016VR{ldtr_base} limit=%08VR{ldtr_lim} flags=%08VR{ldtr_attr}}\n"
+ "tr ={%04VR{tr} base=%016VR{tr_base} limit=%08VR{tr_lim} flags=%08VR{tr_attr}}\n"
+ " sysenter={cs=%04VR{sysenter_cs} eip=%08VR{sysenter_eip} esp=%08VR{sysenter_esp}}\n"
+ " efer=%016VR{efer}\n"
+ " pat=%016VR{pat}\n"
+ " sf_mask=%016VR{sf_mask}\n"
+ "krnl_gs_base=%016VR{krnl_gs_base}\n"
+ " lstar=%016VR{lstar}\n"
+ " star=%016VR{star} cstar=%016VR{cstar}\n"
+ "fcw=%04VR{fcw} fsw=%04VR{fsw} ftw=%04VR{ftw} mxcsr=%04VR{mxcsr} mxcsr_mask=%04VR{mxcsr_mask}\n"
+ );
+ else
+ rc = DBGFR3RegPrintf(pUVM, pDbgc->idCpu, szDisAndRegs, sizeof(szDisAndRegs),
+ "u %04VR{cs}:%08VR{eip} L 0\n"
+ "eax=%08VR{eax} ebx=%08VR{ebx} ecx=%08VR{ecx} edx=%08VR{edx} esi=%08VR{esi} edi=%08VR{edi}\n"
+ "eip=%08VR{eip} esp=%08VR{esp} ebp=%08VR{ebp} %VRF{eflags}\n"
+ "cs={%04VR{cs} base=%08VR{cs_base} limit=%08VR{cs_lim} flags=%04VR{cs_attr}} dr0=%08VR{dr0} dr1=%08VR{dr1}\n"
+ "ds={%04VR{ds} base=%08VR{ds_base} limit=%08VR{ds_lim} flags=%04VR{ds_attr}} dr2=%08VR{dr2} dr3=%08VR{dr3}\n"
+ "es={%04VR{es} base=%08VR{es_base} limit=%08VR{es_lim} flags=%04VR{es_attr}} dr6=%08VR{dr6} dr7=%08VR{dr7}\n"
+ "fs={%04VR{fs} base=%08VR{fs_base} limit=%08VR{fs_lim} flags=%04VR{fs_attr}} cr0=%08VR{cr0} cr2=%08VR{cr2}\n"
+ "gs={%04VR{gs} base=%08VR{gs_base} limit=%08VR{gs_lim} flags=%04VR{gs_attr}} cr3=%08VR{cr3} cr4=%08VR{cr4}\n"
+ "ss={%04VR{ss} base=%08VR{ss_base} limit=%08VR{ss_lim} flags=%04VR{ss_attr}} cr8=%08VR{cr8}\n"
+ "gdtr=%08VR{gdtr_base}:%04VR{gdtr_lim} idtr=%08VR{idtr_base}:%04VR{idtr_lim} eflags=%08VR{eflags}\n"
+ "ldtr={%04VR{ldtr} base=%08VR{ldtr_base} limit=%08VR{ldtr_lim} flags=%04VR{ldtr_attr}}\n"
+ "tr ={%04VR{tr} base=%08VR{tr_base} limit=%08VR{tr_lim} flags=%04VR{tr_attr}}\n"
+ "sysenter={cs=%04VR{sysenter_cs} eip=%08VR{sysenter_eip} esp=%08VR{sysenter_esp}}\n"
+ "fcw=%04VR{fcw} fsw=%04VR{fsw} ftw=%04VR{ftw} mxcsr=%04VR{mxcsr} mxcsr_mask=%04VR{mxcsr_mask}\n"
+ );
+ }
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3RegPrintf failed");
+ char *pszRegs = strchr(szDisAndRegs, '\n');
+ *pszRegs++ = '\0';
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%s", pszRegs);
+
+ /*
+ * Disassemble one instruction at cs:[r|e]ip.
+ */
+ if (!f64BitMode && strstr(pszRegs, " vm ")) /* a bit ugly... */
+ return pCmdHlp->pfnExec(pCmdHlp, "uv86 %s", szDisAndRegs + 2);
+ return pCmdHlp->pfnExec(pCmdHlp, "%s", szDisAndRegs);
+ }
+ return dbgcCmdRegCommon(pCmd, pCmdHlp, pUVM, paArgs, cArgs, "");
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'rt' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdRegTerse(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ NOREF(pCmd); NOREF(pUVM); NOREF(paArgs); NOREF(cArgs);
+
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ pDbgc->fRegTerse = !pDbgc->fRegTerse;
+ return DBGCCmdHlpPrintf(pCmdHlp, pDbgc->fRegTerse ? "info: Terse register info.\n" : "info: Verbose register info.\n");
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'pr' and 'tr' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdStepTraceToggle(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ Assert(cArgs == 0); NOREF(pCmd); NOREF(pUVM); NOREF(paArgs); NOREF(cArgs);
+
+ /* Note! windbg accepts 'r' as a flag to 'p', 'pa', 'pc', 'pt', 't',
+ 'ta', 'tc' and 'tt'. We've simplified it. */
+ pDbgc->fStepTraceRegs = !pDbgc->fStepTraceRegs;
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'p'\, 'pc'\, 'pt'\, 't'\, 'tc'\, and 'tt' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdStepTrace(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ if (cArgs != 0)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd,
+ "Sorry, but the '%s' command does not currently implement any arguments.\n", pCmd->pszCmd);
+
+ /* The 'count' has to be implemented by DBGC, whereas the
+ filtering is taken care of by DBGF. */
+
+ /*
+ * Convert the command to DBGF_STEP_F_XXX and other API input.
+ */
+ //DBGFADDRESS StackPop;
+ PDBGFADDRESS pStackPop = NULL;
+ RTGCPTR cbStackPop = 0;
+ uint32_t cMaxSteps = pCmd->pszCmd[0] == 'p' ? _512K : _64K;
+ uint32_t fFlags = pCmd->pszCmd[0] == 'p' ? DBGF_STEP_F_OVER : DBGF_STEP_F_INTO;
+ if (pCmd->pszCmd[1] == 'c')
+ fFlags |= DBGF_STEP_F_STOP_ON_CALL;
+ else if (pCmd->pszCmd[1] == 't')
+ fFlags |= DBGF_STEP_F_STOP_ON_RET;
+ else if (pCmd->pszCmd[0] != 'p')
+ cMaxSteps = 1;
+ else
+ {
+ /** @todo consider passing RSP + 1 in for 'p' and something else sensible for
+ * the 'pt' command. */
+ }
+
+ int rc = DBGFR3StepEx(pUVM, pDbgc->idCpu, fFlags, NULL, pStackPop, cbStackPop, cMaxSteps);
+ if (RT_SUCCESS(rc))
+ pDbgc->fReady = false;
+ else
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3StepEx(,,%#x,) failed", fFlags);
+
+ NOREF(pCmd); NOREF(paArgs); NOREF(cArgs);
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'pa' and 'ta' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdStepTraceTo(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ if (cArgs != 1)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd,
+ "Sorry, but the '%s' command only implements a single argument at present.\n", pCmd->pszCmd);
+ DBGFADDRESS Address;
+ int rc = pCmdHlp->pfnVarToDbgfAddr(pCmdHlp, &paArgs[0], &Address);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "VarToDbgfAddr(,%Dv,)\n", &paArgs[0]);
+
+ uint32_t cMaxSteps = pCmd->pszCmd[0] == 'p' ? _512K : 1;
+ uint32_t fFlags = pCmd->pszCmd[0] == 'p' ? DBGF_STEP_F_OVER : DBGF_STEP_F_INTO;
+ rc = DBGFR3StepEx(pUVM, pDbgc->idCpu, fFlags, &Address, NULL, 0, cMaxSteps);
+ if (RT_SUCCESS(rc))
+ pDbgc->fReady = false;
+ else
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3StepEx(,,%#x,) failed", fFlags);
+ return rc;
+}
+
+
+/**
+ * Helper that tries to resolve a far address to a symbol and formats it.
+ *
+ * @returns Pointer to symbol string on success, NULL if not resolved.
+ * Free using RTStrFree.
+ * @param pCmdHlp The command helper structure.
+ * @param hAs The address space to use. NIL_RTDBGAS means no symbol resolving.
+ * @param sel The selector part of the address.
+ * @param off The offset part of the address.
+ * @param pszPrefix How to prefix the symbol string.
+ * @param pszSuffix How to suffix the symbol string.
+ */
+static char *dbgcCmdHlpFarAddrToSymbol(PDBGCCMDHLP pCmdHlp, RTDBGAS hAs, RTSEL sel, uint64_t off,
+ const char *pszPrefix, const char *pszSuffix)
+{
+ char *pszRet = NULL;
+ if (hAs != NIL_RTDBGAS)
+ {
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ DBGFADDRESS Addr;
+ int rc = DBGFR3AddrFromSelOff(pDbgc->pUVM, pDbgc->idCpu, &Addr, sel, off);
+ if (RT_SUCCESS(rc))
+ {
+ RTGCINTPTR offDispSym = 0;
+ PRTDBGSYMBOL pSymbol = DBGFR3AsSymbolByAddrA(pDbgc->pUVM, hAs, &Addr,
+ RTDBGSYMADDR_FLAGS_GREATER_OR_EQUAL
+ | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &offDispSym, NULL);
+ if (pSymbol)
+ {
+ if (offDispSym == 0)
+ pszRet = RTStrAPrintf2("%s%s%s", pszPrefix, pSymbol->szName, pszSuffix);
+ else if (offDispSym > 0)
+ pszRet = RTStrAPrintf2("%s%s+%llx%s", pszPrefix, pSymbol->szName, (int64_t)offDispSym, pszSuffix);
+ else
+ pszRet = RTStrAPrintf2("%s%s-%llx%s", pszPrefix, pSymbol->szName, -(int64_t)offDispSym, pszSuffix);
+ RTDbgSymbolFree(pSymbol);
+ }
+ }
+ }
+ return pszRet;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'k'\, 'kg' and 'kh' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdStack(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Figure which context we're called for and start walking that stack.
+ */
+ int rc;
+ PCDBGFSTACKFRAME pFirstFrame;
+ bool const fGuest = true;
+ bool const fVerbose = pCmd->pszCmd[1] == 'v'
+ || (pCmd->pszCmd[1] != '\0' && pCmd->pszCmd[2] == 'v');
+ rc = DBGFR3StackWalkBegin(pUVM, pDbgc->idCpu, fGuest ? DBGFCODETYPE_GUEST : DBGFCODETYPE_HYPER, &pFirstFrame);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpPrintf(pCmdHlp, "Failed to begin stack walk, rc=%Rrc\n", rc);
+
+ /*
+ * Print the frames.
+ */
+ char szTmp[1024];
+ uint32_t fBitFlags = 0;
+ for (PCDBGFSTACKFRAME pFrame = pFirstFrame;
+ pFrame;
+ pFrame = DBGFR3StackWalkNext(pFrame))
+ {
+ uint32_t const fCurBitFlags = pFrame->fFlags & (DBGFSTACKFRAME_FLAGS_16BIT | DBGFSTACKFRAME_FLAGS_32BIT | DBGFSTACKFRAME_FLAGS_64BIT);
+ if (fCurBitFlags & DBGFSTACKFRAME_FLAGS_16BIT)
+ {
+ if (fCurBitFlags != fBitFlags)
+ pCmdHlp->pfnPrintf(pCmdHlp, NULL, "# SS:BP Ret SS:BP Ret CS:EIP Arg0 Arg1 Arg2 Arg3 CS:EIP / Symbol [line]\n");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%02x %04RX16:%04RX16 %04RX16:%04RX16 %04RX32:%08RX32 %08RX32 %08RX32 %08RX32 %08RX32",
+ pFrame->iFrame,
+ pFrame->AddrFrame.Sel,
+ (uint16_t)pFrame->AddrFrame.off,
+ pFrame->AddrReturnFrame.Sel,
+ (uint16_t)pFrame->AddrReturnFrame.off,
+ (uint32_t)pFrame->AddrReturnPC.Sel,
+ (uint32_t)pFrame->AddrReturnPC.off,
+ pFrame->Args.au32[0],
+ pFrame->Args.au32[1],
+ pFrame->Args.au32[2],
+ pFrame->Args.au32[3]);
+ }
+ else if (fCurBitFlags & DBGFSTACKFRAME_FLAGS_32BIT)
+ {
+ if (fCurBitFlags != fBitFlags)
+ pCmdHlp->pfnPrintf(pCmdHlp, NULL, "# EBP Ret EBP Ret CS:EIP Arg0 Arg1 Arg2 Arg3 CS:EIP / Symbol [line]\n");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%02x %08RX32 %08RX32 %04RX32:%08RX32 %08RX32 %08RX32 %08RX32 %08RX32",
+ pFrame->iFrame,
+ (uint32_t)pFrame->AddrFrame.off,
+ (uint32_t)pFrame->AddrReturnFrame.off,
+ (uint32_t)pFrame->AddrReturnPC.Sel,
+ (uint32_t)pFrame->AddrReturnPC.off,
+ pFrame->Args.au32[0],
+ pFrame->Args.au32[1],
+ pFrame->Args.au32[2],
+ pFrame->Args.au32[3]);
+ }
+ else if (fCurBitFlags & DBGFSTACKFRAME_FLAGS_64BIT)
+ {
+ if (fCurBitFlags != fBitFlags)
+ pCmdHlp->pfnPrintf(pCmdHlp, NULL, "# RBP Ret SS:RBP Ret RIP CS:RIP / Symbol [line]\n");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%02x %016RX64 %04RX16:%016RX64 %016RX64",
+ pFrame->iFrame,
+ (uint64_t)pFrame->AddrFrame.off,
+ pFrame->AddrReturnFrame.Sel,
+ (uint64_t)pFrame->AddrReturnFrame.off,
+ (uint64_t)pFrame->AddrReturnPC.off);
+ }
+ if (RT_FAILURE(rc))
+ break;
+ if (!pFrame->pSymPC)
+ rc = pCmdHlp->pfnPrintf(pCmdHlp, NULL,
+ fCurBitFlags & DBGFSTACKFRAME_FLAGS_64BIT
+ ? " %RTsel:%016RGv"
+ : fCurBitFlags & DBGFSTACKFRAME_FLAGS_32BIT
+ ? " %RTsel:%08RGv"
+ : " %RTsel:%04RGv"
+ , pFrame->AddrPC.Sel, pFrame->AddrPC.off);
+ else
+ {
+ RTGCINTPTR offDisp = pFrame->AddrPC.FlatPtr - pFrame->pSymPC->Value; /** @todo this isn't 100% correct for segmented stuff. */
+ if (offDisp > 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s+%llx", pFrame->pSymPC->szName, (int64_t)offDisp);
+ else if (offDisp < 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s-%llx", pFrame->pSymPC->szName, -(int64_t)offDisp);
+ else
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s", pFrame->pSymPC->szName);
+ }
+ if (RT_SUCCESS(rc) && pFrame->pLinePC)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " [%s @ 0i%d]", pFrame->pLinePC->szFilename, pFrame->pLinePC->uLineNo);
+ if (RT_SUCCESS(rc))
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+
+ if (fVerbose && RT_SUCCESS(rc))
+ {
+ /*
+ * Display verbose frame info.
+ */
+ const char *pszRetType = "invalid";
+ switch (pFrame->enmReturnType)
+ {
+ case RTDBGRETURNTYPE_NEAR16: pszRetType = "retn/16"; break;
+ case RTDBGRETURNTYPE_NEAR32: pszRetType = "retn/32"; break;
+ case RTDBGRETURNTYPE_NEAR64: pszRetType = "retn/64"; break;
+ case RTDBGRETURNTYPE_FAR16: pszRetType = "retf/16"; break;
+ case RTDBGRETURNTYPE_FAR32: pszRetType = "retf/32"; break;
+ case RTDBGRETURNTYPE_FAR64: pszRetType = "retf/64"; break;
+ case RTDBGRETURNTYPE_IRET16: pszRetType = "iret-16"; break;
+ case RTDBGRETURNTYPE_IRET32: pszRetType = "iret/32s"; break;
+ case RTDBGRETURNTYPE_IRET32_PRIV: pszRetType = "iret/32p"; break;
+ case RTDBGRETURNTYPE_IRET32_V86: pszRetType = "iret/v86"; break;
+ case RTDBGRETURNTYPE_IRET64: pszRetType = "iret/64"; break;
+
+ case RTDBGRETURNTYPE_END:
+ case RTDBGRETURNTYPE_INVALID:
+ case RTDBGRETURNTYPE_32BIT_HACK:
+ break;
+ }
+ size_t cchLine = DBGCCmdHlpPrintfLen(pCmdHlp, " %s", pszRetType);
+ if (pFrame->fFlags & DBGFSTACKFRAME_FLAGS_USED_UNWIND_INFO)
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " used-unwind-info");
+ if (pFrame->fFlags & DBGFSTACKFRAME_FLAGS_USED_ODD_EVEN)
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " used-odd-even");
+ if (pFrame->fFlags & DBGFSTACKFRAME_FLAGS_REAL_V86)
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " real-v86");
+ if (pFrame->fFlags & DBGFSTACKFRAME_FLAGS_MAX_DEPTH)
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " max-depth");
+ if (pFrame->fFlags & DBGFSTACKFRAME_FLAGS_TRAP_FRAME)
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " trap-frame");
+
+ if (pFrame->cSureRegs > 0)
+ {
+ cchLine = 1024; /* force new line */
+ for (uint32_t i = 0; i < pFrame->cSureRegs; i++)
+ {
+ if (cchLine > 80)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "\n ");
+ cchLine = 2;
+ }
+
+ szTmp[0] = '\0';
+ DBGFR3RegFormatValue(szTmp, sizeof(szTmp), &pFrame->paSureRegs[i].Value,
+ pFrame->paSureRegs[i].enmType, false);
+ const char *pszName = pFrame->paSureRegs[i].enmReg != DBGFREG_END
+ ? DBGFR3RegCpuName(pUVM, pFrame->paSureRegs[i].enmReg, pFrame->paSureRegs[i].enmType)
+ : pFrame->paSureRegs[i].pszName;
+ cchLine += DBGCCmdHlpPrintfLen(pCmdHlp, " %s=%s", pszName, szTmp);
+ }
+ }
+
+ if (RT_SUCCESS(rc))
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ }
+
+ if (RT_FAILURE(rc))
+ break;
+
+ fBitFlags = fCurBitFlags;
+ }
+
+ DBGFR3StackWalkEnd(pFirstFrame);
+
+ NOREF(paArgs); NOREF(cArgs);
+ return rc;
+}
+
+
+/**
+ * Worker function that displays one descriptor entry (GDT, LDT, IDT).
+ *
+ * @returns pfnPrintf status code.
+ * @param pCmdHlp The DBGC command helpers.
+ * @param pDesc The descriptor to display.
+ * @param iEntry The descriptor entry number.
+ * @param fHyper Whether the selector belongs to the hypervisor or not.
+ * @param hAs Address space to use when resolving symbols.
+ * @param pfDblEntry Where to indicate whether the entry is two entries wide.
+ * Optional.
+ */
+static int dbgcCmdDumpDTWorker64(PDBGCCMDHLP pCmdHlp, PCX86DESC64 pDesc, unsigned iEntry, bool fHyper, RTDBGAS hAs,
+ bool *pfDblEntry)
+{
+ /* GUEST64 */
+ int rc;
+
+ const char *pszHyper = fHyper ? " HYPER" : "";
+ const char *pszPresent = pDesc->Gen.u1Present ? "P " : "NP";
+ if (pDesc->Gen.u1DescType)
+ {
+ static const char * const s_apszTypes[] =
+ {
+ "DataRO", /* 0 Read-Only */
+ "DataRO", /* 1 Read-Only - Accessed */
+ "DataRW", /* 2 Read/Write */
+ "DataRW", /* 3 Read/Write - Accessed */
+ "DownRO", /* 4 Expand-down, Read-Only */
+ "DownRO", /* 5 Expand-down, Read-Only - Accessed */
+ "DownRW", /* 6 Expand-down, Read/Write */
+ "DownRW", /* 7 Expand-down, Read/Write - Accessed */
+ "CodeEO", /* 8 Execute-Only */
+ "CodeEO", /* 9 Execute-Only - Accessed */
+ "CodeER", /* A Execute/Readable */
+ "CodeER", /* B Execute/Readable - Accessed */
+ "ConfE0", /* C Conforming, Execute-Only */
+ "ConfE0", /* D Conforming, Execute-Only - Accessed */
+ "ConfER", /* E Conforming, Execute/Readable */
+ "ConfER" /* F Conforming, Execute/Readable - Accessed */
+ };
+ const char *pszAccessed = pDesc->Gen.u4Type & RT_BIT(0) ? "A " : "NA";
+ const char *pszGranularity = pDesc->Gen.u1Granularity ? "G" : " ";
+ const char *pszBig = pDesc->Gen.u1DefBig ? "BIG" : " ";
+ uint32_t u32Base = X86DESC_BASE(pDesc);
+ uint32_t cbLimit = X86DESC_LIMIT_G(pDesc);
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Bas=%08x Lim=%08x DPL=%d %s %s %s %s AVL=%d L=%d%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], u32Base, cbLimit,
+ pDesc->Gen.u2Dpl, pszPresent, pszAccessed, pszGranularity, pszBig,
+ pDesc->Gen.u1Available, pDesc->Gen.u1Long, pszHyper);
+ }
+ else
+ {
+ static const char * const s_apszTypes[] =
+ {
+ "Ill-0 ", /* 0 0000 Reserved (Illegal) */
+ "Ill-1 ", /* 1 0001 Available 16-bit TSS */
+ "LDT ", /* 2 0010 LDT */
+ "Ill-3 ", /* 3 0011 Busy 16-bit TSS */
+ "Ill-4 ", /* 4 0100 16-bit Call Gate */
+ "Ill-5 ", /* 5 0101 Task Gate */
+ "Ill-6 ", /* 6 0110 16-bit Interrupt Gate */
+ "Ill-7 ", /* 7 0111 16-bit Trap Gate */
+ "Ill-8 ", /* 8 1000 Reserved (Illegal) */
+ "Tss64A", /* 9 1001 Available 32-bit TSS */
+ "Ill-A ", /* A 1010 Reserved (Illegal) */
+ "Tss64B", /* B 1011 Busy 32-bit TSS */
+ "Call64", /* C 1100 32-bit Call Gate */
+ "Ill-D ", /* D 1101 Reserved (Illegal) */
+ "Int64 ", /* E 1110 32-bit Interrupt Gate */
+ "Trap64" /* F 1111 32-bit Trap Gate */
+ };
+ switch (pDesc->Gen.u4Type)
+ {
+ /* raw */
+ case X86_SEL_TYPE_SYS_UNDEFINED:
+ case X86_SEL_TYPE_SYS_UNDEFINED2:
+ case X86_SEL_TYPE_SYS_UNDEFINED4:
+ case X86_SEL_TYPE_SYS_UNDEFINED3:
+ case X86_SEL_TYPE_SYS_286_TSS_AVAIL:
+ case X86_SEL_TYPE_SYS_286_TSS_BUSY:
+ case X86_SEL_TYPE_SYS_286_CALL_GATE:
+ case X86_SEL_TYPE_SYS_286_INT_GATE:
+ case X86_SEL_TYPE_SYS_286_TRAP_GATE:
+ case X86_SEL_TYPE_SYS_TASK_GATE:
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s %.8Rhxs DPL=%d %s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], pDesc,
+ pDesc->Gen.u2Dpl, pszPresent, pszHyper);
+ break;
+
+ case X86_SEL_TYPE_SYS_386_TSS_AVAIL:
+ case X86_SEL_TYPE_SYS_386_TSS_BUSY:
+ case X86_SEL_TYPE_SYS_LDT:
+ {
+ const char *pszBusy = pDesc->Gen.u4Type & RT_BIT(1) ? "B " : "NB";
+ const char *pszBig = pDesc->Gen.u1DefBig ? "BIG" : " ";
+ const char *pszLong = pDesc->Gen.u1Long ? "LONG" : " ";
+
+ uint64_t u64Base = X86DESC64_BASE(pDesc);
+ uint32_t cbLimit = X86DESC_LIMIT_G(pDesc);
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Bas=%016RX64 Lim=%08x DPL=%d %s %s %s %sAVL=%d R=%d%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], u64Base, cbLimit,
+ pDesc->Gen.u2Dpl, pszPresent, pszBusy, pszLong, pszBig,
+ pDesc->Gen.u1Available, pDesc->Gen.u1Long | (pDesc->Gen.u1DefBig << 1),
+ pszHyper);
+ if (pfDblEntry)
+ *pfDblEntry = true;
+ break;
+ }
+
+ case X86_SEL_TYPE_SYS_386_CALL_GATE:
+ {
+ unsigned cParams = pDesc->au8[4] & 0x1f;
+ const char *pszCountOf = pDesc->Gen.u4Type & RT_BIT(3) ? "DC" : "WC";
+ RTSEL sel = pDesc->au16[1];
+ uint64_t off = pDesc->au16[0]
+ | ((uint64_t)pDesc->au16[3] << 16)
+ | ((uint64_t)pDesc->Gen.u32BaseHigh3 << 32);
+ char *pszSymbol = dbgcCmdHlpFarAddrToSymbol(pCmdHlp, hAs, sel, off, " (", ")");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Sel:Off=%04x:%016RX64 DPL=%d %s %s=%d%s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], sel, off,
+ pDesc->Gen.u2Dpl, pszPresent, pszCountOf, cParams, pszHyper, pszSymbol ? pszSymbol : "");
+ RTStrFree(pszSymbol);
+ if (pfDblEntry)
+ *pfDblEntry = true;
+ break;
+ }
+
+ case X86_SEL_TYPE_SYS_386_INT_GATE:
+ case X86_SEL_TYPE_SYS_386_TRAP_GATE:
+ {
+ RTSEL sel = pDesc->Gate.u16Sel;
+ uint64_t off = pDesc->Gate.u16OffsetLow
+ | ((uint64_t)pDesc->Gate.u16OffsetHigh << 16)
+ | ((uint64_t)pDesc->Gate.u32OffsetTop << 32);
+ char *pszSymbol = dbgcCmdHlpFarAddrToSymbol(pCmdHlp, hAs, sel, off, " (", ")");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Sel:Off=%04x:%016RX64 DPL=%u %s IST=%u%s%s\n",
+ iEntry, s_apszTypes[pDesc->Gate.u4Type], sel, off,
+ pDesc->Gate.u2Dpl, pszPresent, pDesc->Gate.u3IST, pszHyper, pszSymbol ? pszSymbol : "");
+ RTStrFree(pszSymbol);
+ if (pfDblEntry)
+ *pfDblEntry = true;
+ break;
+ }
+
+ /* impossible, just it's necessary to keep gcc happy. */
+ default:
+ return VINF_SUCCESS;
+ }
+ }
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * Worker function that displays one descriptor entry (GDT, LDT, IDT).
+ *
+ * @returns pfnPrintf status code.
+ * @param pCmdHlp The DBGC command helpers.
+ * @param pDesc The descriptor to display.
+ * @param iEntry The descriptor entry number.
+ * @param fHyper Whether the selector belongs to the hypervisor or not.
+ * @param hAs Address space to use when resolving symbols.
+ */
+static int dbgcCmdDumpDTWorker32(PDBGCCMDHLP pCmdHlp, PCX86DESC pDesc, unsigned iEntry, bool fHyper, RTDBGAS hAs)
+{
+ int rc;
+
+ const char *pszHyper = fHyper ? " HYPER" : "";
+ const char *pszPresent = pDesc->Gen.u1Present ? "P " : "NP";
+ if (pDesc->Gen.u1DescType)
+ {
+ static const char * const s_apszTypes[] =
+ {
+ "DataRO", /* 0 Read-Only */
+ "DataRO", /* 1 Read-Only - Accessed */
+ "DataRW", /* 2 Read/Write */
+ "DataRW", /* 3 Read/Write - Accessed */
+ "DownRO", /* 4 Expand-down, Read-Only */
+ "DownRO", /* 5 Expand-down, Read-Only - Accessed */
+ "DownRW", /* 6 Expand-down, Read/Write */
+ "DownRW", /* 7 Expand-down, Read/Write - Accessed */
+ "CodeEO", /* 8 Execute-Only */
+ "CodeEO", /* 9 Execute-Only - Accessed */
+ "CodeER", /* A Execute/Readable */
+ "CodeER", /* B Execute/Readable - Accessed */
+ "ConfE0", /* C Conforming, Execute-Only */
+ "ConfE0", /* D Conforming, Execute-Only - Accessed */
+ "ConfER", /* E Conforming, Execute/Readable */
+ "ConfER" /* F Conforming, Execute/Readable - Accessed */
+ };
+ const char *pszAccessed = pDesc->Gen.u4Type & RT_BIT(0) ? "A " : "NA";
+ const char *pszGranularity = pDesc->Gen.u1Granularity ? "G" : " ";
+ const char *pszBig = pDesc->Gen.u1DefBig ? "BIG" : " ";
+ uint32_t u32Base = pDesc->Gen.u16BaseLow
+ | ((uint32_t)pDesc->Gen.u8BaseHigh1 << 16)
+ | ((uint32_t)pDesc->Gen.u8BaseHigh2 << 24);
+ uint32_t cbLimit = pDesc->Gen.u16LimitLow | (pDesc->Gen.u4LimitHigh << 16);
+ if (pDesc->Gen.u1Granularity)
+ cbLimit <<= PAGE_SHIFT;
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Bas=%08x Lim=%08x DPL=%d %s %s %s %s AVL=%d L=%d%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], u32Base, cbLimit,
+ pDesc->Gen.u2Dpl, pszPresent, pszAccessed, pszGranularity, pszBig,
+ pDesc->Gen.u1Available, pDesc->Gen.u1Long, pszHyper);
+ }
+ else
+ {
+ static const char * const s_apszTypes[] =
+ {
+ "Ill-0 ", /* 0 0000 Reserved (Illegal) */
+ "Tss16A", /* 1 0001 Available 16-bit TSS */
+ "LDT ", /* 2 0010 LDT */
+ "Tss16B", /* 3 0011 Busy 16-bit TSS */
+ "Call16", /* 4 0100 16-bit Call Gate */
+ "TaskG ", /* 5 0101 Task Gate */
+ "Int16 ", /* 6 0110 16-bit Interrupt Gate */
+ "Trap16", /* 7 0111 16-bit Trap Gate */
+ "Ill-8 ", /* 8 1000 Reserved (Illegal) */
+ "Tss32A", /* 9 1001 Available 32-bit TSS */
+ "Ill-A ", /* A 1010 Reserved (Illegal) */
+ "Tss32B", /* B 1011 Busy 32-bit TSS */
+ "Call32", /* C 1100 32-bit Call Gate */
+ "Ill-D ", /* D 1101 Reserved (Illegal) */
+ "Int32 ", /* E 1110 32-bit Interrupt Gate */
+ "Trap32" /* F 1111 32-bit Trap Gate */
+ };
+ switch (pDesc->Gen.u4Type)
+ {
+ /* raw */
+ case X86_SEL_TYPE_SYS_UNDEFINED:
+ case X86_SEL_TYPE_SYS_UNDEFINED2:
+ case X86_SEL_TYPE_SYS_UNDEFINED4:
+ case X86_SEL_TYPE_SYS_UNDEFINED3:
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s %.8Rhxs DPL=%d %s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], pDesc,
+ pDesc->Gen.u2Dpl, pszPresent, pszHyper);
+ break;
+
+ case X86_SEL_TYPE_SYS_286_TSS_AVAIL:
+ case X86_SEL_TYPE_SYS_386_TSS_AVAIL:
+ case X86_SEL_TYPE_SYS_286_TSS_BUSY:
+ case X86_SEL_TYPE_SYS_386_TSS_BUSY:
+ case X86_SEL_TYPE_SYS_LDT:
+ {
+ const char *pszGranularity = pDesc->Gen.u1Granularity ? "G" : " ";
+ const char *pszBusy = pDesc->Gen.u4Type & RT_BIT(1) ? "B " : "NB";
+ const char *pszBig = pDesc->Gen.u1DefBig ? "BIG" : " ";
+ uint32_t u32Base = pDesc->Gen.u16BaseLow
+ | ((uint32_t)pDesc->Gen.u8BaseHigh1 << 16)
+ | ((uint32_t)pDesc->Gen.u8BaseHigh2 << 24);
+ uint32_t cbLimit = pDesc->Gen.u16LimitLow | (pDesc->Gen.u4LimitHigh << 16);
+ if (pDesc->Gen.u1Granularity)
+ cbLimit <<= PAGE_SHIFT;
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Bas=%08x Lim=%08x DPL=%d %s %s %s %s AVL=%d R=%d%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], u32Base, cbLimit,
+ pDesc->Gen.u2Dpl, pszPresent, pszBusy, pszGranularity, pszBig,
+ pDesc->Gen.u1Available, pDesc->Gen.u1Long | (pDesc->Gen.u1DefBig << 1),
+ pszHyper);
+ break;
+ }
+
+ case X86_SEL_TYPE_SYS_TASK_GATE:
+ {
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s TSS=%04x DPL=%d %s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], pDesc->au16[1],
+ pDesc->Gen.u2Dpl, pszPresent, pszHyper);
+ break;
+ }
+
+ case X86_SEL_TYPE_SYS_286_CALL_GATE:
+ case X86_SEL_TYPE_SYS_386_CALL_GATE:
+ {
+ unsigned cParams = pDesc->au8[4] & 0x1f;
+ const char *pszCountOf = pDesc->Gen.u4Type & RT_BIT(3) ? "DC" : "WC";
+ RTSEL sel = pDesc->au16[1];
+ uint32_t off = pDesc->au16[0] | ((uint32_t)pDesc->au16[3] << 16);
+ char *pszSymbol = dbgcCmdHlpFarAddrToSymbol(pCmdHlp, hAs, sel, off, " (", ")");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Sel:Off=%04x:%08x DPL=%d %s %s=%d%s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], sel, off,
+ pDesc->Gen.u2Dpl, pszPresent, pszCountOf, cParams, pszHyper, pszSymbol ? pszSymbol : "");
+ RTStrFree(pszSymbol);
+ break;
+ }
+
+ case X86_SEL_TYPE_SYS_286_INT_GATE:
+ case X86_SEL_TYPE_SYS_386_INT_GATE:
+ case X86_SEL_TYPE_SYS_286_TRAP_GATE:
+ case X86_SEL_TYPE_SYS_386_TRAP_GATE:
+ {
+ RTSEL sel = pDesc->au16[1];
+ uint32_t off = pDesc->au16[0] | ((uint32_t)pDesc->au16[3] << 16);
+ char *pszSymbol = dbgcCmdHlpFarAddrToSymbol(pCmdHlp, hAs, sel, off, " (", ")");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %s Sel:Off=%04x:%08x DPL=%d %s%s%s\n",
+ iEntry, s_apszTypes[pDesc->Gen.u4Type], sel, off,
+ pDesc->Gen.u2Dpl, pszPresent, pszHyper, pszSymbol ? pszSymbol : "");
+ RTStrFree(pszSymbol);
+ break;
+ }
+
+ /* impossible, just it's necessary to keep gcc happy. */
+ default:
+ return VINF_SUCCESS;
+ }
+ }
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dg'\, 'dga'\, 'dl' and 'dla' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpDT(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Get the CPU mode, check which command variation this is
+ * and fix a default parameter if needed.
+ */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pUVM, pDbgc->idCpu);
+ CPUMMODE enmMode = CPUMGetGuestMode(pVCpu);
+ bool fGdt = pCmd->pszCmd[1] == 'g';
+ bool fAll = pCmd->pszCmd[2] == 'a';
+ RTSEL SelTable = fGdt ? 0 : X86_SEL_LDT;
+
+ DBGCVAR Var;
+ if (!cArgs)
+ {
+ cArgs = 1;
+ paArgs = &Var;
+ Var.enmType = DBGCVAR_TYPE_NUMBER;
+ Var.u.u64Number = 0;
+ Var.enmRangeType = DBGCVAR_RANGE_ELEMENTS;
+ Var.u64Range = 1024;
+ }
+
+ /*
+ * Process the arguments.
+ */
+ for (unsigned i = 0; i < cArgs; i++)
+ {
+ /*
+ * Retrieve the selector value from the argument.
+ * The parser may confuse pointers and numbers if more than one
+ * argument is given, that that into account.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, i, paArgs[i].enmType == DBGCVAR_TYPE_NUMBER || DBGCVAR_ISPOINTER(paArgs[i].enmType));
+ uint64_t u64;
+ unsigned cSels = 1;
+ switch (paArgs[i].enmType)
+ {
+ case DBGCVAR_TYPE_NUMBER:
+ u64 = paArgs[i].u.u64Number;
+ if (paArgs[i].enmRangeType != DBGCVAR_RANGE_NONE)
+ cSels = RT_MIN(paArgs[i].u64Range, 1024);
+ break;
+ case DBGCVAR_TYPE_GC_FAR: u64 = paArgs[i].u.GCFar.sel; break;
+ case DBGCVAR_TYPE_GC_FLAT: u64 = paArgs[i].u.GCFlat; break;
+ case DBGCVAR_TYPE_GC_PHYS: u64 = paArgs[i].u.GCPhys; break;
+ case DBGCVAR_TYPE_HC_FLAT: u64 = (uintptr_t)paArgs[i].u.pvHCFlat; break;
+ case DBGCVAR_TYPE_HC_PHYS: u64 = paArgs[i].u.HCPhys; break;
+ default: u64 = _64K; break;
+ }
+ if (u64 < _64K)
+ {
+ unsigned Sel = (RTSEL)u64;
+
+ /*
+ * Dump the specified range.
+ */
+ bool fSingle = cSels == 1;
+ while ( cSels-- > 0
+ && Sel < _64K)
+ {
+ DBGFSELINFO SelInfo;
+ int rc = DBGFR3SelQueryInfo(pUVM, pDbgc->idCpu, Sel | SelTable, DBGFSELQI_FLAGS_DT_GUEST, &SelInfo);
+ if (RT_SUCCESS(rc))
+ {
+ if (SelInfo.fFlags & DBGFSELINFO_FLAGS_REAL_MODE)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x RealM Bas=%04x Lim=%04x\n",
+ Sel, (unsigned)SelInfo.GCPtrBase, (unsigned)SelInfo.cbLimit);
+ else if ( fAll
+ || fSingle
+ || SelInfo.u.Raw.Gen.u1Present)
+ {
+ if (enmMode == CPUMMODE_PROTECTED)
+ rc = dbgcCmdDumpDTWorker32(pCmdHlp, &SelInfo.u.Raw, Sel,
+ !!(SelInfo.fFlags & DBGFSELINFO_FLAGS_HYPER), DBGF_AS_GLOBAL);
+ else
+ {
+ bool fDblSkip = false;
+ rc = dbgcCmdDumpDTWorker64(pCmdHlp, &SelInfo.u.Raw64, Sel,
+ !!(SelInfo.fFlags & DBGFSELINFO_FLAGS_HYPER), DBGF_AS_GLOBAL, &fDblSkip);
+ if (fDblSkip)
+ Sel += 4;
+ }
+ }
+ }
+ else
+ {
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %Rrc\n", Sel, rc);
+ if (!fAll)
+ return rc;
+ }
+ if (RT_FAILURE(rc))
+ return rc;
+
+ /* next */
+ Sel += 8;
+ }
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "error: %llx is out of bounds\n", u64);
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'di' and 'dia' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpIDT(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Establish some stuff like the current IDTR and CPU mode,
+ * and fix a default parameter.
+ */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ CPUMMODE enmMode = DBGCCmdHlpGetCpuMode(pCmdHlp);
+ uint16_t cbLimit = 0;
+ uint64_t GCFlat = 0;
+ int rc = DBGFR3RegCpuQueryXdtr(pDbgc->pUVM, pDbgc->idCpu, DBGFREG_IDTR, &GCFlat, &cbLimit);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFailRc(pCmdHlp, pCmd, rc, "DBGFR3RegCpuQueryXdtr/DBGFREG_IDTR");
+ unsigned cbEntry;
+ switch (enmMode)
+ {
+ case CPUMMODE_REAL: cbEntry = sizeof(RTFAR16); break;
+ case CPUMMODE_PROTECTED: cbEntry = sizeof(X86DESC); break;
+ case CPUMMODE_LONG: cbEntry = sizeof(X86DESC64); break;
+ default:
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: Invalid CPU mode %d.\n", enmMode);
+ }
+
+ bool fAll = pCmd->pszCmd[2] == 'a';
+ DBGCVAR Var;
+ if (!cArgs)
+ {
+ cArgs = 1;
+ paArgs = &Var;
+ Var.enmType = DBGCVAR_TYPE_NUMBER;
+ Var.u.u64Number = 0;
+ Var.enmRangeType = DBGCVAR_RANGE_ELEMENTS;
+ Var.u64Range = 256;
+ }
+
+ /*
+ * Process the arguments.
+ */
+ for (unsigned i = 0; i < cArgs; i++)
+ {
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, i, paArgs[i].enmType == DBGCVAR_TYPE_NUMBER);
+ if (paArgs[i].u.u64Number < 256)
+ {
+ RTGCUINTPTR iInt = (RTGCUINTPTR)paArgs[i].u.u64Number;
+ unsigned cInts = paArgs[i].enmRangeType != DBGCVAR_RANGE_NONE
+ ? paArgs[i].u64Range
+ : 1;
+ bool fSingle = cInts == 1;
+ while ( cInts-- > 0
+ && iInt < 256)
+ {
+ /*
+ * Try read it.
+ */
+ union
+ {
+ RTFAR16 Real;
+ X86DESC Prot;
+ X86DESC64 Long;
+ } u;
+ if (iInt * cbEntry + (cbEntry - 1) > cbLimit)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x not within the IDT\n", (unsigned)iInt);
+ if (!fAll && !fSingle)
+ return VINF_SUCCESS;
+ }
+ DBGCVAR AddrVar;
+ AddrVar.enmType = DBGCVAR_TYPE_GC_FLAT;
+ AddrVar.u.GCFlat = GCFlat + iInt * cbEntry;
+ AddrVar.enmRangeType = DBGCVAR_RANGE_NONE;
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &u, cbEntry, &AddrVar, NULL);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Reading IDT entry %#04x.\n", (unsigned)iInt);
+
+ /*
+ * Display it.
+ */
+ switch (enmMode)
+ {
+ case CPUMMODE_REAL:
+ {
+ char *pszSymbol = dbgcCmdHlpFarAddrToSymbol(pCmdHlp, DBGF_AS_GLOBAL, u.Real.sel, u.Real.off, " (", ")");
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%04x %RTfp16%s\n", (unsigned)iInt, u.Real, pszSymbol ? pszSymbol : "");
+ RTStrFree(pszSymbol);
+ break;
+ }
+ case CPUMMODE_PROTECTED:
+ if (fAll || fSingle || u.Prot.Gen.u1Present)
+ rc = dbgcCmdDumpDTWorker32(pCmdHlp, &u.Prot, iInt, false, DBGF_AS_GLOBAL);
+ break;
+ case CPUMMODE_LONG:
+ if (fAll || fSingle || u.Long.Gen.u1Present)
+ rc = dbgcCmdDumpDTWorker64(pCmdHlp, &u.Long, iInt, false, DBGF_AS_GLOBAL, NULL);
+ break;
+ default: break; /* to shut up gcc */
+ }
+ if (RT_FAILURE(rc))
+ return rc;
+
+ /* next */
+ iInt++;
+ }
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "error: %llx is out of bounds (max 256)\n", paArgs[i].u.u64Number);
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD,
+ * The 'da'\, 'dq'\, 'dqs'\, 'dd'\, 'dds'\, 'dw'\, 'db'\, 'dp'\, 'dps'\,
+ * and 'du' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpMem(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs <= 1);
+ if (cArgs == 1)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+#define DBGC_DUMP_MEM_F_ASCII RT_BIT_32(31)
+#define DBGC_DUMP_MEM_F_UNICODE RT_BIT_32(30)
+#define DBGC_DUMP_MEM_F_FAR RT_BIT_32(29)
+#define DBGC_DUMP_MEM_F_SYMBOLS RT_BIT_32(28)
+#define DBGC_DUMP_MEM_F_SIZE UINT32_C(0x0000ffff)
+
+ /*
+ * Figure out the element size.
+ */
+ unsigned cbElement;
+ bool fAscii = false;
+ bool fUnicode = false;
+ bool fFar = false;
+ bool fSymbols = pCmd->pszCmd[1] && pCmd->pszCmd[2] == 's';
+ switch (pCmd->pszCmd[1])
+ {
+ default:
+ case 'b': cbElement = 1; break;
+ case 'w': cbElement = 2; break;
+ case 'd': cbElement = 4; break;
+ case 'q': cbElement = 8; break;
+ case 'a':
+ cbElement = 1;
+ fAscii = true;
+ break;
+ case 'F':
+ cbElement = 4;
+ fFar = true;
+ break;
+ case 'p':
+ cbElement = DBGFR3CpuIsIn64BitCode(pUVM, pDbgc->idCpu) ? 8 : 4;
+ break;
+ case 'u':
+ cbElement = 2;
+ fUnicode = true;
+ break;
+ case '\0':
+ fAscii = RT_BOOL(pDbgc->cbDumpElement & DBGC_DUMP_MEM_F_ASCII);
+ fSymbols = RT_BOOL(pDbgc->cbDumpElement & DBGC_DUMP_MEM_F_SYMBOLS);
+ fUnicode = RT_BOOL(pDbgc->cbDumpElement & DBGC_DUMP_MEM_F_UNICODE);
+ fFar = RT_BOOL(pDbgc->cbDumpElement & DBGC_DUMP_MEM_F_FAR);
+ cbElement = pDbgc->cbDumpElement & DBGC_DUMP_MEM_F_SIZE;
+ if (!cbElement)
+ cbElement = 1;
+ break;
+ }
+ uint32_t const cbDumpElement = cbElement
+ | (fSymbols ? DBGC_DUMP_MEM_F_SYMBOLS : 0)
+ | (fFar ? DBGC_DUMP_MEM_F_FAR : 0)
+ | (fUnicode ? DBGC_DUMP_MEM_F_UNICODE : 0)
+ | (fAscii ? DBGC_DUMP_MEM_F_ASCII : 0);
+ pDbgc->cbDumpElement = cbDumpElement;
+
+ /*
+ * Find address.
+ */
+ if (!cArgs)
+ pDbgc->DumpPos.enmRangeType = DBGCVAR_RANGE_NONE;
+ else
+ pDbgc->DumpPos = paArgs[0];
+
+ /*
+ * Range.
+ */
+ switch (pDbgc->DumpPos.enmRangeType)
+ {
+ case DBGCVAR_RANGE_NONE:
+ pDbgc->DumpPos.enmRangeType = DBGCVAR_RANGE_BYTES;
+ pDbgc->DumpPos.u64Range = 0x60;
+ break;
+
+ case DBGCVAR_RANGE_ELEMENTS:
+ if (pDbgc->DumpPos.u64Range > 2048)
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: Too many elements requested. Max is 2048 elements.\n");
+ pDbgc->DumpPos.enmRangeType = DBGCVAR_RANGE_BYTES;
+ pDbgc->DumpPos.u64Range = (cbElement ? cbElement : 1) * pDbgc->DumpPos.u64Range;
+ break;
+
+ case DBGCVAR_RANGE_BYTES:
+ if (pDbgc->DumpPos.u64Range > 65536)
+ return DBGCCmdHlpPrintf(pCmdHlp, "error: The requested range is too big. Max is 64KB.\n");
+ break;
+
+ default:
+ return DBGCCmdHlpPrintf(pCmdHlp, "internal error: Unknown range type %d.\n", pDbgc->DumpPos.enmRangeType);
+ }
+
+ pDbgc->pLastPos = &pDbgc->DumpPos;
+
+ /*
+ * Do the dumping.
+ */
+ int cbLeft = (int)pDbgc->DumpPos.u64Range;
+ uint8_t u16Prev = '\0';
+ for (;;)
+ {
+ /*
+ * Read memory.
+ */
+ char achBuffer[16];
+ size_t cbReq = RT_MIN((int)sizeof(achBuffer), cbLeft);
+ size_t cb = RT_MIN((int)sizeof(achBuffer), cbLeft);
+ int rc = pCmdHlp->pfnMemRead(pCmdHlp, &achBuffer, cbReq, &pDbgc->DumpPos, &cb);
+ if (RT_FAILURE(rc))
+ {
+ if (u16Prev && u16Prev != '\n')
+ DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Reading memory at %DV.\n", &pDbgc->DumpPos);
+ }
+
+ /*
+ * Display it.
+ */
+ memset(&achBuffer[cb], 0, sizeof(achBuffer) - cb);
+ if (!fAscii && !fUnicode)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%DV:", &pDbgc->DumpPos);
+ unsigned i;
+ for (i = 0; i < cb; i += cbElement)
+ {
+ const char *pszSpace = " ";
+ if (cbElement <= 2 && i == 8)
+ pszSpace = "-";
+ switch (cbElement)
+ {
+ case 1:
+ DBGCCmdHlpPrintf(pCmdHlp, "%s%02x", pszSpace, *(uint8_t *)&achBuffer[i]);
+ break;
+ case 2:
+ DBGCCmdHlpPrintf(pCmdHlp, "%s%04x", pszSpace, *(uint16_t *)&achBuffer[i]);
+ break;
+ case 4:
+ if (!fFar)
+ DBGCCmdHlpPrintf(pCmdHlp, "%s%08x", pszSpace, *(uint32_t *)&achBuffer[i]);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "%s%04x:%04x:",
+ pszSpace, *(uint16_t *)&achBuffer[i + 2], *(uint16_t *)&achBuffer[i]);
+ break;
+ case 8:
+ DBGCCmdHlpPrintf(pCmdHlp, "%s%016llx", pszSpace, *(uint64_t *)&achBuffer[i]);
+ break;
+ }
+
+ if (fSymbols)
+ {
+ /* Try lookup symbol for the above address. */
+ DBGFADDRESS Addr;
+ rc = VINF_SUCCESS;
+ if (cbElement == 8)
+ DBGFR3AddrFromFlat(pDbgc->pUVM, &Addr, *(uint64_t *)&achBuffer[i]);
+ else if (!fFar)
+ DBGFR3AddrFromFlat(pDbgc->pUVM, &Addr, *(uint32_t *)&achBuffer[i]);
+ else
+ rc = DBGFR3AddrFromSelOff(pDbgc->pUVM, pDbgc->idCpu, &Addr,
+ *(uint16_t *)&achBuffer[i + 2], *(uint16_t *)&achBuffer[i]);
+ if (RT_SUCCESS(rc))
+ {
+ RTINTPTR offDisp;
+ RTDBGSYMBOL Symbol;
+ rc = DBGFR3AsSymbolByAddr(pUVM, pDbgc->hDbgAs, &Addr,
+ RTDBGSYMADDR_FLAGS_LESS_OR_EQUAL | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &offDisp, &Symbol, NULL);
+ if (RT_SUCCESS(rc))
+ {
+ if (!offDisp)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s", Symbol.szName);
+ else if (offDisp > 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s + %RGv", Symbol.szName, offDisp);
+ else
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " %s - %RGv", Symbol.szName, -offDisp);
+ if (Symbol.cb > 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " (LB %RGv)", Symbol.cb);
+ }
+ }
+
+ /* Next line prefix. */
+ unsigned iNext = i + cbElement;
+ if (iNext < cb)
+ {
+ DBGCVAR TmpPos = pDbgc->DumpPos;
+ DBGCCmdHlpEval(pCmdHlp, &TmpPos, "(%Dv) + %x", &pDbgc->DumpPos, iNext);
+ DBGCCmdHlpPrintf(pCmdHlp, "\n%DV:", &pDbgc->DumpPos);
+ }
+ }
+ }
+
+ /* Chars column. */
+ if (cbElement == 1)
+ {
+ while (i++ < sizeof(achBuffer))
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+ for (i = 0; i < cb; i += cbElement)
+ {
+ uint8_t u8 = *(uint8_t *)&achBuffer[i];
+ if (RT_C_IS_PRINT(u8) && u8 < 127 && u8 >= 32)
+ DBGCCmdHlpPrintf(pCmdHlp, "%c", u8);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, ".");
+ }
+ }
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ }
+ else
+ {
+ /*
+ * We print up to the first zero and stop there.
+ * Only printables + '\t' and '\n' are printed.
+ */
+ if (!u16Prev)
+ DBGCCmdHlpPrintf(pCmdHlp, "%DV:\n", &pDbgc->DumpPos);
+ uint16_t u16 = '\0';
+ unsigned i;
+ for (i = 0; i < cb; i += cbElement)
+ {
+ u16Prev = u16;
+ if (cbElement == 1)
+ u16 = *(uint8_t *)&achBuffer[i];
+ else
+ u16 = *(uint16_t *)&achBuffer[i];
+ if ( u16 < 127
+ && ( (RT_C_IS_PRINT(u16) && u16 >= 32)
+ || u16 == '\t'
+ || u16 == '\n'))
+ DBGCCmdHlpPrintf(pCmdHlp, "%c", (int)u16);
+ else if (!u16)
+ break;
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "\\x%0*x", cbElement * 2, u16);
+ }
+ if (u16 == '\0')
+ cb = cbLeft = i + 1;
+ if (cbLeft - cb <= 0 && u16Prev != '\n')
+ DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ }
+
+ /*
+ * Advance
+ */
+ cbLeft -= (int)cb;
+ rc = DBGCCmdHlpEval(pCmdHlp, &pDbgc->DumpPos, "(%Dv) + %x", &pDbgc->DumpPos, cb);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Expression: (%Dv) + %x\n", &pDbgc->DumpPos, cb);
+ if (cbLeft <= 0)
+ break;
+ }
+
+ NOREF(pCmd);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * Best guess at which paging mode currently applies to the guest
+ * paging structures.
+ *
+ * This have to come up with a decent answer even when the guest
+ * is in non-paged protected mode or real mode.
+ *
+ * @returns cr3.
+ * @param pDbgc The DBGC instance.
+ * @param pfPAE Where to store the page address extension indicator.
+ * @param pfLME Where to store the long mode enabled indicator.
+ * @param pfPSE Where to store the page size extension indicator.
+ * @param pfPGE Where to store the page global enabled indicator.
+ * @param pfNXE Where to store the no-execution enabled indicator.
+ */
+static RTGCPHYS dbgcGetGuestPageMode(PDBGC pDbgc, bool *pfPAE, bool *pfLME, bool *pfPSE, bool *pfPGE, bool *pfNXE)
+{
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pDbgc->pUVM, pDbgc->idCpu);
+ RTGCUINTREG cr4 = CPUMGetGuestCR4(pVCpu);
+ *pfPSE = !!(cr4 & X86_CR4_PSE);
+ *pfPGE = !!(cr4 & X86_CR4_PGE);
+ if (cr4 & X86_CR4_PAE)
+ {
+ *pfPSE = true;
+ *pfPAE = true;
+ }
+ else
+ *pfPAE = false;
+
+ *pfLME = CPUMGetGuestMode(pVCpu) == CPUMMODE_LONG;
+ *pfNXE = false; /* GUEST64 GUESTNX */
+ return CPUMGetGuestCR3(pVCpu);
+}
+
+
+/**
+ * Determine the shadow paging mode.
+ *
+ * @returns cr3.
+ * @param pDbgc The DBGC instance.
+ * @param pfPAE Where to store the page address extension indicator.
+ * @param pfLME Where to store the long mode enabled indicator.
+ * @param pfPSE Where to store the page size extension indicator.
+ * @param pfPGE Where to store the page global enabled indicator.
+ * @param pfNXE Where to store the no-execution enabled indicator.
+ */
+static RTHCPHYS dbgcGetShadowPageMode(PDBGC pDbgc, bool *pfPAE, bool *pfLME, bool *pfPSE, bool *pfPGE, bool *pfNXE)
+{
+ PVMCPU pVCpu = VMMR3GetCpuByIdU(pDbgc->pUVM, pDbgc->idCpu);
+
+ *pfPSE = true;
+ *pfPGE = false;
+ switch (PGMGetShadowMode(pVCpu))
+ {
+ default:
+ case PGMMODE_32_BIT:
+ *pfPAE = *pfLME = *pfNXE = false;
+ break;
+ case PGMMODE_PAE:
+ *pfLME = *pfNXE = false;
+ *pfPAE = true;
+ break;
+ case PGMMODE_PAE_NX:
+ *pfLME = false;
+ *pfPAE = *pfNXE = true;
+ break;
+ case PGMMODE_AMD64:
+ *pfNXE = false;
+ *pfPAE = *pfLME = true;
+ break;
+ case PGMMODE_AMD64_NX:
+ *pfPAE = *pfLME = *pfNXE = true;
+ break;
+ }
+ return PGMGetHyperCR3(pVCpu);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD,
+ * The 'dpd'\, 'dpda'\, 'dpdb'\, 'dpdg' and 'dpdh' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpPageDir(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs <= 1);
+ if (cArgs == 1 && pCmd->pszCmd[3] == 'a')
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ if (cArgs == 1 && pCmd->pszCmd[3] != 'a')
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType == DBGCVAR_TYPE_NUMBER
+ || DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Guest or shadow page directories? Get the paging parameters.
+ */
+ bool fGuest = pCmd->pszCmd[3] != 'h';
+ if (!pCmd->pszCmd[3] || pCmd->pszCmd[3] == 'a')
+ fGuest = paArgs[0].enmType == DBGCVAR_TYPE_NUMBER ? true : DBGCVAR_ISGCPOINTER(paArgs[0].enmType);
+
+ bool fPAE, fLME, fPSE, fPGE, fNXE;
+ uint64_t cr3 = fGuest
+ ? dbgcGetGuestPageMode(pDbgc, &fPAE, &fLME, &fPSE, &fPGE, &fNXE)
+ : dbgcGetShadowPageMode(pDbgc, &fPAE, &fLME, &fPSE, &fPGE, &fNXE);
+ const unsigned cbEntry = fPAE ? sizeof(X86PTEPAE) : sizeof(X86PTE);
+
+ /*
+ * Setup default argument if none was specified.
+ * Fix address / index confusion.
+ */
+ DBGCVAR VarDefault;
+ if (!cArgs)
+ {
+ if (pCmd->pszCmd[3] == 'a')
+ {
+ if (fLME || fPAE)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Default argument for 'dpda' hasn't been fully implemented yet. Try with an address or use one of the other commands.\n");
+ if (fGuest)
+ DBGCVAR_INIT_GC_PHYS(&VarDefault, cr3);
+ else
+ DBGCVAR_INIT_HC_PHYS(&VarDefault, cr3);
+ }
+ else
+ DBGCVAR_INIT_GC_FLAT(&VarDefault, 0);
+ paArgs = &VarDefault;
+ cArgs = 1;
+ }
+ else if (paArgs[0].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ /* If it's a number (not an address), it's an index, so convert it to an address. */
+ Assert(pCmd->pszCmd[3] != 'a');
+ VarDefault = paArgs[0];
+ if (fPAE)
+ return DBGCCmdHlpPrintf(pCmdHlp, "PDE indexing is only implemented for 32-bit paging.\n");
+ if (VarDefault.u.u64Number >= PAGE_SIZE / cbEntry)
+ return DBGCCmdHlpPrintf(pCmdHlp, "PDE index is out of range [0..%d].\n", PAGE_SIZE / cbEntry - 1);
+ VarDefault.u.u64Number <<= X86_PD_SHIFT;
+ VarDefault.enmType = DBGCVAR_TYPE_GC_FLAT;
+ paArgs = &VarDefault;
+ }
+
+ /*
+ * Locate the PDE to start displaying at.
+ *
+ * The 'dpda' command takes the address of a PDE, while the others are guest
+ * virtual address which PDEs should be displayed. So, 'dpda' is rather simple
+ * while the others require us to do all the tedious walking thru the paging
+ * hierarchy to find the intended PDE.
+ */
+ unsigned iEntry = ~0U; /* The page directory index. ~0U for 'dpta'. */
+ DBGCVAR VarGCPtr = { NULL, }; /* The GC address corresponding to the current PDE (iEntry != ~0U). */
+ DBGCVAR VarPDEAddr; /* The address of the current PDE. */
+ unsigned cEntries; /* The number of entries to display. */
+ unsigned cEntriesMax; /* The max number of entries to display. */
+ int rc;
+ if (pCmd->pszCmd[3] == 'a')
+ {
+ VarPDEAddr = paArgs[0];
+ switch (VarPDEAddr.enmRangeType)
+ {
+ case DBGCVAR_RANGE_BYTES: cEntries = VarPDEAddr.u64Range / cbEntry; break;
+ case DBGCVAR_RANGE_ELEMENTS: cEntries = VarPDEAddr.u64Range; break;
+ default: cEntries = 10; break;
+ }
+ cEntriesMax = PAGE_SIZE / cbEntry;
+ }
+ else
+ {
+ /*
+ * Determine the range.
+ */
+ switch (paArgs[0].enmRangeType)
+ {
+ case DBGCVAR_RANGE_BYTES: cEntries = paArgs[0].u64Range / PAGE_SIZE; break;
+ case DBGCVAR_RANGE_ELEMENTS: cEntries = paArgs[0].u64Range; break;
+ default: cEntries = 10; break;
+ }
+
+ /*
+ * Normalize the input address, it must be a flat GC address.
+ */
+ rc = DBGCCmdHlpEval(pCmdHlp, &VarGCPtr, "%%(%Dv)", &paArgs[0]);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "%%(%Dv)", &paArgs[0]);
+ if (VarGCPtr.enmType == DBGCVAR_TYPE_HC_FLAT)
+ {
+ VarGCPtr.u.GCFlat = (uintptr_t)VarGCPtr.u.pvHCFlat;
+ VarGCPtr.enmType = DBGCVAR_TYPE_GC_FLAT;
+ }
+ if (fPAE)
+ VarGCPtr.u.GCFlat &= ~(((RTGCPTR)1 << X86_PD_PAE_SHIFT) - 1);
+ else
+ VarGCPtr.u.GCFlat &= ~(((RTGCPTR)1 << X86_PD_SHIFT) - 1);
+
+ /*
+ * Do the paging walk until we get to the page directory.
+ */
+ DBGCVAR VarCur;
+ if (fGuest)
+ DBGCVAR_INIT_GC_PHYS(&VarCur, cr3);
+ else
+ DBGCVAR_INIT_HC_PHYS(&VarCur, cr3);
+ if (fLME)
+ {
+ /* Page Map Level 4 Lookup. */
+ /* Check if it's a valid address first? */
+ VarCur.u.u64Number &= X86_PTE_PAE_PG_MASK;
+ VarCur.u.u64Number += (((uint64_t)VarGCPtr.u.GCFlat >> X86_PML4_SHIFT) & X86_PML4_MASK) * sizeof(X86PML4E);
+ X86PML4E Pml4e;
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pml4e, sizeof(Pml4e), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PML4E memory at %DV.\n", &VarCur);
+ if (!Pml4e.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page directory pointer table is not present for %Dv.\n", &VarGCPtr);
+
+ VarCur.u.u64Number = Pml4e.u & X86_PML4E_PG_MASK;
+ Assert(fPAE);
+ }
+ if (fPAE)
+ {
+ /* Page directory pointer table. */
+ X86PDPE Pdpe;
+ VarCur.u.u64Number += ((VarGCPtr.u.GCFlat >> X86_PDPT_SHIFT) & X86_PDPT_MASK_PAE) * sizeof(Pdpe);
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pdpe, sizeof(Pdpe), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PDPE memory at %DV.\n", &VarCur);
+ if (!Pdpe.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page directory is not present for %Dv.\n", &VarGCPtr);
+
+ iEntry = (VarGCPtr.u.GCFlat >> X86_PD_PAE_SHIFT) & X86_PD_PAE_MASK;
+ VarPDEAddr = VarCur;
+ VarPDEAddr.u.u64Number = Pdpe.u & X86_PDPE_PG_MASK;
+ VarPDEAddr.u.u64Number += iEntry * sizeof(X86PDEPAE);
+ }
+ else
+ {
+ /* 32-bit legacy - CR3 == page directory. */
+ iEntry = (VarGCPtr.u.GCFlat >> X86_PD_SHIFT) & X86_PD_MASK;
+ VarPDEAddr = VarCur;
+ VarPDEAddr.u.u64Number += iEntry * sizeof(X86PDE);
+ }
+ cEntriesMax = (PAGE_SIZE - iEntry) / cbEntry;
+ }
+
+ /* adjust cEntries */
+ cEntries = RT_MAX(1, cEntries);
+ cEntries = RT_MIN(cEntries, cEntriesMax);
+
+ /*
+ * The display loop.
+ */
+ DBGCCmdHlpPrintf(pCmdHlp, iEntry != ~0U ? "%DV (index %#x):\n" : "%DV:\n",
+ &VarPDEAddr, iEntry);
+ do
+ {
+ /*
+ * Read.
+ */
+ X86PDEPAE Pde;
+ Pde.u = 0;
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pde, cbEntry, &VarPDEAddr, NULL);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Reading PDE memory at %DV.\n", &VarPDEAddr);
+
+ /*
+ * Display.
+ */
+ if (iEntry != ~0U)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%03x %DV: ", iEntry, &VarGCPtr);
+ iEntry++;
+ }
+ if (fPSE && Pde.b.u1Size)
+ DBGCCmdHlpPrintf(pCmdHlp,
+ fPAE
+ ? "%016llx big phys=%016llx %s %s %s %s %s avl=%02x %s %s %s %s %s"
+ : "%08llx big phys=%08llx %s %s %s %s %s avl=%02x %s %s %s %s %s",
+ Pde.u,
+ Pde.u & X86_PDE_PAE_PG_MASK,
+ Pde.b.u1Present ? "p " : "np",
+ Pde.b.u1Write ? "w" : "r",
+ Pde.b.u1User ? "u" : "s",
+ Pde.b.u1Accessed ? "a " : "na",
+ Pde.b.u1Dirty ? "d " : "nd",
+ Pde.b.u3Available,
+ Pde.b.u1Global ? (fPGE ? "g" : "G") : " ",
+ Pde.b.u1WriteThru ? "pwt" : " ",
+ Pde.b.u1CacheDisable ? "pcd" : " ",
+ Pde.b.u1PAT ? "pat" : "",
+ Pde.b.u1NoExecute ? (fNXE ? "nx" : "NX") : " ");
+ else
+ DBGCCmdHlpPrintf(pCmdHlp,
+ fPAE
+ ? "%016llx 4kb phys=%016llx %s %s %s %s %s avl=%02x %s %s %s %s"
+ : "%08llx 4kb phys=%08llx %s %s %s %s %s avl=%02x %s %s %s %s",
+ Pde.u,
+ Pde.u & X86_PDE_PAE_PG_MASK,
+ Pde.n.u1Present ? "p " : "np",
+ Pde.n.u1Write ? "w" : "r",
+ Pde.n.u1User ? "u" : "s",
+ Pde.n.u1Accessed ? "a " : "na",
+ Pde.u & RT_BIT(6) ? "6 " : " ",
+ Pde.n.u3Available,
+ Pde.u & RT_BIT(8) ? "8" : " ",
+ Pde.n.u1WriteThru ? "pwt" : " ",
+ Pde.n.u1CacheDisable ? "pcd" : " ",
+ Pde.u & RT_BIT(7) ? "7" : "",
+ Pde.n.u1NoExecute ? (fNXE ? "nx" : "NX") : " ");
+ if (Pde.u & UINT64_C(0x7fff000000000000))
+ DBGCCmdHlpPrintf(pCmdHlp, " weird=%RX64", (Pde.u & UINT64_C(0x7fff000000000000)));
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ if (RT_FAILURE(rc))
+ return rc;
+
+ /*
+ * Advance.
+ */
+ VarPDEAddr.u.u64Number += cbEntry;
+ if (iEntry != ~0U)
+ VarGCPtr.u.GCFlat += fPAE ? RT_BIT_32(X86_PD_PAE_SHIFT) : RT_BIT_32(X86_PD_SHIFT);
+ } while (cEntries-- > 0);
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dpdb' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpPageDirBoth(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ int rc1 = pCmdHlp->pfnExec(pCmdHlp, "dpdg %DV", &paArgs[0]);
+ int rc2 = pCmdHlp->pfnExec(pCmdHlp, "dpdh %DV", &paArgs[0]);
+ if (RT_FAILURE(rc1))
+ return rc1;
+ NOREF(pCmd); NOREF(paArgs); NOREF(cArgs);
+ return rc2;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dph*' commands and main part of 'm'.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpPageHierarchy(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Figure the context and base flags.
+ */
+ uint32_t fFlags = DBGFPGDMP_FLAGS_PAGE_INFO | DBGFPGDMP_FLAGS_PRINT_CR3;
+ if (pCmd->pszCmd[0] == 'm')
+ fFlags |= DBGFPGDMP_FLAGS_GUEST | DBGFPGDMP_FLAGS_SHADOW;
+ else if (pCmd->pszCmd[3] == '\0')
+ fFlags |= DBGFPGDMP_FLAGS_GUEST;
+ else if (pCmd->pszCmd[3] == 'g')
+ fFlags |= DBGFPGDMP_FLAGS_GUEST;
+ else if (pCmd->pszCmd[3] == 'h')
+ fFlags |= DBGFPGDMP_FLAGS_SHADOW;
+ else
+ AssertFailed();
+
+ if (pDbgc->cPagingHierarchyDumps == 0)
+ fFlags |= DBGFPGDMP_FLAGS_HEADER;
+ pDbgc->cPagingHierarchyDumps = (pDbgc->cPagingHierarchyDumps + 1) % 42;
+
+ /*
+ * Get the range.
+ */
+ PCDBGCVAR pRange = cArgs > 0 ? &paArgs[0] : pDbgc->pLastPos;
+ RTGCPTR GCPtrFirst = NIL_RTGCPTR;
+ int rc = DBGCCmdHlpVarToFlatAddr(pCmdHlp, pRange, &GCPtrFirst);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Failed to convert %DV to a flat address: %Rrc", pRange, rc);
+
+ uint64_t cbRange;
+ rc = DBGCCmdHlpVarGetRange(pCmdHlp, pRange, PAGE_SIZE, PAGE_SIZE * 8, &cbRange);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Failed to obtain the range of %DV: %Rrc", pRange, rc);
+
+ RTGCPTR GCPtrLast = RTGCPTR_MAX - GCPtrFirst;
+ if (cbRange >= GCPtrLast)
+ GCPtrLast = RTGCPTR_MAX;
+ else if (!cbRange)
+ GCPtrLast = GCPtrFirst;
+ else
+ GCPtrLast = GCPtrFirst + cbRange - 1;
+
+ /*
+ * Do we have a CR3?
+ */
+ uint64_t cr3 = 0;
+ if (cArgs > 1)
+ {
+ if ((fFlags & (DBGFPGDMP_FLAGS_GUEST | DBGFPGDMP_FLAGS_SHADOW)) == (DBGFPGDMP_FLAGS_GUEST | DBGFPGDMP_FLAGS_SHADOW))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "No CR3 or mode arguments when dumping both context, please.");
+ if (paArgs[1].enmType != DBGCVAR_TYPE_NUMBER)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "The CR3 argument is not a number: %DV", &paArgs[1]);
+ cr3 = paArgs[1].u.u64Number;
+ }
+ else
+ fFlags |= DBGFPGDMP_FLAGS_CURRENT_CR3;
+
+ /*
+ * Do we have a mode?
+ */
+ if (cArgs > 2)
+ {
+ if (paArgs[2].enmType != DBGCVAR_TYPE_STRING)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "The mode argument is not a string: %DV", &paArgs[2]);
+ static const struct MODETOFLAGS
+ {
+ const char *pszName;
+ uint32_t fFlags;
+ } s_aModeToFlags[] =
+ {
+ { "ept", DBGFPGDMP_FLAGS_EPT },
+ { "legacy", 0 },
+ { "legacy-np", DBGFPGDMP_FLAGS_NP },
+ { "pse", DBGFPGDMP_FLAGS_PSE },
+ { "pse-np", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_NP },
+ { "pae", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE },
+ { "pae-np", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_NP },
+ { "pae-nx", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_NXE },
+ { "pae-nx-np", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_NXE | DBGFPGDMP_FLAGS_NP },
+ { "long", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_LME },
+ { "long-np", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_LME | DBGFPGDMP_FLAGS_NP },
+ { "long-nx", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_LME | DBGFPGDMP_FLAGS_NXE },
+ { "long-nx-np", DBGFPGDMP_FLAGS_PSE | DBGFPGDMP_FLAGS_PAE | DBGFPGDMP_FLAGS_LME | DBGFPGDMP_FLAGS_NXE | DBGFPGDMP_FLAGS_NP }
+ };
+ int i = RT_ELEMENTS(s_aModeToFlags);
+ while (i-- > 0)
+ if (!strcmp(s_aModeToFlags[i].pszName, paArgs[2].u.pszString))
+ {
+ fFlags |= s_aModeToFlags[i].fFlags;
+ break;
+ }
+ if (i < 0)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Unknown mode: \"%s\"", paArgs[2].u.pszString);
+ }
+ else
+ fFlags |= DBGFPGDMP_FLAGS_CURRENT_MODE;
+
+ /*
+ * Call the worker.
+ */
+ rc = DBGFR3PagingDumpEx(pUVM, pDbgc->idCpu, fFlags, cr3, GCPtrFirst, GCPtrLast, 99 /*cMaxDepth*/,
+ DBGCCmdHlpGetDbgfOutputHlp(pCmdHlp));
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "DBGFR3PagingDumpEx: %Rrc\n", rc);
+ return VINF_SUCCESS;
+}
+
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dpg*' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpPageTable(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 1);
+ if (pCmd->pszCmd[3] == 'a')
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ else
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType == DBGCVAR_TYPE_NUMBER
+ || DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Guest or shadow page tables? Get the paging parameters.
+ */
+ bool fGuest = pCmd->pszCmd[3] != 'h';
+ if (!pCmd->pszCmd[3] || pCmd->pszCmd[3] == 'a')
+ fGuest = paArgs[0].enmType == DBGCVAR_TYPE_NUMBER ? true : DBGCVAR_ISGCPOINTER(paArgs[0].enmType);
+
+ bool fPAE, fLME, fPSE, fPGE, fNXE;
+ uint64_t cr3 = fGuest
+ ? dbgcGetGuestPageMode(pDbgc, &fPAE, &fLME, &fPSE, &fPGE, &fNXE)
+ : dbgcGetShadowPageMode(pDbgc, &fPAE, &fLME, &fPSE, &fPGE, &fNXE);
+ const unsigned cbEntry = fPAE ? sizeof(X86PTEPAE) : sizeof(X86PTE);
+
+ /*
+ * Locate the PTE to start displaying at.
+ *
+ * The 'dpta' command takes the address of a PTE, while the others are guest
+ * virtual address which PTEs should be displayed. So, 'pdta' is rather simple
+ * while the others require us to do all the tedious walking thru the paging
+ * hierarchy to find the intended PTE.
+ */
+ unsigned iEntry = ~0U; /* The page table index. ~0U for 'dpta'. */
+ DBGCVAR VarGCPtr; /* The GC address corresponding to the current PTE (iEntry != ~0U). */
+ DBGCVAR VarPTEAddr; /* The address of the current PTE. */
+ unsigned cEntries; /* The number of entries to display. */
+ unsigned cEntriesMax; /* The max number of entries to display. */
+ int rc;
+ if (pCmd->pszCmd[3] == 'a')
+ {
+ VarPTEAddr = paArgs[0];
+ switch (VarPTEAddr.enmRangeType)
+ {
+ case DBGCVAR_RANGE_BYTES: cEntries = VarPTEAddr.u64Range / cbEntry; break;
+ case DBGCVAR_RANGE_ELEMENTS: cEntries = VarPTEAddr.u64Range; break;
+ default: cEntries = 10; break;
+ }
+ cEntriesMax = PAGE_SIZE / cbEntry;
+ }
+ else
+ {
+ /*
+ * Determine the range.
+ */
+ switch (paArgs[0].enmRangeType)
+ {
+ case DBGCVAR_RANGE_BYTES: cEntries = paArgs[0].u64Range / PAGE_SIZE; break;
+ case DBGCVAR_RANGE_ELEMENTS: cEntries = paArgs[0].u64Range; break;
+ default: cEntries = 10; break;
+ }
+
+ /*
+ * Normalize the input address, it must be a flat GC address.
+ */
+ rc = DBGCCmdHlpEval(pCmdHlp, &VarGCPtr, "%%(%Dv)", &paArgs[0]);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "%%(%Dv)", &paArgs[0]);
+ if (VarGCPtr.enmType == DBGCVAR_TYPE_HC_FLAT)
+ {
+ VarGCPtr.u.GCFlat = (uintptr_t)VarGCPtr.u.pvHCFlat;
+ VarGCPtr.enmType = DBGCVAR_TYPE_GC_FLAT;
+ }
+ VarGCPtr.u.GCFlat &= ~(RTGCPTR)PAGE_OFFSET_MASK;
+
+ /*
+ * Do the paging walk until we get to the page table.
+ */
+ DBGCVAR VarCur;
+ if (fGuest)
+ DBGCVAR_INIT_GC_PHYS(&VarCur, cr3);
+ else
+ DBGCVAR_INIT_HC_PHYS(&VarCur, cr3);
+ if (fLME)
+ {
+ /* Page Map Level 4 Lookup. */
+ /* Check if it's a valid address first? */
+ VarCur.u.u64Number &= X86_PTE_PAE_PG_MASK;
+ VarCur.u.u64Number += (((uint64_t)VarGCPtr.u.GCFlat >> X86_PML4_SHIFT) & X86_PML4_MASK) * sizeof(X86PML4E);
+ X86PML4E Pml4e;
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pml4e, sizeof(Pml4e), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PML4E memory at %DV.\n", &VarCur);
+ if (!Pml4e.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page directory pointer table is not present for %Dv.\n", &VarGCPtr);
+
+ VarCur.u.u64Number = Pml4e.u & X86_PML4E_PG_MASK;
+ Assert(fPAE);
+ }
+ if (fPAE)
+ {
+ /* Page directory pointer table. */
+ X86PDPE Pdpe;
+ VarCur.u.u64Number += ((VarGCPtr.u.GCFlat >> X86_PDPT_SHIFT) & X86_PDPT_MASK_PAE) * sizeof(Pdpe);
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pdpe, sizeof(Pdpe), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PDPE memory at %DV.\n", &VarCur);
+ if (!Pdpe.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page directory is not present for %Dv.\n", &VarGCPtr);
+
+ VarCur.u.u64Number = Pdpe.u & X86_PDPE_PG_MASK;
+
+ /* Page directory (PAE). */
+ X86PDEPAE Pde;
+ VarCur.u.u64Number += ((VarGCPtr.u.GCFlat >> X86_PD_PAE_SHIFT) & X86_PD_PAE_MASK) * sizeof(Pde);
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pde, sizeof(Pde), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PDE memory at %DV.\n", &VarCur);
+ if (!Pde.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page table is not present for %Dv.\n", &VarGCPtr);
+ if (fPSE && Pde.n.u1Size)
+ return pCmdHlp->pfnExec(pCmdHlp, "dpd%s %Dv L3", &pCmd->pszCmd[3], &VarGCPtr);
+
+ iEntry = (VarGCPtr.u.GCFlat >> X86_PT_PAE_SHIFT) & X86_PT_PAE_MASK;
+ VarPTEAddr = VarCur;
+ VarPTEAddr.u.u64Number = Pde.u & X86_PDE_PAE_PG_MASK;
+ VarPTEAddr.u.u64Number += iEntry * sizeof(X86PTEPAE);
+ }
+ else
+ {
+ /* Page directory (legacy). */
+ X86PDE Pde;
+ VarCur.u.u64Number += ((VarGCPtr.u.GCFlat >> X86_PD_SHIFT) & X86_PD_MASK) * sizeof(Pde);
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pde, sizeof(Pde), &VarCur, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PDE memory at %DV.\n", &VarCur);
+ if (!Pde.n.u1Present)
+ return DBGCCmdHlpPrintf(pCmdHlp, "Page table is not present for %Dv.\n", &VarGCPtr);
+ if (fPSE && Pde.n.u1Size)
+ return pCmdHlp->pfnExec(pCmdHlp, "dpd%s %Dv L3", &pCmd->pszCmd[3], &VarGCPtr);
+
+ iEntry = (VarGCPtr.u.GCFlat >> X86_PT_SHIFT) & X86_PT_MASK;
+ VarPTEAddr = VarCur;
+ VarPTEAddr.u.u64Number = Pde.u & X86_PDE_PG_MASK;
+ VarPTEAddr.u.u64Number += iEntry * sizeof(X86PTE);
+ }
+ cEntriesMax = (PAGE_SIZE - iEntry) / cbEntry;
+ }
+
+ /* adjust cEntries */
+ cEntries = RT_MAX(1, cEntries);
+ cEntries = RT_MIN(cEntries, cEntriesMax);
+
+ /*
+ * The display loop.
+ */
+ DBGCCmdHlpPrintf(pCmdHlp, iEntry != ~0U ? "%DV (base %DV / index %#x):\n" : "%DV:\n",
+ &VarPTEAddr, &VarGCPtr, iEntry);
+ do
+ {
+ /*
+ * Read.
+ */
+ X86PTEPAE Pte;
+ Pte.u = 0;
+ rc = pCmdHlp->pfnMemRead(pCmdHlp, &Pte, cbEntry, &VarPTEAddr, NULL);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "Reading PTE memory at %DV.\n", &VarPTEAddr);
+
+ /*
+ * Display.
+ */
+ if (iEntry != ~0U)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%03x %DV: ", iEntry, &VarGCPtr);
+ iEntry++;
+ }
+ DBGCCmdHlpPrintf(pCmdHlp,
+ fPAE
+ ? "%016llx 4kb phys=%016llx %s %s %s %s %s avl=%02x %s %s %s %s %s"
+ : "%08llx 4kb phys=%08llx %s %s %s %s %s avl=%02x %s %s %s %s %s",
+ Pte.u,
+ Pte.u & X86_PTE_PAE_PG_MASK,
+ Pte.n.u1Present ? "p " : "np",
+ Pte.n.u1Write ? "w" : "r",
+ Pte.n.u1User ? "u" : "s",
+ Pte.n.u1Accessed ? "a " : "na",
+ Pte.n.u1Dirty ? "d " : "nd",
+ Pte.n.u3Available,
+ Pte.n.u1Global ? (fPGE ? "g" : "G") : " ",
+ Pte.n.u1WriteThru ? "pwt" : " ",
+ Pte.n.u1CacheDisable ? "pcd" : " ",
+ Pte.n.u1PAT ? "pat" : " ",
+ Pte.n.u1NoExecute ? (fNXE ? "nx" : "NX") : " "
+ );
+ if (Pte.u & UINT64_C(0x7fff000000000000))
+ DBGCCmdHlpPrintf(pCmdHlp, " weird=%RX64", (Pte.u & UINT64_C(0x7fff000000000000)));
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ if (RT_FAILURE(rc))
+ return rc;
+
+ /*
+ * Advance.
+ */
+ VarPTEAddr.u.u64Number += cbEntry;
+ if (iEntry != ~0U)
+ VarGCPtr.u.GCFlat += PAGE_SIZE;
+ } while (cEntries-- > 0);
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dptb' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpPageTableBoth(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ int rc1 = pCmdHlp->pfnExec(pCmdHlp, "dptg %DV", &paArgs[0]);
+ int rc2 = pCmdHlp->pfnExec(pCmdHlp, "dpth %DV", &paArgs[0]);
+ if (RT_FAILURE(rc1))
+ return rc1;
+ NOREF(pCmd); NOREF(cArgs);
+ return rc2;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dt' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpTSS(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ int rc;
+
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs <= 1);
+ if (cArgs == 1)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType != DBGCVAR_TYPE_STRING
+ && paArgs[0].enmType != DBGCVAR_TYPE_SYMBOL);
+
+ /*
+ * Check if the command indicates the type.
+ */
+ enum { kTss16, kTss32, kTss64, kTssToBeDetermined } enmTssType = kTssToBeDetermined;
+ if (!strcmp(pCmd->pszCmd, "dt16"))
+ enmTssType = kTss16;
+ else if (!strcmp(pCmd->pszCmd, "dt32"))
+ enmTssType = kTss32;
+ else if (!strcmp(pCmd->pszCmd, "dt64"))
+ enmTssType = kTss64;
+
+ /*
+ * We can get a TSS selector (number), a far pointer using a TSS selector, or some kind of TSS pointer.
+ */
+ uint32_t SelTss = UINT32_MAX;
+ DBGCVAR VarTssAddr;
+ if (cArgs == 0)
+ {
+ /** @todo consider querying the hidden bits instead (missing API). */
+ uint16_t SelTR;
+ rc = DBGFR3RegCpuQueryU16(pUVM, pDbgc->idCpu, DBGFREG_TR, &SelTR);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Failed to query TR, rc=%Rrc\n", rc);
+ DBGCVAR_INIT_GC_FAR(&VarTssAddr, SelTR, 0);
+ SelTss = SelTR;
+ }
+ else if (paArgs[0].enmType == DBGCVAR_TYPE_NUMBER)
+ {
+ if (paArgs[0].u.u64Number < 0xffff)
+ DBGCVAR_INIT_GC_FAR(&VarTssAddr, (RTSEL)paArgs[0].u.u64Number, 0);
+ else
+ {
+ if (paArgs[0].enmRangeType == DBGCVAR_RANGE_ELEMENTS)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Element count doesn't combine with a TSS address.\n");
+ DBGCVAR_INIT_GC_FLAT(&VarTssAddr, paArgs[0].u.u64Number);
+ if (paArgs[0].enmRangeType == DBGCVAR_RANGE_BYTES)
+ {
+ VarTssAddr.enmRangeType = paArgs[0].enmRangeType;
+ VarTssAddr.u64Range = paArgs[0].u64Range;
+ }
+ }
+ }
+ else
+ VarTssAddr = paArgs[0];
+
+ /*
+ * Deal with TSS:ign by means of the GDT.
+ */
+ if (VarTssAddr.enmType == DBGCVAR_TYPE_GC_FAR)
+ {
+ SelTss = VarTssAddr.u.GCFar.sel;
+ DBGFSELINFO SelInfo;
+ rc = DBGFR3SelQueryInfo(pUVM, pDbgc->idCpu, VarTssAddr.u.GCFar.sel, DBGFSELQI_FLAGS_DT_GUEST, &SelInfo);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "DBGFR3SelQueryInfo(,%u,%d,,) -> %Rrc.\n",
+ pDbgc->idCpu, VarTssAddr.u.GCFar.sel, rc);
+
+ if (SelInfo.u.Raw.Gen.u1DescType)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "%04x is not a TSS selector. (!sys)\n", VarTssAddr.u.GCFar.sel);
+
+ switch (SelInfo.u.Raw.Gen.u4Type)
+ {
+ case X86_SEL_TYPE_SYS_286_TSS_BUSY:
+ case X86_SEL_TYPE_SYS_286_TSS_AVAIL:
+ if (enmTssType == kTssToBeDetermined)
+ enmTssType = kTss16;
+ break;
+
+ case X86_SEL_TYPE_SYS_386_TSS_BUSY: /* AMD64 too */
+ case X86_SEL_TYPE_SYS_386_TSS_AVAIL:
+ if (enmTssType == kTssToBeDetermined)
+ enmTssType = SelInfo.fFlags & DBGFSELINFO_FLAGS_LONG_MODE ? kTss64 : kTss32;
+ break;
+
+ default:
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "%04x is not a TSS selector. (type=%x)\n",
+ VarTssAddr.u.GCFar.sel, SelInfo.u.Raw.Gen.u4Type);
+ }
+
+ DBGCVAR_INIT_GC_FLAT(&VarTssAddr, SelInfo.GCPtrBase);
+ DBGCVAR_SET_RANGE(&VarTssAddr, DBGCVAR_RANGE_BYTES, RT_MAX(SelInfo.cbLimit + 1, SelInfo.cbLimit));
+ }
+
+ /*
+ * Determine the TSS type if none is currently given.
+ */
+ if (enmTssType == kTssToBeDetermined)
+ {
+ if ( VarTssAddr.u64Range > 0
+ && VarTssAddr.u64Range < sizeof(X86TSS32) - 4)
+ enmTssType = kTss16;
+ else
+ {
+ uint64_t uEfer;
+ rc = DBGFR3RegCpuQueryU64(pUVM, pDbgc->idCpu, DBGFREG_MSR_K6_EFER, &uEfer);
+ if ( RT_FAILURE(rc)
+ || !(uEfer & MSR_K6_EFER_LMA) )
+ enmTssType = kTss32;
+ else
+ enmTssType = kTss64;
+ }
+ }
+
+ /*
+ * Figure the min/max sizes.
+ * ASSUMES max TSS size is 64 KB.
+ */
+ uint32_t cbTssMin;
+ uint32_t cbTssMax;
+ switch (enmTssType)
+ {
+ case kTss16:
+ cbTssMin = cbTssMax = X86_SEL_TYPE_SYS_286_TSS_LIMIT_MIN + 1;
+ break;
+ case kTss32:
+ cbTssMin = X86_SEL_TYPE_SYS_386_TSS_LIMIT_MIN + 1;
+ cbTssMax = _64K;
+ break;
+ case kTss64:
+ cbTssMin = X86_SEL_TYPE_SYS_386_TSS_LIMIT_MIN + 1;
+ cbTssMax = _64K;
+ break;
+ default:
+ AssertFailedReturn(VERR_INTERNAL_ERROR);
+ }
+ uint32_t cbTss = VarTssAddr.enmRangeType == DBGCVAR_RANGE_BYTES ? (uint32_t)VarTssAddr.u64Range : 0;
+ if (cbTss == 0)
+ cbTss = cbTssMin;
+ else if (cbTss < cbTssMin)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Minimum TSS size is %u bytes, you specified %llu (%llx) bytes.\n",
+ cbTssMin, VarTssAddr.u64Range, VarTssAddr.u64Range);
+ else if (cbTss > cbTssMax)
+ cbTss = cbTssMax;
+ DBGCVAR_SET_RANGE(&VarTssAddr, DBGCVAR_RANGE_BYTES, cbTss);
+
+ /*
+ * Read the TSS into a temporary buffer.
+ */
+ uint8_t abBuf[_64K];
+ size_t cbTssRead;
+ rc = DBGCCmdHlpMemRead(pCmdHlp, abBuf, cbTss, &VarTssAddr, &cbTssRead);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Failed to read TSS at %Dv: %Rrc\n", &VarTssAddr, rc);
+ if (cbTssRead < cbTssMin)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Failed to read essential parts of the TSS (read %zu, min %zu).\n",
+ cbTssRead, cbTssMin);
+ if (cbTssRead < cbTss)
+ memset(&abBuf[cbTssRead], 0xff, cbTss - cbTssRead);
+
+
+ /*
+ * Format the TSS.
+ */
+ uint16_t offIoBitmap;
+ switch (enmTssType)
+ {
+ case kTss16:
+ {
+ PCX86TSS16 pTss = (PCX86TSS16)&abBuf[0];
+ if (SelTss != UINT32_MAX)
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x TSS16 at %Dv\n", SelTss, &VarTssAddr);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "TSS16 at %Dv\n", &VarTssAddr);
+ DBGCCmdHlpPrintf(pCmdHlp,
+ "ax=%04x bx=%04x cx=%04x dx=%04x si=%04x di=%04x\n"
+ "ip=%04x sp=%04x bp=%04x\n"
+ "cs=%04x ss=%04x ds=%04x es=%04x flags=%04x\n"
+ "ss:sp0=%04x:%04x ss:sp1=%04x:%04x ss:sp2=%04x:%04x\n"
+ "prev=%04x ldtr=%04x\n"
+ ,
+ pTss->ax, pTss->bx, pTss->cx, pTss->dx, pTss->si, pTss->di,
+ pTss->ip, pTss->sp, pTss->bp,
+ pTss->cs, pTss->ss, pTss->ds, pTss->es, pTss->flags,
+ pTss->ss0, pTss->sp0, pTss->ss1, pTss->sp1, pTss->ss2, pTss->sp2,
+ pTss->selPrev, pTss->selLdt);
+ if (pTss->cs != 0)
+ pCmdHlp->pfnExec(pCmdHlp, "u %04x:%04x L 0", pTss->cs, pTss->ip);
+ offIoBitmap = 0;
+ break;
+ }
+
+ case kTss32:
+ {
+ PCX86TSS32 pTss = (PCX86TSS32)&abBuf[0];
+ if (SelTss != UINT32_MAX)
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x TSS32 at %Dv (min=%04x)\n", SelTss, &VarTssAddr, cbTssMin);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "TSS32 at %Dv (min=%04x)\n", &VarTssAddr, cbTssMin);
+ DBGCCmdHlpPrintf(pCmdHlp,
+ "eax=%08x ebx=%08x ecx=%08x edx=%08x esi=%08x edi=%08x\n"
+ "eip=%08x esp=%08x ebp=%08x\n"
+ "cs=%04x ss=%04x ds=%04x es=%04x fs=%04x gs=%04x eflags=%08x\n"
+ "ss:esp0=%04x:%08x ss:esp1=%04x:%08x ss:esp2=%04x:%08x\n"
+ "prev=%04x ldtr=%04x cr3=%08x debug=%u iomap=%04x\n"
+ ,
+ pTss->eax, pTss->ebx, pTss->ecx, pTss->edx, pTss->esi, pTss->edi,
+ pTss->eip, pTss->esp, pTss->ebp,
+ pTss->cs, pTss->ss, pTss->ds, pTss->es, pTss->fs, pTss->gs, pTss->eflags,
+ pTss->ss0, pTss->esp0, pTss->ss1, pTss->esp1, pTss->ss2, pTss->esp2,
+ pTss->selPrev, pTss->selLdt, pTss->cr3, pTss->fDebugTrap, pTss->offIoBitmap);
+ if (pTss->cs != 0)
+ pCmdHlp->pfnExec(pCmdHlp, "u %04x:%08x L 0", pTss->cs, pTss->eip);
+ offIoBitmap = pTss->offIoBitmap;
+ break;
+ }
+
+ case kTss64:
+ {
+ PCX86TSS64 pTss = (PCX86TSS64)&abBuf[0];
+ if (SelTss != UINT32_MAX)
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x TSS64 at %Dv (min=%04x)\n", SelTss, &VarTssAddr, cbTssMin);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "TSS64 at %Dv (min=%04x)\n", &VarTssAddr, cbTssMin);
+ DBGCCmdHlpPrintf(pCmdHlp,
+ "rsp0=%016RX64 rsp1=%016RX64 rsp2=%016RX64\n"
+ "ist1=%016RX64 ist2=%016RX64\n"
+ "ist3=%016RX64 ist4=%016RX64\n"
+ "ist5=%016RX64 ist6=%016RX64\n"
+ "ist7=%016RX64 iomap=%04x\n"
+ ,
+ pTss->rsp0, pTss->rsp1, pTss->rsp2,
+ pTss->ist1, pTss->ist2,
+ pTss->ist3, pTss->ist4,
+ pTss->ist5, pTss->ist6,
+ pTss->ist7, pTss->offIoBitmap);
+ offIoBitmap = pTss->offIoBitmap;
+ break;
+ }
+
+ default:
+ AssertFailedReturn(VERR_INTERNAL_ERROR);
+ }
+
+ /*
+ * Dump the interrupt redirection bitmap.
+ */
+ if (enmTssType != kTss16)
+ {
+ if ( offIoBitmap > cbTssMin
+ && offIoBitmap < cbTss) /** @todo check exactly what the edge cases are here. */
+ {
+ if (offIoBitmap - cbTssMin >= 32)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "Interrupt redirection:\n");
+ uint8_t const *pbIntRedirBitmap = &abBuf[offIoBitmap - 32];
+ uint32_t iStart = 0;
+ bool fPrev = ASMBitTest(pbIntRedirBitmap, 0); /* LE/BE issue */
+ for (uint32_t i = 0; i < 256; i++)
+ {
+ bool fThis = ASMBitTest(pbIntRedirBitmap, i);
+ if (fThis != fPrev)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "%02x-%02x %s\n", iStart, i - 1, fPrev ? "Protected mode" : "Redirected");
+ fPrev = fThis;
+ iStart = i;
+ }
+ }
+ DBGCCmdHlpPrintf(pCmdHlp, "%02x-%02x %s\n", iStart, 255, fPrev ? "Protected mode" : "Redirected");
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "Invalid interrupt redirection bitmap size: %u (%#x), expected 32 bytes.\n",
+ offIoBitmap - cbTssMin, offIoBitmap - cbTssMin);
+ }
+ else if (offIoBitmap > 0)
+ DBGCCmdHlpPrintf(pCmdHlp, "No interrupt redirection bitmap (-%#x)\n", cbTssMin - offIoBitmap);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "No interrupt redirection bitmap\n");
+ }
+
+ /*
+ * Dump the I/O permission bitmap if present. The IOPM cannot start below offset 0x68
+ * (that applies to both 32-bit and 64-bit TSSs since their size is the same).
+ * Note that there is always one padding byte that is not technically part of the bitmap
+ * and "must have all bits set". It's not clear what happens when it doesn't. All ports
+ * not covered by the bitmap are considered to be not accessible.
+ */
+ if (enmTssType != kTss16)
+ {
+ if (offIoBitmap < cbTss && offIoBitmap >= 0x68)
+ {
+ uint32_t cPorts = RT_MIN((cbTss - offIoBitmap) * 8, _64K);
+ DBGCVAR VarAddr;
+ DBGCCmdHlpEval(pCmdHlp, &VarAddr, "%DV + %#x", &VarTssAddr, offIoBitmap);
+ DBGCCmdHlpPrintf(pCmdHlp, "I/O bitmap at %DV - %#x ports:\n", &VarAddr, cPorts);
+
+ uint8_t const *pbIoBitmap = &abBuf[offIoBitmap];
+ uint32_t iStart = 0;
+ bool fPrev = ASMBitTest(pbIoBitmap, 0);
+ uint32_t cLine = 0;
+ for (uint32_t i = 1; i < _64K; i++)
+ {
+ bool fThis = i < cPorts ? ASMBitTest(pbIoBitmap, i) : true;
+ if (fThis != fPrev)
+ {
+ cLine++;
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x-%04x %s%s", iStart, i-1,
+ fPrev ? "GP" : "OK", (cLine % 6) == 0 ? "\n" : " ");
+ fPrev = fThis;
+ iStart = i;
+ }
+ }
+ DBGCCmdHlpPrintf(pCmdHlp, "%04x-%04x %s\n", iStart, _64K-1, fPrev ? "GP" : "OK");
+ }
+ else if (offIoBitmap > 0)
+ DBGCCmdHlpPrintf(pCmdHlp, "No I/O bitmap (-%#x)\n", cbTssMin - offIoBitmap);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "No I/O bitmap\n");
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGFR3TYPEDUMP, The 'dti' command dumper callback.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpTypeInfoCallback(uint32_t off, const char *pszField, uint32_t iLvl,
+ const char *pszType, uint32_t fTypeFlags,
+ uint32_t cElements, void *pvUser)
+{
+ PDBGCCMDHLP pCmdHlp = (PDBGCCMDHLP)pvUser;
+
+ /* Pad with spaces to match the level. */
+ for (uint32_t i = 0; i < iLvl; i++)
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+
+ size_t cbWritten = 0;
+ DBGCCmdHlpPrintfEx(pCmdHlp, &cbWritten, "+0x%04x %s", off, pszField);
+ while (cbWritten < 32)
+ {
+ /* Fill with spaces to get proper aligning. */
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+ cbWritten++;
+ }
+
+ DBGCCmdHlpPrintf(pCmdHlp, ": ");
+ if (fTypeFlags & DBGFTYPEREGMEMBER_F_ARRAY)
+ DBGCCmdHlpPrintf(pCmdHlp, "[%u] ", cElements);
+ if (fTypeFlags & DBGFTYPEREGMEMBER_F_POINTER)
+ DBGCCmdHlpPrintf(pCmdHlp, "Ptr ");
+ DBGCCmdHlpPrintf(pCmdHlp, "%s\n", pszType);
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dti' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpTypeInfo(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 1 || cArgs == 2);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType == DBGCVAR_TYPE_STRING);
+ if (cArgs == 2)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[1].enmType == DBGCVAR_TYPE_NUMBER);
+
+ uint32_t cLvlMax = cArgs == 2 ? (uint32_t)paArgs[1].u.u64Number : UINT32_MAX;
+ return DBGFR3TypeDumpEx(pUVM, paArgs[0].u.pszString, 0 /* fFlags */, cLvlMax,
+ dbgcCmdDumpTypeInfoCallback, pCmdHlp);
+}
+
+
+static void dbgcCmdDumpTypedValCallbackBuiltin(PDBGCCMDHLP pCmdHlp, DBGFTYPEBUILTIN enmType, size_t cbType,
+ PDBGFTYPEVALBUF pValBuf)
+{
+ switch (enmType)
+ {
+ case DBGFTYPEBUILTIN_UINT8:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU8", pValBuf->u8);
+ break;
+ case DBGFTYPEBUILTIN_INT8:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RI8", pValBuf->i8);
+ break;
+ case DBGFTYPEBUILTIN_UINT16:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU16", pValBuf->u16);
+ break;
+ case DBGFTYPEBUILTIN_INT16:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RI16", pValBuf->i16);
+ break;
+ case DBGFTYPEBUILTIN_UINT32:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU32", pValBuf->u32);
+ break;
+ case DBGFTYPEBUILTIN_INT32:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RI32", pValBuf->i32);
+ break;
+ case DBGFTYPEBUILTIN_UINT64:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU64", pValBuf->u64);
+ break;
+ case DBGFTYPEBUILTIN_INT64:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RI64", pValBuf->i64);
+ break;
+ case DBGFTYPEBUILTIN_PTR32:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RX32", pValBuf->GCPtr);
+ break;
+ case DBGFTYPEBUILTIN_PTR64:
+ DBGCCmdHlpPrintf(pCmdHlp, "%RX64", pValBuf->GCPtr);
+ break;
+ case DBGFTYPEBUILTIN_PTR:
+ if (cbType == sizeof(uint32_t))
+ DBGCCmdHlpPrintf(pCmdHlp, "%RX32", pValBuf->GCPtr);
+ else if (cbType == sizeof(uint64_t))
+ DBGCCmdHlpPrintf(pCmdHlp, "%RX64", pValBuf->GCPtr);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "<Unsupported pointer width %u>", cbType);
+ break;
+ case DBGFTYPEBUILTIN_SIZE:
+ if (cbType == sizeof(uint32_t))
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU32", pValBuf->size);
+ else if (cbType == sizeof(uint64_t))
+ DBGCCmdHlpPrintf(pCmdHlp, "%RU64", pValBuf->size);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "<Unsupported size width %u>", cbType);
+ break;
+ case DBGFTYPEBUILTIN_FLOAT32:
+ case DBGFTYPEBUILTIN_FLOAT64:
+ case DBGFTYPEBUILTIN_COMPOUND:
+ default:
+ AssertMsgFailed(("Invalid built-in type: %d\n", enmType));
+ }
+}
+
+/**
+ * @callback_method_impl{FNDBGFR3TYPEDUMP, The 'dtv' command dumper callback.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpTypedValCallback(uint32_t off, const char *pszField, uint32_t iLvl,
+ DBGFTYPEBUILTIN enmType, size_t cbType,
+ PDBGFTYPEVALBUF pValBuf, uint32_t cValBufs,
+ void *pvUser)
+{
+ PDBGCCMDHLP pCmdHlp = (PDBGCCMDHLP)pvUser;
+
+ /* Pad with spaces to match the level. */
+ for (uint32_t i = 0; i < iLvl; i++)
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+
+ size_t cbWritten = 0;
+ DBGCCmdHlpPrintfEx(pCmdHlp, &cbWritten, "+0x%04x %s", off, pszField);
+ while (cbWritten < 32)
+ {
+ /* Fill with spaces to get proper aligning. */
+ DBGCCmdHlpPrintf(pCmdHlp, " ");
+ cbWritten++;
+ }
+
+ DBGCCmdHlpPrintf(pCmdHlp, ": ");
+ if (cValBufs > 1)
+ DBGCCmdHlpPrintf(pCmdHlp, "[%u] [ ", cValBufs);
+
+ for (uint32_t i = 0; i < cValBufs; i++)
+ {
+ dbgcCmdDumpTypedValCallbackBuiltin(pCmdHlp, enmType, cbType, pValBuf);
+ if (i < cValBufs - 1)
+ DBGCCmdHlpPrintf(pCmdHlp, " , ");
+ pValBuf++;
+ }
+
+ if (cValBufs > 1)
+ DBGCCmdHlpPrintf(pCmdHlp, " ]");
+ DBGCCmdHlpPrintf(pCmdHlp, "\n");
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'dtv' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdDumpTypedVal(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs == 2 || cArgs == 3);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[0].enmType == DBGCVAR_TYPE_STRING);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISGCPOINTER(paArgs[1].enmType));
+ if (cArgs == 3)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[2].enmType == DBGCVAR_TYPE_NUMBER);
+
+ /*
+ * Make DBGF address and fix the range.
+ */
+ DBGFADDRESS Address;
+ int rc = pCmdHlp->pfnVarToDbgfAddr(pCmdHlp, &paArgs[1], &Address);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "VarToDbgfAddr(,%Dv,)\n", &paArgs[1]);
+
+ uint32_t cLvlMax = cArgs == 3 ? (uint32_t)paArgs[2].u.u64Number : UINT32_MAX;
+ return DBGFR3TypeValDumpEx(pUVM, &Address, paArgs[0].u.pszString, 0 /* fFlags */, cLvlMax,
+ dbgcCmdDumpTypedValCallback, pCmdHlp);
+}
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'm' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdMemoryInfo(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ DBGCCmdHlpPrintf(pCmdHlp, "Address: %DV\n", &paArgs[0]);
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+ return dbgcCmdDumpPageHierarchy(pCmd, pCmdHlp, pUVM, paArgs, cArgs);
+}
+
+
+/**
+ * Converts one or more variables into a byte buffer for a
+ * given unit size.
+ *
+ * @returns VBox status codes:
+ * @retval VERR_TOO_MUCH_DATA if the buffer is too small, bitched.
+ * @retval VERR_INTERNAL_ERROR on bad variable type, bitched.
+ * @retval VINF_SUCCESS on success.
+ *
+ * @param pCmdHlp The command helper callback table.
+ * @param pvBuf The buffer to convert into.
+ * @param pcbBuf The buffer size on input. The size of the result on output.
+ * @param cbUnit The unit size to apply when converting.
+ * The high bit is used to indicate unicode string.
+ * @param paVars The array of variables to convert.
+ * @param cVars The number of variables.
+ */
+int dbgcVarsToBytes(PDBGCCMDHLP pCmdHlp, void *pvBuf, uint32_t *pcbBuf, size_t cbUnit, PCDBGCVAR paVars, unsigned cVars)
+{
+ union
+ {
+ uint8_t *pu8;
+ uint16_t *pu16;
+ uint32_t *pu32;
+ uint64_t *pu64;
+ } u, uEnd;
+ u.pu8 = (uint8_t *)pvBuf;
+ uEnd.pu8 = u.pu8 + *pcbBuf;
+
+ unsigned i;
+ for (i = 0; i < cVars && u.pu8 < uEnd.pu8; i++)
+ {
+ switch (paVars[i].enmType)
+ {
+ case DBGCVAR_TYPE_GC_FAR:
+ case DBGCVAR_TYPE_GC_FLAT:
+ case DBGCVAR_TYPE_GC_PHYS:
+ case DBGCVAR_TYPE_HC_FLAT:
+ case DBGCVAR_TYPE_HC_PHYS:
+ case DBGCVAR_TYPE_NUMBER:
+ {
+ uint64_t u64 = paVars[i].u.u64Number;
+ switch (cbUnit & 0x1f)
+ {
+ case 1:
+ do
+ {
+ *u.pu8++ = u64;
+ u64 >>= 8;
+ } while (u64);
+ break;
+ case 2:
+ do
+ {
+ *u.pu16++ = u64;
+ u64 >>= 16;
+ } while (u64);
+ break;
+ case 4:
+ *u.pu32++ = u64;
+ u64 >>= 32;
+ if (u64)
+ *u.pu32++ = u64;
+ break;
+ case 8:
+ *u.pu64++ = u64;
+ break;
+ }
+ break;
+ }
+
+ case DBGCVAR_TYPE_STRING:
+ case DBGCVAR_TYPE_SYMBOL:
+ {
+ const char *psz = paVars[i].u.pszString;
+ size_t cbString = strlen(psz);
+ if (cbUnit & RT_BIT_32(31))
+ {
+ /* Explode char to unit. */
+ if (cbString > (uintptr_t)(uEnd.pu8 - u.pu8) * (cbUnit & 0x1f))
+ {
+ pCmdHlp->pfnVBoxError(pCmdHlp, VERR_TOO_MUCH_DATA, "Max %d bytes.\n", uEnd.pu8 - (uint8_t *)pvBuf);
+ return VERR_TOO_MUCH_DATA;
+ }
+ while (*psz)
+ {
+ switch (cbUnit & 0x1f)
+ {
+ case 1: *u.pu8++ = *psz; break;
+ case 2: *u.pu16++ = *psz; break;
+ case 4: *u.pu32++ = *psz; break;
+ case 8: *u.pu64++ = *psz; break;
+ }
+ psz++;
+ }
+ }
+ else
+ {
+ /* Raw copy with zero padding if the size isn't aligned. */
+ if (cbString > (uintptr_t)(uEnd.pu8 - u.pu8))
+ {
+ pCmdHlp->pfnVBoxError(pCmdHlp, VERR_TOO_MUCH_DATA, "Max %d bytes.\n", uEnd.pu8 - (uint8_t *)pvBuf);
+ return VERR_TOO_MUCH_DATA;
+ }
+
+ size_t cbCopy = cbString & ~(cbUnit - 1);
+ memcpy(u.pu8, psz, cbCopy);
+ u.pu8 += cbCopy;
+ psz += cbCopy;
+
+ size_t cbReminder = cbString & (cbUnit - 1);
+ if (cbReminder)
+ {
+ memcpy(u.pu8, psz, cbString & (cbUnit - 1));
+ memset(u.pu8 + cbReminder, 0, cbUnit - cbReminder);
+ u.pu8 += cbUnit;
+ }
+ }
+ break;
+ }
+
+ default:
+ *pcbBuf = u.pu8 - (uint8_t *)pvBuf;
+ pCmdHlp->pfnVBoxError(pCmdHlp, VERR_INTERNAL_ERROR,
+ "i=%d enmType=%d\n", i, paVars[i].enmType);
+ return VERR_INTERNAL_ERROR;
+ }
+ }
+ *pcbBuf = u.pu8 - (uint8_t *)pvBuf;
+ if (i != cVars)
+ {
+ pCmdHlp->pfnVBoxError(pCmdHlp, VERR_TOO_MUCH_DATA, "Max %d bytes.\n", uEnd.pu8 - (uint8_t *)pvBuf);
+ return VERR_TOO_MUCH_DATA;
+ }
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'eb'\, 'ew'\, 'ed' and 'eq' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdEditMem(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Validate input.
+ */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs >= 2);
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, DBGCVAR_ISPOINTER(paArgs[0].enmType));
+ for (unsigned iArg = 1; iArg < cArgs; iArg++)
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, paArgs[iArg].enmType == DBGCVAR_TYPE_NUMBER);
+ DBGC_CMDHLP_REQ_UVM_RET(pCmdHlp, pCmd, pUVM);
+
+ /*
+ * Figure out the element size.
+ */
+ unsigned cbElement;
+ switch (pCmd->pszCmd[1])
+ {
+ default:
+ case 'b': cbElement = 1; break;
+ case 'w': cbElement = 2; break;
+ case 'd': cbElement = 4; break;
+ case 'q': cbElement = 8; break;
+ }
+
+ /*
+ * Do setting.
+ */
+ DBGCVAR Addr = paArgs[0];
+ for (unsigned iArg = 1;;)
+ {
+ size_t cbWritten;
+ int rc = pCmdHlp->pfnMemWrite(pCmdHlp, &paArgs[iArg].u, cbElement, &Addr, &cbWritten);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "Writing memory at %DV.\n", &Addr);
+ if (cbWritten != cbElement)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Only wrote %u out of %u bytes!\n", cbWritten, cbElement);
+
+ /* advance. */
+ iArg++;
+ if (iArg >= cArgs)
+ break;
+ rc = DBGCCmdHlpEval(pCmdHlp, &Addr, "%Dv + %#x", &Addr, cbElement);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "%%(%Dv)", &paArgs[0]);
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * Executes the search.
+ *
+ * @returns VBox status code.
+ * @param pCmdHlp The command helpers.
+ * @param pUVM The user mode VM handle.
+ * @param pAddress The address to start searching from. (undefined on output)
+ * @param cbRange The address range to search. Must not wrap.
+ * @param pabBytes The byte pattern to search for.
+ * @param cbBytes The size of the pattern.
+ * @param cbUnit The search unit.
+ * @param cMaxHits The max number of hits.
+ * @param pResult Where to store the result if it's a function invocation.
+ */
+static int dbgcCmdWorkerSearchMemDoIt(PDBGCCMDHLP pCmdHlp, PUVM pUVM, PDBGFADDRESS pAddress, RTGCUINTPTR cbRange,
+ const uint8_t *pabBytes, uint32_t cbBytes,
+ uint32_t cbUnit, uint64_t cMaxHits, PDBGCVAR pResult)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Do the search.
+ */
+ uint64_t cHits = 0;
+ for (;;)
+ {
+ /* search */
+ DBGFADDRESS HitAddress;
+ int rc = DBGFR3MemScan(pUVM, pDbgc->idCpu, pAddress, cbRange, 1, pabBytes, cbBytes, &HitAddress);
+ if (RT_FAILURE(rc))
+ {
+ if (rc != VERR_DBGF_MEM_NOT_FOUND)
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "DBGFR3MemScan\n");
+
+ /* update the current address so we can save it (later). */
+ pAddress->off += cbRange;
+ pAddress->FlatPtr += cbRange;
+ cbRange = 0;
+ break;
+ }
+
+ /* report result */
+ DBGCVAR VarCur;
+ rc = DBGCCmdHlpVarFromDbgfAddr(pCmdHlp, &HitAddress, &VarCur);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGCCmdHlpVarFromDbgfAddr\n");
+ if (!pResult)
+ pCmdHlp->pfnExec(pCmdHlp, "db %DV LB 10", &VarCur);
+ else
+ DBGCVAR_ASSIGN(pResult, &VarCur);
+
+ /* advance */
+ cbRange -= HitAddress.FlatPtr - pAddress->FlatPtr;
+ *pAddress = HitAddress;
+ pAddress->FlatPtr += cbBytes;
+ pAddress->off += cbBytes;
+ if (cbRange <= cbBytes)
+ {
+ cbRange = 0;
+ break;
+ }
+ cbRange -= cbBytes;
+
+ if (++cHits >= cMaxHits)
+ {
+ /// @todo save the search.
+ break;
+ }
+ }
+
+ /*
+ * Save the search so we can resume it...
+ */
+ if (pDbgc->abSearch != pabBytes)
+ {
+ memcpy(pDbgc->abSearch, pabBytes, cbBytes);
+ pDbgc->cbSearch = cbBytes;
+ pDbgc->cbSearchUnit = cbUnit;
+ }
+ pDbgc->cMaxSearchHits = cMaxHits;
+ pDbgc->SearchAddr = *pAddress;
+ pDbgc->cbSearchRange = cbRange;
+
+ return cHits ? VINF_SUCCESS : VERR_DBGC_COMMAND_FAILED;
+}
+
+
+/**
+ * Resumes the previous search.
+ *
+ * @returns VBox status code.
+ * @param pCmdHlp Pointer to the command helper functions.
+ * @param pUVM The user mode VM handle.
+ * @param pResult Where to store the result of a function invocation.
+ */
+static int dbgcCmdWorkerSearchMemResume(PDBGCCMDHLP pCmdHlp, PUVM pUVM, PDBGCVAR pResult)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Make sure there is a previous command.
+ */
+ if (!pDbgc->cbSearch)
+ {
+ DBGCCmdHlpPrintf(pCmdHlp, "Error: No previous search\n");
+ return VERR_DBGC_COMMAND_FAILED;
+ }
+
+ /*
+ * Make range and address adjustments.
+ */
+ DBGFADDRESS Address = pDbgc->SearchAddr;
+ if (Address.FlatPtr == ~(RTGCUINTPTR)0)
+ {
+ Address.FlatPtr -= Address.off;
+ Address.off = 0;
+ }
+
+ RTGCUINTPTR cbRange = pDbgc->cbSearchRange;
+ if (!cbRange)
+ cbRange = ~(RTGCUINTPTR)0;
+ if (Address.FlatPtr + cbRange < pDbgc->SearchAddr.FlatPtr)
+ cbRange = ~(RTGCUINTPTR)0 - pDbgc->SearchAddr.FlatPtr + !!pDbgc->SearchAddr.FlatPtr;
+
+ return dbgcCmdWorkerSearchMemDoIt(pCmdHlp, pUVM, &Address, cbRange, pDbgc->abSearch, pDbgc->cbSearch,
+ pDbgc->cbSearchUnit, pDbgc->cMaxSearchHits, pResult);
+}
+
+
+/**
+ * Search memory, worker for the 's' and 's?' functions.
+ *
+ * @returns VBox status code.
+ * @param pCmdHlp Pointer to the command helper functions.
+ * @param pUVM The user mode VM handle.
+ * @param pAddress Where to start searching. If no range, search till end of address space.
+ * @param cMaxHits The maximum number of hits.
+ * @param chType The search type.
+ * @param paPatArgs The pattern variable array.
+ * @param cPatArgs Number of pattern variables.
+ * @param pResult Where to store the result of a function invocation.
+ */
+static int dbgcCmdWorkerSearchMem(PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR pAddress, uint64_t cMaxHits, char chType,
+ PCDBGCVAR paPatArgs, unsigned cPatArgs, PDBGCVAR pResult)
+{
+ if (pResult)
+ DBGCVAR_INIT_GC_FLAT(pResult, 0);
+
+ /*
+ * Convert the search pattern into bytes and DBGFR3MemScan can deal with.
+ */
+ uint32_t cbUnit;
+ switch (chType)
+ {
+ case 'a':
+ case 'b': cbUnit = 1; break;
+ case 'u': cbUnit = 2 | RT_BIT_32(31); break;
+ case 'w': cbUnit = 2; break;
+ case 'd': cbUnit = 4; break;
+ case 'q': cbUnit = 8; break;
+ default:
+ return pCmdHlp->pfnVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "chType=%c\n", chType);
+ }
+ uint8_t abBytes[RT_SIZEOFMEMB(DBGC, abSearch)];
+ uint32_t cbBytes = sizeof(abBytes);
+ int rc = dbgcVarsToBytes(pCmdHlp, abBytes, &cbBytes, cbUnit, paPatArgs, cPatArgs);
+ if (RT_FAILURE(rc))
+ return VERR_DBGC_COMMAND_FAILED;
+
+ /*
+ * Make DBGF address and fix the range.
+ */
+ DBGFADDRESS Address;
+ rc = pCmdHlp->pfnVarToDbgfAddr(pCmdHlp, pAddress, &Address);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "VarToDbgfAddr(,%Dv,)\n", pAddress);
+
+ RTGCUINTPTR cbRange;
+ switch (pAddress->enmRangeType)
+ {
+ case DBGCVAR_RANGE_BYTES:
+ cbRange = pAddress->u64Range;
+ if (cbRange != pAddress->u64Range)
+ cbRange = ~(RTGCUINTPTR)0;
+ break;
+
+ case DBGCVAR_RANGE_ELEMENTS:
+ cbRange = (RTGCUINTPTR)(pAddress->u64Range * cbUnit);
+ if ( cbRange != pAddress->u64Range * cbUnit
+ || cbRange < pAddress->u64Range)
+ cbRange = ~(RTGCUINTPTR)0;
+ break;
+
+ default:
+ cbRange = ~(RTGCUINTPTR)0;
+ break;
+ }
+ if (Address.FlatPtr + cbRange < Address.FlatPtr)
+ cbRange = ~(RTGCUINTPTR)0 - Address.FlatPtr + !!Address.FlatPtr;
+
+ /*
+ * Ok, do it.
+ */
+ return dbgcCmdWorkerSearchMemDoIt(pCmdHlp, pUVM, &Address, cbRange, abBytes, cbBytes, cbUnit, cMaxHits, pResult);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 's' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdSearchMem(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ RT_NOREF2(pCmd, paArgs);
+
+ /* check that the parser did what it's supposed to do. */
+ //if ( cArgs <= 2
+ // && paArgs[0].enmType != DBGCVAR_TYPE_STRING)
+ // return DBGCCmdHlpPrintf(pCmdHlp, "parser error\n");
+
+ /*
+ * Repeat previous search?
+ */
+ if (cArgs == 0)
+ return dbgcCmdWorkerSearchMemResume(pCmdHlp, pUVM, NULL);
+
+ /*
+ * Parse arguments.
+ */
+
+ return -1;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 's?' command.}
+ */
+static DECLCALLBACK(int) dbgcCmdSearchMemType(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /* check that the parser did what it's supposed to do. */
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, 0, cArgs >= 2 && DBGCVAR_ISGCPOINTER(paArgs[0].enmType));
+ return dbgcCmdWorkerSearchMem(pCmdHlp, pUVM, &paArgs[0], 25, pCmd->pszCmd[1], paArgs + 1, cArgs - 1, NULL);
+}
+
+
+/**
+ * Matching function for interrupts event names.
+ *
+ * This parses the interrupt number and length.
+ *
+ * @returns True if match, false if not.
+ * @param pPattern The user specified pattern to match.
+ * @param pszEvtName The event name.
+ * @param pCmdHlp Command helpers for warning about malformed stuff.
+ * @param piFirst Where to return start interrupt number on success.
+ * @param pcInts Where to return the number of interrupts on success.
+ */
+static bool dbgcEventIsMatchingInt(PCDBGCVAR pPattern, const char *pszEvtName, PDBGCCMDHLP pCmdHlp,
+ uint8_t *piFirst, uint16_t *pcInts)
+{
+ /*
+ * Ignore trailing hex digits when comparing with the event base name.
+ */
+ const char *pszPattern = pPattern->u.pszString;
+ const char *pszEnd = RTStrEnd(pszPattern, RTSTR_MAX);
+ while ( (uintptr_t)pszEnd > (uintptr_t)pszPattern
+ && RT_C_IS_XDIGIT(pszEnd[-1]))
+ pszEnd -= 1;
+ if (RTStrSimplePatternNMatch(pszPattern, pszEnd - pszPattern, pszEvtName, RTSTR_MAX))
+ {
+ /*
+ * Parse the index and length.
+ */
+ if (!*pszEnd)
+ *piFirst = 0;
+ else
+ {
+ int rc = RTStrToUInt8Full(pszEnd, 16, piFirst);
+ if (rc != VINF_SUCCESS)
+ {
+ if (RT_FAILURE(rc))
+ *piFirst = 0;
+ DBGCCmdHlpPrintf(pCmdHlp, "Warning: %Rrc parsing '%s' - interpreting it as %#x\n", rc, pszEnd, *piFirst);
+ }
+ }
+
+ if (pPattern->enmRangeType == DBGCVAR_RANGE_NONE)
+ *pcInts = 1;
+ else
+ *pcInts = RT_MAX(RT_MIN((uint16_t)pPattern->u64Range, 256 - *piFirst), 1);
+ return true;
+ }
+ return false;
+}
+
+
+/**
+ * Updates a DBGC event config.
+ *
+ * @returns VINF_SUCCESS or VERR_NO_MEMORY.
+ * @param ppEvtCfg The event configuration entry to update.
+ * @param pszCmd The new command. Leave command alone if NULL.
+ * @param enmEvtState The new event state.
+ * @param fChangeCmdOnly Whether to only update the command.
+ */
+static int dbgcEventUpdate(PDBGCEVTCFG *ppEvtCfg, const char *pszCmd, DBGCEVTSTATE enmEvtState, bool fChangeCmdOnly)
+{
+ PDBGCEVTCFG pEvtCfg = *ppEvtCfg;
+
+ /*
+ * If we've got a command string, update the command too.
+ */
+ if (pszCmd)
+ {
+ size_t cchCmd = strlen(pszCmd);
+ if ( !cchCmd
+ && ( !fChangeCmdOnly
+ ? enmEvtState == kDbgcEvtState_Disabled
+ : !pEvtCfg || pEvtCfg->enmState == kDbgcEvtState_Disabled))
+ {
+ /* NULL entry is fine if no command and disabled. */
+ RTMemFree(pEvtCfg);
+ *ppEvtCfg = NULL;
+ }
+ else
+ {
+ if (!pEvtCfg || pEvtCfg->cchCmd < cchCmd)
+ {
+ RTMemFree(pEvtCfg);
+ *ppEvtCfg = pEvtCfg = (PDBGCEVTCFG)RTMemAlloc(RT_UOFFSETOF_DYN(DBGCEVTCFG, szCmd[cchCmd + 1]));
+ if (!pEvtCfg)
+ return VERR_NO_MEMORY;
+ }
+ pEvtCfg->enmState = enmEvtState;
+ pEvtCfg->cchCmd = cchCmd;
+ memcpy(pEvtCfg->szCmd, pszCmd, cchCmd + 1);
+ }
+ }
+ /*
+ * Update existing or enable new. If NULL and not enabled, we can keep it that way.
+ */
+ else if (pEvtCfg || enmEvtState != kDbgcEvtState_Disabled)
+ {
+ if (!pEvtCfg)
+ {
+ *ppEvtCfg = pEvtCfg = (PDBGCEVTCFG)RTMemAlloc(sizeof(DBGCEVTCFG));
+ if (!pEvtCfg)
+ return VERR_NO_MEMORY;
+ pEvtCfg->cchCmd = 0;
+ pEvtCfg->szCmd[0] = '\0';
+ }
+ pEvtCfg->enmState = enmEvtState;
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * Record one settings change for a plain event.
+ *
+ * @returns The new @a cIntCfgs value.
+ * @param paEventCfgs The event setttings array. Must have DBGFEVENT_END
+ * entries.
+ * @param cEventCfgs The current number of entries in @a paEventCfgs.
+ * @param enmType The event to change the settings for.
+ * @param enmEvtState The new event state.
+ * @param iSxEvt Index into the g_aDbgcSxEvents array.
+ *
+ * @remarks We use abUnused[0] for the enmEvtState, while abUnused[1] and
+ * abUnused[2] are used for iSxEvt.
+ */
+static uint32_t dbgcEventAddPlainConfig(PDBGFEVENTCONFIG paEventCfgs, uint32_t cEventCfgs, DBGFEVENTTYPE enmType,
+ DBGCEVTSTATE enmEvtState, uint16_t iSxEvt)
+{
+ uint32_t iCfg;
+ for (iCfg = 0; iCfg < cEventCfgs; iCfg++)
+ if (paEventCfgs[iCfg].enmType == enmType)
+ break;
+ if (iCfg == cEventCfgs)
+ {
+ Assert(cEventCfgs < DBGFEVENT_END);
+ paEventCfgs[iCfg].enmType = enmType;
+ cEventCfgs++;
+ }
+ paEventCfgs[iCfg].fEnabled = enmEvtState > kDbgcEvtState_Disabled;
+ paEventCfgs[iCfg].abUnused[0] = enmEvtState;
+ paEventCfgs[iCfg].abUnused[1] = (uint8_t)iSxEvt;
+ paEventCfgs[iCfg].abUnused[2] = (uint8_t)(iSxEvt >> 8);
+ return cEventCfgs;
+}
+
+
+/**
+ * Record one or more interrupt event config changes.
+ *
+ * @returns The new @a cIntCfgs value.
+ * @param paIntCfgs Interrupt confiruation array. Must have 256 entries.
+ * @param cIntCfgs The current number of entries in @a paIntCfgs.
+ * @param iInt The interrupt number to start with.
+ * @param cInts The number of interrupts to change.
+ * @param pszName The settings name (hwint/swint).
+ * @param enmEvtState The new event state.
+ * @param bIntOp The new DBGF interrupt state.
+ */
+static uint32_t dbgcEventAddIntConfig(PDBGFINTERRUPTCONFIG paIntCfgs, uint32_t cIntCfgs, uint8_t iInt, uint16_t cInts,
+ const char *pszName, DBGCEVTSTATE enmEvtState, uint8_t bIntOp)
+{
+ bool const fHwInt = *pszName == 'h';
+
+ bIntOp |= (uint8_t)enmEvtState << 4;
+ uint8_t const bSoftState = !fHwInt ? bIntOp : DBGFINTERRUPTSTATE_DONT_TOUCH;
+ uint8_t const bHardState = fHwInt ? bIntOp : DBGFINTERRUPTSTATE_DONT_TOUCH;
+
+ while (cInts > 0)
+ {
+ uint32_t iCfg;
+ for (iCfg = 0; iCfg < cIntCfgs; iCfg++)
+ if (paIntCfgs[iCfg].iInterrupt == iInt)
+ break;
+ if (iCfg == cIntCfgs)
+ break;
+ if (fHwInt)
+ paIntCfgs[iCfg].enmHardState = bHardState;
+ else
+ paIntCfgs[iCfg].enmSoftState = bSoftState;
+ iInt++;
+ cInts--;
+ }
+
+ while (cInts > 0)
+ {
+ Assert(cIntCfgs < 256);
+ paIntCfgs[cIntCfgs].iInterrupt = iInt;
+ paIntCfgs[cIntCfgs].enmHardState = bHardState;
+ paIntCfgs[cIntCfgs].enmSoftState = bSoftState;
+ cIntCfgs++;
+ iInt++;
+ cInts--;
+ }
+
+ return cIntCfgs;
+}
+
+
+/**
+ * Applies event settings changes to DBGC and DBGF.
+ *
+ * @returns VBox status code (fully bitched)
+ * @param pCmdHlp The command helpers.
+ * @param pUVM The user mode VM handle.
+ * @param paIntCfgs Interrupt configuration array. We use the upper 4
+ * bits of the settings for the DBGCEVTSTATE. This
+ * will be cleared.
+ * @param cIntCfgs Number of interrupt configuration changes.
+ * @param paEventCfgs The generic event configuration array. We use the
+ * abUnused[0] member for the DBGCEVTSTATE, and
+ * abUnused[2:1] for the g_aDbgcSxEvents index.
+ * @param cEventCfgs The number of generic event settings changes.
+ * @param pszCmd The commands to associate with the changed events.
+ * If this is NULL, don't touch the command.
+ * @param fChangeCmdOnly Whether to only change the commands (sx-).
+ */
+static int dbgcEventApplyChanges(PDBGCCMDHLP pCmdHlp, PUVM pUVM, PDBGFINTERRUPTCONFIG paIntCfgs, uint32_t cIntCfgs,
+ PCDBGFEVENTCONFIG paEventCfgs, uint32_t cEventCfgs, const char *pszCmd, bool fChangeCmdOnly)
+{
+ int rc;
+
+ /*
+ * Apply changes to DBGC. This can only fail with out of memory error.
+ */
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+ if (cIntCfgs)
+ for (uint32_t iCfg = 0; iCfg < cIntCfgs; iCfg++)
+ {
+ DBGCEVTSTATE enmEvtState = (DBGCEVTSTATE)(paIntCfgs[iCfg].enmHardState >> 4);
+ paIntCfgs[iCfg].enmHardState &= 0xf;
+ if (paIntCfgs[iCfg].enmHardState != DBGFINTERRUPTSTATE_DONT_TOUCH)
+ {
+ rc = dbgcEventUpdate(&pDbgc->apHardInts[paIntCfgs[iCfg].iInterrupt], pszCmd, enmEvtState, fChangeCmdOnly);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+
+ enmEvtState = (DBGCEVTSTATE)(paIntCfgs[iCfg].enmSoftState >> 4);
+ paIntCfgs[iCfg].enmSoftState &= 0xf;
+ if (paIntCfgs[iCfg].enmSoftState != DBGFINTERRUPTSTATE_DONT_TOUCH)
+ {
+ rc = dbgcEventUpdate(&pDbgc->apSoftInts[paIntCfgs[iCfg].iInterrupt], pszCmd, enmEvtState, fChangeCmdOnly);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+ }
+
+ if (cEventCfgs)
+ {
+ for (uint32_t iCfg = 0; iCfg < cEventCfgs; iCfg++)
+ {
+ Assert((unsigned)paEventCfgs[iCfg].enmType < RT_ELEMENTS(pDbgc->apEventCfgs));
+ uint16_t iSxEvt = RT_MAKE_U16(paEventCfgs[iCfg].abUnused[1], paEventCfgs[iCfg].abUnused[2]);
+ Assert(iSxEvt < RT_ELEMENTS(g_aDbgcSxEvents));
+ rc = dbgcEventUpdate(&pDbgc->apEventCfgs[iSxEvt], pszCmd, (DBGCEVTSTATE)paEventCfgs[iCfg].abUnused[0], fChangeCmdOnly);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+ }
+
+ /*
+ * Apply changes to DBGF.
+ */
+ if (!fChangeCmdOnly)
+ {
+ if (cIntCfgs)
+ {
+ rc = DBGFR3InterruptConfigEx(pUVM, paIntCfgs, cIntCfgs);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3InterruptConfigEx: %Rrc\n", rc);
+ }
+ if (cEventCfgs)
+ {
+ rc = DBGFR3EventConfigEx(pUVM, paEventCfgs, cEventCfgs);
+ if (RT_FAILURE(rc))
+ return DBGCCmdHlpVBoxError(pCmdHlp, rc, "DBGFR3EventConfigEx: %Rrc\n", rc);
+ }
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'sx[eni-]' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdEventCtrl(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ /*
+ * Figure out which command this is.
+ */
+ uint8_t bIntOp;
+ DBGCEVTSTATE enmEvtState;
+ bool fChangeCmdOnly;
+ switch (pCmd->pszCmd[2])
+ {
+ case 'e': bIntOp = DBGFINTERRUPTSTATE_ENABLED; enmEvtState = kDbgcEvtState_Enabled; fChangeCmdOnly = false; break;
+ case 'n': bIntOp = DBGFINTERRUPTSTATE_ENABLED; enmEvtState = kDbgcEvtState_Notify; fChangeCmdOnly = false; break;
+ case '-': bIntOp = DBGFINTERRUPTSTATE_ENABLED; enmEvtState = kDbgcEvtState_Invalid; fChangeCmdOnly = true; break;
+ case 'i': bIntOp = DBGFINTERRUPTSTATE_DISABLED; enmEvtState = kDbgcEvtState_Disabled; fChangeCmdOnly = false; break;
+ default:
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "pszCmd=%s\n", pCmd->pszCmd);
+ }
+
+ /*
+ * Command option.
+ */
+ unsigned iArg = 0;
+ const char *pszCmd = NULL;
+ if ( cArgs >= iArg + 2
+ && paArgs[iArg].enmType == DBGCVAR_TYPE_STRING
+ && paArgs[iArg + 1].enmType == DBGCVAR_TYPE_STRING
+ && strcmp(paArgs[iArg].u.pszString, "-c") == 0)
+ {
+ pszCmd = paArgs[iArg + 1].u.pszString;
+ iArg += 2;
+ }
+ if (fChangeCmdOnly && !pszCmd)
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "The 'sx-' requires the '-c cmd' arguments.\n");
+
+ /*
+ * The remaining arguments are event specifiers to which the operation should be applied.
+ */
+ uint32_t cIntCfgs = 0;
+ DBGFINTERRUPTCONFIG aIntCfgs[256];
+ uint32_t cEventCfgs = 0;
+ DBGFEVENTCONFIG aEventCfgs[DBGFEVENT_END];
+
+ for (; iArg < cArgs; iArg++)
+ {
+ DBGC_CMDHLP_ASSERT_PARSER_RET(pCmdHlp, pCmd, iArg, paArgs[iArg].enmType == DBGCVAR_TYPE_STRING
+ || paArgs[iArg].enmType == DBGCVAR_TYPE_SYMBOL);
+ uint32_t cHits = 0;
+ for (uint32_t iEvt = 0; iEvt < RT_ELEMENTS(g_aDbgcSxEvents); iEvt++)
+ if (g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Plain)
+ {
+ if ( RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszName)
+ || ( g_aDbgcSxEvents[iEvt].pszAltNm
+ && RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszAltNm)) )
+ {
+ cEventCfgs = dbgcEventAddPlainConfig(aEventCfgs, cEventCfgs, g_aDbgcSxEvents[iEvt].enmType,
+ enmEvtState, iEvt);
+ cHits++;
+ }
+ }
+ else
+ {
+ Assert(g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Interrupt);
+ uint8_t iInt;
+ uint16_t cInts;
+ if (dbgcEventIsMatchingInt(&paArgs[iArg], g_aDbgcSxEvents[iEvt].pszName, pCmdHlp, &iInt, &cInts))
+ {
+ cIntCfgs = dbgcEventAddIntConfig(aIntCfgs, cIntCfgs, iInt, cInts, g_aDbgcSxEvents[iEvt].pszName,
+ enmEvtState, bIntOp);
+ cHits++;
+ }
+ }
+ if (!cHits)
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "Unknown event: '%s'\n", paArgs[iArg].u.pszString);
+ }
+
+ /*
+ * Apply the changes.
+ */
+ return dbgcEventApplyChanges(pCmdHlp, pUVM, aIntCfgs, cIntCfgs, aEventCfgs, cEventCfgs, pszCmd, fChangeCmdOnly);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'sxr' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdEventCtrlReset(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ RT_NOREF1(pCmd);
+ uint32_t cEventCfgs = 0;
+ DBGFEVENTCONFIG aEventCfgs[DBGFEVENT_END];
+ uint32_t cIntCfgs = 0;
+ DBGFINTERRUPTCONFIG aIntCfgs[256];
+
+ if (cArgs == 0)
+ {
+ /*
+ * All events.
+ */
+ for (uint32_t iInt = 0; iInt < 256; iInt++)
+ {
+ aIntCfgs[iInt].iInterrupt = iInt;
+ aIntCfgs[iInt].enmHardState = DBGFINTERRUPTSTATE_DONT_TOUCH;
+ aIntCfgs[iInt].enmSoftState = DBGFINTERRUPTSTATE_DONT_TOUCH;
+ }
+ cIntCfgs = 256;
+
+ for (uint32_t iEvt = 0; iEvt < RT_ELEMENTS(g_aDbgcSxEvents); iEvt++)
+ if (g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Plain)
+ {
+ aEventCfgs[cEventCfgs].enmType = g_aDbgcSxEvents[iEvt].enmType;
+ aEventCfgs[cEventCfgs].fEnabled = g_aDbgcSxEvents[iEvt].enmDefault > kDbgcEvtState_Disabled;
+ aEventCfgs[cEventCfgs].abUnused[0] = g_aDbgcSxEvents[iEvt].enmDefault;
+ aEventCfgs[cEventCfgs].abUnused[1] = (uint8_t)iEvt;
+ aEventCfgs[cEventCfgs].abUnused[2] = (uint8_t)(iEvt >> 8);
+ cEventCfgs++;
+ }
+ else
+ {
+ uint8_t const bState = ( g_aDbgcSxEvents[iEvt].enmDefault > kDbgcEvtState_Disabled
+ ? DBGFINTERRUPTSTATE_ENABLED : DBGFINTERRUPTSTATE_DISABLED)
+ | ((uint8_t)g_aDbgcSxEvents[iEvt].enmDefault << 4);
+ if (strcmp(g_aDbgcSxEvents[iEvt].pszName, "hwint") == 0)
+ for (uint32_t iInt = 0; iInt < 256; iInt++)
+ aIntCfgs[iInt].enmHardState = bState;
+ else
+ for (uint32_t iInt = 0; iInt < 256; iInt++)
+ aIntCfgs[iInt].enmSoftState = bState;
+ }
+ }
+ else
+ {
+ /*
+ * Selected events.
+ */
+ for (uint32_t iArg = 0; iArg < cArgs; iArg++)
+ {
+ unsigned cHits = 0;
+ for (uint32_t iEvt = 0; iEvt < RT_ELEMENTS(g_aDbgcSxEvents); iEvt++)
+ if (g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Plain)
+ {
+ if ( RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszName)
+ || ( g_aDbgcSxEvents[iEvt].pszAltNm
+ && RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszAltNm)) )
+ {
+ cEventCfgs = dbgcEventAddPlainConfig(aEventCfgs, cEventCfgs, g_aDbgcSxEvents[iEvt].enmType,
+ g_aDbgcSxEvents[iEvt].enmDefault, iEvt);
+ cHits++;
+ }
+ }
+ else
+ {
+ Assert(g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Interrupt);
+ uint8_t iInt;
+ uint16_t cInts;
+ if (dbgcEventIsMatchingInt(&paArgs[iArg], g_aDbgcSxEvents[iEvt].pszName, pCmdHlp, &iInt, &cInts))
+ {
+ cIntCfgs = dbgcEventAddIntConfig(aIntCfgs, cIntCfgs, iInt, cInts, g_aDbgcSxEvents[iEvt].pszName,
+ g_aDbgcSxEvents[iEvt].enmDefault,
+ g_aDbgcSxEvents[iEvt].enmDefault > kDbgcEvtState_Disabled
+ ? DBGFINTERRUPTSTATE_ENABLED : DBGFINTERRUPTSTATE_DISABLED);
+ cHits++;
+ }
+ }
+ if (!cHits)
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "Unknown event: '%s'\n", paArgs[iArg].u.pszString);
+ }
+ }
+
+ /*
+ * Apply the reset changes.
+ */
+ return dbgcEventApplyChanges(pCmdHlp, pUVM, aIntCfgs, cIntCfgs, aEventCfgs, cEventCfgs, "", false);
+}
+
+
+/**
+ * Used during DBGC initialization to configure events with defaults.
+ *
+ * @returns VBox status code.
+ * @param pDbgc The DBGC instance.
+ */
+void dbgcEventInit(PDBGC pDbgc)
+{
+ if (pDbgc->pUVM)
+ dbgcCmdEventCtrlReset(NULL, &pDbgc->CmdHlp, pDbgc->pUVM, NULL, 0);
+}
+
+
+/**
+ * Used during DBGC termination to disable all events.
+ *
+ * @param pDbgc The DBGC instance.
+ */
+void dbgcEventTerm(PDBGC pDbgc)
+{
+/** @todo need to do more than just reset later. */
+ if (pDbgc->pUVM && VMR3GetStateU(pDbgc->pUVM) < VMSTATE_DESTROYING)
+ dbgcCmdEventCtrlReset(NULL, &pDbgc->CmdHlp, pDbgc->pUVM, NULL, 0);
+}
+
+
+static void dbgcEventDisplay(PDBGCCMDHLP pCmdHlp, const char *pszName, DBGCEVTSTATE enmDefault, PDBGCEVTCFG const *ppEvtCfg)
+{
+ RT_NOREF1(enmDefault);
+ PDBGCEVTCFG pEvtCfg = *ppEvtCfg;
+
+ const char *pszState;
+ switch (pEvtCfg ? pEvtCfg->enmState : kDbgcEvtState_Disabled)
+ {
+ case kDbgcEvtState_Disabled: pszState = "ignore"; break;
+ case kDbgcEvtState_Enabled: pszState = "enabled"; break;
+ case kDbgcEvtState_Notify: pszState = "notify"; break;
+ default:
+ AssertFailed();
+ pszState = "invalid";
+ break;
+ }
+
+ if (pEvtCfg && pEvtCfg->cchCmd > 0)
+ DBGCCmdHlpPrintf(pCmdHlp, "%-22s %-7s \"%s\"\n", pszName, pszState, pEvtCfg->szCmd);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "%-22s %s\n", pszName, pszState);
+}
+
+
+static void dbgcEventDisplayRange(PDBGCCMDHLP pCmdHlp, const char *pszBaseNm, DBGCEVTSTATE enmDefault,
+ PDBGCEVTCFG const *papEvtCfgs, unsigned iCfg, unsigned cCfgs)
+{
+ do
+ {
+ PCDBGCEVTCFG pFirstCfg = papEvtCfgs[iCfg];
+ if (pFirstCfg && pFirstCfg->enmState == kDbgcEvtState_Disabled && pFirstCfg->cchCmd == 0)
+ pFirstCfg = NULL;
+
+ unsigned const iFirstCfg = iCfg;
+ iCfg++;
+ while (iCfg < cCfgs)
+ {
+ PCDBGCEVTCFG pCurCfg = papEvtCfgs[iCfg];
+ if (pCurCfg && pCurCfg->enmState == kDbgcEvtState_Disabled && pCurCfg->cchCmd == 0)
+ pCurCfg = NULL;
+ if (pCurCfg != pFirstCfg)
+ {
+ if (!pCurCfg || !pFirstCfg)
+ break;
+ if (pCurCfg->enmState != pFirstCfg->enmState)
+ break;
+ if (pCurCfg->cchCmd != pFirstCfg->cchCmd)
+ break;
+ if (memcmp(pCurCfg->szCmd, pFirstCfg->szCmd, pFirstCfg->cchCmd) != 0)
+ break;
+ }
+ iCfg++;
+ }
+
+ char szName[16];
+ unsigned cEntries = iCfg - iFirstCfg;
+ if (cEntries == 1)
+ RTStrPrintf(szName, sizeof(szName), "%s%02x", pszBaseNm, iFirstCfg);
+ else
+ RTStrPrintf(szName, sizeof(szName), "%s%02x L %#x", pszBaseNm, iFirstCfg, cEntries);
+ dbgcEventDisplay(pCmdHlp, szName, enmDefault, &papEvtCfgs[iFirstCfg]);
+
+ cCfgs -= cEntries;
+ } while (cCfgs > 0);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'sx' commands.}
+ */
+static DECLCALLBACK(int) dbgcCmdEventCtrlList(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ RT_NOREF2(pCmd, pUVM);
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ if (cArgs == 0)
+ {
+ /*
+ * All events.
+ */
+ for (uint32_t iEvt = 0; iEvt < RT_ELEMENTS(g_aDbgcSxEvents); iEvt++)
+ if (g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Plain)
+ dbgcEventDisplay(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ &pDbgc->apEventCfgs[iEvt]);
+ else if (strcmp(g_aDbgcSxEvents[iEvt].pszName, "hwint") == 0)
+ dbgcEventDisplayRange(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ pDbgc->apHardInts, 0, 256);
+ else
+ dbgcEventDisplayRange(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ pDbgc->apSoftInts, 0, 256);
+ }
+ else
+ {
+ /*
+ * Selected events.
+ */
+ for (uint32_t iArg = 0; iArg < cArgs; iArg++)
+ {
+ unsigned cHits = 0;
+ for (uint32_t iEvt = 0; iEvt < RT_ELEMENTS(g_aDbgcSxEvents); iEvt++)
+ if (g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Plain)
+ {
+ if ( RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszName)
+ || ( g_aDbgcSxEvents[iEvt].pszAltNm
+ && RTStrSimplePatternMatch(paArgs[iArg].u.pszString, g_aDbgcSxEvents[iEvt].pszAltNm)) )
+ {
+ dbgcEventDisplay(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ &pDbgc->apEventCfgs[iEvt]);
+ cHits++;
+ }
+ }
+ else
+ {
+ Assert(g_aDbgcSxEvents[iEvt].enmKind == kDbgcSxEventKind_Interrupt);
+ uint8_t iInt;
+ uint16_t cInts;
+ if (dbgcEventIsMatchingInt(&paArgs[iArg], g_aDbgcSxEvents[iEvt].pszName, pCmdHlp, &iInt, &cInts))
+ {
+ if (strcmp(g_aDbgcSxEvents[iEvt].pszName, "hwint") == 0)
+ dbgcEventDisplayRange(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ pDbgc->apHardInts, iInt, cInts);
+ else
+ dbgcEventDisplayRange(pCmdHlp, g_aDbgcSxEvents[iEvt].pszName, g_aDbgcSxEvents[iEvt].enmDefault,
+ pDbgc->apSoftInts, iInt, cInts);
+ cHits++;
+ }
+ }
+ if (cHits == 0)
+ return DBGCCmdHlpVBoxError(pCmdHlp, VERR_INVALID_PARAMETER, "Unknown event: '%s'\n", paArgs[iArg].u.pszString);
+ }
+ }
+
+ return VINF_SUCCESS;
+}
+
+
+
+/**
+ * List near symbol.
+ *
+ * @returns VBox status code.
+ * @param pCmdHlp Pointer to command helper functions.
+ * @param pUVM The user mode VM handle.
+ * @param pArg Pointer to the address or symbol to lookup.
+ */
+static int dbgcDoListNear(PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR pArg)
+{
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ RTDBGSYMBOL Symbol;
+ int rc;
+ if (pArg->enmType == DBGCVAR_TYPE_SYMBOL)
+ {
+ /*
+ * Lookup the symbol address.
+ */
+ rc = DBGFR3AsSymbolByName(pUVM, pDbgc->hDbgAs, pArg->u.pszString, &Symbol, NULL);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "DBGFR3AsSymbolByName(,,%s,)\n", pArg->u.pszString);
+
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%RTptr %s\n", Symbol.Value, Symbol.szName);
+ }
+ else
+ {
+ /*
+ * Convert it to a flat GC address and lookup that address.
+ */
+ DBGCVAR AddrVar;
+ rc = DBGCCmdHlpEval(pCmdHlp, &AddrVar, "%%(%DV)", pArg);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "%%(%DV)\n", pArg);
+
+ RTINTPTR offDisp;
+ DBGFADDRESS Addr;
+ rc = DBGFR3AsSymbolByAddr(pUVM, pDbgc->hDbgAs, DBGFR3AddrFromFlat(pDbgc->pUVM, &Addr, AddrVar.u.GCFlat),
+ RTDBGSYMADDR_FLAGS_LESS_OR_EQUAL | RTDBGSYMADDR_FLAGS_SKIP_ABS_IN_DEFERRED,
+ &offDisp, &Symbol, NULL);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "DBGFR3AsSymbolByAddr(,,%RGv,,)\n", AddrVar.u.GCFlat);
+
+ if (!offDisp)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%DV %s", &AddrVar, Symbol.szName);
+ else if (offDisp > 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%DV %s + %RGv", &AddrVar, Symbol.szName, offDisp);
+ else
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "%DV %s - %RGv", &AddrVar, Symbol.szName, -offDisp);
+ if (Symbol.cb > 0)
+ rc = DBGCCmdHlpPrintf(pCmdHlp, " (LB %RGv)\n", Symbol.cb);
+ else
+ rc = DBGCCmdHlpPrintf(pCmdHlp, "\n");
+ }
+
+ return rc;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'ln' (listnear) command.}
+ */
+static DECLCALLBACK(int) dbgcCmdListNear(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ if (!cArgs)
+ {
+ /*
+ * Current cs:eip symbol.
+ */
+ DBGCVAR AddrVar;
+ const char *pszFmtExpr = "%%(cs:eip)";
+ int rc = DBGCCmdHlpEval(pCmdHlp, &AddrVar, pszFmtExpr);
+ if (RT_FAILURE(rc))
+ return pCmdHlp->pfnVBoxError(pCmdHlp, rc, "%s\n", pszFmtExpr + 1);
+ return dbgcDoListNear(pCmdHlp, pUVM, &AddrVar);
+ }
+
+/** @todo Fix the darn parser, it's resolving symbols specified as arguments before we get in here. */
+ /*
+ * Iterate arguments.
+ */
+ for (unsigned iArg = 0; iArg < cArgs; iArg++)
+ {
+ int rc = dbgcDoListNear(pCmdHlp, pUVM, &paArgs[iArg]);
+ if (RT_FAILURE(rc))
+ return rc;
+ }
+
+ NOREF(pCmd);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * Matches the module patters against a module name.
+ *
+ * @returns true if matching, otherwise false.
+ * @param pszName The module name.
+ * @param paArgs The module pattern argument list.
+ * @param cArgs Number of arguments.
+ */
+static bool dbgcCmdListModuleMatch(const char *pszName, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ for (uint32_t i = 0; i < cArgs; i++)
+ if (RTStrSimplePatternMatch(paArgs[i].u.pszString, pszName))
+ return true;
+ return false;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'ln' (list near) command.}
+ */
+static DECLCALLBACK(int) dbgcCmdListModules(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ bool const fMappings = pCmd->pszCmd[2] == 'o';
+ bool const fVerbose = pCmd->pszCmd[strlen(pCmd->pszCmd) - 1] == 'v';
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Iterate the modules in the current address space and print info about
+ * those matching the input.
+ */
+ RTDBGAS hAsCurAlias = pDbgc->hDbgAs;
+ for (uint32_t iAs = 0;; iAs++)
+ {
+ RTDBGAS hAs = DBGFR3AsResolveAndRetain(pUVM, hAsCurAlias);
+ uint32_t cMods = RTDbgAsModuleCount(hAs);
+ for (uint32_t iMod = 0; iMod < cMods; iMod++)
+ {
+ RTDBGMOD hMod = RTDbgAsModuleByIndex(hAs, iMod);
+ if (hMod != NIL_RTDBGMOD)
+ {
+ bool const fDeferred = RTDbgModIsDeferred(hMod);
+ bool const fExports = RTDbgModIsExports(hMod);
+ uint32_t const cSegs = fDeferred ? 1 : RTDbgModSegmentCount(hMod);
+ const char * const pszName = RTDbgModName(hMod);
+ const char * const pszImgFile = RTDbgModImageFile(hMod);
+ const char * const pszImgFileUsed = RTDbgModImageFileUsed(hMod);
+ const char * const pszDbgFile = RTDbgModDebugFile(hMod);
+ if ( cArgs == 0
+ || dbgcCmdListModuleMatch(pszName, paArgs, cArgs))
+ {
+ /*
+ * Find the mapping with the lower address, preferring a full
+ * image mapping, for the main line.
+ */
+ RTDBGASMAPINFO aMappings[128];
+ uint32_t cMappings = RT_ELEMENTS(aMappings);
+ int rc = RTDbgAsModuleQueryMapByIndex(hAs, iMod, &aMappings[0], &cMappings, 0 /*fFlags*/);
+ if (RT_SUCCESS(rc))
+ {
+ bool fFull = false;
+ RTUINTPTR uMin = RTUINTPTR_MAX;
+ for (uint32_t iMap = 0; iMap < cMappings; iMap++)
+ if ( aMappings[iMap].Address < uMin
+ && ( !fFull
+ || aMappings[iMap].iSeg == NIL_RTDBGSEGIDX))
+ uMin = aMappings[iMap].Address;
+ if (!fVerbose || !pszImgFile)
+ DBGCCmdHlpPrintf(pCmdHlp, "%RGv %04x %s%s\n", (RTGCUINTPTR)uMin, cSegs, pszName,
+ fExports ? " (exports)" : fDeferred ? " (deferred)" : "");
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "%RGv %04x %-12s %s%s\n", (RTGCUINTPTR)uMin, cSegs, pszName, pszImgFile,
+ fExports ? " (exports)" : fDeferred ? " (deferred)" : "");
+ if (fVerbose && pszImgFileUsed)
+ DBGCCmdHlpPrintf(pCmdHlp, " Local image: %s\n", pszImgFileUsed);
+ if (fVerbose && pszDbgFile)
+ DBGCCmdHlpPrintf(pCmdHlp, " Debug file: %s\n", pszDbgFile);
+ if (fVerbose)
+ {
+ char szTmp[64];
+ RTTIMESPEC TimeSpec;
+ int64_t secTs = 0;
+ if (RT_SUCCESS(RTDbgModImageQueryProp(hMod, RTLDRPROP_TIMESTAMP_SECONDS, &secTs, sizeof(secTs), NULL)))
+ DBGCCmdHlpPrintf(pCmdHlp, " Timestamp: %08RX64 %s\n", secTs,
+ RTTimeSpecToString(RTTimeSpecSetSeconds(&TimeSpec, secTs), szTmp, sizeof(szTmp)));
+ RTUUID Uuid;
+ if (RT_SUCCESS(RTDbgModImageQueryProp(hMod, RTLDRPROP_UUID, &Uuid, sizeof(Uuid), NULL)))
+ DBGCCmdHlpPrintf(pCmdHlp, " UUID: %RTuuid\n", &Uuid);
+ }
+
+ if (fMappings)
+ {
+ /* sort by address first - not very efficient. */
+ for (uint32_t i = 0; i + 1 < cMappings; i++)
+ for (uint32_t j = i + 1; j < cMappings; j++)
+ if (aMappings[j].Address < aMappings[i].Address)
+ {
+ RTDBGASMAPINFO Tmp = aMappings[j];
+ aMappings[j] = aMappings[i];
+ aMappings[i] = Tmp;
+ }
+
+ /* print */
+ if ( cMappings == 1
+ && aMappings[0].iSeg == NIL_RTDBGSEGIDX
+ && !fDeferred)
+ {
+ for (uint32_t iSeg = 0; iSeg < cSegs; iSeg++)
+ {
+ RTDBGSEGMENT SegInfo;
+ rc = RTDbgModSegmentByIndex(hMod, iSeg, &SegInfo);
+ if (RT_SUCCESS(rc))
+ {
+ if (SegInfo.uRva != RTUINTPTR_MAX)
+ DBGCCmdHlpPrintf(pCmdHlp, " %RGv %RGv #%02x %s\n",
+ (RTGCUINTPTR)(aMappings[0].Address + SegInfo.uRva),
+ (RTGCUINTPTR)SegInfo.cb, iSeg, SegInfo.szName);
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, " %*s %RGv #%02x %s\n",
+ sizeof(RTGCUINTPTR)*2, "noload",
+ (RTGCUINTPTR)SegInfo.cb, iSeg, SegInfo.szName);
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, " Error query segment #%u: %Rrc\n", iSeg, rc);
+ }
+ }
+ else
+ {
+ for (uint32_t iMap = 0; iMap < cMappings; iMap++)
+ if (aMappings[iMap].iSeg == NIL_RTDBGSEGIDX)
+ DBGCCmdHlpPrintf(pCmdHlp, " %RGv %RGv <everything>\n",
+ (RTGCUINTPTR)aMappings[iMap].Address,
+ (RTGCUINTPTR)RTDbgModImageSize(hMod));
+ else if (!fDeferred)
+ {
+ RTDBGSEGMENT SegInfo;
+ rc = RTDbgModSegmentByIndex(hMod, aMappings[iMap].iSeg, &SegInfo);
+ if (RT_FAILURE(rc))
+ {
+ RT_ZERO(SegInfo);
+ strcpy(SegInfo.szName, "error");
+ }
+ DBGCCmdHlpPrintf(pCmdHlp, " %RGv %RGv #%02x %s\n",
+ (RTGCUINTPTR)aMappings[iMap].Address,
+ (RTGCUINTPTR)SegInfo.cb,
+ aMappings[iMap].iSeg, SegInfo.szName);
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, " %RGv #%02x\n",
+ (RTGCUINTPTR)aMappings[iMap].Address, aMappings[iMap].iSeg);
+ }
+ }
+ }
+ else
+ DBGCCmdHlpPrintf(pCmdHlp, "%.*s %04x %s (rc=%Rrc)\n",
+ sizeof(RTGCPTR) * 2, "???????????", cSegs, pszName, rc);
+ /** @todo missing address space API for enumerating the mappings. */
+ }
+ RTDbgModRelease(hMod);
+ }
+ }
+ RTDbgAsRelease(hAs);
+
+ /* For DBGF_AS_RC_AND_GC_GLOBAL we're required to do more work. */
+ if (hAsCurAlias != DBGF_AS_RC_AND_GC_GLOBAL)
+ break;
+ AssertBreak(iAs == 0);
+ hAsCurAlias = DBGF_AS_GLOBAL;
+ }
+
+ NOREF(pCmd);
+ return VINF_SUCCESS;
+}
+
+
+
+/**
+ * @callback_method_impl{FNDBGCCMD, The 'x' (examine symbols) command.}
+ */
+static DECLCALLBACK(int) dbgcCmdListSymbols(PCDBGCCMD pCmd, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, unsigned cArgs)
+{
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmType == DBGCVAR_TYPE_STRING, VERR_DBGC_PARSE_BUG);
+
+ PDBGC pDbgc = DBGC_CMDHLP2DBGC(pCmdHlp);
+
+ /*
+ * Allowed is either a single * to match everything or the Module!Symbol style
+ * which requiresa ! to separate module and symbol.
+ */
+ bool fDumpAll = strcmp(paArgs[0].u.pszString, "*") == 0;
+ const char *pszModule = NULL;
+ size_t cchModule = 0;
+ const char *pszSymbol = NULL;
+ if (!fDumpAll)
+ {
+ const char *pszDelimiter = strchr(paArgs[0].u.pszString, '!');
+ if (!pszDelimiter)
+ return DBGCCmdHlpFail(pCmdHlp, pCmd, "Invalid search string '%s' for '%s'. Valid are either '*' or the form <Module>!<Symbol> where the <Module> and <Symbol> can contain wildcards",
+ paArgs[0].u.pszString, pCmd->pszCmd);
+
+ pszModule = paArgs[0].u.pszString;
+ cchModule = pszDelimiter - pszModule;
+ pszSymbol = pszDelimiter + 1;
+ }
+
+ /*
+ * Iterate the modules in the current address space and print info about
+ * those matching the input.
+ */
+ RTDBGAS hAsCurAlias = pDbgc->hDbgAs;
+ for (uint32_t iAs = 0;; iAs++)
+ {
+ RTDBGAS hAs = DBGFR3AsResolveAndRetain(pUVM, hAsCurAlias);
+ uint32_t cMods = RTDbgAsModuleCount(hAs);
+ for (uint32_t iMod = 0; iMod < cMods; iMod++)
+ {
+ RTDBGMOD hMod = RTDbgAsModuleByIndex(hAs, iMod);
+ if (hMod != NIL_RTDBGMOD)
+ {
+ const char *pszModName = RTDbgModName(hMod);
+ if ( fDumpAll
+ || RTStrSimplePatternNMatch(pszModule, cchModule, pszModName, strlen(pszModName)))
+ {
+ RTDBGASMAPINFO aMappings[128];
+ uint32_t cMappings = RT_ELEMENTS(aMappings);
+ RTUINTPTR uMapping = 0;
+
+ /* Get the minimum mapping address of the module so we can print absolute values for the symbol later on. */
+ int rc = RTDbgAsModuleQueryMapByIndex(hAs, iMod, &aMappings[0], &cMappings, 0 /*fFlags*/);
+ if (RT_SUCCESS(rc))
+ {
+ uMapping = RTUINTPTR_MAX;
+ for (uint32_t iMap = 0; iMap < cMappings; iMap++)
+ if (aMappings[iMap].Address < uMapping)
+ uMapping = aMappings[iMap].Address;
+ }
+
+ /* Go through the symbols and print any matches. */
+ uint32_t cSyms = RTDbgModSymbolCount(hMod);
+ for (uint32_t iSym = 0; iSym < cSyms; iSym++)
+ {
+ RTDBGSYMBOL SymInfo;
+ rc = RTDbgModSymbolByOrdinal(hMod, iSym, &SymInfo);
+ if ( RT_SUCCESS(rc)
+ && ( fDumpAll
+ || RTStrSimplePatternMatch(pszSymbol, &SymInfo.szName[0])))
+ DBGCCmdHlpPrintf(pCmdHlp, "%RGv %s!%s\n", uMapping + (RTGCUINTPTR)SymInfo.Value, pszModName, &SymInfo.szName[0]);
+ }
+ }
+ RTDbgModRelease(hMod);
+ }
+ }
+ RTDbgAsRelease(hAs);
+
+ /* For DBGF_AS_RC_AND_GC_GLOBAL we're required to do more work. */
+ if (hAsCurAlias != DBGF_AS_RC_AND_GC_GLOBAL)
+ break;
+ AssertBreak(iAs == 0);
+ hAsCurAlias = DBGF_AS_GLOBAL;
+ }
+
+ RT_NOREF(pCmd);
+ return VINF_SUCCESS;
+}
+
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, Reads a unsigned 8-bit value.}
+ */
+static DECLCALLBACK(int) dbgcFuncReadU8(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ RT_NOREF1(pUVM);
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(DBGCVAR_ISPOINTER(paArgs[0].enmType), VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmRangeType == DBGCVAR_RANGE_NONE, VERR_DBGC_PARSE_BUG);
+
+ uint8_t b;
+ int rc = DBGCCmdHlpMemRead(pCmdHlp, &b, sizeof(b), &paArgs[0], NULL);
+ if (RT_FAILURE(rc))
+ return rc;
+ DBGCVAR_INIT_NUMBER(pResult, b);
+
+ NOREF(pFunc);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, Reads a unsigned 16-bit value.}
+ */
+static DECLCALLBACK(int) dbgcFuncReadU16(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ RT_NOREF1(pUVM);
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(DBGCVAR_ISPOINTER(paArgs[0].enmType), VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmRangeType == DBGCVAR_RANGE_NONE, VERR_DBGC_PARSE_BUG);
+
+ uint16_t u16;
+ int rc = DBGCCmdHlpMemRead(pCmdHlp, &u16, sizeof(u16), &paArgs[0], NULL);
+ if (RT_FAILURE(rc))
+ return rc;
+ DBGCVAR_INIT_NUMBER(pResult, u16);
+
+ NOREF(pFunc);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, Reads a unsigned 32-bit value.}
+ */
+static DECLCALLBACK(int) dbgcFuncReadU32(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ RT_NOREF1(pUVM);
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(DBGCVAR_ISPOINTER(paArgs[0].enmType), VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmRangeType == DBGCVAR_RANGE_NONE, VERR_DBGC_PARSE_BUG);
+
+ uint32_t u32;
+ int rc = DBGCCmdHlpMemRead(pCmdHlp, &u32, sizeof(u32), &paArgs[0], NULL);
+ if (RT_FAILURE(rc))
+ return rc;
+ DBGCVAR_INIT_NUMBER(pResult, u32);
+
+ NOREF(pFunc);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, Reads a unsigned 64-bit value.}
+ */
+static DECLCALLBACK(int) dbgcFuncReadU64(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ RT_NOREF1(pUVM);
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(DBGCVAR_ISPOINTER(paArgs[0].enmType), VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmRangeType == DBGCVAR_RANGE_NONE, VERR_DBGC_PARSE_BUG);
+
+ uint64_t u64;
+ int rc = DBGCCmdHlpMemRead(pCmdHlp, &u64, sizeof(u64), &paArgs[0], NULL);
+ if (RT_FAILURE(rc))
+ return rc;
+ DBGCVAR_INIT_NUMBER(pResult, u64);
+
+ NOREF(pFunc);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, Reads a unsigned pointer-sized value.}
+ */
+static DECLCALLBACK(int) dbgcFuncReadPtr(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ AssertReturn(DBGCVAR_ISPOINTER(paArgs[0].enmType), VERR_DBGC_PARSE_BUG);
+ AssertReturn(paArgs[0].enmRangeType == DBGCVAR_RANGE_NONE, VERR_DBGC_PARSE_BUG);
+
+ CPUMMODE enmMode = DBGCCmdHlpGetCpuMode(pCmdHlp);
+ if (enmMode == CPUMMODE_LONG)
+ return dbgcFuncReadU64(pFunc, pCmdHlp, pUVM, paArgs, cArgs, pResult);
+ return dbgcFuncReadU32(pFunc, pCmdHlp, pUVM, paArgs, cArgs, pResult);
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, The hi(value) function implementation.}
+ */
+static DECLCALLBACK(int) dbgcFuncHi(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+
+ uint16_t uHi;
+ switch (paArgs[0].enmType)
+ {
+ case DBGCVAR_TYPE_GC_FLAT: uHi = (uint16_t)(paArgs[0].u.GCFlat >> 16); break;
+ case DBGCVAR_TYPE_GC_FAR: uHi = (uint16_t)paArgs[0].u.GCFar.sel; break;
+ case DBGCVAR_TYPE_GC_PHYS: uHi = (uint16_t)(paArgs[0].u.GCPhys >> 16); break;
+ case DBGCVAR_TYPE_HC_FLAT: uHi = (uint16_t)((uintptr_t)paArgs[0].u.pvHCFlat >> 16); break;
+ case DBGCVAR_TYPE_HC_PHYS: uHi = (uint16_t)(paArgs[0].u.HCPhys >> 16); break;
+ case DBGCVAR_TYPE_NUMBER: uHi = (uint16_t)(paArgs[0].u.u64Number >> 16); break;
+ default:
+ AssertFailedReturn(VERR_DBGC_PARSE_BUG);
+ }
+ DBGCVAR_INIT_NUMBER(pResult, uHi);
+ DBGCVAR_SET_RANGE(pResult, paArgs[0].enmRangeType, paArgs[0].u64Range);
+
+ NOREF(pFunc); NOREF(pCmdHlp); NOREF(pUVM);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC, The low(value) function implementation.}
+ */
+static DECLCALLBACK(int) dbgcFuncLow(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+
+ uint16_t uLow;
+ switch (paArgs[0].enmType)
+ {
+ case DBGCVAR_TYPE_GC_FLAT: uLow = (uint16_t)paArgs[0].u.GCFlat; break;
+ case DBGCVAR_TYPE_GC_FAR: uLow = (uint16_t)paArgs[0].u.GCFar.off; break;
+ case DBGCVAR_TYPE_GC_PHYS: uLow = (uint16_t)paArgs[0].u.GCPhys; break;
+ case DBGCVAR_TYPE_HC_FLAT: uLow = (uint16_t)(uintptr_t)paArgs[0].u.pvHCFlat; break;
+ case DBGCVAR_TYPE_HC_PHYS: uLow = (uint16_t)paArgs[0].u.HCPhys; break;
+ case DBGCVAR_TYPE_NUMBER: uLow = (uint16_t)paArgs[0].u.u64Number; break;
+ default:
+ AssertFailedReturn(VERR_DBGC_PARSE_BUG);
+ }
+ DBGCVAR_INIT_NUMBER(pResult, uLow);
+ DBGCVAR_SET_RANGE(pResult, paArgs[0].enmRangeType, paArgs[0].u64Range);
+
+ NOREF(pFunc); NOREF(pCmdHlp); NOREF(pUVM);
+ return VINF_SUCCESS;
+}
+
+
+/**
+ * @callback_method_impl{FNDBGCFUNC,The low(value) function implementation.}
+ */
+static DECLCALLBACK(int) dbgcFuncNot(PCDBGCFUNC pFunc, PDBGCCMDHLP pCmdHlp, PUVM pUVM, PCDBGCVAR paArgs, uint32_t cArgs,
+ PDBGCVAR pResult)
+{
+ AssertReturn(cArgs == 1, VERR_DBGC_PARSE_BUG);
+ NOREF(pFunc); NOREF(pCmdHlp); NOREF(pUVM);
+ return DBGCCmdHlpEval(pCmdHlp, pResult, "!(%Dv)", &paArgs[0]);
+}
+
+
+/** Generic pointer argument wo/ range. */
+static const DBGCVARDESC g_aArgPointerWoRange[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER_NO_RANGE, 0, "value", "Address or number." },
+};
+
+/** Generic pointer or number argument. */
+static const DBGCVARDESC g_aArgPointerNumber[] =
+{
+ /* cTimesMin, cTimesMax, enmCategory, fFlags, pszName, pszDescription */
+ { 1, 1, DBGCVAR_CAT_POINTER_NUMBER, 0, "value", "Address or number." },
+};
+
+
+
+/** Function descriptors for the CodeView / WinDbg emulation.
+ * The emulation isn't attempting to be identical, only somewhat similar.
+ */
+const DBGCFUNC g_aFuncsCodeView[] =
+{
+ { "by", 1, 1, &g_aArgPointerWoRange[0], RT_ELEMENTS(g_aArgPointerWoRange), 0, dbgcFuncReadU8, "address", "Reads a byte at the given address." },
+ { "dwo", 1, 1, &g_aArgPointerWoRange[0], RT_ELEMENTS(g_aArgPointerWoRange), 0, dbgcFuncReadU32, "address", "Reads a 32-bit value at the given address." },
+ { "hi", 1, 1, &g_aArgPointerNumber[0], RT_ELEMENTS(g_aArgPointerNumber), 0, dbgcFuncHi, "value", "Returns the high 16-bit bits of a value." },
+ { "low", 1, 1, &g_aArgPointerNumber[0], RT_ELEMENTS(g_aArgPointerNumber), 0, dbgcFuncLow, "value", "Returns the low 16-bit bits of a value." },
+ { "not", 1, 1, &g_aArgPointerNumber[0], RT_ELEMENTS(g_aArgPointerNumber), 0, dbgcFuncNot, "address", "Boolean NOT." },
+ { "poi", 1, 1, &g_aArgPointerWoRange[0], RT_ELEMENTS(g_aArgPointerWoRange), 0, dbgcFuncReadPtr, "address", "Reads a pointer sized (CS) value at the given address." },
+ { "qwo", 1, 1, &g_aArgPointerWoRange[0], RT_ELEMENTS(g_aArgPointerWoRange), 0, dbgcFuncReadU64, "address", "Reads a 32-bit value at the given address." },
+ { "wo", 1, 1, &g_aArgPointerWoRange[0], RT_ELEMENTS(g_aArgPointerWoRange), 0, dbgcFuncReadU16, "address", "Reads a 16-bit value at the given address." },
+};
+
+/** The number of functions in the CodeView/WinDbg emulation. */
+const uint32_t g_cFuncsCodeView = RT_ELEMENTS(g_aFuncsCodeView);
+