VirtualBox

source: vbox/trunk/src/VBox/VMM/VMMRZ/DBGFRZ.cpp@ 77922

Last change on this file since 77922 was 76553, checked in by vboxsync, 6 years ago

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1/* $Id: DBGFRZ.cpp 76553 2019-01-01 01:45:53Z vboxsync $ */
2/** @file
3 * DBGF - Debugger Facility, RZ part.
4 */
5
6/*
7 * Copyright (C) 2006-2019 Oracle Corporation
8 *
9 * This file is part of VirtualBox Open Source Edition (OSE), as
10 * available from http://www.virtualbox.org. This file is free software;
11 * you can redistribute it and/or modify it under the terms of the GNU
12 * General Public License (GPL) as published by the Free Software
13 * Foundation, in version 2 as it comes in the "COPYING" file of the
14 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
15 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
16 */
17
18
19/*********************************************************************************************************************************
20* Header Files *
21*********************************************************************************************************************************/
22#define LOG_GROUP LOG_GROUP_DBGF
23#include <VBox/vmm/dbgf.h>
24#include <VBox/vmm/selm.h>
25#ifdef IN_RC
26# include <VBox/vmm/trpm.h>
27#endif
28#include <VBox/log.h>
29#include "DBGFInternal.h"
30#include <VBox/vmm/vm.h>
31#include <VBox/err.h>
32#include <iprt/assert.h>
33
34#ifdef IN_RC
35DECLASM(void) TRPMRCHandlerAsmTrap03(void);
36#endif
37
38
39/**
40 * \#DB (Debug event) handler.
41 *
42 * @returns VBox status code.
43 * VINF_SUCCESS means we completely handled this trap,
44 * other codes are passed execution to host context.
45 *
46 * @param pVM The cross context VM structure.
47 * @param pVCpu The cross context virtual CPU structure.
48 * @param pRegFrame Pointer to the register frame for the trap.
49 * @param uDr6 The DR6 hypervisor register value.
50 * @param fAltStepping Alternative stepping indicator.
51 */
52VMMRZ_INT_DECL(int) DBGFRZTrap01Handler(PVM pVM, PVMCPU pVCpu, PCPUMCTXCORE pRegFrame, RTGCUINTREG uDr6, bool fAltStepping)
53{
54#ifdef IN_RC
55 const bool fInHyper = !(pRegFrame->ss.Sel & X86_SEL_RPL) && !pRegFrame->eflags.Bits.u1VM;
56#else
57 NOREF(pRegFrame);
58 const bool fInHyper = false;
59#endif
60
61 /** @todo Intel docs say that X86_DR6_BS has the highest priority... */
62 /*
63 * A breakpoint?
64 */
65 AssertCompile(X86_DR6_B0 == 1 && X86_DR6_B1 == 2 && X86_DR6_B2 == 4 && X86_DR6_B3 == 8);
66 if ( (uDr6 & (X86_DR6_B0 | X86_DR6_B1 | X86_DR6_B2 | X86_DR6_B3))
67 && pVM->dbgf.s.cEnabledHwBreakpoints > 0)
68 {
69 for (unsigned iBp = 0; iBp < RT_ELEMENTS(pVM->dbgf.s.aHwBreakpoints); iBp++)
70 {
71 if ( ((uint32_t)uDr6 & RT_BIT_32(iBp))
72 && pVM->dbgf.s.aHwBreakpoints[iBp].enmType == DBGFBPTYPE_REG)
73 {
74 pVCpu->dbgf.s.iActiveBp = pVM->dbgf.s.aHwBreakpoints[iBp].iBp;
75 pVCpu->dbgf.s.fSingleSteppingRaw = false;
76 LogFlow(("DBGFRZTrap03Handler: hit hw breakpoint %d at %04x:%RGv\n",
77 pVM->dbgf.s.aHwBreakpoints[iBp].iBp, pRegFrame->cs.Sel, pRegFrame->rip));
78
79 return fInHyper ? VINF_EM_DBG_HYPER_BREAKPOINT : VINF_EM_DBG_BREAKPOINT;
80 }
81 }
82 }
83
84 /*
85 * Single step?
86 * Are we single stepping or is it the guest?
87 */
88 if ( (uDr6 & X86_DR6_BS)
89 && (fInHyper || pVCpu->dbgf.s.fSingleSteppingRaw || fAltStepping))
90 {
91 pVCpu->dbgf.s.fSingleSteppingRaw = false;
92 LogFlow(("DBGFRZTrap01Handler: single step at %04x:%RGv\n", pRegFrame->cs.Sel, pRegFrame->rip));
93 return fInHyper ? VINF_EM_DBG_HYPER_STEPPED : VINF_EM_DBG_STEPPED;
94 }
95
96#ifdef IN_RC
97 /*
98 * Either an ICEBP in hypervisor code or a guest related debug exception
99 * of sorts.
100 */
101 if (RT_UNLIKELY(fInHyper))
102 {
103 /*
104 * Is this a guest debug event that was delayed past a ring transition?
105 *
106 * Since we do no allow sysenter/syscall in raw-mode, the only
107 * non-trap/fault type transitions that can occur are thru interrupt gates.
108 * Of those, only INT3 (#BP) has a DPL other than 0 with a CS.RPL of 0.
109 * See bugref:9171 and bs3-cpu-weird-1 for more details.
110 *
111 * We need to reconstruct the guest register state from the hypervisor one
112 * here, so here is the layout of the IRET frame on the stack:
113 * 20:[8] GS (V86 only)
114 * 1C:[7] FS (V86 only)
115 * 18:[6] DS (V86 only)
116 * 14:[5] ES (V86 only)
117 * 10:[4] SS
118 * 0c:[3] ESP
119 * 08:[2] EFLAGS
120 * 04:[1] CS
121 * 00:[0] EIP
122 */
123 if (pRegFrame->rip == (uintptr_t)TRPMRCHandlerAsmTrap03)
124 {
125 uint32_t const *pu32Stack = (uint32_t const *)pRegFrame->esp;
126 if ( (pu32Stack[2] & X86_EFL_VM)
127 || (pu32Stack[1] & X86_SEL_RPL))
128 {
129 LogFlow(("DBGFRZTrap01Handler: Detected guest #DB delayed past ring transition %04x:%RX32 %#x\n",
130 pu32Stack[1] & 0xffff, pu32Stack[0], pu32Stack[2]));
131 PCPUMCTX pGstCtx = CPUMQueryGuestCtxPtr(pVCpu);
132 pGstCtx->rip = pu32Stack[0];
133 pGstCtx->cs.Sel = pu32Stack[1];
134 pGstCtx->eflags.u = pu32Stack[2];
135 pGstCtx->rsp = pu32Stack[3];
136 pGstCtx->ss.Sel = pu32Stack[4];
137 if (pu32Stack[2] & X86_EFL_VM)
138 {
139 pGstCtx->es.Sel = pu32Stack[5];
140 pGstCtx->ds.Sel = pu32Stack[6];
141 pGstCtx->fs.Sel = pu32Stack[7];
142 pGstCtx->gs.Sel = pu32Stack[8];
143 }
144 else
145 {
146 pGstCtx->es.Sel = pRegFrame->es.Sel;
147 pGstCtx->ds.Sel = pRegFrame->ds.Sel;
148 pGstCtx->fs.Sel = pRegFrame->fs.Sel;
149 pGstCtx->gs.Sel = pRegFrame->gs.Sel;
150 }
151 pGstCtx->rax = pRegFrame->rax;
152 pGstCtx->rcx = pRegFrame->rcx;
153 pGstCtx->rdx = pRegFrame->rdx;
154 pGstCtx->rbx = pRegFrame->rbx;
155 pGstCtx->rsi = pRegFrame->rsi;
156 pGstCtx->rdi = pRegFrame->rdi;
157 pGstCtx->rbp = pRegFrame->rbp;
158
159 /*
160 * We should assert a #BP followed by a #DB here, but TRPM cannot
161 * do that. So, we'll just assert the #BP and ignore the #DB, even
162 * if that isn't strictly correct.
163 */
164 TRPMResetTrap(pVCpu);
165 TRPMAssertTrap(pVCpu, X86_XCPT_BP, TRPM_SOFTWARE_INT);
166 return VINF_EM_RAW_GUEST_TRAP;
167 }
168 }
169
170 LogFlow(("DBGFRZTrap01Handler: Unknown bp at %04x:%RGv\n", pRegFrame->cs.Sel, pRegFrame->rip));
171 return VERR_DBGF_HYPER_DB_XCPT;
172 }
173#endif
174
175 LogFlow(("DBGFRZTrap01Handler: guest debug event %#x at %04x:%RGv!\n", (uint32_t)uDr6, pRegFrame->cs.Sel, pRegFrame->rip));
176 return VINF_EM_RAW_GUEST_TRAP;
177}
178
179
180/**
181 * \#BP (Breakpoint) handler.
182 *
183 * @returns VBox status code.
184 * VINF_SUCCESS means we completely handled this trap,
185 * other codes are passed execution to host context.
186 *
187 * @param pVM The cross context VM structure.
188 * @param pVCpu The cross context virtual CPU structure.
189 * @param pRegFrame Pointer to the register frame for the trap.
190 */
191VMMRZ_INT_DECL(int) DBGFRZTrap03Handler(PVM pVM, PVMCPU pVCpu, PCPUMCTXCORE pRegFrame)
192{
193#ifdef IN_RC
194 const bool fInHyper = !(pRegFrame->ss.Sel & X86_SEL_RPL) && !pRegFrame->eflags.Bits.u1VM;
195#else
196 const bool fInHyper = false;
197#endif
198
199 /*
200 * Get the trap address and look it up in the breakpoint table.
201 * Don't bother if we don't have any breakpoints.
202 */
203 unsigned cToSearch = pVM->dbgf.s.Int3.cToSearch;
204 if (cToSearch > 0)
205 {
206 RTGCPTR pPc;
207 int rc = SELMValidateAndConvertCSAddr(pVCpu, pRegFrame->eflags, pRegFrame->ss.Sel, pRegFrame->cs.Sel, &pRegFrame->cs,
208#ifdef IN_RC
209 pRegFrame->eip - 1,
210#else
211 pRegFrame->rip /* no -1 in R0 */,
212#endif
213 &pPc);
214 AssertRCReturn(rc, rc);
215
216 unsigned iBp = pVM->dbgf.s.Int3.iStartSearch;
217 while (cToSearch-- > 0)
218 {
219 if ( pVM->dbgf.s.aBreakpoints[iBp].u.GCPtr == (RTGCUINTPTR)pPc
220 && pVM->dbgf.s.aBreakpoints[iBp].enmType == DBGFBPTYPE_INT3)
221 {
222 pVM->dbgf.s.aBreakpoints[iBp].cHits++;
223 pVCpu->dbgf.s.iActiveBp = pVM->dbgf.s.aBreakpoints[iBp].iBp;
224
225 LogFlow(("DBGFRZTrap03Handler: hit breakpoint %d at %RGv (%04x:%RGv) cHits=0x%RX64\n",
226 pVM->dbgf.s.aBreakpoints[iBp].iBp, pPc, pRegFrame->cs.Sel, pRegFrame->rip,
227 pVM->dbgf.s.aBreakpoints[iBp].cHits));
228 return fInHyper
229 ? VINF_EM_DBG_HYPER_BREAKPOINT
230 : VINF_EM_DBG_BREAKPOINT;
231 }
232 iBp++;
233 }
234 }
235
236 return fInHyper
237 ? VINF_EM_DBG_HYPER_ASSERTION
238 : VINF_EM_RAW_GUEST_TRAP;
239}
240
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