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acrn-hypervisor/hypervisor/debug/dump.c

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/*
* Copyright (C) 2018 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <types.h>
#include <per_cpu.h>
#include <mmu.h>
#include <vcpu.h>
#include <vmx.h>
#include <vm.h>
#include <init.h>
#include <logmsg.h>
#include <dump.h>
#include <reloc.h>
#define CALL_TRACE_HIERARCHY_MAX 20U
#define DUMP_STACK_SIZE 0x200U
static spinlock_t exception_spinlock = { .head = 0U, .tail = 0U, };
/*
* readable exception descriptors.
*/
static const char *const excp_names[32] = {
[0] = "Divide Error",
[1] = "RESERVED",
[2] = "NMI",
[3] = "Breakpoint",
[4] = "Overflow",
[5] = "BOUND range exceeded",
[6] = "Invalid Opcode",
[7] = "Device Not Available",
[8] = "Double Fault",
[9] = "Coprocessor Segment Overrun",
[10] = "Invalid TSS",
[11] = "Segment Not Present",
[12] = "Stack Segment Fault",
[13] = "General Protection",
[14] = "Page Fault",
[15] = "Intel Reserved",
[16] = "x87 FPU Floating Point Error",
[17] = "Alignment Check",
[18] = "Machine Check",
[19] = "SIMD Floating Point Exception",
[20] = "Virtualization Exception",
[21] = "Intel Reserved",
[22] = "Intel Reserved",
[23] = "Intel Reserved",
[24] = "Intel Reserved",
[25] = "Intel Reserved",
[26] = "Intel Reserved",
[27] = "Intel Reserved",
[28] = "Intel Reserved",
[29] = "Intel Reserved",
[30] = "Intel Reserved",
[31] = "Intel Reserved"
};
/*
* Global variable for save registers on exception.
* don't change crash_ctx to static.
* crash_ctx is for offline analysis when system crashed, not for runtime usage.
* as crash_ctx is only be set without being read, compiler will regard
* crash_ctx as an useless variable if it is set to static, and will not
* generate code for it.
*/
struct intr_excp_ctx *crash_ctx;
static void dump_guest_reg(struct acrn_vcpu *vcpu)
{
uint16_t pcpu_id = pcpuid_from_vcpu(vcpu);
pr_acrnlog("\n\n================================================");
pr_acrnlog("================================\n\n");
pr_acrnlog("Guest Registers:\r\n");
pr_acrnlog("= VM ID %d ==== vCPU ID %hu === pCPU ID %d ===="
"world %d =============\r\n",
vcpu->vm->vm_id, vcpu->vcpu_id, pcpu_id,
vcpu->arch.cur_context);
pr_acrnlog("= RIP=0x%016lx RSP=0x%016lx RFLAGS=0x%016lx\r\n",
vcpu_get_rip(vcpu),
vcpu_get_gpreg(vcpu, CPU_REG_RSP),
vcpu_get_rflags(vcpu));
pr_acrnlog("= CR0=0x%016lx CR2=0x%016lx CR3=0x%016lx\r\n",
vcpu_get_cr0(vcpu),
vcpu_get_cr2(vcpu),
exec_vmread(VMX_GUEST_CR3));
pr_acrnlog("= RAX=0x%016lx RBX=0x%016lx RCX=0x%016lx\r\n",
vcpu_get_gpreg(vcpu, CPU_REG_RAX),
vcpu_get_gpreg(vcpu, CPU_REG_RBX),
vcpu_get_gpreg(vcpu, CPU_REG_RCX));
pr_acrnlog("= RDX=0x%016lx RDI=0x%016lx RSI=0x%016lx\r\n",
vcpu_get_gpreg(vcpu, CPU_REG_RDX),
vcpu_get_gpreg(vcpu, CPU_REG_RDI),
vcpu_get_gpreg(vcpu, CPU_REG_RSI));
pr_acrnlog("= RBP=0x%016lx R8=0x%016lx R9=0x%016lx\r\n",
vcpu_get_gpreg(vcpu, CPU_REG_RBP),
vcpu_get_gpreg(vcpu, CPU_REG_R8),
vcpu_get_gpreg(vcpu, CPU_REG_R9));
pr_acrnlog("= R10=0x%016lx R11=0x%016lx R12=0x%016lx\r\n",
vcpu_get_gpreg(vcpu, CPU_REG_R10),
vcpu_get_gpreg(vcpu, CPU_REG_R11),
vcpu_get_gpreg(vcpu, CPU_REG_R12));
pr_acrnlog("= R13=0x%016lx R14=0x%016lx R15=0x%016lx\r\n",
vcpu_get_gpreg(vcpu, CPU_REG_R13),
vcpu_get_gpreg(vcpu, CPU_REG_R14),
vcpu_get_gpreg(vcpu, CPU_REG_R15));
pr_acrnlog("\r\n");
}
static void dump_guest_stack(struct acrn_vcpu *vcpu)
{
uint32_t i;
uint64_t tmp[DUMP_STACK_SIZE], fault_addr;
uint32_t err_code = 0U;
if (copy_from_gva(vcpu, tmp, vcpu_get_gpreg(vcpu, CPU_REG_RSP),
DUMP_STACK_SIZE, &err_code, &fault_addr) < 0) {
pr_acrnlog("\r\nUnabled to Copy Guest Stack:\r\n");
return;
}
pr_acrnlog("\r\nGuest Stack:\r\n");
pr_acrnlog("Dump stack for vcpu %hu, from gva 0x%016lx\r\n",
vcpu->vcpu_id, vcpu_get_gpreg(vcpu, CPU_REG_RSP));
for (i = 0U; i < (DUMP_STACK_SIZE >> 5U); i++) {
pr_acrnlog("guest_rsp(0x%lx): 0x%016lx 0x%016lx 0x%016lx 0x%016lx\r\n",
(vcpu_get_gpreg(vcpu, CPU_REG_RSP)+(i*32U)),
tmp[i*4], tmp[(i*4)+1],
tmp[(i*4)+2], tmp[(i*4)+3]);
}
pr_acrnlog("\r\n");
}
static void dump_guest_context(uint16_t pcpu_id)
{
struct acrn_vcpu *vcpu = get_running_vcpu(pcpu_id);
if (vcpu != NULL) {
dump_guest_reg(vcpu);
dump_guest_stack(vcpu);
}
}
static void show_host_call_trace(uint64_t rsp, uint64_t rbp_arg, uint16_t pcpu_id)
{
uint64_t rbp = rbp_arg, return_address;
uint32_t i = 0U;
uint32_t cb_hierarchy = 0U;
uint64_t *sp = (uint64_t *)rsp;
pr_acrnlog("\r\n delta = (actual_load_address - CONFIG_HV_RAM_START) = 0x%llx\r\n", get_hv_image_delta());
pr_acrnlog("\r\nHost Stack: CPU_ID = %hu\r\n", pcpu_id);
for (i = 0U; i < (DUMP_STACK_SIZE >> 5U); i++) {
pr_acrnlog("addr(0x%lx) 0x%016lx 0x%016lx 0x%016lx 0x%016lx\r\n",
(rsp + (i * 32U)), sp[i * 4U],
sp[(i * 4U) + 1U], sp[(i * 4U) + 2U],
sp[(i * 4U) + 3U]);
}
pr_acrnlog("\r\n");
pr_acrnlog("Host Call Trace:\r\n");
/* if enable compiler option(no-omit-frame-pointer) the stack layout
* should be like this when call a function for x86_64
*
* | |
* rbp+8 | return address |
* rbp | rbp | push rbp
* | | mov rsp rbp
*
* rsp | |
*
*
* if the address is invalid, it will cause hv page fault
* then halt system */
while (cb_hierarchy < CALL_TRACE_HIERARCHY_MAX) {
return_address = *(uint64_t *)(rbp + sizeof(uint64_t));
if (return_address == SP_BOTTOM_MAGIC) {
break;
}
pr_acrnlog("----> 0x%016lx\r\n",
*(uint64_t *)(rbp + sizeof(uint64_t)));
rbp = *(uint64_t *)rbp;
cb_hierarchy++;
}
pr_acrnlog("\r\n");
}
void asm_assert(int32_t line, const char *file, const char *txt)
{
uint16_t pcpu_id = get_pcpu_id();
uint64_t rsp = cpu_rsp_get();
uint64_t rbp = cpu_rbp_get();
pr_acrnlog("Assertion failed in file %s,line %d : %s",
file, line, txt);
show_host_call_trace(rsp, rbp, pcpu_id);
dump_guest_context(pcpu_id);
do {
asm_pause();
} while (1);
}
void dump_intr_excp_frame(const struct intr_excp_ctx *ctx)
{
const char *name = "Not defined";
uint64_t cr2_val;
pr_acrnlog("\n\n================================================");
pr_acrnlog("================================\n=\n");
if (ctx->vector < 0x20UL) {
name = excp_names[ctx->vector];
pr_acrnlog("= Unhandled exception: %d (%s)\n", ctx->vector, name);
}
/* Dump host register*/
pr_acrnlog("\r\nHost Registers:\r\n");
pr_acrnlog("= Vector=0x%016llX RIP=0x%016llX\n",
ctx->vector, ctx->rip);
pr_acrnlog("= RAX=0x%016llX RBX=0x%016llX RCX=0x%016llX\n",
ctx->gp_regs.rax, ctx->gp_regs.rbx, ctx->gp_regs.rcx);
pr_acrnlog("= RDX=0x%016llX RDI=0x%016llX RSI=0x%016llX\n",
ctx->gp_regs.rdx, ctx->gp_regs.rdi, ctx->gp_regs.rsi);
pr_acrnlog("= RSP=0x%016llX RBP=0x%016llX RBX=0x%016llX\n",
ctx->rsp, ctx->gp_regs.rbp, ctx->gp_regs.rbx);
pr_acrnlog("= R8=0x%016llX R9=0x%016llX R10=0x%016llX\n",
ctx->gp_regs.r8, ctx->gp_regs.r9, ctx->gp_regs.r10);
pr_acrnlog("= R11=0x%016llX R12=0x%016llX R13=0x%016llX\n",
ctx->gp_regs.r11, ctx->gp_regs.r12, ctx->gp_regs.r13);
pr_acrnlog("= RFLAGS=0x%016llX R14=0x%016llX R15=0x%016llX\n",
ctx->rflags, ctx->gp_regs.r14, ctx->gp_regs.r15);
pr_acrnlog("= ERRCODE=0x%016llX CS=0x%016llX SS=0x%016llX\n",
ctx->error_code, ctx->cs, ctx->ss);
asm volatile ("movq %%cr2, %0" : "=r" (cr2_val));
pr_acrnlog("= CR2=0x%016llX", cr2_val);
pr_acrnlog("\r\n");
pr_acrnlog("=====================================================");
pr_acrnlog("===========================\n");
}
void dump_exception(struct intr_excp_ctx *ctx, uint16_t pcpu_id)
{
/* Obtain lock to ensure exception dump doesn't get corrupted */
spinlock_obtain(&exception_spinlock);
/* Dump host context */
dump_intr_excp_frame(ctx);
/* Show host stack */
show_host_call_trace(ctx->gp_regs.rsp, ctx->gp_regs.rbp, pcpu_id);
/* Dump guest context */
dump_guest_context(pcpu_id);
/* Save registers*/
crash_ctx = ctx;
cache_flush_invalidate_all();
/* Release lock to let other CPUs handle exception */
spinlock_release(&exception_spinlock);
}
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