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// This software is licensed under the terms of the GNU General Public
// License version 2, as published by the Free Software Foundation, and
// may be copied, distributed, and modified under those terms.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
#include "qemu/osdep.h"
#include "qemu-common.h"
#include "qemu/error-report.h"
#include "sysemu/hvf.h"
#include "hvf-i386.h"
#include "vmcs.h"
#include "vmx.h"
#include "x86.h"
#include "x86_descr.h"
#include "x86_mmu.h"
#include "x86_decode.h"
#include "x86_emu.h"
#include "x86_task.h"
#include "x86hvf.h"
#include <Hypervisor/hv.h>
#include <Hypervisor/hv_vmx.h>
#include "exec/address-spaces.h"
#include "exec/exec-all.h"
#include "exec/ioport.h"
#include "hw/i386/apic_internal.h"
#include "hw/boards.h"
#include "qemu/main-loop.h"
#include "strings.h"
#include "sysemu/accel.h"
#include "sysemu/sysemu.h"
#include "target/i386/cpu.h"
// TODO: taskswitch handling
static void save_state_to_tss32(CPUState *cpu, struct x86_tss_segment32 *tss)
{
X86CPU *x86_cpu = X86_CPU(cpu);
CPUX86State *env = &x86_cpu->env;
/* CR3 and ldt selector are not saved intentionally */
tss->eip = EIP(env);
tss->eflags = EFLAGS(env);
tss->eax = EAX(env);
tss->ecx = ECX(env);
tss->edx = EDX(env);
tss->ebx = EBX(env);
tss->esp = ESP(env);
tss->ebp = EBP(env);
tss->esi = ESI(env);
tss->edi = EDI(env);
tss->es = vmx_read_segment_selector(cpu, R_ES).sel;
tss->cs = vmx_read_segment_selector(cpu, R_CS).sel;
tss->ss = vmx_read_segment_selector(cpu, R_SS).sel;
tss->ds = vmx_read_segment_selector(cpu, R_DS).sel;
tss->fs = vmx_read_segment_selector(cpu, R_FS).sel;
tss->gs = vmx_read_segment_selector(cpu, R_GS).sel;
}
static void load_state_from_tss32(CPUState *cpu, struct x86_tss_segment32 *tss)
{
X86CPU *x86_cpu = X86_CPU(cpu);
CPUX86State *env = &x86_cpu->env;
wvmcs(cpu->hvf_fd, VMCS_GUEST_CR3, tss->cr3);
RIP(env) = tss->eip;
EFLAGS(env) = tss->eflags | 2;
/* General purpose registers */
RAX(env) = tss->eax;
RCX(env) = tss->ecx;
RDX(env) = tss->edx;
RBX(env) = tss->ebx;
RSP(env) = tss->esp;
RBP(env) = tss->ebp;
RSI(env) = tss->esi;
RDI(env) = tss->edi;
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->ldt}}, R_LDTR);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->es}}, R_ES);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->cs}}, R_CS);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->ss}}, R_SS);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->ds}}, R_DS);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->fs}}, R_FS);
vmx_write_segment_selector(cpu, (x68_segment_selector){{tss->gs}}, R_GS);
}
static int task_switch_32(CPUState *cpu, x68_segment_selector tss_sel, x68_segment_selector old_tss_sel,
uint64_t old_tss_base, struct x86_segment_descriptor *new_desc)
{
struct x86_tss_segment32 tss_seg;
uint32_t new_tss_base = x86_segment_base(new_desc);
uint32_t eip_offset = offsetof(struct x86_tss_segment32, eip);
uint32_t ldt_sel_offset = offsetof(struct x86_tss_segment32, ldt);
vmx_read_mem(cpu, &tss_seg, old_tss_base, sizeof(tss_seg));
save_state_to_tss32(cpu, &tss_seg);
vmx_write_mem(cpu, old_tss_base + eip_offset, &tss_seg.eip, ldt_sel_offset - eip_offset);
vmx_read_mem(cpu, &tss_seg, new_tss_base, sizeof(tss_seg));
if (old_tss_sel.sel != 0xffff) {
tss_seg.prev_tss = old_tss_sel.sel;
vmx_write_mem(cpu, new_tss_base, &tss_seg.prev_tss, sizeof(tss_seg.prev_tss));
}
load_state_from_tss32(cpu, &tss_seg);
return 0;
}
void vmx_handle_task_switch(CPUState *cpu, x68_segment_selector tss_sel, int reason, bool gate_valid, uint8_t gate, uint64_t gate_type)
{
uint64_t rip = rreg(cpu->hvf_fd, HV_X86_RIP);
if (!gate_valid || (gate_type != VMCS_INTR_T_HWEXCEPTION &&
gate_type != VMCS_INTR_T_HWINTR &&
gate_type != VMCS_INTR_T_NMI)) {
int ins_len = rvmcs(cpu->hvf_fd, VMCS_EXIT_INSTRUCTION_LENGTH);
macvm_set_rip(cpu, rip + ins_len);
return;
}
load_regs(cpu);
struct x86_segment_descriptor curr_tss_desc, next_tss_desc;
int ret;
x68_segment_selector old_tss_sel = vmx_read_segment_selector(cpu, R_TR);
uint64_t old_tss_base = vmx_read_segment_base(cpu, R_TR);
uint32_t desc_limit;
struct x86_call_gate task_gate_desc;
struct vmx_segment vmx_seg;
X86CPU *x86_cpu = X86_CPU(cpu);
CPUX86State *env = &x86_cpu->env;
x86_read_segment_descriptor(cpu, &next_tss_desc, tss_sel);
x86_read_segment_descriptor(cpu, &curr_tss_desc, old_tss_sel);
if (reason == TSR_IDT_GATE && gate_valid) {
int dpl;
ret = x86_read_call_gate(cpu, &task_gate_desc, gate);
dpl = task_gate_desc.dpl;
x68_segment_selector cs = vmx_read_segment_selector(cpu, R_CS);
if (tss_sel.rpl > dpl || cs.rpl > dpl)
;//DPRINTF("emulate_gp");
}
desc_limit = x86_segment_limit(&next_tss_desc);
if (!next_tss_desc.p || ((desc_limit < 0x67 && (next_tss_desc.type & 8)) || desc_limit < 0x2b)) {
VM_PANIC("emulate_ts");
}
if (reason == TSR_IRET || reason == TSR_JMP) {
curr_tss_desc.type &= ~(1 << 1); /* clear busy flag */
x86_write_segment_descriptor(cpu, &curr_tss_desc, old_tss_sel);
}
if (reason == TSR_IRET)
EFLAGS(env) &= ~RFLAGS_NT;
if (reason != TSR_CALL && reason != TSR_IDT_GATE)
old_tss_sel.sel = 0xffff;
if (reason != TSR_IRET) {
next_tss_desc.type |= (1 << 1); /* set busy flag */
x86_write_segment_descriptor(cpu, &next_tss_desc, tss_sel);
}
if (next_tss_desc.type & 8)
ret = task_switch_32(cpu, tss_sel, old_tss_sel, old_tss_base, &next_tss_desc);
else
//ret = task_switch_16(cpu, tss_sel, old_tss_sel, old_tss_base, &next_tss_desc);
VM_PANIC("task_switch_16");
macvm_set_cr0(cpu->hvf_fd, rvmcs(cpu->hvf_fd, VMCS_GUEST_CR0) | CR0_TS);
x86_segment_descriptor_to_vmx(cpu, tss_sel, &next_tss_desc, &vmx_seg);
vmx_write_segment_descriptor(cpu, &vmx_seg, R_TR);
store_regs(cpu);
hv_vcpu_invalidate_tlb(cpu->hvf_fd);
hv_vcpu_flush(cpu->hvf_fd);
}
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