sys: extend kvm support

Add new pseudo syscall syz_kvm_setup_cpu that setups VCPU into
interesting states for execution. KVM is too difficult to setup otherwise.
Lots of improvements possible, but this is a starting point.

2 files changed, 836 insertions, 1 deletions

diff --git a/csource/common.go b/csource/common.go
index a0b063e9d..ba976989d 100644
--- a/csource/common.go
+++ b/csource/common.go
@@ -23,6 +23,7 @@ var commonHeader = `
 #include <linux/capability.h>
 #include <linux/if.h>
 #include <linux/if_tun.h>
+#include <linux/kvm.h>
 #include <linux/sched.h>
 #include <net/if_arp.h>
 
@@ -340,6 +341,835 @@ static uintptr_t syz_fuseblk_mount(uintptr_t a0, uintptr_t a1, uintptr_t a2, uin
 }
 #endif
 
+#ifdef __NR_syz_kvm_setup_cpu
+
+
+
+const char kvm_asm16_cpl3[] = "\x0f\x20\xc0\x66\x83\xc8\x01\x0f\x22\xc0\xb8\xa0\x00\x0f\x00\xd8\xb8\x2b\x00\x8e\xd8\x8e\xc0\x8e\xe0\x8e\xe8\xbc\x00\x01\xc7\x06\x00\x01\x1d\xba\xc7\x06\x02\x01\x23\x00\xc7\x06\x04\x01\x00\x01\xc7\x06\x06\x01\x2b\x00\xcb";
+const char kvm_asm32_paged[] = "\x0f\x20\xc0\x0d\x00\x00\x00\x80\x0f\x22\xc0";
+const char kvm_asm32_vm86[] = "\x66\xb8\xb8\x00\x0f\x00\xd8\xea\x00\x00\x00\x00\xd0\x00";
+const char kvm_asm32_paged_vm86[] = "\x0f\x20\xc0\x0d\x00\x00\x00\x80\x0f\x22\xc0\x66\xb8\xb8\x00\x0f\x00\xd8\xea\x00\x00\x00\x00\xd0\x00";
+const char kvm_asm64_vm86[] = "\x0f\x20\xc0\x0d\x00\x00\x00\x80\x0f\x22\xc0\x66\xb8\xb8\x00\x0f\x00\xd8\xea\x00\x00\x00\x00\xd0\x00";
+const char kvm_asm64_enable_long[] = "\x0f\x20\xc0\x0d\x00\x00\x00\x80\x0f\x22\xc0\xea\xde\xc0\xad\x0b\x50\x00\x48\xc7\xc0\xd8\x00\x00\x00\x0f\x00\xd8";
+const char kvm_asm64_init_vm[] = 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+const char kvm_asm64_vm_exit[] = "\x48\xc7\xc3\x00\x44\x00\x00\x0f\x78\xda\x48\xc7\xc3\x02\x44\x00\x00\x0f\x78\xd9\x48\xc7\xc0\x00\x64\x00\x00\x0f\x78\xc0\x48\xc7\xc3\x1e\x68\x00\x00\x0f\x78\xdb\xf4";
+const char kvm_asm64_cpl3[] = "\x0f\x20\xc0\x0d\x00\x00\x00\x80\x0f\x22\xc0\xea\xde\xc0\xad\x0b\x50\x00\x48\xc7\xc0\xd8\x00\x00\x00\x0f\x00\xd8\x48\xc7\xc0\x6b\x00\x00\x00\x8e\xd8\x8e\xc0\x8e\xe0\x8e\xe8\x48\xc7\xc4\x80\x0f\x00\x00\x48\xc7\x04\x24\x1d\xba\x00\x00\x48\xc7\x44\x24\x04\x63\x00\x00\x00\x48\xc7\x44\x24\x08\x80\x0f\x00\x00\x48\xc7\x44\x24\x0c\x6b\x00\x00\x00\xcb";
+
+#define ADDR_TEXT 0x0000
+#define ADDR_GDT 0x1000
+#define ADDR_LDT 0x1800
+#define ADDR_PML4 0x2000
+#define ADDR_PDP 0x3000
+#define ADDR_PD 0x4000
+#define ADDR_STACK0 0x0f80
+#define ADDR_VAR_HLT 0x2800
+#define ADDR_VAR_SYSRET 0x2808
+#define ADDR_VAR_SYSEXIT 0x2810
+#define ADDR_VAR_IDT 0x3800
+#define ADDR_VAR_TSS64 0x3a00
+#define ADDR_VAR_TSS64_CPL3 0x3c00
+#define ADDR_VAR_TSS16 0x3d00
+#define ADDR_VAR_TSS16_2 0x3e00
+#define ADDR_VAR_TSS16_CPL3 0x3f00
+#define ADDR_VAR_TSS32 0x4800
+#define ADDR_VAR_TSS32_2 0x4a00
+#define ADDR_VAR_TSS32_CPL3 0x4c00
+#define ADDR_VAR_TSS32_VM86 0x4e00
+#define ADDR_VAR_VMXON_PTR 0x5f00
+#define ADDR_VAR_VMCS_PTR 0x5f08
+#define ADDR_VAR_VMEXIT_PTR 0x5f10
+#define ADDR_VAR_VMXON 0x6000
+#define ADDR_VAR_VMCS 0x7000
+#define ADDR_VAR_VMEXIT_CODE 0x9000
+#define ADDR_VAR_USER_CODE 0x9100
+#define ADDR_VAR_USER_CODE2 0x9120
+
+#define SEL_LDT (1 << 3)
+#define SEL_CS16 (2 << 3)
+#define SEL_DS16 (3 << 3)
+#define SEL_CS16_CPL3 ((4 << 3) + 3)
+#define SEL_DS16_CPL3 ((5 << 3) + 3)
+#define SEL_CS32 (6 << 3)
+#define SEL_DS32 (7 << 3)
+#define SEL_CS32_CPL3 ((8 << 3) + 3)
+#define SEL_DS32_CPL3 ((9 << 3) + 3)
+#define SEL_CS64 (10 << 3)
+#define SEL_DS64 (11 << 3)
+#define SEL_CS64_CPL3 ((12 << 3) + 3)
+#define SEL_DS64_CPL3 ((13 << 3) + 3)
+#define SEL_CGATE16 (14 << 3)
+#define SEL_TGATE16 (15 << 3)
+#define SEL_CGATE32 (16 << 3)
+#define SEL_TGATE32 (17 << 3)
+#define SEL_CGATE64 (18 << 3)
+#define SEL_CGATE64_HI (19 << 3)
+#define SEL_TSS16 (20 << 3)
+#define SEL_TSS16_2 (21 << 3)
+#define SEL_TSS16_CPL3 ((22 << 3) + 3)
+#define SEL_TSS32 (23 << 3)
+#define SEL_TSS32_2 (24 << 3)
+#define SEL_TSS32_CPL3 ((25 << 3) + 3)
+#define SEL_TSS32_VM86 (26 << 3)
+#define SEL_TSS64 (27 << 3)
+#define SEL_TSS64_HI (28 << 3)
+#define SEL_TSS64_CPL3 ((29 << 3) + 3)
+#define SEL_TSS64_CPL3_HI (30 << 3)
+
+#define MSR_IA32_FEATURE_CONTROL 0x3a
+#define MSR_IA32_VMX_BASIC 0x480
+#define MSR_IA32_SMBASE 0x9e
+#define MSR_IA32_SYSENTER_CS 0x174
+#define MSR_IA32_SYSENTER_ESP 0x175
+#define MSR_IA32_SYSENTER_EIP 0x176
+#define MSR_IA32_STAR 0xC0000081
+#define MSR_IA32_LSTAR 0xC0000082
+#define MSR_IA32_VMX_PROCBASED_CTLS2 0x48B
+
+#define NEXT_INSN $0xbadc0de
+#define PREFIX_SIZE 0xba1d
+
+#ifndef KVM_SMI
+#define KVM_SMI _IO(KVMIO, 0xb7)
+#endif
+
+#define CR0_PE 1
+#define CR0_MP (1 << 1)
+#define CR0_EM (1 << 2)
+#define CR0_TS (1 << 3)
+#define CR0_ET (1 << 4)
+#define CR0_NE (1 << 5)
+#define CR0_WP (1 << 16)
+#define CR0_AM (1 << 18)
+#define CR0_NW (1 << 29)
+#define CR0_CD (1 << 30)
+#define CR0_PG (1 << 31)
+
+#define CR4_VME 1
+#define CR4_PVI (1 << 1)
+#define CR4_TSD (1 << 2)
+#define CR4_DE (1 << 3)
+#define CR4_PSE (1 << 4)
+#define CR4_PAE (1 << 5)
+#define CR4_MCE (1 << 6)
+#define CR4_PGE (1 << 7)
+#define CR4_PCE (1 << 8)
+#define CR4_OSFXSR (1 << 8)
+#define CR4_OSXMMEXCPT (1 << 10)
+#define CR4_UMIP (1 << 11)
+#define CR4_VMXE (1 << 13)
+#define CR4_SMXE (1 << 14)
+#define CR4_FSGSBASE (1 << 16)
+#define CR4_PCIDE (1 << 17)
+#define CR4_OSXSAVE (1 << 18)
+#define CR4_SMEP (1 << 20)
+#define CR4_SMAP (1 << 21)
+#define CR4_PKE (1 << 22)
+
+#define EFER_SCE 1
+#define EFER_LME (1 << 8)
+#define EFER_LMA (1 << 10)
+#define EFER_NXE (1 << 11)
+#define EFER_SVME (1 << 12)
+#define EFER_LMSLE (1 << 13)
+#define EFER_FFXSR (1 << 14)
+#define EFER_TCE (1 << 15)
+
+#define PDE32_PRESENT 1
+#define PDE32_RW (1 << 1)
+#define PDE32_USER (1 << 2)
+#define PDE32_PS (1 << 7)
+
+#define PDE64_PRESENT 1
+#define PDE64_RW (1 << 1)
+#define PDE64_USER (1 << 2)
+#define PDE64_ACCESSED (1 << 5)
+#define PDE64_DIRTY (1 << 6)
+#define PDE64_PS (1 << 7)
+#define PDE64_G (1 << 8)
+
+struct tss16 {
+	uint16_t prev;
+	uint16_t sp0;
+	uint16_t ss0;
+	uint16_t sp1;
+	uint16_t ss1;
+	uint16_t sp2;
+	uint16_t ss2;
+	uint16_t ip;
+	uint16_t flags;
+	uint16_t ax;
+	uint16_t cx;
+	uint16_t dx;
+	uint16_t bx;
+	uint16_t sp;
+	uint16_t bp;
+	uint16_t si;
+	uint16_t di;
+	uint16_t es;
+	uint16_t cs;
+	uint16_t ss;
+	uint16_t ds;
+	uint16_t ldt;
+} __attribute__((packed));
+
+struct tss32 {
+	uint16_t prev, prevh;
+	uint32_t sp0;
+	uint16_t ss0, ss0h;
+	uint32_t sp1;
+	uint16_t ss1, ss1h;
+	uint32_t sp2;
+	uint16_t ss2, ss2h;
+	uint32_t cr3;
+	uint32_t ip;
+	uint32_t flags;
+	uint32_t ax;
+	uint32_t cx;
+	uint32_t dx;
+	uint32_t bx;
+	uint32_t sp;
+	uint32_t bp;
+	uint32_t si;
+	uint32_t di;
+	uint16_t es, esh;
+	uint16_t cs, csh;
+	uint16_t ss, ssh;
+	uint16_t ds, dsh;
+	uint16_t fs, fsh;
+	uint16_t gs, gsh;
+	uint16_t ldt, ldth;
+	uint16_t trace;
+	uint16_t io_bitmap;
+} __attribute__((packed));
+
+struct tss64 {
+	uint32_t reserved0;
+	uint64_t rsp[3];
+	uint64_t reserved1;
+	uint64_t ist[7];
+	uint64_t reserved2;
+	uint32_t reserved3;
+	uint32_t io_bitmap;
+} __attribute__((packed));
+
+static void fill_segment_descriptor(uint64_t* dt, uint64_t* lt, struct kvm_segment* seg)
+{
+	uint16_t index = seg->selector >> 3;
+	uint64_t limit = seg->g ? seg->limit >> 12 : seg->limit;
+	uint64_t sd = (limit & 0xffff) | (seg->base & 0xffffff) << 16 | (uint64_t)seg->type << 40 | (uint64_t)seg->s << 44 | (uint64_t)seg->dpl << 45 | (uint64_t)seg->present << 47 | (limit & 0xf0000ULL) << 48 | (uint64_t)seg->avl << 52 | (uint64_t)seg->l << 53 | (uint64_t)seg->db << 54 | (uint64_t)seg->g << 55 | (seg->base & 0xff000000ULL) << 56;
+	NONFAILING(dt[index] = sd);
+	NONFAILING(lt[index] = sd);
+}
+
+static void fill_segment_descriptor_dword(uint64_t* dt, uint64_t* lt, struct kvm_segment* seg)
+{
+	fill_segment_descriptor(dt, lt, seg);
+	uint16_t index = seg->selector >> 3;
+	NONFAILING(dt[index + 1] = 0);
+	NONFAILING(lt[index + 1] = 0);
+}
+
+static void setup_syscall_msrs(int cpufd, uint16_t sel_cs, uint16_t sel_cs_cpl3)
+{
+	char buf[sizeof(struct kvm_msrs) + 5 * sizeof(struct kvm_msr_entry)];
+	memset(buf, 0, sizeof(buf));
+	struct kvm_msrs* msrs = (struct kvm_msrs*)buf;
+	msrs->nmsrs = 5;
+	msrs->entries[0].index = MSR_IA32_SYSENTER_CS;
+	msrs->entries[0].data = sel_cs;
+	msrs->entries[1].index = MSR_IA32_SYSENTER_ESP;
+	msrs->entries[1].data = ADDR_STACK0;
+	msrs->entries[2].index = MSR_IA32_SYSENTER_EIP;
+	msrs->entries[2].data = ADDR_VAR_SYSEXIT;
+	msrs->entries[3].index = MSR_IA32_STAR;
+	msrs->entries[3].data = ((uint64_t)sel_cs << 32) | ((uint64_t)sel_cs_cpl3 << 48);
+	msrs->entries[4].index = MSR_IA32_LSTAR;
+	msrs->entries[4].data = ADDR_VAR_SYSRET;
+	ioctl(cpufd, KVM_SET_MSRS, msrs);
+}
+
+static void setup_32bit_idt(struct kvm_sregs* sregs, char* host_mem, uintptr_t guest_mem)
+{
+	sregs->idt.base = guest_mem + ADDR_VAR_IDT;
+	sregs->idt.limit = 0x1ff;
+	uint64_t* idt = (uint64_t*)(host_mem + sregs->idt.base);
+	for (int i = 0; i < 32; i++) {
+		struct kvm_segment gate;
+		gate.selector = i << 3;
+		switch (i % 6) {
+		case 0:
+			gate.type = 6;
+			gate.base = SEL_CS16;
+			break;
+		case 1:
+			gate.type = 7;
+			gate.base = SEL_CS16;
+			break;
+		case 2:
+			gate.type = 3;
+			gate.base = SEL_TGATE16;
+			break;
+		case 3:
+			gate.type = 14;
+			gate.base = SEL_CS32;
+			break;
+		case 4:
+			gate.type = 15;
+			gate.base = SEL_CS32;
+			break;
+		case 6:
+			gate.type = 11;
+			gate.base = SEL_TGATE32;
+			break;
+		}
+		gate.limit = guest_mem + ADDR_VAR_USER_CODE2;
+		gate.present = 1;
+		gate.dpl = 0;
+		gate.s = 0;
+		gate.g = 0;
+		gate.db = 0;
+		gate.l = 0;
+		gate.avl = 0;
+		fill_segment_descriptor(idt, idt, &gate);
+	}
+}
+
+static void setup_64bit_idt(struct kvm_sregs* sregs, char* host_mem, uintptr_t guest_mem)
+{
+	sregs->idt.base = guest_mem + ADDR_VAR_IDT;
+	sregs->idt.limit = 0x1ff;
+	uint64_t* idt = (uint64_t*)(host_mem + sregs->idt.base);
+	for (int i = 0; i < 32; i++) {
+		struct kvm_segment gate;
+		gate.selector = (i * 2) << 3;
+		gate.type = (i & 1) ? 14 : 15;
+		gate.base = SEL_CS64;
+		gate.limit = guest_mem + ADDR_VAR_USER_CODE2;
+		gate.present = 1;
+		gate.dpl = 0;
+		gate.s = 0;
+		gate.g = 0;
+		gate.db = 0;
+		gate.l = 0;
+		gate.avl = 0;
+		fill_segment_descriptor_dword(idt, idt, &gate);
+	}
+}
+
+struct kvm_text {
+	uintptr_t typ;
+	const void* text;
+	uintptr_t size;
+};
+
+struct kvm_opt {
+	uint64_t typ;
+	uint64_t val;
+};
+
+#define KVM_SETUP_PAGING (1 << 0)
+#define KVM_SETUP_PAE (1 << 1)
+#define KVM_SETUP_PROTECTED (1 << 2)
+#define KVM_SETUP_CPL3 (1 << 3)
+#define KVM_SETUP_VIRT86 (1 << 4)
+#define KVM_SETUP_SMM (1 << 5)
+#define KVM_SETUP_VM (1 << 6)
+
+static uintptr_t syz_kvm_setup_cpu(uintptr_t a0, uintptr_t a1, uintptr_t a2, uintptr_t a3, uintptr_t a4, uintptr_t a5, uintptr_t a6, uintptr_t a7)
+{
+	const int vmfd = a0;
+	const int cpufd = a1;
+	char* const host_mem = (char*)a2;
+	const struct kvm_text* const text_array_ptr = (struct kvm_text*)a3;
+	const uintptr_t text_count = a4;
+	const uintptr_t flags = a5;
+	const struct kvm_opt* const opt_array_ptr = (struct kvm_opt*)a6;
+	uintptr_t opt_count = a7;
+
+	const uintptr_t page_size = 4 << 10;
+	const uintptr_t ioapic_page = 10;
+	const uintptr_t guest_mem_size = 24 * page_size;
+	const uintptr_t guest_mem = 0;
+
+	if (text_count != 1)
+		fail("syz_kvm_setup_cpu: bad text count %d, want 1", text_count);
+	int text_type = 0;
+	const void* text = 0;
+	int text_size = 0;
+	NONFAILING(text_type = text_array_ptr[0].typ);
+	NONFAILING(text = text_array_ptr[0].text);
+	NONFAILING(text_size = text_array_ptr[0].size);
+
+	uintptr_t i;
+	for (i = 0; i < guest_mem_size / page_size; i++) {
+		struct kvm_userspace_memory_region memreg;
+		memreg.slot = i;
+		memreg.flags = 0;
+		memreg.guest_phys_addr = guest_mem + i * page_size;
+		if (i == ioapic_page)
+			memreg.guest_phys_addr = 0xfec00000;
+		memreg.memory_size = page_size;
+		memreg.userspace_addr = (uintptr_t)host_mem + i * page_size;
+		ioctl(vmfd, KVM_SET_USER_MEMORY_REGION, &memreg);
+	}
+	struct kvm_userspace_memory_region memreg;
+	memreg.slot = 1 + (1 << 16);
+	memreg.flags = 0;
+	memreg.guest_phys_addr = 0x30000;
+	memreg.memory_size = 64 << 10;
+	memreg.userspace_addr = (uintptr_t)host_mem;
+	ioctl(vmfd, KVM_SET_USER_MEMORY_REGION, &memreg);
+
+	struct kvm_sregs sregs;
+	if (ioctl(cpufd, KVM_GET_SREGS, &sregs))
+		return -1;
+
+	struct kvm_regs regs;
+	memset(&regs, 0, sizeof(regs));
+	regs.rip = guest_mem + ADDR_TEXT;
+	regs.rsp = ADDR_STACK0;
+
+	if (opt_count > 2)
+		opt_count = 2;
+	for (i = 0; i < opt_count; i++) {
+		uint64_t typ = 0;
+		uint64_t val = 0;
+		NONFAILING(typ = opt_array_ptr[i].typ);
+		NONFAILING(val = opt_array_ptr[i].val);
+		switch (typ) {
+		case 1:
+			sregs.cr0 ^= val & (CR0_MP | CR0_EM | CR0_ET | CR0_NE | CR0_WP | CR0_AM | CR0_NW | CR0_CD);
+			break;
+		case 2:
+			sregs.cr4 ^= val & (CR4_VME | CR4_PVI | CR4_TSD | CR4_DE | CR4_MCE | CR4_PGE | CR4_PCE |
+					    CR4_OSFXSR | CR4_OSXMMEXCPT | CR4_UMIP | CR4_VMXE | CR4_SMXE | CR4_FSGSBASE | CR4_PCIDE |
+					    CR4_OSXSAVE | CR4_SMEP | CR4_SMAP | CR4_PKE);
+			break;
+		case 3:
+			sregs.efer ^= val & (EFER_SCE | EFER_NXE | EFER_SVME | EFER_LMSLE | EFER_FFXSR | EFER_TCE);
+			break;
+		case 4:
+			regs.rflags ^= val & ((1 << 8) | (1 << 9) | (1 << 10) | (1 << 12) | (1 << 13) | (1 << 14) |
+					      (1 << 15) | (1 << 18) | (1 << 19) | (1 << 20) | (1 << 21));
+			break;
+		}
+	}
+	regs.rflags |= 2;
+
+	sregs.gdt.base = guest_mem + ADDR_GDT;
+	sregs.gdt.limit = 256 * sizeof(uint64_t) - 1;
+	uint64_t* gdt = (uint64_t*)(host_mem + sregs.gdt.base);
+
+	struct kvm_segment seg_ldt;
+	seg_ldt.selector = SEL_LDT;
+	seg_ldt.type = 2;
+	seg_ldt.base = guest_mem + ADDR_LDT;
+	seg_ldt.limit = 256 * sizeof(uint64_t) - 1;
+	seg_ldt.present = 1;
+	seg_ldt.dpl = 0;
+	seg_ldt.s = 0;
+	seg_ldt.g = 0;
+	seg_ldt.db = 1;
+	seg_ldt.l = 0;
+	uint64_t* ldt = (uint64_t*)(host_mem + sregs.ldt.base);
+	fill_segment_descriptor(gdt, ldt, &seg_ldt);
+	sregs.ldt = seg_ldt;
+
+	struct kvm_segment seg_cs16;
+	seg_cs16.selector = SEL_CS16;
+	seg_cs16.type = 11;
+	seg_cs16.base = 0;
+	seg_cs16.limit = 0xfffff;
+	seg_cs16.present = 1;
+	seg_cs16.dpl = 0;
+	seg_cs16.s = 1;
+	seg_cs16.g = 0;
+	seg_cs16.db = 0;
+	seg_cs16.l = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_cs16);
+
+	struct kvm_segment seg_ds16 = seg_cs16;
+	seg_ds16.selector = SEL_DS16;
+	seg_ds16.type = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_ds16);
+
+	struct kvm_segment seg_cs16_cpl3 = seg_cs16;
+	seg_cs16_cpl3.selector = SEL_CS16_CPL3;
+	seg_cs16_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_cs16_cpl3);
+
+	struct kvm_segment seg_ds16_cpl3 = seg_ds16;
+	seg_ds16_cpl3.selector = SEL_DS16_CPL3;
+	seg_ds16_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_ds16_cpl3);
+
+	struct kvm_segment seg_cs32 = seg_cs16;
+	seg_cs32.selector = SEL_CS32;
+	seg_cs32.db = 1;
+	fill_segment_descriptor(gdt, ldt, &seg_cs32);
+
+	struct kvm_segment seg_ds32 = seg_ds16;
+	seg_ds32.selector = SEL_DS32;
+	seg_ds32.db = 1;
+	fill_segment_descriptor(gdt, ldt, &seg_ds32);
+
+	struct kvm_segment seg_cs32_cpl3 = seg_cs32;
+	seg_cs32_cpl3.selector = SEL_CS32_CPL3;
+	seg_cs32_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_cs32_cpl3);
+
+	struct kvm_segment seg_ds32_cpl3 = seg_ds32;
+	seg_ds32_cpl3.selector = SEL_DS32_CPL3;
+	seg_ds32_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_ds32_cpl3);
+
+	struct kvm_segment seg_cs64 = seg_cs16;
+	seg_cs64.selector = SEL_CS64;
+	seg_cs64.l = 1;
+	fill_segment_descriptor(gdt, ldt, &seg_cs64);
+
+	struct kvm_segment seg_ds64 = seg_ds32;
+	seg_ds64.selector = SEL_DS64;
+	fill_segment_descriptor(gdt, ldt, &seg_ds64);
+
+	struct kvm_segment seg_cs64_cpl3 = seg_cs64;
+	seg_cs64_cpl3.selector = SEL_CS64_CPL3;
+	seg_cs64_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_cs64_cpl3);
+
+	struct kvm_segment seg_ds64_cpl3 = seg_ds64;
+	seg_ds64_cpl3.selector = SEL_DS64_CPL3;
+	seg_ds64_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_ds64_cpl3);
+
+	struct kvm_segment seg_tss32;
+	seg_tss32.selector = SEL_TSS32;
+	seg_tss32.type = 9;
+	seg_tss32.base = ADDR_VAR_TSS32;
+	seg_tss32.limit = 0x1ff;
+	seg_tss32.present = 1;
+	seg_tss32.dpl = 0;
+	seg_tss32.s = 0;
+	seg_tss32.g = 0;
+	seg_tss32.db = 0;
+	seg_tss32.l = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_tss32);
+
+	struct kvm_segment seg_tss32_2 = seg_tss32;
+	seg_tss32_2.selector = SEL_TSS32_2;
+	seg_tss32_2.base = ADDR_VAR_TSS32_2;
+	fill_segment_descriptor(gdt, ldt, &seg_tss32_2);
+
+	struct kvm_segment seg_tss32_cpl3 = seg_tss32;
+	seg_tss32_cpl3.selector = SEL_TSS32_CPL3;
+	seg_tss32_cpl3.base = ADDR_VAR_TSS32_CPL3;
+	fill_segment_descriptor(gdt, ldt, &seg_tss32_cpl3);
+
+	struct kvm_segment seg_tss32_vm86 = seg_tss32;
+	seg_tss32_vm86.selector = SEL_TSS32_VM86;
+	seg_tss32_vm86.base = ADDR_VAR_TSS32_VM86;
+	fill_segment_descriptor(gdt, ldt, &seg_tss32_vm86);
+
+	struct kvm_segment seg_tss16 = seg_tss32;
+	seg_tss16.selector = SEL_TSS16;
+	seg_tss16.base = ADDR_VAR_TSS16;
+	seg_tss16.limit = 0xff;
+	seg_tss16.type = 1;
+	fill_segment_descriptor(gdt, ldt, &seg_tss16);
+
+	struct kvm_segment seg_tss16_2 = seg_tss16;
+	seg_tss16_2.selector = SEL_TSS16_2;
+	seg_tss16_2.base = ADDR_VAR_TSS16_2;
+	seg_tss16_2.dpl = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_tss16_2);
+
+	struct kvm_segment seg_tss16_cpl3 = seg_tss16;
+	seg_tss16_cpl3.selector = SEL_TSS16_CPL3;
+	seg_tss16_cpl3.base = ADDR_VAR_TSS16_CPL3;
+	seg_tss16_cpl3.dpl = 3;
+	fill_segment_descriptor(gdt, ldt, &seg_tss16_cpl3);
+
+	struct kvm_segment seg_tss64 = seg_tss32;
+	seg_tss64.selector = SEL_TSS64;
+	seg_tss64.base = ADDR_VAR_TSS64;
+	seg_tss64.limit = 0x1ff;
+	fill_segment_descriptor_dword(gdt, ldt, &seg_tss64);
+
+	struct kvm_segment seg_tss64_cpl3 = seg_tss64;
+	seg_tss64_cpl3.selector = SEL_TSS64_CPL3;
+	seg_tss64_cpl3.base = ADDR_VAR_TSS64_CPL3;
+	seg_tss64_cpl3.dpl = 3;
+	fill_segment_descriptor_dword(gdt, ldt, &seg_tss64_cpl3);
+
+	struct kvm_segment seg_cgate16;
+	seg_cgate16.selector = SEL_CGATE16;
+	seg_cgate16.type = 4;
+	seg_cgate16.base = SEL_CS16 | (2 << 16);
+	seg_cgate16.limit = ADDR_VAR_USER_CODE2;
+	seg_cgate16.present = 1;
+	seg_cgate16.dpl = 0;
+	seg_cgate16.s = 0;
+	seg_cgate16.g = 0;
+	seg_cgate16.db = 0;
+	seg_cgate16.l = 0;
+	seg_cgate16.avl = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_cgate16);
+
+	struct kvm_segment seg_tgate16 = seg_cgate16;
+	seg_tgate16.selector = SEL_TGATE16;
+	seg_tgate16.type = 3;
+	seg_cgate16.base = SEL_TSS16_2;
+	seg_tgate16.limit = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_tgate16);
+
+	struct kvm_segment seg_cgate32 = seg_cgate16;
+	seg_cgate32.selector = SEL_CGATE32;
+	seg_cgate32.type = 12;
+	seg_cgate32.base = SEL_CS32 | (2 << 16);
+	fill_segment_descriptor(gdt, ldt, &seg_cgate32);
+
+	struct kvm_segment seg_tgate32 = seg_cgate32;
+	seg_tgate32.selector = SEL_TGATE32;
+	seg_tgate32.type = 11;
+	seg_tgate32.base = SEL_TSS32_2;
+	seg_tgate32.limit = 0;
+	fill_segment_descriptor(gdt, ldt, &seg_tgate32);
+
+	struct kvm_segment seg_cgate64 = seg_cgate16;
+	seg_cgate64.selector = SEL_CGATE64;
+	seg_cgate64.type = 12;
+	seg_cgate64.base = SEL_CS64;
+	fill_segment_descriptor_dword(gdt, ldt, &seg_cgate64);
+
+	int kvmfd = open("/dev/kvm", O_RDWR);
+	char buf[sizeof(kvm_cpuid2) + 128 * sizeof(struct kvm_cpuid_entry2)];
+	memset(buf, 0, sizeof(buf));
+	struct kvm_cpuid2* cpuid = (struct kvm_cpuid2*)buf;
+	cpuid->nent = 128;
+	ioctl(kvmfd, KVM_GET_SUPPORTED_CPUID, cpuid);
+	ioctl(cpufd, KVM_SET_CPUID2, cpuid);
+	close(kvmfd);
+
+	const char* text_prefix;
+	int text_prefix_size = 0;
+	char* host_text = host_mem + ADDR_TEXT;
+
+	if (text_type == 16) {
+		if (flags & KVM_SETUP_SMM) {
+			if (flags & KVM_SETUP_PROTECTED) {
+				sregs.cs = seg_cs16;
+				sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds16;
+				sregs.cr0 |= CR0_PE;
+			} else {
+				sregs.cs.selector = 0;
+				sregs.cs.base = 0;
+			}
+
+			NONFAILING(*(host_mem + ADDR_TEXT) = 0xf4);
+			host_text = host_mem + 0x8000;
+
+			ioctl(cpufd, KVM_SMI, 0);
+		} else if (flags & KVM_SETUP_VIRT86) {
+			sregs.cs = seg_cs32;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32;
+			sregs.cr0 |= CR0_PE;
+			sregs.efer |= EFER_SCE;
+
+			setup_syscall_msrs(cpufd, SEL_CS32, SEL_CS32_CPL3);
+			setup_32bit_idt(&sregs, host_mem, guest_mem);
+
+			if (flags & KVM_SETUP_PAGING) {
+				uint64_t pd_addr = guest_mem + ADDR_PD;
+				uint64_t* pd = (uint64_t*)(host_mem + ADDR_PD);
+				NONFAILING(pd[0] = PDE32_PRESENT | PDE32_RW | PDE32_USER | PDE32_PS);
+				sregs.cr3 = pd_addr;
+				sregs.cr4 |= CR4_PSE;
+
+				text_prefix = kvm_asm32_paged_vm86;
+				text_prefix_size = sizeof(kvm_asm32_paged_vm86) - 1;
+			} else {
+				text_prefix = kvm_asm32_vm86;
+				text_prefix_size = sizeof(kvm_asm32_vm86) - 1;
+			}
+		} else if (flags & KVM_SETUP_PROTECTED) {
+			sregs.cr0 |= CR0_PE;
+			sregs.cs = seg_cs16;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds16;
+		} else if (flags & KVM_SETUP_CPL3) {
+			sregs.cs = seg_cs16;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds16;
+
+			text_prefix = kvm_asm16_cpl3;
+			text_prefix_size = sizeof(kvm_asm16_cpl3) - 1;
+		} else {
+			sregs.cs.selector = 0;
+			sregs.cs.base = 0;
+		}
+	} else if (text_type == 32) {
+		sregs.cr0 |= CR0_PE;
+		sregs.efer |= EFER_SCE;
+
+		setup_syscall_msrs(cpufd, SEL_CS32, SEL_CS32_CPL3);
+		setup_32bit_idt(&sregs, host_mem, guest_mem);
+
+		if (flags & KVM_SETUP_SMM) {
+			sregs.cs = seg_cs32;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32;
+
+			NONFAILING(*(host_mem + ADDR_TEXT) = 0xf4);
+			host_text = host_mem + 0x8000;
+
+			ioctl(cpufd, KVM_SMI, 0);
+		} else if (flags & KVM_SETUP_PAGING) {
+			sregs.cs = seg_cs32;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32;
+
+			uint64_t pd_addr = guest_mem + ADDR_PD;
+			uint64_t* pd = (uint64_t*)(host_mem + ADDR_PD);
+			NONFAILING(pd[0] = PDE32_PRESENT | PDE32_RW | PDE32_USER | PDE32_PS);
+			sregs.cr3 = pd_addr;
+			sregs.cr4 |= CR4_PSE;
+
+			text_prefix = kvm_asm32_paged;
+			text_prefix_size = sizeof(kvm_asm32_paged) - 1;
+		} else if (flags & KVM_SETUP_CPL3) {
+			sregs.cs = seg_cs32_cpl3;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32_cpl3;
+		} else {
+			sregs.cs = seg_cs32;
+			sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32;
+		}
+	} else {
+		sregs.efer |= EFER_LME | EFER_SCE;
+		sregs.cr0 |= CR0_PE;
+
+		setup_syscall_msrs(cpufd, SEL_CS64, SEL_CS64_CPL3);
+		setup_64bit_idt(&sregs, host_mem, guest_mem);
+
+		sregs.cs = seg_cs32;
+		sregs.ds = sregs.es = sregs.fs = sregs.gs = sregs.ss = seg_ds32;
+
+		uint64_t pml4_addr = guest_mem + ADDR_PML4;
+		uint64_t* pml4 = (uint64_t*)(host_mem + ADDR_PML4);
+		uint64_t pdpt_addr = guest_mem + ADDR_PDP;
+		uint64_t* pdpt = (uint64_t*)(host_mem + ADDR_PDP);
+		uint64_t pd_addr = guest_mem + ADDR_PD;
+		uint64_t* pd = (uint64_t*)(host_mem + ADDR_PD);
+		NONFAILING(pml4[0] = PDE64_PRESENT | PDE64_RW | PDE64_USER | pdpt_addr);
+		NONFAILING(pdpt[0] = PDE64_PRESENT | PDE64_RW | PDE64_USER | pd_addr);
+		NONFAILING(pd[0] = PDE64_PRESENT | PDE64_RW | PDE64_USER | PDE64_PS);
+		sregs.cr3 = pml4_addr;
+		sregs.cr4 |= CR4_PAE;
+
+		if (flags & KVM_SETUP_VM) {
+			sregs.cr0 |= CR0_NE;
+
+			NONFAILING(*((uint64_t*)(host_mem + ADDR_VAR_VMXON_PTR)) = ADDR_VAR_VMXON);
+			NONFAILING(*((uint64_t*)(host_mem + ADDR_VAR_VMCS_PTR)) = ADDR_VAR_VMCS);
+			NONFAILING(memcpy(host_mem + ADDR_VAR_VMEXIT_CODE, kvm_asm64_vm_exit, sizeof(kvm_asm64_vm_exit) - 1));
+			NONFAILING(*((uint64_t*)(host_mem + ADDR_VAR_VMEXIT_PTR)) = ADDR_VAR_VMEXIT_CODE);
+
+			text_prefix = kvm_asm64_init_vm;
+			text_prefix_size = sizeof(kvm_asm64_init_vm) - 1;
+		} else if (flags & KVM_SETUP_CPL3) {
+			text_prefix = kvm_asm64_cpl3;
+			text_prefix_size = sizeof(kvm_asm64_cpl3) - 1;
+		} else {
+			text_prefix = kvm_asm64_enable_long;
+			text_prefix_size = sizeof(kvm_asm64_enable_long) - 1;
+		}
+	}
+
+	NONFAILING(
+	    struct tss16* tss = (struct tss16*)(host_mem + seg_tss16_2.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->ss0 = tss->ss1 = tss->ss2 = SEL_DS16;
+	    tss->sp0 = tss->sp1 = tss->sp2 = ADDR_STACK0;
+	    tss->ip = ADDR_VAR_USER_CODE2;
+	    tss->flags = (1 << 1);
+	    tss->cs = SEL_CS16;
+	    tss->es = tss->ds = tss->ss = SEL_DS16;
+	    tss->ldt = SEL_LDT);
+	NONFAILING(
+	    struct tss16* tss = (struct tss16*)(host_mem + seg_tss16_cpl3.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->ss0 = tss->ss1 = tss->ss2 = SEL_DS16;
+	    tss->sp0 = tss->sp1 = tss->sp2 = ADDR_STACK0;
+	    tss->ip = ADDR_VAR_USER_CODE2;
+	    tss->flags = (1 << 1);
+	    tss->cs = SEL_CS16_CPL3;
+	    tss->es = tss->ds = tss->ss = SEL_DS16_CPL3;
+	    tss->ldt = SEL_LDT);
+	NONFAILING(
+	    struct tss32* tss = (struct tss32*)(host_mem + seg_tss32_vm86.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->ss0 = tss->ss1 = tss->ss2 = SEL_DS32;
+	    tss->sp0 = tss->sp1 = tss->sp2 = ADDR_STACK0;
+	    tss->ip = ADDR_VAR_USER_CODE;
+	    tss->flags = (1 << 1) | (1 << 17);
+	    tss->ldt = SEL_LDT;
+	    tss->cr3 = sregs.cr3;
+	    tss->io_bitmap = offsetof(struct tss32, io_bitmap));
+	NONFAILING(
+	    struct tss32* tss = (struct tss32*)(host_mem + seg_tss32_2.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->ss0 = tss->ss1 = tss->ss2 = SEL_DS32;
+	    tss->sp0 = tss->sp1 = tss->sp2 = ADDR_STACK0;
+	    tss->ip = ADDR_VAR_USER_CODE;
+	    tss->flags = (1 << 1);
+	    tss->cr3 = sregs.cr3;
+	    tss->es = tss->ds = tss->ss = tss->gs = tss->fs = SEL_DS32;
+	    tss->cs = SEL_CS32;
+	    tss->ldt = SEL_LDT;
+	    tss->cr3 = sregs.cr3;
+	    tss->io_bitmap = offsetof(struct tss32, io_bitmap));
+	NONFAILING(
+	    struct tss64* tss = (struct tss64*)(host_mem + seg_tss64.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->rsp[0] = ADDR_STACK0;
+	    tss->rsp[1] = ADDR_STACK0;
+	    tss->rsp[2] = ADDR_STACK0;
+	    tss->io_bitmap = offsetof(struct tss64, io_bitmap));
+	NONFAILING(
+	    struct tss64* tss = (struct tss64*)(host_mem + seg_tss64_cpl3.base);
+	    memset(tss, 0, sizeof(*tss));
+	    tss->rsp[0] = ADDR_STACK0;
+	    tss->rsp[1] = ADDR_STACK0;
+	    tss->rsp[2] = ADDR_STACK0;
+	    tss->io_bitmap = offsetof(struct tss64, io_bitmap));
+
+	if (text_size > 1000)
+		text_size = 1000;
+	if (text_prefix) {
+		NONFAILING(memcpy(host_text, text_prefix, text_prefix_size));
+		void* patch = 0;
+		NONFAILING(patch = memmem(host_text, text_prefix_size, "\xde\xc0\xad\x0b", 4));
+		if (patch)
+			NONFAILING(*((uint32_t*)patch) = guest_mem + ADDR_TEXT + ((char*)patch - host_text) + 6);
+		uint16_t magic = PREFIX_SIZE;
+		patch = 0;
+		NONFAILING(patch = memmem(host_text, text_prefix_size, &magic, sizeof(magic)));
+		if (patch)
+			NONFAILING(*((uint16_t*)patch) = guest_mem + ADDR_TEXT + text_prefix_size);
+	}
+	NONFAILING(memcpy((void*)(host_text + text_prefix_size), text, text_size));
+	NONFAILING(*(host_text + text_prefix_size + text_size) = 0xf4);
+
+	NONFAILING(memcpy(host_mem + ADDR_VAR_USER_CODE, text, text_size));
+	NONFAILING(*(host_mem + ADDR_VAR_USER_CODE + text_size) = 0xf4);
+
+	NONFAILING(*(host_mem + ADDR_VAR_HLT) = 0xf4);
+	NONFAILING(memcpy(host_mem + ADDR_VAR_SYSRET, "\x0f\x07\xf4", 3));
+	NONFAILING(memcpy(host_mem + ADDR_VAR_SYSEXIT, "\x0f\x35\xf4", 3));
+
+	if (ioctl(cpufd, KVM_SET_SREGS, &sregs))
+		return -1;
+	if (ioctl(cpufd, KVM_SET_REGS, &regs))
+		return -1;
+	return 0;
+}
+#endif
+
 static uintptr_t execute_syscall(int nr, uintptr_t a0, uintptr_t a1, uintptr_t a2, uintptr_t a3, uintptr_t a4, uintptr_t a5, uintptr_t a6, uintptr_t a7, uintptr_t a8)
 {
 	switch (nr) {
@@ -369,6 +1199,10 @@ static uintptr_t execute_syscall(int nr, uintptr_t a0, uintptr_t a1, uintptr_t a
 	case __NR_syz_emit_ethernet:
 		return syz_emit_ethernet(a0, a1);
 #endif
+#ifdef __NR_syz_kvm_setup_cpu
+	case __NR_syz_kvm_setup_cpu:
+		return syz_kvm_setup_cpu(a0, a1, a2, a3, a4, a5, a6, a7);
+#endif
 	}
 }
 
diff --git a/csource/csource.go b/csource/csource.go
index 764db92ed..8f8a080f5 100644
--- a/csource/csource.go
+++ b/csource/csource.go
@@ -1,7 +1,8 @@
 // Copyright 2015 syzkaller project authors. All rights reserved.
 // Use of this source code is governed by Apache 2 LICENSE that can be found in the LICENSE file.
 
-//go:generate bash -c "echo -e '// AUTOGENERATED FROM executor/common.h\npackage csource\nvar commonHeader = `' > common.go; cat ../executor/common.h | egrep -v '^[   ]*//' | sed '/^[ 	]*\\/\\/.*/d' | sed 's#[ 	]*//.*##g' >> common.go; echo '`' >> common.go"
+// I heard you like shell...
+//go:generate bash -c "echo -e '// AUTOGENERATED FROM executor/common.h\npackage csource\nvar commonHeader = `' > common.go; cat ../executor/common.h | sed -e '/#include \"common_kvm.h\"/ {' -e 'r ../executor/common_kvm.h' -e 'd' -e '}' - | sed -e '/#include \"kvm.h\"/ {' -e 'r ../executor/kvm.h' -e 'd' -e '}' - | sed -e '/#include \"kvm.S.h\"/ {' -e 'r ../executor/kvm.S.h' -e 'd' -e '}' - | egrep -v '^[   ]*//' | sed '/^[ 	]*\\/\\/.*/d' | sed 's#[ 	]*//.*##g' >> common.go; echo '`' >> common.go"
 
 package csource