sys/linux/init_vusb.go - platform/external/syzkaller - Git at Google

 // Copyright 2019 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.

 package linux

 import (
 	"encoding/binary"
 	"fmt"
 	"strings"

 	"github.com/google/syzkaller/prog"
 )

 const (
 	USB_DEVICE_ID_MATCH_VENDOR = 1 << iota
 	USB_DEVICE_ID_MATCH_PRODUCT
 	USB_DEVICE_ID_MATCH_DEV_LO
 	USB_DEVICE_ID_MATCH_DEV_HI
 	USB_DEVICE_ID_MATCH_DEV_CLASS
 	USB_DEVICE_ID_MATCH_DEV_SUBCLASS
 	USB_DEVICE_ID_MATCH_DEV_PROTOCOL
 	USB_DEVICE_ID_MATCH_INT_CLASS
 	USB_DEVICE_ID_MATCH_INT_SUBCLASS
 	USB_DEVICE_ID_MATCH_INT_PROTOCOL
 	USB_DEVICE_ID_MATCH_INT_NUMBER

 	BytesPerUsbID = 17
 	BytesPerHidID = 12
 )

 type UsbDeviceID struct {
 	MatchFlags         uint16
 	IDVendor           uint16
 	IDProduct          uint16
 	BcdDeviceLo        uint16
 	BcdDeviceHi        uint16
 	BDeviceClass       uint8
 	BDeviceSubClass    uint8
 	BDeviceProtocol    uint8
 	BInterfaceClass    uint8
 	BInterfaceSubClass uint8
 	BInterfaceProtocol uint8
 	BInterfaceNumber   uint8
 }

 type HidDeviceID struct {
 	Bus     uint16
 	Group   uint16
 	Vendor  uint32
 	Product uint32
 }

 func (arch *arch) generateUsbDeviceDescriptor(g *prog.Gen, typ0 prog.Type, old prog.Arg) (
 	arg prog.Arg, calls []*prog.Call) {

 	if old == nil {
 		arg = g.GenerateSpecialArg(typ0, &calls)
 	} else {
 		arg = old
 		calls = g.MutateArg(arg)
 	}
 	if g.Target().ArgContainsAny(arg) {
 		return
 	}

 	id := randUsbDeviceID(g)
 	bcdDevice := id.BcdDeviceLo + uint16(g.Rand().Intn(int(id.BcdDeviceHi-id.BcdDeviceLo)+1))

 	devArg := arg.(*prog.GroupArg).Inner[0]
 	patchGroupArg(devArg, 7, "idVendor", uint64(id.IDVendor))
 	patchGroupArg(devArg, 8, "idProduct", uint64(id.IDProduct))
 	patchGroupArg(devArg, 9, "bcdDevice", uint64(bcdDevice))
 	patchGroupArg(devArg, 3, "bDeviceClass", uint64(id.BDeviceClass))
 	patchGroupArg(devArg, 4, "bDeviceSubClass", uint64(id.BDeviceSubClass))
 	patchGroupArg(devArg, 5, "bDeviceProtocol", uint64(id.BDeviceProtocol))

 	configArg := devArg.(*prog.GroupArg).Inner[14].(*prog.GroupArg).Inner[0].(*prog.GroupArg).Inner[0]
 	interfacesArg := configArg.(*prog.GroupArg).Inner[8]

 	for i, interfaceArg := range interfacesArg.(*prog.GroupArg).Inner {
 		interfaceArg = interfaceArg.(*prog.GroupArg).Inner[0]
 		if i > 0 {
 			// Generate new IDs for every interface after the first one.
 			id = randUsbDeviceID(g)
 		}
 		patchGroupArg(interfaceArg, 5, "bInterfaceClass", uint64(id.BInterfaceClass))
 		patchGroupArg(interfaceArg, 6, "bInterfaceSubClass", uint64(id.BInterfaceSubClass))
 		patchGroupArg(interfaceArg, 7, "bInterfaceProtocol", uint64(id.BInterfaceProtocol))
 		patchGroupArg(interfaceArg, 2, "bInterfaceNumber", uint64(id.BInterfaceNumber))
 	}

 	return
 }

 func randUsbDeviceID(g *prog.Gen) UsbDeviceID {
 	totalIds := len(usbIds) / BytesPerUsbID
 	idNum := g.Rand().Intn(totalIds)
 	base := usbIds[idNum*BytesPerUsbID : (idNum+1)*BytesPerUsbID]

 	p := strings.NewReader(base)
 	var id UsbDeviceID
 	if binary.Read(p, binary.LittleEndian, &id) != nil {
 		panic("not enough data to read")
 	}

 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_VENDOR) == 0 {
 		id.IDVendor = uint16(g.Rand().Intn(0xffff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_PRODUCT) == 0 {
 		id.IDProduct = uint16(g.Rand().Intn(0xffff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_LO) == 0 {
 		id.BcdDeviceLo = 0x0
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_HI) == 0 {
 		id.BcdDeviceHi = 0xffff
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_CLASS) == 0 {
 		id.BDeviceClass = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_SUBCLASS) == 0 {
 		id.BDeviceSubClass = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_PROTOCOL) == 0 {
 		id.BDeviceProtocol = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_CLASS) == 0 {
 		id.BInterfaceClass = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_SUBCLASS) == 0 {
 		id.BInterfaceSubClass = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_PROTOCOL) == 0 {
 		id.BInterfaceProtocol = uint8(g.Rand().Intn(0xff + 1))
 	}
 	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_NUMBER) == 0 {
 		id.BInterfaceNumber = uint8(g.Rand().Intn(0xff + 1))
 	}

 	return id
 }

 func (arch *arch) generateUsbHidDeviceDescriptor(g *prog.Gen, typ0 prog.Type, old prog.Arg) (
 	arg prog.Arg, calls []*prog.Call) {

 	if old == nil {
 		arg = g.GenerateSpecialArg(typ0, &calls)
 	} else {
 		arg = old
 		calls = g.MutateArg(arg)
 	}
 	if g.Target().ArgContainsAny(arg) {
 		return
 	}

 	totalIds := len(hidIds) / BytesPerHidID
 	idNum := g.Rand().Intn(totalIds)
 	base := hidIds[idNum*BytesPerHidID : (idNum+1)*BytesPerHidID]

 	p := strings.NewReader(base)
 	var id HidDeviceID
 	if binary.Read(p, binary.LittleEndian, &id) != nil {
 		panic("not enough data to read")
 	}

 	devArg := arg.(*prog.GroupArg).Inner[0]
 	patchGroupArg(devArg, 7, "idVendor", uint64(id.Vendor))
 	patchGroupArg(devArg, 8, "idProduct", uint64(id.Product))

 	return
 }

 func patchGroupArg(arg prog.Arg, index int, field string, value uint64) {
 	fieldArg := arg.(*prog.GroupArg).Inner[index].(*prog.ConstArg)
 	if fieldArg.Type().FieldName() != field {
 		panic(fmt.Sprintf("bad field, expected %v, found %v", field, fieldArg.Type().FieldName()))
 	}
 	fieldArg.Val = value
 }
	// Copyright 2019 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.

	package linux

	import (
	"encoding/binary"
	"fmt"
	"strings"

	"github.com/google/syzkaller/prog"
	)

	const (
	USB_DEVICE_ID_MATCH_VENDOR = 1 << iota
	USB_DEVICE_ID_MATCH_PRODUCT
	USB_DEVICE_ID_MATCH_DEV_LO
	USB_DEVICE_ID_MATCH_DEV_HI
	USB_DEVICE_ID_MATCH_DEV_CLASS
	USB_DEVICE_ID_MATCH_DEV_SUBCLASS
	USB_DEVICE_ID_MATCH_DEV_PROTOCOL
	USB_DEVICE_ID_MATCH_INT_CLASS
	USB_DEVICE_ID_MATCH_INT_SUBCLASS
	USB_DEVICE_ID_MATCH_INT_PROTOCOL
	USB_DEVICE_ID_MATCH_INT_NUMBER

	BytesPerUsbID = 17
	BytesPerHidID = 12
	)

	type UsbDeviceID struct {
	MatchFlags uint16
	IDVendor uint16
	IDProduct uint16
	BcdDeviceLo uint16
	BcdDeviceHi uint16
	BDeviceClass uint8
	BDeviceSubClass uint8
	BDeviceProtocol uint8
	BInterfaceClass uint8
	BInterfaceSubClass uint8
	BInterfaceProtocol uint8
	BInterfaceNumber uint8
	}

	type HidDeviceID struct {
	Bus uint16
	Group uint16
	Vendor uint32
	Product uint32
	}

	func (arch arch) generateUsbDeviceDescriptor(g prog.Gen, typ0 prog.Type, old prog.Arg) (
	arg prog.Arg, calls []*prog.Call) {

	if old == nil {
	arg = g.GenerateSpecialArg(typ0, &calls)
	} else {
	arg = old
	calls = g.MutateArg(arg)
	}
	if g.Target().ArgContainsAny(arg) {
	return
	}

	id := randUsbDeviceID(g)
	bcdDevice := id.BcdDeviceLo + uint16(g.Rand().Intn(int(id.BcdDeviceHi-id.BcdDeviceLo)+1))

	devArg := arg.(*prog.GroupArg).Inner[0]
	patchGroupArg(devArg, 7, "idVendor", uint64(id.IDVendor))
	patchGroupArg(devArg, 8, "idProduct", uint64(id.IDProduct))
	patchGroupArg(devArg, 9, "bcdDevice", uint64(bcdDevice))
	patchGroupArg(devArg, 3, "bDeviceClass", uint64(id.BDeviceClass))
	patchGroupArg(devArg, 4, "bDeviceSubClass", uint64(id.BDeviceSubClass))
	patchGroupArg(devArg, 5, "bDeviceProtocol", uint64(id.BDeviceProtocol))

	configArg := devArg.(prog.GroupArg).Inner[14].(prog.GroupArg).Inner[0].(*prog.GroupArg).Inner[0]
	interfacesArg := configArg.(*prog.GroupArg).Inner[8]

	for i, interfaceArg := range interfacesArg.(*prog.GroupArg).Inner {
	interfaceArg = interfaceArg.(*prog.GroupArg).Inner[0]
	if i > 0 {
	// Generate new IDs for every interface after the first one.
	id = randUsbDeviceID(g)
	}
	patchGroupArg(interfaceArg, 5, "bInterfaceClass", uint64(id.BInterfaceClass))
	patchGroupArg(interfaceArg, 6, "bInterfaceSubClass", uint64(id.BInterfaceSubClass))
	patchGroupArg(interfaceArg, 7, "bInterfaceProtocol", uint64(id.BInterfaceProtocol))
	patchGroupArg(interfaceArg, 2, "bInterfaceNumber", uint64(id.BInterfaceNumber))
	}

	return
	}

	func randUsbDeviceID(g *prog.Gen) UsbDeviceID {
	totalIds := len(usbIds) / BytesPerUsbID
	idNum := g.Rand().Intn(totalIds)
	base := usbIds[idNumBytesPerUsbID : (idNum+1)BytesPerUsbID]

	p := strings.NewReader(base)
	var id UsbDeviceID
	if binary.Read(p, binary.LittleEndian, &id) != nil {
	panic("not enough data to read")
	}

	if (id.MatchFlags & USB_DEVICE_ID_MATCH_VENDOR) == 0 {
	id.IDVendor = uint16(g.Rand().Intn(0xffff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_PRODUCT) == 0 {
	id.IDProduct = uint16(g.Rand().Intn(0xffff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_LO) == 0 {
	id.BcdDeviceLo = 0x0
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_HI) == 0 {
	id.BcdDeviceHi = 0xffff
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_CLASS) == 0 {
	id.BDeviceClass = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_SUBCLASS) == 0 {
	id.BDeviceSubClass = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_DEV_PROTOCOL) == 0 {
	id.BDeviceProtocol = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_CLASS) == 0 {
	id.BInterfaceClass = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_SUBCLASS) == 0 {
	id.BInterfaceSubClass = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_PROTOCOL) == 0 {
	id.BInterfaceProtocol = uint8(g.Rand().Intn(0xff + 1))
	}
	if (id.MatchFlags & USB_DEVICE_ID_MATCH_INT_NUMBER) == 0 {
	id.BInterfaceNumber = uint8(g.Rand().Intn(0xff + 1))
	}

	return id
	}

	func (arch arch) generateUsbHidDeviceDescriptor(g prog.Gen, typ0 prog.Type, old prog.Arg) (
	arg prog.Arg, calls []*prog.Call) {

	if old == nil {
	arg = g.GenerateSpecialArg(typ0, &calls)
	} else {
	arg = old
	calls = g.MutateArg(arg)
	}
	if g.Target().ArgContainsAny(arg) {
	return
	}

	totalIds := len(hidIds) / BytesPerHidID
	idNum := g.Rand().Intn(totalIds)
	base := hidIds[idNumBytesPerHidID : (idNum+1)BytesPerHidID]

	p := strings.NewReader(base)
	var id HidDeviceID
	if binary.Read(p, binary.LittleEndian, &id) != nil {
	panic("not enough data to read")
	}

	devArg := arg.(*prog.GroupArg).Inner[0]
	patchGroupArg(devArg, 7, "idVendor", uint64(id.Vendor))
	patchGroupArg(devArg, 8, "idProduct", uint64(id.Product))

	return
	}

	func patchGroupArg(arg prog.Arg, index int, field string, value uint64) {
	fieldArg := arg.(prog.GroupArg).Inner[index].(prog.ConstArg)
	if fieldArg.Type().FieldName() != field {
	panic(fmt.Sprintf("bad field, expected %v, found %v", field, fieldArg.Type().FieldName()))
	}
	fieldArg.Val = value
	}