[govpp.git] / internal / testbinapi / binapi2001 / avf / avf.ba.go

// Code generated by GoVPP's binapi-generator. DO NOT EDIT.
// versions:
//  binapi-generator: v0.4.0-dev
//  VPP:              20.01
// source: .vppapi/plugins/avf.api.json

// Package avf contains generated bindings for API file avf.api.
//
// Contents:
//   1 alias
//   6 enums
//   4 messages
//
package avf

import (
        api "git.fd.io/govpp.git/api"
        codec "git.fd.io/govpp.git/codec"
        "strconv"
)

// This is a compile-time assertion to ensure that this generated file
// is compatible with the GoVPP api package it is being compiled against.
// A compilation error at this line likely means your copy of the
// GoVPP api package needs to be updated.
const _ = api.GoVppAPIPackageIsVersion2

const (
        APIFile    = "avf"
        APIVersion = "1.0.0"
        VersionCrc = 0xb7c68e1d
)

// IfStatusFlags defines enum 'if_status_flags'.
type IfStatusFlags uint32

const (
        IF_STATUS_API_FLAG_ADMIN_UP IfStatusFlags = 1
        IF_STATUS_API_FLAG_LINK_UP  IfStatusFlags = 2
)

var (
        IfStatusFlags_name = map[uint32]string{
                1: "IF_STATUS_API_FLAG_ADMIN_UP",
                2: "IF_STATUS_API_FLAG_LINK_UP",
        }
        IfStatusFlags_value = map[string]uint32{
                "IF_STATUS_API_FLAG_ADMIN_UP": 1,
                "IF_STATUS_API_FLAG_LINK_UP":  2,
        }
)

func (x IfStatusFlags) String() string {
        s, ok := IfStatusFlags_name[uint32(x)]
        if ok {
                return s
        }
        str := func(n uint32) string {
                s, ok := IfStatusFlags_name[uint32(n)]
                if ok {
                        return s
                }
                return "IfStatusFlags(" + strconv.Itoa(int(n)) + ")"
        }
        for i := uint32(0); i <= 32; i++ {
                val := uint32(x)
                if val&(1<<i) != 0 {
                        if s != "" {
                                s += "|"
                        }
                        s += str(1 << i)
                }
        }
        if s == "" {
                return str(uint32(x))
        }
        return s
}

// IfType defines enum 'if_type'.
type IfType uint32

const (
        IF_API_TYPE_HARDWARE IfType = 1
        IF_API_TYPE_SUB      IfType = 2
        IF_API_TYPE_P2P      IfType = 3
        IF_API_TYPE_PIPE     IfType = 4
)

var (
        IfType_name = map[uint32]string{
                1: "IF_API_TYPE_HARDWARE",
                2: "IF_API_TYPE_SUB",
                3: "IF_API_TYPE_P2P",
                4: "IF_API_TYPE_PIPE",
        }
        IfType_value = map[string]uint32{
                "IF_API_TYPE_HARDWARE": 1,
                "IF_API_TYPE_SUB":      2,
                "IF_API_TYPE_P2P":      3,
                "IF_API_TYPE_PIPE":     4,
        }
)

func (x IfType) String() string {
        s, ok := IfType_name[uint32(x)]
        if ok {
                return s
        }
        return "IfType(" + strconv.Itoa(int(x)) + ")"
}

// LinkDuplex defines enum 'link_duplex'.
type LinkDuplex uint32

const (
        LINK_DUPLEX_API_UNKNOWN LinkDuplex = 0
        LINK_DUPLEX_API_HALF    LinkDuplex = 1
        LINK_DUPLEX_API_FULL    LinkDuplex = 2
)

var (
        LinkDuplex_name = map[uint32]string{
                0: "LINK_DUPLEX_API_UNKNOWN",
                1: "LINK_DUPLEX_API_HALF",
                2: "LINK_DUPLEX_API_FULL",
        }
        LinkDuplex_value = map[string]uint32{
                "LINK_DUPLEX_API_UNKNOWN": 0,
                "LINK_DUPLEX_API_HALF":    1,
                "LINK_DUPLEX_API_FULL":    2,
        }
)

func (x LinkDuplex) String() string {
        s, ok := LinkDuplex_name[uint32(x)]
        if ok {
                return s
        }
        return "LinkDuplex(" + strconv.Itoa(int(x)) + ")"
}

// MtuProto defines enum 'mtu_proto'.
type MtuProto uint32

const (
        MTU_PROTO_API_L3   MtuProto = 1
        MTU_PROTO_API_IP4  MtuProto = 2
        MTU_PROTO_API_IP6  MtuProto = 3
        MTU_PROTO_API_MPLS MtuProto = 4
        MTU_PROTO_API_N    MtuProto = 5
)

var (
        MtuProto_name = map[uint32]string{
                1: "MTU_PROTO_API_L3",
                2: "MTU_PROTO_API_IP4",
                3: "MTU_PROTO_API_IP6",
                4: "MTU_PROTO_API_MPLS",
                5: "MTU_PROTO_API_N",
        }
        MtuProto_value = map[string]uint32{
                "MTU_PROTO_API_L3":   1,
                "MTU_PROTO_API_IP4":  2,
                "MTU_PROTO_API_IP6":  3,
                "MTU_PROTO_API_MPLS": 4,
                "MTU_PROTO_API_N":    5,
        }
)

func (x MtuProto) String() string {
        s, ok := MtuProto_name[uint32(x)]
        if ok {
                return s
        }
        return "MtuProto(" + strconv.Itoa(int(x)) + ")"
}

// RxMode defines enum 'rx_mode'.
type RxMode uint32

const (
        RX_MODE_API_UNKNOWN   RxMode = 0
        RX_MODE_API_POLLING   RxMode = 1
        RX_MODE_API_INTERRUPT RxMode = 2
        RX_MODE_API_ADAPTIVE  RxMode = 3
        RX_MODE_API_DEFAULT   RxMode = 4
)

var (
        RxMode_name = map[uint32]string{
                0: "RX_MODE_API_UNKNOWN",
                1: "RX_MODE_API_POLLING",
                2: "RX_MODE_API_INTERRUPT",
                3: "RX_MODE_API_ADAPTIVE",
                4: "RX_MODE_API_DEFAULT",
        }
        RxMode_value = map[string]uint32{
                "RX_MODE_API_UNKNOWN":   0,
                "RX_MODE_API_POLLING":   1,
                "RX_MODE_API_INTERRUPT": 2,
                "RX_MODE_API_ADAPTIVE":  3,
                "RX_MODE_API_DEFAULT":   4,
        }
)

func (x RxMode) String() string {
        s, ok := RxMode_name[uint32(x)]
        if ok {
                return s
        }
        return "RxMode(" + strconv.Itoa(int(x)) + ")"
}

// SubIfFlags defines enum 'sub_if_flags'.
type SubIfFlags uint32

const (
        SUB_IF_API_FLAG_NO_TAGS           SubIfFlags = 1
        SUB_IF_API_FLAG_ONE_TAG           SubIfFlags = 2
        SUB_IF_API_FLAG_TWO_TAGS          SubIfFlags = 4
        SUB_IF_API_FLAG_DOT1AD            SubIfFlags = 8
        SUB_IF_API_FLAG_EXACT_MATCH       SubIfFlags = 16
        SUB_IF_API_FLAG_DEFAULT           SubIfFlags = 32
        SUB_IF_API_FLAG_OUTER_VLAN_ID_ANY SubIfFlags = 64
        SUB_IF_API_FLAG_INNER_VLAN_ID_ANY SubIfFlags = 128
        SUB_IF_API_FLAG_MASK_VNET         SubIfFlags = 254
        SUB_IF_API_FLAG_DOT1AH            SubIfFlags = 256
)

var (
        SubIfFlags_name = map[uint32]string{
                1:   "SUB_IF_API_FLAG_NO_TAGS",
                2:   "SUB_IF_API_FLAG_ONE_TAG",
                4:   "SUB_IF_API_FLAG_TWO_TAGS",
                8:   "SUB_IF_API_FLAG_DOT1AD",
                16:  "SUB_IF_API_FLAG_EXACT_MATCH",
                32:  "SUB_IF_API_FLAG_DEFAULT",
                64:  "SUB_IF_API_FLAG_OUTER_VLAN_ID_ANY",
                128: "SUB_IF_API_FLAG_INNER_VLAN_ID_ANY",
                254: "SUB_IF_API_FLAG_MASK_VNET",
                256: "SUB_IF_API_FLAG_DOT1AH",
        }
        SubIfFlags_value = map[string]uint32{
                "SUB_IF_API_FLAG_NO_TAGS":           1,
                "SUB_IF_API_FLAG_ONE_TAG":           2,
                "SUB_IF_API_FLAG_TWO_TAGS":          4,
                "SUB_IF_API_FLAG_DOT1AD":            8,
                "SUB_IF_API_FLAG_EXACT_MATCH":       16,
                "SUB_IF_API_FLAG_DEFAULT":           32,
                "SUB_IF_API_FLAG_OUTER_VLAN_ID_ANY": 64,
                "SUB_IF_API_FLAG_INNER_VLAN_ID_ANY": 128,
                "SUB_IF_API_FLAG_MASK_VNET":         254,
                "SUB_IF_API_FLAG_DOT1AH":            256,
        }
)

func (x SubIfFlags) String() string {
        s, ok := SubIfFlags_name[uint32(x)]
        if ok {
                return s
        }
        str := func(n uint32) string {
                s, ok := SubIfFlags_name[uint32(n)]
                if ok {
                        return s
                }
                return "SubIfFlags(" + strconv.Itoa(int(n)) + ")"
        }
        for i := uint32(0); i <= 32; i++ {
                val := uint32(x)
                if val&(1<<i) != 0 {
                        if s != "" {
                                s += "|"
                        }
                        s += str(1 << i)
                }
        }
        if s == "" {
                return str(uint32(x))
        }
        return s
}

// InterfaceIndex defines alias 'interface_index'.
type InterfaceIndex uint32

// AvfCreate defines message 'avf_create'.
type AvfCreate struct {
        PciAddr    uint32 `binapi:"u32,name=pci_addr" json:"pci_addr,omitempty"`
        EnableElog int32  `binapi:"i32,name=enable_elog" json:"enable_elog,omitempty"`
        RxqNum     uint16 `binapi:"u16,name=rxq_num" json:"rxq_num,omitempty"`
        RxqSize    uint16 `binapi:"u16,name=rxq_size" json:"rxq_size,omitempty"`
        TxqSize    uint16 `binapi:"u16,name=txq_size" json:"txq_size,omitempty"`
}

func (m *AvfCreate) Reset()               { *m = AvfCreate{} }
func (*AvfCreate) GetMessageName() string { return "avf_create" }
func (*AvfCreate) GetCrcString() string   { return "daab8ae2" }
func (*AvfCreate) GetMessageType() api.MessageType {
        return api.RequestMessage
}

func (m *AvfCreate) Size() (size int) {
        if m == nil {
                return 0
        }
        size += 4 // m.PciAddr
        size += 4 // m.EnableElog
        size += 2 // m.RxqNum
        size += 2 // m.RxqSize
        size += 2 // m.TxqSize
        return size
}
func (m *AvfCreate) Marshal(b []byte) ([]byte, error) {
        if b == nil {
                b = make([]byte, m.Size())
        }
        buf := codec.NewBuffer(b)
        buf.EncodeUint32(m.PciAddr)
        buf.EncodeInt32(m.EnableElog)
        buf.EncodeUint16(m.RxqNum)
        buf.EncodeUint16(m.RxqSize)
        buf.EncodeUint16(m.TxqSize)
        return buf.Bytes(), nil
}
func (m *AvfCreate) Unmarshal(b []byte) error {
        buf := codec.NewBuffer(b)
        m.PciAddr = buf.DecodeUint32()
        m.EnableElog = buf.DecodeInt32()
        m.RxqNum = buf.DecodeUint16()
        m.RxqSize = buf.DecodeUint16()
        m.TxqSize = buf.DecodeUint16()
        return nil
}

// AvfCreateReply defines message 'avf_create_reply'.
type AvfCreateReply struct {
        Retval    int32          `binapi:"i32,name=retval" json:"retval,omitempty"`
        SwIfIndex InterfaceIndex `binapi:"interface_index,name=sw_if_index" json:"sw_if_index,omitempty"`
}

func (m *AvfCreateReply) Reset()               { *m = AvfCreateReply{} }
func (*AvfCreateReply) GetMessageName() string { return "avf_create_reply" }
func (*AvfCreateReply) GetCrcString() string   { return "5383d31f" }
func (*AvfCreateReply) GetMessageType() api.MessageType {
        return api.ReplyMessage
}

func (m *AvfCreateReply) Size() (size int) {
        if m == nil {
                return 0
        }
        size += 4 // m.Retval
        size += 4 // m.SwIfIndex
        return size
}
func (m *AvfCreateReply) Marshal(b []byte) ([]byte, error) {
        if b == nil {
                b = make([]byte, m.Size())
        }
        buf := codec.NewBuffer(b)
        buf.EncodeInt32(m.Retval)
        buf.EncodeUint32(uint32(m.SwIfIndex))
        return buf.Bytes(), nil
}
func (m *AvfCreateReply) Unmarshal(b []byte) error {
        buf := codec.NewBuffer(b)
        m.Retval = buf.DecodeInt32()
        m.SwIfIndex = InterfaceIndex(buf.DecodeUint32())
        return nil
}

// AvfDelete defines message 'avf_delete'.
type AvfDelete struct {
        SwIfIndex InterfaceIndex `binapi:"interface_index,name=sw_if_index" json:"sw_if_index,omitempty"`
}

func (m *AvfDelete) Reset()               { *m = AvfDelete{} }
func (*AvfDelete) GetMessageName() string { return "avf_delete" }
func (*AvfDelete) GetCrcString() string   { return "f9e6675e" }
func (*AvfDelete) GetMessageType() api.MessageType {
        return api.RequestMessage
}

func (m *AvfDelete) Size() (size int) {
        if m == nil {
                return 0
        }
        size += 4 // m.SwIfIndex
        return size
}
func (m *AvfDelete) Marshal(b []byte) ([]byte, error) {
        if b == nil {
                b = make([]byte, m.Size())
        }
        buf := codec.NewBuffer(b)
        buf.EncodeUint32(uint32(m.SwIfIndex))
        return buf.Bytes(), nil
}
func (m *AvfDelete) Unmarshal(b []byte) error {
        buf := codec.NewBuffer(b)
        m.SwIfIndex = InterfaceIndex(buf.DecodeUint32())
        return nil
}

// AvfDeleteReply defines message 'avf_delete_reply'.
type AvfDeleteReply struct {
        Retval int32 `binapi:"i32,name=retval" json:"retval,omitempty"`
}

func (m *AvfDeleteReply) Reset()               { *m = AvfDeleteReply{} }
func (*AvfDeleteReply) GetMessageName() string { return "avf_delete_reply" }
func (*AvfDeleteReply) GetCrcString() string   { return "e8d4e804" }
func (*AvfDeleteReply) GetMessageType() api.MessageType {
        return api.ReplyMessage
}

func (m *AvfDeleteReply) Size() (size int) {
        if m == nil {
                return 0
        }
        size += 4 // m.Retval
        return size
}
func (m *AvfDeleteReply) Marshal(b []byte) ([]byte, error) {
        if b == nil {
                b = make([]byte, m.Size())
        }
        buf := codec.NewBuffer(b)
        buf.EncodeInt32(m.Retval)
        return buf.Bytes(), nil
}
func (m *AvfDeleteReply) Unmarshal(b []byte) error {
        buf := codec.NewBuffer(b)
        m.Retval = buf.DecodeInt32()
        return nil
}

func init() { file_avf_binapi_init() }
func file_avf_binapi_init() {
        api.RegisterMessage((*AvfCreate)(nil), "avf_create_daab8ae2")
        api.RegisterMessage((*AvfCreateReply)(nil), "avf_create_reply_5383d31f")
        api.RegisterMessage((*AvfDelete)(nil), "avf_delete_f9e6675e")
        api.RegisterMessage((*AvfDeleteReply)(nil), "avf_delete_reply_e8d4e804")
}

// Messages returns list of all messages in this module.
func AllMessages() []api.Message {
        return []api.Message{
                (*AvfCreate)(nil),
                (*AvfCreateReply)(nil),
                (*AvfDelete)(nil),
                (*AvfDeleteReply)(nil),
        }
}