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incoming.go
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incoming.go
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// Auto-generated to Go types and interfaces using avdl-compiler v1.4.10 (https://github.com/keybase/node-avdl-compiler)
// Input file: avdl/gregor1/incoming.avdl
package gregor1
import (
"github.com/keybase/go-framed-msgpack-rpc/rpc"
context "golang.org/x/net/context"
"time"
)
type SyncResult struct {
Msgs []InBandMessage `codec:"msgs" json:"msgs"`
Hash []byte `codec:"hash" json:"hash"`
}
func (o SyncResult) DeepCopy() SyncResult {
return SyncResult{
Msgs: (func(x []InBandMessage) []InBandMessage {
if x == nil {
return nil
}
ret := make([]InBandMessage, len(x))
for i, v := range x {
vCopy := v.DeepCopy()
ret[i] = vCopy
}
return ret
})(o.Msgs),
Hash: (func(x []byte) []byte {
if x == nil {
return nil
}
return append([]byte{}, x...)
})(o.Hash),
}
}
// DescribeConnectedUsers will take a list of users, and return the list of users
// which are connected to any Gregor in the cluster, and what devices (and device type)
// those users are connected with.
type ConnectedDevice struct {
DeviceID DeviceID `codec:"deviceID" json:"deviceID"`
DeviceType string `codec:"deviceType" json:"deviceType"`
DevicePlatform string `codec:"devicePlatform" json:"devicePlatform"`
UserAgent string `codec:"userAgent" json:"userAgent"`
}
func (o ConnectedDevice) DeepCopy() ConnectedDevice {
return ConnectedDevice{
DeviceID: o.DeviceID.DeepCopy(),
DeviceType: o.DeviceType,
DevicePlatform: o.DevicePlatform,
UserAgent: o.UserAgent,
}
}
type ConnectedUser struct {
Uid UID `codec:"uid" json:"uid"`
Devices []ConnectedDevice `codec:"devices" json:"devices"`
}
func (o ConnectedUser) DeepCopy() ConnectedUser {
return ConnectedUser{
Uid: o.Uid.DeepCopy(),
Devices: (func(x []ConnectedDevice) []ConnectedDevice {
if x == nil {
return nil
}
ret := make([]ConnectedDevice, len(x))
for i, v := range x {
vCopy := v.DeepCopy()
ret[i] = vCopy
}
return ret
})(o.Devices),
}
}
type SyncArg struct {
Uid UID `codec:"uid" json:"uid"`
Deviceid DeviceID `codec:"deviceid" json:"deviceid"`
Ctime Time `codec:"ctime" json:"ctime"`
}
type ConsumeMessageArg struct {
M Message `codec:"m" json:"m"`
}
type ConsumePublishMessageArg struct {
M Message `codec:"m" json:"m"`
}
type ConsumeMessageMultiArg struct {
Msg Message `codec:"msg" json:"msg"`
Uids []UID `codec:"uids" json:"uids"`
}
type PingArg struct {
}
type VersionArg struct {
Uid UID `codec:"uid" json:"uid"`
}
type StateArg struct {
Uid UID `codec:"uid" json:"uid"`
Deviceid DeviceID `codec:"deviceid" json:"deviceid"`
TimeOrOffset TimeOrOffset `codec:"timeOrOffset" json:"timeOrOffset"`
}
type StateByCategoryPrefixArg struct {
Uid UID `codec:"uid" json:"uid"`
Deviceid DeviceID `codec:"deviceid" json:"deviceid"`
TimeOrOffset TimeOrOffset `codec:"timeOrOffset" json:"timeOrOffset"`
CategoryPrefix Category `codec:"categoryPrefix" json:"categoryPrefix"`
}
type DescribeConnectedUsersArg struct {
Uids []UID `codec:"uids" json:"uids"`
}
type DescribeConnectedUsersInternalArg struct {
Uids []UID `codec:"uids" json:"uids"`
}
type IncomingInterface interface {
Sync(context.Context, SyncArg) (SyncResult, error)
ConsumeMessage(context.Context, Message) error
ConsumePublishMessage(context.Context, Message) error
// consumeMessageMulti will take msg and consume it for all the users listed
// in uids. This is so a gregor client can send the same message to many UIDs
// with one call, as opposed to calling consumeMessage for each UID.
ConsumeMessageMulti(context.Context, ConsumeMessageMultiArg) error
Ping(context.Context) (string, error)
Version(context.Context, UID) (string, error)
State(context.Context, StateArg) (State, error)
// StateByCategoryPrefix loads the messages of the user's state whose
// categories are prefixed by the given prefix
StateByCategoryPrefix(context.Context, StateByCategoryPrefixArg) (State, error)
DescribeConnectedUsers(context.Context, []UID) ([]ConnectedUser, error)
DescribeConnectedUsersInternal(context.Context, []UID) ([]ConnectedUser, error)
}
func IncomingProtocol(i IncomingInterface) rpc.Protocol {
return rpc.Protocol{
Name: "gregor.1.incoming",
Methods: map[string]rpc.ServeHandlerDescription{
"sync": {
MakeArg: func() interface{} {
var ret [1]SyncArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]SyncArg)
if !ok {
err = rpc.NewTypeError((*[1]SyncArg)(nil), args)
return
}
ret, err = i.Sync(ctx, typedArgs[0])
return
},
},
"consumeMessage": {
MakeArg: func() interface{} {
var ret [1]ConsumeMessageArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]ConsumeMessageArg)
if !ok {
err = rpc.NewTypeError((*[1]ConsumeMessageArg)(nil), args)
return
}
err = i.ConsumeMessage(ctx, typedArgs[0].M)
return
},
},
"consumePublishMessage": {
MakeArg: func() interface{} {
var ret [1]ConsumePublishMessageArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]ConsumePublishMessageArg)
if !ok {
err = rpc.NewTypeError((*[1]ConsumePublishMessageArg)(nil), args)
return
}
err = i.ConsumePublishMessage(ctx, typedArgs[0].M)
return
},
},
"consumeMessageMulti": {
MakeArg: func() interface{} {
var ret [1]ConsumeMessageMultiArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]ConsumeMessageMultiArg)
if !ok {
err = rpc.NewTypeError((*[1]ConsumeMessageMultiArg)(nil), args)
return
}
err = i.ConsumeMessageMulti(ctx, typedArgs[0])
return
},
},
"ping": {
MakeArg: func() interface{} {
var ret [1]PingArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
ret, err = i.Ping(ctx)
return
},
},
"version": {
MakeArg: func() interface{} {
var ret [1]VersionArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]VersionArg)
if !ok {
err = rpc.NewTypeError((*[1]VersionArg)(nil), args)
return
}
ret, err = i.Version(ctx, typedArgs[0].Uid)
return
},
},
"state": {
MakeArg: func() interface{} {
var ret [1]StateArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]StateArg)
if !ok {
err = rpc.NewTypeError((*[1]StateArg)(nil), args)
return
}
ret, err = i.State(ctx, typedArgs[0])
return
},
},
"stateByCategoryPrefix": {
MakeArg: func() interface{} {
var ret [1]StateByCategoryPrefixArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]StateByCategoryPrefixArg)
if !ok {
err = rpc.NewTypeError((*[1]StateByCategoryPrefixArg)(nil), args)
return
}
ret, err = i.StateByCategoryPrefix(ctx, typedArgs[0])
return
},
},
"describeConnectedUsers": {
MakeArg: func() interface{} {
var ret [1]DescribeConnectedUsersArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]DescribeConnectedUsersArg)
if !ok {
err = rpc.NewTypeError((*[1]DescribeConnectedUsersArg)(nil), args)
return
}
ret, err = i.DescribeConnectedUsers(ctx, typedArgs[0].Uids)
return
},
},
"describeConnectedUsersInternal": {
MakeArg: func() interface{} {
var ret [1]DescribeConnectedUsersInternalArg
return &ret
},
Handler: func(ctx context.Context, args interface{}) (ret interface{}, err error) {
typedArgs, ok := args.(*[1]DescribeConnectedUsersInternalArg)
if !ok {
err = rpc.NewTypeError((*[1]DescribeConnectedUsersInternalArg)(nil), args)
return
}
ret, err = i.DescribeConnectedUsersInternal(ctx, typedArgs[0].Uids)
return
},
},
},
}
}
type IncomingClient struct {
Cli rpc.GenericClient
}
func (c IncomingClient) Sync(ctx context.Context, __arg SyncArg) (res SyncResult, err error) {
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.sync", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) ConsumeMessage(ctx context.Context, m Message) (err error) {
__arg := ConsumeMessageArg{M: m}
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.consumeMessage", []interface{}{__arg}, nil, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) ConsumePublishMessage(ctx context.Context, m Message) (err error) {
__arg := ConsumePublishMessageArg{M: m}
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.consumePublishMessage", []interface{}{__arg}, nil, rpc.CompressionGzip, 0*time.Millisecond)
return
}
// consumeMessageMulti will take msg and consume it for all the users listed
// in uids. This is so a gregor client can send the same message to many UIDs
// with one call, as opposed to calling consumeMessage for each UID.
func (c IncomingClient) ConsumeMessageMulti(ctx context.Context, __arg ConsumeMessageMultiArg) (err error) {
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.consumeMessageMulti", []interface{}{__arg}, nil, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) Ping(ctx context.Context) (res string, err error) {
err = c.Cli.Call(ctx, "gregor.1.incoming.ping", []interface{}{PingArg{}}, &res, 0*time.Millisecond)
return
}
func (c IncomingClient) Version(ctx context.Context, uid UID) (res string, err error) {
__arg := VersionArg{Uid: uid}
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.version", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) State(ctx context.Context, __arg StateArg) (res State, err error) {
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.state", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}
// StateByCategoryPrefix loads the messages of the user's state whose
// categories are prefixed by the given prefix
func (c IncomingClient) StateByCategoryPrefix(ctx context.Context, __arg StateByCategoryPrefixArg) (res State, err error) {
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.stateByCategoryPrefix", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) DescribeConnectedUsers(ctx context.Context, uids []UID) (res []ConnectedUser, err error) {
__arg := DescribeConnectedUsersArg{Uids: uids}
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.describeConnectedUsers", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}
func (c IncomingClient) DescribeConnectedUsersInternal(ctx context.Context, uids []UID) (res []ConnectedUser, err error) {
__arg := DescribeConnectedUsersInternalArg{Uids: uids}
err = c.Cli.CallCompressed(ctx, "gregor.1.incoming.describeConnectedUsersInternal", []interface{}{__arg}, &res, rpc.CompressionGzip, 0*time.Millisecond)
return
}