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constructor.go
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constructor.go
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// Copyright (c) 2014 Ashley Jeffs
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
package input
import (
"bytes"
"encoding/json"
"fmt"
"sort"
"strings"
"github.com/Jeffail/benthos/lib/input/reader"
"github.com/Jeffail/benthos/lib/log"
"github.com/Jeffail/benthos/lib/metrics"
"github.com/Jeffail/benthos/lib/pipeline"
"github.com/Jeffail/benthos/lib/processor"
"github.com/Jeffail/benthos/lib/types"
"github.com/Jeffail/benthos/lib/util/config"
yaml "gopkg.in/yaml.v2"
)
//------------------------------------------------------------------------------
// TypeSpec is a struct containing constructors, markdown descriptions and an
// optional sanitisation function for each input type.
type TypeSpec struct {
brokerConstructor func(
conf Config,
mgr types.Manager,
log log.Modular,
stats metrics.Type,
pipelineConstructors ...types.PipelineConstructorFunc,
) (Type, error)
constructor func(conf Config, mgr types.Manager, log log.Modular, stats metrics.Type) (Type, error)
description string
sanitiseConfigFunc func(conf Config) (interface{}, error)
}
// Constructors is a map of all input types with their specs.
var Constructors = map[string]TypeSpec{}
//------------------------------------------------------------------------------
// String constants representing each input type.
const (
TypeAMQP = "amqp"
TypeBroker = "broker"
TypeDynamic = "dynamic"
TypeFile = "file"
TypeFiles = "files"
TypeHTTPClient = "http_client"
TypeHTTPServer = "http_server"
TypeInproc = "inproc"
TypeKafka = "kafka"
TypeKafkaBalanced = "kafka_balanced"
TypeMQTT = "mqtt"
TypeNanomsg = "nanomsg"
TypeNATS = "nats"
TypeNATSStream = "nats_stream"
TypeNSQ = "nsq"
TypeReadUntil = "read_until"
TypeRedisList = "redis_list"
TypeRedisPubSub = "redis_pubsub"
TypeS3 = "s3"
TypeSQS = "sqs"
TypeSTDIN = "stdin"
TypeWebsocket = "websocket"
TypeZMQ4 = "zmq4"
)
//------------------------------------------------------------------------------
// Config is the all encompassing configuration struct for all input types.
type Config struct {
Type string `json:"type" yaml:"type"`
AMQP reader.AMQPConfig `json:"amqp" yaml:"amqp"`
Broker BrokerConfig `json:"broker" yaml:"broker"`
Dynamic DynamicConfig `json:"dynamic" yaml:"dynamic"`
File FileConfig `json:"file" yaml:"file"`
Files reader.FilesConfig `json:"files" yaml:"files"`
HTTPClient HTTPClientConfig `json:"http_client" yaml:"http_client"`
HTTPServer HTTPServerConfig `json:"http_server" yaml:"http_server"`
Inproc InprocConfig `json:"inproc" yaml:"inproc"`
Kafka reader.KafkaConfig `json:"kafka" yaml:"kafka"`
KafkaBalanced reader.KafkaBalancedConfig `json:"kafka_balanced" yaml:"kafka_balanced"`
MQTT reader.MQTTConfig `json:"mqtt" yaml:"mqtt"`
Nanomsg reader.ScaleProtoConfig `json:"nanomsg" yaml:"nanomsg"`
NATS reader.NATSConfig `json:"nats" yaml:"nats"`
NATSStream reader.NATSStreamConfig `json:"nats_stream" yaml:"nats_stream"`
NSQ reader.NSQConfig `json:"nsq" yaml:"nsq"`
ReadUntil ReadUntilConfig `json:"read_until" yaml:"read_until"`
RedisList reader.RedisListConfig `json:"redis_list" yaml:"redis_list"`
RedisPubSub reader.RedisPubSubConfig `json:"redis_pubsub" yaml:"redis_pubsub"`
S3 reader.AmazonS3Config `json:"s3" yaml:"s3"`
SQS reader.AmazonSQSConfig `json:"sqs" yaml:"sqs"`
STDIN STDINConfig `json:"stdin" yaml:"stdin"`
Websocket reader.WebsocketConfig `json:"websocket" yaml:"websocket"`
ZMQ4 *reader.ZMQ4Config `json:"zmq4,omitempty" yaml:"zmq4,omitempty"`
Processors []processor.Config `json:"processors" yaml:"processors"`
}
// NewConfig returns a configuration struct fully populated with default values.
func NewConfig() Config {
return Config{
Type: "stdin",
AMQP: reader.NewAMQPConfig(),
Broker: NewBrokerConfig(),
Dynamic: NewDynamicConfig(),
File: NewFileConfig(),
Files: reader.NewFilesConfig(),
HTTPClient: NewHTTPClientConfig(),
HTTPServer: NewHTTPServerConfig(),
Inproc: NewInprocConfig(),
Kafka: reader.NewKafkaConfig(),
KafkaBalanced: reader.NewKafkaBalancedConfig(),
MQTT: reader.NewMQTTConfig(),
Nanomsg: reader.NewScaleProtoConfig(),
NATS: reader.NewNATSConfig(),
NATSStream: reader.NewNATSStreamConfig(),
NSQ: reader.NewNSQConfig(),
ReadUntil: NewReadUntilConfig(),
RedisList: reader.NewRedisListConfig(),
RedisPubSub: reader.NewRedisPubSubConfig(),
S3: reader.NewAmazonS3Config(),
SQS: reader.NewAmazonSQSConfig(),
STDIN: NewSTDINConfig(),
Websocket: reader.NewWebsocketConfig(),
ZMQ4: reader.NewZMQ4Config(),
Processors: []processor.Config{},
}
}
// SanitiseConfig returns a sanitised version of the Config, meaning sections
// that aren't relevant to behaviour are removed.
func SanitiseConfig(conf Config) (interface{}, error) {
cBytes, err := json.Marshal(conf)
if err != nil {
return nil, err
}
hashMap := map[string]interface{}{}
if err = json.Unmarshal(cBytes, &hashMap); err != nil {
return nil, err
}
outputMap := config.Sanitised{}
t := conf.Type
outputMap["type"] = t
if sfunc := Constructors[t].sanitiseConfigFunc; sfunc != nil {
if outputMap[t], err = sfunc(conf); err != nil {
return nil, err
}
} else {
outputMap[t] = hashMap[t]
}
if len(conf.Processors) == 0 {
return outputMap, nil
}
procSlice := []interface{}{}
for _, proc := range conf.Processors {
var procSanitised interface{}
procSanitised, err = processor.SanitiseConfig(proc)
if err != nil {
return nil, err
}
procSlice = append(procSlice, procSanitised)
}
outputMap["processors"] = procSlice
return outputMap, nil
}
//------------------------------------------------------------------------------
// UnmarshalJSON ensures that when parsing configs that are in a map or slice
// the default values are still applied.
func (c *Config) UnmarshalJSON(bytes []byte) error {
type confAlias Config
aliased := confAlias(NewConfig())
if err := json.Unmarshal(bytes, &aliased); err != nil {
return err
}
*c = Config(aliased)
return nil
}
// UnmarshalYAML ensures that when parsing configs that are in a map or slice
// the default values are still applied.
func (c *Config) UnmarshalYAML(unmarshal func(interface{}) error) error {
type confAlias Config
aliased := confAlias(NewConfig())
if err := unmarshal(&aliased); err != nil {
return err
}
*c = Config(aliased)
return nil
}
//------------------------------------------------------------------------------
var header = "This document was generated with `benthos --list-inputs`" + `
An input is a source of data piped through an array of
[processors](../processors). Only one input is configured at the root of a
Benthos config. However, the input can be a [broker](#broker) which combines
multiple inputs. For example, if we wanted three inputs, a 'foo' a 'bar' and a
'baz' we could use the 'broker' input type at our root:
` + "``` yaml" + `
input:
type: broker
broker:
inputs:
- type: foo
foo:
foo_field_1: value1
- type: bar
bar:
bar_field_1: value2
bar_field_2: value3
- type: baz
baz:
baz_field_1: value4
processors:
- type: baz_processor
processors:
- type: some_processor
` + "```" + `
Note that in this example we have specified a processor at the broker level
which will be applied to _all_ inputs, and we also have a processor at the baz
level which is only applied to messages from the baz input.`
// Descriptions returns a formatted string of descriptions for each type.
func Descriptions() string {
// Order our input types alphabetically
names := []string{}
for name := range Constructors {
names = append(names, name)
}
sort.Strings(names)
buf := bytes.Buffer{}
buf.WriteString("Inputs\n")
buf.WriteString(strings.Repeat("=", 6))
buf.WriteString("\n\n")
buf.WriteString(header)
buf.WriteString("\n\n")
buf.WriteString("### Contents\n\n")
for i, name := range names {
buf.WriteString(fmt.Sprintf("%v. [`%v`](#%v)\n", i+1, name, name))
}
buf.WriteString("\n")
// Append each description
for i, name := range names {
var confBytes []byte
conf := NewConfig()
conf.Type = name
conf.Processors = nil
if confSanit, err := SanitiseConfig(conf); err == nil {
confBytes, _ = yaml.Marshal(confSanit)
}
buf.WriteString("## ")
buf.WriteString("`" + name + "`")
buf.WriteString("\n")
if confBytes != nil {
buf.WriteString("\n``` yaml\n")
buf.Write(confBytes)
buf.WriteString("```\n")
}
buf.WriteString(Constructors[name].description)
if i != (len(names) - 1) {
buf.WriteString("\n\n")
}
}
return buf.String()
}
// New creates an input type based on an input configuration.
func New(
conf Config,
mgr types.Manager,
log log.Modular,
stats metrics.Type,
pipelines ...types.PipelineConstructorFunc,
) (Type, error) {
if len(conf.Processors) > 0 {
pipelines = append([]types.PipelineConstructorFunc{func() (types.Pipeline, error) {
processors := make([]types.Processor, len(conf.Processors))
for i, procConf := range conf.Processors {
var err error
processors[i], err = processor.New(procConf, mgr, log.NewModule("."+conf.Type), stats)
if err != nil {
return nil, fmt.Errorf("failed to create processor '%v': %v", procConf.Type, err)
}
}
return pipeline.NewProcessor(log, stats, processors...), nil
}}, pipelines...)
}
if c, ok := Constructors[conf.Type]; ok {
if c.brokerConstructor != nil {
return c.brokerConstructor(conf, mgr, log, stats, pipelines...)
}
input, err := c.constructor(conf, mgr, log, stats)
for err != nil {
return nil, fmt.Errorf("failed to create input '%v': %v", conf.Type, err)
}
return WrapWithPipelines(input, pipelines...)
}
return nil, types.ErrInvalidInputType
}
//------------------------------------------------------------------------------