distribution/configuration/configuration.go
Noah Treuhaft 4034ff65f0 Add configuration option to disable access logging
Access logging is great.  Access logging you can turn off is even
better.  This change adds a configuration option for that.

Signed-off-by: Noah Treuhaft <noah.treuhaft@docker.com>
2016-09-14 14:33:30 -07:00

629 lines
21 KiB
Go

package configuration
import (
"fmt"
"io"
"io/ioutil"
"net/http"
"reflect"
"strings"
"time"
)
// Configuration is a versioned registry configuration, intended to be provided by a yaml file, and
// optionally modified by environment variables.
//
// Note that yaml field names should never include _ characters, since this is the separator used
// in environment variable names.
type Configuration struct {
// Version is the version which defines the format of the rest of the configuration
Version Version `yaml:"version"`
// Log supports setting various parameters related to the logging
// subsystem.
Log struct {
// AccessLog configures access logging.
AccessLog struct {
// Disabled disables access logging.
Disabled bool `yaml:"disabled,omitempty"`
} `yaml:"accesslog,omitempty"`
// Level is the granularity at which registry operations are logged.
Level Loglevel `yaml:"level"`
// Formatter overrides the default formatter with another. Options
// include "text", "json" and "logstash".
Formatter string `yaml:"formatter,omitempty"`
// Fields allows users to specify static string fields to include in
// the logger context.
Fields map[string]interface{} `yaml:"fields,omitempty"`
// Hooks allows users to configure the log hooks, to enabling the
// sequent handling behavior, when defined levels of log message emit.
Hooks []LogHook `yaml:"hooks,omitempty"`
}
// Loglevel is the level at which registry operations are logged. This is
// deprecated. Please use Log.Level in the future.
Loglevel Loglevel `yaml:"loglevel,omitempty"`
// Storage is the configuration for the registry's storage driver
Storage Storage `yaml:"storage"`
// Auth allows configuration of various authorization methods that may be
// used to gate requests.
Auth Auth `yaml:"auth,omitempty"`
// Middleware lists all middlewares to be used by the registry.
Middleware map[string][]Middleware `yaml:"middleware,omitempty"`
// Reporting is the configuration for error reporting
Reporting Reporting `yaml:"reporting,omitempty"`
// HTTP contains configuration parameters for the registry's http
// interface.
HTTP struct {
// Addr specifies the bind address for the registry instance.
Addr string `yaml:"addr,omitempty"`
// Net specifies the net portion of the bind address. A default empty value means tcp.
Net string `yaml:"net,omitempty"`
// Host specifies an externally-reachable address for the registry, as a fully
// qualified URL.
Host string `yaml:"host,omitempty"`
Prefix string `yaml:"prefix,omitempty"`
// Secret specifies the secret key which HMAC tokens are created with.
Secret string `yaml:"secret,omitempty"`
// RelativeURLs specifies that relative URLs should be returned in
// Location headers
RelativeURLs bool `yaml:"relativeurls,omitempty"`
// TLS instructs the http server to listen with a TLS configuration.
// This only support simple tls configuration with a cert and key.
// Mostly, this is useful for testing situations or simple deployments
// that require tls. If more complex configurations are required, use
// a proxy or make a proposal to add support here.
TLS struct {
// Certificate specifies the path to an x509 certificate file to
// be used for TLS.
Certificate string `yaml:"certificate,omitempty"`
// Key specifies the path to the x509 key file, which should
// contain the private portion for the file specified in
// Certificate.
Key string `yaml:"key,omitempty"`
// Specifies the CA certs for client authentication
// A file may contain multiple CA certificates encoded as PEM
ClientCAs []string `yaml:"clientcas,omitempty"`
// LetsEncrypt is used to configuration setting up TLS through
// Let's Encrypt instead of manually specifying certificate and
// key. If a TLS certificate is specified, the Let's Encrypt
// section will not be used.
LetsEncrypt struct {
// CacheFile specifies cache file to use for lets encrypt
// certificates and keys.
CacheFile string `yaml:"cachefile,omitempty"`
// Email is the email to use during Let's Encrypt registration
Email string `yaml:"email,omitempty"`
} `yaml:"letsencrypt,omitempty"`
} `yaml:"tls,omitempty"`
// Headers is a set of headers to include in HTTP responses. A common
// use case for this would be security headers such as
// Strict-Transport-Security. The map keys are the header names, and
// the values are the associated header payloads.
Headers http.Header `yaml:"headers,omitempty"`
// Debug configures the http debug interface, if specified. This can
// include services such as pprof, expvar and other data that should
// not be exposed externally. Left disabled by default.
Debug struct {
// Addr specifies the bind address for the debug server.
Addr string `yaml:"addr,omitempty"`
} `yaml:"debug,omitempty"`
// HTTP2 configuration options
HTTP2 struct {
// Specifies wether the registry should disallow clients attempting
// to connect via http2. If set to true, only http/1.1 is supported.
Disabled bool `yaml:"disabled,omitempty"`
} `yaml:"http2,omitempty"`
} `yaml:"http,omitempty"`
// Notifications specifies configuration about various endpoint to which
// registry events are dispatched.
Notifications Notifications `yaml:"notifications,omitempty"`
// Redis configures the redis pool available to the registry webapp.
Redis struct {
// Addr specifies the the redis instance available to the application.
Addr string `yaml:"addr,omitempty"`
// Password string to use when making a connection.
Password string `yaml:"password,omitempty"`
// DB specifies the database to connect to on the redis instance.
DB int `yaml:"db,omitempty"`
DialTimeout time.Duration `yaml:"dialtimeout,omitempty"` // timeout for connect
ReadTimeout time.Duration `yaml:"readtimeout,omitempty"` // timeout for reads of data
WriteTimeout time.Duration `yaml:"writetimeout,omitempty"` // timeout for writes of data
// Pool configures the behavior of the redis connection pool.
Pool struct {
// MaxIdle sets the maximum number of idle connections.
MaxIdle int `yaml:"maxidle,omitempty"`
// MaxActive sets the maximum number of connections that should be
// opened before blocking a connection request.
MaxActive int `yaml:"maxactive,omitempty"`
// IdleTimeout sets the amount time to wait before closing
// inactive connections.
IdleTimeout time.Duration `yaml:"idletimeout,omitempty"`
} `yaml:"pool,omitempty"`
} `yaml:"redis,omitempty"`
Health Health `yaml:"health,omitempty"`
Proxy Proxy `yaml:"proxy,omitempty"`
// Compatibility is used for configurations of working with older or deprecated features.
Compatibility struct {
// Schema1 configures how schema1 manifests will be handled
Schema1 struct {
// TrustKey is the signing key to use for adding the signature to
// schema1 manifests.
TrustKey string `yaml:"signingkeyfile,omitempty"`
} `yaml:"schema1,omitempty"`
} `yaml:"compatibility,omitempty"`
// Validation configures validation options for the registry.
Validation struct {
// Enabled enables the other options in this section.
Enabled bool `yaml:"enabled,omitempty"`
// Manifests configures manifest validation.
Manifests struct {
// URLs configures validation for URLs in pushed manifests.
URLs struct {
// Allow specifies regular expressions (https://godoc.org/regexp/syntax)
// that URLs in pushed manifests must match.
Allow []string `yaml:"allow,omitempty"`
// Deny specifies regular expressions (https://godoc.org/regexp/syntax)
// that URLs in pushed manifests must not match.
Deny []string `yaml:"deny,omitempty"`
} `yaml:"urls,omitempty"`
} `yaml:"manifests,omitempty"`
} `yaml:"validation,omitempty"`
}
// LogHook is composed of hook Level and Type.
// After hooks configuration, it can execute the next handling automatically,
// when defined levels of log message emitted.
// Example: hook can sending an email notification when error log happens in app.
type LogHook struct {
// Disable lets user select to enable hook or not.
Disabled bool `yaml:"disabled,omitempty"`
// Type allows user to select which type of hook handler they want.
Type string `yaml:"type,omitempty"`
// Levels set which levels of log message will let hook executed.
Levels []string `yaml:"levels,omitempty"`
// MailOptions allows user to configurate email parameters.
MailOptions MailOptions `yaml:"options,omitempty"`
}
// MailOptions provides the configuration sections to user, for specific handler.
type MailOptions struct {
SMTP struct {
// Addr defines smtp host address
Addr string `yaml:"addr,omitempty"`
// Username defines user name to smtp host
Username string `yaml:"username,omitempty"`
// Password defines password of login user
Password string `yaml:"password,omitempty"`
// Insecure defines if smtp login skips the secure certification.
Insecure bool `yaml:"insecure,omitempty"`
} `yaml:"smtp,omitempty"`
// From defines mail sending address
From string `yaml:"from,omitempty"`
// To defines mail receiving address
To []string `yaml:"to,omitempty"`
}
// FileChecker is a type of entry in the health section for checking files.
type FileChecker struct {
// Interval is the duration in between checks
Interval time.Duration `yaml:"interval,omitempty"`
// File is the path to check
File string `yaml:"file,omitempty"`
// Threshold is the number of times a check must fail to trigger an
// unhealthy state
Threshold int `yaml:"threshold,omitempty"`
}
// HTTPChecker is a type of entry in the health section for checking HTTP URIs.
type HTTPChecker struct {
// Timeout is the duration to wait before timing out the HTTP request
Timeout time.Duration `yaml:"timeout,omitempty"`
// StatusCode is the expected status code
StatusCode int
// Interval is the duration in between checks
Interval time.Duration `yaml:"interval,omitempty"`
// URI is the HTTP URI to check
URI string `yaml:"uri,omitempty"`
// Headers lists static headers that should be added to all requests
Headers http.Header `yaml:"headers"`
// Threshold is the number of times a check must fail to trigger an
// unhealthy state
Threshold int `yaml:"threshold,omitempty"`
}
// TCPChecker is a type of entry in the health section for checking TCP servers.
type TCPChecker struct {
// Timeout is the duration to wait before timing out the TCP connection
Timeout time.Duration `yaml:"timeout,omitempty"`
// Interval is the duration in between checks
Interval time.Duration `yaml:"interval,omitempty"`
// Addr is the TCP address to check
Addr string `yaml:"addr,omitempty"`
// Threshold is the number of times a check must fail to trigger an
// unhealthy state
Threshold int `yaml:"threshold,omitempty"`
}
// Health provides the configuration section for health checks.
type Health struct {
// FileCheckers is a list of paths to check
FileCheckers []FileChecker `yaml:"file,omitempty"`
// HTTPCheckers is a list of URIs to check
HTTPCheckers []HTTPChecker `yaml:"http,omitempty"`
// TCPCheckers is a list of URIs to check
TCPCheckers []TCPChecker `yaml:"tcp,omitempty"`
// StorageDriver configures a health check on the configured storage
// driver
StorageDriver struct {
// Enabled turns on the health check for the storage driver
Enabled bool `yaml:"enabled,omitempty"`
// Interval is the duration in between checks
Interval time.Duration `yaml:"interval,omitempty"`
// Threshold is the number of times a check must fail to trigger an
// unhealthy state
Threshold int `yaml:"threshold,omitempty"`
} `yaml:"storagedriver,omitempty"`
}
// v0_1Configuration is a Version 0.1 Configuration struct
// This is currently aliased to Configuration, as it is the current version
type v0_1Configuration Configuration
// UnmarshalYAML implements the yaml.Unmarshaler interface
// Unmarshals a string of the form X.Y into a Version, validating that X and Y can represent uints
func (version *Version) UnmarshalYAML(unmarshal func(interface{}) error) error {
var versionString string
err := unmarshal(&versionString)
if err != nil {
return err
}
newVersion := Version(versionString)
if _, err := newVersion.major(); err != nil {
return err
}
if _, err := newVersion.minor(); err != nil {
return err
}
*version = newVersion
return nil
}
// CurrentVersion is the most recent Version that can be parsed
var CurrentVersion = MajorMinorVersion(0, 1)
// Loglevel is the level at which operations are logged
// This can be error, warn, info, or debug
type Loglevel string
// UnmarshalYAML implements the yaml.Umarshaler interface
// Unmarshals a string into a Loglevel, lowercasing the string and validating that it represents a
// valid loglevel
func (loglevel *Loglevel) UnmarshalYAML(unmarshal func(interface{}) error) error {
var loglevelString string
err := unmarshal(&loglevelString)
if err != nil {
return err
}
loglevelString = strings.ToLower(loglevelString)
switch loglevelString {
case "error", "warn", "info", "debug":
default:
return fmt.Errorf("Invalid loglevel %s Must be one of [error, warn, info, debug]", loglevelString)
}
*loglevel = Loglevel(loglevelString)
return nil
}
// Parameters defines a key-value parameters mapping
type Parameters map[string]interface{}
// Storage defines the configuration for registry object storage
type Storage map[string]Parameters
// Type returns the storage driver type, such as filesystem or s3
func (storage Storage) Type() string {
var storageType []string
// Return only key in this map
for k := range storage {
switch k {
case "maintenance":
// allow configuration of maintenance
case "cache":
// allow configuration of caching
case "delete":
// allow configuration of delete
case "redirect":
// allow configuration of redirect
default:
storageType = append(storageType, k)
}
}
if len(storageType) > 1 {
panic("multiple storage drivers specified in configuration or environment: " + strings.Join(storageType, ", "))
}
if len(storageType) == 1 {
return storageType[0]
}
return ""
}
// Parameters returns the Parameters map for a Storage configuration
func (storage Storage) Parameters() Parameters {
return storage[storage.Type()]
}
// setParameter changes the parameter at the provided key to the new value
func (storage Storage) setParameter(key string, value interface{}) {
storage[storage.Type()][key] = value
}
// UnmarshalYAML implements the yaml.Unmarshaler interface
// Unmarshals a single item map into a Storage or a string into a Storage type with no parameters
func (storage *Storage) UnmarshalYAML(unmarshal func(interface{}) error) error {
var storageMap map[string]Parameters
err := unmarshal(&storageMap)
if err == nil {
if len(storageMap) > 1 {
types := make([]string, 0, len(storageMap))
for k := range storageMap {
switch k {
case "maintenance":
// allow for configuration of maintenance
case "cache":
// allow configuration of caching
case "delete":
// allow configuration of delete
case "redirect":
// allow configuration of redirect
default:
types = append(types, k)
}
}
if len(types) > 1 {
return fmt.Errorf("Must provide exactly one storage type. Provided: %v", types)
}
}
*storage = storageMap
return nil
}
var storageType string
err = unmarshal(&storageType)
if err == nil {
*storage = Storage{storageType: Parameters{}}
return nil
}
return err
}
// MarshalYAML implements the yaml.Marshaler interface
func (storage Storage) MarshalYAML() (interface{}, error) {
if storage.Parameters() == nil {
return storage.Type(), nil
}
return map[string]Parameters(storage), nil
}
// Auth defines the configuration for registry authorization.
type Auth map[string]Parameters
// Type returns the auth type, such as htpasswd or token
func (auth Auth) Type() string {
// Return only key in this map
for k := range auth {
return k
}
return ""
}
// Parameters returns the Parameters map for an Auth configuration
func (auth Auth) Parameters() Parameters {
return auth[auth.Type()]
}
// setParameter changes the parameter at the provided key to the new value
func (auth Auth) setParameter(key string, value interface{}) {
auth[auth.Type()][key] = value
}
// UnmarshalYAML implements the yaml.Unmarshaler interface
// Unmarshals a single item map into a Storage or a string into a Storage type with no parameters
func (auth *Auth) UnmarshalYAML(unmarshal func(interface{}) error) error {
var m map[string]Parameters
err := unmarshal(&m)
if err == nil {
if len(m) > 1 {
types := make([]string, 0, len(m))
for k := range m {
types = append(types, k)
}
// TODO(stevvooe): May want to change this slightly for
// authorization to allow multiple challenges.
return fmt.Errorf("must provide exactly one type. Provided: %v", types)
}
*auth = m
return nil
}
var authType string
err = unmarshal(&authType)
if err == nil {
*auth = Auth{authType: Parameters{}}
return nil
}
return err
}
// MarshalYAML implements the yaml.Marshaler interface
func (auth Auth) MarshalYAML() (interface{}, error) {
if auth.Parameters() == nil {
return auth.Type(), nil
}
return map[string]Parameters(auth), nil
}
// Notifications configures multiple http endpoints.
type Notifications struct {
// Endpoints is a list of http configurations for endpoints that
// respond to webhook notifications. In the future, we may allow other
// kinds of endpoints, such as external queues.
Endpoints []Endpoint `yaml:"endpoints,omitempty"`
}
// Endpoint describes the configuration of an http webhook notification
// endpoint.
type Endpoint struct {
Name string `yaml:"name"` // identifies the endpoint in the registry instance.
Disabled bool `yaml:"disabled"` // disables the endpoint
URL string `yaml:"url"` // post url for the endpoint.
Headers http.Header `yaml:"headers"` // static headers that should be added to all requests
Timeout time.Duration `yaml:"timeout"` // HTTP timeout
Threshold int `yaml:"threshold"` // circuit breaker threshold before backing off on failure
Backoff time.Duration `yaml:"backoff"` // backoff duration
}
// Reporting defines error reporting methods.
type Reporting struct {
// Bugsnag configures error reporting for Bugsnag (bugsnag.com).
Bugsnag BugsnagReporting `yaml:"bugsnag,omitempty"`
// NewRelic configures error reporting for NewRelic (newrelic.com)
NewRelic NewRelicReporting `yaml:"newrelic,omitempty"`
}
// BugsnagReporting configures error reporting for Bugsnag (bugsnag.com).
type BugsnagReporting struct {
// APIKey is the Bugsnag api key.
APIKey string `yaml:"apikey,omitempty"`
// ReleaseStage tracks where the registry is deployed.
// Examples: production, staging, development
ReleaseStage string `yaml:"releasestage,omitempty"`
// Endpoint is used for specifying an enterprise Bugsnag endpoint.
Endpoint string `yaml:"endpoint,omitempty"`
}
// NewRelicReporting configures error reporting for NewRelic (newrelic.com)
type NewRelicReporting struct {
// LicenseKey is the NewRelic user license key
LicenseKey string `yaml:"licensekey,omitempty"`
// Name is the component name of the registry in NewRelic
Name string `yaml:"name,omitempty"`
// Verbose configures debug output to STDOUT
Verbose bool `yaml:"verbose,omitempty"`
}
// Middleware configures named middlewares to be applied at injection points.
type Middleware struct {
// Name the middleware registers itself as
Name string `yaml:"name"`
// Flag to disable middleware easily
Disabled bool `yaml:"disabled,omitempty"`
// Map of parameters that will be passed to the middleware's initialization function
Options Parameters `yaml:"options"`
}
// Proxy configures the registry as a pull through cache
type Proxy struct {
// RemoteURL is the URL of the remote registry
RemoteURL string `yaml:"remoteurl"`
// Username of the hub user
Username string `yaml:"username"`
// Password of the hub user
Password string `yaml:"password"`
}
// Parse parses an input configuration yaml document into a Configuration struct
// This should generally be capable of handling old configuration format versions
//
// Environment variables may be used to override configuration parameters other than version,
// following the scheme below:
// Configuration.Abc may be replaced by the value of REGISTRY_ABC,
// Configuration.Abc.Xyz may be replaced by the value of REGISTRY_ABC_XYZ, and so forth
func Parse(rd io.Reader) (*Configuration, error) {
in, err := ioutil.ReadAll(rd)
if err != nil {
return nil, err
}
p := NewParser("registry", []VersionedParseInfo{
{
Version: MajorMinorVersion(0, 1),
ParseAs: reflect.TypeOf(v0_1Configuration{}),
ConversionFunc: func(c interface{}) (interface{}, error) {
if v0_1, ok := c.(*v0_1Configuration); ok {
if v0_1.Loglevel == Loglevel("") {
v0_1.Loglevel = Loglevel("info")
}
if v0_1.Storage.Type() == "" {
return nil, fmt.Errorf("No storage configuration provided")
}
return (*Configuration)(v0_1), nil
}
return nil, fmt.Errorf("Expected *v0_1Configuration, received %#v", c)
},
},
})
config := new(Configuration)
err = p.Parse(in, config)
if err != nil {
return nil, err
}
return config, nil
}