Documentation ¶
Overview ¶
Package routing implements matching of http requests to a continuously updatable set of skipper routes.
Request Evaluation ¶
1. The path in the http request is used to find one or more matching route definitions in a lookup tree.
2. The rest of the request attributes is matched against the non-path conditions of the routes found in the lookup tree, from the most to the least strict one. The result is the first route where every condition is met.
(The regular expression conditions for the path, 'PathRegexp', are applied only in step 2.)
The matching conditions and the built-in filters that use regular expressions, use the go stdlib regexp, which uses re2:
https://github.com/google/re2/wiki/Syntax
Matching Conditions ¶
The following types of conditions are supported in the route definitions.
- Path: the route definitions may contain a single path condition, optionally with wildcards, used for looking up routes in the lookup tree.
- PathSubtree: similar to Path, but used to match full subtrees including the path of the definition.
- PathRegexp: regular expressions to match the path.
- Host: regular expressions that the host header in the request must match.
- Method: the HTTP method that the request must match.
- Header: a header key and exact value that must be present in the request. Note that Header("Key", "Value") is equivalent to HeaderRegexp("Key", "^Value$").
- HeaderRegexp: a header key and a regular expression, where the key must be present in the request and one of the associated values must match the expression.
Wildcards ¶
Path matching supports two kinds of wildcards:
- simple wildcard: e.g. /some/:wildcard/path. Simple wildcards are matching a single name in the request path.
- freeform wildcard: e.g. /some/path/*wildcard. Freeform wildcards are matching any number of names at the end of the request path.
In case of PathSubtree, simple wildcards behave similar to Path, while freeform wildcards only set the name of the path parameter containing the path in the subtree. If no free wildcard is used in the PathSubtree predicate, the name of this parameter will be "*". This makes the PathSubtree("/foo") predicate equivalent to having routes with Path("/foo"), Path("/foo/") and Path("/foo/**") predicates.
Custom Predicates ¶
It is possible to define custom route matching rules in the form of custom predicates. Custom predicates need to implement the PredicateSpec interface, that serves as a 'factory' and is used in the routing package during constructing the routing tree. When a route containing a custom predicate is matched based on the path tree, the predicate receives the request object, and it returns true or false meaning that the request is a match or not.
Data Clients ¶
Routing definitions are not directly passed to the routing instance, but they are loaded from clients that implement the DataClient interface. The router initially loads the complete set of the routes from each client, merges the different sets based on the route id, and converts them into their runtime representation, with initialized filters based on the filter specifications in the filter registry.
During operation, the router regularly polls the data clients for updates, and, if an update is received, generates a new lookup tree. In case of communication failure during polling, it reloads the whole set of routes from the failing client.
The active set of routes from the last successful update are used until the next successful update happens.
Currently, the routes with the same id coming from different sources are merged in an nondeterministic way, but this behavior may change in the future.
For a full description of the route definitions, see the documentation of the skipper/eskip package.
Example ¶
package main import ( "fmt" "github.com/zalando/skipper/filters/builtin" "github.com/zalando/skipper/routing" "github.com/zalando/skipper/routing/testdataclient" "log" "net/http" "time" ) func main() { // create a data client with a predefined route: dataClient, err := testdataclient.NewDoc( `Path("/some/path/to/:id") -> requestHeader("X-From", "skipper") -> "https://www.example.org"`) if err != nil { log.Fatal(err) } // create a router: r := routing.New(routing.Options{ FilterRegistry: builtin.MakeRegistry(), MatchingOptions: routing.IgnoreTrailingSlash, DataClients: []routing.DataClient{dataClient}}) // let the route data get propagated in the background: time.Sleep(36 * time.Millisecond) // create a request: req, err := http.NewRequest("GET", "https://www.example.com/some/path/to/Hello,+world!", nil) if err != nil { log.Fatal(err) } // match the request with the router: route, params := r.Route(req) if route == nil { log.Fatal("failed to route") } // verify the matched route and the path params: fmt.Println(route.Backend) fmt.Println(params["id"]) }
Output: https://www.example.org Hello, world!
Index ¶
Examples ¶
Constants ¶
const ( // PathName represents the name of builtin path predicate. // (See more details about the Path and PathSubtree predicates // at https://godoc.org/github.com/zalando/skipper/eskip) PathName = "Path" // PathSubtreeName represents the name of the builtin path subtree predicate. // (See more details about the Path and PathSubtree predicates // at https://godoc.org/github.com/zalando/skipper/eskip) PathSubtreeName = "PathSubtree" )
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type DataClient ¶
type DataClient interface { LoadAll() ([]*eskip.Route, error) LoadUpdate() ([]*eskip.Route, []string, error) }
DataClient instances provide data sources for route definitions.
type MatchingOptions ¶
type MatchingOptions uint
MatchingOptions controls route matching.
const ( // MatchingOptionsNone indicates that all options are default. MatchingOptionsNone MatchingOptions = 0 // IgnoreTrailingSlash indicates that trailing slashes in paths are ignored. IgnoreTrailingSlash MatchingOptions = 1 << iota )
type Options ¶
type Options struct { // Registry containing the available filter // specifications that are used during processing // the filter chains in the route definitions. FilterRegistry filters.Registry // Matching options are flags that control the // route matching. MatchingOptions MatchingOptions // The timeout between requests to the data // clients for route definition updates. PollTimeout time.Duration // The set of different data clients where the // route definitions are read from. DataClients []DataClient // Specifications of custom, user defined predicates. Predicates []PredicateSpec // Performance tuning option. // // When zero, the newly constructed routing // tree will take effect on the next routing // query after every update from the data // clients. In case of higher values, the // routing queries have priority over the // update channel, but the next routing tree // takes effect only a few requests later. // // (Currently disabled and used with hard wired // 0, until the performance benefit is verified // by benchmarks.) UpdateBuffer int // Set a custom logger if necessary. Log logging.Logger }
Options for initialization for routing.
type Predicate ¶
type Predicate interface { // Returns true if the request matches the predicate. Match(*http.Request) bool }
Predicate instances are used as custom user defined route matching predicates.
type PredicateSpec ¶
type PredicateSpec interface { // Name of the predicate as used in the route definitions. Name() string // Creates a predicate instance with concrete arguments. Create([]interface{}) (Predicate, error) }
PredicateSpec instances are used to create custom predicates (of type Predicate) with concrete arguments during the construction of the routing tree.
type Route ¶
type Route struct { // Fields from the static route definition. eskip.Route // The backend scheme and host. Scheme, Host string // The preprocessed custom predicate instances. Predicates []Predicate // The preprocessed filter instances. Filters []*RouteFilter // contains filtered or unexported fields }
Route object with preprocessed filter instances.
type RouteFilter ¶
RouteFilter contains extensions to generic filter interface, serving mainly logging/monitoring purpose.
type Routing ¶
type Routing struct {
// contains filtered or unexported fields
}
Routing ('router') instance providing live updatable request matching.
Directories ¶
Path | Synopsis |
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Package testdataclient provides a test implementation for the DataClient interface of the skipper/routing package.
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Package testdataclient provides a test implementation for the DataClient interface of the skipper/routing package. |