traefik/vendor/github.com/containous/alice/chain.go
2018-11-14 10:18:03 +01:00

116 lines
3.8 KiB
Go

// Package alice provides a convenient way to chain http handlers.
package alice
import "net/http"
// Constructor A constructor for a piece of middleware.
// Some middleware use this constructor out of the box,
// so in most cases you can just pass somepackage.New
type Constructor func(http.Handler) (http.Handler, error)
// Chain acts as a list of http.Handler constructors.
// Chain is effectively immutable:
// once created, it will always hold
// the same set of constructors in the same order.
type Chain struct {
constructors []Constructor
}
// New creates a new chain,
// memorizing the given list of middleware constructors.
// New serves no other function,
// constructors are only called upon a call to Then().
func New(constructors ...Constructor) Chain {
return Chain{constructors: constructors}
}
// Then chains the middleware and returns the final http.Handler.
// New(m1, m2, m3).Then(h)
// is equivalent to:
// m1(m2(m3(h)))
// When the request comes in, it will be passed to m1, then m2, then m3
// and finally, the given handler
// (assuming every middleware calls the following one).
//
// A chain can be safely reused by calling Then() several times.
// stdStack := alice.New(ratelimitHandler, csrfHandler)
// indexPipe = stdStack.Then(indexHandler)
// authPipe = stdStack.Then(authHandler)
// Note that constructors are called on every call to Then()
// and thus several instances of the same middleware will be created
// when a chain is reused in this way.
// For proper middleware, this should cause no problems.
//
// Then() treats nil as http.DefaultServeMux.
func (c Chain) Then(h http.Handler) (http.Handler, error) {
if h == nil {
h = http.DefaultServeMux
}
for i := range c.constructors {
handler, err := c.constructors[len(c.constructors)-1-i](h)
if err != nil {
return nil, err
}
h = handler
}
return h, nil
}
// ThenFunc works identically to Then, but takes
// a HandlerFunc instead of a Handler.
//
// The following two statements are equivalent:
// c.Then(http.HandlerFunc(fn))
// c.ThenFunc(fn)
//
// ThenFunc provides all the guarantees of Then.
func (c Chain) ThenFunc(fn http.HandlerFunc) (http.Handler, error) {
if fn == nil {
return c.Then(nil)
}
return c.Then(fn)
}
// Append extends a chain, adding the specified constructors
// as the last ones in the request flow.
//
// Append returns a new chain, leaving the original one untouched.
//
// stdChain := alice.New(m1, m2)
// extChain := stdChain.Append(m3, m4)
// // requests in stdChain go m1 -> m2
// // requests in extChain go m1 -> m2 -> m3 -> m4
func (c Chain) Append(constructors ...Constructor) Chain {
newCons := make([]Constructor, 0, len(c.constructors)+len(constructors))
newCons = append(newCons, c.constructors...)
newCons = append(newCons, constructors...)
return Chain{newCons}
}
// Extend extends a chain by adding the specified chain
// as the last one in the request flow.
//
// Extend returns a new chain, leaving the original one untouched.
//
// stdChain := alice.New(m1, m2)
// ext1Chain := alice.New(m3, m4)
// ext2Chain := stdChain.Extend(ext1Chain)
// // requests in stdChain go m1 -> m2
// // requests in ext1Chain go m3 -> m4
// // requests in ext2Chain go m1 -> m2 -> m3 -> m4
//
// Another example:
// aHtmlAfterNosurf := alice.New(m2)
// aHtml := alice.New(m1, func(h http.Handler) http.Handler {
// csrf := nosurf.New(h)
// csrf.SetFailureHandler(aHtmlAfterNosurf.ThenFunc(csrfFail))
// return csrf
// }).Extend(aHtmlAfterNosurf)
// // requests to aHtml hitting nosurfs success handler go m1 -> nosurf -> m2 -> target-handler
// // requests to aHtml hitting nosurfs failure handler go m1 -> nosurf -> m2 -> csrfFail
func (c Chain) Extend(chain Chain) Chain {
return c.Append(chain.constructors...)
}