package context
import (
"bytes"
"encoding/json"
"encoding/xml"
"fmt"
"io"
"io/ioutil"
"mime"
"mime/multipart"
"net"
"net/http"
"net/url"
"os"
"path"
"path/filepath"
"reflect"
"regexp"
"runtime"
"strconv"
"strings"
"time"
"github.com/fatih/structs"
formbinder "github.com/iris-contrib/formBinder"
"github.com/json-iterator/go"
"github.com/microcosm-cc/bluemonday"
"github.com/russross/blackfriday"
"github.com/kataras/iris/core/errors"
"github.com/kataras/iris/core/memstore"
)
type (
// BodyDecoder is an interface which any struct can implement in order to customize the decode action
// from ReadJSON and ReadXML
//
// Trivial example of this could be:
// type User struct { Username string }
//
// func (u *User) Decode(data []byte) error {
// return json.Unmarshal(data, u)
// }
//
// the 'context.ReadJSON/ReadXML(&User{})' will call the User's
// Decode option to decode the request body
//
// Note: This is totally optionally, the default decoders
// for ReadJSON is the encoding/json and for ReadXML is the encoding/xml.
BodyDecoder interface {
Decode(data []byte) error
}
// Unmarshaler is the interface implemented by types that can unmarshal any raw data
// TIP INFO: Any v object which implements the BodyDecoder can be override the unmarshaler.
Unmarshaler interface {
Unmarshal(data []byte, v interface{}) error
}
// UnmarshalerFunc a shortcut for the Unmarshaler interface
//
// See 'Unmarshaler' and 'BodyDecoder' for more.
UnmarshalerFunc func(data []byte, v interface{}) error
)
// Unmarshal parses the X-encoded data and stores the result in the value pointed to by v.
// Unmarshal uses the inverse of the encodings that Marshal uses, allocating maps,
// slices, and pointers as necessary.
func (u UnmarshalerFunc) Unmarshal(data []byte, v interface{}) error {
return u(data, v)
}
// RequestParams is a key string - value string storage which
// context's request dynamic path params are being kept.
// Empty if the route is static.
type RequestParams struct {
store memstore.Store
}
// Set adds a key-value pair to the path parameters values
// it's being called internally so it shouldn't be used as a local storage by the user, use `ctx.Values()` instead.
func (r *RequestParams) Set(key, value string) {
r.store.Set(key, value)
}
// Visit accepts a visitor which will be filled
// by the key-value params.
func (r *RequestParams) Visit(visitor func(key string, value string)) {
r.store.Visit(func(k string, v interface{}) {
visitor(k, v.(string)) // always string here.
})
}
// Get returns a path parameter's value based on its route's dynamic path key.
func (r RequestParams) Get(key string) string {
return r.store.GetString(key)
}
// GetTrim returns a path parameter's value without trailing spaces based on its route's dynamic path key.
func (r RequestParams) GetTrim(key string) string {
return strings.TrimSpace(r.Get(key))
}
// GetEscape returns a path parameter's double-url-query-escaped value based on its route's dynamic path key.
func (r RequestParams) GetEscape(key string) string {
return DecodeQuery(DecodeQuery(r.Get(key)))
}
// GetDecoded returns a path parameter's double-url-query-escaped value based on its route's dynamic path key.
// same as `GetEscape`.
func (r RequestParams) GetDecoded(key string) string {
return r.GetEscape(key)
}
// GetInt returns the path parameter's value as int, based on its key.
func (r RequestParams) GetInt(key string) (int, error) {
return r.store.GetInt(key)
}
// GetInt64 returns the path paramete's value as int64, based on its key.
func (r RequestParams) GetInt64(key string) (int64, error) {
return r.store.GetInt64(key)
}
// GetFloat64 returns a path parameter's value based as float64 on its route's dynamic path key.
func (r RequestParams) GetFloat64(key string) (float64, error) {
return strconv.ParseFloat(r.Get(key), 64)
}
// GetBool returns the path parameter's value as bool, based on its key.
// a string which is "1" or "t" or "T" or "TRUE" or "true" or "True"
// or "0" or "f" or "F" or "FALSE" or "false" or "False".
// Any other value returns an error.
func (r RequestParams) GetBool(key string) (bool, error) {
return r.store.GetBool(key)
}
// GetIntUnslashed same as Get but it removes the first slash if found.
// Usage: Get an id from a wildcard path.
//
// Returns -1 with an error if the parameter couldn't be found.
func (r RequestParams) GetIntUnslashed(key string) (int, error) {
v := r.Get(key)
if v != "" {
if len(v) > 1 {
if v[0] == '/' {
v = v[1:]
}
}
return strconv.Atoi(v)
}
return -1, memstore.ErrIntParse.Format(v)
}
// Len returns the full length of the parameters.
func (r RequestParams) Len() int {
return r.store.Len()
}
// Context is the midle-man server's "object" for the clients.
//
// A New context is being acquired from a sync.Pool on each connection.
// The Context is the most important thing on the iris's http flow.
//
// Developers send responses to the client's request through a Context.
// Developers get request information from the client's request a Context.
//
// This context is an implementation of the context.Context sub-package.
// context.Context is very extensible and developers can override
// its methods if that is actually needed.
type Context interface {
// BeginRequest is executing once for each request
// it should prepare the (new or acquired from pool) context's fields for the new request.
//
// To follow the iris' flow, developer should:
// 1. reset handlers to nil
// 2. reset values to empty
// 3. reset sessions to nil
// 4. reset response writer to the http.ResponseWriter
// 5. reset request to the *http.Request
// and any other optional steps, depends on dev's application type.
BeginRequest(http.ResponseWriter, *http.Request)
// EndRequest is executing once after a response to the request was sent and this context is useless or released.
//
// To follow the iris' flow, developer should:
// 1. flush the response writer's result
// 2. release the response writer
// and any other optional steps, depends on dev's application type.
EndRequest()
// ResponseWriter returns an http.ResponseWriter compatible response writer, as expected.
ResponseWriter() ResponseWriter
// ResetResponseWriter should change or upgrade the Context's ResponseWriter.
ResetResponseWriter(ResponseWriter)
// Request returns the original *http.Request, as expected.
Request() *http.Request
// SetCurrentRouteName sets the route's name internally,
// in order to be able to find the correct current "read-only" Route when
// end-developer calls the `GetCurrentRoute()` function.
// It's being initialized by the Router, if you change that name
// manually nothing really happens except that you'll get other
// route via `GetCurrentRoute()`.
// Instead, to execute a different path
// from this context you should use the `Exec` function
// or change the handlers via `SetHandlers/AddHandler` functions.
SetCurrentRouteName(currentRouteName string)
// GetCurrentRoute returns the current registered "read-only" route that
// was being registered to this request's path.
GetCurrentRoute() RouteReadOnly
// Do calls the SetHandlers(handlers)
// and executes the first handler,
// handlers should not be empty.
//
// It's used by the router, developers may use that
// to replace and execute handlers immediately.
Do(Handlers)
// AddHandler can add handler(s)
// to the current request in serve-time,
// these handlers are not persistenced to the router.
//
// Router is calling this function to add the route's handler.
// If AddHandler called then the handlers will be inserted
// to the end of the already-defined route's handler.
//
AddHandler(...Handler)
// SetHandlers replaces all handlers with the new.
SetHandlers(Handlers)
// Handlers keeps tracking of the current handlers.
Handlers() Handlers
// HandlerIndex sets the current index of the
// current context's handlers chain.
// If -1 passed then it just returns the
// current handler index without change the current index.rns that index, useless return value.
//
// Look Handlers(), Next() and StopExecution() too.
HandlerIndex(n int) (currentIndex int)
// Proceed is an alternative way to check if a particular handler
// has been executed and called the `ctx.Next` function inside it.
// This is useful only when you run a handler inside
// another handler. It justs checks for before index and the after index.
//
// A usecase example is when you want to execute a middleware
// inside controller's `BeginRequest` that calls the `ctx.Next` inside it.
// The Controller looks the whole flow (BeginRequest, method handler, EndRequest)
// as one handler, so `ctx.Next` will not be reflected to the method handler
// if called from the `BeginRequest`.
//
// Although `BeginRequest` should NOT be used to call other handlers,
// the `BeginRequest` has been introduced to be able to set
// common data to all method handlers before their execution.
// Controllers can accept middleware(s) from the `app.Controller`
// function.
//
// That said let's see an example of `ctx.Proceed`:
//
// var authMiddleware = basicauth.New(basicauth.Config{
// Users: map[string]string{
// "admin": "password",
// },
// })
//
// func (c *UsersController) BeginRequest(ctx iris.Context) {
// c.C.BeginRequest(ctx) // call the parent's base controller BeginRequest first.
// if !ctx.Proceed(authMiddleware) {
// ctx.StopExecution()
// }
// }
// This Get() will be executed in the same handler as `BeginRequest`,
// internally controller checks for `ctx.StopExecution`.
// So it will not be fired if BeginRequest called the `StopExecution`.
// func(c *UsersController) Get() []models.User {
// return c.Service.GetAll()
//}
Proceed(Handler) bool
// HandlerName returns the current handler's name, helpful for debugging.
HandlerName() string
// Next calls all the next handler from the handlers chain,
// it should be used inside a middleware.
//
// Note: Custom context should override this method in order to be able to pass its own context.Context implementation.
Next()
// NextHandler returns(but it is NOT executes) the next handler from the handlers chain.
//
// Use .Skip() to skip this handler if needed to execute the next of this returning handler.
NextHandler() Handler
// Skip skips/ignores the next handler from the handlers chain,
// it should be used inside a middleware.
Skip()
// StopExecution if called then the following .Next calls are ignored,
// as a result the next handlers in the chain will not be fire.
StopExecution()
// IsStopped checks and returns true if the current position of the Context is 255,
// means that the StopExecution() was called.
IsStopped() bool
// +------------------------------------------------------------+
// | Current "user/request" storage |
// | and share information between the handlers - Values(). |
// | Save and get named path parameters - Params() |
// +------------------------------------------------------------+
// Params returns the current url's named parameters key-value storage.
// Named path parameters are being saved here.
// This storage, as the whole Context, is per-request lifetime.
Params() *RequestParams
// Values returns the current "user" storage.
// Named path parameters and any optional data can be saved here.
// This storage, as the whole Context, is per-request lifetime.
//
// You can use this function to Set and Get local values
// that can be used to share information between handlers and middleware.
Values() *memstore.Store
// Translate is the i18n (localization) middleware's function,
// it calls the Get("translate") to return the translated value.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/miscellaneous/i18n
Translate(format string, args ...interface{}) string
// +------------------------------------------------------------+
// | Path, Host, Subdomain, IP, Headers etc... |
// +------------------------------------------------------------+
// Method returns the request.Method, the client's http method to the server.
Method() string
// Path returns the full request path,
// escaped if EnablePathEscape config field is true.
Path() string
// RequestPath returns the full request path,
// based on the 'escape'.
RequestPath(escape bool) string
// Host returns the host part of the current url.
Host() string
// Subdomain returns the subdomain of this request, if any.
// Note that this is a fast method which does not cover all cases.
Subdomain() (subdomain string)
// RemoteAddr tries to parse and return the real client's request IP.
//
// Based on allowed headers names that can be modified from Configuration.RemoteAddrHeaders.
//
// If parse based on these headers fail then it will return the Request's `RemoteAddr` field
// which is filled by the server before the HTTP handler.
//
// Look `Configuration.RemoteAddrHeaders`,
// `Configuration.WithRemoteAddrHeader(...)`,
// `Configuration.WithoutRemoteAddrHeader(...)` for more.
RemoteAddr() string
// GetHeader returns the request header's value based on its name.
GetHeader(name string) string
// IsAjax returns true if this request is an 'ajax request'( XMLHttpRequest)
//
// There is no a 100% way of knowing that a request was made via Ajax.
// You should never trust data coming from the client, they can be easily overcome by spoofing.
//
// Note that "X-Requested-With" Header can be modified by any client(because of "X-"),
// so don't rely on IsAjax for really serious stuff,
// try to find another way of detecting the type(i.e, content type),
// there are many blogs that describe these problems and provide different kind of solutions,
// it's always depending on the application you're building,
// this is the reason why this `IsAjax`` is simple enough for general purpose use.
//
// Read more at: https://developer.mozilla.org/en-US/docs/AJAX
// and https://xhr.spec.whatwg.org/
IsAjax() bool
// +------------------------------------------------------------+
// | Response Headers helpers |
// +------------------------------------------------------------+
// Header adds a header to the response writer.
Header(name string, value string)
// ContentType sets the response writer's header key "Content-Type" to the 'cType'.
ContentType(cType string)
// GetContentType returns the response writer's header value of "Content-Type"
// which may, setted before with the 'ContentType'.
GetContentType() string
// StatusCode sets the status code header to the response.
// Look .GetStatusCode too.
StatusCode(statusCode int)
// GetStatusCode returns the current status code of the response.
// Look StatusCode too.
GetStatusCode() int
// Redirect sends a redirect response to the client
// to a specific url or relative path.
// accepts 2 parameters string and an optional int
// first parameter is the url to redirect
// second parameter is the http status should send,
// default is 302 (StatusFound),
// you can set it to 301 (Permant redirect)
// or 303 (StatusSeeOther) if POST method,
// or StatusTemporaryRedirect(307) if that's nessecery.
Redirect(urlToRedirect string, statusHeader ...int)
// +------------------------------------------------------------+
// | Various Request and Post Data |
// +------------------------------------------------------------+
// URLParam returns true if the url parameter exists, otherwise false.
URLParamExists(name string) bool
// URLParamDefault returns the get parameter from a request, if not found then "def" is returned.
URLParamDefault(name string, def string) string
// URLParam returns the get parameter from a request , if any.
URLParam(name string) string
// URLParamTrim returns the url query parameter with trailing white spaces removed from a request,
// returns an error if parse failed.
URLParamTrim(name string) string
// URLParamTrim returns the escaped url query parameter from a request,
// returns an error if parse failed.
URLParamEscape(name string) string
// URLParamIntDefault returns the url query parameter as int value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
URLParamIntDefault(name string, def int) (int, error)
// URLParamInt returns the url query parameter as int value from a request,
// returns an error if parse failed.
URLParamInt(name string) (int, error)
// URLParamInt64Default returns the url query parameter as int64 value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
URLParamInt64Default(name string, def int64) (int64, error)
// URLParamInt64 returns the url query parameter as int64 value from a request,
// returns an error if parse failed.
URLParamInt64(name string) (int64, error)
// URLParamFloat64Default returns the url query parameter as float64 value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
URLParamFloat64Default(name string, def float64) (float64, error)
// URLParamFloat64 returns the url query parameter as float64 value from a request,
// returns an error if parse failed.
URLParamFloat64(name string) (float64, error)
// URLParamBool returns the url query parameter as boolean value from a request,
// returns an error if parse failed.
URLParamBool(name string) (bool, error)
// URLParams returns a map of GET query parameters separated by comma if more than one
// it returns an empty map if nothing found.
URLParams() map[string]string
// FormValue returns a single form value by its name/key
FormValue(name string) string
// FormValues returns all post data values with their keys
// form data, get, post & put query arguments
//
// NOTE: A check for nil is necessary.
FormValues() map[string][]string
// PostValueDefault returns a form's only-post value by its name,
// if not found then "def" is returned,
// same as Request.PostFormValue.
PostValueDefault(name string, def string) string
// PostValue returns a form's only-post value by its name,
// same as Request.PostFormValue.
PostValue(name string) string
// PostValueTrim returns a form's only-post value without trailing spaces by its name.
PostValueTrim(name string) string
// PostValueEscape returns a form's only-post escaped value by its name.
PostValueEscape(name string) string
// PostValueIntDefault returns a form's only-post value as int by its name.
// If not found returns "def".
PostValueIntDefault(name string, def int) (int, error)
// PostValueInt returns a form's only-post value as int by its name.
PostValueInt(name string) (int, error)
// PostValueInt64Default returns a form's only-post value as int64 by its name.
// If not found returns "def".
PostValueInt64Default(name string, def int64) (int64, error)
// PostValueInt64 returns a form's only-post value as int64 by its name.
PostValueInt64(name string) (int64, error)
// PostValueFloat64Default returns a form's only-post value as float64 by its name.
// If not found returns "def".
PostValueFloat64Default(name string, def float64) (float64, error)
// PostValueFloat64 returns a form's only-post value as float64 by its name.
PostValueFloat64(name string) (float64, error)
// PostValue returns a form's only-post value as boolean by its name.
PostValueBool(name string) (bool, error)
// PostValues returns a form's only-post values.
// PostValues calls ParseMultipartForm and ParseForm if necessary and ignores
// any errors returned by these functions.
PostValues(name string) []string
// FormFile returns the first file for the provided form key.
// FormFile calls ctx.Request.ParseMultipartForm and ParseForm if necessary.
//
// same as Request.FormFile.
FormFile(key string) (multipart.File, *multipart.FileHeader, error)
// +------------------------------------------------------------+
// | Custom HTTP Errors |
// +------------------------------------------------------------+
// NotFound emits an error 404 to the client, using the specific custom error error handler.
// Note that you may need to call ctx.StopExecution() if you don't want the next handlers
// to be executed. Next handlers are being executed on iris because you can alt the
// error code and change it to a more specific one, i.e
// users := app.Party("/users")
// users.Done(func(ctx context.Context){ if ctx.StatusCode() == 400 { /* custom error code for /users */ }})
NotFound()
// +------------------------------------------------------------+
// | Body Readers |
// +------------------------------------------------------------+
// SetMaxRequestBodySize sets a limit to the request body size
// should be called before reading the request body from the client.
SetMaxRequestBodySize(limitOverBytes int64)
// UnmarshalBody reads the request's body and binds it to a value or pointer of any type
// Examples of usage: context.ReadJSON, context.ReadXML.
UnmarshalBody(v interface{}, unmarshaler Unmarshaler) error
// ReadJSON reads JSON from request's body and binds it to a value of any json-valid type.
ReadJSON(jsonObject interface{}) error
// ReadXML reads XML from request's body and binds it to a value of any xml-valid type.
ReadXML(xmlObject interface{}) error
// ReadForm binds the formObject with the form data
// it supports any kind of struct.
ReadForm(formObject interface{}) error
// +------------------------------------------------------------+
// | Body (raw) Writers |
// +------------------------------------------------------------+
// Write writes the data to the connection as part of an HTTP reply.
//
// If WriteHeader has not yet been called, Write calls
// WriteHeader(http.StatusOK) before writing the data. If the Header
// does not contain a Content-Type line, Write adds a Content-Type set
// to the result of passing the initial 512 bytes of written data to
// DetectContentType.
//
// Depending on the HTTP protocol version and the client, calling
// Write or WriteHeader may prevent future reads on the
// Request.Body. For HTTP/1.x requests, handlers should read any
// needed request body data before writing the response. Once the
// headers have been flushed (due to either an explicit Flusher.Flush
// call or writing enough data to trigger a flush), the request body
// may be unavailable. For HTTP/2 requests, the Go HTTP server permits
// handlers to continue to read the request body while concurrently
// writing the response. However, such behavior may not be supported
// by all HTTP/2 clients. Handlers should read before writing if
// possible to maximize compatibility.
Write(body []byte) (int, error)
// Writef formats according to a format specifier and writes to the response.
//
// Returns the number of bytes written and any write error encountered.
Writef(format string, args ...interface{}) (int, error)
// WriteString writes a simple string to the response.
//
// Returns the number of bytes written and any write error encountered.
WriteString(body string) (int, error)
// WriteWithExpiration like Write but it sends with an expiration datetime
// which is refreshed every package-level `StaticCacheDuration` field.
WriteWithExpiration(body []byte, modtime time.Time) (int, error)
// StreamWriter registers the given stream writer for populating
// response body.
//
// Access to context's and/or its' members is forbidden from writer.
//
// This function may be used in the following cases:
//
// * if response body is too big (more than iris.LimitRequestBodySize(if setted)).
// * if response body is streamed from slow external sources.
// * if response body must be streamed to the client in chunks.
// (aka `http server push`).
//
// receives a function which receives the response writer
// and returns false when it should stop writing, otherwise true in order to continue
StreamWriter(writer func(w io.Writer) bool)
// +------------------------------------------------------------+
// | Body Writers with compression |
// +------------------------------------------------------------+
// ClientSupportsGzip retruns true if the client supports gzip compression.
ClientSupportsGzip() bool
// WriteGzip accepts bytes, which are compressed to gzip format and sent to the client.
// returns the number of bytes written and an error ( if the client doesn' supports gzip compression)
//
// This function writes temporary gzip contents, the ResponseWriter is untouched.
WriteGzip(b []byte) (int, error)
// TryWriteGzip accepts bytes, which are compressed to gzip format and sent to the client.
// If client does not supprots gzip then the contents are written as they are, uncompressed.
//
// This function writes temporary gzip contents, the ResponseWriter is untouched.
TryWriteGzip(b []byte) (int, error)
// GzipResponseWriter converts the current response writer into a response writer
// which when its .Write called it compress the data to gzip and writes them to the client.
//
// Can be also disabled with its .Disable and .ResetBody to rollback to the usual response writer.
GzipResponseWriter() *GzipResponseWriter
// Gzip enables or disables (if enabled before) the gzip response writer,if the client
// supports gzip compression, so the following response data will
// be sent as compressed gzip data to the client.
Gzip(enable bool)
// +------------------------------------------------------------+
// | Rich Body Content Writers/Renderers |
// +------------------------------------------------------------+
// ViewLayout sets the "layout" option if and when .View
// is being called afterwards, in the same request.
// Useful when need to set or/and change a layout based on the previous handlers in the chain.
//
// Note that the 'layoutTmplFile' argument can be setted to iris.NoLayout || view.NoLayout
// to disable the layout for a specific view render action,
// it disables the engine's configuration's layout property.
//
// Look .ViewData and .View too.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/view/context-view-data/
ViewLayout(layoutTmplFile string)
// ViewData saves one or more key-value pair in order to be passed if and when .View
// is being called afterwards, in the same request.
// Useful when need to set or/and change template data from previous hanadlers in the chain.
//
// If .View's "binding" argument is not nil and it's not a type of map
// then these data are being ignored, binding has the priority, so the main route's handler can still decide.
// If binding is a map or context.Map then these data are being added to the view data
// and passed to the template.
//
// After .View, the data are not destroyed, in order to be re-used if needed (again, in the same request as everything else),
// to clear the view data, developers can call:
// ctx.Set(ctx.Application().ConfigurationReadOnly().GetViewDataContextKey(), nil)
//
// If 'key' is empty then the value is added as it's (struct or map) and developer is unable to add other value.
//
// Look .ViewLayout and .View too.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/view/context-view-data/
ViewData(key string, value interface{})
// GetViewData returns the values registered by `context#ViewData`.
// The return value is `map[string]interface{}`, this means that
// if a custom struct registered to ViewData then this function
// will try to parse it to map, if failed then the return value is nil
// A check for nil is always a good practise if different
// kind of values or no data are registered via `ViewData`.
//
// Similarly to `viewData := ctx.Values().Get("iris.viewData")` or
// `viewData := ctx.Values().Get(ctx.Application().ConfigurationReadOnly().GetViewDataContextKey())`.
GetViewData() map[string]interface{}
// View renders templates based on the adapted view engines.
// First argument accepts the filename, relative to the view engine's Directory,
// i.e: if directory is "./templates" and want to render the "./templates/users/index.html"
// then you pass the "users/index.html" as the filename argument.
//
// Look: .ViewData and .ViewLayout too.
//
// Examples: https://github.com/kataras/iris/tree/master/_examples/view/
View(filename string) error
// Binary writes out the raw bytes as binary data.
Binary(data []byte) (int, error)
// Text writes out a string as plain text.
Text(text string) (int, error)
// HTML writes out a string as text/html.
HTML(htmlContents string) (int, error)
// JSON marshals the given interface object and writes the JSON response.
JSON(v interface{}, options ...JSON) (int, error)
// JSONP marshals the given interface object and writes the JSON response.
JSONP(v interface{}, options ...JSONP) (int, error)
// XML marshals the given interface object and writes the XML response.
XML(v interface{}, options ...XML) (int, error)
// Markdown parses the markdown to html and renders to client.
Markdown(markdownB []byte, options ...Markdown) (int, error)
// +------------------------------------------------------------+
// | Serve files |
// +------------------------------------------------------------+
// ServeContent serves content, headers are autoset
// receives three parameters, it's low-level function, instead you can use .ServeFile(string,bool)/SendFile(string,string)
//
// You can define your own "Content-Type" header also, after this function call
// Doesn't implements resuming (by range), use ctx.SendFile instead
ServeContent(content io.ReadSeeker, filename string, modtime time.Time, gzipCompression bool) error
// ServeFile serves a view file, to send a file ( zip for example) to the client you should use the SendFile(serverfilename,clientfilename)
// receives two parameters
// filename/path (string)
// gzipCompression (bool)
//
// You can define your own "Content-Type" header also, after this function call
// This function doesn't implement resuming (by range), use ctx.SendFile instead
//
// Use it when you want to serve css/js/... files to the client, for bigger files and 'force-download' use the SendFile.
ServeFile(filename string, gzipCompression bool) error
// SendFile sends file for force-download to the client
//
// Use this instead of ServeFile to 'force-download' bigger files to the client.
SendFile(filename string, destinationName string) error
// +------------------------------------------------------------+
// | Cookies |
// +------------------------------------------------------------+
// SetCookie adds a cookie
SetCookie(cookie *http.Cookie)
// SetCookieKV adds a cookie, receives just a name(string) and a value(string)
//
// If you use this method, it expires at 2 hours
// use ctx.SetCookie or http.SetCookie if you want to change more fields.
SetCookieKV(name, value string)
// GetCookie returns cookie's value by it's name
// returns empty string if nothing was found.
GetCookie(name string) string
// RemoveCookie deletes a cookie by it's name.
RemoveCookie(name string)
// VisitAllCookies takes a visitor which loops
// on each (request's) cookies' name and value.
VisitAllCookies(visitor func(name string, value string))
// MaxAge returns the "cache-control" request header's value
// seconds as int64
// if header not found or parse failed then it returns -1.
MaxAge() int64
// +------------------------------------------------------------+
// | Advanced: Response Recorder and Transactions |
// +------------------------------------------------------------+
// Record transforms the context's basic and direct responseWriter to a ResponseRecorder
// which can be used to reset the body, reset headers, get the body,
// get & set the status code at any time and more.
Record()
// Recorder returns the context's ResponseRecorder
// if not recording then it starts recording and returns the new context's ResponseRecorder
Recorder() *ResponseRecorder
// IsRecording returns the response recorder and a true value
// when the response writer is recording the status code, body, headers and so on,
// else returns nil and false.
IsRecording() (*ResponseRecorder, bool)
// BeginTransaction starts a scoped transaction.
//
// You can search third-party articles or books on how Business Transaction works (it's quite simple, especially here).
//
// Note that this is unique and new
// (=I haver never seen any other examples or code in Golang on this subject, so far, as with the most of iris features...)
// it's not covers all paths,
// such as databases, this should be managed by the libraries you use to make your database connection,
// this transaction scope is only for context's response.
// Transactions have their own middleware ecosystem also, look iris.go:UseTransaction.
//
// See https://github.com/kataras/iris/tree/master/_examples/ for more
BeginTransaction(pipe func(t *Transaction))
// SkipTransactions if called then skip the rest of the transactions
// or all of them if called before the first transaction
SkipTransactions()
// TransactionsSkipped returns true if the transactions skipped or canceled at all.
TransactionsSkipped() bool
// Exec calls the framewrok's ServeCtx
// based on this context but with a changed method and path
// like it was requested by the user, but it is not.
//
// Offline means that the route is registered to the iris and have all features that a normal route has
// BUT it isn't available by browsing, its handlers executed only when other handler's context call them
// it can validate paths, has sessions, path parameters and all.
//
// You can find the Route by app.GetRoute("theRouteName")
// you can set a route name as: myRoute := app.Get("/mypath", handler)("theRouteName")
// that will set a name to the route and returns its RouteInfo instance for further usage.
//
// It doesn't changes the global state, if a route was "offline" it remains offline.
//
// app.None(...) and app.GetRoutes().Offline(route)/.Online(route, method)
//
// Example: https://github.com/kataras/iris/tree/master/_examples/routing/route-state
//
// User can get the response by simple using rec := ctx.Recorder(); rec.Body()/rec.StatusCode()/rec.Header().
//
// Context's Values and the Session are kept in order to be able to communicate via the result route.
//
// It's for extreme use cases, 99% of the times will never be useful for you.
Exec(method string, path string)
// Application returns the iris app instance which belongs to this context.
// Worth to notice that this function returns an interface
// of the Application, which contains methods that are safe
// to be executed at serve-time. The full app's fields
// and methods are not available here for the developer's safety.
Application() Application
}
// Next calls all the next handler from the handlers chain,
// it should be used inside a middleware.
func Next(ctx Context) {
if ctx.IsStopped() {
return
}
if n, handlers := ctx.HandlerIndex(-1)+1, ctx.Handlers(); n < len(handlers) {
ctx.HandlerIndex(n)
handlers[n](ctx)
}
}
// Do calls the SetHandlers(handlers)
// and executes the first handler,
// handlers should not be empty.
//
// It's used by the router, developers may use that
// to replace and execute handlers immediately.
func Do(ctx Context, handlers Handlers) {
if len(handlers) > 0 {
ctx.SetHandlers(handlers)
handlers[0](ctx)
}
}
// LimitRequestBodySize is a middleware which sets a request body size limit
// for all next handlers in the chain.
var LimitRequestBodySize = func(maxRequestBodySizeBytes int64) Handler {
return func(ctx Context) {
ctx.SetMaxRequestBodySize(maxRequestBodySizeBytes)
ctx.Next()
}
}
// Gzip is a middleware which enables writing
// using gzip compression, if client supports.
var Gzip = func(ctx Context) {
ctx.Gzip(true)
ctx.Next()
}
// Map is just a shortcut of the map[string]interface{}.
type Map map[string]interface{}
// +------------------------------------------------------------+
// | Context Implementation |
// +------------------------------------------------------------+
type context struct {
// the http.ResponseWriter wrapped by custom writer
writer ResponseWriter
// the original http.Request
request *http.Request
// the current route's name registered to this request path.
currentRouteName string
// the local key-value storage
params RequestParams // url named parameters
values memstore.Store // generic storage, middleware communication
// the underline application app
app Application
// the route's handlers
handlers Handlers
// the current position of the handler's chain
currentHandlerIndex int
}
// NewContext returns the default, internal, context implementation.
// You may use this function to embed the default context implementation
// to a custom one.
//
// This context is received by the context pool.
func NewContext(app Application) Context {
return &context{app: app}
}
// BeginRequest is executing once for each request
// it should prepare the (new or acquired from pool) context's fields for the new request.
//
// To follow the iris' flow, developer should:
// 1. reset handlers to nil
// 2. reset store to empty
// 3. reset sessions to nil
// 4. reset response writer to the http.ResponseWriter
// 5. reset request to the *http.Request
// and any other optional steps, depends on dev's application type.
func (ctx *context) BeginRequest(w http.ResponseWriter, r *http.Request) {
ctx.handlers = nil // will be filled by router.Serve/HTTP
ctx.values = ctx.values[0:0] // >> >> by context.Values().Set
ctx.params.store = ctx.params.store[0:0]
ctx.request = r
ctx.currentHandlerIndex = 0
ctx.writer = AcquireResponseWriter()
ctx.writer.BeginResponse(w)
}
// EndRequest is executing once after a response to the request was sent and this context is useless or released.
//
// To follow the iris' flow, developer should:
// 1. flush the response writer's result
// 2. release the response writer
// and any other optional steps, depends on dev's application type.
func (ctx *context) EndRequest() {
if ctx.GetStatusCode() >= 400 &&
!ctx.Application().ConfigurationReadOnly().GetDisableAutoFireStatusCode() {
// author's note:
// if recording, the error handler can handle
// the rollback and remove any response written before,
// we don't have to do anything here, written is <=0 (-1 for default empty, even no status code)
// when Recording
// because we didn't flush the response yet
// if !recording then check if the previous handler didn't send something
// to the client.
if ctx.writer.Written() <= 0 {
// Author's notes:
// previously: == -1,
// <=0 means even if empty write called which has meaning;
// rel: core/router/status.go#Fire-else
// mvc/activator/funcmethod/func_result_dispatcher.go#DispatchCommon-write
// mvc/response.go#defaultFailureResponse - no text given but
// status code should be fired, but it couldn't because of the .Write
// action, the .Written() was 0 even on empty response, this 0 means that
// a status code given, the previous check of the "== -1" didn't make check for that,
// we do now.
ctx.Application().FireErrorCode(ctx)
}
}
ctx.writer.FlushResponse()
ctx.writer.EndResponse()
}
// ResponseWriter returns an http.ResponseWriter compatible response writer, as expected.
func (ctx *context) ResponseWriter() ResponseWriter {
return ctx.writer
}
// ResetResponseWriter should change or upgrade the context's ResponseWriter.
func (ctx *context) ResetResponseWriter(newResponseWriter ResponseWriter) {
ctx.writer = newResponseWriter
}
// Request returns the original *http.Request, as expected.
func (ctx *context) Request() *http.Request {
return ctx.request
}
// SetCurrentRouteName sets the route's name internally,
// in order to be able to find the correct current "read-only" Route when
// end-developer calls the `GetCurrentRoute()` function.
// It's being initialized by the Router, if you change that name
// manually nothing really happens except that you'll get other
// route via `GetCurrentRoute()`.
// Instead, to execute a different path
// from this context you should use the `Exec` function
// or change the handlers via `SetHandlers/AddHandler` functions.
func (ctx *context) SetCurrentRouteName(currentRouteName string) {
ctx.currentRouteName = currentRouteName
}
// GetCurrentRoute returns the current registered "read-only" route that
// was being registered to this request's path.
func (ctx *context) GetCurrentRoute() RouteReadOnly {
return ctx.app.GetRouteReadOnly(ctx.currentRouteName)
}
// Do calls the SetHandlers(handlers)
// and executes the first handler,
// handlers should not be empty.
//
// It's used by the router, developers may use that
// to replace and execute handlers immediately.
func (ctx *context) Do(handlers Handlers) {
Do(ctx, handlers)
}
// AddHandler can add handler(s)
// to the current request in serve-time,
// these handlers are not persistenced to the router.
//
// Router is calling this function to add the route's handler.
// If AddHandler called then the handlers will be inserted
// to the end of the already-defined route's handler.
//
func (ctx *context) AddHandler(handlers ...Handler) {
ctx.handlers = append(ctx.handlers, handlers...)
}
// SetHandlers replaces all handlers with the new.
func (ctx *context) SetHandlers(handlers Handlers) {
ctx.handlers = handlers
}
// Handlers keeps tracking of the current handlers.
func (ctx *context) Handlers() Handlers {
return ctx.handlers
}
// HandlerIndex sets the current index of the
// current context's handlers chain.
// If -1 passed then it just returns the
// current handler index without change the current index.rns that index, useless return value.
//
// Look Handlers(), Next() and StopExecution() too.
func (ctx *context) HandlerIndex(n int) (currentIndex int) {
if n < 0 || n > len(ctx.handlers)-1 {
return ctx.currentHandlerIndex
}
ctx.currentHandlerIndex = n
return n
}
// Proceed is an alternative way to check if a particular handler
// has been executed and called the `ctx.Next` function inside it.
// This is useful only when you run a handler inside
// another handler. It justs checks for before index and the after index.
//
// A usecase example is when you want to execute a middleware
// inside controller's `BeginRequest` that calls the `ctx.Next` inside it.
// The Controller looks the whole flow (BeginRequest, method handler, EndRequest)
// as one handler, so `ctx.Next` will not be reflected to the method handler
// if called from the `BeginRequest`.
//
// Although `BeginRequest` should NOT be used to call other handlers,
// the `BeginRequest` has been introduced to be able to set
// common data to all method handlers before their execution.
// Controllers can accept middleware(s) from the `app.Controller`
// function.
//
// That said let's see an example of `ctx.Proceed`:
//
// var authMiddleware = basicauth.New(basicauth.Config{
// Users: map[string]string{
// "admin": "password",
// },
// })
//
// func (c *UsersController) BeginRequest(ctx iris.Context) {
// c.C.BeginRequest(ctx) // call the parent's base controller BeginRequest first.
// if !ctx.Proceed(authMiddleware) {
// ctx.StopExecution()
// }
// }
// This Get() will be executed in the same handler as `BeginRequest`,
// internally controller checks for `ctx.StopExecution`.
// So it will not be fired if BeginRequest called the `StopExecution`.
// func(c *UsersController) Get() []models.User {
// return c.Service.GetAll()
//}
func (ctx *context) Proceed(h Handler) bool {
beforeIdx := ctx.currentHandlerIndex
h(ctx)
if ctx.currentHandlerIndex > beforeIdx && !ctx.IsStopped() {
return true
}
return false
}
// HandlerName returns the current handler's name, helpful for debugging.
func (ctx *context) HandlerName() string {
return runtime.FuncForPC(reflect.ValueOf(ctx.handlers[ctx.currentHandlerIndex]).Pointer()).Name()
}
// Do sets the handler index to zero, executes the first handler
// and the rest of the Handlers if ctx.Next() was called.
// func (ctx *context) Do() {
// ctx.currentHandlerIndex = 0
// ctx.handlers[0](ctx) // it calls this *context
// } // -> replaced with inline on router.go
// Next calls all the next handler from the handlers chain,
// it should be used inside a middleware.
//
// Note: Custom context should override this method in order to be able to pass its own context.context implementation.
func (ctx *context) Next() { // or context.Next(ctx)
Next(ctx)
}
// NextHandler returns, but it doesn't executes, the next handler from the handlers chain.
//
// Use .Skip() to skip this handler if needed to execute the next of this returning handler.
func (ctx *context) NextHandler() Handler {
if ctx.IsStopped() {
return nil
}
nextIndex := ctx.currentHandlerIndex + 1
// check if it has a next middleware
if nextIndex < len(ctx.handlers) {
return ctx.handlers[nextIndex]
}
return nil
}
// Skip skips/ignores the next handler from the handlers chain,
// it should be used inside a middleware.
func (ctx *context) Skip() {
ctx.HandlerIndex(ctx.currentHandlerIndex + 1)
}
const stopExecutionIndex = -1 // I don't set to a max value because we want to be able to reuse the handlers even if stopped with .Skip
// StopExecution if called then the following .Next calls are ignored,
// as a result the next handlers in the chain will not be fire.
func (ctx *context) StopExecution() {
ctx.currentHandlerIndex = stopExecutionIndex
}
// IsStopped checks and returns true if the current position of the context is -1,
// means that the StopExecution() was called.
func (ctx *context) IsStopped() bool {
return ctx.currentHandlerIndex == stopExecutionIndex
}
// +------------------------------------------------------------+
// | Current "user/request" storage |
// | and share information between the handlers - Values(). |
// | Save and get named path parameters - Params() |
// +------------------------------------------------------------+
// Params returns the current url's named parameters key-value storage.
// Named path parameters are being saved here.
// This storage, as the whole context, is per-request lifetime.
func (ctx *context) Params() *RequestParams {
return &ctx.params
}
// Values returns the current "user" storage.
// Named path parameters and any optional data can be saved here.
// This storage, as the whole context, is per-request lifetime.
//
// You can use this function to Set and Get local values
// that can be used to share information between handlers and middleware.
func (ctx *context) Values() *memstore.Store {
return &ctx.values
}
// Translate is the i18n (localization) middleware's function,
// it calls the Get("translate") to return the translated value.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/miscellaneous/i18n
func (ctx *context) Translate(format string, args ...interface{}) string {
if cb, ok := ctx.values.Get(ctx.Application().ConfigurationReadOnly().GetTranslateFunctionContextKey()).(func(format string, args ...interface{}) string); ok {
return cb(format, args...)
}
return ""
}
// +------------------------------------------------------------+
// | Path, Host, Subdomain, IP, Headers etc... |
// +------------------------------------------------------------+
// Method returns the request.Method, the client's http method to the server.
func (ctx *context) Method() string {
return ctx.request.Method
}
// Path returns the full request path,
// escaped if EnablePathEscape config field is true.
func (ctx *context) Path() string {
return ctx.RequestPath(ctx.Application().ConfigurationReadOnly().GetEnablePathEscape())
}
// DecodeQuery returns the uri parameter as url (string)
// useful when you want to pass something to a database and be valid to retrieve it via context.Param
// use it only for special cases, when the default behavior doesn't suits you.
//
// http://www.blooberry.com/indexdot/html/topics/urlencoding.htm
// it uses just the url.QueryUnescape
func DecodeQuery(path string) string {
if path == "" {
return ""
}
encodedPath, err := url.QueryUnescape(path)
if err != nil {
return path
}
return encodedPath
}
// DecodeURL returns the decoded uri
// useful when you want to pass something to a database and be valid to retrieve it via context.Param
// use it only for special cases, when the default behavior doesn't suits you.
//
// http://www.blooberry.com/indexdot/html/topics/urlencoding.htm
// it uses just the url.Parse
func DecodeURL(uri string) string {
u, err := url.Parse(uri)
if err != nil {
return uri
}
return u.String()
}
// RequestPath returns the full request path,
// based on the 'escape'.
func (ctx *context) RequestPath(escape bool) string {
if escape {
return DecodeQuery(ctx.request.URL.EscapedPath())
}
return ctx.request.URL.Path // RawPath returns empty, requesturi can be used instead also.
}
// PathPrefixMap accepts a map of string and a handler.
// The key of "m" is the key, which is the prefix, regular expressions are not valid.
// The value of "m" is the handler that will be executed if HasPrefix(context.Path).
// func (ctx *context) PathPrefixMap(m map[string]context.Handler) bool {
// path := ctx.Path()
// for k, v := range m {
// if strings.HasPrefix(path, k) {
// v(ctx)
// return true
// }
// }
// return false
// } no, it will not work because map is a random peek data structure.
// Host returns the host part of the current url.
func (ctx *context) Host() string {
h := ctx.request.URL.Host
if h == "" {
h = ctx.request.Host
}
return h
}
// Subdomain returns the subdomain of this request, if any.
// Note that this is a fast method which does not cover all cases.
func (ctx *context) Subdomain() (subdomain string) {
host := ctx.Host()
if index := strings.IndexByte(host, '.'); index > 0 {
subdomain = host[0:index]
}
// listening on mydomain.com:80
// subdomain = mydomain, but it's wrong, it should return ""
vhost := ctx.Application().ConfigurationReadOnly().GetVHost()
if strings.Contains(vhost, subdomain) { // then it's not subdomain
return ""
}
return
}
// RemoteAddr tries to parse and return the real client's request IP.
//
// Based on allowed headers names that can be modified from Configuration.RemoteAddrHeaders.
//
// If parse based on these headers fail then it will return the Request's `RemoteAddr` field
// which is filled by the server before the HTTP handler.
//
// Look `Configuration.RemoteAddrHeaders`,
// `Configuration.WithRemoteAddrHeader(...)`,
// `Configuration.WithoutRemoteAddrHeader(...)` for more.
func (ctx *context) RemoteAddr() string {
remoteHeaders := ctx.Application().ConfigurationReadOnly().GetRemoteAddrHeaders()
for headerName, enabled := range remoteHeaders {
if enabled {
headerValue := ctx.GetHeader(headerName)
// exception needed for 'X-Forwarded-For' only , if enabled.
if headerName == "X-Forwarded-For" {
idx := strings.IndexByte(headerValue, ',')
if idx >= 0 {
headerValue = headerValue[0:idx]
}
}
realIP := strings.TrimSpace(headerValue)
if realIP != "" {
return realIP
}
}
}
addr := strings.TrimSpace(ctx.request.RemoteAddr)
if addr != "" {
// if addr has port use the net.SplitHostPort otherwise(error occurs) take as it is
if ip, _, err := net.SplitHostPort(addr); err == nil {
return ip
}
}
return addr
}
// GetHeader returns the request header's value based on its name.
func (ctx *context) GetHeader(name string) string {
return ctx.request.Header.Get(name)
}
// IsAjax returns true if this request is an 'ajax request'( XMLHttpRequest)
//
// There is no a 100% way of knowing that a request was made via Ajax.
// You should never trust data coming from the client, they can be easily overcome by spoofing.
//
// Note that "X-Requested-With" Header can be modified by any client(because of "X-"),
// so don't rely on IsAjax for really serious stuff,
// try to find another way of detecting the type(i.e, content type),
// there are many blogs that describe these problems and provide different kind of solutions,
// it's always depending on the application you're building,
// this is the reason why this `IsAjax`` is simple enough for general purpose use.
//
// Read more at: https://developer.mozilla.org/en-US/docs/AJAX
// and https://xhr.spec.whatwg.org/
func (ctx *context) IsAjax() bool {
return ctx.GetHeader("X-Requested-With") == "XMLHttpRequest"
}
// +------------------------------------------------------------+
// | Response Headers helpers |
// +------------------------------------------------------------+
// Header adds a header to the response, if value is empty
// it removes the header by its name.
func (ctx *context) Header(name string, value string) {
if value == "" {
ctx.writer.Header().Del(name)
return
}
ctx.writer.Header().Add(name, value)
}
const contentTypeHeaderKey = "Content-Type"
// ContentType sets the response writer's header key "Content-Type" to the 'cType'.
func (ctx *context) ContentType(cType string) {
if cType == "" {
return
}
// 1. if it's path or a filename or an extension,
// then take the content type from that
if strings.Contains(cType, ".") {
ext := filepath.Ext(cType)
cType = mime.TypeByExtension(ext)
}
// if doesn't contain a charset already then append it
if !strings.Contains(cType, "charset") {
if cType != ContentBinaryHeaderValue {
charset := ctx.Application().ConfigurationReadOnly().GetCharset()
cType += "; charset=" + charset
}
}
ctx.writer.Header().Set(contentTypeHeaderKey, cType)
}
// GetContentType returns the response writer's header value of "Content-Type"
// which may, setted before with the 'ContentType'.
func (ctx *context) GetContentType() string {
return ctx.writer.Header().Get(contentTypeHeaderKey)
}
// StatusCode sets the status code header to the response.
// Look .GetStatusCode & .FireStatusCode too.
//
// Remember, the last one before .Write matters except recorder and transactions.
func (ctx *context) StatusCode(statusCode int) {
ctx.writer.WriteHeader(statusCode)
}
// NotFound emits an error 404 to the client, using the specific custom error error handler.
// Note that you may need to call ctx.StopExecution() if you don't want the next handlers
// to be executed. Next handlers are being executed on iris because you can alt the
// error code and change it to a more specific one, i.e
// users := app.Party("/users")
// users.Done(func(ctx context.Context){ if ctx.StatusCode() == 400 { /* custom error code for /users */ }})
func (ctx *context) NotFound() {
ctx.StatusCode(http.StatusNotFound)
}
// GetStatusCode returns the current status code of the response.
// Look StatusCode too.
func (ctx *context) GetStatusCode() int {
return ctx.writer.StatusCode()
}
// +------------------------------------------------------------+
// | Various Request and Post Data |
// +------------------------------------------------------------+
// URLParam returns true if the url parameter exists, otherwise false.
func (ctx *context) URLParamExists(name string) bool {
if q := ctx.request.URL.Query(); q != nil {
_, exists := q[name]
return exists
}
return false
}
// URLParamDefault returns the get parameter from a request, if not found then "def" is returned.
func (ctx *context) URLParamDefault(name string, def string) string {
v := ctx.request.URL.Query().Get(name)
if v == "" {
return def
}
return v
}
// URLParam returns the get parameter from a request , if any.
func (ctx *context) URLParam(name string) string {
return ctx.URLParamDefault(name, "")
}
// URLParamTrim returns the url query parameter with trailing white spaces removed from a request,
// returns an error if parse failed.
func (ctx *context) URLParamTrim(name string) string {
return strings.TrimSpace(ctx.URLParam(name))
}
// URLParamTrim returns the escaped url query parameter from a request,
// returns an error if parse failed.
func (ctx *context) URLParamEscape(name string) string {
return DecodeQuery(ctx.URLParam(name))
}
// URLParamIntDefault returns the url query parameter as int value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
func (ctx *context) URLParamIntDefault(name string, def int) (int, error) {
v := ctx.URLParam(name)
if v == "" {
return def, nil
}
return strconv.Atoi(v)
}
// URLParamInt returns the url query parameter as int value from a request,
// returns an error if parse failed.
func (ctx *context) URLParamInt(name string) (int, error) {
return ctx.URLParamIntDefault(name, 0)
}
// URLParamInt64Default returns the url query parameter as int64 value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
func (ctx *context) URLParamInt64Default(name string, def int64) (int64, error) {
v := ctx.URLParam(name)
if v == "" {
return def, nil
}
return strconv.ParseInt(v, 10, 64)
}
// URLParamInt64 returns the url query parameter as int64 value from a request,
// returns an error if parse failed.
func (ctx *context) URLParamInt64(name string) (int64, error) {
return ctx.URLParamInt64Default(name, 0.0)
}
// URLParamFloat64Default returns the url query parameter as float64 value from a request,
// if not found then "def" is returned.
// Returns an error if parse failed.
func (ctx *context) URLParamFloat64Default(name string, def float64) (float64, error) {
v := ctx.URLParam(name)
if v == "" {
return def, nil
}
return strconv.ParseFloat(v, 64)
}
// URLParamFloat64 returns the url query parameter as float64 value from a request,
// returns an error if parse failed.
func (ctx *context) URLParamFloat64(name string) (float64, error) {
return ctx.URLParamFloat64Default(name, 0.0)
}
// URLParamBool returns the url query parameter as boolean value from a request,
// returns an error if parse failed.
func (ctx *context) URLParamBool(name string) (bool, error) {
return strconv.ParseBool(ctx.URLParam(name))
}
// URLParams returns a map of GET query parameters separated by comma if more than one
// it returns an empty map if nothing found.
func (ctx *context) URLParams() map[string]string {
values := map[string]string{}
q := ctx.request.URL.Query()
if q != nil {
for k, v := range q {
values[k] = strings.Join(v, ",")
}
}
return values
}
func (ctx *context) askParseForm() error {
if ctx.request.Form == nil {
if err := ctx.request.ParseForm(); err != nil {
return err
}
}
return nil
}
// FormValue returns a single form value by its name/key
func (ctx *context) FormValue(name string) string {
return ctx.request.FormValue(name)
}
// FormValues returns all post data values with their keys
// form data, get, post & put query arguments
//
// NOTE: A check for nil is necessary.
func (ctx *context) FormValues() map[string][]string {
// we skip the check of multipart form, takes too much memory, if user wants it can do manually now.
if err := ctx.askParseForm(); err != nil {
return nil
}
return ctx.request.Form // nothing more to do, it's already contains both query and post & put args.
}
// PostValueDefault returns a form's only-post value by its name,
// if not found then "def" is returned,
// same as Request.PostFormValue.
func (ctx *context) PostValueDefault(name string, def string) string {
v := ctx.request.PostFormValue(name)
if v == "" {
return def
}
return v
}
// PostValue returns a form's only-post value by its name,
// same as Request.PostFormValue.
func (ctx *context) PostValue(name string) string {
return ctx.PostValueDefault(name, "")
}
// PostValueTrim returns a form's only-post value without trailing spaces by its name.
func (ctx *context) PostValueTrim(name string) string {
return strings.TrimSpace(ctx.PostValue(name))
}
// PostValueEscape returns a form's only-post escaped value by its name.
func (ctx *context) PostValueEscape(name string) string {
return DecodeQuery(ctx.PostValue(name))
}
// PostValueIntDefault returns a form's only-post value as int by its name.
// If not found returns "def".
func (ctx *context) PostValueIntDefault(name string, def int) (int, error) {
v := ctx.PostValue(name)
if v == "" {
return def, nil
}
return strconv.Atoi(v)
}
// PostValueInt returns a form's only-post value as int by its name.
// If not found returns 0.
func (ctx *context) PostValueInt(name string) (int, error) {
return ctx.PostValueIntDefault(name, 0)
}
// PostValueInt64Default returns a form's only-post value as int64 by its name.
// If not found returns "def".
func (ctx *context) PostValueInt64Default(name string, def int64) (int64, error) {
v := ctx.PostValue(name)
if v == "" {
return def, nil
}
return strconv.ParseInt(v, 10, 64)
}
// PostValueInt64 returns a form's only-post value as int64 by its name.
// If not found returns 0.0.
func (ctx *context) PostValueInt64(name string) (int64, error) {
return ctx.PostValueInt64Default(name, 0.0)
}
// PostValueFloat64Default returns a form's only-post value as float64 by its name.
// If not found returns "def".
func (ctx *context) PostValueFloat64Default(name string, def float64) (float64, error) {
v := ctx.PostValue(name)
if v == "" {
return def, nil
}
return strconv.ParseFloat(v, 64)
}
// PostValueFloat64 returns a form's only-post value as float64 by its name.
// If not found returns 0.0.
func (ctx *context) PostValueFloat64(name string) (float64, error) {
return ctx.PostValueFloat64Default(name, 0.0)
}
// PostValue returns a form's only-post value as boolean by its name.
func (ctx *context) PostValueBool(name string) (bool, error) {
return strconv.ParseBool(ctx.PostValue(name))
}
const (
// DefaultMaxMemory is the default value
// for post values' max memory, defaults to
// 32MB.
// Can be also changed by the middleware `LimitRequestBodySize`
// or `context#SetMaxRequestBodySize`.
DefaultMaxMemory = 32 << 20 // 32 MB
)
// PostValues returns a form's only-post values.
// PostValues calls ParseMultipartForm and ParseForm if necessary and ignores
// any errors returned by these functions.
func (ctx *context) PostValues(name string) []string {
r := ctx.request
if r.PostForm == nil {
r.ParseMultipartForm(DefaultMaxMemory)
}
return r.PostForm[name]
}
// FormFile returns the first file for the provided form key.
// FormFile calls ctx.request.ParseMultipartForm and ParseForm if necessary.
//
// same as Request.FormFile.
func (ctx *context) FormFile(key string) (multipart.File, *multipart.FileHeader, error) {
return ctx.request.FormFile(key)
}
// Redirect sends a redirect response to the client
// to a specific url or relative path.
// accepts 2 parameters string and an optional int
// first parameter is the url to redirect
// second parameter is the http status should send,
// default is 302 (StatusFound),
// you can set it to 301 (Permant redirect)
// or 303 (StatusSeeOther) if POST method,
// or StatusTemporaryRedirect(307) if that's nessecery.
func (ctx *context) Redirect(urlToRedirect string, statusHeader ...int) {
ctx.StopExecution()
// get the previous status code given by the end-developer.
status := ctx.GetStatusCode()
if status < 300 { // the previous is not a RCF-valid redirect status.
status = 0
}
if len(statusHeader) > 0 {
// check if status code is passed via receivers.
if s := statusHeader[0]; s > 0 {
status = s
}
}
if status == 0 {
// if status remains zero then default it.
// a 'temporary-redirect-like' which works better than for our purpose
status = http.StatusFound
}
http.Redirect(ctx.writer, ctx.request, urlToRedirect, status)
}
// +------------------------------------------------------------+
// | Body Readers |
// +------------------------------------------------------------+
// SetMaxRequestBodySize sets a limit to the request body size
// should be called before reading the request body from the client.
func (ctx *context) SetMaxRequestBodySize(limitOverBytes int64) {
ctx.request.Body = http.MaxBytesReader(ctx.writer, ctx.request.Body, limitOverBytes)
}
// UnmarshalBody reads the request's body and binds it to a value or pointer of any type
// Examples of usage: context.ReadJSON, context.ReadXML.
func (ctx *context) UnmarshalBody(v interface{}, unmarshaler Unmarshaler) error {
if ctx.request.Body == nil {
return errors.New("unmarshal: empty body")
}
rawData, err := ioutil.ReadAll(ctx.request.Body)
if err != nil {
return err
}
if ctx.Application().ConfigurationReadOnly().GetDisableBodyConsumptionOnUnmarshal() {
// * remember, Request.Body has no Bytes(), we have to consume them first
// and after re-set them to the body, this is the only solution.
ctx.request.Body = ioutil.NopCloser(bytes.NewBuffer(rawData))
}
// check if the v contains its own decode
// in this case the v should be a pointer also,
// but this is up to the user's custom Decode implementation*
//
// See 'BodyDecoder' for more
if decoder, isDecoder := v.(BodyDecoder); isDecoder {
return decoder.Decode(rawData)
}
// check if v is already a pointer, if yes then pass as it's
if reflect.TypeOf(v).Kind() == reflect.Ptr {
return unmarshaler.Unmarshal(rawData, v)
}
// finally, if the v doesn't contains a self-body decoder and it's not a pointer
// use the custom unmarshaler to bind the body
return unmarshaler.Unmarshal(rawData, &v)
}
func (ctx *context) shouldOptimize() bool {
return ctx.Application().ConfigurationReadOnly().GetEnableOptimizations()
}
// ReadJSON reads JSON from request's body and binds it to a value of any json-valid type.
func (ctx *context) ReadJSON(jsonObject interface{}) error {
var unmarshaler = json.Unmarshal
if ctx.shouldOptimize() {
unmarshaler = jsoniter.Unmarshal
}
return ctx.UnmarshalBody(jsonObject, UnmarshalerFunc(unmarshaler))
}
// ReadXML reads XML from request's body and binds it to a value of any xml-valid type.
func (ctx *context) ReadXML(xmlObject interface{}) error {
return ctx.UnmarshalBody(xmlObject, UnmarshalerFunc(xml.Unmarshal))
}
var (
errReadBody = errors.New("while trying to read %s from the request body. Trace %s")
)
// ReadForm binds the formObject with the form data
// it supports any kind of struct.
func (ctx *context) ReadForm(formObject interface{}) error {
values := ctx.FormValues()
if values == nil {
return errors.New("An empty form passed on ReadForm")
}
// or dec := formbinder.NewDecoder(&formbinder.DecoderOptions{TagName: "form"})
// somewhere at the app level. I did change the tagName to "form"
// inside its source code, so it's not needed for now.
return errReadBody.With(formbinder.Decode(values, formObject))
}
// +------------------------------------------------------------+
// | Body (raw) Writers |
// +------------------------------------------------------------+
// Write writes the data to the connection as part of an HTTP reply.
//
// If WriteHeader has not yet been called, Write calls
// WriteHeader(http.StatusOK) before writing the data. If the Header
// does not contain a Content-Type line, Write adds a Content-Type set
// to the result of passing the initial 512 bytes of written data to
// DetectContentType.
//
// Depending on the HTTP protocol version and the client, calling
// Write or WriteHeader may prevent future reads on the
// Request.Body. For HTTP/1.x requests, handlers should read any
// needed request body data before writing the response. Once the
// headers have been flushed (due to either an explicit Flusher.Flush
// call or writing enough data to trigger a flush), the request body
// may be unavailable. For HTTP/2 requests, the Go HTTP server permits
// handlers to continue to read the request body while concurrently
// writing the response. However, such behavior may not be supported
// by all HTTP/2 clients. Handlers should read before writing if
// possible to maximize compatibility.
func (ctx *context) Write(rawBody []byte) (int, error) {
return ctx.writer.Write(rawBody)
}
// Writef formats according to a format specifier and writes to the response.
//
// Returns the number of bytes written and any write error encountered.
func (ctx *context) Writef(format string, a ...interface{}) (n int, err error) {
return ctx.writer.Writef(format, a...)
}
// WriteString writes a simple string to the response.
//
// Returns the number of bytes written and any write error encountered.
func (ctx *context) WriteString(body string) (n int, err error) {
return ctx.writer.WriteString(body)
}
var (
// StaticCacheDuration expiration duration for INACTIVE file handlers, it's the only one global configuration
// which can be changed.
StaticCacheDuration = 20 * time.Second
lastModifiedHeaderKey = "Last-Modified"
ifModifiedSinceHeaderKey = "If-Modified-Since"
contentDispositionHeaderKey = "Content-Disposition"
cacheControlHeaderKey = "Cache-Control"
contentEncodingHeaderKey = "Content-Encoding"
acceptEncodingHeaderKey = "Accept-Encoding"
varyHeaderKey = "Vary"
)
// staticCachePassed checks the IfModifiedSince header and
// returns true if (client-side) duration has expired
func (ctx *context) staticCachePassed(modtime time.Time) bool {
if t, err := time.Parse(ctx.Application().ConfigurationReadOnly().GetTimeFormat(), ctx.GetHeader(ifModifiedSinceHeaderKey)); err == nil && modtime.Before(t.Add(StaticCacheDuration)) {
ctx.writer.Header().Del(contentTypeHeaderKey)
ctx.writer.Header().Del(contentLengthHeaderKey)
ctx.StatusCode(http.StatusNotModified)
return true
}
return false
}
// WriteWithExpiration like Write but it sends with an expiration datetime
// which is refreshed every package-level `StaticCacheDuration` field.
func (ctx *context) WriteWithExpiration(body []byte, modtime time.Time) (int, error) {
if ctx.staticCachePassed(modtime) {
return 0, nil
}
modtimeFormatted := modtime.UTC().Format(ctx.Application().ConfigurationReadOnly().GetTimeFormat())
ctx.Header(lastModifiedHeaderKey, modtimeFormatted)
return ctx.writer.Write(body)
}
// StreamWriter registers the given stream writer for populating
// response body.
//
// Access to context's and/or its' members is forbidden from writer.
//
// This function may be used in the following cases:
//
// * if response body is too big (more than iris.LimitRequestBodySize(if setted)).
// * if response body is streamed from slow external sources.
// * if response body must be streamed to the client in chunks.
// (aka `http server push`).
//
// receives a function which receives the response writer
// and returns false when it should stop writing, otherwise true in order to continue
func (ctx *context) StreamWriter(writer func(w io.Writer) bool) {
w := ctx.writer
notifyClosed := w.CloseNotify()
for {
select {
// response writer forced to close, exit.
case <-notifyClosed:
return
default:
shouldContinue := writer(w)
w.Flush()
if !shouldContinue {
return
}
}
}
}
// +------------------------------------------------------------+
// | Body Writers with compression |
// +------------------------------------------------------------+
// ClientSupportsGzip retruns true if the client supports gzip compression.
func (ctx *context) ClientSupportsGzip() bool {
if h := ctx.GetHeader(acceptEncodingHeaderKey); h != "" {
for _, v := range strings.Split(h, ";") {
if strings.Contains(v, "gzip") { // we do Contains because sometimes browsers has the q=, we don't use it atm. || strings.Contains(v,"deflate"){
return true
}
}
}
return false
}
var (
errClientDoesNotSupportGzip = errors.New("client doesn't supports gzip compression")
)
// WriteGzip accepts bytes, which are compressed to gzip format and sent to the client.
// returns the number of bytes written and an error ( if the client doesn' supports gzip compression)
//
// This function writes temporary gzip contents, the ResponseWriter is untouched.
func (ctx *context) WriteGzip(b []byte) (int, error) {
if ctx.ClientSupportsGzip() {
ctx.writer.Header().Add(varyHeaderKey, acceptEncodingHeaderKey)
gzipWriter := acquireGzipWriter(ctx.writer)
defer releaseGzipWriter(gzipWriter)
n, err := gzipWriter.Write(b)
if err == nil {
ctx.Header(contentEncodingHeaderKey, "gzip")
} // else write the contents as it is? no let's create a new func for this
return n, err
}
return 0, errClientDoesNotSupportGzip
}
// TryWriteGzip accepts bytes, which are compressed to gzip format and sent to the client.
// If client does not supprots gzip then the contents are written as they are, uncompressed.
//
// This function writes temporary gzip contents, the ResponseWriter is untouched.
func (ctx *context) TryWriteGzip(b []byte) (int, error) {
n, err := ctx.WriteGzip(b)
if err != nil {
// check if the error came from gzip not allowed and not the writer itself
if _, ok := err.(*errors.Error); ok {
// client didn't supported gzip, write them uncompressed:
return ctx.writer.Write(b)
}
}
return n, err
}
// GzipResponseWriter converts the current response writer into a response writer
// which when its .Write called it compress the data to gzip and writes them to the client.
//
// Can be also disabled with its .Disable and .ResetBody to rollback to the usual response writer.
func (ctx *context) GzipResponseWriter() *GzipResponseWriter {
// if it's already a gzip response writer then just return it
if gzipResWriter, ok := ctx.writer.(*GzipResponseWriter); ok {
return gzipResWriter
}
// if it's not acquire a new from a pool
// and register that as the ctx.ResponseWriter.
gzipResWriter := AcquireGzipResponseWriter()
gzipResWriter.BeginGzipResponse(ctx.writer)
ctx.ResetResponseWriter(gzipResWriter)
return gzipResWriter
}
// Gzip enables or disables (if enabled before) the gzip response writer,if the client
// supports gzip compression, so the following response data will
// be sent as compressed gzip data to the client.
func (ctx *context) Gzip(enable bool) {
if enable {
if ctx.ClientSupportsGzip() {
_ = ctx.GzipResponseWriter()
}
} else {
if gzipResWriter, ok := ctx.writer.(*GzipResponseWriter); ok {
gzipResWriter.Disable()
}
}
}
// +------------------------------------------------------------+
// | Rich Body Content Writers/Renderers |
// +------------------------------------------------------------+
const (
// NoLayout to disable layout for a particular template file
NoLayout = "iris.nolayout"
)
// ViewLayout sets the "layout" option if and when .View
// is being called afterwards, in the same request.
// Useful when need to set or/and change a layout based on the previous handlers in the chain.
//
// Note that the 'layoutTmplFile' argument can be setted to iris.NoLayout || view.NoLayout || context.NoLayout
// to disable the layout for a specific view render action,
// it disables the engine's configuration's layout property.
//
// Look .ViewData and .View too.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/view/context-view-data/
func (ctx *context) ViewLayout(layoutTmplFile string) {
ctx.values.Set(ctx.Application().ConfigurationReadOnly().GetViewLayoutContextKey(), layoutTmplFile)
}
// ViewData saves one or more key-value pair in order to be passed if and when .View
// is being called afterwards, in the same request.
// Useful when need to set or/and change template data from previous hanadlers in the chain.
//
// If .View's "binding" argument is not nil and it's not a type of map
// then these data are being ignored, binding has the priority, so the main route's handler can still decide.
// If binding is a map or context.Map then these data are being added to the view data
// and passed to the template.
//
// After .View, the data are not destroyed, in order to be re-used if needed (again, in the same request as everything else),
// to clear the view data, developers can call:
// ctx.Set(ctx.Application().ConfigurationReadOnly().GetViewDataContextKey(), nil)
//
// If 'key' is empty then the value is added as it's (struct or map) and developer is unable to add other value.
//
// Look .ViewLayout and .View too.
//
// Example: https://github.com/kataras/iris/tree/master/_examples/view/context-view-data/
func (ctx *context) ViewData(key string, value interface{}) {
viewDataContextKey := ctx.Application().ConfigurationReadOnly().GetViewDataContextKey()
if key == "" {
ctx.values.Set(viewDataContextKey, value)
return
}
v := ctx.values.Get(viewDataContextKey)
if v == nil {
ctx.values.Set(viewDataContextKey, Map{key: value})
return
}
if data, ok := v.(map[string]interface{}); ok {
data[key] = value
} else if data, ok := v.(Map); ok {
data[key] = value
}
}
// GetViewData returns the values registered by `context#ViewData`.
// The return value is `map[string]interface{}`, this means that
// if a custom struct registered to ViewData then this function
// will try to parse it to map, if failed then the return value is nil
// A check for nil is always a good practise if different
// kind of values or no data are registered via `ViewData`.
//
// Similarly to `viewData := ctx.Values().Get("iris.viewData")` or
// `viewData := ctx.Values().Get(ctx.Application().ConfigurationReadOnly().GetViewDataContextKey())`.
func (ctx *context) GetViewData() map[string]interface{} {
viewDataContextKey := ctx.Application().ConfigurationReadOnly().GetViewDataContextKey()
v := ctx.Values().Get(viewDataContextKey)
// if no values found, then return nil
if v == nil {
return nil
}
// if struct, convert it to map[string]interface{}
if structs.IsStruct(v) {
return structs.Map(v)
}
// if pure map[string]interface{}
if viewData, ok := v.(map[string]interface{}); ok {
return viewData
}
// if context#Map
if viewData, ok := v.(Map); ok {
return viewData
}
// if failure, then return nil
return nil
}
// View renders templates based on the adapted view engines.
// First argument accepts the filename, relative to the view engine's Directory,
// i.e: if directory is "./templates" and want to render the "./templates/users/index.html"
// then you pass the "users/index.html" as the filename argument.
//
// Look: .ViewData and .ViewLayout too.
//
// Examples: https://github.com/kataras/iris/tree/master/_examples/view/
func (ctx *context) View(filename string) error {
ctx.ContentType(ContentHTMLHeaderValue)
cfg := ctx.Application().ConfigurationReadOnly()
layout := ctx.values.GetString(cfg.GetViewLayoutContextKey())
bindingData := ctx.values.Get(cfg.GetViewDataContextKey())
err := ctx.Application().View(ctx.writer, filename, layout, bindingData)
if err != nil {
ctx.StatusCode(http.StatusInternalServerError)
ctx.StopExecution()
}
return err
}
const (
// ContentBinaryHeaderValue header value for binary data.
ContentBinaryHeaderValue = "application/octet-stream"
// ContentHTMLHeaderValue is the string of text/html response header's content type value.
ContentHTMLHeaderValue = "text/html"
// ContentJSONHeaderValue header value for JSON data.
ContentJSONHeaderValue = "application/json"
// ContentJavascriptHeaderValue header value for JSONP & Javascript data.
ContentJavascriptHeaderValue = "application/javascript"
// ContentTextHeaderValue header value for Text data.
ContentTextHeaderValue = "text/plain"
// ContentXMLHeaderValue header value for XML data.
ContentXMLHeaderValue = "text/xml"
// ContentMarkdownHeaderValue custom key/content type, the real is the text/html.
ContentMarkdownHeaderValue = "text/markdown"
)
// Binary writes out the raw bytes as binary data.
func (ctx *context) Binary(data []byte) (int, error) {
ctx.ContentType(ContentBinaryHeaderValue)
return ctx.Write(data)
}
// Text writes out a string as plain text.
func (ctx *context) Text(text string) (int, error) {
ctx.ContentType(ContentTextHeaderValue)
return ctx.writer.WriteString(text)
}
// HTML writes out a string as text/html.
func (ctx *context) HTML(htmlContents string) (int, error) {
ctx.ContentType(ContentHTMLHeaderValue)
return ctx.writer.WriteString(htmlContents)
}
// JSON contains the options for the JSON (Context's) Renderer.
type JSON struct {
// http-specific
StreamingJSON bool
// content-specific
UnescapeHTML bool
Indent string
Prefix string
}
// JSONP contains the options for the JSONP (Context's) Renderer.
type JSONP struct {
// content-specific
Indent string
Callback string
}
// XML contains the options for the XML (Context's) Renderer.
type XML struct {
// content-specific
Indent string
Prefix string
}
// Markdown contains the options for the Markdown (Context's) Renderer.
type Markdown struct {
// content-specific
Sanitize bool
}
var (
newLineB = []byte("\n")
// the html codes for unescaping
ltHex = []byte("\\u003c")
lt = []byte("<")
gtHex = []byte("\\u003e")
gt = []byte(">")
andHex = []byte("\\u0026")
and = []byte("&")
)
// WriteJSON marshals the given interface object and writes the JSON response to the 'writer'.
// Ignores StatusCode, Gzip, StreamingJSON options.
func WriteJSON(writer io.Writer, v interface{}, options JSON, enableOptimization ...bool) (int, error) {
var (
result []byte
err error
optimize = len(enableOptimization) > 0 && enableOptimization[0]
)
if indent := options.Indent; indent != "" {
marshalIndent := json.MarshalIndent
if optimize {
marshalIndent = jsoniter.ConfigCompatibleWithStandardLibrary.MarshalIndent
}
result, err = marshalIndent(v, "", indent)
result = append(result, newLineB...)
} else {
marshal := json.Marshal
if optimize {
marshal = jsoniter.ConfigCompatibleWithStandardLibrary.Marshal
}
result, err = marshal(v)
}
if err != nil {
return 0, err
}
if options.UnescapeHTML {
result = bytes.Replace(result, ltHex, lt, -1)
result = bytes.Replace(result, gtHex, gt, -1)
result = bytes.Replace(result, andHex, and, -1)
}
if prefix := options.Prefix; prefix != "" {
result = append([]byte(prefix), result...)
}
return writer.Write(result)
}
// DefaultJSONOptions is the optional settings that are being used
// inside `ctx.JSON`.
var DefaultJSONOptions = JSON{}
// JSON marshals the given interface object and writes the JSON response to the client.
func (ctx *context) JSON(v interface{}, opts ...JSON) (n int, err error) {
options := DefaultJSONOptions
if len(opts) > 0 {
options = opts[0]
}
optimize := ctx.shouldOptimize()
ctx.ContentType(ContentJSONHeaderValue)
if options.StreamingJSON {
if optimize {
var jsoniterConfig = jsoniter.Config{
EscapeHTML: !options.UnescapeHTML,
IndentionStep: 4,
}.Froze()
enc := jsoniterConfig.NewEncoder(ctx.writer)
err = enc.Encode(v)
} else {
enc := json.NewEncoder(ctx.writer)
enc.SetEscapeHTML(!options.UnescapeHTML)
enc.SetIndent(options.Prefix, options.Indent)
err = enc.Encode(v)
}
if err != nil {
ctx.StatusCode(http.StatusInternalServerError) // it handles the fallback to normal mode here which also removes the gzip headers.
return 0, err
}
return ctx.writer.Written(), err
}
n, err = WriteJSON(ctx.writer, v, options, optimize)
if err != nil {
ctx.StatusCode(http.StatusInternalServerError)
return 0, err
}
return n, err
}
var (
finishCallbackB = []byte(");")
)
// WriteJSONP marshals the given interface object and writes the JSON response to the writer.
func WriteJSONP(writer io.Writer, v interface{}, options JSONP, enableOptimization ...bool) (int, error) {
if callback := options.Callback; callback != "" {
writer.Write([]byte(callback + "("))
defer writer.Write(finishCallbackB)
}
optimize := len(enableOptimization) > 0 && enableOptimization[0]
if indent := options.Indent; indent != "" {
marshalIndent := json.MarshalIndent
if optimize {
marshalIndent = jsoniter.ConfigCompatibleWithStandardLibrary.MarshalIndent
}
result, err := marshalIndent(v, "", indent)
if err != nil {
return 0, err
}
result = append(result, newLineB...)
return writer.Write(result)
}
marshal := json.Marshal
if optimize {
marshal = jsoniter.ConfigCompatibleWithStandardLibrary.Marshal
}
result, err := marshal(v)
if err != nil {
return 0, err
}
return writer.Write(result)
}
// DefaultJSONPOptions is the optional settings that are being used
// inside `ctx.JSONP`.
var DefaultJSONPOptions = JSONP{}
// JSONP marshals the given interface object and writes the JSON response to the client.
func (ctx *context) JSONP(v interface{}, opts ...JSONP) (int, error) {
options := DefaultJSONPOptions
if len(opts) > 0 {
options = opts[0]
}
ctx.ContentType(ContentJavascriptHeaderValue)
n, err := WriteJSONP(ctx.writer, v, options, ctx.shouldOptimize())
if err != nil {
ctx.StatusCode(http.StatusInternalServerError)
return 0, err
}
return n, err
}
// WriteXML marshals the given interface object and writes the XML response to the writer.
func WriteXML(writer io.Writer, v interface{}, options XML) (int, error) {
if prefix := options.Prefix; prefix != "" {
writer.Write([]byte(prefix))
}
if indent := options.Indent; indent != "" {
result, err := xml.MarshalIndent(v, "", indent)
if err != nil {
return 0, err
}
result = append(result, newLineB...)
return writer.Write(result)
}
result, err := xml.Marshal(v)
if err != nil {
return 0, err
}
return writer.Write(result)
}
// DefaultXMLOptions is the optional settings that are being used
// from `ctx.XML`.
var DefaultXMLOptions = XML{}
// XML marshals the given interface object and writes the XML response to the client.
func (ctx *context) XML(v interface{}, opts ...XML) (int, error) {
options := DefaultXMLOptions
if len(opts) > 0 {
options = opts[0]
}
ctx.ContentType(ContentXMLHeaderValue)
n, err := WriteXML(ctx.writer, v, options)
if err != nil {
ctx.StatusCode(http.StatusInternalServerError)
return 0, err
}
return n, err
}
// WriteMarkdown parses the markdown to html and renders these contents to the writer.
func WriteMarkdown(writer io.Writer, markdownB []byte, options Markdown) (int, error) {
buf := blackfriday.Run(markdownB)
if options.Sanitize {
buf = bluemonday.UGCPolicy().SanitizeBytes(buf)
}
return writer.Write(buf)
}
// DefaultMarkdownOptions is the optional settings that are being used
// from `WriteMarkdown` and `ctx.Markdown`.
var DefaultMarkdownOptions = Markdown{}
// Markdown parses the markdown to html and renders to the client.
func (ctx *context) Markdown(markdownB []byte, opts ...Markdown) (int, error) {
options := DefaultMarkdownOptions
if len(opts) > 0 {
options = opts[0]
}
ctx.ContentType(ContentHTMLHeaderValue)
n, err := WriteMarkdown(ctx.writer, markdownB, options)
if err != nil {
ctx.StatusCode(http.StatusInternalServerError)
return 0, err
}
return n, err
}
// +------------------------------------------------------------+
// | Serve files |
// +------------------------------------------------------------+
var (
errServeContent = errors.New("while trying to serve content to the client. Trace %s")
)
const (
// contentLengthHeaderKey represents the header["Content-Length"]
contentLengthHeaderKey = "Content-Length"
)
// ServeContent serves content, headers are autoset
// receives three parameters, it's low-level function, instead you can use .ServeFile(string,bool)/SendFile(string,string)
//
// You can define your own "Content-Type" header also, after this function call
// Doesn't implements resuming (by range), use ctx.SendFile instead
func (ctx *context) ServeContent(content io.ReadSeeker, filename string, modtime time.Time, gzipCompression bool) error {
if t, err := time.Parse(ctx.Application().ConfigurationReadOnly().GetTimeFormat(), ctx.GetHeader(ifModifiedSinceHeaderKey)); err == nil && modtime.Before(t.Add(1*time.Second)) {
ctx.writer.Header().Del(contentTypeHeaderKey)
ctx.writer.Header().Del(contentLengthHeaderKey)
ctx.StatusCode(http.StatusNotModified)
return nil
}
ctx.ContentType(filename)
ctx.writer.Header().Set(lastModifiedHeaderKey, modtime.UTC().Format(ctx.Application().ConfigurationReadOnly().GetTimeFormat()))
ctx.StatusCode(http.StatusOK)
var out io.Writer
if gzipCompression && ctx.ClientSupportsGzip() {
ctx.writer.Header().Add(varyHeaderKey, acceptEncodingHeaderKey)
ctx.Header(contentEncodingHeaderKey, "gzip")
gzipWriter := acquireGzipWriter(ctx.writer)
defer releaseGzipWriter(gzipWriter)
out = gzipWriter
} else {
out = ctx.writer
}
_, err := io.Copy(out, content)
return errServeContent.With(err)
}
// ServeFile serves a view file, to send a file ( zip for example) to the client you should use the SendFile(serverfilename,clientfilename)
// receives two parameters
// filename/path (string)
// gzipCompression (bool)
//
// You can define your own "Content-Type" header also, after this function call
// This function doesn't implement resuming (by range), use ctx.SendFile instead
//
// Use it when you want to serve css/js/... files to the client, for bigger files and 'force-download' use the SendFile.
func (ctx *context) ServeFile(filename string, gzipCompression bool) error {
f, err := os.Open(filename)
if err != nil {
return fmt.Errorf("%d", 404)
}
defer f.Close()
fi, _ := f.Stat()
if fi.IsDir() {
return ctx.ServeFile(path.Join(filename, "index.html"), gzipCompression)
}
return ctx.ServeContent(f, fi.Name(), fi.ModTime(), gzipCompression)
}
// SendFile sends file for force-download to the client
//
// Use this instead of ServeFile to 'force-download' bigger files to the client.
func (ctx *context) SendFile(filename string, destinationName string) error {
ctx.writer.Header().Set(contentDispositionHeaderKey, "attachment;filename="+destinationName)
return ctx.ServeFile(filename, false)
}
// +------------------------------------------------------------+
// | Cookies, Session and Flashes |
// +------------------------------------------------------------+
// SetCookie adds a cookie
func (ctx *context) SetCookie(cookie *http.Cookie) {
http.SetCookie(ctx.writer, cookie)
}
var (
// SetCookieKVExpiration is 2 hours by-default
// you can change it or simple, use the SetCookie for more control.
SetCookieKVExpiration = time.Duration(120) * time.Minute
)
// SetCookieKV adds a cookie, receives just a name(string) and a value(string)
//
// If you use this method, it expires at 2 hours
// use ctx.SetCookie or http.SetCookie if you want to change more fields.
func (ctx *context) SetCookieKV(name, value string) {
c := &http.Cookie{}
c.Name = name
c.Value = value
c.HttpOnly = true
c.Expires = time.Now().Add(SetCookieKVExpiration)
c.MaxAge = int(SetCookieKVExpiration.Seconds())
ctx.SetCookie(c)
}
// GetCookie returns cookie's value by it's name
// returns empty string if nothing was found.
func (ctx *context) GetCookie(name string) string {
cookie, err := ctx.request.Cookie(name)
if err != nil {
return ""
}
return cookie.Value
}
// RemoveCookie deletes a cookie by it's name.
func (ctx *context) RemoveCookie(name string) {
c := &http.Cookie{}
c.Name = name
c.Value = ""
c.Path = "/"
c.HttpOnly = true
// RFC says 1 second, but let's do it 1 minute to make sure is working
exp := time.Now().Add(-time.Duration(1) * time.Minute)
c.Expires = exp
c.MaxAge = -1
ctx.SetCookie(c)
// delete request's cookie also, which is temporary available
ctx.request.Header.Set("Cookie", "")
}
// VisitAllCookies takes a visitor which loops
// on each (request's) cookies' name and value.
func (ctx *context) VisitAllCookies(visitor func(name string, value string)) {
for _, cookie := range ctx.request.Cookies() {
visitor(cookie.Name, cookie.Value)
}
}
var maxAgeExp = regexp.MustCompile(`maxage=(\d+)`)
// MaxAge returns the "cache-control" request header's value
// seconds as int64
// if header not found or parse failed then it returns -1.
func (ctx *context) MaxAge() int64 {
header := ctx.GetHeader(cacheControlHeaderKey)
if header == "" {
return -1
}
m := maxAgeExp.FindStringSubmatch(header)
if len(m) == 2 {
if v, err := strconv.Atoi(m[1]); err == nil {
return int64(v)
}
}
return -1
}
// +------------------------------------------------------------+
// | Advanced: Response Recorder and Transactions |
// +------------------------------------------------------------+
// Record transforms the context's basic and direct responseWriter to a *ResponseRecorder
// which can be used to reset the body, reset headers, get the body,
// get & set the status code at any time and more.
func (ctx *context) Record() {
if w, ok := ctx.writer.(*responseWriter); ok {
recorder := AcquireResponseRecorder()
recorder.BeginRecord(w)
ctx.ResetResponseWriter(recorder)
}
}
// Recorder returns the context's ResponseRecorder
// if not recording then it starts recording and returns the new context's ResponseRecorder
func (ctx *context) Recorder() *ResponseRecorder {
ctx.Record()
return ctx.writer.(*ResponseRecorder)
}
// IsRecording returns the response recorder and a true value
// when the response writer is recording the status code, body, headers and so on,
// else returns nil and false.
func (ctx *context) IsRecording() (*ResponseRecorder, bool) {
//NOTE:
// two return values in order to minimize the if statement:
// if (Recording) then writer = Recorder()
// instead we do: recorder,ok = Recording()
rr, ok := ctx.writer.(*ResponseRecorder)
return rr, ok
}
// non-detailed error log for transacton unexpected panic
var errTransactionInterrupted = errors.New("transaction interrupted, recovery from panic:\n%s")
// BeginTransaction starts a scoped transaction.
//
// Can't say a lot here because it will take more than 200 lines to write about.
// You can search third-party articles or books on how Business Transaction works (it's quite simple, especially here).
//
// Note that this is unique and new
// (=I haver never seen any other examples or code in Golang on this subject, so far, as with the most of iris features...)
// it's not covers all paths,
// such as databases, this should be managed by the libraries you use to make your database connection,
// this transaction scope is only for context's response.
// Transactions have their own middleware ecosystem also, look iris.go:UseTransaction.
//
// See https://github.com/kataras/iris/tree/master/_examples/ for more
func (ctx *context) BeginTransaction(pipe func(t *Transaction)) {
// do NOT begin a transaction when the previous transaction has been failed
// and it was requested scoped or SkipTransactions called manually.
if ctx.TransactionsSkipped() {
return
}
// start recording in order to be able to control the full response writer
ctx.Record()
t := newTransaction(ctx) // it calls this *context, so the overriding with a new pool's New of context.Context wil not work here.
defer func() {
if err := recover(); err != nil {
ctx.Application().Logger().Warn(errTransactionInterrupted.Format(err).Error())
// complete (again or not , doesn't matters) the scope without loud
t.Complete(nil)
// we continue as normal, no need to return here*
}
// write the temp contents to the original writer
t.Context().ResponseWriter().WriteTo(ctx.writer)
// give back to the transaction the original writer (SetBeforeFlush works this way and only this way)
// this is tricky but nessecery if we want ctx.FireStatusCode to work inside transactions
t.Context().ResetResponseWriter(ctx.writer)
}()
// run the worker with its context clone inside.
pipe(t)
}
// skipTransactionsContextKey set this to any value to stop executing next transactions
// it's a context-key in order to be used from anywhere, set it by calling the SkipTransactions()
const skipTransactionsContextKey = "@transictions_skipped"
// SkipTransactions if called then skip the rest of the transactions
// or all of them if called before the first transaction
func (ctx *context) SkipTransactions() {
ctx.values.Set(skipTransactionsContextKey, 1)
}
// TransactionsSkipped returns true if the transactions skipped or canceled at all.
func (ctx *context) TransactionsSkipped() bool {
if n, err := ctx.values.GetInt(skipTransactionsContextKey); err == nil && n == 1 {
return true
}
return false
}
// Exec calls the framewrok's ServeCtx
// based on this context but with a changed method and path
// like it was requested by the user, but it is not.
//
// Offline means that the route is registered to the iris and have all features that a normal route has
// BUT it isn't available by browsing, its handlers executed only when other handler's context call them
// it can validate paths, has sessions, path parameters and all.
//
// You can find the Route by app.GetRoute("theRouteName")
// you can set a route name as: myRoute := app.Get("/mypath", handler)("theRouteName")
// that will set a name to the route and returns its RouteInfo instance for further usage.
//
// It doesn't changes the global state, if a route was "offline" it remains offline.
//
// app.None(...) and app.GetRoutes().Offline(route)/.Online(route, method)
//
// Example: https://github.com/kataras/iris/tree/master/_examples/routing/route-state
//
// User can get the response by simple using rec := ctx.Recorder(); rec.Body()/rec.StatusCode()/rec.Header().
//
// context's Values and the Session are kept in order to be able to communicate via the result route.
//
// It's for extreme use cases, 99% of the times will never be useful for you.
func (ctx *context) Exec(method string, path string) {
if path != "" {
if method == "" {
method = "GET"
}
// backup the handlers
backupHandlers := ctx.Handlers()[0:]
backupPos := ctx.HandlerIndex(-1)
// backup the request path information
backupPath := ctx.Path()
bakcupMethod := ctx.Method()
// don't backupValues := ctx.Values().ReadOnly()
// [sessions stays]
// [values stays]
// reset handlers
ctx.SetHandlers(nil)
req := ctx.Request()
// set the request to be align with the 'againstRequestPath'
req.RequestURI = path
req.URL.Path = path
req.Method = method
// execute the route from the (internal) context router
// this way we keep the sessions and the values
ctx.Application().ServeHTTPC(ctx)
// set back the old handlers and the last known index
ctx.SetHandlers(backupHandlers)
ctx.HandlerIndex(backupPos)
// set the request back to its previous state
req.RequestURI = backupPath
req.URL.Path = backupPath
req.Method = bakcupMethod
// don't fill the values in order to be able to communicate from and to.
// // fill the values as they were before
// backupValues.Visit(func(key string, value interface{}) {
// ctx.Values().Set(key, value)
// })
}
}
// Application returns the iris app instance which belongs to this context.
// Worth to notice that this function returns an interface
// of the Application, which contains methods that are safe
// to be executed at serve-time. The full app's fields
// and methods are not available here for the developer's safety.
func (ctx *context) Application() Application {
return ctx.app
}