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use std::fmt; use base64::{encode}; use futures::Future; use serde::Serialize; use serde_json; use serde_urlencoded; use super::body::{Body}; use super::client::{Client, Pending}; use super::multipart; use super::response::Response; use header::{CONTENT_LENGTH, CONTENT_TYPE, HeaderMap, HeaderName, HeaderValue}; use http::HttpTryFrom; use {Method, Url}; /// A request which can be executed with `Client::execute()`. pub struct Request { method: Method, url: Url, headers: HeaderMap, body: Option<Body>, } /// A builder to construct the properties of a `Request`. pub struct RequestBuilder { client: Client, request: ::Result<Request>, } impl Request { /// Constructs a new request. #[inline] pub fn new(method: Method, url: Url) -> Self { Request { method, url, headers: HeaderMap::new(), body: None, } } /// Get the method. #[inline] pub fn method(&self) -> &Method { &self.method } /// Get a mutable reference to the method. #[inline] pub fn method_mut(&mut self) -> &mut Method { &mut self.method } /// Get the url. #[inline] pub fn url(&self) -> &Url { &self.url } /// Get a mutable reference to the url. #[inline] pub fn url_mut(&mut self) -> &mut Url { &mut self.url } /// Get the headers. #[inline] pub fn headers(&self) -> &HeaderMap { &self.headers } /// Get a mutable reference to the headers. #[inline] pub fn headers_mut(&mut self) -> &mut HeaderMap { &mut self.headers } /// Get the body. #[inline] pub fn body(&self) -> Option<&Body> { self.body.as_ref() } /// Get a mutable reference to the body. #[inline] pub fn body_mut(&mut self) -> &mut Option<Body> { &mut self.body } pub(super) fn pieces(self) -> (Method, Url, HeaderMap, Option<Body>) { (self.method, self.url, self.headers, self.body) } } impl RequestBuilder { pub(super) fn new(client: Client, request: ::Result<Request>) -> RequestBuilder { RequestBuilder { client, request, } } /// Add a `Header` to this Request. pub fn header<K, V>(mut self, key: K, value: V) -> RequestBuilder where HeaderName: HttpTryFrom<K>, HeaderValue: HttpTryFrom<V>, { let mut error = None; if let Ok(ref mut req) = self.request { match <HeaderName as HttpTryFrom<K>>::try_from(key) { Ok(key) => { match <HeaderValue as HttpTryFrom<V>>::try_from(value) { Ok(value) => { req.headers_mut().append(key, value); } Err(e) => error = Some(::error::from(e.into())), } }, Err(e) => error = Some(::error::from(e.into())), }; } if let Some(err) = error { self.request = Err(err); } self } /// Add a set of Headers to the existing ones on this Request. /// /// The headers will be merged in to any already set. pub fn headers(mut self, headers: ::header::HeaderMap) -> RequestBuilder { if let Ok(ref mut req) = self.request { replace_headers(req.headers_mut(), headers); } self } /// Set a header with a type implementing hyper v0.11's `Header` trait. /// /// This method is provided to ease migration, and requires the `hyper-011` /// Cargo feature enabled on `reqwest`. #[cfg(feature = "hyper-011")] pub fn header_011<H>(self, header: H) -> RequestBuilder where H: ::hyper_011::header::Header, { let mut headers = ::hyper_011::Headers::new(); headers.set(header); let map = ::header::HeaderMap::from(headers); self.headers(map) } /// Set multiple headers using hyper v0.11's `Headers` map. /// /// This method is provided to ease migration, and requires the `hyper-011` /// Cargo feature enabled on `reqwest`. #[cfg(feature = "hyper-011")] pub fn headers_011(self, headers: ::hyper_011::Headers) -> RequestBuilder { let map = ::header::HeaderMap::from(headers); self.headers(map) } /// Enable HTTP basic authentication. pub fn basic_auth<U, P>(self, username: U, password: Option<P>) -> RequestBuilder where U: fmt::Display, P: fmt::Display, { let auth = match password { Some(password) => format!("{}:{}", username, password), None => format!("{}:", username) }; let header_value = format!("Basic {}", encode(&auth)); self.header(::header::AUTHORIZATION, &*header_value) } /// Enable HTTP bearer authentication. pub fn bearer_auth<T>(self, token: T) -> RequestBuilder where T: fmt::Display, { let header_value = format!("Bearer {}", token); self.header(::header::AUTHORIZATION, &*header_value) } /// Set the request body. pub fn body<T: Into<Body>>(mut self, body: T) -> RequestBuilder { if let Ok(ref mut req) = self.request { *req.body_mut() = Some(body.into()); } self } /// Sends a multipart/form-data body. /// /// ``` /// # extern crate futures; /// # extern crate reqwest; /// /// # use reqwest::Error; /// # use futures::future::Future; /// /// # fn run() -> Result<(), Error> { /// let client = reqwest::async::Client::new(); /// let form = reqwest::async::multipart::Form::new() /// .text("key3", "value3") /// .text("key4", "value4"); /// /// let mut rt = tokio::runtime::current_thread::Runtime::new().expect("new rt"); /// /// let response = client.post("your url") /// .multipart(form) /// .send() /// .and_then(|_| { /// Ok(()) /// }); /// /// rt.block_on(response) /// # } /// ``` pub fn multipart(self, mut multipart: multipart::Form) -> RequestBuilder { let mut builder = self.header( CONTENT_TYPE, format!( "multipart/form-data; boundary={}", multipart.boundary() ).as_str() ); builder = match multipart.compute_length() { Some(length) => builder.header(CONTENT_LENGTH, length), None => builder, }; if let Ok(ref mut req) = builder.request { *req.body_mut() = Some(Body::wrap(multipart.stream())) } builder } /// Modify the query string of the URL. /// /// Modifies the URL of this request, adding the parameters provided. /// This method appends and does not overwrite. This means that it can /// be called multiple times and that existing query parameters are not /// overwritten if the same key is used. The key will simply show up /// twice in the query string. /// Calling `.query([("foo", "a"), ("foo", "b")])` gives `"foo=a&foo=b"`. /// /// # Note /// This method does not support serializing a single key-value /// pair. Instead of using `.query(("key", "val"))`, use a sequence, such /// as `.query(&[("key", "val")])`. It's also possible to serialize structs /// and maps into a key-value pair. /// /// # Errors /// This method will fail if the object you provide cannot be serialized /// into a query string. pub fn query<T: Serialize + ?Sized>(mut self, query: &T) -> RequestBuilder { let mut error = None; if let Ok(ref mut req) = self.request { let url = req.url_mut(); let mut pairs = url.query_pairs_mut(); let serializer = serde_urlencoded::Serializer::new(&mut pairs); if let Err(err) = query.serialize(serializer) { error = Some(::error::from(err)); } } if let Ok(ref mut req) = self.request { if let Some("") = req.url().query() { req.url_mut().set_query(None); } } if let Some(err) = error { self.request = Err(err); } self } /// Send a form body. pub fn form<T: Serialize + ?Sized>(mut self, form: &T) -> RequestBuilder { let mut error = None; if let Ok(ref mut req) = self.request { match serde_urlencoded::to_string(form) { Ok(body) => { req.headers_mut().insert( CONTENT_TYPE, HeaderValue::from_static("application/x-www-form-urlencoded") ); *req.body_mut() = Some(body.into()); }, Err(err) => error = Some(::error::from(err)), } } if let Some(err) = error { self.request = Err(err); } self } /// Send a JSON body. /// /// # Errors /// /// Serialization can fail if `T`'s implementation of `Serialize` decides to /// fail, or if `T` contains a map with non-string keys. pub fn json<T: Serialize + ?Sized>(mut self, json: &T) -> RequestBuilder { let mut error = None; if let Ok(ref mut req) = self.request { match serde_json::to_vec(json) { Ok(body) => { req.headers_mut().insert( CONTENT_TYPE, HeaderValue::from_static("application/json") ); *req.body_mut() = Some(body.into()); }, Err(err) => error = Some(::error::from(err)), } } if let Some(err) = error { self.request = Err(err); } self } /// Build a `Request`, which can be inspected, modified and executed with /// `Client::execute()`. pub fn build(self) -> ::Result<Request> { self.request } /// Constructs the Request and sends it to the target URL, returning a /// future Response. /// /// # Errors /// /// This method fails if there was an error while sending request, /// redirect loop was detected or redirect limit was exhausted. /// /// # Example /// /// ```no_run /// # extern crate futures; /// # extern crate reqwest; /// # /// # use reqwest::Error; /// # use futures::future::Future; /// # /// # fn run() -> Result<(), Error> { /// let response = reqwest::r#async::Client::new() /// .get("https://hyper.rs") /// .send() /// .map(|resp| println!("status: {}", resp.status())); /// /// let mut rt = tokio::runtime::current_thread::Runtime::new().expect("new rt"); /// rt.block_on(response) /// # } /// ``` pub fn send(self) -> impl Future<Item = Response, Error = ::Error> { match self.request { Ok(req) => self.client.execute_request(req), Err(err) => Pending::new_err(err), } } } impl fmt::Debug for Request { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fmt_request_fields(&mut f.debug_struct("Request"), self) .finish() } } impl fmt::Debug for RequestBuilder { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let mut builder = f.debug_struct("RequestBuilder"); match self.request { Ok(ref req) => { fmt_request_fields(&mut builder, req) .finish() }, Err(ref err) => { builder .field("error", err) .finish() } } } } fn fmt_request_fields<'a, 'b>(f: &'a mut fmt::DebugStruct<'a, 'b>, req: &Request) -> &'a mut fmt::DebugStruct<'a, 'b> { f.field("method", &req.method) .field("url", &req.url) .field("headers", &req.headers) } pub(crate) fn replace_headers(dst: &mut HeaderMap, src: HeaderMap) { // IntoIter of HeaderMap yields (Option<HeaderName>, HeaderValue). // The first time a name is yielded, it will be Some(name), and if // there are more values with the same name, the next yield will be // None. // // TODO: a complex exercise would be to optimize this to only // require 1 hash/lookup of the key, but doing something fancy // with header::Entry... let mut prev_name = None; for (key, value) in src { match key { Some(key) => { dst.insert(key.clone(), value); prev_name = Some(key); }, None => match prev_name { Some(ref key) => { dst.append(key.clone(), value); }, None => unreachable!("HeaderMap::into_iter yielded None first"), }, } } } #[cfg(test)] mod tests { use super::Client; use std::collections::BTreeMap; use serde::Serialize; #[test] fn add_query_append() { let client = Client::new(); let some_url = "https://google.com/"; let r = client.get(some_url); let r = r.query(&[("foo", "bar")]); let r = r.query(&[("qux", 3)]); let req = r.build().expect("request is valid"); assert_eq!(req.url().query(), Some("foo=bar&qux=3")); } #[test] fn add_query_append_same() { let client = Client::new(); let some_url = "https://google.com/"; let r = client.get(some_url); let r = r.query(&[("foo", "a"), ("foo", "b")]); let req = r.build().expect("request is valid"); assert_eq!(req.url().query(), Some("foo=a&foo=b")); } #[test] fn add_query_struct() { #[derive(Serialize)] struct Params { foo: String, qux: i32, } let client = Client::new(); let some_url = "https://google.com/"; let r = client.get(some_url); let params = Params { foo: "bar".into(), qux: 3 }; let r = r.query(¶ms); let req = r.build().expect("request is valid"); assert_eq!(req.url().query(), Some("foo=bar&qux=3")); } #[test] fn add_query_map() { let mut params = BTreeMap::new(); params.insert("foo", "bar"); params.insert("qux", "three"); let client = Client::new(); let some_url = "https://google.com/"; let r = client.get(some_url); let r = r.query(¶ms); let req = r.build().expect("request is valid"); assert_eq!(req.url().query(), Some("foo=bar&qux=three")); } #[test] fn test_replace_headers() { use http::HeaderMap; let mut headers = HeaderMap::new(); headers.insert("foo", "bar".parse().unwrap()); headers.append("foo", "baz".parse().unwrap()); let client = Client::new(); let req = client .get("https://hyper.rs") .header("im-a", "keeper") .header("foo", "pop me") .headers(headers) .build() .expect("request build"); assert_eq!(req.headers()["im-a"], "keeper"); let foo = req .headers() .get_all("foo") .iter() .collect::<Vec<_>>(); assert_eq!(foo.len(), 2); assert_eq!(foo[0], "bar"); assert_eq!(foo[1], "baz"); } #[test] fn normalize_empty_query() { let client = Client::new(); let some_url = "https://google.com/"; let empty_query: &[(&str, &str)] = &[]; let req = client .get(some_url) .query(empty_query) .build() .expect("request build"); assert_eq!(req.url().query(), None); assert_eq!(req.url().as_str(), "https://google.com/"); } /* use {body, Method}; use super::Client; use header::{Host, Headers, ContentType}; use std::collections::HashMap; use serde_urlencoded; use serde_json; #[test] fn basic_get_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.get(some_url).unwrap().build(); assert_eq!(r.method, Method::Get); assert_eq!(r.url.as_str(), some_url); } #[test] fn basic_head_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.head(some_url).unwrap().build(); assert_eq!(r.method, Method::Head); assert_eq!(r.url.as_str(), some_url); } #[test] fn basic_post_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.post(some_url).unwrap().build(); assert_eq!(r.method, Method::Post); assert_eq!(r.url.as_str(), some_url); } #[test] fn basic_put_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.put(some_url).unwrap().build(); assert_eq!(r.method, Method::Put); assert_eq!(r.url.as_str(), some_url); } #[test] fn basic_patch_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.patch(some_url).unwrap().build(); assert_eq!(r.method, Method::Patch); assert_eq!(r.url.as_str(), some_url); } #[test] fn basic_delete_request() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let r = client.delete(some_url).unwrap().build(); assert_eq!(r.method, Method::Delete); assert_eq!(r.url.as_str(), some_url); } #[test] fn add_header() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let header = Host { hostname: "google.com".to_string(), port: None, }; // Add a copy of the header to the request builder let r = r.header(header.clone()).build(); // then check it was actually added assert_eq!(r.headers.get::<Host>(), Some(&header)); } #[test] fn add_headers() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let header = Host { hostname: "google.com".to_string(), port: None, }; let mut headers = Headers::new(); headers.set(header); // Add a copy of the headers to the request builder let r = r.headers(headers.clone()).build(); // then make sure they were added correctly assert_eq!(r.headers, headers); } #[test] fn add_headers_multi() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let header = Host { hostname: "google.com".to_string(), port: None, }; let mut headers = Headers::new(); headers.set(header); // Add a copy of the headers to the request builder let r = r.headers(headers.clone()).build(); // then make sure they were added correctly assert_eq!(r.headers, headers); } #[test] fn add_body() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let body = "Some interesting content"; let r = r.body(body).build(); let buf = body::read_to_string(r.body.unwrap()).unwrap(); assert_eq!(buf, body); } #[test] fn add_form() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let mut form_data = HashMap::new(); form_data.insert("foo", "bar"); let r = r.form(&form_data).unwrap().build(); // Make sure the content type was set assert_eq!(r.headers.get::<ContentType>(), Some(&ContentType::form_url_encoded())); let buf = body::read_to_string(r.body.unwrap()).unwrap(); let body_should_be = serde_urlencoded::to_string(&form_data).unwrap(); assert_eq!(buf, body_should_be); } #[test] fn add_json() { let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let mut json_data = HashMap::new(); json_data.insert("foo", "bar"); let r = r.json(&json_data).unwrap().build(); // Make sure the content type was set assert_eq!(r.headers.get::<ContentType>(), Some(&ContentType::json())); let buf = body::read_to_string(r.body.unwrap()).unwrap(); let body_should_be = serde_json::to_string(&json_data).unwrap(); assert_eq!(buf, body_should_be); } #[test] fn add_json_fail() { use serde::{Serialize, Serializer}; use serde::ser::Error; struct MyStruct; impl Serialize for MyStruct { fn serialize<S>(&self, _serializer: S) -> Result<S::Ok, S::Error> where S: Serializer { Err(S::Error::custom("nope")) } } let client = Client::new().unwrap(); let some_url = "https://google.com/"; let mut r = client.post(some_url).unwrap(); let json_data = MyStruct{}; assert!(r.json(&json_data).unwrap_err().is_serialization()); } */ }