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// crimp - Higher-level Rust cURL API
//
// Copyright (C) 2019 Vincent Ambo
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//! # crimp
//!
//! This library provides a simplified API over the [cURL Rust
//! bindings][] that resemble that of higher-level libraries such as
//! [reqwest][]. All calls are synchronous.
//!
//! `crimp` is intended to be used in situations where HTTP client
//! functionality is desired without adding a significant number of
//! dependencies or sacrificing too much usability.
//!
//! Using `crimp` to make HTTP requests is done using a simple
//! builder-pattern style API. For example, to make a `GET`-request
//! and print the result to `stdout`:
//!
//! ```rust
//! use crimp::{Method, Request};
//!
//! let response = Request::new(Method::Get, "http://httpbin.org/get")
//! .user_agent("crimp test suite").unwrap()
//! .send().unwrap()
//! .as_string().unwrap();
//!
//! println!("Status: {}\nBody: {}", response.status, response.body);
//! # assert_eq!(response.status, 200);
//! ```
//!
//! If a feature from the underlying cURL library is missing, the
//! `Request::raw` method can be used as an escape hatch to deal with
//! the handle directly. Should you find yourself doing this, please
//! [file an issue][].
//!
//! `crimp` does not currently expose functionality for re-using a
//! cURL Easy handle, meaning that keep-alive of HTTP connections and
//! the like is not supported.
//!
//! ## Cargo features
//!
//! All optional features are enabled by default.
//!
//! * `json`: Adds `Request::json` and `Response::as_json` methods
//! which can be used for convenient serialisation of
//! request/response bodies using `serde_json`. This feature adds a
//! dependency on the `serde` and `serde_json` crates.
//!
//! ## Initialisation
//!
//! It is recommended to call the underlying `curl::init` method
//! (re-exported as `crimp::init`) when launching your application to
//! initialise the cURL library. This is not required, but will
//! otherwise occur the first time a request is made.
//!
//! [cURL Rust bindings]: https://docs.rs/curl
//! [reqwest]: https://docs.rs/reqwest
//! [file an issue]: https://github.com/tazjin/crimp/issues
extern crate curl;
#[cfg(feature = "json")] extern crate serde;
#[cfg(feature = "json")] extern crate serde_json;
pub use curl::init;
use curl::easy::{Auth, Easy, Form, List, ReadError};
use std::collections::HashMap;
use std::io::Write;
use std::path::Path;
use std::string::{FromUtf8Error, ToString};
use std::time::Duration;
#[cfg(feature = "json")] use serde::Serialize;
#[cfg(feature = "json")] use serde::de::DeserializeOwned;
#[cfg(test)]
mod tests;
/// HTTP method to use for the request.
pub enum Method {
Get, Post, Put, Patch, Delete
}
/// Certificate types for client-certificate key pairs.
pub enum CertType {
P12, PEM, DER
}
/// Builder structure for an HTTP request.
///
/// This is the primary API-type in `crimp`. After creating a new
/// request its parameters are modified using the various builder
/// methods until it is consumed by `send()`.
pub struct Request<'a> {
url: &'a str,
method: Method,
handle: Easy,
headers: List,
body: Body<'a>,
}
enum Body<'a> {
NoBody,
Form(Form),
Bytes {
content_type: &'a str,
data: &'a [u8],
},
#[cfg(feature = "json")]
Json(Vec<u8>),
}
/// HTTP responses structure containing response data and headers.
///
/// By default the `send()` function of the `Request` structure will
/// return a `Response<Vec<u8>>`. Convenience helpers exist for
/// decoding a string via `Response::as_string` or to a
/// `serde`-compatible type with `Response::as_json` (if the
/// `json`-feature is enabled).
#[derive(Debug, PartialEq)]
pub struct Response<T> {
/// HTTP status code of the response.
pub status: u32,
/// HTTP headers returned from the remote.
pub headers: HashMap<String, String>,
/// Body data from the HTTP response.
pub body: T,
}
impl <'a> Request<'a> {
/// Initiate an HTTP request with the given method and URL.
pub fn new(method: Method, url: &'a str) -> Self {
Request {
url,
method,
handle: Easy::new(),
headers: List::new(),
body: Body::NoBody,
}
}
/// Add an HTTP header to a request.
pub fn header(mut self, k: &str, v: &str) -> Result<Self, curl::Error> {
self.headers.append(&format!("{}: {}", k, v))?;
Ok(self)
}
/// Set the `User-Agent` for this request. By default this will be
/// set to cURL's standard user agent.
pub fn user_agent(mut self, agent: &str) -> Result<Self, curl::Error> {
self.handle.useragent(agent)?;
Ok(self)
}
/// Set the `Authorization` header to a `Bearer` value with the
/// supplied token.
pub fn bearer_auth(mut self, token: &str) -> Result<Self, curl::Error> {
self.headers.append(&format!("Authorization: Bearer {}", token))?;
Ok(self)
}
/// Set the `Authorization` header to a basic authentication value
/// from the supplied username and password.
pub fn basic_auth(mut self, username: &str, password: &str) -> Result<Self, curl::Error> {
let mut auth = Auth::new();
auth.basic(true);
self.handle.username(username)?;
self.handle.password(password)?;
self.handle.http_auth(&auth)?;
Ok(self)
}
/// Configure a TLS client certificate on the request.
///
/// Depending on whether the certificate file contains the private
/// key or not, calling `tls_client_key` may be required in
/// addition.
///
/// Consult the documentation for the `ssl_cert` and `ssl_key`
/// functions in `curl::easy::Easy2` for details on supported
/// formats and defaults.
pub fn tls_client_cert<P: AsRef<Path>>(mut self, cert_type: CertType, cert: P)
-> Result<Self, curl::Error> {
self.handle.ssl_cert(cert)?;
self.handle.ssl_cert_type(match cert_type {
CertType::P12 => "P12",
CertType::PEM => "PEM",
CertType::DER => "DER",
})?;
Ok(self)
}
/// Configure a TLS client certificate key on the request.
///
/// Note that this does **not** need to be called again for
/// PKCS12-encoded key pairs which are set via `tls_client_cert`.
///
/// Currently only PEM-encoded key files are supported.
pub fn tls_client_key<P: AsRef<Path>>(mut self, key: P) -> Result<Self, curl::Error> {
self.handle.ssl_key(key)?;
Ok(self)
}
/// Configure an encryption password for a TLS client certificate
/// key on the request.
///
/// This is required in case of an encrypted private key that
/// should be used.
pub fn tls_key_password(mut self, password: &str) -> Result<Self, curl::Error> {
self.handle.key_password(password)?;
Ok(self)
}
/// Configure a timeout for the request after which the request
/// will be aborted.
pub fn timeout(mut self, timeout: Duration) -> Result<Self, curl::Error> {
self.handle.timeout(timeout)?;
Ok(self)
}
/// Set custom configuration on the cURL `Easy` handle.
///
/// This function can be considered an "escape-hatch" from the
/// high-level API which lets users access the internal
/// `curl::easy::Easy` handle and configure options on it
/// directly.
///
/// ```
/// # use crimp::{Request, Method};
/// let response = Request::new(Method::Get, "https://httpbin.org/get")
/// .with_handle(|mut handle| handle.referer("Example-Referer")).unwrap()
/// .send().unwrap();
/// #
/// # assert!(response.is_success());
/// ```
pub fn with_handle<F>(mut self, function: F) -> Result<Self, curl::Error>
where F: FnOnce(&mut Easy) -> Result<(), curl::Error> {
function(&mut self.handle)?;
Ok(self)
}
/// Add a byte-array body to a request using the specified
/// `Content-Type`.
pub fn body(mut self, content_type: &'a str, data: &'a [u8]) -> Self {
self.body = Body::Bytes { data, content_type };
self
}
/// Add a form-encoded body to a request using the `curl::Form`
/// type.
///
/// ```rust
/// # extern crate curl;
/// # extern crate serde_json;
/// # use crimp::*;
/// # use serde_json::{Value, json};
/// use curl::easy::Form;
///
/// let mut form = Form::new();
/// form.part("some-name")
/// .contents("some-data".as_bytes())
/// .add().unwrap();
///
/// let response = Request::new(Method::Post, "https://httpbin.org/post")
/// .user_agent("crimp test suite").unwrap()
/// .form(form)
/// .send().unwrap();
/// #
/// # assert_eq!(200, response.status, "form POST should succeed");
/// # assert_eq!(
/// # response.as_json::<Value>().unwrap().body.get("form").unwrap(),
/// # &json!({"some-name": "some-data"}),
/// # "posted form data should match",
/// # );
/// ```
///
/// See the documentation of `curl::easy::Form` for details on how
/// to construct a form body.
pub fn form(mut self, form: Form) -> Self {
self.body = Body::Form(form);
self
}
/// Add a JSON-encoded body from a serializable type.
#[cfg(feature = "json")]
pub fn json<T: Serialize>(mut self, body: &T) -> Result<Self, serde_json::Error> {
let json = serde_json::to_vec(body)?;
self.body = Body::Json(json);
Ok(self)
}
/// Send the HTTP request and return a response structure
/// containing the raw body.
pub fn send(mut self) -> Result<Response<Vec<u8>>, curl::Error> {
// Configure request basics:
self.handle.url(self.url)?;
match self.method {
Method::Get => self.handle.get(true)?,
Method::Post => self.handle.post(true)?,
Method::Put => self.handle.put(true)?,
Method::Patch => self.handle.custom_request("PATCH")?,
Method::Delete => self.handle.custom_request("DELETE")?,
}
// Create structures in which to store the response data:
let mut headers = HashMap::new();
let mut body = vec![];
// Submit a form value to cURL if it is set and proceed
// pretending that there is no body, as the handling of this
// type of body happens under-the-hood.
if let Body::Form(form) = self.body {
self.handle.httppost(form)?;
self.body = Body::NoBody;
}
// Optionally set content type if a body payload is configured
// and configure the expected body size (or form payload).
match self.body {
Body::Bytes { content_type, data } => {
self.handle.post_field_size(data.len() as u64)?;
self.headers.append(&format!("Content-Type: {}", content_type))?;
},
#[cfg(feature = "json")]
Body::Json(ref data) => {
self.handle.post_field_size(data.len() as u64)?;
self.headers.append("Content-Type: application/json")?;
},
// Do not set content-type header at all if there is no
// body, or if the form handler was invoked above.
_ => (),
};
// Configure headers on the request:
self.handle.http_headers(self.headers)?;
{
// Take a scoped transfer from the Easy handle. This makes it
// possible to write data into the above local buffers without
// fighting the borrow-checker:
let mut transfer = self.handle.transfer();
// Write the payload if it exists:
match self.body {
Body::Bytes { data, .. } => transfer.read_function(move |mut into| {
into.write_all(data)
.map(|_| data.len())
.map_err(|_| ReadError::Abort)
})?,
#[cfg(feature = "json")]
Body::Json(json) => transfer.read_function(move |mut into| {
into.write_all(&json)
.map(|_| json.len())
.map_err(|_| ReadError::Abort)
})?,
// Do nothing if there is no body or if the body is a
// form.
_ => (),
};
// Read one header per invocation. Request processing is
// terminated if any header is malformed:
transfer.header_function(|header| {
// Headers are expected to be valid UTF-8 data. If they
// are not, the conversion is lossy.
//
// Technically it is legal for HTTP requests to use
// different encodings, but we don't interface with such
// services for hygienic reasons.
let header = String::from_utf8_lossy(header);
let split = header.splitn(2, ':').collect::<Vec<_>>();
// "Malformed" headers are skipped. In most cases this
// will only be the HTTP version statement.
if split.len() != 2 {
return true;
}
headers.insert(
split[0].trim().to_string(), split[1].trim().to_string()
);
true
})?;
// Read the body to the allocated buffer.
transfer.write_function(|data| {
let len = data.len();
body.write_all(data)
.map(|_| len)
.map_err(|err| panic!("{:?}", err))
})?;
transfer.perform()?;
}
Ok(Response {
status: self.handle.response_code()?,
headers,
body
})
}
}
impl <T> Response<T> {
/// Check whether the status code of this HTTP response is a
/// success (i.e. in the 200-299 range).
pub fn is_success(&self) -> bool {
self.status >= 200 && self.status < 300
}
/// Check whether a request succeeded and let users provide a
/// closure that creates an error from the request if it did not.
///
/// This function exists for convenience to avoid having to write
/// repetitive `if !response.is_success() { ... }` blocks.
pub fn error_for_status<F, E>(self, closure: F) -> Result<Self, E>
where F: FnOnce(Self) -> E {
if !self.is_success() {
return Err(closure(self))
}
Ok(self)
}
}
impl Response<Vec<u8>> {
/// Attempt to parse the HTTP response body as a UTF-8 encoded
/// string.
pub fn as_string(self) -> Result<Response<String>, FromUtf8Error> {
let body = String::from_utf8(self.body)?;
Ok(Response {
body,
status: self.status,
headers: self.headers,
})
}
/// Attempt to deserialize the HTTP response body from JSON.
#[cfg(feature = "json")]
pub fn as_json<T: DeserializeOwned>(self) -> Result<Response<T>, serde_json::Error> {
let deserialized = serde_json::from_slice(&self.body)?;
Ok(Response {
body: deserialized,
status: self.status,
headers: self.headers,
})
}
}
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