geode/loader/include/Geode/utils/web.hpp

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#pragma once
#include "../DefaultInclude.hpp"
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#include "MiniFunction.hpp"
#include <matjson.hpp>
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#include "Result.hpp"
#include "general.hpp"
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#include <ghc/fs_fwd.hpp>
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#include <chrono>
namespace geode::utils::web {
GEODE_DLL void openLinkInBrowser(std::string const& url);
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using FileProgressCallback = utils::MiniFunction<bool(double, double)>;
/**
* Synchronously fetch data from the internet
* @param url URL to fetch
* @returns Returned data as bytes, or error on error
*/
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GEODE_DLL Result<ByteVector> fetchBytes(std::string const& url);
/**
* Synchronously fetch data from the internet
* @param url URL to fetch
* @returns Returned data as string, or error on error
*/
GEODE_DLL Result<std::string> fetch(std::string const& url);
/**
* Syncronously download a file from the internet
* @param url URL to fetch
* @param into Path to download file into
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* @param prog Progress function; first parameter is bytes downloaded so
* far, and second is total bytes to download. Return true to continue
* downloading, and false to interrupt. Note that interrupting does not
* automatically remove the file that was being downloaded
* @returns Returned data as JSON, or error on error
*/
GEODE_DLL Result<> fetchFile(
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std::string const& url, ghc::filesystem::path const& into, FileProgressCallback prog = nullptr
);
/**
* Synchronously fetch data from the internet and parse it as JSON
* @param url URL to fetch
* @returns Returned data as JSON, or error on error
*/
Result<matjson::Value> fetchJSON(std::string const& url);
class SentAsyncWebRequest;
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template <class T>
class AsyncWebResult;
class AsyncWebResponse;
class AsyncWebRequest;
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using AsyncProgress = utils::MiniFunction<void(SentAsyncWebRequest&, double, double)>;
using AsyncExpect = utils::MiniFunction<void(std::string const&)>;
using AsyncExpectCode = utils::MiniFunction<void(std::string const&, int)>;
using AsyncThen = utils::MiniFunction<void(SentAsyncWebRequest&, ByteVector const&)>;
using AsyncCancelled = utils::MiniFunction<void(SentAsyncWebRequest&)>;
/**
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* A handle to an in-progress sent asynchronous web request. Use this to
* cancel the request / query information about it
*/
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class GEODE_DLL SentAsyncWebRequest {
private:
class Impl;
std::shared_ptr<Impl> m_impl;
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template <class T>
friend class AsyncWebResult;
friend class AsyncWebRequest;
void pause();
void resume();
void error(std::string const& error, int code);
void doCancel();
public:
/**
* Do not call these manually.
*/
SentAsyncWebRequest();
~SentAsyncWebRequest();
static std::shared_ptr<SentAsyncWebRequest> create(AsyncWebRequest const&, std::string const& id);
/**
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* Cancel the request. Cleans up any downloaded files, but if you run
* extra code in `then`, you will have to clean it up manually in
* `cancelled`
*/
void cancel();
/**
* Check if the request is finished
*/
bool finished() const;
};
using SentAsyncWebRequestHandle = std::shared_ptr<SentAsyncWebRequest>;
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template <class T>
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using DataConverter = Result<T> (*)(ByteVector const&);
/**
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* An asynchronous, thread-safe web request. Downloads data from the
* internet without slowing the main thread. All callbacks are run in the
* GD thread, so interacting with the Cocos2d UI is perfectly safe
*/
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class GEODE_DLL AsyncWebRequest {
private:
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class Impl;
std::unique_ptr<Impl> m_impl;
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template <class T>
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friend class AsyncWebResult;
friend class SentAsyncWebRequest;
friend class AsyncWebResponse;
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friend class SentAsyncWebRequest::Impl;
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AsyncWebRequest& setThen(AsyncThen);
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public:
/**
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* An asynchronous, thread-safe web request. Downloads data from the
* internet without slowing the main thread. All callbacks are run in the
* GD thread, so interacting with the Cocos2d UI is perfectly safe
*/
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AsyncWebRequest();
~AsyncWebRequest();
/**
* URL to fetch from the internet asynchronously
* @param url URL of the data to download. Redirects will be
* automatically followed
* @returns An AsyncWebResponse object
*/
AsyncWebResponse fetch(std::string_view const url);
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/**
* Begin the web request. It's not always necessary to call this as the
* destructor calls it automatically, but if you need access to the
* handle of the sent request, use this
* @returns Handle to the sent web request
*/
SentAsyncWebRequestHandle send();
/**
* Shorthand for a GET request to the given url.
* Same return value as fetch.
*/
AsyncWebResponse get(std::string_view const url);
/**
* Shorthand for a POST request to the given url.
* Same return value as fetch.
*/
AsyncWebResponse post(std::string_view const url);
/**
* Shorthand for a PUT request to the given url.
* Same return value as fetch.
*/
AsyncWebResponse put(std::string_view const url);
/**
* Shorthand for a PATCH request to the given url.
* Same return value as fetch.
*/
AsyncWebResponse patch(std::string_view const url);
/**
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* If you only want one instance of this web request to run (for example,
* you're downloading some global data for a manager), then use this
* to specify a Join ID. If another request with the same ID is
* already running, this request's callbacks will be appended to the
* existing one instead of creating a new request
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* @param requestID The Join ID of the request. Can be anything,
* recommended to be something unique
* @returns Same AsyncWebRequest
*/
AsyncWebRequest& join(std::string_view const requestID);
// Request parameters
/**
* In order to specify a http header to the request, give it here.
* Can be called more than once.
*/
AsyncWebRequest& header(std::string_view const header);
/**
* In order to specify a http header to the request, give it here.
* Can be called more than once.
*/
AsyncWebRequest& header(std::string_view const headerName, std::string_view const headerValue);
/**
* In order to specify an user agent to the request, give it here.
*/
AsyncWebRequest& userAgent(std::string_view const userAgent);
/**
* Sets the Content-Type header to the specified value.
*/
AsyncWebRequest& contentType(std::string_view const contentType);
/**
* Specify that the request is a POST request.
*/
AsyncWebRequest& postRequest();
/**
* Specify the HTTP method for the request, like PUT and DELETE.
*/
AsyncWebRequest& method(std::string_view const method);
/**
* Specify the raw request body to send with the request.
* Content type is unchanged.
*/
AsyncWebRequest& bodyRaw(std::string_view const content);
/**
* Specify a json request body. Additionally sets the content type to
* application/json.
*/
AsyncWebRequest& body(matjson::Value const& value);
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/**
* Specify a timeout, in seconds, in which the request will fail.
*/
AsyncWebRequest& timeout(std::chrono::seconds seconds);
// Callbacks
/**
* Specify a callback to run if the download fails. The callback is
* always ran in the GD thread, so interacting with UI is safe
* @param handler Callback to run if the download fails
* @returns Same AsyncWebRequest
*/
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AsyncWebRequest& expect(AsyncExpect handler);
/**
* Specify a callback to run if the download fails. The callback is
* always ran in the GD thread, so interacting with UI is safe
* @param handler Callback to run if the download fails
* @returns Same AsyncWebRequest
*/
AsyncWebRequest& expect(AsyncExpectCode handler);
/**
* Specify a callback to run when the download progresses. The callback is
* always ran in the GD thread, so interacting with UI is safe
* @param handler Callback to run when the download progresses
* @returns Same AsyncWebRequest
*/
AsyncWebRequest& progress(AsyncProgress handler);
/**
* Specify a callback to run if the download is cancelled. The callback is
* always ran in the GD thread, so interacting with UI is safe. Web
* requests may be cancelled after they are finished (for example, if
* downloading files in bulk and one fails). In that case, handle
* freeing up the results of `then` in this handler
* @param handler Callback to run if the download is cancelled
* @returns Same AsyncWebRequest
*/
AsyncWebRequest& cancelled(AsyncCancelled handler);
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};
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template <class T>
class AsyncWebResult {
private:
AsyncWebRequest& m_request;
DataConverter<T> m_converter;
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AsyncWebResult(AsyncWebRequest& request, DataConverter<T> converter) :
m_request(request), m_converter(converter) {}
friend class AsyncWebResponse;
public:
/**
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* Specify a callback to run after a download is finished. Runs in the
* GD thread, so interacting with UI is safe
* @param handle Callback to run
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* @returns The original AsyncWebRequest, where you can specify more
* aspects about the request like failure and progress callbacks
*/
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AsyncWebRequest& then(utils::MiniFunction<void(T)> handle);
/**
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* Specify a callback to run after a download is finished. Runs in the
* GD thread, so interacting with UI is safe
* @param handle Callback to run
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* @returns The original AsyncWebRequest, where you can specify more
* aspects about the request like failure and progress callbacks
*/
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AsyncWebRequest& then(utils::MiniFunction<void(SentAsyncWebRequest&, T)> handle);
};
class GEODE_DLL AsyncWebResponse {
private:
AsyncWebRequest& m_request;
inline AsyncWebResponse(AsyncWebRequest& request) : m_request(request) {}
friend class AsyncWebRequest;
public:
/**
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* Download into a stream. Make sure the stream lives for the entire
* duration of the request. If you want to download a file, use the
* `ghc::filesystem::path` overload of `into` instead
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* @param stream Stream to download into. Make sure it lives long
* enough, otherwise the web request will crash
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished. The result has a `std::monostate`
* template parameter, as it can be assumed you know what you passed
* into `into`
*/
AsyncWebResult<std::monostate> into(std::ostream& stream);
/**
* Download into a file
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* @param path File to download into. If it already exists, it will
* be overwritten.
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished. The result has a `std::monostate`
* template parameter, as it can be assumed you know what you passed
* into `into`
*/
AsyncWebResult<std::monostate> into(ghc::filesystem::path const& path);
/**
* Download into memory as a string
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished
*/
AsyncWebResult<std::string> text();
/**
* Download into memory as a byte array
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished
*/
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AsyncWebResult<ByteVector> bytes();
/**
* Download into memory as JSON
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished
*/
AsyncWebResult<matjson::Value> json();
/**
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* Download into memory as a custom type. The data will first be
* downloaded into memory as a byte array, and then converted using
* the specified converter function
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* @param converter Function that converts the data from a byte array
* to the desired type
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* @returns AsyncWebResult, where you can specify the `then` action for
* after the download is finished
*/
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template <class T>
AsyncWebResult<T> as(DataConverter<T> converter) {
return AsyncWebResult(m_request, converter);
}
};
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template <class T>
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AsyncWebRequest& AsyncWebResult<T>::then(utils::MiniFunction<void(T)> handle) {
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return m_request.setThen([converter = m_converter,
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handle](SentAsyncWebRequest& req, ByteVector const& arr) {
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auto conv = converter(arr);
if (conv) {
handle(conv.unwrap());
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}
else {
req.error("Unable to convert value: " + conv.unwrapErr(), -1);
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}
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});
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}
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template <class T>
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AsyncWebRequest& AsyncWebResult<T>::then(utils::MiniFunction<void(SentAsyncWebRequest&, T)> handle) {
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return m_request.setThen([converter = m_converter,
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handle](SentAsyncWebRequest& req, ByteVector const& arr) {
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auto conv = converter(arr);
if (conv) {
handle(req, conv.value());
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}
else {
req.error("Unable to convert value: " + conv.error(), -1);
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}
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});
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}
}