bsnes-libretro/nall/http/request.hpp
byuu 903d1e4012 v107.8
* GB: integrated SameBoy v0.12.1 by Lior Halphon
* SFC: added HG51B169 (Cx4) math tables into bsnes binary
2019-07-17 21:11:46 +09:00

185 lines
5.9 KiB
C++
Executable File

#pragma once
#include <nall/decode/url.hpp>
#include <nall/encode/url.hpp>
#include <nall/http/message.hpp>
namespace nall::HTTP {
struct Request : Message {
using type = Request;
enum class RequestType : uint { None, Head, Get, Post };
explicit operator bool() const { return requestType() != RequestType::None; }
inline auto head(const function<bool (const uint8_t* data, uint size)>& callback) const -> bool override;
inline auto setHead() -> bool override;
inline auto body(const function<bool (const uint8_t* data, uint size)>& callback) const -> bool override;
inline auto setBody() -> bool override;
auto ipv4() const -> bool { return _ipv6 == false; }
auto ipv6() const -> bool { return _ipv6 == true; }
auto ip() const -> string { return _ip; }
auto requestType() const -> RequestType { return _requestType; }
auto setRequestType(RequestType value) -> void { _requestType = value; }
auto path() const -> string { return _path; }
auto setPath(const string& value) -> void { _path = value; }
Variables cookie;
Variables get;
Variables post;
//private:
bool _ipv6 = false;
string _ip;
RequestType _requestType = RequestType::None;
string _path;
};
auto Request::head(const function<bool (const uint8_t*, uint)>& callback) const -> bool {
if(!callback) return false;
string output;
string request = path();
if(get.size()) {
request.append("?");
for(auto& variable : get) {
request.append(Encode::URL(variable.name()), "=", Encode::URL(variable.value()), "&");
}
request.trimRight("&", 1L);
}
switch(requestType()) {
case RequestType::Head: output.append("HEAD ", request, " HTTP/1.1\r\n"); break;
case RequestType::Get : output.append("GET ", request, " HTTP/1.1\r\n"); break;
case RequestType::Post: output.append("POST ", request, " HTTP/1.1\r\n"); break;
default: return false;
}
for(auto& variable : header) {
output.append(variable.name(), ": ", variable.value(), "\r\n");
}
output.append("\r\n");
return callback(output.data<uint8_t>(), output.size());
}
auto Request::setHead() -> bool {
auto headers = _head.split("\n");
string request = headers.takeLeft().trimRight("\r", 1L);
string requestHost;
if(request.iendsWith(" HTTP/1.0")) request.itrimRight(" HTTP/1.0", 1L);
else if(request.iendsWith(" HTTP/1.1")) request.itrimRight(" HTTP/1.1", 1L);
else return false;
if(request.ibeginsWith("HEAD ")) request.itrimLeft("HEAD ", 1L), setRequestType(RequestType::Head);
else if(request.ibeginsWith("GET " )) request.itrimLeft("GET ", 1L), setRequestType(RequestType::Get );
else if(request.ibeginsWith("POST ")) request.itrimLeft("POST ", 1L), setRequestType(RequestType::Post);
else return false;
//decode absolute URIs
request.strip().itrimLeft("http://", 1L);
if(!request.beginsWith("/")) {
auto components = request.split("/", 1L);
requestHost = components(0);
request = {"/", components(1)};
}
auto components = request.split("?", 1L);
setPath(components(0));
if(auto queryString = components(1)) {
for(auto& block : queryString.split("&")) {
auto p = block.split("=", 1L);
auto name = Decode::URL(p(0));
auto value = Decode::URL(p(1));
if(name) get.append(name, value);
}
}
for(auto& header : headers) {
if(header.beginsWith(" ") || header.beginsWith("\t")) continue;
auto part = header.split(":", 1L).strip();
if(!part[0] || part.size() != 2) continue;
this->header.append(part[0], part[1]);
if(part[0].iequals("Cookie")) {
for(auto& block : part[1].split(";")) {
auto p = block.split("=", 1L).strip();
auto name = p(0);
auto value = p(1).trim("\"", "\"", 1L);
if(name) cookie.append(name, value);
}
}
}
if(requestHost) header.assign("Host", requestHost); //request URI overrides host header
return true;
}
auto Request::body(const function<bool (const uint8_t*, uint)>& callback) const -> bool {
if(!callback) return false;
if(_body) {
return callback(_body.data<uint8_t>(), _body.size());
}
return true;
}
auto Request::setBody() -> bool {
if(requestType() == RequestType::Post) {
auto contentType = header["Content-Type"].value();
if(contentType.iequals("application/x-www-form-urlencoded")) {
for(auto& block : _body.split("&")) {
auto p = block.trimRight("\r").split("=", 1L);
auto name = Decode::URL(p(0));
auto value = Decode::URL(p(1));
if(name) post.append(name, value);
}
} else if(contentType.imatch("multipart/form-data; boundary=?*")) {
auto boundary = contentType.itrimLeft("multipart/form-data; boundary=", 1L).trim("\"", "\"", 1L);
auto blocks = _body.split({"--", boundary}, 1024L); //limit blocks to prevent memory exhaustion
for(auto& block : blocks) block.trim("\r\n", "\r\n", 1L);
if(blocks.size() < 2 || (blocks.takeLeft(), !blocks.takeRight().beginsWith("--"))) return false;
for(auto& block : blocks) {
string name;
string filename;
string contentType;
auto segments = block.split("\r\n\r\n", 1L);
for(auto& segment : segments(0).split("\r\n")) {
auto statement = segment.split(":", 1L);
if(statement(0).ibeginsWith("Content-Disposition")) {
for(auto& component : statement(1).split(";")) {
auto part = component.split("=", 1L).strip();
if(part(0).iequals("name")) {
name = part(1).trim("\"", "\"", 1L);
} else if(part(0).iequals("filename")) {
filename = part(1).trim("\"", "\"", 1L);
}
}
} else if(statement(0).ibeginsWith("Content-Type")) {
contentType = statement(1).strip();
}
}
if(name) {
post.append(name, segments(1));
post.append({name, ".filename"}, filename);
post.append({name, ".content-type"}, contentType);
}
}
}
}
return true;
}
}