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AIO-switch-updater/source/net_page.cpp
2022-05-02 01:04:05 +02:00

209 lines
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8.5 KiB
C++

#include "net_page.hpp"
#include <arpa/inet.h>
#include <switch.h>
#include <filesystem>
#include <fstream>
#include <iomanip>
#include <thread>
#include <json.hpp>
#include "constants.hpp"
#include "fs.hpp"
#include "main_frame.hpp"
namespace i18n = brls::i18n;
using namespace i18n::literals;
using json = nlohmann::ordered_json;
NetPage::NetPage() : AppletFrame(true, true)
{
this->setTitle("menus/net/title"_i18n);
list = new brls::List();
nifmInitialize(NifmServiceType_User);
NifmNetworkProfileData profile;
nifmGetCurrentNetworkProfile(&profile);
nifmExit();
int uuid = std::accumulate(profile.uuid.uuid, profile.uuid.uuid + 16, 0);
std::string labelText;
if (!uuid || !profile.ip_setting_data.mtu) {
labelText = "Please connect to internet to use this feature.";
label = new brls::Label(brls::LabelStyle::DESCRIPTION, labelText, true);
list->addView(label);
cancel = new brls::ListItem("menus/common/go_back"_i18n);
cancel->getClickEvent()->subscribe([](brls::View* view) { brls::Application::pushView(new MainFrame()); });
list->addView(cancel);
}
else {
if (profile.ip_setting_data.ip_address_setting.is_automatic) {
labelText = "IP Adress: Automatic";
}
else {
labelText = fmt::format(
"IP Adress: {}\nSubnet Mask: {}\nGateway: {}",
ipToString(profile.ip_setting_data.ip_address_setting.current_addr.addr),
ipToString(profile.ip_setting_data.ip_address_setting.subnet_mask.addr),
ipToString(profile.ip_setting_data.ip_address_setting.gateway.addr));
}
labelText = fmt::format("{}\nLocal IP addr: {}\nMTU: {}", labelText, std::string(inet_ntoa({(in_addr_t)gethostid()})), std::to_string(unsigned(profile.ip_setting_data.mtu)));
if (profile.ip_setting_data.dns_setting.is_automatic) {
labelText = fmt::format("{}\nDNS: Automatic", labelText);
}
else {
labelText = fmt::format(
"{}\nPrimary DNS: {}\nSecondary DNS: {}",
labelText,
ipToString(profile.ip_setting_data.dns_setting.primary_dns_server.addr),
ipToString(profile.ip_setting_data.dns_setting.secondary_dns_server.addr));
}
label = new brls::Label(brls::LabelStyle::DESCRIPTION, labelText, true);
list->addView(label);
//ip_addr
//subnet_mask
//gateway
//dns1
//dns2
//mtu
//ip_auto
//dns_auto
json profiles = fs::parseJsonFile(INTERNET_JSON);
if (profiles.empty()) {
profiles = json::array();
}
profiles.push_back(
json::object({{"name", "lan-play"},
{"ip_addr", fmt::format("10.13.{}.{}", std::rand() % 256, std::rand() % 253 + 2)},
{"subnet_mask", "255.255.0.0"},
{"gateway", "10.13.37.1"}}));
profiles.push_back(
json::object({{"name", "Automatic IP Address"},
{"ip_auto", true}}));
profiles.push_back(
json::object({{"name", "Automatic DNS"},
{"dns_auto", true}}));
profiles.push_back(
json::object({{"name", "90DNS (Europe)"},
{"dns1", "163.172.141.219"},
{"dns2", "207.246.121.77"}}));
profiles.push_back(
json::object({{"name", "90DNS (USA)"},
{"dns1", "207.246.121.77"},
{"dns2", "163.172.141.219"}}));
profiles.push_back(
json::object({{"name", "Google DNS"},
{"dns1", "8.8.8.8"},
{"dns2", "8.8.4.4"}}));
profiles.push_back(
json::object({{"name", "ACNH mtu"},
{"mtu", 1500}}));
for (const auto& p : profiles.items()) {
json values = p.value();
if (values.find("name") != values.end())
listItem = new brls::ListItem(values["name"]);
else
listItem = new brls::ListItem("Unnamed");
listItem->getClickEvent()->subscribe([this, values](brls::View* view) {
brls::Dialog* dialog = new brls::Dialog(values.dump(0).substr(1, values.dump(0).size() - 2));
brls::GenericEvent::Callback callbackOk = [this, dialog, values](brls::View* view) {
nifmInitialize(NifmServiceType_Admin);
NifmNetworkProfileData profile;
nifmGetCurrentNetworkProfile(&profile);
unsigned char buf[sizeof(struct in6_addr)];
if (values.find("ip_addr") != values.end()) {
if (inet_pton(AF_INET, std::string(values["ip_addr"]).c_str(), buf)) {
profile.ip_setting_data.ip_address_setting.is_automatic = u8(0);
stringToIp(std::string(values["ip_addr"]), profile.ip_setting_data.ip_address_setting.current_addr.addr);
}
}
if (values.find("subnet_mask") != values.end()) {
if (inet_pton(AF_INET, std::string(values["subnet_mask"]).c_str(), buf)) {
stringToIp(std::string(values["subnet_mask"]), profile.ip_setting_data.ip_address_setting.subnet_mask.addr);
}
}
if (values.find("gateway") != values.end()) {
if (inet_pton(AF_INET, std::string(values["gateway"]).c_str(), buf)) {
stringToIp(std::string(values["gateway"]), profile.ip_setting_data.ip_address_setting.gateway.addr);
}
}
if (values.find("dns1") != values.end()) {
if (inet_pton(AF_INET, std::string(values["dns1"]).c_str(), buf)) {
profile.ip_setting_data.dns_setting.is_automatic = u8(0);
stringToIp(std::string(values["dns1"]), profile.ip_setting_data.dns_setting.primary_dns_server.addr);
}
}
if (values.find("dns2") != values.end()) {
if (inet_pton(AF_INET, std::string(values["dns2"]).c_str(), buf)) {
profile.ip_setting_data.dns_setting.is_automatic = u8(0);
stringToIp(std::string(values["dns2"]), profile.ip_setting_data.dns_setting.secondary_dns_server.addr);
}
}
if (values.find("mtu") != values.end()) {
profile.ip_setting_data.mtu = u16(values["mtu"]);
}
if (values.find("ip_auto") != values.end()) {
profile.ip_setting_data.ip_address_setting.is_automatic = u8(values["ip_auto"]);
}
if (values.find("dns_auto") != values.end()) {
profile.ip_setting_data.dns_setting.is_automatic = u8(values["dns_auto"]);
}
nifmSetNetworkProfile(&profile, &profile.uuid);
nifmSetWirelessCommunicationEnabled(true);
nifmExit();
std::this_thread::sleep_for(std::chrono::microseconds(2500000)); //Wait to avoid crashes when leaving too fast
dialog->close();
};
brls::GenericEvent::Callback callbackNo = [dialog](brls::View* view) {
dialog->close();
};
dialog->addButton("menus/common/confirm"_i18n, callbackOk);
dialog->addButton("menus/common/cancel"_i18n, callbackNo);
dialog->setCancelable(false);
dialog->open();
});
list->addView(listItem);
}
}
this->setContentView(list);
}
std::string NetPage::ipToString(u8* ip)
{
std::string res = "";
for (size_t i = 0; i < 3; i++) {
res += std::to_string(unsigned(ip[i]));
res += ".";
}
res += std::to_string(unsigned(ip[4]));
return res;
}
int NetPage::stringToIp(const std::string& ip, u8* out)
{
size_t start;
size_t end = 0;
int i = 0;
while ((start = ip.find_first_not_of(".", end)) != std::string::npos) {
end = ip.find(".", start);
out[i] = u8(std::stoi(ip.substr(start, end - start)));
i++;
}
return 0;
}