mirror of https://github.com/bsnes-emu/bsnes.git
201 lines
5.8 KiB
C++
201 lines
5.8 KiB
C++
#pragma once
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#include <nall/beat/archive/node.hpp>
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namespace nall { namespace Beat { namespace Archive {
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struct Container {
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Container(array_view<uint8_t> = {});
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~Container();
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auto isCompressed() const -> bool { return (bool)compression.type; }
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auto isSigned() const -> bool { return (bool)signature.type; }
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auto isEncrypted() const -> bool { return (bool)encryption.type; }
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auto compressLZSA() -> void;
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auto signEd25519(uint256_t privateKey) -> void;
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auto encryptXChaCha20(uint256_t privateKey, uint192_t nonce = 0) -> void;
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auto validate() -> bool;
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auto decryptXChaCha20(uint256_t privateKey) -> bool;
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auto verifyEd25519(uint256_t publicKey) -> bool;
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auto decompressLZSA() -> bool;
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auto append(string name, string location) -> shared_pointer<Node>;
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auto appendPath(string name) -> shared_pointer<Node>;
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auto appendFile(string name, array_view<uint8_t> memory) -> shared_pointer<Node>;
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auto remove(string name) -> bool;
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auto find(string name) -> shared_pointer<Node>;
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auto sort() -> void;
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auto begin() { return nodes.begin(); }
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auto end() { return nodes.end(); }
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auto begin() const { return nodes.begin(); }
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auto end() const { return nodes.end(); }
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auto rbegin() { return nodes.rbegin(); }
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auto rend() { return nodes.rend(); }
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auto rbegin() const { return nodes.rbegin(); }
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auto rend() const { return nodes.rend(); }
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vector<shared_pointer<Node>> nodes;
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vector<uint8_t> memory;
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string metadata;
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struct Compression {
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string type;
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} compression;
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struct Signature {
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string type;
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uint256_t privateKey = 0;
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uint256_t publicKey = 0;
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uint512_t value = 0;
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} signature;
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struct Encryption {
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string type;
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uint256_t privateKey = 0;
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uint192_t nonce = 0;
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} encryption;
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};
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Container::Container(array_view<uint8_t> memory) {
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this->memory.resize(memory.size());
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nall::memory::copy(this->memory.data(), memory.data(), memory.size());
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}
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Container::~Container() {
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metadata = {};
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signature = {};
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encryption = {};
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}
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//
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auto Container::compressLZSA() -> void {
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compression.type = "lzsa";
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}
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auto Container::signEd25519(uint256_t privateKey) -> void {
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signature.type = "ed25519";
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signature.privateKey = privateKey;
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}
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auto Container::encryptXChaCha20(uint256_t privateKey, uint192_t nonce) -> void {
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if(!nonce) {
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CSPRNG::XChaCha20 csprng;
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nonce = csprng.random<uint192_t>();
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}
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encryption.type = "xchacha20";
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encryption.privateKey = privateKey;
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encryption.nonce = nonce;
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}
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//
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auto Container::validate() -> bool {
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array_view<uint8_t> memory = this->memory;
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if(memory.size() < 44) return false; //8 (metadata size) + 32 (SHA256) + 4 (signature)
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if(memory[memory.size() - 4] != 'B') return false;
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if(memory[memory.size() - 3] != 'P') return false;
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if(memory[memory.size() - 2] != 'A') return false;
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if(memory[memory.size() - 1] != '1') return false;
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auto sha256 = memory.readl<uint256_t>(memory.size() - 36, 32);
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if(Hash::SHA256({memory.data(), memory.size() - 36}).value() != sha256) return false;
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auto size = memory.readl<uint64_t>(memory.size() - 44, 8);
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if(size & 1ull << 63) {
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size -= 1ull << 63;
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metadata = memory.view(memory.size() - 44 - size, size);
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uint64_t offset = memory.size() - 44 - size;
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for(auto& byte : metadata) byte ^= offset++;
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} else {
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metadata = memory.view(memory.size() - 44 - size, size);
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}
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auto document = BML::unserialize(metadata);
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if(auto node = document["archive/encryption"]) {
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if(node.text() == "xchacha20") {
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encryption.type = node.text();
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encryption.nonce = Decode::Base<57, uint192_t>(node["nonce"].text());
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}
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}
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if(auto node = document["archive/signature"]) {
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if(node.text() == "ed25519") {
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signature.type = node.text();
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signature.publicKey = Decode::Base<57, uint256_t>(node["publicKey"].text());
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signature.value = Decode::Base<57, uint512_t>(node["value"].text());
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}
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}
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if(auto node = document["archive/compression"]) {
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compression.type = node.text();
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}
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return true;
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}
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auto Container::decryptXChaCha20(uint256_t privateKey) -> bool {
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encryption.privateKey = privateKey;
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Cipher::XChaCha20 xchacha20{encryption.privateKey, encryption.nonce};
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auto size = memory.readl<uint64_t>(memory.size() - 44, 8);
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memory = xchacha20.decrypt(memory.view(0, memory.size() - 44 - size));
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return true;
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}
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auto Container::verifyEd25519(uint256_t publicKey) -> bool {
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EllipticCurve::Ed25519 ed25519;
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auto size = memory.readl<uint64_t>(memory.size() - 44, 8);
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return ed25519.verify(memory.view(0, memory.size() - 44 - size), signature.value, publicKey);
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}
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auto Container::decompressLZSA() -> bool {
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memory = Decode::LZSA(memory);
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return (bool)memory;
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}
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//
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auto Container::append(string name, string location) -> shared_pointer<Node> {
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for(auto& node : nodes) if(node->name == name) return {};
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if(auto node = Node::create(name, location)) return nodes.append(node), node;
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return {};
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}
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auto Container::appendPath(string name) -> shared_pointer<Node> {
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for(auto& node : nodes) if(node->name == name) return {};
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if(auto node = Node::createPath(name)) return nodes.append(node), node;
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return {};
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}
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auto Container::appendFile(string name, array_view<uint8_t> memory) -> shared_pointer<Node> {
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for(auto& node : nodes) if(node->name == name) return {};
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if(auto node = Node::createFile(name, memory)) return nodes.append(node), node;
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return {};
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}
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auto Container::remove(string name) -> bool {
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if(auto offset = nodes.find([&](auto& node) { return node->name == name; })) return nodes.remove(*offset), true;
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return false;
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}
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auto Container::find(string name) -> shared_pointer<Node> {
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if(auto offset = nodes.find([&](auto& node) { return node->name == name; })) return nodes[*offset];
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return {};
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}
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auto Container::sort() -> void {
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nodes.sort([&](auto& lhs, auto& rhs) { return string::icompare(lhs->name, rhs->name) < 0; });
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}
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}}}
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