80 lines
2.6 KiB
TypeScript
80 lines
2.6 KiB
TypeScript
import QMCCryptoModule from '@jixun/qmc2-crypto/QMC2-wasm-bundle';
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import { MergeUint8Array } from '@/utils/MergeUint8Array';
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// 检测文件末端使用的缓冲区大小
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const DETECTION_SIZE = 40;
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// 每次处理 2M 的数据
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const DECRYPTION_BUF_SIZE = 2 * 1024 * 1024;
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/**
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* 解密一个 QMC2 加密的文件。
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*
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* 如果检测并解密成功,返回解密后的 Uint8Array 数据。
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* @param {ArrayBuffer} mggBlob 读入的文件 Blob
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* @return {Promise<Uint8Array|false>}
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*/
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export async function DecryptQMCWasm(mggBlob: ArrayBuffer) {
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// 初始化模组
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const QMCCrypto = await QMCCryptoModule();
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// 申请内存块,并文件末端数据到 WASM 的内存堆
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const detectionBuf = new Uint8Array(mggBlob.slice(-DETECTION_SIZE));
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const pDetectionBuf = QMCCrypto._malloc(detectionBuf.length);
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QMCCrypto.writeArrayToMemory(detectionBuf, pDetectionBuf);
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// 检测结果内存块
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const pDetectionResult = QMCCrypto._malloc(QMCCrypto.sizeof_qmc_detection());
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// 进行检测
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const detectOK = QMCCrypto.detectKeyEndPosition(pDetectionResult, pDetectionBuf, detectionBuf.length);
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// 提取结构体内容:
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// (pos: i32; len: i32; error: char[??])
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const position = QMCCrypto.getValue(pDetectionResult, 'i32');
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const len = QMCCrypto.getValue(pDetectionResult + 4, 'i32');
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// 释放内存
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QMCCrypto._free(pDetectionBuf);
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QMCCrypto._free(pDetectionResult);
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if (!detectOK) {
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return false;
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}
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// 计算解密后文件的大小。
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// 之前得到的 position 为相对当前检测数据起点的偏移。
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const decryptedSize = mggBlob.byteLength - DETECTION_SIZE + position;
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// 提取嵌入到文件的 EKey
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const ekey = new Uint8Array(mggBlob.slice(decryptedSize, decryptedSize + len));
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// 解码 UTF-8 数据到 string
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const decoder = new TextDecoder();
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const ekey_b64 = decoder.decode(ekey);
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// 初始化加密与缓冲区
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const hCrypto = QMCCrypto.createInstWidthEKey(ekey_b64);
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const buf = QMCCrypto._malloc(DECRYPTION_BUF_SIZE);
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const decryptedParts = [];
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let offset = 0;
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let bytesToDecrypt = decryptedSize;
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while (bytesToDecrypt > 0) {
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const blockSize = Math.min(bytesToDecrypt, DECRYPTION_BUF_SIZE);
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// 解密一些片段
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const blockData = new Uint8Array(mggBlob.slice(offset, offset + blockSize));
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QMCCrypto.writeArrayToMemory(blockData, buf);
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QMCCrypto.decryptStream(hCrypto, buf, offset, blockSize);
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decryptedParts.push(QMCCrypto.HEAPU8.slice(buf, buf + blockSize));
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offset += blockSize;
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bytesToDecrypt -= blockSize;
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}
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QMCCrypto._free(buf);
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hCrypto.delete();
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return MergeUint8Array(decryptedParts);
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}
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