/* This file is part of GNU Taler (C) 2021-2023 Taler Systems S.A. GNU Taler is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GNU Taler is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GNU Taler; see the file COPYING. If not, see */ import { decodeCrock, encodeCrock } from "@gnu-taler/taler-util"; const utf8Encoder = new TextEncoder(); const utf8Decoder = new TextDecoder("utf-8", { ignoreBOM: true }); export function encodeCrockForURI(string: string): string { return encodeCrock(utf8Encoder.encode(string)); } export function decodeCrockFromURI(enc: string): string { return utf8Decoder.decode(decodeCrock(enc)); } export function base64encode(str: string): string { return base64EncArr(strToUTF8Arr(str)); } export function base64decode(str: string): string { return UTF8ArrToStr(base64DecToArr(str)); } // from https://developer.mozilla.org/en-US/docs/Glossary/Base64 // Array of bytes to Base64 string decoding function b64ToUint6(nChr: number): number { return nChr > 64 && nChr < 91 ? nChr - 65 : nChr > 96 && nChr < 123 ? nChr - 71 : nChr > 47 && nChr < 58 ? nChr + 4 : nChr === 43 ? 62 : nChr === 47 ? 63 : 0; } function base64DecToArr(sBase64: string, nBlocksSize?: number): Uint8Array { const sB64Enc = sBase64.replace(/[^A-Za-z0-9+/]/g, ""); // Only necessary if the base64 includes whitespace such as line breaks. const nInLen = sB64Enc.length; const nOutLen = nBlocksSize ? Math.ceil(((nInLen * 3 + 1) >> 2) / nBlocksSize) * nBlocksSize : (nInLen * 3 + 1) >> 2; const taBytes = new Uint8Array(nOutLen); let nMod3; let nMod4; let nUint24 = 0; let nOutIdx = 0; for (let nInIdx = 0; nInIdx < nInLen; nInIdx++) { nMod4 = nInIdx & 3; nUint24 |= b64ToUint6(sB64Enc.charCodeAt(nInIdx)) << (6 * (3 - nMod4)); if (nMod4 === 3 || nInLen - nInIdx === 1) { nMod3 = 0; while (nMod3 < 3 && nOutIdx < nOutLen) { taBytes[nOutIdx] = (nUint24 >>> ((16 >>> nMod3) & 24)) & 255; nMod3++; nOutIdx++; } nUint24 = 0; } } return taBytes; } /* Base64 string to array encoding */ function uint6ToB64(nUint6: number): number { return nUint6 < 26 ? nUint6 + 65 : nUint6 < 52 ? nUint6 + 71 : nUint6 < 62 ? nUint6 - 4 : nUint6 === 62 ? 43 : nUint6 === 63 ? 47 : 65; } function base64EncArr(aBytes: Uint8Array): string { let nMod3 = 2; let sB64Enc = ""; const nLen = aBytes.length; let nUint24 = 0; for (let nIdx = 0; nIdx < nLen; nIdx++) { nMod3 = nIdx % 3; // To break your base64 into several 80-character lines, add: // if (nIdx > 0 && ((nIdx * 4) / 3) % 76 === 0) { // sB64Enc += "\r\n"; // } nUint24 |= aBytes[nIdx] << ((16 >>> nMod3) & 24); if (nMod3 === 2 || aBytes.length - nIdx === 1) { sB64Enc += String.fromCodePoint( uint6ToB64((nUint24 >>> 18) & 63), uint6ToB64((nUint24 >>> 12) & 63), uint6ToB64((nUint24 >>> 6) & 63), uint6ToB64(nUint24 & 63), ); nUint24 = 0; } } return ( sB64Enc.substring(0, sB64Enc.length - 2 + nMod3) + (nMod3 === 2 ? "" : nMod3 === 1 ? "=" : "==") ); } /** * UTF-8 array to JS string and vice versa * * @param aBytes * @deprecated use textEncoder * @returns */ function UTF8ArrToStr(aBytes: Uint8Array): string { let sView = ""; let nPart; const nLen = aBytes.length; for (let nIdx = 0; nIdx < nLen; nIdx++) { nPart = aBytes[nIdx]; sView += String.fromCodePoint( nPart > 251 && nPart < 254 && nIdx + 5 < nLen /* six bytes */ ? /* (nPart - 252 << 30) may be not so safe in ECMAScript! So…: */ (nPart - 252) * 1073741824 + ((aBytes[++nIdx] - 128) << 24) + ((aBytes[++nIdx] - 128) << 18) + ((aBytes[++nIdx] - 128) << 12) + ((aBytes[++nIdx] - 128) << 6) + aBytes[++nIdx] - 128 : nPart > 247 && nPart < 252 && nIdx + 4 < nLen /* five bytes */ ? ((nPart - 248) << 24) + ((aBytes[++nIdx] - 128) << 18) + ((aBytes[++nIdx] - 128) << 12) + ((aBytes[++nIdx] - 128) << 6) + aBytes[++nIdx] - 128 : nPart > 239 && nPart < 248 && nIdx + 3 < nLen /* four bytes */ ? ((nPart - 240) << 18) + ((aBytes[++nIdx] - 128) << 12) + ((aBytes[++nIdx] - 128) << 6) + aBytes[++nIdx] - 128 : nPart > 223 && nPart < 240 && nIdx + 2 < nLen /* three bytes */ ? ((nPart - 224) << 12) + ((aBytes[++nIdx] - 128) << 6) + aBytes[++nIdx] - 128 : nPart > 191 && nPart < 224 && nIdx + 1 < nLen /* two bytes */ ? ((nPart - 192) << 6) + aBytes[++nIdx] - 128 : /* nPart < 127 ? */ /* one byte */ nPart, ); } return sView; } /** * * @param sDOMStr * @deprecated use textEncoder * @returns */ function strToUTF8Arr(sDOMStr: string): Uint8Array { let nChr; const nStrLen = sDOMStr.length; let nArrLen = 0; /* mapping… */ for (let nMapIdx = 0; nMapIdx < nStrLen; nMapIdx++) { nChr = sDOMStr.codePointAt(nMapIdx); if (nChr === undefined) { throw Error( `No char at ${nMapIdx} on string with length: ${sDOMStr.length}`, ); } if (nChr >= 0x10000) { nMapIdx++; } nArrLen += nChr < 0x80 ? 1 : nChr < 0x800 ? 2 : nChr < 0x10000 ? 3 : nChr < 0x200000 ? 4 : nChr < 0x4000000 ? 5 : 6; } const aBytes = new Uint8Array(nArrLen); /* transcription… */ let nIdx = 0; let nChrIdx = 0; while (nIdx < nArrLen) { nChr = sDOMStr.codePointAt(nChrIdx); if (nChr === undefined) { throw Error( `No char at ${nChrIdx} on string with length: ${sDOMStr.length}`, ); } if (nChr < 128) { /* one byte */ aBytes[nIdx++] = nChr; } else if (nChr < 0x800) { /* two bytes */ aBytes[nIdx++] = 192 + (nChr >>> 6); aBytes[nIdx++] = 128 + (nChr & 63); } else if (nChr < 0x10000) { /* three bytes */ aBytes[nIdx++] = 224 + (nChr >>> 12); aBytes[nIdx++] = 128 + ((nChr >>> 6) & 63); aBytes[nIdx++] = 128 + (nChr & 63); } else if (nChr < 0x200000) { /* four bytes */ aBytes[nIdx++] = 240 + (nChr >>> 18); aBytes[nIdx++] = 128 + ((nChr >>> 12) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 6) & 63); aBytes[nIdx++] = 128 + (nChr & 63); nChrIdx++; } else if (nChr < 0x4000000) { /* five bytes */ aBytes[nIdx++] = 248 + (nChr >>> 24); aBytes[nIdx++] = 128 + ((nChr >>> 18) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 12) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 6) & 63); aBytes[nIdx++] = 128 + (nChr & 63); nChrIdx++; } /* if (nChr <= 0x7fffffff) */ else { /* six bytes */ aBytes[nIdx++] = 252 + (nChr >>> 30); aBytes[nIdx++] = 128 + ((nChr >>> 24) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 18) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 12) & 63); aBytes[nIdx++] = 128 + ((nChr >>> 6) & 63); aBytes[nIdx++] = 128 + (nChr & 63); nChrIdx++; } nChrIdx++; } return aBytes; }