@polkadot/wasm-crypto/bundle-polkadot-wasm-crypto.js

A wasm interface layer for use by @polkadot/util-crypto

(function (global, factory) {
    typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('@polkadot/util')) :
    typeof define === 'function' && define.amd ? define(['exports', '@polkadot/util'], factory) :
    (global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.polkadotWasmCrypto = {}, global.polkadotUtil));
})(this, (function (exports, util) { 'use strict';

    const global = typeof globalThis !== "undefined" ? globalThis : typeof self !== "undefined" ? self : window;

    var _documentCurrentScript = typeof document !== 'undefined' ? document.currentScript : null;
    function evaluateThis(fn) {
        return fn('return this');
    }
    const xglobal =  (typeof globalThis !== 'undefined'
        ? globalThis
        : typeof global !== 'undefined'
            ? global
            : typeof self !== 'undefined'
                ? self
                : typeof window !== 'undefined'
                    ? window
                    : evaluateThis(Function));

    const crypto = xglobal.crypto;
    function getRandomValues(arr) {
        return crypto.getRandomValues(arr);
    }

    const DEFAULT_CRYPTO = { getRandomValues };
    const DEFAULT_SELF = { crypto: DEFAULT_CRYPTO };
    class Wbg {
        __internal__bridge;
        constructor(bridge) {
            this.__internal__bridge = bridge;
        }
        abort = () => {
            throw new Error('abort');
        };
        __wbindgen_is_undefined = (idx) => {
            return this.__internal__bridge.getObject(idx) === undefined;
        };
        __wbindgen_throw = (ptr, len) => {
            throw new Error(this.__internal__bridge.getString(ptr, len));
        };
        __wbg_self_1b7a39e3a92c949c = () => {
            return this.__internal__bridge.addObject(DEFAULT_SELF);
        };
        __wbg_require_604837428532a733 = (ptr, len) => {
            throw new Error(`Unable to require ${this.__internal__bridge.getString(ptr, len)}`);
        };
        __wbg_crypto_968f1772287e2df0 = (_idx) => {
            return this.__internal__bridge.addObject(DEFAULT_CRYPTO);
        };
        __wbg_getRandomValues_a3d34b4fee3c2869 = (_idx) => {
            return this.__internal__bridge.addObject(DEFAULT_CRYPTO.getRandomValues);
        };
        __wbg_getRandomValues_f5e14ab7ac8e995d = (_arg0, ptr, len) => {
            DEFAULT_CRYPTO.getRandomValues(this.__internal__bridge.getU8a(ptr, len));
        };
        __wbg_randomFillSync_d5bd2d655fdf256a = (_idx, _ptr, _len) => {
            throw new Error('randomFillsync is not available');
        };
        __wbindgen_object_drop_ref = (idx) => {
            this.__internal__bridge.takeObject(idx);
        };
    }

    class Bridge {
        __internal__createWasm;
        __internal__heap;
        __internal__wbg;
        __internal__cachegetInt32;
        __internal__cachegetUint8;
        __internal__heapNext;
        __internal__wasm;
        __internal__wasmError;
        __internal__wasmPromise;
        __internal__type;
        constructor(createWasm) {
            this.__internal__createWasm = createWasm;
            this.__internal__cachegetInt32 = null;
            this.__internal__cachegetUint8 = null;
            this.__internal__heap = new Array(32)
                .fill(undefined)
                .concat(undefined, null, true, false);
            this.__internal__heapNext = this.__internal__heap.length;
            this.__internal__type = 'none';
            this.__internal__wasm = null;
            this.__internal__wasmError = null;
            this.__internal__wasmPromise = null;
            this.__internal__wbg = { ...new Wbg(this) };
        }
        get error() {
            return this.__internal__wasmError;
        }
        get type() {
            return this.__internal__type;
        }
        get wasm() {
            return this.__internal__wasm;
        }
        async init(createWasm) {
            if (!this.__internal__wasmPromise || createWasm) {
                this.__internal__wasmPromise = (createWasm || this.__internal__createWasm)(this.__internal__wbg);
            }
            const { error, type, wasm } = await this.__internal__wasmPromise;
            this.__internal__type = type;
            this.__internal__wasm = wasm;
            this.__internal__wasmError = error;
            return this.__internal__wasm;
        }
        getObject(idx) {
            return this.__internal__heap[idx];
        }
        dropObject(idx) {
            if (idx < 36) {
                return;
            }
            this.__internal__heap[idx] = this.__internal__heapNext;
            this.__internal__heapNext = idx;
        }
        takeObject(idx) {
            const ret = this.getObject(idx);
            this.dropObject(idx);
            return ret;
        }
        addObject(obj) {
            if (this.__internal__heapNext === this.__internal__heap.length) {
                this.__internal__heap.push(this.__internal__heap.length + 1);
            }
            const idx = this.__internal__heapNext;
            this.__internal__heapNext = this.__internal__heap[idx];
            this.__internal__heap[idx] = obj;
            return idx;
        }
        getInt32() {
            if (this.__internal__cachegetInt32 === null || this.__internal__cachegetInt32.buffer !== this.__internal__wasm.memory.buffer) {
                this.__internal__cachegetInt32 = new Int32Array(this.__internal__wasm.memory.buffer);
            }
            return this.__internal__cachegetInt32;
        }
        getUint8() {
            if (this.__internal__cachegetUint8 === null || this.__internal__cachegetUint8.buffer !== this.__internal__wasm.memory.buffer) {
                this.__internal__cachegetUint8 = new Uint8Array(this.__internal__wasm.memory.buffer);
            }
            return this.__internal__cachegetUint8;
        }
        getU8a(ptr, len) {
            return this.getUint8().subarray(ptr / 1, ptr / 1 + len);
        }
        getString(ptr, len) {
            return util.u8aToString(this.getU8a(ptr, len));
        }
        allocU8a(arg) {
            const ptr = this.__internal__wasm.__wbindgen_malloc(arg.length * 1);
            this.getUint8().set(arg, ptr / 1);
            return [ptr, arg.length];
        }
        allocString(arg) {
            return this.allocU8a(util.stringToU8a(arg));
        }
        resultU8a() {
            const r0 = this.getInt32()[8 / 4 + 0];
            const r1 = this.getInt32()[8 / 4 + 1];
            const ret = this.getU8a(r0, r1).slice();
            this.__internal__wasm.__wbindgen_free(r0, r1 * 1);
            return ret;
        }
        resultString() {
            return util.u8aToString(this.resultU8a());
        }
    }

    function createWasmFn(root, wasmBytes, asmFn) {
        return async (wbg) => {
            const result = {
                error: null,
                type: 'none',
                wasm: null
            };
            try {
                if (!wasmBytes?.length) {
                    throw new Error('No WebAssembly provided for initialization');
                }
                else if (typeof WebAssembly !== 'object' || typeof WebAssembly.instantiate !== 'function') {
                    throw new Error('WebAssembly is not available in your environment');
                }
                const source = await WebAssembly.instantiate(wasmBytes, { wbg });
                result.wasm = source.instance.exports;
                result.type = 'wasm';
            }
            catch (error) {
                {
                    result.error = `FATAL: Unable to initialize @polkadot/wasm-${root}:: ${error.message}`;
                    console.error(result.error);
                }
            }
            return result;
        };
    }

    const CHR = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/';
    const map = new Array(256);
    for (let i = 0, count = CHR.length; i < count; i++) {
        map[CHR.charCodeAt(i)] = i;
    }
    function base64Decode(data, out) {
        let byte = 0;
        let bits = 0;
        let pos = -1;
        for (let i = 0, last = out.length - 1; pos !== last; i++) {
            byte = (byte << 6) | map[data.charCodeAt(i)];
            if ((bits += 6) >= 8) {
                out[++pos] = (byte >>> (bits -= 8)) & 0xff;
            }
        }
        return out;
    }

    const u8 = Uint8Array, u16 = Uint16Array, u32 = Uint32Array;
    const clim = new u8([16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15]);
    const fleb = new u8([0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0,  0, 0,  0]);
    const fdeb = new u8([0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 7, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 13, 13,  0, 0]);
    const freb = (eb, start) => {
        const b = new u16(31);
        for (let i = 0; i < 31; ++i) {
            b[i] = start += 1 << eb[i - 1];
        }
        const r = new u32(b[30]);
        for (let i = 1; i < 30; ++i) {
            for (let j = b[i]; j < b[i + 1]; ++j) {
                r[j] = ((j - b[i]) << 5) | i;
            }
        }
        return [b, r];
    };
    const [fl, revfl] = freb(fleb, 2);
    fl[28] = 258, revfl[258] = 28;
    const [fd] = freb(fdeb, 0);
    const rev = new u16(32768);
    for (let i = 0; i < 32768; ++i) {
        let x = ((i & 0xAAAA) >>> 1) | ((i & 0x5555) << 1);
        x = ((x & 0xCCCC) >>> 2) | ((x & 0x3333) << 2);
        x = ((x & 0xF0F0) >>> 4) | ((x & 0x0F0F) << 4);
        rev[i] = (((x & 0xFF00) >>> 8) | ((x & 0x00FF) << 8)) >>> 1;
    }
    const hMap = ((cd, mb, r) => {
        const s = cd.length;
        let i = 0;
        const l = new u16(mb);
        for (; i < s; ++i) {
            if (cd[i])
                ++l[cd[i] - 1];
        }
        const le = new u16(mb);
        for (i = 1; i < mb; ++i) {
            le[i] = (le[i - 1] + l[i - 1]) << 1;
        }
        let co;
        {
            co = new u16(1 << mb);
            const rvb = 15 - mb;
            for (i = 0; i < s; ++i) {
                if (cd[i]) {
                    const sv = (i << 4) | cd[i];
                    const r = mb - cd[i];
                    let v = le[cd[i] - 1]++ << r;
                    for (const m = v | ((1 << r) - 1); v <= m; ++v) {
                        co[rev[v] >> rvb] = sv;
                    }
                }
            }
        }
        return co;
    });
    const flt = new u8(288);
    for (let i = 0; i < 144; ++i)
        flt[i] = 8;
    for (let i = 144; i < 256; ++i)
        flt[i] = 9;
    for (let i = 256; i < 280; ++i)
        flt[i] = 7;
    for (let i = 280; i < 288; ++i)
        flt[i] = 8;
    const fdt = new u8(32);
    for (let i = 0; i < 32; ++i)
        fdt[i] = 5;
    const flrm = hMap(flt, 9);
    const fdrm = hMap(fdt, 5);
    const bits = (d, p, m) => {
        const o = p >>> 3;
        return ((d[o] | (d[o + 1] << 8)) >>> (p & 7)) & m;
    };
    const bits16 = (d, p) => {
        const o = p >>> 3;
        return ((d[o] | (d[o + 1] << 8) | (d[o + 2] << 16)) >>> (p & 7));
    };
    const shft = (p) => (p >>> 3) + (p & 7 && 1);
    const slc = (v, s, e) => {
        if (e == null || e > v.length)
            e = v.length;
        const n = new (v instanceof u16 ? u16 : v instanceof u32 ? u32 : u8)(e - s);
        n.set(v.subarray(s, e));
        return n;
    };
    const max = (a) => {
        let m = a[0];
        for (let i = 1, count = a.length; i < count; ++i) {
            if (a[i] > m)
                m = a[i];
        }
        return m;
    };
    const inflt = (dat, buf, st) => {
        const noSt = !st || st.i;
        if (!st)
            st = {};
        const sl = dat.length;
        const noBuf = !buf || !noSt;
        if (!buf)
            buf = new u8(sl * 3);
        const cbuf = (l) => {
            let bl = buf.length;
            if (l > bl) {
                const nbuf = new u8(Math.max(bl << 1, l));
                nbuf.set(buf);
                buf = nbuf;
            }
        };
        let final = st.f || 0, pos = st.p || 0, bt = st.b || 0, lm = st.l, dm = st.d, lbt = st.m, dbt = st.n;
        if (final && !lm)
            return buf;
        const tbts = sl << 3;
        do {
            if (!lm) {
                st.f = final = bits(dat, pos, 1);
                const type = bits(dat, pos + 1, 3);
                pos += 3;
                if (!type) {
                    const s = shft(pos) + 4, l = dat[s - 4] | (dat[s - 3] << 8), t = s + l;
                    if (t > sl) {
                        if (noSt)
                            throw 'unexpected EOF';
                        break;
                    }
                    if (noBuf)
                        cbuf(bt + l);
                    buf.set(dat.subarray(s, t), bt);
                    st.b = bt += l, st.p = pos = t << 3;
                    continue;
                }
                else if (type == 1)
                    lm = flrm, dm = fdrm, lbt = 9, dbt = 5;
                else if (type == 2) {
                    const hLit = bits(dat, pos, 31) + 257, hcLen = bits(dat, pos + 10, 15) + 4;
                    const tl = hLit + bits(dat, pos + 5, 31) + 1;
                    pos += 14;
                    const ldt = new u8(tl);
                    const clt = new u8(19);
                    for (let i = 0; i < hcLen; ++i) {
                        clt[clim[i]] = bits(dat, pos + i * 3, 7);
                    }
                    pos += hcLen * 3;
                    const clb = max(clt), clbmsk = (1 << clb) - 1;
                    if (!noSt && pos + tl * (clb + 7) > tbts)
                        break;
                    const clm = hMap(clt, clb);
                    for (let i = 0; i < tl;) {
                        const r = clm[bits(dat, pos, clbmsk)];
                        pos += r & 15;
                        const s = r >>> 4;
                        if (s < 16) {
                            ldt[i++] = s;
                        }
                        else {
                            let c = 0, n = 0;
                            if (s == 16)
                                n = 3 + bits(dat, pos, 3), pos += 2, c = ldt[i - 1];
                            else if (s == 17)
                                n = 3 + bits(dat, pos, 7), pos += 3;
                            else if (s == 18)
                                n = 11 + bits(dat, pos, 127), pos += 7;
                            while (n--)
                                ldt[i++] = c;
                        }
                    }
                    const lt = ldt.subarray(0, hLit), dt = ldt.subarray(hLit);
                    lbt = max(lt);
                    dbt = max(dt);
                    lm = hMap(lt, lbt);
                    dm = hMap(dt, dbt);
                }
                else
                    throw 'invalid block type';
                if (pos > tbts)
                    throw 'unexpected EOF';
            }
            if (noBuf)
                cbuf(bt + 131072);
            const lms = (1 << lbt) - 1, dms = (1 << dbt) - 1;
            const mxa = lbt + dbt + 18;
            while (noSt || pos + mxa < tbts) {
                const c = lm[bits16(dat, pos) & lms], sym = c >>> 4;
                pos += c & 15;
                if (pos > tbts)
                    throw 'unexpected EOF';
                if (!c)
                    throw 'invalid length/literal';
                if (sym < 256)
                    buf[bt++] = sym;
                else if (sym == 256) {
                    lm = undefined;
                    break;
                }
                else {
                    let add = sym - 254;
                    if (sym > 264) {
                        const i = sym - 257, b = fleb[i];
                        add = bits(dat, pos, (1 << b) - 1) + fl[i];
                        pos += b;
                    }
                    const d = dm[bits16(dat, pos) & dms], dsym = d >>> 4;
                    if (!d)
                        throw 'invalid distance';
                    pos += d & 15;
                    let dt = fd[dsym];
                    if (dsym > 3) {
                        const b = fdeb[dsym];
                        dt += bits16(dat, pos) & ((1 << b) - 1), pos += b;
                    }
                    if (pos > tbts)
                        throw 'unexpected EOF';
                    if (noBuf)
                        cbuf(bt + 131072);
                    const end = bt + add;
                    for (; bt < end; bt += 4) {
                        buf[bt] = buf[bt - dt];
                        buf[bt + 1] = buf[bt + 1 - dt];
                        buf[bt + 2] = buf[bt + 2 - dt];
                        buf[bt + 3] = buf[bt + 3 - dt];
                    }
                    bt = end;
                }
            }
            st.l = lm, st.p = pos, st.b = bt;
            if (lm)
                final = 1, st.m = lbt, st.d = dm, st.n = dbt;
        } while (!final);
        return bt == buf.length ? buf : slc(buf, 0, bt);
    };
    const zlv = (d) => {
        if ((d[0] & 15) != 8 || (d[0] >>> 4) > 7 || ((d[0] << 8 | d[1]) % 31))
            throw 'invalid zlib data';
        if (d[1] & 32)
            throw 'invalid zlib data: preset dictionaries not supported';
    };
    function unzlibSync(data, out) {
        return inflt((zlv(data), data.subarray(2, -4)), out);
    }

    var lenIn = 171008;
    var lenOut = 339468;
    var bytes_1 = 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