'use strict'; // Test unzipping a gzip file that contains multiple concatenated "members" const common = require('../common'); const assert = require('assert'); const zlib = require('zlib'); const fs = require('fs'); const fixtures = require('../common/fixtures'); const abc = 'abc'; const def = 'def'; const abcEncoded = zlib.gzipSync(abc); const defEncoded = zlib.gzipSync(def); const data = Buffer.concat([ abcEncoded, defEncoded ]); assert.strictEqual(zlib.gunzipSync(data).toString(), (abc + def)); zlib.gunzip(data, common.mustCall((err, result) => { assert.ifError(err); assert.strictEqual(result.toString(), (abc + def)); })); zlib.unzip(data, common.mustCall((err, result) => { assert.ifError(err); assert.strictEqual(result.toString(), (abc + def)); })); // Multi-member support does not apply to zlib inflate/deflate. zlib.unzip(Buffer.concat([ zlib.deflateSync('abc'), zlib.deflateSync('def') ]), common.mustCall((err, result) => { assert.ifError(err); assert.strictEqual(result.toString(), abc); })); // files that have the "right" magic bytes for starting a new gzip member // in the middle of themselves, even if they are part of a single // regularly compressed member const pmmFileZlib = fixtures.path('pseudo-multimember-gzip.z'); const pmmFileGz = fixtures.path('pseudo-multimember-gzip.gz'); const pmmExpected = zlib.inflateSync(fs.readFileSync(pmmFileZlib)); const pmmResultBuffers = []; fs.createReadStream(pmmFileGz) .pipe(zlib.createGunzip()) .on('error', (err) => { assert.ifError(err); }) .on('data', (data) => pmmResultBuffers.push(data)) .on('finish', common.mustCall(() => { assert.deepStrictEqual(Buffer.concat(pmmResultBuffers), pmmExpected, 'result should match original random garbage'); })); // test that the next gzip member can wrap around the input buffer boundary [0, 1, 2, 3, 4, defEncoded.length].forEach((offset) => { const resultBuffers = []; const unzip = zlib.createGunzip() .on('error', (err) => { assert.ifError(err); }) .on('data', (data) => resultBuffers.push(data)) .on('finish', common.mustCall(() => { assert.strictEqual( Buffer.concat(resultBuffers).toString(), 'abcdef', `result should match original input (offset = ${offset})` ); })); // first write: write "abc" + the first bytes of "def" unzip.write(Buffer.concat([ abcEncoded, defEncoded.slice(0, offset) ])); // write remaining bytes of "def" unzip.end(defEncoded.slice(offset)); });