ifbbprochris de831f5e80 #3703 公用-图片上传sdk开发 (#1) | il y a 5 ans | |
---|---|---|
.. | ||
LICENSE | il y a 5 ans | |
README.md | il y a 5 ans | |
package.json | il y a 5 ans | |
spark-md5.js | il y a 5 ans | |
spark-md5.min.js | il y a 5 ans |
SparkMD5 is a fast md5 implementation of the MD5 algorithm.
This script is based in the JKM md5 library which is the fastest algorithm around. This is most suitable for browser usage, because nodejs
version might be faster.
NOTE: Please disable Firebug while performing the test!
Firebug consumes a lot of memory and CPU and slows the test by a great margin.
Incremental md5 performs a lot better for hashing large amounts of data, such as files. One could read files in chunks, using the FileReader & Blob’s, and append each chunk for md5 hashing while keeping memory usage low. See example below.
var hexHash = SparkMD5.hash('Hi there'); // hex hash
var rawHash = SparkMD5.hash('Hi there', true); // OR raw hash (binary string)
var spark = new SparkMD5();
spark.append('Hi');
spark.append(' there');
var hexHash = spark.end(); // hex hash
var rawHash = spark.end(true); // OR raw hash (binary string)
NOTE: If you test the code bellow using the file:// protocol in chrome you must start the browser with -allow-file-access-from-files argument.
Please see: http://code.google.com/p/chromium/issues/detail?id=60889
document.getElementById('file').addEventListener('change', function () {
var blobSlice = File.prototype.slice || File.prototype.mozSlice || File.prototype.webkitSlice,
file = this.files[0],
chunkSize = 2097152, // Read in chunks of 2MB
chunks = Math.ceil(file.size / chunkSize),
currentChunk = 0,
spark = new SparkMD5.ArrayBuffer(),
fileReader = new FileReader();
fileReader.onload = function (e) {
console.log('read chunk nr', currentChunk + 1, 'of', chunks);
spark.append(e.target.result); // Append array buffer
currentChunk++;
if (currentChunk < chunks) {
loadNext();
} else {
console.log('finished loading');
console.info('computed hash', spark.end()); // Compute hash
}
};
fileReader.onerror = function () {
console.warn('oops, something went wrong.');
};
function loadNext() {
var start = currentChunk * chunkSize,
end = ((start + chunkSize) >= file.size) ? file.size : start + chunkSize;
fileReader.readAsArrayBuffer(blobSlice.call(file, start, end));
}
loadNext();
});
You can see some more examples in the test folder.
Appends a string, encoding it to UTF8 if necessary.
Appends a binary string (e.g.: string returned from the deprecated readAsBinaryString).
Finishes the computation of the md5, returning the hex result.
If raw
is true, the result as a binary string will be returned instead.
Resets the internal state of the computation.
Returns an object representing the internal computation state. You can pass this state to setState(). This feature is useful to resume an incremental md5.
Sets the internal computation state. See: getState().
Releases memory used by the incremental buffer and other additional resources.
Hashes a string directly, returning the hex result.
If raw
is true, the result as a binary string will be returned instead.
Note that this function is static
.
Hashes a binary string directly (e.g.: string returned from the deprecated readAsBinaryString), returning the hex result.
If raw
is true, the result as a binary string will be returned instead.
Note that this function is static
.
Appends an array buffer.
Finishes the computation of the md5, returning the hex result.
If raw
is true, the result as a binary string will be returned instead.
Resets the internal state of the computation.
Releases memory used by the incremental buffer and other additional resources.
Returns an object representing the internal computation state. You can pass this state to setState(). This feature is useful to resume an incremental md5.
Sets the internal computation state. See: getState().
Hashes an array buffer directly, returning the hex result.
If raw
is true, the result as a binary string will be returned instead.
Note that this function is static
.
The project is double licensed, being WTF2 the master license and MIT the alternative license. The reason to have two licenses is that some entities refuse to use the master license (WTF2) due to bad language. If that’s also your case, you can choose the alternative license.