In AEM Assets 6.5 and prior, a single post request to a servlet that manges asset binaries is enough for uploading files. Newer versions of AEM can be configured to use direct binary upload, which means that asset binaries are no longer uploaded straight to AEM. Because of this there is a more complex algorithm to follow when uploading asset binaries. Due to the fact that direct binary upload is a configuration, whether or not this library can be used on a given AEM instance will vary. However, all AEM as a Cloud Service instances will have direct binary upload enabled, so this library will work with those.
This tool is provided for making uploading easier, and can be used as a command line executable or required as a Node.js module.
A command line tool for for uploading assets to an AEM instance is available as a plugin for the Adobe I/O CLI. Please see the plugin repository for more information.
This library supports uploading files to a target instance, while providing support for monitoring transfer progress, cancelling transfers, and other features.
This project uses node and npm. Go check them out if you don't have them locally installed.
It can be installed like any other Node.js module.
$ npm install @adobe/aem-upload
To add the module to your Node.js project:
- Install the module in your project.
- Require the module in the javascript file where it will be consumed:
const DirectBinary = require('@adobe/aem-upload');
Following is the minimum amount of code required to upload files to a target AEM instance.
const DirectBinary = require('@adobe/aem-upload');
// URL to the directory in AEM where assets will be uploaded. Directory
// must already exist.
const targetUrl = 'http://localhost:4502/content/dam/target';
// list of all local files that will be uploaded.
const uploadFiles = [
{
fileName: 'file1.jpg', // name of the file as it will appear in AEM
fileSize: 1024, // total size, in bytes, of the file
filePath: '/Users/me/Documents/my_file.jpg' // Full path to the local file
},
{
fileName: 'file2.jpg',
fileSize: 512,
filePath: '/Users/me/Documents/file2.jpg'
}
];
const upload = new DirectBinary.DirectBinaryUpload();
const options = new DirectBinary.DirectBinaryUploadOptions()
.withUrl(targetUrl)
.withUploadFiles(uploadFiles);
// this call will upload the files. The method returns a Promise, which will be resolved
// when all files have uploaded.
upload.uploadFiles(options)
.then(result => {
// "result" contains various information about the upload process, including
// performance metrics and errors that may have occurred for individual files
// at this point, assuming no errors, there will be two new assets in AEM:
// http://localhost:4502/content/dam/target/file1.jpg
// http://localhost:4502/content/dam/target/file2.jpg
})
.catch(err => {
// the Promise will reject if something causes the upload process to fail at
// a high level. Note that individual file failures will NOT trigger this
// "err" will be an instance of UploadError. See "Error Handling"
// for more information
});
The DirectBinaryUploadOptions
class supports the following options. Items with * are required.
Option | Type | Description | |||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
* URL | string |
Full, absolute URL to the Directory in the target instance where the specified files will be uploaded.
Example
options.withUrl('http://localhost:4502/content/dam/target');
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* Upload Files | Array |
List of files that will be uploaded to the target URL. Each item in the array should be
an object consisting of the following properties:
Example options.withUploadFiles([ { fileName: 'file1.jpg', fileSize: 1024, filePath: '/Users/me/Documents/file1.jpg' }, { fileName: 'file2.jpg', fileSize: 2048, blob: [ 'h', 'e', 'l', 'l', 'o' ] } ]); |
|||||||||||||||||||||||||||
headers | object |
HTTP headers that will be included in each request sent to AEM. Each property should
be a header name, with the value being the header's value.
Example options.withHeaders({
'content-type': 'image/jpeg',
'authorization': '12345'
});
|
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concurrent | boolean |
If true , multiple files in the supplied list of upload files will
transfer simultaneously. If false , only one file will transfer at
a time, and the next file will not begin transferring until the current file
finishes.
Default: false .
Example options.withConcurrent(true);
|
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max concurrent requests | number |
The maximum number of concurrent HTTP requests that are allowed at any one time. As explained in the
concurrent option, the library will concurrently upload multiple files at once. This value
essentially indicates the maximum number of files that the process will upload at once.
A value less than 2 will instruct the library not to upload more than one file concurrently. Default: 5 .
Example options.withMaxConcurrent(2);
|
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add content length header | boolean |
If true , the upload process will automatically add a
Content-Length header when uploading file parts to AEM. If
false , no such header will be added.
This option is relevant depending on the context in which the process is running. For example, if running through Node.js then the underlying libraries will not automatically add a Content-Length header when submitting an HTTP
PUT request, so it must be explicitly added. However, when running
through a browser the underlying libraries will automatically
add a Content-Length header, and will issue a warning if it's
explicitly added.
Default: false
Example options.withAddContentLengthHeader(true);
|
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http retry count | number |
The number of times that the process will retry a failed HTTP request before
giving up. For example, if the retry count is 3 then the process will submit
the same HTTP request up to 3 times if the response indicates a failure.
Default: 3
Example options.withHttpRetryCount(5);
|
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http retry delay | number |
The amount of time that the process will wait before retrying a failed HTTP
request. The value is specified in milliseconds. With each increasing retry,
the delay will increase by its value. For example, if the delay is 5000 then
the first retry will wait 5 seconds, the second 10 seconds, the third 15
seconds, etc.
Default: 5000
Example options.withHttpRetryDelay(3000);
|
If a file fails to upload, the process will move to the next file in the list. The overall process itself will only fail if something catastrophic happens that prevents it from continuing to upload files. It's left up to the consumer to determine if there were individual file upload failures and react to them accordingly.
All errors reported by the upload process will be instances of UploadError
, which are
standard javascript Error
instances with an additional code
value that indicates
the type of error. Specific codes are available in DirectBinary.DirectBinaryUploadErrorCodes
.
The following is an example of handling errors, at either the process or file level.
const codes = DirectBinary.DirectBinaryUploadErrorCodes;
const upload = new DirectBinary.DirectBinaryUpload();
upload.uploadFiles(options) // assume that options is defined previously
.then(result => {
// use this method to retrieve ALL errors during the process
result.getErrors().forEach(error => {
if (error.getCode() === codes.ALREADY_EXISTS) {
// handle case where a file already exists
}
});
// or retrieve individual file errors
result.getFileUploadResults().forEach(fileResult => {
fileResult.getErrors().forEach(fileErr => {
if (fileErr.getCode() === codes.ALREADY_EXISTS) {
// "fileResult" contains information about the file
const fileName = fileResult.getFileName();
// handle case where file already exists
}
});
});
})
.catch(err => {
if (err.getCode() === codes.NOT_SUPPORTED) {
// handle case where direct binary access is not enabled
// on the target instance
}
});
Another way of handling individual file errors is to listen for the upload process's Events.
The process implements automatic HTTP retry handling, meaning that if an HTTP request fails then the process will wait for a specified interval and retry the same HTTP request a given number of times. If the request still fails after the given number of retries, it will report the error as normal using the last error. Any errors that caused a retry, in either a success scenario or failure scenario, will be reported in the result in a dedicated structure.
As the upload process moves through individual files, it will send events as it goes through the stages of uploading a file. These events are listed below.
Event | Description | Data | ||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
filestart | Indicates that a file has started to upload. |
The data sent with the event will be a simple javascript object
with the following properties:
|
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fileprogress | Sent periodically and includes information about how much of the file has uploaded. |
A simple javascript object containing the same properties as "filestart,"
in addition to the following properties:
|
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fileend | Indicates that a file has uploaded successfully. This event will not be sent if the file failed to upload, or if the file upload was cancelled. |
A simple javascript object containing the same properties as "filestart."
|
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fileerror | Sent if a file fails to upload. This event will not be sent if the file uploads successfully, or if the file upload was cancelled. |
A simple javascript object containing the same properties as "filestart,"
in addition to the following properties:
|
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filecancelled | Indicates that a file upload was cancelled. |
A simple javascript object containing the same properties as "filestart."
|
The following is an example of how to handle various events.
const upload = new DirectBinary.DirectBinaryUpload();
upload.on('filestart', data => {
const { fileName } = data;
// specific handling that should occur when a file begins uploading
});
upload.on('fileprogress', data => {
const { fileName, transferred } = data;
// specific handling that should occur as a file uploads
});
upload.on('fileend', data => {
const { fileName } = data;
// specific handling that should occur when a file finishes uploading successfully
});
upload.on('fileerror', data => {
const { fileName, errors } = data;
// specific handling that should occur when a file files to upload
});
// assume options has been declared previously
upload.uploadFiles(options);
After the process of uploading one or more files begins, it's possible to interact with the process using a controller. The controller allows operations like cancelling individual file uploads or all uploads.
The following is an example for how to control the process.
const options = new DirectBinaryUploadOptions()
.withUrl(url)
.withUploadFiles(files);
// retrieve a controller instance from the options
const controller = options.getController();
const upload = new DirectBinaryUpload();
upload.uploadFiles(options);
// at this point its possible to send command to the upload process using
// the controller
// cancel the upload of an individual file
controller.cancelFile(fileName);
// cancel ALL files in the upload
controller.cancel();
The library supports uploading local files and directories. For directories, the tool will include all immediate child files in the directory. It will not process sub-directories.
The following example illustrates how to upload local files.
const {
DirectBinaryUploadOptions,
FileSystemUpload
} = require('@adobe/aem-upload');
// configure options to use basic authentication
const options = new DirectBinaryUploadOptions()
.withUrl('http://localhost:4502/content/dam/target-folder')
.withBasicAuth('admin:admin')
.withAddContentLengthHeader(true);
// upload a single asset and all assets in a given directory
const fileUpload = new FileSystemUpload();
await fileUpload.upload(options, [
'/Users/me/myasset.jpg',
'/Users/me/mydirectory'
]);
- Well tunning for take advantage of nodejs for best uploading performance
- Track transfer progress of files
- Cancel in-progress transfers
- Transfer multiple files "in batch"
To publish a new version of the tool, use the following steps:
- Ensure you have publish permissions and have run
npm login
using your NPM credentials. From the root directory, runnpm publish
. - Edit
package.json
and increment the version number. - Commit changes to
package.json
.
- Recursive asset uploading for sub folders
- Pause/resume uploads
- Use a "thread pool" to limit the number of concurrent operations
- Automatically retry failed requests
Contributions are welcomed! Read the Contributing Guide for more information.
This project is licensed under the Apache V2 License. See LICENSE for more information.