File upload

Seven Bridges platforms provide a few different methods for data import:

  • Import from FTP or HTTP with the web interface
  • The file upload API that you can directly call with the sevenbridges2 package
  • The command line uploader
  • Import from cloud storage - Volume
  • Import from a DRS server

In this chapter we will explain how you can use the sevenbridges2 API library to upload your files to the Platform.

Although it is more intuitive to have these operations available on the File object, they are separated and stored directly on the authentication object Auth, because there are a separate group of endpoints themselves.

Upload single file

You can upload files from your local computer to the Platform using the upload() method on your Auth object. The method allows you to upload only a single file for now.

To upload a file, you should provide its full path on your local computer as the path parameter.

To specify the upload destination for your file you can use either project or parent parameter. These two parameters should not be used together.

  • project - Project object or project ID.
  • parent - File object (of type Folder) or its ID.

By calling the upload() method you are creating an upload job that by default starts to run immediately. If you don’t want to start the job immediately, just set the init parameter to TRUE in order to only initialize the object.

This upload job is wrapped into an object of the class Upload where you can see its details and call other actions on it.

Let’s initialize an upload job that will upload a file into a project:

# Authenticate
a <- Auth$new(platform = "aws-us", token = "<your-token>")

# Get the desired project to upload to
destination_project <- a$projects$get(project = "<project_id>")

# Create upload job and set destination project
upload_job <- a$upload(
  path = "/path/to/your/file.txt",
  project = destination_project,
  overwrite = TRUE,
  init = TRUE
)

If you would like to upload your file into a folder, you need to set the parent parameter:

# Get destination folder object
destination_folder <- a$files$get(id = "<folder_id>")

up <- a$upload(
  path = "/path/to/your/file.txt",
  parent = destination_folder,
  overwrite = TRUE,
  init = TRUE
)

Upload fields and operations

Since we have initialized the upload job, let’s see which actions can we run.

File size, part size and part number/length

In the previous example we can see that the API returned the upload id and some information about sizes. First we see the file_size in bytes (232), which is the real size of the file. File upload actually splits files into parts in the background; parts are then being uploaded one by one or in parallel and then merged again on destination. Each part can weigh a maximum of 5 GB, while the default part_size is recommended and set to be 32MB (which is 33554432B in our example).

Lastly, number of parts or part_length field, is also an important measure. Maximum number of parts can be 10.000.

Since users can control part size through the part_size parameter in upload() function, they should be careful not to set a size that is too small for very large files, so that total number of parts doesn’t exceed the limit of maximum 10.000.

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Start upload

Call the start() method on the upload job object do start the upload process.

# Start upload
up$start()

If you want to skip the step where you need to call the start() method to start the actual upload process, just set the init parameter back to FALSE when creating the upload job and the upload process will start right away.

# Create upload job and start it immediately
up <- a$upload(
  path = "/path/to/your/file.txt",
  project = destination_project,
  overwrite = TRUE,
  init = FALSE
)
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Get status information about the job

In order to track the progress of the job, you can call the info() method on the upload object.

# Get upload progress info
up$info()

Apart from basic information, the result will also provide the info on the number of uploaded parts up to that moment.

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List all ongoing uploads

Going back to the authentication object, there are two more operations for uploads manipulation. One is the method list_ongoing_uploads() that allows you to see the list of all ongoing upload processes.

# List ongoing uploads
a$list_ongoing_uploads()
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Abort upload process

The other one is abort(). You can abort any upload process using the upload_abort() method. To do so, you need to provide the ID of a process within the upload_id parameter.

# Abort upload
a$abort_upload(upload_id = "<id_of_the_upload_process>")

Note that in practice, if you start a big upload job, your R session will be blocked until this process is finished. This functionality is work in progress but the idea is to not block your main session in the future, while the upload is running. For now, you can create another R session on your own and track the progress of the upload job there.

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Volumes

Cloud storage providers come with their own interfaces, features, and terminology. At a certain level, though, they all view resources as data objects organized in repositories. Authentication and operations are commonly defined on those objects and repositories, and while each cloud provider might call these things different names and apply different parameters to them, their basic behavior is the same.

Seven Bridges environments mediate access to these repositories using volumes. A volume is associated with a particular cloud storage repository that you have enabled Seven Bridges to read from (and, optionally, to write to). Currently, volumes may be created using two types of cloud storage repositories: Amazon Web Services’ (AWS) S3 buckets and Google Cloud Storage (GCS) buckets.

A volume enables you to treat the cloud repository associated with it as external storage. You can ‘import’ files from the volume to your Seven Bridges environment to use them as inputs for computation. Similarly, you can write files from the Seven Bridges environment to your cloud storage by ‘exporting’ them to your volume.

Learn more about volumes on the Seven Bridges Platform, CGC, BDC and CAVATICA.

All volume related operations for querying volumes, fetching a single volume, and creating volumes are grouped under volumes path (Volumes resource class) on the authentication object.

When operating with a single volume, it is represented as an object of the Volume class which stores all volume information returned from the API and additional methods you are able to call directly on the volume, like volume update, deactivation, listing content, volume members management etc.

Note that all operations with volumes require advance_access parameter to be set to TRUE. In most of the volume operations it is pre-set to TRUE by default.

List volumes

You can list all volumes you’ve registered by calling the volumes$query() method from the authentication object. The method doesn’t have any additional query parameters that could allow you to search for volumes by specific criteria, except the ones that control the number of results returned using limit and offset parameters.

# Query volumes
a$volumes$query()

The result returned is the Collection object with pagination ability.

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Get single volume information

In order to retrieve information about a single volume of interest, you can get it using the volumes$get() method using its id as parameter. Volume ID is usually presented in the <division_name>/<volume_name> form for Enterprise users, while for public program users it can be in the <volume_owner>/<volume_name> form.

# Get volume
a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")
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Create volumes - AWS (S3) using IAM User authentication type

For creating volumes we have exposed several functions for different cloud providers and authentication types:

  • create_s3_using_iam_user: creates S3 volume using IAM User authentication type
  • create_s3_using_iam_role: creates S3 volume using IAM Role authentication type
  • create_google_using_iam_user: creates GC volume using IAM User authentication type
  • create_google_using_iam_role: creates GC volume using IAM Role authentication type
  • create_azure: creates Azure volume (only RO privileges allowed)
  • create_ali_oss: creates AliCloud volume (only RO privileges allowed)

For each of the functions it is possible to provide parameters via path (from_path) to a JSON file where all required fields should be listed.

Examples of use are shown below:

# Create AWS volume using IAM User authentication type
aws_iam_user_volume <- a$volumes$create_s3_using_iam_user(
  name = "my_new_aws_user_volume",
  bucket = "<bucket-name>",
  description = "AWS IAM User volume",
  access_key_id = "<access-key>",
  secret_access_key = "<secret-access-key>"
)

aws_iam_user_volume_from_path <- a$volumes$create_s3_using_iam_user(
  from_path = "path/to/my/json/file.json"
)


# Create AWS volume using IAM Role authentication type
aws_iam_role_volume <- a$volumes$create_s3_using_iam_role(
  name = "my_new_aws_role_volume",
  bucket = "<bucket-name>",
  description = "AWS IAM Role volume",
  role_arn = "<role-arn-key>",
  external_id = "<external-id>"
)

aws_iam_role_volume_from_path <- a$volumes$create_s3_using_iam_role(
  from_path = "path/to/my/json/file.json"
)

# Create Google Cloud volume using IAM User authentication type
gc_iam_user_volume <- a$volumes$create_google_using_iam_user(
  name = "my_new_gc_user_volume",
  access_mode = "RW",
  bucket = "<bucket-name>",
  description = "GC IAM User volume",
  client_email = "<client_email>",
  private_key = "<private_key-string>"
)

gc_iam_user_volume_from_path <- a$volumes$create_google_using_iam_user(
  from_path = "path/to/my/json/file.json"
)

# Create Google Cloud volume using IAM Role authentication type
# by passing configuration parameter as named list
gc_iam_role_volume <- a$volumes$create_google_using_iam_role(
  name = "my_new_gc_role_volume",
  access_mode = "RO",
  bucket = "<bucket-name>",
  description = "GC IAM Role volume",
  configuration = list(
    type = "<type-name>",
    audience = "<audience-link>",
    subject_token_type = "<subject_token_type>",
    service_account_impersonation_url = "<service_account_impersonation_url>",
    token_url = "<token_url>",
    credential_source = list(
      environment_id = "<environment_id>",
      region_url = "<region_url>",
      url = "<url>",
      regional_cred_verification_url = "<regional_cred_verification_url>"
    )
  )
)

# Create Google Cloud volume using IAM Role authentication type
# by passing configuration parameter as string path to configuration file
gc_iam_role_volume_config_file <- a$volumes$create_google_using_iam_role(
  name = "my_new_gc_role_volume_cnf_file",
  access_mode = "RO",
  bucket = "<bucket-name>",
  description = "GC IAM Role volume - using config file",
  configuration = "path/to/config/file.json"
)

# Create Google Cloud volume using IAM Role authentication type
# using from_path parameter
gc_iam_role_volume_from_path <- a$volumes$create_google_using_iam_role(
  from_path = "path/to/full/config/file.json"
)

# Create Azure volume
azure_volume <- a$volumes$create_azure(
  name = "my_new_azure_volume",
  description = "Azure volume",
  endpoint = "<endpoint>",
  container = "<bucket-name",
  storage_account = "<storage_account-name>",
  tenant_id = "<tenant_id>",
  client_id = "<client_id>",
  client_secret = "<client_secret>",
  resource_id = "<resource_id>"
)

azure_volume_from_path <- a$volumes$create_azure(
  from_path = "path/to/my/json/file.json"
)

# Create Ali Cloud volume
ali_volume <- a$volumes$create_ali_oss(
  name = "my_new_azure_volume",
  description = "Ali volume",
  endpoint = "<endpoint>",
  bucket = "<bucket-name",
  access_key_id = "<access_key_id>",
  secret_access_key = "<secret_access_key>"
)

ali_volume_from_path <- a$volumes$create_ali_oss(
  from_path = "path/to/my/json/file.json"
)
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Volume object operations

When you’ve created a new volume, you can notice it is represented as an object of the Volume class. To preview all volume information, use the print() method:

# Print volume info
print(aws_iam_user_volume)

Within this volume you have the following operations available to execute:

  • update: update volume information
  • list_contents : list volume content
  • get_file: get single volume file info
  • deactivate : deactivate volume
  • reactivate : reactivate previously deactivated volume
  • list_members: list all volume members
  • add_member: add new volume member
  • remove_member: remove volume member
  • get_member: get a volume member information
  • modify_member_permissions: modify member permissions on the volume
  • delete : delete previously deactivated volume
  • reload : reload volume object to sync information
  • list_imports: list all imports from the specified volume
  • list_exports: list all exports to the specified volume

Update volume

You can update volume’s description, access_mode and service information. Please consult our API documentation on how to use the service parameter.

# If the volume is created with RO access mode and RO credential parameters,
# and now we want to change it to RW, we should also set proper credential
# parameters that are connected to the RW user on the bucket.
# If it's created with RW credentials, but access mode is set to RO, then no
# change is needed in the credentials parameters.
aws_iam_user_volume$update(
  description = "Updated to RW",
  access_mode = "RW",
  service = list(
    credentials = list(
      access_key_id = "<access_key_id_for_rw>",
      secret_access_key = "<secret_access_key_for_rw>",
    )
  )
)
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Reload volume

To keep your local Volume object up to date with the volume on the platform, you can always call the reload() function:

# Reload volume object
aws_iam_user_volume$reload()
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List volume’s content

This operation lists all volume files in the root directory of the bucket, unless the parent parameter is specified. In that case, it lists the content of that directory on the bucket. The output is a VolumeContentCollection collection object, that contains two fields:

-items for storing a list of VolumeFile objects (files on the volume) and -prefixes for storing a list of VolumePrefix objects or folders on the volume.

You can also specify the limit parameter to control the number of results returned.

Same as Collection objects, here we also have pagination functions to return either the next page of results or all results. However, backward pagination is not available for volume contents.

Users can also navigate through pages of results by using the continuation token parameter or link to fetch the next chunk of results. If you use the link parameter, it will overwrite all other parameters if set, since it already contains the limit and continuation_token info.

# List all files in root bucket directory
content_collection <- aws_iam_user_volume$list_contents(limit = 20)

# Print collection
content_collection

# List all files from a specific directory on the bucket
folder_files_collection <- aws_iam_user_volume$list_contents(
  prefix = "<directory_name>"
)

# Get the next group of results by setting the continuation token
content_collection <- aws_iam_user_volume$list_contents(
  limit = 20,
  continuation_token = "<continuation_token>"
)

# Preview volume files
content_collection$items

# Preview volume prefixes/folders
content_collection$prefixes

# Preview links
aws_iam_user_volume$links

# Get the next group of results by setting the link parameter
aws_iam_user_volume$list_contents(link = "<link_to_next_results>")

# Or use VolumeContentCollection object's next_page() method for this:
content_collection$next_page()

# You can also fetch all results with the all() method
content_collection$all()
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Volume files and prefixes

Volume files and prefixes are also treated as objects and they contain some operations that can be called on them.

Get VolumeFile info

This operation returns a single volume file information. The input parameter can be file’s id which is represented as location on the bucket (location), or a link to that file resource. The link is a href field of the desired file received from the response when returning a list of volume contents with list_contents(). Empty arguments are not allowed along with setting both parameters together.

# Get single volume file info - by setting file_location
vol_file1 <- aws_iam_user_volume$get_file(
  location = "<file_location_on_bucket>"
)

# Get single volume file info - by setting link
vol_file1 <- aws_iam_user_volume$get_file(link = "full/request/link/to/file")
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Reload VolumeFile object

To keep your local VolumeFile object up to date with the volume file on the platform, you can always call the reload() function:

vol_file1$reload()
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Get VolumePrefix info

Unfortunately we don’t have a separate operation to fetch only prefixes on the volume, therefore, we can get its prefixes only by using the list_contents() operation and look for the prefixes field in the returned VolumeContentCollection object.

# List content
volume_content <- aws_iam_user_volume$list_contents()

# Extract prefixes
volume_prefixes <- volume_content$prefixes

# Select one of the volume folders to list its content
volume_folder <- volume_prefixes[[1]]

# Print volume prefix information
volume_folder$print()

You can also list the content of a volume prefix/folder on the volume, by calling list_contents() directly on the VolumePrefix object.

## Select one of the volume folders to list its content
volume_folder <- volume_prefixes[[1]]

# List content
volume_folder_content <- volume_folder$list_contents()
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List volume members

In order to fetch members of one volume or a specific member by its username, you can use list_members() and get_member() operations:

# List volume members
aws_iam_user_volume$list_members() # limit = 2

# Get single member
aws_iam_user_volume$get_member(user = "<member-username>")
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Remove members

Volume admins can remove volume members by providing its username or object of the Member class to the remove_member() function:

# Remove member
aws_iam_user_volume$remove_member("<member-username>")

# Remove member using the Member object
members <- aws_iam_user_volume$list_members()
aws_iam_user_volume$remove_member(members$items[[3]])
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Adding new members

The function for adding new members to the volume can accept a Member object (for example used in a project) or its username.

# Add member via username
aws_iam_user_volume$add_member(user = "<member-username>", permissions = list(
  read = TRUE, copy = TRUE, write = FALSE, admin = FALSE
))

# Add member via Member object
aws_iam_user_volume$add_member(
  user = Member$new(
    username = "<member-username>",
    id = "<member-username>"
  ),
  permissions = list(
    read = TRUE, copy = TRUE, write = FALSE,
    admin = FALSE
  )
)
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Modifying a member’s permissions

Users can modify specific member’s permissions on the volume by providing the privileges they want to change:

# Modify member permissions
aws_iam_user_volume$modify_member_permissions(
  user = "<member-username>",
  permissions = list(write = TRUE)
)
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Deactivate and reactivate the volume

Once deactivated, you cannot import from, export to, or browse within a volume. As such, the content of the files imported from this volume will no longer be accessible on the platform. However, you can update the volume and manage members. Note that you cannot deactivate the volume if you have running imports or exports unless you force the operation using the query parameter force = TRUE.

Note that to delete a volume, first you must deactivate it and delete all files which have been imported from the volume to the platform.

To reactivate the volume, just use the reactivate() function.

# Deactivate volume
aws_iam_user_volume$deactivate()

# Reactivate volume
aws_iam_user_volume$reactivate()
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Delete volume

To be able to delete a volume, you first need to deactivate it and then delete all files on the Platform that were previously imported from the volume.

# Deactivate volume
aws_iam_user_volume$deactivate()

# Delete volume
aws_iam_user_volume$delete()
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Imports

Creating and connecting volumes to the Platform allows you to import your files/folders from a cloud bucket to the Platform. Imports operations are related to volumes, but in the API they are separated under /imports endpoints, so in our library they are also grouped under imports path on the authentication object (Imports resource class).

A single import job is represented as an Import class object containing information about which file/folder has been or is being imported, from which volume, to which project/folder on the platform, import start and finish time, status of the job, logs etc.

List volume imports

To preview and query all import jobs you’ve created use the query() function on Auth$imports path:

# List imports
all_imports <- a$imports$query()

# Limit results to 5
imp_limit5 <- a$imports$query(limit = 5)

# Load next page of 5 results
imp_limit5$next_page(advance_access = TRUE)

# Load all results at once until last page
imp_limit5$all(advance_access = TRUE)

It is possible to use some query parameters as different criteria for filtering results like volume, project, state etc:

# List imports with state being RUNNING or FAILED
imp_states <- auth$imports$query(state = c("RUNNING", "FAILED"))

# List imports to the specific project
imp_project <- auth$imports$query(project = "<project_id>")

Listing imports is also available within Project and Volume objects, where resulting imports are related to the specific project or volume where they’re called from.

## Get the volume from which you want to list all imports
vol1 <- auth$volumes$get(id = "<volumes_owner_or_division>/<volume-name>")
vol1$list_imports()

## Get the project object for which you want to list imports
test_proj <- auth$projects$get("<project_id>")
test_proj$list_imports()
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Get a single import job

Similar to other resource classes, the get() method will return a single import job object when provided with a job id.

# Get single import
imp_obj <- a$imports$get(id = "<import_job_id>")
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Get bulk import jobs

Users are able to fetch details for multiple import jobs by calling one bulk action - the bulk_get() method. The accepted input can be a list of import job IDs or a list of import job objects (of class Import). The result will be a Collection object containing a list of (updated) import jobs.

# Get details of multiple import jobs
import_jobs <- a$imports$bulk_get(
  imports = list("<import_job_id-1>", "<import_job_id-1>")
)
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Submit new import - import a volume file into the project

In order to import volume files into a project, users can use the submit_import() method from the Auth$imports path, or directly on the selected VolumeFile object (file they want to import) where this function is also available.

## First, get the volume you want to import files from
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

## Then, get the project object/id where you want to import files
test_proj <- a$projects$get("<project_id>")

## List all volume files on the volume
vol1_content <- vol1$list_contents()

## Select one of the volume files
volume_file_import <- vol1_content$items[[3]]

## Perform a file import
imp_job1 <- a$imports$submit_import(
  source_location = volume_file_import$location,
  destination_project = test_proj,
  autorename = TRUE
)

# Alternatively you can also call import() directly on the VolumeFile object
imp_job1 <- volume_file_import$import(
  destination_project = test_proj,
  autorename = TRUE
)

Preview import job details with the print() method:

# Print Import object
print(imp_job1)

You can also import folders from the volume into the project, with the option to preserve or not to preserve folder structure:

# Select one of the volume folders to import
volume_folder_import <- vol1_content$prefixes[[1]]

# Perform a folder import
imp_job2 <- a$imports$submit_import(
  source_location = volume_folder_import$prefix,
  destination_project = test_proj,
  overwrite = TRUE,
  preserve_folder_structure = TRUE
)

# Alternatively you can also call import() directly on the VolumePrefix object
imp_job2 <- volume_folder_import$import(
  destination_project = test_proj,
  overwrite = TRUE,
  preserve_folder_structure = TRUE
)

# Print Import object
print(imp_job2)
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Reload import job

In order to refresh the import job object and get the up to date info about its state, you can always call the reload() function:

# Reload import object
imp_job1$reload()
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Submit bulk import - import multiple volume files or folders into a project

Users are able to perform the bulk action on multiple volume files or folders and import them into a project using a single call of the bulk_submit_import() method from the Auth$imports path.

The required input should be a nested list of elements for each file/folder you want to import containing specific fields: source_volume, source_location, destination_project, destination_parent, name, autorename and perserve_folder_structure.

## First, get the volume you want to import files from
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

## Then, get the project object or the ID of the project into which you want
# to import files
test_proj <- a$projects$get("<project_id>")

## List all volume files
vol1_content <- vol1$list_contents()

## Preview the content and select one VolumeFile object and two VolumePrefix
## objects (folders) for the purpose of this example
volume_file_import <- vol1_content$items[[1, 2]]
volume_file_import

volume_folder_import <- vol1_content$prefixes[[1]]
volume_folder_import

## Construct the inputs list by filling the necessary information for each
# file/folder to import
to_import <- list(
  list(
    source_volume = "rfranklin/my-volume",
    source_location = "chimeras.html.gz",
    destination_project = "rfranklin/my-project"
  ),
  list(
    source_volume = vol1,
    source_location = "my-folder/",
    destination_project = test_proj,
    autorename = TRUE,
    preserve_folder_structure = TRUE
  ),
  list(
    source_volume = "rfranklin/my-volume",
    source_location = "my-volume-folder/",
    destination_parent = "parent-id",
    name = "new-folder-name",
    autorename = TRUE,
    preserve_folder_structure = FALSE
  )
)
bulk_import_jobs <- a$imports$bulk_submit_import(items = to_import)

# Preview the results
bulk_import_jobs

# Get updated status by fetching details with bulk_get() and by passing the
# list of import jobs created in the previous step
a$imports$bulk_get(imports = bulk_import_jobs$items)

As you may see from the example above, users are able to import folders from the volume into the project or a project directory, with the option to preserve or not to preserve folder structure.

Moreover, you are able to pass the objects of classes Volume, Project or File (with type = ‘folder’) for source_volume, destination_project and destination_parent fields when constructing the inputs list, besides using their string IDs.

In the example above, the list of items for the bulk import job was manually created. Alternatively, you can use the prepare_items_for_bulk_import() utility function to generate the items list.

This function allows you to prepare the list of bulk import items based on the provided VolumeFile or VolumePrefix objects, filling the following fields for each item: source_volume, source_location, destination_project or destination_parent, autorename, preserve_folder_structure.

Note that the same destination_project/destination_parent and autorename values will be applied uniformly across all items in the resulting list. The preserve_folder_structure parameter, if provided, applies exclusively to VolumePrefix items.

## First, get the volume you want to import files from
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

## Then, get the project object or the ID of the project into which you want
# to import files
test_proj <- a$projects$get("<project_id>")

## List all volume files
vol1_content <- vol1$list_contents()

## Select two VolumeFile objects
volume_file_1_import <- vol1_content$items[[1]]
volume_file_2_import <- vol1_content$items[[2]]

volume_files_to_import <- list(volume_file_1_import, volume_file_2_import)

## Construct the inputs list using the prepare_items_for_bulk_import() utility
# function
to_import <- prepare_items_for_bulk_import(
  volume_items = volume_files_to_import,
  destination_project = test_proj
)

bulk_import_jobs <- a$imports$bulk_submit_import(items = to_import)

# Preview the results
bulk_import_jobs

# Get updated status by fetching details with bulk_get() and by passing the
# list of import jobs created in the previous step
a$imports$bulk_get(imports = bulk_import_jobs$items)

Keep in mind that prepare_items_for_bulk_import() is designed solely to assist in constructing the list of items for submitting a bulk import job. It operates under certain constraints; refer to the function’s documentation for further details. After obtaining the function’s output, you can manually adjust individual items as needed.

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Exports

Exports are the actions of exporting your files from the Platform into a cloud bucket represented as a volume. Export operations are also related to volumes, but in the API they are separated under /exports endpoints, so in our library they are also grouped under the exports path on the authentication object (Exports resource class).

A single export job is represented as an Export class object containing information about a file has been or is being exported, from which project/folder on the Platform, to which volume, export start and finish time, status of the job, logs etc.

List file exports to the volumes

Users can preview and query all export jobs they’ve created for the purpose of exporting their files from the Platform into a cloud bucket using volumes. The output is a Collection object storing a list of exports in its items field and providing pagination options.

# List exports
all_exports <- a$exports$query()

# Limit results to 5
exp_limit5 <- a$exports$query(limit = 5)

# Load next page of 5 results
exp_limit5$next_page(advance_access = TRUE)

# List all results until last page
exp_limit5$all()

It is possible to use some query parameters as different criteria for filtering results like volume, state etc:

# List exports with status RUNNING or FAILED
exp_states <- a$exports$query(state = c("RUNNING", "FAILED"))

# List exports into a specific volume
exp_volume <- a$exports$query(
  volume = "<volume_owner_or_division>/<volume_name>" # volume object or id
)

Listing exports is also available within Volume objects, where results contain all files exported to the specific volume they’re being called from.

# Get the volume for which you want to list all exports
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

# List exports
vol1$list_exports()
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Get a single export job

Similar to other resource classes, the get() method will return a single export job object when provided with job id.

# Get a single export
exp_obj <- auth$exports$get(id = "<export_job_id>")
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Get bulk export jobs

Users are able to fetch details for multiple export jobs by calling one bulk action - the bulk_get() method. The accepted input can be a list of export job IDs or a list of export job objects (of class Export). The result will be a Collection object containing a list of (updated) export jobs.

# Get details of multiple export jobs
export_jobs <- a$exports$bulk_get(
  exports = list("<export_job_id-1>", "<export_job_id-1>")
)
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Submit a new export - export a file from the platform to a volume

In order to export platform files into volumes, users can use the
submit_export() method from the auth$exports path, or directly on the selected File object (file they want to export) where this function is also available.

# First, get the volume you want to export files to
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

# Get the File object/id you want to export from the platform
test_file <- a$files$get("<file_id>")

# Perform a file export
exp_job1 <- a$exports$submit_export(
  source_file = test_file,
  destination_volume = vol1,
  destination_location = "new_volume_file.txt" # new name
)

Preview export job details with the print() method:

# Print export job info
print(exp_job1)

Bear in mind that folders export from the platform to volumes is not possible with this function. For such cases (or export of multiple files) it is better to use bulk actions that will be added to the package soon.

Users can also export files into specific volume directories, by providing the prefix within the location parameter as a folder name, which will then be virtually created on the volume:

# Export file into the folder 'test_folder'
exp_job2 <- a$exports$submit_export(
  source_file = test_file,
  destination_volume = vol1,
  destination_location = "test_folder/new_volume_file.txt" # new name
)

# Print export job info
print(exp_job2)

Important :

  • The file selected for export must not be a public file or an alias. Aliases are objects stored in your cloud storage bucket which have been made available on a Seven Bridges environment. The volume you are exporting to must be configured for read-write access. To do this, set the access_mode parameter to RW when creating or modifying a volume.
  • If this call is successful, the original project file will become an alias to the newly exported object on the volume. The source file will be deleted from the Seven Bridges environment and, if no more copies of this file exist, it will no longer count towards your total storage price on the Seven Bridges environment.
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Reload export job

In order to refresh the export job object and get the up to date info about its state, you can always call the reload() function:

# Reload export object
exp_job1$reload()
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Submit bulk export - export multiple files into a volume

Users are able to perform the bulk action on multiple project files and export them into a volume using a single call of the bulk_submit_export() method from the Auth$exports path.

The required input should be a nested list of elements for each file you want to export containing specific fields: source_file, destination_volume, destination_location, overwrite and properties that accepts a list with fields: sse_algorithm, sse_aws_kms_key_id and/or aws_canned_acl.

## First, get the project and files you want to export
test_proj <- a$projects$get("<project_id>")
proj_files <- test_proj$list_files()

## Choose the first 3 files to export
files_to_export <- proj_files$items[1:3]

## Then, get the volume you want to export files into
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

## Construct the inputs list by filling the necessary information for each
# file to export
to_export <- list(
  list(
    source_file = files_to_export[[1]],
    destination_volume = vol1,
    destination_location = files_to_export[[1]]$name
  ),
  list(
    source_file = "second-file-id",
    destination_volume = vol1,
    destination_location = "my-folder/exported_second_file.txt",
    overwrite = TRUE
  ),
  list(
    source_file = files_to_export[[3]],
    destination_volume = vol1,
    destination_location = files_to_export[[3]]$name,
    overwrite = FALSE,
    properties = list(
      sse_algorithm = "AES256"
    )
  ),
  copy_only = FALSE
)
bulk_export_jobs <- a$exports$bulk_submit_export(items = to_export)

# Preview the results
bulk_export_jobs

# Get updated status by fetching details with bulk_get() and by passing the
# list of export jobs created in the previous step
a$exports$bulk_get(exports = bulk_export_jobs$items)

As you may see from the example above, users are able to export files into a folder on a volume.

Moreover, you are able to pass the objects of classes Volume or File (with type = ‘file’ only, since folders can’t be exported) when constructing the inputs list, in addition to using their string IDs for source_file and destination_volume fields. However, destination_location on the volume must be set as character field.

Lastly, copy_only field will apply to all files being exported, which means that each file would be copied to the volume, while source location would remain on the Platform if copy_only is set to TRUE.

In the example above, the list of items for the bulk export job was manually created. Alternatively, you can use the prepare_items_for_bulk_export() utility function to generate the items list.

This function allows you to prepare the list of bulk export items based on the provided File objects, filling the following fields for each item: source_file, destination_volume, destination_location, overwrite, properties.

Check the function’s documentation and API documentation for more details.

## First, get the project and files you want to export
test_proj <- a$projects$get("<project_id>")
proj_files <- test_proj$list_files()

## Then, get the volume you want to export files into
vol1 <- a$volumes$get(id = "<volume_owner_or_division>/<volume_name>")

## Select two File objects
file_1_export <- proj_files[[1]]
file_2_export <- proj_files[[2]]

files_to_export <- list(file_1_export, file_2_export)

## Construct the inputs list using the prepare_items_for_bulk_export() utility
# function
to_export <- prepare_items_for_bulk_export(
  files = files_to_export,
  destination_volume = vol1,
  destination_location_prefix = "my-folder/"
)

bulk_export_jobs <- a$exports$bulk_submit_export(items = to_export)

# Preview the results
bulk_export_jobs

# Get updated status by fetching details with bulk_get() and by passing the
# list of export jobs created in the previous step
a$exports$bulk_get(exports = bulk_export_jobs$items)

Keep in mind that prepare_items_for_bulk_export() is designed solely to assist in constructing the list of items for submitting a bulk export job. It operates under certain constraints; refer to the function’s documentation for further details. After obtaining the function’s output, you can manually adjust individual items as needed.

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