Deleted files status unreliably reported in the new Google Drive Android API (GDAA)
This issue has been bugging me since the inception of the new Google Drive Android Api (GDAA). First discussed here, I hoped it would go away in later releases, but it is still there (as of 2014/03/19). The user-trashed (referring to the 'Remove' action in 'drive.google.com') files/folders keep appearing in both the
Drive.DriveApi.query(_gac, query), and
DriveFolder.queryChildren(_gac, query)
as well as
DriveFolder.listChildren(_gac)
methods, even if used with
Filters.eq(SearchableField.TRASHED, false)
query qualifier, or if I use a filtering construct on the results
for (Metadata md : result.getMetadataBuffer()) {
if ((md == null) || (!md.isDataValid()) || md.isTrashed()) continue;
dMDs.add(new DrvMD(md));
}
Using
Drive.DriveApi.requestSync(_gac);
has no impact. And the time elapsed since the removal varies wildly, my last case was over 12 HOURS. And it is completely random.
What's worse, I can't even rely on EMPTY TRASH in 'drive.google.com', it does not yield any predictable results. Sometime the file status changes to 'isTrashed()' sometimes it disappears from the result list.
As I kept fiddling with this issue, I ended up with the following superawfulhack:
find file with TRASH status equal FALSE
if (file found and is not trashed) {
try to write content
if ( write content fails)
create a new file
}
Not even this helps. The file shows up as healthy even if the file is in the trash (and it's status was double-filtered by query and by metadata test). It can even be happily written into and when inspected in the trash, it is modified.
The conclusion here is that a fix should get higher priority, since it renders multi-platform use of Drive unreliable. It will be discovered by developers right away in the development / debugging process, steering them away.
While waiting for any acknowledgement from the support team, I devised a HACK that allows a workaround for this problem. Using the same principle as in SO 22295903, the logic involves falling back to RESTful API. Basically, dropping the LIST / QUERY functionality of GDAA.
The high level logic is:
- query the RESTful API to retrieve the ID/IDs of file(s) in question
- use retrieved ID to get GDAA's DriveId via 'fetchDriveId()'
here are the code snippets to document the process:
1/ initialize both GDAA's 'GoogleApiClient' and RESTful's 'services.drive.Drive'
GoogleApiClient _gac;
com.google.api.services.drive.Drive _drvSvc;
void init(Context ctx, String email){
// build GDAA GoogleApiClient
_gac = new GoogleApiClient.Builder(ctx).addApi(com.google.android.gms.drive.Drive.API)
.addScope(com.google.android.gms.drive.Drive.SCOPE_FILE).setAccountName(email)
.addConnectionCallbacks(ctx).addOnConnectionFailedListener(ctx).build();
// build RESTFul (DriveSDKv2) service to fall back to
GoogleAccountCredential crd = GoogleAccountCredential
.usingOAuth2(ctx, Arrays.asList(com.google.api.services.drive.DriveScopes.DRIVE_FILE));
crd.setSelectedAccountName(email);
_drvSvc = new com.google.api.services.drive.Drive.Builder(
AndroidHttp.newCompatibleTransport(), new GsonFactory(), crd).build();
}
2/ method that queries the Drive RESTful API, returning GDAA's DriveId to be used by the app.
String qry = "title = 'MYFILE' and mimeType = 'text/plain' and trashed = false";
DriveId findObject(String qry) throws Exception {
DriveId dId = null;
try {
final FileList gLst = _drvSvc.files().list().setQ(query).setFields("items(id)").execute();
if (gLst.getItems().size() == 1) {
String sId = gLst.getItems().get(0).getId();
dId = Drive.DriveApi.fetchDriveId(_gac, sId).await().getDriveId();
} else if (gLst.getItems().size() > 1)
throw new Exception("more then one folder/file found");
} catch (Exception e) {}
return dId;
}
The findObject() method above (again I'm using the 'await()' flavor for simplicity) returns the the Drive objects correctly, reflecting the trashed status with no noticeable delay (implement in non-UI thread).
Again, I would strongly advice AGAINST leaving this in code longer than necassary since it is a HACK with unpredictable effect on the rest of the system.