gsutil supports URI wildcards for files, buckets, and objects. For example, the command:
gsutil cp gs://bucket/data/abc* .
copies all objects that start with gs://bucket/data/abc followed by any number of characters within that subdirectory.
gsutil uses the following wildcards:
- Match any number of characters within the current directory level. For example,
gs://my-bucket/abc/d*matches the object
abc/def.txtbut not the object
Match any number of characters across directory boundaries. When used as part of a local file path, the
**wildcard should always be immediately preceded by a directory delimiter. For example,
my-directory/**.txtis valid, but
- Match a single character. For example
gs://bucket/??.txtonly matches objects with two characters followed by .txt.
- Match any of the specified characters. For example
gs://bucket/[aeiou].txtmatches objects that contain a single vowel character followed by
- [char range]
- Match any of the range of characters. For example
gs://bucket/[a-m].txtmatches objects that contain letters a, b, c, ... or m, and end with
You can combine wildcards to provide more powerful matches, for example:
Note that unless your command includes a flag to return noncurrent object versions in the results, these wildcards only match live object versions.
gsutil supports the same wildcards for both object and file names. Thus, for example:
gsutil cp data/abc* gs://bucket
matches all files that start with
abc in the
data directory of
the local file system.
Potentially Surprising Behavior When Using Wildcards
There are a couple of ways that using wildcards can result in surprising behavior:
When using wildcards in bucket names, matches are limited to buckets in the project specified in the
-pflag. Some commands, such as
gsutil rm, do not support the
-pflag. If the
-pflag is not or cannot be used in a command, matches are limited to buckets in the default project.
Shells (like bash and zsh) can attempt to expand wildcards before passing the arguments to gsutil. If the wildcard was supposed to refer to a cloud object, this can result in surprising "Not found" errors (e.g., if the shell tries to expand the wildcard
gs://my-bucket/*on the local machine, matching no local files, and failing the command).
Note that some shells include additional characters in their wildcard character sets. For example, if you use zsh with the extendedglob option enabled it treats
#as a special character, which conflicts with that character's use in referencing versioned objects (see Restore noncurrent object versions for an example).
To avoid these problems, surround the wildcarded expression with single quotes (on Linux) or double quotes (on Windows).
Attempting to specify a filename that contains wildcard characters won't work, because gsutil tries to expand the wildcard characters rather than using them as literal characters. For example, running the command:
gsutil cp './file' gs://my-bucket
causes gsutil to try to match the
part as a wildcard.
There's an open issue to support a "raw" mode for gsutil to provide a way to work with file names that contain wildcard characters, but until / unless that support is implemented there's no really good way to use gsutil with such file names. You could use a wildcard to name such files, for example replacing the above command with:
gsutil cp './file*1*' gs://my-bucket
but that approach may be difficult to use in general.
Different Behavior For "Dot" Files In Local File System
Per standard Unix behavior, the wildcard
* only matches files that
don't start with a
. character (to avoid confusion with the
.. directories present in all Unix directories). gsutil provides this
same behavior when using wildcards over a file system URI, but does not
provide this behavior over cloud URIs. For example, the following command
copies all objects from gs://bucket1 to gs://bucket2:
gsutil cp gs://bucket1/* gs://bucket2
but the following command copies only files that don't start with a
from the directory
dir to gs://bucket1:
gsutil cp dir/* gs://bucket1
Efficiency Consideration: Using Wildcards Over Many Objects
It is more efficient, faster, and less network traffic-intensive to use wildcards that have a non-wildcard object-name prefix, like:
than it is to use wildcards as the first part of the object name, like:
This is because the request for
gs://bucket/abc*.txt asks the server to
send back the subset of results whose object name start with
abc at the
bucket root, and then gsutil filters the result list for objects whose name
.txt. In contrast,
gs://bucket/*abc.txt asks the server for
the complete list of objects in the bucket root, and then filters for those
objects whose name ends with
abc.txt. This efficiency consideration
becomes increasingly noticeable when you use buckets containing thousands or
more objects. It is sometimes possible to set up the names of your objects to
fit with expected wildcard matching patterns, to take advantage of the
efficiency of doing server-side prefix requests. See, for example
gsutil help prod for a concrete use case example.
Efficiency Consideration: Using Mid-Path Wildcards
Suppose you have a bucket with these objects:
gs://bucket/obj1 gs://bucket/obj2 gs://bucket/obj3 gs://bucket/obj4 gs://bucket/dir1/obj5 gs://bucket/dir2/obj6
If you run the command:
gsutil ls gs://bucket/*/obj5
gsutil performs a /-delimited top-level bucket listing and then one bucket listing for each subdirectory, for a total of 3 bucket listings:
GET /bucket/?delimiter=/ GET /bucket/?prefix=dir1/obj5&delimiter=/ GET /bucket/?prefix=dir2/obj5&delimiter=/
The more bucket listings your wildcard requires, the slower and more expensive it becomes. The number of bucket listings required grows as:
- the number of wildcard components (e.g., "gs://bucket/a??b/c*/*/d" has 3 wildcard components);
- the number of subdirectories that match each component; and
- the number of results (pagination is implemented using one GET request per 1000 results, specifying markers for each).
If you want to use a mid-path wildcard, you might try instead using a recursive wildcard, for example:
gsutil ls gs://bucket/**/obj5
This matches more objects than
gs://bucket/*/obj5 (since it spans
directories), but is implemented using a delimiter-less bucket listing
request (which means fewer bucket requests, though it lists the entire
bucket and filters locally, so that could require a non-trivial amount
of network traffic).