commit | 8091b5046b25e35c4d0f3e804927cb64af83a544 | [log] [tgz] |
---|---|---|
author | Eno Compton <enocom@google.com> | Mon Oct 01 12:31:57 2018 -0600 |
committer | Eno Compton <enocom@google.com> | Tue Oct 02 20:58:11 2018 +0000 |
tree | 1f47f159d25388d6f4cee6b79cb07f12cc57efe9 | |
parent | 705ee3b8d798a6fbb34367ec321edd13a403abec [diff] |
bttest: support arbitrary bytes in regex filters According to the spec [1], there are four filters that support regular expressions: 1. row_key_regex_filter, 2. value_regex_filter, 3. column_qualifier_regex_filter, and 4. family_name_regex_filter. Of those four, the first three are of type bytes. The last is of type string. This commit adds support for arbitrary bytes to all four filters by converting each byte to a rune and then converting to a string to ensure the result is valid UTF-8. In the case of family_name_regex_filter, this conversion is unnecessary as the family name disallows arbitrary bytes [2]. Nonetheless, treating all filters the same way results in a single code path for all filters. This commit also ensures the behavior of the emulator matches that of the real Bigtable service for filters that include arbitrary bytes. [1]: https://github.com/googleapis/googleapis/blob/master/google/bigtable/v2/data.proto [2]: https://github.com/googleapis/googleapis/blob/master/google/bigtable/v2/data.proto#L43-L49 Fixes #1037 Change-Id: I45f29cb877c35e45ec88ea1efbf0c882e73d26fc Reviewed-on: https://code-review.googlesource.com/c/33790 Reviewed-by: Jonathan Amsterdam <jba@google.com>
Go packages for Google Cloud Platform services.
import "cloud.google.com/go"
To install the packages on your system, do not clone the repo. Instead use
$ go get -u cloud.google.com/go/...
NOTE: Some of these packages are under development, and may occasionally make backwards-incompatible changes.
NOTE: Github repo is a mirror of https://code.googlesource.com/gocloud.
7 August 2018
As of November 1, the code in the repo will no longer support Go versions 1.8 and earlier. No one other than AppEngine users should be on those old versions, and AppEngine Standard and Flex will stop supporting new deployments with those versions on that date.
Changes have been moved to CHANGES.
Alpha status: the API is still being actively developed. As a result, it might change in backward-incompatible ways and is not recommended for production use.
Beta status: the API is largely complete, but still has outstanding features and bugs to be addressed. There may be minor backwards-incompatible changes where necessary.
Stable status: the API is mature and ready for production use. We will continue addressing bugs and feature requests.
Documentation and examples are available at https://godoc.org/cloud.google.com/go
Visit or join the google-api-go-announce group for updates on these packages.
We support the two most recent major versions of Go. If Google App Engine uses an older version, we support that as well. You can see which versions are currently supported by looking at the lines following go:
in .travis.yml
.
By default, each API will use Google Application Default Credentials for authorization credentials used in calling the API endpoints. This will allow your application to run in many environments without requiring explicit configuration.
client, err := storage.NewClient(ctx)
To authorize using a JSON key file, pass option.WithCredentialsFile
to the NewClient
function of the desired package. For example:
client, err := storage.NewClient(ctx, option.WithCredentialsFile("path/to/keyfile.json"))
You can exert more control over authorization by using the golang.org/x/oauth2
package to create an oauth2.TokenSource
. Then pass option.WithTokenSource
to the NewClient
function: snip:# (auth-ts)
tokenSource := ...
client, err := storage.NewClient(ctx, option.WithTokenSource(tokenSource))
First create a datastore.Client
to use throughout your application:
client, err := datastore.NewClient(ctx, "my-project-id")
if err != nil {
log.Fatal(err)
}
Then use that client to interact with the API:
type Post struct {
Title string
Body string `datastore:",noindex"`
PublishedAt time.Time
}
keys := []*datastore.Key{
datastore.NameKey("Post", "post1", nil),
datastore.NameKey("Post", "post2", nil),
}
posts := []*Post{
{Title: "Post 1", Body: "...", PublishedAt: time.Now()},
{Title: "Post 2", Body: "...", PublishedAt: time.Now()},
}
if _, err := client.PutMulti(ctx, keys, posts); err != nil {
log.Fatal(err)
}
First create a storage.Client
to use throughout your application:
client, err := storage.NewClient(ctx)
if err != nil {
log.Fatal(err)
}
// Read the object1 from bucket. rc, err := client.Bucket("bucket").Object("object1").NewReader(ctx) if err != nil { log.Fatal(err) } defer rc.Close() body, err := ioutil.ReadAll(rc) if err != nil { log.Fatal(err) }
First create a pubsub.Client
to use throughout your application:
client, err := pubsub.NewClient(ctx, "project-id")
if err != nil {
log.Fatal(err)
}
Then use the client to publish and subscribe:
// Publish "hello world" on topic1. topic := client.Topic("topic1") res := topic.Publish(ctx, &pubsub.Message{ Data: []byte("hello world"), }) // The publish happens asynchronously. // Later, you can get the result from res: ... msgID, err := res.Get(ctx) if err != nil { log.Fatal(err) } // Use a callback to receive messages via subscription1. sub := client.Subscription("subscription1") err = sub.Receive(ctx, func(ctx context.Context, m *pubsub.Message) { fmt.Println(m.Data) m.Ack() // Acknowledge that we've consumed the message. }) if err != nil { log.Println(err) }
First create a bigquery.Client
to use throughout your application: snip:# (bq-1)
c, err := bigquery.NewClient(ctx, "my-project-ID") if err != nil { // TODO: Handle error. }
Then use that client to interact with the API: snip:# (bq-2)
// Construct a query. q := c.Query(` SELECT year, SUM(number) FROM [bigquery-public-data:usa_names.usa_1910_2013] WHERE name = "William" GROUP BY year ORDER BY year `) // Execute the query. it, err := q.Read(ctx) if err != nil { // TODO: Handle error. } // Iterate through the results. for { var values []bigquery.Value err := it.Next(&values) if err == iterator.Done { break } if err != nil { // TODO: Handle error. } fmt.Println(values) }
First create a logging.Client
to use throughout your application: snip:# (logging-1)
ctx := context.Background() client, err := logging.NewClient(ctx, "my-project") if err != nil { // TODO: Handle error. }
Usually, you'll want to add log entries to a buffer to be periodically flushed (automatically and asynchronously) to the Stackdriver Logging service. snip:# (logging-2)
logger := client.Logger("my-log")
logger.Log(logging.Entry{Payload: "something happened!"})
Close your client before your program exits, to flush any buffered log entries. snip:# (logging-3)
err = client.Close() if err != nil { // TODO: Handle error. }
First create a spanner.Client
to use throughout your application:
client, err := spanner.NewClient(ctx, "projects/P/instances/I/databases/D")
if err != nil {
log.Fatal(err)
}
// Simple Reads And Writes _, err = client.Apply(ctx, []*spanner.Mutation{ spanner.Insert("Users", []string{"name", "email"}, []interface{}{"alice", "a@example.com"})}) if err != nil { log.Fatal(err) } row, err := client.Single().ReadRow(ctx, "Users", spanner.Key{"alice"}, []string{"email"}) if err != nil { log.Fatal(err) }
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