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nginx-sso/vendor/cloud.google.com/go/bigquery/table.go

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// Copyright 2015 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package bigquery
import (
"context"
"errors"
"fmt"
"time"
"cloud.google.com/go/internal/optional"
"cloud.google.com/go/internal/trace"
bq "google.golang.org/api/bigquery/v2"
)
// A Table is a reference to a BigQuery table.
type Table struct {
// ProjectID, DatasetID and TableID may be omitted if the Table is the destination for a query.
// In this case the result will be stored in an ephemeral table.
ProjectID string
DatasetID string
// TableID must contain only letters (a-z, A-Z), numbers (0-9), or underscores (_).
// The maximum length is 1,024 characters.
TableID string
c *Client
}
// TableMetadata contains information about a BigQuery table.
type TableMetadata struct {
// The following fields can be set when creating a table.
// The user-friendly name for the table.
Name string
// The user-friendly description of the table.
Description string
// The table schema. If provided on create, ViewQuery must be empty.
Schema Schema
// The query to use for a view. If provided on create, Schema must be nil.
ViewQuery string
// Use Legacy SQL for the view query.
// At most one of UseLegacySQL and UseStandardSQL can be true.
UseLegacySQL bool
// Use Legacy SQL for the view query. The default.
// At most one of UseLegacySQL and UseStandardSQL can be true.
// Deprecated: use UseLegacySQL.
UseStandardSQL bool
// If non-nil, the table is partitioned by time.
TimePartitioning *TimePartitioning
// Clustering specifies the data clustering configuration for the table.
Clustering *Clustering
// The time when this table expires. If set, this table will expire at the
// specified time. Expired tables will be deleted and their storage
// reclaimed. The zero value is ignored.
ExpirationTime time.Time
// User-provided labels.
Labels map[string]string
// Information about a table stored outside of BigQuery.
ExternalDataConfig *ExternalDataConfig
// Custom encryption configuration (e.g., Cloud KMS keys).
EncryptionConfig *EncryptionConfig
// All the fields below are read-only.
FullID string // An opaque ID uniquely identifying the table.
Type TableType
CreationTime time.Time
LastModifiedTime time.Time
// The size of the table in bytes.
// This does not include data that is being buffered during a streaming insert.
NumBytes int64
// The number of bytes in the table considered "long-term storage" for reduced
// billing purposes. See https://cloud.google.com/bigquery/pricing#long-term-storage
// for more information.
NumLongTermBytes int64
// The number of rows of data in this table.
// This does not include data that is being buffered during a streaming insert.
NumRows uint64
// Contains information regarding this table's streaming buffer, if one is
// present. This field will be nil if the table is not being streamed to or if
// there is no data in the streaming buffer.
StreamingBuffer *StreamingBuffer
// ETag is the ETag obtained when reading metadata. Pass it to Table.Update to
// ensure that the metadata hasn't changed since it was read.
ETag string
}
// TableCreateDisposition specifies the circumstances under which destination table will be created.
// Default is CreateIfNeeded.
type TableCreateDisposition string
const (
// CreateIfNeeded will create the table if it does not already exist.
// Tables are created atomically on successful completion of a job.
CreateIfNeeded TableCreateDisposition = "CREATE_IF_NEEDED"
// CreateNever ensures the table must already exist and will not be
// automatically created.
CreateNever TableCreateDisposition = "CREATE_NEVER"
)
// TableWriteDisposition specifies how existing data in a destination table is treated.
// Default is WriteAppend.
type TableWriteDisposition string
const (
// WriteAppend will append to any existing data in the destination table.
// Data is appended atomically on successful completion of a job.
WriteAppend TableWriteDisposition = "WRITE_APPEND"
// WriteTruncate overrides the existing data in the destination table.
// Data is overwritten atomically on successful completion of a job.
WriteTruncate TableWriteDisposition = "WRITE_TRUNCATE"
// WriteEmpty fails writes if the destination table already contains data.
WriteEmpty TableWriteDisposition = "WRITE_EMPTY"
)
// TableType is the type of table.
type TableType string
const (
// RegularTable is a regular table.
RegularTable TableType = "TABLE"
// ViewTable is a table type describing that the table is view. See more
// information at https://cloud.google.com/bigquery/docs/views.
ViewTable TableType = "VIEW"
// ExternalTable is a table type describing that the table is an external
// table (also known as a federated data source). See more information at
// https://cloud.google.com/bigquery/external-data-sources.
ExternalTable TableType = "EXTERNAL"
)
// TimePartitioning describes the time-based date partitioning on a table.
// For more information see: https://cloud.google.com/bigquery/docs/creating-partitioned-tables.
type TimePartitioning struct {
// The amount of time to keep the storage for a partition.
// If the duration is empty (0), the data in the partitions do not expire.
Expiration time.Duration
// If empty, the table is partitioned by pseudo column '_PARTITIONTIME'; if set, the
// table is partitioned by this field. The field must be a top-level TIMESTAMP or
// DATE field. Its mode must be NULLABLE or REQUIRED.
Field string
// If true, queries that reference this table must include a filter (e.g. a WHERE predicate)
// that can be used for partition elimination.
RequirePartitionFilter bool
}
func (p *TimePartitioning) toBQ() *bq.TimePartitioning {
if p == nil {
return nil
}
return &bq.TimePartitioning{
Type: "DAY",
ExpirationMs: int64(p.Expiration / time.Millisecond),
Field: p.Field,
RequirePartitionFilter: p.RequirePartitionFilter,
}
}
func bqToTimePartitioning(q *bq.TimePartitioning) *TimePartitioning {
if q == nil {
return nil
}
return &TimePartitioning{
Expiration: time.Duration(q.ExpirationMs) * time.Millisecond,
Field: q.Field,
RequirePartitionFilter: q.RequirePartitionFilter,
}
}
// Clustering governs the organization of data within a partitioned table.
// For more information, see https://cloud.google.com/bigquery/docs/clustered-tables
type Clustering struct {
Fields []string
}
func (c *Clustering) toBQ() *bq.Clustering {
if c == nil {
return nil
}
return &bq.Clustering{
Fields: c.Fields,
}
}
func bqToClustering(q *bq.Clustering) *Clustering {
if q == nil {
return nil
}
return &Clustering{
Fields: q.Fields,
}
}
// EncryptionConfig configures customer-managed encryption on tables.
type EncryptionConfig struct {
// Describes the Cloud KMS encryption key that will be used to protect
// destination BigQuery table. The BigQuery Service Account associated with your
// project requires access to this encryption key.
KMSKeyName string
}
func (e *EncryptionConfig) toBQ() *bq.EncryptionConfiguration {
if e == nil {
return nil
}
return &bq.EncryptionConfiguration{
KmsKeyName: e.KMSKeyName,
}
}
func bqToEncryptionConfig(q *bq.EncryptionConfiguration) *EncryptionConfig {
if q == nil {
return nil
}
return &EncryptionConfig{
KMSKeyName: q.KmsKeyName,
}
}
// StreamingBuffer holds information about the streaming buffer.
type StreamingBuffer struct {
// A lower-bound estimate of the number of bytes currently in the streaming
// buffer.
EstimatedBytes uint64
// A lower-bound estimate of the number of rows currently in the streaming
// buffer.
EstimatedRows uint64
// The time of the oldest entry in the streaming buffer.
OldestEntryTime time.Time
}
func (t *Table) toBQ() *bq.TableReference {
return &bq.TableReference{
ProjectId: t.ProjectID,
DatasetId: t.DatasetID,
TableId: t.TableID,
}
}
// FullyQualifiedName returns the ID of the table in projectID:datasetID.tableID format.
func (t *Table) FullyQualifiedName() string {
return fmt.Sprintf("%s:%s.%s", t.ProjectID, t.DatasetID, t.TableID)
}
// implicitTable reports whether Table is an empty placeholder, which signifies that a new table should be created with an auto-generated Table ID.
func (t *Table) implicitTable() bool {
return t.ProjectID == "" && t.DatasetID == "" && t.TableID == ""
}
// Create creates a table in the BigQuery service.
// Pass in a TableMetadata value to configure the table.
// If tm.View.Query is non-empty, the created table will be of type VIEW.
// If no ExpirationTime is specified, the table will never expire.
// After table creation, a view can be modified only if its table was initially created
// with a view.
func (t *Table) Create(ctx context.Context, tm *TableMetadata) (err error) {
ctx = trace.StartSpan(ctx, "cloud.google.com/go/bigquery.Table.Create")
defer func() { trace.EndSpan(ctx, err) }()
table, err := tm.toBQ()
if err != nil {
return err
}
table.TableReference = &bq.TableReference{
ProjectId: t.ProjectID,
DatasetId: t.DatasetID,
TableId: t.TableID,
}
req := t.c.bqs.Tables.Insert(t.ProjectID, t.DatasetID, table).Context(ctx)
setClientHeader(req.Header())
_, err = req.Do()
return err
}
func (tm *TableMetadata) toBQ() (*bq.Table, error) {
t := &bq.Table{}
if tm == nil {
return t, nil
}
if tm.Schema != nil && tm.ViewQuery != "" {
return nil, errors.New("bigquery: provide Schema or ViewQuery, not both")
}
t.FriendlyName = tm.Name
t.Description = tm.Description
t.Labels = tm.Labels
if tm.Schema != nil {
t.Schema = tm.Schema.toBQ()
}
if tm.ViewQuery != "" {
if tm.UseStandardSQL && tm.UseLegacySQL {
return nil, errors.New("bigquery: cannot provide both UseStandardSQL and UseLegacySQL")
}
t.View = &bq.ViewDefinition{Query: tm.ViewQuery}
if tm.UseLegacySQL {
t.View.UseLegacySql = true
} else {
t.View.UseLegacySql = false
t.View.ForceSendFields = append(t.View.ForceSendFields, "UseLegacySql")
}
} else if tm.UseLegacySQL || tm.UseStandardSQL {
return nil, errors.New("bigquery: UseLegacy/StandardSQL requires ViewQuery")
}
t.TimePartitioning = tm.TimePartitioning.toBQ()
t.Clustering = tm.Clustering.toBQ()
if !validExpiration(tm.ExpirationTime) {
return nil, fmt.Errorf("invalid expiration time: %v.\n"+
"Valid expiration times are after 1678 and before 2262", tm.ExpirationTime)
}
if !tm.ExpirationTime.IsZero() && tm.ExpirationTime != NeverExpire {
t.ExpirationTime = tm.ExpirationTime.UnixNano() / 1e6
}
if tm.ExternalDataConfig != nil {
edc := tm.ExternalDataConfig.toBQ()
t.ExternalDataConfiguration = &edc
}
t.EncryptionConfiguration = tm.EncryptionConfig.toBQ()
if tm.FullID != "" {
return nil, errors.New("cannot set FullID on create")
}
if tm.Type != "" {
return nil, errors.New("cannot set Type on create")
}
if !tm.CreationTime.IsZero() {
return nil, errors.New("cannot set CreationTime on create")
}
if !tm.LastModifiedTime.IsZero() {
return nil, errors.New("cannot set LastModifiedTime on create")
}
if tm.NumBytes != 0 {
return nil, errors.New("cannot set NumBytes on create")
}
if tm.NumLongTermBytes != 0 {
return nil, errors.New("cannot set NumLongTermBytes on create")
}
if tm.NumRows != 0 {
return nil, errors.New("cannot set NumRows on create")
}
if tm.StreamingBuffer != nil {
return nil, errors.New("cannot set StreamingBuffer on create")
}
if tm.ETag != "" {
return nil, errors.New("cannot set ETag on create")
}
return t, nil
}
// Metadata fetches the metadata for the table.
func (t *Table) Metadata(ctx context.Context) (md *TableMetadata, err error) {
ctx = trace.StartSpan(ctx, "cloud.google.com/go/bigquery.Table.Metadata")
defer func() { trace.EndSpan(ctx, err) }()
req := t.c.bqs.Tables.Get(t.ProjectID, t.DatasetID, t.TableID).Context(ctx)
setClientHeader(req.Header())
var table *bq.Table
err = runWithRetry(ctx, func() (err error) {
table, err = req.Do()
return err
})
if err != nil {
return nil, err
}
return bqToTableMetadata(table)
}
func bqToTableMetadata(t *bq.Table) (*TableMetadata, error) {
md := &TableMetadata{
Description: t.Description,
Name: t.FriendlyName,
Type: TableType(t.Type),
FullID: t.Id,
Labels: t.Labels,
NumBytes: t.NumBytes,
NumLongTermBytes: t.NumLongTermBytes,
NumRows: t.NumRows,
ExpirationTime: unixMillisToTime(t.ExpirationTime),
CreationTime: unixMillisToTime(t.CreationTime),
LastModifiedTime: unixMillisToTime(int64(t.LastModifiedTime)),
ETag: t.Etag,
EncryptionConfig: bqToEncryptionConfig(t.EncryptionConfiguration),
}
if t.Schema != nil {
md.Schema = bqToSchema(t.Schema)
}
if t.View != nil {
md.ViewQuery = t.View.Query
md.UseLegacySQL = t.View.UseLegacySql
}
md.TimePartitioning = bqToTimePartitioning(t.TimePartitioning)
md.Clustering = bqToClustering(t.Clustering)
if t.StreamingBuffer != nil {
md.StreamingBuffer = &StreamingBuffer{
EstimatedBytes: t.StreamingBuffer.EstimatedBytes,
EstimatedRows: t.StreamingBuffer.EstimatedRows,
OldestEntryTime: unixMillisToTime(int64(t.StreamingBuffer.OldestEntryTime)),
}
}
if t.ExternalDataConfiguration != nil {
edc, err := bqToExternalDataConfig(t.ExternalDataConfiguration)
if err != nil {
return nil, err
}
md.ExternalDataConfig = edc
}
return md, nil
}
// Delete deletes the table.
func (t *Table) Delete(ctx context.Context) (err error) {
ctx = trace.StartSpan(ctx, "cloud.google.com/go/bigquery.Table.Delete")
defer func() { trace.EndSpan(ctx, err) }()
req := t.c.bqs.Tables.Delete(t.ProjectID, t.DatasetID, t.TableID).Context(ctx)
setClientHeader(req.Header())
return req.Do()
}
// Read fetches the contents of the table.
func (t *Table) Read(ctx context.Context) *RowIterator {
return t.read(ctx, fetchPage)
}
func (t *Table) read(ctx context.Context, pf pageFetcher) *RowIterator {
return newRowIterator(ctx, t, pf)
}
// NeverExpire is a sentinel value used to remove a table'e expiration time.
var NeverExpire = time.Time{}.Add(-1)
// Update modifies specific Table metadata fields.
func (t *Table) Update(ctx context.Context, tm TableMetadataToUpdate, etag string) (md *TableMetadata, err error) {
ctx = trace.StartSpan(ctx, "cloud.google.com/go/bigquery.Table.Update")
defer func() { trace.EndSpan(ctx, err) }()
bqt, err := tm.toBQ()
if err != nil {
return nil, err
}
call := t.c.bqs.Tables.Patch(t.ProjectID, t.DatasetID, t.TableID, bqt).Context(ctx)
setClientHeader(call.Header())
if etag != "" {
call.Header().Set("If-Match", etag)
}
var res *bq.Table
if err := runWithRetry(ctx, func() (err error) {
res, err = call.Do()
return err
}); err != nil {
return nil, err
}
return bqToTableMetadata(res)
}
func (tm *TableMetadataToUpdate) toBQ() (*bq.Table, error) {
t := &bq.Table{}
forceSend := func(field string) {
t.ForceSendFields = append(t.ForceSendFields, field)
}
if tm.Description != nil {
t.Description = optional.ToString(tm.Description)
forceSend("Description")
}
if tm.Name != nil {
t.FriendlyName = optional.ToString(tm.Name)
forceSend("FriendlyName")
}
if tm.Schema != nil {
t.Schema = tm.Schema.toBQ()
forceSend("Schema")
}
if tm.EncryptionConfig != nil {
t.EncryptionConfiguration = tm.EncryptionConfig.toBQ()
}
if !validExpiration(tm.ExpirationTime) {
return nil, fmt.Errorf("invalid expiration time: %v.\n"+
"Valid expiration times are after 1678 and before 2262", tm.ExpirationTime)
}
if tm.ExpirationTime == NeverExpire {
t.NullFields = append(t.NullFields, "ExpirationTime")
} else if !tm.ExpirationTime.IsZero() {
t.ExpirationTime = tm.ExpirationTime.UnixNano() / 1e6
forceSend("ExpirationTime")
}
if tm.TimePartitioning != nil {
t.TimePartitioning = tm.TimePartitioning.toBQ()
t.TimePartitioning.ForceSendFields = []string{"RequirePartitionFilter"}
if tm.TimePartitioning.Expiration == 0 {
t.TimePartitioning.NullFields = []string{"ExpirationMs"}
}
}
if tm.ViewQuery != nil {
t.View = &bq.ViewDefinition{
Query: optional.ToString(tm.ViewQuery),
ForceSendFields: []string{"Query"},
}
}
if tm.UseLegacySQL != nil {
if t.View == nil {
t.View = &bq.ViewDefinition{}
}
t.View.UseLegacySql = optional.ToBool(tm.UseLegacySQL)
t.View.ForceSendFields = append(t.View.ForceSendFields, "UseLegacySql")
}
labels, forces, nulls := tm.update()
t.Labels = labels
t.ForceSendFields = append(t.ForceSendFields, forces...)
t.NullFields = append(t.NullFields, nulls...)
return t, nil
}
// validExpiration ensures a specified time is either the sentinel NeverExpire,
// the zero value, or within the defined range of UnixNano. Internal
// represetations of expiration times are based upon Time.UnixNano. Any time
// before 1678 or after 2262 cannot be represented by an int64 and is therefore
// undefined and invalid. See https://godoc.org/time#Time.UnixNano.
func validExpiration(t time.Time) bool {
return t == NeverExpire || t.IsZero() || time.Unix(0, t.UnixNano()).Equal(t)
}
// TableMetadataToUpdate is used when updating a table's metadata.
// Only non-nil fields will be updated.
type TableMetadataToUpdate struct {
// The user-friendly description of this table.
Description optional.String
// The user-friendly name for this table.
Name optional.String
// The table's schema.
// When updating a schema, you can add columns but not remove them.
Schema Schema
// The table's encryption configuration. When calling Update, ensure that
// all mutable fields of EncryptionConfig are populated.
EncryptionConfig *EncryptionConfig
// The time when this table expires. To remove a table's expiration,
// set ExpirationTime to NeverExpire. The zero value is ignored.
ExpirationTime time.Time
// The query to use for a view.
ViewQuery optional.String
// Use Legacy SQL for the view query.
UseLegacySQL optional.Bool
// TimePartitioning allows modification of certain aspects of partition
// configuration such as partition expiration and whether partition
// filtration is required at query time. When calling Update, ensure
// that all mutable fields of TimePartitioning are populated.
TimePartitioning *TimePartitioning
labelUpdater
}
// labelUpdater contains common code for updating labels.
type labelUpdater struct {
setLabels map[string]string
deleteLabels map[string]bool
}
// SetLabel causes a label to be added or modified on a call to Update.
func (u *labelUpdater) SetLabel(name, value string) {
if u.setLabels == nil {
u.setLabels = map[string]string{}
}
u.setLabels[name] = value
}
// DeleteLabel causes a label to be deleted on a call to Update.
func (u *labelUpdater) DeleteLabel(name string) {
if u.deleteLabels == nil {
u.deleteLabels = map[string]bool{}
}
u.deleteLabels[name] = true
}
func (u *labelUpdater) update() (labels map[string]string, forces, nulls []string) {
if u.setLabels == nil && u.deleteLabels == nil {
return nil, nil, nil
}
labels = map[string]string{}
for k, v := range u.setLabels {
labels[k] = v
}
if len(labels) == 0 && len(u.deleteLabels) > 0 {
forces = []string{"Labels"}
}
for l := range u.deleteLabels {
nulls = append(nulls, "Labels."+l)
}
return labels, forces, nulls
}