zetta

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Published: Jun 3, 2020 License: Apache-2.0 Imports: 34 Imported by: 0

README

Zetta TableStore Go Client

Installation

$ go get github.com/zhihu/zetta-client-go

Example Usage

Create Table
cfs := []*tspb.ColumnFamilyMeta{
    {
        Id:         0,
        Name:       "default",
        Attributes: nil,
    },
}
cs := []*tspb.ColumnMeta{
    {
        Id:         0,
        Name:       "name",
        ColumnType: &tspb.Type{Code: tspb.TypeCode_STRING},
        IsPrimary:  true,
        NotNull:    false,
        Family:     "default",
    },
    {
        Id:         1,
        Name:       "age",
        ColumnType: &tspb.Type{Code: tspb.TypeCode_STRING},
        IsPrimary:  false,
        NotNull:    false,
        Family:     "default",
    },
}
tableMeta := &tspb.TableMeta{
    TableName:       "users",
    ColumnFamilies:  cfs,
    Columns:         cs,
    PrimaryKey:      []string{"name"}, // there must be a PK
    Attributes:      nil,
    Interleave:      nil,
    ExtraStatements: nil,
}
if err := adminClient.CreateTable(ctx, DB_NAME, tableMeta, nil); err != nil {
    panic(err)
}
Simple Writes
TABLE_NAME := "users"
cols := []string{"name", "age"}
vals := []interface{}{"user-01", "18"}
rawMS := zetta.InsertOrUpdate(TABLE_NAME, cols, vals)
err := client.Mutate(context.Background(), rawMS)
if err != nil {
    panic(err)
}
Simple Reads
keys := zetta.KeySet{
    Keys: []zetta.Key{[]interface{}{"user-01"}},
}
resp, err := client.Read(context.Background(), "users", keys, "", []string{"name", "age"}, 10)
if err != nil {
    panic(err)
}
for _, row := range resp.SliceRows {
    if len(row.GetCells()) != 2 {
        panic("invalid values")
    }
    name := row.Cells[0].GetValue()
    age := row.Cells[1].GetValue()

    fmt.Println("read name:", name.GetStringValue())
    fmt.Println("read age:", age.GetStringValue())
}

Documentation

Overview

Copyright 2020 Zhizhesihai (Beijing) Technology Limited.

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, See the License for the specific language governing permissions and limitations under the License.

Index

Constants

View Source
const (
	SPARSE_READ = "sparseread"
)

Variables

View Source
var (
	// mutations
	ERR_MUTATION_EMPTY      = errors.New("empty mutations")
	ERR_MUTATION_DIFF_TABLE = errors.New("mutations not in same table")

	// sessions
	ERR_SESSION_POOL_INVALID = errors.New("current session pool is invalid")
	ERR_SESSION_POOL_TIMEOUT = errors.New("get next session timeout")

	ErrInvalidSessionPool = zettaErrorf(codes.InvalidArgument, "invalid session pool")
	ErrGetSessionTimeout  = zettaErrorf(codes.Canceled, "timeout / context canceled during getting session")
)
View Source
var DefaultRetryBackoff = gax.Backoff{
	Initial:    20 * time.Millisecond,
	Max:        32 * time.Second,
	Multiplier: 1.3,
}

DefaultRetryBackoff is used for retryers as a fallback value when the server did not return any retry information.

View Source
var DefaultSessionPoolConfig = SessionPoolConfig{
	MinOpened:           10,
	MaxOpened:           numChannels * 100,
	MaxBurst:            10,
	WriteSessions:       0.2,
	HealthCheckWorkers:  10,
	HealthCheckInterval: 5 * time.Minute,
}

DefaultSessionPoolConfig is the default configuration for the session pool that will be used for a Spanner client, unless the user supplies a specific session pool config.

Functions

func BoolProto

func BoolProto(b bool) *tspb.Value

func BoolType

func BoolType() *tspb.Type

func BytesProto

func BytesProto(b []byte) *tspb.Value

func BytesType

func BytesType() *tspb.Type

func DateKind

func DateKind(d civil.Date) *tspb.Value_TimestampValue

func DateProto

func DateProto(d civil.Date) *tspb.Value

func DateType

func DateType() *tspb.Type

func ErrCode

func ErrCode(err error) codes.Code

extract error code

func ErrDesc

func ErrDesc(err error) string

extract error description

func FloatProto

func FloatProto(n float64) *tspb.Value

func FloatType

func FloatType() *tspb.Type

func IntProto

func IntProto(n int64) *tspb.Value

func IntType

func IntType() *tspb.Type

func ListType

func ListType(t *tspb.Type) *tspb.Type

func NullProto

func NullProto() *tspb.Value

func ParseTarget

func ParseTarget(target string) (ret resolver.Target)

ParseTarget splits target into a resolver.Target struct containing scheme, authority and endpoint.

If target is not a valid scheme://authority/endpoint, it returns {Endpoint: target}.

func StringProto

func StringProto(s string) *tspb.Value

Helpers to generate protobuf values and Cloud Spanner types.

func StringType

func StringType() *tspb.Type

func TimeProto

func TimeProto(t time.Time) *tspb.Value

func TimeType

func TimeType() *tspb.Type

Types

type AdminClient

type AdminClient struct {
	// contains filtered or unexported fields
}

func NewAdminClient

func NewAdminClient(addr string) (*AdminClient, error)

func (*AdminClient) AddColumn

func (ac *AdminClient) AddColumn(ctx context.Context, table string, columnFamilies []*tspb.ColumnFamilyMeta, columns []*tspb.ColumnMeta) error

Adds a column to the specified table.

func (*AdminClient) AlterTable

func (ac *AdminClient) AlterTable(ctx context.Context, db string, newTableMeta *tspb.TableMeta) error

Modify a table's metadata

func (*AdminClient) CreateDatabase

func (ac *AdminClient) CreateDatabase(ctx context.Context, dbName string, attributes map[string]string) (*tspb.DatabaseMeta, error)

* database operations

func (*AdminClient) CreateIndex

func (ac *AdminClient) CreateIndex(ctx context.Context, db, table string, indexMeta *tspb.IndexMeta) error
  • table index operations

Create a index on table

func (*AdminClient) CreateTable

func (ac *AdminClient) CreateTable(ctx context.Context, db string, tableMeta *tspb.TableMeta, indexMetas []*tspb.IndexMeta) error

Create a table

func (*AdminClient) DeleteColumn

func (ac *AdminClient) DeleteColumn(ctx context.Context, db, table string, columnFamilies, columns []string) error

Deletes a column from the specified table. Table must be disabled.

func (*AdminClient) DeleteDatabase

func (ac *AdminClient) DeleteDatabase(ctx context.Context, dbID int64, dbName string) error

Deletes Database

func (*AdminClient) DropIndex

func (ac *AdminClient) DropIndex(ctx context.Context, db, table, index string) error

Drop table index

func (*AdminClient) DropTable

func (ac *AdminClient) DropTable(ctx context.Context, db, table string) error

Drop a table

func (*AdminClient) GetDatabase

func (ac *AdminClient) GetDatabase(ctx context.Context, dbID int64, dbName string) (*tspb.DatabaseMeta, error)

Get a Database descriptor by name

func (*AdminClient) GetIndex

func (ac *AdminClient) GetIndex(ctx context.Context, db, table, index string) (*tspb.IndexMeta, error)

Get table index

func (*AdminClient) ListDatabase

func (ac *AdminClient) ListDatabase(ctx context.Context, parent, pageToken string, pageSize int32) ([]*tspb.DatabaseMeta, string, error)

returns a list of Databases

func (*AdminClient) ListIndex

func (ac *AdminClient) ListIndex(ctx context.Context, db, table string) ([]*tspb.IndexMeta, error)

List table indexes

func (*AdminClient) ListTables

func (ac *AdminClient) ListTables(ctx context.Context, database, pageToken string, pageSize int32) ([]*tspb.TableMeta, string, error)

returns a list of Databases

func (*AdminClient) TruncateTable

func (ac *AdminClient) TruncateTable(ctx context.Context, db, table string) error

Truncate a table

func (*AdminClient) UpdateColumn

func (ac *AdminClient) UpdateColumn(ctx context.Context, db, table string, columnFamilies *tspb.ColumnFamilyMeta, columns *tspb.ColumnMeta) error

Modifies an existing column on the specified table.

func (*AdminClient) UpdateDatabase

func (ac *AdminClient) UpdateDatabase(ctx context.Context, dbName string, newAttributes map[string]string) (*tspb.DatabaseMeta, error)

Modify a Database's metadata

type ApplyOption

type ApplyOption func(*applyOption)

An ApplyOption is an optional argument to Apply.

func ApplyAtLeastOnce

func ApplyAtLeastOnce() ApplyOption

ApplyAtLeastOnce returns an ApplyOption that removes replay protection.

With this option, Apply may attempt to apply mutations more than once; if the mutations are not idempotent, this may lead to a failure being reported when the mutation was applied more than once. For example, an insert may fail with ALREADY_EXISTS even though the row did not exist before Apply was called. For this reason, most users of the library will prefer not to use this option. However, ApplyAtLeastOnce requires only a single RPC, whereas Apply's default replay protection may require an additional RPC. So this option may be appropriate for latency sensitive and/or high throughput blind writing.

type DataClient

type DataClient struct {
	// contains filtered or unexported fields
}

func NewDataClient

func NewDataClient(ctx context.Context, serverAddr, dbName string, conf DataClientConfig) (*DataClient, error)

func (*DataClient) Apply

func (dc *DataClient) Apply(ctx context.Context, ms []*Mutation, opts ...ApplyOption) (time.Time, error)

Apply applies a list of mutations atomically to the database.

func (*DataClient) Close

func (dc *DataClient) Close()

Close dataclient close

func (*DataClient) Mutate

func (dc *DataClient) Mutate(ctx context.Context, rawMS ...*Mutation) error

raw mutate once time only in one table

func (*DataClient) Read

func (dc *DataClient) Read(ctx context.Context, table string, keys KeySet, index string, columns []string, limit int64) (*tspb.ResultSet, error)

func (*DataClient) ReadOnlyTransaction

func (dc *DataClient) ReadOnlyTransaction() *ReadOnlyTransaction

ReadOnlyTransaction returns a ReadOnlyTransaction that can be used for multiple reads from the database. You must call Close() when the ReadOnlyTransaction is no longer needed to release resources on the server.

ReadOnlyTransaction will use a strong TimestampBound by default. Use ReadOnlyTransaction.WithTimestampBound to specify a different TimestampBound. A non-strong bound can be used to reduce latency, or "time-travel" to prior versions of the database, see the documentation of TimestampBound for details.

func (*DataClient) ReadWriteTransaction

func (dc *DataClient) ReadWriteTransaction(ctx context.Context, f func(t *ReadWriteTransaction) error) (time.Time, error)

ReadWriteTransaction executes a read-write transaction, with retries as necessary.

The function f will be called one or more times. It must not maintain any state between calls.

If the transaction cannot be committed or if f returns an IsAborted error, ReadWriteTransaction will call f again. It will continue to call f until the transaction can be committed or the Context times out or is cancelled. If f returns an error other than IsAborted, ReadWriteTransaction will abort the transaction and return the error.

To limit the number of retries, set a deadline on the Context rather than using a fixed limit on the number of attempts. ReadWriteTransaction will retry as needed until that deadline is met.

func (*DataClient) Single

func (dc *DataClient) Single() *ReadOnlyTransaction

Single provides a read-only snapshot transaction optimized for the case where only a single read or query is needed. This is more efficient than using ReadOnlyTransaction() for a single read or query.

Single will use a strong TimestampBound by default. Use ReadOnlyTransaction.WithTimestampBound to specify a different TimestampBound. A non-strong bound can be used to reduce latency, or "time-travel" to prior versions of the database, see the documentation of TimestampBound for details.

func (*DataClient) SparseRead

func (dc *DataClient) SparseRead(ctx context.Context, table, family string, rows []*SparseRow, limit int64) (*SparseResultSet, error)

type DataClientConfig

type DataClientConfig struct {
	NumChannels int // 并发度,对应 session pool
	SessionPoolConfig
}

type Error

type Error struct {
	// gRPC status error code
	Code codes.Code
	// more detail info
	Desc string
	// contains filtered or unexported fields
}

sdk error wrapper

func (*Error) Error

func (e *Error) Error() string

type GenericColumnValue

type GenericColumnValue struct {
	Type  *tspb.Type
	Value *tspb.Value
}

通用的字段类型和字段值,用于查询结果类型不可知的查询 GenericColumnValue represents the generic encoded value and type of the column. See google.spanner.v1.ResultSet proto for details. This can be useful for proxying query results when the result types are not known in advance.

func NewGenericColumnValue

func NewGenericColumnValue(v interface{}) (*GenericColumnValue, error)

NewGenericColumnValue creates a GenericColumnValue from Go value that is valid for Cloud Spanner.

func (GenericColumnValue) Decode

func (v GenericColumnValue) Decode(ptr interface{}) error

从通用 cv 中解码到 ptr 中 Decode decodes a GenericColumnValue. The ptr argument should be a pointer to a Go value that can accept v.

type Key

type Key []interface{}

struct Key is primary key / secondary index key, as interface{} array usages: 1. primary key -> unique row 2. secondary index key -> match set of rows 3. use in KeyRange type

key rows are Read operations / Delete mutations targets but note: column list for Insert / Update mutations must comprise a pk

Go Type => Key Type int, int8, int16, int32, int64, NullInt64 -> INT64 float32, float64, NullFloat64 -> FLOAT64 bool and NullBool -> BOOL []byte -> BYTES string and NullString -> STRING time.Time and NullTime -> TIMESTAMP civil.Date and NullDate -> DATE

func (Key) String

func (key Key) String() string

type KeyRange

type KeyRange struct {
	// left and right boundary
	Start, End Key

	// boundaries are included or not
	Kind KeyRangeKind
}

KeyRange is range of rows in table / index use start key and end key to identify borders and they two could be close or open direction of Key is same as filed

func (KeyRange) String

func (r KeyRange) String() string

type KeyRangeKind

type KeyRangeKind int

mark boundary open state of left and right

const (
	ClosedOpen   KeyRangeKind = iota // [l, r)
	ClosedClosed                     // [l, r]
	OpenClosed                       // (l, r]
	OpenOpen                         // (l, r)
)

type KeySet

type KeySet struct {
	// true means all rows of a table or under a index.
	All bool
	// a list of keys covered by KeySet
	Keys []Key
	// list of key ranges covered by KeySet
	Ranges []KeyRange
}

KeySet is collection of keys and/or key ranges all the keys in the same table or index. and keys needn't be sorted

func AllKeys

func AllKeys() KeySet

AllKeys returns a KeySet that represents all Keys of a table or a index.

func Keys

func Keys(keys ...Key) KeySet

Keys returns a KeySet for a set of keys.

func PrefixRange

func PrefixRange(prefix Key) KeySet

PrefixRange returns a KeySet for all keys with the given prefix, which is a key itself

func Range

func Range(r KeyRange) KeySet

Range returns a KeySet for a range of keys.

func UnionKeySets

func UnionKeySets(keySets ...KeySet) KeySet

union key set to one unity

type Mutation

type Mutation struct {
	// contains filtered or unexported fields
}

Mutation 表示对同一张表的多行进行新增、更新、删除等操作 A Mutation describes a modification to one or more Cloud Spanner rows. The mutation represents an insert, update, delete, etc on a table.

在一个原子 commit 可以带多个 mutation

Many mutations can be applied in a single atomic commit. For purposes of constraint checking (such as foreign key constraints), the operations can be viewed as applying in same order as the mutations are supplied in (so that e.g., a row and its logical "child" can be inserted in the same commit).

  • The Apply function applies series of mutations.
  • A ReadWriteTransaction applies a series of mutations as part of an atomic read-modify-write operation.

Example:

m := spanner.Insert("User",
	[]string{"user_id", "profile"},
	[]interface{}{UserID, profile})
_, err := client.Apply(ctx, []*spanner.Mutation{m})

In this example, we insert a new row into the User table. The primary key for the new row is UserID (presuming that "user_id" has been declared as the primary key of the "User" table).

Updating a row

Changing the values of columns in an existing row is very similar to inserting a new row:

m := spanner.Update("User",
	[]string{"user_id", "profile"},
	[]interface{}{UserID, profile})
_, err := client.Apply(ctx, []*spanner.Mutation{m})

Deleting a row

To delete a row, use spanner.Delete:

m := spanner.Delete("User", spanner.Key{UserId})
_, err := client.Apply(ctx, []*spanner.Mutation{m})

Note that deleting a row in a table may also delete rows from other tables if cascading deletes are specified in those tables' schemas. Delete does nothing if the named row does not exist (does not yield an error).

Deleting a field

To delete/clear a field within a row, use spanner.Update with the value nil:

m := spanner.Update("User",
	[]string{"user_id", "profile"},
	[]interface{}{UserID, nil})
_, err := client.Apply(ctx, []*spanner.Mutation{m})

The valid Go types and their corresponding Cloud Spanner types that can be used in the Insert/Update/InsertOrUpdate functions are:

string, NullString - STRING
[]string, []NullString - STRING ARRAY
[]byte - BYTES
[][]byte - BYTES ARRAY
int, int64, NullInt64 - INT64
[]int, []int64, []NullInt64 - INT64 ARRAY
bool, NullBool - BOOL
[]bool, []NullBool - BOOL ARRAY
float64, NullFloat64 - FLOAT64
[]float64, []NullFloat64 - FLOAT64 ARRAY
time.Time, NullTime - TIMESTAMP
[]time.Time, []NullTime - TIMESTAMP ARRAY
Date, NullDate - DATE
[]Date, []NullDate - DATE ARRAY

To compare two Mutations for testing purposes, use reflect.DeepEqual.

func Delete

func Delete(table string, ks KeySet, columns ...string) *Mutation

Delete removes a key from a table. Succeeds whether or not the key was present.

func DeleteKeyRange

func DeleteKeyRange(table string, r KeyRange, columns ...string) *Mutation

DeleteKeyRange removes a range of keys from a table. Succeeds whether or not the keys were present.

func Insert

func Insert(table string, cols []string, vals []interface{}) *Mutation

Insert returns a Mutation to insert a row into a table. If the row already exists, the write or transaction fails.

func InsertMap

func InsertMap(table string, in map[string]interface{}) *Mutation

InsertMap returns a Mutation to insert a row into a table, specified by a map of column name to value. If the row already exists, the write or transaction fails.

func InsertOrUpdate

func InsertOrUpdate(table string, cols []string, vals []interface{}) *Mutation

InsertOrUpdate returns a Mutation to insert a row into a table. If the row already exists, it updates it instead. Any column values not explicitly written are preserved.

func InsertOrUpdateMap

func InsertOrUpdateMap(table string, in map[string]interface{}) *Mutation

InsertOrUpdateMap returns a Mutation to insert a row into a table, specified by a map of column to value. If the row already exists, it updates it instead. Any column values not explicitly written are preserved.

func InsertOrUpdateStruct

func InsertOrUpdateStruct(table string, in interface{}) (*Mutation, error)

InsertOrUpdateStruct returns a Mutation to insert a row into a table, specified by a Go struct. If the row already exists, it updates it instead. Any column values not explicitly written are preserved.

The in argument must be a struct or a pointer to a struct. Its exported fields specify the column names and values. Use a field tag like "spanner:name" to provide an alternative column name, or use "spanner:-" to ignore the field.

func InsertStruct

func InsertStruct(table string, in interface{}) (*Mutation, error)

InsertStruct returns a Mutation to insert a row into a table, specified by a Go struct. If the row already exists, the write or transaction fails.

The in argument must be a struct or a pointer to a struct. Its exported fields specify the column names and values. Use a field tag like "spanner:name" to provide an alternative column name, or use "spanner:-" to ignore the field.

func Replace

func Replace(table string, cols []string, vals []interface{}) *Mutation

Replace returns a Mutation to insert a row into a table, deleting any existing row. Unlike InsertOrUpdate, this means any values not explicitly written become NULL.

func ReplaceMap

func ReplaceMap(table string, in map[string]interface{}) *Mutation

ReplaceMap returns a Mutation to insert a row into a table, deleting any existing row. Unlike InsertOrUpdateMap, this means any values not explicitly written become NULL. The row is specified by a map of column to value.

func ReplaceStruct

func ReplaceStruct(table string, in interface{}) (*Mutation, error)

ReplaceStruct returns a Mutation to insert a row into a table, deleting any existing row. Unlike InsertOrUpdateMap, this means any values not explicitly written become NULL. The row is specified by a Go struct.

The in argument must be a struct or a pointer to a struct. Its exported fields specify the column names and values. Use a field tag like "spanner:name" to provide an alternative column name, or use "spanner:-" to ignore the field.

func Update

func Update(table string, cols []string, vals []interface{}) *Mutation

Update returns a Mutation to update a row in a table. If the row does not already exist, the write or transaction fails.

func UpdateMap

func UpdateMap(table string, in map[string]interface{}) *Mutation

UpdateMap returns a Mutation to update a row in a table, specified by a map of column to value. If the row does not already exist, the write or transaction fails.

func UpdateStruct

func UpdateStruct(table string, in interface{}) (*Mutation, error)

UpdateStruct returns a Mutation to update a row in a table, specified by a Go struct. If the row does not already exist, the write or transaction fails.

type NullBool

type NullBool struct {
	Bool  bool
	Valid bool // Valid is true if Bool is not NULL.
}

NullBool represents a Cloud Spanner BOOL that may be NULL.

func (NullBool) String

func (n NullBool) String() string

String implements Stringer.String for NullBool

type NullDate

type NullDate struct {
	Date  civil.Date
	Valid bool // Valid is true if Date is not NULL.
}

NullDate represents a Cloud Spanner DATE that may be null.

func (NullDate) String

func (n NullDate) String() string

String implements Stringer.String for NullDate

type NullFloat64

type NullFloat64 struct {
	Float64 float64
	Valid   bool // Valid is true if Float64 is not NULL.
}

NullFloat64 represents a Cloud Spanner FLOAT64 that may be NULL.

func (NullFloat64) String

func (n NullFloat64) String() string

String implements Stringer.String for NullFloat64

type NullInt64

type NullInt64 struct {
	Int64 int64
	Valid bool // Valid is true if Int64 is not NULL.
}

新增的多种 NULL 类型

NullInt64 represents a Cloud Spanner INT64 that may be NULL.

func (NullInt64) String

func (n NullInt64) String() string

String implements Stringer.String for NullInt64

type NullRow

type NullRow struct {
	Row   Row
	Valid bool // Valid is true if Row is not NULL.
}

NullRow represents a Cloud Spanner STRUCT that may be NULL. See also the document for Row. Note that NullRow is not a valid Cloud Spanner column Type.

type NullString

type NullString struct {
	StringVal string
	Valid     bool // Valid is true if StringVal is not NULL.
}

NullString represents a Cloud Spanner STRING that may be NULL.

func (NullString) String

func (n NullString) String() string

String implements Stringer.String for NullString

type NullTime

type NullTime struct {
	Time  time.Time
	Valid bool // Valid is true if Time is not NULL.
}

NullTime represents a Cloud Spanner TIMESTAMP that may be null.

func (NullTime) String

func (n NullTime) String() string

String implements Stringer.String for NullTime

type ReadOnlyTransaction

type ReadOnlyTransaction struct {
	// contains filtered or unexported fields
}

ReadOnlyTransaction provides a snapshot transaction with guaranteed consistency across reads, but does not allow writes. Read-only transactions can be configured to read at timestamps in the past.

Read-only transactions do not take locks. Instead, they work by choosing a Cloud Spanner timestamp, then executing all reads at that timestamp. Since they do not acquire locks, they do not block concurrent read-write transactions.

Unlike locking read-write transactions, read-only transactions never abort. They can fail if the chosen read timestamp is garbage collected; however, the default garbage collection policy is generous enough that most applications do not need to worry about this in practice. See the documentation of TimestampBound for more details.

A ReadOnlyTransaction consumes resources on the server until Close() is called.

func (*ReadOnlyTransaction) Close

func (t *ReadOnlyTransaction) Close()

Close closes a ReadOnlyTransaction, the transaction cannot perform any reads after being closed.

func (*ReadOnlyTransaction) Query

func (t *ReadOnlyTransaction) Query(ctx context.Context, statement Statement) *RowIterator

Query executes a query against the database.

The provided function is called once in serial for each row read. If the function returns a non-nil error, Query immediately returns that value.

If no rows are read, Query will return nil without calling the provided function.

func (*ReadOnlyTransaction) Read

func (t *ReadOnlyTransaction) Read(ctx context.Context, table string, keys KeySet, columns []string) *RowIterator

Read reads multiple rows from the database.

The provided function is called once in serial for each row read. If the function returns a non-nil error, Read immediately returns that value.

If no rows are read, Read will return nil without calling the provided function.

func (*ReadOnlyTransaction) ReadRow

func (t *ReadOnlyTransaction) ReadRow(ctx context.Context, table string, key Key, columns []string) (*Row, error)

ReadRow reads a single row from the database.

If no row is present with the given key, then ReadRow returns an error where IsRowNotFound(err) is true.

func (*ReadOnlyTransaction) ReadUsingIndex

func (t *ReadOnlyTransaction) ReadUsingIndex(ctx context.Context, table, index string, keys KeySet, columns []string) *RowIterator

ReadUsingIndex reads multiple rows from the database using an index.

Currently, this function can only read columns that are part of the index key, part of the primary key, or stored in the index due to a STORING clause in the index definition.

The provided function is called once in serial for each row read. If the function returns a non-nil error, ReadUsingIndex immediately returns that value.

If no rows are read, ReadUsingIndex will return nil without calling the provided function.

func (*ReadOnlyTransaction) Timestamp

func (t *ReadOnlyTransaction) Timestamp() (time.Time, error)

Timestamp returns the timestamp chosen to perform reads and queries in this transaction. The value can only be read after some read or query has either returned some data or completed without returning any data.

func (*ReadOnlyTransaction) WithTimestampBound

func (t *ReadOnlyTransaction) WithTimestampBound(tb TimestampBound) *ReadOnlyTransaction

WithTimestampBound specifies the TimestampBound to use for read or query. This can only be used before the first read or query is invoked. Note: bounded staleness is not available with general ReadOnlyTransactions; use a single-use ReadOnlyTransaction instead.

The returned value is the ReadOnlyTransaction so calls can be chained.

type ReadWriteTransaction

type ReadWriteTransaction struct {
	// contains filtered or unexported fields
}

ReadWriteTransaction provides a locking read-write transaction.

This type of transaction is the only way to write data into Cloud Spanner; (*Client).Apply and (*Client).ApplyAtLeastOnce use transactions internally. These transactions rely on pessimistic locking and, if necessary, two-phase commit. Locking read-write transactions may abort, requiring the application to retry. However, the interface exposed by (*Client).ReadWriteTransaction eliminates the need for applications to write retry loops explicitly.

Locking transactions may be used to atomically read-modify-write data anywhere in a database. This type of transaction is externally consistent.

Clients should attempt to minimize the amount of time a transaction is active. Faster transactions commit with higher probability and cause less contention. Cloud Spanner attempts to keep read locks active as long as the transaction continues to do reads. Long periods of inactivity at the client may cause Cloud Spanner to release a transaction's locks and abort it.

Reads performed within a transaction acquire locks on the data being read. Writes can only be done at commit time, after all reads have been completed. Conceptually, a read-write transaction consists of zero or more reads or SQL queries followed by a commit.

See (*Client).ReadWriteTransaction for an example.

Semantics

Cloud Spanner can commit the transaction if all read locks it acquired are still valid at commit time, and it is able to acquire write locks for all writes. Cloud Spanner can abort the transaction for any reason. If a commit attempt returns ABORTED, Cloud Spanner guarantees that the transaction has not modified any user data in Cloud Spanner.

Unless the transaction commits, Cloud Spanner makes no guarantees about how long the transaction's locks were held for. It is an error to use Cloud Spanner locks for any sort of mutual exclusion other than between Cloud Spanner transactions themselves.

Aborted transactions

Application code does not need to retry explicitly; RunInTransaction will automatically retry a transaction if an attempt results in an abort. The lock priority of a transaction increases after each prior aborted transaction, meaning that the next attempt has a slightly better chance of success than before.

Under some circumstances (e.g., many transactions attempting to modify the same row(s)), a transaction can abort many times in a short period before successfully committing. Thus, it is not a good idea to cap the number of retries a transaction can attempt; instead, it is better to limit the total amount of wall time spent retrying.

Idle transactions

A transaction is considered idle if it has no outstanding reads or SQL queries and has not started a read or SQL query within the last 10 seconds. Idle transactions can be aborted by Cloud Spanner so that they don't hold on to locks indefinitely. In that case, the commit will fail with error ABORTED.

If this behavior is undesirable, periodically executing a simple SQL query in the transaction (e.g., SELECT 1) prevents the transaction from becoming idle.

func (*ReadWriteTransaction) BufferWrite

func (t *ReadWriteTransaction) BufferWrite(ms []*Mutation) error

BufferWrite adds a list of mutations to the set of updates that will be applied when the transaction is committed. It does not actually apply the write until the transaction is committed, so the operation does not block. The effects of the write won't be visible to any reads (including reads done in the same transaction) until the transaction commits.

See the example for Client.ReadWriteTransaction.

func (*ReadWriteTransaction) Query

func (t *ReadWriteTransaction) Query(ctx context.Context, statement Statement) *RowIterator

Query executes a query against the database.

The provided function is called once in serial for each row read. If the function returns a non-nil error, Query immediately returns that value.

If no rows are read, Query will return nil without calling the provided function.

func (*ReadWriteTransaction) Read

func (t *ReadWriteTransaction) Read(ctx context.Context, table string, keys KeySet, columns []string) *RowIterator

Read reads multiple rows from the database.

The provided function is called once in serial for each row read. If the function returns a non-nil error, Read immediately returns that value.

If no rows are read, Read will return nil without calling the provided function.

func (*ReadWriteTransaction) ReadRow

func (t *ReadWriteTransaction) ReadRow(ctx context.Context, table string, key Key, columns []string) (*Row, error)

ReadRow reads a single row from the database.

If no row is present with the given key, then ReadRow returns an error where IsRowNotFound(err) is true.

func (*ReadWriteTransaction) ReadUsingIndex

func (t *ReadWriteTransaction) ReadUsingIndex(ctx context.Context, table, index string, keys KeySet, columns []string) *RowIterator

ReadUsingIndex reads multiple rows from the database using an index.

Currently, this function can only read columns that are part of the index key, part of the primary key, or stored in the index due to a STORING clause in the index definition.

The provided function is called once in serial for each row read. If the function returns a non-nil error, ReadUsingIndex immediately returns that value.

If no rows are read, ReadUsingIndex will return nil without calling the provided function.

type Row

type Row struct {
	// contains filtered or unexported fields
}

Row 结构描述读取到的一行 A Row is a view of a row of data produced by a Cloud Spanner read.

一行包含多列,列数取决于构造读的结构 A row consists of a number of columns; the number depends on the columns used to construct the read.

列值可以通过索引读取 The column values can be accessed by index, where the indices are with respect to the columns. For instance, if the read specified []string{"photo_id", "caption", "metadata"}, then each row will contain three columns: the 0th column corresponds to "photo_id", the 1st column corresponds to "caption", etc.

列的值通过 Column(), Columns() 等方法将指定索引的列解码到 Go 变量中 Column values are decoded by using one of the Column, ColumnByName, or Columns methods. The valid values passed to these methods depend on the column type. For example:

var photoID int64
err := row.Column(0, &photoID) // Decode column 0 as an integer.

var caption string
err := row.Column(1, &caption) // Decode column 1 as a string.

// The above two operations at once.
err := row.Columns(&photoID, &caption)

已支持的类型有: Supported types and their corresponding Cloud Spanner column type(s) are:

*string(not NULL), *NullString - STRING
*[]NullString - STRING ARRAY
*[]byte - BYTES
*[][]byte - BYTES ARRAY
*int64(not NULL), *NullInt64 - INT64
*[]NullInt64 - INT64 ARRAY
*bool(not NULL), *NullBool - BOOL
*[]NullBool - BOOL ARRAY
*float64(not NULL), *NullFloat64 - FLOAT64
*[]NullFloat64 - FLOAT64 ARRAY
*time.Time(not NULL), *NullTime - TIMESTAMP
*[]NullTime - TIMESTAMP ARRAY
*Date(not NULL), *NullDate - DATE
*[]NullDate - DATE ARRAY
*[]*some_go_struct, *[]NullRow - STRUCT ARRAY
*GenericColumnValue - any Cloud Spanner type

For TIMESTAMP columns, returned time.Time object will be in UTC.

To fetch an array of BYTES, pass a *[][]byte. To fetch an array of (sub)rows, pass a *[]spanner.NullRow or a *[]*some_go_struct where some_go_struct holds all information of the subrow, see spannr.Row.ToStruct for the mapping between Cloud Spanner row and Go struct. To fetch an array of other types, pass a *[]spanner.Null* type of the appropriate type. Use *GenericColumnValue when you don't know in advance what column type to expect.

Row decodes the row contents lazily; as a result, each call to a getter has a chance of returning an error.

A column value may be NULL if the corresponding value is not present in Cloud Spanner. The spanner.Null* types (spanner.NullInt64 et al.) allow fetching values that may be null. A NULL BYTES can be fetched into a *[]byte as nil. It is an error to fetch a NULL value into any other type.

func NewRow

func NewRow(columnNames []string, columnValues []interface{}) (*Row, error)

测试用 NewRow returns a Row containing the supplied data. This can be useful for mocking Cloud Spanner Read and Query responses for unit testing.

func (*Row) Column

func (r *Row) Column(i int, ptr interface{}) error

将 row 的第 i 行 decode 到 ptr 指针变量中 Column fetches the value from the ith column, decoding it into ptr.

func (*Row) ColumnByName

func (r *Row) ColumnByName(name string, ptr interface{}) error

将 row 中指定列名的值 decode 到 ptr 指针中 ColumnByName fetches the value from the named column, decoding it into ptr.

func (*Row) ColumnIndex

func (r *Row) ColumnIndex(name string) (int, error)

大小写敏感地返回列名索引 ColumnIndex returns the index of the column with the given name. The comparison is case-sensitive.

func (*Row) ColumnName

func (r *Row) ColumnName(i int) string

返回列名 ColumnName returns the name of column i, or empty string for invalid column.

func (*Row) ColumnNames

func (r *Row) ColumnNames() []string

返回所有的列名 ColumnNames returns all column names of the row.

func (*Row) Columns

func (r *Row) Columns(ptrs ...interface{}) error

一次性将 row 中尽可能多的列 decode 到对应的 ptr 指针中 Columns fetches all the columns in the row at once.

The value of the kth column will be decoded into the kth argument to Columns. See above for the list of acceptable argument tspb. The number of arguments must be equal to the number of columns. Pass nil to specify that a column should be ignored.

func (*Row) ConvertToStruct

func (r *Row) ConvertToStruct(p interface{}) error

func (*Row) Size

func (r *Row) Size() int

Size is the number of columns in the row.

func (*Row) ToStruct

func (r *Row) ToStruct(p interface{}) error

将一整行直接忽略大小写顺序 decode 到某个 struct 中,注意匹配 spanner 的 tag ToStruct fetches the columns in a row into the fields of a struct. The rules for mapping a row's columns into a struct's exported fields are as the following:

  1. If a field has a `spanner: "column_name"` tag, then decode column 'column_name' into the field. A special case is the `spanner: "-"` tag, which instructs ToStruct to ignore the field during decoding.
  2. Otherwise, if the name of a field matches the name of a column (ignoring case), decode the column into the field.

The fields of the destination struct can be of any type that is acceptable to (*spanner.Row).Column.

Slice and pointer fields will be set to nil if the source column is NULL, and a non-nil value if the column is not NULL. To decode NULL values of other types, use one of the spanner.Null* as the type of the destination field.

type RowIterator

type RowIterator struct {
	// contains filtered or unexported fields
}
行迭代器

RowIterator is an iterator over Rows.

func (*RowIterator) Do

func (r *RowIterator) Do(f func(r *Row) error) error
  • 对迭代到的每一行都调用 f, r.Stop() 始终都会被调用

Do calls the provided function once in sequence for each row in the iteration. If the function returns a non-nil error, Do immediately returns that value.

If there are no rows in the iterator, Do will return nil without calling the provided function.

Do always calls Stop on the iterator.

func (*RowIterator) Next

func (r *RowIterator) Next() (*Row, error)
  • Next 返回下一行和是否迭代结束
  • 若迭代结束后续调用都会返回 Done

Next returns the next result. Its second return value is iterator.Done if there are no more results. Once Next returns Done, all subsequent calls will return Done.

func (*RowIterator) Stop

func (r *RowIterator) Stop()
主动结束 iterator,取消 context

Stop terminates the iteration. It should be called after every iteration.

type SessionPoolConfig

type SessionPoolConfig struct {

	// MaxOpened is the maximum number of opened sessions that is allowed by the
	// session pool, zero means unlimited.
	// 指定 session 池子的最大数量
	MaxOpened uint64
	// MinOpened is the minimum number of opened sessions that the session pool
	// tries to maintain. Session pool won't continue to expire sessions if number
	// of opened connections drops below MinOpened. However, if session is found
	// to be broken, it will still be evicted from session pool, therefore it is
	// posssible that the number of opened sessions drops below MinOpened.
	// 努力维持的最少数量
	MinOpened uint64
	// MaxSessionAge is the maximum duration that a session can be reused, zero
	// means session pool will never expire sessions.
	MaxSessionAge time.Duration
	// MaxBurst is the maximum number of concurrent session creation requests,
	MaxBurst uint64
	// WriteSessions is the fraction of sessions we try to keep prepared for write.
	WriteSessions float64
	// HealthCheckWorkers is number of workers used by health checker for this pool.
	HealthCheckWorkers int
	// HealthCheckInterval is how often the health checker pings a session.
	HealthCheckInterval time.Duration
	// contains filtered or unexported fields
}

session 池配置

type SparseResultSet

type SparseResultSet struct {
	Rows []*Row
}

func BuildSparseResultSet

func BuildSparseResultSet(r *tspb.ResultSet) *SparseResultSet

type SparseRow

type SparseRow struct {
	Keys      Key
	Qualifier []string
}

type Statement

type Statement struct {
	SQL    string
	Params map[string]interface{}
}

A Statement is a SQL query with named parameters.

A parameter placeholder consists of '@' followed by the parameter name. Parameter names consist of any combination of letters, numbers, and underscores. Names may be entirely numeric (e.g., "WHERE m.id = @5"). Parameters may appear anywhere that a literal value is expected. The same parameter name may be used more than once. It is an error to execute a statement with unbound parameters. On the other hand, it is allowable to bind parameter names that are not used.

See the documentation of the Row type for how Go types are mapped to Cloud Spanner types.

func NewStatement

func NewStatement(sql string) Statement

NewStatement returns a Statement with the given SQL and an empty Params map.

type TimestampBound

type TimestampBound struct {
	// contains filtered or unexported fields
}

TimestampBound defines how Cloud Spanner will choose a timestamp for a single read/query or read-only transaction.

The types of timestamp bound are:

  • Strong (the default).
  • Bounded staleness.
  • Exact staleness.

If the Cloud Spanner database to be read is geographically distributed, stale read-only transactions can execute more quickly than strong or read-write transactions, because they are able to execute far from the leader replica.

Each type of timestamp bound is discussed in detail below. A TimestampBound can be specified when creating transactions, see the documentation of spanner.Client for an example.

Strong reads

Strong reads are guaranteed to see the effects of all transactions that have committed before the start of the read. Furthermore, all rows yielded by a single read are consistent with each other - if any part of the read observes a transaction, all parts of the read see the transaction.

Strong reads are not repeatable: two consecutive strong read-only transactions might return inconsistent results if there are concurrent writes. If consistency across reads is required, the reads should be executed within a transaction or at an exact read timestamp.

Use StrongRead() to create a bound of this type.

Exact staleness

These timestamp bounds execute reads at a user-specified timestamp. Reads at a timestamp are guaranteed to see a consistent prefix of the global transaction history: they observe modifications done by all transactions with a commit timestamp less than or equal to the read timestamp, and observe none of the modifications done by transactions with a larger commit timestamp. They will block until all conflicting transactions that may be assigned commit timestamps less than or equal to the read timestamp have finished.

The timestamp can either be expressed as an absolute Cloud Spanner commit timestamp or a staleness relative to the current time.

These modes do not require a "negotiation phase" to pick a timestamp. As a result, they execute slightly faster than the equivalent boundedly stale concurrency modes. On the other hand, boundedly stale reads usually return fresher results.

Use ReadTimestamp() and ExactStaleness() to create a bound of this type.

Bounded staleness

Bounded staleness modes allow Cloud Spanner to pick the read timestamp, subject to a user-provided staleness bound. Cloud Spanner chooses the newest timestamp within the staleness bound that allows execution of the reads at the closest available replica without blocking.

All rows yielded are consistent with each other -- if any part of the read observes a transaction, all parts of the read see the transaction. Boundedly stale reads are not repeatable: two stale reads, even if they use the same staleness bound, can execute at different timestamps and thus return inconsistent results.

Boundedly stale reads execute in two phases: the first phase negotiates a timestamp among all replicas needed to serve the read. In the second phase, reads are executed at the negotiated timestamp.

As a result of the two phase execution, bounded staleness reads are usually a little slower than comparable exact staleness reads. However, they are typically able to return fresher results, and are more likely to execute at the closest replica.

Because the timestamp negotiation requires up-front knowledge of which rows will be read, it can only be used with single-use reads and single-use read-only transactions.

Use MinReadTimestamp() and MaxStaleness() to create a bound of this type.

Old read timestamps and garbage collection

Cloud Spanner continuously garbage collects deleted and overwritten data in the background to reclaim storage space. This process is known as "version GC". By default, version GC reclaims versions after they are four hours old. Because of this, Cloud Spanner cannot perform reads at read timestamps more than four hours in the past. This restriction also applies to in-progress reads and/or SQL queries whose timestamp become too old while executing. Reads and SQL queries with too-old read timestamps fail with the error ErrorCode.FAILED_PRECONDITION.

func ExactStaleness

func ExactStaleness(d time.Duration) TimestampBound

ExactStaleness returns a TimestampBound that will perform reads and queries at an exact staleness.

func MaxStaleness

func MaxStaleness(d time.Duration) TimestampBound

MaxStaleness returns a TimestampBound that will perform reads and queries at a time chosen to be at most "d" stale.

func MinReadTimestamp

func MinReadTimestamp(t time.Time) TimestampBound

MinReadTimestamp returns a TimestampBound that bound that will perform reads and queries at a time chosen to be at least "t".

func ReadTimestamp

func ReadTimestamp(t time.Time) TimestampBound

ReadTimestamp returns a TimestampBound that will peform reads and queries at the given time.

func StrongRead

func StrongRead() TimestampBound

StrongRead returns a TimestampBound that will perform reads and queries at a timestamp where all previously committed transactions are visible.

func (TimestampBound) String

func (tb TimestampBound) String() string

String implements fmt.Stringer.

Directories

Path Synopsis
examples
internal
fields
Package fields provides a view of the fields of a struct that follows the Go rules, amended to consider tags and case insensitivity.
Package fields provides a view of the fields of a struct that follows the Go rules, amended to consider tags and case insensitivity.
utils

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