Message type to initiate a read-only transaction.
Inherits
- Object
Extended By
- Google::Protobuf::MessageExts::ClassMethods
Includes
- Google::Protobuf::MessageExts
Methods
#exact_staleness
def exact_staleness() -> ::Google::Protobuf::Duration
-
(::Google::Protobuf::Duration) — Executes all reads at a timestamp that is
exact_staleness
old. The timestamp is chosen soon after the read is started.Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.
Useful for reading at nearby replicas without the distributed timestamp negotiation overhead of
max_staleness
.
#exact_staleness=
def exact_staleness=(value) -> ::Google::Protobuf::Duration
-
value (::Google::Protobuf::Duration) — Executes all reads at a timestamp that is
exact_staleness
old. The timestamp is chosen soon after the read is started.Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.
Useful for reading at nearby replicas without the distributed timestamp negotiation overhead of
max_staleness
.
-
(::Google::Protobuf::Duration) — Executes all reads at a timestamp that is
exact_staleness
old. The timestamp is chosen soon after the read is started.Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.
Useful for reading at nearby replicas without the distributed timestamp negotiation overhead of
max_staleness
.
#max_staleness
def max_staleness() -> ::Google::Protobuf::Duration
-
(::Google::Protobuf::Duration) — Read data at a timestamp >=
NOW - max_staleness
seconds. Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.Useful for reading the freshest data available at a nearby replica, while bounding the possible staleness if the local replica has fallen behind.
Note that this option can only be used in single-use transactions.
#max_staleness=
def max_staleness=(value) -> ::Google::Protobuf::Duration
-
value (::Google::Protobuf::Duration) — Read data at a timestamp >=
NOW - max_staleness
seconds. Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.Useful for reading the freshest data available at a nearby replica, while bounding the possible staleness if the local replica has fallen behind.
Note that this option can only be used in single-use transactions.
-
(::Google::Protobuf::Duration) — Read data at a timestamp >=
NOW - max_staleness
seconds. Guarantees that all writes that have committed more than the specified number of seconds ago are visible. Because Cloud Spanner chooses the exact timestamp, this mode works even if the client's local clock is substantially skewed from Cloud Spanner commit timestamps.Useful for reading the freshest data available at a nearby replica, while bounding the possible staleness if the local replica has fallen behind.
Note that this option can only be used in single-use transactions.
#min_read_timestamp
def min_read_timestamp() -> ::Google::Protobuf::Timestamp
-
(::Google::Protobuf::Timestamp) — Executes all reads at a timestamp >=
min_read_timestamp
.This is useful for requesting fresher data than some previous read, or data that is fresh enough to observe the effects of some previously committed transaction whose timestamp is known.
Note that this option can only be used in single-use transactions.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
#min_read_timestamp=
def min_read_timestamp=(value) -> ::Google::Protobuf::Timestamp
-
value (::Google::Protobuf::Timestamp) — Executes all reads at a timestamp >=
min_read_timestamp
.This is useful for requesting fresher data than some previous read, or data that is fresh enough to observe the effects of some previously committed transaction whose timestamp is known.
Note that this option can only be used in single-use transactions.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
-
(::Google::Protobuf::Timestamp) — Executes all reads at a timestamp >=
min_read_timestamp
.This is useful for requesting fresher data than some previous read, or data that is fresh enough to observe the effects of some previously committed transaction whose timestamp is known.
Note that this option can only be used in single-use transactions.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
#read_timestamp
def read_timestamp() -> ::Google::Protobuf::Timestamp
-
(::Google::Protobuf::Timestamp) — Executes all reads at the given timestamp. Unlike other modes,
reads at a specific timestamp are repeatable; the same read at
the same timestamp always returns the same data. If the
timestamp is in the future, the read will block until the
specified timestamp, modulo the read's deadline.
Useful for large scale consistent reads such as mapreduces, or for coordinating many reads against a consistent snapshot of the data.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
#read_timestamp=
def read_timestamp=(value) -> ::Google::Protobuf::Timestamp
-
value (::Google::Protobuf::Timestamp) — Executes all reads at the given timestamp. Unlike other modes,
reads at a specific timestamp are repeatable; the same read at
the same timestamp always returns the same data. If the
timestamp is in the future, the read will block until the
specified timestamp, modulo the read's deadline.
Useful for large scale consistent reads such as mapreduces, or for coordinating many reads against a consistent snapshot of the data.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
-
(::Google::Protobuf::Timestamp) — Executes all reads at the given timestamp. Unlike other modes,
reads at a specific timestamp are repeatable; the same read at
the same timestamp always returns the same data. If the
timestamp is in the future, the read will block until the
specified timestamp, modulo the read's deadline.
Useful for large scale consistent reads such as mapreduces, or for coordinating many reads against a consistent snapshot of the data.
A timestamp in RFC3339 UTC \"Zulu\" format, accurate to nanoseconds. Example:
"2014-10-02T15:01:23.045123456Z"
.
#return_read_timestamp
def return_read_timestamp() -> ::Boolean
- (::Boolean) — If true, the Cloud Spanner-selected read timestamp is included in the Transaction message that describes the transaction.
#return_read_timestamp=
def return_read_timestamp=(value) -> ::Boolean
- value (::Boolean) — If true, the Cloud Spanner-selected read timestamp is included in the Transaction message that describes the transaction.
- (::Boolean) — If true, the Cloud Spanner-selected read timestamp is included in the Transaction message that describes the transaction.
#strong
def strong() -> ::Boolean
- (::Boolean) — Read at a timestamp where all previously committed transactions are visible.
#strong=
def strong=(value) -> ::Boolean
- value (::Boolean) — Read at a timestamp where all previously committed transactions are visible.
- (::Boolean) — Read at a timestamp where all previously committed transactions are visible.