| .. Licensed to the Apache Software Foundation (ASF) under one or more |
| contributor license agreements. See the NOTICE file distributed with |
| this work for additional information regarding copyright ownership. |
| The ASF licenses this file to You 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. |
| |
| .. _examples_of_usage: |
| |
| ================= |
| Examples of usage |
| ================= |
| File: `get_and_put.py`_. |
| |
| Key-value |
| --------- |
| |
| Open connection |
| =============== |
| |
| .. literalinclude:: ../examples/get_and_put.py |
| :language: python |
| :lines: 16-19 |
| |
| .. _create_cache: |
| |
| Create cache |
| ============ |
| |
| .. literalinclude:: ../examples/get_and_put.py |
| :language: python |
| :dedent: 4 |
| :lines: 20 |
| |
| Put value in cache |
| ================== |
| |
| .. literalinclude:: ../examples/get_and_put.py |
| :language: python |
| :dedent: 4 |
| :lines: 22 |
| |
| Get value from cache |
| ==================== |
| |
| .. literalinclude:: ../examples/get_and_put.py |
| :language: python |
| :dedent: 4 |
| :lines: 24-28 |
| |
| Get multiple values from cache |
| ============================== |
| |
| .. literalinclude:: ../examples/get_and_put.py |
| :language: python |
| :dedent: 4 |
| :lines: 30-35 |
| |
| Type hints usage |
| ================ |
| File: `type_hints.py`_ |
| |
| .. literalinclude:: ../examples/type_hints.py |
| :language: python |
| :dedent: 4 |
| :lines: 24-48 |
| |
| As a rule of thumb: |
| |
| - when a `pyignite` method or function deals with a single value or key, it |
| has an additional parameter, like `value_hint` or `key_hint`, which accepts |
| a parser/constructor class, |
| |
| - nearly any structure element (inside dict or list) can be replaced with |
| a two-tuple of (said element, type hint). |
| |
| Refer the :ref:`data_types` section for the full list |
| of parser/constructor classes you can use as type hints. |
| |
| ExpiryPolicy |
| ============ |
| File: `expiry_policy.py`_. |
| |
| You can enable expiry policy (TTL) by two approaches. |
| |
| Firstly, expiry policy can be set for entire cache by setting :py:attr:`~pyignite.datatypes.prop_codes.PROP_EXPIRY_POLICY` |
| in cache settings dictionary on creation. |
| |
| .. literalinclude:: ../examples/expiry_policy.py |
| :language: python |
| :dedent: 12 |
| :lines: 32-35 |
| |
| .. literalinclude:: ../examples/expiry_policy.py |
| :language: python |
| :dedent: 12 |
| :lines: 41-47 |
| |
| Secondly, expiry policy can be set for all cache operations, which are done under decorator. To create it use |
| :py:meth:`~pyignite.cache.BaseCache.with_expire_policy` |
| |
| .. literalinclude:: ../examples/expiry_policy.py |
| :language: python |
| :dedent: 12 |
| :lines: 54-61 |
| |
| Scan |
| ==== |
| File: `scans.py`_. |
| |
| Cache's :py:meth:`~pyignite.cache.Cache.scan` method queries allows you |
| to get the whole contents of the cache, element by element. |
| |
| Let us put some data in cache. |
| |
| .. literalinclude:: ../examples/scans.py |
| :language: python |
| :dedent: 4 |
| :lines: 20-29 |
| |
| :py:meth:`~pyignite.cache.Cache.scan` returns a cursor, that yields |
| two-tuples of key and value. You can iterate through the generated pairs |
| in a safe manner: |
| |
| .. literalinclude:: ../examples/scans.py |
| :language: python |
| :dedent: 4 |
| :lines: 31-39 |
| |
| Or, alternatively, you can convert the cursor to dictionary in one go: |
| |
| .. literalinclude:: ../examples/scans.py |
| :language: python |
| :dedent: 4 |
| :lines: 41-50 |
| |
| But be cautious: if the cache contains a large set of data, the dictionary |
| may consume too much memory! |
| |
| .. _sql_examples: |
| |
| Object collections |
| ------------------ |
| |
| File: `get_and_put_complex.py`_. |
| |
| Ignite collection types are represented in `pyignite` as two-tuples. |
| First comes collection type ID or deserialization hint, which is specific for |
| each of the collection type. Second comes the data value. |
| |
| .. literalinclude:: ../examples/get_and_put_complex.py |
| :language: python |
| :lines: 19 |
| |
| Map |
| === |
| |
| For Python prior to 3.6, it might be important to distinguish between ordered |
| (`collections.OrderedDict`) and unordered (`dict`) dictionary types, so you |
| could use :py:attr:`~pyignite.datatypes.complex.Map.LINKED_HASH_MAP` |
| for the former and :py:attr:`~pyignite.datatypes.complex.Map.HASH_MAP` |
| for the latter. |
| |
| Since CPython 3.6 all dictionaries became de facto ordered. You can always use |
| `LINKED_HASH_MAP` as a safe default. |
| |
| .. literalinclude:: ../examples/get_and_put_complex.py |
| :language: python |
| :dedent: 4 |
| :lines: 26-38 |
| |
| Collection |
| ========== |
| |
| See :class:`~pyignite.datatypes.complex.CollectionObject` and Ignite |
| documentation on `Collection`_ type for the description of various Java |
| collection types. Note that not all of them have a direct Python |
| representative. For example, Python do not have ordered sets (it is indeed |
| recommended to use `OrderedDict`'s keys and disregard its values). |
| |
| As for the `pyignite`, the rules are simple: pass any iterable as a data, |
| and you always get `list` back. |
| |
| .. literalinclude:: ../examples/get_and_put_complex.py |
| :language: python |
| :dedent: 4 |
| :lines: 40-54 |
| |
| Object array |
| ============ |
| |
| :class:`~pyignite.datatypes.complex.ObjectArrayObject` has a very limited |
| functionality in `pyignite`, since no type checks can be enforced on its |
| contents. But it still can be used for interoperability with Java. |
| |
| .. literalinclude:: ../examples/get_and_put_complex.py |
| :language: python |
| :dedent: 4 |
| :lines: 56-65 |
| |
| |
| Transactions |
| ------------ |
| File: `transactions.py`_. |
| |
| Client transactions are supported for caches with |
| :py:attr:`~pyignite.datatypes.cache_config.CacheAtomicityMode.TRANSACTIONAL` mode. |
| |
| Let's create transactional cache: |
| |
| .. literalinclude:: ../examples/transactions.py |
| :language: python |
| :dedent: 8 |
| :lines: 84-87 |
| |
| Let's start a transaction and commit it: |
| |
| .. literalinclude:: ../examples/transactions.py |
| :language: python |
| :dedent: 8 |
| :lines: 90-96 |
| |
| Let's check that the transaction was committed successfully: |
| |
| .. literalinclude:: ../examples/transactions.py |
| :language: python |
| :dedent: 8 |
| :lines: 98-99 |
| |
| Let's check that raising exception inside `with` block leads to transaction's rollback |
| |
| .. literalinclude:: ../examples/transactions.py |
| :language: python |
| :dedent: 8 |
| :lines: 102-113 |
| |
| Let's check that timed out transaction is successfully rolled back |
| |
| .. literalinclude:: ../examples/transactions.py |
| :language: python |
| :dedent: 8 |
| :lines: 116-126 |
| |
| See more info about transaction's parameters in a documentation of :py:meth:`~pyignite.client.Client.tx_start` |
| |
| SQL |
| --- |
| File: `sql.py`_. |
| |
| These examples are similar to the ones given in the Apache Ignite SQL |
| Documentation: `Getting Started`_. |
| |
| Setup |
| ===== |
| |
| First let us establish a connection. |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :lines: 195-196 |
| |
| Then create tables. Begin with `Country` table, than proceed with related |
| tables `City` and `CountryLanguage`. |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :lines: 25-42, 51-59, 67-74 |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 199-204 |
| |
| Create indexes. |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :lines: 60-62, 75-77 |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 207-208 |
| |
| Fill tables with data. |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :lines: 43-50, 63-66, 78-81 |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 211-218 |
| |
| Data samples are taken from `PyIgnite GitHub repository`_. |
| |
| That concludes the preparation of data. Now let us answer some questions. |
| |
| What are the 10 largest cities in our data sample (population-wise)? |
| ==================================================================== |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 24, 221-238 |
| |
| The :py:meth:`~pyignite.client.Client.sql` method returns a generator, |
| that yields the resulting rows. |
| |
| What are the 10 most populated cities throughout the 3 chosen countries? |
| ======================================================================== |
| |
| If you set the `include_field_names` argument to `True`, the |
| :py:meth:`~pyignite.client.Client.sql` method will generate a list of |
| column names as a first yield. You can access field names with Python built-in |
| `next` function. |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 241-266 |
| |
| Display all the information about a given city |
| ============================================== |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 268-283 |
| |
| Finally, delete the tables used in this example with the following queries: |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :lines: 82-83 |
| |
| .. literalinclude:: ../examples/sql.py |
| :language: python |
| :dedent: 4 |
| :lines: 285-291 |
| |
| .. _complex_object_usage: |
| |
| Complex objects |
| --------------- |
| File: `binary_basics.py`_. |
| |
| `Complex object`_ (that is often called ‘Binary object’) is an Ignite data |
| type, that is designed to represent a Java class. It have the following |
| features: |
| |
| - have a unique ID (type id), which is derives from a class name (type name), |
| - have one or more associated schemas, that describes its inner structure (the |
| order, names and types of its fields). Each schema have its own ID, |
| - have an optional version number, that is aimed towards the end users |
| to help them distinguish between objects of the same type, serialized |
| with different schemas. |
| |
| Unfortunately, these distinctive features of the Complex object have few to no |
| meaning outside of Java language. Python class can not be defined by its name |
| (it is not unique), ID (object ID in Python is volatile; in CPython it is just |
| a pointer in the interpreter's memory heap), or complex of its fields (they |
| do not have an associated data types, moreover, they can be added or deleted |
| in run-time). For the `pyignite` user it means that for all purposes |
| of storing native Python data it is better to use Ignite |
| :class:`~pyignite.datatypes.complex.CollectionObject` |
| or :class:`~pyignite.datatypes.complex.MapObject` data types. |
| |
| However, for interoperability purposes, `pyignite` has a mechanism of creating |
| special Python classes to read or write Complex objects. These classes have |
| an interface, that simulates all the features of the Complex object: type name, |
| type ID, schema, schema ID, and version number. |
| |
| Assuming that one concrete class for representing one Complex object can |
| severely limit the user's data manipulation capabilities, all the |
| functionality said above is implemented through the metaclass: |
| :class:`~pyignite.binary.GenericObjectMeta`. This metaclass is used |
| automatically when reading Complex objects. |
| |
| .. literalinclude:: ../examples/binary_basics.py |
| :language: python |
| :dedent: 4 |
| :lines: 32-34, 39-42, 48-49 |
| |
| Here you can see how :class:`~pyignite.binary.GenericObjectMeta` uses |
| `attrs`_ package internally for creating nice `__init__()` and `__repr__()` |
| methods. |
| |
| In this case the autogenerated dataclass's name `Person` is exactly matches |
| the type name of the Complex object it represents (the content of the |
| :py:attr:`~pyignite.datatypes.base.IgniteDataTypeProps.type_name` property). |
| But when Complex object's class name contains characters, that can not be used |
| in a Python identifier, for example: |
| |
| - `.`, when fully qualified Java class names are used, |
| - `$`, a common case for Scala classes, |
| - `+`, internal class name separator in C#, |
| |
| then `pyignite` can not maintain this match. In such cases `pyignite` tries |
| to sanitize a type name to derive a “good” dataclass name from it. |
| |
| If your code needs consistent naming between the server and the client, make |
| sure that your Ignite cluster is configured to use `simple class names`_. |
| |
| Anyway, you can reuse the autogenerated dataclass for subsequent writes: |
| |
| .. literalinclude:: ../examples/binary_basics.py |
| :language: python |
| :dedent: 4 |
| :lines: 52, 33-37 |
| |
| :class:`~pyignite.binary.GenericObjectMeta` can also be used directly |
| for creating custom classes: |
| |
| .. literalinclude:: ../examples/binary_basics.py |
| :language: python |
| :lines: 18-27 |
| |
| Note how the `Person` class is defined. `schema` is a |
| :class:`~pyignite.binary.GenericObjectMeta` metaclass parameter. |
| Another important :class:`~pyignite.binary.GenericObjectMeta` parameter |
| is a `type_name`, but it is optional and defaults to the class name (‘Person’ |
| in our example). |
| |
| Note also, that `Person` do not have to define its own attributes, methods and |
| properties (`pass`), although it is completely possible. |
| |
| Now, when your custom `Person` class is created, you are ready to send data |
| to Ignite server using its objects. The client will implicitly register your |
| class as soon as the first Complex object is sent. If you intend to use your |
| custom class for reading existing Complex objects' values before all, you must |
| register said class explicitly with your client: |
| |
| .. literalinclude:: ../examples/binary_basics.py |
| :language: python |
| :dedent: 4 |
| :lines: 50 |
| |
| Now, when we dealt with the basics of `pyignite` implementation of Complex |
| Objects, let us move on to more elaborate examples. |
| |
| .. _sql_cache_read: |
| |
| Read |
| ==== |
| File: `read_binary.py`_. |
| |
| Ignite SQL uses Complex objects internally to represent keys and rows |
| in SQL tables. Normally SQL data is accessed via queries (see `SQL`_), |
| so we will consider the following example solely for the demonstration |
| of how Binary objects (not Ignite SQL) work. |
| |
| In the :ref:`previous examples <sql_examples>` we have created some SQL tables. |
| Let us do it again and examine the Ignite storage afterwards. |
| |
| .. literalinclude:: ../examples/read_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 222-229 |
| |
| We can see that Ignite created a cache for each of our tables. The caches are |
| conveniently named using ‘`SQL_<schema name>_<table name>`’ pattern. |
| |
| Now let us examine a configuration of a cache that contains SQL data |
| using a :py:attr:`~pyignite.cache.Cache.settings` property. |
| |
| .. literalinclude:: ../examples/read_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 231-251 |
| |
| The values of `value_type_name` and `key_type_name` are names of the binary |
| types. The `City` table's key fields are stored using `key_type_name` type, |
| and the other fields − `value_type_name` type. |
| |
| Now when we have the cache, in which the SQL data resides, and the names |
| of the key and value data types, we can read the data without using SQL |
| functions and verify the correctness of the result. |
| |
| .. literalinclude:: ../examples/read_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 253-267 |
| |
| What we see is a tuple of key and value, extracted from the cache. Both key |
| and value are represent Complex objects. The dataclass names are the same |
| as the `value_type_name` and `key_type_name` cache settings. The objects' |
| fields correspond to the SQL query. |
| |
| .. _sql_cache_create: |
| |
| Create |
| ====== |
| File: `create_binary.py`_. |
| |
| Now, that we aware of the internal structure of the Ignite SQL storage, |
| we can create a table and put data in it using only key-value functions. |
| |
| For example, let us create a table to register High School students: |
| a rough equivalent of the following SQL DDL statement: |
| |
| :: |
| |
| CREATE TABLE Student ( |
| sid CHAR(9), |
| name VARCHAR(20), |
| login CHAR(8), |
| age INTEGER(11), |
| gpa REAL |
| ) |
| |
| These are the necessary steps to perform the task. |
| |
| 1. Create table cache. |
| |
| .. literalinclude:: ../examples/create_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 24-63 |
| |
| 2. Define Complex object data class. |
| |
| .. literalinclude:: ../examples/create_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 64-75 |
| |
| 3. Insert row. |
| |
| .. literalinclude:: ../examples/create_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 76-80 |
| |
| Now let us make sure that our cache really can be used with SQL functions. |
| |
| .. literalinclude:: ../examples/create_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 82-87 |
| |
| Note, however, that the cache we create can not be dropped with DDL command. |
| It should be deleted as any other key-value cache. |
| |
| .. literalinclude:: ../examples/create_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 89-96 |
| |
| Migrate |
| ======= |
| File: `migrate_binary.py`_. |
| |
| Suppose we have an accounting app that stores its data in key-value format. |
| Our task would be to introduce the following changes to the original expense |
| voucher's format and data: |
| |
| - rename `date` to `expense_date`, |
| - add `report_date`, |
| - set `report_date` to the current date if `reported` is True, None if False, |
| - delete `reported`. |
| |
| First get the vouchers' cache. |
| |
| .. literalinclude:: ../examples/migrate_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 111 |
| |
| If you do not store the schema of the Complex object in code, you can obtain |
| it as a dataclass property with |
| :py:meth:`~pyignite.client.Client.query_binary_type` method. |
| |
| .. literalinclude:: ../examples/migrate_binary.py |
| :language: python |
| :dedent: 4 |
| :lines: 116-120 |
| |
| Let us modify the schema and create a new Complex object class with an updated |
| schema. |
| |
| .. literalinclude:: ../examples/migrate_binary.py |
| :language: python |
| :lines: 122-138 |
| |
| Now migrate the data from the old schema to the new one. |
| |
| .. literalinclude:: ../examples/migrate_binary.py |
| :language: python |
| :lines: 141-190 |
| |
| At this moment all the fields, defined in both of our schemas, can be |
| available in the resulting binary object, depending on which schema was used |
| when writing it using :py:meth:`~pyignite.cache.Cache.put` or similar methods. |
| Ignite Binary API do not have the method to delete Complex object schema; |
| all the schemas ever defined will stay in cluster until its shutdown. |
| |
| This versioning mechanism is quite simple and robust, but it have its |
| limitations. The main thing is: you can not change the type of the existing |
| field. If you try, you will be greeted with the following message: |
| |
| ```org.apache.ignite.binary.BinaryObjectException: Wrong value has been set |
| [typeName=SomeType, fieldName=f1, fieldType=String, assignedValueType=int]``` |
| |
| As an alternative, you can rename the field or create a new Complex object. |
| |
| Failover |
| -------- |
| File: `failover.py`_. |
| |
| When connection to the server is broken or timed out, |
| :class:`~pyignite.client.Client` object propagates an original exception |
| (`OSError` or `SocketError`), but keeps its constructor's parameters intact |
| and tries to reconnect transparently. |
| |
| When :class:`~pyignite.client.Client` detects that all nodes in the list are |
| failed without the possibility of restoring connection, it raises a special |
| :class:`~pyignite.exceptions.ReconnectError` exception. |
| |
| Gather 3 Ignite nodes on `localhost` into one cluster and run: |
| |
| .. literalinclude:: ../examples/failover.py |
| :language: python |
| :lines: 16-52 |
| |
| Then try shutting down and restarting nodes, and see what happens. |
| |
| .. literalinclude:: ../examples/failover.py |
| :language: python |
| :lines: 54-66 |
| |
| Client reconnection do not require an explicit user action, like calling |
| a special method or resetting a parameter. |
| It means that instead of checking the connection status it is better for |
| `pyignite` user to just try the supposed data operations and catch |
| the resulting exception. |
| |
| SSL/TLS |
| ------- |
| |
| There are some special requirements for testing SSL connectivity. |
| |
| The Ignite server must be configured for securing the binary protocol port. |
| The server configuration process can be split up into these basic steps: |
| |
| 1. Create a key store and a trust store using `Java keytool`_. When creating |
| the trust store, you will probably need a client X.509 certificate. You |
| will also need to export the server X.509 certificate to include in the |
| client chain of trust. |
| |
| 2. Turn on the `SslContextFactory` for your Ignite cluster according to this |
| document: `Securing Connection Between Nodes`_. |
| |
| 3. Tell Ignite to encrypt data on its thin client port, using the settings for |
| `ClientConnectorConfiguration`_. If you only want to encrypt connection, |
| not to validate client's certificate, set `sslClientAuth` property to |
| `false`. You'll still have to set up the trust store on step 1 though. |
| |
| Client SSL settings is summarized here: |
| :class:`~pyignite.client.Client`. |
| |
| To use the SSL encryption without certificate validation just `use_ssl`. |
| |
| .. code-block:: python3 |
| |
| from pyignite import Client |
| |
| client = Client(use_ssl=True) |
| client.connect('127.0.0.1', 10800) |
| |
| To identify the client, create an SSL keypair and a certificate with |
| `openssl`_ command and use them in this manner: |
| |
| .. code-block:: python3 |
| |
| from pyignite import Client |
| |
| client = Client( |
| use_ssl=True, |
| ssl_keyfile='etc/.ssl/keyfile.key', |
| ssl_certfile='etc/.ssl/certfile.crt', |
| ) |
| client.connect('ignite-example.com', 10800) |
| |
| To check the authenticity of the server, get the server certificate or |
| certificate chain and provide its path in the `ssl_ca_certfile` parameter. |
| |
| .. code-block:: python3 |
| |
| import ssl |
| |
| from pyignite import Client |
| |
| client = Client( |
| use_ssl=True, |
| ssl_ca_certfile='etc/.ssl/ca_certs', |
| ssl_cert_reqs=ssl.CERT_REQUIRED, |
| ) |
| client.connect('ignite-example.com', 10800) |
| |
| You can also provide such parameters as the set of ciphers (`ssl_ciphers`) and |
| the SSL version (`ssl_version`), if the defaults |
| (:py:obj:`ssl._DEFAULT_CIPHERS` and TLS 1.1) do not suit you. |
| |
| Password authentication |
| ----------------------- |
| |
| To authenticate you must set `authenticationEnabled` property to `true` and |
| enable persistance in Ignite XML configuration file, as described in |
| `Authentication`_ section of Ignite documentation. |
| |
| Be advised that sending credentials over the open channel is greatly |
| discouraged, since they can be easily intercepted. Supplying credentials |
| automatically turns SSL on from the client side. It is highly recommended |
| to secure the connection to the Ignite server, as described |
| in `SSL/TLS`_ example, in order to use password authentication. |
| |
| Then just supply `username` and `password` parameters to |
| :class:`~pyignite.client.Client` constructor. |
| |
| .. code-block:: python3 |
| |
| from pyignite import Client |
| |
| client = Client(username='ignite', password='ignite') |
| client.connect('ignite-example.com', 10800) |
| |
| If you still do not wish to secure the connection is spite of the warning, |
| then disable SSL explicitly on creating the client object: |
| |
| .. code-block:: python3 |
| |
| client = Client(username='ignite', password='ignite', use_ssl=False) |
| |
| Note, that it is not possible for Ignite thin client to obtain the cluster's |
| authentication settings through the binary protocol. Unexpected credentials |
| are simply ignored by the server. In the opposite case, the user is greeted |
| with the following message: |
| |
| .. code-block:: python3 |
| |
| # pyignite.exceptions.HandshakeError: Handshake error: Unauthenticated sessions are prohibited. |
| |
| .. _get_and_put.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/get_and_put.py |
| .. _async_key_value.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/async_key_value.py |
| .. _type_hints.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/type_hints.py |
| .. _failover.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/failover.py |
| .. _scans.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/scans.py |
| .. _expiry_policy.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/expiry_policy.py |
| .. _sql.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/sql.py |
| .. _async_sql.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/async_sql.py |
| .. _binary_basics.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/binary_basics.py |
| .. _read_binary.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/read_binary.py |
| .. _create_binary.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/create_binary.py |
| .. _migrate_binary.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/migrate_binary.py |
| .. _transactions.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/transactions.py |
| .. _Getting Started: https://ignite.apache.org/docs/latest/thin-clients/python-thin-client |
| .. _PyIgnite GitHub repository: https://github.com/apache/ignite-python-thin-client/blob/master |
| .. _Complex object: https://ignite.apache.org/docs/latest/binary-client-protocol/data-format#complex-object |
| .. _Java keytool: https://docs.oracle.com/javase/8/docs/technotes/tools/unix/keytool.html |
| .. _Securing Connection Between Nodes: https://ignite.apache.org/docs/latest/security/ssl-tls#ssltls-for-nodes |
| .. _ClientConnectorConfiguration: https://ignite.apache.org/releases/latest/javadoc/org/apache/ignite/configuration/ClientConnectorConfiguration.html |
| .. _openssl: https://www.openssl.org/docs/manmaster/man1/openssl.html |
| .. _Authentication: https://ignite.apache.org/docs/latest/security/authentication |
| .. _attrs: https://pypi.org/project/attrs/ |
| .. _get_and_put_complex.py: https://github.com/apache/ignite-python-thin-client/blob/master/examples/get_and_put.py |
| .. _Collection: https://ignite.apache.org/docs/latest/binary-client-protocol/data-format#collection |
| .. _simple class names: https://ignite.apache.org/docs/latest/data-modeling/binary-marshaller#binary-name-mapper-and-binary-id-mapper |