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Archive: Namaste PHP AMQP framework v1.0 (2017-2020)

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<?php
/**
* gatTestMongo() -- mongo test class
*
* This class is used for testing mongo operations. It has it's own collection in the database and is used in testing
* during development and in unit-testing.
*
*
* @author mike@givingassistant.org
* @version 1.0
*
* HISTORY:
* ========
* 07-10-17 mks original coding
* 08-04-17 mks added version control, partialIndexes
* 09-12-17 mks CORE-558: protected fields
* 04-19-18 mks _INF-188: warehousing section added
* 01-14-20 mks DB-150: PHP7.4 class member type-casting
* 06-01-20 mks ECI-120: support for auth token
*
*/
class gatTestMongo
{
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// CLASS PROPERTIES...
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
public int $version = 1; // template version - not the same as the release version
public string $service = CONFIG_DATABASE_SERVICE_APPSERVER; // defines the mongo server destination
public string $schema = TEMPLATE_DB_MONGO; // defines the storage schema for the class
public string $templateClass = TEMPLATE_CLASS_TEST_MONGO; // defines the clear-text template class name
public string $collection = COLLECTION_MONGO_TEST; // sets the collection (table) name
public ?string $whTemplate = null; // sets the WH(cool) collection name, null if not wh'd
public string $extension = COLLECTION_MONGO_TEST_EXT; // sets the extension for the collection
public bool $closedClass = true; // set to false to allow partner instantiations
public bool $setCache = true; // set to true to cache class data
public bool $setDeletes = false; // set to true to allow HARD deletes (otherwise: SOFT)
public int $setAuditing = AUDIT_NONDESTRUCTIVE; // set to AUDIT_value constant (nondestructive = reads(yes))
public bool $setJournaling = true; // set to true to allow journaling
public bool $setUpdates = true; // set to true to allow record updates
public bool $setHistory = false; // set to true to enable detailed record history tracking
public string $setDefaultStatus = STATUS_ACTIVE; // set the default status for each record
public string $setSearchStatus = STATUS_ACTIVE; // set the default search status
public bool $setLocking = false; // set to true to enable record locking for collection
public bool $setTimers = true; // set to true to enable collection query timers
public string $setPKey = DB_TOKEN; // sets the primary key for the collection
public bool $setTokens = true; // set to true: adds the idToken field functionality
public bool $selfDestruct = false; // set to false if the class contains methods
public int $cacheTimer = 300; // number of seconds a tuple will remain in-cache
public bool $isGA = false; // set to true is this class is a Namaste internal class
public ?string $authToken = null; // if this data class is registered to a partner, you will
// need to initialize this member in the constructor (hard-coded)
// fields: a key-value paired array, defines the field name and the data type for each field. Prior to insertion,
// all data is validated for type and membership. Data that does not satisfy these requirements is
// silently dropped prior to insertion.
public array $fields = [
MONGO_ID => DATA_TYPE_INTEGER, // sorting by the id is just like sorting by createdDate
TEST_FIELD_TEST_STRING => DATA_TYPE_STRING,
TEST_FIELD_TEST_DOUBLE => DATA_TYPE_DOUBLE,
TEST_FIELD_TEST_INT => DATA_TYPE_INTEGER,
TEST_FIELD_TEST_NIF => DATA_TYPE_INTEGER, // used in unit testing for testing non-indexed queries
TEST_FIELD_TEST_BOOL => DATA_TYPE_BOOL,
TEST_FIELD_TEST_OBJECT => DATA_TYPE_OBJECT,
TEST_FIELD_TEST_ARRAY => DATA_TYPE_ARRAY, // array of data (flat)
TEST_FIELD_TEST_SUBC => DATA_TYPE_ARRAY, // subCollection (array of arrays which may contain arrays)
DB_TOKEN => DATA_TYPE_STRING, // unique key (string) exposed externally and is REQUIRED,
DB_EVENT_GUID => DATA_TYPE_STRING, // track-back identifier for broker/events
DB_CREATED => DATA_TYPE_INTEGER, // epoch time
DB_STATUS => DATA_TYPE_STRING, // record status
DB_ACCESSED => DATA_TYPE_INTEGER // epoch time
];
// protected fields are fields that a client is unable to modify or delete. If a client submits a query that
// updates these fields, the query will be rejected (worst case) or the directive to update/delete the field
// will be silently dropped (best case). In either way, updating or removing this fields cannot be accomplished.
//
// Minimally, this array should contain the following fields:
// -- DB_TOKEN, DB_EVENT_GUID, DB_CREATED, DB_ACCESSED
// -- the ID field (either PDO_ID or MONGO_ID)
// -- DB_WH_CREATED, DB_WH_EVENT_GUID, DB_WH_TOKEN
//
public ?array $protectedFields = [
DB_TOKEN, DB_EVENT_GUID, DB_CREATED, DB_ACCESSED, MONGO_ID
];
// all fields that appear in any of the index declarations must appear in this list as this is the property
// that's used in the framework as an authoritative check to qualify discriminant fields as indexes.
//
// indexes are always declared with the template column name and not the cache-map column name
//
// warehouse indexes are limited to the original record's created date and the three WH fields only
//
public array $indexFields = [
MONGO_ID, DB_CREATED, TEST_FIELD_TEST_INT, DB_TOKEN, TEST_FIELD_TEST_BOOL, DB_EVENT_GUID,
TEST_FIELD_TEST_DOUBLE, DB_ACCESSED, TEST_FIELD_TEST_STRING, DB_STATUS, TEST_FIELD_TEST_OBJECT
];
// all index names that are explicitly declared in the indexes below must also appear in this array. If there are
// no pre-defined index names, then this field should be set to null.
//
// Note that if you're allowing mysql to generate the index names for you, and if you use a partial index (below)
// that references that randomly-generated index name, and that name does not appear in this list, then you will
// fail to load that template at run time, every time.
//
// You have been warned.
//
public ?array $indexNameList = [
'cIdx1Test',
'mIdx1Test',
];
// single field index declarations -- since you can have a field in more than one index
// (MONGO_ID should NEVER be listed as it's the default single-field index.)
// the format for the single-field index declaration is the same format used for all the
// index declarations:
// [ FIELD_NAME => <SORT-DIRECTION> ] where <SORT_DIR> = [ 1 | -1 ]
//
// NOTE: if you're going to declare a single column as a property, then do NOT also declare it as a single index!
//
public ?array $singleFields = [
TEST_FIELD_TEST_BOOL => 1,
TEST_FIELD_TEST_STRING => 1,
DB_CREATED => -1,
DB_STATUS => -1,
DB_EVENT_GUID => 1 // event guid should always be indexed
];
// compound indexes have format of:
// [ INDEX-NAME => [ FIELD_NAME => <SORT-DIR>, ... ]]
// where INDEX-NAME is a unique string and SORT-DIR = [1|-1]
// unless it's for mongoDB -- mongoDB does not use index labels
public ?array $compoundIndexes = [
'cIdx1Test' => [TEST_FIELD_TEST_INT => 1, TEST_FIELD_TEST_DOUBLE => -1 ]
];
// multiKey indexes are indexes on fields that are arrays (not the same as sub-collections) which indexes the
// content stored in the array based on the column names.
//
// mongo, as of 3.4, automatically creates a multi-key index on any field declared as a (sic) index that's
// an array. Meaning: we don't need to explicitly create a multi-key index on an array field if that field
// is declared as a single-key, compound, or unique index.
//
// -----------------------------------------------------------------------------------------------------------------
// NOTES: if you implicitly declare a multi-key index by using the column as a compound-index field, then you
// may, at MOST, have one array within the compound index.
//
// You may NOT declare a multi-key index as a shard key.
//
// Hashed keys may NOT be multi-key.
// -----------------------------------------------------------------------------------------------------------------
//
// In other words, if you want to apply an index to ALL of the array element then declare the column as singleField,
// or compound, or unique. This will have the multi-key index automagically applied by mongoDB.
//
// If you want to index a subset of the array, then declare the fields to be indexed by using dot notation:
//
// [ 'someIndex' => [ arrayColumnName.subField1 => 1, arrayColumnName.subField3 => -1 ... ] ]
//
// And this will apply the multi-key index property to subField1 and subField3 only.
//
// multiKey indexes are referenced by an index name in order to remove ambiguity when parsing index-properties
// against this and other indexes that may have the same field name. In other words, index-properties that will
// be applied to a multiKey index must reference the multiKey index by the index (and not the column) name.
//
// example:
// [ 'mIdx1Test' => [ ARRAY_FIELD_NAME => <1|-1>, ... ]]
//
public ?array $multiKey = [ 'mIdx1Test' => [TEST_FIELD_TEST_ARRAY. DOT . TEST_FIELD_TEST_INT => 1]];
/*
* Valid index-type constants are:
* MONGO_INDEX_TYPE_SINGLE
* MONGO_INDEX_TYPE_COMPOUND
* MONGO_INDEX_TYPE_MULTIKEY
*
* INDEXES NOT SUPPORTED BY NAMASTE AT THIS TIME:
* ----------------------------------------------
* geoSpatial
* text
* hashed
*
*/
// =================================================================================================================
// INDEX PROPERTIES
// ----------------
// Index properties are applied to indexes. The supported properties are:
// unique, partial and ttl
// sparse is not supported because partial
//
// If a property is not in-use, then you must still declare the property as a class object but the
// value of the property will be set to null.
//
// Sparse property types are not supported in favor of partials.
//
// =================================================================================================================
// Partial Indexes are supported as of MongoDB 3.2 and replace sparse indexes. Format for declaration is the
// column name as an array key, with the value being a sub-array of a mongo operand and a value, all of which is
// associated with either an existing column name or index label.
//
// If an existing column name is used, then that field must be defined (exists) in one of the above index
// declarations for single, compound, or multikey indexes.
//
// Sparse indexes only add the row to the index if the column referenced satisfies the conditions specified
// in the query condition (expr2).
//
// Format:
// { expr1 }, { expr2 }
// Where:
// expr1 is an indexed column and the index direction. e.g.: { created_tst : 1 }
// AND
// expr2 is the keyword "partialFilterExpression : { [ query ] }
// e.g.: { partialFilterExpression : { integer_tst : { $gte : 10 }}
//
// db.myTable.createIndex({ lastName: -1, firstName : 1 }, { partialFilterExpression : { age : { $gte : 62 }})
// The above index would return a list of names (sorted DESC by last name) for people aged 62 or older.
//
//
public ?array $partialIndexes = [
// this is a really bad example, but an example nonetheless, of a partial index
[[ TEST_FIELD_TEST_OBJECT => 1], [ MONGO_STRING_PARTIAL_FE => [ DB_CREATED => [ MONGO_EXISTS => false ]]]],
[[ TEST_FIELD_TEST_OBJECT => 1], [ MONGO_STRING_PARTIAL_FE => [ DB_CREATED => [ MONGO_EXISTS => true ]]]]
];
// unique indexes cause MongoDB to reject duplicate values for the indexed field. Unique indexes
// are functionally interchangeable with other mongo indexes.
// Format:
// [ < FIELD_NAME | INDEX-NAME > => <SORT_DIR>, ... ]
//
public ?array $uniqueIndexes = [
DB_TOKEN => 1 // MONGO_TOKEN should always appear
];
// ttl indexes contain the column name and the time-to-live in seconds (e.g.: MONGO_TOKEN => 3600)
// ttl indexes can only be applied to fields that are MongoDB Date() (object) types, or an array that
// contains date values.
//
// If the field is an array, and there are multiple date values in the index, MongoDB uses lowest
// (i.e. earliest) date value in the array to calculate the expiration threshold. If the indexed
// field in a document is not a date or an array that holds a date value(s), the document will not expire.
//
// Format:
// [ SOME_FIELD_NAME => ExpireVal ]
//
// Example:
// [ SOME_FIELD_NAME => 86400 ] --- record will be sorted ASC and deleted after 1 day
//
public ?array $ttlIndexes = [DB_CREATED => 86400]; // ttl indexes appear in $indexFields
// cache maps are requires for namaste service classes. Even if caching is disabled for a class, a cache map is
// still required for the class. For PDO classes, the PDO_ID is never included in the mapping, nor is MONGO_ID.
public ?array $cacheMap = [
TEST_FIELD_TEST_STRING => CM_TST_FIELD_TEST_STRING,
TEST_FIELD_TEST_DOUBLE => CM_TST_FIELD_TEST_DOUBLE,
TEST_FIELD_TEST_INT => CM_TST_FIELD_TEST_INT,
TEST_FIELD_TEST_NIF => CM_TST_FIELD_TEST_NIF,
TEST_FIELD_TEST_BOOL => CM_TST_FIELD_TEST_BOOL,
TEST_FIELD_TEST_OBJECT => CM_TST_FIELD_TEST_OBJ,
TEST_FIELD_TEST_ARRAY => CM_TST_FIELD_TEST_ARY,
TEST_FIELD_TEST_SUBC => CM_TST_FIELD_TEST_SUBC,
DB_TOKEN => CM_TST_TOKEN,
DB_STATUS => CM_TST_FIELD_TEST_STATUS,
DB_EVENT_GUID => CM_TST_EVENT_GUID,
DB_CREATED => CM_TST_FIELD_TEST_CDATE,
DB_ACCESSED => CM_TST_FIELD_TEST_ADATE
];
/*
* if there is no cache-mapping supported for the class, and you want to limit the fields returned,
* then those fields are listed here as an associative array.
*
* NOTE: You can have caching disabled for the class and still have a cache-map -- this controls the labels
* assigned to the returned data column names exposed to the client. Schema should never be exposed.
*
* NOTE: if you do not support caching for the class and this class is one that is returned to a client,
* (some classes are limited to internal use only, like logging), then you should (at a minimum)
* exclude the primary key field (integer).
*
*
* This array is an associative array -- the key is the native column name and the value doesn't matter. The
* important thing is that the keys are the column names that you want to return back to the client.
*
* If $exposedFields is to be undefined for the class, then assign it to null.
*
*/
public ?array $exposedFields = null;
public ?array $binFields = null; // binary fields require special handling; define binary fields here
// regex fields -- within the indexFields array, which fields enable regex searches?
// this does not define an index, but rather to control when to use a regex operand in a query...
public ?array $regexFields = [ TEST_FIELD_TEST_STRING ];
/*
* sub-collections represent the implementation of a 1:M relationship at the record-entity level in mongoDB.
*
* A great example of a sub-collection implementation would be a parent collection called questions and
* a sub-collection called answers.
*
* sub-collections are declared as key->value pairs where each key value is, itself, an array of field names:
*
* public $subC = [
* FIELD_ONE => [
* SUB_COLLECTION_FIELD_ONE,
* SUB_COLLECTION_FIELD_TWO,
* ...
* ],
* ...
* ];
*
* Each sub-collection field should also appear in both the fields list (to define the types), and in the
* cacheMap (if used). If you're not using a cacheMap, and you're limiting the exposed fields, then each
* sub-collection field exposed must be listed in the exposed field list. (e.g.: normal rules for exposure
* for a collection are applied the same way to a sub-collection.)
*
* Note that if a sub-Collection key is not listed in either the cacheMap or the exposed field list, then
* the entire sub-collection will be invisible to the client. If you list the sub-collection key, you can
* limit the sub-collection fields that are exposed by not listing them in either the cacheMap or the
* exposed-field lists, respectively.
*
* Sub-collections are managed within Namaste to allow the sub-collection elements to be either inserted,
* or deleted (an update is a delete + insert) without changing the parent field values and, accordingly,
* are enabled via discrete class methods.
*
*/
// sub-collection fields must be declared here (need not be indexed)
public ?array $subC = [
TEST_FIELD_TEST_SUBC => [
TEST_FIELD_TEST_INT,
TEST_FIELD_TEST_DOUBLE,
TEST_FIELD_TEST_STRING,
TEST_FIELD_TEST_BOOL,
DB_TOKEN
]
];
//=================================================================================================================
// WAREHOUSE DECLARATIONS
// ----------------------
// This section handles the warehousing configuration for the class. If a data table is eligible to be ware-
// housed, then this section contains all the configuration information, including permissions, for the destination
// repository. Note that we need to support bi-directional flow for data.
//
// Terms/Definitions:
// ------------------
// HOT -- data is in production
// COOL -- data has been warehoused, maintains schema, but with indexing changes.
// COLD -- data has been warehoused but formatted to the destination schema, usually CSV.
// WARM -- indicates any data moving from COLD -> HOT
//
// Design Features:
// ----------------
// Supported
// This is a boolean value that indicates if the class supports warehousing. If this is set to false, then
// warehousing requests for the class will be rejected.
//
// Remote Support
// --------------
// This is a boolean value that indicates if the class will support a warehouse source outside of the Namaste
// framework. If this is set to false, and a user submits a request defining the data source as a remote
// repository, the request will be rejected.
//
// Automated
// This is a boolean value that indicates if the class allows automated warehousing, meaning that data will be
// warehoused once the qualifying condition has been met.
//
// Dynamic
// Boolean value that, if set to true, indicates that the class will accept dynamic requests. Otherwise, the
// warehousing operations will follow the interval schedule. Defaults to false.
//
// Interval
// This is a string value that tells the AT_micro-service how often to run automated warehousing on the data.
// D = Daily, M = 1st of every month, Q = 1st of every quarter, Y = 1st of every year
// The default setting for this value should be monthly (M).
//
// Qualifier
// This is a query string, similar to what you would provide to Namaste for a fetch operation, that establishes
// the filter/criteria for moving data to the warehouse. If Supported is set to true, this cannot be blank.
//
// Override
// Boolean value indicating if, and only for dynamic event requests, if the Qualifier can be overridden. If
// set to true, the the event request must contain a valid query filter.
//
// Delete
// This is a string value that tells Namaste what to do with the source data once successfully warehoused.
// H = hard delete, S = soft delete
// Note that this value overrides the $setDeletes setting.
//
//=================================================================================================================
public ?array $wareHouse = [
WH_SUPPORTED => false, // must be set to true for data class to support any warehousing
WH_REMOTE_SUPPORT => false, // must be set to true to import data into this class from remote source
WH_AUTOMATED => false, // must be set to true for warehousing to be automatically processed
WH_DYNAMIC => false, // must be set to true to allow non-scheduled event requests
WH_INTERVAL => 'M', // must be either D, M, Q or A, defaults to M
WH_OVERRIDE => false, // must be set to true to allow an ad-hoc query filter
WH_DELETE => 'H', // must be either H, or S. Can be reset to T via meta. Default: H
// default warehouse query to grab records where the date is LT a value and the status is active:
// the null value will be replaced with the value provided by the client in the wh request payload.
WH_QUALIFIER => [
DB_CREATED => [ OPERAND_NULL => [ OPERATOR_LT => [ null ] ] ],
DB_STATUS => [ OPERAND_NULL => [ OPERATOR_EQ => [ STATUS_ACTIVE ]]],
OPERAND_AND => null
]
];
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// CLASS METHODS...
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
/**
* __construct() -- public method
*
* we have a constructor to register the destructor.
*
* @author mike@givingassistant.org
* @version 1.0
*
* HISTORY:
* ========
* 07-10-17 mks CORE-463: code complete (refactor from ddb to mdb)
*
*/
public function __construct()
{
$this->authToken = '79344859-5403-1556-7663-4E34D6B4CBE4'; // SMAX-API record token
register_shutdown_function([$this, STRING_DESTRUCTOR]);
}
/**
* buildTestData() -- public static method
*
* this method is used to build an array structure of random data. There is only input parameter to the method
* specifies the number of records to return to the calling client.
*
* The input parameter specifies how many records (indexes in the array) should be returned to the calling client
* and should be a reasonable integer between one and one-hundred (1 - 100). If the passed-value for the number
* of records is outside of this range, on either side, then the passed-value will be replaced with the range
* limit for the appropriate "side".
*
* We then spin through a loop which populates an indexed array with the elements, from the test class,
* with the appropriate extension as the sub-array key value.
*
* @author mike@givingassistant.org
* @version 1.0
*
* @param int $_records
* @return null|array
*
* HISTORY:
* ========
* 07-10-17 mks original coding
* 07-12-17 mks added object field to test data generation: a copy of the current record's data
* 07-20-17 mks moved to gatTestMongo class where it belongs (testing selfDestruct feature in templates)
* 04-15-19 mks DB-116: header re-formatted for PHP7 (type casting enforced)
*
*/
public static function buildTestData(int $_records = 0): ?array
{
if ($_records < 1) $_records = 1;
if ($_records > 1000) $_records = 1000;
$retData = null;
mt_srand();
for ($index = 0; $index < $_records; $index++) {
$sentenceCount = mt_rand(1, 20);
$retData[$index][CM_TST_FIELD_TEST_INT] = $sentenceCount;
$retData[$index][CM_TST_FIELD_TEST_NIF] = 1;
$retData[$index][CM_TST_FIELD_TEST_DOUBLE] = floatval((1 / mt_rand(1, 10000)) * 100);
$retData[$index][CM_TST_FIELD_TEST_BOOL] = (mt_rand(0, 1) == 1) ? true : false;
$retData[$index][CM_TST_FIELD_TEST_STRING] = lorumIpsum($sentenceCount, 0);
$retData[$index][CM_TST_FIELD_TEST_ARY] = [[
CM_TST_FIELD_TEST_INT => rand(0,100),
CM_TST_FIELD_TEST_STRING => STRING_DATA
], [
CM_TST_FIELD_TEST_INT => rand(100,200),
CM_TST_FIELD_TEST_STRING => INFO_INTERNAL_REQUEST
]];
$retData[$index][CM_TST_FIELD_TEST_OBJ] = (object) [
CM_TST_FIELD_TEST_INT => rand(0, 100),
CM_TST_FIELD_TEST_STRING => STRING_DATA
];
$retData[$index][CM_TST_FIELD_TEST_SUBC][] = [
CM_TST_FIELD_TEST_INT => $sentenceCount,
CM_TST_FIELD_TEST_DOUBLE => $retData[$index][CM_TST_FIELD_TEST_DOUBLE],
CM_TST_FIELD_TEST_BOOL => $retData[$index][CM_TST_FIELD_TEST_BOOL],
CM_TST_FIELD_TEST_STRING => $retData[$index][CM_TST_FIELD_TEST_STRING]
];
}
return ($retData);
}
/**
* __clone() -- private function
*
* Silently disallows cloning of the object
*
* @author mike@givingassistant.org
* @version 1.0
*
* @return null
*
* HISTORY:
* ========
* 07-10-17 mks CORE-463: code complete (refactor from ddb to mdb)
*
*/
private function __clone()
{
return(null);
}
/**
* __destruct() -- public function
*
* As of PHP 5.3.10 destructors are not run on shutdown caused by fatal errors.
*
* The destructor is registered as a shut-down function in the constructor -- so any recovery
* efforts should go in this method.
*
* @author mike@givingassistant.org
* @version 1.0
*
* HISTORY:
* ========
* 07-10-17 mks CORE-463: code complete (refactor from ddb to mdb)
*
*/
public function __destruct()
{
;
}
}