ceph/doc/radosgw/s3select.rst
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===============
Ceph s3 select
===============
.. contents::
Overview
--------
| The purpose of the **s3 select** engine is to create an efficient pipe between user client and storage nodes (the engine should be close as possible to storage).
| It enables the selection of a restricted subset of (structured) data stored in an S3 object using an SQL-like syntax.
| It also enables for higher level analytic-applications (such as SPARK-SQL), using that feature to improve their latency and throughput.
| For example, an s3-object of several GB (CSV file), a user needs to extract a single column filtered by another column.
| As the following query:
| ``select customer-id from s3Object where age>30 and age<65;``
| Currently the whole s3-object must be retrieved from OSD via RGW before filtering and extracting data.
| By "pushing down" the query into radosgw, it's possible to save a lot of network and CPU(serialization / deserialization).
| **The bigger the object, and the more accurate the query, the better the performance**.
Basic workflow
--------------
| S3-select query is sent to RGW via `AWS-CLI <https://docs.aws.amazon.com/cli/latest/reference/s3api/select-object-content.html>`_
| It passes the authentication and permission process as an incoming message (POST).
| **RGWSelectObj_ObjStore_S3::send_response_data** is the “entry point”, it handles each fetched chunk according to input object-key.
| **send_response_data** is first handling the input query, it extracts the query and other CLI parameters.
| Per each new fetched chunk (~4m), RGW executes an s3-select query on it.
| The current implementation supports CSV objects and since chunks are randomly “cutting” the CSV rows in the middle, those broken-lines (first or last per chunk) are skipped while processing the query.
| Those “broken” lines are stored and later merged with the next broken-line (belong to the next chunk), and finally processed.
| Per each processed chunk an output message is formatted according to `AWS specification <https://docs.aws.amazon.com/AmazonS3/latest/API/archive-RESTObjectSELECTContent.html#archive-RESTObjectSELECTContent-responses>`_ and sent back to the client.
| RGW supports the following response: ``{:event-type,records} {:content-type,application/octet-stream} {:message-type,event}``.
| For aggregation queries the last chunk should be identified as the end of input, following that the s3-select-engine initiates end-of-process and produces an aggregated result.
Basic functionalities
~~~~~~~~~~~~~~~~~~~~~
| **S3select** has a definite set of functionalities compliant with AWS.
| The implemented software architecture supports basic arithmetic expressions, logical and compare expressions, including nested function calls and casting operators, which enables the user great flexibility.
| review the below s3-select-feature-table_.
Error Handling
~~~~~~~~~~~~~~
| Upon an error being detected, RGW returns 400-Bad-Request and a specific error message sends back to the client.
| Currently, there are 2 main types of error.
|
| **Syntax error**: the s3select parser rejects user requests that are not aligned with parser syntax definitions, as
| described in this documentation.
| Upon Syntax Error, the engine creates an error message that points to the location of the error.
| RGW sends back the error message in a specific error response.
|
| **Processing Time error**: the runtime engine may detect errors that occur only on processing time, for that type of
| error, a different error message would describe that.
| RGW sends back the error message in a specific error response.
.. _s3-select-feature-table:
Features Support
----------------
| Currently only part of `AWS select command <https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-select.html>`_ is implemented, table below describes what is currently supported.
| The following table describes the current implementation for s3-select functionalities:
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Feature | Detailed | Example / Description |
+=================================+=================+=======================================================================+
| Arithmetic operators | ^ * % / + - ( ) | select (int(_1)+int(_2))*int(_9) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| | ``%`` modulo | select count(*) from s3object where cast(_1 as int)%2 = 0; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| | ``^`` power-of | select cast(2^10 as int) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Compare operators | > < >= <= = != | select _1,_2 from s3object where (int(_1)+int(_3))>int(_5); |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | AND OR NOT | select count(*) from s3object where not (int(_1)>123 and int(_5)<200);|
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | is null | return true/false for null indication in expression |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | is not null | return true/false for null indication in expression |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator and NULL | unknown state | review null-handle_ observe how logical operator result with null. |
| | | the following query return **0**. |
| | | |
| | | select count(*) from s3object where null and (3>2); |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Arithmetic operator with NULL | unknown state | review null-handle_ observe the results of binary operations with NULL|
| | | the following query return **0**. |
| | | |
| | | select count(*) from s3object where (null+1) and (3>2); |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| compare with NULL | unknown state | review null-handle_ observe results of compare operations with NULL |
| | | the following query return **0**. |
| | | |
| | | select count(*) from s3object where (null*1.5) != 3; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| missing column | unknown state | select count(*) from s3object where _1 is null; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| query is filtering rows where predicate | select count(*) from s3object where (_1 > 12 and _2 = 0) is not null; |
| is returning non null results. | |
| this predicate will return null | |
| upon _1 or _2 is null | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| projection column | similar to | select case |
| | switch/case | cast(_1 as int) + 1 |
| | default | when 2 then "a" |
| | | when 3 then "b" |
| | | else "c" end from s3object; |
| | | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| projection column | similar to | select case |
| | if/then/else | when (1+1=(2+1)*3) then 'case_1' |
| | | when ((4*3)=(12)) then 'case_2' |
| | | else 'case_else' end, |
| | | age*2 from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | ``coalesce {expression,expression ...} :: return first non-null argument`` |
| | |
| | select coalesce(nullif(5,5),nullif(1,1.0),age+12) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | ``nullif {expr1,expr2} ::return null in case both arguments are equal,`` |
| | ``or else the first one`` |
| | |
| | select nullif(cast(_1 as int),cast(_2 as int)) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | ``{expression} in ( .. {expression} ..)`` |
| | |
| | select count(*) from s3object |
| | where 'ben' in (trim(_5),substring(_1,char_length(_1)-3,3),last_name); |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | ``{expression} between {expression} and {expression}`` |
| | |
| | select count(*) from s3object |
| | where substring(_3,char_length(_3),1) between "x" and trim(_1) |
| | and substring(_3,char_length(_3)-1,1) = ":"; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| logical operator | ``{expression} like {match-pattern}`` |
| | |
| | select count(*) from s3object where first_name like '%de_'; |
| | |
| | select count(*) from s3object where _1 like \"%a[r-s]\; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| | ``{expression} like {match-pattern} escape {char}`` |
| | |
| logical operator | select count(*) from s3object where "jok_ai" like "%#_ai" escape "#"; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| true / false | select (cast(_1 as int)>123 = true) from s3object |
| predicate as a projection | where address like '%new-york%'; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| an alias to | select (_1 like "_3_") as *likealias*,_1 from s3object |
| predicate as a projection | where *likealias* = true and cast(_1 as int) between 800 and 900; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| casting operator | select cast(123 as int)%2 from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| casting operator | select cast(123.456 as float)%2 from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| casting operator | select cast('ABC0-9' as string),cast(substr('ab12cd',3,2) as int)*4 from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| casting operator | select cast(5 as bool) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| casting operator | select cast(substring('publish on 2007-01-01',12,10) as timestamp) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| non AWS casting operator | select int(_1),int( 1.2 + 3.4) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| non AWS casting operator | select float(1.2) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| not AWS casting operator | select to_timestamp('1999-10-10T12:23:44Z') from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Aggregation Function | sum | select sum(int(_1)) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Aggregation Function | avg | select avg(cast(_1 a float) + cast(_2 as int)) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Aggregation Function | min | select min( int(_1) * int(_5) ) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Aggregation Function | max | select max(float(_1)),min(int(_5)) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Aggregation Function | count | select count(*) from s3object where (int(_1)+int(_3))>int(_5); |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Timestamp Functions | extract | select count(*) from s3object where |
| | | extract(year from to_timestamp(_2)) > 1950 |
| | | and extract(year from to_timestamp(_1)) < 1960; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Timestamp Functions | date_add | select count(0) from s3object where |
| | | date_diff(year,to_timestamp(_1),date_add(day,366, |
| | | to_timestamp(_1))) = 1; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Timestamp Functions | date_diff | select count(0) from s3object where |
| | | date_diff(month,to_timestamp(_1),to_timestamp(_2))) = 2; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Timestamp Functions | utcnow | select count(0) from s3object where |
| | | date_diff(hours,utcnow(),date_add(day,1,utcnow())) = 24; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Timestamp Functions | to_string | select to_string( |
| | | to_timestamp("2009-09-17T17:56:06.234567Z"), |
| | | "yyyyMMdd-H:m:s") from s3object; |
| | | |
| | | ``result: "20090917-17:56:6"`` |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | substring | select count(0) from s3object where |
| | | int(substring(_1,1,4))>1950 and int(substring(_1,1,4))<1960; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| substring with ``from`` negative number is valid | select substring("123456789" from -4) from s3object; |
| considered as first | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| substring with ``from`` zero ``for`` out-of-bound | select substring("123456789" from 0 for 100) from s3object; |
| number is valid just as (first,last) | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | trim | select trim(' foobar ') from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | trim | select trim(trailing from ' foobar ') from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | trim | select trim(leading from ' foobar ') from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | trim | select trim(both '12' from '1112211foobar22211122') from s3objects; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | lower/upper | select lower('ABcD12#$e') from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| String Functions | char_length | select count(*) from s3object where char_length(_3)=3; |
| | character_length| |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Complex queries | select sum(cast(_1 as int)), |
| | max(cast(_3 as int)), |
| | substring('abcdefghijklm',(2-1)*3+sum(cast(_1 as int))/sum(cast(_1 as int))+1, |
| | (count() + count(0))/count(0)) from s3object; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| alias support | | select int(_1) as a1, int(_2) as a2 , (a1+a2) as a3 |
| | | from s3object where a3>100 and a3<300; |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
.. _null-handle:
NULL
~~~~
| NULL is a legit value in ceph-s3select systems similar to other DB systems, i.e. systems needs to handle the case where a value is NULL.
| The definition of NULL in our context, is missing/unknown, in that sense **NULL can not produce a value on ANY arithmetic operations** ( a + NULL will produce NULL value).
| The Same is with arithmetic comparison, **any comparison to NULL is NULL**, i.e. unknown.
| Below is a truth table contains the NULL use-case.
+---------------------------------+-----------------------------+
| A is NULL | Result (NULL=UNKNOWN) |
+=================================+=============================+
| NOT A | NULL |
+---------------------------------+-----------------------------+
| A OR False | NULL |
+---------------------------------+-----------------------------+
| A OR True | True |
+---------------------------------+-----------------------------+
| A OR A | NULL |
+---------------------------------+-----------------------------+
| A AND False | False |
+---------------------------------+-----------------------------+
| A AND True | NULL |
+---------------------------------+-----------------------------+
| A and A | NULL |
+---------------------------------+-----------------------------+
s3-select function interfaces
-----------------------------
Timestamp functions
~~~~~~~~~~~~~~~~~~~
| The timestamp functionalities as described in `AWS-specs <https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-glacier-select-sql-reference-date.html>`_ is fully implemented.
| ``to_timestamp( string )`` : The casting operator converts string to timestamp basic type.
| to_timestamp operator is able to convert the following ``YYYY-MM-DDTHH:mm:ss.SSSSSS+/-HH:mm`` , ``YYYY-MM-DDTHH:mm:ss.SSSSSSZ`` , ``YYYY-MM-DDTHH:mm:ss+/-HH:mm`` , ``YYYY-MM-DDTHH:mm:ssZ`` , ``YYYY-MM-DDTHH:mm+/-HH:mm`` , ``YYYY-MM-DDTHH:mmZ`` , ``YYYY-MM-DDT`` or ``YYYYT`` string formats into timestamp.
| Where time (or part of it) is missing in the string format, zero's are replacing the missing parts. And for missing month and day, 1 is default value for them.
| Timezone part is in format ``+/-HH:mm`` or ``Z`` , where the letter "Z" indicates Coordinated Universal Time (UTC). Value of timezone can range between -12:00 and +14:00.
| ``extract(date-part from timestamp)`` : The function extracts date-part from input timestamp and returns it as integer.
| Supported date-part : year, month, week, day, hour, minute, second, timezone_hour, timezone_minute.
| ``date_add(date-part, quantity, timestamp)`` : The function adds quantity (integer) to date-part of timestamp and returns result as timestamp. It also includes timezone in calculation.
| Supported data-part : year, month, day, hour, minute, second.
| ``date_diff(date-part, timestamp, timestamp)`` : The function returns an integer, a calculated result for difference between 2 timestamps according to date-part. It includes timezone in calculation.
| supported date-part : year, month, day, hour, minute, second.
| ``utcnow()`` : return timestamp of current time.
| ``to_string(timestamp, format_pattern)`` : returns a string representation of the input timestamp in the given input string format.
to_string parameters
~~~~~~~~~~~~~~~~~~~~
+--------------+-----------------+-----------------------------------------------------------------------------------+
| Format | Example | Description |
+==============+=================+===================================================================================+
| yy | 69 | 2-digit year |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| y | 1969 | 4-digit year |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| yyyy | 1969 | Zero-padded 4-digit year |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| M | 1 | Month of year |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| MM | 01 | Zero-padded month of year |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| MMM | Jan | Abbreviated month year name |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| MMMM | January | Full month of year name |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| MMMMM | J | Month of year first letter (NOTE: not valid for use with to_timestamp function) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| d | 2 | Day of month (1-31) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| dd | 02 | Zero-padded day of month (01-31) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| a | AM | AM or PM of day |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| h | 3 | Hour of day (1-12) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| hh | 03 | Zero-padded hour of day (01-12) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| H | 3 | Hour of day (0-23) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| HH | 03 | Zero-padded hour of day (00-23) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| m | 4 | Minute of hour (0-59) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| mm | 04 | Zero-padded minute of hour (00-59) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| s | 5 | Second of minute (0-59) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| ss | 05 | Zero-padded second of minute (00-59) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| S | 0 | Fraction of second (precision: 0.1, range: 0.0-0.9) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| SS | 6 | Fraction of second (precision: 0.01, range: 0.0-0.99) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| SSS | 60 | Fraction of second (precision: 0.001, range: 0.0-0.999) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| SSSSSS | 60000000 | Fraction of second (maximum precision: 1 nanosecond, range: 0.0-0999999999) |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| n | 60000000 | Nano of second |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| X | +07 or Z | Offset in hours or "Z" if the offset is 0 |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| XX or XXXX| +0700 or Z | Offset in hours and minutes or "Z" if the offset is 0 |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| XXX or XXXXX | +07:00 or Z | Offset in hours and minutes or "Z" if the offset is 0 |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| X | 7 | Offset in hours |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| xx or xxxx | 700 | Offset in hours and minutes |
+--------------+-----------------+-----------------------------------------------------------------------------------+
| xxx or xxxxx | +07:00 | Offset in hours and minutes |
+--------------+-----------------+-----------------------------------------------------------------------------------+
Aggregation functions
~~~~~~~~~~~~~~~~~~~~~
| ``count()`` : return integer according to number of rows matching condition(if such exist).
| ``sum(expression)`` : return a summary of expression per all rows matching condition(if such exist).
| ``avg(expression)`` : return a average of expression per all rows matching condition(if such exist).
| ``max(expression)`` : return the maximal result for all expressions matching condition(if such exist).
| ``min(expression)`` : return the minimal result for all expressions matching condition(if such exist).
String functions
~~~~~~~~~~~~~~~~
| ``substring(string,from,to)`` : substring( string ``from`` start [ ``for`` length ] )
| return a string extract from input string according to from,to inputs.
| ``substring(string from )``
| ``substring(string from for)``
| ``char_length`` : return a number of characters in string (``character_length`` does the same).
| ``trim`` : trim ( [[``leading`` | ``trailing`` | ``both`` remove_chars] ``from``] string )
| trims leading/trailing(or both) characters from target string, the default is blank character.
| ``upper\lower`` : converts characters into lowercase/uppercase.
Alias
~~~~~
| **Alias** programming-construct is an essential part of s3-select language, it enables much better programming especially with objects containing many columns or in the case of complex queries.
| Upon parsing the statement containing alias construct, it replaces alias with reference to correct projection column, on query execution time the reference is evaluated as any other expression.
| There is a risk that self(or cyclic) reference may occur causing stack-overflow(endless-loop), for that concern upon evaluating an alias, it is validated for cyclic reference.
| Alias also maintains result-cache, meaning upon using the same alias more than once, its not evaluating the same expression again(it will return the same result),instead it uses the result from cache.
| Of Course, per each new row the cache is invalidated.
Testing
~~~~~~~
| s3select contains several testing frameworks which provide a large coverage for its functionalities.
| (1) tests comparison against a trusted engine, meaning, C/C++ compiler is a trusted expression evaluator,
| since the syntax for arithmetical and logical expressions are identical (s3select compare to C)
| the framework runs equal expressions and validates their results.
| A dedicated expression generator produces different sets of expressions per each new test session.
| (2) compare results of queries whose syntax is different but semantically they are equal.
| this kind of test validates that different runtime flows produce an identical result,
| on each run with a different dataset(random).
| For one example, on a dataset which contains a random numbers(1-1000)
| the following queries will produce identical results.
| ``select count(*) from s3object where char_length(_3)=3;``
| ``select count(*) from s3object where cast(_3 as int)>99 and cast(_3 as int)<1000;``
| (3) constant dataset, the conventional way of testing. A query is processing a constant dataset, its result is validated against constant results.
Additional syntax support
~~~~~~~~~~~~~~~~~~~~~~~~~
| S3select syntax supports table-alias ``select s._1 from s3object s where s._2 = 4;``
|
| S3select syntax supports case insensitive ``Select SUM(Cast(_1 as int)) FROM S3Object;``
|
| S3select syntax supports statements without closing semicolon ``select count(*) from s3object``
Sending Query to RGW
--------------------
| Any http-client can send an s3-select request to RGW, it must be compliant with `AWS Request syntax <https://docs.aws.amazon.com/AmazonS3/latest/API/API_SelectObjectContent.html#API_SelectObjectContent_RequestSyntax>`_.
| Sending s3-select request to RGW using AWS CLI, should follow `AWS command reference <https://docs.aws.amazon.com/cli/latest/reference/s3api/select-object-content.html>`_.
| below is an example of it.
::
aws --endpoint-url http://localhost:8000 s3api select-object-content
--bucket {BUCKET-NAME}
--expression-type 'SQL'
--input-serialization
'{"CSV": {"FieldDelimiter": "," , "QuoteCharacter": "\"" , "RecordDelimiter" : "\n" , "QuoteEscapeCharacter" : "\\" , "FileHeaderInfo": "USE" }, "CompressionType": "NONE"}'
--output-serialization '{"CSV": {"FieldDelimiter": ":", "RecordDelimiter":"\t", "QuoteFields": "ALWAYS"}}'
--key {OBJECT-NAME}
--request-progress '{"Enabled": True}'
--expression "select count(0) from s3object where int(_1)<10;" output.csv
Input Serialization
~~~~~~~~~~~~~~~~~~~
| **FileHeaderInfo** -> (string)
| Describes the first line of input. Valid values are:
|
| **NONE** : The first line is not a header.
| **IGNORE** : The first line is a header, but you can't use the header values to indicate the column in an expression.
| it's possible to use column position (such as _1, _2, …) to indicate the column (``SELECT s._1 FROM S3OBJECT s``).
| **USE** : First line is a header, and you can use the header value to identify a column in an expression (``SELECT column_name FROM S3OBJECT``).
|
| **QuoteEscapeCharacter** -> (string)
| A single character used for escaping the quotation mark character inside an already escaped value.
|
| **RecordDelimiter** -> (string)
| A single character is used to separate individual records in the input. Instead of the default value, you can specify an arbitrary delimiter.
|
| **FieldDelimiter** -> (string)
| A single character is used to separate individual fields in a record. You can specify an arbitrary delimiter.
Output Serialization
~~~~~~~~~~~~~~~~~~~~
| **AWS CLI example**
| aws s3api select-object-content \
| --bucket "mybucket" \
| --key keyfile1 \
| --expression "SELECT * FROM s3object s" \
| --expression-type 'SQL' \
| --request-progress '{"Enabled": false}' \
| --input-serialization '{"CSV": {"FieldDelimiter": ","}, "CompressionType": "NONE"}' \
| --output-serialization '{"CSV": {"FieldDelimiter": ":", "RecordDelimiter":"\\t", "QuoteFields": "ALWAYS"}}' /dev/stdout
|
| **QuoteFields** -> (string)
| Indicates whether to use quotation marks around output fields.
| **ALWAYS**: Always use quotation marks for output fields.
| **ASNEEDED** (not implemented): Use quotation marks for output fields when needed.
|
| **RecordDelimiter** -> (string)
| A single character is used to separate individual records in the output. Instead of the default value, you can specify an
| arbitrary delimiter.
|
| **FieldDelimiter** -> (string)
| The value used to separate individual fields in a record. You can specify an arbitrary delimiter.
CSV parsing behavior
--------------------
| s3-select engine contains a CSV parser, which parses s3-objects as follows.
| - each row ends with row-delimiter.
| - field-separator separates between adjacent columns, successive field separator defines NULL column.
| - quote-character overrides field separator, meaning, field separator becomes as any character between quotes.
| - escape character disables any special characters, except for row delimiter.
| Below are examples of CSV parsing rules.
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Feature | Description | input ==> tokens |
+=================================+=================+=======================================================================+
| NULL | successive | ,,1,,2, ==> {null}{null}{1}{null}{2}{null} |
| | field delimiter | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| QUOTE | quote character | 11,22,"a,b,c,d",last ==> {11}{22}{"a,b,c,d"}{last} |
| | overrides | |
| | field delimiter | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| Escape | escape char | 11,22,str=\\"abcd\\"\\,str2=\\"123\\",last |
| | overrides | ==> {11}{22}{str="abcd",str2="123"}{last} |
| | meta-character. | |
| | escape removed | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| row delimiter | no close quote, | 11,22,a="str,44,55,66 |
| | row delimiter is| ==> {11}{22}{a="str,44,55,66} |
| | closing line | |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
| csv header info | FileHeaderInfo | "**USE**" value means each token on first line is column-name, |
| | tag | "**IGNORE**" value means to skip the first line |
+---------------------------------+-----------------+-----------------------------------------------------------------------+
BOTO3
-----
| using BOTO3 is "natural" and easy due to AWS-cli support.
::
import pprint
def run_s3select(bucket,key,query,column_delim=",",row_delim="\n",quot_char='"',esc_char='\\',csv_header_info="NONE"):
s3 = boto3.client('s3',
endpoint_url=endpoint,
aws_access_key_id=access_key,
region_name=region_name,
aws_secret_access_key=secret_key)
result = ""
try:
r = s3.select_object_content(
Bucket=bucket,
Key=key,
ExpressionType='SQL',
InputSerialization = {"CSV": {"RecordDelimiter" : row_delim, "FieldDelimiter" : column_delim,"QuoteEscapeCharacter": esc_char, "QuoteCharacter": quot_char, "FileHeaderInfo": csv_header_info}, "CompressionType": "NONE"},
OutputSerialization = {"CSV": {}},
Expression=query,
RequestProgress = {"Enabled": progress})
except ClientError as c:
result += str(c)
return result
for event in r['Payload']:
if 'Records' in event:
result = ""
records = event['Records']['Payload'].decode('utf-8')
result += records
if 'Progress' in event:
print("progress")
pprint.pprint(event['Progress'],width=1)
if 'Stats' in event:
print("Stats")
pprint.pprint(event['Stats'],width=1)
if 'End' in event:
print("End")
pprint.pprint(event['End'],width=1)
return result
run_s3select(
"my_bucket",
"my_csv_object",
"select int(_1) as a1, int(_2) as a2 , (a1+a2) as a3 from s3object where a3>100 and a3<300;")
S3 SELECT Responses
-------------------
Error Response
~~~~~~~~~~~~~~
| <?xml version="1.0" encoding="UTF-8"?>
| <Error>
| <Code>NoSuchKey</Code>
| <Message>The resource you requested does not exist</Message>
| <Resource>/mybucket/myfoto.jpg</Resource>
| <RequestId>4442587FB7D0A2F9</RequestId>
| </Error>
Report Response
~~~~~~~~~~~~~~~
| HTTP/1.1 200
| <?xml version="1.0" encoding="UTF-8"?>
| <Payload>
| <Records>
| <Payload>blob</Payload>
| </Records>
| <Stats>
| <Details>
| <BytesProcessed>long</BytesProcessed>
| <BytesReturned>long</BytesReturned>
| <BytesScanned>long</BytesScanned>
| </Details>
| </Stats>
| <Progress>
| <Details>
| <BytesProcessed>long</BytesProcessed>
| <BytesReturned>long</BytesReturned>
| <BytesScanned>long</BytesScanned>
| </Details>
| </Progress>
| <Cont>
| </Cont>
| <End>
| </End>
| </Payload>
Response Description
~~~~~~~~~~~~~~~~~~~~
| For CEPH S3 Select, responses can be messages of the following types:
|
| **Records message**: Can contain a single record, partial records, or multiple records. Depending on the size of the result, a response can contain one or more of these messages.
|
| **Error message**: Upon an error being detected, RGW returns 400 Bad Request, and a specific error message sends back to the client, according to its type.
|
| **Continuation message**: Ceph S3 periodically sends this message to keep the TCP connection open.
| These messages appear in responses at random. The client must detect the message type and process it accordingly.
|
| **Progress message**: Ceph S3 periodically sends this message if requested. It contains information about the progress of a query that has started but has not yet been completed.
|
| **Stats message**: Ceph S3 sends this message at the end of the request. It contains statistics about the query.
|
| **End message**: Indicates that the request is complete, and no more messages will be sent. You should not assume that request is complete until the client receives an End message.