Awesome
dbt-audit-helper
Useful macros when performing data audits
Contents
- Installation instructions
- Compare Data Outputs
- Compare and classify:
- Quick identical check:
- compare_row_counts
- Compare Columns
- compare_column_values
- compare_all_columns
- Compare which columns differ:
- compare_relation_columns
- Advanced Usage
- Legacy Macros
- Internal Macros
Installation instructions
New to dbt packages? Read more about them here.
- Include this package in your
packages.yml
file β check here for the latest version number. - Run
dbt deps
to install the package.
Compare Data Outputs
compare_and_classify_query_results (source)
Generates a row-by-row comparison of two queries, as well as summary stats of added, removed, identical and modified records. This prevents you from having to query your comparison tables multiple times to get raw data and summary data.
Output
order_id | order_date | status | dbt_audit_in_a | dbt_audit_in_b | dbt_audit_row_status | dbt_audit_num_rows_in_status | dbt_audit_sample_number |
---|---|---|---|---|---|---|---|
1 | 2024-01-01 | completed | True | True | identical | 1 | 1 |
2 | 2024-01-02 | completed | True | False | modified | 2 | 1 |
2 | 2024-01-02 | returned | False | True | modified | 2 | 1 |
3 | 2024-01-03 | completed | True | False | modified | 2 | 2 |
3 | 2024-01-03 | completed | False | True | modified | 2 | 2 |
4 | 2024-01-04 | completed | False | True | added | 1 | 1 |
Note that there are 4 rows with the modified
status, but dbt_audit_num_rows_in_status
says 2. This is because it is counting each primary key only once.
Arguments
a_query
andb_query
: The queries you want to compare.primary_key_columns
(required): A list of primary key column(s) used to join the queries together for comparison.columns
(required): The columns present in the two queries you want to compare.sample_limit
: Number of sample records to return per status. Defaults to 20.
Usage
{% set old_query %}
select
id as order_id,
amount,
customer_id
from old_database.old_schema.fct_orders
{% endset %}
{% set new_query %}
select
order_id,
amount,
customer_id
from {{ ref('fct_orders') }}
{% endset %}
{{
audit_helper.compare_and_classify_query_results(
old_query,
new_query,
primary_key_columns=['order_id'],
columns=['order_id', 'amount', 'customer_id']
)
}}
compare_and_classify_relation_rows (source)
A wrapper to compare_which_query_columns_differ
, except it takes two Relations (instead of two queries).
Each relation must have the same columns with the same names, but they do not have to be in the same order.
Arguments
a_relation
andb_relation
: The relations you want to compare.primary_key_columns
(required): A list of primary key column(s) used to join the queries together for comparison.columns
(optional): The columns present in the two queries you want to compare. Build long lists with a few exclusions withdbt_utils.get_filtered_columns_in_relation
, or passNone
and the macro will find all intersecting columns automatically.sample_limit
: Number of sample records to return per status. Defaults to 20.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_and_classify_relation_rows(
a_relation = old_relation,
b_relation = dbt_relation,
primary_key_columns = ["order_id"],
columns = None
) }}
quick_are_queries_identical (source)
On supported adapters (currently Snowflake and BigQuery), take a hash of all rows in two queries and compare them.
This can be calculated relatively quickly compared to other macros in this package and can efficiently provide reassurance that a refactor introduced no changes.
Output
are_tables_identical |
---|
true |
Arguments
a_query
andb_query
: The queries you want to compare.columns
(required): The columns present in the two queries you want to compare.
Usage
{% set old_query %}
select * from old_database.old_schema.dim_product
{% endset %}
{% set new_query %}
select * from {{ ref('dim_product') }}
{% endset %}
{{ audit_helper.compare_column_values(
a_query = old_query,
b_query = new_query,
columns=['order_id', 'amount', 'customer_id']
)
}}
quick_are_relations_identical (source)
A wrapper to quick_are_queries_identical
, except it takes two Relations (instead of two queries).
Each relation must have the same columns with the same names, but they do not have to be in the same order. Build long lists with a few exclusions with dbt_utils.get_filtered_columns_in_relation
, or pass None
and the macro will find all intersecting columns automatically.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.quick_are_relations_identical(
a_relation = old_relation,
b_relation = dbt_relation,
columns = None
) }}
compare_row_counts (source)
This macro does a simple comparison of the row counts in two relations.
Output
Calling this macro on two different relations will return a very simple table comparing the row counts in each relation.
relation_name | total_records |
---|---|
target_database.target_schema.my_a_relation | 34,231 |
target_database.target_schema.my_b_relation | 24,789 |
Arguments
a_relation
andb_relation
: The Relations you want to compare.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_row_counts(
a_relation = old_relation,
b_relation = dbt_relation
) }}
Compare Columns
compare_which_query_columns_differ (source)
This macro generates SQL that can be used to detect which columns returned by two queries contain any value level changes.
It does not return the magnitude of the change, only whether or not a difference has occurred. Only records that exist in both queries (as determined by the primary key) are considered.
Output
The generated query returns whether or not each column has any differences:
column_name | has_difference |
---|---|
order_id | False |
customer_id | False |
order_date | True |
status | False |
amount | True |
Arguments
a_query
andb_query
: The queries to compareprimary_key_columns
(required): A list of primary key column(s) used to join the queries together for comparison.columns
(required): The columns present in the two queries you want to compare.
compare_which_relation_columns_differ (source)
A wrapper to compare_which_query_columns_differ
, except it takes two Relations (instead of two queries).
Each relation must have the same columns with the same names, but they do not have to be in the same order. Build long lists with a few exclusions with dbt_utils.get_filtered_columns_in_relation
, or pass None
and the macro will find all intersecting columns automatically.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_which_relation_columns_differ(
a_relation = old_relation,
b_relation = dbt_relation,
primary_key_columns = ["order_id"],
columns = None
) }}
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{% set columns = dbt_utils.get_filtered_columns_in_relation(old_relation, exclude=["loaded_at"]) %}
{{ audit_helper.compare_which_relation_columns_differ(
a_relation = old_relation,
b_relation = dbt_relation,
primary_key_columns = ["order_id"],
columns = columns
) }}
compare_column_values (source)
This macro generates SQL that can be used to compare a column's values across two queries. This macro is useful when you've used the compare_which_query_columns_differ
macro to identify a column with differing values and want to understand how many discrepancies are caused by that column.
Output
The generated query returns a summary of the count of rows where the column's values:
- match perfectly
- differ
- are null in
a
orb
or both - are missing from
a
orb
match_status | count | percent_of_total |
---|---|---|
β : perfect match | 37,721 | 79.03 |
β : both are null | 5,789 | 12.13 |
π€·: missing from a | 5 | 0.01 |
π€·: missing from b | 20 | 0.04 |
π€·: value is null in a only | 59 | 0.12 |
π€·: value is null in b only | 73 | 0.15 |
β: βvalues do not match | 4,064 | 8.51 |
Arguments
a_query
andb_query
: The queries you want to compare.primary_key
: The primary key of the model. Used to sort unmatched results for row-by-row validation. Must be a unique key (unqiue and nevernull
) in both tables, otherwise the join won't work as expected.column_to_compare
: The column you want to compare.emojis
(optional): Boolean argument that defaults totrue
and displays β , π€· and β for easier visual scanning. If you don't want to include emojis in the output, set it tofalse
.a_relation_name
andb_relation_name
(optional): Names of the queries you want displayed in the output. Default isa
andb
.
Usage
{% set old_query %}
select * from old_database.old_schema.dim_product
where is_latest
{% endset %}
{% set new_query %}
select * from {{ ref('dim_product') }}
{% endset %}
{{ audit_helper.compare_column_values(
a_query = old_query,
b_query = new_query,
primary_key = "product_id",
column_to_compare = "status"
) }}
compare_all_columns (source)
Similar to compare_column_values
, except it can be used to compare all columns' values across two relations. This macro is useful when you've used the compare_queries
macro and found that a significant number of your records don't match and want to understand how many discrepancies are caused by each column.
Output
By default, the generated query returns a summary of the count of rows where the each column's values:
- match perfectly
- differ
- are null in
a
orb
or both - are missing from
a
orb
column_name | perfect_match | null_in_a | null_in_b | missing_from_a | missing_from_b | conflicting_values |
---|---|---|---|---|---|---|
order_id | 10 | 0 | 0 | 0 | 0 | 0 |
order_date | 2 | 0 | 0 | 0 | 0 | 8 |
order_status | 6 | 4 | 4 | 0 | 0 | 0 |
Setting the summarize
argument to false
lets you check the match status of a specific column value of a specifc row:
primary_key | column_name | perfect_match | null_in_a | null_in_b | missing_from_a | missing_from_b | conflicting_values |
---|---|---|---|---|---|---|---|
1 | order_id | true | false | false | false | false | false |
1 | order_date | false | false | false | false | false | true |
1 | order_status | false | true | true | false | false | false |
... | ... | ... | ... | ... | ... | ... | ... |
Arguments
a_relation
andb_relation
: The relations you want to compare. Any two relations that have the same columns can be used.primary_key
: The primary key of the model (or concatenated sql to create the primary key). Used to sort unmatched results for row-by-row validation. Must be a unique key (unique and nevernull
) in both tables, otherwise the join won't work as expected.exclude_columns
(optional): Any columns you wish to exclude from the validation.summarize
(optional): Allows you to switch between a summary or detailed view of the compared data. Defaults totrue
.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_all_columns(
a_relation = old_relation,
b_relation = dbt_relation,
primary_key = "order_id"
) }}
compare_relation_columns (source)
This macro generates SQL that can be used to compare the schema (ordinal position and data types of columns) of two relations. This is especially useful when:
- Comparing a new version of a relation with an old one, to make sure that the structure is the same
- Helping figure out why a
union
of two relations won't work (often because the data types are different)
Output
column_name | a_ordinal_position | b_ordinal_position | a_data_type | b_data_type | has_ordinal_position_match | has_data_type_match | in_a_only | in_b_only | in_both |
---|---|---|---|---|---|---|---|---|---|
order_id | 1 | 1 | integer | integer | True | True | False | False | True |
customer_id | 2 | 2 | integer | integer | True | True | False | False | True |
order_date | 3 | 3 | timestamp | date | True | False | False | False | True |
status | 4 | 5 | character varying | character varying | False | True | False | False | True |
amount | 5 | 4 | bigint | bigint | False | True | False | False | True |
Note: For adapters other than BigQuery, Postgres, Redshift, and Snowflake, the ordinal position is inferred based on the response from dbt Core's adapter.get_columns_in_relation()
, as opposed to being loaded from the information schema.
Arguments
a_relation
andb_relation
: The relations you want to compare.
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_relation_columns(
a_relation=old_relation,
b_relation=dbt_relation
) }}
Advanced Usage
Print Output To Logs
You may want to print the output of the query generated by an audit helper macro to your logc (instead of previewing the results).
To do so, you can alternatively store the results of your query and print it to the logs.
For example, using the compare_column_values
macro:
{% set old_query %}
select * from old_database.old_schema.dim_product
where is_latest
{% endset %}
{% set new_query %}
select * from {{ ref('dim_product') }}
{% endset %}
{% set audit_query = audit_helper.compare_column_values(
a_query = old_query,
b_query = new_query,
primary_key = "product_id",
column_to_compare = "status"
) %}
{% set audit_results = run_query(audit_query) %}
{% if execute %}
{% do audit_results.print_table() %}
{% endif %}
The .print_table()
function is not compatible with dbt Cloud, so an adjustment needs to be made in order to print the results. Add the following code to a new macro file:
{% macro print_audit_output() %}
{%- set columns_to_compare=adapter.get_columns_in_relation(ref('fct_orders')) -%}
{% set old_etl_relation_query %}
select * from public.dim_product
{% endset %}
{% set new_etl_relation_query %}
select * from {{ ref('fct_orders') }}
{% endset %}
{% if execute %}
{% for column in columns_to_compare %}
{{ log('Comparing column "' ~ column.name ~'"', info=True) }}
{% set audit_query = audit_helper.compare_column_values(
a_query=old_etl_relation_query,
b_query=new_etl_relation_query,
primary_key="order_id",
column_to_compare=column.name
) %}
{% set audit_results = run_query(audit_query) %}
{% do log(audit_results.column_names, info=True) %}
{% for row in audit_results.rows %}
{% do log(row.values(), info=True) %}
{% endfor %}
{% endfor %}
{% endif %}
{% endmacro %}
To run the macro, execute dbt run-operation print_audit_output()
in the command bar.
Use Output For Custom Singular Test
If desired, you can use the audit helper macros to add a dbt test to your project to protect against unwanted changes to your data outputs.
For example, using the compare_all_columns
macro, you could set up a test that will fail if any column values do not match.
Users can configure what exactly constitutes a value match or failure. If there is a test failure, results can be inspected in the warehouse. The primary key and the column name can be included in the test output that gets written to the warehouse. This enables the user to join test results to relevant tables in your dev or prod schema to investigate the error.
Note: this test should only be used on (and will only work on) models that have a primary key that is reliably unique
and not_null
. Generic dbt tests should be used to ensure the model being tested meets the requirements of unique
and not_null
.
To create a test for the stg_customers
model, create a custom test
in the tests
subdirectory of your dbt project that looks like this:
{{
audit_helper.compare_all_columns(
a_relation=ref('stg_customers'), -- in a test, this ref will compile as your dev or PR schema.
b_relation=api.Relation.create(database='dbt_db', schema='analytics_prod', identifier='stg_customers'), -- you can explicitly write a relation to select your production schema, or any other db/schema/table you'd like to use for comparison testing.
exclude_columns=['updated_at'],
primary_key='id'
)
}}
where not perfect_match
The where not perfect_match
statement is an example of a filter you can apply to define whatconstitutes a test failure. The test will fail if any rows don't meet the requirement of a perfect match. Failures would include:
- If the primary key exists in both relations, but one model has a null value in a column.
- If a primary key is missing from one relation.
- If the primary key exists in both relations, but the value conflicts.
If you'd like the test to only fail when there are conflicting values, you could configure it like this:
{{
audit_helper.compare_all_columns(
a_relation=ref('stg_customers'),
b_relation=api.Relation.create(database='dbt_db', schema='analytics_prod', identifier='stg_customers'),
primary_key='id'
)
}}
where conflicting_values
If you want to create test results that include columns from the model itself for easier inspection, that can be written into the test:
{{
audit_helper.compare_all_columns(
a_relation=ref('stg_customers'),
b_relation=api.Relation.create(database='dbt_db', schema='analytics_prod', identifier='stg_customers'),
exclude_columns=['updated_at'],
primary_key='id'
)
}}
left join {{ ref('stg_customers') }} using(id)
This structure also allows for the test to group or filter by any attribute in the model or in the macro's output as part of the test, for example:
with base_test_cte as (
{{
audit_helper.compare_all_columns(
a_relation=ref('stg_customers'),
b_relation=api.Relation.create(database='dbt_db', schema='analytics_prod', identifier='stg_customers'),
exclude_columns=['updated_at'],
primary_key='id'
)
}}
left join {{ ref('stg_customers') }} using(id)
where conflicting_values
)
select
status, -- assume there's a "status" column in stg_customers
count(distinct case when conflicting_values then id end) as conflicting_values
from base_test_cte
group by 1
You can write a compare_all_columns
test on individual table; and the test will be run as part of a full test suite run - dbt test --select stg_customers
.
If you want to store results in the warehouse for further analysis, add the --store-failures
flag.
Legacy Macros
compare_queries (source)
[!TIP] Consider
compare_and_classify_query_results
instead
This macro generates SQL that can be used to do a row-by-row comparison of two queries. This macro is particularly useful when you want to check that a refactored model (or a model that you are moving over from a legacy system) are identical. compare_queries
provides flexibility when:
- You need to filter out records from one of the relations.
- You need to rename or recast some columns to get them to match up.
- You only want to compare a small number of columns, so it's easier to write the columns you want to compare, rather than the columns you want to exclude.
Output
By default, the generated query returns a summary of the count of rows that are unique to a
, unique to b
, and identical:
in_a | in_b | count | percent_of_total |
---|---|---|---|
True | True | 6870 | 99.74 |
True | False | 9 | 0.13 |
False | True | 9 | 0.13 |
Setting the summarize
argument to false
lets you check which rows do not match between relations:
order_id | order_date | status | in_a | in_b |
---|---|---|---|---|
1 | 2018-01-01 | completed | True | False |
1 | 2018-01-01 | returned | False | True |
2 | 2018-01-02 | completed | True | False |
2 | 2018-01-02 | returned | False | True |
Arguments
a_query
andb_query
: The queries you want to compare.primary_key
(optional): The primary key of the model (or concatenated sql to create the primary key). Used to sort unmatched results for row-by-row validation.summarize
(optional): Allows you to switch between a summary or detailed view of the compared data. Acceptstrue
orfalse
values. Defaults totrue
.limit
(optional): Allows you to limit the number of rows returned whensummarize = False
. Defaults toNone
(no limit).
Usage
{% set old_query %}
select
id as order_id,
amount,
customer_id
from old_database.old_schema.fct_orders
{% endset %}
{% set new_query %}
select
order_id,
amount,
customer_id
from {{ ref('fct_orders') }}
{% endset %}
{{ audit_helper.compare_queries(
a_query = old_query,
b_query = new_query,
primary_key = "order_id"
) }}
compare_relations (source)
[!TIP] Consider
compare_and_classify_relation_rows
instead
A wrapper to compare_queries
, except it takes two Relations (instead of two queries).
Each relation must have the same columns with the same names, but they do not have to be in the same order. Use exclude_columns
if some columns only exist in one relation.
Arguments
a_relation
andb_relation
: The relations you want to compare.primary_key
(optional): The primary key of the model (or concatenated sql to create the primary key). Used to sort unmatched results for row-by-row validation.exclude_columns
(optional): Any columns you wish to exclude from the validation.summarize
(optional): Allows you to switch between a summary or detailed view of the compared data. Acceptstrue
orfalse
values. Defaults totrue
.limit
(optional): Allows you to limit the number of rows returned whensummarize = False
. Defaults toNone
(no limit).
Usage
{% set old_relation = adapter.get_relation(
database = "old_database",
schema = "old_schema",
identifier = "fct_orders"
) -%}
{% set dbt_relation = ref('fct_orders') %}
{{ audit_helper.compare_relations(
a_relation = old_relation,
b_relation = dbt_relation,
exclude_columns = ["loaded_at"],
primary_key = "order_id"
) }}
Internal Macros
Macros prefixed with an _
(such as those in the utils/
subdirectory) are for private use. They are not documented or contracted and can change without notice.