xref: /freebsd/contrib/kyua/store/schema_v1.sql (revision 06c3fb2749bda94cb5201f81ffdb8fa6c3161b2e)
1-- Copyright 2011 The Kyua Authors.
2-- All rights reserved.
3--
4-- Redistribution and use in source and binary forms, with or without
5-- modification, are permitted provided that the following conditions are
6-- met:
7--
8-- * Redistributions of source code must retain the above copyright
9--   notice, this list of conditions and the following disclaimer.
10-- * Redistributions in binary form must reproduce the above copyright
11--   notice, this list of conditions and the following disclaimer in the
12--   documentation and/or other materials provided with the distribution.
13-- * Neither the name of Google Inc. nor the names of its contributors
14--   may be used to endorse or promote products derived from this software
15--   without specific prior written permission.
16--
17-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
18-- "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
19-- LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
20-- A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
21-- OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
22-- SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
23-- LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
24-- DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
25-- THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
26-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
27-- OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28
29-- \file store/schema_v1.sql
30-- Definition of the database schema.
31--
32-- The whole contents of this file are wrapped in a transaction.  We want
33-- to ensure that the initial contents of the database (the table layout as
34-- well as any predefined values) are written atomically to simplify error
35-- handling in our code.
36
37
38BEGIN TRANSACTION;
39
40
41-- -------------------------------------------------------------------------
42-- Metadata.
43-- -------------------------------------------------------------------------
44
45
46-- Database-wide properties.
47--
48-- Rows in this table are immutable: modifying the metadata implies writing
49-- a new record with a larger timestamp value, and never updating previous
50-- records.  When extracting data from this table, the only "valid" row is
51-- the one with the highest timestamp.  All the other rows are meaningless.
52--
53-- In other words, this table keeps the history of the database metadata.
54-- The only reason for doing this is for debugging purposes.  It may come
55-- in handy to know when a particular database-wide operation happened if
56-- it turns out that the database got corrupted.
57CREATE TABLE metadata (
58    timestamp TIMESTAMP PRIMARY KEY CHECK (timestamp >= 0),
59    schema_version INTEGER NOT NULL CHECK (schema_version >= 1)
60);
61
62
63-- -------------------------------------------------------------------------
64-- Contexts.
65-- -------------------------------------------------------------------------
66
67
68-- Execution contexts.
69--
70-- A context represents the execution environment of a particular action.
71-- Because every action is invoked by the user, the context may have
72-- changed.  We record such information for information and debugging
73-- purposes.
74CREATE TABLE contexts (
75    context_id INTEGER PRIMARY KEY AUTOINCREMENT,
76    cwd TEXT NOT NULL
77
78    -- TODO(jmmv): Record the run-time configuration.
79);
80
81
82-- Environment variables of a context.
83CREATE TABLE env_vars (
84    context_id INTEGER REFERENCES contexts,
85    var_name TEXT NOT NULL,
86    var_value TEXT NOT NULL,
87
88    PRIMARY KEY (context_id, var_name)
89);
90
91
92-- -------------------------------------------------------------------------
93-- Actions.
94-- -------------------------------------------------------------------------
95
96
97-- Representation of user-initiated actions.
98--
99-- An action is an operation initiated by the user.  At the moment, the
100-- only operation Kyua supports is the "test" operation (in the future we
101-- should be able to store, e.g. build logs).  To keep things simple the
102-- database schema is restricted to represent one single action.
103CREATE TABLE actions (
104    action_id INTEGER PRIMARY KEY AUTOINCREMENT,
105    context_id INTEGER REFERENCES contexts
106);
107
108
109-- -------------------------------------------------------------------------
110-- Test suites.
111--
112-- The tables in this section represent all the components that form a test
113-- suite.  This includes data about the test suite itself (test programs
114-- and test cases), and also the data about particular runs (test results).
115--
116-- As you will notice, every object belongs to a particular action, has a
117-- unique identifier and there is no attempt to deduplicate data.  This
118-- comes from the fact that a test suite is not "stable" over time: i.e. on
119-- each execution of the test suite, test programs and test cases may have
120-- come and gone.  This has the interesting result of making the
121-- distinction of a test case and a test result a pure syntactic
122-- difference, because there is always a 1:1 relation.
123--
124-- The code that performs the processing of the actions is the component in
125-- charge of finding correlations between test programs and test cases
126-- across different actions.
127-- -------------------------------------------------------------------------
128
129
130-- Representation of a test program.
131--
132-- At the moment, there are no substantial differences between the
133-- different interfaces, so we can simplify the design by with having a
134-- single table representing all test caes.  We may need to revisit this in
135-- the future.
136CREATE TABLE test_programs (
137    test_program_id INTEGER PRIMARY KEY AUTOINCREMENT,
138    action_id INTEGER REFERENCES actions,
139
140    -- The absolute path to the test program.  This should not be necessary
141    -- because it is basically the concatenation of root and relative_path.
142    -- However, this allows us to very easily search for test programs
143    -- regardless of where they were executed from.  (I.e. different
144    -- combinations of root + relative_path can map to the same absolute path).
145    absolute_path NOT NULL,
146
147    -- The path to the root of the test suite (where the Kyuafile lives).
148    root TEXT NOT NULL,
149
150    -- The path to the test program, relative to the root.
151    relative_path NOT NULL,
152
153    -- Name of the test suite the test program belongs to.
154    test_suite_name TEXT NOT NULL,
155
156    -- The name of the test program interface.
157    --
158    -- Note that this indicates both the interface for the test program and
159    -- its test cases.  See below for the corresponding detail tables.
160    interface TEXT NOT NULL
161);
162
163
164-- Representation of a test case.
165--
166-- At the moment, there are no substantial differences between the
167-- different interfaces, so we can simplify the design by with having a
168-- single table representing all test caes.  We may need to revisit this in
169-- the future.
170CREATE TABLE test_cases (
171    test_case_id INTEGER PRIMARY KEY AUTOINCREMENT,
172    test_program_id INTEGER REFERENCES test_programs,
173    name TEXT NOT NULL
174);
175
176
177-- Representation of test case results.
178--
179-- Note that there is a 1:1 relation between test cases and their results.
180-- This is a result of storing the information of a test case on every
181-- single action.
182CREATE TABLE test_results (
183    test_case_id INTEGER PRIMARY KEY REFERENCES test_cases,
184    result_type TEXT NOT NULL,
185    result_reason TEXT,
186
187    start_time TIMESTAMP NOT NULL,
188    end_time TIMESTAMP NOT NULL
189);
190
191
192-- Collection of output files of the test case.
193CREATE TABLE test_case_files (
194    test_case_id INTEGER NOT NULL REFERENCES test_cases,
195
196    -- The raw name of the file.
197    --
198    -- The special names '__STDOUT__' and '__STDERR__' are reserved to hold
199    -- the stdout and stderr of the test case, respectively.  If any of
200    -- these are empty, there will be no corresponding entry in this table
201    -- (hence why we do not allow NULLs in these fields).
202    file_name TEXT NOT NULL,
203
204    -- Pointer to the file itself.
205    file_id INTEGER NOT NULL REFERENCES files,
206
207    PRIMARY KEY (test_case_id, file_name)
208);
209
210
211-- -------------------------------------------------------------------------
212-- Detail tables for the 'atf' test interface.
213-- -------------------------------------------------------------------------
214
215
216-- Properties specific to 'atf' test cases.
217--
218-- This table contains the representation of singly-valued properties such
219-- as 'timeout'.  Properties that can have more than one (textual) value
220-- are stored in the atf_test_cases_multivalues table.
221--
222-- Note that all properties can be NULL because test cases are not required
223-- to define them.
224CREATE TABLE atf_test_cases (
225    test_case_id INTEGER PRIMARY KEY REFERENCES test_cases,
226
227    -- Free-form description of the text case.
228    description TEXT,
229
230    -- Either 'true' or 'false', indicating whether the test case has a
231    -- cleanup routine or not.
232    has_cleanup TEXT,
233
234    -- The timeout for the test case in microseconds.
235    timeout INTEGER,
236
237    -- The amount of physical memory required by the test case.
238    required_memory INTEGER,
239
240    -- Either 'root' or 'unprivileged', indicating the privileges required by
241    -- the test case.
242    required_user TEXT
243);
244
245
246-- Representation of test case properties that have more than one value.
247--
248-- While we could store the flattened values of the properties as provided
249-- by the test case itself, we choose to store the processed, split
250-- representation.  This allows us to perform queries about the test cases
251-- directly on the database without doing text processing; for example,
252-- "get all test cases that require /bin/ls".
253CREATE TABLE atf_test_cases_multivalues (
254    test_case_id INTEGER REFERENCES test_cases,
255
256    -- The name of the property; for example, 'require.progs'.
257    property_name TEXT NOT NULL,
258
259    -- One of the values of the property.
260    property_value TEXT NOT NULL
261);
262
263
264-- -------------------------------------------------------------------------
265-- Detail tables for the 'plain' test interface.
266-- -------------------------------------------------------------------------
267
268
269-- Properties specific to 'plain' test programs.
270CREATE TABLE plain_test_programs (
271    test_program_id INTEGER PRIMARY KEY REFERENCES test_programs,
272
273    -- The timeout for the test cases in this test program.  While this
274    -- setting has a default value for test programs, we explicitly record
275    -- the information here.  The "default value" used when the test
276    -- program was run might change over time, so we want to know what it
277    -- was exactly when this was run.
278    timeout INTEGER NOT NULL
279);
280
281
282-- -------------------------------------------------------------------------
283-- Verbatim files.
284-- -------------------------------------------------------------------------
285
286
287-- Copies of files or logs generated during testing.
288--
289-- TODO(jmmv): This will probably grow to unmanageable sizes.  We should add a
290-- hash to the file contents and use that as the primary key instead.
291CREATE TABLE files (
292    file_id INTEGER PRIMARY KEY,
293
294    contents BLOB NOT NULL
295);
296
297
298-- -------------------------------------------------------------------------
299-- Initialization of values.
300-- -------------------------------------------------------------------------
301
302
303-- Create a new metadata record.
304--
305-- For every new database, we want to ensure that the metadata is valid if
306-- the database creation (i.e. the whole transaction) succeeded.
307--
308-- If you modify the value of the schema version in this statement, you
309-- will also have to modify the version encoded in the backend module.
310INSERT INTO metadata (timestamp, schema_version)
311    VALUES (strftime('%s', 'now'), 1);
312
313
314COMMIT TRANSACTION;
315