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####################  Ora2Pg Configuration file   #####################
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# Support for including a common config file that may contain any
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# of the following configuration directives.
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#IMPORT	common.conf
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#------------------------------------------------------------------------------
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# INPUT SECTION (Oracle connection or input file)
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#------------------------------------------------------------------------------
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# Set this directive to a file containing PL/SQL Oracle Code like function,
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# procedure or a full package body to prevent Ora2Pg from connecting to an
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# Oracle database end just apply his conversion tool to the content of the
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# file. This can only be used with the following export type: PROCEDURE,
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# FUNCTION or PACKAGE. If you don't know what you do don't use this directive.
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#INPUT_FILE	ora_plsql_src.sql
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# Set the Oracle home directory
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ORACLE_HOME	/usr/lib/oracle/11.2/client64
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# Set Oracle database connection (datasource, user, password)
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ORACLE_DSN	dbi:Oracle:host=172.25.102.41;sid=sigmater
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ORACLE_USER	dbti313
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ORACLE_PWD	sysdbti
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27
# Set this to 1 if you connect as simple user and can not extract things
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# from the DBA_... tables. It will use tables ALL_... This will not works
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# with GRANT export, you should use an Oracle DBA username at ORACLE_USER
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USER_GRANTS     0
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32
# Trace all to stderr
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DEBUG		0
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35
# This directive can be used to send an initial command to Oracle, just after
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# the connection. For example to unlock a policy before reading objects.
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ORA_INITIAL_COMMAND
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39
 
40
#------------------------------------------------------------------------------
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# SCHEMA SECTION (Oracle schema to export and use of schema in PostgreSQL)
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#------------------------------------------------------------------------------
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44
# Export Oracle schema to PostgreSQL schema
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EXPORT_SCHEMA	0
46
 
47
# Oracle schema/owner to use
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SCHEMA		DBTI313
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50
# Enable/disable the CREATE SCHEMA SQL order at starting of the output file.
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# It is enable by default and concern on TABLE export type.
52
CREATE_SCHEMA	0
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54
# Enable this directive to force Oracle to compile schema before exporting code.
55
# This will ask to Oracle to validate the PL/SQL that could have been invalidate
56
# after a export/import for example. If the value is 1 ora2pg will execute:
57
# DBMS_UTILITY.compile_schema(schema => sys_context('USERENV', 'SESSION_USER'));
58
# but if you provide the name of a particular schema it will use the following
59
# command: DBMS_UTILITY.compile_schema(schema => 'schemaname');
60
COMPILE_SCHEMA	0
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62
# PostreSQL search path schema to use. Can be a comma delimited list,
63
# for example: users_schema,public will result in the following PostgreSQL 
64
# schema path: SET search_path = users_schema,public;
65
# The default is the value defined for the connection user in PostgreSQL.
66
#PG_SCHEMA	
67
PG_SCHEMA dbti	
68
 
69
# Use this directive to add a specific schema to the search path to look
70
# for PostGis functions.
71
#POSTGIS_SCHEMA		
72
 
73
# Allow to add a comma separated list of system user to exclude from 
74
# from Oracle extraction. Oracle have many of them following the modules
75
# installed. By default it will suppress all object owned by the following
76
# system users:
77
#        CTXSYS,DBSNMP,EXFSYS,LBACSYS,MDSYS,MGMT_VIEW,OLAPSYS,ORDDATA,OWBSYS,
78
#        ORDPLUGINS,ORDSYS,OUTLN,SI_INFORMTN_SCHEMA,SYS,SYSMAN,SYSTEM,WK_TEST,
79
#        WKSYS,WKPROXY,WMSYS,XDB,APEX_PUBLIC_USER,DIP,FLOWS_020100,FLOWS_030000,
80
#        FLOWS_040100,FLOWS_FILES,MDDATA,ORACLE_OCM,SPATIAL_CSW_ADMIN_USR,
81
#        SPATIAL_WFS_ADMIN_USR,XS$NULL,PERFSTAT,SQLTXPLAIN,DMSYS,TSMSYS,WKSYS,
82
#        APEX_040200,DVSYS,OJVMSYS,GSMADMIN_INTERNAL,APPQOSSYS
83
# Other list of users set to this directive will be added to this list.
84
#SYSUSERS	OE,HR
85
 
86
 
87
#------------------------------------------------------------------------------
88
# ENCODING SECTION (Define client encoding at Oracle and PostgreSQL side)
89
#------------------------------------------------------------------------------
90
 
91
# Enforce default language setting following the Oracle database encoding. This
92
# may be used with multibyte characters like UTF8. Here are the default values
93
# used by Ora2Pg, you may not change them unless you have problem with this
94
# encoding. This will set $ENV{NLS_LANG} to the given value.
95
#NLS_LANG	AMERICAN_AMERICA.AL32UTF8
96
# This will set $ENV{NLS_NCHAR} to the given value.
97
#NLS_NCHAR	AL32UTF8
98
 
99
# By default PostgreSQL client encoding is automatically set to UTF8 to avoid
100
# encoding issue. If you have changed the value of NLS_LANG you might have to
101
# change  the encoding of the PostgreSQL client.
102
#CLIENT_ENCODING	UTF8
103
 
104
 
105
#------------------------------------------------------------------------------
106
# EXPORT SECTION (Export type and filters)
107
#------------------------------------------------------------------------------
108
 
109
# Type of export. Values can be the following keyword:
110
#	TABLE		Export tables, constraints, indexes, ...
111
#	PACKAGE		Export packages
112
#	INSERT		Export data from table as INSERT statement
113
#	COPY		Export data from table as COPY statement
114
#	VIEW		Export views
115
#	GRANT		Export grants
116
#	SEQUENCE	Export sequences
117
#	TRIGGER		Export triggers
118
#	FUNCTION	Export functions
119
#	PROCEDURE	Export procedures
120
#	TABLESPACE	Export tablespace (PostgreSQL >= 8 only)
121
#	TYPE		Export user defined Oracle types
122
#	PARTITION	Export range or list partition (PostgreSQL >= v8.4)
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#	FDW		Export table as foreign data wrapper tables
124
#	MVIEW		Export materialized view as snapshot refresh view
125
#       QUERY		Convert Oracle SQL queries from a file.
126
#       KETTLE		Generate XML ktr template files to be used by Kettle.
127
 
128
#TYPE		FUNCTION, PROCEDURE, TRIGGER, PACKAGE
129
TYPE		COPY
130
 
131
# Set this to 1 if you don't want to export comments associated to tables and
132
# column definitions. Default is enabled.
133
DISABLE_COMMENT         0
134
 
135
# Set which object to export from. By default Ora2Pg export all objects.
136
# Value must be a list of object name or regex separated by space. Note
137
# that regex will not works with 8i database, use % placeholder instead
138
# Ora2Pg will use the LIKE operator. There is also some extended use of
139
# this directive, see chapter "Limiting object to export" in documentation.
140
#ALLOW		TABLE_TEST
141
ALLOW S3_SS12T_PRENOTA_SCARICHI_SEL, S3_SS14T_PROT_TAB_COD, S3_SS15T_DATI_EL 
142
 
143
# Set which object to exclude from export process. By default none. Value
144
# must be a list of object name or regexp separated by space. Note that regex
145
# will not works with 8i database, use % placeholder instead Ora2Pg will use
146
# the NOT LIKE operator. There is also some extended use of this directive,
147
# see chapter "Limiting object to export" in documentation.
148
#EXCLUDE	OTHER_TABLES
149
 
150
# Set which view to export as table. By default none. Value must be a list of
151
# view name or regexp separated by space. If the object name is a view and the
152
# export type is TABLE, the view will be exported as a create table statement.
153
# If export type is COPY or INSERT, the corresponding data will be exported.
154
#VIEW_AS_TABLE	VIEW_NAME
155
 
156
# When exporting GRANTs you can specify a comma separated  list of objects
157
# for which privilege will be exported. Default is export for all objects.
158
# Here are the possibles values TABLE, VIEW, MATERIALIZED VIEW, SEQUENCE,
159
# PROCEDURE, FUNCTION, PACKAGE BODY, TYPE, SYNONYM, DIRECTORY. Only one object
160
# type is allowed at a time. For example set it to TABLE if you just want to
161
# export privilege on tables. You can use the -g option to overwrite it.
162
# When used this directive prevent the export of users unless it is set to
163
# USER. In this case only users definitions are exported.
164
#GRANT_OBJECT    TABLE
165
 
166
# By default Ora2Pg will export your external table as file_fdw tables. If
167
# you don't want to export those tables at all, set the directive to 0.
168
EXTERNAL_TO_FDW		0
169
 
170
# Add a TRUNCATE TABLE instruction before loading data on COPY and INSERT
171
# export. When activated, the instruction will be added only if there's no
172
# global DELETE clause or one specific to the current table (see bellow).
173
TRUNCATE_TABLE	0
174
 
175
# Support for include a DELETE FROM ... WHERE clause filter before importing
176
# data and perform a delete of some lines instead of truncatinf tables.
177
# Value is construct as follow: TABLE_NAME[DELETE_WHERE_CLAUSE], or
178
# if you have only one where clause for all tables just put the delete
179
# clause as single value. Both are possible too. Here are some examples:
180
#DELETE  1=1	# Apply to all tables and delete all tuples
181
#DELETE	TABLE_TEST[ID1='001']	# Apply only on table TABLE_TEST
182
#DELETE	TABLE_TEST[ID1='001' OR ID1='002] DATE_CREATE > '2001-01-01' TABLE_INFO[NAME='test']
183
# The last applies two different delete where clause on tables TABLE_TEST and
184
# TABLE_INFO and a generic delete where clause on DATE_CREATE to all other tables.
185
# If TRUNCATE_TABLE is enabled it will be applied to all tables not covered by
186
# the DELETE definition.
187
 
188
# When enabled this directive forces ora2pg to export all tables, index
189
# constraints, and indexes using the tablespace name defined in Oracle database.
190
# This works only with tablespaces that are not TEMP, USERS and SYSTEM.
191
USE_TABLESPACE		0
192
 
193
# Enable this directive to reorder columns and minimized the footprint
194
# on disk, so that more rows fit on a data page, which is the most important
195
# factor for speed. Default is same order than in Oracle table definition, 
196
# that should be enough for most usage.
197
REORDERING_COLUMNS	0
198
 
199
# Support for include a WHERE clause filter when dumping the contents
200
# of tables. Value is construct as follow: TABLE_NAME[WHERE_CLAUSE], or
201
# if you have only one where clause for each table just put the where
202
# clause as value. Both are possible too. Here are some examples:
203
#WHERE  1=1	# Apply to all tables
204
#WHERE	TABLE_TEST[ID1='001']	# Apply only on table TABLE_TEST
205
#WHERE	TABLE_TEST[ID1='001' OR ID1='002] DATE_CREATE > '2001-01-01' TABLE_INFO[NAME='test']
206
# The last applies two different where clause on tables TABLE_TEST and
207
# TABLE_INFO and a generic where clause on DATE_CREATE to all other tables
208
 
209
# Sometime you may want to extract data from an Oracle table but you need a
210
# a custom query for that. Not just a "SELECT * FROM table" like Ora2Pg does
211
# but a more complex query. This directive allows you to override the query
212
# used by Ora2Pg to extract data. The format is TABLENAME[SQL_QUERY].
213
# If you have multiple tables to extract by replacing the Ora2Pg query, you can
214
# define multiple REPLACE_QUERY lines.
215
#REPLACE_QUERY	EMPLOYEES[SELECT e.id,e.fisrtname,lastname FROM EMPLOYEES e JOIN EMP_UPDT u ON (e.id=u.id AND u.cdate>'2014-08-01 00:00:00')]
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217
#------------------------------------------------------------------------------
218
# FULL TEXT SEARCH SECTION (Control full text search export behaviors)
219
#------------------------------------------------------------------------------
220
 
221
# Force Ora2Pg to translate Oracle Text indexes into PostgreSQL indexes using
222
# pg_trgm extension. Default is to translate CONTEXT indexes into FTS indexes
223
# and CTXCAT indexes using pg_trgm. Most of the time using pg_trgm is enough,
224
# this is why this directive stand for.
225
#
226
CONTEXT_AS_TRGM		0
227
 
228
# By default Ora2Pg creates a function-based index to translate Oracle Text
229
# indexes. 
230
#    CREATE INDEX ON t_document
231
#                 USING gin(to_tsvector('french', title));
232
# You will have to rewrite the CONTAIN() clause using to_tsvector(), example:
233
#    SELECT id,title FROM t_document
234
#                    WHERE to_tsvector(title)) @@ to_tsquery('search_word');
235
#
236
# To force Ora2Pg to create an extra tsvector column with a dedicated triggers
237
# for FTS indexes, disable this directive. In this case, Ora2Pg will add the
238
# column as follow: ALTER TABLE t_document ADD COLUMN tsv_title tsvector;
239
# Then update the column to compute FTS vectors if data have been loaded before
240
#     UPDATE t_document SET tsv_title =
241
#                       to_tsvector('french', coalesce(title,''));
242
# To automatically update the column when a modification in the title column
243
# appears, Ora2Pg adds the following trigger:
244
#
245
# CREATE FUNCTION tsv_t_document_title() RETURNS trigger AS $$
246
# BEGIN
247
#        IF TG_OP = 'INSERT' OR new.title != old.title THEN
248
#                new.tsv_title :=
249
#                to_tsvector('french', coalesce(new.title,''));
250
#        END IF;
251
#        return new;
252
# END
253
# $$ LANGUAGE plpgsql;
254
# CREATE TRIGGER trig_tsv_t_document_title BEFORE INSERT OR UPDATE
255
#  ON t_document
256
#  FOR EACH ROW EXECUTE PROCEDURE tsv_t_document_title();
257
#
258
# When the Oracle text index is defined over multiple column, Ora2Pg will use
259
# setweight() to set a weight in the order of the column declaration.
260
#
261
FTS_INDEX_ONLY	1
262
 
263
# Use this directive to force text search configuration to use. When it is not
264
# set, Ora2Pg will autodetect the stemmer used by Oracle for each index and
265
# pg_catalog.english if nothing is found. 
266
267
#FTS_CONFIG	pg_catalog.french
268
 
269
# If you want to perform your text search in an accent insensitive way, enable
270
# this directive. Ora2Pg will create an helper function over unaccent() and
271
# creates the pg_trgm indexes using this function. With FTS Ora2Pg will
272
# redefine your text search configuration, for example:
273
#
274
#	CREATE TEXT SEARCH CONFIGURATION fr (COPY = pg_catalog.french); 
275
#	ALTER TEXT SEARCH CONFIGURATION fr
276
#		ALTER MAPPING FOR hword, hword_part, word WITH unaccent, french_stem;
277
#
278
# When enabled, Ora2pg will create the wrapper function:
279
#
280
#	CREATE OR REPLACE FUNCTION unaccent_immutable(text)
281
#	RETURNS text AS
282
#	$$
283
#		SELECT public.unaccent('public.unaccent', )
284
#	$$  LANGUAGE sql IMMUTABLE
285
#	    COST 1;
286
#
287
# indexes are exported as follow:
288
#
289
#	CREATE INDEX t_document_title_unaccent_trgm_idx ON t_document 
290
#        	USING gin (unaccent_immutable(title) gin_trgm_ops);
291
#
292
# In your queries you will need to use the same function in the search to
293
# be able to use the function-based index. Example:
294
#
295
#	SELECT * FROM t_document
296
#		WHERE unaccent_immutable(title) LIKE '%donnees%';
297
#
298
USE_UNACCENT		0
299
 
300
# Same as above but call lower() in the unaccent_immutable() function:
301
#
302
#      CREATE OR REPLACE FUNCTION unaccent_immutable(text)
303
#      RETURNS text AS
304
#      $$
305
#          SELECT lower(public.unaccent('public.unaccent', ));
306
#      $$ LANGUAGE sql IMMUTABLE;
307
#
308
USE_LOWER_UNACCENT	0
309
 
310
#------------------------------------------------------------------------------
311
# CONSTRAINT SECTION (Control constraints export and import behaviors)
312
#------------------------------------------------------------------------------
313
 
314
# Support for turning off certain schema features in the postgres side
315
# during schema export. Values can be : fkeys, pkeys, ukeys, indexes, checks
316
# separated by a space character.
317
# fkeys		: turn off foreign key constraints
318
# pkeys		: turn off primary keys
319
# ukeys		: turn off unique column constraints
320
# indexes	: turn off all other index types
321
# checks	: turn off check constraints
322
#SKIP	fkeys pkeys ukeys indexes checks
323
 
324
# By default, primary key names in the source database are ignored, and
325
# default key names are created in the target database. If this is set to true,
326
# primary key names are kept.
327
KEEP_PKEY_NAMES 0
328
 
329
# Enable this directive if you want to add primary key definitions inside the
330
# create table statements. If disabled (the default) primary key definition
331
# will be added with an alter table statement. Enable it if you are exporting
332
# to GreenPlum PostgreSQL database.
333
PKEY_IN_CREATE		0
334
 
335
# This directive allow you to add an ON UPDATE CASCADE option to a foreign
336
# key when a ON DELETE CASCADE is defined or always. Oracle do not support
337
# this feature, you have to use trigger to operate the ON UPDATE CASCADE.
338
# As PostgreSQL has this feature, you can choose how to add the foreign
339
# key option. There is three value to this directive: never, the default
340
# that mean that foreign keys will be declared exactly like in Oracle.
341
# The second value is delete, that mean that the ON UPDATE CASCADE option
342
# will be added only if the ON DELETE CASCADE is already defined on the
343
# foreign Keys. The last value, always, will force all foreign keys to be
344
# defined using the update option.
345
FKEY_ADD_UPDATE		never
346
 
347
# When exporting tables, Ora2Pg normally exports constraints as they are;
348
# if they are non-deferrable they are exported as non-deferrable.
349
# However, non-deferrable constraints will probably cause problems when
350
# attempting to import data to PostgreSQL. The following option set to 1
351
# will cause all foreign key constraints to be exported as deferrable
352
FKEY_DEFERRABLE	0
353
 
354
# In addition when exporting data the DEFER_FKEY option set to 1 will add
355
# a command to defer all foreign key constraints during data export and
356
# the import will be done in a single transaction. This will work only if
357
# foreign keys have been exported as deferrable and you are not using direct
358
# import to PostgreSQL (PG_DSN is not defined). Constraints will then be
359
# checked at the end of the transaction. This directive can also be enabled 
360
# if you want to force all foreign keys to be created as deferrable and
361
# initially deferred during schema export (TABLE export type).
362
DEFER_FKEY	0
363
 
364
# If deferring foreign keys is not possible du to the amount of data in a
365
# single transaction, you've not exported foreign keys as deferrable or you
366
# are using direct import to PostgreSQL, you can use the DROP_FKEY directive.
367
# It will drop all foreign keys before all data import and recreate them at
368
# the end of the import.
369
DROP_FKEY	0
370
 
371
 
372
#------------------------------------------------------------------------------
373
# TRIGGERS AND SEQUENCES SECTION (Control triggers and sequences behaviors)
374
#------------------------------------------------------------------------------
375
 
376
# Disables alter of sequences on all tables in COPY or INSERT mode.
377
# Set to 1 if you want to disable update of sequence during data migration.
378
DISABLE_SEQUENCE	0
379
 
380
# Disables triggers on all tables in COPY or INSERT mode. Available modes 
381
# are USER (user defined triggers) and ALL (includes RI system 
382
# triggers). Default is 0 do not add SQL statement to disable trigger.
383
# If you want to disable triggers during data migration, set the value to
384
# USER if your are connected as non superuser and ALL if you are connected
385
# as PostgreSQL superuser. A value of 1 is equal to USER.
386
DISABLE_TRIGGERS 0
387
 
388
 
389
#------------------------------------------------------------------------------
390
# OBJECT MODIFICATION SECTION (Control objects structure or name modifications)
391
#------------------------------------------------------------------------------
392
 
393
# You may wish to just extract data from some fields, the following directives
394
# will help you to do that. Works only with export type INSERT or COPY
395
# Modify output from the following tables(fields separate by space or comma)
396
#MODIFY_STRUCT	TABLE_TEST(dico,dossier)
397
 
398
# You may wish to change table names during data extraction, especally for
399
# replication use. Give a list of tables separate by space as follow.
400
#REPLACE_TABLES	ORIG_TB_NAME1:NEW_TB_NAME1 ORIG_TB_NAME2:NEW_TB_NAME2 
401
 
402
# You may wish to change column names during data extraction, especially for
403
# replication use. Give a list of tables and columns separate by space as
404
# follow.
405
#REPLACE_COLS	TB_NAME(ORIG_COLNAME1:NEW_COLNAME1,ORIG_COLNAME2:NEW_COLNAME2)
406
 
407
# By default all object names are converted to lower case, if you
408
# want to preserve Oracle object name as-is set this to 1. Not recommended
409
# unless you always quote all tables and columns on all your scripts.
410
PRESERVE_CASE	0
411
 
412
# Add the given value as suffix to index names. Useful if you have indexes
413
# with same name as tables. Not so common but it can help.
414
#INDEXES_SUFFIX		_idx
415
 
416
# Enable this directive to rename all indexes using tablename_columns_names.
417
# Could be very useful for database that have multiple time the same index name
418
# or that use the same name than a table, which is not allowed by PostgreSQL
419
# Disabled by default.
420
INDEXES_RENAMING	0
421
 
422
# Operator classes text_pattern_ops, varchar_pattern_ops, and bpchar_pattern_ops
423
# support B-tree indexes on the corresponding types. The difference from the
424
# default operator classes is that the values are compared strictly character by
425
# character rather than according to the locale-specific collation rules. This
426
# makes these operator classes suitable for use by queries involving pattern
427
# matching expressions (LIKE or POSIX regular expressions) when the database
428
# does not use the standard "C" locale. If you enable, with value 1, this will
429
# force Ora2Pg to export all indexes defined on varchar2() and char() columns
430
# using those operators. If you set it to a value greater than 1 it will only
431
# change indexes on columns where the charactere limit is greater or equal than
432
# this value. For example, set it to 128 to create these kind of indexes on
433
# columns of type varchar2(N) where N >= 128.
434
USE_INDEX_OPCLASS	0
435
 
436
# Enable this directive if you want that your partition table name will be
437
# exported using the parent table name. Disabled by default. If you have
438
# multiple partitioned table, when exported to PostgreSQL some partitions
439
# could have the same name but different parent tables. This is not allowed,
440
# table name must be unique. 
441
PREFIX_PARTITION	0
442
 
443
# If you don't want to reproduce the partitioning like in Oracle and want to
444
# export all partitionned Oracle data into the main single table in PostgreSQL
445
# enable this directive. Ora2Pg will export all data into the main table name.
446
# Default is to use partitionning, Ora2Pg will export data from each partition
447
# and import them into the PostgreSQL dedicated partition table.
448
DISABLE_PARTITION	0
449
 
450
# Activating this directive will force Ora2Pg to add WITH (OIDS) when creating
451
# tables or views as tables. Default is same as PostgreSQL, disabled.
452
WITH_OID		0
453
 
454
# Allow escaping of column name using Oracle reserved words.
455
ORA_RESERVED_WORDS	audit,comment
456
 
457
# Enable this directive if you have tables or column names that are a reserved
458
# word for PostgreSQL. Ora2Pg will double quote the name of the object. 
459
USE_RESERVED_WORDS	0
460
 
461
#------------------------------------------------------------------------------
462
# OUTPUT SECTION (Control output to file or PostgreSQL database)
463
#------------------------------------------------------------------------------
464
 
465
# Define the following directive to send export directly to a PostgreSQL
466
# database. This will disable file output.
467
#PG_DSN		dbi:Pg:dbname=test_db;host=localhost;port=5432
468
#PG_USER	test
469
#PG_PWD		test
470
PG_DSN		dbi:Pg:dbname=S3_vda;host=172.25.102.42;port=5432
471
PG_USER	s3_vda
472
PG_PWD		s3
473
 
474
# By default all output is dump to STDOUT if not send directly to postgresql
475
# database (see above). Give a filename to save export to it. If you want
476
# a Gzip'd compressed file just add the extension .gz to the filename (you
477
# need perl module Compress::Zlib from CPAN). Add extension .bz2 to use Bzip2
478
# compression.
479
OUTPUT		output_copy_dbti313_5.3.sql
480
 
481
# Base directory where all dumped files must be written
482
#OUTPUT_DIR	/var/tmp
483
 
484
# Path to the bzip2 program. See OUTPUT directive above.
485
BZIP2	
486
 
487
# Allow object constraints to be saved in a separate file during schema export.
488
# The file will be named CONSTRAINTS_OUTPUT. Where OUTPUT is the value of the
489
# corresponding configuration directive. You can use .gz xor .bz2 extension to
490
# enable compression. Default is to save all data in the OUTPUT file. This 
491
# directive is usable only with TABLE export type.
492
FILE_PER_CONSTRAINT	0
493
 
494
# Allow indexes to be saved in a separate file during schema export. The file
495
# will be named INDEXES_OUTPUT. Where OUTPUT is the value of the corresponding
496
# configuration directive. You can use the .gz, .xor, or .bz2 file extension to 
497
# enable compression. Default is to save all data in the OUTPUT file. This 
498
# directive is usable only with TABLE or TABLESPACE export type.  With the 
499
# TABLESPACE export, it is used to write "ALTER INDEX ... TABLESPACE ..." into 
500
# a separate file named TBSP_INDEXES_OUTPUT that can be loaded at end of the 
501
# migration after the indexes creation to move the indexes.
502
FILE_PER_INDEX		0
503
 
504
# Allow data export to be saved in one file per table/view. The files
505
# will be named as tablename_OUTPUT. Where OUTPUT is the value of the
506
# corresponding configuration directive. You can use .gz xor .bz2
507
# extension to enable compression. Default is to save all data in one
508
# file. This is usable only during INSERT or COPY export type.
509
FILE_PER_TABLE	0
510
 
511
# Allow function export to be saved in one file per function/procedure.
512
# The files will be named as funcname_OUTPUT. Where OUTPUT is the value
513
# of the corresponding configuration directive. You can use .gz xor .bz2
514
# extension to enable compression. Default is to save all data in one
515
# file. It is usable during FUNCTION, PROCEDURE, TRIGGER and PACKAGE
516
# export type.
517
FILE_PER_FUNCTION	0
518
 
519
# By default Ora2Pg will force Perl to use utf8 I/O encoding. This is done through
520
# a call to the Perl pragma:
521
#
522
#    use open ':utf8';
523
#
524
# You can override this encoding by using the BINMODE directive, for example you
525
# can set it to :locale to use your locale or iso-8859-7, it will respectively use
526
# 
527
#    use open ':locale';
528
#    use open ':encoding(iso-8859-7)';
529
# 
530
# If you have change the NLS_LANG in non UTF8 encoding, you might want to set this
531
# directive. See http://perldoc.perl.org/5.14.2/open.html for more information.
532
# Most of the time, you might leave this directive commented.
533
#BINMODE		utf8
534
 
535
# Set it to 0 to not include the call to \set ON_ERROR_STOP ON in all SQL
536
# scripts. By default this order is always present.
537
STOP_ON_ERROR		1
538
 
539
# Enable this directive to use COPY FREEZE instead of a simple COPY to
540
# export data with rows already frozen. This is intended as a performance
541
# option for initial data loading. Rows will be frozen only if the table
542
# being loaded has been created or truncated in the current subtransaction.
543
# This will only works with export to file and when -J or ORACLE_COPIES is
544
# not set or default to 1. It can be used with direct import into PostgreSQL
545
# under the same condition but -j or JOBS must also be unset or default to 1.
546
COPY_FREEZE		0
547
 
548
#------------------------------------------------------------------------------
549
# TYPE SECTION (Control type behaviors and redefinitions)
550
#------------------------------------------------------------------------------
551
 
552
# If you're experiencing problems in data type export, the following directive
553
# will help you to redefine data type translation used in Ora2pg. The syntax is
554
# a comma separated list of "Oracle datatype:Postgresql data type". Here are the
555
# data type that can be redefined and their default value. If you want to
556
# replace a type with a precision and scale you need to escape the coma with
557
# a backslash. For example, if you want to replace all NUMBER(*,0) into bigint
558
# instead of numeric(38)add the following:
559
# 	DATA_TYPE	NUMBER(*\,0):bigint
560
# Here is the default replacement for all Oracle's types. You don't have to
561
# recopy all type conversion but just the one you want to rewrite.
562
#DATA_TYPE	DATE:timestamp,LONG:text,LONG RAW:bytea,CLOB:text,NCLOB:text,BLOB:bytea,BFILE:bytea,RAW:bytea,ROWID:oid,FLOAT:double precision,DEC:decimal,DECIMAL:decimal,DOUBLE PRECISION:double precision,INT:numeric,INTEGER:numeric,REAL:real,SMALLINT:smallint,BINARY_FLOAT:double precision,BINARY_DOUBLE:double precision,TIMESTAMP:timestamp,XMLTYPE:xml,BINARY_INTEGER:integer,PLS_INTEGER:integer,TIMESTAMP WITH TIME ZONE:timestamp with time zone,TIMESTAMP WITH LOCAL TIME ZONE:timestamp with time zone
563
DATA_TYPE	DATE:timestamp,LONG:text,LONG RAW:bytea,CLOB:text,NCLOB:text,BLOB:bytea,BFILE:bytea,RAW:bytea,ROWID:oid,FLOAT:double precision,DEC:decimal,DECIMAL:decimal,DOUBLE PRECISION:double precision,INT:numeric,INTEGER:numeric,REAL:real,SMALLINT:smallint,BINARY_FLOAT:double precision,BINARY_DOUBLE:double precision,TIMESTAMP:timestamp,XMLTYPE:xml,BINARY_INTEGER:integer,PLS_INTEGER:integer,TIMESTAMP WITH TIME ZONE:timestamp with time zone,TIMESTAMP WITH LOCAL TIME ZONE:timestamp with time zone
564
 
565
# If set to 1 replace portable numeric type into PostgreSQL internal type.
566
# Oracle data type NUMBER(p,s) is approximatively converted to real and
567
# float PostgreSQL data type. If you have monetary fields or don't want
568
# rounding issues with the extra decimals you should preserve the same
569
# numeric(p,s) PostgreSQL data type. Do that only if you need very good
570
# precision because using numeric(p,s) is slower than using real or double.
571
PG_NUMERIC_TYPE	1
572
 
573
# If set to 1 replace portable numeric type into PostgreSQL internal type.
574
# Oracle data type NUMBER(p) or NUMBER are converted to smallint, integer
575
# or bigint PostgreSQL data type following the length of the precision. If
576
# NUMBER without precision are set to DEFAULT_NUMERIC (see bellow).
577
PG_INTEGER_TYPE	1
578
 
579
# NUMBER() without precision are converted by default to bigint only if
580
# PG_INTEGER_TYPE is true. You can overwrite this value to any PG type,
581
# like integer or float.
582
DEFAULT_NUMERIC bigint
583
 
584
# Set it to 0 if you don't want to export milliseconds from Oracle timestamp
585
# columns. Timestamp will be formated with to_char(..., 'YYYY-MM-DD HH24:MI:SS')
586
# Enabling this directive, the default, format is 'YYYY-MM-DD HH24:MI:SS.FF'.
587
ENABLE_MICROSECOND      1
588
 
589
# If you want to replace some columns as PostgreSQL boolean define here a list
590
# of tables and column separated by space as follows. You can also give a type
591
# and a precision to automatically convert all fields of that type as a boolean.
592
# For example: NUMBER:1 or CHAR:1 will replace any field of type number(1) or
593
# char(1) as a boolean in all exported tables.
594
#REPLACE_AS_BOOLEAN	TB_NAME1:COL_NAME1 TB_NAME1:COL_NAME2 TB_NAME2:COL_NAME2
595
 
596
# Use this to add additional definitions of the possible boolean values in Oracle
597
# field. You must set a space separated list of TRUE:FALSE values. BY default:
598
#BOOLEAN_VALUES	yes:no y:n 1:0 true:false enabled:disabled
599
 
600
# When Ora2Pg find a "zero" date: 0000-00-00 00:00:00 it is replaced by a NULL.
601
# This could be a problem if your column is defined with NOT NULL constraint.
602
# If you can not remove the constraint, use this directive to set an arbitral
603
# date that will be used instead. You can also use -INFINITY if you don't want
604
# to use a fake date.
605
#REPLACE_ZERO_DATE	1970-01-01 00:00:00
606
 
607
# Some time you need to force the destination type, for example a column
608
# exported as timestamp by Ora2Pg can be forced into type date. Value is
609
# a comma-separated list of TABLE:COLUMN:TYPE structure. If you need to use
610
# comma or space inside type definition you will have to backslash them.
611
#MODIFY_TYPE     TABLE1:COL3:varchar,TABLE1:COL4:decimal(9\,6)
612
 
613
#------------------------------------------------------------------------------
614
# GRANT SECTION (Control priviledge and owner export)
615
#------------------------------------------------------------------------------
616
 
617
# Set this to 1 to replace default password for all extracted user
618
# during GRANT export
619
GEN_USER_PWD	0
620
 
621
# By default the owner of database objects is the one you're using to connect
622
# to PostgreSQL. If you use an other user (e.g. postgres) you can force
623
# Ora2Pg to set the object owner to be the one used in the Oracle database by
624
# setting the directive to 1, or to a completely different username by setting
625
# the directive value # to that username. 
626
FORCE_OWNER	0
627
 
628
 
629
#------------------------------------------------------------------------------
630
# DATA SECTION (Control data export behaviors)
631
#------------------------------------------------------------------------------
632
 
633
# Extract data by bulk of DATA_LIMIT tuples at once. Default 10000. If you set
634
# a high value be sure to have enough memory if you have million of rows.
635
#DATA_LIMIT	10000
636
DATA_LIMIT	50000
637
 
638
 
639
# When Ora2Pg detect a table with some BLOB it will automatically reduce the
640
# value of this directive by dividing it by 10 until his value is below 1000.
641
# You can control this value by setting BLOB_LIMIT. Exporting BLOB use lot of
642
# ressources, setting it to a too high value can produce OOM.
643
#BLOB_LIMIT	500
644
 
645
# By default all data that are not of type date or time are escaped. If you
646
# experience any problem with that you can set it to 1 to disable it. This
647
# directive is only used during a COPY export type.
648
# See STANDARD_CONFORMING_STRINGS for enabling/disabling escape with INSERT
649
# statements.
650
NOESCAPE	0
651
 
652
# This directive may be used if you want to change the default isolation
653
# level of the data export transaction. Default is now to set the level
654
# to a serializable transaction to ensure data consistency. Here are the
655
# allowed value of this directive: readonly, readwrite, serializable and
656
# committed (read committed).
657
TRANSACTION	serializable
658
 
659
# This controls whether ordinary string literals ('...') treat backslashes
660
# literally, as specified in SQL standard. This was the default before Ora2Pg
661
# v8.5 so that all strings was escaped first, now this is currently on, causing
662
# Ora2Pg to use the escape string syntax (E'...') if this parameter is not
663
# set to 0. This is the exact behavior of the same option in PostgreSQL.
664
# This directive is only used during INSERT export to build INSERT statements.
665
# See NOESCAPE for enabling/disabling escape in COPY statements.
666
STANDARD_CONFORMING_STRINGS	1
667
 
668
# Use this directive to set the database handle's 'LongReadLen' attribute to
669
# a value that will be the larger than the expected size of the LOB. The default
670
# is 1MB witch may not be enough to extract BLOB objects. If the size of the LOB
671
# exceeds the 'LongReadLen' DBD::Oracle will return a 'ORA-24345: A Truncation'
672
# error.  Default: 1023*1024 bytes. Take a look at this page to learn more:
673
# http://search.cpan.org/~pythian/DBD-Oracle-1.22/Oracle.pm#Data_Interface_for_Persistent_LOBs
674
#
675
# Important note: If you increase the value of this directive take care that 
676
# DATA_LIMIT will probably needs to be reduced. Even if you only have a 1MB blob
677
# trying to read 10000 of them (the default DATA_LIMIT) all at once will require
678
# 10GB of memory. You may extract data from those table separately and set a
679
# DATA_LIMIT to 500 or lower, otherwise you may experience some out of memory.
680
#LONGREADLEN	1047552
681
 
682
# If you want to bypass the 'ORA-24345: A Truncation' error, set this directive
683
# to 1, it will truncate the data extracted to the LongReadLen value.
684
#LONGTRUNCOK	0
685
 
686
# Disable this if you don't want to load full content of BLOB and CLOB and use
687
# LOB locators instead. This is usefull to not having to set LONGREADLEN. Note
688
# that this will not improve speed of BLOB export as most of the time is always
689
# consumed by the bytea escaping and in this case export is done line by line
690
# and not by chunk of DATA_LIMIT rows. For more information on how it works, see
691
# http://search.cpan.org/~pythian/DBD-Oracle-1.74/lib/DBD/Oracle.pm#Data_Interface_for_LOB_Locators
692
# Default is enabled, it will not use LOB locators for backward compatibility.
693
NO_LOB_LOCATOR  1
694
 
695
# Use getStringVal() instead of getClobVal() for XML data export. Default is
696
# enabled for backward compatibility.
697
XML_PRETTY	0
698
 
699
# Enable this directive if you want to continue direct data import on error.
700
# When Ora2Pg receives an error in the COPY or INSERT statement from PostgreSQL
701
# it will log the statement to a file called TABLENAME_error.log in the output
702
# directory and continue to next bulk of data. Like this you can try to fix the
703
# statement and manually reload the error log file. Default is disabled: abort
704
# import on error.
705
LOG_ON_ERROR		0
706
 
707
# If you want to convert CHAR(n) from Oracle into varchar(n) or text under
708
# PostgreSQL, you might want to do some triming on the data. By default
709
# Ora2Pg will auto-detect this conversion and remove any withspace at both
710
# leading and trailing position. If you just want to remove the leadings
711
# character, set the value to LEADING. If you just want to remove the trailing
712
# character, set the value to TRAILING. Default value is BOTH.
713
TRIM_TYPE		BOTH
714
 
715
# The default triming character is space, use the directive bellow if you need
716
# to change the character that will be removed. For example, set it to - if you
717
# have leading - in the char(n) field. To use space as triming charger, comment
718
# this directive, this is the default value.
719
#TRIM_CHAR		-
720
 
721
# Internal timestamp retrieves from custom type are extracted in the following
722
# format: 01-JAN-77 12.00.00.000000 AM. It is impossible to know the exact century
723
# that must be used, so by default any year below 49 will be added to 2000
724
# and others to 1900. You can use this directive to change this default value.
725
# this is only relevant if you have user defined type with a column timestamp.
726
INTERNAL_DATE_MAX	49
727
 
728
#------------------------------------------------------------------------------
729
# PERFORMANCES SECTION (Control export/import performances)
730
#------------------------------------------------------------------------------
731
 
732
# Multiprocess support. This directive replace the obsolete THREAD_COUNT
733
# variable. Ora2Pg now use fork() to do parallel process instead of Perl
734
# threads. This directive should defined the number of parallel connection
735
# to PostgreSQL for direct data migration. The limit is the number of cores
736
# on your machine. This is useful if PostgreSQL is the bottleneck. COPIES
737
JOBS		1
738
 
739
# Multiprocess support. This directive should defined the number of parallel
740
# connection to Oracle when extracting data. The limit is the number of cores
741
# on your machine. This is useful if Oracle is the bottleneck. Take care that
742
# this directive can only be used if there is a column defined in DEFINED_PK.
743
ORACLE_COPIES	1
744
 
745
# Multiprocess support. This directive should defined the number of tables
746
# in parallel data extraction. The limit is the number of cores on your machine.
747
# Ora2Pg will open one database connection for each parallel table extraction.
748
# This directive, when upper than 1, will invalidate ORACLE_COPIES but not JOBS.
749
# Note that this directive when set upper that 1 will also automatically enable
750
# the FILE_PER_TABLE directive if your are exporting to files.
751
#PARALLEL_TABLES	1
752
PARALLEL_TABLES	2
753
 
754
# Multiprocess support. This directive is used to split the select queries
755
# between the different connections to Oracle if ORA_COPIES is used. Ora2Pg
756
# will extract data with the following prepare statement:
757
# 	SELECT * FROM TABLE WHERE MOD(COLUMN, $ORA_COPIES) = ?
758
# Where $ORA_COPIES is the total number of cores used to extract data and set
759
# with ORA_COPIES directive, and ? is the current core used at execution time.
760
# This means that Ora2Pg needs to know the numeric column to use in this query.
761
# If this column is a real, float, numeric or decimal, you must add the ROUND()
762
# function with the column to round the value to the nearest integer.
763
#DEFINED_PK	TABLE:COLUMN TABLE:ROUND(COLUMN)
764
 
765
# Enabling this directive force Ora2Pg to drop all indexes on data import
766
# tables, except automatic index on primary key, and recreate them at end
767
# of data import. This may improve speed a lot during a fresh import.
768
DROP_INDEXES	0
769
 
770
# Specifies whether transaction commit will wait for WAL records to be written
771
# to disk before the command returns a "success" indication to the client. This
772
# is the equivalent to set synchronous_commit directive of postgresql.conf file.
773
# This is only used when you load data directly to PostgreSQL, the default is
774
# off to disable synchronous commit to gain speed at writing data. Some modified
775
# versions of PostgreSQL, like Greenplum, do not have this setting, so in this
776
# case set this directive to 1, ora2pg will not try to change the setting.
777
SYNCHRONOUS_COMMIT	0
778
 
779
 
780
#------------------------------------------------------------------------------
781
# PLSQL SECTION (Control SQL and PL/SQL to PLPGSQL rewriting behaviors)
782
#------------------------------------------------------------------------------
783
 
784
# If the above configuration directive is not enough to validate your PL/SQL code
785
# enable this configuration directive to allow export of all PL/SQL code even if
786
# it is marked as invalid. The 'VALID' or 'INVALID' status applies to functions,
787
# procedures, packages and user defined types.
788
EXPORT_INVALID	0
789
 
790
# Enable PLSQL to PLPSQL conversion. This is a work in progress, feel
791
# free modify/add you own code and send me patches. The code is under
792
# function plsql_toplpgsql in Ora2PG/PLSQL.pm. Default enabled.
793
PLSQL_PGSQL	0
794
 
795
# Ora2Pg can replace all conditions with a test on NULL by a call to the
796
# coalesce() function to mimic the Oracle behavior where empty field are
797
# considered equal to NULL. Ex: (field1 IS NULL) and (field2 IS NOT NULL) will
798
# be replaced by (coalesce(field1::text, '') = '') and (field2 IS NOT NULL AND
799
# field2::text <> ''). You might want this replacement to be sure that your
800
# application will have the same behavior but if you have control on you app
801
# a better way is to change it to transform empty string into NULL because
802
# PostgreSQL makes the difference.
803
NULL_EQUAL_EMPTY	0
804
 
805
# Force empty_clob() and empty_blob() to be exported as NULL instead as empty
806
# string for the first one and \\x for the second. If NULL is allowed in your
807
# column this might improve data export speed if you have lot of empty lob.
808
EMPTY_LOB_NULL		0
809
 
810
# If you don't want to export package as schema but as simple functions you
811
# might also want to replace all call to package_name.function_name. If you
812
# disable the PACKAGE_AS_SCHEMA directive then Ora2Pg will replace all call
813
# to package_name.function_name() by package_name_function_name(). Default
814
# is to use a schema to emulate package.
815
PACKAGE_AS_SCHEMA	0
816
 
817
# Enable this directive if the rewrite of Oracle native syntax (+) of
818
# OUTER JOIN is broken. This will force Ora2Pg to not rewrite such code,
819
# default is to try to rewrite simple form of rigth outer join for the
820
# moment.
821
REWRITE_OUTER_JOIN	0
822
 
823
# By default Ora2pg rewrite add_month(), add_year() and date_trunc() functions
824
# set it to 0 to not translate those functions if it breaks code. 
825
DATE_FUNCTION_REWRITE	1
826
 
827
#------------------------------------------------------------------------------
828
# ASSESSMENT SECTION (Control migration assessment behaviors)
829
#------------------------------------------------------------------------------
830
 
831
# Activate the migration cost evaluation. Must only be used with SHOW_REPORT,
832
# FUNCTION, PROCEDURE, PACKAGE and QUERY export type. Default is disabled.
833
# Note that enabling this directive will force PLSQL_PGSQL activation.
834
ESTIMATE_COST		0
835
 
836
# Set the value in minutes of the migration cost evaluation unit. Default
837
# is five minutes per unit.
838
COST_UNIT_VALUE		5
839
 
840
# By default when using SHOW_REPORT the migration report is generated as
841
# simple text, enabling this directive will force ora2pg to create a report
842
# in HTML format.
843
DUMP_AS_HTML		0
844
 
845
# Set the total number of tables to display in the Top N per row and size
846
# list in the SHOW_TABLE and SHOW_REPORT output. Default 10.
847
TOP_MAX			10
848
 
849
# Use this directive to redefined the number of human-days limit where the
850
# migration assessment level must switch from B to C. Default is set to 10
851
# human-days.
852
HUMAN_DAYS_LIMIT	5
853
 
854
# Set the comma separated list of username that must be used to filter
855
# queries from the DBA_AUDIT_TRAIL table. Default is to not scan this
856
# table and to never look for queries. This parameter is used only with
857
# SHOW_REPORT and QUERY export type with no input file for queries.
858
# Note that queries will be normalized before output unlike when a file
859
# is given at input using the -i option or INPUT directive.
860
#AUDIT_USER	USERNAME1,USERNAME2
861
 
862
# By default Ora2Pg will convert call to SYS_GUID() Oracle function
863
# with a call to uuid_generate_v4() from uuid-ossp extension. You can
864
# redefined it to use the gen_random_uuid() function from pgcrypto
865
# extension by changing the function name below.
866
#UUID_FUNCTION	uuid_generate_v4
867
 
868
#------------------------------------------------------------------------------
869
# POSTGRESQL FEATURE SECTION (Control which PostgreSQL features are available)
870
#------------------------------------------------------------------------------
871
 
872
# Allow support of WHEN clause in trigger definition PG>=9.0
873
PG_SUPPORTS_WHEN		1
874
 
875
# Allow support of INSTEAD OF in triggers definition PG>=9.1
876
PG_SUPPORTS_INSTEADOF	1
877
 
878
# Allow support of native MATERIALIZED VIEW PG>=9.3. If disable Ora2Pg
879
# will use old behavior, a normal table with a set of function to refresh
880
# the view.
881
PG_SUPPORTS_MVIEW	1
882
 
883
# If enabled, export view with CHECK OPTION. Disable it if you have PostgreSQL
884
# version prior 9.4. Default, enabled
885
PG_SUPPORTS_CHECKOPTION	1
886
 
887
# PostgreSQL versions below 9.x do not support IF EXISTS in DDL statements.
888
# Disabling the directive with value 0 will prevent Ora2Pg to add those
889
# keywords in all generated statements.
890
PG_SUPPORTS_IFEXISTS	1
891
 
892
# Use btree_gin extenstion to create bitmap like index with pg >= 9.4
893
# You will need to create the extension by yourself:
894
#	create extension btree_gin;
895
# Default is to create GIN index, when disabled, a btree index will be created
896
BITMAP_AS_GIN		1
897
 
898
# Use pg_background extension to create an autonomous transaction instead
899
# of using a dblink wrapper. With pg >= 9.5 only, default is to use dblink.
900
PG_BACKGROUND		0
901
 
902
#------------------------------------------------------------------------------
903
# SPATIAL SECTION (Control spatial geometry export)
904
#------------------------------------------------------------------------------
905
 
906
# Enable this directive if you want Ora2Pg to detect the real spatial type and
907
# dimensions used in a spatial column. By default Ora2Pg will look at spatial
908
# indexes to see if the layer_gtype and sdo_indx_dims constraint parameters have
909
# been set, otherwise column will be created with the non-constrained "geometry"
910
# type. Enabling this feature will force Ora2Pg to scan a sample of 50000 lines
911
# to look at the GTYPE used. You can increase or reduce the sample by setting
912
# the value of AUTODETECT_SPATIAL_TYPE to the desired number of line.
913
AUTODETECT_SPATIAL_TYPE	1
914
 
915
# Disable this directive if you don't want to automatically convert SRID to
916
# EPSG using the sdo_cs.map_oracle_srid_to_epsg() function. Default: enabled
917
# If the SDO_SRID returned by Oracle is NULL, it will be replaced by the
918
# default value 8307 converted to its EPSG value: 4326 (see DEFAULT_SRID)
919
# If the value is upper than 1, all SRID will be forced to this value, in
920
# this case DEFAULT_SRID will not be used when Oracle returns a null value
921
# and the value will be forced to CONVERT_SRID.
922
# Note that it is also possible to set the EPSG value on Oracle side when
923
# sdo_cs.map_oracle_srid_to_epsg() return NULL if your want to force the value:
924
# Ex: system> UPDATE sdo_coord_ref_sys SET legacy_code=41014 WHERE srid = 27572;
925
CONVERT_SRID		1
926
 
927
# Use this directive to override the default EPSG SRID to used: 4326.
928
# Can be overwritten by CONVERT_SRID, see above.
929
DEFAULT_SRID		4326
930
 
931
# This directive can take three values: WKT (default), WKB and INTERNAL.
932
# When it is set to WKT, Ora2Pg will use SDO_UTIL.TO_WKTGEOMETRY() to
933
# extract the geometry data. When it is set to WKB, Ora2Pg will use the
934
# binary output using SDO_UTIL.TO_WKBGEOMETRY(). If those two extract type
935
# are called at Oracle side, they are slow and you can easily reach Out Of
936
# Memory when you have lot of rows. Also WKB is not able to export 3D geometry
937
# and some geometries like CURVEPOLYGON. In this case you may use the INTERNAL
938
# extraction type. It will use a pure Perl library to convert the SDO_GEOMETRY
939
# data into a WKT representation, the translation is done on Ora2Pg side.
940
# This is a work in progress, please validate your exported data geometries
941
# before use.
942
GEOMETRY_EXTRACT_TYPE	INTERNAL
943
 
944
 
945
#------------------------------------------------------------------------------
946
# FDW SECTION (Control Foreign Data Wrapper export)
947
#------------------------------------------------------------------------------
948
 
949
# This directive is used to set the name of the foreign data server that is used
950
# in the "CREATE SERVER name FOREIGN DATA WRAPPER oracle_fdw ..." command. This
951
# name will then be used in the "CREATE FOREIGN TABLE ..." SQL command. Default
952
# is arbitrary set to orcl. This only concerns export type FDW.
953
FDW_SERVER	orcl
954
 
955
 
956
#------------------------------------------------------------------------------
957
# MYSQL SECTION (Control MySQL export behavior)
958
#------------------------------------------------------------------------------
959
 
960
# Enable this if double pipe and double ampersand (|| and &&) should not be
961
# taken as equivalent to OR and AND. It depend of the variable @sql_mode,
962
# Use it only if Ora2Pg fail on auto detecting this behavior.
963
MYSQL_PIPES_AS_CONCAT		0
964
 
965
# Enable this directive if you want EXTRACT() replacement to use the internal
966
# format returned as an integer, for example DD HH24:MM:SS will be replaced
967
# with format; DDHH24MMSS::bigint, this depend of your apps usage.
968
MYSQL_INTERNAL_EXTRACT_FORMAT	0
969