1 arta 1.3 # NetDRMS local site configuration info.
2 #
3 # This file contains configurable parameters that allow NetDRMS-site administrators to customize their DRMS installation. By editing this file, you can specify which resources to use, such as the PostgreSQL database host, you can specify arguments to certain programs, like arguments that control how often SUMS purges expired Storage Units, and you can enable/disable certain features, like Remote SUMS. Each line that is not a comment contains two columns of information. The first column contains the name of a parameter and the second contains its value. To customize your installation, you would edit the value in the second column.
4 #
5 # Once you have edited this file, you must run the configure script, which parses this file to create macros and constants and such that are used by the various DRMS components. These data are stored in files which are then either compiled into binaries or loaded by scripts. The configure script accomplishes much of this work by calling localize.py. The resulting files are stored in the localization directory.
6
7 __STYLE__
8 new
9
10 __DEFS__
11
12 # the path to the Python 3 python executable.
13 q:BIN_PY3 /usr/bin/python3
14
15 # the name of the DRMS database: this parameter exists in case you want to select a different name, but we don't recommend changing it.
16 q:DBNAME netdrms
17
18 # a 15-bit hexadecimal string that globally and uniquely identifies the NetDRMS. Each NetDRMS requires a unique code for each installation. Values greater than or equal to 0x4000 denote a development installation and need not be unique. If you plan on generating data that will be distributed outside of your site, please obtain a unique value from the JSOC.
19 a:DRMS_LOCAL_SITE_CODE 0x4000
20
21 # the directory to which the DRMS library writes various lock files.
22 arta 1.3 q:DRMS_LOCK_DIR /home/netdrms_production/lock
23
24 # the directory to which the DRMS library writes various log files.
25 q:DRMS_LOG_DIR /home/netdrms_production/log/DRMS
26
27 # the port that the DRMS database cluster instance is listening on.
28 q:DRMSPGPORT 5432
29
30 # the directory to which export programs save handles.
31 q:EXPORT_HANDLE_DIR /home/netdrms_production/lock
32
33 # the directory to which export programs write lock files.
34 q:EXPORT_LOCK_DIR /home/netdrms_production/lock
35
36 # the directory to which export programs write logs.
37 q:EXPORT_LOG_DIR /home/netdrms_production/log/DRMS
38
39 # if set to 1, then the Java Mirroring Daemon alternative to Remote SUMS is used: this should be 0.
40 a:JMD_IS_INSTALLED 0
41
42 # the Linux user that owns the PostgreSQL installation and processes.
43 arta 1.3 q:POSTGRES_ADMIN postgres
44
45 # the NetDRMS binary path that contains the external programs needed by the Remote SUMS (e.g., jsoc_fetch, vso_sum_alloc, vso_sum_put).
46 q:RS_BINPATH /opt/netdrms/bin/linux_avx
47
48 # the name of the Remote SUMS database cluster host.
49 q:RS_DBHOST drms
50
51 # the Remote SUMS database.
52 q:RS_DBNAME netdrms_sums
53
54 # the port that the Remote SUMS database cluster instance is listening on.
55 a:RS_DBPORT 5432
56
57 # the Linux user that runs Remote SUMS; this is also the database user who owns the Remote SUMS database objects.
58 q:RS_DBUSER netdrms_production
59
60 # the timeout, in seconds, for an SU to download. If the download time exceeds this value, then all requests waiting for the SU to download will fail.
61 a:RS_DLTIMEOUT 300
62
63 # the (advisory) lockfile used by Remote SUMS to prevent multiple instances from running.
64 arta 1.3 q:RS_LOCKFILE /home/netdrms_production/lock/remotesums.lck
65
66 # the directory in which remote-sums log files are written.
67 q:RS_LOGDIR /home/netdrms_production/log/rsums
68
69 # the maximum number of SUs that Remote SUMS can process simultaneously.
70 a:RS_MAXTHREADS 32
71
72 # the number of scp worker threads - at most, this many scp processes will run simultaneously
73 a:RS_N_WORKERS 8
74
75 # the timeout, in seconds, for a new SU request to be accepted for processing by the daemon. If the daemon encounters a request older than this value, it will reject the new request.
76 a:RS_REQTIMEOUT 7200
77
78 # the Remote SUMS database relation that contains Remote SUMS requests; DRMS modules insert request rows in this table, and Remote SUMS locates the requests and manages rows in this table.
79 q:RS_REQUEST_TABLE drms.rs_requests
80
81 # the maximum total payload, in MB, per download. As soon as the combined payload of SUs ready for download exceeds this value, then the SUs are downloaded with a single scp process.
82 a:RS_SCP_MAXPAYLOAD 512
83
84 # the maximum size of the SU download queue. As soon as this many SUs are ready for download, they are downloaded with a single scp process.
85 arta 1.3 a:RS_SCP_MAXSUS 48
86
87 # if there are SUs ready for download, and no scp has fired off within this many seconds, then the SUs that are ready to download are downloaded with a single scp process.
88 a:RS_SCP_TIMEOUT 2
89
90 # the service at JSOC that is used by Remote SUMS to locate the NetDRMS site that owns SUMS storage units; this is Remote SUMS site URL.
91 q:RS_SITE_INFO_URL http://jsoc.stanford.edu/cgi-bin/rssites.sh
92
93 # the default value of the archive flag for newly ingested SUs; if the SU being ingested is part of a data series, then Remote SUMS obtains the archive flag from the data series' definition instead; the truth value can be one of several character strings that implies TRUE or FALSE.
94 q:RS_SU_ARCHIVE no
95
96 # the default expiration date for all SUs ingested by Remote SUMS; if the SU being ingested is part of a data series, then Remote SUMS obtains the expiration for the SU from the data series' definition instead; as an alternative to RS_SU_EXPIRATION, RS_SU_LIFESPAN can be used to specify the expiration date of newly ingested SUs; RS_SU_EXPIRATION takes predent over RS_SU_LIFESPAN.
97 # q:RS_SU_EXPIRATION 2022-10-25
98
99 # the default lifespan ("retention time"), in days, of a newly ingested SU; if the SU being ingested is part of a data series, then Remote SUMS obtains the lifespan for the SU from the data series' definition instead; as an alternative to RS_SU_LIFESPAN, RS_SU_EXPIRATION can be used to specify the lifespan of newly ingested SUs; RS_SU_EXPIRATION takes predent over RS_SU_LIFESPAN.
100 a:RS_SU_LIFESPAN 60
101
102 # the default value of the tapegroup for newly ingested SUs; if the SU being ingested is part of a data series, then Remote SUMS obtains the tapegroup from the data series' definition instead.
103 a:RS_SU_TAPEGROUP 0
104
105 # the temporary directory into which SUs are downloaded. This should be on the same file system on which the SUMS partitions reside.
106 arta 1.3 q:RS_TMPDIR /tmp
107
108 # the path to the directory in the NetDRMS installation that contains the export scripts.
109 q:SCRIPTS_EXPORT /opt/netdrms/scripts
110
111 # The DRMS database table that contains the pending export requests. Unless you have a fully functional export system
112 # (you don't), set this to the empty string
113 a:EXPORT_PENDING_REQUESTS_TABLE ""
114
115 # The number of minutes, after which a pending export request expires
116 a:EXPORT_PENDING_REQUESTS_TIME_OUT 60
117
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129 arta 1.3 # the name of the DRMS database cluster host.
130 q:SERVER drms
131
132 # partition scrubbing is initiated only after partition percent usage rises above the high-water mark.
133 a:SS_HIGH_WATER 95
134
135 # the (advisory) lockfile used by the SU steward to prevent multiple instances of the steward from running.
136 q:SS_LOCKFILE /usr/share/drms/locks/sustewie.lck
137
138 # each SUMS partition is scrubbed until its percent usage falls below the low-water mark.
139 a:SS_LOW_WATER 90
140
141 # the time interval, in seconds, between updates to the per-partition cache of expired SUs; this value applies to all partitions that are scrubbed; for each partition, a steward thread queries its cache to select the next SUs to delete (which are sorted by increasing expiration date).
142 a:SS_REHYDRATE_INTERVAL 3600
143
144 # the interval, in seconds, between flushing/caching expired SU lists (use a smaller number if the system experience a high rate of SU expiration).
145 a:SS_SLEEP_INTERVAL 300
146
147 # the number of SUs in a partition that are deleted at one time; SUs are deleted one chunk at a time until the partition usage falls below the low-water mark.
148 a:SS_SU_CHUNK 4096
149
150 arta 1.3 # the path to the directory that contains various SUMS log files.
151 q:SUMLOG_BASEDIR /home/netdrms_production/log/SUMS
152
153 # the port that the SUMS database cluster host is listening on; same as DRMSPGPORT unless DRMS and SUMS reside in different clusters on the same host (something that is not recommended since a single PostgreSQL cluster requires a substantial amount of system resources).
154 q:SUMPGPORT 5432
155
156 # the name of the SUMS database cluster host; NetDRMS allows for creating a second cluster for SUMS, but in general this will not be necessary unless extremely heavy usage requires separating the two clusters.
157 q:SUMS_DB_HOST drms
158
159 # the name of the Linux group to which all SUMS Linux users belong.
160 q:SUMS_GROUP sums_users
161
162 # the SUMS database user who owns the SUMS database objects which are manipulated by Remote SUMS and SUMS itself; it should be the Linux user that runs SUMS and owns the SUMS storage directories
163 q:SUMS_MANAGER netdrms_production
164
165 # the SUMS database user who has read-only access to the SUMS database objects; it is used by the Remote SUMS client (rsums-clientd.py) to check for the presence of SUs before requesting they be downloaded.
166 q:SUMS_READONLY_DB_USER readonlyuser
167
168 # SUMS has a tape-archive system.
169 p:SUMS_TAPE_AVAILABLE 0
170
171 arta 1.3 # use the multi-threaded Python SUMS.
172 a:SUMS_USEMTSUMS 1
173
174 # use the multi-threaded Python SUMS for all SUMS API methods; SUMS_USEMTSUMS_ALLOC, SUMS_USEMTSUMS_CONNECTION, SUMS_USEMTSUMS_DELETESUS, SUMS_USEMTSUMS_GET, SUMS_USEMTSUMS_INFO, and SUMS_USEMTSUMS_PUT are ignored.
175 a:SUMS_USEMTSUMS_ALL 1
176
177 # use the MT SUMS daemon for the SUM_alloc() and SUM_alloc2() API function.
178 # a:SUMS_USEMTSUMS_ALLOC 0
179
180 # use the MT SUMS daemon for the SUM_open() and SUM_close() API functions.
181 # a:SUMS_USEMTSUMS_CONNECTION 0
182
183 # use the MT SUMS daemon for the SUM_delete_series() API function.
184 # a:SUMS_USEMTSUMS_DELETESUS 0
185
186 # use the MT SUMS daemon for the SUM_get() API function.
187 # a:SUMS_USEMTSUMS_GET 0
188
189 # use the MT SUMS daemon for the SUM_infoArray() API function.
190 # a:SUMS_USEMTSUMS_INFO 0
191
192 arta 1.3 # use the MT SUMS daemon for the SUM_put() API function.
193 # a:SUMS_USEMTSUMS_PUT 0
194
195 # the port that SUMS listens to for incoming requests.
196 a:SUMSD_LISTENPORT 6002
197
198 # the maximum number of SUs that SUMS can process simultaneously.
199 a:SUMSD_MAX_THREADS 32
200
201 # the SUMS host machine.
202 q:SUMSERVER drms
203
204 # the DRMS database user account that cgi programs access when they need to read from or write to database relations.
205 q:WEB_DBUSER apache
206
207 __MAKE__
208 # The parameters in this section are used to create make variables. For example, the line
209 # 'POSTGRES_LIB pq' will cause a make variable named POSTGRES_LIB to be created and to
210 # be assigned the value 'pq'.
211
212 # If the name in the left column contains a colon, then the name on the LHS is the parameter name. The RHS is
213 arta 1.3 # a description of which platforms or specific machines the parameter applies to. For example,
214 # the name POSTGRES_INCS:X86_64 implies that the value of the parameter named POSTGRES_INCS is /usr/include
215 # when make is run on a linux_x86_64 machine. The RHS string can contain either a platform identifier
216 # (X86_64, IA32, AVX, or IA64) or it can be a string that identifies a particular machine, like d02.
217 # If the string is not one of the defined platform identifiers, then it is considered a machine identifier.
218 # A machine identifier can specify more than one machine. The name POSTGRES_INCS:hmidb specifies
219 # all machines whose names contain the string 'hmidb'. So, for machines hmidb, hmidb2, and hmidb3, the
220 # value of the POSTGRES_INCS parameter is /usr/local/pgsql/include.
221 #
222 # If the RHS is a platform identifier, then make compares the value of $JSOC_MACHINE (which is in
223 # reality a misnomer, since it truly specifies the name of the machine platform, not the name
224 # of the machine) to the platform name specified by the RHS string. For example,
225 # if the RHS string is 'avx', then make compares $JSOC_MACHINE to
226 # 'linux_avx', and if there is a match, then the parameter's value specified in the second column is assigned
227 # to the make variable. If the RHS is a machine identifier, then make compares the value of $MACHTYPE
228 # (another misnormer, since it is the name of the machine, not the name of some type of machine ) to
229 # the machine names specified by the RHS. For example, if the RHS string is 'hmidb' then make
230 # compares $MACHTYPE to 'hmidb', and if 'hmidb' is a substring of $MACHTYPE, then the parameter's
231 # value specified in the second column is assigned to the make variable
232 # the path to the installed CFITSIO header files.
233
234 arta 1.3 CFITSIO_INCS /opt/cfitsio/include
235
236 # the name of the CFITSIO library.
237 CFITSIO_LIB cfitsio
238
239 # the path to the installed CFITSIO library files.
240 CFITSIO_LIBS /opt/cfitsio/lib
241
242 # the path to the installed PostgreSQL header files.
243 POSTGRES_INCS /usr/pgsql-12/include
244
245 # the name of the PostgreSQL C API library (AKA libpq): this is always pq.
246 POSTGRES_LIB pq
247
248 # the path to the installed PostgreSQL library files.
249 POSTGRES_LIBS /usr/pgsql-12/lib
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