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authorfusion32 <marcopuzziello@gmail.com>2025-10-16 01:35:10 -0300
committerfusion32 <marcopuzziello@gmail.com>2025-10-16 01:46:10 -0300
commit95022ca95b1d2792bae447d90694dcc0d67b9de2 (patch)
tree3a23505d31c48188f537a6da95239215a6487297 /src/database_postgres.cc
parentb49d7de51cf14632a5768f292b870e647cf39bf5 (diff)
downloadquerymanager-95022ca95b1d2792bae447d90694dcc0d67b9de2.tar.gz
querymanager-95022ca95b1d2792bae447d90694dcc0d67b9de2.zip
lower monotonic uptime resolution from MILLISECONDS to SECONDS
The monotonic uptime was used exclusively with caches and having a resolution of SECONDS allows it to be stored as an int without risk of wrapping (~68 years). Using MILLISECONDS meant that it would wrap after ~25 days which is totally possible and EXPECTED. Just as an example, the small test server I ran for about 1 month had ZERO downtime on the QueryManager except for when I manually restarted it. It was probably very close to wrapping when I took it down.
Diffstat (limited to 'src/database_postgres.cc')
-rw-r--r--src/database_postgres.cc4
1 files changed, 2 insertions, 2 deletions
diff --git a/src/database_postgres.cc b/src/database_postgres.cc
index 4638851..bcadcea 100644
--- a/src/database_postgres.cc
+++ b/src/database_postgres.cc
@@ -1051,7 +1051,7 @@ const char *PrepareQuery(TDatabase *Database, const char *Text){
if(Entry->Text != NULL && Entry->Hash == Hash){
if(StringEq(Entry->Text, Text)){
Stmt = Entry;
- Entry->LastUsed = GetMonotonicUptimeMS();
+ Entry->LastUsed = GetMonotonicUptime();
break;
}
}
@@ -1085,7 +1085,7 @@ const char *PrepareQuery(TDatabase *Database, const char *Text){
}
- Stmt->LastUsed = GetMonotonicUptimeMS();
+ Stmt->LastUsed = GetMonotonicUptime();
Stmt->Hash = Hash;
Stmt->Text = strdup(Text);
ASSERT(Stmt->Text != NULL);