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[feature] simpler cache size configuration (#2051)

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* add automatic cache max size generation based on ratios of a singular fixed memory target

Signed-off-by: kim <grufwub@gmail.com>

* remove now-unused cache max-size config variables

Signed-off-by: kim <grufwub@gmail.com>

* slight ratio tweak

Signed-off-by: kim <grufwub@gmail.com>

* remove unused visibility config var

Signed-off-by: kim <grufwub@gmail.com>

* add secret little ratio config trick

Signed-off-by: kim <grufwub@gmail.com>

* fixed a word

Signed-off-by: kim <grufwub@gmail.com>

* update cache library to remove use of TTL in result caches + slice cache

Signed-off-by: kim <grufwub@gmail.com>

* update other cache usages to use correct interface

Signed-off-by: kim <grufwub@gmail.com>

* update example config to explain the cache memory target

Signed-off-by: kim <grufwub@gmail.com>

* update env parsing test with new config values

Signed-off-by: kim <grufwub@gmail.com>

* do some ratio twiddling

Signed-off-by: kim <grufwub@gmail.com>

* add missing header

* update envparsing with latest defaults

Signed-off-by: kim <grufwub@gmail.com>

* update size calculations to take into account result cache, simple cache and extra map overheads

Signed-off-by: kim <grufwub@gmail.com>

* tweak the ratios some more

Signed-off-by: kim <grufwub@gmail.com>

* more nan rampaging

Signed-off-by: kim <grufwub@gmail.com>

* fix envparsing script

Signed-off-by: kim <grufwub@gmail.com>

* update cache library, add sweep function to keep caches trim

Signed-off-by: kim <grufwub@gmail.com>

* sweep caches once a minute

Signed-off-by: kim <grufwub@gmail.com>

* add a regular job to sweep caches and keep under 80% utilisation

Signed-off-by: kim <grufwub@gmail.com>

* remove dead code

Signed-off-by: kim <grufwub@gmail.com>

* add new size library used to libraries section of readme

Signed-off-by: kim <grufwub@gmail.com>

* add better explanations for the mem-ratio numbers

Signed-off-by: kim <grufwub@gmail.com>

* update go-cache

Signed-off-by: kim <grufwub@gmail.com>

* library version bump

Signed-off-by: kim <grufwub@gmail.com>

* update cache.result{} size model estimation

Signed-off-by: kim <grufwub@gmail.com>

---------

Signed-off-by: kim <grufwub@gmail.com>
This commit is contained in:
kim 2023-08-03 10:34:35 +01:00 committed by GitHub
parent e8a20f587c
commit 00adf18c24
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32 changed files with 2115 additions and 2330 deletions
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1
README.md
View file

@ -224,6 +224,7 @@ The following open source libraries, frameworks, and tools are used by GoToSocia
- [buckket/go-blurhash](https://github.com/buckket/go-blurhash); used for generating image blurhashes. [GPL-3.0 License](https://spdx.org/licenses/GPL-3.0-only.html).
- [coreos/go-oidc](https://github.com/coreos/go-oidc); OIDC client library. [Apache-2.0 License](https://spdx.org/licenses/Apache-2.0.html).
- [disintegration/imaging](https://github.com/disintegration/imaging); image resizing. [MIT License](https://spdx.org/licenses/MIT.html).
- [DmitriyVTitov/size](https://github.com/DmitriyVTitov/size); runtime model memory size calculations. [MIT License](https://spdx.org/licenses/MIT.html).
- Gin:
- [gin-contrib/cors](https://github.com/gin-contrib/cors); Gin CORS middleware. [MIT License](https://spdx.org/licenses/MIT.html).
- [gin-contrib/gzip](https://github.com/gin-contrib/gzip); Gin gzip middleware. [MIT License](https://spdx.org/licenses/MIT.html).

9
cmd/gotosocial/action/server/server.go
View file

@ -25,7 +25,9 @@ import (
"os"
"os/signal"
"syscall"
"time"
"codeberg.org/gruf/go-sched"
"github.com/gin-gonic/gin"
"github.com/superseriousbusiness/gotosocial/cmd/gotosocial/action"
"github.com/superseriousbusiness/gotosocial/internal/api"
@ -117,6 +119,13 @@ var Start action.GTSAction = func(ctx context.Context) error {
state.Workers.Start()
defer state.Workers.Stop()
// Add a task to the scheduler to sweep caches.
// Frequency = 1 * minute
// Threshold = 80% capacity
sweep := func(time.Time) { state.Caches.Sweep(80) }
job := sched.NewJob(sweep).Every(time.Minute)
_ = state.Workers.Scheduler.Schedule(job)
// Build handlers used in later initializations.
mediaManager := media.NewManager(&state)
oauthServer := oauth.New(ctx, dbService)

112
example/config.yaml
View file

@ -231,111 +231,13 @@ db-sqlite-cache-size: "8MiB"
db-sqlite-busy-timeout: "30m"
cache:
# Cache configuration options:
#
# max-size = maximum cached objects count
# ttl = cached object lifetime
# sweep-freq = frequency to look for stale cache objects
# (zero will disable cache sweeping)
#############################
#### VISIBILITY CACHES ######
#############################
#
# Configure Status and account
# visibility cache.
visibility-max-size: 2000
visibility-ttl: "30m"
visibility-sweep-freq: "1m"
gts:
###########################
#### DATABASE CACHES ######
###########################
#
# Configure GTS database
# model caches.
account-max-size: 2000
account-ttl: "30m"
account-sweep-freq: "1m"
block-max-size: 1000
block-ttl: "30m"
block-sweep-freq: "1m"
domain-block-max-size: 2000
domain-block-ttl: "24h"
domain-block-sweep-freq: "1m"
emoji-max-size: 2000
emoji-ttl: "30m"
emoji-sweep-freq: "1m"
emoji-category-max-size: 100
emoji-category-ttl: "30m"
emoji-category-sweep-freq: "1m"
follow-max-size: 2000
follow-ttl: "30m"
follow-sweep-freq: "1m"
follow-request-max-size: 2000
follow-request-ttl: "30m"
follow-request-sweep-freq: "1m"
instance-max-size: 2000
instance-ttl: "30m"
instance-sweep-freq: "1m"
list-max-size: 2000
list-ttl: "30m"
list-sweep-freq: "1m"
list-entry-max-size: 2000
list-entry-ttl: "30m"
list-entry-sweep-freq: "1m"
media-max-size: 1000
media-ttl: "30m"
media-sweep-freq: "1m"
mention-max-size: 2000
mention-ttl: "30m"
mention-sweep-freq: "1m"
notification-max-size: 1000
notification-ttl: "30m"
notification-sweep-freq: "1m"
report-max-size: 100
report-ttl: "30m"
report-sweep-freq: "1m"
status-max-size: 2000
status-ttl: "30m"
status-sweep-freq: "1m"
status-fave-max-size: 2000
status-fave-ttl: "30m"
status-fave-sweep-freq: "1m"
tag-max-size: 2000
tag-ttl: "30m"
tag-sweep-freq: "1m"
tombstone-max-size: 500
tombstone-ttl: "30m"
tombstone-sweep-freq: "1m"
user-max-size: 500
user-ttl: "30m"
user-sweep-freq: "1m"
webfinger-max-size: 250
webfinger-ttl: "24h"
webfinger-sweep-freq: "15m"
# cache.memory-target sets a target limit that
# the application will try to keep it's caches
# within. This is based on estimated sizes of
# in-memory objects, and so NOT AT ALL EXACT.
# Examples: ["100MiB", "200MiB", "500MiB", "1GiB"]
# Default: "200MiB"
memory-target: "200MiB"
######################
##### WEB CONFIG #####

3
go.mod
View file

@ -5,7 +5,7 @@ go 1.20
require (
codeberg.org/gruf/go-bytesize v1.0.2
codeberg.org/gruf/go-byteutil v1.1.2
codeberg.org/gruf/go-cache/v3 v3.4.4
codeberg.org/gruf/go-cache/v3 v3.5.3
codeberg.org/gruf/go-debug v1.3.0
codeberg.org/gruf/go-errors/v2 v2.2.0
codeberg.org/gruf/go-fastcopy v1.1.2
@ -16,6 +16,7 @@ require (
codeberg.org/gruf/go-runners v1.6.1
codeberg.org/gruf/go-sched v1.2.3
codeberg.org/gruf/go-store/v2 v2.2.2
github.com/DmitriyVTitov/size v1.5.0
github.com/KimMachineGun/automemlimit v0.2.6
github.com/abema/go-mp4 v0.11.0
github.com/buckket/go-blurhash v1.1.0

8
go.sum
View file

@ -48,8 +48,8 @@ codeberg.org/gruf/go-bytesize v1.0.2/go.mod h1:n/GU8HzL9f3UNp/mUKyr1qVmTlj7+xacp
codeberg.org/gruf/go-byteutil v1.0.0/go.mod h1:cWM3tgMCroSzqoBXUXMhvxTxYJp+TbCr6ioISRY5vSU=
codeberg.org/gruf/go-byteutil v1.1.2 h1:TQLZtTxTNca9xEfDIndmo7nBYxeS94nrv/9DS3Nk5Tw=
codeberg.org/gruf/go-byteutil v1.1.2/go.mod h1:cWM3tgMCroSzqoBXUXMhvxTxYJp+TbCr6ioISRY5vSU=
codeberg.org/gruf/go-cache/v3 v3.4.4 h1:V0A3EzjhzhULOydD16pwa2DRDwF67OuuP4ORnm//7p8=
codeberg.org/gruf/go-cache/v3 v3.4.4/go.mod h1:pTeVPEb9DshXUkd8Dg76UcsLpU6EC/tXQ2qb+JrmxEc=
codeberg.org/gruf/go-cache/v3 v3.5.3 h1:CRO2syVQxT/JbqDnUxzjeJkLInihEmTlJOkrOgkTmqI=
codeberg.org/gruf/go-cache/v3 v3.5.3/go.mod h1:NbsGQUgEdNFd631WSasvCHIVAaY9ovuiSeoBwtsIeDc=
codeberg.org/gruf/go-debug v1.3.0 h1:PIRxQiWUFKtGOGZFdZ3Y0pqyfI0Xr87j224IYe2snZs=
codeberg.org/gruf/go-debug v1.3.0/go.mod h1:N+vSy9uJBQgpQcJUqjctvqFz7tBHJf+S/PIjLILzpLg=
codeberg.org/gruf/go-errors/v2 v2.0.0/go.mod h1:ZRhbdhvgoUA3Yw6e56kd9Ox984RrvbEFC2pOXyHDJP4=
@ -87,6 +87,8 @@ codeberg.org/gruf/go-store/v2 v2.2.2/go.mod h1:QRM3LUAfYyoGMWLTqA1WzohxQgYqPFiVv
dmitri.shuralyov.com/gpu/mtl v0.0.0-20190408044501-666a987793e9/go.mod h1:H6x//7gZCb22OMCxBHrMx7a5I7Hp++hsVxbQ4BYO7hU=
github.com/BurntSushi/toml v0.3.1/go.mod h1:xHWCNGjB5oqiDr8zfno3MHue2Ht5sIBksp03qcyfWMU=
github.com/BurntSushi/xgb v0.0.0-20160522181843-27f122750802/go.mod h1:IVnqGOEym/WlBOVXweHU+Q+/VP0lqqI8lqeDx9IjBqo=
github.com/DmitriyVTitov/size v1.5.0 h1:/PzqxYrOyOUX1BXj6J9OuVRVGe+66VL4D9FlUaW515g=
github.com/DmitriyVTitov/size v1.5.0/go.mod h1:le6rNI4CoLQV1b9gzp1+3d7hMAD/uu2QcJ+aYbNgiU0=
github.com/KimMachineGun/automemlimit v0.2.6 h1:tQFriVTcIteUkV5EgU9iz03eDY36T8JU5RAjP2r6Kt0=
github.com/KimMachineGun/automemlimit v0.2.6/go.mod h1:pJhTW/nWJMj6SnWSU2TEKSlCaM+1N5Mej+IfS/5/Ol0=
github.com/OneOfOne/xxhash v1.2.2/go.mod h1:HSdplMjZKSmBqAxg5vPj2TmRDmfkzw+cTzAElWljhcU=
@ -256,6 +258,8 @@ github.com/golang/glog v1.1.0 h1:/d3pCKDPWNnvIWe0vVUpNP32qc8U3PDVxySP/y360qE=
github.com/golang/groupcache v0.0.0-20190702054246-869f871628b6/go.mod h1:cIg4eruTrX1D+g88fzRXU5OdNfaM+9IcxsU14FzY7Hc=
github.com/golang/groupcache v0.0.0-20191227052852-215e87163ea7/go.mod h1:cIg4eruTrX1D+g88fzRXU5OdNfaM+9IcxsU14FzY7Hc=
github.com/golang/groupcache v0.0.0-20200121045136-8c9f03a8e57e/go.mod h1:cIg4eruTrX1D+g88fzRXU5OdNfaM+9IcxsU14FzY7Hc=
github.com/golang/groupcache v0.0.0-20210331224755-41bb18bfe9da h1:oI5xCqsCo564l8iNU+DwB5epxmsaqB+rhGL0m5jtYqE=
github.com/golang/groupcache v0.0.0-20210331224755-41bb18bfe9da/go.mod h1:cIg4eruTrX1D+g88fzRXU5OdNfaM+9IcxsU14FzY7Hc=
github.com/golang/mock v1.1.1/go.mod h1:oTYuIxOrZwtPieC+H1uAHpcLFnEyAGVDL/k47Jfbm0A=
github.com/golang/mock v1.2.0/go.mod h1:oTYuIxOrZwtPieC+H1uAHpcLFnEyAGVDL/k47Jfbm0A=
github.com/golang/mock v1.3.1/go.mod h1:sBzyDLLjw3U8JLTeZvSv8jJB+tU5PVekmnlKIyFUx0Y=

33
internal/cache/cache.go vendored
View file

@ -204,3 +204,36 @@ func (c *Caches) setuphooks() {
c.Visibility.Invalidate("RequesterID", user.AccountID)
})
}
// Sweep will sweep all the available caches to ensure none
// are above threshold percent full to their total capacity.
//
// This helps with cache performance, as a full cache will
// require an eviction on every single write, which adds
// significant overhead to all cache writes.
func (c *Caches) Sweep(threshold float64) {
c.GTS.Account().Trim(threshold)
c.GTS.AccountNote().Trim(threshold)
c.GTS.Block().Trim(threshold)
c.GTS.BlockIDs().Trim(threshold)
c.GTS.Emoji().Trim(threshold)
c.GTS.EmojiCategory().Trim(threshold)
c.GTS.Follow().Trim(threshold)
c.GTS.FollowIDs().Trim(threshold)
c.GTS.FollowRequest().Trim(threshold)
c.GTS.FollowRequestIDs().Trim(threshold)
c.GTS.Instance().Trim(threshold)
c.GTS.List().Trim(threshold)
c.GTS.ListEntry().Trim(threshold)
c.GTS.Marker().Trim(threshold)
c.GTS.Media().Trim(threshold)
c.GTS.Mention().Trim(threshold)
c.GTS.Notification().Trim(threshold)
c.GTS.Report().Trim(threshold)
c.GTS.Status().Trim(threshold)
c.GTS.StatusFave().Trim(threshold)
c.GTS.Tag().Trim(threshold)
c.GTS.Tombstone().Trim(threshold)
c.GTS.User().Trim(threshold)
c.Visibility.Trim(threshold)
}

389
internal/cache/gts.go vendored
View file

@ -18,11 +18,15 @@
package cache
import (
"time"
"codeberg.org/gruf/go-cache/v3/result"
"codeberg.org/gruf/go-cache/v3/simple"
"codeberg.org/gruf/go-cache/v3/ttl"
"github.com/superseriousbusiness/gotosocial/internal/cache/domain"
"github.com/superseriousbusiness/gotosocial/internal/config"
"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
"github.com/superseriousbusiness/gotosocial/internal/log"
)
type GTSCaches struct {
@ -52,7 +56,7 @@ type GTSCaches struct {
user *result.Cache[*gtsmodel.User]
// TODO: move out of GTS caches since unrelated to DB.
webfinger *ttl.Cache[string, string]
webfinger *ttl.Cache[string, string] // TTL=24hr, sweep=5min
}
// Init will initialize all the gtsmodel caches in this collection.
@ -87,98 +91,14 @@ func (c *GTSCaches) Init() {
// Start will attempt to start all of the gtsmodel caches, or panic.
func (c *GTSCaches) Start() {
tryStart(c.account, config.GetCacheGTSAccountSweepFreq())
tryStart(c.accountNote, config.GetCacheGTSAccountNoteSweepFreq())
tryStart(c.block, config.GetCacheGTSBlockSweepFreq())
tryUntil("starting block IDs cache", 5, func() bool {
if sweep := config.GetCacheGTSBlockIDsSweepFreq(); sweep > 0 {
return c.blockIDs.Start(sweep)
}
return true
})
tryStart(c.emoji, config.GetCacheGTSEmojiSweepFreq())
tryStart(c.emojiCategory, config.GetCacheGTSEmojiCategorySweepFreq())
tryStart(c.follow, config.GetCacheGTSFollowSweepFreq())
tryUntil("starting follow IDs cache", 5, func() bool {
if sweep := config.GetCacheGTSFollowIDsSweepFreq(); sweep > 0 {
return c.followIDs.Start(sweep)
}
return true
})
tryStart(c.followRequest, config.GetCacheGTSFollowRequestSweepFreq())
tryUntil("starting follow request IDs cache", 5, func() bool {
if sweep := config.GetCacheGTSFollowRequestIDsSweepFreq(); sweep > 0 {
return c.followRequestIDs.Start(sweep)
}
return true
})
tryStart(c.instance, config.GetCacheGTSInstanceSweepFreq())
tryStart(c.list, config.GetCacheGTSListSweepFreq())
tryStart(c.listEntry, config.GetCacheGTSListEntrySweepFreq())
tryStart(c.marker, config.GetCacheGTSMarkerSweepFreq())
tryStart(c.media, config.GetCacheGTSMediaSweepFreq())
tryStart(c.mention, config.GetCacheGTSMentionSweepFreq())
tryStart(c.notification, config.GetCacheGTSNotificationSweepFreq())
tryStart(c.report, config.GetCacheGTSReportSweepFreq())
tryStart(c.status, config.GetCacheGTSStatusSweepFreq())
tryStart(c.statusFave, config.GetCacheGTSStatusFaveSweepFreq())
tryStart(c.tag, config.GetCacheGTSTagSweepFreq())
tryStart(c.tombstone, config.GetCacheGTSTombstoneSweepFreq())
tryStart(c.user, config.GetCacheGTSUserSweepFreq())
tryUntil("starting *gtsmodel.Webfinger cache", 5, func() bool {
if sweep := config.GetCacheGTSWebfingerSweepFreq(); sweep > 0 {
return c.webfinger.Start(sweep)
}
return true
return c.webfinger.Start(5 * time.Minute)
})
}
// Stop will attempt to stop all of the gtsmodel caches, or panic.
func (c *GTSCaches) Stop() {
tryStop(c.account, config.GetCacheGTSAccountSweepFreq())
tryStop(c.accountNote, config.GetCacheGTSAccountNoteSweepFreq())
tryStop(c.block, config.GetCacheGTSBlockSweepFreq())
tryUntil("stopping block IDs cache", 5, func() bool {
if config.GetCacheGTSBlockIDsSweepFreq() > 0 {
return c.blockIDs.Stop()
}
return true
})
tryStop(c.emoji, config.GetCacheGTSEmojiSweepFreq())
tryStop(c.emojiCategory, config.GetCacheGTSEmojiCategorySweepFreq())
tryStop(c.follow, config.GetCacheGTSFollowSweepFreq())
tryUntil("stopping follow IDs cache", 5, func() bool {
if config.GetCacheGTSFollowIDsSweepFreq() > 0 {
return c.followIDs.Stop()
}
return true
})
tryStop(c.followRequest, config.GetCacheGTSFollowRequestSweepFreq())
tryUntil("stopping follow request IDs cache", 5, func() bool {
if config.GetCacheGTSFollowRequestIDsSweepFreq() > 0 {
return c.followRequestIDs.Stop()
}
return true
})
tryStop(c.instance, config.GetCacheGTSInstanceSweepFreq())
tryStop(c.list, config.GetCacheGTSListSweepFreq())
tryStop(c.listEntry, config.GetCacheGTSListEntrySweepFreq())
tryStop(c.marker, config.GetCacheGTSMarkerSweepFreq())
tryStop(c.media, config.GetCacheGTSMediaSweepFreq())
tryStop(c.mention, config.GetCacheGTSNotificationSweepFreq())
tryStop(c.notification, config.GetCacheGTSNotificationSweepFreq())
tryStop(c.report, config.GetCacheGTSReportSweepFreq())
tryStop(c.status, config.GetCacheGTSStatusSweepFreq())
tryStop(c.statusFave, config.GetCacheGTSStatusFaveSweepFreq())
tryStop(c.tag, config.GetCacheGTSTagSweepFreq())
tryStop(c.tombstone, config.GetCacheGTSTombstoneSweepFreq())
tryStop(c.user, config.GetCacheGTSUserSweepFreq())
tryUntil("stopping *gtsmodel.Webfinger cache", 5, func() bool {
if config.GetCacheGTSWebfingerSweepFreq() > 0 {
return c.webfinger.Stop()
}
return true
})
tryUntil("stopping *gtsmodel.Webfinger cache", 5, c.webfinger.Stop)
}
// Account provides access to the gtsmodel Account database cache.
@ -315,6 +235,14 @@ func (c *GTSCaches) Webfinger() *ttl.Cache[string, string] {
}
func (c *GTSCaches) initAccount() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofAccount(), // model in-mem size.
config.GetCacheAccountMemRatio(),
)
log.Infof(nil, "Account cache size = %d", cap)
c.account = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -329,12 +257,19 @@ func (c *GTSCaches) initAccount() {
a2 := new(gtsmodel.Account)
*a2 = *a1
return a2
}, config.GetCacheGTSAccountMaxSize())
c.account.SetTTL(config.GetCacheGTSAccountTTL(), true)
}, cap)
c.account.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initAccountNote() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofAccountNote(), // model in-mem size.
config.GetCacheAccountNoteMemRatio(),
)
log.Infof(nil, "AccountNote cache size = %d", cap)
c.accountNote = result.New([]result.Lookup{
{Name: "ID"},
{Name: "AccountID.TargetAccountID"},
@ -342,12 +277,20 @@ func (c *GTSCaches) initAccountNote() {
n2 := new(gtsmodel.AccountNote)
*n2 = *n1
return n2
}, config.GetCacheGTSAccountNoteMaxSize())
c.accountNote.SetTTL(config.GetCacheGTSAccountNoteTTL(), true)
}, cap)
c.accountNote.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initBlock() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofBlock(), // model in-mem size.
config.GetCacheBlockMemRatio(),
)
log.Infof(nil, "Block cache size = %d", cap)
c.block = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -358,16 +301,22 @@ func (c *GTSCaches) initBlock() {
b2 := new(gtsmodel.Block)
*b2 = *b1
return b2
}, config.GetCacheGTSBlockMaxSize())
c.block.SetTTL(config.GetCacheGTSBlockTTL(), true)
}, cap)
c.block.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initBlockIDs() {
c.blockIDs = &SliceCache[string]{Cache: ttl.New[string, []string](
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheBlockIDsMemRatio(),
)
log.Infof(nil, "Block IDs cache size = %d", cap)
c.blockIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
config.GetCacheGTSBlockIDsMaxSize(),
config.GetCacheGTSBlockIDsTTL(),
cap,
)}
}
@ -376,6 +325,14 @@ func (c *GTSCaches) initDomainBlock() {
}
func (c *GTSCaches) initEmoji() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofEmoji(), // model in-mem size.
config.GetCacheEmojiMemRatio(),
)
log.Infof(nil, "Emoji cache size = %d", cap)
c.emoji = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -386,12 +343,20 @@ func (c *GTSCaches) initEmoji() {
e2 := new(gtsmodel.Emoji)
*e2 = *e1
return e2
}, config.GetCacheGTSEmojiMaxSize())
c.emoji.SetTTL(config.GetCacheGTSEmojiTTL(), true)
}, cap)
c.emoji.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initEmojiCategory() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofEmojiCategory(), // model in-mem size.
config.GetCacheEmojiCategoryMemRatio(),
)
log.Infof(nil, "EmojiCategory cache size = %d", cap)
c.emojiCategory = result.New([]result.Lookup{
{Name: "ID"},
{Name: "Name"},
@ -399,12 +364,20 @@ func (c *GTSCaches) initEmojiCategory() {
c2 := new(gtsmodel.EmojiCategory)
*c2 = *c1
return c2
}, config.GetCacheGTSEmojiCategoryMaxSize())
c.emojiCategory.SetTTL(config.GetCacheGTSEmojiCategoryTTL(), true)
}, cap)
c.emojiCategory.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initFollow() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofFollow(), // model in-mem size.
config.GetCacheFollowMemRatio(),
)
log.Infof(nil, "Follow cache size = %d", cap)
c.follow = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -415,19 +388,34 @@ func (c *GTSCaches) initFollow() {
f2 := new(gtsmodel.Follow)
*f2 = *f1
return f2
}, config.GetCacheGTSFollowMaxSize())
c.follow.SetTTL(config.GetCacheGTSFollowTTL(), true)
}, cap)
c.follow.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initFollowIDs() {
c.followIDs = &SliceCache[string]{Cache: ttl.New[string, []string](
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheFollowIDsMemRatio(),
)
log.Infof(nil, "Follow IDs cache size = %d", cap)
c.followIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
config.GetCacheGTSFollowIDsMaxSize(),
config.GetCacheGTSFollowIDsTTL(),
cap,
)}
}
func (c *GTSCaches) initFollowRequest() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofFollowRequest(), // model in-mem size.
config.GetCacheFollowRequestMemRatio(),
)
log.Infof(nil, "FollowRequest cache size = %d", cap)
c.followRequest = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -438,19 +426,34 @@ func (c *GTSCaches) initFollowRequest() {
f2 := new(gtsmodel.FollowRequest)
*f2 = *f1
return f2
}, config.GetCacheGTSFollowRequestMaxSize())
c.followRequest.SetTTL(config.GetCacheGTSFollowRequestTTL(), true)
}, cap)
c.followRequest.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initFollowRequestIDs() {
c.followRequestIDs = &SliceCache[string]{Cache: ttl.New[string, []string](
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheFollowRequestIDsMemRatio(),
)
log.Infof(nil, "Follow Request IDs cache size = %d", cap)
c.followRequestIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
config.GetCacheGTSFollowRequestIDsMaxSize(),
config.GetCacheGTSFollowRequestIDsTTL(),
cap,
)}
}
func (c *GTSCaches) initInstance() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofInstance(), // model in-mem size.
config.GetCacheInstanceMemRatio(),
)
log.Infof(nil, "Instance cache size = %d", cap)
c.instance = result.New([]result.Lookup{
{Name: "ID"},
{Name: "Domain"},
@ -458,24 +461,40 @@ func (c *GTSCaches) initInstance() {
i2 := new(gtsmodel.Instance)
*i2 = *i1
return i1
}, config.GetCacheGTSInstanceMaxSize())
c.instance.SetTTL(config.GetCacheGTSInstanceTTL(), true)
c.emojiCategory.IgnoreErrors(ignoreErrors)
}, cap)
c.instance.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initList() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofList(), // model in-mem size.
config.GetCacheListMemRatio(),
)
log.Infof(nil, "List cache size = %d", cap)
c.list = result.New([]result.Lookup{
{Name: "ID"},
}, func(l1 *gtsmodel.List) *gtsmodel.List {
l2 := new(gtsmodel.List)
*l2 = *l1
return l2
}, config.GetCacheGTSListMaxSize())
c.list.SetTTL(config.GetCacheGTSListTTL(), true)
}, cap)
c.list.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initListEntry() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofListEntry(), // model in-mem size.
config.GetCacheListEntryMemRatio(),
)
log.Infof(nil, "ListEntry cache size = %d", cap)
c.listEntry = result.New([]result.Lookup{
{Name: "ID"},
{Name: "ListID", Multi: true},
@ -484,48 +503,80 @@ func (c *GTSCaches) initListEntry() {
l2 := new(gtsmodel.ListEntry)
*l2 = *l1
return l2
}, config.GetCacheGTSListEntryMaxSize())
c.list.SetTTL(config.GetCacheGTSListEntryTTL(), true)
c.list.IgnoreErrors(ignoreErrors)
}, cap)
c.listEntry.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initMarker() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMarker(), // model in-mem size.
config.GetCacheMarkerMemRatio(),
)
log.Infof(nil, "Marker cache size = %d", cap)
c.marker = result.New([]result.Lookup{
{Name: "AccountID.Name"},
}, func(m1 *gtsmodel.Marker) *gtsmodel.Marker {
m2 := new(gtsmodel.Marker)
*m2 = *m1
return m2
}, config.GetCacheGTSMarkerMaxSize())
c.marker.SetTTL(config.GetCacheGTSMarkerTTL(), true)
}, cap)
c.marker.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initMedia() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMedia(), // model in-mem size.
config.GetCacheMediaMemRatio(),
)
log.Infof(nil, "Media cache size = %d", cap)
c.media = result.New([]result.Lookup{
{Name: "ID"},
}, func(m1 *gtsmodel.MediaAttachment) *gtsmodel.MediaAttachment {
m2 := new(gtsmodel.MediaAttachment)
*m2 = *m1
return m2
}, config.GetCacheGTSMediaMaxSize())
c.media.SetTTL(config.GetCacheGTSMediaTTL(), true)
}, cap)
c.media.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initMention() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMention(), // model in-mem size.
config.GetCacheMentionMemRatio(),
)
log.Infof(nil, "Mention cache size = %d", cap)
c.mention = result.New([]result.Lookup{
{Name: "ID"},
}, func(m1 *gtsmodel.Mention) *gtsmodel.Mention {
m2 := new(gtsmodel.Mention)
*m2 = *m1
return m2
}, config.GetCacheGTSMentionMaxSize())
c.mention.SetTTL(config.GetCacheGTSMentionTTL(), true)
}, cap)
c.mention.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initNotification() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofNotification(), // model in-mem size.
config.GetCacheNotificationMemRatio(),
)
log.Infof(nil, "Notification cache size = %d", cap)
c.notification = result.New([]result.Lookup{
{Name: "ID"},
{Name: "NotificationType.TargetAccountID.OriginAccountID.StatusID"},
@ -533,24 +584,40 @@ func (c *GTSCaches) initNotification() {
n2 := new(gtsmodel.Notification)
*n2 = *n1
return n2
}, config.GetCacheGTSNotificationMaxSize())
c.notification.SetTTL(config.GetCacheGTSNotificationTTL(), true)
}, cap)
c.notification.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initReport() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofReport(), // model in-mem size.
config.GetCacheReportMemRatio(),
)
log.Infof(nil, "Report cache size = %d", cap)
c.report = result.New([]result.Lookup{
{Name: "ID"},
}, func(r1 *gtsmodel.Report) *gtsmodel.Report {
r2 := new(gtsmodel.Report)
*r2 = *r1
return r2
}, config.GetCacheGTSReportMaxSize())
c.report.SetTTL(config.GetCacheGTSReportTTL(), true)
}, cap)
c.report.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initStatus() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofStatus(), // model in-mem size.
config.GetCacheStatusMemRatio(),
)
log.Infof(nil, "Status cache size = %d", cap)
c.status = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -559,12 +626,20 @@ func (c *GTSCaches) initStatus() {
s2 := new(gtsmodel.Status)
*s2 = *s1
return s2
}, config.GetCacheGTSStatusMaxSize())
c.status.SetTTL(config.GetCacheGTSStatusTTL(), true)
}, cap)
c.status.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initStatusFave() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofStatusFave(), // model in-mem size.
config.GetCacheStatusFaveMemRatio(),
)
log.Infof(nil, "StatusFave cache size = %d", cap)
c.statusFave = result.New([]result.Lookup{
{Name: "ID"},
{Name: "AccountID.StatusID"},
@ -572,12 +647,20 @@ func (c *GTSCaches) initStatusFave() {
f2 := new(gtsmodel.StatusFave)
*f2 = *f1
return f2
}, config.GetCacheGTSStatusFaveMaxSize())
c.status.SetTTL(config.GetCacheGTSStatusFaveTTL(), true)
c.status.IgnoreErrors(ignoreErrors)
}, cap)
c.statusFave.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initTag() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofTag(), // model in-mem size.
config.GetCacheTagMemRatio(),
)
log.Infof(nil, "Tag cache size = %d", cap)
c.tag = result.New([]result.Lookup{
{Name: "ID"},
{Name: "Name"},
@ -585,12 +668,20 @@ func (c *GTSCaches) initTag() {
m2 := new(gtsmodel.Tag)
*m2 = *m1
return m2
}, config.GetCacheGTSTagMaxSize())
c.tag.SetTTL(config.GetCacheGTSTagTTL(), true)
}, cap)
c.tag.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initTombstone() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofTombstone(), // model in-mem size.
config.GetCacheTombstoneMemRatio(),
)
log.Infof(nil, "Tombstone cache size = %d", cap)
c.tombstone = result.New([]result.Lookup{
{Name: "ID"},
{Name: "URI"},
@ -598,12 +689,20 @@ func (c *GTSCaches) initTombstone() {
t2 := new(gtsmodel.Tombstone)
*t2 = *t1
return t2
}, config.GetCacheGTSTombstoneMaxSize())
c.tombstone.SetTTL(config.GetCacheGTSTombstoneTTL(), true)
}, cap)
c.tombstone.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initUser() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofUser(), // model in-mem size.
config.GetCacheUserMemRatio(),
)
log.Infof(nil, "User cache size = %d", cap)
c.user = result.New([]result.Lookup{
{Name: "ID"},
{Name: "AccountID"},
@ -614,15 +713,23 @@ func (c *GTSCaches) initUser() {
u2 := new(gtsmodel.User)
*u2 = *u1
return u2
}, config.GetCacheGTSUserMaxSize())
c.user.SetTTL(config.GetCacheGTSUserTTL(), true)
}, cap)
c.user.IgnoreErrors(ignoreErrors)
}
func (c *GTSCaches) initWebfinger() {
// Calculate maximum cache size.
cap := calculateCacheMax(
sizeofURIStr, sizeofURIStr,
config.GetCacheWebfingerMemRatio(),
)
log.Infof(nil, "Webfinger cache size = %d", cap)
c.webfinger = ttl.New[string, string](
0,
config.GetCacheGTSWebfingerMaxSize(),
config.GetCacheGTSWebfingerTTL(),
cap,
24*time.Hour,
)
}

501
internal/cache/size.go vendored Normal file
View file

@ -0,0 +1,501 @@
// GoToSocial
// Copyright (C) GoToSocial Authors admin@gotosocial.org
// SPDX-License-Identifier: AGPL-3.0-or-later
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package cache
import (
"crypto/rsa"
"time"
"unsafe"
"codeberg.org/gruf/go-cache/v3/simple"
"github.com/DmitriyVTitov/size"
"github.com/superseriousbusiness/gotosocial/internal/ap"
"github.com/superseriousbusiness/gotosocial/internal/config"
"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
"github.com/superseriousbusiness/gotosocial/internal/id"
)
const (
// example data values.
exampleID = id.Highest
exampleURI = "https://social.bbc/users/ItsMePrinceCharlesInit"
exampleText = `
oh no me nan's gone and done it :shocked:
she fuckin killed the king :regicide:
nan what have you done :shocked:
no nan put down the knife, don't go after the landlords next! :knife:
you'll make society more equitable for all if you're not careful! :hammer_sickle:
#JustNanProblems #WhatWillSheDoNext #MaybeItWasntSuchABadThingAfterAll
`
exampleTextSmall = "Small problem lads, me nan's gone on a bit of a rampage"
exampleUsername = "@SexHaver1969"
// ID string size in memory (is always 26 char ULID).
sizeofIDStr = unsafe.Sizeof(exampleID)
// URI string size in memory (use some random example URI).
sizeofURIStr = unsafe.Sizeof(exampleURI)
// ID slice size in memory (using some estimate of length = 250).
sizeofIDSlice = unsafe.Sizeof([]string{}) + 250*sizeofIDStr
// result cache key size estimate which is tricky. it can
// be a serialized string of almost any type, so we pick a
// nice serialized key size on the upper end of normal.
sizeofResultKey = 2 * sizeofIDStr
)
// calculateSliceCacheMax calculates the maximum capacity for a slice cache with given individual ratio.
func calculateSliceCacheMax(ratio float64) int {
return calculateCacheMax(sizeofIDStr, sizeofIDSlice, ratio)
}
// calculateResultCacheMax calculates the maximum cache capacity for a result
// cache's individual ratio number, and the size of the struct model in memory.
func calculateResultCacheMax(structSz uintptr, ratio float64) int {
// Estimate a worse-case scenario of extra lookup hash maps,
// where lookups are the no. "keys" each result can be found under
const lookups = 10
// Calculate the extra cache lookup map overheads.
totalLookupKeySz := uintptr(lookups) * sizeofResultKey
totalLookupValSz := uintptr(lookups) * unsafe.Sizeof(uint64(0))
// Primary cache sizes.
pkeySz := unsafe.Sizeof(uint64(0))
pvalSz := structSz
// The result cache wraps each struct result in a wrapping
// struct with further information, and possible error. This
// also needs to be taken into account when calculating value.
const resultValueOverhead = unsafe.Sizeof(&struct {
_ int64
_ []any
_ any
_ error
}{})
return calculateCacheMax(
pkeySz+totalLookupKeySz,
pvalSz+totalLookupValSz+resultValueOverhead,
ratio,
)
}
// calculateCacheMax calculates the maximum cache capacity for a cache's
// individual ratio number, and key + value object sizes in memory.
func calculateCacheMax(keySz, valSz uintptr, ratio float64) int {
if ratio < 0 {
// Negative ratios are a secret little trick
// to manually set the cache capacity sizes.
return int(-1 * ratio)
}
// see: https://golang.org/src/runtime/map.go
const emptyBucketOverhead = 10.79
// This takes into account (roughly) that the underlying simple cache library wraps
// elements within a simple.Entry{}, and the ordered map wraps each in a linked list elem.
const cacheElemOverhead = unsafe.Sizeof(simple.Entry{}) + unsafe.Sizeof(struct {
key, value interface{}
next, prev uintptr
}{})
// The inputted memory ratio does not take into account the
// total of all ratios, so divide it here to get perc. ratio.
totalRatio := ratio / totalOfRatios()
// TODO: we should also further weight this ratio depending
// on the combined keySz + valSz as a ratio of all available
// cache model memories. otherwise you can end up with a
// low-ratio cache of tiny models with larger capacity than
// a high-ratio cache of large models.
// Get max available cache memory, calculating max for
// this cache by multiplying by this cache's mem ratio.
maxMem := config.GetCacheMemoryTarget()
fMaxMem := float64(maxMem) * totalRatio
// Cast to useable types.
fKeySz := float64(keySz)
fValSz := float64(valSz)
// Calculated using the internal cache map size:
// (($keysz + $valsz) * $len) + ($len * $allOverheads) = $memSz
return int(fMaxMem / (fKeySz + fValSz + emptyBucketOverhead + float64(cacheElemOverhead)))
}
// totalOfRatios returns the total of all cache ratios added together.
func totalOfRatios() float64 {
// NOTE: this is not performant calculating
// this every damn time (mainly the mutex unlocks
// required to access each config var). fortunately
// we only do this on init so fuck it :D
return 0 +
config.GetCacheAccountMemRatio() +
config.GetCacheAccountNoteMemRatio() +
config.GetCacheBlockMemRatio() +
config.GetCacheBlockIDsMemRatio() +
config.GetCacheEmojiMemRatio() +
config.GetCacheEmojiCategoryMemRatio() +
config.GetCacheFollowMemRatio() +
config.GetCacheFollowIDsMemRatio() +
config.GetCacheFollowRequestMemRatio() +
config.GetCacheFollowRequestIDsMemRatio() +
config.GetCacheInstanceMemRatio() +
config.GetCacheListMemRatio() +
config.GetCacheListEntryMemRatio() +
config.GetCacheMarkerMemRatio() +
config.GetCacheMediaMemRatio() +
config.GetCacheMentionMemRatio() +
config.GetCacheNotificationMemRatio() +
config.GetCacheReportMemRatio() +
config.GetCacheStatusMemRatio() +
config.GetCacheStatusFaveMemRatio() +
config.GetCacheTagMemRatio() +
config.GetCacheTombstoneMemRatio() +
config.GetCacheUserMemRatio() +
config.GetCacheWebfingerMemRatio() +
config.GetCacheVisibilityMemRatio()
}
func sizeofAccount() uintptr {
return uintptr(size.Of(&gtsmodel.Account{
ID: exampleID,
Username: exampleUsername,
AvatarMediaAttachmentID: exampleID,
HeaderMediaAttachmentID: exampleID,
DisplayName: exampleUsername,
Note: exampleText,
NoteRaw: exampleText,
Memorial: func() *bool { ok := false; return &ok }(),
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
FetchedAt: time.Now(),
Bot: func() *bool { ok := true; return &ok }(),
Locked: func() *bool { ok := true; return &ok }(),
Discoverable: func() *bool { ok := false; return &ok }(),
Privacy: gtsmodel.VisibilityFollowersOnly,
Sensitive: func() *bool { ok := true; return &ok }(),
Language: "fr",
URI: exampleURI,
URL: exampleURI,
InboxURI: exampleURI,
OutboxURI: exampleURI,
FollowersURI: exampleURI,
FollowingURI: exampleURI,
FeaturedCollectionURI: exampleURI,
ActorType: ap.ActorPerson,
PrivateKey: &rsa.PrivateKey{},
PublicKey: &rsa.PublicKey{},
PublicKeyURI: exampleURI,
SensitizedAt: time.Time{},
SilencedAt: time.Now(),
SuspendedAt: time.Now(),
HideCollections: func() *bool { ok := true; return &ok }(),
SuspensionOrigin: "",
EnableRSS: func() *bool { ok := true; return &ok }(),
}))
}
func sizeofAccountNote() uintptr {
return uintptr(size.Of(&gtsmodel.AccountNote{
ID: exampleID,
AccountID: exampleID,
TargetAccountID: exampleID,
Comment: exampleTextSmall,
}))
}
func sizeofBlock() uintptr {
return uintptr(size.Of(&gtsmodel.Block{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
URI: exampleURI,
AccountID: exampleID,
TargetAccountID: exampleID,
}))
}
func sizeofEmoji() uintptr {
return uintptr(size.Of(&gtsmodel.Emoji{
ID: exampleID,
Shortcode: exampleTextSmall,
Domain: exampleURI,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
ImageRemoteURL: exampleURI,
ImageStaticRemoteURL: exampleURI,
ImageURL: exampleURI,
ImagePath: exampleURI,
ImageStaticURL: exampleURI,
ImageStaticPath: exampleURI,
ImageContentType: "image/png",
ImageStaticContentType: "image/png",
ImageUpdatedAt: time.Now(),
Disabled: func() *bool { ok := false; return &ok }(),
URI: "http://localhost:8080/emoji/01F8MH9H8E4VG3KDYJR9EGPXCQ",
VisibleInPicker: func() *bool { ok := true; return &ok }(),
CategoryID: "01GGQ8V4993XK67B2JB396YFB7",
Cached: func() *bool { ok := true; return &ok }(),
}))
}
func sizeofEmojiCategory() uintptr {
return uintptr(size.Of(&gtsmodel.EmojiCategory{
ID: exampleID,
Name: exampleUsername,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
}))
}
func sizeofFollow() uintptr {
return uintptr(size.Of(&gtsmodel.Follow{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
AccountID: exampleID,
TargetAccountID: exampleID,
ShowReblogs: func() *bool { ok := true; return &ok }(),
URI: exampleURI,
Notify: func() *bool { ok := false; return &ok }(),
}))
}
func sizeofFollowRequest() uintptr {
return uintptr(size.Of(&gtsmodel.FollowRequest{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
AccountID: exampleID,
TargetAccountID: exampleID,
ShowReblogs: func() *bool { ok := true; return &ok }(),
URI: exampleURI,
Notify: func() *bool { ok := false; return &ok }(),
}))
}
func sizeofInstance() uintptr {
return uintptr(size.Of(&gtsmodel.Instance{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
Domain: exampleURI,
URI: exampleURI,
Title: exampleTextSmall,
ShortDescription: exampleText,
Description: exampleText,
ContactEmail: exampleUsername,
ContactAccountUsername: exampleUsername,
ContactAccountID: exampleID,
}))
}
func sizeofList() uintptr {
return uintptr(size.Of(&gtsmodel.List{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
Title: exampleTextSmall,
AccountID: exampleID,
RepliesPolicy: gtsmodel.RepliesPolicyFollowed,
}))
}
func sizeofListEntry() uintptr {
return uintptr(size.Of(&gtsmodel.ListEntry{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
ListID: exampleID,
FollowID: exampleID,
}))
}
func sizeofMarker() uintptr {
return uintptr(size.Of(&gtsmodel.Marker{
AccountID: exampleID,
Name: gtsmodel.MarkerNameHome,
UpdatedAt: time.Now(),
Version: 0,
LastReadID: exampleID,
}))
}
func sizeofMedia() uintptr {
return uintptr(size.Of(&gtsmodel.MediaAttachment{
ID: exampleID,
StatusID: exampleID,
URL: exampleURI,
RemoteURL: exampleURI,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
Type: gtsmodel.FileTypeImage,
AccountID: exampleID,
Description: exampleText,
ScheduledStatusID: exampleID,
Blurhash: exampleTextSmall,
File: gtsmodel.File{
Path: exampleURI,
ContentType: "image/jpeg",
UpdatedAt: time.Now(),
},
Thumbnail: gtsmodel.Thumbnail{
Path: exampleURI,
ContentType: "image/jpeg",
UpdatedAt: time.Now(),
URL: exampleURI,
RemoteURL: exampleURI,
},
Avatar: func() *bool { ok := false; return &ok }(),
Header: func() *bool { ok := false; return &ok }(),
Cached: func() *bool { ok := true; return &ok }(),
}))
}
func sizeofMention() uintptr {
return uintptr(size.Of(&gtsmodel.Mention{
ID: exampleURI,
StatusID: exampleURI,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
OriginAccountID: exampleURI,
OriginAccountURI: exampleURI,
TargetAccountID: exampleID,
NameString: exampleUsername,
TargetAccountURI: exampleURI,
TargetAccountURL: exampleURI,
}))
}
func sizeofNotification() uintptr {
return uintptr(size.Of(&gtsmodel.Notification{
ID: exampleID,
NotificationType: gtsmodel.NotificationFave,
CreatedAt: time.Now(),
TargetAccountID: exampleID,
OriginAccountID: exampleID,
StatusID: exampleID,
Read: func() *bool { ok := false; return &ok }(),
}))
}
func sizeofReport() uintptr {
return uintptr(size.Of(&gtsmodel.Report{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
URI: exampleURI,
AccountID: exampleID,
TargetAccountID: exampleID,
Comment: exampleText,
StatusIDs: []string{exampleID, exampleID, exampleID},
Forwarded: func() *bool { ok := true; return &ok }(),
ActionTaken: exampleText,
ActionTakenAt: time.Now(),
ActionTakenByAccountID: exampleID,
}))
}
func sizeofStatus() uintptr {
return uintptr(size.Of(&gtsmodel.Status{
ID: exampleURI,
URI: exampleURI,
URL: exampleURI,
Content: exampleText,
Text: exampleText,
AttachmentIDs: []string{exampleID, exampleID, exampleID},
TagIDs: []string{exampleID, exampleID, exampleID},
MentionIDs: []string{},
EmojiIDs: []string{exampleID, exampleID, exampleID},
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
FetchedAt: time.Now(),
Local: func() *bool { ok := false; return &ok }(),
AccountURI: exampleURI,
AccountID: exampleID,
InReplyToID: exampleID,
InReplyToURI: exampleURI,
InReplyToAccountID: exampleID,
BoostOfID: exampleID,
BoostOfAccountID: exampleID,
ContentWarning: exampleUsername, // similar length
Visibility: gtsmodel.VisibilityPublic,
Sensitive: func() *bool { ok := false; return &ok }(),
Language: "en",
CreatedWithApplicationID: exampleID,
Federated: func() *bool { ok := true; return &ok }(),
Boostable: func() *bool { ok := true; return &ok }(),
Replyable: func() *bool { ok := true; return &ok }(),
Likeable: func() *bool { ok := true; return &ok }(),
ActivityStreamsType: ap.ObjectNote,
}))
}
func sizeofStatusFave() uintptr {
return uintptr(size.Of(&gtsmodel.StatusFave{
ID: exampleID,
CreatedAt: time.Now(),
AccountID: exampleID,
TargetAccountID: exampleID,
StatusID: exampleID,
URI: exampleURI,
}))
}
func sizeofTag() uintptr {
return uintptr(size.Of(&gtsmodel.Tag{
ID: exampleID,
Name: exampleUsername,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
Useable: func() *bool { ok := true; return &ok }(),
Listable: func() *bool { ok := true; return &ok }(),
}))
}
func sizeofTombstone() uintptr {
return uintptr(size.Of(&gtsmodel.Tombstone{
ID: exampleID,
CreatedAt: time.Now(),
UpdatedAt: time.Now(),
Domain: exampleUsername,
URI: exampleURI,
}))
}
func sizeofVisibility() uintptr {
return uintptr(size.Of(&CachedVisibility{
ItemID: exampleID,
RequesterID: exampleID,
Type: VisibilityTypeAccount,
Value: false,
}))
}
func sizeofUser() uintptr {
return uintptr(size.Of(&gtsmodel.User{}))
}

4
internal/cache/slice.go vendored
View file

@ -18,14 +18,14 @@
package cache
import (
"codeberg.org/gruf/go-cache/v3/ttl"
"codeberg.org/gruf/go-cache/v3/simple"
"golang.org/x/exp/slices"
)
// SliceCache wraps a ttl.Cache to provide simple loader-callback
// functions for fetching + caching slices of objects (e.g. IDs).
type SliceCache[T any] struct {
*ttl.Cache[string, []T]
*simple.Cache[string, []T]
}
// Load will attempt to load an existing slice from the cache for the given key, else calling the provided load function and caching the result.

22
internal/cache/util.go vendored
View file

@ -20,10 +20,8 @@ package cache
import (
"database/sql"
"errors"
"fmt"
"time"
"codeberg.org/gruf/go-cache/v3/result"
errorsv2 "codeberg.org/gruf/go-errors/v2"
"github.com/superseriousbusiness/gotosocial/internal/db"
"github.com/superseriousbusiness/gotosocial/internal/log"
@ -56,26 +54,6 @@ func (*nocopy) Lock() {}
func (*nocopy) Unlock() {}
// tryStart will attempt to start the given cache only if sweep duration > 0 (sweeping is enabled).
func tryStart[ValueType any](cache *result.Cache[ValueType], sweep time.Duration) {
if sweep > 0 {
var z ValueType
msg := fmt.Sprintf("starting %T cache", z)
tryUntil(msg, 5, func() bool {
return cache.Start(sweep)
})
}
}
// tryStop will attempt to stop the given cache only if sweep duration > 0 (sweeping is enabled).
func tryStop[ValueType any](cache *result.Cache[ValueType], sweep time.Duration) {
if sweep > 0 {
var z ValueType
msg := fmt.Sprintf("stopping %T cache", z)
tryUntil(msg, 5, cache.Stop)
}
}
// tryUntil will attempt to call 'do' for 'count' attempts, before panicking with 'msg'.
func tryUntil(msg string, count int, do func() bool) {
for i := 0; i < count; i++ {

15
internal/cache/visibility.go vendored
View file

@ -20,6 +20,7 @@ package cache
import (
"codeberg.org/gruf/go-cache/v3/result"
"github.com/superseriousbusiness/gotosocial/internal/config"
"github.com/superseriousbusiness/gotosocial/internal/log"
)
type VisibilityCache struct {
@ -29,6 +30,14 @@ type VisibilityCache struct {
// Init will initialize the visibility cache in this collection.
// NOTE: the cache MUST NOT be in use anywhere, this is not thread-safe.
func (c *VisibilityCache) Init() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofVisibility(), // model in-mem size.
config.GetCacheVisibilityMemRatio(),
)
log.Infof(nil, "Visibility cache size = %d", cap)
c.Cache = result.New([]result.Lookup{
{Name: "ItemID", Multi: true},
{Name: "RequesterID", Multi: true},
@ -37,19 +46,17 @@ func (c *VisibilityCache) Init() {
v2 := new(CachedVisibility)
*v2 = *v1
return v2
}, config.GetCacheVisibilityMaxSize())
c.Cache.SetTTL(config.GetCacheVisibilityTTL(), true)
}, cap)
c.Cache.IgnoreErrors(ignoreErrors)
}
// Start will attempt to start the visibility cache, or panic.
func (c *VisibilityCache) Start() {
tryStart(c.Cache, config.GetCacheVisibilitySweepFreq())
}
// Stop will attempt to stop the visibility cache, or panic.
func (c *VisibilityCache) Stop() {
tryStop(c.Cache, config.GetCacheVisibilitySweepFreq())
}
// VisibilityType represents a visibility lookup type.

133
internal/config/config.go
View file

@ -175,113 +175,32 @@ type HTTPClientConfiguration struct {
}
type CacheConfiguration struct {
GTS GTSCacheConfiguration `name:"gts"`
VisibilityMaxSize int `name:"visibility-max-size"`
VisibilityTTL time.Duration `name:"visibility-ttl"`
VisibilitySweepFreq time.Duration `name:"visibility-sweep-freq"`
}
type GTSCacheConfiguration struct {
AccountMaxSize int `name:"account-max-size"`
AccountTTL time.Duration `name:"account-ttl"`
AccountSweepFreq time.Duration `name:"account-sweep-freq"`
AccountNoteMaxSize int `name:"account-note-max-size"`
AccountNoteTTL time.Duration `name:"account-note-ttl"`
AccountNoteSweepFreq time.Duration `name:"account-note-sweep-freq"`
BlockMaxSize int `name:"block-max-size"`
BlockTTL time.Duration `name:"block-ttl"`
BlockSweepFreq time.Duration `name:"block-sweep-freq"`
BlockIDsMaxSize int `name:"block-ids-max-size"`
BlockIDsTTL time.Duration `name:"block-ids-ttl"`
BlockIDsSweepFreq time.Duration `name:"block-ids-sweep-freq"`
DomainBlockMaxSize int `name:"domain-block-max-size"`
DomainBlockTTL time.Duration `name:"domain-block-ttl"`
DomainBlockSweepFreq time.Duration `name:"domain-block-sweep-freq"`
EmojiMaxSize int `name:"emoji-max-size"`
EmojiTTL time.Duration `name:"emoji-ttl"`
EmojiSweepFreq time.Duration `name:"emoji-sweep-freq"`
EmojiCategoryMaxSize int `name:"emoji-category-max-size"`
EmojiCategoryTTL time.Duration `name:"emoji-category-ttl"`
EmojiCategorySweepFreq time.Duration `name:"emoji-category-sweep-freq"`
FollowMaxSize int `name:"follow-max-size"`
FollowTTL time.Duration `name:"follow-ttl"`
FollowSweepFreq time.Duration `name:"follow-sweep-freq"`
FollowIDsMaxSize int `name:"follow-ids-max-size"`
FollowIDsTTL time.Duration `name:"follow-ids-ttl"`
FollowIDsSweepFreq time.Duration `name:"follow-ids-sweep-freq"`
FollowRequestMaxSize int `name:"follow-request-max-size"`
FollowRequestTTL time.Duration `name:"follow-request-ttl"`
FollowRequestSweepFreq time.Duration `name:"follow-request-sweep-freq"`
FollowRequestIDsMaxSize int `name:"follow-request-ids-max-size"`
FollowRequestIDsTTL time.Duration `name:"follow-request-ids-ttl"`
FollowRequestIDsSweepFreq time.Duration `name:"follow-request-ids-sweep-freq"`
InstanceMaxSize int `name:"instance-max-size"`
InstanceTTL time.Duration `name:"instance-ttl"`
InstanceSweepFreq time.Duration `name:"instance-sweep-freq"`
ListMaxSize int `name:"list-max-size"`
ListTTL time.Duration `name:"list-ttl"`
ListSweepFreq time.Duration `name:"list-sweep-freq"`
ListEntryMaxSize int `name:"list-entry-max-size"`
ListEntryTTL time.Duration `name:"list-entry-ttl"`
ListEntrySweepFreq time.Duration `name:"list-entry-sweep-freq"`
MarkerMaxSize int `name:"marker-max-size"`
MarkerTTL time.Duration `name:"marker-ttl"`
MarkerSweepFreq time.Duration `name:"marker-sweep-freq"`
MediaMaxSize int `name:"media-max-size"`
MediaTTL time.Duration `name:"media-ttl"`
MediaSweepFreq time.Duration `name:"media-sweep-freq"`
MentionMaxSize int `name:"mention-max-size"`
MentionTTL time.Duration `name:"mention-ttl"`
MentionSweepFreq time.Duration `name:"mention-sweep-freq"`
NotificationMaxSize int `name:"notification-max-size"`
NotificationTTL time.Duration `name:"notification-ttl"`
NotificationSweepFreq time.Duration `name:"notification-sweep-freq"`
ReportMaxSize int `name:"report-max-size"`
ReportTTL time.Duration `name:"report-ttl"`
ReportSweepFreq time.Duration `name:"report-sweep-freq"`
StatusMaxSize int `name:"status-max-size"`
StatusTTL time.Duration `name:"status-ttl"`
StatusSweepFreq time.Duration `name:"status-sweep-freq"`
StatusFaveMaxSize int `name:"status-fave-max-size"`
StatusFaveTTL time.Duration `name:"status-fave-ttl"`
StatusFaveSweepFreq time.Duration `name:"status-fave-sweep-freq"`
TagMaxSize int `name:"tag-max-size"`
TagTTL time.Duration `name:"tag-ttl"`
TagSweepFreq time.Duration `name:"tag-sweep-freq"`
TombstoneMaxSize int `name:"tombstone-max-size"`
TombstoneTTL time.Duration `name:"tombstone-ttl"`
TombstoneSweepFreq time.Duration `name:"tombstone-sweep-freq"`
UserMaxSize int `name:"user-max-size"`
UserTTL time.Duration `name:"user-ttl"`
UserSweepFreq time.Duration `name:"user-sweep-freq"`
WebfingerMaxSize int `name:"webfinger-max-size"`
WebfingerTTL time.Duration `name:"webfinger-ttl"`
WebfingerSweepFreq time.Duration `name:"webfinger-sweep-freq"`
MemoryTarget bytesize.Size `name:"memory-target"`
AccountMemRatio float64 `name:"account-mem-ratio"`
AccountNoteMemRatio float64 `name:"account-note-mem-ratio"`
BlockMemRatio float64 `name:"block-mem-ratio"`
BlockIDsMemRatio float64 `name:"block-mem-ratio"`
EmojiMemRatio float64 `name:"emoji-mem-ratio"`
EmojiCategoryMemRatio float64 `name:"emoji-category-mem-ratio"`
FollowMemRatio float64 `name:"follow-mem-ratio"`
FollowIDsMemRatio float64 `name:"follow-ids-mem-ratio"`
FollowRequestMemRatio float64 `name:"follow-request-mem-ratio"`
FollowRequestIDsMemRatio float64 `name:"follow-request-ids-mem-ratio"`
InstanceMemRatio float64 `name:"instance-mem-ratio"`
ListMemRatio float64 `name:"list-mem-ratio"`
ListEntryMemRatio float64 `name:"list-entry-mem-ratio"`
MarkerMemRatio float64 `name:"marker-mem-ratio"`
MediaMemRatio float64 `name:"media-mem-ratio"`
MentionMemRatio float64 `name:"mention-mem-ratio"`
NotificationMemRatio float64 `name:"notification-mem-ratio"`
ReportMemRatio float64 `name:"report-mem-ratio"`
StatusMemRatio float64 `name:"status-mem-ratio"`
StatusFaveMemRatio float64 `name:"status-fave-mem-ratio"`
TagMemRatio float64 `name:"tag-mem-ratio"`
TombstoneMemRatio float64 `name:"tombstone-mem-ratio"`
UserMemRatio float64 `name:"user-mem-ratio"`
WebfingerMemRatio float64 `name:"webfinger-mem-ratio"`
VisibilityMemRatio float64 `name:"visibility-mem-ratio"`
}
// MarshalMap will marshal current Configuration into a map structure (useful for JSON/TOML/YAML).

147
internal/config/defaults.go
View file

@ -126,111 +126,50 @@ var Defaults = Configuration{
AdvancedSenderMultiplier: 2, // 2 senders per CPU
Cache: CacheConfiguration{
GTS: GTSCacheConfiguration{
AccountMaxSize: 2000,
AccountTTL: time.Minute * 30,
AccountSweepFreq: time.Minute,
// Rough memory target that the total
// size of all State.Caches will attempt
// to remain with. Emphasis on *rough*.
MemoryTarget: 200 * bytesize.MiB,
AccountNoteMaxSize: 1000,
AccountNoteTTL: time.Minute * 30,
AccountNoteSweepFreq: time.Minute,
BlockMaxSize: 1000,
BlockTTL: time.Minute * 30,
BlockSweepFreq: time.Minute,
BlockIDsMaxSize: 500,
BlockIDsTTL: time.Minute * 30,
BlockIDsSweepFreq: time.Minute,
DomainBlockMaxSize: 2000,
DomainBlockTTL: time.Hour * 24,
DomainBlockSweepFreq: time.Minute,
EmojiMaxSize: 2000,
EmojiTTL: time.Minute * 30,
EmojiSweepFreq: time.Minute,
EmojiCategoryMaxSize: 100,
EmojiCategoryTTL: time.Minute * 30,
EmojiCategorySweepFreq: time.Minute,
FollowMaxSize: 2000,
FollowTTL: time.Minute * 30,
FollowSweepFreq: time.Minute,
FollowIDsMaxSize: 500,
FollowIDsTTL: time.Minute * 30,
FollowIDsSweepFreq: time.Minute,
FollowRequestMaxSize: 2000,
FollowRequestTTL: time.Minute * 30,
FollowRequestSweepFreq: time.Minute,
FollowRequestIDsMaxSize: 500,
FollowRequestIDsTTL: time.Minute * 30,
FollowRequestIDsSweepFreq: time.Minute,
InstanceMaxSize: 2000,
InstanceTTL: time.Minute * 30,
InstanceSweepFreq: time.Minute,
ListMaxSize: 2000,
ListTTL: time.Minute * 30,
ListSweepFreq: time.Minute,
ListEntryMaxSize: 2000,
ListEntryTTL: time.Minute * 30,
ListEntrySweepFreq: time.Minute,
MarkerMaxSize: 2000,
MarkerTTL: time.Hour * 6,
MarkerSweepFreq: time.Minute,
MediaMaxSize: 1000,
MediaTTL: time.Minute * 30,
MediaSweepFreq: time.Minute,
MentionMaxSize: 2000,
MentionTTL: time.Minute * 30,
MentionSweepFreq: time.Minute,
NotificationMaxSize: 1000,
NotificationTTL: time.Minute * 30,
NotificationSweepFreq: time.Minute,
ReportMaxSize: 100,
ReportTTL: time.Minute * 30,
ReportSweepFreq: time.Minute,
StatusMaxSize: 2000,
StatusTTL: time.Minute * 30,
StatusSweepFreq: time.Minute,
StatusFaveMaxSize: 2000,
StatusFaveTTL: time.Minute * 30,
StatusFaveSweepFreq: time.Minute,
TagMaxSize: 2000,
TagTTL: time.Minute * 30,
TagSweepFreq: time.Minute,
TombstoneMaxSize: 500,
TombstoneTTL: time.Minute * 30,
TombstoneSweepFreq: time.Minute,
UserMaxSize: 500,
UserTTL: time.Minute * 30,
UserSweepFreq: time.Minute,
WebfingerMaxSize: 250,
WebfingerTTL: time.Hour * 24,
WebfingerSweepFreq: time.Minute * 15,
},
VisibilityMaxSize: 2000,
VisibilityTTL: time.Minute * 30,
VisibilitySweepFreq: time.Minute,
// These ratios signal what percentage
// of the available cache target memory
// is allocated to each object type's
// cache.
//
// These are weighted by a totally
// assorted mixture of priority, and
// manual twiddling to get the generated
// cache capacity ratios within normal
// amounts dependent size of the models.
//
// when TODO items in the size.go source
// file have been addressed, these should
// be able to make some more sense :D
AccountMemRatio: 18,
AccountNoteMemRatio: 0.1,
BlockMemRatio: 3,
BlockIDsMemRatio: 3,
EmojiMemRatio: 3,
EmojiCategoryMemRatio: 0.1,
FollowMemRatio: 4,
FollowIDsMemRatio: 4,
FollowRequestMemRatio: 2,
FollowRequestIDsMemRatio: 2,
InstanceMemRatio: 1,
ListMemRatio: 3,
ListEntryMemRatio: 3,
MarkerMemRatio: 0.5,
MediaMemRatio: 4,
MentionMemRatio: 5,
NotificationMemRatio: 5,
ReportMemRatio: 1,
StatusMemRatio: 18,
StatusFaveMemRatio: 5,
TagMemRatio: 3,
TombstoneMemRatio: 2,
UserMemRatio: 0.1,
WebfingerMemRatio: 0.1,
VisibilityMemRatio: 2,
},
HTTPClient: HTTPClientConfiguration{

1934
internal/config/helpers.gen.go
View file

File diff suppressed because it is too large Load diff

4
internal/httpclient/client.go
View file

@ -108,7 +108,7 @@ type Config struct {
// - request logging
type Client struct {
client http.Client
badHosts cache.Cache[string, struct{}]
badHosts cache.TTLCache[string, struct{}]
bodyMax int64
}
@ -178,7 +178,7 @@ func New(cfg Config) *Client {
}
// Initiate outgoing bad hosts lookup cache.
c.badHosts = cache.New[string, struct{}](0, 1000, 0)
c.badHosts = cache.NewTTL[string, struct{}](0, 1000, 0)
c.badHosts.SetTTL(time.Hour, false)
if !c.badHosts.Start(time.Minute) {
log.Panic(nil, "failed to start transport controller cache")

4
internal/transport/controller.go
View file

@ -50,7 +50,7 @@ type controller struct {
fedDB federatingdb.DB
clock pub.Clock
client httpclient.SigningClient
trspCache cache.Cache[string, *transport]
trspCache cache.TTLCache[string, *transport]
userAgent string
senders int // no. concurrent batch delivery routines.
}
@ -76,7 +76,7 @@ func NewController(state *state.State, federatingDB federatingdb.DB, clock pub.C
fedDB: federatingDB,
clock: clock,
client: client,
trspCache: cache.New[string, *transport](0, 100, 0),
trspCache: cache.NewTTL[string, *transport](0, 100, 0),
userAgent: fmt.Sprintf("%s (+%s://%s) gotosocial/%s", applicationName, proto, host, version),
senders: senders,
}

4
internal/web/etag.go
View file

@ -29,8 +29,8 @@ import (
"codeberg.org/gruf/go-cache/v3"
)
func newETagCache() cache.Cache[string, eTagCacheEntry] {
eTagCache := cache.New[string, eTagCacheEntry](0, 1000, 0)
func newETagCache() cache.TTLCache[string, eTagCacheEntry] {
eTagCache := cache.NewTTL[string, eTagCacheEntry](0, 1000, 0)
eTagCache.SetTTL(time.Hour, false)
if !eTagCache.Start(time.Minute) {
log.Panic(nil, "could not start eTagCache")

107
test/envparsing.sh
View file

@ -2,7 +2,7 @@
set -eu
EXPECT=$(cat <<"EOF"
EXPECT=$(cat << "EOF"
{
"account-domain": "peepee",
"accounts-allow-custom-css": true,
@ -18,86 +18,31 @@ EXPECT=$(cat <<"EOF"
"application-name": "gts",
"bind-address": "127.0.0.1",
"cache": {
"gts": {
"account-max-size": 99,
"account-note-max-size": 1000,
"account-note-sweep-freq": 60000000000,
"account-note-ttl": 1800000000000,
"account-sweep-freq": 1000000000,
"account-ttl": 10800000000000,
"block-ids-max-size": 500,
"block-ids-sweep-freq": 60000000000,
"block-ids-ttl": 1800000000000,
"block-max-size": 1000,
"block-sweep-freq": 60000000000,
"block-ttl": 1800000000000,
"domain-block-max-size": 2000,
"domain-block-sweep-freq": 60000000000,
"domain-block-ttl": 86400000000000,
"emoji-category-max-size": 100,
"emoji-category-sweep-freq": 60000000000,
"emoji-category-ttl": 1800000000000,
"emoji-max-size": 2000,
"emoji-sweep-freq": 60000000000,
"emoji-ttl": 1800000000000,
"follow-ids-max-size": 500,
"follow-ids-sweep-freq": 60000000000,
"follow-ids-ttl": 1800000000000,
"follow-max-size": 2000,
"follow-request-ids-max-size": 500,
"follow-request-ids-sweep-freq": 60000000000,
"follow-request-ids-ttl": 1800000000000,
"follow-request-max-size": 2000,
"follow-request-sweep-freq": 60000000000,
"follow-request-ttl": 1800000000000,
"follow-sweep-freq": 60000000000,
"follow-ttl": 1800000000000,
"instance-max-size": 2000,
"instance-sweep-freq": 60000000000,
"instance-ttl": 1800000000000,
"list-entry-max-size": 2000,
"list-entry-sweep-freq": 60000000000,
"list-entry-ttl": 1800000000000,
"list-max-size": 2000,
"list-sweep-freq": 60000000000,
"list-ttl": 1800000000000,
"marker-max-size": 2000,
"marker-sweep-freq": 60000000000,
"marker-ttl": 21600000000000,
"media-max-size": 1000,
"media-sweep-freq": 60000000000,
"media-ttl": 1800000000000,
"mention-max-size": 2000,
"mention-sweep-freq": 60000000000,
"mention-ttl": 1800000000000,
"notification-max-size": 1000,
"notification-sweep-freq": 60000000000,
"notification-ttl": 1800000000000,
"report-max-size": 100,
"report-sweep-freq": 60000000000,
"report-ttl": 1800000000000,
"status-fave-max-size": 2000,
"status-fave-sweep-freq": 60000000000,
"status-fave-ttl": 1800000000000,
"status-max-size": 2000,
"status-sweep-freq": 60000000000,
"status-ttl": 1800000000000,
"tag-max-size": 2000,
"tag-sweep-freq": 60000000000,
"tag-ttl": 1800000000000,
"tombstone-max-size": 500,
"tombstone-sweep-freq": 60000000000,
"tombstone-ttl": 1800000000000,
"user-max-size": 500,
"user-sweep-freq": 60000000000,
"user-ttl": 1800000000000,
"webfinger-max-size": 250,
"webfinger-sweep-freq": 900000000000,
"webfinger-ttl": 86400000000000
},
"visibility-max-size": 2000,
"visibility-sweep-freq": 60000000000,
"visibility-ttl": 1800000000000
"account-mem-ratio": 18,
"account-note-mem-ratio": 0.1,
"block-mem-ratio": 3,
"emoji-category-mem-ratio": 0.1,
"emoji-mem-ratio": 3,
"follow-ids-mem-ratio": 4,
"follow-mem-ratio": 4,
"follow-request-ids-mem-ratio": 2,
"follow-request-mem-ratio": 2,
"instance-mem-ratio": 1,
"list-entry-mem-ratio": 3,
"list-mem-ratio": 3,
"marker-mem-ratio": 0.5,
"media-mem-ratio": 4,
"memory-target": 209715200,
"mention-mem-ratio": 5,
"notification-mem-ratio": 5,
"report-mem-ratio": 1,
"status-fave-mem-ratio": 5,
"status-mem-ratio": 18,
"tag-mem-ratio": 3,
"tombstone-mem-ratio": 2,
"user-mem-ratio": 0.1,
"visibility-mem-ratio": 2,
"webfinger-mem-ratio": 0.1
},
"config-path": "internal/config/testdata/test.yaml",
"db-address": ":memory:",

2
vendor/codeberg.org/gruf/go-cache/v3/LICENSE generated vendored
View file

@ -1,6 +1,6 @@
MIT License
Copyright (c) 2022 gruf
Copyright (c) gruf
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

12
vendor/codeberg.org/gruf/go-cache/v3/README.md generated vendored
View file

@ -1,14 +1,14 @@
# go-cache
Provides access to a simple yet flexible, performant TTL cache via the `Cache{}` interface and `cache.New()`. Under the hood this is returning a `ttl.Cache{}`.
Provides access to simple, yet flexible, and performant caches (with TTL if required) via the `cache.Cache{}` and `cache.TTLCache{}` interfaces.
## simple
A `cache.Cache{}` implementation with much more of the inner workings exposed. Designed to be used as a base for your own customizations, or used as-is.
## ttl
A TTL cache implementation with much of the inner workings exposed, designed to be used as a base for your own customizations, or used as-is. Access via the base package `cache.New()` is recommended in the latter case, to prevent accidental use of unsafe methods.
## lookup
`lookup.Cache` is an example of a more complex cache implementation using `ttl.Cache{}` as its underpinning. It provides caching of items under multiple keys.
A `cache.TTLCache{}` implementation with much more of the inner workings exposed. Designed to be used as a base for your own customizations, or used as-is.
## result

30
vendor/codeberg.org/gruf/go-cache/v3/cache.go generated vendored
View file

@ -3,26 +3,33 @@ package cache
import (
"time"
ttlcache "codeberg.org/gruf/go-cache/v3/ttl"
"codeberg.org/gruf/go-cache/v3/simple"
"codeberg.org/gruf/go-cache/v3/ttl"
)
// Cache represents a TTL cache with customizable callbacks, it exists here to abstract away the "unsafe" methods in the case that you do not want your own implementation atop ttl.Cache{}.
type Cache[Key comparable, Value any] interface {
// TTLCache represents a TTL cache with customizable callbacks, it exists here to abstract away the "unsafe" methods in the case that you do not want your own implementation atop ttl.Cache{}.
type TTLCache[Key comparable, Value any] interface {
// Start will start the cache background eviction routine with given sweep frequency. If already running or a freq <= 0 provided, this is a no-op. This will block until the eviction routine has started.
Start(freq time.Duration) bool
// Stop will stop cache background eviction routine. If not running this is a no-op. This will block until the eviction routine has stopped.
Stop() bool
// SetTTL sets the cache item TTL. Update can be specified to force updates of existing items in the cache, this will simply add the change in TTL to their current expiry time.
SetTTL(ttl time.Duration, update bool)
// implements base cache.
Cache[Key, Value]
}
// Cache represents a cache with customizable callbacks, it exists here to abstract away the "unsafe" methods in the case that you do not want your own implementation atop simple.Cache{}.
type Cache[Key comparable, Value any] interface {
// SetEvictionCallback sets the eviction callback to the provided hook.
SetEvictionCallback(hook func(Key, Value))
// SetInvalidateCallback sets the invalidate callback to the provided hook.
SetInvalidateCallback(hook func(Key, Value))
// SetTTL sets the cache item TTL. Update can be specified to force updates of existing items in the cache, this will simply add the change in TTL to their current expiry time.
SetTTL(ttl time.Duration, update bool)
// Get fetches the value with key from the cache, extending its TTL.
Get(key Key) (value Value, ok bool)
@ -57,7 +64,12 @@ type Cache[Key comparable, Value any] interface {
Cap() int
}
// New returns a new initialized Cache with given initial length, maximum capacity and item TTL.
func New[K comparable, V any](len, cap int, ttl time.Duration) Cache[K, V] {
return ttlcache.New[K, V](len, cap, ttl)
// New returns a new initialized Cache with given initial length, maximum capacity.
func New[K comparable, V any](len, cap int) Cache[K, V] {
return simple.New[K, V](len, cap)
}
// NewTTL returns a new initialized TTLCache with given initial length, maximum capacity and TTL duration.
func NewTTL[K comparable, V any](len, cap int, _ttl time.Duration) TTLCache[K, V] {
return ttl.New[K, V](len, cap, _ttl)
}

228
vendor/codeberg.org/gruf/go-cache/v3/result/cache.go generated vendored
View file

@ -2,14 +2,38 @@ package result
import (
"context"
"fmt"
"os"
"reflect"
"time"
_ "unsafe"
"codeberg.org/gruf/go-cache/v3/ttl"
"codeberg.org/gruf/go-cache/v3/simple"
"codeberg.org/gruf/go-errors/v2"
)
type result struct {
// Result primary key
PKey int64
// keys accessible under
Keys cacheKeys
// cached value
Value any
// cached error
Error error
}
// getResultValue is a safe way of casting and fetching result value.
func getResultValue[T any](res *result) T {
v, ok := res.Value.(T)
if !ok {
fmt.Fprintf(os.Stderr, "!! BUG: unexpected value type in result: %T\n", res.Value)
}
return v
}
// Lookup represents a struct object lookup method in the cache.
type Lookup struct {
// Name is a period ('.') separated string
@ -23,26 +47,23 @@ type Lookup struct {
// Multi allows specifying a key capable of storing
// multiple results. Note this only supports invalidate.
Multi bool
// TODO: support toggling case sensitive lookups.
// CaseSensitive bool
}
// Cache provides a means of caching value structures, along with
// the results of attempting to load them. An example usecase of this
// cache would be in wrapping a database, allowing caching of sql.ErrNoRows.
type Cache[Value any] struct {
cache ttl.Cache[int64, result[Value]] // underlying result cache
invalid func(Value) // store unwrapped invalidate callback.
lookups structKeys // pre-determined struct lookups
ignore func(error) bool // determines cacheable errors
copy func(Value) Value // copies a Value type
next int64 // update key counter
type Cache[T any] struct {
cache simple.Cache[int64, *result] // underlying result cache
lookups structKeys // pre-determined struct lookups
invalid func(T) // store unwrapped invalidate callback.
ignore func(error) bool // determines cacheable errors
copy func(T) T // copies a Value type
next int64 // update key counter
}
// New returns a new initialized Cache, with given lookups, underlying value copy function and provided capacity.
func New[Value any](lookups []Lookup, copy func(Value) Value, cap int) *Cache[Value] {
var z Value
func New[T any](lookups []Lookup, copy func(T) T, cap int) *Cache[T] {
var z T
// Determine generic type
t := reflect.TypeOf(z)
@ -58,7 +79,7 @@ func New[Value any](lookups []Lookup, copy func(Value) Value, cap int) *Cache[Va
}
// Allocate new cache object
c := &Cache[Value]{copy: copy}
c := &Cache[T]{copy: copy}
c.lookups = make([]structKey, len(lookups))
for i, lookup := range lookups {
@ -67,38 +88,20 @@ func New[Value any](lookups []Lookup, copy func(Value) Value, cap int) *Cache[Va
}
// Create and initialize underlying cache
c.cache.Init(0, cap, 0)
c.cache.Init(0, cap)
c.SetEvictionCallback(nil)
c.SetInvalidateCallback(nil)
c.IgnoreErrors(nil)
return c
}
// Start will start the cache background eviction routine with given sweep frequency. If already
// running or a freq <= 0 provided, this is a no-op. This will block until eviction routine started.
func (c *Cache[Value]) Start(freq time.Duration) bool {
return c.cache.Start(freq)
}
// Stop will stop cache background eviction routine. If not running this
// is a no-op. This will block until the eviction routine has stopped.
func (c *Cache[Value]) Stop() bool {
return c.cache.Stop()
}
// SetTTL sets the cache item TTL. Update can be specified to force updates of existing items
// in the cache, this will simply add the change in TTL to their current expiry time.
func (c *Cache[Value]) SetTTL(ttl time.Duration, update bool) {
c.cache.SetTTL(ttl, update)
}
// SetEvictionCallback sets the eviction callback to the provided hook.
func (c *Cache[Value]) SetEvictionCallback(hook func(Value)) {
func (c *Cache[T]) SetEvictionCallback(hook func(T)) {
if hook == nil {
// Ensure non-nil hook.
hook = func(Value) {}
hook = func(T) {}
}
c.cache.SetEvictionCallback(func(pkey int64, res result[Value]) {
c.cache.SetEvictionCallback(func(pkey int64, res *result) {
c.cache.Lock()
for _, key := range res.Keys {
// Delete key->pkey lookup
@ -108,23 +111,25 @@ func (c *Cache[Value]) SetEvictionCallback(hook func(Value)) {
c.cache.Unlock()
if res.Error != nil {
// Skip error hooks
// Skip value hooks
return
}
// Call user hook.
hook(res.Value)
// Free result and call hook.
v := getResultValue[T](res)
putResult(res)
hook(v)
})
}
// SetInvalidateCallback sets the invalidate callback to the provided hook.
func (c *Cache[Value]) SetInvalidateCallback(hook func(Value)) {
func (c *Cache[T]) SetInvalidateCallback(hook func(T)) {
if hook == nil {
// Ensure non-nil hook.
hook = func(Value) {}
hook = func(T) {}
} // store hook.
c.invalid = hook
c.cache.SetInvalidateCallback(func(pkey int64, res result[Value]) {
c.cache.SetInvalidateCallback(func(pkey int64, res *result) {
c.cache.Lock()
for _, key := range res.Keys {
// Delete key->pkey lookup
@ -134,17 +139,19 @@ func (c *Cache[Value]) SetInvalidateCallback(hook func(Value)) {
c.cache.Unlock()
if res.Error != nil {
// Skip error hooks
// Skip value hooks
return
}
// Call user hook.
hook(res.Value)
// Free result and call hook.
v := getResultValue[T](res)
putResult(res)
hook(v)
})
}
// IgnoreErrors allows setting a function hook to determine which error types should / not be cached.
func (c *Cache[Value]) IgnoreErrors(ignore func(error) bool) {
func (c *Cache[T]) IgnoreErrors(ignore func(error) bool) {
if ignore == nil {
ignore = func(err error) bool {
return errors.Comparable(
@ -160,11 +167,10 @@ func (c *Cache[Value]) IgnoreErrors(ignore func(error) bool) {
}
// Load will attempt to load an existing result from the cacche for the given lookup and key parts, else calling the provided load function and caching the result.
func (c *Cache[Value]) Load(lookup string, load func() (Value, error), keyParts ...any) (Value, error) {
func (c *Cache[T]) Load(lookup string, load func() (T, error), keyParts ...any) (T, error) {
var (
zero Value
res result[Value]
ok bool
zero T
res *result
)
// Get lookup key info by name.
@ -182,24 +188,22 @@ func (c *Cache[Value]) Load(lookup string, load func() (Value, error), keyParts
// Look for primary cache key
pkeys := keyInfo.pkeys[ckey]
if ok = (len(pkeys) > 0); ok {
var entry *ttl.Entry[int64, result[Value]]
if len(pkeys) > 0 {
// Fetch the result for primary key
entry, ok = c.cache.Cache.Get(pkeys[0])
entry, ok := c.cache.Cache.Get(pkeys[0])
if ok {
// Since the invalidation / eviction hooks acquire a mutex
// lock separately, and only at this point are the pkeys
// updated, there is a chance that a primary key may return
// no matching entry. Hence we have to check for it here.
res = entry.Value
res = entry.Value.(*result)
}
}
// Done with lock
c.cache.Unlock()
if !ok {
if res == nil {
// Generate fresh result.
value, err := load()
@ -209,6 +213,9 @@ func (c *Cache[Value]) Load(lookup string, load func() (Value, error), keyParts
return zero, err
}
// Alloc result.
res = getResult()
// Store error result.
res.Error = err
@ -219,6 +226,9 @@ func (c *Cache[Value]) Load(lookup string, load func() (Value, error), keyParts
key: ckey,
}}
} else {
// Alloc result.
res = getResult()
// Store value result.
res.Value = value
@ -251,22 +261,21 @@ func (c *Cache[Value]) Load(lookup string, load func() (Value, error), keyParts
}
// Return a copy of value from cache
return c.copy(res.Value), nil
return c.copy(getResultValue[T](res)), nil
}
// Store will call the given store function, and on success store the value in the cache as a positive result.
func (c *Cache[Value]) Store(value Value, store func() error) error {
func (c *Cache[T]) Store(value T, store func() error) error {
// Attempt to store this value.
if err := store(); err != nil {
return err
}
// Prepare cached result.
result := result[Value]{
Keys: c.lookups.generate(value),
Value: c.copy(value),
Error: nil,
}
result := getResult()
result.Keys = c.lookups.generate(value)
result.Value = c.copy(value)
result.Error = nil
var evict func()
@ -293,9 +302,8 @@ func (c *Cache[Value]) Store(value Value, store func() error) error {
}
// Has checks the cache for a positive result under the given lookup and key parts.
func (c *Cache[Value]) Has(lookup string, keyParts ...any) bool {
var res result[Value]
var ok bool
func (c *Cache[T]) Has(lookup string, keyParts ...any) bool {
var res *result
// Get lookup key info by name.
keyInfo := c.lookups.get(lookup)
@ -312,29 +320,27 @@ func (c *Cache[Value]) Has(lookup string, keyParts ...any) bool {
// Look for primary key for cache key
pkeys := keyInfo.pkeys[ckey]
if ok = (len(pkeys) > 0); ok {
var entry *ttl.Entry[int64, result[Value]]
if len(pkeys) > 0 {
// Fetch the result for primary key
entry, ok = c.cache.Cache.Get(pkeys[0])
entry, ok := c.cache.Cache.Get(pkeys[0])
if ok {
// Since the invalidation / eviction hooks acquire a mutex
// lock separately, and only at this point are the pkeys
// updated, there is a chance that a primary key may return
// no matching entry. Hence we have to check for it here.
res = entry.Value
res = entry.Value.(*result)
}
}
// Done with lock
c.cache.Unlock()
// Check for non-error result.
return ok && (res.Error == nil)
// Check for result AND non-error result.
return (res != nil && res.Error == nil)
}
// Invalidate will invalidate any result from the cache found under given lookup and key parts.
func (c *Cache[Value]) Invalidate(lookup string, keyParts ...any) {
func (c *Cache[T]) Invalidate(lookup string, keyParts ...any) {
// Get lookup key info by name.
keyInfo := c.lookups.get(lookup)
@ -351,15 +357,20 @@ func (c *Cache[Value]) Invalidate(lookup string, keyParts ...any) {
c.cache.InvalidateAll(pkeys...)
}
// Clear empties the cache, calling the invalidate callback.
func (c *Cache[Value]) Clear() { c.cache.Clear() }
// Clear empties the cache, calling the invalidate callback where necessary.
func (c *Cache[T]) Clear() { c.Trim(100) }
// Trim ensures the cache stays within percentage of total capacity, truncating where necessary.
func (c *Cache[T]) Trim(perc float64) { c.cache.Trim(perc) }
// store will cache this result under all of its required cache keys.
func (c *Cache[Value]) store(res result[Value]) (evict func()) {
func (c *Cache[T]) store(res *result) (evict func()) {
var toEvict []*result
// Get primary key
pnext := c.next
res.PKey = c.next
c.next++
if pnext > c.next {
if res.PKey > c.next {
panic("cache primary key overflow")
}
@ -371,15 +382,19 @@ func (c *Cache[Value]) store(res result[Value]) (evict func()) {
for _, conflict := range pkeys {
// Get the overlapping result with this key.
entry, _ := c.cache.Cache.Get(conflict)
confRes := entry.Value.(*result)
// From conflicting entry, drop this key, this
// will prevent eviction cleanup key confusion.
entry.Value.Keys.drop(key.info.name)
confRes.Keys.drop(key.info.name)
if len(entry.Value.Keys) == 0 {
if len(res.Keys) == 0 {
// We just over-wrote the only lookup key for
// this value, so we drop its primary key too.
c.cache.Cache.Delete(conflict)
// Add finished result to evict queue.
toEvict = append(toEvict, confRes)
}
}
@ -388,42 +403,27 @@ func (c *Cache[Value]) store(res result[Value]) (evict func()) {
}
// Store primary key lookup.
pkeys = append(pkeys, pnext)
pkeys = append(pkeys, res.PKey)
key.info.pkeys[key.key] = pkeys
}
// Store main entry under primary key, using evict hook if needed
c.cache.Cache.SetWithHook(pnext, &ttl.Entry[int64, result[Value]]{
Expiry: c.expiry(),
Key: pnext,
Value: res,
}, func(_ int64, item *ttl.Entry[int64, result[Value]]) {
evict = func() { c.cache.Evict(item.Key, item.Value) }
// Store main entry under primary key, catch evicted.
c.cache.Cache.SetWithHook(res.PKey, &simple.Entry{
Key: res.PKey,
Value: res,
}, func(_ int64, item *simple.Entry) {
toEvict = append(toEvict, item.Value.(*result))
})
return evict
}
//go:linkname runtime_nanotime runtime.nanotime
func runtime_nanotime() uint64
// expiry returns an the next expiry time to use for an entry,
// which is equivalent to time.Now().Add(ttl), or zero if disabled.
func (c *Cache[Value]) expiry() uint64 {
if ttl := c.cache.TTL; ttl > 0 {
return runtime_nanotime() +
uint64(c.cache.TTL)
if len(toEvict) == 0 {
// none evicted.
return nil
}
return func() {
for _, res := range toEvict {
// Call evict hook on each entry.
c.cache.Evict(res.PKey, res)
}
}
return 0
}
type result[Value any] struct {
// keys accessible under
Keys cacheKeys
// cached value
Value Value
// cached error
Error error
}

4
vendor/codeberg.org/gruf/go-cache/v3/result/key.go generated vendored
View file

@ -145,7 +145,7 @@ type structField struct {
}
// genKey generates a cache key string for given key parts (i.e. serializes them using "go-mangler").
func (sk structKey) genKey(parts []any) string {
func (sk *structKey) genKey(parts []any) string {
// Check this expected no. key parts.
if len(parts) != len(sk.fields) {
panic(fmt.Sprintf("incorrect no. key parts provided: want=%d received=%d", len(parts), len(sk.fields)))
@ -246,10 +246,12 @@ var bufPool = sync.Pool{
},
}
// getBuf ...
func getBuf() *byteutil.Buffer {
return bufPool.Get().(*byteutil.Buffer)
}
// putBuf ...
func putBuf(buf *byteutil.Buffer) {
if buf.Cap() > int(^uint16(0)) {
return // drop large bufs

24
vendor/codeberg.org/gruf/go-cache/v3/result/pool.go generated vendored Normal file
View file

@ -0,0 +1,24 @@
package result
import "sync"
// resultPool is a global pool for result
// objects, regardless of cache type.
var resultPool sync.Pool
// getEntry fetches a result from pool, or allocates new.
func getResult() *result {
v := resultPool.Get()
if v == nil {
return new(result)
}
return v.(*result)
}
// putResult replaces a result in the pool.
func putResult(r *result) {
r.Keys = nil
r.Value = nil
r.Error = nil
resultPool.Put(r)
}

454
vendor/codeberg.org/gruf/go-cache/v3/simple/cache.go generated vendored Normal file
View file

@ -0,0 +1,454 @@
package simple
import (
"sync"
"codeberg.org/gruf/go-maps"
)
// Entry represents an item in the cache.
type Entry struct {
Key any
Value any
}
// Cache is the underlying Cache implementation, providing both the base Cache interface and unsafe access to underlying map to allow flexibility in building your own.
type Cache[Key comparable, Value any] struct {
// Evict is the hook that is called when an item is evicted from the cache.
Evict func(Key, Value)
// Invalid is the hook that is called when an item's data in the cache is invalidated, includes Add/Set.
Invalid func(Key, Value)
// Cache is the underlying hashmap used for this cache.
Cache maps.LRUMap[Key, *Entry]
// Embedded mutex.
sync.Mutex
}
// New returns a new initialized Cache with given initial length, maximum capacity and item TTL.
func New[K comparable, V any](len, cap int) *Cache[K, V] {
c := new(Cache[K, V])
c.Init(len, cap)
return c
}
// Init will initialize this cache with given initial length, maximum capacity and item TTL.
func (c *Cache[K, V]) Init(len, cap int) {
c.SetEvictionCallback(nil)
c.SetInvalidateCallback(nil)
c.Cache.Init(len, cap)
}
// SetEvictionCallback: implements cache.Cache's SetEvictionCallback().
func (c *Cache[K, V]) SetEvictionCallback(hook func(K, V)) {
c.locked(func() { c.Evict = hook })
}
// SetInvalidateCallback: implements cache.Cache's SetInvalidateCallback().
func (c *Cache[K, V]) SetInvalidateCallback(hook func(K, V)) {
c.locked(func() { c.Invalid = hook })
}
// Get: implements cache.Cache's Get().
func (c *Cache[K, V]) Get(key K) (V, bool) {
var (
// did exist in cache?
ok bool
// cached value.
v V
)
c.locked(func() {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(key)
if !ok {
return
}
// Set item value.
v = item.Value.(V)
})
return v, ok
}
// Add: implements cache.Cache's Add().
func (c *Cache[K, V]) Add(key K, value V) bool {
var (
// did exist in cache?
ok bool
// was entry evicted?
ev bool
// evicted key values.
evcK K
evcV V
// hook func ptrs.
evict func(K, V)
)
c.locked(func() {
// Check if in cache.
ok = c.Cache.Has(key)
if ok {
return
}
// Alloc new entry.
new := getEntry()
new.Key = key
new.Value = value
// Add new entry to cache and catched any evicted item.
c.Cache.SetWithHook(key, new, func(_ K, item *Entry) {
evcK = item.Key.(K)
evcV = item.Value.(V)
ev = true
putEntry(item)
})
// Set hook func ptr.
evict = c.Evict
})
if ev && evict != nil {
// Pass to eviction hook.
evict(evcK, evcV)
}
return !ok
}
// Set: implements cache.Cache's Set().
func (c *Cache[K, V]) Set(key K, value V) {
var (
// did exist in cache?
ok bool
// was entry evicted?
ev bool
// old value.
oldV V
// evicted key values.
evcK K
evcV V
// hook func ptrs.
invalid func(K, V)
evict func(K, V)
)
c.locked(func() {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(key)
if ok {
// Set old value.
oldV = item.Value.(V)
// Update the existing item.
item.Value = value
} else {
// Alloc new entry.
new := getEntry()
new.Key = key
new.Value = value
// Add new entry to cache and catched any evicted item.
c.Cache.SetWithHook(key, new, func(_ K, item *Entry) {
evcK = item.Key.(K)
evcV = item.Value.(V)
ev = true
putEntry(item)
})
}
// Set hook func ptrs.
invalid = c.Invalid
evict = c.Evict
})
if ok && invalid != nil {
// Pass to invalidate hook.
invalid(key, oldV)
}
if ev && evict != nil {
// Pass to eviction hook.
evict(evcK, evcV)
}
}
// CAS: implements cache.Cache's CAS().
func (c *Cache[K, V]) CAS(key K, old V, new V, cmp func(V, V) bool) bool {
var (
// did exist in cache?
ok bool
// swapped value.
oldV V
// hook func ptrs.
invalid func(K, V)
)
c.locked(func() {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(key)
if !ok {
return
}
// Set old value.
oldV = item.Value.(V)
// Perform the comparison
if !cmp(old, oldV) {
var zero V
oldV = zero
return
}
// Update value.
item.Value = new
// Set hook func ptr.
invalid = c.Invalid
})
if ok && invalid != nil {
// Pass to invalidate hook.
invalid(key, oldV)
}
return ok
}
// Swap: implements cache.Cache's Swap().
func (c *Cache[K, V]) Swap(key K, swp V) V {
var (
// did exist in cache?
ok bool
// swapped value.
oldV V
// hook func ptrs.
invalid func(K, V)
)
c.locked(func() {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(key)
if !ok {
return
}
// Set old value.
oldV = item.Value.(V)
// Update value.
item.Value = swp
// Set hook func ptr.
invalid = c.Invalid
})
if ok && invalid != nil {
// Pass to invalidate hook.
invalid(key, oldV)
}
return oldV
}
// Has: implements cache.Cache's Has().
func (c *Cache[K, V]) Has(key K) (ok bool) {
c.locked(func() {
ok = c.Cache.Has(key)
})
return
}
// Invalidate: implements cache.Cache's Invalidate().
func (c *Cache[K, V]) Invalidate(key K) (ok bool) {
var (
// old value.
oldV V
// hook func ptrs.
invalid func(K, V)
)
c.locked(func() {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(key)
if !ok {
return
}
// Set old value.
oldV = item.Value.(V)
// Remove from cache map
_ = c.Cache.Delete(key)
// Free entry
putEntry(item)
// Set hook func ptrs.
invalid = c.Invalid
})
if ok && invalid != nil {
// Pass to invalidate hook.
invalid(key, oldV)
}
return
}
// InvalidateAll: implements cache.Cache's InvalidateAll().
func (c *Cache[K, V]) InvalidateAll(keys ...K) (ok bool) {
var (
// deleted items.
items []*Entry
// hook func ptrs.
invalid func(K, V)
)
// Allocate a slice for invalidated.
items = make([]*Entry, 0, len(keys))
c.locked(func() {
for x := range keys {
var item *Entry
// Check for item in cache
item, ok = c.Cache.Get(keys[x])
if !ok {
continue
}
// Append this old value.
items = append(items, item)
// Remove from cache map
_ = c.Cache.Delete(keys[x])
}
// Set hook func ptrs.
invalid = c.Invalid
})
if invalid != nil {
for x := range items {
// Pass to invalidate hook.
k := items[x].Key.(K)
v := items[x].Value.(V)
invalid(k, v)
// Free this entry.
putEntry(items[x])
}
}
return
}
// Clear: implements cache.Cache's Clear().
func (c *Cache[K, V]) Clear() { c.Trim(100) }
// Trim will truncate the cache to ensure it stays within given percentage of total capacity.
func (c *Cache[K, V]) Trim(perc float64) {
var (
// deleted items
items []*Entry
// hook func ptrs.
invalid func(K, V)
)
c.locked(func() {
// Calculate number of cache items to truncate.
max := (perc / 100) * float64(c.Cache.Cap())
diff := c.Cache.Len() - int(max)
if diff <= 0 {
return
}
// Set hook func ptr.
invalid = c.Invalid
// Truncate by calculated length.
items = c.truncate(diff, invalid)
})
if invalid != nil {
for x := range items {
// Pass to invalidate hook.
k := items[x].Key.(K)
v := items[x].Value.(V)
invalid(k, v)
// Free this entry.
putEntry(items[x])
}
}
}
// Len: implements cache.Cache's Len().
func (c *Cache[K, V]) Len() (l int) {
c.locked(func() { l = c.Cache.Len() })
return
}
// Cap: implements cache.Cache's Cap().
func (c *Cache[K, V]) Cap() (l int) {
c.locked(func() { l = c.Cache.Cap() })
return
}
// locked performs given function within mutex lock (NOTE: UNLOCK IS NOT DEFERRED).
func (c *Cache[K, V]) locked(fn func()) {
c.Lock()
fn()
c.Unlock()
}
// truncate will truncate the cache by given size, returning deleted items.
func (c *Cache[K, V]) truncate(sz int, hook func(K, V)) []*Entry {
if hook == nil {
// No hook to execute, simply release all truncated entries.
c.Cache.Truncate(sz, func(_ K, item *Entry) { putEntry(item) })
return nil
}
// Allocate a slice for deleted.
deleted := make([]*Entry, 0, sz)
// Truncate and catch all deleted k-v pairs.
c.Cache.Truncate(sz, func(_ K, item *Entry) {
deleted = append(deleted, item)
})
return deleted
}

23
vendor/codeberg.org/gruf/go-cache/v3/simple/pool.go generated vendored Normal file
View file

@ -0,0 +1,23 @@
package simple
import "sync"
// entryPool is a global pool for Entry
// objects, regardless of cache type.
var entryPool sync.Pool
// getEntry fetches an Entry from pool, or allocates new.
func getEntry() *Entry {
v := entryPool.Get()
if v == nil {
return new(Entry)
}
return v.(*Entry)
}
// putEntry replaces an Entry in the pool.
func putEntry(e *Entry) {
e.Key = nil
e.Value = nil
entryPool.Put(e)
}

2
vendor/codeberg.org/gruf/go-cache/v3/ttl/ttl.go generated vendored
View file

@ -15,7 +15,7 @@ type Entry[Key comparable, Value any] struct {
Expiry uint64
}
// Cache is the underlying Cache implementation, providing both the base Cache interface and unsafe access to underlying map to allow flexibility in building your own.
// Cache is the underlying TTLCache implementation, providing both the base Cache interface and unsafe access to underlying map to allow flexibility in building your own.
type Cache[Key comparable, Value any] struct {
// TTL is the cache item TTL.
TTL time.Duration

19
vendor/github.com/DmitriyVTitov/size/.gitignore generated vendored Normal file
View file

@ -0,0 +1,19 @@
# Binaries for programs and plugins
*.exe
*.exe~
*.dll
*.so
*.dylib
# Test binary, built with `go test -c`
*.test
# Output of the go coverage tool, specifically when used with LiteIDE
*.out
# Dependency directories (remove the comment below to include it)
# vendor/
example
.idea
go.sum

21
vendor/github.com/DmitriyVTitov/size/LICENSE generated vendored Normal file
View file

@ -0,0 +1,21 @@
MIT License
Copyright (c) 2020 Dmitriy Titov (Дмитрий Титов)
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

48
vendor/github.com/DmitriyVTitov/size/README.md generated vendored Normal file
View file

@ -0,0 +1,48 @@
# size - calculates variable's memory consumption at runtime
### Part of the [Transflow Project](http://transflow.ru/)
Sometimes you may need a tool to measure the size of object in your Go program at runtime. This package makes an attempt to do so. Package based on `binary.Size()` from Go standard library.
Features:
- supports non-fixed size variables and struct fields: `struct`, `int`, `slice`, `string`, `map`;
- supports complex types including structs with non-fixed size fields;
- supports all basic types (numbers, bool);
- supports `chan` and `interface`;
- supports pointers;
- implements infinite recursion detection (i.e. pointer inside struct field references to parent struct).
### Usage example
```
package main
import (
"fmt"
// Use latest tag.
"github.com/DmitriyVTitov/size"
)
func main() {
a := struct {
a int
b string
c bool
d int32
e []byte
f [3]int64
}{
a: 10, // 8 bytes
b: "Text", // 16 (string itself) + 4 = 20 bytes
c: true, // 1 byte
d: 25, // 4 bytes
e: []byte{'c', 'd', 'e'}, // 24 (slice itself) + 3 = 27 bytes
f: [3]int64{1, 2, 3}, // 3 * 8 = 24 bytes
} // 84 + 3 (padding) = 87 bytes
fmt.Println(size.Of(a))
}
// Output: 87
```

142
vendor/github.com/DmitriyVTitov/size/size.go generated vendored Normal file
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@ -0,0 +1,142 @@
// Package size implements run-time calculation of size of the variable.
// Source code is based on "binary.Size()" function from Go standard library.
// size.Of() omits size of slices, arrays and maps containers itself (24, 24 and 8 bytes).
// When counting maps separate calculations are done for keys and values.
package size
import (
"reflect"
"unsafe"
)
// Of returns the size of 'v' in bytes.
// If there is an error during calculation, Of returns -1.
func Of(v interface{}) int {
// Cache with every visited pointer so we don't count two pointers
// to the same memory twice.
cache := make(map[uintptr]bool)
return sizeOf(reflect.Indirect(reflect.ValueOf(v)), cache)
}
// sizeOf returns the number of bytes the actual data represented by v occupies in memory.
// If there is an error, sizeOf returns -1.
func sizeOf(v reflect.Value, cache map[uintptr]bool) int {
switch v.Kind() {
case reflect.Array:
sum := 0
for i := 0; i < v.Len(); i++ {
s := sizeOf(v.Index(i), cache)
if s < 0 {
return -1
}
sum += s
}
return sum + (v.Cap()-v.Len())*int(v.Type().Elem().Size())
case reflect.Slice:
// return 0 if this node has been visited already
if cache[v.Pointer()] {
return 0
}
cache[v.Pointer()] = true
sum := 0
for i := 0; i < v.Len(); i++ {
s := sizeOf(v.Index(i), cache)
if s < 0 {
return -1
}
sum += s
}
sum += (v.Cap() - v.Len()) * int(v.Type().Elem().Size())
return sum + int(v.Type().Size())
case reflect.Struct:
sum := 0
for i, n := 0, v.NumField(); i < n; i++ {
s := sizeOf(v.Field(i), cache)
if s < 0 {
return -1
}
sum += s
}
// Look for struct padding.
padding := int(v.Type().Size())
for i, n := 0, v.NumField(); i < n; i++ {
padding -= int(v.Field(i).Type().Size())
}
return sum + padding
case reflect.String:
s := v.String()
hdr := (*reflect.StringHeader)(unsafe.Pointer(&s))
if cache[hdr.Data] {
return int(v.Type().Size())
}
cache[hdr.Data] = true
return len(s) + int(v.Type().Size())
case reflect.Ptr:
// return Ptr size if this node has been visited already (infinite recursion)
if cache[v.Pointer()] {
return int(v.Type().Size())
}
cache[v.Pointer()] = true
if v.IsNil() {
return int(reflect.New(v.Type()).Type().Size())
}
s := sizeOf(reflect.Indirect(v), cache)
if s < 0 {
return -1
}
return s + int(v.Type().Size())
case reflect.Bool,
reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64,
reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64,
reflect.Int, reflect.Uint,
reflect.Chan,
reflect.Uintptr,
reflect.Float32, reflect.Float64, reflect.Complex64, reflect.Complex128,
reflect.Func:
return int(v.Type().Size())
case reflect.Map:
// return 0 if this node has been visited already (infinite recursion)
if cache[v.Pointer()] {
return 0
}
cache[v.Pointer()] = true
sum := 0
keys := v.MapKeys()
for i := range keys {
val := v.MapIndex(keys[i])
// calculate size of key and value separately
sv := sizeOf(val, cache)
if sv < 0 {
return -1
}
sum += sv
sk := sizeOf(keys[i], cache)
if sk < 0 {
return -1
}
sum += sk
}
// Include overhead due to unused map buckets. 10.79 comes
// from https://golang.org/src/runtime/map.go.
return sum + int(v.Type().Size()) + int(float64(len(keys))*10.79)
case reflect.Interface:
return sizeOf(v.Elem(), cache) + int(v.Type().Size())
}
return -1
}

6
vendor/modules.txt vendored
View file

@ -13,10 +13,11 @@ codeberg.org/gruf/go-bytesize
# codeberg.org/gruf/go-byteutil v1.1.2
## explicit; go 1.16
codeberg.org/gruf/go-byteutil
# codeberg.org/gruf/go-cache/v3 v3.4.4
# codeberg.org/gruf/go-cache/v3 v3.5.3
## explicit; go 1.19
codeberg.org/gruf/go-cache/v3
codeberg.org/gruf/go-cache/v3/result
codeberg.org/gruf/go-cache/v3/simple
codeberg.org/gruf/go-cache/v3/ttl
# codeberg.org/gruf/go-debug v1.3.0
## explicit; go 1.16
@ -69,6 +70,9 @@ codeberg.org/gruf/go-sched
codeberg.org/gruf/go-store/v2/kv
codeberg.org/gruf/go-store/v2/storage
codeberg.org/gruf/go-store/v2/util
# github.com/DmitriyVTitov/size v1.5.0
## explicit; go 1.14
github.com/DmitriyVTitov/size
# github.com/KimMachineGun/automemlimit v0.2.6
## explicit; go 1.19
github.com/KimMachineGun/automemlimit