gotosocial/internal/cache/db.go

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// 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 (
"time"
"codeberg.org/gruf/go-cache/v3/simple"
"codeberg.org/gruf/go-cache/v3/ttl"
"codeberg.org/gruf/go-structr"
"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 {
// Account provides access to the gtsmodel Account database cache.
Account structr.Cache[*gtsmodel.Account]
// AccountNote provides access to the gtsmodel Note database cache.
AccountNote structr.Cache[*gtsmodel.AccountNote]
// TEMPORARY CACHE TO ALLEVIATE SLOW COUNT QUERIES,
// (in time will be removed when these IDs are cached).
AccountCounts *simple.Cache[string, struct {
Statuses int
Pinned int
}]
// Application provides access to the gtsmodel Application database cache.
Application structr.Cache[*gtsmodel.Application]
// Block provides access to the gtsmodel Block (account) database cache.
Block structr.Cache[*gtsmodel.Block]
// FollowIDs provides access to the block IDs database cache.
BlockIDs *SliceCache[string]
// BoostOfIDs provides access to the boost of IDs list database cache.
BoostOfIDs *SliceCache[string]
// DomainAllow provides access to the domain allow database cache.
DomainAllow *domain.Cache
// DomainBlock provides access to the domain block database cache.
DomainBlock *domain.Cache
// Emoji provides access to the gtsmodel Emoji database cache.
Emoji structr.Cache[*gtsmodel.Emoji]
// EmojiCategory provides access to the gtsmodel EmojiCategory database cache.
EmojiCategory structr.Cache[*gtsmodel.EmojiCategory]
// Follow provides access to the gtsmodel Follow database cache.
Follow structr.Cache[*gtsmodel.Follow]
// FollowIDs provides access to the follower / following IDs database cache.
// THIS CACHE IS KEYED AS THE FOLLOWING {prefix}{accountID} WHERE PREFIX IS:
// - '>' for following IDs
// - 'l>' for local following IDs
// - '<' for follower IDs
// - 'l<' for local follower IDs
FollowIDs *SliceCache[string]
// FollowRequest provides access to the gtsmodel FollowRequest database cache.
FollowRequest structr.Cache[*gtsmodel.FollowRequest]
// FollowRequestIDs provides access to the follow requester / requesting IDs database
// cache. THIS CACHE IS KEYED AS THE FOLLOWING {prefix}{accountID} WHERE PREFIX IS:
// - '>' for following IDs
// - '<' for follower IDs
FollowRequestIDs *SliceCache[string]
// Instance provides access to the gtsmodel Instance database cache.
Instance structr.Cache[*gtsmodel.Instance]
// InReplyToIDs provides access to the status in reply to IDs list database cache.
InReplyToIDs *SliceCache[string]
// List provides access to the gtsmodel List database cache.
List structr.Cache[*gtsmodel.List]
// ListEntry provides access to the gtsmodel ListEntry database cache.
ListEntry structr.Cache[*gtsmodel.ListEntry]
// Marker provides access to the gtsmodel Marker database cache.
Marker structr.Cache[*gtsmodel.Marker]
// Media provides access to the gtsmodel Media database cache.
Media structr.Cache[*gtsmodel.MediaAttachment]
// Mention provides access to the gtsmodel Mention database cache.
Mention structr.Cache[*gtsmodel.Mention]
// Notification provides access to the gtsmodel Notification database cache.
Notification structr.Cache[*gtsmodel.Notification]
// Poll provides access to the gtsmodel Poll database cache.
Poll structr.Cache[*gtsmodel.Poll]
// PollVote provides access to the gtsmodel PollVote database cache.
PollVote structr.Cache[*gtsmodel.PollVote]
// PollVoteIDs provides access to the poll vote IDs list database cache.
PollVoteIDs *SliceCache[string]
// Report provides access to the gtsmodel Report database cache.
Report structr.Cache[*gtsmodel.Report]
// Status provides access to the gtsmodel Status database cache.
Status structr.Cache[*gtsmodel.Status]
// StatusFave provides access to the gtsmodel StatusFave database cache.
StatusFave structr.Cache[*gtsmodel.StatusFave]
// StatusFaveIDs provides access to the status fave IDs list database cache.
StatusFaveIDs *SliceCache[string]
// Tag provides access to the gtsmodel Tag database cache.
Tag structr.Cache[*gtsmodel.Tag]
// Tombstone provides access to the gtsmodel Tombstone database cache.
Tombstone structr.Cache[*gtsmodel.Tombstone]
// ThreadMute provides access to the gtsmodel ThreadMute database cache.
ThreadMute structr.Cache[*gtsmodel.ThreadMute]
// User provides access to the gtsmodel User database cache.
User structr.Cache[*gtsmodel.User]
// Webfinger provides access to the webfinger URL cache.
// TODO: move out of GTS caches since unrelated to DB.
Webfinger *ttl.Cache[string, string] // TTL=24hr, sweep=5min
}
// NOTE:
// all of the below init functions
// are receivers to the main cache
// struct type, not the database cache
// struct type, in order to get access
// to the full suite of caches for
// our invalidate function hooks.
func (c *Caches) initAccount() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofAccount(), // model in-mem size.
config.GetCacheAccountMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(a1 *gtsmodel.Account) *gtsmodel.Account {
a2 := new(gtsmodel.Account)
*a2 = *a1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/account.go.
a2.AvatarMediaAttachment = nil
a2.HeaderMediaAttachment = nil
a2.Emojis = nil
return a2
}
c.GTS.Account.Init(structr.Config[*gtsmodel.Account]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "URL"},
{Fields: "Username,Domain", AllowZero: true},
{Fields: "PublicKeyURI"},
{Fields: "InboxURI"},
{Fields: "OutboxURI"},
{Fields: "FollowersURI"},
{Fields: "FollowingURI"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateAccount,
})
}
func (c *Caches) initAccountCounts() {
// Simply use size of accounts cache,
// as this cache will be very small.
cap := c.GTS.Account.Cap()
if cap == 0 {
panic("must be initialized before accounts")
}
log.Infof(nil, "cache size = %d", cap)
c.GTS.AccountCounts = simple.New[string, struct {
Statuses int
Pinned int
}](0, cap)
}
func (c *Caches) initAccountNote() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofAccountNote(), // model in-mem size.
config.GetCacheAccountNoteMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(n1 *gtsmodel.AccountNote) *gtsmodel.AccountNote {
n2 := new(gtsmodel.AccountNote)
*n2 = *n1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/relationship_note.go.
n2.Account = nil
n2.TargetAccount = nil
return n2
}
c.GTS.AccountNote.Init(structr.Config[*gtsmodel.AccountNote]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "AccountID,TargetAccountID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initApplication() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofApplication(), // model in-mem size.
config.GetCacheApplicationMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(a1 *gtsmodel.Application) *gtsmodel.Application {
a2 := new(gtsmodel.Application)
*a2 = *a1
return a2
}
c.GTS.Application.Init(structr.Config[*gtsmodel.Application]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "ClientID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initBlock() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofBlock(), // model in-mem size.
config.GetCacheBlockMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(b1 *gtsmodel.Block) *gtsmodel.Block {
b2 := new(gtsmodel.Block)
*b2 = *b1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/relationship_block.go.
b2.Account = nil
b2.TargetAccount = nil
return b2
}
c.GTS.Block.Init(structr.Config[*gtsmodel.Block]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "AccountID,TargetAccountID"},
{Fields: "AccountID", Multiple: true},
{Fields: "TargetAccountID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateBlock,
})
}
func (c *Caches) initBlockIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheBlockIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.BlockIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initBoostOfIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheBoostOfIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.BoostOfIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initDomainAllow() {
c.GTS.DomainAllow = new(domain.Cache)
}
func (c *Caches) initDomainBlock() {
c.GTS.DomainBlock = new(domain.Cache)
}
func (c *Caches) initEmoji() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofEmoji(), // model in-mem size.
config.GetCacheEmojiMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(e1 *gtsmodel.Emoji) *gtsmodel.Emoji {
e2 := new(gtsmodel.Emoji)
*e2 = *e1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/emoji.go.
e2.Category = nil
return e2
}
c.GTS.Emoji.Init(structr.Config[*gtsmodel.Emoji]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "Shortcode,Domain", AllowZero: true},
{Fields: "ImageStaticURL"},
{Fields: "CategoryID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initEmojiCategory() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofEmojiCategory(), // model in-mem size.
config.GetCacheEmojiCategoryMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(c1 *gtsmodel.EmojiCategory) *gtsmodel.EmojiCategory {
c2 := new(gtsmodel.EmojiCategory)
*c2 = *c1
return c2
}
c.GTS.EmojiCategory.Init(structr.Config[*gtsmodel.EmojiCategory]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "Name"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateEmojiCategory,
})
}
func (c *Caches) initFollow() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofFollow(), // model in-mem size.
config.GetCacheFollowMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(f1 *gtsmodel.Follow) *gtsmodel.Follow {
f2 := new(gtsmodel.Follow)
*f2 = *f1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/relationship_follow.go.
f2.Account = nil
f2.TargetAccount = nil
return f2
}
c.GTS.Follow.Init(structr.Config[*gtsmodel.Follow]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "AccountID,TargetAccountID"},
{Fields: "AccountID", Multiple: true},
{Fields: "TargetAccountID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateFollow,
})
}
func (c *Caches) initFollowIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheFollowIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.FollowIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initFollowRequest() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofFollowRequest(), // model in-mem size.
config.GetCacheFollowRequestMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(f1 *gtsmodel.FollowRequest) *gtsmodel.FollowRequest {
f2 := new(gtsmodel.FollowRequest)
*f2 = *f1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/relationship_follow_req.go.
f2.Account = nil
f2.TargetAccount = nil
return f2
}
c.GTS.FollowRequest.Init(structr.Config[*gtsmodel.FollowRequest]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "AccountID,TargetAccountID"},
{Fields: "AccountID", Multiple: true},
{Fields: "TargetAccountID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateFollowRequest,
})
}
func (c *Caches) initFollowRequestIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheFollowRequestIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.FollowRequestIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initInReplyToIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheInReplyToIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.InReplyToIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initInstance() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofInstance(), // model in-mem size.
config.GetCacheInstanceMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(i1 *gtsmodel.Instance) *gtsmodel.Instance {
i2 := new(gtsmodel.Instance)
*i2 = *i1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/instance.go.
i2.DomainBlock = nil
i2.ContactAccount = nil
return i1
}
c.GTS.Instance.Init(structr.Config[*gtsmodel.Instance]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "Domain"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initList() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofList(), // model in-mem size.
config.GetCacheListMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(l1 *gtsmodel.List) *gtsmodel.List {
l2 := new(gtsmodel.List)
*l2 = *l1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/list.go.
l2.Account = nil
l2.ListEntries = nil
return l2
}
c.GTS.List.Init(structr.Config[*gtsmodel.List]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateList,
})
}
func (c *Caches) initListEntry() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofListEntry(), // model in-mem size.
config.GetCacheListEntryMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(l1 *gtsmodel.ListEntry) *gtsmodel.ListEntry {
l2 := new(gtsmodel.ListEntry)
*l2 = *l1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/list.go.
l2.Follow = nil
return l2
}
c.GTS.ListEntry.Init(structr.Config[*gtsmodel.ListEntry]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "ListID", Multiple: true},
{Fields: "FollowID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initMarker() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMarker(), // model in-mem size.
config.GetCacheMarkerMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(m1 *gtsmodel.Marker) *gtsmodel.Marker {
m2 := new(gtsmodel.Marker)
*m2 = *m1
return m2
}
c.GTS.Marker.Init(structr.Config[*gtsmodel.Marker]{
Indices: []structr.IndexConfig{
{Fields: "AccountID,Name"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initMedia() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMedia(), // model in-mem size.
config.GetCacheMediaMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(m1 *gtsmodel.MediaAttachment) *gtsmodel.MediaAttachment {
m2 := new(gtsmodel.MediaAttachment)
*m2 = *m1
return m2
}
c.GTS.Media.Init(structr.Config[*gtsmodel.MediaAttachment]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateMedia,
})
}
func (c *Caches) initMention() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofMention(), // model in-mem size.
config.GetCacheMentionMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(m1 *gtsmodel.Mention) *gtsmodel.Mention {
m2 := new(gtsmodel.Mention)
*m2 = *m1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/mention.go.
m2.Status = nil
m2.OriginAccount = nil
m2.TargetAccount = nil
return m2
}
c.GTS.Mention.Init(structr.Config[*gtsmodel.Mention]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initNotification() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofNotification(), // model in-mem size.
config.GetCacheNotificationMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(n1 *gtsmodel.Notification) *gtsmodel.Notification {
n2 := new(gtsmodel.Notification)
*n2 = *n1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/notification.go.
n2.Status = nil
n2.OriginAccount = nil
n2.TargetAccount = nil
return n2
}
c.GTS.Notification.Init(structr.Config[*gtsmodel.Notification]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "NotificationType,TargetAccountID,OriginAccountID,StatusID", AllowZero: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initPoll() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofPoll(), // model in-mem size.
config.GetCachePollMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(p1 *gtsmodel.Poll) *gtsmodel.Poll {
p2 := new(gtsmodel.Poll)
*p2 = *p1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/poll.go.
p2.Status = nil
// Don't include ephemeral fields
// which are only expected to be
// set on ONE poll instance.
p2.Closing = false
return p2
}
c.GTS.Poll.Init(structr.Config[*gtsmodel.Poll]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "StatusID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidatePoll,
})
}
func (c *Caches) initPollVote() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofPollVote(), // model in-mem size.
config.GetCachePollVoteMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(v1 *gtsmodel.PollVote) *gtsmodel.PollVote {
v2 := new(gtsmodel.PollVote)
*v2 = *v1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/poll.go.
v2.Account = nil
v2.Poll = nil
return v2
}
c.GTS.PollVote.Init(structr.Config[*gtsmodel.PollVote]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "PollID", Multiple: true},
{Fields: "PollID,AccountID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidatePollVote,
})
}
func (c *Caches) initPollVoteIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCachePollVoteIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.PollVoteIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initReport() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofReport(), // model in-mem size.
config.GetCacheReportMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(r1 *gtsmodel.Report) *gtsmodel.Report {
r2 := new(gtsmodel.Report)
*r2 = *r1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/report.go.
r2.Account = nil
r2.TargetAccount = nil
r2.Statuses = nil
r2.Rules = nil
r2.ActionTakenByAccount = nil
return r2
}
c.GTS.Report.Init(structr.Config[*gtsmodel.Report]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initStatus() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofStatus(), // model in-mem size.
config.GetCacheStatusMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(s1 *gtsmodel.Status) *gtsmodel.Status {
s2 := new(gtsmodel.Status)
*s2 = *s1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/status.go.
s2.Account = nil
s2.InReplyTo = nil
s2.InReplyToAccount = nil
s2.BoostOf = nil
s2.BoostOfAccount = nil
s2.Poll = nil
s2.Attachments = nil
s2.Tags = nil
s2.Mentions = nil
s2.Emojis = nil
s2.CreatedWithApplication = nil
return s2
}
c.GTS.Status.Init(structr.Config[*gtsmodel.Status]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
{Fields: "URL"},
{Fields: "PollID"},
{Fields: "BoostOfID,AccountID"},
{Fields: "ThreadID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateStatus,
})
}
func (c *Caches) initStatusFave() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofStatusFave(), // model in-mem size.
config.GetCacheStatusFaveMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(f1 *gtsmodel.StatusFave) *gtsmodel.StatusFave {
f2 := new(gtsmodel.StatusFave)
*f2 = *f1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/statusfave.go.
f2.Account = nil
f2.TargetAccount = nil
f2.Status = nil
return f2
}
c.GTS.StatusFave.Init(structr.Config[*gtsmodel.StatusFave]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "AccountID,StatusID"},
{Fields: "StatusID", Multiple: true},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateStatusFave,
})
}
func (c *Caches) initStatusFaveIDs() {
// Calculate maximum cache size.
cap := calculateSliceCacheMax(
config.GetCacheStatusFaveIDsMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.StatusFaveIDs = &SliceCache[string]{Cache: simple.New[string, []string](
0,
cap,
)}
}
func (c *Caches) initTag() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofTag(), // model in-mem size.
config.GetCacheTagMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(m1 *gtsmodel.Tag) *gtsmodel.Tag {
m2 := new(gtsmodel.Tag)
*m2 = *m1
return m2
}
c.GTS.Tag.Init(structr.Config[*gtsmodel.Tag]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "Name"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initThreadMute() {
cap := calculateResultCacheMax(
sizeOfThreadMute(), // model in-mem size.
config.GetCacheThreadMuteMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(t1 *gtsmodel.ThreadMute) *gtsmodel.ThreadMute {
t2 := new(gtsmodel.ThreadMute)
*t2 = *t1
return t2
}
c.GTS.ThreadMute.Init(structr.Config[*gtsmodel.ThreadMute]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "ThreadID", Multiple: true},
{Fields: "AccountID", Multiple: true},
{Fields: "ThreadID,AccountID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initTombstone() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofTombstone(), // model in-mem size.
config.GetCacheTombstoneMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(t1 *gtsmodel.Tombstone) *gtsmodel.Tombstone {
t2 := new(gtsmodel.Tombstone)
*t2 = *t1
return t2
}
c.GTS.Tombstone.Init(structr.Config[*gtsmodel.Tombstone]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "URI"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
})
}
func (c *Caches) initUser() {
// Calculate maximum cache size.
cap := calculateResultCacheMax(
sizeofUser(), // model in-mem size.
config.GetCacheUserMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
copyF := func(u1 *gtsmodel.User) *gtsmodel.User {
u2 := new(gtsmodel.User)
*u2 = *u1
// Don't include ptr fields that
// will be populated separately.
// See internal/db/bundb/user.go.
u2.Account = nil
return u2
}
c.GTS.User.Init(structr.Config[*gtsmodel.User]{
Indices: []structr.IndexConfig{
{Fields: "ID"},
{Fields: "AccountID"},
{Fields: "Email"},
{Fields: "ConfirmationToken"},
{Fields: "ExternalID"},
},
MaxSize: cap,
IgnoreErr: ignoreErrors,
CopyValue: copyF,
Invalidate: c.OnInvalidateUser,
})
}
func (c *Caches) initWebfinger() {
// Calculate maximum cache size.
cap := calculateCacheMax(
sizeofURIStr, sizeofURIStr,
config.GetCacheWebfingerMemRatio(),
)
log.Infof(nil, "cache size = %d", cap)
c.GTS.Webfinger = new(ttl.Cache[string, string])
c.GTS.Webfinger.Init(
0,
cap,
24*time.Hour,
)
}