gotosocial/internal/db/bundb/account.go
tobi 611f9de39b
[bugfix] Deref stats async, serve stub collections if handshaking (#2990)
* [bugfix] Deref stats async, allow peek if handshaking

* don't return totalItems when handshaking or hiding collections

* use GetLimit()

* use StubAccountStats
2024-06-11 11:54:59 +02:00

1371 lines
36 KiB
Go

// 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 bundb
import (
"context"
"errors"
"fmt"
"net/netip"
"slices"
"strings"
"time"
"github.com/superseriousbusiness/gotosocial/internal/config"
"github.com/superseriousbusiness/gotosocial/internal/db"
"github.com/superseriousbusiness/gotosocial/internal/gtscontext"
"github.com/superseriousbusiness/gotosocial/internal/gtserror"
"github.com/superseriousbusiness/gotosocial/internal/gtsmodel"
"github.com/superseriousbusiness/gotosocial/internal/id"
"github.com/superseriousbusiness/gotosocial/internal/log"
"github.com/superseriousbusiness/gotosocial/internal/paging"
"github.com/superseriousbusiness/gotosocial/internal/state"
"github.com/superseriousbusiness/gotosocial/internal/util"
"github.com/uptrace/bun"
"github.com/uptrace/bun/dialect"
)
type accountDB struct {
db *bun.DB
state *state.State
}
func (a *accountDB) GetAccountByID(ctx context.Context, id string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"ID",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.id"), id).
Scan(ctx)
},
id,
)
}
func (a *accountDB) GetAccountsByIDs(ctx context.Context, ids []string) ([]*gtsmodel.Account, error) {
// Load all input account IDs via cache loader callback.
accounts, err := a.state.Caches.GTS.Account.LoadIDs("ID",
ids,
func(uncached []string) ([]*gtsmodel.Account, error) {
// Preallocate expected length of uncached accounts.
accounts := make([]*gtsmodel.Account, 0, len(uncached))
// Perform database query scanning
// the remaining (uncached) account IDs.
if err := a.db.NewSelect().
Model(&accounts).
Where("? IN (?)", bun.Ident("id"), bun.In(uncached)).
Scan(ctx); err != nil {
return nil, err
}
return accounts, nil
},
)
if err != nil {
return nil, err
}
// Reorder the statuses by their
// IDs to ensure in correct order.
getID := func(a *gtsmodel.Account) string { return a.ID }
util.OrderBy(accounts, ids, getID)
if gtscontext.Barebones(ctx) {
// no need to fully populate.
return accounts, nil
}
// Populate all loaded accounts, removing those we fail to
// populate (removes needing so many nil checks everywhere).
accounts = slices.DeleteFunc(accounts, func(account *gtsmodel.Account) bool {
if err := a.PopulateAccount(ctx, account); err != nil {
log.Errorf(ctx, "error populating account %s: %v", account.ID, err)
return true
}
return false
})
return accounts, nil
}
func (a *accountDB) GetAccountByURI(ctx context.Context, uri string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"URI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.uri"), uri).
Scan(ctx)
},
uri,
)
}
func (a *accountDB) GetAccountByURL(ctx context.Context, url string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"URL",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.url"), url).
Scan(ctx)
},
url,
)
}
func (a *accountDB) GetAccountByUsernameDomain(ctx context.Context, username string, domain string) (*gtsmodel.Account, error) {
if domain != "" {
// Normalize the domain as punycode
var err error
domain, err = util.Punify(domain)
if err != nil {
return nil, err
}
}
return a.getAccount(
ctx,
"Username,Domain",
func(account *gtsmodel.Account) error {
q := a.db.NewSelect().
Model(account)
if domain != "" {
q = q.
Where("LOWER(?) = ?", bun.Ident("account.username"), strings.ToLower(username)).
Where("? = ?", bun.Ident("account.domain"), domain)
} else {
q = q.
Where("? = ?", bun.Ident("account.username"), strings.ToLower(username)). // usernames on our instance are always lowercase
Where("? IS NULL", bun.Ident("account.domain"))
}
return q.Scan(ctx)
},
username,
domain,
)
}
func (a *accountDB) GetAccountByPubkeyID(ctx context.Context, id string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"PublicKeyURI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.public_key_uri"), id).
Scan(ctx)
},
id,
)
}
func (a *accountDB) GetAccountByInboxURI(ctx context.Context, uri string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"InboxURI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.inbox_uri"), uri).
Scan(ctx)
},
uri,
)
}
func (a *accountDB) GetAccountByOutboxURI(ctx context.Context, uri string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"OutboxURI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.outbox_uri"), uri).
Scan(ctx)
},
uri,
)
}
func (a *accountDB) GetAccountByFollowersURI(ctx context.Context, uri string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"FollowersURI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.followers_uri"), uri).
Scan(ctx)
},
uri,
)
}
func (a *accountDB) GetAccountByFollowingURI(ctx context.Context, uri string) (*gtsmodel.Account, error) {
return a.getAccount(
ctx,
"FollowingURI",
func(account *gtsmodel.Account) error {
return a.db.NewSelect().
Model(account).
Where("? = ?", bun.Ident("account.following_uri"), uri).
Scan(ctx)
},
uri,
)
}
func (a *accountDB) GetInstanceAccount(ctx context.Context, domain string) (*gtsmodel.Account, error) {
var username string
if domain == "" {
// I.e. our local instance account
username = config.GetHost()
} else {
// A remote instance account
username = domain
}
return a.GetAccountByUsernameDomain(ctx, username, domain)
}
func (a *accountDB) GetAccountsByMovedToURI(ctx context.Context, uri string) ([]*gtsmodel.Account, error) {
var accountIDs []string
// Find all account IDs with
// given moved_to_uri column.
if err := a.db.NewSelect().
Table("accounts").
Column("id").
Where("? = ?", bun.Ident("moved_to_uri"), uri).
Scan(ctx, &accountIDs); err != nil {
return nil, err
}
if len(accountIDs) == 0 {
return nil, nil
}
// Return account models for all found IDs.
return a.GetAccountsByIDs(ctx, accountIDs)
}
// GetAccounts selects accounts using the given parameters.
// Unlike with other functions, the paging for GetAccounts
// is done not by ID, but by a concatenation of `[domain]/@[username]`,
// which allows callers to page through accounts in alphabetical
// order (much more useful for an admin overview of accounts,
// for example, than paging by ID (which is random) or by account
// created at date, which is not particularly interesting).
//
// Generated queries will look something like this
// (SQLite example, maxID was provided so we're paging down):
//
// SELECT "account"."id", (COALESCE("domain", '') || '/@' || "username") AS "domain_username"
// FROM "accounts" AS "account"
// WHERE ("domain_username" > '/@the_mighty_zork')
// ORDER BY "domain_username" ASC
//
// **NOTE ABOUT POSTGRES**: Postgres ordering expressions in
// this function specify COLLATE "C" to ensure that ordering
// is similar to SQLite (which uses BINARY ordering by default).
// This unfortunately means that A-Z > a-z, when ordering but
// that's an acceptable tradeoff for a query like this.
//
// See:
//
// - https://www.postgresql.org/docs/current/collation.html#COLLATION-MANAGING-STANDARD
// - https://sqlite.org/datatype3.html#collation
func (a *accountDB) GetAccounts(
ctx context.Context,
origin string,
status string,
mods bool,
invitedBy string,
username string,
displayName string,
domain string,
email string,
ip netip.Addr,
page *paging.Page,
) (
[]*gtsmodel.Account,
error,
) {
var (
// We have to use different
// syntax for this query
// depending on dialect.
dbDialect = a.db.Dialect().Name()
// local users lists,
// required for some
// limiting parameters.
users []*gtsmodel.User
// lazyLoadUsers only loads the users
// slice if it's required by params.
lazyLoadUsers = func() (err error) {
if users == nil {
users, err = a.state.DB.GetAllUsers(gtscontext.SetBarebones(ctx))
if err != nil {
return fmt.Errorf("error getting users: %w", err)
}
}
return nil
}
// Get paging params.
minID = page.GetMin()
maxID = page.GetMax()
limit = page.GetLimit()
order = page.GetOrder()
// Make educated guess for slice size
accountIDs = make([]string, 0, limit)
accountIDIn []string
useAccountIDIn bool
)
q := a.db.
NewSelect().
TableExpr("? AS ?", bun.Ident("accounts"), bun.Ident("account")).
// Select only IDs from table
Column("account.id")
var subQ *bun.RawQuery
if dbDialect == dialect.SQLite {
// For SQLite we can just select
// our indexed expression once
// as a column alias.
q = q.ColumnExpr(
"(COALESCE(?, ?) || ? || ?) AS ?",
bun.Ident("domain"), "",
"/@",
bun.Ident("username"),
bun.Ident("domain_username"),
)
} else {
// Create a subquery for
// Postgres to reuse.
subQ = a.db.NewRaw(
"(COALESCE(?, ?) || ? || ?) COLLATE ?",
bun.Ident("domain"), "",
"/@",
bun.Ident("username"),
bun.Ident("C"),
)
}
// Return only accounts with `[domain]/@[username]`
// later in the alphabet (a-z) than provided maxID.
if maxID != "" {
if dbDialect == dialect.SQLite {
// Use aliased column.
q = q.Where("? > ?", bun.Ident("domain_username"), maxID)
} else {
q = q.Where("? > ?", subQ, maxID)
}
}
// Return only accounts with `[domain]/@[username]`
// earlier in the alphabet (a-z) than provided minID.
if minID != "" {
if dbDialect == dialect.SQLite {
// Use aliased column.
q = q.Where("? < ?", bun.Ident("domain_username"), minID)
} else {
q = q.Where("? < ?", subQ, minID)
}
}
switch status {
case "active":
// Get only enabled accounts.
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if !*user.Disabled {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
case "pending":
// Get only unapproved accounts.
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if !*user.Approved {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
case "disabled":
// Get only disabled accounts.
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if *user.Disabled {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
case "silenced":
// Get only silenced accounts.
q = q.Where("? IS NOT NULL", bun.Ident("account.silenced_at"))
case "suspended":
// Get only suspended accounts.
q = q.Where("? IS NOT NULL", bun.Ident("account.suspended_at"))
}
if mods {
// Get only mod accounts.
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if *user.Moderator || *user.Admin {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
}
// TODO: invitedBy
if username != "" {
q = q.Where("? = ?", bun.Ident("account.username"), username)
}
if displayName != "" {
q = q.Where("? = ?", bun.Ident("account.display_name"), displayName)
}
if domain != "" {
q = q.Where("? = ?", bun.Ident("account.domain"), domain)
}
if email != "" {
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if user.Email == email || user.UnconfirmedEmail == email {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
}
// Use ip if not zero value.
if ip.IsValid() {
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
if user.SignUpIP.String() == ip.String() {
accountIDIn = append(accountIDIn, user.AccountID)
}
}
useAccountIDIn = true
}
if origin == "local" && !useAccountIDIn {
// In the case we're not already limiting
// by specific subset of account IDs, just
// use existing list of user.AccountIDs
// instead of adding WHERE to the query.
if err := lazyLoadUsers(); err != nil {
return nil, err
}
for _, user := range users {
accountIDIn = append(accountIDIn, user.AccountID)
}
useAccountIDIn = true
} else if origin == "remote" {
if useAccountIDIn {
// useAccountIDIn specifically indicates
// a parameter that limits querying to
// local accounts, there will be none.
return nil, nil
}
// Get only remote accounts.
q = q.Where("? IS NOT NULL", bun.Ident("account.domain"))
}
if useAccountIDIn {
if len(accountIDIn) == 0 {
// There will be no
// possible answer.
return nil, nil
}
q = q.Where("? IN (?)", bun.Ident("account.id"), bun.In(accountIDIn))
}
if limit > 0 {
// Limit amount of
// accounts returned.
q = q.Limit(limit)
}
if order == paging.OrderAscending {
// Page up.
// It's counterintuitive because it
// says DESC in the query, but we're
// going backwards in the alphabet,
// and a < z in a string comparison.
if dbDialect == dialect.SQLite {
q = q.OrderExpr("? DESC", bun.Ident("domain_username"))
} else {
q = q.OrderExpr("(?) DESC", subQ)
}
} else {
// Page down.
// It's counterintuitive because it
// says ASC in the query, but we're
// going forwards in the alphabet,
// and z > a in a string comparison.
if dbDialect == dialect.SQLite {
q = q.OrderExpr("? ASC", bun.Ident("domain_username"))
} else {
q = q.OrderExpr("? ASC", subQ)
}
}
if err := q.Scan(ctx, &accountIDs, new([]string)); err != nil {
return nil, err
}
if len(accountIDs) == 0 {
return nil, nil
}
// If we're paging up, we still want accounts
// to be sorted by createdAt desc, so reverse ids slice.
if order == paging.OrderAscending {
slices.Reverse(accountIDs)
}
// Return account IDs loaded from cache + db.
return a.state.DB.GetAccountsByIDs(ctx, accountIDs)
}
func (a *accountDB) getAccount(ctx context.Context, lookup string, dbQuery func(*gtsmodel.Account) error, keyParts ...any) (*gtsmodel.Account, error) {
// Fetch account from database cache with loader callback
account, err := a.state.Caches.GTS.Account.LoadOne(lookup, func() (*gtsmodel.Account, error) {
var account gtsmodel.Account
// Not cached! Perform database query
if err := dbQuery(&account); err != nil {
return nil, err
}
return &account, nil
}, keyParts...)
if err != nil {
return nil, err
}
if gtscontext.Barebones(ctx) {
// no need to fully populate.
return account, nil
}
// Further populate the account fields where applicable.
if err := a.PopulateAccount(ctx, account); err != nil {
return nil, err
}
return account, nil
}
func (a *accountDB) PopulateAccount(ctx context.Context, account *gtsmodel.Account) error {
var (
err error
errs = gtserror.NewMultiError(5)
)
if account.AvatarMediaAttachment == nil && account.AvatarMediaAttachmentID != "" {
// Account avatar attachment is not set, fetch from database.
account.AvatarMediaAttachment, err = a.state.DB.GetAttachmentByID(
ctx, // these are already barebones
account.AvatarMediaAttachmentID,
)
if err != nil {
errs.Appendf("error populating account avatar: %w", err)
}
}
if account.HeaderMediaAttachment == nil && account.HeaderMediaAttachmentID != "" {
// Account header attachment is not set, fetch from database.
account.HeaderMediaAttachment, err = a.state.DB.GetAttachmentByID(
ctx, // these are already barebones
account.HeaderMediaAttachmentID,
)
if err != nil {
errs.Appendf("error populating account header: %w", err)
}
}
// Only try to populate AlsoKnownAs for local accounts,
// since those are the only accounts to which it's relevant.
//
// AKA from remotes might have loads of random-ass values
// set here, and we don't want to do lots of failing DB calls.
if account.IsLocal() && !account.AlsoKnownAsPopulated() {
// Account alsoKnownAs accounts are
// out-of-date with URIs, repopulate.
alsoKnownAs := make([]*gtsmodel.Account, 0)
for _, uri := range account.AlsoKnownAsURIs {
akaAcct, err := a.state.DB.GetAccountByURI(
gtscontext.SetBarebones(ctx),
uri,
)
if err != nil {
errs.Appendf("error populating also known as account %s: %w", uri, err)
continue
}
alsoKnownAs = append(alsoKnownAs, akaAcct)
}
account.AlsoKnownAs = alsoKnownAs
}
if account.Move == nil && account.MoveID != "" {
// Account move is not set, fetch from database.
account.Move, err = a.state.DB.GetMoveByID(
ctx,
account.MoveID,
)
if err != nil {
errs.Appendf("error populating move: %w", err)
}
}
if account.MovedTo == nil && account.MovedToURI != "" {
// Account movedTo is not set, try to fetch from database,
// but only error on real errors since this field is optional.
account.MovedTo, err = a.state.DB.GetAccountByURI(
gtscontext.SetBarebones(ctx),
account.MovedToURI,
)
if err != nil && !errors.Is(err, db.ErrNoEntries) {
errs.Appendf("error populating moved to account: %w", err)
}
}
if !account.EmojisPopulated() {
// Account emojis are out-of-date with IDs, repopulate.
account.Emojis, err = a.state.DB.GetEmojisByIDs(
ctx, // these are already barebones
account.EmojiIDs,
)
if err != nil {
errs.Appendf("error populating account emojis: %w", err)
}
}
if account.IsLocal() && account.Settings == nil && !account.IsInstance() {
// Account settings not set, fetch from db.
account.Settings, err = a.state.DB.GetAccountSettings(
ctx, // these are already barebones
account.ID,
)
if err != nil {
errs.Appendf("error populating account settings: %w", err)
}
}
if account.Stats == nil {
// Get / Create stats for this account.
if err := a.state.DB.PopulateAccountStats(ctx, account); err != nil {
errs.Appendf("error populating account stats: %w", err)
}
}
return errs.Combine()
}
func (a *accountDB) PutAccount(ctx context.Context, account *gtsmodel.Account) error {
return a.state.Caches.GTS.Account.Store(account, func() error {
// It is safe to run this database transaction within cache.Store
// as the cache does not attempt a mutex lock until AFTER hook.
//
return a.db.RunInTx(ctx, nil, func(ctx context.Context, tx bun.Tx) error {
// create links between this account and any emojis it uses
for _, i := range account.EmojiIDs {
if _, err := tx.NewInsert().Model(&gtsmodel.AccountToEmoji{
AccountID: account.ID,
EmojiID: i,
}).Exec(ctx); err != nil {
return err
}
}
// insert the account
_, err := tx.NewInsert().Model(account).Exec(ctx)
return err
})
})
}
func (a *accountDB) UpdateAccount(ctx context.Context, account *gtsmodel.Account, columns ...string) error {
account.UpdatedAt = time.Now()
if len(columns) > 0 {
// If we're updating by column, ensure "updated_at" is included.
columns = append(columns, "updated_at")
}
return a.state.Caches.GTS.Account.Store(account, func() error {
// It is safe to run this database transaction within cache.Store
// as the cache does not attempt a mutex lock until AFTER hook.
//
return a.db.RunInTx(ctx, nil, func(ctx context.Context, tx bun.Tx) error {
// create links between this account and any emojis it uses
// first clear out any old emoji links
if _, err := tx.
NewDelete().
TableExpr("? AS ?", bun.Ident("account_to_emojis"), bun.Ident("account_to_emoji")).
Where("? = ?", bun.Ident("account_to_emoji.account_id"), account.ID).
Exec(ctx); err != nil {
return err
}
// now populate new emoji links
for _, i := range account.EmojiIDs {
if _, err := tx.
NewInsert().
Model(&gtsmodel.AccountToEmoji{
AccountID: account.ID,
EmojiID: i,
}).Exec(ctx); err != nil {
return err
}
}
// update the account
_, err := tx.NewUpdate().
Model(account).
Where("? = ?", bun.Ident("account.id"), account.ID).
Column(columns...).
Exec(ctx)
return err
})
})
}
func (a *accountDB) DeleteAccount(ctx context.Context, id string) error {
defer a.state.Caches.GTS.Account.Invalidate("ID", id)
// Load account into cache before attempting a delete,
// as we need it cached in order to trigger the invalidate
// callback. This in turn invalidates others.
_, err := a.GetAccountByID(gtscontext.SetBarebones(ctx), id)
if err != nil && !errors.Is(err, db.ErrNoEntries) {
// NOTE: even if db.ErrNoEntries is returned, we
// still run the below transaction to ensure related
// objects are appropriately deleted.
return err
}
return a.db.RunInTx(ctx, nil, func(ctx context.Context, tx bun.Tx) error {
// clear out any emoji links
if _, err := tx.
NewDelete().
TableExpr("? AS ?", bun.Ident("account_to_emojis"), bun.Ident("account_to_emoji")).
Where("? = ?", bun.Ident("account_to_emoji.account_id"), id).
Exec(ctx); err != nil {
return err
}
// delete the account
_, err := tx.
NewDelete().
TableExpr("? AS ?", bun.Ident("accounts"), bun.Ident("account")).
Where("? = ?", bun.Ident("account.id"), id).
Exec(ctx)
return err
})
}
func (a *accountDB) SetAccountHeaderOrAvatar(ctx context.Context, mediaAttachment *gtsmodel.MediaAttachment, accountID string) error {
if *mediaAttachment.Avatar && *mediaAttachment.Header {
return errors.New("one media attachment cannot be both header and avatar")
}
var column bun.Ident
switch {
case *mediaAttachment.Avatar:
column = bun.Ident("account.avatar_media_attachment_id")
case *mediaAttachment.Header:
column = bun.Ident("account.header_media_attachment_id")
default:
return errors.New("given media attachment was neither a header nor an avatar")
}
// TODO: there are probably more side effects here that need to be handled
if _, err := a.db.
NewInsert().
Model(mediaAttachment).
Exec(ctx); err != nil {
return err
}
if _, err := a.db.
NewUpdate().
TableExpr("? AS ?", bun.Ident("accounts"), bun.Ident("account")).
Set("? = ?", column, mediaAttachment.ID).
Where("? = ?", bun.Ident("account.id"), accountID).
Exec(ctx); err != nil {
return err
}
return nil
}
func (a *accountDB) GetAccountCustomCSSByUsername(ctx context.Context, username string) (string, error) {
// Get local account.
account, err := a.GetAccountByUsernameDomain(ctx, username, "")
if err != nil {
return "", err
}
// Ensure settings populated, in case
// barebones context was passed.
if account.Settings == nil {
account.Settings, err = a.GetAccountSettings(ctx, account.ID)
if err != nil {
return "", err
}
}
return account.Settings.CustomCSS, nil
}
func (a *accountDB) GetAccountsUsingEmoji(ctx context.Context, emojiID string) ([]*gtsmodel.Account, error) {
var accountIDs []string
// SELECT all accounts using this emoji,
// using a relational table for improved perf.
if _, err := a.db.NewSelect().
Table("account_to_emojis").
Column("account_id").
Where("? = ?", bun.Ident("emoji_id"), emojiID).
Exec(ctx, &accountIDs); err != nil {
return nil, err
}
// Convert account IDs into account objects.
return a.GetAccountsByIDs(ctx, accountIDs)
}
func (a *accountDB) GetAccountFaves(ctx context.Context, accountID string) ([]*gtsmodel.StatusFave, error) {
faves := new([]*gtsmodel.StatusFave)
if err := a.db.
NewSelect().
Model(faves).
Where("? = ?", bun.Ident("status_fave.account_id"), accountID).
Scan(ctx); err != nil {
return nil, err
}
return *faves, nil
}
func (a *accountDB) GetAccountStatuses(ctx context.Context, accountID string, limit int, excludeReplies bool, excludeReblogs bool, maxID string, minID string, mediaOnly bool, publicOnly bool) ([]*gtsmodel.Status, error) {
// Ensure reasonable
if limit < 0 {
limit = 0
}
// Make educated guess for slice size
var (
statusIDs = make([]string, 0, limit)
frontToBack = true
)
q := a.db.
NewSelect().
TableExpr("? AS ?", bun.Ident("statuses"), bun.Ident("status")).
// Select only IDs from table
Column("status.id").
Where("? = ?", bun.Ident("status.account_id"), accountID)
if excludeReplies {
q = q.WhereGroup(" AND ", func(q *bun.SelectQuery) *bun.SelectQuery {
return q.
// Do include self replies (threads), but
// don't include replies to other people.
Where("? = ?", bun.Ident("status.in_reply_to_account_id"), accountID).
WhereOr("? IS NULL", bun.Ident("status.in_reply_to_uri"))
})
// Don't include replies that mention other people:
// for example, an account's reply to its own reply to someone else.
q = whereArrayIsNullOrEmpty(q, bun.Ident("status.mentions"))
}
if excludeReblogs {
q = q.Where("? IS NULL", bun.Ident("status.boost_of_id"))
}
if mediaOnly {
// Attachments are stored as a json object; this
// implementation differs between SQLite and Postgres,
// so we have to be thorough to cover all eventualities
q = q.WhereGroup(" AND ", func(q *bun.SelectQuery) *bun.SelectQuery {
switch a.db.Dialect().Name() {
case dialect.PG:
return q.
Where("? IS NOT NULL", bun.Ident("status.attachments")).
Where("? != '{}'", bun.Ident("status.attachments"))
case dialect.SQLite:
return q.
Where("? IS NOT NULL", bun.Ident("status.attachments")).
Where("? != ''", bun.Ident("status.attachments")).
Where("? != 'null'", bun.Ident("status.attachments")).
Where("? != '{}'", bun.Ident("status.attachments")).
Where("? != '[]'", bun.Ident("status.attachments"))
default:
log.Panic(ctx, "db dialect was neither pg nor sqlite")
return q
}
})
}
if publicOnly {
q = q.Where("? = ?", bun.Ident("status.visibility"), gtsmodel.VisibilityPublic)
}
// return only statuses LOWER (ie., older) than maxID
if maxID == "" {
maxID = id.Highest
}
q = q.Where("? < ?", bun.Ident("status.id"), maxID)
if minID != "" {
// return only statuses HIGHER (ie., newer) than minID
q = q.Where("? > ?", bun.Ident("status.id"), minID)
// page up
frontToBack = false
}
if limit > 0 {
// limit amount of statuses returned
q = q.Limit(limit)
}
if frontToBack {
// Page down.
q = q.Order("status.id DESC")
} else {
// Page up.
q = q.Order("status.id ASC")
}
if err := q.Scan(ctx, &statusIDs); err != nil {
return nil, err
}
if len(statusIDs) == 0 {
return nil, db.ErrNoEntries
}
// If we're paging up, we still want statuses
// to be sorted by ID desc, so reverse ids slice.
// https://zchee.github.io/golang-wiki/SliceTricks/#reversing
if !frontToBack {
for l, r := 0, len(statusIDs)-1; l < r; l, r = l+1, r-1 {
statusIDs[l], statusIDs[r] = statusIDs[r], statusIDs[l]
}
}
return a.state.DB.GetStatusesByIDs(ctx, statusIDs)
}
func (a *accountDB) GetAccountPinnedStatuses(ctx context.Context, accountID string) ([]*gtsmodel.Status, error) {
statusIDs := []string{}
q := a.db.
NewSelect().
TableExpr("? AS ?", bun.Ident("statuses"), bun.Ident("status")).
Column("status.id").
Where("? = ?", bun.Ident("status.account_id"), accountID).
Where("? IS NOT NULL", bun.Ident("status.pinned_at")).
Order("status.pinned_at DESC")
if err := q.Scan(ctx, &statusIDs); err != nil {
return nil, err
}
if len(statusIDs) == 0 {
return nil, db.ErrNoEntries
}
return a.state.DB.GetStatusesByIDs(ctx, statusIDs)
}
func (a *accountDB) GetAccountWebStatuses(ctx context.Context, accountID string, limit int, maxID string) ([]*gtsmodel.Status, error) {
// Ensure reasonable
if limit < 0 {
limit = 0
}
// Make educated guess for slice size
statusIDs := make([]string, 0, limit)
q := a.db.
NewSelect().
TableExpr("? AS ?", bun.Ident("statuses"), bun.Ident("status")).
// Select only IDs from table
Column("status.id").
Where("? = ?", bun.Ident("status.account_id"), accountID).
// Don't show replies or boosts.
Where("? IS NULL", bun.Ident("status.in_reply_to_uri")).
Where("? IS NULL", bun.Ident("status.boost_of_id")).
// Only Public statuses.
Where("? = ?", bun.Ident("status.visibility"), gtsmodel.VisibilityPublic).
// Don't show local-only statuses on the web view.
Where("? = ?", bun.Ident("status.federated"), true)
// return only statuses LOWER (ie., older) than maxID
if maxID == "" {
maxID = id.Highest
}
q = q.Where("? < ?", bun.Ident("status.id"), maxID)
if limit > 0 {
// limit amount of statuses returned
q = q.Limit(limit)
}
if limit > 0 {
// limit amount of statuses returned
q = q.Limit(limit)
}
q = q.Order("status.id DESC")
if err := q.Scan(ctx, &statusIDs); err != nil {
return nil, err
}
if len(statusIDs) == 0 {
return nil, db.ErrNoEntries
}
return a.state.DB.GetStatusesByIDs(ctx, statusIDs)
}
func (a *accountDB) GetAccountSettings(
ctx context.Context,
accountID string,
) (*gtsmodel.AccountSettings, error) {
// Fetch settings from db cache with loader callback.
return a.state.Caches.GTS.AccountSettings.LoadOne(
"AccountID",
func() (*gtsmodel.AccountSettings, error) {
// Not cached! Perform database query.
var settings gtsmodel.AccountSettings
if err := a.db.
NewSelect().
Model(&settings).
Where("? = ?", bun.Ident("account_settings.account_id"), accountID).
Scan(ctx); err != nil {
return nil, err
}
return &settings, nil
},
accountID,
)
}
func (a *accountDB) PutAccountSettings(
ctx context.Context,
settings *gtsmodel.AccountSettings,
) error {
return a.state.Caches.GTS.AccountSettings.Store(settings, func() error {
if _, err := a.db.
NewInsert().
Model(settings).
Exec(ctx); err != nil {
return err
}
return nil
})
}
func (a *accountDB) UpdateAccountSettings(
ctx context.Context,
settings *gtsmodel.AccountSettings,
columns ...string,
) error {
return a.state.Caches.GTS.AccountSettings.Store(settings, func() error {
settings.UpdatedAt = time.Now()
if len(columns) > 0 {
// If we're updating by column,
// ensure "updated_at" is included.
columns = append(columns, "updated_at")
}
if _, err := a.db.
NewUpdate().
Model(settings).
Column(columns...).
Where("? = ?", bun.Ident("account_settings.account_id"), settings.AccountID).
Exec(ctx); err != nil {
return err
}
return nil
})
}
func (a *accountDB) PopulateAccountStats(ctx context.Context, account *gtsmodel.Account) error {
// Fetch stats from db cache with loader callback.
stats, err := a.state.Caches.GTS.AccountStats.LoadOne(
"AccountID",
func() (*gtsmodel.AccountStats, error) {
// Not cached! Perform database query.
var stats gtsmodel.AccountStats
if err := a.db.
NewSelect().
Model(&stats).
Where("? = ?", bun.Ident("account_stats.account_id"), account.ID).
Scan(ctx); err != nil {
return nil, err
}
return &stats, nil
},
account.ID,
)
if err != nil && !errors.Is(err, db.ErrNoEntries) {
// Real error.
return err
}
if stats == nil {
// Don't have stats yet, generate them.
return a.RegenerateAccountStats(ctx, account)
}
// We have a stats, attach
// it to the account.
account.Stats = stats
// Check if this is a local
// stats by looking at the
// account they pertain to.
if account.IsRemote() {
// Account is remote. Updating
// stats for remote accounts is
// handled in the dereferencer.
//
// Nothing more to do!
return nil
}
// Stats account is local, check
// if we need to regenerate.
const statsFreshness = 48 * time.Hour
expiry := stats.RegeneratedAt.Add(statsFreshness)
if time.Now().After(expiry) {
// Stats have expired, regenerate them.
return a.RegenerateAccountStats(ctx, account)
}
// Stats are still fresh.
return nil
}
func (a *accountDB) StubAccountStats(ctx context.Context, account *gtsmodel.Account) error {
stats := &gtsmodel.AccountStats{
AccountID: account.ID,
RegeneratedAt: time.Now(),
FollowersCount: util.Ptr(0),
FollowingCount: util.Ptr(0),
FollowRequestsCount: util.Ptr(0),
StatusesCount: util.Ptr(0),
StatusesPinnedCount: util.Ptr(0),
}
// Upsert this stats in case a race
// meant someone else inserted it first.
if err := a.state.Caches.GTS.AccountStats.Store(stats, func() error {
if _, err := NewUpsert(a.db).
Model(stats).
Constraint("account_id").
Exec(ctx); err != nil {
return err
}
return nil
}); err != nil {
return err
}
account.Stats = stats
return nil
}
func (a *accountDB) RegenerateAccountStats(ctx context.Context, account *gtsmodel.Account) error {
// Initialize a new stats struct.
stats := &gtsmodel.AccountStats{
AccountID: account.ID,
RegeneratedAt: time.Now(),
}
// Count followers outside of transaction since
// it uses a cache + requires its own db calls.
followerIDs, err := a.state.DB.GetAccountFollowerIDs(ctx, account.ID, nil)
if err != nil {
return err
}
stats.FollowersCount = util.Ptr(len(followerIDs))
// Count following outside of transaction since
// it uses a cache + requires its own db calls.
followIDs, err := a.state.DB.GetAccountFollowIDs(ctx, account.ID, nil)
if err != nil {
return err
}
stats.FollowingCount = util.Ptr(len(followIDs))
// Count follow requests outside of transaction since
// it uses a cache + requires its own db calls.
followRequestIDs, err := a.state.DB.GetAccountFollowRequestIDs(ctx, account.ID, nil)
if err != nil {
return err
}
stats.FollowRequestsCount = util.Ptr(len(followRequestIDs))
// Populate remaining stats struct fields.
// This can be done inside a transaction.
if err := a.db.RunInTx(ctx, nil, func(ctx context.Context, tx bun.Tx) error {
var err error
// Scan database for account statuses.
statusesCount, err := tx.NewSelect().
Table("statuses").
Where("? = ?", bun.Ident("account_id"), account.ID).
Count(ctx)
if err != nil {
return err
}
stats.StatusesCount = &statusesCount
// Scan database for pinned statuses.
statusesPinnedCount, err := tx.NewSelect().
Table("statuses").
Where("? = ?", bun.Ident("account_id"), account.ID).
Where("? IS NOT NULL", bun.Ident("pinned_at")).
Count(ctx)
if err != nil {
return err
}
stats.StatusesPinnedCount = &statusesPinnedCount
// Scan database for last status.
lastStatusAt := time.Time{}
err = tx.
NewSelect().
TableExpr("? AS ?", bun.Ident("statuses"), bun.Ident("status")).
Column("status.created_at").
Where("? = ?", bun.Ident("status.account_id"), account.ID).
Order("status.id DESC").
Limit(1).
Scan(ctx, &lastStatusAt)
if err != nil && !errors.Is(err, db.ErrNoEntries) {
return err
}
stats.LastStatusAt = lastStatusAt
return nil
}); err != nil {
return err
}
// Upsert this stats in case a race
// meant someone else inserted it first.
if err := a.state.Caches.GTS.AccountStats.Store(stats, func() error {
if _, err := NewUpsert(a.db).
Model(stats).
Constraint("account_id").
Exec(ctx); err != nil {
return err
}
return nil
}); err != nil {
return err
}
account.Stats = stats
return nil
}
func (a *accountDB) UpdateAccountStats(ctx context.Context, stats *gtsmodel.AccountStats, columns ...string) error {
return a.state.Caches.GTS.AccountStats.Store(stats, func() error {
if _, err := a.db.
NewUpdate().
Model(stats).
Column(columns...).
Where("? = ?", bun.Ident("account_stats.account_id"), stats.AccountID).
Exec(ctx); err != nil {
return err
}
return nil
})
}
func (a *accountDB) DeleteAccountStats(ctx context.Context, accountID string) error {
defer a.state.Caches.GTS.AccountStats.Invalidate("AccountID", accountID)
if _, err := a.db.
NewDelete().
Table("account_stats").
Where("? = ?", bun.Ident("account_id"), accountID).
Exec(ctx); err != nil {
return err
}
return nil
}