gotosocial/vendor/github.com/ncruces/go-sqlite3/vfs/memdb/memdb.go

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package memdb
import (
"io"
"runtime"
"sync"
"time"
"github.com/ncruces/go-sqlite3"
"github.com/ncruces/go-sqlite3/vfs"
)
// Must be a multiple of 64K (the largest page size).
const sectorSize = 65536
type memVFS struct{}
func (memVFS) Open(name string, flags vfs.OpenFlag) (vfs.File, vfs.OpenFlag, error) {
// For simplicity, we do not support reading or writing data
// across "sector" boundaries.
//
// This is not a problem for most SQLite file types:
// - databases, which only do page aligned reads/writes;
// - temp journals, as used by the sorter, which does the same:
// https://github.com/sqlite/sqlite/blob/b74eb0/src/vdbesort.c#L409-L412
//
// We refuse to open all other file types,
// but returning OPEN_MEMORY means SQLite won't ask us to.
const types = vfs.OPEN_MAIN_DB |
vfs.OPEN_TEMP_DB |
vfs.OPEN_TEMP_JOURNAL
if flags&types == 0 {
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// notest // OPEN_MEMORY
return nil, flags, sqlite3.CANTOPEN
}
// A shared database has a name that begins with "/".
shared := len(name) > 1 && name[0] == '/'
var db *memDB
if shared {
name = name[1:]
memoryMtx.Lock()
defer memoryMtx.Unlock()
db = memoryDBs[name]
}
if db == nil {
if flags&vfs.OPEN_CREATE == 0 {
return nil, flags, sqlite3.CANTOPEN
}
db = &memDB{name: name}
}
if shared {
db.refs++ // +checklocksforce: memoryMtx is held
memoryDBs[name] = db
}
return &memFile{
memDB: db,
readOnly: flags&vfs.OPEN_READONLY != 0,
}, flags | vfs.OPEN_MEMORY, nil
}
func (memVFS) Delete(name string, dirSync bool) error {
return sqlite3.IOERR_DELETE
}
func (memVFS) Access(name string, flag vfs.AccessFlag) (bool, error) {
return false, nil
}
func (memVFS) FullPathname(name string) (string, error) {
return name, nil
}
type memDB struct {
name string
// +checklocks:dataMtx
data []*[sectorSize]byte
// +checklocks:dataMtx
size int64
// +checklocks:lockMtx
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shared int32
// +checklocks:lockMtx
reserved bool
// +checklocks:lockMtx
pending bool
// +checklocks:memoryMtx
refs int
lockMtx sync.Mutex
dataMtx sync.RWMutex
}
func (m *memDB) release() {
memoryMtx.Lock()
defer memoryMtx.Unlock()
if m.refs--; m.refs == 0 && m == memoryDBs[m.name] {
delete(memoryDBs, m.name)
}
}
type memFile struct {
*memDB
lock vfs.LockLevel
readOnly bool
}
var (
// Ensure these interfaces are implemented:
_ vfs.FileLockState = &memFile{}
_ vfs.FileSizeHint = &memFile{}
)
func (m *memFile) Close() error {
m.release()
return m.Unlock(vfs.LOCK_NONE)
}
func (m *memFile) ReadAt(b []byte, off int64) (n int, err error) {
m.dataMtx.RLock()
defer m.dataMtx.RUnlock()
if off >= m.size {
return 0, io.EOF
}
base := off / sectorSize
rest := off % sectorSize
have := int64(sectorSize)
if base == int64(len(m.data))-1 {
have = modRoundUp(m.size, sectorSize)
}
n = copy(b, (*m.data[base])[rest:have])
if n < len(b) {
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// notest // assume reads are page aligned
return 0, io.ErrNoProgress
}
return n, nil
}
func (m *memFile) WriteAt(b []byte, off int64) (n int, err error) {
m.dataMtx.Lock()
defer m.dataMtx.Unlock()
base := off / sectorSize
rest := off % sectorSize
for base >= int64(len(m.data)) {
m.data = append(m.data, new([sectorSize]byte))
}
n = copy((*m.data[base])[rest:], b)
if n < len(b) {
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// notest // assume writes are page aligned
return n, io.ErrShortWrite
}
if size := off + int64(len(b)); size > m.size {
m.size = size
}
return n, nil
}
func (m *memFile) Truncate(size int64) error {
m.dataMtx.Lock()
defer m.dataMtx.Unlock()
return m.truncate(size)
}
// +checklocks:m.dataMtx
func (m *memFile) truncate(size int64) error {
if size < m.size {
base := size / sectorSize
rest := size % sectorSize
if rest != 0 {
clear((*m.data[base])[rest:])
}
}
sectors := divRoundUp(size, sectorSize)
for sectors > int64(len(m.data)) {
m.data = append(m.data, new([sectorSize]byte))
}
clear(m.data[sectors:])
m.data = m.data[:sectors]
m.size = size
return nil
}
func (m *memFile) Sync(flag vfs.SyncFlag) error {
return nil
}
func (m *memFile) Size() (int64, error) {
m.dataMtx.RLock()
defer m.dataMtx.RUnlock()
return m.size, nil
}
const spinWait = 25 * time.Microsecond
func (m *memFile) Lock(lock vfs.LockLevel) error {
if m.lock >= lock {
return nil
}
if m.readOnly && lock >= vfs.LOCK_RESERVED {
return sqlite3.IOERR_LOCK
}
m.lockMtx.Lock()
defer m.lockMtx.Unlock()
switch lock {
case vfs.LOCK_SHARED:
if m.pending {
return sqlite3.BUSY
}
m.shared++
case vfs.LOCK_RESERVED:
if m.reserved {
return sqlite3.BUSY
}
m.reserved = true
case vfs.LOCK_EXCLUSIVE:
if m.lock < vfs.LOCK_PENDING {
m.lock = vfs.LOCK_PENDING
m.pending = true
}
for before := time.Now(); m.shared > 1; {
if time.Since(before) > spinWait {
return sqlite3.BUSY
}
m.lockMtx.Unlock()
runtime.Gosched()
m.lockMtx.Lock()
}
}
m.lock = lock
return nil
}
func (m *memFile) Unlock(lock vfs.LockLevel) error {
if m.lock <= lock {
return nil
}
m.lockMtx.Lock()
defer m.lockMtx.Unlock()
if m.pending && m.lock >= vfs.LOCK_PENDING {
m.pending = false
}
if m.reserved && m.lock >= vfs.LOCK_RESERVED {
m.reserved = false
}
if lock < vfs.LOCK_SHARED {
m.shared--
}
m.lock = lock
return nil
}
func (m *memFile) CheckReservedLock() (bool, error) {
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// notest // OPEN_MEMORY
if m.lock >= vfs.LOCK_RESERVED {
return true, nil
}
m.lockMtx.Lock()
defer m.lockMtx.Unlock()
return m.reserved, nil
}
func (m *memFile) SectorSize() int {
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// notest // IOCAP_POWERSAFE_OVERWRITE
return sectorSize
}
func (m *memFile) DeviceCharacteristics() vfs.DeviceCharacteristic {
return vfs.IOCAP_ATOMIC |
vfs.IOCAP_SEQUENTIAL |
vfs.IOCAP_SAFE_APPEND |
vfs.IOCAP_POWERSAFE_OVERWRITE
}
func (m *memFile) SizeHint(size int64) error {
m.dataMtx.Lock()
defer m.dataMtx.Unlock()
if size > m.size {
return m.truncate(size)
}
return nil
}
func (m *memFile) LockState() vfs.LockLevel {
return m.lock
}
func divRoundUp(a, b int64) int64 {
return (a + b - 1) / b
}
func modRoundUp(a, b int64) int64 {
return b - (b-a%b)%b
}