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crate::ix!();
/* ----------------- BerkeleyBatch ----------------- */
/**
| RAII class that provides access to a
| Berkeley database
|
*/
pub struct BerkeleyBatch {
base: DatabaseBatch,
pdb: Rc<RefCell<libdb::Db>>,
str_file: String,
active_txn: Rc<RefCell<libdb::Transaction>>,
cursor: Rc<RefCell<libdb::Cursor>>,
read_only: bool,
flush_on_close: bool,
env: Rc<RefCell<BerkeleyEnvironment>>,
database: Rc<RefCell<BerkeleyDatabase>>,
}
impl Drop for BerkeleyBatch {
fn drop(&mut self) {
todo!();
/*
Close();
m_database.RemoveRef();
*/
}
}
pub mod berkeley_batch {
use super::*;
/**
| RAII class that automatically cleanses
| its data on destruction
|
*/
pub struct SafeDbt {
dbt: libdb::DBT,
}
impl Drop for SafeDbt {
fn drop(&mut self) {
todo!();
/*
if (m_dbt.get_data() != nullptr) {
// Clear memory, e.g. in case it was a private key
memory_cleanse(m_dbt.get_data(), m_dbt.get_size());
// under DB_DBT_MALLOC, data is malloced by the Dbt, but must be
// freed by the caller.
// https://docs.oracle.com/cd/E17275_01/html/api_reference/C/dbt.html
if (m_dbt.get_flags() & DB_DBT_MALLOC) {
free(m_dbt.get_data());
}
}
*/
}
}
impl Into<libdb::DBT> for SafeDbt {
/**
| conversion operator to access the underlying
| Dbt
|
*/
#[inline] fn into(self) -> libdb::DBT {
todo!();
/*
return &m_dbt;
*/
}
}
impl Default for SafeDbt {
/**
| construct Dbt with internally-managed
| data
|
*/
fn default() -> Self {
todo!();
/*
m_dbt.set_flags(DB_DBT_MALLOC);
*/
}
}
impl SafeDbt {
/**
| construct Dbt with provided data
|
*/
pub fn new(
data: *mut c_void,
size: usize) -> Self {
todo!();
/*
: m_dbt(data, size)
*/
}
/**
| delegate to Dbt
|
*/
pub fn get_data(&self) {
todo!();
/*
return m_dbt.get_data();
*/
}
pub fn get_size(&self) -> u32 {
todo!();
/*
return m_dbt.get_size();
*/
}
}
}
impl BerkeleyBatch {
pub fn close(&mut self) {
todo!();
/*
if (!pdb)
return;
if (activeTxn)
activeTxn->abort();
activeTxn = nullptr;
pdb = nullptr;
CloseCursor();
if (fFlushOnClose)
Flush();
*/
}
pub fn start_cursor(&mut self) -> bool {
todo!();
/*
assert(!m_cursor);
if (!pdb)
return false;
int ret = pdb->cursor(nullptr, &m_cursor, 0);
return ret == 0;
*/
}
pub fn read_at_cursor(&mut self,
ss_key: &mut DataStream,
ss_value: &mut DataStream,
complete: &mut bool) -> bool {
todo!();
/*
complete = false;
if (m_cursor == nullptr) return false;
// Read at cursor
SafeDbt datKey;
SafeDbt datValue;
int ret = m_cursor->get(datKey, datValue, DB_NEXT);
if (ret == DB_NOTFOUND) {
complete = true;
}
if (ret != 0)
return false;
else if (datKey.get_data() == nullptr || datValue.get_data() == nullptr)
return false;
// Convert to streams
ssKey.SetType(SER_DISK);
ssKey.clear();
ssKey.write((char*)datKey.get_data(), datKey.get_size());
ssValue.SetType(SER_DISK);
ssValue.clear();
ssValue.write((char*)datValue.get_data(), datValue.get_size());
return true;
*/
}
pub fn close_cursor(&mut self) {
todo!();
/*
if (!m_cursor) return;
m_cursor->close();
m_cursor = nullptr;
*/
}
pub fn txn_begin(&mut self) -> bool {
todo!();
/*
if (!pdb || activeTxn)
return false;
DbTxn* ptxn = env->TxnBegin();
if (!ptxn)
return false;
activeTxn = ptxn;
return true;
*/
}
pub fn txn_commit(&mut self) -> bool {
todo!();
/*
if (!pdb || !activeTxn)
return false;
int ret = activeTxn->commit(0);
activeTxn = nullptr;
return (ret == 0);
*/
}
pub fn txn_abort(&mut self) -> bool {
todo!();
/*
if (!pdb || !activeTxn)
return false;
int ret = activeTxn->abort();
activeTxn = nullptr;
return (ret == 0);
*/
}
pub fn read_key(&mut self,
key: DataStream,
value: &mut DataStream) -> bool {
todo!();
/*
if (!pdb)
return false;
SafeDbt datKey(key.data(), key.size());
SafeDbt datValue;
int ret = pdb->get(activeTxn, datKey, datValue, 0);
if (ret == 0 && datValue.get_data() != nullptr) {
value.write((char*)datValue.get_data(), datValue.get_size());
return true;
}
return false;
*/
}
pub fn write_key(&mut self,
key: DataStream,
value: DataStream,
overwrite: Option<bool>) -> bool {
let overwrite: bool = overwrite.unwrap_or(true);
todo!();
/*
if (!pdb)
return false;
if (fReadOnly)
assert(!"Write called on database in read-only mode");
SafeDbt datKey(key.data(), key.size());
SafeDbt datValue(value.data(), value.size());
int ret = pdb->put(activeTxn, datKey, datValue, (overwrite ? 0 : DB_NOOVERWRITE));
return (ret == 0);
*/
}
pub fn erase_key(&mut self, key: DataStream) -> bool {
todo!();
/*
if (!pdb)
return false;
if (fReadOnly)
assert(!"Erase called on database in read-only mode");
SafeDbt datKey(key.data(), key.size());
int ret = pdb->del(activeTxn, datKey, 0);
return (ret == 0 || ret == DB_NOTFOUND);
*/
}
pub fn has_key(&mut self, key: DataStream) -> bool {
todo!();
/*
if (!pdb)
return false;
SafeDbt datKey(key.data(), key.size());
int ret = pdb->exists(activeTxn, datKey, 0);
return ret == 0;
*/
}
pub fn new(
database: &mut BerkeleyDatabase,
read_only: bool,
flush_on_close_in: Option<bool>) -> Self {
let flush_on_close_in: bool =
flush_on_close_in.unwrap_or(true);
todo!();
/*
: pdb(nullptr),
: active_txn(nullptr),
: cursor(nullptr),
: database(database),
database.AddRef();
database.Open();
fReadOnly = read_only;
fFlushOnClose = fFlushOnCloseIn;
env = database.env.get();
pdb = database.m_db.get();
strFile = database.strFile;
if (!Exists(std::string("version"))) {
bool fTmp = fReadOnly;
fReadOnly = false;
Write(std::string("version"), CLIENT_VERSION);
fReadOnly = fTmp;
}
*/
}
pub fn flush(&mut self) {
todo!();
/*
if (activeTxn)
return;
// Flush database activity from memory pool to disk log
unsigned int nMinutes = 0;
if (fReadOnly)
nMinutes = 1;
if (env) { // env is nullptr for dummy databases (i.e. in tests). Don't actually flush if env is nullptr so we don't segfault
env->dbenv->txn_checkpoint(nMinutes ? gArgs.GetIntArg("-dblogsize", DEFAULT_WALLET_DBLOGSIZE) * 1024 : 0, nMinutes, 0);
}
*/
}
}