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construct/ircd/db.cc

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// Matrix Construct
//
// Copyright (C) Matrix Construct Developers, Authors & Contributors
// Copyright (C) 2016-2018 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
2018-02-04 03:22:01 +01:00
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
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#include "db.h"
/// Dedicated logging facility for the database subsystem
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decltype(ircd::db::log)
ircd::db::log
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{
"db", 'D'
};
/// Dedicated logging facility for rocksdb's log callbacks
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decltype(ircd::db::rog)
ircd::db::rog
{
"db.rocksdb"
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};
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decltype(ircd::db::version_api)
ircd::db::version_api
{
"RocksDB", info::versions::API, 0,
{
ROCKSDB_MAJOR, ROCKSDB_MINOR, ROCKSDB_PATCH,
}
};
extern "C" const char *
rocksdb_build_git_sha;
extern "C" const char *
rocksdb_build_compile_date;
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decltype(ircd::db::version_abi)
ircd::db::version_abi
{
"RocksDB", info::versions::ABI, 0, {0}, []
(auto &, const mutable_buffer &buf)
{
fmt::sprintf
{
buf, "%s (%s)",
lstrip(rocksdb_build_git_sha, "rocksdb_build_git_sha:"),
rocksdb_build_compile_date,
};
}
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};
ircd::conf::item<size_t>
ircd::db::request_pool_stack_size
{
{ "name", "ircd.db.request_pool.stack_size" },
{ "default", long(128_KiB) },
};
ircd::conf::item<size_t>
ircd::db::request_pool_size
{
{
{ "name", "ircd.db.request_pool.size" },
{ "default", 0L },
}, []
{
request.set(size_t(request_pool_size));
}
};
decltype(ircd::db::request_pool_opts)
ircd::db::request_pool_opts
{
size_t(request_pool_stack_size),
size_t(request_pool_size),
-1, // No hard limit
0, // Soft limit at any queued
true, // Yield before hitting soft limit
};
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/// Concurrent request pool. Requests to seek may be executed on this
/// pool in cases where a single context would find it advantageous.
/// Some examples are a db::row seek, or asynchronous prefetching.
///
/// The number of workers in this pool should upper bound at the
/// number of concurrent AIO requests which are effective on this
/// system. This is a static pool shared by all databases.
decltype(ircd::db::request)
ircd::db::request
{
"db req", request_pool_opts
};
///////////////////////////////////////////////////////////////////////////////
//
// init
//
decltype(ircd::db::init::direct_io_test_file_path)
ircd::db::init::direct_io_test_file_path
{
fs::path_string(fs::path_views
{
fs::base::db, "SUPPORTS_DIRECT_IO"_sv
})
};
ircd::db::init::init()
try
{
#ifdef IRCD_DB_HAS_ALLOCATOR
database::allocator::init();
#endif
compressions();
directory();
request_pool();
test_direct_io();
test_hw_crc32();
}
catch(const std::exception &e)
{
log::critical
{
log, "Cannot start database system :%s",
e.what()
};
throw;
}
ircd::db::init::~init()
noexcept
{
delete prefetcher;
prefetcher = nullptr;
if(request.active())
log::warning
{
log, "Terminating %zu active of %zu client request contexts; %zu pending; %zu queued",
request.active(),
request.size(),
request.pending(),
request.queued()
};
request.terminate();
log::debug
{
log, "Waiting for %zu active of %zu client request contexts; %zu pending; %zu queued",
request.active(),
request.size(),
request.pending(),
request.queued()
};
request.join();
log::debug
{
log, "All contexts joined; all requests are clear."
};
#ifdef IRCD_DB_HAS_ALLOCATOR
database::allocator::fini();
#endif
}
void
ircd::db::init::directory()
try
{
const string_view &dbdir
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{
fs::base::db
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};
if(!fs::is_dir(dbdir) && (ircd::read_only || ircd::write_avoid))
log::warning
{
log, "Not creating database directory `%s' in read-only/write-avoid mode.", dbdir
};
else if(fs::mkdir(dbdir))
log::notice
{
log, "Created new database directory at `%s'", dbdir
};
else
log::info
{
log, "Using database directory at `%s'", dbdir
};
}
catch(const fs::error &e)
{
log::error
{
log, "Database directory error: %s", e.what()
};
throw;
}
void
ircd::db::init::test_direct_io()
try
{
const auto &test_file_path
{
direct_io_test_file_path
};
if(fs::support::direct_io(test_file_path))
log::debug
{
log, "Detected Direct-IO works by opening test file at `%s'",
test_file_path
};
else
log::warning
{
log, "Direct-IO is not supported in the database directory `%s'"
"; Concurrent database queries will not be possible.",
string_view{fs::base::db}
};
}
catch(const std::exception &e)
{
log::error
{
log, "Failed to test if Direct-IO possible with test file `%s'"
"; Concurrent database queries will not be possible :%s",
direct_io_test_file_path,
e.what()
};
}
namespace rocksdb::crc32c
{
extern std::string IsFastCrc32Supported();
}
void
ircd::db::init::test_hw_crc32()
try
{
const auto supported_str
{
rocksdb::crc32c::IsFastCrc32Supported()
};
const bool supported
{
startswith(supported_str, "Supported")
};
assert(supported || startswith(supported_str, "Not supported"));
if(!supported)
log::warning
{
log, "crc32c hardware acceleration is not available on this platform."
};
}
catch(const std::exception &e)
{
log::error
{
log, "Failed to test crc32c hardware acceleration support :%s",
e.what()
};
}
decltype(ircd::db::compressions)
ircd::db::compressions;
void
ircd::db::init::compressions()
try
{
auto supported
{
rocksdb::GetSupportedCompressions()
};
size_t i(0);
for(const rocksdb::CompressionType &type_ : supported) try
{
auto &[string, type]
{
db::compressions.at(i++)
};
type = type_;
throw_on_error
{
rocksdb::GetStringFromCompressionType(&string, type_)
};
log::debug
{
log, "Detected supported compression #%zu type:%lu :%s",
i,
type,
string,
};
}
catch(const std::exception &e)
{
log::error
{
log, "Failed to identify compression type:%u :%s",
uint(type_),
e.what()
};
}
if(supported.empty())
log::warning
{
"No compression libraries have been linked with the DB."
" This is probably not what you want."
};
}
catch(const std::exception &e)
{
log::error
{
log, "Failed to initialize database compressions :%s",
e.what()
};
throw;
}
void
ircd::db::init::request_pool()
{
char buf[32];
const string_view value
{
conf::get(buf, "ircd.fs.aio.max_events")
};
const size_t aio_max_events
{
lex_castable<size_t>(value)?
lex_cast<size_t>(value):
0UL
};
const size_t new_size
{
size_t(request_pool_size)?
request_pool_size:
aio_max_events?
aio_max_events:
1UL
};
request_pool_size.set(lex_cast(new_size));
}
///////////////////////////////////////////////////////////////////////////////
//
// db/stats.h
//
std::string
ircd::db::string(const rocksdb::IOStatsContext &ic,
const bool &all)
{
const bool exclude_zeros(!all);
return ic.ToString(exclude_zeros);
}
const rocksdb::IOStatsContext &
ircd::db::iostats_current()
{
const auto *const &ret
{
rocksdb::get_iostats_context()
};
if(unlikely(!ret))
throw error
{
"IO counters are not available on this thread."
};
return *ret;
}
std::string
ircd::db::string(const rocksdb::PerfContext &pc,
const bool &all)
{
const bool exclude_zeros(!all);
return pc.ToString(exclude_zeros);
}
const rocksdb::PerfContext &
ircd::db::perf_current()
{
const auto *const &ret
{
rocksdb::get_perf_context()
};
if(unlikely(!ret))
throw error
{
"Performance counters are not available on this thread."
};
return *ret;
}
void
ircd::db::perf_level(const uint &level)
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{
if(level >= rocksdb::PerfLevel::kOutOfBounds)
throw error
{
"Perf level of '%u' is invalid; maximum is '%u'",
level,
uint(rocksdb::PerfLevel::kOutOfBounds)
};
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rocksdb::SetPerfLevel(rocksdb::PerfLevel(level));
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}
uint
ircd::db::perf_level()
{
return rocksdb::GetPerfLevel();
}
//
// ticker
//
uint64_t
ircd::db::ticker(const database &d,
const string_view &key)
{
return ticker(d, ticker_id(key));
}
uint64_t
ircd::db::ticker(const database &d,
const uint32_t &id)
{
return d.stats->getTickerCount(id);
}
uint32_t
ircd::db::ticker_id(const string_view &key)
{
for(const auto &pair : rocksdb::TickersNameMap)
if(key == pair.second)
return pair.first;
throw std::out_of_range
{
"No ticker with that key"
};
}
ircd::string_view
ircd::db::ticker_id(const uint32_t &id)
{
for(const auto &pair : rocksdb::TickersNameMap)
if(id == pair.first)
return pair.second;
return {};
}
decltype(ircd::db::ticker_max)
ircd::db::ticker_max
{
rocksdb::TICKER_ENUM_MAX
};
//
// histogram
//
const struct ircd::db::histogram &
ircd::db::histogram(const database &d,
const string_view &key)
{
return histogram(d, histogram_id(key));
}
const struct ircd::db::histogram &
ircd::db::histogram(const database &d,
const uint32_t &id)
{
return d.stats->histogram.at(id);
}
uint32_t
ircd::db::histogram_id(const string_view &key)
{
for(const auto &pair : rocksdb::HistogramsNameMap)
if(key == pair.second)
return pair.first;
throw std::out_of_range
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{
"No histogram with that key"
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};
}
ircd::string_view
ircd::db::histogram_id(const uint32_t &id)
{
for(const auto &pair : rocksdb::HistogramsNameMap)
if(id == pair.first)
return pair.second;
return {};
}
decltype(ircd::db::histogram_max)
ircd::db::histogram_max
{
rocksdb::HISTOGRAM_ENUM_MAX
};
///////////////////////////////////////////////////////////////////////////////
//
// db/prefetcher.h
//
decltype(ircd::db::prefetcher)
ircd::db::prefetcher;
//
// db::prefetcher
//
ircd::db::prefetcher::prefetcher()
:ticker
{
std::make_unique<struct ticker>()
}
,context
{
"db.prefetcher",
256_KiB,
context::POST,
std::bind(&prefetcher::worker, this)
}
{
}
ircd::db::prefetcher::~prefetcher()
noexcept
{
while(!queue.empty())
{
log::warning
{
log, "Prefetcher waiting for %zu requests to clear...",
queue.size(),
};
dock.wait_for(seconds(5), [this]
{
return queue.empty();
});
}
assert(queue.empty());
}
bool
ircd::db::prefetcher::operator()(column &c,
const string_view &key,
const gopts &opts)
{
auto &d
{
static_cast<database &>(c)
};
assert(ticker);
ticker->queries++;
if(db::cached(c, key, opts))
{
ticker->rejects++;
return false;
}
queue.emplace_back(d, c, key);
queue.back().snd = now<steady_point>();
ticker->request++;
// Branch here based on whether it's not possible to directly dispatch
// a db::request worker. If all request workers are busy we notify our own
// prefetcher worker, and then it blocks on submitting to the request
// worker instead of us blocking here. This is done to avoid use and growth
// of any request pool queue, and allow for more direct submission.
if(db::request.wouldblock())
{
dock.notify_one();
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// If the user sets NO_BLOCKING we honor their request to not
// context switch for a prefetch. However by default we want to
// control queue growth, so we insert voluntary yield here to allow
// prefetch operations to at least be processed before returning to
// the user submitting more prefetches.
if(likely(!test(opts, db::get::NO_BLOCKING)))
ctx::yield();
return true;
}
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const ctx::critical_assertion ca;
ticker->directs++;
this->handle();
return true;
}
size_t
ircd::db::prefetcher::cancel(column &c)
{
return cancel([&c]
(const auto &request)
{
return request.cid == id(c);
});
}
size_t
ircd::db::prefetcher::cancel(database &d)
{
return cancel([&d]
(const auto &request)
{
return request.d == std::addressof(d);
});
}
size_t
ircd::db::prefetcher::cancel(const closure &closure)
{
size_t canceled(0);
for(auto &request : queue)
{
// already finished
if(request.fin != steady_point::min())
continue;
// in progress; can't cancel
if(request.req != steady_point::min())
continue;
// allow user to accept or reject
if(!closure(request))
continue;
// cancel by precociously setting the finish time.
request.fin = now<steady_point>();
++canceled;
}
if(canceled)
dock.notify_all();
assert(ticker);
ticker->cancels += canceled;
return canceled;
}
void
ircd::db::prefetcher::worker()
try
{
while(1)
{
dock.wait([this]
{
if(queue.empty())
return false;
assert(ticker);
if(ticker->request <= ticker->handles)
return false;
return true;
});
handle();
}
}
catch(const std::exception &e)
{
log::critical
{
log, "prefetcher worker: %s",
e.what()
};
}
void
ircd::db::prefetcher::handle()
{
auto handler
{
std::bind(&prefetcher::request_worker, this)
};
ticker->handles++;
db::request(std::move(handler));
ticker->handled++;
}
void
ircd::db::prefetcher::request_worker()
{
const ctx::scope_notify notify
{
this->dock
};
const scope_count request_workers
{
this->request_workers
};
// Garbage collection of the queue invoked unconditionally on unwind.
const unwind cleanup_on_leave
{
std::bind(&prefetcher::request_cleanup, this)
};
// GC the queue here to get rid of any cancelled requests which have
// arrived at the front so they don't become our request.
const size_t cleanup_on_enter
{
request_cleanup()
};
// Find the first request in the queue which does not have its req
// timestamp sent.
auto request
{
std::find_if(begin(queue), end(queue), []
(const auto &request)
{
return request.req == steady_point::min();
})
};
if(request == end(queue))
return;
assert(ticker);
assert(request->fin == steady_point::min());
request->req = now<steady_point>();
ticker->last_snd_req = duration_cast<microseconds>(request->req - request->snd);
static_cast<microseconds &>(ticker->accum_snd_req) += ticker->last_snd_req;
ticker->fetches++;
request_handle(*request);
assert(request->fin != steady_point::min());
ticker->fetched++;
#ifdef IRCD_DB_DEBUG_PREFETCH
log::debug
{
log, "prefetcher reject:%zu request:%zu handle:%zu fetch:%zu direct:%zu cancel:%zu queue:%zu rw:%zu",
ticker->rejects,
ticker->request,
ticker->handles,
ticker->fetches,
ticker->directs,
ticker->cancels,
queue.size(),
this->request_workers,
};
#endif
}
size_t
ircd::db::prefetcher::request_cleanup()
noexcept
{
size_t removed(0);
const ctx::critical_assertion ca;
for(; !queue.empty() && queue.front().fin != steady_point::min(); ++removed)
queue.pop_front();
return removed;
}
void
ircd::db::prefetcher::request_handle(request &request)
try
{
assert(request.d);
db::column column
{
(*request.d)[request.cid]
};
const string_view key
{
request
};
const auto it
{
seek(column, key, gopts{})
};
const ctx::critical_assertion ca;
request.fin = now<steady_point>();
ticker->last_req_fin = duration_cast<microseconds>(request.fin - request.req);
static_cast<microseconds &>(ticker->accum_req_fin) += ticker->last_req_fin;
const bool lte
{
valid_lte(*it, key)
};
if(likely(lte))
{
ticker->fetched_bytes_key += size(it->key());
ticker->fetched_bytes_val += size(it->value());
}
#ifdef IRCD_DB_DEBUG_PREFETCH
char pbuf[3][32];
log::debug
{
log, "[%s][%s] completed prefetch len:%zu lte:%b k:%zu v:%zu snd-req:%s req-fin:%s snd-fin:%s queue:%zu",
name(*request.d),
name(column),
size(key),
lte,
lte? size(it->key()) : 0UL,
lte? size(it->value()) : 0UL,
pretty(pbuf[0], request.req - request.snd, 1),
pretty(pbuf[1], request.fin - request.req, 1),
pretty(pbuf[2], request.fin - request.snd, 1),
queue.size(),
};
#endif
}
catch(const std::exception &e)
{
assert(request.d);
request.fin = now<steady_point>();
log::error
{
log, "[%s][%u] :%s",
name(*request.d),
request.cid,
e.what(),
};
}
catch(...)
{
request.fin = now<steady_point>();
throw;
}
size_t
ircd::db::prefetcher::wait_pending()
{
const size_t fetched_counter
{
ticker->fetched
};
const size_t fetched_target
{
fetched_counter + request_workers
};
dock.wait([this, &fetched_target]
{
return this->ticker->fetched >= fetched_target;
});
assert(fetched_target >= fetched_counter);
return fetched_target - fetched_counter;
}
//
// prefetcher::request
//
ircd::db::prefetcher::request::request(database &d,
const column &c,
const string_view &key)
noexcept
:d
{
std::addressof(d)
}
,cid
{
db::id(c)
}
,len
{
uint32_t(std::min(size(key), sizeof(this->key)))
}
,snd
{
steady_point::min()
}
,req
{
steady_point::min()
}
,fin
{
steady_point::min()
}
{
const size_t &len
{
buffer::copy(this->key, key)
};
assert(this->len == len);
}
ircd::db::prefetcher::request::operator
ircd::string_view()
const noexcept
{
return
{
key, len
};
}
//
// prefetcher::ticker
//
ircd::db::prefetcher::ticker::ticker()
:queries
{
{ "name", "ircd.db.prefetch.queries" },
}
,rejects
{
{ "name", "ircd.db.prefetch.rejects" },
}
,request
{
{ "name", "ircd.db.prefetch.request" },
}
,directs
{
{ "name", "ircd.db.prefetch.directs" },
}
,handles
{
{ "name", "ircd.db.prefetch.handles" },
}
,handled
{
{ "name", "ircd.db.prefetch.handled" },
}
,fetches
{
{ "name", "ircd.db.prefetch.fetches" },
}
,fetched
{
{ "name", "ircd.db.prefetch.fetched" },
}
,cancels
{
{ "name", "ircd.db.prefetch.cancels" },
}
,fetched_bytes_key
{
{ "name", "ircd.db.prefetch.fetched_bytes_key" },
}
,fetched_bytes_val
{
{ "name", "ircd.db.prefetch.fetched_bytes_val" },
}
,last_snd_req
{
{ "name", "ircd.db.prefetch.last_snd_req" },
}
,last_req_fin
{
{ "name", "ircd.db.prefetch.last_req_fin" },
}
,accum_snd_req
{
{ "name", "ircd.db.prefetch.accum_snd_req" },
}
,accum_req_fin
{
{ "name", "ircd.db.prefetch.accum_req_fin" },
}
{
}
///////////////////////////////////////////////////////////////////////////////
//
// db/txn.h
//
void
ircd::db::get(database &d,
const uint64_t &seq,
const seq_closure &closure)
{
for_each(d, seq, seq_closure_bool{[&closure]
(txn &txn, const uint64_t &seq)
{
closure(txn, seq);
return false;
}});
}
void
ircd::db::for_each(database &d,
const uint64_t &seq,
const seq_closure &closure)
{
for_each(d, seq, seq_closure_bool{[&closure]
(txn &txn, const uint64_t &seq)
{
closure(txn, seq);
return true;
}});
}
bool
ircd::db::for_each(database &d,
const uint64_t &seq,
const seq_closure_bool &closure)
{
std::unique_ptr<rocksdb::TransactionLogIterator> tit;
{
const ctx::uninterruptible ui;
throw_on_error
{
d.d->GetUpdatesSince(seq, &tit)
};
}
assert(bool(tit));
for(; tit->Valid(); tit->Next())
{
const ctx::uninterruptible ui;
auto batchres
{
tit->GetBatch()
};
throw_on_error
{
tit->status()
};
db::txn txn
{
d, std::move(batchres.writeBatchPtr)
};
assert(bool(txn.wb));
if(!closure(txn, batchres.sequence))
return false;
}
return true;
}
ircd::string_view
ircd::db::debug(const mutable_buffer &buf,
database &d,
const rocksdb::WriteBatch &wb_,
const ulong &fmt)
{
auto &wb
{
mutable_cast(wb_)
};
txn t
{
d, std::unique_ptr<rocksdb::WriteBatch>{&wb}
};
const unwind release
{
std::bind(&txn::release, &t)
};
return debug(buf, t, fmt);
}
ircd::string_view
ircd::db::debug(const mutable_buffer &buf,
const txn &t,
const ulong &fmt)
{
size_t len(0);
if(fmt >= 0)
{
const rocksdb::WriteBatch &wb(t);
len += size(db::debug(buf, wb));
}
if(fmt == 1)
{
for_each(t, [&buf, &len]
(const delta &d)
{
char pbuf[2][64];
len += copy(buf + len, '\n');
len += fmt::sprintf
{
buf + len, "%18s %-12s | [%s...] %-20s => [%s...] %-20s",
std::get<delta::COL>(d),
reflect(std::get<delta::OP>(d)),
"????????"_sv, //std::get<d.KEY>(d),
pretty(pbuf[0], iec(size(std::get<delta::KEY>(d)))),
"????????"_sv, //std::get<d.VAL>(d),
pretty(pbuf[1], iec(size(std::get<delta::VAL>(d)))),
};
});
len += copy(buf + len, '\n');
}
return string_view
{
data(buf), len
};
}
void
ircd::db::for_each(const txn &t,
const delta_closure &closure)
{
const auto re{[&closure]
(const delta &delta)
{
closure(delta);
return true;
}};
const database &d(t);
const rocksdb::WriteBatch &wb(t);
txn::handler h{d, re};
wb.Iterate(&h);
}
bool
ircd::db::for_each(const txn &t,
const delta_closure_bool &closure)
{
const database &d(t);
const rocksdb::WriteBatch &wb(t);
txn::handler h{d, closure};
wb.Iterate(&h);
return h._continue;
}
///
/// handler (db/database/txn.h)
///
rocksdb::Status
ircd::db::txn::handler::PutCF(const uint32_t cfid,
const Slice &key,
const Slice &val)
noexcept
{
return callback(cfid, op::SET, key, val);
}
rocksdb::Status
ircd::db::txn::handler::DeleteCF(const uint32_t cfid,
const Slice &key)
noexcept
{
return callback(cfid, op::DELETE, key, {});
}
rocksdb::Status
ircd::db::txn::handler::DeleteRangeCF(const uint32_t cfid,
const Slice &begin,
const Slice &end)
noexcept
{
return callback(cfid, op::DELETE_RANGE, begin, end);
}
rocksdb::Status
ircd::db::txn::handler::SingleDeleteCF(const uint32_t cfid,
const Slice &key)
noexcept
{
return callback(cfid, op::SINGLE_DELETE, key, {});
}
rocksdb::Status
ircd::db::txn::handler::MergeCF(const uint32_t cfid,
const Slice &key,
const Slice &value)
noexcept
{
return callback(cfid, op::MERGE, key, value);
}
rocksdb::Status
ircd::db::txn::handler::MarkBeginPrepare(bool b)
noexcept
{
ircd::not_implemented{};
return Status::OK();
}
rocksdb::Status
ircd::db::txn::handler::MarkEndPrepare(const Slice &xid)
noexcept
{
ircd::not_implemented{};
return Status::OK();
}
rocksdb::Status
ircd::db::txn::handler::MarkCommit(const Slice &xid)
noexcept
{
ircd::not_implemented{};
return Status::OK();
}
rocksdb::Status
ircd::db::txn::handler::MarkRollback(const Slice &xid)
noexcept
{
ircd::not_implemented{};
return Status::OK();
}
rocksdb::Status
ircd::db::txn::handler::callback(const uint32_t &cfid,
const op &op,
const Slice &a,
const Slice &b)
noexcept try
{
auto &c{d[cfid]};
const delta delta
{
op,
db::name(c),
slice(a),
slice(b)
};
return callback(delta);
}
catch(const std::exception &e)
{
_continue = false;
log::critical
{
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log, "txn::handler: cfid[%u]: %s",
cfid,
e.what()
};
ircd::terminate();
__builtin_unreachable();
}
rocksdb::Status
ircd::db::txn::handler::callback(const delta &delta)
noexcept try
{
_continue = cb(delta);
return Status::OK();
}
catch(const std::exception &e)
{
_continue = false;
return Status::OK();
}
bool
ircd::db::txn::handler::Continue()
noexcept
{
return _continue;
}
//
// txn
//
ircd::db::txn::txn(database &d)
:txn{d, opts{}}
{
}
ircd::db::txn::txn(database &d,
const opts &opts)
:d{&d}
,wb
{
std::make_unique<rocksdb::WriteBatch>(opts.reserve_bytes, opts.max_bytes)
}
{
}
ircd::db::txn::txn(database &d,
std::unique_ptr<rocksdb::WriteBatch> &&wb)
:d{&d}
,wb{std::move(wb)}
{
}
ircd::db::txn::~txn()
noexcept
{
}
void
ircd::db::txn::operator()(const sopts &opts)
{
assert(bool(d));
operator()(*d, opts);
}
void
ircd::db::txn::operator()(database &d,
const sopts &opts)
{
assert(bool(wb));
assert(this->state == state::BUILD);
this->state = state::COMMIT;
commit(d, *wb, opts);
this->state = state::COMMITTED;
}
void
ircd::db::txn::clear()
{
assert(bool(wb));
wb->Clear();
this->state = state::BUILD;
}
size_t
ircd::db::txn::size()
const
{
assert(bool(wb));
return wb->Count();
}
size_t
ircd::db::txn::bytes()
const
{
assert(bool(wb));
return wb->GetDataSize();
}
bool
ircd::db::txn::has(const op &op)
const
{
assert(bool(wb));
switch(op)
{
case op::GET: assert(0); return false;
case op::SET: return wb->HasPut();
case op::MERGE: return wb->HasMerge();
case op::DELETE: return wb->HasDelete();
case op::DELETE_RANGE: return wb->HasDeleteRange();
case op::SINGLE_DELETE: return wb->HasSingleDelete();
}
return false;
}
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bool
ircd::db::txn::has(const op &op,
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const string_view &col)
const
{
return !for_each(*this, delta_closure_bool{[&op, &col]
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(const auto &delta)
{
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return std::get<delta::OP>(delta) != op &&
std::get<delta::COL>(delta) != col;
}});
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}
void
ircd::db::txn::at(const op &op,
const string_view &col,
const delta_closure &closure)
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const
{
if(!get(op, col, closure))
throw not_found
{
"db::txn::at(%s, %s): no matching delta in transaction",
reflect(op),
col
};
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}
bool
ircd::db::txn::get(const op &op,
const string_view &col,
const delta_closure &closure)
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const
{
return !for_each(*this, delta_closure_bool{[&op, &col, &closure]
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(const delta &delta)
{
if(std::get<delta::OP>(delta) == op &&
std::get<delta::COL>(delta) == col)
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{
closure(delta);
return false;
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}
else return true;
}});
}
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bool
ircd::db::txn::has(const op &op,
const string_view &col,
const string_view &key)
const
{
return !for_each(*this, delta_closure_bool{[&op, &col, &key]
(const auto &delta)
{
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return std::get<delta::OP>(delta) != op &&
std::get<delta::COL>(delta) != col &&
std::get<delta::KEY>(delta) != key;
}});
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}
void
ircd::db::txn::at(const op &op,
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const string_view &col,
const string_view &key,
const value_closure &closure)
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const
{
if(!get(op, col, key, closure))
throw not_found
{
"db::txn::at(%s, %s, %s): no matching delta in transaction",
reflect(op),
col,
key
};
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}
bool
ircd::db::txn::get(const op &op,
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const string_view &col,
const string_view &key,
const value_closure &closure)
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const
{
return !for_each(*this, delta_closure_bool{[&op, &col, &key, &closure]
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(const delta &delta)
{
if(std::get<delta::OP>(delta) == op &&
std::get<delta::COL>(delta) == col &&
std::get<delta::KEY>(delta) == key)
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{
closure(std::get<delta::VAL>(delta));
return false;
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}
else return true;
}});
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}
ircd::db::txn::operator
ircd::db::database &()
{
assert(bool(d));
return *d;
}
ircd::db::txn::operator
rocksdb::WriteBatch &()
{
assert(bool(wb));
return *wb;
}
ircd::db::txn::operator
const ircd::db::database &()
const
{
assert(bool(d));
return *d;
}
ircd::db::txn::operator
const rocksdb::WriteBatch &()
const
{
assert(bool(wb));
return *wb;
}
//
// txn::checkpoint
//
ircd::db::txn::checkpoint::checkpoint(txn &t)
:t{t}
{
assert(bool(t.wb));
t.wb->SetSavePoint();
}
ircd::db::txn::checkpoint::~checkpoint()
noexcept
{
const ctx::uninterruptible ui;
if(likely(!std::uncaught_exceptions()))
throw_on_error { t.wb->PopSavePoint() };
else
throw_on_error { t.wb->RollbackToSavePoint() };
}
//
// txn::append
//
ircd::db::txn::append::append(txn &t,
const string_view &key,
const json::iov &iov)
{
std::for_each(std::begin(iov), std::end(iov), [&t, &key]
(const auto &member)
{
append
{
t, delta
{
member.first, // col
key, // key
member.second // val
}
};
});
}
ircd::db::txn::append::append(txn &t,
const delta &delta)
{
assert(bool(t.d));
append(t, *t.d, delta);
}
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__attribute__((noreturn))
ircd::db::txn::append::append(txn &t,
const row::delta &delta)
{
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throw ircd::not_implemented
{
"db::txn::append (row::delta)"
};
}
ircd::db::txn::append::append(txn &t,
const cell::delta &delta)
{
db::append(*t.wb, delta);
}
ircd::db::txn::append::append(txn &t,
column &c,
const column::delta &delta)
{
db::append(*t.wb, c, delta);
}
ircd::db::txn::append::append(txn &t,
database &d,
const delta &delta)
{
db::column c
{
d[std::get<1>(delta)]
};
db::append(*t.wb, c, db::column::delta
{
std::get<op>(delta),
std::get<2>(delta),
std::get<3>(delta)
});
}
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///////////////////////////////////////////////////////////////////////////////
//
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// db/row.h
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//
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namespace ircd::db
{
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static std::vector<rocksdb::Iterator *>
_make_iterators(database &d,
database::column *const *const &columns,
const size_t &columns_size,
const rocksdb::ReadOptions &opts);
}
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void
ircd::db::del(row &row,
const sopts &sopts)
{
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write(row::delta{op::DELETE, row}, sopts);
}
void
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ircd::db::write(const row::delta &delta,
const sopts &sopts)
{
write(&delta, &delta + 1, sopts);
}
void
ircd::db::write(const sopts &sopts,
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const std::initializer_list<row::delta> &deltas)
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{
write(deltas, sopts);
}
void
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ircd::db::write(const std::initializer_list<row::delta> &deltas,
const sopts &sopts)
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{
write(std::begin(deltas), std::end(deltas), sopts);
}
void
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ircd::db::write(const row::delta *const &begin,
const row::delta *const &end,
const sopts &sopts)
{
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// Count the total number of cells for this transaction.
const auto cells
{
std::accumulate(begin, end, size_t(0), []
(auto ret, const row::delta &delta)
{
const auto &row(std::get<row *>(delta));
return ret += row->size();
})
};
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//TODO: allocator?
std::vector<cell::delta> deltas;
deltas.reserve(cells);
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// Compose all of the cells from all of the rows into a single txn
std::for_each(begin, end, [&deltas]
(const auto &delta)
{
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const auto &op(std::get<op>(delta));
const auto &row(std::get<row *>(delta));
std::for_each(std::begin(*row), std::end(*row), [&deltas, &op]
(auto &cell)
{
// For operations like DELETE which don't require a value in
// the delta, we can skip a potentially expensive load of the cell.
const auto value
{
value_required(op)? cell.val() : string_view{}
};
deltas.emplace_back(op, cell, value);
});
});
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// Commitment
write(&deltas.front(), &deltas.front() + deltas.size(), sopts);
}
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size_t
ircd::db::seek(row &r,
const string_view &key,
const gopts &opts)
{
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// The following closure performs the seek() for a single cell in the row.
// It may be executed on another ircd::ctx if the data isn't cached and
// blocking IO is required. This frame can't be interrupted because it may
// have requests pending in the request pool which must synchronize back
// here.
size_t ret{0};
std::exception_ptr eptr;
ctx::latch latch{r.size()};
const ctx::uninterruptible ui;
const auto closure{[&opts, &latch, &ret, &key, &eptr]
(auto &cell) noexcept
{
// If there's a pending error from another cell by the time this
// closure is executed we don't perform the seek() unless the user
// specifies db::get::NO_THROW to suppress it.
if(!eptr || test(opts, get::NO_THROW)) try
{
if(!seek(cell, key))
{
// If the cell is not_found that's not a thrown exception here;
// the cell will just be !valid(). The user can specify
// get::THROW to propagate a not_found from the seek(row);
if(test(opts, get::THROW))
throw not_found
{
"column '%s' key '%s'", cell.col(), key
};
}
else ++ret;
}
catch(const not_found &e)
{
eptr = std::current_exception();
}
catch(const std::exception &e)
{
log::error
{
log, "row seek: column '%s' key '%s' :%s",
cell.col(),
key,
e.what()
};
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eptr = std::make_exception_ptr(e);
}
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// The latch must always be hit here. No exception should propagate
// to prevent this from being reached or beyond.
latch.count_down();
}};
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#ifdef RB_DEBUG_DB_SEEK_ROW
const ircd::timer timer;
size_t submits{0};
#endif
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// Submit all the requests
for(auto &cell : r)
{
db::column &column(cell);
const auto reclosure{[&closure, &cell]
() noexcept
{
closure(cell);
}};
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// Whether to submit the request to another ctx or execute it here.
// Explicit option to prevent submitting must not be set. If there
// is a chance the data is already in the cache, we can avoid the
// context switching and occupation of the request pool.
//TODO: should check a bloom filter on the cache for this branch
//TODO: because right now double-querying the cache is gross.
const bool submit
{
r.size() > 1 &&
!test(opts, get::NO_PARALLEL) &&
!db::cached(column, key, opts)
};
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#ifdef RB_DEBUG_DB_SEEK_ROW
submits += submit;
#endif
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if(submit)
request(reclosure);
else
reclosure();
}
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// Wait for responses.
latch.wait();
assert(ret <= r.size());
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#ifdef RB_DEBUG_DB_SEEK_ROW
if(likely(!r.empty()))
{
const column &c(r[0]);
const database &d(c);
thread_local char tmbuf[32];
log::debug
{
log, "'%s' SEEK ROW seq:%lu:%-10lu cnt:%-2zu req:%-2zu ret:%-2zu in %s %s",
name(d),
sequence(d),
sequence(opts.snapshot),
r.size(),
submits,
ret,
pretty(tmbuf, timer.at<microseconds>(), true),
what(eptr)
};
}
#endif
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if(eptr && !test(opts, get::NO_THROW))
std::rethrow_exception(eptr);
return ret;
}
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//
// row
//
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wstack-usage="
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__attribute__((stack_protect))
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ircd::db::row::row(database &d,
const string_view &key,
const vector_view<const string_view> &colnames,
const vector_view<cell> &buf,
gopts opts)
:vector_view<cell>{[&d, &colnames, &buf, &opts]
{
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using std::end;
using std::begin;
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if(!opts.snapshot)
opts.snapshot = database::snapshot(d);
const rocksdb::ReadOptions options
{
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make_opts(opts)
};
assert(buf.size() >= colnames.size());
const size_t request_count
{
std::min(colnames.size(), buf.size())
};
size_t count(0);
database::column *colptr[request_count];
for(size_t i(0); i < request_count; ++i)
{
const auto cfid
{
d.cfid(std::nothrow, colnames.at(i))
};
if(cfid >= 0)
colptr[count++] = &d[cfid];
}
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// All pointers returned by rocksdb in this vector must be free'd.
const auto iterators
{
_make_iterators(d, colptr, count, options)
};
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assert(iterators.size() == count);
for(size_t i(0); i < iterators.size(); ++i)
{
std::unique_ptr<rocksdb::Iterator> it
{
iterators.at(i)
};
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buf[i] = cell
{
*colptr[i], std::move(it), opts
};
}
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return vector_view<cell>
{
buf.data(), iterators.size()
};
}()}
{
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if(key)
seek(*this, key, opts);
}
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#pragma GCC diagnostic pop
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static std::vector<rocksdb::Iterator *>
ircd::db::_make_iterators(database &d,
database::column *const *const &column,
const size_t &column_count,
const rocksdb::ReadOptions &opts)
{
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using rocksdb::Iterator;
using rocksdb::ColumnFamilyHandle;
assert(column_count <= d.columns.size());
//const ctx::critical_assertion ca;
// NewIterators() has been seen to lead to IO and block the ircd::ctx;
// specifically when background options are aggressive and shortly
// after db opens. It would be nice if we could maintain the
// critical_assertion for this function, as we could eliminate the
// vector allocation for ColumnFamilyHandle pointers.
std::vector<ColumnFamilyHandle *> handles(column_count);
std::transform(column, column + column_count, begin(handles), []
(database::column *const &ptr)
{
assert(ptr);
return ptr->handle.get();
});
std::vector<Iterator *> ret;
const ctx::stack_usage_assertion sua;
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throw_on_error
{
d.d->NewIterators(opts, handles, &ret)
};
return ret;
}
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void
ircd::db::row::operator()(const op &op,
const string_view &col,
const string_view &val,
const sopts &sopts)
{
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write(cell::delta{op, (*this)[col], val}, sopts);
}
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ircd::db::cell &
ircd::db::row::operator[](const string_view &column)
{
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const auto it(find(column));
if(unlikely(it == end()))
throw not_found
{
"column '%s' not specified in the descriptor schema", column
};
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return *it;
}
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const ircd::db::cell &
ircd::db::row::operator[](const string_view &column)
const
{
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const auto it(find(column));
if(unlikely(it == end()))
throw not_found
{
"column '%s' not specified in the descriptor schema", column
};
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return *it;
}
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ircd::db::row::iterator
ircd::db::row::find(const string_view &col)
{
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return std::find_if(std::begin(*this), std::end(*this), [&col]
(const auto &cell)
{
return name(cell.c) == col;
});
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}
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ircd::db::row::const_iterator
ircd::db::row::find(const string_view &col)
const
{
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return std::find_if(std::begin(*this), std::end(*this), [&col]
(const auto &cell)
{
return name(cell.c) == col;
});
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}
bool
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ircd::db::row::cached()
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const
{
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return std::all_of(std::begin(*this), std::end(*this), []
(const auto &cell)
{
db::column &column(mutable_cast(cell));
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return cell.valid() && db::cached(column, cell.key());
});
}
bool
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ircd::db::row::cached(const string_view &key)
const
{
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return std::all_of(std::begin(*this), std::end(*this), [&key]
(const auto &cell)
{
db::column &column(mutable_cast(cell));
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return db::cached(column, key);
});
}
bool
ircd::db::row::valid_all(const string_view &s)
const
{
return !empty() && std::all_of(std::begin(*this), std::end(*this), [&s]
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(const auto &cell)
{
return cell.valid(s);
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});
}
bool
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ircd::db::row::valid(const string_view &s)
const
{
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return std::any_of(std::begin(*this), std::end(*this), [&s]
(const auto &cell)
{
return cell.valid(s);
});
}
bool
ircd::db::row::valid_all()
const
{
return !empty() && std::all_of(std::begin(*this), std::end(*this), []
(const auto &cell)
{
return cell.valid();
});
}
bool
ircd::db::row::valid()
const
{
return std::any_of(std::begin(*this), std::end(*this), []
(const auto &cell)
{
return cell.valid();
});
}
///////////////////////////////////////////////////////////////////////////////
//
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// db/cell.h
//
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uint64_t
ircd::db::sequence(const cell &c)
{
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const database::snapshot &ss(c);
return sequence(database::snapshot(c));
}
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const std::string &
ircd::db::name(const cell &c)
{
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return name(c.c);
}
void
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ircd::db::write(const cell::delta &delta,
const sopts &sopts)
{
write(&delta, &delta + 1, sopts);
}
void
ircd::db::write(const sopts &sopts,
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const std::initializer_list<cell::delta> &deltas)
{
write(deltas, sopts);
}
void
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ircd::db::write(const std::initializer_list<cell::delta> &deltas,
const sopts &sopts)
{
write(std::begin(deltas), std::end(deltas), sopts);
}
void
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ircd::db::write(const cell::delta *const &begin,
const cell::delta *const &end,
const sopts &sopts)
{
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if(begin == end)
return;
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// Find the database through one of the cell's columns. cell::deltas
// may come from different columns so we do nothing else with this.
auto &front(*begin);
column &c(std::get<cell *>(front)->c);
database &d(c);
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rocksdb::WriteBatch batch;
std::for_each(begin, end, [&batch]
(const cell::delta &delta)
{
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append(batch, delta);
});
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commit(d, batch, sopts);
}
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template<class pos>
bool
ircd::db::seek(cell &c,
const pos &p,
gopts opts)
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{
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column &cc(c);
database::column &dc(cc);
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if(!opts.snapshot)
opts.snapshot = c.ss;
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const auto ropts(make_opts(opts));
return seek(dc, p, ropts, c.it);
}
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template bool ircd::db::seek<ircd::db::pos>(cell &, const pos &, gopts);
template bool ircd::db::seek<ircd::string_view>(cell &, const string_view &, gopts);
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// Linkage for incomplete rocksdb::Iterator
ircd::db::cell::cell()
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{
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}
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ircd::db::cell::cell(database &d,
const string_view &colname,
const gopts &opts)
:cell
{
column(d[colname]), std::unique_ptr<rocksdb::Iterator>{}, opts
}
{
}
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ircd::db::cell::cell(database &d,
const string_view &colname,
const string_view &index,
const gopts &opts)
:cell
{
column(d[colname]), index, opts
}
{
}
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ircd::db::cell::cell(column column,
const string_view &index,
const gopts &opts)
:c{std::move(column)}
,ss{opts.snapshot}
,it
{
!index.empty()?
seek(this->c, index, opts):
std::unique_ptr<rocksdb::Iterator>{}
}
{
if(bool(this->it))
if(!valid_eq(*this->it, index))
this->it.reset();
}
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ircd::db::cell::cell(column column,
const string_view &index,
std::unique_ptr<rocksdb::Iterator> it,
const gopts &opts)
:c{std::move(column)}
,ss{opts.snapshot}
,it{std::move(it)}
{
if(index.empty())
return;
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seek(*this, index, opts);
if(!valid_eq(*this->it, index))
this->it.reset();
}
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ircd::db::cell::cell(column column,
std::unique_ptr<rocksdb::Iterator> it,
const gopts &opts)
:c{std::move(column)}
,ss{opts.snapshot}
,it{std::move(it)}
{
}
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// Linkage for incomplete rocksdb::Iterator
ircd::db::cell::cell(cell &&o)
noexcept
:c{std::move(o.c)}
,ss{std::move(o.ss)}
,it{std::move(o.it)}
{
}
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// Linkage for incomplete rocksdb::Iterator
ircd::db::cell &
ircd::db::cell::operator=(cell &&o)
noexcept
{
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c = std::move(o.c);
ss = std::move(o.ss);
it = std::move(o.it);
return *this;
}
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// Linkage for incomplete rocksdb::Iterator
ircd::db::cell::~cell()
noexcept
{
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}
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bool
ircd::db::cell::load(const string_view &index,
gopts opts)
{
database &d(c);
if(valid(index) && !opts.snapshot && sequence(ss) == sequence(d))
return true;
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if(bool(opts.snapshot))
{
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this->it.reset();
this->ss = std::move(opts.snapshot);
}
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database::column &c(this->c);
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const auto _opts
{
make_opts(opts)
};
if(!seek(c, index, _opts, this->it))
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return false;
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return valid(index);
}
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ircd::db::cell &
ircd::db::cell::operator=(const string_view &s)
{
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write(c, key(), s);
return *this;
}
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void
ircd::db::cell::operator()(const op &op,
const string_view &val,
const sopts &sopts)
{
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write(cell::delta{op, *this, val}, sopts);
}
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ircd::string_view
ircd::db::cell::val()
{
if(!valid())
load();
return likely(valid())? db::val(*it) : string_view{};
}
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ircd::string_view
ircd::db::cell::key()
{
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if(!valid())
load();
return likely(valid())? db::key(*it) : string_view{};
}
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ircd::string_view
ircd::db::cell::val()
const
{
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return likely(valid())? db::val(*it) : string_view{};
}
ircd::string_view
ircd::db::cell::key()
const
{
return likely(valid())? db::key(*it) : string_view{};
}
bool
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ircd::db::cell::valid(const string_view &s)
const
{
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return valid() && db::valid_eq(*it, s);
}
bool
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ircd::db::cell::valid_gt(const string_view &s)
const
{
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return valid() && db::valid_gt(*it, s);
}
bool
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ircd::db::cell::valid_lte(const string_view &s)
const
{
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return valid() && db::valid_lte(*it, s);
}
bool
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ircd::db::cell::valid()
const
{
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return bool(it) && db::valid(*it);
}
///////////////////////////////////////////////////////////////////////////////
//
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// db/domain.h
//
const ircd::db::gopts
ircd::db::domain::applied_opts
{
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get::PREFIX
};
bool
ircd::db::seek(domain::const_iterator_base &it,
const pos &p)
{
switch(p)
{
case pos::BACK:
{
// This is inefficient as per RocksDB's prefix impl. unknown why
// a seek to NEXT is still needed after walking back one.
while(seek(it, pos::NEXT));
if(seek(it, pos::PREV))
seek(it, pos::NEXT);
return bool(it);
}
default:
break;
}
it.opts |= domain::applied_opts;
return seek(static_cast<column::const_iterator_base &>(it), p);
}
bool
ircd::db::seek(domain::const_iterator_base &it,
const string_view &p)
{
it.opts |= domain::applied_opts;
return seek(static_cast<column::const_iterator_base &>(it), p);
}
ircd::db::domain::const_iterator
ircd::db::domain::begin(const string_view &key,
gopts opts)
{
const_iterator ret
{
c, {}, std::move(opts)
};
seek(ret, key);
return ret;
}
ircd::db::domain::const_iterator
ircd::db::domain::end(const string_view &key,
gopts opts)
{
const_iterator ret
{
c, {}, std::move(opts)
};
if(seek(ret, key))
seek(ret, pos::END);
return ret;
}
/// NOTE: RocksDB says they don't support reverse iteration over a prefix range
/// This means we have to forward scan to the end and then walk back! Reverse
/// iterations of a domain should only be used for debugging and statistics! The
/// domain should be ordered the way it will be primarily accessed using the
/// comparator. If it will be accessed in different directions, make another
/// domain column.
ircd::db::domain::const_reverse_iterator
ircd::db::domain::rbegin(const string_view &key,
gopts opts)
{
const_reverse_iterator ret
{
c, {}, std::move(opts)
};
if(seek(ret, key))
seek(ret, pos::BACK);
return ret;
}
ircd::db::domain::const_reverse_iterator
ircd::db::domain::rend(const string_view &key,
gopts opts)
{
const_reverse_iterator ret
{
c, {}, std::move(opts)
};
if(seek(ret, key))
seek(ret, pos::END);
return ret;
}
//
// const_iterator
//
ircd::db::domain::const_iterator &
ircd::db::domain::const_iterator::operator--()
{
if(likely(bool(*this)))
seek(*this, pos::PREV);
else
seek(*this, pos::BACK);
return *this;
}
ircd::db::domain::const_iterator &
ircd::db::domain::const_iterator::operator++()
{
if(likely(bool(*this)))
seek(*this, pos::NEXT);
else
seek(*this, pos::FRONT);
return *this;
}
ircd::db::domain::const_reverse_iterator &
ircd::db::domain::const_reverse_iterator::operator--()
{
if(likely(bool(*this)))
seek(*this, pos::NEXT);
else
seek(*this, pos::FRONT);
return *this;
}
ircd::db::domain::const_reverse_iterator &
ircd::db::domain::const_reverse_iterator::operator++()
{
if(likely(bool(*this)))
seek(*this, pos::PREV);
else
seek(*this, pos::BACK);
return *this;
}
const ircd::db::domain::const_iterator_base::value_type &
ircd::db::domain::const_iterator_base::operator*()
const
{
const auto &prefix
{
describe(*c).prefix
};
// Fetch the full value like a standard column first
column::const_iterator_base::operator*();
string_view &key{val.first};
// When there's no prefixing this domain column is just
// like a normal column. Otherwise, we remove the prefix
// from the key the user will end up seeing.
if(prefix.has && prefix.has(key))
{
const auto &first(prefix.get(key));
const auto &second(key.substr(first.size()));
key = second;
}
return val;
}
///////////////////////////////////////////////////////////////////////////////
//
// db/column.h
//
void
ircd::db::drop(column &column)
{
database::column &c(column);
drop(c);
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}
void
ircd::db::check(column &column)
{
database &d(column);
const auto &files
{
db::files(column)
};
for(const auto &file : files)
{
const auto &path
{
// remove false leading slash; the rest is relative to db.
lstrip(file, '/')
};
db::check(d, path);
}
}
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void
ircd::db::sort(column &column,
const bool &blocking,
const bool &now)
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{
database::column &c(column);
database &d(*c.d);
rocksdb::FlushOptions opts;
opts.wait = blocking;
opts.allow_write_stall = now;
const ctx::uninterruptible::nothrow ui;
const std::lock_guard lock
{
d.write_mutex
};
log::debug
{
log, "[%s]'%s' @%lu FLUSH (sort) %s %s",
name(d),
name(c),
sequence(d),
blocking? "blocking"_sv: "non-blocking"_sv,
now? "now"_sv: "later"_sv
};
throw_on_error
{
d.d->Flush(opts, c)
};
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}
void
ircd::db::compact(column &column,
const std::pair<int, int> &level,
const compactor &cb)
{
database::column &c(column);
database &d(*c.d);
const auto &dst_level{level.second};
const auto &src_level{level.first};
rocksdb::ColumnFamilyMetaData cfmd;
d.d->GetColumnFamilyMetaData(c, &cfmd);
for(const auto &level : cfmd.levels)
{
if(src_level != -1 && src_level != level.level)
continue;
if(level.files.empty())
continue;
const ctx::uninterruptible ui;
const std::lock_guard lock
{
d.write_mutex
};
const auto &to_level
{
dst_level > -1? dst_level : level.level
};
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rocksdb::CompactionOptions opts;
opts.output_file_size_limit = 1_GiB; //TODO: conf
// RocksDB sez that setting this to Disable means that the column's
// compression options are read instead. If we don't set this here,
// rocksdb defaults to "snappy" (which is strange).
opts.compression = rocksdb::kDisableCompressionOption;
std::vector<std::string> files(level.files.size());
std::transform(level.files.begin(), level.files.end(), files.begin(), []
(auto &metadata)
{
return std::move(metadata.name);
});
// Save and restore the existing filter callback so we can allow our
// caller to use theirs. Note that this manual compaction should be
// exclusive for this column (no background compaction should be
// occurring, at least one relying on this filter).
auto their_filter(std::move(c.cfilter.user));
const unwind unfilter{[&c, &their_filter]
{
c.cfilter.user = std::move(their_filter);
}};
c.cfilter.user = cb;
log::debug
{
log, "[%s]'%s' COMPACT L%d -> L%d files:%zu size:%zu",
name(d),
name(c),
level.level,
to_level,
level.files.size(),
level.size
};
throw_on_error
{
d.d->CompactFiles(opts, c, files, to_level)
};
}
}
void
ircd::db::compact(column &column,
const std::pair<string_view, string_view> &range,
const int &to_level,
const compactor &cb)
{
database &d(column);
database::column &c(column);
const ctx::uninterruptible ui;
const auto begin(slice(range.first));
const rocksdb::Slice *const b
{
empty(range.first)? nullptr : &begin
};
const auto end(slice(range.second));
const rocksdb::Slice *const e
{
empty(range.second)? nullptr : &end
};
rocksdb::CompactRangeOptions opts;
opts.exclusive_manual_compaction = true;
opts.allow_write_stall = true;
opts.change_level = true;
opts.target_level = std::max(to_level, -1);
opts.bottommost_level_compaction = rocksdb::BottommostLevelCompaction::kForce;
// Save and restore the existing filter callback so we can allow our
// caller to use theirs. Note that this manual compaction should be
// exclusive for this column (no background compaction should be
// occurring, at least one relying on this filter).
auto their_filter(std::move(c.cfilter.user));
const unwind unfilter{[&c, &their_filter]
{
c.cfilter.user = std::move(their_filter);
}};
c.cfilter.user = cb;
log::debug
{
log, "[%s]'%s' @%lu COMPACT [%s, %s] -> L:%d (Lmax:%d Lbase:%d)",
name(d),
name(c),
sequence(d),
range.first,
range.second,
opts.target_level,
d.d->NumberLevels(c),
d.d->MaxMemCompactionLevel(c),
};
throw_on_error
{
d.d->CompactRange(opts, c, b, e)
};
}
void
ircd::db::setopt(column &column,
const string_view &key,
const string_view &val)
{
database &d(column);
database::column &c(column);
const std::unordered_map<std::string, std::string> options
{
{ std::string{key}, std::string{val} }
};
throw_on_error
{
d.d->SetOptions(c, options)
};
}
void
ircd::db::ingest(column &column,
const string_view &path)
{
database &d(column);
database::column &c(column);
rocksdb::IngestExternalFileOptions opts;
opts.allow_global_seqno = true;
opts.allow_blocking_flush = true;
// Automatically determine if we can avoid issuing new sequence
// numbers by considering this ingestion as "backfill" of missing
// data which did actually exist but was physically removed.
const auto &copts{d.d->GetOptions(c)};
opts.ingest_behind = copts.allow_ingest_behind;
const std::vector<std::string> files
{
{ std::string{path} }
};
const std::lock_guard lock{d.write_mutex};
const ctx::uninterruptible::nothrow ui;
throw_on_error
{
d.d->IngestExternalFile(c, files, opts)
};
}
void
ircd::db::del(column &column,
const std::pair<string_view, string_view> &range,
const sopts &sopts)
{
database &d(column);
database::column &c(column);
auto opts(make_opts(sopts));
const std::lock_guard lock{d.write_mutex};
const ctx::uninterruptible::nothrow ui;
const ctx::stack_usage_assertion sua;
log::debug
{
log, "'%s' %lu '%s' RANGE DELETE",
name(d),
sequence(d),
name(c),
};
throw_on_error
{
d.d->DeleteRange(opts, c, slice(range.first), slice(range.second))
};
}
void
ircd::db::del(column &column,
const string_view &key,
const sopts &sopts)
{
database &d(column);
database::column &c(column);
auto opts(make_opts(sopts));
const std::lock_guard lock{d.write_mutex};
const ctx::uninterruptible::nothrow ui;
const ctx::stack_usage_assertion sua;
log::debug
{
log, "'%s' %lu '%s' DELETE key(%zu B)",
name(d),
sequence(d),
name(c),
key.size()
};
throw_on_error
{
d.d->Delete(opts, c, slice(key))
};
}
void
ircd::db::write(column &column,
const string_view &key,
const const_buffer &val,
const sopts &sopts)
{
database &d(column);
database::column &c(column);
auto opts(make_opts(sopts));
const std::lock_guard lock{d.write_mutex};
const ctx::uninterruptible::nothrow ui;
const ctx::stack_usage_assertion sua;
log::debug
{
log, "'%s' %lu '%s' PUT key(%zu B) val(%zu B)",
name(d),
sequence(d),
name(c),
size(key),
size(val)
};
throw_on_error
{
d.d->Put(opts, c, slice(key), slice(val))
};
}
uint64_t
ircd::db::read(column &column,
const keys &keys,
const bufs &bufs,
const gopts &opts)
{
const columns columns
{
&column, 1
};
return read(columns, keys, bufs, opts);
}
uint64_t
ircd::db::read(const columns &c,
const keys &key,
const bufs &buf,
const gopts &gopts)
{
if(c.empty())
return 0UL;
const auto &num
{
key.size()
};
if(unlikely(!num || num > 64 || num > buf.size()))
throw std::out_of_range
{
"db::read() :too many columns or vector size mismatch"
};
_read_op op[num];
for(size_t i(0); i < num; ++i)
op[i] =
{
c[std::min(c.size() - 1, i)], key[i]
};
uint64_t i(0), ret(0);
auto opts(make_opts(gopts));
_read({op, num}, opts, [&i, &ret, &buf]
(column &, const column::delta &d, const rocksdb::Status &s)
{
const auto &val
{
std::get<column::delta::VAL>(d)
};
buf[i] = mutable_buffer
{
buf[i], size(val)
};
const auto copied
{
copy(buf[i], val)
};
ret |= (uint64_t(s.ok()) << i++);
return true;
});
return ret;
}
std::string
ircd::db::read(column &column,
const string_view &key,
const gopts &gopts)
{
std::string ret;
const auto closure([&ret]
(const string_view &src)
{
ret.assign(begin(src), end(src));
});
column(key, closure, gopts);
return ret;
}
ircd::string_view
ircd::db::read(column &column,
const string_view &key,
const mutable_buffer &buf,
const gopts &gopts)
{
string_view ret;
const auto closure([&ret, &buf]
(const string_view &src)
{
ret = { data(buf), copy(buf, src) };
});
column(key, closure, gopts);
return ret;
}
std::string
ircd::db::read(column &column,
const string_view &key,
bool &found,
const gopts &gopts)
{
std::string ret;
const auto closure([&ret]
(const string_view &src)
{
ret.assign(begin(src), end(src));
});
found = column(key, std::nothrow, closure, gopts);
return ret;
}
ircd::string_view
ircd::db::read(column &column,
const string_view &key,
bool &found,
const mutable_buffer &buf,
const gopts &gopts)
{
string_view ret;
const auto closure([&buf, &ret]
(const string_view &src)
{
ret = { data(buf), copy(buf, src) };
});
found = column(key, std::nothrow, closure, gopts);
return ret;
}
size_t
ircd::db::bytes_value(column &column,
const string_view &key,
const gopts &gopts)
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{
size_t ret{0};
column(key, std::nothrow, gopts, [&ret]
(const string_view &value)
{
ret = value.size();
});
return ret;
}
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size_t
ircd::db::bytes(column &column,
const std::pair<string_view, string_view> &key,
const gopts &gopts)
{
database &d(column);
database::column &c(column);
const rocksdb::Range range[1]
{
{ slice(key.first), slice(key.second) }
};
uint64_t ret[1] {0};
d.d->GetApproximateSizes(c, range, 1, ret);
return ret[0];
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}
bool
ircd::db::has(column &column,
const string_view &key,
const gopts &gopts)
{
database &d(column);
database::column &c(column);
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// Perform a co-RP query to the filtration
//
// NOTE disabled for rocksdb >= v5.15 due to a regression
// where rocksdb does not init SuperVersion data in the column
// family handle and this codepath triggers null derefs and ub.
//
// NOTE works on rocksdb 6.6.4 but unconditionally copies value.
auto opts(make_opts(gopts));
if(c.table_opts.filter_policy && (false))
{
auto opts(make_opts(gopts));
const scope_restore read_tier
{
opts.read_tier, NON_BLOCKING
};
const scope_restore fill_cache
{
opts.fill_cache, false
};
std::string discard;
bool value_found {false};
const bool key_may_exist
{
d.d->KeyMayExist(opts, c, slice(key), &discard, &value_found)
};
if(!key_may_exist)
return false;
if(value_found)
return true;
}
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std::unique_ptr<rocksdb::Iterator> it;
if(!seek(c, key, opts, it))
return false;
assert(bool(it));
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return valid_eq(*it, key);
}
uint64_t
ircd::db::has(column &column,
const keys &key,
const gopts &opts)
{
const columns columns
{
&column, 1
};
return has(columns, key, opts);
}
uint64_t
ircd::db::has(const columns &c,
const keys &key,
const gopts &gopts)
{
if(c.empty())
return 0UL;
const auto &num
{
key.size()
};
if(unlikely(!num || num > 64))
throw std::out_of_range
{
"db::has() :too many columns or vector size mismatch"
};
_read_op op[num];
for(size_t i(0); i < num; ++i)
op[i] =
{
c[std::min(c.size() - 1, i)], key[i]
};
uint64_t i(0), ret(0);
auto opts(make_opts(gopts));
_read({op, num}, opts, [&i, &ret, &opts]
(column &, const column::delta &, const rocksdb::Status &s)
{
uint64_t found {0};
found |= s.ok();
found |= s.IsIncomplete() & (opts.read_tier == NON_BLOCKING);
ret |= (found << i++);
return true;
});
return ret;
}
bool
ircd::db::prefetch(column &column,
const string_view &key,
const gopts &gopts)
{
static construction instance
{
[] { prefetcher = new struct prefetcher(); }
};
assert(prefetcher);
return (*prefetcher)(column, key, gopts);
}
#if 0
bool
ircd::db::cached(column &column,
const string_view &key,
const gopts &gopts)
{
return exists(cache(column), key);
}
#endif
bool
ircd::db::cached(column &column,
const string_view &key,
const gopts &gopts)
{
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using rocksdb::Status;
auto opts(make_opts(gopts));
opts.read_tier = NON_BLOCKING;
opts.fill_cache = false;
std::unique_ptr<rocksdb::Iterator> it;
database::column &c(column);
const bool valid
{
seek(c, key, opts, it)
};
assert(it);
const auto code
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{
it->status().code()
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};
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return false
|| (valid && valid_eq(*it, key))
|| (!valid && code != rocksdb::Status::kIncomplete)
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;
}
[[gnu::hot]]
rocksdb::Cache *
ircd::db::cache(column &column)
{
database::column &c(column);
return c.table_opts.block_cache.get();
}
rocksdb::Cache *
ircd::db::cache_compressed(column &column)
{
database::column &c(column);
return c.table_opts.block_cache_compressed.get();
}
[[gnu::hot]]
const rocksdb::Cache *
ircd::db::cache(const column &column)
{
const database::column &c(column);
return c.table_opts.block_cache.get();
}
const rocksdb::Cache *
ircd::db::cache_compressed(const column &column)
{
const database::column &c(column);
return c.table_opts.block_cache_compressed.get();
}
template<>
ircd::db::prop_str
ircd::db::property(const column &column,
const string_view &name)
{
std::string ret;
database::column &c(mutable_cast(column));
database &d(mutable_cast(column));
if(!d.d->GetProperty(c, slice(name), &ret))
throw not_found
{
"'property '%s' for column '%s' in '%s' not found.",
name,
db::name(column),
db::name(d)
};
return ret;
}
template<>
ircd::db::prop_int
ircd::db::property(const column &column,
const string_view &name)
{
uint64_t ret(0);
database::column &c(mutable_cast(column));
database &d(mutable_cast(column));
if(!d.d->GetIntProperty(c, slice(name), &ret))
throw not_found
{
"property '%s' for column '%s' in '%s' not found or not an integer.",
name,
db::name(column),
db::name(d)
};
return ret;
}
template<>
ircd::db::prop_map
ircd::db::property(const column &column,
const string_view &name)
{
std::map<std::string, std::string> ret;
database::column &c(mutable_cast(column));
database &d(mutable_cast(column));
if(!d.d->GetMapProperty(c, slice(name), &ret))
ret.emplace(std::string{name}, property<std::string>(column, name));
return ret;
}
ircd::db::options
ircd::db::getopt(const column &column)
{
database &d(mutable_cast(column));
database::column &c(mutable_cast(column));
return options
{
static_cast<rocksdb::ColumnFamilyOptions>(d.d->GetOptions(c))
};
}
size_t
ircd::db::bytes(const column &column)
{
rocksdb::ColumnFamilyMetaData cfm;
database &d(mutable_cast(column));
database::column &c(mutable_cast(column));
assert(bool(c.handle));
d.d->GetColumnFamilyMetaData(c.handle.get(), &cfm);
return cfm.size;
}
size_t
ircd::db::file_count(const column &column)
{
rocksdb::ColumnFamilyMetaData cfm;
database &d(mutable_cast(column));
database::column &c(mutable_cast(column));
assert(bool(c.handle));
d.d->GetColumnFamilyMetaData(c.handle.get(), &cfm);
return cfm.file_count;
}
std::vector<std::string>
ircd::db::files(const column &column)
{
database::column &c(mutable_cast(column));
database &d(*c.d);
rocksdb::ColumnFamilyMetaData cfmd;
d.d->GetColumnFamilyMetaData(c, &cfmd);
size_t count(0);
for(const auto &level : cfmd.levels)
count += level.files.size();
std::vector<std::string> ret;
ret.reserve(count);
for(auto &level : cfmd.levels)
for(auto &file : level.files)
ret.emplace_back(std::move(file.name));
return ret;
}
[[gnu::hot]]
const ircd::db::descriptor &
ircd::db::describe(const column &column)
noexcept
{
const database::column &c(column);
return describe(c);
}
[[gnu::hot]]
const std::string &
ircd::db::name(const column &column)
noexcept
{
const database::column &c(column);
return name(c);
}
[[gnu::hot]]
uint32_t
ircd::db::id(const column &column)
noexcept
{
const database::column &c(column);
return id(c);
}
//
// column
//
ircd::db::column::column(database &d,
const string_view &column_name)
:column
{
d[column_name]
}
{
}
ircd::db::column::column(database &d,
const string_view &column_name,
const std::nothrow_t)
:c{[&d, &column_name]
{
const int32_t cfid
{
d.cfid(std::nothrow, column_name)
};
return cfid >= 0?
&d[cfid]:
nullptr;
}()}
{
}
void
ircd::db::column::operator()(const delta *const &begin,
const delta *const &end,
const sopts &sopts)
{
database &d(*this);
rocksdb::WriteBatch batch;
std::for_each(begin, end, [this, &batch]
(const delta &delta)
{
append(batch, *this, delta);
});
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commit(d, batch, sopts);
}
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void
ircd::db::column::operator()(const string_view &key,
const view_closure &func,
const gopts &gopts)
{
const auto it(seek(*this, key, gopts));
valid_eq_or_throw(*it, key);
func(val(*it));
}
bool
ircd::db::column::operator()(const string_view &key,
const std::nothrow_t,
const view_closure &func,
const gopts &gopts)
{
const auto it(seek(*this, key, gopts));
if(!valid_eq(*it, key))
return false;
func(val(*it));
return true;
}
ircd::db::cell
ircd::db::column::operator[](const string_view &key)
const
{
return { *this, key };
}
[[gnu::hot]]
ircd::db::column::operator
bool()
const noexcept
{
return c && !dropped(*c);
}
//
// column::const_iterator
//
ircd::db::column::const_iterator
ircd::db::column::end(gopts gopts)
{
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const_iterator ret
{
c, {}, std::move(gopts)
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};
seek(ret, pos::END);
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return ret;
}
ircd::db::column::const_iterator
ircd::db::column::last(gopts gopts)
{
const_iterator ret
{
c, {}, std::move(gopts)
};
seek(ret, pos::BACK);
return ret;
}
ircd::db::column::const_iterator
ircd::db::column::begin(gopts gopts)
{
const_iterator ret
{
c, {}, std::move(gopts)
};
seek(ret, pos::FRONT);
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return ret;
}
ircd::db::column::const_reverse_iterator
ircd::db::column::rend(gopts gopts)
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{
const_reverse_iterator ret
{
c, {}, std::move(gopts)
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};
seek(ret, pos::END);
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return ret;
}
ircd::db::column::const_reverse_iterator
ircd::db::column::rbegin(gopts gopts)
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{
const_reverse_iterator ret
{
c, {}, std::move(gopts)
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};
seek(ret, pos::BACK);
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return ret;
}
ircd::db::column::const_iterator
ircd::db::column::upper_bound(const string_view &key,
gopts gopts)
{
auto it(lower_bound(key, std::move(gopts)));
if(it && it.it->key().compare(slice(key)) == 0)
++it;
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return it;
}
ircd::db::column::const_iterator
ircd::db::column::find(const string_view &key,
gopts gopts)
{
auto it(lower_bound(key, gopts));
if(!it || it.it->key().compare(slice(key)) != 0)
return end(gopts);
return it;
}
ircd::db::column::const_iterator
ircd::db::column::lower_bound(const string_view &key,
gopts gopts)
{
const_iterator ret
{
c, {}, std::move(gopts)
};
seek(ret, key);
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return ret;
}
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ircd::db::column::const_iterator &
ircd::db::column::const_iterator::operator--()
{
if(likely(bool(*this)))
seek(*this, pos::PREV);
else
seek(*this, pos::BACK);
return *this;
}
ircd::db::column::const_iterator &
ircd::db::column::const_iterator::operator++()
{
if(likely(bool(*this)))
seek(*this, pos::NEXT);
else
seek(*this, pos::FRONT);
return *this;
}
ircd::db::column::const_reverse_iterator &
ircd::db::column::const_reverse_iterator::operator--()
{
if(likely(bool(*this)))
seek(*this, pos::NEXT);
else
seek(*this, pos::FRONT);
return *this;
}
ircd::db::column::const_reverse_iterator &
ircd::db::column::const_reverse_iterator::operator++()
{
if(likely(bool(*this)))
seek(*this, pos::PREV);
else
seek(*this, pos::BACK);
return *this;
}
ircd::db::column::const_iterator_base::const_iterator_base(const_iterator_base &&o)
noexcept
:c{std::move(o.c)}
,opts{std::move(o.opts)}
,it{std::move(o.it)}
,val{std::move(o.val)}
{
}
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ircd::db::column::const_iterator_base &
ircd::db::column::const_iterator_base::operator=(const_iterator_base &&o)
noexcept
{
c = std::move(o.c);
opts = std::move(o.opts);
it = std::move(o.it);
val = std::move(o.val);
return *this;
}
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// linkage for incmplete rocksdb::Iterator
ircd::db::column::const_iterator_base::const_iterator_base()
noexcept
{
}
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// linkage for incmplete rocksdb::Iterator
ircd::db::column::const_iterator_base::~const_iterator_base()
noexcept
{
}
ircd::db::column::const_iterator_base::const_iterator_base(database::column *const &c,
std::unique_ptr<rocksdb::Iterator> &&it,
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gopts opts)
noexcept
:c{c}
,opts{std::move(opts)}
,it{std::move(it)}
{
}
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const ircd::db::column::const_iterator_base::value_type &
ircd::db::column::const_iterator_base::operator*()
const
{
assert(it && valid(*it));
val.first = db::key(*it);
val.second = db::val(*it);
return val;
}
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ircd::db::column::const_iterator_base::operator bool()
const noexcept
{
if(!it)
return false;
if(!valid(*it))
return false;
return true;
}
bool
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ircd::db::operator!=(const column::const_iterator_base &a, const column::const_iterator_base &b)
noexcept
{
const uint operands
{
uint(bool(a)) +
uint(bool(b))
};
// Two invalid iterators are equal; one invalid iterator is not.
if(likely(operands <= 1))
return operands == 1;
// Two valid iterators are compared
assert(operands == 2);
const auto &ak(a.it->key());
const auto &bk(b.it->key());
return ak.compare(bk) != 0;
}
bool
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ircd::db::operator==(const column::const_iterator_base &a, const column::const_iterator_base &b)
noexcept
{
const uint operands
{
uint(bool(a)) +
uint(bool(b))
};
// Two valid iterators are compared
if(likely(operands > 1))
{
const auto &ak(a.it->key());
const auto &bk(b.it->key());
return ak.compare(bk) == 0;
}
// Two invalid iterators are equal; one invalid iterator is not.
return operands == 0;
}
bool
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ircd::db::operator>(const column::const_iterator_base &a, const column::const_iterator_base &b)
noexcept
{
if(a && b)
{
const auto &ak(a.it->key());
const auto &bk(b.it->key());
return ak.compare(bk) == 1;
}
if(!a && b)
return true;
if(!a && !b)
return false;
assert(!a && b);
return false;
}
bool
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ircd::db::operator<(const column::const_iterator_base &a, const column::const_iterator_base &b)
noexcept
{
if(a && b)
{
const auto &ak(a.it->key());
const auto &bk(b.it->key());
return ak.compare(bk) == -1;
}
if(!a && b)
return false;
if(!a && !b)
return false;
assert(a && !b);
return true;
}
template<class pos>
bool
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ircd::db::seek(column::const_iterator_base &it,
const pos &p)
{
database::column &c(it);
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return seek(c, p, make_opts(it.opts), it.it);
}
template bool ircd::db::seek<ircd::db::pos>(column::const_iterator_base &, const pos &);
template bool ircd::db::seek<ircd::string_view>(column::const_iterator_base &, const string_view &);
///////////////////////////////////////////////////////////////////////////////
//
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// opts.h
//
//
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// options
//
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ircd::db::options::options(const database &d)
:options{d.d->GetDBOptions()}
{
}
ircd::db::options::options(const database::column &c)
:options
{
rocksdb::ColumnFamilyOptions
{
c.d->d->GetOptions(c.handle.get())
}
}{}
ircd::db::options::options(const rocksdb::DBOptions &opts)
{
throw_on_error
{
rocksdb::GetStringFromDBOptions(this, opts)
};
}
ircd::db::options::options(const rocksdb::ColumnFamilyOptions &opts)
{
throw_on_error
{
rocksdb::GetStringFromColumnFamilyOptions(this, opts)
};
}
ircd::db::options::operator rocksdb::PlainTableOptions()
const
{
rocksdb::PlainTableOptions ret;
throw_on_error
{
rocksdb::GetPlainTableOptionsFromString(ret, *this, &ret)
};
return ret;
}
ircd::db::options::operator rocksdb::BlockBasedTableOptions()
const
{
rocksdb::BlockBasedTableOptions ret;
throw_on_error
{
rocksdb::GetBlockBasedTableOptionsFromString(ret, *this, &ret)
};
return ret;
}
ircd::db::options::operator rocksdb::ColumnFamilyOptions()
const
{
rocksdb::ColumnFamilyOptions ret;
throw_on_error
{
rocksdb::GetColumnFamilyOptionsFromString(ret, *this, &ret)
};
return ret;
}
ircd::db::options::operator rocksdb::DBOptions()
const
{
rocksdb::DBOptions ret;
throw_on_error
{
rocksdb::GetDBOptionsFromString(ret, *this, &ret)
};
return ret;
}
ircd::db::options::operator rocksdb::Options()
const
{
rocksdb::Options ret;
throw_on_error
{
rocksdb::GetOptionsFromString(ret, *this, &ret)
};
return ret;
}
//
// options::map
//
ircd::db::options::map::map(const options &o)
{
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throw_on_error
{
rocksdb::StringToMap(o, this)
};
}
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ircd::db::options::map::operator rocksdb::PlainTableOptions()
const
{
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rocksdb::PlainTableOptions ret;
throw_on_error
{
rocksdb::GetPlainTableOptionsFromMap(ret, *this, &ret)
};
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return ret;
}
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ircd::db::options::map::operator rocksdb::BlockBasedTableOptions()
const
{
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rocksdb::BlockBasedTableOptions ret;
throw_on_error
{
rocksdb::GetBlockBasedTableOptionsFromMap(ret, *this, &ret)
};
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return ret;
}
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ircd::db::options::map::operator rocksdb::ColumnFamilyOptions()
const
{
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rocksdb::ColumnFamilyOptions ret;
throw_on_error
{
rocksdb::GetColumnFamilyOptionsFromMap(ret, *this, &ret)
};
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return ret;
}
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ircd::db::options::map::operator rocksdb::DBOptions()
const
{
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rocksdb::DBOptions ret;
throw_on_error
{
rocksdb::GetDBOptionsFromMap(ret, *this, &ret)
};
return ret;
}
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///////////////////////////////////////////////////////////////////////////////
//
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// cache.h
//
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void
ircd::db::clear(rocksdb::Cache &cache)
{
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cache.EraseUnRefEntries();
}
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bool
ircd::db::remove(rocksdb::Cache &cache,
const string_view &key)
{
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cache.Erase(slice(key));
return true;
}
bool
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ircd::db::insert(rocksdb::Cache &cache,
const string_view &key,
const string_view &value)
{
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unique_buffer<const_buffer> buf
{
const_buffer{value}
};
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return insert(cache, key, std::move(buf));
}
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bool
ircd::db::insert(rocksdb::Cache &cache,
const string_view &key,
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unique_buffer<const_buffer> &&value)
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{
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const size_t value_size
{
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size(value)
};
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static const auto deleter{[]
(const rocksdb::Slice &key, void *const value)
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{
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delete[] reinterpret_cast<const char *>(value);
}};
// Note that because of the nullptr handle argument below, rocksdb
// will run the deleter if the insert throws; just make sure
// the argument execution doesn't throw after release()
throw_on_error
{
cache.Insert(slice(key),
mutable_cast(data(value.release())),
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value_size,
deleter,
nullptr)
};
return true;
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}
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void
ircd::db::for_each(const rocksdb::Cache &cache,
const cache_closure &closure)
{
// Due to the use of the global variables which are required when using a
// C-style callback for RocksDB, we have to make use of this function
// exclusive for different contexts.
thread_local ctx::mutex mutex;
const std::lock_guard lock{mutex};
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thread_local rocksdb::Cache *_cache;
_cache = mutable_cast(&cache);
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thread_local const cache_closure *_closure;
_closure = &closure;
_cache->ApplyToAllCacheEntries([]
(void *const value_buffer, const size_t buffer_size)
noexcept
{
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assert(_cache);
assert(_closure);
const const_buffer buf
{
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reinterpret_cast<const char *>(value_buffer), buffer_size
};
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(*_closure)(buf);
},
true);
}
#ifdef IRCD_DB_HAS_CACHE_GETCHARGE
size_t
ircd::db::charge(const rocksdb::Cache &cache_,
const string_view &key)
{
auto &cache
{
mutable_cast(cache_)
};
const custom_ptr<rocksdb::Cache::Handle> handle
{
cache.Lookup(slice(key)), [&cache](auto *const &handle)
{
cache.Release(handle);
}
};
return cache.GetCharge(handle);
}
#else
size_t
ircd::db::charge(const rocksdb::Cache &cache,
const string_view &key)
{
return 0UL;
}
#endif
[[gnu::hot]]
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bool
ircd::db::exists(const rocksdb::Cache &cache_,
const string_view &key)
{
auto &cache
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{
mutable_cast(cache_)
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};
const custom_ptr<rocksdb::Cache::Handle> handle
{
cache.Lookup(slice(key)), [&cache](auto *const &handle)
{
cache.Release(handle);
}
};
return bool(handle);
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}
size_t
ircd::db::count(const rocksdb::Cache &cache)
{
size_t ret(0);
for_each(cache, [&ret]
(const const_buffer &)
{
++ret;
});
return ret;
}
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size_t
ircd::db::pinned(const rocksdb::Cache &cache)
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{
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return cache.GetPinnedUsage();
}
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size_t
ircd::db::usage(const rocksdb::Cache &cache)
{
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return cache.GetUsage();
}
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void
ircd::db::capacity(rocksdb::Cache &cache,
const size_t &cap)
{
cache.SetCapacity(cap);
}
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size_t
ircd::db::capacity(const rocksdb::Cache &cache)
{
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return cache.GetCapacity();
}
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const uint64_t &
ircd::db::ticker(const rocksdb::Cache &cache,
const uint32_t &ticker_id)
{
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const auto &c
{
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dynamic_cast<const database::cache &>(cache)
};
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static const uint64_t &zero
{
0ULL
};
return c.stats?
c.stats->ticker.at(ticker_id):
zero;
}
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///////////////////////////////////////////////////////////////////////////////
//
// error.h
//
//
// error::not_found
//
decltype(ircd::db::error::not_found::_not_found_)
ircd::db::error::not_found::_not_found_
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{
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rocksdb::Status::NotFound()
};
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//
// error::not_found::not_found
//
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ircd::db::error::not_found::not_found()
:error
{
generate_skip, _not_found_
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}
{
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strlcpy(buf, "NotFound");
}
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//
// error
//
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decltype(ircd::db::error::_no_code_)
ircd::db::error::_no_code_
{
rocksdb::Status::OK()
};
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//
// error::error
//
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ircd::db::error::error(internal_t,
const rocksdb::Status &s,
const string_view &fmt,
const va_rtti &ap)
:error
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{
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s
}
{
const string_view &msg{buf};
const mutable_buffer remain
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{
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buf + size(msg), sizeof(buf) - size(msg)
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};
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fmt::vsprintf
{
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remain, fmt, ap
};
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}
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ircd::db::error::error(const rocksdb::Status &s)
:error
{
generate_skip, s
}
{
fmt::sprintf
{
buf, "(%u:%u:%u) %s %s :%s",
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this->code,
this->subcode,
this->severity,
reflect(rocksdb::Status::Severity(this->severity)),
reflect(rocksdb::Status::Code(this->code)),
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s.getState(),
};
}
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ircd::db::error::error(generate_skip_t,
const rocksdb::Status &s)
:ircd::error
{
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generate_skip
}
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,code
{
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s.code()
}
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,subcode
{
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s.subcode()
}
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,severity
{
s.severity()?
s.severity():
code == rocksdb::Status::kCorruption?
rocksdb::Status::kHardError:
rocksdb::Status::kNoError
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}
{
}
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///////////////////////////////////////////////////////////////////////////////
//
// merge.h
//
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std::string
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__attribute__((noreturn))
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ircd::db::merge_operator(const string_view &key,
const std::pair<string_view, string_view> &delta)
{
//ircd::json::index index{delta.first};
//index += delta.second;
//return index;
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throw ircd::not_implemented
{
"db::merge_operator()"
};
}
///////////////////////////////////////////////////////////////////////////////
//
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// comparator.h
//
//
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// linkage placements for integer comparators so they all have the same addr
//
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ircd::db::cmp_int64_t::cmp_int64_t()
{
}
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ircd::db::cmp_int64_t::~cmp_int64_t()
noexcept
{
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}
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ircd::db::cmp_uint64_t::cmp_uint64_t()
{
}
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ircd::db::cmp_uint64_t::~cmp_uint64_t()
noexcept
{
}
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ircd::db::reverse_cmp_int64_t::reverse_cmp_int64_t()
{
}
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ircd::db::reverse_cmp_int64_t::~reverse_cmp_int64_t()
noexcept
{
}
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ircd::db::reverse_cmp_uint64_t::reverse_cmp_uint64_t()
{
}
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ircd::db::reverse_cmp_uint64_t::~reverse_cmp_uint64_t()
noexcept
{
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}
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//
// cmp_string_view
//
ircd::db::cmp_string_view::cmp_string_view()
:db::comparator{"string_view", &less, &equal}
{
}
//
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// reverse_cmp_string_view
//
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ircd::db::reverse_cmp_string_view::reverse_cmp_string_view()
:db::comparator{"reverse_string_view", &less, &equal}
{
}
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bool
ircd::db::reverse_cmp_string_view::less(const string_view &a,
const string_view &b)
noexcept
{
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/// RocksDB sez things will not work correctly unless a shorter string
/// result returns less than a longer string even if one intends some
/// reverse ordering
if(a.size() < b.size())
return true;
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/// Furthermore, b.size() < a.size() returning false from this function
/// appears to not be correct. The reversal also has to also come in
/// the form of a bytewise forward iteration.
return std::memcmp(a.data(), b.data(), std::min(a.size(), b.size())) > 0;
}
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///////////////////////////////////////////////////////////////////////////////
//
// delta.h
//
bool
ircd::db::value_required(const op &op)
{
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switch(op)
{
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case op::SET:
case op::MERGE:
case op::DELETE_RANGE:
return true;
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case op::GET:
case op::DELETE:
case op::SINGLE_DELETE:
return false;
}
assert(0);
return false;
}
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///////////////////////////////////////////////////////////////////////////////
//
// db.h (internal)
//
//
// throw_on_error
//
ircd::db::throw_on_error::throw_on_error(const rocksdb::Status &status)
{
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using rocksdb::Status;
switch(status.code())
{
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case Status::kOk:
return;
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case Status::kNotFound:
throw not_found{};
#ifdef RB_DEBUG
//case Status::kCorruption:
case Status::kNotSupported:
case Status::kInvalidArgument:
debugtrap();
[[fallthrough]];
#endif
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default:
throw error
{
status
};
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}
}
//
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// error_to_status
//
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ircd::db::error_to_status::error_to_status(const std::exception &e)
:rocksdb::Status
{
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Status::Aborted(slice(string_view(e.what())))
}
{
}
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ircd::db::error_to_status::error_to_status(const std::system_error &e)
:error_to_status{e.code()}
{
}
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ircd::db::error_to_status::error_to_status(const std::error_code &e)
:rocksdb::Status{[&e]
{
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using std::errc;
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switch(e.value())
{
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case 0:
return Status::OK();
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case int(errc::no_such_file_or_directory):
return Status::NotFound();
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case int(errc::not_supported):
return Status::NotSupported();
case int(errc::invalid_argument):
return Status::InvalidArgument();
case int(errc::io_error):
return Status::IOError();
case int(errc::timed_out):
return Status::TimedOut();
case int(errc::device_or_resource_busy):
return Status::Busy();
case int(errc::resource_unavailable_try_again):
return Status::TryAgain();
case int(errc::no_space_on_device):
return Status::NoSpace();
case int(errc::not_enough_memory):
return Status::MemoryLimit();
default:
{
const auto &message(e.message());
return Status::Aborted(slice(string_view(message)));
}
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}
}()}
{
}
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//
// writebatch suite
//
void
ircd::db::append(rocksdb::WriteBatch &batch,
const cell::delta &delta)
{
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auto &column
{
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std::get<cell *>(delta)->c
};
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append(batch, column, column::delta
{
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std::get<op>(delta),
std::get<cell *>(delta)->key(),
std::get<string_view>(delta)
});
}
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void
ircd::db::append(rocksdb::WriteBatch &batch,
column &column,
const column::delta &delta)
{
if(unlikely(!column))
{
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// Note: Unknown at this time whether allowing attempts at writing
// to a null column should be erroneous or silently ignored. It's
// highly likely this log message will be removed soon to allow
// toggling database columns for optimization without touching calls.
log::critical
{
log, "Attempting to transact a delta for a null column"
};
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return;
}
database::column &c(column);
const auto k(slice(std::get<1>(delta)));
const auto v(slice(std::get<2>(delta)));
switch(std::get<0>(delta))
{
case op::GET: assert(0); break;
case op::SET: batch.Put(c, k, v); break;
case op::MERGE: batch.Merge(c, k, v); break;
case op::DELETE: batch.Delete(c, k); break;
case op::DELETE_RANGE: batch.DeleteRange(c, k, v); break;
case op::SINGLE_DELETE: batch.SingleDelete(c, k); break;
}
}
void
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ircd::db::commit(database &d,
rocksdb::WriteBatch &batch,
const sopts &sopts)
{
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const auto opts(make_opts(sopts));
commit(d, batch, opts);
}
void
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ircd::db::commit(database &d,
rocksdb::WriteBatch &batch,
const rocksdb::WriteOptions &opts)
{
#ifdef RB_DEBUG
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ircd::timer timer;
#endif
const std::lock_guard lock{d.write_mutex};
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const ctx::uninterruptible ui;
const ctx::stack_usage_assertion sua;
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throw_on_error
{
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d.d->Write(opts, &batch)
};
#ifdef RB_DEBUG
char dbuf[192];
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log::debug
{
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log, "[%s] %lu COMMIT %s in %ld$us",
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d.name,
sequence(d),
debug(dbuf, batch),
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timer.at<microseconds>().count()
};
#endif
}
ircd::string_view
ircd::db::debug(const mutable_buffer &buf,
const rocksdb::WriteBatch &batch)
{
char pbuf[48] {0};
const auto len(snprintf
(
data(buf), size(buf),
"%d deltas; %s %s+%s+%s+%s+%s+%s+%s+%s+%s"
,batch.Count()
,pretty(pbuf, iec(batch.GetDataSize())).data()
,batch.HasPut()? "PUT": ""
,batch.HasDelete()? "DEL": ""
,batch.HasSingleDelete()? "SDL": ""
,batch.HasDeleteRange()? "DRG": ""
,batch.HasMerge()? "MRG": ""
,batch.HasBeginPrepare()? "BEG": ""
,batch.HasEndPrepare()? "END": ""
,batch.HasCommit()? "COM-": ""
,batch.HasRollback()? "RB^": ""
));
return string_view
{
data(buf), len
};
}
bool
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ircd::db::has(const rocksdb::WriteBatch &wb,
const op &op)
{
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switch(op)
{
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case op::GET: assert(0); return false;
case op::SET: return wb.HasPut();
case op::MERGE: return wb.HasMerge();
case op::DELETE: return wb.HasDelete();
case op::DELETE_RANGE: return wb.HasDeleteRange();
case op::SINGLE_DELETE: return wb.HasSingleDelete();
}
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return false;
}
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//
// read suite
//
namespace ircd::db
{
static rocksdb::Status _seek(database::column &, rocksdb::PinnableSlice &, const string_view &, const rocksdb::ReadOptions &);
}
rocksdb::Status
ircd::db::_read(column &column,
const string_view &key,
const rocksdb::ReadOptions &opts,
const column::view_closure &closure)
{
std::string buf;
rocksdb::PinnableSlice ps
{
&buf
};
database::column &c(column);
const rocksdb::Status ret
{
_seek(c, ps, key, opts)
};
if(!valid(ret))
return ret;
const string_view value
{
slice(ps)
};
if(likely(closure))
closure(value);
// Update stats about whether the pinnable slices we obtained have internal
// copies or referencing the cache copy.
database &d(column);
c.stats->get_referenced += buf.empty();
d.stats->get_referenced += buf.empty();
c.stats->get_copied += !buf.empty();
d.stats->get_copied += !buf.empty();
return ret;
}
rocksdb::Status
ircd::db::_seek(database::column &c,
rocksdb::PinnableSlice &s,
const string_view &key,
const rocksdb::ReadOptions &ropts)
{
const ctx::uninterruptible::nothrow ui;
const ctx::stack_usage_assertion sua;
rocksdb::ColumnFamilyHandle *const &cf(c);
database &d(*c.d);
#ifdef RB_DEBUG_DB_SEEK
const ircd::timer timer;
#endif
const rocksdb::Status ret
{
d.d->Get(ropts, cf, slice(key), &s)
};
#ifdef RB_DEBUG_DB_SEEK
log::debug
{
log, "[%s] %lu:%lu SEEK %s in %ld$us '%s'",
name(d),
sequence(d),
sequence(ropts.snapshot),
ret.ToString(),
timer.at<microseconds>().count(),
name(c)
};
#endif
return ret;
}
//
// parallel read suite
//
namespace ircd::db
{
static void _seek(const vector_view<_read_op> &, const vector_view<rocksdb::Status> &, const vector_view<rocksdb::PinnableSlice> &, const rocksdb::ReadOptions &);
}
bool
ircd::db::_read(const vector_view<_read_op> &op,
const rocksdb::ReadOptions &ropts,
const _read_closure &closure)
{
assert(op.size() >= 1);
assert(op.size() <= IOV_MAX);
const size_t &num
{
op.size()
};
std::string buf[num];
rocksdb::PinnableSlice val[num];
for(size_t i(0); i < num; ++i)
new (val + i) rocksdb::PinnableSlice
{
buf + i
};
const bool parallelize
{
#ifdef IRCD_DB_HAS_MULTIGET_DIRECT
true && num > 1
#else
false
#endif
};
rocksdb::Status status[num];
if(!parallelize)
for(size_t i(0); i < num; ++i)
{
database::column &column(std::get<column>(op[i]));
status[i] = _seek(column, val[i], std::get<1>(op[i]), ropts);
}
else
_seek(op, {status, num}, {val, num}, ropts);
bool ret(true);
if(closure)
for(size_t i(0); i < num && ret; ++i)
{
const column::delta delta(std::get<1>(op[i]), slice(val[i]));
ret = closure(std::get<column>(op[i]), delta, status[i]);
}
// Update stats about whether the pinnable slices we obtained have internal
// copies or referencing the cache copy.
for(size_t i(0); i < num; ++i)
{
database &d(std::get<column>(op[i]));
database::column &c(std::get<column>(op[i]));
// Find the correct stats to update, one for the specific column and
// one for the database total.
ircd::stats::item<uint64_t> *item_[2]
{
parallelize && buf[i].empty()? &c.stats->multiget_referenced:
parallelize? &c.stats->multiget_copied:
buf[i].empty()? &c.stats->get_referenced:
&c.stats->get_copied,
parallelize && buf[i].empty()? &d.stats->multiget_referenced:
parallelize? &d.stats->multiget_copied:
buf[i].empty()? &d.stats->get_referenced:
&d.stats->get_copied,
};
for(auto *const &item : item_)
++(*item);
}
return ret;
}
void
ircd::db::_seek(const vector_view<_read_op> &op,
const vector_view<rocksdb::Status> &ret,
const vector_view<rocksdb::PinnableSlice> &val,
const rocksdb::ReadOptions &ropts)
{
assert(ret.size() == op.size());
assert(ret.size() == val.size());
const ctx::stack_usage_assertion sua;
const ctx::uninterruptible::nothrow ui;
assert(op.size() >= 1);
database &d(std::get<0>(op[0]));
const size_t &num
{
op.size()
};
rocksdb::Slice key[num];
std::transform(begin(op), end(op), key, []
(const auto &op)
{
return slice(std::get<1>(op));
});
rocksdb::ColumnFamilyHandle *cf[num];
std::transform(begin(op), end(op), cf, []
(auto &op_)
{
auto &op(mutable_cast(op_));
database::column &c(std::get<column>(op));
return static_cast<rocksdb::ColumnFamilyHandle *>(c);
});
#ifdef RB_DEBUG_DB_SEEK
const ircd::timer timer;
#endif
#ifdef IRCD_DB_HAS_MULTIGET_BATCHED
d.d->MultiGet(ropts, num, cf, key, val.data(), ret.data());
#endif
#ifdef RB_DEBUG_DB_SEEK
log::debug
{
log, "[%s] %lu:%lu SEEK parallel:%zu ok:%zu nf:%zu inc:%zu in %ld$us",
name(d),
sequence(d),
sequence(ropts.snapshot),
ret.size(),
std::count_if(begin(ret), end(ret), [](auto&& s) { return s.ok(); }),
std::count_if(begin(ret), end(ret), [](auto&& s) { return s.IsNotFound(); }),
std::count_if(begin(ret), end(ret), [](auto&& s) { return s.IsIncomplete(); }),
timer.at<microseconds>().count(),
};
#endif
}
//
// iterator seek suite
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//
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namespace ircd::db
{
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static rocksdb::Iterator &_seek_(rocksdb::Iterator &, const pos &);
static rocksdb::Iterator &_seek_(rocksdb::Iterator &, const string_view &);
static rocksdb::Iterator &_seek_lower_(rocksdb::Iterator &, const string_view &);
static rocksdb::Iterator &_seek_upper_(rocksdb::Iterator &, const string_view &);
static bool _seek(database::column &, const pos &, const rocksdb::ReadOptions &, rocksdb::Iterator &it);
static bool _seek(database::column &, const string_view &, const rocksdb::ReadOptions &, rocksdb::Iterator &it);
}
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std::unique_ptr<rocksdb::Iterator>
ircd::db::seek(column &column,
const string_view &key,
const gopts &opts)
{
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database &d(column);
database::column &c(column);
std::unique_ptr<rocksdb::Iterator> ret;
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seek(c, key, make_opts(opts), ret);
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return ret;
}
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template<class pos>
bool
ircd::db::seek(database::column &c,
const pos &p,
const rocksdb::ReadOptions &opts,
std::unique_ptr<rocksdb::Iterator> &it)
{
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if(!it)
{
const ctx::uninterruptible::nothrow ui;
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database &d(*c.d);
rocksdb::ColumnFamilyHandle *const &cf(c);
it.reset(d.d->NewIterator(opts, cf));
}
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return _seek(c, p, opts, *it);
}
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bool
ircd::db::_seek(database::column &c,
const string_view &p,
const rocksdb::ReadOptions &opts,
rocksdb::Iterator &it)
try
{
const ctx::uninterruptible ui;
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#ifdef RB_DEBUG_DB_SEEK
database &d(*c.d);
const ircd::timer timer;
#endif
_seek_(it, p);
#ifdef RB_DEBUG_DB_SEEK
log::debug
{
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log, "[%s] %lu:%lu SEEK %s %s in %ld$us '%s'",
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name(d),
sequence(d),
sequence(opts.snapshot),
valid(it)? "VALID" : "INVALID",
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it.status().ToString(),
timer.at<microseconds>().count(),
name(c)
};
#endif
return valid(it);
}
catch(const error &e)
{
const database &d(*c.d);
log::critical
{
log, "[%s][%s] %lu:%lu SEEK key :%s",
name(d),
name(c),
sequence(d),
sequence(opts.snapshot),
e.what(),
};
throw;
}
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bool
ircd::db::_seek(database::column &c,
const pos &p,
const rocksdb::ReadOptions &opts,
rocksdb::Iterator &it)
try
{
const ctx::stack_usage_assertion sua;
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#ifdef RB_DEBUG_DB_SEEK
database &d(*c.d);
const ircd::timer timer;
const bool valid_it
{
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valid(it)
};
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#endif
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_seek_(it, p);
#ifdef RB_DEBUG_DB_SEEK
log::debug
{
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log, "[%s] %lu:%lu SEEK[%s] %s -> %s in %ld$us '%s'",
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name(d),
sequence(d),
sequence(opts.snapshot),
reflect(p),
valid_it? "VALID" : "INVALID",
it.status().ToString(),
timer.at<microseconds>().count(),
name(c)
};
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#endif
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return valid(it);
}
catch(const error &e)
{
const database &d(*c.d);
log::critical
{
log, "[%s][%s] %lu:%lu SEEK %s %s :%s",
name(d),
name(c),
sequence(d),
sequence(opts.snapshot),
reflect(p),
it.Valid()? "VALID" : "INVALID",
e.what(),
};
throw;
}
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/// Seek to entry NOT GREATER THAN key. That is, equal to or less than key
rocksdb::Iterator &
ircd::db::_seek_lower_(rocksdb::Iterator &it,
const string_view &sv)
{
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it.SeekForPrev(slice(sv));
return it;
}
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/// Seek to entry NOT LESS THAN key. That is, equal to or greater than key
rocksdb::Iterator &
ircd::db::_seek_upper_(rocksdb::Iterator &it,
const string_view &sv)
{
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it.Seek(slice(sv));
return it;
}
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/// Defaults to _seek_upper_ because it has better support from RocksDB.
rocksdb::Iterator &
ircd::db::_seek_(rocksdb::Iterator &it,
const string_view &sv)
{
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return _seek_upper_(it, sv);
}
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rocksdb::Iterator &
ircd::db::_seek_(rocksdb::Iterator &it,
const pos &p)
{
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switch(p)
{
case pos::NEXT: it.Next(); break;
case pos::PREV: it.Prev(); break;
case pos::FRONT: it.SeekToFirst(); break;
case pos::BACK: it.SeekToLast(); break;
default:
case pos::END:
{
it.SeekToLast();
if(it.Valid())
it.Next();
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break;
}
}
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return it;
}
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//
// validation suite
//
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void
ircd::db::valid_eq_or_throw(const rocksdb::Iterator &it,
const string_view &sv)
{
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assert(!empty(sv));
if(!valid_eq(it, sv))
{
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throw_on_error(it.status());
throw not_found{};
}
}
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void
ircd::db::valid_or_throw(const rocksdb::Iterator &it)
{
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if(!valid(it))
{
throw_on_error(it.status());
throw not_found{};
//assert(0); // status == ok + !Valid() == ???
}
}
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bool
ircd::db::valid_lte(const rocksdb::Iterator &it,
const string_view &sv)
{
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return valid(it, [&sv](const auto &it)
{
return it.key().compare(slice(sv)) <= 0;
});
}
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bool
ircd::db::valid_gt(const rocksdb::Iterator &it,
const string_view &sv)
{
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return valid(it, [&sv](const auto &it)
{
return it.key().compare(slice(sv)) > 0;
});
}
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bool
ircd::db::valid_eq(const rocksdb::Iterator &it,
const string_view &sv)
{
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return valid(it, [&sv](const auto &it)
{
return it.key().compare(slice(sv)) == 0;
});
}
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bool
ircd::db::valid(const rocksdb::Iterator &it,
const valid_proffer &proffer)
{
return valid(it) && proffer(it);
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}
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bool
ircd::db::valid(const rocksdb::Iterator &it)
{
if(likely(it.Valid()))
return true;
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switch(it.status().code())
{
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using rocksdb::Status;
case Status::kOk:
case Status::kNotFound:
case Status::kIncomplete:
return it.Valid();
default:
throw_on_error
{
it.status()
};
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__builtin_unreachable();
}
}
bool
ircd::db::valid(const rocksdb::Status &s)
{
switch(s.code())
{
using rocksdb::Status;
case Status::kOk:
return true;
case Status::kNotFound:
case Status::kIncomplete:
return false;
default:
throw_on_error{s};
__builtin_unreachable();
}
}
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//
// column_names
//
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std::vector<std::string>
ircd::db::column_names(const std::string &path,
const std::string &options)
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{
const rocksdb::DBOptions opts
{
db::options(options)
};
return column_names(path, opts);
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}
/// Note that if there is no database found at path we still return a
/// vector containing the column name "default". This function is not
/// to be used as a test for whether the database exists. It returns
/// the columns required to be described at `path`. That will always
/// include the default column (RocksDB sez) even if database doesn't
/// exist yet.
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std::vector<std::string>
ircd::db::column_names(const std::string &path,
const rocksdb::DBOptions &opts)
try
{
std::vector<std::string> ret;
throw_on_error
{
rocksdb::DB::ListColumnFamilies(opts, path, &ret)
};
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return ret;
}
catch(const not_found &)
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{
return // No database found at path.
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{
{ rocksdb::kDefaultColumnFamilyName }
};
}
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//
// Misc
//
namespace ircd::db
{
extern conf::item<std::string> compression_default;
}
decltype(ircd::db::compression_default)
ircd::db::compression_default
{
{ "name", "ircd.db.compression.default" },
{ "default", "kZSTD;kLZ4Compression;kSnappyCompression" },
};
rocksdb::CompressionType
ircd::db::find_supported_compression(const std::string &input)
{
rocksdb::CompressionType ret
{
rocksdb::kNoCompression
};
const auto &list
{
input == "default"?
string_view{compression_default}:
string_view{input}
};
tokens(list, ';', [&ret]
(const string_view &requested)
{
if(ret != rocksdb::kNoCompression)
return;
for(const auto &[name, type] : db::compressions)
if(type != 0L && name == requested)
{
ret = rocksdb::CompressionType(type);
break;
}
});
return ret;
}
rocksdb::DBOptions
ircd::db::make_dbopts(std::string optstr,
std::string *const &out,
bool *const read_only,
bool *const fsck)
{
// RocksDB doesn't parse a read_only option, so we allow that to be added
// to open the database as read_only and then remove that from the string.
if(read_only)
*read_only |= optstr_find_and_remove(optstr, "read_only=true;"s);
else
optstr_find_and_remove(optstr, "read_only=true;"s);
// We also allow the user to specify fsck=true to run a repair operation on
// the db. This may be expensive to do by default every startup.
if(fsck)
*fsck |= optstr_find_and_remove(optstr, "fsck=true;"s);
else
optstr_find_and_remove(optstr, "fsck=true;"s);
// Generate RocksDB options from string
rocksdb::DBOptions opts
{
db::options(optstr)
};
if(out)
*out = std::move(optstr);
return opts;
}
bool
ircd::db::optstr_find_and_remove(std::string &optstr,
const std::string &what)
{
const auto pos(optstr.find(what));
if(pos == std::string::npos)
return false;
optstr.erase(pos, what.size());
return true;
}
decltype(ircd::db::read_checksum)
ircd::db::read_checksum
{
{ "name", "ircd.db.read.checksum" },
{ "default", false }
};
namespace ircd::db
{
static const rocksdb::ReadOptions default_read_options;
}
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/// Convert our options structure into RocksDB's options structure.
[[gnu::hot]]
rocksdb::ReadOptions
ircd::db::make_opts(const gopts &opts)
{
rocksdb::ReadOptions ret;
assume(ret.iterate_lower_bound == nullptr);
assume(ret.iterate_upper_bound == nullptr);
assume(ret.iter_start_seqnum == 0);
assume(ret.pin_data == false);
assume(ret.fill_cache == true);
assume(ret.total_order_seek == false);
assume(ret.verify_checksums == true);
assume(ret.tailing == false);
assume(ret.read_tier == rocksdb::ReadTier::kReadAllTier);
assume(ret.readahead_size == 0);
assume(ret.prefix_same_as_start == false);
ret.snapshot = opts.snapshot;
ret.readahead_size = opts.readahead;
// slice* for exclusive upper bound. when prefixes are used this value must
// have the same prefix because ordering is not guaranteed between prefixes
ret.iterate_lower_bound = opts.lower_bound;
ret.iterate_upper_bound = opts.upper_bound;
ret.iter_start_seqnum = opts.seqnum;
ret.verify_checksums = bool(read_checksum);
if(test(opts, get::CHECKSUM) & !test(opts, get::NO_CHECKSUM))
ret.verify_checksums = true;
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if(test(opts, get::NO_SNAPSHOT))
ret.tailing = true;
if(test(opts, get::ORDERED))
ret.total_order_seek = true;
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if(test(opts, get::PIN))
ret.pin_data = true;
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if(test(opts, get::CACHE))
ret.fill_cache = true;
if(likely(test(opts, get::NO_CACHE)))
ret.fill_cache = false;
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if(likely(test(opts, get::PREFIX)))
ret.prefix_same_as_start = true;
if(likely(test(opts, get::NO_BLOCKING)))
ret.read_tier = rocksdb::ReadTier::kBlockCacheTier;
return ret;
}
decltype(ircd::db::enable_wal)
ircd::db::enable_wal
{
{ "name", "ircd.db.wal.enable" },
{ "default", true },
{ "persist", false },
};
[[gnu::hot]]
rocksdb::WriteOptions
ircd::db::make_opts(const sopts &opts)
{
rocksdb::WriteOptions ret;
//ret.no_slowdown = true; // read_tier = NON_BLOCKING for writes
ret.sync = test(opts, set::FSYNC);
ret.disableWAL = !enable_wal || test(opts, set::NO_JOURNAL);
ret.ignore_missing_column_families = test(opts, set::NO_COLUMN_ERR);
ret.no_slowdown = test(opts, set::NO_BLOCKING);
ret.low_pri = test(opts, set::PRIO_LOW);
return ret;
}
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//
//
//
std::vector<std::string>
ircd::db::available()
{
const string_view &prefix
{
fs::base::db
};
const auto dirs
{
fs::ls(prefix)
};
std::vector<std::string> ret;
for(const auto &dir : dirs)
{
if(!fs::is_dir(dir))
continue;
const auto name
{
lstrip(dir, prefix)
};
const auto checkpoints
{
fs::ls(dir)
};
for(const auto &cpdir : checkpoints) try
{
const auto checkpoint
{
lstrip(lstrip(cpdir, dir), '/') //TODO: x-platform
};
auto path
{
db::path(name, lex_cast<uint64_t>(checkpoint))
};
ret.emplace_back(std::move(path));
}
catch(const bad_lex_cast &e)
{
continue;
}
}
return ret;
}
std::string
ircd::db::path(const string_view &name)
{
const auto pair
{
namepoint(name)
};
return path(pair.first, pair.second);
}
std::string
ircd::db::path(const string_view &name,
const uint64_t &checkpoint)
{
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const auto &prefix
{
fs::base::db
};
const string_view parts[]
{
prefix, name, lex_cast(checkpoint)
};
return fs::path_string(parts);
}
std::pair<ircd::string_view, uint64_t>
ircd::db::namepoint(const string_view &name_)
{
const auto s
{
split(name_, ':')
};
return
{
s.first,
s.second? lex_cast<uint64_t>(s.second) : uint64_t(-1)
};
}
std::string
ircd::db::namepoint(const string_view &name,
const uint64_t &checkpoint)
{
return std::string{name} + ':' + std::string{lex_cast(checkpoint)};
}
//
// Iterator
//
[[gnu::hot]]
std::pair<ircd::string_view, ircd::string_view>
ircd::db::operator*(const rocksdb::Iterator &it)
{
return { key(it), val(it) };
}
[[gnu::hot]]
ircd::string_view
ircd::db::key(const rocksdb::Iterator &it)
{
return slice(it.key());
}
[[gnu::hot]]
ircd::string_view
ircd::db::val(const rocksdb::Iterator &it)
{
return slice(it.value());
}
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//
// PinnableSlice
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//
[[gnu::hot]]
size_t
ircd::db::size(const rocksdb::PinnableSlice &ps)
{
return size(static_cast<const rocksdb::Slice &>(ps));
}
[[gnu::hot]]
const char *
ircd::db::data(const rocksdb::PinnableSlice &ps)
{
return data(static_cast<const rocksdb::Slice &>(ps));
}
[[gnu::hot]]
ircd::string_view
ircd::db::slice(const rocksdb::PinnableSlice &ps)
{
return slice(static_cast<const rocksdb::Slice &>(ps));
}
//
// Slice
//
[[gnu::hot]]
size_t
ircd::db::size(const rocksdb::Slice &slice)
{
return slice.size();
}
[[gnu::hot]]
const char *
ircd::db::data(const rocksdb::Slice &slice)
{
return slice.data();
}
[[gnu::hot]]
rocksdb::Slice
ircd::db::slice(const string_view &sv)
{
return { sv.data(), sv.size() };
}
[[gnu::hot]]
ircd::string_view
ircd::db::slice(const rocksdb::Slice &sk)
{
return { sk.data(), sk.size() };
}
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//
// reflect
//
const std::string &
ircd::db::reflect(const rocksdb::Tickers &type)
{
const auto &names(rocksdb::TickersNameMap);
const auto it(std::find_if(begin(names), end(names), [&type]
(const auto &pair)
{
return pair.first == type;
}));
static const auto empty{"<ticker>?????"s};
return it != end(names)? it->second : empty;
}
const std::string &
ircd::db::reflect(const rocksdb::Histograms &type)
{
const auto &names(rocksdb::HistogramsNameMap);
const auto it(std::find_if(begin(names), end(names), [&type]
(const auto &pair)
{
return pair.first == type;
}));
static const auto empty{"<histogram>?????"s};
return it != end(names)? it->second : empty;
}
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ircd::string_view
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ircd::db::reflect(const pos &pos)
{
switch(pos)
{
case pos::NEXT: return "NEXT";
case pos::PREV: return "PREV";
case pos::FRONT: return "FRONT";
case pos::BACK: return "BACK";
case pos::END: return "END";
}
return "?????";
}
ircd::string_view
ircd::db::reflect(const op &op)
{
switch(op)
{
case op::GET: return "GET";
case op::SET: return "SET";
case op::MERGE: return "MERGE";
case op::DELETE_RANGE: return "DELETE_RANGE";
case op::DELETE: return "DELETE";
case op::SINGLE_DELETE: return "SINGLE_DELETE";
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}
return "?????";
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}
ircd::string_view
ircd::db::reflect(const rocksdb::FlushReason &r)
{
using FlushReason = rocksdb::FlushReason;
switch(r)
{
case FlushReason::kOthers: return "Others";
case FlushReason::kGetLiveFiles: return "GetLiveFiles";
case FlushReason::kShutDown: return "ShutDown";
case FlushReason::kExternalFileIngestion: return "ExternalFileIngestion";
case FlushReason::kManualCompaction: return "ManualCompaction";
case FlushReason::kWriteBufferManager: return "WriteBufferManager";
case FlushReason::kWriteBufferFull: return "WriteBufferFull";
case FlushReason::kTest: return "Test";
case FlushReason::kDeleteFiles: return "DeleteFiles";
case FlushReason::kAutoCompaction: return "AutoCompaction";
case FlushReason::kManualFlush: return "ManualFlush";
case FlushReason::kErrorRecovery: return "kErrorRecovery";
}
return "??????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::CompactionReason &r)
{
using CompactionReason = rocksdb::CompactionReason;
switch(r)
{
case CompactionReason::kUnknown: return "Unknown";
case CompactionReason::kLevelL0FilesNum: return "LevelL0FilesNum";
case CompactionReason::kLevelMaxLevelSize: return "LevelMaxLevelSize";
case CompactionReason::kUniversalSizeAmplification: return "UniversalSizeAmplification";
case CompactionReason::kUniversalSizeRatio: return "UniversalSizeRatio";
case CompactionReason::kUniversalSortedRunNum: return "UniversalSortedRunNum";
case CompactionReason::kFIFOMaxSize: return "FIFOMaxSize";
case CompactionReason::kFIFOReduceNumFiles: return "FIFOReduceNumFiles";
case CompactionReason::kFIFOTtl: return "FIFOTtl";
case CompactionReason::kManualCompaction: return "ManualCompaction";
case CompactionReason::kFilesMarkedForCompaction: return "FilesMarkedForCompaction";
case CompactionReason::kBottommostFiles: return "BottommostFiles";
case CompactionReason::kTtl: return "Ttl";
case CompactionReason::kFlush: return "Flush";
case CompactionReason::kExternalSstIngestion: return "ExternalSstIngestion";
#ifdef IRCD_DB_HAS_PERIODIC_COMPACTIONS
case CompactionReason::kPeriodicCompaction: return "kPeriodicCompaction";
#endif
case CompactionReason::kNumOfReasons:
break;
}
return "??????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::BackgroundErrorReason &r)
{
using rocksdb::BackgroundErrorReason;
switch(r)
{
case BackgroundErrorReason::kFlush: return "FLUSH";
case BackgroundErrorReason::kCompaction: return "COMPACTION";
case BackgroundErrorReason::kWriteCallback: return "WRITE";
case BackgroundErrorReason::kMemTable: return "MEMTABLE";
#if 0 // unreleased
case BackgroundErrorReason::kManifestWrite: return "MANIFESTWRITE";
#endif
}
return "??????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::WriteStallCondition &c)
{
using rocksdb::WriteStallCondition;
switch(c)
{
case WriteStallCondition::kNormal: return "NORMAL";
case WriteStallCondition::kDelayed: return "DELAYED";
case WriteStallCondition::kStopped: return "STOPPED";
}
return "??????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::Env::Priority &p)
{
switch(p)
{
2018-04-09 21:55:22 +02:00
case rocksdb::Env::Priority::BOTTOM: return "BOTTOM"_sv;
case rocksdb::Env::Priority::LOW: return "LOW"_sv;
case rocksdb::Env::Priority::HIGH: return "HIGH"_sv;
#ifdef IRCD_DB_HAS_ENV_PRIO_USER
case rocksdb::Env::Priority::USER: return "USER"_sv;
#endif
case rocksdb::Env::Priority::TOTAL: assert(0); break;
}
return "????"_sv;
}
ircd::string_view
ircd::db::reflect(const rocksdb::Env::IOPriority &p)
{
switch(p)
{
case rocksdb::Env::IOPriority::IO_LOW: return "IO_LOW"_sv;
case rocksdb::Env::IOPriority::IO_HIGH: return "IO_HIGH"_sv;
case rocksdb::Env::IOPriority::IO_TOTAL: break;
}
return "IO_????"_sv;
}
ircd::string_view
ircd::db::reflect(const rocksdb::Env::WriteLifeTimeHint &h)
{
using WriteLifeTimeHint = rocksdb::Env::WriteLifeTimeHint;
switch(h)
{
case WriteLifeTimeHint::WLTH_NOT_SET: return "NOT_SET";
case WriteLifeTimeHint::WLTH_NONE: return "NONE";
case WriteLifeTimeHint::WLTH_SHORT: return "SHORT";
case WriteLifeTimeHint::WLTH_MEDIUM: return "MEDIUM";
case WriteLifeTimeHint::WLTH_LONG: return "LONG";
case WriteLifeTimeHint::WLTH_EXTREME: return "EXTREME";
}
return "WLTH_????"_sv;
}
ircd::string_view
ircd::db::reflect(const rocksdb::Status::Severity &s)
{
using Severity = rocksdb::Status::Severity;
switch(s)
{
case Severity::kNoError: return "NONE";
case Severity::kSoftError: return "SOFT";
case Severity::kHardError: return "HARD";
case Severity::kFatalError: return "FATAL";
case Severity::kUnrecoverableError: return "UNRECOVERABLE";
case Severity::kMaxSeverity: break;
}
return "?????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::Status::Code &s)
{
using Code = rocksdb::Status::Code;
switch(s)
{
case Code::kOk: return "Ok";
case Code::kNotFound: return "NotFound";
case Code::kCorruption: return "Corruption";
case Code::kNotSupported: return "NotSupported";
case Code::kInvalidArgument: return "InvalidArgument";
case Code::kIOError: return "IOError";
case Code::kMergeInProgress: return "MergeInProgress";
case Code::kIncomplete: return "Incomplete";
case Code::kShutdownInProgress: return "ShutdownInProgress";
case Code::kTimedOut: return "TimedOut";
case Code::kAborted: return "Aborted";
case Code::kBusy: return "Busy";
case Code::kExpired: return "Expired";
case Code::kTryAgain: return "TryAgain";
case Code::kCompactionTooLarge: return "CompactionTooLarge";
#if ROCKSDB_MAJOR > 6 \
|| (ROCKSDB_MAJOR == 6 && ROCKSDB_MINOR > 3) \
|| (ROCKSDB_MAJOR == 6 && ROCKSDB_MINOR == 3 && ROCKSDB_PATCH >= 6)
case Code::kColumnFamilyDropped: return "ColumnFamilyDropped";
case Code::kMaxCode: break;
#endif
}
return "?????";
}
ircd::string_view
ircd::db::reflect(const rocksdb::RandomAccessFile::AccessPattern &p)
{
switch(p)
{
case rocksdb::RandomAccessFile::AccessPattern::NORMAL: return "NORMAL"_sv;
case rocksdb::RandomAccessFile::AccessPattern::RANDOM: return "RANDOM"_sv;
case rocksdb::RandomAccessFile::AccessPattern::SEQUENTIAL: return "SEQUENTIAL"_sv;
case rocksdb::RandomAccessFile::AccessPattern::WILLNEED: return "WILLNEED"_sv;
case rocksdb::RandomAccessFile::AccessPattern::DONTNEED: return "DONTNEED"_sv;
}
return "??????"_sv;
}