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construct/ircd/db.cc

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/*
* Copyright (C) 2016 Charybdis Development Team
* Copyright (C) 2016 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
* copyright notice and this permission notice is present in all copies.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
* IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*/
#include <rocksdb/db.h>
#include <rocksdb/cache.h>
namespace ircd {
namespace db {
struct log::log log
{
"db", 'D' // Database subsystem takes SNOMASK +D
};
void throw_on_error(const rocksdb::Status &);
bool valid(const rocksdb::Iterator &);
void valid_or_throw(const rocksdb::Iterator &);
void valid_equal_or_throw(const rocksdb::Iterator &, const rocksdb::Slice &);
const auto BLOCKING = rocksdb::ReadTier::kReadAllTier;
const auto NON_BLOCKING = rocksdb::ReadTier::kBlockCacheTier;
enum class pos
{
FRONT = -2, // .front() | first element
PREV = -1, // std::prev() | previous element
END = 0, // break; | exit iteration (or past the end)
NEXT = 1, // continue; | next element
BACK = 2, // .back() | last element
};
void seek(rocksdb::Iterator &, const pos &);
void seek(rocksdb::Iterator &, const rocksdb::Slice &);
template<class pos> void seek(rocksdb::DB &, const pos &, rocksdb::ReadOptions &, std::unique_ptr<rocksdb::Iterator> &);
std::unique_ptr<rocksdb::Iterator> seek(rocksdb::DB &, const rocksdb::Slice &, rocksdb::ReadOptions &);
// This is important to prevent thrashing the iterators which have to reset on iops
const auto DEFAULT_READAHEAD = 4_MiB;
rocksdb::WriteOptions make_opts(const sopts &);
rocksdb::ReadOptions make_opts(const gopts &, const bool &iterator = false);
rocksdb::Options make_opts(const opts &);
struct meta
{
std::string name;
std::string path;
rocksdb::Options opts;
std::shared_ptr<rocksdb::Cache> cache;
};
} // namespace db
} // namespace ircd
using namespace ircd;
db::init::init()
{
}
db::init::~init()
noexcept
{
}
db::handle::handle(const std::string &name,
const opts &opts)
try
:meta{[&name, &opts]
{
auto meta(std::make_unique<struct meta>());
meta->name = name;
meta->path = path(name);
meta->opts = make_opts(opts);
const auto lru_cache_size(opt_val(opts, opt::LRU_CACHE));
if(lru_cache_size > 0)
meta->cache = rocksdb::NewLRUCache(lru_cache_size);
meta->opts.row_cache = meta->cache;
return std::move(meta);
}()}
,d{[this]
{
rocksdb::DB *ptr;
throw_on_error(rocksdb::DB::Open(meta->opts, meta->path, &ptr));
return std::unique_ptr<rocksdb::DB>{ptr};
}()}
{
log.info("Opened database \"%s\" @ `%s' (handle: %p)",
meta->name.c_str(),
meta->path.c_str(),
(const void *)this);
}
catch(const invalid_argument &e)
{
const bool no_create(has_opt(opts, opt::NO_CREATE));
const bool no_existing(has_opt(opts, opt::NO_EXISTING));
const char *const helpstr
{
no_create? " (The database is missing and will not be created)":
no_existing? " (The database already exists but must be fresh)":
""
};
throw error("Failed to open db '%s': %s%s",
name.c_str(),
e.what(),
helpstr);
}
catch(const std::exception &e)
{
throw error("Failed to open db '%s': %s",
name.c_str(),
e.what());
}
db::handle::~handle()
noexcept
{
}
void
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db::handle::del(const std::string &key,
const sopts &sopts)
{
using rocksdb::Slice;
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auto opts(make_opts(sopts));
const Slice k(key.data(), key.size());
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throw_on_error(d->Delete(opts, k));
}
void
db::handle::set(const std::string &key,
const std::string &value,
const sopts &sopts)
{
set(key, value.data(), value.size(), sopts);
}
void
db::handle::set(const std::string &key,
const uint8_t *const &buf,
const size_t &size,
const sopts &sopts)
{
set(key, reinterpret_cast<const char *>(buf), size, sopts);
}
void
db::handle::set(const std::string &key,
const char *const &buf,
const size_t &size,
const sopts &sopts)
{
using rocksdb::Slice;
auto opts(make_opts(sopts));
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const Slice k(key.data(), key.size());
const Slice v(buf, size);
throw_on_error(d->Put(opts, k, v));
}
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std::string
db::handle::get(const std::string &key,
const gopts &gopts)
{
std::string ret;
const auto copy([&ret]
(const char *const &src, const size_t &size)
{
ret.assign(src, size);
});
get(key, copy, gopts);
return ret;
}
size_t
db::handle::get(const std::string &key,
uint8_t *const &buf,
const size_t &max,
const gopts &gopts)
{
size_t ret(0);
const auto copy([&ret, &buf, &max]
(const char *const &src, const size_t &size)
{
ret = std::min(size, max);
memcpy(buf, src, ret);
});
get(key, copy, gopts);
return ret;
}
size_t
db::handle::get(const std::string &key,
char *const &buf,
const size_t &max,
const gopts &gopts)
{
size_t ret(0);
const auto copy([&ret, &buf, &max]
(const char *const &src, const size_t &size)
{
ret = rb_strlcpy(buf, src, std::min(size, max));
});
get(key, copy, gopts);
return ret;
}
void
db::handle::get(const std::string &key,
const closure &func,
const gopts &gopts)
{
using rocksdb::Slice;
using rocksdb::Iterator;
auto opts(make_opts(gopts));
const Slice sk(key.data(), key.size());
const auto it(seek(*d, sk, opts));
valid_equal_or_throw(*it, sk);
const auto &v(it->value());
func(v.data(), v.size());
}
bool
db::handle::has(const std::string &key,
const gopts &gopts)
{
using rocksdb::Slice;
using rocksdb::Status;
const Slice k(key.data(), key.size());
auto opts(make_opts(gopts));
// Perform queries which are stymied from any sysentry
opts.read_tier = NON_BLOCKING;
// Perform a co-RP query to the filtration
if(!d->KeyMayExist(opts, k, nullptr, nullptr))
return false;
// Perform a query to the cache
auto status(d->Get(opts, k, nullptr));
if(status.IsIncomplete())
{
// DB cache miss; next query requires I/O, offload it
opts.read_tier = BLOCKING;
ctx::offload([this, &opts, &k, &status]
{
status = d->Get(opts, k, nullptr);
});
}
// Finally the result
switch(status.code())
{
case Status::kOk: return true;
case Status::kNotFound: return false;
default:
throw_on_error(status);
__builtin_unreachable();
}
}
namespace ircd {
namespace db {
struct const_iterator::state
{
struct handle *handle;
rocksdb::ReadOptions ropts;
std::shared_ptr<const rocksdb::Snapshot> snap;
std::unique_ptr<rocksdb::Iterator> it;
state(struct handle *const & = nullptr, const gopts & = {});
};
} // namespace db
} // namespace ircd
db::const_iterator
db::handle::cend(const gopts &gopts)
{
return {};
}
db::const_iterator
db::handle::cbegin(const gopts &gopts)
{
const_iterator ret
{
std::make_unique<struct const_iterator::state>(this, gopts)
};
auto &state(*ret.state);
if(!has_opt(gopts, db::get::READAHEAD))
state.ropts.readahead_size = DEFAULT_READAHEAD;
seek(*state.handle->d, pos::FRONT, state.ropts, state.it);
return std::move(ret);
}
db::const_iterator
db::handle::upper_bound(const std::string &key,
const gopts &gopts)
{
using rocksdb::Slice;
auto it(lower_bound(key, gopts));
const Slice sk(key.data(), key.size());
if(it && it.state->it->key().compare(sk) == 0)
++it;
return std::move(it);
}
db::const_iterator
db::handle::lower_bound(const std::string &key,
const gopts &gopts)
{
using rocksdb::Slice;
const_iterator ret
{
std::make_unique<struct const_iterator::state>(this, gopts)
};
auto &state(*ret.state);
if(!has_opt(gopts, db::get::READAHEAD))
state.ropts.readahead_size = DEFAULT_READAHEAD;
const Slice sk(key.data(), key.size());
seek(*state.handle->d, sk, state.ropts, state.it);
return std::move(ret);
}
db::const_iterator::state::state(struct handle *const &handle,
const gopts &gopts)
:handle{handle}
,ropts{make_opts(gopts, true)}
,snap
{
[this, &handle, &gopts]() -> const rocksdb::Snapshot *
{
if(handle && !has_opt(gopts, get::NO_SNAPSHOT))
ropts.snapshot = handle->d->GetSnapshot();
return ropts.snapshot;
}()
,[this](const auto *const &snap)
{
if(this->handle && this->handle->d)
this->handle->d->ReleaseSnapshot(snap);
}
}
{
}
db::const_iterator::const_iterator(std::unique_ptr<struct state> &&state)
:state{std::move(state)}
{
}
db::const_iterator::const_iterator(const_iterator &&o)
noexcept
:state{std::move(o.state)}
{
}
db::const_iterator::~const_iterator()
noexcept
{
}
db::const_iterator &
db::const_iterator::operator--()
{
seek(*state->handle->d, pos::PREV, state->ropts, state->it);
return *this;
}
db::const_iterator &
db::const_iterator::operator++()
{
seek(*state->handle->d, pos::NEXT, state->ropts, state->it);
return *this;
}
const db::const_iterator::value_type &
db::const_iterator::operator*()
const
{
const auto &k(state->it->key());
val.first.first = k.data();
val.first.second = k.size();
const auto &v(state->it->value());
val.second.first = v.data();
val.second.second = v.size();
return val;
}
const db::const_iterator::value_type *
db::const_iterator::operator->()
const
{
return &operator*();
}
bool
db::const_iterator::operator>=(const const_iterator &o)
const
{
return (*this > o) || (*this == o);
}
bool
db::const_iterator::operator<=(const const_iterator &o)
const
{
return (*this < o) || (*this == o);
}
bool
db::const_iterator::operator!=(const const_iterator &o)
const
{
return !(*this == o);
}
bool
db::const_iterator::operator==(const const_iterator &o)
const
{
if(*this && o)
{
const auto &a(state->it->key());
const auto &b(o.state->it->key());
return a.compare(b) == 0;
}
if(!*this && !o)
return true;
return false;
}
bool
db::const_iterator::operator>(const const_iterator &o)
const
{
if(*this && o)
{
const auto &a(state->it->key());
const auto &b(o.state->it->key());
return a.compare(b) == 1;
}
if(!*this && o)
return true;
if(!*this && !o)
return false;
assert(!*this && o);
return false;
}
bool
db::const_iterator::operator<(const const_iterator &o)
const
{
if(*this && o)
{
const auto &a(state->it->key());
const auto &b(o.state->it->key());
return a.compare(b) == -1;
}
if(!*this && o)
return false;
if(!*this && !o)
return false;
assert(*this && !o);
return true;
}
bool
db::const_iterator::operator!()
const
{
if(!state)
return true;
if(!state->it)
return true;
if(!state->it->Valid())
return true;
return false;
}
db::const_iterator::operator bool()
const
{
return !!*this;
}
rocksdb::Options
db::make_opts(const opts &opts)
{
rocksdb::Options ret;
ret.create_if_missing = true; // They default this to false, but we invert the option
for(const auto &o : opts) switch(o.first)
{
case opt::NO_CREATE:
ret.create_if_missing = false;
continue;
case opt::NO_EXISTING:
ret.error_if_exists = true;
continue;
case opt::NO_CHECKSUM:
ret.paranoid_checks = false;
continue;
case opt::NO_MADV_DONTNEED:
ret.allow_os_buffer = false;
continue;
case opt::NO_MADV_RANDOM:
ret.advise_random_on_open = false;
continue;
case opt::FALLOCATE:
ret.allow_fallocate = true;
continue;
case opt::NO_FALLOCATE:
ret.allow_fallocate = false;
continue;
case opt::NO_FDATASYNC:
ret.disableDataSync = true;
continue;
case opt::FSYNC:
ret.use_fsync = true;
continue;
case opt::MMAP_READS:
ret.allow_mmap_reads = true;
continue;
case opt::MMAP_WRITES:
ret.allow_mmap_writes = true;
continue;
case opt::STATS_THREAD:
ret.enable_thread_tracking = true;
continue;
case opt::STATS_MALLOC:
ret.dump_malloc_stats = true;
continue;
case opt::OPEN_FAST:
ret.skip_stats_update_on_db_open = true;
continue;
case opt::OPEN_BULKLOAD:
ret.PrepareForBulkLoad();
continue;
case opt::OPEN_SMALL:
ret.OptimizeForSmallDb();
continue;
default:
continue;
}
return ret;
}
rocksdb::ReadOptions
db::make_opts(const gopts &opts,
const bool &iterator)
{
rocksdb::ReadOptions ret;
if(iterator)
ret.fill_cache = false;
for(const auto &opt : opts) switch(opt.first)
{
case get::PIN:
ret.pin_data = true;
continue;
case get::CACHE:
ret.fill_cache = true;
continue;
case get::NO_CACHE:
ret.fill_cache = false;
continue;
case get::NO_CHECKSUM:
ret.verify_checksums = false;
continue;
case get::READAHEAD:
ret.readahead_size = opt.second;
continue;
default:
continue;
}
return ret;
}
rocksdb::WriteOptions
db::make_opts(const sopts &opts)
{
rocksdb::WriteOptions ret;
for(const auto &opt : opts) switch(opt.first)
{
case set::FSYNC:
ret.sync = true;
continue;
case set::NO_JOURNAL:
ret.disableWAL = true;
continue;
case set::MISSING_COLUMNS:
ret.ignore_missing_column_families = true;
continue;
default:
continue;
}
return ret;
}
std::unique_ptr<rocksdb::Iterator>
db::seek(rocksdb::DB &db,
const rocksdb::Slice &key,
rocksdb::ReadOptions &opts)
{
using rocksdb::Iterator;
// Perform a query which won't be allowed to do kernel IO
opts.read_tier = NON_BLOCKING;
std::unique_ptr<Iterator> it(db.NewIterator(opts));
seek(*it, key);
if(it->status().IsIncomplete())
{
// DB cache miss: reset the iterator to blocking mode and offload it
opts.read_tier = BLOCKING;
it.reset(db.NewIterator(opts));
ctx::offload([&] { seek(*it, key); });
}
// else DB cache hit; no context switch; no thread switch; no kernel I/O; gg
return std::move(it);
}
template<class pos>
void
db::seek(rocksdb::DB &db,
const pos &p,
rocksdb::ReadOptions &opts,
std::unique_ptr<rocksdb::Iterator> &it)
{
// Start with a non-blocking query
if(!it || opts.read_tier == BLOCKING)
{
opts.read_tier = NON_BLOCKING;
it.reset(db.NewIterator(opts));
}
seek(*it, p);
if(it->status().IsIncomplete())
{
// DB cache miss: reset the iterator to blocking mode and offload it
opts.read_tier = BLOCKING;
it.reset(db.NewIterator(opts));
ctx::offload([&] { seek(*it, p); });
}
}
void
db::seek(rocksdb::Iterator &it,
const rocksdb::Slice &sk)
{
it.Seek(sk);
}
void
db::seek(rocksdb::Iterator &it,
const pos &p)
{
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();
break;
}
}
}
void
db::valid_equal_or_throw(const rocksdb::Iterator &it,
const rocksdb::Slice &sk)
{
valid_or_throw(it);
if(it.key().compare(sk) != 0)
throw not_found();
}
void
db::valid_or_throw(const rocksdb::Iterator &it)
{
if(!valid(it))
{
throw_on_error(it.status());
assert(0); // status == ok + !Valid() == ???
}
}
bool
db::valid(const rocksdb::Iterator &it)
{
return it.Valid();
}
void
db::throw_on_error(const rocksdb::Status &s)
{
using rocksdb::Status;
switch(s.code())
{
case Status::kOk: return;
case Status::kNotFound: throw not_found();
case Status::kCorruption: throw corruption();
case Status::kNotSupported: throw not_supported();
case Status::kInvalidArgument: throw invalid_argument();
case Status::kIOError: throw io_error();
case Status::kMergeInProgress: throw merge_in_progress();
case Status::kIncomplete: throw incomplete();
case Status::kShutdownInProgress: throw shutdown_in_progress();
case Status::kTimedOut: throw timed_out();
case Status::kAborted: throw aborted();
case Status::kBusy: throw busy();
case Status::kExpired: throw expired();
case Status::kTryAgain: throw try_again();
default:
throw error("Unknown error");
}
}
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std::string
db::path(const std::string &name)
{
const auto prefix(path::get(path::DB));
return path::build({prefix, name});
}