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construct/matrix/vm_fetch.cc

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// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2020 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. The
// full license for this software is available in the LICENSE file.
namespace ircd::m::vm::fetch
{
static void prev_check(const event &, vm::eval &);
static bool prev_wait(const event &, vm::eval &);
static std::forward_list<ctx::future<m::fetch::result>> prev_fetch(const event &, vm::eval &, const room &);
static void prev(const event &, vm::eval &, const room &);
static std::forward_list<ctx::future<m::fetch::result>> state_fetch(const event &, vm::eval &, const room &);
static void state(const event &, vm::eval &, const room &);
static void auth_chain_eval(const event &, vm::eval &, const room &, const json::array &, const string_view &);
static void auth_chain(const event &, vm::eval &, const room &);
static void auth(const event &, vm::eval &, const room &);
static void handle(const event &, vm::eval &);
extern conf::item<milliseconds> prev_fetch_check_interval;
extern conf::item<milliseconds> prev_wait_time;
extern conf::item<size_t> prev_wait_count;
extern conf::item<size_t> prev_backfill_limit;
extern conf::item<seconds> event_timeout;
extern conf::item<seconds> state_timeout;
extern conf::item<seconds> auth_timeout;
extern conf::item<bool> enable;
extern hookfn<vm::eval &> auth_hook;
extern hookfn<vm::eval &> prev_hook;
extern hookfn<vm::eval &> state_hook;
extern log::log log;
}
decltype(ircd::m::vm::fetch::log)
ircd::m::vm::fetch::log
{
"m.vm.fetch"
};
decltype(ircd::m::vm::fetch::auth_hook)
ircd::m::vm::fetch::auth_hook
{
handle,
{
{ "_site", "vm.fetch.auth" }
}
};
decltype(ircd::m::vm::fetch::prev_hook)
ircd::m::vm::fetch::prev_hook
{
handle,
{
{ "_site", "vm.fetch.prev" }
}
};
decltype(ircd::m::vm::fetch::state_hook)
ircd::m::vm::fetch::state_hook
{
handle,
{
{ "_site", "vm.fetch.state" }
}
};
decltype(ircd::m::vm::fetch::enable)
ircd::m::vm::fetch::enable
{
{ "name", "ircd.m.vm.fetch.enable" },
{ "default", true },
};
decltype(ircd::m::vm::fetch::auth_timeout)
ircd::m::vm::fetch::auth_timeout
{
{ "name", "ircd.m.vm.fetch.auth.timeout" },
{ "default", 15L },
};
decltype(ircd::m::vm::fetch::state_timeout)
ircd::m::vm::fetch::state_timeout
{
{ "name", "ircd.m.vm.fetch.state.timeout" },
{ "default", 20L },
};
decltype(ircd::m::vm::fetch::event_timeout)
ircd::m::vm::fetch::event_timeout
{
{ "name", "ircd.m.vm.fetch.event.timeout" },
{ "default", 10L },
};
decltype(ircd::m::vm::fetch::prev_backfill_limit)
ircd::m::vm::fetch::prev_backfill_limit
{
{ "name", "ircd.m.vm.fetch.prev.backfill.limit" },
{ "default", 128L },
};
decltype(ircd::m::vm::fetch::prev_wait_count)
ircd::m::vm::fetch::prev_wait_count
{
{ "name", "ircd.m.vm.fetch.prev.wait.count" },
{ "default", 4L },
};
decltype(ircd::m::vm::fetch::prev_wait_time)
ircd::m::vm::fetch::prev_wait_time
{
{ "name", "ircd.m.vm.fetch.prev.wait.time" },
{ "default", 200L },
};
decltype(ircd::m::vm::fetch::prev_fetch_check_interval)
ircd::m::vm::fetch::prev_fetch_check_interval
{
{ "name", "ircd.m.vm.fetch.prev.fetch.check_interval" },
{ "default", 500L },
};
//
// fetch_phase
//
void
ircd::m::vm::fetch::handle(const event &event,
vm::eval &eval)
try
{
if(eval.room_internal)
return;
assert(eval.opts);
const auto &opts
{
*eval.opts
};
const auto &type
{
at<"type"_>(event)
};
if(type == "m.room.create")
return;
const m::event::id &event_id
{
event.event_id
};
const m::room::id &room_id
{
at<"room_id"_>(event)
};
// Can't construct m::room with the event_id argument because it
// won't be found (we're evaluating that event here!) so we just set
// the member manually to make further use of the room struct.
m::room room{room_id};
room.event_id = event_id;
if(eval.phase == phase::FETCH_AUTH)
return auth(event, eval, room);
if(eval.phase == phase::FETCH_PREV)
return prev(event, eval, room);
if(eval.phase == phase::FETCH_STATE)
return state(event, eval, room);
}
catch(const std::exception &e)
{
log::derror
{
log, "%s :%s",
loghead(eval),
e.what(),
};
throw;
}
//
// auth_events handler stack
//
void
ircd::m::vm::fetch::auth(const event &event,
vm::eval &eval,
const room &room)
try
{
// Count how many of the auth_events provided exist locally.
const auto &opts{*eval.opts};
const event::prev prev{event};
const size_t auth_count
{
prev.auth_events_count()
};
const size_t auth_exists
{
prev.auth_events_exist()
};
// We are satisfied at this point if all auth_events for this event exist,
// as those events have themselves been successfully evaluated and so forth.
assert(auth_exists <= auth_count);
if(auth_exists == auth_count)
return;
// At this point we are missing one or more auth_events for this event.
log::dwarning
{
log, "%s auth_events:%zu miss:%zu",
loghead(eval),
auth_count,
auth_count - auth_exists,
};
if(!bool(m::vm::fetch::enable))
throw vm::error
{
vm::fault::AUTH, "Fetching auth_events disabled by configuration",
};
// This is a blocking call to recursively fetch and evaluate the auth_chain
// for this event. Upon return all of the auth_events for this event will
// have themselves been fetched and auth'ed recursively.
auth_chain(event, eval, room);
}
catch(const std::exception &e)
{
throw vm::error
{
vm::fault::AUTH, "Failed to fetch all auth_events :%s",
string_view{event.event_id},
json::get<"room_id"_>(event),
e.what()
};
}
void
ircd::m::vm::fetch::auth_chain(const event &event,
vm::eval &eval,
const room &room)
try
{
assert(eval.opts);
m::fetch::opts opts;
opts.op = m::fetch::op::auth;
opts.room_id = room.room_id;
opts.event_id = room.event_id;
opts.check_hashes = false;
// Figure out a remote hint as the primary target to request the missing
// auth events from; if provided, m::fetch will ask this remote first. We
// try to use the eval.node_id, which is set to a server that is conducting
// the eval (i.e in a /send/ or when processing some response data from
// them); next we try the origin of the event itself. These remotes are
// most likely to provide a satisfying response.
opts.hint =
{
!my_host(eval.opts->node_id)?
eval.opts->node_id:
event.event_id.host() && !my_host(event.event_id.host())?
event.event_id.host():
!my_host(json::get<"origin"_>(event))?
string_view(json::get<"origin"_>(event)):
room.room_id.host() && !my_host(room.room_id.host())?
room.room_id.host():
string_view{}
};
log::debug
{
log, "Fetching auth chain for %s in %s hint:%s",
string_view{room.event_id},
string_view{room.room_id},
opts.hint,
};
// send
auto future
{
m::fetch::start(opts)
};
// recv
const auto result
{
future.get(seconds(auth_timeout))
};
const json::object response
{
result
};
// parse
const json::array &auth_chain
{
response["auth_chain"]
};
auth_chain_eval(event, eval, room, auth_chain, result.origin);
}
catch(const vm::error &e)
{
throw;
}
catch(const std::exception &e)
{
log::error
{
log, "Fetching auth chain for %s in %s :%s",
string_view{room.event_id},
string_view{room.room_id},
e.what(),
};
throw;
}
void
ircd::m::vm::fetch::auth_chain_eval(const event &event,
vm::eval &eval,
const room &room,
const json::array &auth_chain,
const string_view &origin)
try
{
assert(eval.opts);
auto opts(*eval.opts);
opts.fetch = false;
opts.infolog_accept = true;
opts.warnlog &= ~vm::fault::EXISTS;
opts.notify_servers = false;
opts.node_id = origin;
log::debug
{
log, "Evaluating auth chain for %s in %s events:%zu",
string_view{room.event_id},
string_view{room.room_id},
auth_chain.size(),
};
// eval
m::vm::eval
{
auth_chain, opts
};
}
catch(const std::exception &e)
{
log::error
{
log, "Evaluating auth chain for %s in %s :%s",
string_view{room.event_id},
string_view{room.room_id},
e.what(),
};
throw;
}
//
// state handler stack
//
void
ircd::m::vm::fetch::state(const event &event,
vm::eval &eval,
const room &room)
try
{
const auto &opts{*eval.opts};
const event::prev prev
{
event
};
const bool prev_exist
{
prev.prev_exist()
};
if(opts.fetch_state_any)
if(prev_exist && prev.prev_events_count() == prev.prev_events_exist())
return;
if(likely(!opts.fetch_state_any))
if(prev_exist)
return;
if(likely(!opts.fetch_state_shallow))
{
const auto &[sounding_depth, sounding_idx]
{
m::sounding(room.room_id)
};
if(at<"depth"_>(event) > sounding_depth)
return;
}
log::dwarning
{
log, "%s fetching possible missing state in %s",
loghead(eval),
string_view{room.room_id},
};
auto futures
{
state_fetch(event, eval, room)
};
if(!std::distance(begin(futures), end(futures)))
return;
auto fetching
{
ctx::when_all(begin(futures), end(futures))
};
log::warning
{
log, "%s fetching %zu missing state events in %s",
loghead(eval),
std::distance(begin(futures), end(futures)),
string_view{room.room_id},
};
// yields context
const bool done
{
fetching.wait(seconds(state_timeout), std::nothrow)
};
// evaluate results
size_t good(0), fail(0);
for(auto &future : futures) try
{
m::fetch::result result
{
future.get()
};
const json::object content
{
result
};
const json::array &pdus
{
content["pdus"]
};
auto opts(*eval.opts);
opts.phase.set(m::vm::phase::FETCH_PREV, false);
opts.phase.set(m::vm::phase::FETCH_STATE, false);
opts.node_id = result.origin;
opts.notify_servers = false;
// The result won't give us events with a content hash mismatch unless
// they were obtained from an authoritative source. For this we can
// unconditionally allow hash mismatch from here.
opts.redacted = 1;
vm::eval
{
pdus, opts
};
++good;
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
++fail;
log::derror
{
log, "%s state eval :%s",
loghead(eval),
e.what(),
};
}
log::info
{
log, "%s evaluated missing state in %s fetched:%zu good:%zu fail:%zu",
loghead(eval),
string_view{room.room_id},
std::distance(begin(futures), end(futures)),
good,
fail,
};
}
catch(const std::exception &e)
{
log::error
{
log, "%s state fetch in %s :%s",
loghead(eval),
string_view{room.room_id},
e.what(),
};
throw;
}
std::forward_list
<
ircd::ctx::future<ircd::m::fetch::result>
>
ircd::m::vm::fetch::state_fetch(const event &event,
vm::eval &eval,
const room &room)
{
feds::opts opts;
opts.op = feds::op::state;
opts.event_id = room.event_id;
opts.room_id = room.room_id;
opts.arg[0] = "ids";
opts.exclude_myself = true;
opts.closure_errors = false;
opts.nothrow_closure = true;
log::debug
{
log, "%s acquire state event ids in %s...",
loghead(eval),
string_view{room.room_id},
};
std::set<std::string, std::less<>> req;
std::forward_list<ctx::future<m::fetch::result>> ret;
feds::execute(opts, [&eval, &ret, &req]
(const auto &result)
{
const auto each_state_id{[&eval, &ret, &req, &result]
(const m::event::id &event_id)
{
auto it(req.lower_bound(event_id));
if(it != end(req) && *it == event_id)
return;
req.emplace_hint(it, event_id);
m::fetch::opts opts;
opts.op = m::fetch::op::event;
opts.room_id = result.request->room_id;
opts.event_id = event_id;
opts.hint =
{
!my_host(eval.opts->node_id)?
eval.opts->node_id:
!my_host(result.origin)?
result.origin:
string_view{}
};
ret.emplace_front(m::fetch::start(opts));
assert(std::distance(begin(ret), end(ret)) <= ssize_t(req.size()));
log::debug
{
log, "%s requesting state event %s off %s in %s reqs:%zu",
loghead(eval),
string_view{event_id},
string_view{result.request->event_id},
string_view{result.request->room_id},
};
}};
const auto each_state_set{[&each_state_id]
(const json::array &ids)
{
event::id event_id[32]; //TODO conf
auto it(begin(ids)); do
{
size_t i(0);
for(; i < 32 && it != end(ids); ++it)
event_id[i++] = json::string{*it};
const vector_view<const event::id> event_ids
(
event_id, i
);
const uint64_t exists
{
m::exists(event_ids)
};
for(size_t j(0); j < i; ++j)
if(~exists & (1UL << j))
each_state_id(event_id[j]);
}
while(it != end(ids));
}};
const json::array &auth_chain_ids
{
result.object["auth_chain_ids"]
};
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const json::array &pdu_ids
{
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result.object["pdu_ids"]
};
each_state_set(auth_chain_ids);
each_state_set(pdu_ids);
return true;
});
return ret;
}
//
// prev_events handler stack
//
void
ircd::m::vm::fetch::prev(const event &event,
vm::eval &eval,
const room &room)
{
const auto &opts{*eval.opts};
const event::prev prev{event};
const size_t prev_count
{
prev.prev_events_count()
};
const size_t prev_exists
{
prev.prev_events_exist()
};
assert(prev_exists <= prev_count);
if(prev_count == prev_exists)
return;
// Attempt to wait for missing prev_events without issuing fetches here.
if(prev_wait(event, eval))
return;
if(!m::vm::fetch::enable)
{
prev_check(event, eval);
return;
}
auto futures
{
prev_fetch(event, eval, room)
};
// At this point one or more prev_events are missing; the fetches were
// launched asynchronously if the options allowed for it.
log::dwarning
{
log, "%s depth:%ld prev_events:%zu miss:%zu fetching:%zu fetching ...",
loghead(eval),
at<"depth"_>(event),
prev_count,
prev_count - prev_exists,
std::distance(begin(futures), end(futures)),
};
auto fetching
{
ctx::when_all(begin(futures), end(futures))
};
const auto timeout
{
now<system_point>() + seconds(event_timeout)
};
const milliseconds &check_interval
{
prev_fetch_check_interval
};
// Rather than waiting for all of the events to arrive or for the entire
// timeout to expire, we check if the sought events made it to the server
// in the meantime. If so we can drop these requests and bail.
//TODO: Ideally should be replaced with listener/notification/hook on the
//TODO: events arriving rather than this coarse sleep cycles.
while(now<system_point>() < timeout)
{
// Wait for an interval to give this loop some iterations.
if(fetching.wait(check_interval, std::nothrow))
break;
// Check for satisfaction.
if(prev.prev_events_exist() == prev_count)
return;
}
// evaluate results
for(auto &future : futures) try
{
m::fetch::result result
{
future.get()
};
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const json::object content
{
result
};
const json::array &pdus
{
2020-04-17 03:53:18 +02:00
content["pdus"]
};
auto opts(*eval.opts);
opts.phase.set(m::vm::phase::FETCH_PREV, false);
opts.phase.set(m::vm::phase::FETCH_STATE, false);
opts.notify_servers = false;
opts.node_id = result.origin;
log::debug
{
log, "%s fetched %zu pdus; evaluating...",
loghead(eval),
pdus.size(),
};
vm::eval
{
pdus, opts
};
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
log::derror
{
log, "%s prev fetch/eval :%s",
loghead(eval),
e.what(),
};
}
// check if result evals have satisfied this eval now; or throw
prev_check(event, eval);
}
std::forward_list
<
ircd::ctx::future<ircd::m::fetch::result>
>
ircd::m::vm::fetch::prev_fetch(const event &event,
vm::eval &eval,
const room &room)
{
const long room_depth
{
m::depth(std::nothrow, room)
};
const long viewport_depth
{
room_depth - room::events::viewport_size
};
std::forward_list
<
ctx::future<m::fetch::result>
>
ret;
const event::prev prev{event};
for(size_t i(0); i < prev.prev_events_count(); ++i) try
{
const auto &prev_id
{
prev.prev_event(i)
};
if(m::exists(prev_id))
continue;
const long depth_gap
{
std::max(std::abs(at<"depth"_>(event) - room_depth), 1L)
};
m::fetch::opts opts;
opts.op = m::fetch::op::backfill;
opts.room_id = room.room_id;
opts.event_id = prev_id;
opts.backfill_limit = size_t(depth_gap);
opts.backfill_limit = std::min(opts.backfill_limit, eval.opts->fetch_prev_limit);
opts.backfill_limit = std::min(opts.backfill_limit, size_t(prev_backfill_limit));
log::debug
{
log, "%s requesting backfill off %s; depth:%ld viewport:%ld room:%ld gap:%ld limit:%zu",
loghead(eval),
string_view{prev_id},
at<"depth"_>(event),
viewport_depth,
room_depth,
depth_gap,
opts.backfill_limit,
};
ret.emplace_front(m::fetch::start(opts));
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
log::derror
{
log, "%s requesting backfill off prev %s; depth:%ld :%s",
loghead(eval),
string_view{prev.prev_event(i)},
json::get<"depth"_>(event),
e.what(),
};
}
return ret;
}
//TODO: Adjust when PDU lookahead/lookaround is fixed in the vm::eval iface.
//TODO: Wait on another eval completion instead of just coarse sleep()'s.
bool
ircd::m::vm::fetch::prev_wait(const event &event,
vm::eval &eval)
{
const auto &opts(*eval.opts);
const event::prev prev(event);
const size_t prev_count
{
prev.prev_events_count()
};
const size_t &wait_count
{
ssize_t(opts.fetch_prev_wait_count) >= 0?
opts.fetch_prev_wait_count:
size_t(prev_wait_count)
};
const milliseconds &wait_time
{
opts.fetch_prev_wait_time >= 0ms?
opts.fetch_prev_wait_time:
milliseconds(prev_wait_time)
};
size_t i(0); while(i < wait_count)
{
sleep(milliseconds(++i * wait_time));
if(prev_count == prev.prev_events_exist())
return true;
}
return false;
}
void
ircd::m::vm::fetch::prev_check(const event &event,
vm::eval &eval)
{
const auto &opts
{
*eval.opts
};
const event::prev prev
{
event
};
const size_t prev_exists
{
prev.prev_events_exist()
};
// Aborts this event if the options want us to guarantee at least one
// prev_event was fetched and evaluated for this event. This is generally
// used in conjunction with the fetch_prev_wait option to be effective.
if(opts.fetch_prev_any && !prev_exists)
throw vm::error
{
vm::fault::EVENT, "Failed to fetch any of the %zu prev_events for %s in %s",
prev.prev_events_count(),
string_view{event.event_id},
json::get<"room_id"_>(event)
};
// Aborts this event if the options want us to guarantee ALL of the
// prev_events were fetched and evaluated for this event.
if(opts.fetch_prev_all && prev_exists < prev.prev_events_count())
throw vm::error
{
vm::fault::EVENT, "Missing %zu of %zu required prev_events for %s in %s",
prev_exists,
prev.prev_events_count(),
string_view{event.event_id},
json::get<"room_id"_>(event)
};
}