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construct/matrix/vm_execute.cc

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32 KiB
C++

// 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
// 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
{
template<class... args> static bool output(const vm::opts &, const vm::fault &, const string_view &event_id, const string_view &fmt, args&&...);
template<class... args> static fault handle_fault(const opts &, const fault &, const string_view &event_id, const string_view &fmt, args&&...);
template<class T> static void call_hook(hook::site<T> &, eval &, const event &, T&& data);
static void retire(eval &, const event &);
static void emption_check(eval &, const event &);
static size_t calc_txn_reserve(const opts &, const event &);
static void write_commit(eval &);
static void write_append(eval &, const event &, const bool &);
static fault execute_edu(eval &, const event &);
static fault execute_pdu(eval &, const event &);
static fault execute_du(eval &, const event &);
static fault execute(eval &, const event &);
static void fini();
static void init();
extern hook::site<eval &> issue_hook; ///< Called when this server is issuing event
extern hook::site<eval &> conform_hook; ///< Called for static evaluations of event
extern hook::site<eval &> access_hook; ///< Called for access control checking
extern hook::site<eval &> fetch_auth_hook; ///< Called to resolve dependencies
extern hook::site<eval &> fetch_prev_hook; ///< Called to resolve dependencies
extern hook::site<eval &> fetch_state_hook; ///< Called to resolve dependencies
extern hook::site<eval &> eval_hook; ///< Called for final event evaluation
extern hook::site<eval &> post_hook; ///< Called to apply effects pre-notify
extern hook::site<eval &> notify_hook; ///< Called to broadcast successful eval
extern hook::site<eval &> effect_hook; ///< Called to apply effects post-notify
extern conf::item<bool> log_commit_debug;
extern conf::item<bool> log_accept_debug;
extern conf::item<bool> log_accept_info;
}
decltype(ircd::m::vm::log_commit_debug)
ircd::m::vm::log_commit_debug
{
{ "name", "ircd.m.vm.log.commit.debug" },
{ "default", true },
};
decltype(ircd::m::vm::log_accept_debug)
ircd::m::vm::log_accept_debug
{
{ "name", "ircd.m.vm.log.accept.debug" },
{ "default", true },
};
decltype(ircd::m::vm::log_accept_info)
ircd::m::vm::log_accept_info
{
{ "name", "ircd.m.vm.log.accept.info" },
{ "default", false },
};
decltype(ircd::m::vm::issue_hook)
ircd::m::vm::issue_hook
{
{ "name", "vm.issue" }
};
decltype(ircd::m::vm::conform_hook)
ircd::m::vm::conform_hook
{
{ "name", "vm.conform" }
};
decltype(ircd::m::vm::access_hook)
ircd::m::vm::access_hook
{
{ "name", "vm.access" }
};
decltype(ircd::m::vm::fetch_auth_hook)
ircd::m::vm::fetch_auth_hook
{
{ "name", "vm.fetch.auth" }
};
decltype(ircd::m::vm::fetch_prev_hook)
ircd::m::vm::fetch_prev_hook
{
{ "name", "vm.fetch.prev" }
};
decltype(ircd::m::vm::fetch_state_hook)
ircd::m::vm::fetch_state_hook
{
{ "name", "vm.fetch.state" }
};
decltype(ircd::m::vm::eval_hook)
ircd::m::vm::eval_hook
{
{ "name", "vm.eval" }
};
decltype(ircd::m::vm::post_hook)
ircd::m::vm::post_hook
{
{ "name", "vm.post" }
};
decltype(ircd::m::vm::notify_hook)
ircd::m::vm::notify_hook
{
{ "name", "vm.notify" },
{ "exceptions", false },
{ "interrupts", false },
};
decltype(ircd::m::vm::effect_hook)
ircd::m::vm::effect_hook
{
{ "name", "vm.effect" },
{ "exceptions", false },
{ "interrupts", false },
};
//
// execute
//
ircd::m::vm::fault
ircd::m::vm::execute(eval &eval,
const json::array &pdus)
{
assert(eval.opts);
const auto &opts
{
*eval.opts
};
auto it(begin(pdus));
const bool empty
{
it == end(pdus)
};
if(unlikely(empty))
return fault::ACCEPT;
// Determine iff pdus.size()==1 without iterating the whole array
const bool single
{
std::next(begin(pdus)) == end(pdus)
};
if(likely(single))
{
const m::event event
{
json::object(*it)
};
return execute(eval, vector_view(&event, 1));
}
fault ret{fault::ACCEPT};
std::vector<m::event> eventv(64); do
{
size_t i(0);
for(; i < eventv.size() && it != end(pdus); ++i, ++it)
eventv[i] = json::object(*it);
if(likely(!opts.ordered))
std::sort(begin(eventv), begin(eventv) + i);
assert(i <= eventv.size());
execute(eval, vector_view(eventv.data(), i)); //XXX
}
while(it != end(pdus) && eval.evaluated < opts.limit);
return ret;
}
ircd::m::vm::fault
ircd::m::vm::execute(eval &eval,
const vector_view<const event> &events)
{
assert(eval.opts);
const auto &opts
{
*eval.opts
};
const scope_restore start_time
{
eval.start, now<system_point>()
};
const scope_restore eval_pdus
{
eval.pdus, events
};
const scope_count executing
{
eval::executing
};
const scope_restore eval_phase
{
eval.phase, phase::EXECUTE
};
const bool prefetch_keys
{
opts.phase[phase::VERIFY]
&& opts.mfetch_keys
&& events.size() > 1
};
const size_t prefetched_keys
{
prefetch_keys?
keys::fetch(eval.pdus): 0UL
};
const bool prefetch_refs
{
opts.phase[phase::PREINDEX]
&& opts.mprefetch_refs
&& events.size() > 1
};
const size_t prefetched_refs
{
prefetch_refs?
vm::prefetch_refs(eval): 0UL
};
size_t accepted(0), existed(0), i, j, k;
for(i = 0; i < events.size(); i += j)
{
id::event ids[64];
for(j = 0; j < 64 && i + j < events.size() && eval.evaluated + j < opts.limit; ++j)
ids[j] = events[i + j].event_id;
// Bitset indicating which events already exist.
const uint64_t existing
{
!opts.replays?
m::exists(vector_view<const id::event>(ids, j)):
0UL
};
for(k = 0; k < j; ++k, ++eval.evaluated)
{
const bool exists
(
existing & (1 << k)
);
const auto &event
{
events[i + k]
};
const auto fault
{
!exists?
execute(eval, event):
fault::EXISTS
};
existed += exists;
accepted += fault == fault::ACCEPT;
eval.accepted += fault == fault::ACCEPT;
eval.faulted += fault != fault::ACCEPT;
// If handle_fault() was not previously called about this eval
if(likely(fault == fault::ACCEPT || exists))
handle_fault(opts, fault, event.event_id?: eval.event_id, string_view{});
}
}
return fault::ACCEPT;
}
ircd::m::vm::fault
ircd::m::vm::execute(eval &eval,
const event &event)
try
{
// This assertion is tripped if the end of your context's stack is
// danger close; try increasing your stack size.
const ctx::stack_usage_assertion sua;
const scope_notify notify
{
vm::dock
};
assert(eval.opts);
const auto &opts
{
*eval.opts
};
// Determine if this is an internal room creation event
const bool is_internal_room_create
{
json::get<"type"_>(event) == "m.room.create"
&& json::get<"sender"_>(event)
&& m::myself(json::get<"sender"_>(event))
};
// Query for whether the room apropos is an internal room. Note that the
// room_id at this point may not be canonical; however, internal rooms
// do not and never will never use non-canonical room_id's.
const scope_restore room_internal
{
eval.room_internal,
// Retain any existing true value from predetermination.
eval.room_internal?
eval.room_internal:
// Case for creating an internal room (as a query will fail)
is_internal_room_create?
true:
// Query to find out if internal room.
json::get<"room_id"_>(event) && my(room::id(json::get<"room_id"_>(event)))?
m::internal(json::get<"room_id"_>(event)):
// Default to false
false
};
// Reset the conformity report before and after this event's eval.
const scope_restore eval_report
{
eval.report, event::conforms{}
};
// Conformity checks only require the event data itself; note that some
// local queries may still be made by the hook, such as m::redacted().
if(likely(opts.phase[phase::CONFORM]) && !opts.edu)
{
const scope_restore eval_phase
{
eval.phase, phase::CONFORM
};
call_hook(conform_hook, eval, event, eval);
}
// If the event is simply missing content while not being authoritatively
// redacted, the conformity phase would have thrown a prior exception. Now
// we know if the event is legitimately missing content.
const bool redacted
{
eval.report.has(event::conforms::MISMATCH_HASHES)
};
// If the input JSON is insufficient we'll need a buffer to rewrite the
// event. This buffer can be reused by subsequent events in the eval.
assert(!eval.buf || size(eval.buf) >= event::MAX_SIZE);
if(!opts.edu && !eval.buf && (!opts.json_source || redacted))
eval.buf = unique_mutable_buffer
{
event::MAX_SIZE, simd::alignment
};
// Conjure a view of the correct canonical JSON representation. This will
// either reference the input directly or the rewrite into eval.buf.
const json::object event_source
{
// Canonize from some other serialized source.
likely(!opts.edu && !opts.json_source && event.source && !redacted)?
json::stringify(mutable_buffer{eval.buf}, event.source):
// Canonize from no source; usually taken when my(event).
// XXX elision conditions go here
likely(!opts.edu && !opts.json_source && !redacted)?
json::stringify(mutable_buffer{eval.buf}, event):
// Canonize and redact from some other serialized source.
!opts.edu && !opts.json_source && event.source?
json::stringify(mutable_buffer{eval.buf}, m::essential(event.source, event::buf[0], true)):
// Canonize and redact from no source.
!opts.edu && !opts.json_source?
json::stringify(mutable_buffer{eval.buf}, m::essential(event, event::buf[0], true)):
// Use the input directly.
string_view{event.source}
};
// Create a new event tuple from the canonical source, otherwise reference
// the existing input tuple directly. From now on we'll be referencing
// `_event` instead of `event` to ensure we have canonical values.
const m::event &_event
{
event_source?
m::event{event_source}:
event
};
// Now conjure the corrected room_id and reference that for the duration
// of this event's eval.
const scope_restore eval_room_id
{
eval.room_id,
// Reassigns reference after any prior rewrites
likely(json::get<"room_id"_>(_event))?
string_view(json::get<"room_id"_>(_event)):
// No action
eval.room_id,
};
// Procure the room version.
char room_version_buf[room::VERSION_MAX_SIZE];
const scope_restore eval_room_version
{
eval.room_version,
// The room version was supplied by the user in the options structure
// because they know better.
eval.opts->room_version?
eval.opts->room_version:
// The room version was already computed; probably by vm::inject().
eval.room_version?
eval.room_version:
// There's no room version because there's no room!
!eval.room_id?
string_view{}:
// Special case for create event
json::get<"type"_>(event) == "m.room.create"?
json::string(json::get<"content"_>(_event).get("room_version", "1"_sv)):
// Special case for v1 distinguishable event_id's
_event.event_id && _event.event_id.version() == "1"_sv?
"1"_sv:
// Make a query for the room version into the stack buffer.
m::version(room_version_buf, room{eval.room_id}, std::nothrow)
};
// Copy the event_id into the eval buffer
eval.event_id =
{
!opts.edu && !_event.event_id && eval.room_version == "3"?
event::id::buf{event::id::v3{eval.event_id, _event}}:
!opts.edu && !_event.event_id?
event::id::buf{event::id::v4{eval.event_id, _event}}:
!opts.edu?
event::id::buf{_event.event_id}:
event::id::buf{}
};
// Enter the phase to check and hold for other evals with the same event_id
// to prevent race-conditions. Note that duplicates are blocked but never
// rejected here, as the first eval might fail and the second might not.
if(likely(opts.phase[phase::DUPWAIT]) && eval.event_id)
{
const scope_restore eval_phase
{
eval.phase, phase::DUPWAIT
};
// Prevent more than one event with the same event_id from
// being evaluated at the same time.
if(likely(opts.unique))
vm::dock.wait([&eval]
{
assert(eval::count(eval.event_id) <= 1);
return eval::count(eval.event_id) == 0;
});
}
// Point to the new event_id.
const scope_restore event_event_id
{
mutable_cast(_event).event_id,
event::id{eval.event_id}
};
// Set a member pointer to the event currently being evaluated. This
// allows other parallel evals to have deep access to this eval. It also
// will be used to count this event as currently being evaluated.
assert(!eval.event_);
const scope_restore eval_event
{
eval.event_, &_event
};
// Now that the final input is constructed and everything is known about it,
// the next frame's exception handlers will build and propagate much better
// error messages.
return execute_du(eval, _event);
}
catch(const vm::error &e)
{
throw; // propagate from execute_du
}
catch(const m::error &e)
{
const ctx::exception_handler eh;
const json::object &content
{
e.content
};
assert(eval.opts);
return handle_fault
(
*eval.opts, fault::GENERAL, event.event_id,
"eval %s %s :%s :%s :%s",
event.event_id?
string_view{event.event_id}:
"<unknown>"_sv,
json::get<"room_id"_>(event)?
string_view{json::get<"room_id"_>(event)}:
"<unknown>"_sv,
e.what(),
json::string{content["errcode"]},
json::string{content["error"]}
);
}
catch(const ctx::interrupted &)
{
throw;
}
catch(const std::exception &e)
{
const ctx::exception_handler eh;
assert(eval.opts);
return handle_fault
(
*eval.opts, fault::GENERAL, event.event_id,
"eval %s %s (General Protection) :%s",
event.event_id?
string_view{event.event_id}:
"<unknown>"_sv,
json::get<"room_id"_>(event)?
string_view{json::get<"room_id"_>(event)}:
"<unknown>"_sv,
e.what()
);
}
ircd::m::vm::fault
ircd::m::vm::execute_du(eval &eval,
const event &event)
try
{
assert(eval.id);
assert(eval.ctx);
assert(eval.opts);
assert(eval.opts->edu || event.event_id);
assert(eval.opts->edu || eval.event_id);
assert(eval.event_id == event.event_id);
assert(eval.event_);
const auto &opts
{
*eval.opts
};
const scope_restore eval_sequence
{
eval.sequence, 0UL
};
// The issue hook is only called when this server is injecting a newly
// created event.
if(opts.phase[phase::ISSUE] && eval.copts && eval.copts->issue)
{
const scope_restore eval_phase
{
eval.phase, phase::ISSUE
};
call_hook(issue_hook, eval, event, eval);
}
// Branch on whether the event is an EDU or a PDU
const fault ret
{
event.event_id && !opts.edu?
execute_pdu(eval, event):
execute_edu(eval, event)
};
// ret can be a fault code if the user masked the exception from being
// thrown. If there's an error code here nothing further is done.
if(ret != fault::ACCEPT)
return ret;
if(opts.debuglog_accept || bool(log_accept_debug))
log::debug
{
log, "%s", pretty_oneline(event)
};
// The event was executed; now we broadcast the good news. This will
// include notifying client `/sync` and the federation sender.
if(likely(opts.phase[phase::NOTIFY]))
{
const scope_restore eval_phase
{
eval.phase, phase::NOTIFY
};
call_hook(notify_hook, eval, event, eval);
}
// The "effects" of the event are created by listeners on the effect hook.
// These can include the creation of even more events, such as creating a
// PDU out of an EDU, etc. Unlike the post_hook in execute_pdu(), the
// notify for the event at issue here has already been made.
if(likely(opts.phase[phase::EFFECTS]))
{
const scope_restore eval_phase
{
eval.phase, phase::EFFECTS
};
call_hook(effect_hook, eval, event, eval);
}
if(opts.infolog_accept || bool(log_accept_info))
log::info
{
log, "%s", pretty_oneline(event)
};
return ret;
}
catch(const vm::error &e) // VM FAULT CODE
{
const ctx::exception_handler eh;
const json::object &content{e.content};
const json::string &error
{
content["error"]
};
assert(eval.opts);
return handle_fault
(
*eval.opts, e.code, event.event_id,
"execute %s %s :%s",
event.event_id?
string_view{event.event_id}:
"<edu>"_sv,
eval.room_id?
eval.room_id:
"<edu>"_sv,
error
);
}
catch(const m::error &e) // GENERAL MATRIX ERROR
{
const ctx::exception_handler eh;
const json::object &content{e.content};
const json::string error[]
{
content["errcode"],
content["error"]
};
assert(eval.opts);
return handle_fault
(
*eval.opts, fault::GENERAL, event.event_id,
"execute %s %s :%s :%s",
event.event_id?
string_view{event.event_id}:
"<edu>"_sv,
eval.room_id?
eval.room_id:
"<edu>"_sv,
error[0],
error[1]
);
}
catch(const ctx::interrupted &e) // INTERRUPTION
{
throw;
}
catch(const std::exception &e) // ALL OTHER ERRORS
{
const ctx::exception_handler eh;
assert(eval.opts);
return handle_fault
(
*eval.opts, fault::GENERAL, event.event_id,
"execute %s %s (General Protection) :%s",
event.event_id?
string_view{event.event_id}:
"<edu>"_sv,
eval.room_id?
eval.room_id:
"<edu>"_sv,
e.what()
);
}
ircd::m::vm::fault
ircd::m::vm::execute_edu(eval &eval,
const event &event)
{
if(likely(eval.opts->phase[phase::EVALUATE]))
{
const scope_restore eval_phase
{
eval.phase, phase::EVALUATE
};
call_hook(eval_hook, eval, event, eval);
}
if(likely(eval.opts->phase[phase::POST]))
{
const scope_restore eval_phase
{
eval.phase, phase::POST
};
call_hook(post_hook, eval, event, eval);
}
return fault::ACCEPT;
}
ircd::m::vm::fault
ircd::m::vm::execute_pdu(eval &eval,
const event &event)
{
const scope_count pending
{
sequence::pending
};
const scope_notify sequence_dock
{
sequence::dock, scope_notify::all
};
assert(eval.opts);
const auto &opts
{
*eval.opts
};
const m::event::id &event_id
{
event.event_id
};
const m::room::id &room_id
{
at<"room_id"_>(event)
};
const string_view &type
{
at<"type"_>(event)
};
const bool authenticate
{
opts.auth && !eval.room_internal
};
// There is no reason for an event from another origin to be sent to an
// internal room. This boxes internal room access as a local problem, with
// local mistakes.
if(unlikely(eval.room_internal && !my(event)))
throw error
{
fault::GENERAL, "Internal room event denied from external source."
};
// Check if an event with the same ID was already accepted.
if(likely(opts.phase[phase::DUPCHK]))
{
const scope_restore eval_phase
{
eval.phase, phase::DUPCHK
};
// Prevent the same event from being accepted twice.
if(likely(!opts.replays) && m::exists(event_id))
{
if(unlikely(~opts.nothrows & fault::EXISTS))
throw error
{
fault::EXISTS, "Event has already been evaluated."
};
return fault::EXISTS;
}
}
assert(!opts.unique || eval::count(event_id) == 1);
assert(opts.replays || !m::exists(event_id));
// Check if event's proprietor is denied by the room ACL.
if(likely(opts.phase[phase::ACCESS]))
{
const scope_restore eval_phase
{
eval.phase, phase::ACCESS
};
call_hook(access_hook, eval, event, eval);
}
// Check if this event is relevant to this server.
if(likely(opts.phase[phase::EMPTION]) && !eval.room_internal)
{
const scope_restore eval_phase
{
eval.phase, phase::EMPTION
};
emption_check(eval, event);
}
if(likely(opts.phase[phase::VERIFY]))
{
const scope_restore eval_phase
{
eval.phase, phase::VERIFY
};
if(!verify(event))
throw m::BAD_SIGNATURE
{
"Signature verification failed."
};
}
if(likely(opts.phase[phase::FETCH_AUTH] && opts.fetch))
{
const scope_restore eval_phase
{
eval.phase, phase::FETCH_AUTH
};
call_hook(fetch_auth_hook, eval, event, eval);
}
// Evaluation by auth system; throws
if(likely(opts.phase[phase::AUTH_STATIC]) && authenticate)
{
const scope_restore eval_phase
{
eval.phase, phase::AUTH_STATIC
};
const auto &[pass, fail]
{
room::auth::check_static(event)
};
if(!pass)
throw error
{
fault::AUTH, "Fails against provided auth_events :%s",
what(fail)
};
}
if(likely(opts.phase[phase::FETCH_PREV] && opts.fetch))
{
const scope_restore eval_phase
{
eval.phase, phase::FETCH_PREV
};
call_hook(fetch_prev_hook, eval, event, eval);
}
if(likely(opts.phase[phase::FETCH_STATE] && opts.fetch))
{
const scope_restore eval_phase
{
eval.phase, phase::FETCH_STATE
};
call_hook(fetch_state_hook, eval, event, eval);
}
// Obtain sequence number here.
const auto top(eval::seqmax());
eval.sequence =
{
top?
std::max(sequence::get(*top) + 1, sequence::uncommitted + 1):
sequence::uncommitted + 1
};
log::debug
{
log, "%s event sequenced",
loghead(eval)
};
assert(eval::sequnique(eval.sequence));
const auto &parent_phase
{
eval.parent?
eval.parent->phase:
phase::NONE
};
const auto &parent_post
{
parent_phase == phase::POST
&& eval.parent->event_
&& eval.parent->event_->event_id
};
// Allocate transaction; prefetch dependencies.
if(likely(opts.phase[phase::PREINDEX]) && !opts.mprefetch_refs)
{
const scope_restore eval_phase
{
eval.phase, phase::PREINDEX
};
dbs::opts wopts(opts.wopts);
wopts.event_idx = eval.sequence;
const size_t prefetched
{
dbs::prefetch(event, wopts)
};
}
const scope_restore eval_phase_precommit
{
eval.phase, phase::PRECOMMIT
};
// Wait until this is the lowest sequence number
sequence::dock.wait([&eval, &parent_post]
{
return false
|| parent_post
|| eval::seqnext(sequence::committed) == &eval
|| eval::seqnext(sequence::uncommitted) == &eval
;
});
if(likely(opts.phase[phase::AUTH_RELA] && authenticate))
{
const scope_restore eval_phase
{
eval.phase, phase::AUTH_RELA
};
const auto &[pass, fail]
{
room::auth::check_relative(event)
};
if(!pass)
throw error
{
fault::AUTH, "Fails relative to the state at the event :%s",
what(fail)
};
}
assert(eval.sequence != 0);
assert(eval::sequnique(sequence::get(eval)));
//assert(sequence::uncommitted <= sequence::get(eval));
//assert(sequence::committed < sequence::get(eval));
assert(sequence::retired < sequence::get(eval));
sequence::uncommitted = std::max(sequence::get(eval), sequence::uncommitted);
const scope_restore eval_phase_commit
{
eval.phase, phase::COMMIT
};
// Wait until this is the lowest sequence number
sequence::dock.wait([&eval, &parent_post]
{
return false
|| parent_post
|| eval::seqnext(sequence::committed) == &eval
;
});
// Reevaluation of auth against the present state of the room.
if(likely(opts.phase[phase::AUTH_PRES] && authenticate))
{
const scope_restore eval_phase
{
eval.phase, phase::AUTH_PRES
};
room::auth::check_present(event);
}
// Evaluation by module hooks
if(likely(opts.phase[phase::EVALUATE]))
{
const scope_restore eval_phase
{
eval.phase, phase::EVALUATE
};
call_hook(eval_hook, eval, event, eval);
}
// Allocate transaction; discover shared-sequenced evals.
if(likely(opts.phase[phase::INDEX]))
{
const scope_restore eval_phase
{
eval.phase, phase::INDEX
};
// Transaction composition.
write_append(eval, event, parent_post);
}
// Generate post-eval/pre-notify effects. This function may conduct
// an entire eval of several more events recursively before returning.
if(likely(opts.phase[phase::POST]))
{
const scope_restore eval_phase
{
eval.phase, phase::POST
};
call_hook(post_hook, eval, event, eval);
}
assert(sequence::committed < sequence::get(eval));
assert(sequence::retired < sequence::get(eval));
sequence::committed = !parent_post?
sequence::get(eval):
sequence::committed;
// Commit the transaction to database iff this eval is at the stack base.
if(likely(opts.phase[phase::WRITE] && !parent_post))
{
const scope_restore eval_phase
{
eval.phase, phase::WRITE
};
write_commit(eval);
}
// Wait for sequencing only if this is the stack base, otherwise we'll
// never return back to that stack base.
if(likely(!parent_post))
{
const scope_restore eval_phase
{
eval.phase, phase::RETIRE
};
retire(eval, event);
}
return fault::ACCEPT;
}
void
ircd::m::vm::retire(eval &eval,
const event &event)
{
sequence::dock.wait([&eval]
{
return eval::seqnext(sequence::retired) == std::addressof(eval);
});
const auto next
{
eval::seqnext(eval.sequence)
};
const auto highest
{
next?
sequence::get(*next):
sequence::get(eval)
};
const auto retire
{
std::clamp
(
sequence::get(eval),
sequence::retired + 1,
highest
)
};
log::debug
{
log, "%s %lu:%lu release %lu",
loghead(eval),
sequence::get(eval),
retire,
highest,
};
assert(sequence::get(eval) <= retire);
assert(sequence::retired < sequence::get(eval));
assert(sequence::retired < retire);
sequence::retired = retire;
}
namespace ircd::m::vm
{
[[gnu::visibility("internal")]]
extern stats::item<uint64_t>
write_commit_count,
write_commit_cycles;
}
decltype(ircd::m::vm::write_commit_cycles)
ircd::m::vm::write_commit_cycles
{
{ "name", "ircd.m.vm.write_commit.cycles" },
};
decltype(ircd::m::vm::write_commit_count)
ircd::m::vm::write_commit_count
{
{ "name", "ircd.m.vm.write_commit.count" },
};
void
ircd::m::vm::write_commit(eval &eval)
{
assert(eval.txn);
assert(eval.txn.use_count() == 1);
auto &txn
{
*eval.txn
};
assert(eval.opts);
const auto &sopts
{
eval.opts->wopts.sopts
};
const auto db_seq_before
{
#ifdef RB_DEBUG
db::sequence(*m::dbs::events)
#else
0UL
#endif
};
const uint64_t cyc_before {write_commit_cycles};
{
const prof::scope_cycles cycles
{
write_commit_cycles
};
txn(sopts);
}
++write_commit_count;
const auto db_seq_after
{
#ifdef RB_DEBUG
db::sequence(*m::dbs::events)
#else
0UL
#endif
};
log::debug
{
log, "%s wrote %lu | db seq:%lu:%lu txn:%lu cells:%zu in bytes:%zu cycles:%lu to events database",
loghead(eval),
sequence::get(eval),
db_seq_before,
db_seq_after,
uint64_t(write_commit_count),
txn.size(),
txn.bytes(),
uint64_t(write_commit_cycles) - cyc_before,
};
}
void
ircd::m::vm::write_append(eval &eval,
const event &event,
const bool &parent_post)
{
assert(eval.opts);
const auto &opts
{
*eval.opts
};
assert(eval.room_id);
const room room
{
eval.room_id
};
if(eval.txn)
eval.txn->clear();
if(!eval.txn && parent_post)
eval.txn = eval.parent->txn;
if(!eval.txn)
eval.txn = std::make_shared<db::txn>
(
*dbs::events, db::txn::opts
{
calc_txn_reserve(opts, event), // reserve_bytes
0, // max_bytes (no max)
}
);
assert(eval.txn);
auto &txn
{
*eval.txn
};
m::dbs::opts wopts(opts.wopts);
wopts.interpose = eval.txn.get();
wopts.event_idx = eval.sequence;
wopts.json_source = true;
// Don't update or resolve the room head with this shit.
const bool dummy_event
{
json::get<"type"_>(event) == "org.matrix.dummy_event"
};
wopts.appendix.set
(
dbs::appendix::ROOM_HEAD,
wopts.appendix[dbs::appendix::ROOM_HEAD] && !dummy_event
);
const auto state_candidate
{
opts.present
&& json::get<"state_key"_>(event)
};
const auto state_idx
{
state_candidate?
room.get(std::nothrow, at<"type"_>(event), at<"state_key"_>(event)):
0UL
};
const int64_t state_depth
{
m::get<int64_t>(std::nothrow, state_idx, "depth", 0L)
};
const auto state_present
{
!state_depth || state_depth < json::get<"depth"_>(event)
};
const bool authenticate
{
opts.auth
&& opts.phase[phase::AUTH_PRES]
&& state_present
&& !eval.room_internal
};
const auto &[pass, fail]
{
authenticate?
room::auth::check_present(event):
room::auth::passfail{true, {}}
};
if(state_present && fail)
log::dwarning
{
log, "%s fails auth for present state of %s :%s",
loghead(eval),
string_view{room.room_id},
what(fail),
};
wopts.appendix.set
(
dbs::appendix::ROOM_STATE,
wopts.appendix[dbs::appendix::ROOM_STATE] && state_present && pass
);
wopts.appendix.set
(
dbs::appendix::ROOM_JOINED,
wopts.appendix[dbs::appendix::ROOM_JOINED] && state_present && pass
);
const size_t wrote
{
dbs::write(txn, event, wopts)
};
log::debug
{
log, "%s composed transaction wrote:%zu state:%b pres:%b prev:%lu @%ld",
loghead(eval),
wrote,
state_candidate,
state_present,
state_idx,
state_depth,
};
}
size_t
ircd::m::vm::calc_txn_reserve(const opts &opts,
const event &event)
{
const size_t reserve_event
{
opts.reserve_bytes == size_t(-1)?
size_t(json::serialized(event) * 1.66):
opts.reserve_bytes
};
return reserve_event + opts.reserve_index;
}
void
ircd::m::vm::emption_check(eval &eval,
const m::event &event)
{
const bool my_target_member_event
{
json::get<"type"_>(event) == "m.room.member"
&& my(m::user(json::get<"state_key"_>(event)))
};
const bool allow
{
my(event)
|| my_target_member_event
|| m::local_joined(room::id(json::get<"room_id"_>(event)))
};
if(unlikely(!allow))
throw vm::error
{
http::UNAUTHORIZED, fault::BOUNCE,
"No users require events of type=%s%s%s in %s on this server.",
json::get<"type"_>(event),
json::get<"state_key"_>(event)?
",state_key="_sv:
string_view{},
json::get<"state_key"_>(event),
json::get<"room_id"_>(event),
};
}
template<class T>
void
ircd::m::vm::call_hook(hook::site<T> &hook,
eval &eval,
const event &event,
T&& data)
try
{
if constexpr((false))
log::debug
{
log, "%s hook:%s enter",
loghead(eval),
hook.name(),
};
// Providing a pointer to the eval.hook pointer allows the hook site to
// provide updates for observers in other contexts for which hook is
// currently entered.
auto **const cur
{
std::addressof(eval.hook)
};
hook(cur, event, std::forward<T>(data));
if constexpr((false))
log::debug
{
log, "%s hook:%s leave",
loghead(eval),
hook.name(),
};
}
catch(const m::error &e)
{
log::derror
{
log, "%s hook:%s :%s :%s",
loghead(eval),
hook.name(),
e.errcode(),
e.errstr(),
};
throw;
}
catch(const http::error &e)
{
log::derror
{
log, "%s hook:%s :%s :%s",
loghead(eval),
hook.name(),
e.what(),
e.content,
};
throw;
}
catch(const std::exception &e)
{
log::derror
{
log, "%s hook:%s :%s",
loghead(eval),
hook.name(),
e.what(),
};
throw;
}
template<class... args>
ircd::m::vm::fault
ircd::m::vm::handle_fault(const vm::opts &opts,
const vm::fault &code,
const string_view &event_id,
const string_view &fmt,
args&&... a)
{
if(code != fault::ACCEPT && fmt)
{
if(opts.errorlog & code)
log::error
{
log, fmt, std::forward<args>(a)...
};
else if(~opts.warnlog & code)
log::derror
{
log, fmt, std::forward<args>(a)...
};
if(opts.warnlog & code)
log::warning
{
log, fmt, std::forward<args>(a)...
};
}
if(likely(opts.outlog & code))
output(opts, code, event_id, fmt, std::forward<args>(a)...);
if(code != fault::ACCEPT && fmt)
if(unlikely(~opts.nothrows & code))
throw error
{
code, fmt, std::forward<args>(a)...
};
return code;
}
//NOTE: may yield on a json::stack flush
template<class... args>
bool
ircd::m::vm::output(const vm::opts &opts,
const vm::fault &code,
const string_view &event_id,
const string_view &fmt,
args&&... a)
{
if(!opts.out)
return false;
if(unlikely(!event_id))
return false;
json::stack::object object
{
*opts.out, event_id
};
if(code != fault::ACCEPT)
json::stack::member
{
object, "errcode", json::value
{
reflect(code), json::STRING
}
};
if(!fmt)
return true;
const fmt::bsprintf<1024> text
{
fmt, std::forward<args>(a)...
};
json::stack::member
{
object, "error", json::value
{
string_view{text}, json::STRING
}
};
return true;
}