2019-05-31 03:06:42 +02:00
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// Copyright (c) 2018, The Loki Project
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification, are
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// permitted provided that the following conditions are met:
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//
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// 1. Redistributions of source code must retain the above copyright notice, this list of
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// conditions and the following disclaimer.
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//
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// 2. Redistributions in binary form must reproduce the above copyright notice, this list
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// of conditions and the following disclaimer in the documentation and/or other
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// materials provided with the distribution.
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//
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// 3. Neither the name of the copyright holder nor the names of its contributors may be
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// used to endorse or promote products derived from this software without specific
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// prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
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// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
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// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#pragma once
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#include <vector>
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#include <unordered_map>
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#include <utility>
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#include "crypto/crypto.h"
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#include "cryptonote_basic/cryptonote_basic.h"
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#include "cryptonote_basic/blobdatatype.h"
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Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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#include "cryptonote_basic/tx_extra.h"
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2019-05-31 03:06:42 +02:00
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2019-07-05 01:34:51 +02:00
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#include "string_tools.h"
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2019-05-31 03:06:42 +02:00
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#include "math_helper.h"
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#include "syncobj.h"
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2019-09-02 12:18:54 +02:00
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#include <boost/serialization/base_object.hpp>
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2019-05-31 03:06:42 +02:00
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namespace cryptonote
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{
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2019-07-01 04:18:33 +02:00
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struct tx_verification_context;
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2019-05-31 03:06:42 +02:00
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struct vote_verification_context;
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2019-06-26 06:00:05 +02:00
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struct checkpoint_t;
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2019-05-31 03:06:42 +02:00
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};
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namespace service_nodes
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{
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struct testing_quorum;
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struct checkpoint_vote { crypto::hash block_hash; };
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Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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struct state_change_vote { uint16_t worker_index; new_state state; };
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2019-05-31 03:06:42 +02:00
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2019-06-11 20:53:46 +02:00
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enum struct quorum_type : uint8_t
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2019-05-31 03:06:42 +02:00
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{
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Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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obligations = 0,
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2019-05-31 03:06:42 +02:00
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checkpointing,
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count,
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2019-07-09 05:02:10 +02:00
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rpc_request_all_quorums_sentinel_value = 255, // Only valid for get_quorum_state RPC call
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2019-05-31 03:06:42 +02:00
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};
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2019-06-26 06:00:05 +02:00
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inline char const *quorum_type_to_string(quorum_type v)
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{
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switch(v)
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{
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case quorum_type::obligations: return "obligation";
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case quorum_type::checkpointing: return "checkpointing";
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default: assert(false); return "xx_unhandled_type";
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}
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}
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2019-06-11 20:53:46 +02:00
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enum struct quorum_group : uint8_t { invalid, validator, worker };
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2019-05-31 03:06:42 +02:00
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struct quorum_vote_t
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{
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uint8_t version = 0;
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quorum_type type;
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uint64_t block_height;
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quorum_group group;
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uint16_t index_in_group;
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crypto::signature signature;
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union
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{
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Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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state_change_vote state_change;
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checkpoint_vote checkpoint;
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2019-05-31 03:06:42 +02:00
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};
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2019-09-02 12:18:54 +02:00
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// TODO(loki): idk exactly if I want to implement this, but need for core tests to compile. Not sure I care about serializing for core tests at all.
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private:
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friend class boost::serialization::access;
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template <class Archive>
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void serialize(Archive &ar, const unsigned int /*version*/) { }
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};
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2019-05-31 03:06:42 +02:00
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2019-09-09 03:14:19 +02:00
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struct voter_to_signature
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{
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voter_to_signature() = default;
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voter_to_signature(quorum_vote_t const &vote) : voter_index(vote.index_in_group), signature(vote.signature) { }
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uint16_t voter_index;
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crypto::signature signature;
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BEGIN_SERIALIZE()
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FIELD(voter_index)
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FIELD(signature)
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END_SERIALIZE()
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};
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2019-09-02 12:18:54 +02:00
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quorum_vote_t make_state_change_vote(uint64_t block_height, uint16_t index_in_group, uint16_t worker_index, new_state state, crypto::public_key const &pub_key, crypto::secret_key const &secret_key);
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2019-09-20 07:54:00 +02:00
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quorum_vote_t make_checkpointing_vote(uint8_t hf_version, crypto::hash const &block_hash, uint64_t block_height, uint16_t index_in_quorum, crypto::public_key const &pub_key, crypto::secret_key const &sec_key);
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2019-09-02 12:18:54 +02:00
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cryptonote::checkpoint_t make_empty_service_node_checkpoint(crypto::hash const &block_hash, uint64_t height);
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bool verify_checkpoint (uint8_t hf_version, cryptonote::checkpoint_t const &checkpoint, service_nodes::testing_quorum const &quorum);
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bool verify_tx_state_change (const cryptonote::tx_extra_service_node_state_change& state_change, uint64_t latest_height, cryptonote::tx_verification_context& vvc, const service_nodes::testing_quorum &quorum, uint8_t hf_version);
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bool verify_vote_age (const quorum_vote_t& vote, uint64_t latest_height, cryptonote::vote_verification_context &vvc);
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2019-09-20 07:54:00 +02:00
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bool verify_vote_signature (uint8_t hf_version, const quorum_vote_t& vote, cryptonote::vote_verification_context &vvc, const service_nodes::testing_quorum &quorum);
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2019-09-02 12:18:54 +02:00
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crypto::signature make_signature_from_vote (quorum_vote_t const &vote, const crypto::public_key& pub, const crypto::secret_key& sec);
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|
crypto::signature make_signature_from_tx_state_change(cryptonote::tx_extra_service_node_state_change const &state_change, crypto::public_key const &pub, crypto::secret_key const &sec);
|
2019-05-31 03:06:42 +02:00
|
|
|
|
|
|
|
// NOTE: This preserves the deregister vote format pre-checkpointing so that
|
|
|
|
// up to the hardfork, we can still deserialize and serialize until we switch
|
|
|
|
// over to the new format
|
|
|
|
struct legacy_deregister_vote
|
|
|
|
{
|
|
|
|
uint64_t block_height;
|
|
|
|
uint32_t service_node_index;
|
|
|
|
uint32_t voters_quorum_index;
|
|
|
|
crypto::signature signature;
|
|
|
|
};
|
|
|
|
|
|
|
|
struct pool_vote_entry
|
|
|
|
{
|
|
|
|
quorum_vote_t vote;
|
|
|
|
uint64_t time_last_sent_p2p;
|
|
|
|
};
|
|
|
|
|
|
|
|
struct voting_pool
|
|
|
|
{
|
|
|
|
// return: The vector of votes if the vote is valid (and even if it is not unique) otherwise nullptr
|
2019-08-07 02:52:32 +02:00
|
|
|
std::vector<pool_vote_entry> add_pool_vote_if_unique(const quorum_vote_t &vote, cryptonote::vote_verification_context &vvc);
|
2019-05-31 03:06:42 +02:00
|
|
|
|
|
|
|
// TODO(loki): Review relay behaviour and all the cases when it should be triggered
|
|
|
|
void set_relayed (const std::vector<quorum_vote_t>& votes);
|
|
|
|
void remove_expired_votes(uint64_t height);
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
|
|
void remove_used_votes (std::vector<cryptonote::transaction> const &txs, uint8_t hard_fork_version);
|
2019-06-30 18:59:45 +02:00
|
|
|
std::vector<quorum_vote_t> get_relayable_votes (uint64_t height) const;
|
2019-07-04 07:31:35 +02:00
|
|
|
bool received_checkpoint_vote(uint64_t height, size_t index_in_quorum) const;
|
2019-05-31 03:06:42 +02:00
|
|
|
|
|
|
|
private:
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
|
|
std::vector<pool_vote_entry> *find_vote_pool(const quorum_vote_t &vote, bool create_if_not_found = false);
|
|
|
|
|
|
|
|
struct obligations_pool_entry
|
2019-05-31 03:06:42 +02:00
|
|
|
{
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
|
|
explicit obligations_pool_entry(const quorum_vote_t &vote)
|
|
|
|
: height{vote.block_height}, worker_index{vote.state_change.worker_index}, state{vote.state_change.state} {}
|
|
|
|
obligations_pool_entry(const cryptonote::tx_extra_service_node_state_change &sc)
|
|
|
|
: height{sc.block_height}, worker_index{sc.service_node_index}, state{sc.state} {}
|
|
|
|
|
2019-05-31 03:06:42 +02:00
|
|
|
uint64_t height;
|
|
|
|
uint32_t worker_index;
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
|
|
new_state state;
|
2019-05-31 03:06:42 +02:00
|
|
|
std::vector<pool_vote_entry> votes;
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
|
|
|
|
|
|
bool operator==(const obligations_pool_entry &e) const { return height == e.height && worker_index == e.worker_index && state == e.state; }
|
2019-05-31 03:06:42 +02:00
|
|
|
};
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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std::vector<obligations_pool_entry> m_obligations_pool;
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2019-05-31 03:06:42 +02:00
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struct checkpoint_pool_entry
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{
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Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
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explicit checkpoint_pool_entry(const quorum_vote_t &vote) : height{vote.block_height}, hash{vote.checkpoint.block_hash} {}
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2019-05-31 03:06:42 +02:00
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checkpoint_pool_entry(uint64_t height, crypto::hash const &hash): height(height), hash(hash) {}
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uint64_t height;
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crypto::hash hash;
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std::vector<pool_vote_entry> votes;
|
Relax deregistration rules
The replaces the deregistration mechanism with a new state change
mechanism (beginning at the v12 fork) which can change a service node's
network status via three potential values (and is extensible in the
future to handle more):
- deregistered -- this is the same as the existing deregistration; the
SN is instantly removed from the SN list.
- decommissioned -- this is a sort of temporary deregistration: your SN
remains in the service node list, but is removed from the rewards list
and from any network duties.
- recommissioned -- this tx is sent by a quorum if they observe a
decommissioned SN sending uptime proofs again. Upon reception, the SN
is reactivated and put on the end of the reward list.
Since this is broadening the quorum use, this also renames the relevant
quorum to a "obligations" quorum (since it validates SN obligations),
while the transactions are "state_change" transactions (since they
change the state of a registered SN).
The new parameters added to service_node_rules.h control how this works:
// Service node decommissioning: as service nodes stay up they earn "credits" (measured in blocks)
// towards a future outage. A new service node starts out with INITIAL_CREDIT, and then builds up
// CREDIT_PER_DAY for each day the service node remains active up to a maximum of
// DECOMMISSION_MAX_CREDIT.
//
// If a service node stops sending uptime proofs, a quorum will consider whether the service node
// has built up enough credits (at least MINIMUM): if so, instead of submitting a deregistration,
// it instead submits a decommission. This removes the service node from the list of active
// service nodes both for rewards and for any active network duties. If the service node comes
// back online (i.e. starts sending the required performance proofs again) before the credits run
// out then a quorum will reinstate the service node using a recommission transaction, which adds
// the service node back to the bottom of the service node reward list, and resets its accumulated
// credits to 0. If it does not come back online within the required number of blocks (i.e. the
// accumulated credit at the point of decommissioning) then a quorum will send a permanent
// deregistration transaction to the network, starting a 30-day deregistration count down.
This commit currently includes values (which are not necessarily
finalized):
- 8 hours (240 blocks) of credit required for activation of a
decommission (rather than a deregister)
- 0 initial credits at registration
- a maximum of 24 hours (720 blocks) of credits
- credits accumulate at a rate that you hit 24 hours of credits after 30
days of operation.
Miscellaneous other details of this PR:
- a new TX extra tag is used for the state change (including
deregistrations). The old extra tag has no version or type tag, so
couldn't be reused. The data in the new tag is slightly more
efficiently packed than the old deregistration transaction, so it gets
used for deregistrations (starting at the v12 fork) as well.
- Correct validator/worker selection required generalizing the shuffle
function to be able to shuffle just part of a vector. This lets us
stick any down service nodes at the end of the potential list, then
select validators by only shuffling the part of the index vector that
contains active service indices. Once the validators are selected, the
remainder of the list (this time including decommissioned SN indices) is
shuffled to select quorum workers to check, thus allowing decommisioned
nodes to be randomly included in the nodes to check without being
selected as a validator.
- Swarm recalculation was not quite right: swarms were recalculated on
SN registrations, even if those registrations were include shared node
registrations, but *not* recalculated on stakes. Starting with the
upgrade this behaviour is fixed (swarms aren't actually used currently
and aren't consensus-relevant so recalculating early won't hurt
anything).
- Details on decomm/dereg are added to RPC info and print_sn/print_sn_status
- Slightly improves the % of reward output in the print_sn output by
rounding it to two digits, and reserves space in the output string to
avoid excessive reallocations.
- Adds various debugging at higher debug levels to quorum voting (into
all of voting itself, vote transmission, and vote reception).
- Reset service node list internal data structure version to 0. The SN
list has to be rescanned anyway at upgrade (its size has changed), so we
might as well reset the version and remove the version-dependent
serialization code. (Note that the affected code here is for SN states
in lmdb storage, not for SN-to-SN communication serialization).
2019-06-18 23:57:02 +02:00
|
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|
|
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bool operator==(const checkpoint_pool_entry &e) const { return height == e.height && hash == e.hash; }
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2019-05-31 03:06:42 +02:00
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};
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std::vector<checkpoint_pool_entry> m_checkpoint_pool;
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mutable epee::critical_section m_lock;
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};
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}; // namespace service_nodes
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