Configure and Use the PowerUp Resource Model
Overview
This new system will create a new optional NET and CPU marketplace which displaces (over time)
the existing staking system and REX market. Under the old model, system token holders
own NET and CPU and may choose to use it themselves, delegate it to others, or make
it available for others to rent using the REX market. Under this new model, the chain
owns almost all NET and CPU resources and the only way to access these resources is
through the new powerup
action. It channels fees to the REX pool to enable token holders
to profit off the new market.
Configuration
Definitions
Configuration
// configure the `powerup` market. The market becomes available the first time this action is invoked
void cfgpowerup( powerup_config& args );
struct powerup_config_resource {
std::optional<int64_t> current_weight_ratio; // Immediately set weight_ratio to this amount. 1x = 10^15. 0.01x = 10^13.
// Do not specify to preserve the existing setting or use the default;
// this avoids sudden price jumps. For new chains which don't need
// to gradually phase out staking and REX, 0.01x (10^13) is a good
// value for both current_weight_ratio and target_weight_ratio.
std::optional<int64_t> target_weight_ratio; // Linearly shrink weight_ratio to this amount. 1x = 10^15. 0.01x = 10^13.
// Do not specify to preserve the existing setting or use the default.
std::optional<int64_t> assumed_stake_weight; // Assumed stake weight for ratio calculations. Use the sum of total
// staked and total rented by REX at the time the power market
// is first activated. Do not specify to preserve the existing
// setting (no default exists); this avoids sudden price jumps.
// For new chains which don't need to phase out staking and REX,
// 10^12 is probably a good value.
std::optional<time_point_sec> target_timestamp; // Stop automatic weight_ratio shrinkage at this time. Once this
// time hits, weight_ratio will be target_weight_ratio. Ignored
// if current_weight_ratio == target_weight_ratio. Do not specify
// this to preserve the existing setting (no default exists).
std::optional<double> exponent; // Exponent of resource price curve. Must be >= 1. Do not specify
// to preserve the existing setting or use the default.
std::optional<uint32_t> decay_secs; // Number of seconds for the gap between adjusted resource
// utilization and instantaneous resource utilization to shrink
// by 63%. Do not specify to preserve the existing setting or
// use the default.
std::optional<asset> min_price; // Fee needed to reserve the entire resource market weight at the
// minimum price. For example, this could be set to 0.005% of
// total token supply. Do not specify to preserve the existing
// setting or use the default.
std::optional<asset> max_price; // Fee needed to reserve the entire resource market weight at the
// maximum price. For example, this could be set to 10% of total
// token supply. Do not specify to preserve the existing
// setting (no default exists).
};
struct powerup_config {
powerup_config_resource net; // NET market configuration
powerup_config_resource cpu; // CPU market configuration
std::optional<uint32_t> powerup_days; // `powerup` `days` argument must match this. Do not specify to preserve the
// existing setting or use the default.
std::optional<asset> min_powerup_fee; // Powerup fees below this amount are rejected. Do not specify to preserve the
// existing setting (no default exists).
};
State
Definitions useful to help understand the configuration, including defaults:
inline constexpr int64_t powerup_frac = 1'000'000'000'000'000ll; // 1.0 = 10^15
struct powerup_state_resource {
static constexpr double default_exponent = 2.0; // Exponent of 2.0 means that the price to reserve a
// tiny amount of resources increases linearly
// with utilization.
static constexpr uint32_t default_decay_secs = 1 * seconds_per_day; // 1 day; if 100% of bandwidth resources are in a
// single loan, then, assuming no further powerup usage,
// 1 day after it expires the adjusted utilization
// will be at approximately 37% and after 3 days
// the adjusted utilization will be less than 5%.
uint8_t version = 0;
int64_t weight = 0; // resource market weight. calculated; varies over time.
// 1 represents the same amount of resources as 1
// satoshi of SYS staked.
int64_t weight_ratio = 0; // resource market weight ratio:
// assumed_stake_weight / (assumed_stake_weight + weight).
// calculated; varies over time. 1x = 10^15. 0.01x = 10^13.
int64_t assumed_stake_weight = 0; // Assumed stake weight for ratio calculations.
int64_t initial_weight_ratio = powerup_frac; // Initial weight_ratio used for linear shrinkage.
int64_t target_weight_ratio = powerup_frac / 100; // Linearly shrink the weight_ratio to this amount.
time_point_sec initial_timestamp = {}; // When weight_ratio shrinkage started
time_point_sec target_timestamp = {}; // Stop automatic weight_ratio shrinkage at this time. Once this
// time hits, weight_ratio will be target_weight_ratio.
double exponent = default_exponent; // Exponent of resource price curve.
uint32_t decay_secs = default_decay_secs; // Number of seconds for the gap between adjusted resource
// utilization and instantaneous utilization to shrink by 63%.
asset min_price = {}; // Fee needed to reserve the entire resource market weight at
// the minimum price (defaults to 0).
asset max_price = {}; // Fee needed to reserve the entire resource market weight at
// the maximum price.
int64_t utilization = 0; // Instantaneous resource utilization. This is the current
// amount sold. utilization <= weight.
int64_t adjusted_utilization = 0; // Adjusted resource utilization. This is >= utilization and
// <= weight. It grows instantly but decays exponentially.
time_point_sec utilization_timestamp = {}; // When adjusted_utilization was last updated
};
struct powerup_state {
static constexpr uint32_t default_powerup_days = 30; // 30 day resource powerups
uint8_t version = 0;
powerup_state_resource net = {}; // NET market state
powerup_state_resource cpu = {}; // CPU market state
uint32_t powerup_days = default_powerup_days; // `powerup` `days` argument must match this.
asset min_powerup_fee = {}; // fees below this amount are rejected
uint64_t primary_key()const { return 0; }
};
Preparation for Upgrade
- Build eosio.contracts with
powerup
code. Version 1.9.x or greater . - Deploy eosio.system contract to
eosio
. - Create account
eosio.reserv
and ensure the account has enough RAM, at least 4 KiB. - Deploy
powup.results.abi
toeosio.reserv
account usingsetabi
. The ABI can be found in thebuild/contracts/eosio.system/.powerup/
directory. - Enable the REX system (if not enabled).
Configuring PowerUp
Config file
# config.json
{
"net": {
"assumed_stake_weight": 944076307,
"current_weight_ratio": 1000000000000000,
"decay_secs": 86400,
"exponent": 2,
"max_price": "10000000.0000 TST",
"min_price": "0.0000 TST",
"target_timestamp": "2022-01-01T00:00:00.000",
"target_weight_ratio": 10000000000000
},
"cpu": {
"assumed_stake_weight": 3776305228,
"current_weight_ratio": 1000000000000000,
"decay_secs": 86400,
"exponent": 2,
"max_price": "10000000.0000 TST",
"min_price": "0.0000 TST",
"target_timestamp": "2022-01-01T00:00:00.000",
"target_weight_ratio": 10000000000000
},
"min_powerup_fee": "0.0001 TST",
"powerup_days": 1
}
cfgpowerup Action Call
# call to `cfgpowerup`
cleos push action eosio cfgpowerup "[`cat ./config.json`]" -p eosio
Check state
cleos get table eosio 0 powup.state
{
"rows": [{
"version": 0,
"net": {
"version": 0,
"weight": 0,
"weight_ratio": "1000000000000000",
"assumed_stake_weight": 944076307,
"initial_weight_ratio": "1000000000000000",
"target_weight_ratio": "10000000000000",
"initial_timestamp": "2020-11-16T19:52:50",
"target_timestamp": "2022-01-01T00:00:00",
"exponent": "2.00000000000000000",
"decay_secs": 3600,
"min_price": "0.0000 TST",
"max_price": "10000000.0000 TST",
"utilization": 0,
"adjusted_utilization": 0,
"utilization_timestamp": "2020-11-16T19:52:50"
},
"cpu": {
"version": 0,
"weight": 0,
"weight_ratio": "1000000000000000",
"assumed_stake_weight": 3776305228,
"initial_weight_ratio": "1000000000000000",
"target_weight_ratio": "10000000000000",
"initial_timestamp": "2020-11-16T19:52:50",
"target_timestamp": "2022-01-01T00:00:00",
"exponent": "2.00000000000000000",
"decay_secs": 3600,
"min_price": "0.0000 TST",
"max_price": "10000000.0000 TST",
"utilization": 0,
"adjusted_utilization": 0,
"utilization_timestamp": "2020-11-16T19:52:50"
},
"powerup_days": 1,
"min_powerup_fee": "0.0001 TST"
}
],
"more": false,
"next_key": ""
}
Using PowerUp
Executing an order
The action to power up an account is powerup
. It takes a payer
of the fee and a receiver
of the resources. The days
must always match state.powerup_days
. net_frac
and cpu_frac
are the percentage of the resources that you need. The easiest way to caclulate the percentage is to multiple 10^15 (100%) by the desired percentage. For example: 10^15 * 0.01 = 10^13.
cleos push action eosio powerup '[user, user, 1, 10000000000000, 10000000000000, "1000.0000 TST"]' -p user
executed transaction: 82b7124601612b371b812e3bf65cf63bb44616802d3cd33a2c0422b58399f54f 144 bytes 521 us
# eosio <= eosio::powerup {"payer":"user","receiver":"user","days":1,"net_frac":"10000000000000","cpu_frac":"10000000000000","...
# eosio.token <= eosio.token::transfer {"from":"user","to":"eosio.rex","quantity":"999.9901 TST","memo":"transfer from user to eosio.rex"}
# eosio.reserv <= eosio.reserv::powupresult {"fee":"999.9901 TST","powup_net_weight":"16354","powup_cpu_weight":"65416"}
# user <= eosio.token::transfer {"from":"user","to":"eosio.rex","quantity":"999.9901 TST","memo":"transfer from user to eosio.rex"}
# eosio.rex <= eosio.token::transfer {"from":"user","to":"eosio.rex","quantity":"999.9901 TST","memo":"transfer from user to eosio.rex"}
You can see how much NET and CPU weight was received as well as the fee by looking at the eosio.reserv::powupresult
informational action.
It is worth mentioning that the network being used for the example has not fully transitioned so the available resources are minimal therefore 1% of the resources are quite expensive. As the system continues the transition more resources are available to the PowerUp
resource model and will become more affordable.
Processing Expired Orders
The resources in loans that expire do not automatically get reclaimed by the system. The expired loans sit in a queue that must be processed. Anyone calling the powerup
action will help with processing this queue (limited to processing at most two expired loans at a time) so that normally the expired loans will be automatically processed in a timely manner. However, in some cases it may be necessary to manual process expired loans in the queue to make resources available to the system again and thus make prices cheaper. In such a scenario, any account may process up to an arbitrary number of expired loans by calling the powerupexec
action.
The orders table powup.order
can be viewed by calling:
cleos get table eosio 0 powup.order
{
"rows": [{
"version": 0,
"id": 0,
"owner": "user",
"net_weight": 16354,
"cpu_weight": 65416,
"expires": "2020-11-18T13:04:33"
}
],
"more": false,
"next_key": ""
}
Example powerupexec
call:
cleos push action eosio powerupexec '[user, 2]' -p user
executed transaction: 93ab4ac900a7902e4e59e5e925e8b54622715328965150db10774aa09855dc98 104 bytes 363 us
# eosio <= eosio::powerupexec {"user":"user","max":2}
warning: transaction executed locally, but may not be confirmed by the network yet ]