sidebar_position |
---|
1 |
This paper specifies the Governance module of the Cosmos SDK, which was first described in the Cosmos Whitepaper in June 2016.
The module enables Cosmos SDK based blockchain to support an on-chain governance system. In this system, holders of the native staking token of the chain can vote on proposals on a 1 token 1 vote basis. Next is a list of features the module currently supports:
- Proposal submission: Users can submit proposals with a deposit. Once the minimum deposit is reached, the proposal enters voting period. The minimum deposit can be reached by collecting deposits from different users (including proposer) within deposit period.
- Vote: Participants can vote on proposals that reached MinDeposit and entered voting period.
- Inheritance and penalties: Delegators, by default, inherit their validator's vote if they don't vote themselves.
- Claiming deposit: Users that deposited on proposals can recover their deposits if the proposal was accepted or rejected. If the proposal was vetoed, or never entered voting period (minimum deposit not reached within deposit period), the deposit is burned (or refunded depending on the gov parameters).
The following specification uses ATOM as the native staking token. The module can be adapted to any Proof-Of-Stake blockchain by replacing ATOM with the native staking token of the chain.
The governance process is divided into a few steps that are outlined below:
- Proposal submission: Proposal is submitted to the blockchain with a deposit.
- Vote: Once deposit reaches a certain value (
MinDeposit
), proposal is confirmed and vote opens. Bonded Atom holders can then sendTxGovVote
transactions to vote on the proposal. - Execution After a period of time, the votes are tallied and depending on the result, the messages in the proposal will be executed.
Every account can submit proposals by sending a MsgSubmitProposal
transaction.
Once a proposal is submitted, it is identified by its unique proposalID
.
A proposal includes an array of sdk.Msg
s which are executed automatically if the
proposal passes. The messages are executed by the governance ModuleAccount
itself. Modules
such as x/upgrade
, that want to allow certain messages to be executed by governance
only should add a whitelist within the respective msg server, granting the governance
module the right to execute the message once a quorum has been reached. The governance
module uses the core router.Service
to check that these messages are correctly constructed
and have a respective path to execute on but do not perform a full validity check.
:::warning
Ultimately, governance is able to execute any proposal, even if they weren't meant to be executed by governance (ie. no authority present).
Messages without authority are messages meant to be executed by users. Using the MsgSudoExec
message in a proposal, let governance be able to execute any message, effectively acting as super user.
:::
To prevent spam, proposals must be submitted with a deposit in the coins defined by
the MinDeposit
param.
When a proposal is submitted, it has to be accompanied with a deposit that must be
strictly positive, but can be inferior to MinDeposit
. The submitter doesn't need
to pay for the entire deposit on their own. The newly created proposal is stored in
an inactive proposal queue and stays there until its deposit passes the MinDeposit
.
Other token holders can increase the proposal's deposit by sending a Deposit
transaction. If a proposal doesn't pass the MinDeposit
before the deposit end time
(the time when deposits are no longer accepted), the proposal will be destroyed: the
proposal will be removed from state and the deposit will be burned (see x/gov EndBlocker
).
When a proposal deposit passes the MinDeposit
threshold (even during the proposal
submission) before the deposit end time, the proposal will be moved into the
active proposal queue and the voting period will begin.
The deposit is kept in escrow and held by the governance ModuleAccount
until the
proposal is finalized (passed or rejected).
When a proposal is finalized, the coins from the deposit are either refunded or burned according to the final tally of the proposal and the governance module parameters:
- All refunded or burned deposits are removed from the state. Events are issued when burning or refunding a deposit.
- If the proposal is approved or rejected but not vetoed, each deposit will be
automatically refunded to its respective depositor (transferred from the governance
ModuleAccount
). - If the proposal is marked as Spam, the deposit will be burned.
For other cases, they are three parameters that define if the deposit of a proposal should be burned or returned to the depositors.
BurnVoteVeto
burns the proposal deposit if the proposal gets vetoed.BurnVoteQuorum
burns the proposal deposit if the vote does not reach quorum.BurnProposalDepositPrevote
burns the proposal deposit if it does not enter the voting phase.
Note: These parameters are modifiable via governance.
Participants are users that have the right to vote on proposals. On the Cosmos Hub, participants are bonded Atom holders. Unbonded Atom holders and other users do not get the right to participate in governance. However, they can submit and deposit on proposals.
Note that when participants have bonded and unbonded Atoms, their voting power is calculated from their bonded Atom holdings only.
Once a proposal reaches MinDeposit
, it immediately enters Voting period
. We
define Voting period
as the interval between the moment the vote opens and
the moment the vote closes. The default value of Voting period
is 2 weeks but is modifiable at genesis or governance.
The option set of a proposal refers to the set of choices a participant can choose from when casting its vote.
The initial option set includes the following options:
Yes
/Option 1
Abstain
/Option 2
No
/Option 3
NoWithVeto
/Option 4
Spam
/Option Spam
NoWithVeto
counts as No
but also adds a Veto
vote. Abstain
option
allows voters to signal that they do not intend to vote in favor or against the
proposal but accept the result of the vote.
ADR-037 introduces the weighted vote feature which allows a staker to split their votes into several voting options. For example, it could use 70% of its voting power to vote Yes and 30% of its voting power to vote No.
Often times the entity owning that address might not be a single individual. For example, a company might have different stakeholders who want to vote differently, and so it makes sense to allow them to split their voting power. Currently, it is not possible for them to do "passthrough voting" and giving their users voting rights over their tokens. However, with this system, exchanges can poll their users for voting preferences, and then vote on-chain proportionally to the results of the poll.
To represent weighted vote on chain, we use the following Protobuf message.
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/gov.proto#L56-L63
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/gov.proto#L202-L219
For a weighted vote to be valid, the options
field must not contain duplicate vote options, and the sum of weights of all options must be equal to 1.
The maximum number of weighted vote options can be limited by the developer via a config parameter, named MaxVoteOptionsLen
, which gets passed into the gov keeper.
Quorum is defined as the minimum percentage of voting power that needs to be cast on a proposal for the result to be valid.
Expedited Quorum is defined as the minimum percentage of voting power that needs to be cast on an expedited proposal for the result to be valid.
Yes quorum is a more restrictive quorum that is used to determine if a proposal passes.
It is defined as the minimum percentage of voting power that needs to have voted Yes
for the proposal to pass.
It differs from Threshold
as it takes the whole voting power into account, not only Yes
and No
votes.
By default, YesQuorum
is set to 0, which means no minimum.
Proposal types have been introduced in ADR-069.
A standard proposal is a proposal that can contain any messages. The proposal follows the standard governance flow and governance parameters.
A proposal can be expedited, making the proposal use shorter voting duration and a higher tally threshold by its default. If an expedited proposal fails to meet the threshold within the scope of shorter voting duration, the expedited proposal is then converted to a regular proposal and restarts voting under regular voting conditions.
An optimistic proposal is a proposal that passes unless a threshold of NO votes is reached. Voter can only vote NO on the proposal. If the NO threshold is reached, the optimistic proposal is converted to a standard proposal.
That threshold is defined by the optimistic_rejected_threshold
governance parameter.
A chain can optionally set a list of authorized addresses that can submit optimistic proposals using the optimistic_authorized_addresses
governance parameter.
A multiple choice proposal is a proposal where the voting options can be defined by the proposer. The number of voting options is limited to a maximum of 4. Multiple choice proposals, contrary to any other proposal type, cannot have messages to execute. They are only text proposals.
Threshold is defined as the minimum proportion of Yes
votes (excluding Abstain
votes) for the proposal to be accepted.
Initially, the threshold is set at 50% of Yes
votes, excluding Abstain
votes.
A possibility to veto exists if more than 1/3rd of all votes are NoWithVeto
votes.
Note, both of these values are derived from the Params
on-chain parameter, which is modifiable by governance.
This means that proposals are accepted iff:
- There exist bonded tokens.
- Quorum has been achieved.
- The proportion of
Abstain
votes is inferior to 1/1. - The proportion of
NoWithVeto
votes is inferior to 1/3, includingAbstain
votes. - The proportion of
Yes
votes, excludingAbstain
votes, at the end of the voting period is superior to 1/2.
For expedited proposals, by default, the threshold is higher than with a normal proposal, namely, 66.7%.
If a delegator does not vote, by default, it will inherit its validator vote.
- If the delegator votes before its validator, it will not inherit from the validator's vote.
- If the delegator votes after its validator, it will override its validator vote with its own. If the proposal is urgent, it is possible that the vote will close before delegators have a chance to react and override their validator's vote. This is not a problem, as proposals require more than 2/3rd of the total voting power to pass, when tallied at the end of the voting period. Because as little as 1/3 + 1 validation power could collude to censor transactions, non-collusion is already assumed for ranges exceeding this threshold.
This behavior can be changed by passing a custom tally calculation function to the governance module.
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/keeper/config.go#L33-L35
At present, validators are not punished for failing to vote.
Execution is the process of executing the messages contained in a proposal. The execution phase will commence after the proposal has been accepted by the network. The messages contained in the proposal will be executed in the order they were submitted. All messages must be executed successfully for the proposal to be considered successful. I
If a proposal passes but fails to execute, the proposal will be marked as StatusFailed
. This status is different from StatusRejected
, which is used when a proposal fails to pass.
Execution has an upper limit on how much gas can be consumed in a single block. This limit is defined by the ProposalExecutionGas
parameter.
The governance module uses collections for state management.
Constitution
is found in the genesis state. It is a string field intended to be used to describe the purpose of a particular blockchain, and its expected norms. A few examples of how the constitution field can be used:
- define the purpose of the chain, laying a foundation for its future development
- set expectations for delegators
- set expectations for validators
- define the chain's relationship to "meatspace" entities, like a foundation or corporation
Since this is more of a social feature than a technical feature, we'll now get into some items that may have been useful to have in a genesis constitution:
- What limitations on governance exist, if any?
- is it okay for the community to slash the wallet of a whale that they no longer feel that they want around? (viz: Juno Proposal 4 and 16)
- can governance "socially slash" a validator who is using unapproved MEV? (viz: commonwealth.im/osmosis)
- In the event of an economic emergency, what should validators do?
- Terra crash of May, 2022, saw validators choose to run a new binary with code that had not been approved by governance, because the governance token had been inflated to nothing.
- What is the purpose of the chain, specifically?
- best example of this is the Cosmos hub, where different founding groups, have different interpretations of the purpose of the network.
This genesis entry, "constitution" hasn't been designed for existing chains, who should likely just ratify a constitution using their governance system. Instead, this is for new chains. It will allow for validators to have a much clearer idea of purpose and the expectations placed on them while operating their nodes. Likewise, for community members, the constitution will give them some idea of what to expect from both the "chain team" and the validators, respectively.
This constitution is designed to be immutable, and placed only in genesis, though that could change over time by a pull request to the cosmos-sdk that allows for the constitution to be changed by governance. Communities wishing to make amendments to their original constitution should use the governance mechanism and a "signaling proposal" to do exactly that.
Ideal use scenario for a cosmos chain constitution
As a chain developer, you decide that you'd like to provide clarity to your key user groups:
- validators
- token holders
- developers (yourself)
You use the constitution to immutably store some Markdown in genesis, so that when difficult questions come up, the constitution can provide guidance to the community.
Proposal
objects are used to tally votes and generally track the proposal's state.
They contain an array of arbitrary sdk.Msg
's which the governance module will attempt
to resolve and then execute if the proposal passes. Proposal
's are identified by a
unique id and contains a series of timestamps: submit_time
, deposit_end_time
,
voting_start_time
, voting_end_time
which track the lifecycle of a proposal
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/gov.proto#L78-L134
A proposal will generally require more than just a set of messages to explain its
purpose but need some greater justification and allow a means for interested participants
to discuss and debate the proposal.
In most cases, it is encouraged to have an off-chain system that supports the on-chain governance process.
To accommodate for this, a proposal contains a special metadata
field, a string,
which can be used to add context to the proposal. The metadata
field allows custom use for networks,
however, it is expected that the field contains a URL or some form of CID using a system such as
IPFS. To support the case of
interoperability across networks, the SDK recommends that the metadata
represents
the following JSON
template:
{
"title": "...",
"description": "...",
"forum": "...", // a link to the discussion platform (i.e. Discord)
"other": "..." // any extra data that doesn't correspond to the other fields
}
This makes it far easier for clients to support multiple networks.
Fields metadata, title and summary have a maximum length that is chosen by the app developer, and
passed into the gov keeper as a config (x/gov/keeper/config
).
The default maximum length are:
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/keeper/config.go#L38-L47
There are many aspects of a chain, or of the individual modules that you may want to
use governance to perform such as changing various parameters. This is very simple
to do. First, write out your message types and MsgServer
implementation. Add an
authority
field to the keeper which will be populated in the constructor with the
governance module account: govKeeper.GetGovernanceAccount().GetAddress()
. Then for
the methods in the msg_server.go
, perform a check on the message that the signer
matches authority
. This will prevent any user from executing that message.
:::warning
Note, any message can be executed by governance if embedded in MsgSudoExec
.
:::
Params
define the rules according to which votes are run. If governance wants to change a
parameter it can do so by submitting a gov MsgUpdateParams
governance proposal.
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/gov.proto#L259-L348
Parameters are stored in the gov
store under the key ParamsKey
.
Additionally, we introduce some basic types:
type ProposalStatus byte
const (
StatusNil ProposalStatus = 0x00
StatusDepositPeriod ProposalStatus = 0x01 // Proposal is submitted. Participants can deposit on it but not vote
StatusVotingPeriod ProposalStatus = 0x02 // MinDeposit is reached, participants can vote
StatusPassed ProposalStatus = 0x03 // Proposal passed and successfully executed
StatusRejected ProposalStatus = 0x04 // Proposal has been rejected
StatusFailed ProposalStatus = 0x05 // Proposal passed but failed execution
)
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/gov.proto#L65-L76
This type is used in a temp map when tallying
type ValidatorGovInfo struct {
Minus sdk.Dec
Vote Vote
}
:::warning
Legacy proposals (gov/v1beta1
) are deprecated. Use the new proposal flow by granting the governance module the right to execute the message.
:::
Proposals can be submitted by any account via a MsgSubmitProposal
or a MsgSubmitMultipleChoiceProposal
transaction.
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/tx.proto#L64-L102
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/tx.proto#L229-L256
:::tip
A multiple choice proposal is a proposal where the voting options can be defined by the proposer.
It cannot have messages to execute. It is only a text proposal.
This means submitting a multiple choice proposal using MsgSubmitProposal
is invalid, as vote options cannot be defined.
:::
All sdk.Msgs
passed into the messages
field of a MsgSubmitProposal
message
must be registered in the app's message router. Each of these messages must
have one signer, namely the gov module account. And finally, the metadata length
must not be larger than the maxMetadataLen
config passed into the gov keeper.
The initialDeposit
must be strictly positive and conform to the accepted denom of the MinDeposit
param.
Once a proposal is submitted, if Proposal.TotalDeposit < GovParams.MinDeposit
, Atom holders can send
MsgDeposit
transactions to increase the proposal's deposit.
A deposit is accepted iff:
- The proposal exists
- The proposal is not in the voting period
- The deposited coins are conform to the accepted denom from the
MinDeposit
param
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/tx.proto#L167-L180
Once GovParams.MinDeposit
is reached, voting period starts. From there,
bonded Atom holders are able to send MsgVote
transactions to cast their
vote on the proposal.
https://github.com/cosmos/cosmos-sdk/blob/v0.52.0-beta.1/x/gov/proto/cosmos/gov/v1/tx.proto#L125-L141
The governance module emits the following events:
Type | Attribute Key | Attribute Value |
---|---|---|
inactive_proposal | proposal_id | {proposalID} |
inactive_proposal | proposal_result | {proposalResult} |
active_proposal | proposal_id | {proposalID} |
active_proposal | proposal_result | {proposalResult} |
Type | Attribute Key | Attribute Value |
---|---|---|
submit_proposal | proposal_id | {proposalID} |
submit_proposal [0] | voting_period_start | {proposalID} |
proposal_deposit | amount | {depositAmount} |
proposal_deposit | proposal_id | {proposalID} |
message | module | governance |
message | action | submit_proposal |
message | sender | {senderAddress} |
- [0] Event only emitted if the voting period starts during the submission.
Type | Attribute Key | Attribute Value |
---|---|---|
proposal_vote | option | {voteOption} |
proposal_vote | proposal_id | {proposalID} |
message | module | governance |
message | action | vote |
message | sender | {senderAddress} |
Type | Attribute Key | Attribute Value |
---|---|---|
proposal_vote | option | {weightedVoteOptions} |
proposal_vote | proposal_id | {proposalID} |
message | module | governance |
message | action | vote |
message | sender | {senderAddress} |
Type | Attribute Key | Attribute Value |
---|---|---|
proposal_deposit | amount | {depositAmount} |
proposal_deposit | proposal_id | {proposalID} |
proposal_deposit [0] | voting_period_start | {proposalID} |
message | module | governance |
message | action | deposit |
message | sender | {senderAddress} |
- [0] Event only emitted if the voting period starts during the submission.
The governance module contains the following parameters:
Key | Type | Example |
---|---|---|
min_deposit | array (coins) | [{"denom":"uatom","amount":"10000000"}] |
max_deposit_period | string (time ns) | "172800000000000" (17280s) |
voting_period | string (time ns) | "172800000000000" (17280s) |
quorum | string (dec) | "0.334000000000000000" |
yes_quorum | string (dec) | "0.4" |
threshold | string (dec) | "0.500000000000000000" |
veto | string (dec) | "0.334000000000000000" |
expedited_threshold | string (time ns) | "0.667000000000000000" |
expedited_voting_period | string (time ns) | "86400000000000" (8600s) |
expedited_min_deposit | array (coins) | [{"denom":"uatom","amount":"50000000"}] |
expedited_quorum | string (dec) | "0.5" |
burn_proposal_deposit_prevote | bool | false |
burn_vote_quorum | bool | false |
burn_vote_veto | bool | true |
min_initial_deposit_ratio | string | "0.1" |
proposal_cancel_ratio | string (dec) | "0.5" |
proposal_cancel_dest | string (address) | "cosmos1.." or empty for burn |
proposal_cancel_max_period | string (dec) | "0.5" |
optimistic_rejected_threshold | string (dec) | "0.1" |
optimistic_authorized_addresses | array (addresses) | [] |
NOTE: The governance module contains parameters that are objects unlike other modules. If only a subset of parameters are desired to be changed, only they need to be included and not the entire parameter object structure.
In addition to the parameters above, the governance module can also be configured to have different parameters for a given proposal message.
Key | Type | Example |
---|---|---|
voting_period | string (time ns) | "172800000000000" (17280s) |
yes_quorum | string (dec) | "0.4" |
quorum | string (dec) | "0.334000000000000000" |
threshold | string (dec) | "0.500000000000000000" |
veto | string (dec) | "0.334000000000000000" |
If configured, these params will take precedence over the global params for a specific proposal.
:::warning Currently, messaged based parameters limit the number of messages that can be included in a proposal. Only messages that have the same message parameters can be included in the same proposal. :::
The gov module has two locations for metadata where users can provide further context about the on-chain actions they are taking. By default all metadata fields have a 255 character length field where metadata can be stored in json format, either on-chain or off-chain depending on the amount of data required. Here we provide a recommendation for the json structure and where the data should be stored. There are two important factors in making these recommendations. First, that the gov and group modules are consistent with one another, note the number of proposals made by all groups may be quite large. Second, that client applications such as block explorers and governance interfaces have confidence in the consistency of metadata structure across chains.
Location: off-chain as json object stored on IPFS (mirrors group proposal)
{
"title": "",
"authors": [""],
"summary": "",
"details": "",
"proposal_forum_url": "",
"vote_option_context": "",
}
:::note
The authors
field is an array of strings, this is to allow for multiple authors to be listed in the metadata.
In v0.46, the authors
field is a comma-separated string. Frontends are encouraged to support both formats for backwards compatibility.
:::
Location: on-chain as json within 255 character limit (mirrors group vote)
{
"justification": "",
}
A user can query and interact with the gov
module using the CLI.
The query
commands allow users to query gov
state.
simd query gov --help
The deposit
command allows users to query a deposit for a given proposal from a given depositor.
simd query gov deposit [proposal-id] [depositor-addr] [flags]
Example:
simd query gov deposit 1 cosmos1..
Example Output:
amount:
- amount: "100"
denom: stake
depositor: cosmos1..
proposal_id: "1"
The deposits
command allows users to query all deposits for a given proposal.
simd query gov deposits [proposal-id] [flags]
Example:
simd query gov deposits 1
Example Output:
deposits:
- amount:
- amount: "100"
denom: stake
depositor: cosmos1..
proposal_id: "1"
pagination:
next_key: null
total: "0"
The params
command allows users to query all parameters for the gov
module.
simd query gov params [flags]
Example:
simd query gov params
Example Output:
params:
expedited_min_deposit:
- amount: "50000000"
denom: stake
expedited_threshold: "0.670000000000000000"
expedited_voting_period: 86400s
max_deposit_period: 172800s
min_deposit:
- amount: "10000000"
denom: stake
min_initial_deposit_ratio: "0.000000000000000000"
proposal_cancel_burn_rate: "0.500000000000000000"
quorum: "0.334000000000000000"
threshold: "0.500000000000000000"
veto_threshold: "0.334000000000000000"
voting_period: 172800s
The proposal
command allows users to query a given proposal.
simd query gov proposal [proposal-id] [flags]
Example:
simd query gov proposal 1
Example Output:
deposit_end_time: "2022-03-30T11:50:20.819676256Z"
final_tally_result:
abstain_count: "0"
no_count: "0"
no_with_veto_count: "0"
yes_count: "0"
id: "1"
messages:
- '@type': /cosmos.bank.v1beta1.MsgSend
amount:
- amount: "10"
denom: stake
from_address: cosmos1..
to_address: cosmos1..
metadata: AQ==
status: PROPOSAL_STATUS_DEPOSIT_PERIOD
submit_time: "2022-03-28T11:50:20.819676256Z"
total_deposit:
- amount: "10"
denom: stake
voting_end_time: null
voting_start_time: null
The proposals
command allows users to query all proposals with optional filters.
simd query gov proposals [flags]
Example:
simd query gov proposals
Example Output:
pagination:
next_key: null
total: "0"
proposals:
- deposit_end_time: "2022-03-30T11:50:20.819676256Z"
final_tally_result:
abstain_count: "0"
no_count: "0"
no_with_veto_count: "0"
yes_count: "0"
id: "1"
messages:
- '@type': /cosmos.bank.v1beta1.MsgSend
amount:
- amount: "10"
denom: stake
from_address: cosmos1..
to_address: cosmos1..
metadata: AQ==
status: PROPOSAL_STATUS_DEPOSIT_PERIOD
submit_time: "2022-03-28T11:50:20.819676256Z"
total_deposit:
- amount: "10"
denom: stake
voting_end_time: null
voting_start_time: null
- deposit_end_time: "2022-03-30T14:02:41.165025015Z"
final_tally_result:
abstain_count: "0"
no_count: "0"
no_with_veto_count: "0"
yes_count: "0"
id: "2"
messages:
- '@type': /cosmos.bank.v1beta1.MsgSend
amount:
- amount: "10"
denom: stake
from_address: cosmos1..
to_address: cosmos1..
metadata: AQ==
status: PROPOSAL_STATUS_DEPOSIT_PERIOD
submit_time: "2022-03-28T14:02:41.165025015Z"
total_deposit:
- amount: "10"
denom: stake
voting_end_time: null
voting_start_time: null
The proposer
command allows users to query the proposer for a given proposal.
simd query gov proposer [proposal-id] [flags]
Example:
simd query gov proposer 1
Example Output:
proposal_id: "1"
proposer: cosmos1..
The tally
command allows users to query the tally of a given proposal vote.
simd query gov tally [proposal-id] [flags]
Example:
simd query gov tally 1
Example Output:
abstain: "0"
"no": "0"
no_with_veto: "0"
"yes": "1"
The vote
command allows users to query a vote for a given proposal.
simd query gov vote [proposal-id] [voter-addr] [flags]
Example:
simd query gov vote 1 cosmos1..
Example Output:
option: VOTE_OPTION_YES
options:
- option: VOTE_OPTION_YES
weight: "1.000000000000000000"
proposal_id: "1"
voter: cosmos1..
The votes
command allows users to query all votes for a given proposal.
simd query gov votes [proposal-id] [flags]
Example:
simd query gov votes 1
Example Output:
pagination:
next_key: null
total: "0"
votes:
- option: VOTE_OPTION_YES
options:
- option: VOTE_OPTION_YES
weight: "1.000000000000000000"
proposal_id: "1"
voter: cosmos1..
The tx
commands allow users to interact with the gov
module.
simd tx gov --help
The deposit
command allows users to deposit tokens for a given proposal.
simd tx gov deposit [proposal-id] [deposit] [flags]
Example:
simd tx gov deposit 1 10000000stake --from cosmos1..
The draft-proposal
command allows users to draft any type of proposal.
The command returns a draft_proposal.json
, to be used by submit-proposal
after being completed.
The draft_metadata.json
is meant to be uploaded to IPFS.
simd tx gov draft-proposal
The submit-proposal
command allows users to submit a governance proposal along with some messages and metadata.
Messages, metadata and deposit are defined in a JSON file.
simd tx gov submit-proposal [path-to-proposal-json] [flags]
Example:
simd tx gov submit-proposal /path/to/proposal.json --from cosmos1..
where proposal.json
contains:
{
"messages": [
{
"@type": "/cosmos.bank.v1beta1.MsgSend",
"from_address": "cosmos1...", // The gov module module address
"to_address": "cosmos1...",
"amount":[{"denom": "stake","amount": "10"}]
}
],
"metadata": "AQ==",
"deposit": "10stake",
"title": "Proposal Title",
"summary": "Proposal Summary"
}
:::note By default the metadata, summary and title are both limited by 255 characters, this can be overridden by the application developer. :::
:::tip When metadata is not specified, the title is limited to 255 characters and the summary 40x the title length. :::
Once proposal is canceled, from the deposits of proposal deposits * proposal_cancel_ratio
will be burned or sent to ProposalCancelDest
address , if ProposalCancelDest
is empty then deposits will be burned. The remaining deposits
will be sent to depositors.
simd tx gov cancel-proposal [proposal-id] [flags]
Example:
simd tx gov cancel-proposal 1 --from cosmos1...
The vote
command allows users to submit a vote for a given governance proposal.
simd tx gov vote [command] [flags]
Example:
simd tx gov vote 1 yes --from cosmos1..
The weighted-vote
command allows users to submit a weighted vote for a given governance proposal.
simd tx gov weighted-vote [proposal-id] [weighted-options] [flags]
Example:
simd tx gov weighted-vote 1 yes=0.5,no=0.5 --from cosmos1..
A user can query the gov
module using gRPC endpoints.
The Proposal
endpoint allows users to query a given proposal.
cosmos.gov.v1.Query/Proposal
Example:
grpcurl -plaintext \
-d '{"proposal_id":"1"}' \
localhost:9090 \
cosmos.gov.v1.Query/Proposal
The Proposals
endpoint allows users to query all proposals with optional filters.
cosmos.gov.v1.Query/Proposals
Example:
grpcurl -plaintext \
localhost:9090 \
cosmos.gov.v1.Query/Proposals
The Vote
endpoint allows users to query a vote for a given proposal.
cosmos.gov.v1.Query/Vote
Example:
grpcurl -plaintext \
-d '{"proposal_id":"1","voter":"cosmos1.."}' \
localhost:9090 \
cosmos.gov.v1.Query/Vote
The Votes
endpoint allows users to query all votes for a given proposal.
cosmos.gov.v1.Query/Votes
Example:
grpcurl -plaintext \
-d '{"proposal_id":"1"}' \
localhost:9090 \
cosmos.gov.v1.Query/Votes
The Params
endpoint allows users to query all parameters for the gov
module.
cosmos.gov.v1.Query/Params
Example:
grpcurl -plaintext \
-d '{"params_type":"voting"}' \
localhost:9090 \
cosmos.gov.v1.Query/Params
The Deposit
endpoint allows users to query a deposit for a given proposal from a given depositor.
cosmos.gov.v1.Query/Deposit
Example:
grpcurl -plaintext \
'{"proposal_id":"1","depositor":"cosmos1.."}' \
localhost:9090 \
cosmos.gov.v1.Query/Deposit
The Deposits
endpoint allows users to query all deposits for a given proposal.
cosmos.gov.v1.Query/Deposits
Example:
grpcurl -plaintext \
-d '{"proposal_id":"1"}' \
localhost:9090 \
cosmos.gov.v1.Query/Deposits
The TallyResult
endpoint allows users to query the tally of a given proposal.
cosmos.gov.v1.Query/TallyResult
Example:
grpcurl -plaintext \
-d '{"proposal_id":"1"}' \
localhost:9090 \
cosmos.gov.v1.Query/TallyResult
A user can query the gov
module using REST endpoints.
The proposals
endpoint allows users to query a given proposal.
/cosmos/gov/v1/proposals/{proposal_id}
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1
The proposals
endpoint also allows users to query all proposals with optional filters.
/cosmos/gov/v1/proposals
Example:
curl localhost:1317/cosmos/gov/v1/proposals
The votes
endpoint allows users to query a vote for a given proposal.
/cosmos/gov/v1/proposals/{proposal_id}/votes/{voter}
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1/votes/cosmos1..
The votes
endpoint allows users to query all votes for a given proposal.
/cosmos/gov/v1/proposals/{proposal_id}/votes
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1/votes
The params
endpoint allows users to query all parameters for the gov
module.
/cosmos/gov/v1/params/{params_type}
Example:
curl localhost:1317/cosmos/gov/v1/params/voting
Note: params_type
are deprecated in v1 since all params are stored in Params.
The deposits
endpoint allows users to query a deposit for a given proposal from a given depositor.
/cosmos/gov/v1/proposals/{proposal_id}/deposits/{depositor}
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1/deposits/cosmos1..
The deposits
endpoint allows users to query all deposits for a given proposal.
/cosmos/gov/v1/proposals/{proposal_id}/deposits
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1/deposits
The tally
endpoint allows users to query the tally of a given proposal.
/cosmos/gov/v1/proposals/{proposal_id}/tally
Example:
curl localhost:1317/cosmos/gov/v1/proposals/1/tally