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Merge pull request #1514 from tendermint/release/v0.19.1

Release/v0.19.1
pull/1523/head v0.19.1
Ethan Buchman 7 years ago
committed by GitHub
parent
commit
26f633ed48
No known key found for this signature in database GPG Key ID: 4AEE18F83AFDEB23
82 changed files with 3277 additions and 483 deletions
  1. +30
    -2
      CHANGELOG.md
  2. +1
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      DOCKER/Dockerfile
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      Gopkg.lock
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      Makefile
  7. +6
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      README.md
  8. +13
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      cmd/tendermint/commands/testnet.go
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      docker-compose/localnode/wrapper.sh
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      node/node.go
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      p2p/node_info.go
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- 2
CHANGELOG.md View File

@ -24,6 +24,33 @@ BUG FIXES:
- Graceful handling/recovery for apps that have non-determinism or fail to halt
- Graceful handling/recovery for violations of safety, or liveness
## 0.19.1 (April 27th, 2018)
Note this release includes some small breaking changes in the RPC and one in the
config that are really bug fixes. v0.19.1 will work with existing chains, and make Tendermint
easier to use and debug. With <3
BREAKING (MINOR)
- [config] Removed `wal_light` setting. If you really needed this, let us know
FEATURES:
- [networks] moved in tooling from devops repo: terraform and ansible scripts for deploying testnets !
- [cmd] Added `gen_node_key` command
BUG FIXES
Some of these are breaking in the RPC response, but they're really bugs!
- [spec] Document address format and pubkey encoding pre and post Amino
- [rpc] Lower case JSON field names
- [rpc] Fix missing entries, improve, and lower case the fields in `/dump_consensus_state`
- [rpc] Fix NodeInfo.Channels format to hex
- [rpc] Add Validator address to `/status`
- [rpc] Fix `prove` in ABCIQuery
- [cmd] MarshalJSONIndent on init
## 0.19.0 (April 13th, 2018)
BREAKING:
@ -39,8 +66,9 @@ See github.com/tendermint/go-amino for details on the new format.
See `scripts/wire2amino.go` for a tool to upgrade
genesis/priv_validator/node_key JSON files.
FEATURES:
- [cmd] added `gen_node_key` command
FEATURES
- [test] docker-compose for local testnet setup (thanks Greg!)
## 0.18.0 (April 6th, 2018)


+ 1
- 0
DOCKER/.gitignore View File

@ -0,0 +1 @@
tendermint

+ 24
- 30
DOCKER/Dockerfile View File

@ -1,45 +1,39 @@
FROM alpine:3.7
MAINTAINER Greg Szabo <greg@tendermint.com>
# This is the release of tendermint to pull in.
ENV TM_VERSION 0.17.1
ENV TM_SHA256SUM d57008c63d2d9176861137e38ed203da486febf20ae7d388fb810a75afff8f24
# Tendermint will be looking for genesis file in /tendermint (unless you change
# `genesis_file` in config.toml). You can put your config.toml and private
# validator file into /tendermint.
# Tendermint will be looking for the genesis file in /tendermint/config/genesis.json
# (unless you change `genesis_file` in config.toml). You can put your config.toml and
# private validator file into /tendermint/config.
#
# The /tendermint/data dir is used by tendermint to store state.
ENV DATA_ROOT /tendermint
ENV TMHOME $DATA_ROOT
# Set user right away for determinism
RUN addgroup tmuser && \
adduser -S -G tmuser tmuser
# Create directory for persistence and give our user ownership
RUN mkdir -p $DATA_ROOT && \
chown -R tmuser:tmuser $DATA_ROOT
ENV TMHOME /tendermint
# OS environment setup
# Set user right away for determinism, create directory for persistence and give our user ownership
# jq and curl used for extracting `pub_key` from private validator while
# deploying tendermint with Kubernetes. It is nice to have bash so the users
# could execute bash commands.
RUN apk add --no-cache bash curl jq
RUN apk update && \
apk upgrade && \
apk --no-cache add curl jq bash && \
addgroup tmuser && \
adduser -S -G tmuser tmuser -h "$TMHOME"
RUN apk add --no-cache openssl && \
wget https://github.com/tendermint/tendermint/releases/download/v${TM_VERSION}/tendermint_${TM_VERSION}_linux_amd64.zip && \
echo "${TM_SHA256SUM} tendermint_${TM_VERSION}_linux_amd64.zip" | sha256sum -c && \
unzip -d /bin tendermint_${TM_VERSION}_linux_amd64.zip && \
apk del openssl && \
rm -f tendermint_${TM_VERSION}_linux_amd64.zip
# Run the container with tmuser by default. (UID=100, GID=1000)
USER tmuser
# Expose the data directory as a volume since there's mutable state in there
VOLUME $DATA_ROOT
VOLUME [ $TMHOME ]
# p2p port
EXPOSE 46656
# rpc port
EXPOSE 46657
WORKDIR $TMHOME
ENTRYPOINT ["tendermint"]
# p2p and rpc port
EXPOSE 46656 46657
ENTRYPOINT ["/usr/bin/tendermint"]
CMD ["node", "--moniker=`hostname`"]
STOPSIGNAL SIGTERM
ARG BINARY=tendermint
COPY $BINARY /usr/bin/tendermint

+ 11
- 10
Gopkg.lock View File

@ -5,7 +5,7 @@
branch = "master"
name = "github.com/btcsuite/btcd"
packages = ["btcec"]
revision = "2be2f12b358dc57d70b8f501b00be450192efbc3"
revision = "675abc5df3c5531bc741b56a765e35623459da6d"
[[projects]]
name = "github.com/davecgh/go-spew"
@ -254,8 +254,8 @@
[[projects]]
name = "github.com/tendermint/go-amino"
packages = ["."]
revision = "42246108ff925a457fb709475070a03dfd3e2b5c"
version = "0.9.6"
revision = "3668c02a8feace009f80754a5e5a8541e5d7b996"
version = "0.9.8"
[[projects]]
name = "github.com/tendermint/go-crypto"
@ -285,8 +285,8 @@
"pubsub/query",
"test"
]
revision = "97e1f1ad3f510048929a51475811a18686c894df"
version = "0.8.2-rc0"
revision = "d94e312673e16a11ea55d742cefb3e331228f898"
version = "v0.8.2"
[[projects]]
branch = "master"
@ -301,13 +301,14 @@
"ripemd160",
"salsa20/salsa"
]
revision = "d6449816ce06963d9d136eee5a56fca5b0616e7e"
revision = "b49d69b5da943f7ef3c9cf91c8777c1f78a0cc3c"
[[projects]]
branch = "master"
name = "golang.org/x/net"
packages = [
"context",
"http/httpguts",
"http2",
"http2/hpack",
"idna",
@ -315,13 +316,13 @@
"lex/httplex",
"trace"
]
revision = "61147c48b25b599e5b561d2e9c4f3e1ef489ca41"
revision = "5f9ae10d9af5b1c89ae6904293b14b064d4ada23"
[[projects]]
branch = "master"
name = "golang.org/x/sys"
packages = ["unix"]
revision = "3b87a42e500a6dc65dae1a55d0b641295971163e"
revision = "bb9c189858d91f42db229b04d45a4c3d23a7662a"
[[projects]]
name = "golang.org/x/text"
@ -348,7 +349,7 @@
branch = "master"
name = "google.golang.org/genproto"
packages = ["googleapis/rpc/status"]
revision = "51d0944304c3cbce4afe9e5247e21100037bff78"
revision = "7fd901a49ba6a7f87732eb344f6e3c5b19d1b200"
[[projects]]
name = "google.golang.org/grpc"
@ -383,6 +384,6 @@
[solve-meta]
analyzer-name = "dep"
analyzer-version = 1
inputs-digest = "e70f8692c825e80ae8510546e297840b9560d00e11b2272749a55cc2ffd147f0"
inputs-digest = "94cb2543199b0f4b6e9ac0e5b6469bdb77391da1c9f79f5b9792d7af936008ff"
solver-name = "gps-cdcl"
solver-version = 1

+ 1
- 1
Gopkg.toml View File

@ -79,7 +79,7 @@
[[constraint]]
name = "github.com/tendermint/go-amino"
version = "~0.9.6"
version = "~0.9.7"
[[constraint]]
name = "github.com/tendermint/tmlibs"


+ 32
- 5
Makefile View File

@ -178,6 +178,14 @@ metalinter_all:
@echo "--> Running linter (all)"
gometalinter.v2 --vendor --deadline=600s --enable-all --disable=lll ./...
###########################################################
### Docker image
build-docker:
cp build/tendermint DOCKER/tendermint
docker build --label=tendermint --tag="tendermint/tendermint" DOCKER
rm -rf DOCKER/tendermint
###########################################################
### Local testnet using docker
@ -186,17 +194,36 @@ build-linux:
GOOS=linux GOARCH=amd64 $(MAKE) build
# Run a 4-node testnet locally
docker-start:
@echo "Wait until 'Attaching to node0, node1, node2, node3' message appears"
@if ! [ -f build/node0/config/genesis.json ]; then docker run --rm -v `pwd`/build:/tendermint:Z tendermint/localnode testnet --v 4 --o . --populate-persistent-peers --starting-ip-address 192.167.10.2 ; fi
localnet-start:
@if ! [ -f build/node0/config/genesis.json ]; then docker run --rm -v $(CURDIR)/build:/tendermint:Z tendermint/localnode testnet --v 4 --o . --populate-persistent-peers --starting-ip-address 192.167.10.2 ; fi
docker-compose up
# Stop testnet
docker-stop:
localnet-stop:
docker-compose down
###########################################################
### Remote full-nodes (sentry) using terraform and ansible
# Server management
sentry-start:
@if [ -z "$(DO_API_TOKEN)" ]; then echo "DO_API_TOKEN environment variable not set." ; false ; fi
@if ! [ -f $(HOME)/.ssh/id_rsa.pub ]; then ssh-keygen ; fi
cd networks/remote/terraform && terraform init && terraform apply -var DO_API_TOKEN="$(DO_API_TOKEN)" -var SSH_KEY_FILE="$(HOME)/.ssh/id_rsa.pub"
@if ! [ -f $(CURDIR)/build/node0/config/genesis.json ]; then docker run --rm -v $(CURDIR)/build:/tendermint:Z tendermint/localnode testnet --v 0 --n 4 --o . ; fi
cd networks/remote/ansible && ANSIBLE_HOST_KEY_CHECKING=False ansible-playbook -i inventory/digital_ocean.py -l sentrynet install.yml
@echo "Next step: Add your validator setup in the genesis.json and config.tml files and run \"make server-config\". (Public key of validator, chain ID, peer IP and node ID.)"
# Configuration management
sentry-config:
cd networks/remote/ansible && ansible-playbook -i inventory/digital_ocean.py -l sentrynet config.yml -e BINARY=$(CURDIR)/build/tendermint -e CONFIGDIR=$(CURDIR)/build
sentry-stop:
@if [ -z "$(DO_API_TOKEN)" ]; then echo "DO_API_TOKEN environment variable not set." ; false ; fi
cd networks/remote/terraform && terraform destroy -var DO_API_TOKEN="$(DO_API_TOKEN)" -var SSH_KEY_FILE="$(HOME)/.ssh/id_rsa.pub"
# To avoid unintended conflicts with file names, always add to .PHONY
# unless there is a reason not to.
# https://www.gnu.org/software/make/manual/html_node/Phony-Targets.html
.PHONY: check build build_race dist install check_tools get_tools update_tools get_vendor_deps draw_deps test_cover test_apps test_persistence test_p2p test test_race test_integrations test_release test100 vagrant_test fmt build-linux docker-start docker-stop
.PHONY: check build build_race dist install check_tools get_tools update_tools get_vendor_deps draw_deps test_cover test_apps test_persistence test_p2p test test_race test_integrations test_release test100 vagrant_test fmt build-linux localnet-start localnet-stop build-docker sentry-start sentry-config sentry-stop

+ 6
- 3
README.md View File

@ -24,7 +24,9 @@ _NOTE: This is alpha software. Please contact us if you intend to run it in prod
Tendermint Core is Byzantine Fault Tolerant (BFT) middleware that takes a state transition machine - written in any programming language -
and securely replicates it on many machines.
For more information, from introduction to install to application development, [Read The Docs](https://tendermint.readthedocs.io/en/master/).
For more information, from introduction to installation and application development, [Read The Docs](https://tendermint.readthedocs.io/en/master/).
For protocol details, see [the specification](./docs/specification/new-spec).
## Minimum requirements
@ -46,7 +48,8 @@ For more details (or if it fails), [read the docs](https://tendermint.readthedoc
### Tendermint Core
All resources involving the use of, building application on, or developing for, tendermint, can be found at [Read The Docs](https://tendermint.readthedocs.io/en/master/). Additional information about some - and eventually all - of the sub-projects below, can be found at Read The Docs.
To use Tendermint, build apps on it, or develop it, [Read The Docs](https://tendermint.readthedocs.io/en/master/).
Additional information about some - and eventually all - of the sub-projects below, can be found at Read The Docs.
### Sub-projects
@ -61,8 +64,8 @@ All resources involving the use of, building application on, or developing for,
### Applications
* [Ethermint](http://github.com/tendermint/ethermint); Ethereum on Tendermint
* [Cosmos SDK](http://github.com/cosmos/cosmos-sdk); a cryptocurrency application framework
* [Ethermint](http://github.com/tendermint/ethermint); Ethereum on Tendermint
* [Many more](https://tendermint.readthedocs.io/en/master/ecosystem.html#abci-applications)
### More


+ 13
- 1
cmd/tendermint/commands/testnet.go View File

@ -57,7 +57,18 @@ func init() {
var TestnetFilesCmd = &cobra.Command{
Use: "testnet",
Short: "Initialize files for a Tendermint testnet",
RunE: testnetFiles,
Long: `testnet will create "v" + "n" number of directories and populate each with
necessary files (private validator, genesis, config, etc.).
Note, strict routability for addresses is turned off in the config file.
Optionally, it will fill in persistent_peers list in config file using either hostnames or IPs.
Example:
tendermint testnet --v 4 --o ./output --populate-persistent-peers --starting-ip-address 192.168.10.2
`,
RunE: testnetFiles,
}
func testnetFiles(cmd *cobra.Command, args []string) error {
@ -162,6 +173,7 @@ func populatePersistentPeersInConfigAndWriteIt(config *cfg.Config) error {
nodeDir := filepath.Join(outputDir, cmn.Fmt("%s%d", nodeDirPrefix, i))
config.SetRoot(nodeDir)
config.P2P.PersistentPeers = persistentPeersList
config.P2P.AddrBookStrict = false
// overwrite default config
cfg.WriteConfigFile(filepath.Join(nodeDir, "config", "config.toml"), config)


+ 3
- 5
config/config.go View File

@ -367,10 +367,9 @@ func (cfg *MempoolConfig) WalDir() string {
// ConsensusConfig defines the confuguration for the Tendermint consensus service,
// including timeouts and details about the WAL and the block structure.
type ConsensusConfig struct {
RootDir string `mapstructure:"home"`
WalPath string `mapstructure:"wal_file"`
WalLight bool `mapstructure:"wal_light"`
walFile string // overrides WalPath if set
RootDir string `mapstructure:"home"`
WalPath string `mapstructure:"wal_file"`
walFile string // overrides WalPath if set
// All timeouts are in milliseconds
TimeoutPropose int `mapstructure:"timeout_propose"`
@ -401,7 +400,6 @@ type ConsensusConfig struct {
func DefaultConsensusConfig() *ConsensusConfig {
return &ConsensusConfig{
WalPath: filepath.Join(defaultDataDir, "cs.wal", "wal"),
WalLight: false,
TimeoutPropose: 3000,
TimeoutProposeDelta: 500,
TimeoutPrevote: 1000,


+ 3
- 4
config/toml.go View File

@ -37,13 +37,13 @@ func EnsureRoot(rootDir string) {
// Write default config file if missing.
if !cmn.FileExists(configFilePath) {
writeDefaultCondigFile(configFilePath)
writeDefaultConfigFile(configFilePath)
}
}
// XXX: this func should probably be called by cmd/tendermint/commands/init.go
// alongside the writing of the genesis.json and priv_validator.json
func writeDefaultCondigFile(configFilePath string) {
func writeDefaultConfigFile(configFilePath string) {
WriteConfigFile(configFilePath, DefaultConfig())
}
@ -183,7 +183,6 @@ wal_dir = "{{ .Mempool.WalPath }}"
[consensus]
wal_file = "{{ .Consensus.WalPath }}"
wal_light = {{ .Consensus.WalLight }}
# All timeouts are in milliseconds
timeout_propose = {{ .Consensus.TimeoutPropose }}
@ -267,7 +266,7 @@ func ResetTestRoot(testName string) *Config {
// Write default config file if missing.
if !cmn.FileExists(configFilePath) {
writeDefaultCondigFile(configFilePath)
writeDefaultConfigFile(configFilePath)
}
if !cmn.FileExists(genesisFilePath) {
cmn.MustWriteFile(genesisFilePath, []byte(testGenesis), 0644)


+ 2
- 1
consensus/replay_file.go View File

@ -29,6 +29,7 @@ const (
//--------------------------------------------------------
// replay messages interactively or all at once
// replay the wal file
func RunReplayFile(config cfg.BaseConfig, csConfig *cfg.ConsensusConfig, console bool) {
consensusState := newConsensusStateForReplay(config, csConfig)
@ -262,7 +263,7 @@ func (pb *playback) replayConsoleLoop() int {
case "locked_block":
fmt.Printf("%v %v\n", rs.LockedBlockParts.StringShort(), rs.LockedBlock.StringShort())
case "votes":
fmt.Println(rs.Votes.StringIndented(" "))
fmt.Println(rs.Votes.StringIndented(" "))
default:
fmt.Println("Unknown option", tokens[1])


+ 2
- 2
consensus/replay_test.go View File

@ -17,7 +17,7 @@ import (
"github.com/tendermint/abci/example/kvstore"
abci "github.com/tendermint/abci/types"
"github.com/tendermint/go-crypto"
crypto "github.com/tendermint/go-crypto"
auto "github.com/tendermint/tmlibs/autofile"
cmn "github.com/tendermint/tmlibs/common"
dbm "github.com/tendermint/tmlibs/db"
@ -327,7 +327,7 @@ func testHandshakeReplay(t *testing.T, nBlocks int, mode uint) {
privVal := pvm.LoadFilePV(config.PrivValidatorFile())
wal, err := NewWAL(walFile, false)
wal, err := NewWAL(walFile)
if err != nil {
t.Fatal(err)
}


+ 2
- 1
consensus/state.go View File

@ -293,7 +293,7 @@ func (cs *ConsensusState) Wait() {
// OpenWAL opens a file to log all consensus messages and timeouts for deterministic accountability
func (cs *ConsensusState) OpenWAL(walFile string) (WAL, error) {
wal, err := NewWAL(walFile, cs.config.WalLight)
wal, err := NewWAL(walFile)
if err != nil {
cs.Logger.Error("Failed to open WAL for consensus state", "wal", walFile, "err", err)
return nil, err
@ -990,6 +990,7 @@ func (cs *ConsensusState) enterPrecommit(height int64, round int) {
cs.newStep()
}()
// check for a polka
blockID, ok := cs.Votes.Prevotes(round).TwoThirdsMajority()
// If we don't have a polka, we must precommit nil


+ 24
- 0
consensus/types/height_vote_set.go View File

@ -207,6 +207,30 @@ func (hvs *HeightVoteSet) StringIndented(indent string) string {
indent)
}
type roundVoteBitArrays struct {
Round int `json:"round"`
Prevotes *cmn.BitArray `json:"prevotes"`
Precommits *cmn.BitArray `json:"precommits"`
}
func (hvs *HeightVoteSet) MarshalJSON() ([]byte, error) {
hvs.mtx.Lock()
defer hvs.mtx.Unlock()
totalRounds := hvs.round + 1
roundsVotes := make([]roundVoteBitArrays, totalRounds)
// rounds 0 ~ hvs.round inclusive
for round := 0; round < totalRounds; round++ {
roundsVotes[round] = roundVoteBitArrays{
Round: round,
Prevotes: hvs.roundVoteSets[round].Prevotes.BitArray(),
Precommits: hvs.roundVoteSets[round].Precommits.BitArray(),
}
}
// TODO: all other peer catchup rounds
return cdc.MarshalJSON(roundsVotes)
}
// If a peer claims that it has 2/3 majority for given blockKey, call this.
// NOTE: if there are too many peers, or too much peer churn,
// this can cause memory issues.


+ 57
- 0
consensus/types/peer_round_state.go View File

@ -0,0 +1,57 @@
package types
import (
"fmt"
"time"
"github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tmlibs/common"
)
//-----------------------------------------------------------------------------
// PeerRoundState contains the known state of a peer.
// NOTE: Read-only when returned by PeerState.GetRoundState().
type PeerRoundState struct {
Height int64 `json:"height"` // Height peer is at
Round int `json:"round"` // Round peer is at, -1 if unknown.
Step RoundStepType `json:"step"` // Step peer is at
StartTime time.Time `json:"start_time"` // Estimated start of round 0 at this height
Proposal bool `json:"proposal"` // True if peer has proposal for this round
ProposalBlockPartsHeader types.PartSetHeader `json:"proposal_block_parts_header"` //
ProposalBlockParts *cmn.BitArray `json:"proposal_block_parts"` //
ProposalPOLRound int `json:"proposal_pol_round"` // Proposal's POL round. -1 if none.
ProposalPOL *cmn.BitArray `json:"proposal_pol"` // nil until ProposalPOLMessage received.
Prevotes *cmn.BitArray `json:"prevotes"` // All votes peer has for this round
Precommits *cmn.BitArray `json:"precommits"` // All precommits peer has for this round
LastCommitRound int `json:"last_commit_round"` // Round of commit for last height. -1 if none.
LastCommit *cmn.BitArray `json:"last_commit"` // All commit precommits of commit for last height.
CatchupCommitRound int `json:"catchup_commit_round"` // Round that we have commit for. Not necessarily unique. -1 if none.
CatchupCommit *cmn.BitArray `json:"catchup_commit"` // All commit precommits peer has for this height & CatchupCommitRound
}
// String returns a string representation of the PeerRoundState
func (prs PeerRoundState) String() string {
return prs.StringIndented("")
}
// StringIndented returns a string representation of the PeerRoundState
func (prs PeerRoundState) StringIndented(indent string) string {
return fmt.Sprintf(`PeerRoundState{
%s %v/%v/%v @%v
%s Proposal %v -> %v
%s POL %v (round %v)
%s Prevotes %v
%s Precommits %v
%s LastCommit %v (round %v)
%s Catchup %v (round %v)
%s}`,
indent, prs.Height, prs.Round, prs.Step, prs.StartTime,
indent, prs.ProposalBlockPartsHeader, prs.ProposalBlockParts,
indent, prs.ProposalPOL, prs.ProposalPOLRound,
indent, prs.Prevotes,
indent, prs.Precommits,
indent, prs.LastCommit, prs.LastCommitRound,
indent, prs.CatchupCommit, prs.CatchupCommitRound,
indent)
}

+ 0
- 57
consensus/types/reactor.go View File

@ -1,57 +0,0 @@
package types
import (
"fmt"
"time"
"github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tmlibs/common"
)
//-----------------------------------------------------------------------------
// PeerRoundState contains the known state of a peer.
// NOTE: Read-only when returned by PeerState.GetRoundState().
type PeerRoundState struct {
Height int64 // Height peer is at
Round int // Round peer is at, -1 if unknown.
Step RoundStepType // Step peer is at
StartTime time.Time // Estimated start of round 0 at this height
Proposal bool // True if peer has proposal for this round
ProposalBlockPartsHeader types.PartSetHeader //
ProposalBlockParts *cmn.BitArray //
ProposalPOLRound int // Proposal's POL round. -1 if none.
ProposalPOL *cmn.BitArray // nil until ProposalPOLMessage received.
Prevotes *cmn.BitArray // All votes peer has for this round
Precommits *cmn.BitArray // All precommits peer has for this round
LastCommitRound int // Round of commit for last height. -1 if none.
LastCommit *cmn.BitArray // All commit precommits of commit for last height.
CatchupCommitRound int // Round that we have commit for. Not necessarily unique. -1 if none.
CatchupCommit *cmn.BitArray // All commit precommits peer has for this height & CatchupCommitRound
}
// String returns a string representation of the PeerRoundState
func (prs PeerRoundState) String() string {
return prs.StringIndented("")
}
// StringIndented returns a string representation of the PeerRoundState
func (prs PeerRoundState) StringIndented(indent string) string {
return fmt.Sprintf(`PeerRoundState{
%s %v/%v/%v @%v
%s Proposal %v -> %v
%s POL %v (round %v)
%s Prevotes %v
%s Precommits %v
%s LastCommit %v (round %v)
%s Catchup %v (round %v)
%s}`,
indent, prs.Height, prs.Round, prs.Step, prs.StartTime,
indent, prs.ProposalBlockPartsHeader, prs.ProposalBlockParts,
indent, prs.ProposalPOL, prs.ProposalPOLRound,
indent, prs.Prevotes,
indent, prs.Precommits,
indent, prs.LastCommit, prs.LastCommitRound,
indent, prs.CatchupCommit, prs.CatchupCommitRound,
indent)
}

consensus/types/state.go → consensus/types/round_state.go View File


+ 95
- 0
consensus/types/round_state_test.go View File

@ -0,0 +1,95 @@
package types
import (
"testing"
"time"
"github.com/tendermint/go-amino"
"github.com/tendermint/go-crypto"
"github.com/tendermint/tendermint/types"
cmn "github.com/tendermint/tmlibs/common"
)
func BenchmarkRoundStateDeepCopy(b *testing.B) {
b.StopTimer()
// Random validators
nval, ntxs := 100, 100
vset, _ := types.RandValidatorSet(nval, 1)
precommits := make([]*types.Vote, nval)
blockID := types.BlockID{
Hash: cmn.RandBytes(20),
PartsHeader: types.PartSetHeader{
Hash: cmn.RandBytes(20),
},
}
sig := crypto.SignatureEd25519{}
for i := 0; i < nval; i++ {
precommits[i] = &types.Vote{
ValidatorAddress: types.Address(cmn.RandBytes(20)),
Timestamp: time.Now(),
BlockID: blockID,
Signature: sig,
}
}
txs := make([]types.Tx, ntxs)
for i := 0; i < ntxs; i++ {
txs[i] = cmn.RandBytes(100)
}
// Random block
block := &types.Block{
Header: &types.Header{
ChainID: cmn.RandStr(12),
Time: time.Now(),
LastBlockID: blockID,
LastCommitHash: cmn.RandBytes(20),
DataHash: cmn.RandBytes(20),
ValidatorsHash: cmn.RandBytes(20),
ConsensusHash: cmn.RandBytes(20),
AppHash: cmn.RandBytes(20),
LastResultsHash: cmn.RandBytes(20),
EvidenceHash: cmn.RandBytes(20),
},
Data: &types.Data{
Txs: txs,
},
Evidence: types.EvidenceData{},
LastCommit: &types.Commit{
BlockID: blockID,
Precommits: precommits,
},
}
parts := block.MakePartSet(4096)
// Random Proposal
proposal := &types.Proposal{
Timestamp: time.Now(),
BlockPartsHeader: types.PartSetHeader{
Hash: cmn.RandBytes(20),
},
POLBlockID: blockID,
Signature: sig,
}
// Random HeightVoteSet
// TODO: hvs :=
rs := &RoundState{
StartTime: time.Now(),
CommitTime: time.Now(),
Validators: vset,
Proposal: proposal,
ProposalBlock: block,
ProposalBlockParts: parts,
LockedBlock: block,
LockedBlockParts: parts,
ValidBlock: block,
ValidBlockParts: parts,
Votes: nil, // TODO
LastCommit: nil, // TODO
LastValidators: vset,
}
b.StartTimer()
for i := 0; i < b.N; i++ {
amino.DeepCopy(rs)
}
}

+ 12
- 0
consensus/types/wire.go View File

@ -0,0 +1,12 @@
package types
import (
"github.com/tendermint/go-amino"
"github.com/tendermint/go-crypto"
)
var cdc = amino.NewCodec()
func init() {
crypto.RegisterAmino(cdc)
}

+ 2
- 13
consensus/wal.go View File

@ -10,7 +10,7 @@ import (
"github.com/pkg/errors"
"github.com/tendermint/go-amino"
amino "github.com/tendermint/go-amino"
"github.com/tendermint/tendermint/types"
auto "github.com/tendermint/tmlibs/autofile"
cmn "github.com/tendermint/tmlibs/common"
@ -67,12 +67,11 @@ type baseWAL struct {
cmn.BaseService
group *auto.Group
light bool // ignore block parts
enc *WALEncoder
}
func NewWAL(walFile string, light bool) (*baseWAL, error) {
func NewWAL(walFile string) (*baseWAL, error) {
err := cmn.EnsureDir(filepath.Dir(walFile), 0700)
if err != nil {
return nil, errors.Wrap(err, "failed to ensure WAL directory is in place")
@ -84,7 +83,6 @@ func NewWAL(walFile string, light bool) (*baseWAL, error) {
}
wal := &baseWAL{
group: group,
light: light,
enc: NewWALEncoder(group),
}
wal.BaseService = *cmn.NewBaseService(nil, "baseWAL", wal)
@ -117,15 +115,6 @@ func (wal *baseWAL) Save(msg WALMessage) {
return
}
if wal.light {
// in light mode we only write new steps, timeouts, and our own votes (no proposals, block parts)
if mi, ok := msg.(msgInfo); ok {
if mi.PeerID != "" {
return
}
}
}
// Write the wal message
if err := wal.enc.Encode(&TimedWALMessage{time.Now(), msg}); err != nil {
cmn.PanicQ(cmn.Fmt("Error writing msg to consensus wal: %v \n\nMessage: %v", err, msg))


+ 1
- 1
consensus/wal_test.go View File

@ -47,7 +47,7 @@ func TestWALSearchForEndHeight(t *testing.T) {
}
walFile := tempWALWithData(walBody)
wal, err := NewWAL(walFile, false)
wal, err := NewWAL(walFile)
if err != nil {
t.Fatal(err)
}


+ 0
- 33
docker-compose/localnode/wrapper.sh View File

@ -1,33 +0,0 @@
#!/usr/bin/env sh
##
## Input parameters
##
BINARY=/tendermint/${BINARY:-tendermint}
ID=${ID:-0}
LOG=${LOG:-tendermint.log}
##
## Assert linux binary
##
if ! [ -f "${BINARY}" ]; then
echo "The binary `basename ${BINARY}` cannot be found. Please add the binary to the shared folder. Please use the BINARY environment variable if the name of the binary is not 'tendermint' E.g.: -e BINARY=tendermint_my_test_version"
exit 1
fi
BINARY_CHECK="`file $BINARY | grep 'ELF 64-bit LSB executable, x86-64'`"
if [ -z "${BINARY_CHECK}" ]; then
echo "Binary needs to be OS linux, ARCH amd64"
exit 1
fi
##
## Run binary with all parameters
##
export TMHOME="/tendermint/node${ID}"
if [ -d "${TMHOME}/${LOG}" ]; then
"$BINARY" $@ | tee "${TMHOME}/${LOG}"
else
"$BINARY" $@
fi

+ 0
- 1
docs/specification/configuration.rst View File

@ -140,7 +140,6 @@ like the file below, however, double check by inspecting the
[consensus]
wal_file = "data/cs.wal/wal"
wal_light = false
# All timeouts are in milliseconds
timeout_propose = 3000


+ 2
- 2
docs/specification/genesis.rst View File

@ -18,8 +18,8 @@ Fields
- ``power``: The validator's voting power.
- ``name``: Name of the validator (optional).
- ``app_hash``: The expected application hash (as returned by the
``Commit`` ABCI message) upon genesis. If the app's hash does not
match, a warning message is printed.
``ResponseInfo`` ABCI message) upon genesis. If the app's hash does not
match, Tendermint will panic.
- ``app_state``: The application state (e.g. initial distribution of tokens).
Sample genesis.json


+ 69
- 0
docs/specification/new-spec/abci.md View File

@ -0,0 +1,69 @@
# Application Blockchain Interface (ABCI)
ABCI is the interface between Tendermint (a state-machine replication engine)
and an application (the actual state machine).
The ABCI message types are defined in a [protobuf
file](https://github.com/tendermint/abci/blob/master/types/types.proto).
For full details on the ABCI message types and protocol, see the [ABCI
specificaiton](https://github.com/tendermint/abci/blob/master/specification.rst).
For additional details on server implementation, see the [ABCI
readme](https://github.com/tendermint/abci#implementation).
Here we provide some more details around the use of ABCI by Tendermint and
clarify common "gotchas".
## Validator Updates
Updates to the Tendermint validator set can be made by returning `Validator`
objects in the `ResponseBeginBlock`:
```
message Validator {
bytes pub_key = 1;
int64 power = 2;
}
```
The `pub_key` is the Amino encoded public key for the validator. For details on
Amino encoded public keys, see the [section of the encoding spec](./encoding.md#public-key-cryptography).
For Ed25519 pubkeys, the Amino prefix is always "1624DE6220". For example, the 32-byte Ed25519 pubkey
`76852933A4686A721442E931A8415F62F5F1AEDF4910F1F252FB393F74C40C85` would be
Amino encoded as
`1624DE622076852933A4686A721442E931A8415F62F5F1AEDF4910F1F252FB393F74C40C85`
(Note: in old versions of Tendermint (pre-v0.19.0), the pubkey is just prefixed with a
single type byte, so for ED25519 we'd have `pub_key = 0x1 | pub`)
The `power` is the new voting power for the validator, with the
following rules:
- power must be non-negative
- if power is 0, the validator must already exist, and will be removed from the
validator set
- if power is non-0:
- if the validator does not already exist, it will be added to the validator
set with the given power
- if the validator does already exist, its power will be adjusted to the given power
## Query
Query is a generic message type with lots of flexibility to enable diverse sets
of queries from applications. Tendermint has no requirements from the Query
message for normal operation - that is, the ABCI app developer need not implement Query functionality if they do not wish too.
That said, Tendermint makes a number of queries to support some optional
features. These are:
### Peer Filtering
When Tendermint connects to a peer, it sends two queries to the ABCI application
using the following paths, with no additional data:
- `/p2p/filter/addr/<IP:PORT>`, where `<IP:PORT>` denote the IP address and
the port of the connection
- `p2p/filter/pubkey/<ID>`, where `<ID>` is the peer node ID (ie. the
pubkey.Address() for the peer's PubKey)
If either of these queries return a non-zero ABCI code, Tendermint will refuse
to connect to the peer.

+ 223
- 109
docs/specification/new-spec/encoding.md View File

@ -1,106 +1,163 @@
# Tendermint Encoding
## Binary Serialization (TMBIN)
## Amino
Tendermint aims to encode data structures in a manner similar to how the corresponding Go structs
are laid out in memory.
Variable length items are length-prefixed.
While the encoding was inspired by Go, it is easily implemented in other languages as well, given its intuitive design.
Tendermint uses the Protobuf3 derrivative [Amino]() for all data structures.
Think of Amino as an object-oriented Protobuf3 with native JSON support.
The goal of the Amino encoding protocol is to bring parity between application
logic objects and persistence objects.
XXX: This is changing to use real varints and 4-byte-prefixes.
See https://github.com/tendermint/go-wire/tree/sdk2.
Please see the [Amino
specification](https://github.com/tendermint/go-amino#amino-encoding-for-go) for
more details.
### Fixed Length Integers
Notably, every object that satisfies an interface (eg. a particular kind of p2p message,
or a particular kind of pubkey) is registered with a global name, the hash of
which is included in the object's encoding as the so-called "prefix bytes".
Fixed length integers are encoded in Big-Endian using the specified number of bytes.
So `uint8` and `int8` use one byte, `uint16` and `int16` use two bytes,
`uint32` and `int32` use 3 bytes, and `uint64` and `int64` use 4 bytes.
We define the `func AminoEncode(obj interface{}) []byte` function to take an
arbitrary object and return the Amino encoded bytes.
Negative integers are encoded via twos-complement.
## Byte Arrays
Examples:
The encoding of a byte array is simply the raw-bytes prefixed with the length of
the array as a `UVarint` (what Protobuf calls a `Varint`).
```go
encode(uint8(6)) == [0x06]
encode(uint32(6)) == [0x00, 0x00, 0x00, 0x06]
For details on varints, see the [protobuf
spec](https://developers.google.com/protocol-buffers/docs/encoding#varints).
encode(int8(-6)) == [0xFA]
encode(int32(-6)) == [0xFF, 0xFF, 0xFF, 0xFA]
```
For example, the byte-array `[0xA, 0xB]` would be encoded as `0x020A0B`,
while a byte-array containing 300 entires beginning with `[0xA, 0xB, ...]` would
be encoded as `0xAC020A0B...` where `0xAC02` is the UVarint encoding of 300.
### Variable Length Integers
## Public Key Cryptography
Variable length integers are encoded as length-prefixed Big-Endian integers.
The length-prefix consists of a single byte and corresponds to the length of the encoded integer.
Tendermint uses Amino to distinguish between different types of private keys,
public keys, and signatures. Additionally, for each public key, Tendermint
defines an Address function that can be used as a more compact identifier in
place of the public key. Here we list the concrete types, their names,
and prefix bytes for public keys and signatures, as well as the address schemes
for each PubKey. Note for brevity we don't
include details of the private keys beyond their type and name, as they can be
derrived the same way as the others using Amino.
Negative integers are encoded by flipping the leading bit of the length-prefix to a `1`.
All registered objects are encoded by Amino using a 4-byte PrefixBytes that
uniquely identifies the object and includes information about its underlying
type. For details on how PrefixBytes are computed, see the [Amino
spec](https://github.com/tendermint/go-amino#computing-the-prefix-and-disambiguation-bytes).
Zero is encoded as `0x00`. It is not length-prefixed.
In what follows, we provide the type names and prefix bytes directly.
Notice that when encoding byte-arrays, the length of the byte-array is appended
to the PrefixBytes. Thus the encoding of a byte array becomes `<PrefixBytes>
<Length> <ByteArray>`
Examples:
(NOTE: the remainder of this section on Public Key Cryptography can be generated
from [this script](./scripts/crypto.go))
```go
encode(uint(6)) == [0x01, 0x06]
encode(uint(70000)) == [0x03, 0x01, 0x11, 0x70]
### PubKeyEd25519
encode(int(-6)) == [0xF1, 0x06]
encode(int(-70000)) == [0xF3, 0x01, 0x11, 0x70]
encode(int(0)) == [0x00]
```
// Name: tendermint/PubKeyEd25519
// PrefixBytes: 0x1624DE62
// Length: 0x20
// Notes: raw 32-byte Ed25519 pubkey
type PubKeyEd25519 [32]byte
func (pubkey PubKeyEd25519) Address() []byte {
// NOTE: hash of the Amino encoded bytes!
return RIPEMD160(AminoEncode(pubkey))
}
```
### Strings
An encoded string is length-prefixed followed by the underlying bytes of the string.
The length-prefix is itself encoded as an `int`.
For example, the 32-byte Ed25519 pubkey
`CCACD52F9B29D04393F01CD9AF6535455668115641F3D8BAEFD2295F24BAF60E` would be
encoded as
`1624DE6220CCACD52F9B29D04393F01CD9AF6535455668115641F3D8BAEFD2295F24BAF60E`.
The empty string is encoded as `0x00`. It is not length-prefixed.
The address would then be
`RIPEMD160(0x1624DE6220CCACD52F9B29D04393F01CD9AF6535455668115641F3D8BAEFD2295F24BAF60E)`
or `430FF75BAF1EC4B0D51BB3EEC2955479D0071605`
Examples:
### SignatureEd25519
```go
encode("") == [0x00]
encode("a") == [0x01, 0x01, 0x61]
encode("hello") == [0x01, 0x05, 0x68, 0x65, 0x6C, 0x6C, 0x6F]
encode("¥") == [0x01, 0x02, 0xC2, 0xA5]
```
// Name: tendermint/SignatureKeyEd25519
// PrefixBytes: 0x3DA1DB2A
// Length: 0x40
// Notes: raw 64-byte Ed25519 signature
type SignatureEd25519 [64]byte
```
For example, the 64-byte Ed25519 signature
`1B6034A8ED149D3C94FDA13EC03B26CC0FB264D9B0E47D3FA3DEF9FCDE658E49C80B35F9BE74949356401B15B18FB817D6E54495AD1C4A8401B248466CB0DB0B`
would be encoded as
`3DA1DB2A401B6034A8ED149D3C94FDA13EC03B26CC0FB264D9B0E47D3FA3DEF9FCDE658E49C80B35F9BE74949356401B15B18FB817D6E54495AD1C4A8401B248466CB0DB0B`
### Arrays (fixed length)
### PrivKeyEd25519
An encoded fix-lengthed array is the concatenation of the encoding of its elements.
There is no length-prefix.
```
// Name: tendermint/PrivKeyEd25519
// Notes: raw 32-byte priv key concatenated to raw 32-byte pub key
type PrivKeyEd25519 [64]byte
```
Examples:
### PubKeySecp256k1
```go
encode([4]int8{1, 2, 3, 4}) == [0x01, 0x02, 0x03, 0x04]
encode([4]int16{1, 2, 3, 4}) == [0x00, 0x01, 0x00, 0x02, 0x00, 0x03, 0x00, 0x04]
encode([4]int{1, 2, 3, 4}) == [0x01, 0x01, 0x01, 0x02, 0x01, 0x03, 0x01, 0x04]
encode([2]string{"abc", "efg"}) == [0x01, 0x03, 0x61, 0x62, 0x63, 0x01, 0x03, 0x65, 0x66, 0x67]
```
// Name: tendermint/PubKeySecp256k1
// PrefixBytes: 0xEB5AE982
// Length: 0x21
// Notes: OpenSSL compressed pubkey prefixed with 0x02 or 0x03
type PubKeySecp256k1 [33]byte
func (pubkey PubKeySecp256k1) Address() []byte {
// NOTE: hash of the raw pubkey bytes (not Amino encoded!).
// Compatible with Bitcoin addresses.
return RIPEMD160(SHA256(pubkey[:]))
}
```
### Slices (variable length)
For example, the 33-byte Secp256k1 pubkey
`020BD40F225A57ED383B440CF073BC5539D0341F5767D2BF2D78406D00475A2EE9` would be
encoded as
`EB5AE98221020BD40F225A57ED383B440CF073BC5539D0341F5767D2BF2D78406D00475A2EE9`
An encoded variable-length array is length-prefixed followed by the concatenation of the encoding of
its elements.
The length-prefix is itself encoded as an `int`.
The address would then be
`RIPEMD160(SHA256(0x020BD40F225A57ED383B440CF073BC5539D0341F5767D2BF2D78406D00475A2EE9))`
or `0AE5BEE929ABE51BAD345DB925EEA652680783FC`
An empty slice is encoded as `0x00`. It is not length-prefixed.
### SignatureSecp256k1
Examples:
```
// Name: tendermint/SignatureKeySecp256k1
// PrefixBytes: 0x16E1FEEA
// Length: Variable
// Encoding prefix: Variable
// Notes: raw bytes of the Secp256k1 signature
type SignatureSecp256k1 []byte
```
For example, the Secp256k1 signature
`304402201CD4B8C764D2FD8AF23ECFE6666CA8A53886D47754D951295D2D311E1FEA33BF02201E0F906BB1CF2C30EAACFFB032A7129358AFF96B9F79B06ACFFB18AC90C2ADD7`
would be encoded as
`16E1FEEA46304402201CD4B8C764D2FD8AF23ECFE6666CA8A53886D47754D951295D2D311E1FEA33BF02201E0F906BB1CF2C30EAACFFB032A7129358AFF96B9F79B06ACFFB18AC90C2ADD7`
### PrivKeySecp256k1
```go
encode([]int8{}) == [0x00]
encode([]int8{1, 2, 3, 4}) == [0x01, 0x04, 0x01, 0x02, 0x03, 0x04]
encode([]int16{1, 2, 3, 4}) == [0x01, 0x04, 0x00, 0x01, 0x00, 0x02, 0x00, 0x03, 0x00, 0x04]
encode([]int{1, 2, 3, 4}) == [0x01, 0x04, 0x01, 0x01, 0x01, 0x02, 0x01, 0x03, 0x01, 0x4]
encode([]string{"abc", "efg"}) == [0x01, 0x02, 0x01, 0x03, 0x61, 0x62, 0x63, 0x01, 0x03, 0x65, 0x66, 0x67]
```
// Name: tendermint/PrivKeySecp256k1
// Notes: raw 32-byte priv key
type PrivKeySecp256k1 [32]byte
```
## Other Common Types
### BitArray
BitArray is encoded as an `int` of the number of bits, and with an array of `uint64` to encode
value of each array element.
The BitArray is used in block headers and some consensus messages to signal
whether or not something was done by each validator. BitArray is represented
with a struct containing the number of bits (`Bits`) and the bit-array itself
encoded in base64 (`Elems`).
```go
type BitArray struct {
@ -109,36 +166,35 @@ type BitArray struct {
}
```
### Time
This type is easily encoded directly by Amino.
Time is encoded as an `int64` of the number of nanoseconds since January 1, 1970,
rounded to the nearest millisecond.
Note BitArray receives a special JSON encoding in the form of `x` and `_`
representing `1` and `0`. Ie. the BitArray `10110` would be JSON encoded as
`"x_xx_"`
Times before then are invalid.
### Part
Examples:
Part is used to break up blocks into pieces that can be gossiped in parallel
and securely verified using a Merkle tree of the parts.
Part contains the index of the part in the larger set (`Index`), the actual
underlying data of the part (`Bytes`), and a simple Merkle proof that the part is contained in
the larger set (`Proof`).
```go
encode(time.Time("Jan 1 00:00:00 UTC 1970")) == [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00]
encode(time.Time("Jan 1 00:00:01 UTC 1970")) == [0x00, 0x00, 0x00, 0x00, 0x3B, 0x9A, 0xCA, 0x00] // 1,000,000,000 ns
encode(time.Time("Mon Jan 2 15:04:05 -0700 MST 2006")) == [0x0F, 0xC4, 0xBB, 0xC1, 0x53, 0x03, 0x12, 0x00]
type Part struct {
Index int
Bytes byte[]
Proof byte[]
}
```
### Structs
An encoded struct is the concatenation of the encoding of its elements.
There is no length-prefix.
### MakeParts
Examples:
Encode an object using Amino and slice it into parts.
```go
type MyStruct struct{
A int
B string
C time.Time
}
encode(MyStruct{4, "hello", time.Time("Mon Jan 2 15:04:05 -0700 MST 2006")}) ==
[0x01, 0x04, 0x01, 0x05, 0x68, 0x65, 0x6C, 0x6C, 0x6F, 0x0F, 0xC4, 0xBB, 0xC1, 0x53, 0x03, 0x12, 0x00]
func MakeParts(obj interface{}, partSize int) []Part
```
## Merkle Trees
@ -147,6 +203,8 @@ Simple Merkle trees are used in numerous places in Tendermint to compute a crypt
RIPEMD160 is always used as the hashing function.
### Simple Merkle Root
The function `SimpleMerkleRoot` is a simple recursive function defined as follows:
```go
@ -159,48 +217,104 @@ func SimpleMerkleRoot(hashes [][]byte) []byte{
default:
left := SimpleMerkleRoot(hashes[:(len(hashes)+1)/2])
right := SimpleMerkleRoot(hashes[(len(hashes)+1)/2:])
return RIPEMD160(append(left, right))
return SimpleConcatHash(left, right)
}
}
func SimpleConcatHash(left, right []byte) []byte{
left = encodeByteSlice(left)
right = encodeByteSlice(right)
return RIPEMD160 (append(left, right))
}
```
Note: we abuse notion and call `SimpleMerkleRoot` with arguments of type `struct` or type `[]struct`.
Note that the leaves are Amino encoded as byte-arrays (ie. simple Uvarint length
prefix) before being concatenated together and hashed.
Note: we will abuse notion and invoke `SimpleMerkleRoot` with arguments of type `struct` or type `[]struct`.
For `struct` arguments, we compute a `[][]byte` by sorting elements of the `struct` according to
field name and then hashing them.
For `[]struct` arguments, we compute a `[][]byte` by hashing the individual `struct` elements.
## JSON (TMJSON)
### Simple Merkle Proof
Signed messages (eg. votes, proposals) in the consensus are encoded in TMJSON, rather than TMBIN.
TMJSON is JSON where `[]byte` are encoded as uppercase hex, rather than base64.
Proof that a leaf is in a Merkle tree consists of a simple structure:
When signing, the elements of a message are sorted by key and the sorted message is embedded in an
outer JSON that includes a `chain_id` field.
We call this encoding the CanonicalSignBytes. For instance, CanonicalSignBytes for a vote would look
like:
```json
{"chain_id":"my-chain-id","vote":{"block_id":{"hash":DEADBEEF,"parts":{"hash":BEEFDEAD,"total":3}},"height":3,"round":2,"timestamp":1234567890, "type":2}
```
type SimpleProof struct {
Aunts [][]byte
}
```
Note how the fields within each level are sorted.
Which is verified using the following:
## Other
```
func (proof SimpleProof) Verify(index, total int, leafHash, rootHash []byte) bool {
computedHash := computeHashFromAunts(index, total, leafHash, proof.Aunts)
return computedHash == rootHash
}
### MakeParts
func computeHashFromAunts(index, total int, leafHash []byte, innerHashes [][]byte) []byte{
assert(index < total && index >= 0 && total > 0)
if total == 1{
assert(len(proof.Aunts) == 0)
return leafHash
}
assert(len(innerHashes) > 0)
numLeft := (total + 1) / 2
if index < numLeft {
leftHash := computeHashFromAunts(index, numLeft, leafHash, innerHashes[:len(innerHashes)-1])
assert(leftHash != nil)
return SimpleHashFromTwoHashes(leftHash, innerHashes[len(innerHashes)-1])
}
rightHash := computeHashFromAunts(index-numLeft, total-numLeft, leafHash, innerHashes[:len(innerHashes)-1])
assert(rightHash != nil)
return SimpleHashFromTwoHashes(innerHashes[len(innerHashes)-1], rightHash)
}
```
Encode an object using TMBIN and slice it into parts.
## JSON
### Amino
TODO: improve this
Amino also supports JSON encoding - registered types are simply encoded as:
```go
MakeParts(object, partSize)
```
{
"type": "<DisfixBytes>",
"value": <JSON>
}
### Part
For instance, an ED25519 PubKey would look like:
```go
type Part struct {
Index int
Bytes byte[]
Proof byte[]
```
{
"type": "AC26791624DE60",
"value": "uZ4h63OFWuQ36ZZ4Bd6NF+/w9fWUwrOncrQsackrsTk="
}
```
Where the `"value"` is the base64 encoding of the raw pubkey bytes, and the
`"type"` is the full disfix bytes for Ed25519 pubkeys.
### Signed Messages
Signed messages (eg. votes, proposals) in the consensus are encoded using Amino-JSON, rather than in the standard binary format.
When signing, the elements of a message are sorted by key and the sorted message is embedded in an
outer JSON that includes a `chain_id` field.
We call this encoding the CanonicalSignBytes. For instance, CanonicalSignBytes for a vote would look
like:
```json
{"chain_id":"my-chain-id","vote":{"block_id":{"hash":DEADBEEF,"parts":{"hash":BEEFDEAD,"total":3}},"height":3,"round":2,"timestamp":1234567890, "type":2}
```
Note how the fields within each level are sorted.

+ 246
- 0
docs/specification/new-spec/pre-amino.md View File

@ -0,0 +1,246 @@
# Tendermint Encoding (Pre-Amino)
## PubKeys and Addresses
PubKeys are prefixed with a type-byte, followed by the raw bytes of the public
key.
Two keys are supported with the following type bytes:
```
TypeByteEd25519 = 0x1
TypeByteSecp256k1 = 0x2
```
```
// TypeByte: 0x1
type PubKeyEd25519 [32]byte
func (pub PubKeyEd25519) Encode() []byte {
return 0x1 | pub
}
func (pub PubKeyEd25519) Address() []byte {
// NOTE: the length (0x0120) is also included
return RIPEMD160(0x1 | 0x0120 | pub)
}
// TypeByte: 0x2
// NOTE: OpenSSL compressed pubkey (x-cord with 0x2 or 0x3)
type PubKeySecp256k1 [33]byte
func (pub PubKeySecp256k1) Encode() []byte {
return 0x2 | pub
}
func (pub PubKeySecp256k1) Address() []byte {
return RIPEMD160(SHA256(pub))
}
```
See https://github.com/tendermint/go-crypto/blob/v0.5.0/pub_key.go for more.
## Binary Serialization (go-wire)
Tendermint aims to encode data structures in a manner similar to how the corresponding Go structs
are laid out in memory.
Variable length items are length-prefixed.
While the encoding was inspired by Go, it is easily implemented in other languages as well, given its intuitive design.
XXX: This is changing to use real varints and 4-byte-prefixes.
See https://github.com/tendermint/go-wire/tree/sdk2.
### Fixed Length Integers
Fixed length integers are encoded in Big-Endian using the specified number of bytes.
So `uint8` and `int8` use one byte, `uint16` and `int16` use two bytes,
`uint32` and `int32` use 3 bytes, and `uint64` and `int64` use 4 bytes.
Negative integers are encoded via twos-complement.
Examples:
```go
encode(uint8(6)) == [0x06]
encode(uint32(6)) == [0x00, 0x00, 0x00, 0x06]
encode(int8(-6)) == [0xFA]
encode(int32(-6)) == [0xFF, 0xFF, 0xFF, 0xFA]
```
### Variable Length Integers
Variable length integers are encoded as length-prefixed Big-Endian integers.
The length-prefix consists of a single byte and corresponds to the length of the encoded integer.
Negative integers are encoded by flipping the leading bit of the length-prefix to a `1`.
Zero is encoded as `0x00`. It is not length-prefixed.
Examples:
```go
encode(uint(6)) == [0x01, 0x06]
encode(uint(70000)) == [0x03, 0x01, 0x11, 0x70]
encode(int(-6)) == [0xF1, 0x06]
encode(int(-70000)) == [0xF3, 0x01, 0x11, 0x70]
encode(int(0)) == [0x00]
```
### Strings
An encoded string is length-prefixed followed by the underlying bytes of the string.
The length-prefix is itself encoded as an `int`.
The empty string is encoded as `0x00`. It is not length-prefixed.
Examples:
```go
encode("") == [0x00]
encode("a") == [0x01, 0x01, 0x61]
encode("hello") == [0x01, 0x05, 0x68, 0x65, 0x6C, 0x6C, 0x6F]
encode("¥") == [0x01, 0x02, 0xC2, 0xA5]
```
### Arrays (fixed length)
An encoded fix-lengthed array is the concatenation of the encoding of its elements.
There is no length-prefix.
Examples:
```go
encode([4]int8{1, 2, 3, 4}) == [0x01, 0x02, 0x03, 0x04]
encode([4]int16{1, 2, 3, 4}) == [0x00, 0x01, 0x00, 0x02, 0x00, 0x03, 0x00, 0x04]
encode([4]int{1, 2, 3, 4}) == [0x01, 0x01, 0x01, 0x02, 0x01, 0x03, 0x01, 0x04]
encode([2]string{"abc", "efg"}) == [0x01, 0x03, 0x61, 0x62, 0x63, 0x01, 0x03, 0x65, 0x66, 0x67]
```
### Slices (variable length)
An encoded variable-length array is length-prefixed followed by the concatenation of the encoding of
its elements.
The length-prefix is itself encoded as an `int`.
An empty slice is encoded as `0x00`. It is not length-prefixed.
Examples:
```go
encode([]int8{}) == [0x00]
encode([]int8{1, 2, 3, 4}) == [0x01, 0x04, 0x01, 0x02, 0x03, 0x04]
encode([]int16{1, 2, 3, 4}) == [0x01, 0x04, 0x00, 0x01, 0x00, 0x02, 0x00, 0x03, 0x00, 0x04]
encode([]int{1, 2, 3, 4}) == [0x01, 0x04, 0x01, 0x01, 0x01, 0x02, 0x01, 0x03, 0x01, 0x4]
encode([]string{"abc", "efg"}) == [0x01, 0x02, 0x01, 0x03, 0x61, 0x62, 0x63, 0x01, 0x03, 0x65, 0x66, 0x67]
```
### BitArray
BitArray is encoded as an `int` of the number of bits, and with an array of `uint64` to encode
value of each array element.
```go
type BitArray struct {
Bits int
Elems []uint64
}
```
### Time
Time is encoded as an `int64` of the number of nanoseconds since January 1, 1970,
rounded to the nearest millisecond.
Times before then are invalid.
Examples:
```go
encode(time.Time("Jan 1 00:00:00 UTC 1970")) == [0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00]
encode(time.Time("Jan 1 00:00:01 UTC 1970")) == [0x00, 0x00, 0x00, 0x00, 0x3B, 0x9A, 0xCA, 0x00] // 1,000,000,000 ns
encode(time.Time("Mon Jan 2 15:04:05 -0700 MST 2006")) == [0x0F, 0xC4, 0xBB, 0xC1, 0x53, 0x03, 0x12, 0x00]
```
### Structs
An encoded struct is the concatenation of the encoding of its elements.
There is no length-prefix.
Examples:
```go
type MyStruct struct{
A int
B string
C time.Time
}
encode(MyStruct{4, "hello", time.Time("Mon Jan 2 15:04:05 -0700 MST 2006")}) ==
[0x01, 0x04, 0x01, 0x05, 0x68, 0x65, 0x6C, 0x6C, 0x6F, 0x0F, 0xC4, 0xBB, 0xC1, 0x53, 0x03, 0x12, 0x00]
```
## Merkle Trees
Simple Merkle trees are used in numerous places in Tendermint to compute a cryptographic digest of a data structure.
RIPEMD160 is always used as the hashing function.
The function `SimpleMerkleRoot` is a simple recursive function defined as follows:
```go
func SimpleMerkleRoot(hashes [][]byte) []byte{
switch len(hashes) {
case 0:
return nil
case 1:
return hashes[0]
default:
left := SimpleMerkleRoot(hashes[:(len(hashes)+1)/2])
right := SimpleMerkleRoot(hashes[(len(hashes)+1)/2:])
return RIPEMD160(append(left, right))
}
}
```
Note: we abuse notion and call `SimpleMerkleRoot` with arguments of type `struct` or type `[]struct`.
For `struct` arguments, we compute a `[][]byte` by sorting elements of the `struct` according to
field name and then hashing them.
For `[]struct` arguments, we compute a `[][]byte` by hashing the individual `struct` elements.
## JSON (TMJSON)
Signed messages (eg. votes, proposals) in the consensus are encoded in TMJSON, rather than TMBIN.
TMJSON is JSON where `[]byte` are encoded as uppercase hex, rather than base64.
When signing, the elements of a message are sorted by key and the sorted message is embedded in an
outer JSON that includes a `chain_id` field.
We call this encoding the CanonicalSignBytes. For instance, CanonicalSignBytes for a vote would look
like:
```json
{"chain_id":"my-chain-id","vote":{"block_id":{"hash":DEADBEEF,"parts":{"hash":BEEFDEAD,"total":3}},"height":3,"round":2,"timestamp":1234567890, "type":2}
```
Note how the fields within each level are sorted.
## Other
### MakeParts
Encode an object using TMBIN and slice it into parts.
```go
MakeParts(object, partSize)
```
### Part
```go
type Part struct {
Index int
Bytes byte[]
Proof byte[]
}
```

+ 125
- 0
docs/specification/new-spec/scripts/crypto.go View File

@ -0,0 +1,125 @@
package main
import (
"fmt"
crypto "github.com/tendermint/go-crypto"
)
// SECRET
var SECRET = []byte("some secret")
func printEd() {
priv := crypto.GenPrivKeyEd25519FromSecret(SECRET)
pub := priv.PubKey().(crypto.PubKeyEd25519)
sig := priv.Sign([]byte("hello")).(crypto.SignatureEd25519)
name := "tendermint/PubKeyEd25519"
length := len(pub[:])
fmt.Println("### PubKeyEd25519")
fmt.Println("")
fmt.Println("```")
fmt.Printf("// Name: %s\n", name)
fmt.Printf("// PrefixBytes: 0x%X \n", pub.Bytes()[:4])
fmt.Printf("// Length: 0x%X \n", length)
fmt.Println("// Notes: raw 32-byte Ed25519 pubkey")
fmt.Println("type PubKeyEd25519 [32]byte")
fmt.Println("")
fmt.Println(`func (pubkey PubKeyEd25519) Address() []byte {
// NOTE: hash of the Amino encoded bytes!
return RIPEMD160(AminoEncode(pubkey))
}`)
fmt.Println("```")
fmt.Println("")
fmt.Printf("For example, the 32-byte Ed25519 pubkey `%X` would be encoded as `%X`.\n\n", pub[:], pub.Bytes())
fmt.Printf("The address would then be `RIPEMD160(0x%X)` or `%X`\n", pub.Bytes(), pub.Address())
fmt.Println("")
name = "tendermint/SignatureKeyEd25519"
length = len(sig[:])
fmt.Println("### SignatureEd25519")
fmt.Println("")
fmt.Println("```")
fmt.Printf("// Name: %s\n", name)
fmt.Printf("// PrefixBytes: 0x%X \n", sig.Bytes()[:4])
fmt.Printf("// Length: 0x%X \n", length)
fmt.Println("// Notes: raw 64-byte Ed25519 signature")
fmt.Println("type SignatureEd25519 [64]byte")
fmt.Println("```")
fmt.Println("")
fmt.Printf("For example, the 64-byte Ed25519 signature `%X` would be encoded as `%X`\n", sig[:], sig.Bytes())
fmt.Println("")
name = "tendermint/PrivKeyEd25519"
fmt.Println("### PrivKeyEd25519")
fmt.Println("")
fmt.Println("```")
fmt.Println("// Name:", name)
fmt.Println("// Notes: raw 32-byte priv key concatenated to raw 32-byte pub key")
fmt.Println("type PrivKeyEd25519 [64]byte")
fmt.Println("```")
}
func printSecp() {
priv := crypto.GenPrivKeySecp256k1FromSecret(SECRET)
pub := priv.PubKey().(crypto.PubKeySecp256k1)
sig := priv.Sign([]byte("hello")).(crypto.SignatureSecp256k1)
name := "tendermint/PubKeySecp256k1"
length := len(pub[:])
fmt.Println("### PubKeySecp256k1")
fmt.Println("")
fmt.Println("```")
fmt.Printf("// Name: %s\n", name)
fmt.Printf("// PrefixBytes: 0x%X \n", pub.Bytes()[:4])
fmt.Printf("// Length: 0x%X \n", length)
fmt.Println("// Notes: OpenSSL compressed pubkey prefixed with 0x02 or 0x03")
fmt.Println("type PubKeySecp256k1 [33]byte")
fmt.Println("")
fmt.Println(`func (pubkey PubKeySecp256k1) Address() []byte {
// NOTE: hash of the raw pubkey bytes (not Amino encoded!).
// Compatible with Bitcoin addresses.
return RIPEMD160(SHA256(pubkey[:]))
}`)
fmt.Println("```")
fmt.Println("")
fmt.Printf("For example, the 33-byte Secp256k1 pubkey `%X` would be encoded as `%X`\n\n", pub[:], pub.Bytes())
fmt.Printf("The address would then be `RIPEMD160(SHA256(0x%X))` or `%X`\n", pub[:], pub.Address())
fmt.Println("")
name = "tendermint/SignatureKeySecp256k1"
fmt.Println("### SignatureSecp256k1")
fmt.Println("")
fmt.Println("```")
fmt.Printf("// Name: %s\n", name)
fmt.Printf("// PrefixBytes: 0x%X \n", sig.Bytes()[:4])
fmt.Printf("// Length: Variable\n")
fmt.Printf("// Encoding prefix: Variable\n")
fmt.Println("// Notes: raw bytes of the Secp256k1 signature")
fmt.Println("type SignatureSecp256k1 []byte")
fmt.Println("```")
fmt.Println("")
fmt.Printf("For example, the Secp256k1 signature `%X` would be encoded as `%X`\n", []byte(sig[:]), sig.Bytes())
fmt.Println("")
name = "tendermint/PrivKeySecp256k1"
fmt.Println("### PrivKeySecp256k1")
fmt.Println("")
fmt.Println("```")
fmt.Println("// Name:", name)
fmt.Println("// Notes: raw 32-byte priv key")
fmt.Println("type PrivKeySecp256k1 [32]byte")
fmt.Println("```")
}
func main() {
printEd()
fmt.Println("")
printSecp()
}

+ 0
- 3
docs/specification/new-spec/state.md View File

@ -74,9 +74,6 @@ func TotalVotingPower(vals []Validators) int64{
}
```
### PubKey
TODO:
### ConsensusParams


+ 0
- 80
docs/specification/new-spec/wire.go View File

@ -1,80 +0,0 @@
package main
import (
"fmt"
"time"
wire "github.com/tendermint/go-wire"
)
func main() {
encode(uint8(6))
encode(uint32(6))
encode(int8(-6))
encode(int32(-6))
Break()
encode(uint(6))
encode(uint(70000))
encode(int(0))
encode(int(-6))
encode(int(-70000))
Break()
encode("")
encode("a")
encode("hello")
encode("¥")
Break()
encode([4]int8{1, 2, 3, 4})
encode([4]int16{1, 2, 3, 4})
encode([4]int{1, 2, 3, 4})
encode([2]string{"abc", "efg"})
Break()
encode([]int8{})
encode([]int8{1, 2, 3, 4})
encode([]int16{1, 2, 3, 4})
encode([]int{1, 2, 3, 4})
encode([]string{"abc", "efg"})
Break()
timeFmt := "Mon Jan 2 15:04:05 -0700 MST 2006"
t1, _ := time.Parse(timeFmt, timeFmt)
n := (t1.UnixNano() / 1000000.) * 1000000
encode(n)
encode(t1)
t2, _ := time.Parse(timeFmt, "Thu Jan 1 00:00:00 -0000 UTC 1970")
encode(t2)
t2, _ = time.Parse(timeFmt, "Thu Jan 1 00:00:01 -0000 UTC 1970")
fmt.Println("N", t2.UnixNano())
encode(t2)
Break()
encode(struct {
A int
B string
C time.Time
}{
4,
"hello",
t1,
})
}
func encode(i interface{}) {
Println(wire.BinaryBytes(i))
}
func Println(b []byte) {
s := "["
for _, x := range b {
s += fmt.Sprintf("0x%.2X, ", x)
}
s = s[:len(s)-2] + "]"
fmt.Println(s)
}
func Break() {
fmt.Println("------")
}

docker-compose/Makefile → networks/local/Makefile View File


docker-compose/README.rst → networks/local/README.rst View File


docker-compose/localnode/Dockerfile → networks/local/localnode/Dockerfile View File


+ 35
- 0
networks/local/localnode/wrapper.sh View File

@ -0,0 +1,35 @@
#!/usr/bin/env sh
##
## Input parameters
##
BINARY=/tendermint/${BINARY:-tendermint}
ID=${ID:-0}
LOG=${LOG:-tendermint.log}
##
## Assert linux binary
##
if ! [ -f "${BINARY}" ]; then
echo "The binary $(basename "${BINARY}") cannot be found. Please add the binary to the shared folder. Please use the BINARY environment variable if the name of the binary is not 'tendermint' E.g.: -e BINARY=tendermint_my_test_version"
exit 1
fi
BINARY_CHECK="$(file "$BINARY" | grep 'ELF 64-bit LSB executable, x86-64')"
if [ -z "${BINARY_CHECK}" ]; then
echo "Binary needs to be OS linux, ARCH amd64"
exit 1
fi
##
## Run binary with all parameters
##
export TMHOME="/tendermint/node${ID}"
if [ -d "`dirname ${TMHOME}/${LOG}`" ]; then
"$BINARY" "$@" | tee "${TMHOME}/${LOG}"
else
"$BINARY" "$@"
fi
chmod 777 -R /tendermint

+ 1
- 0
networks/remote/ansible/.gitignore View File

@ -0,0 +1 @@
*.retry

+ 52
- 0
networks/remote/ansible/README.rst View File

@ -0,0 +1,52 @@
Using Ansible
=============
.. figure:: assets/a_plus_t.png
:alt: Ansible plus Tendermint
Ansible plus Tendermint
The playbooks in `the ansible directory <https://github.com/tendermint/tendermint/tree/master/networks/remote/ansible>`__
run ansible `roles <http://www.ansible.com/>`__ to configure the sentry node architecture.
Prerequisites
-------------
- Install `Ansible 2.0 or higher <https://www.ansible.com>`__ on a linux machine.
- Create a `DigitalOcean API token <https://cloud.digitalocean.com/settings/api/tokens>`__ with read and write capability.
- Create SSH keys
- Install the python dopy package (for the digital_ocean.py script)
Build
-----
::
export DO_API_TOKEN="abcdef01234567890abcdef01234567890"
export SSH_KEY_FILE="$HOME/.ssh/id_rsa.pub"
ansible-playbook -i inventory/digital_ocean.py -l sentrynet install.yml
# The scripts assume that you have your validator set up already.
# You can create the folder structure for the sentry nodes using `tendermint testnet`.
# For example: tendermint testnet --v 0 --n 4 --o build/
# Then copy your genesis.json and modify the config.toml as you see fit.
# Reconfig the sentry nodes with a new BINARY and the configuration files from the build folder:
ansible-playbook -i inventory/digital_ocean.py -l sentrynet config.yml -e BINARY=`pwd`/build/tendermint -e CONFIGDIR=`pwd`/build
Shipping logs to logz.io
------------------------
Logz.io is an Elastic stack (Elastic search, Logstash and Kibana) service provider. You can set up your nodes to log there automatically. Create an account and get your API key from the notes on `this page <https://app.logz.io/#/dashboard/data-sources/Filebeat>`__.
::
yum install systemd-devel || echo "This will only work on RHEL-based systems."
apt-get install libsystemd-dev || echo "This will only work on Debian-based systems."
go get github.com/mheese/journalbeat
ansible-playbook -i inventory/digital_ocean.py -l sentrynet logzio.yml -e LOGZIO_TOKEN=ABCDEFGHIJKLMNOPQRSTUVWXYZ012345

+ 4
- 0
networks/remote/ansible/ansible.cfg View File

@ -0,0 +1,4 @@
[defaults]
retry_files_enabled = False
host_key_checking = False

BIN
networks/remote/ansible/assets/a_plus_t.png View File

Before After
Width: 250  |  Height: 100  |  Size: 14 KiB

+ 18
- 0
networks/remote/ansible/config.yml View File

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---
#Requires BINARY and CONFIGDIR variables set.
#N=4 hosts by default.
- hosts: all
user: root
any_errors_fatal: true
gather_facts: yes
vars:
- service: tendermint
- N: 4
roles:
- stop
- config
- unsafe_reset
- start

+ 11
- 0
networks/remote/ansible/install.yml View File

@ -0,0 +1,11 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- install

+ 675
- 0
networks/remote/ansible/inventory/COPYING View File

@ -0,0 +1,675 @@
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USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED TO LOSS OF
DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD
PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER PROGRAMS),
EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES.
17. Interpretation of Sections 15 and 16.
If the disclaimer of warranty and limitation of liability provided
above cannot be given local legal effect according to their terms,
reviewing courts shall apply local law that most closely approximates
an absolute waiver of all civil liability in connection with the
Program, unless a warranty or assumption of liability accompanies a
copy of the Program in return for a fee.
END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
possible use to the public, the best way to achieve this is to make it
free software which everyone can redistribute and change under these terms.
To do so, attach the following notices to the program. It is safest
to attach them to the start of each source file to most effectively
state the exclusion of warranty; and each file should have at least
the "copyright" line and a pointer to where the full notice is found.
<one line to give the program's name and a brief idea of what it does.>
Copyright (C) <year> <name of author>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
Also add information on how to contact you by electronic and paper mail.
If the program does terminal interaction, make it output a short
notice like this when it starts in an interactive mode:
<program> Copyright (C) <year> <name of author>
This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<http://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<http://www.gnu.org/philosophy/why-not-lgpl.html>.

+ 34
- 0
networks/remote/ansible/inventory/digital_ocean.ini View File

@ -0,0 +1,34 @@
# Ansible DigitalOcean external inventory script settings
#
[digital_ocean]
# The module needs your DigitalOcean API Token.
# It may also be specified on the command line via --api-token
# or via the environment variables DO_API_TOKEN or DO_API_KEY
#
#api_token = 123456abcdefg
# API calls to DigitalOcean may be slow. For this reason, we cache the results
# of an API call. Set this to the path you want cache files to be written to.
# One file will be written to this directory:
# - ansible-digital_ocean.cache
#
cache_path = /tmp
# The number of seconds a cache file is considered valid. After this many
# seconds, a new API call will be made, and the cache file will be updated.
#
cache_max_age = 300
# Use the private network IP address instead of the public when available.
#
use_private_network = False
# Pass variables to every group, e.g.:
#
# group_variables = { 'ansible_user': 'root' }
#
group_variables = {}

+ 471
- 0
networks/remote/ansible/inventory/digital_ocean.py View File

@ -0,0 +1,471 @@
#!/usr/bin/env python
'''
DigitalOcean external inventory script
======================================
Generates Ansible inventory of DigitalOcean Droplets.
In addition to the --list and --host options used by Ansible, there are options
for generating JSON of other DigitalOcean data. This is useful when creating
droplets. For example, --regions will return all the DigitalOcean Regions.
This information can also be easily found in the cache file, whose default
location is /tmp/ansible-digital_ocean.cache).
The --pretty (-p) option pretty-prints the output for better human readability.
----
Although the cache stores all the information received from DigitalOcean,
the cache is not used for current droplet information (in --list, --host,
--all, and --droplets). This is so that accurate droplet information is always
found. You can force this script to use the cache with --force-cache.
----
Configuration is read from `digital_ocean.ini`, then from environment variables,
then and command-line arguments.
Most notably, the DigitalOcean API Token must be specified. It can be specified
in the INI file or with the following environment variables:
export DO_API_TOKEN='abc123' or
export DO_API_KEY='abc123'
Alternatively, it can be passed on the command-line with --api-token.
If you specify DigitalOcean credentials in the INI file, a handy way to
get them into your environment (e.g., to use the digital_ocean module)
is to use the output of the --env option with export:
export $(digital_ocean.py --env)
----
The following groups are generated from --list:
- ID (droplet ID)
- NAME (droplet NAME)
- image_ID
- image_NAME
- distro_NAME (distribution NAME from image)
- region_NAME
- size_NAME
- status_STATUS
For each host, the following variables are registered:
- do_backup_ids
- do_created_at
- do_disk
- do_features - list
- do_id
- do_image - object
- do_ip_address
- do_private_ip_address
- do_kernel - object
- do_locked
- do_memory
- do_name
- do_networks - object
- do_next_backup_window
- do_region - object
- do_size - object
- do_size_slug
- do_snapshot_ids - list
- do_status
- do_tags
- do_vcpus
- do_volume_ids
-----
```
usage: digital_ocean.py [-h] [--list] [--host HOST] [--all]
[--droplets] [--regions] [--images] [--sizes]
[--ssh-keys] [--domains] [--pretty]
[--cache-path CACHE_PATH]
[--cache-max_age CACHE_MAX_AGE]
[--force-cache]
[--refresh-cache]
[--api-token API_TOKEN]
Produce an Ansible Inventory file based on DigitalOcean credentials
optional arguments:
-h, --help show this help message and exit
--list List all active Droplets as Ansible inventory
(default: True)
--host HOST Get all Ansible inventory variables about a specific
Droplet
--all List all DigitalOcean information as JSON
--droplets List Droplets as JSON
--regions List Regions as JSON
--images List Images as JSON
--sizes List Sizes as JSON
--ssh-keys List SSH keys as JSON
--domains List Domains as JSON
--pretty, -p Pretty-print results
--cache-path CACHE_PATH
Path to the cache files (default: .)
--cache-max_age CACHE_MAX_AGE
Maximum age of the cached items (default: 0)
--force-cache Only use data from the cache
--refresh-cache Force refresh of cache by making API requests to
DigitalOcean (default: False - use cache files)
--api-token API_TOKEN, -a API_TOKEN
DigitalOcean API Token
```
'''
# (c) 2013, Evan Wies <evan@neomantra.net>
#
# Inspired by the EC2 inventory plugin:
# https://github.com/ansible/ansible/blob/devel/contrib/inventory/ec2.py
#
# This file is part of Ansible,
#
# Ansible is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# Ansible is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with Ansible. If not, see <http://www.gnu.org/licenses/>.
######################################################################
import os
import sys
import re
import argparse
from time import time
import ConfigParser
import ast
try:
import json
except ImportError:
import simplejson as json
try:
from dopy.manager import DoManager
except ImportError as e:
sys.exit("failed=True msg='`dopy` library required for this script'")
class DigitalOceanInventory(object):
###########################################################################
# Main execution path
###########################################################################
def __init__(self):
''' Main execution path '''
# DigitalOceanInventory data
self.data = {} # All DigitalOcean data
self.inventory = {} # Ansible Inventory
# Define defaults
self.cache_path = '.'
self.cache_max_age = 0
self.use_private_network = False
self.group_variables = {}
# Read settings, environment variables, and CLI arguments
self.read_settings()
self.read_environment()
self.read_cli_args()
# Verify credentials were set
if not hasattr(self, 'api_token'):
sys.stderr.write('''Could not find values for DigitalOcean api_token.
They must be specified via either ini file, command line argument (--api-token),
or environment variables (DO_API_TOKEN)\n''')
sys.exit(-1)
# env command, show DigitalOcean credentials
if self.args.env:
print("DO_API_TOKEN=%s" % self.api_token)
sys.exit(0)
# Manage cache
self.cache_filename = self.cache_path + "/ansible-digital_ocean.cache"
self.cache_refreshed = False
if self.is_cache_valid():
self.load_from_cache()
if len(self.data) == 0:
if self.args.force_cache:
sys.stderr.write('''Cache is empty and --force-cache was specified\n''')
sys.exit(-1)
self.manager = DoManager(None, self.api_token, api_version=2)
# Pick the json_data to print based on the CLI command
if self.args.droplets:
self.load_from_digital_ocean('droplets')
json_data = {'droplets': self.data['droplets']}
elif self.args.regions:
self.load_from_digital_ocean('regions')
json_data = {'regions': self.data['regions']}
elif self.args.images:
self.load_from_digital_ocean('images')
json_data = {'images': self.data['images']}
elif self.args.sizes:
self.load_from_digital_ocean('sizes')
json_data = {'sizes': self.data['sizes']}
elif self.args.ssh_keys:
self.load_from_digital_ocean('ssh_keys')
json_data = {'ssh_keys': self.data['ssh_keys']}
elif self.args.domains:
self.load_from_digital_ocean('domains')
json_data = {'domains': self.data['domains']}
elif self.args.all:
self.load_from_digital_ocean()
json_data = self.data
elif self.args.host:
json_data = self.load_droplet_variables_for_host()
else: # '--list' this is last to make it default
self.load_from_digital_ocean('droplets')
self.build_inventory()
json_data = self.inventory
if self.cache_refreshed:
self.write_to_cache()
if self.args.pretty:
print(json.dumps(json_data, sort_keys=True, indent=2))
else:
print(json.dumps(json_data))
# That's all she wrote...
###########################################################################
# Script configuration
###########################################################################
def read_settings(self):
''' Reads the settings from the digital_ocean.ini file '''
config = ConfigParser.SafeConfigParser()
config.read(os.path.dirname(os.path.realpath(__file__)) + '/digital_ocean.ini')
# Credentials
if config.has_option('digital_ocean', 'api_token'):
self.api_token = config.get('digital_ocean', 'api_token')
# Cache related
if config.has_option('digital_ocean', 'cache_path'):
self.cache_path = config.get('digital_ocean', 'cache_path')
if config.has_option('digital_ocean', 'cache_max_age'):
self.cache_max_age = config.getint('digital_ocean', 'cache_max_age')
# Private IP Address
if config.has_option('digital_ocean', 'use_private_network'):
self.use_private_network = config.getboolean('digital_ocean', 'use_private_network')
# Group variables
if config.has_option('digital_ocean', 'group_variables'):
self.group_variables = ast.literal_eval(config.get('digital_ocean', 'group_variables'))
def read_environment(self):
''' Reads the settings from environment variables '''
# Setup credentials
if os.getenv("DO_API_TOKEN"):
self.api_token = os.getenv("DO_API_TOKEN")
if os.getenv("DO_API_KEY"):
self.api_token = os.getenv("DO_API_KEY")
def read_cli_args(self):
''' Command line argument processing '''
parser = argparse.ArgumentParser(description='Produce an Ansible Inventory file based on DigitalOcean credentials')
parser.add_argument('--list', action='store_true', help='List all active Droplets as Ansible inventory (default: True)')
parser.add_argument('--host', action='store', help='Get all Ansible inventory variables about a specific Droplet')
parser.add_argument('--all', action='store_true', help='List all DigitalOcean information as JSON')
parser.add_argument('--droplets', '-d', action='store_true', help='List Droplets as JSON')
parser.add_argument('--regions', action='store_true', help='List Regions as JSON')
parser.add_argument('--images', action='store_true', help='List Images as JSON')
parser.add_argument('--sizes', action='store_true', help='List Sizes as JSON')
parser.add_argument('--ssh-keys', action='store_true', help='List SSH keys as JSON')
parser.add_argument('--domains', action='store_true', help='List Domains as JSON')
parser.add_argument('--pretty', '-p', action='store_true', help='Pretty-print results')
parser.add_argument('--cache-path', action='store', help='Path to the cache files (default: .)')
parser.add_argument('--cache-max_age', action='store', help='Maximum age of the cached items (default: 0)')
parser.add_argument('--force-cache', action='store_true', default=False, help='Only use data from the cache')
parser.add_argument('--refresh-cache', '-r', action='store_true', default=False,
help='Force refresh of cache by making API requests to DigitalOcean (default: False - use cache files)')
parser.add_argument('--env', '-e', action='store_true', help='Display DO_API_TOKEN')
parser.add_argument('--api-token', '-a', action='store', help='DigitalOcean API Token')
self.args = parser.parse_args()
if self.args.api_token:
self.api_token = self.args.api_token
# Make --list default if none of the other commands are specified
if (not self.args.droplets and not self.args.regions and
not self.args.images and not self.args.sizes and
not self.args.ssh_keys and not self.args.domains and
not self.args.all and not self.args.host):
self.args.list = True
###########################################################################
# Data Management
###########################################################################
def load_from_digital_ocean(self, resource=None):
'''Get JSON from DigitalOcean API'''
if self.args.force_cache and os.path.isfile(self.cache_filename):
return
# We always get fresh droplets
if self.is_cache_valid() and not (resource == 'droplets' or resource is None):
return
if self.args.refresh_cache:
resource = None
if resource == 'droplets' or resource is None:
self.data['droplets'] = self.manager.all_active_droplets()
self.cache_refreshed = True
if resource == 'regions' or resource is None:
self.data['regions'] = self.manager.all_regions()
self.cache_refreshed = True
if resource == 'images' or resource is None:
self.data['images'] = self.manager.all_images(filter=None)
self.cache_refreshed = True
if resource == 'sizes' or resource is None:
self.data['sizes'] = self.manager.sizes()
self.cache_refreshed = True
if resource == 'ssh_keys' or resource is None:
self.data['ssh_keys'] = self.manager.all_ssh_keys()
self.cache_refreshed = True
if resource == 'domains' or resource is None:
self.data['domains'] = self.manager.all_domains()
self.cache_refreshed = True
def build_inventory(self):
'''Build Ansible inventory of droplets'''
self.inventory = {
'all': {
'hosts': [],
'vars': self.group_variables
},
'_meta': {'hostvars': {}}
}
# add all droplets by id and name
for droplet in self.data['droplets']:
# when using private_networking, the API reports the private one in "ip_address".
if 'private_networking' in droplet['features'] and not self.use_private_network:
for net in droplet['networks']['v4']:
if net['type'] == 'public':
dest = net['ip_address']
else:
continue
else:
dest = droplet['ip_address']
self.inventory['all']['hosts'].append(dest)
self.inventory[droplet['id']] = [dest]
self.inventory[droplet['name']] = [dest]
# groups that are always present
for group in ('region_' + droplet['region']['slug'],
'image_' + str(droplet['image']['id']),
'size_' + droplet['size']['slug'],
'distro_' + self.to_safe(droplet['image']['distribution']),
'status_' + droplet['status']):
if group not in self.inventory:
self.inventory[group] = {'hosts': [], 'vars': {}}
self.inventory[group]['hosts'].append(dest)
# groups that are not always present
for group in (droplet['image']['slug'],
droplet['image']['name']):
if group:
image = 'image_' + self.to_safe(group)
if image not in self.inventory:
self.inventory[image] = {'hosts': [], 'vars': {}}
self.inventory[image]['hosts'].append(dest)
if droplet['tags']:
for tag in droplet['tags']:
if tag not in self.inventory:
self.inventory[tag] = {'hosts': [], 'vars': {}}
self.inventory[tag]['hosts'].append(dest)
# hostvars
info = self.do_namespace(droplet)
self.inventory['_meta']['hostvars'][dest] = info
def load_droplet_variables_for_host(self):
'''Generate a JSON response to a --host call'''
host = int(self.args.host)
droplet = self.manager.show_droplet(host)
info = self.do_namespace(droplet)
return {'droplet': info}
###########################################################################
# Cache Management
###########################################################################
def is_cache_valid(self):
''' Determines if the cache files have expired, or if it is still valid '''
if os.path.isfile(self.cache_filename):
mod_time = os.path.getmtime(self.cache_filename)
current_time = time()
if (mod_time + self.cache_max_age) > current_time:
return True
return False
def load_from_cache(self):
''' Reads the data from the cache file and assigns it to member variables as Python Objects'''
try:
cache = open(self.cache_filename, 'r')
json_data = cache.read()
cache.close()
data = json.loads(json_data)
except IOError:
data = {'data': {}, 'inventory': {}}
self.data = data['data']
self.inventory = data['inventory']
def write_to_cache(self):
''' Writes data in JSON format to a file '''
data = {'data': self.data, 'inventory': self.inventory}
json_data = json.dumps(data, sort_keys=True, indent=2)
cache = open(self.cache_filename, 'w')
cache.write(json_data)
cache.close()
###########################################################################
# Utilities
###########################################################################
def push(self, my_dict, key, element):
''' Pushed an element onto an array that may not have been defined in the dict '''
if key in my_dict:
my_dict[key].append(element)
else:
my_dict[key] = [element]
def to_safe(self, word):
''' Converts 'bad' characters in a string to underscores so they can be used as Ansible groups '''
return re.sub("[^A-Za-z0-9\-\.]", "_", word)
def do_namespace(self, data):
''' Returns a copy of the dictionary with all the keys put in a 'do_' namespace '''
info = {}
for k, v in data.items():
info['do_' + k] = v
return info
###########################################################################
# Run the script
DigitalOceanInventory()

+ 14
- 0
networks/remote/ansible/logzio.yml View File

@ -0,0 +1,14 @@
---
#Note: You need to add LOGZIO_TOKEN variable with your API key. Like tihs: ansible-playbook -e LOGZIO_TOKEN=ABCXYZ123456
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
- JOURNALBEAT_BINARY: "{{lookup('env', 'GOPATH')}}/bin/journalbeat"
roles:
- logzio

+ 14
- 0
networks/remote/ansible/reset.yml View File

@ -0,0 +1,14 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- stop
- unsafe_reset
- start

+ 12
- 0
networks/remote/ansible/restart.yml View File

@ -0,0 +1,12 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- stop
- start

+ 17
- 0
networks/remote/ansible/roles/config/tasks/main.yml View File

@ -0,0 +1,17 @@
---
- name: Copy binary
copy:
src: "{{BINARY}}"
dest: /usr/bin
mode: 0755
- name: Copy config
when: item <= N and ansible_hostname == 'sentrynet-node' ~ item
copy:
src: "{{CONFIGDIR}}/node{{item}}/"
dest: "/home/{{service}}/.{{service}}/"
owner: "{{service}}"
group: "{{service}}"
loop: [ 0, 1, 2, 3, 4, 5, 6, 7 ]

+ 5
- 0
networks/remote/ansible/roles/install/handlers/main.yml View File

@ -0,0 +1,5 @@
---
- name: reload services
systemd: "name={{service}} daemon_reload=yes enabled=yes"

+ 15
- 0
networks/remote/ansible/roles/install/tasks/main.yml View File

@ -0,0 +1,15 @@
---
- name: Create service group
group: "name={{service}}"
- name: Create service user
user: "name={{service}} group={{service}} home=/home/{{service}}"
- name: Change user folder to more permissive
file: "path=/home/{{service}} mode=0755"
- name: Create service
template: "src=systemd.service.j2 dest=/etc/systemd/system/{{service}}.service"
notify: reload services

+ 17
- 0
networks/remote/ansible/roles/install/templates/systemd.service.j2 View File

@ -0,0 +1,17 @@
[Unit]
Description={{service}}
Requires=network-online.target
After=network-online.target
[Service]
Restart=on-failure
User={{service}}
Group={{service}}
PermissionsStartOnly=true
ExecStart=/usr/bin/tendermint node --proxy_app=dummy
ExecReload=/bin/kill -HUP $MAINPID
KillSignal=SIGTERM
[Install]
WantedBy=multi-user.target

+ 15
- 0
networks/remote/ansible/roles/logzio/files/journalbeat.service View File

@ -0,0 +1,15 @@
[Unit]
Description=journalbeat
#propagates activation, deactivation and activation fails.
Requires=network-online.target
After=network-online.target
[Service]
Restart=on-failure
ExecStart=/usr/bin/journalbeat -c /etc/journalbeat/journalbeat.yml -path.home /usr/share/journalbeat -path.config /etc/journalbeat -path.data /var/lib/journalbeat -path.logs /var/log/journalbeat
Restart=always
[Install]
WantedBy=multi-user.target

+ 8
- 0
networks/remote/ansible/roles/logzio/handlers/main.yml View File

@ -0,0 +1,8 @@
---
- name: reload daemon
command: "systemctl daemon-reload"
- name: restart journalbeat
service: name=journalbeat state=restarted

+ 27
- 0
networks/remote/ansible/roles/logzio/tasks/main.yml View File

@ -0,0 +1,27 @@
---
- name: Copy journalbeat binary
copy: src="{{JOURNALBEAT_BINARY}}" dest=/usr/bin/journalbeat mode=0755
notify: restart journalbeat
- name: Create folders
file: "path={{item}} state=directory recurse=yes"
with_items:
- /etc/journalbeat
- /etc/pki/tls/certs
- /usr/share/journalbeat
- /var/log/journalbeat
- name: Copy journalbeat config
template: src=journalbeat.yml.j2 dest=/etc/journalbeat/journalbeat.yml mode=0600
notify: restart journalbeat
- name: Get server certificate for Logz.io
get_url: "url=https://raw.githubusercontent.com/logzio/public-certificates/master/COMODORSADomainValidationSecureServerCA.crt force=yes dest=/etc/pki/tls/certs/COMODORSADomainValidationSecureServerCA.crt"
- name: Copy journalbeat service config
copy: src=journalbeat.service dest=/etc/systemd/system/journalbeat.service
notify:
- reload daemon
- restart journalbeat

+ 342
- 0
networks/remote/ansible/roles/logzio/templates/journalbeat.yml.j2 View File

@ -0,0 +1,342 @@
#======================== Journalbeat Configuration ============================
journalbeat:
# What position in journald to seek to at start up
# options: cursor, tail, head (defaults to tail)
#seek_position: tail
# If seek_position is set to cursor and seeking to cursor fails
# fall back to this method. If set to none will it will exit
# options: tail, head, none (defaults to tail)
#cursor_seek_fallback: tail
# Store the cursor of the successfully published events
#write_cursor_state: true
# Path to the file to store the cursor (defaults to ".journalbeat-cursor-state")
#cursor_state_file: .journalbeat-cursor-state
# How frequently should we save the cursor to disk (defaults to 5s)
#cursor_flush_period: 5s
# Path to the file to store the queue of events pending (defaults to ".journalbeat-pending-queue")
#pending_queue.file: .journalbeat-pending-queue
# How frequently should we save the queue to disk (defaults to 1s).
# Pending queue represents the WAL of events queued to be published
# or being published and waiting for acknowledgement. In case of a
# regular restart of journalbeat all the events not yet acknowledged
# will be flushed to disk during the shutdown.
# In case of disaster most probably journalbeat won't get a chance to shutdown
# itself gracefully and this flush period option will serve you as a
# backup creation frequency option.
#pending_queue.flush_period: 1s
# Lowercase and remove leading underscores, e.g. "_MESSAGE" -> "message"
# (defaults to false)
#clean_field_names: false
# All journal entries are strings by default. You can try to convert them to numbers.
# (defaults to false)
#convert_to_numbers: false
# Store all the fields of the Systemd Journal entry under this field
# Can be almost any string suitable to be a field name of an ElasticSearch document.
# Dots can be used to create nested fields.
# Two exceptions:
# - no repeated dots;
# - no trailing dots, e.g. "journal..field_name." will fail
# (defaults to "" hence stores on the upper level of the event)
#move_metadata_to_field: ""
# Specific units to monitor.
units: ["{{service}}.service"]
# Specify Journal paths to open. You can pass an array of paths to Systemd Journal paths.
# If you want to open Journal from directory just pass an array consisting of one element
# representing the path. See: https://www.freedesktop.org/software/systemd/man/sd_journal_open.html
# By default this setting is empty thus journalbeat will attempt to find all journal files automatically
#journal_paths: ["/var/log/journal"]
#default_type: journal
#================================ General ======================================
# The name of the shipper that publishes the network data. It can be used to group
# all the transactions sent by a single shipper in the web interface.
# If this options is not defined, the hostname is used.
#name: journalbeat
# The tags of the shipper are included in their own field with each
# transaction published. Tags make it easy to group servers by different
# logical properties.
tags: ["{{service}}"]
# Optional fields that you can specify to add additional information to the
# output. Fields can be scalar values, arrays, dictionaries, or any nested
# combination of these.
fields:
logzio_codec: plain
token: {{LOGZIO_TOKEN}}
# If this option is set to true, the custom fields are stored as top-level
# fields in the output document instead of being grouped under a fields
# sub-dictionary. Default is false.
fields_under_root: true
# Internal queue size for single events in processing pipeline
#queue_size: 1000
# The internal queue size for bulk events in the processing pipeline.
# Do not modify this value.
#bulk_queue_size: 0
# Sets the maximum number of CPUs that can be executing simultaneously. The
# default is the number of logical CPUs available in the system.
#max_procs:
#================================ Processors ===================================
# Processors are used to reduce the number of fields in the exported event or to
# enhance the event with external metadata. This section defines a list of
# processors that are applied one by one and the first one receives the initial
# event:
#
# event -> filter1 -> event1 -> filter2 ->event2 ...
#
# The supported processors are drop_fields, drop_event, include_fields, and
# add_cloud_metadata.
#
# For example, you can use the following processors to keep the fields that
# contain CPU load percentages, but remove the fields that contain CPU ticks
# values:
#
processors:
#- include_fields:
# fields: ["cpu"]
- drop_fields:
fields: ["beat.name", "beat.version", "logzio_codec", "SYSLOG_IDENTIFIER", "SYSLOG_FACILITY", "PRIORITY"]
#
# The following example drops the events that have the HTTP response code 200:
#
#processors:
#- drop_event:
# when:
# equals:
# http.code: 200
#
# The following example enriches each event with metadata from the cloud
# provider about the host machine. It works on EC2, GCE, and DigitalOcean.
#
#processors:
#- add_cloud_metadata:
#
#================================ Outputs ======================================
# Configure what outputs to use when sending the data collected by the beat.
# Multiple outputs may be used.
#----------------------------- Logstash output ---------------------------------
output.logstash:
# Boolean flag to enable or disable the output module.
enabled: true
# The Logstash hosts
hosts: ["listener.logz.io:5015"]
# Number of workers per Logstash host.
#worker: 1
# Set gzip compression level.
#compression_level: 3
# Optional load balance the events between the Logstash hosts
#loadbalance: true
# Number of batches to be send asynchronously to logstash while processing
# new batches.
#pipelining: 0
# Optional index name. The default index name is set to name of the beat
# in all lowercase.
#index: 'beatname'
# SOCKS5 proxy server URL
#proxy_url: socks5://user:password@socks5-server:2233
# Resolve names locally when using a proxy server. Defaults to false.
#proxy_use_local_resolver: false
# Enable SSL support. SSL is automatically enabled, if any SSL setting is set.
ssl.enabled: true
# Configure SSL verification mode. If `none` is configured, all server hosts
# and certificates will be accepted. In this mode, SSL based connections are
# susceptible to man-in-the-middle attacks. Use only for testing. Default is
# `full`.
ssl.verification_mode: full
# List of supported/valid TLS versions. By default all TLS versions 1.0 up to
# 1.2 are enabled.
#ssl.supported_protocols: [TLSv1.0, TLSv1.1, TLSv1.2]
# Optional SSL configuration options. SSL is off by default.
# List of root certificates for HTTPS server verifications
ssl.certificate_authorities: ["/etc/pki/tls/certs/COMODORSADomainValidationSecureServerCA.crt"]
# Certificate for SSL client authentication
#ssl.certificate: "/etc/pki/client/cert.pem"
# Client Certificate Key
#ssl.key: "/etc/pki/client/cert.key"
# Optional passphrase for decrypting the Certificate Key.
#ssl.key_passphrase: ''
# Configure cipher suites to be used for SSL connections
#ssl.cipher_suites: []
# Configure curve types for ECDHE based cipher suites
#ssl.curve_types: []
#------------------------------- File output -----------------------------------
#output.file:
# Boolean flag to enable or disable the output module.
#enabled: true
# Path to the directory where to save the generated files. The option is
# mandatory.
#path: "/tmp/beatname"
# Name of the generated files. The default is `beatname` and it generates
# files: `beatname`, `beatname.1`, `beatname.2`, etc.
#filename: beatname
# Maximum size in kilobytes of each file. When this size is reached, and on
# every beatname restart, the files are rotated. The default value is 10240
# kB.
#rotate_every_kb: 10000
# Maximum number of files under path. When this number of files is reached,
# the oldest file is deleted and the rest are shifted from last to first. The
# default is 7 files.
#number_of_files: 7
#----------------------------- Console output ---------------------------------
#output.console:
# Boolean flag to enable or disable the output module.
#enabled: true
# Pretty print json event
#pretty: false
#================================= Paths ======================================
# The home path for the beatname installation. This is the default base path
# for all other path settings and for miscellaneous files that come with the
# distribution (for example, the sample dashboards).
# If not set by a CLI flag or in the configuration file, the default for the
# home path is the location of the binary.
#path.home:
# The configuration path for the beatname installation. This is the default
# base path for configuration files, including the main YAML configuration file
# and the Elasticsearch template file. If not set by a CLI flag or in the
# configuration file, the default for the configuration path is the home path.
#path.config: ${path.home}
# The data path for the beatname installation. This is the default base path
# for all the files in which beatname needs to store its data. If not set by a
# CLI flag or in the configuration file, the default for the data path is a data
# subdirectory inside the home path.
#path.data: ${path.home}/data
# The logs path for a beatname installation. This is the default location for
# the Beat's log files. If not set by a CLI flag or in the configuration file,
# the default for the logs path is a logs subdirectory inside the home path.
#path.logs: ${path.home}/logs
#============================== Dashboards =====================================
# These settings control loading the sample dashboards to the Kibana index. Loading
# the dashboards is disabled by default and can be enabled either by setting the
# options here, or by using the `-setup` CLI flag.
#dashboards.enabled: false
# The URL from where to download the dashboards archive. By default this URL
# has a value which is computed based on the Beat name and version. For released
# versions, this URL points to the dashboard archive on the artifacts.elastic.co
# website.
#dashboards.url:
# The directory from where to read the dashboards. It is used instead of the URL
# when it has a value.
#dashboards.directory:
# The file archive (zip file) from where to read the dashboards. It is used instead
# of the URL when it has a value.
#dashboards.file:
# If this option is enabled, the snapshot URL is used instead of the default URL.
#dashboards.snapshot: false
# The URL from where to download the snapshot version of the dashboards. By default
# this has a value which is computed based on the Beat name and version.
#dashboards.snapshot_url
# In case the archive contains the dashboards from multiple Beats, this lets you
# select which one to load. You can load all the dashboards in the archive by
# setting this to the empty string.
#dashboards.beat: beatname
# The name of the Kibana index to use for setting the configuration. Default is ".kibana"
#dashboards.kibana_index: .kibana
# The Elasticsearch index name. This overwrites the index name defined in the
# dashboards and index pattern. Example: testbeat-*
#dashboards.index:
#================================ Logging ======================================
# There are three options for the log output: syslog, file, stderr.
# Under Windows systems, the log files are per default sent to the file output,
# under all other system per default to syslog.
# Sets log level. The default log level is info.
# Available log levels are: critical, error, warning, info, debug
#logging.level: info
# Enable debug output for selected components. To enable all selectors use ["*"]
# Other available selectors are "beat", "publish", "service"
# Multiple selectors can be chained.
#logging.selectors: [ ]
# Send all logging output to syslog. The default is false.
#logging.to_syslog: true
# If enabled, beatname periodically logs its internal metrics that have changed
# in the last period. For each metric that changed, the delta from the value at
# the beginning of the period is logged. Also, the total values for
# all non-zero internal metrics are logged on shutdown. The default is true.
#logging.metrics.enabled: true
# The period after which to log the internal metrics. The default is 30s.
#logging.metrics.period: 30s
# Logging to rotating files files. Set logging.to_files to false to disable logging to
# files.
logging.to_files: true
logging.files:
# Configure the path where the logs are written. The default is the logs directory
# under the home path (the binary location).
#path: /var/log/beatname
# The name of the files where the logs are written to.
#name: beatname
# Configure log file size limit. If limit is reached, log file will be
# automatically rotated
#rotateeverybytes: 10485760 # = 10MB
# Number of rotated log files to keep. Oldest files will be deleted first.
#keepfiles: 7

+ 5
- 0
networks/remote/ansible/roles/start/tasks/main.yml View File

@ -0,0 +1,5 @@
---
- name: start service
service: "name={{service}} state=started"

+ 10
- 0
networks/remote/ansible/roles/status/tasks/main.yml View File

@ -0,0 +1,10 @@
---
- name: application service status
command: "service {{service}} status"
changed_when: false
register: status
- name: Result
debug: var=status.stdout_lines

+ 5
- 0
networks/remote/ansible/roles/stop/tasks/main.yml View File

@ -0,0 +1,5 @@
---
- name: stop service
service: "name={{service}} state=stopped"

+ 4
- 0
networks/remote/ansible/roles/unsafe_reset/tasks/main.yml View File

@ -0,0 +1,4 @@
- command: "{{service}} unsafe_reset_all {{ (service != 'tendermint') | ternary('node','') }} --home /home/{{service}}/.{{service}}"
become_user: "{{service}}"
become: yes

+ 11
- 0
networks/remote/ansible/start.yml View File

@ -0,0 +1,11 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- start

+ 11
- 0
networks/remote/ansible/status.yml View File

@ -0,0 +1,11 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- status

+ 11
- 0
networks/remote/ansible/stop.yml View File

@ -0,0 +1,11 @@
---
- hosts: all
user: root
any_errors_fatal: true
gather_facts: no
vars:
- service: tendermint
roles:
- stop

+ 4
- 0
networks/remote/terraform/.gitignore View File

@ -0,0 +1,4 @@
.terraform
terraform.tfstate
terraform.tfstate.backup
terraform.tfstate.d

+ 33
- 0
networks/remote/terraform/README.rst View File

@ -0,0 +1,33 @@
Using Terraform
===============
This is a `Terraform <https://www.terraform.io/>`__ configuration that sets up DigitalOcean droplets.
Prerequisites
-------------
- Install `HashiCorp Terraform <https://www.terraform.io>`__ on a linux machine.
- Create a `DigitalOcean API token <https://cloud.digitalocean.com/settings/api/tokens>`__ with read and write capability.
- Create SSH keys
Build
-----
::
export DO_API_TOKEN="abcdef01234567890abcdef01234567890"
export SSH_KEY_FILE="$HOME/.ssh/id_rsa.pub"
terraform init
terraform apply -var DO_API_TOKEN="$DO_API_TOKEN" -var SSH_KEY_FILE="$SSH_KEY_FILE"
At the end you will get a list of IP addresses that belongs to your new droplets.
Destroy
-------
Run the below:
::
terraform destroy

+ 28
- 0
networks/remote/terraform/cluster/main.tf View File

@ -0,0 +1,28 @@
resource "digitalocean_tag" "cluster" {
name = "${var.name}"
}
resource "digitalocean_ssh_key" "cluster" {
name = "${var.name}"
public_key = "${file(var.ssh_key)}"
}
resource "digitalocean_droplet" "cluster" {
name = "${var.name}-node${count.index}"
image = "centos-7-x64"
size = "${var.instance_size}"
region = "${element(var.regions, count.index)}"
ssh_keys = ["${digitalocean_ssh_key.cluster.id}"]
count = "${var.servers}"
tags = ["${digitalocean_tag.cluster.id}"]
lifecycle = {
prevent_destroy = false
}
connection {
timeout = "30s"
}
}

+ 15
- 0
networks/remote/terraform/cluster/outputs.tf View File

@ -0,0 +1,15 @@
// The cluster name
output "name" {
value = "${var.name}"
}
// The list of cluster instance IDs
output "instances" {
value = ["${digitalocean_droplet.cluster.*.id}"]
}
// The list of cluster instance public IPs
output "public_ips" {
value = ["${digitalocean_droplet.cluster.*.ipv4_address}"]
}

+ 25
- 0
networks/remote/terraform/cluster/variables.tf View File

@ -0,0 +1,25 @@
variable "name" {
description = "The cluster name, e.g cdn"
}
variable "regions" {
description = "Regions to launch in"
type = "list"
default = ["AMS2", "FRA1", "LON1", "NYC3", "SFO2", "SGP1", "TOR1"]
}
variable "ssh_key" {
description = "SSH key filename to copy to the nodes"
type = "string"
}
variable "instance_size" {
description = "The instance size to use"
default = "2gb"
}
variable "servers" {
description = "Desired instance count"
default = 4
}

+ 37
- 0
networks/remote/terraform/main.tf View File

@ -0,0 +1,37 @@
#Terraform Configuration
variable "DO_API_TOKEN" {
description = "DigitalOcean Access Token"
}
variable "TESTNET_NAME" {
description = "Name of the testnet"
default = "sentrynet"
}
variable "SSH_KEY_FILE" {
description = "SSH public key file to be used on the nodes"
type = "string"
}
variable "SERVERS" {
description = "Number of nodes in testnet"
default = "4"
}
provider "digitalocean" {
token = "${var.DO_API_TOKEN}"
}
module "cluster" {
source = "./cluster"
name = "${var.TESTNET_NAME}"
ssh_key = "${var.SSH_KEY_FILE}"
servers = "${var.SERVERS}"
}
output "public_ips" {
value = "${module.cluster.public_ips}"
}

+ 11
- 11
node/node.go View File

@ -382,16 +382,6 @@ func (n *Node) OnStart() error {
return err
}
// Run the RPC server first
// so we can eg. receive txs for the first block
if n.config.RPC.ListenAddress != "" {
listeners, err := n.startRPC()
if err != nil {
return err
}
n.rpcListeners = listeners
}
// Create & add listener
protocol, address := cmn.ProtocolAndAddress(n.config.P2P.ListenAddress)
l := p2p.NewDefaultListener(protocol, address, n.config.P2P.SkipUPNP, n.Logger.With("module", "p2p"))
@ -412,7 +402,17 @@ func (n *Node) OnStart() error {
// Add ourselves to addrbook to prevent dialing ourselves
n.addrBook.AddOurAddress(nodeInfo.NetAddress())
// Start the switch
// Start the RPC server before the P2P server
// so we can eg. receive txs for the first block
if n.config.RPC.ListenAddress != "" {
listeners, err := n.startRPC()
if err != nil {
return err
}
n.rpcListeners = listeners
}
// Start the switch (the P2P server).
err = n.sw.Start()
if err != nil {
return err


+ 8
- 4
p2p/node_info.go View File

@ -3,6 +3,8 @@ package p2p
import (
"fmt"
"strings"
cmn "github.com/tendermint/tmlibs/common"
)
const (
@ -10,6 +12,7 @@ const (
maxNumChannels = 16 // plenty of room for upgrades, for now
)
// Max size of the NodeInfo struct
func MaxNodeInfoSize() int {
return maxNodeInfoSize
}
@ -21,10 +24,11 @@ type NodeInfo struct {
ID ID `json:"id"` // authenticated identifier
ListenAddr string `json:"listen_addr"` // accepting incoming
// Check compatibility
Network string `json:"network"` // network/chain ID
Version string `json:"version"` // major.minor.revision
Channels []byte `json:"channels"` // channels this node knows about
// Check compatibility.
// Channels are HexBytes so easier to read as JSON
Network string `json:"network"` // network/chain ID
Version string `json:"version"` // major.minor.revision
Channels cmn.HexBytes `json:"channels"` // channels this node knows about
// Sanitize
Moniker string `json:"moniker"` // arbitrary moniker


+ 1
- 1
rpc/core/abci.go View File

@ -10,7 +10,7 @@ import (
// Query the application for some information.
//
// ```shell
// curl 'localhost:46657/abci_query?path=""&data="abcd"&prove=true'
// curl 'localhost:46657/abci_query?path=""&data="abcd"&trusted=false'
// ```
//
// ```go


+ 112
- 15
rpc/core/consensus.go View File

@ -1,10 +1,8 @@
package core
import (
"encoding/json"
cm "github.com/tendermint/tendermint/consensus"
p2p "github.com/tendermint/tendermint/p2p"
"github.com/tendermint/tendermint/p2p"
ctypes "github.com/tendermint/tendermint/rpc/core/types"
sm "github.com/tendermint/tendermint/state"
"github.com/tendermint/tendermint/types"
@ -73,25 +71,124 @@ func Validators(heightPtr *int64) (*ctypes.ResultValidators, error) {
// > The above command returns JSON structured like this:
//
// ```json
// {
// "error": "",
// "result": {
// "peer_round_states": [],
// "round_state": "RoundState{\n H:3537 R:0 S:RoundStepNewHeight\n StartTime: 2017-05-31 12:32:31.178653883 +0000 UTC\n CommitTime: 2017-05-31 12:32:30.178653883 +0000 UTC\n Validators: ValidatorSet{\n Proposer: Validator{E89A51D60F68385E09E716D353373B11F8FACD62 {PubKeyEd25519{68DFDA7E50F82946E7E8546BED37944A422CD1B831E70DF66BA3B8430593944D}} VP:10 A:0}\n Validators:\n Validator{E89A51D60F68385E09E716D353373B11F8FACD62 {PubKeyEd25519{68DFDA7E50F82946E7E8546BED37944A422CD1B831E70DF66BA3B8430593944D}} VP:10 A:0}\n }\n Proposal: <nil>\n ProposalBlock: nil-PartSet nil-Block\n LockedRound: 0\n LockedBlock: nil-PartSet nil-Block\n Votes: HeightVoteSet{H:3537 R:0~0\n VoteSet{H:3537 R:0 T:1 +2/3:<nil> BA{1:_} map[]}\n VoteSet{H:3537 R:0 T:2 +2/3:<nil> BA{1:_} map[]}\n }\n LastCommit: VoteSet{H:3536 R:0 T:2 +2/3:B7F988FBCDC68F9320E346EECAA76E32F6054654:1:673BE7C01F74 BA{1:X} map[]}\n LastValidators: ValidatorSet{\n Proposer: Validator{E89A51D60F68385E09E716D353373B11F8FACD62 {PubKeyEd25519{68DFDA7E50F82946E7E8546BED37944A422CD1B831E70DF66BA3B8430593944D}} VP:10 A:0}\n Validators:\n Validator{E89A51D60F68385E09E716D353373B11F8FACD62 {PubKeyEd25519{68DFDA7E50F82946E7E8546BED37944A422CD1B831E70DF66BA3B8430593944D}} VP:10 A:0}\n }\n}"
// },
// "id": "",
// "jsonrpc": "2.0"
// }
//{
// "jsonrpc": "2.0",
// "id": "",
// "result": {
// "round_state": {
// "height": 138,
// "round": 0,
// "step": 1,
// "start_time": "2018-04-27T23:16:34.472087096-04:00",
// "commit_time": "2018-04-27T23:16:33.472087096-04:00",
// "validators": {
// "validators": [
// {
// "address": "5875562FF0FFDECC895C20E32FC14988952E99E7",
// "pub_key": {
// "type": "AC26791624DE60",
// "value": "PpDJRUrLG2RgFqYYjawfn/AcAgacSXpLFrmfYYQnuzE="
// },
// "voting_power": 10,
// "accum": 0
// }
// ],
// "proposer": {
// "address": "5875562FF0FFDECC895C20E32FC14988952E99E7",
// "pub_key": {
// "type": "AC26791624DE60",
// "value": "PpDJRUrLG2RgFqYYjawfn/AcAgacSXpLFrmfYYQnuzE="
// },
// "voting_power": 10,
// "accum": 0
// }
// },
// "proposal": null,
// "proposal_block": null,
// "proposal_block_parts": null,
// "locked_round": 0,
// "locked_block": null,
// "locked_block_parts": null,
// "valid_round": 0,
// "valid_block": null,
// "valid_block_parts": null,
// "votes": [
// {
// "round": 0,
// "prevotes": "_",
// "precommits": "_"
// }
// ],
// "commit_round": -1,
// "last_commit": {
// "votes": [
// "Vote{0:5875562FF0FF 137/00/2(Precommit) 5701C93659EA /ED3588D7AF29.../ @ 2018-04-28T03:16:33.469Z}"
// ],
// "votes_bit_array": "x",
// "peer_maj_23s": {}
// },
// "last_validators": {
// "validators": [
// {
// "address": "5875562FF0FFDECC895C20E32FC14988952E99E7",
// "pub_key": {
// "type": "AC26791624DE60",
// "value": "PpDJRUrLG2RgFqYYjawfn/AcAgacSXpLFrmfYYQnuzE="
// },
// "voting_power": 10,
// "accum": 0
// }
// ],
// "proposer": {
// "address": "5875562FF0FFDECC895C20E32FC14988952E99E7",
// "pub_key": {
// "type": "AC26791624DE60",
// "value": "PpDJRUrLG2RgFqYYjawfn/AcAgacSXpLFrmfYYQnuzE="
// },
// "voting_power": 10,
// "accum": 0
// }
// }
// },
// "peer_round_states": {
// "d4bf26bfa5e390b94d98106ab858abf64db26d48": {
// "Height": 136,
// "Round": 0,
// "Step": 1,
// "StartTime": "2018-04-27T23:16:33.841163812-04:00",
// "Proposal": false,
// "ProposalBlockPartsHeader": {
// "total": 1,
// "hash": "E27F2D13298F7CB14090EE60CD9AB214D2F5161F"
// },
// "ProposalBlockParts": "x",
// "ProposalPOLRound": -1,
// "ProposalPOL": "_",
// "Prevotes": "_",
// "Precommits": "x",
// "LastCommitRound": 0,
// "LastCommit": null,
// "CatchupCommitRound": 0,
// "CatchupCommit": "_"
// }
// }
// }
//}
// ```
// UNSTABLE
func DumpConsensusState() (*ctypes.ResultDumpConsensusState, error) {
peerRoundStates := make(map[p2p.ID]json.RawMessage)
for _, peer := range p2pSwitch.Peers().List() {
peers := p2pSwitch.Peers().List()
peerRoundStates := make([]ctypes.PeerRoundState, len(peers))
for i, peer := range peers {
peerState := peer.Get(types.PeerStateKey).(*cm.PeerState)
peerRoundState, err := peerState.GetRoundStateJSON()
if err != nil {
return nil, err
}
peerRoundStates[peer.ID()] = peerRoundState
peerRoundStates[i] = ctypes.PeerRoundState{
NodeAddress: p2p.IDAddressString(peer.ID(), peer.NodeInfo().ListenAddr),
PeerRoundState: peerRoundState,
}
}
roundState, err := consensusState.GetRoundStateJSON()
if err != nil {


+ 1
- 1
rpc/core/routes.go View File

@ -34,7 +34,7 @@ var Routes = map[string]*rpc.RPCFunc{
"broadcast_tx_async": rpc.NewRPCFunc(BroadcastTxAsync, "tx"),
// abci API
"abci_query": rpc.NewRPCFunc(ABCIQuery, "path,data,height,prove"),
"abci_query": rpc.NewRPCFunc(ABCIQuery, "path,data,height,trusted"),
"abci_info": rpc.NewRPCFunc(ABCIInfo, ""),
}


+ 47
- 42
rpc/core/status.go View File

@ -25,42 +25,43 @@ import (
// > The above command returns JSON structured like this:
//
// ```json
// {
// "result": {
// "sync_info": {
// "syncing": false,
// "latest_block_time": "2017-12-07T18:19:47.617Z",
// "latest_block_height": 6,
// "latest_app_hash": "",
// "latest_block_hash": "A63D0C3307DEDCCFCC82ED411AE9108B70B29E02",
// }
// "validator_info": {
// "pub_key": {
// "data": "8C9A68070CBE33F9C445862BA1E9D96A75CEB68C0CF6ADD3652D07DCAC5D0380",
// "type": "ed25519"
// },
// "voting_power": 10
// }
// "node_info": {
// "other": [
// "wire_version=0.7.2",
// "p2p_version=0.5.0",
// "consensus_version=v1/0.2.2",
// "rpc_version=0.7.0/3",
// "tx_index=on",
// "rpc_addr=tcp://0.0.0.0:46657"
// ],
// "version": "0.13.0-14ccc8b",
// "listen_addr": "10.0.2.15:46656",
// "remote_addr": "",
// "network": "test-chain-qhVCa2",
// "moniker": "vagrant-ubuntu-trusty-64",
// "pub_key": "844981FE99ABB19F7816F2D5E94E8A74276AB1153760A7799E925C75401856C6",
// }
// },
// "id": "",
// "jsonrpc": "2.0"
// }
//{
// "jsonrpc": "2.0",
// "id": "",
// "result": {
// "node_info": {
// "id": "562dd7f579f0ecee8c94a11a3c1e378c1876f433",
// "listen_addr": "192.168.1.2:46656",
// "network": "test-chain-I6zScH",
// "version": "0.19.0",
// "channels": "4020212223303800",
// "moniker": "Ethans-MacBook-Pro.local",
// "other": [
// "amino_version=0.9.8",
// "p2p_version=0.5.0",
// "consensus_version=v1/0.2.2",
// "rpc_version=0.7.0/3",
// "tx_index=on",
// "rpc_addr=tcp://0.0.0.0:46657"
// ]
// },
// "sync_info": {
// "latest_block_hash": "2D4D7055BE685E3CB2410603C92AD37AE557AC59",
// "latest_app_hash": "0000000000000000",
// "latest_block_height": 231,
// "latest_block_time": "2018-04-27T23:18:08.459766485-04:00",
// "syncing": false
// },
// "validator_info": {
// "address": "5875562FF0FFDECC895C20E32FC14988952E99E7",
// "pub_key": {
// "type": "AC26791624DE60",
// "value": "PpDJRUrLG2RgFqYYjawfn/AcAgacSXpLFrmfYYQnuzE="
// },
// "voting_power": 10
// }
// }
//}
// ```
func Status() (*ctypes.ResultStatus, error) {
latestHeight := blockStore.Height()
@ -79,6 +80,11 @@ func Status() (*ctypes.ResultStatus, error) {
latestBlockTime := time.Unix(0, latestBlockTimeNano)
var votingPower int64
if val := validatorAtHeight(latestHeight); val != nil {
votingPower = val.VotingPower
}
result := &ctypes.ResultStatus{
NodeInfo: p2pSwitch.NodeInfo(),
SyncInfo: ctypes.SyncInfo{
@ -88,12 +94,11 @@ func Status() (*ctypes.ResultStatus, error) {
LatestBlockTime: latestBlockTime,
Syncing: consensusReactor.FastSync(),
},
ValidatorInfo: ctypes.ValidatorInfo{PubKey: pubKey},
}
// add ValidatorStatus if node is a validator
if val := validatorAtHeight(latestHeight); val != nil {
result.ValidatorInfo.VotingPower = val.VotingPower
ValidatorInfo: ctypes.ValidatorInfo{
Address: pubKey.Address(),
PubKey: pubKey,
VotingPower: votingPower,
},
}
return result, nil


+ 41
- 11
rpc/core/types/responses.go View File

@ -14,20 +14,24 @@ import (
"github.com/tendermint/tendermint/types"
)
// List of blocks
type ResultBlockchainInfo struct {
LastHeight int64 `json:"last_height"`
BlockMetas []*types.BlockMeta `json:"block_metas"`
}
// Genesis file
type ResultGenesis struct {
Genesis *types.GenesisDoc `json:"genesis"`
}
// Single block (with meta)
type ResultBlock struct {
BlockMeta *types.BlockMeta `json:"block_meta"`
Block *types.Block `json:"block"`
}
// Commit and Header
type ResultCommit struct {
// SignedHeader is header and commit, embedded so we only have
// one level in the json output
@ -35,6 +39,7 @@ type ResultCommit struct {
CanonicalCommit bool `json:"canonical"`
}
// ABCI results from a block
type ResultBlockResults struct {
Height int64 `json:"height"`
Results *state.ABCIResponses `json:"results"`
@ -54,6 +59,7 @@ func NewResultCommit(header *types.Header, commit *types.Commit,
}
}
// Info about the node's syncing state
type SyncInfo struct {
LatestBlockHash cmn.HexBytes `json:"latest_block_hash"`
LatestAppHash cmn.HexBytes `json:"latest_app_hash"`
@ -62,17 +68,21 @@ type SyncInfo struct {
Syncing bool `json:"syncing"`
}
// Info about the node's validator
type ValidatorInfo struct {
Address cmn.HexBytes `json:"address"`
PubKey crypto.PubKey `json:"pub_key"`
VotingPower int64 `json:"voting_power"`
}
// Node Status
type ResultStatus struct {
NodeInfo p2p.NodeInfo `json:"node_info"`
SyncInfo SyncInfo `json:"sync_info"`
ValidatorInfo ValidatorInfo `json:"validator_info"`
}
// Is TxIndexing enabled
func (s *ResultStatus) TxIndexEnabled() bool {
if s == nil {
return false
@ -86,36 +96,51 @@ func (s *ResultStatus) TxIndexEnabled() bool {
return false
}
// Info about peer connections
type ResultNetInfo struct {
Listening bool `json:"listening"`
Listeners []string `json:"listeners"`
Peers []Peer `json:"peers"`
}
// Log from dialing seeds
type ResultDialSeeds struct {
Log string `json:"log"`
}
// Log from dialing peers
type ResultDialPeers struct {
Log string `json:"log"`
}
// A peer
type Peer struct {
p2p.NodeInfo `json:"node_info"`
IsOutbound bool `json:"is_outbound"`
ConnectionStatus p2p.ConnectionStatus `json:"connection_status"`
}
// Validators for a height
type ResultValidators struct {
BlockHeight int64 `json:"block_height"`
Validators []*types.Validator `json:"validators"`
}
// Info about the consensus state.
// Unstable
type ResultDumpConsensusState struct {
RoundState json.RawMessage `json:"round_state"`
PeerRoundStates map[p2p.ID]json.RawMessage `json:"peer_round_states"`
RoundState json.RawMessage `json:"round_state"`
PeerRoundStates []PeerRoundState `json:"peer_round_states"`
}
// Raw JSON for the PeerRoundState
// Unstable
type PeerRoundState struct {
NodeAddress string `json:"node_address"`
PeerRoundState json.RawMessage `json:"peer_round_state"`
}
// CheckTx result
type ResultBroadcastTx struct {
Code uint32 `json:"code"`
Data cmn.HexBytes `json:"data"`
@ -124,6 +149,7 @@ type ResultBroadcastTx struct {
Hash cmn.HexBytes `json:"hash"`
}
// CheckTx and DeliverTx results
type ResultBroadcastTxCommit struct {
CheckTx abci.ResponseCheckTx `json:"check_tx"`
DeliverTx abci.ResponseDeliverTx `json:"deliver_tx"`
@ -131,6 +157,7 @@ type ResultBroadcastTxCommit struct {
Height int64 `json:"height"`
}
// Result of querying for a tx
type ResultTx struct {
Hash cmn.HexBytes `json:"hash"`
Height int64 `json:"height"`
@ -140,30 +167,33 @@ type ResultTx struct {
Proof types.TxProof `json:"proof,omitempty"`
}
// List of mempool txs
type ResultUnconfirmedTxs struct {
N int `json:"n_txs"`
Txs []types.Tx `json:"txs"`
}
// Info abci msg
type ResultABCIInfo struct {
Response abci.ResponseInfo `json:"response"`
}
// Query abci msg
type ResultABCIQuery struct {
Response abci.ResponseQuery `json:"response"`
}
type ResultUnsafeFlushMempool struct{}
type ResultUnsafeProfile struct{}
type ResultSubscribe struct{}
type ResultUnsubscribe struct{}
// empty results
type (
ResultUnsafeFlushMempool struct{}
ResultUnsafeProfile struct{}
ResultSubscribe struct{}
ResultUnsubscribe struct{}
ResultHealth struct{}
)
// Event data from a subscription
type ResultEvent struct {
Query string `json:"query"`
Data types.TMEventData `json:"data"`
}
type ResultHealth struct{}

+ 1
- 1
test/README.md View File

@ -1,7 +1,7 @@
# Tendermint Tests
The unit tests (ie. the `go test` s) can be run with `make test`.
The integration tests can be run wtih `make test_integrations`.
The integration tests can be run with `make test_integrations`.
Running the integrations test will build a docker container with local version of tendermint
and run the following tests in docker containers:


+ 1
- 1
types/block.go View File

@ -265,7 +265,7 @@ type Commit struct {
// NOTE: The Precommits are in order of address to preserve the bonded ValidatorSet order.
// Any peer with a block can gossip precommits by index with a peer without recalculating the
// active ValidatorSet.
BlockID BlockID `json:"blockID"`
BlockID BlockID `json:"block_id"`
Precommits []*Vote `json:"precommits"`
// Volatile


+ 1
- 1
types/genesis.go View File

@ -41,7 +41,7 @@ func (genDoc *GenesisDoc) AppState() json.RawMessage {
// SaveAs is a utility method for saving GenensisDoc as a JSON file.
func (genDoc *GenesisDoc) SaveAs(file string) error {
genDocBytes, err := cdc.MarshalJSON(genDoc)
genDocBytes, err := cdc.MarshalJSONIndent(genDoc, "", " ")
if err != nil {
return err
}


+ 17
- 0
types/part_set.go View File

@ -264,3 +264,20 @@ func (ps *PartSet) StringShort() string {
defer ps.mtx.Unlock()
return fmt.Sprintf("(%v of %v)", ps.Count(), ps.Total())
}
func (ps *PartSet) MarshalJSON() ([]byte, error) {
if ps == nil {
return []byte("{}"), nil
}
ps.mtx.Lock()
defer ps.mtx.Unlock()
return cdc.MarshalJSON(struct {
CountTotal string `json:"count/total"`
PartsBitArray *cmn.BitArray `json:"parts_bit_array"`
}{
fmt.Sprintf("%d/%d", ps.Count(), ps.Total()),
ps.partsBitArray,
})
}

+ 1
- 1
types/priv_validator/priv_validator.go View File

@ -120,7 +120,7 @@ func (pv *FilePV) save() {
if outFile == "" {
panic("Cannot save PrivValidator: filePath not set")
}
jsonBytes, err := cdc.MarshalJSON(pv)
jsonBytes, err := cdc.MarshalJSONIndent(pv, "", " ")
if err != nil {
panic(err)
}


+ 4
- 1
types/validator_set.go View File

@ -69,6 +69,7 @@ func (valSet *ValidatorSet) IncrementAccum(times int) {
}
}
// Copy each validator into a new ValidatorSet
func (valSet *ValidatorSet) Copy() *ValidatorSet {
validators := make([]*Validator, len(valSet.Validators))
for i, val := range valSet.Validators {
@ -368,6 +369,7 @@ func (valSet *ValidatorSet) String() string {
return valSet.StringIndented("")
}
// String
func (valSet *ValidatorSet) StringIndented(indent string) string {
if valSet == nil {
return "nil-ValidatorSet"
@ -384,7 +386,7 @@ func (valSet *ValidatorSet) StringIndented(indent string) string {
%s}`,
indent, valSet.GetProposer().String(),
indent,
indent, strings.Join(valStrings, "\n"+indent+" "),
indent, strings.Join(valStrings, "\n"+indent+" "),
indent)
}
@ -392,6 +394,7 @@ func (valSet *ValidatorSet) StringIndented(indent string) string {
//-------------------------------------
// Implements sort for sorting validators by address.
// Sort validators by address
type ValidatorsByAddress []*Validator
func (vs ValidatorsByAddress) Len() int {


+ 27
- 1
types/vote_set.go View File

@ -56,9 +56,9 @@ type VoteSet struct {
height int64
round int
type_ byte
valSet *ValidatorSet
mtx sync.Mutex
valSet *ValidatorSet
votesBitArray *cmn.BitArray
votes []*Vote // Primary votes to share
sum int64 // Sum of voting power for seen votes, discounting conflicts
@ -399,6 +399,8 @@ func (voteSet *VoteSet) HasTwoThirdsAny() bool {
}
func (voteSet *VoteSet) HasAll() bool {
voteSet.mtx.Lock()
defer voteSet.mtx.Unlock()
return voteSet.sum == voteSet.valSet.TotalVotingPower()
}
@ -424,6 +426,8 @@ func (voteSet *VoteSet) String() string {
}
func (voteSet *VoteSet) StringIndented(indent string) string {
voteSet.mtx.Lock()
defer voteSet.mtx.Unlock()
voteStrings := make([]string, len(voteSet.votes))
for i, vote := range voteSet.votes {
if vote == nil {
@ -445,6 +449,28 @@ func (voteSet *VoteSet) StringIndented(indent string) string {
indent)
}
// Marshal the VoteSet to JSON. Same as String(), just in JSON,
// and without the height/round/type_ (since its already included in the votes).
func (voteSet *VoteSet) MarshalJSON() ([]byte, error) {
voteSet.mtx.Lock()
defer voteSet.mtx.Unlock()
voteStrings := make([]string, len(voteSet.votes))
for i, vote := range voteSet.votes {
if vote == nil {
voteStrings[i] = "nil-Vote"
} else {
voteStrings[i] = vote.String()
}
}
return cdc.MarshalJSON(struct {
Votes []string `json:"votes"`
VotesBitArray *cmn.BitArray `json:"votes_bit_array"`
PeerMaj23s map[P2PID]BlockID `json:"peer_maj_23s"`
}{
voteStrings, voteSet.votesBitArray, voteSet.peerMaj23s,
})
}
func (voteSet *VoteSet) StringShort() string {
if voteSet == nil {
return "nil-VoteSet"


+ 7
- 4
version/version.go View File

@ -1,13 +1,16 @@
package version
const Maj = "0"
const Min = "19"
const Fix = "0"
// Version components
const (
Maj = "0"
Min = "19"
Fix = "1"
)
var (
// Version is the current version of Tendermint
// Must be a string because scripts like dist.sh read this file.
Version = "0.19.0"
Version = "0.19.1"
// GitCommit is the current HEAD set using ldflags.
GitCommit string


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