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remove deprecated 'tests/' directory & old D-file

This commit is contained in:
Zach Ramsay 2018-02-02 22:05:18 +00:00 committed by Ethan Buchman
parent 3baea45694
commit b51d5dda8c
5 changed files with 0 additions and 1489 deletions
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14
Dockerfile.dev
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FROM golang:latest
RUN apt-get update && apt-get install -y jq
RUN mkdir -p /go/src/github.com/tendermint/basecoin
WORKDIR /go/src/github.com/tendermint/basecoin
COPY Makefile /go/src/github.com/tendermint/basecoin/
COPY glide.yaml /go/src/github.com/tendermint/basecoin/
COPY glide.lock /go/src/github.com/tendermint/basecoin/
RUN make get_vendor_deps
COPY . /go/src/github.com/tendermint/basecoin

6
Makefile
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@ -70,12 +70,6 @@ test_unit:
test_cover: test_cover:
@bash test_cover.sh @bash test_cover.sh
test_tutorial:
@shelldown ${TUTORIALS}
@for script in docs/guide/*.sh ; do \
bash $$script ; \
done
benchmark: benchmark:
@go test -bench=. $(PACKAGES) @go test -bench=. $(PACKAGES)

260
tests/cli/common.sh
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# This is not executable, but helper functions for the other scripts
# XXX XXX XXX XXX XXX
# The following global variables must be defined before calling common functions:
# SERVER_EXE=foobar # Server binary name
# CLIENT_EXE=foobarcli # Client binary name
# ACCOUNTS=(foo bar) # List of accounts for initialization
# RICH=${ACCOUNTS[0]} # Account to assign genesis balance
# XXX Ex Usage: quickSetup $WORK_NAME $CHAIN_ID
# Desc: Start the program, use with shunit2 OneTimeSetUp()
quickSetup() {
# These are passed in as args
BASE_DIR=$HOME/$1
CHAIN_ID=$2
rm -rf $BASE_DIR 2>/dev/null
mkdir -p $BASE_DIR
# Set up client - make sure you use the proper prefix if you set
# a custom CLIENT_EXE
export BC_HOME=${BASE_DIR}/client
prepareClient
# start basecoin server (with counter)
initServer $BASE_DIR $CHAIN_ID
if [ $? != 0 ]; then return 1; fi
initClient $CHAIN_ID
if [ $? != 0 ]; then return 1; fi
printf "...Testing may begin!\n\n\n"
}
# XXX Ex Usage: quickTearDown
# Desc: close the test server, use with shunit2 OneTimeTearDown()
quickTearDown() {
printf "\n\nstopping $SERVER_EXE test server..."
kill -9 $PID_SERVER >/dev/null 2>&1
sleep 1
}
############################################################
prepareClient() {
echo "Preparing client keys..."
${CLIENT_EXE} reset_all
assertTrue "line=${LINENO}, prepare client" $?
for i in "${!ACCOUNTS[@]}"; do
newKey ${ACCOUNTS[$i]}
done
}
# XXX Ex Usage1: initServer $ROOTDIR $CHAINID
# XXX Ex Usage2: initServer $ROOTDIR $CHAINID $PORTPREFIX
# Desc: Grabs the Rich account and gives it all genesis money
# port-prefix default is 4665{6,7,8}
initServer() {
echo "Setting up genesis..."
SERVE_DIR=$1/server
assertNotNull "line=${LINENO}, no chain" $2
CHAIN=$2
SERVER_LOG=$1/${SERVER_EXE}.log
GENKEY=$(${CLIENT_EXE} keys get ${RICH} | awk '{print $2}')
${SERVER_EXE} init --static --chain-id $CHAIN $GENKEY --home=$SERVE_DIR >>$SERVER_LOG
# optionally set the port
if [ -n "$3" ]; then
echo "setting port $3"
sed -ie "s/4665/$3/" $SERVE_DIR/config.toml
fi
echo "Starting ${SERVER_EXE} server..."
startServer $SERVE_DIR $SERVER_LOG
return $?
}
# XXX Ex Usage: startServer $SERVE_DIR $SERVER_LOG
startServer() {
${SERVER_EXE} start --home=$1 >>$2 2>&1 &
sleep 5
PID_SERVER=$!
disown
if ! ps $PID_SERVER >/dev/null; then
echo "**FAILED**"
cat $SERVER_LOG
return 1
fi
}
# XXX Ex Usage1: initClient $CHAINID
# XXX Ex Usage2: initClient $CHAINID $PORTPREFIX
# Desc: Initialize the client program
# port-prefix default is 46657
initClient() {
echo "Attaching ${CLIENT_EXE} client..."
PORT=${2:-46657}
# hard-code the expected validator hash
${CLIENT_EXE} init --chain-id=$1 --node=tcp://localhost:${PORT} --valhash=EB168E17E45BAEB194D4C79067FFECF345C64DE6
assertTrue "line=${LINENO}, initialized light-client" $?
}
# XXX Ex Usage1: newKey $NAME
# XXX Ex Usage2: newKey $NAME $PASSWORD
# Desc: Generates key for given username and password
newKey(){
assertNotNull "line=${LINENO}, keyname required" "$1"
KEYPASS=${2:-qwertyuiop}
(echo $KEYPASS; echo $KEYPASS) | ${CLIENT_EXE} keys new $1 >/dev/null 2>/dev/null
assertTrue "line=${LINENO}, created $1" $?
assertTrue "line=${LINENO}, $1 doesn't exist" "${CLIENT_EXE} keys get $1"
}
# XXX Ex Usage: getAddr $NAME
# Desc: Gets the address for a key name
getAddr() {
assertNotNull "line=${LINENO}, keyname required" "$1"
RAW=$(${CLIENT_EXE} keys get $1)
assertTrue "line=${LINENO}, no key for $1" $?
# print the addr
echo $RAW | cut -d' ' -f2
}
# XXX Ex Usage: checkAccount $ADDR $AMOUNT [$HEIGHT]
# Desc: Assumes just one coin, checks the balance of first coin in any case
# pass optional height to query which block to query
checkAccount() {
# default height of 0, but accept an argument
HEIGHT=${3:-0}
# make sure sender goes down
ACCT=$(${CLIENT_EXE} query account $1 --height=$HEIGHT)
if ! assertTrue "line=${LINENO}, account must exist" $?; then
return 1
fi
if [ -n "$DEBUG" ]; then echo $ACCT; echo; fi
assertEquals "line=${LINENO}, proper money" "$2" $(echo $ACCT | jq .data.coins[0].amount)
return $?
}
# XXX Ex Usage: checkRole $ROLE $SIGS $NUM_SIGNERS [$HEIGHT]
# Desc: Ensures this named role exists, and has the number of members and required signatures as above
checkRole() {
# default height of 0, but accept an argument
HEIGHT=${4:-0}
# make sure sender goes down
QROLE=$(${CLIENT_EXE} query role $1 --height=$HEIGHT)
if ! assertTrue "line=${LINENO}, role must exist" $?; then
return 1
fi
if [ -n "$DEBUG" ]; then echo $QROLE; echo; fi
assertEquals "line=${LINENO}, proper sigs" "$2" $(echo $QROLE | jq .data.min_sigs)
assertEquals "line=${LINENO}, proper app" '"sigs"' $(echo $QROLE | jq '.data.signers[0].app' )
assertEquals "line=${LINENO}, proper signers" "$3" $(echo $QROLE | jq '.data.signers | length')
return $?
}
# XXX Ex Usage: txSucceeded $? "$TX" "$RECIEVER"
# Desc: Must be called right after the `tx` command, makes sure it got a success response
txSucceeded() {
if (assertTrue "line=${LINENO}, sent tx ($3): $2" $1); then
TX=$2
assertEquals "line=${LINENO}, good check ($3): $TX" "0" $(echo $TX | jq .check_tx.code)
assertEquals "line=${LINENO}, good deliver ($3): $TX" "0" $(echo $TX | jq .deliver_tx.code)
else
return 1
fi
}
# XXX Ex Usage: checkSendTx $HASH $HEIGHT $SENDER $AMOUNT
# Desc: This looks up the tx by hash, and makes sure the height and type match
# and that the first input was from this sender for this amount
checkSendTx() {
TX=$(${CLIENT_EXE} query tx $1)
assertTrue "line=${LINENO}, found tx" $?
if [ -n "$DEBUG" ]; then echo $TX; echo; fi
assertEquals "line=${LINENO}, proper height" $2 $(echo $TX | jq .height)
assertEquals "line=${LINENO}, type=sigs/one" '"sigs/one"' $(echo $TX | jq .data.type)
CTX=$(echo $TX | jq .data.data.tx)
assertEquals "line=${LINENO}, type=chain/tx" '"chain/tx"' $(echo $CTX | jq .type)
NTX=$(echo $CTX | jq .data.tx)
assertEquals "line=${LINENO}, type=nonce" '"nonce"' $(echo $NTX | jq .type)
STX=$(echo $NTX | jq .data.tx)
assertEquals "line=${LINENO}, type=coin/send" '"coin/send"' $(echo $STX | jq .type)
assertEquals "line=${LINENO}, proper sender" "\"$3\"" $(echo $STX | jq .data.inputs[0].address.addr)
assertEquals "line=${LINENO}, proper out amount" "$4" $(echo $STX | jq .data.outputs[0].coins[0].amount)
return $?
}
# XXX Ex Usage: checkRoleTx $HASH $HEIGHT $NAME $NUM_SIGNERS
# Desc: This looks up the tx by hash, and makes sure the height and type match
# and that the it refers to the proper role
checkRoleTx() {
TX=$(${CLIENT_EXE} query tx $1)
assertTrue "line=${LINENO}, found tx" $?
if [ -n "$DEBUG" ]; then echo $TX; echo; fi
assertEquals "line=${LINENO}, proper height" $2 $(echo $TX | jq .height)
assertEquals "line=${LINENO}, type=sigs/one" '"sigs/one"' $(echo $TX | jq .data.type)
CTX=$(echo $TX | jq .data.data.tx)
assertEquals "line=${LINENO}, type=chain/tx" '"chain/tx"' $(echo $CTX | jq .type)
NTX=$(echo $CTX | jq .data.tx)
assertEquals "line=${LINENO}, type=nonce" '"nonce"' $(echo $NTX | jq .type)
RTX=$(echo $NTX | jq .data.tx)
assertEquals "line=${LINENO}, type=role/create" '"role/create"' $(echo $RTX | jq .type)
assertEquals "line=${LINENO}, proper name" "\"$3\"" $(echo $RTX | jq .data.role)
assertEquals "line=${LINENO}, proper num signers" "$4" $(echo $RTX | jq '.data.signers | length')
return $?
}
# XXX Ex Usage: checkSendFeeTx $HASH $HEIGHT $SENDER $AMOUNT $FEE
# Desc: This is like checkSendTx, but asserts a feetx wrapper with $FEE value.
# This looks up the tx by hash, and makes sure the height and type match
# and that the first input was from this sender for this amount
checkSendFeeTx() {
TX=$(${CLIENT_EXE} query tx $1)
assertTrue "line=${LINENO}, found tx" $?
if [ -n "$DEBUG" ]; then echo $TX; echo; fi
assertEquals "line=${LINENO}, proper height" $2 $(echo $TX | jq .height)
assertEquals "line=${LINENO}, type=sigs/one" '"sigs/one"' $(echo $TX | jq .data.type)
CTX=$(echo $TX | jq .data.data.tx)
assertEquals "line=${LINENO}, type=chain/tx" '"chain/tx"' $(echo $CTX | jq .type)
NTX=$(echo $CTX | jq .data.tx)
assertEquals "line=${LINENO}, type=nonce" '"nonce"' $(echo $NTX | jq .type)
FTX=$(echo $NTX | jq .data.tx)
assertEquals "line=${LINENO}, type=fee/tx" '"fee/tx"' $(echo $FTX | jq .type)
assertEquals "line=${LINENO}, proper fee" "$5" $(echo $FTX | jq .data.fee.amount)
STX=$(echo $FTX | jq .data.tx)
assertEquals "line=${LINENO}, type=coin/send" '"coin/send"' $(echo $STX | jq .type)
assertEquals "line=${LINENO}, proper sender" "\"$3\"" $(echo $STX | jq .data.inputs[0].address.addr)
assertEquals "line=${LINENO}, proper out amount" "$4" $(echo $STX | jq .data.outputs[0].coins[0].amount)
return $?
}
# XXX Ex Usage: waitForBlock $port
# Desc: Waits until the block height on that node increases by one
waitForBlock() {
addr=http://localhost:$1
b1=`curl -s $addr/status | jq .result.latest_block_height`
b2=$b1
while [ "$b2" == "$b1" ]; do
echo "Waiting for node $addr to commit a block ..."
sleep 1
b2=`curl -s $addr/status | jq .result.latest_block_height`
done
}

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tests/cli/shunit2
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142
tests/tendermint/main.go
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package main
func main() {}
// import (
// "fmt"
// "time"
// "github.com/gorilla/websocket"
// "github.com/cosmos/cosmos-sdk/types"
// wire "github.com/tendermint/go-wire"
// _ "github.com/tendermint/tendermint/rpc/core/types" // Register RPCResponse > Result types
// "github.com/tendermint/tendermint/rpc/lib/client"
// "github.com/tendermint/tendermint/rpc/lib/types"
// cmn "github.com/tendermint/tmlibs/common"
// )
// func main() {
// // ws := rpcclient.NewWSClient("127.0.0.1:46657", "/websocket")
// ws := rpcclient.NewWSClient("192.168.99.100:46657", "/websocket")
// chainID := "test_chain_id"
// _, err := ws.Start()
// if err != nil {
// cmn.Exit(err.Error())
// }
// var counter = 0
// // Read a bunch of responses
// go func() {
// for {
// res, ok := <-ws.ResultsCh
// if !ok {
// break
// }
// fmt.Println(counter, "res:", cmn.Blue(string(res)))
// }
// }()
// // Get the root account
// root := types.PrivAccountFromSecret("test")
// sequence := int(0)
// // Make a bunch of PrivAccounts
// privAccounts := types.RandAccounts(1000, 1000000, 0)
// privAccountSequences := make(map[string]int)
// // Send coins to each account
// for i := 0; i < len(privAccounts); i++ {
// privAccount := privAccounts[i]
// tx := &types.SendTx{
// Inputs: []types.TxInput{
// types.TxInput{
// Address: root.Account.PubKey.Address(),
// PubKey: root.Account.PubKey, // TODO is this needed?
// Coins: coin.Coins{{"", 1000002}},
// Sequence: sequence,
// },
// },
// Outputs: []types.TxOutput{
// types.TxOutput{
// Address: privAccount.Account.PubKey.Address(),
// Coins: coin.Coins{{"", 1000000}},
// },
// },
// }
// sequence += 1
// // Sign request
// signBytes := tx.SignBytes(chainID)
// sig := root.Sign(signBytes)
// tx.Inputs[0].Signature = sig
// //fmt.Println("tx:", tx)
// // Write request
// txBytes := wire.BinaryBytes(struct{ types.Tx }{tx})
// request, err := rpctypes.MapToRequest("fakeid", "broadcast_tx_sync", map[string]interface{}{"tx": txBytes})
// if err != nil {
// cmn.Exit("cannot encode request: " + err.Error())
// }
// reqBytes := wire.JSONBytes(request)
// //fmt.Print(".")
// err = ws.WriteMessage(websocket.TextMessage, reqBytes)
// if err != nil {
// cmn.Exit("writing websocket request: " + err.Error())
// }
// }
// // Now send coins between these accounts
// for {
// counter += 1
// time.Sleep(time.Millisecond * 10)
// randA := cmn.RandInt() % len(privAccounts)
// randB := cmn.RandInt() % len(privAccounts)
// if randA == randB {
// continue
// }
// privAccountA := privAccounts[randA]
// privAccountASequence := privAccountSequences[privAccountA.Account.PubKey.KeyString()]
// privAccountSequences[privAccountA.Account.PubKey.KeyString()] = privAccountASequence + 1
// privAccountB := privAccounts[randB]
// tx := &types.SendTx{
// Inputs: []types.TxInput{
// types.TxInput{
// Address: privAccountA.Account.PubKey.Address(),
// PubKey: privAccountA.Account.PubKey,
// Coins: coin.Coins{{"", 3}},
// Sequence: privAccountASequence + 1,
// },
// },
// Outputs: []types.TxOutput{
// types.TxOutput{
// Address: privAccountB.Account.PubKey.Address(),
// Coins: coin.Coins{{"", 1}},
// },
// },
// }
// // Sign request
// signBytes := tx.SignBytes(chainID)
// sig := privAccountA.Sign(signBytes)
// tx.Inputs[0].Signature = sig
// //fmt.Println("tx:", tx)
// // Write request
// txBytes := wire.BinaryBytes(struct{ types.Tx }{tx})
// request, err := rpctypes.MapToRequest("fakeid", "broadcast_tx_sync", map[string]interface{}{"tx": txBytes})
// if err != nil {
// cmn.Exit("cannot encode request: " + err.Error())
// }
// reqBytes := wire.JSONBytes(request)
// //fmt.Print(".")
// err = ws.WriteMessage(websocket.TextMessage, reqBytes)
// if err != nil {
// cmn.Exit("writing websocket request: " + err.Error())
// }
// }
// ws.Stop()
// }