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#! /bin/sh -e
# Wherever we are, we want to be in daemon/test dir.
cd `git rev-parse --show-toplevel`/daemon/test
. scripts/vars.sh
# If bitcoind not already running, start it.
if ! $CLI getinfo >/dev/null 2>&1; then
scripts/setup.sh
SHUTDOWN_BITCOIN=scripts/shutdown.sh
else
SHUTDOWN_BITCOIN=/bin/true
fi
# Bash variables for in-depth debugging.
#set -vx
#export PS4='+(${BASH_SOURCE}:${LINENO}): ${FUNCNAME[0]:+${FUNCNAME[0]}(): }'
DIR1=/tmp/lightning.$$.1
DIR2=/tmp/lightning.$$.2
DIR3=/tmp/lightning.$$.3
REDIR1="$DIR1/output"
REDIR2="$DIR2/output"
REDIRERR1="$DIR1/errors"
REDIRERR2="$DIR2/errors"
FGREP="fgrep -q"
# We inject 0.01 bitcoin, but then fees (estimatefee fails and we use a
# fee rate as per the default).
AMOUNT=991880000
# Default fee rate per kb.
FEE_RATE=200000
# Fee in millisatoshi if we have no htlcs (note rounding to make it even)
NO_HTLCS_FEE=$((338 * $FEE_RATE / 2000 * 2000))
ONE_HTLCS_FEE=$(( (338 + 32) * $FEE_RATE / 2000 * 2000))
EXTRA_FEE=$(($ONE_HTLCS_FEE - $NO_HTLCS_FEE))
# Always use valgrind if available.
PREFIX=$EATMYDATA
[ -n "$NO_VALGRIND" ] || PREFIX="$EATMYDATA valgrind -q --error-exitcode=7"
while [ $# != 0 ]; do
case x"$1" in
x"--valgrind-vgdb")
[ -n "$NO_VALGRIND" ] || PREFIX="$EATMYDATA valgrind --vgdb-error=1"
REDIR1="/dev/tty"
REDIRERR1="/dev/tty"
REDIR2="/dev/tty"
REDIRERR2="/dev/tty"
;;
x"--gdb1")
GDB1=1
;;
x"--gdb2")
GDB2=1
;;
x"--timeout-anchor")
TIMEOUT_ANCHOR=1
;;
x"--dump-onchain")
DUMP_ONCHAIN=1
;;
x"--steal")
STEAL=1
;;
x"--manual-commit")
MANUALCOMMIT=1
;;
x"--mutual-close-with-htlcs")
CLOSE_WITH_HTLCS=1
;;
x"--different-fee-rates")
DIFFERENT_FEES=1
;;
x"--normal")
;;
x"--reconnect")
RECONNECT=reconnect
;;
x"--restart")
RECONNECT=restart
;;
x"--crash")
CRASH_ON_FAIL=1
;;
x"--verbose")
VERBOSE=1
;;
*)
echo Unknown arg "$1" >&2
exit 1
esac
shift
done
LCLI1="../lightning-cli --lightning-dir=$DIR1"
LCLI2="../lightning-cli --lightning-dir=$DIR2"
LCLI3="../lightning-cli --lightning-dir=$DIR3"
if [ -n "$VERBOSE" ]; then
FGREP="fgrep"
SHOW="cat >&2"
else
# Suppress command output.
exec >/dev/null
SHOW="cat"
fi
# Peer $1 -> $2's htlc $3 is in state $4
htlc_is_state()
{
if [ $# != 4 ]; then echo "htlc_is_state got $# ARGS: $@" >&2; exit 1; fi
$1 gethtlcs $2 true | tr -s '\012\011\" ' ' ' | $FGREP "id : $3, state : $4 ," >&2
}
# Peer $1 -> $2's htlc $3 exists
htlc_exists()
{
$1 gethtlcs $2 true | tr -s '\012\011\" ' ' ' | $FGREP "id : $3," >&2
}
lcli1()
{
if [ -n "$VERBOSE" ]; then
echo $LCLI1 "$@" >&2
fi
# Make sure we output if it fails; we need to capture it otherwise.
if ! OUT=`$LCLI1 "$@"`; then
echo "$OUT"
return 1
fi
echo "$OUT"
if [ -n "$DO_RECONNECT" ]; then
case "$1" in
# Don't restart on every get* command.
get*)
;;
dev-disconnect)
;;
stop)
;;
*)
case "$RECONNECT" in
reconnect)
[ -z "$VERBOSE" ] || echo RECONNECTING >&2
$LCLI1 dev-reconnect $ID2 >/dev/null
;;
restart)
[ -z "$VERBOSE" ] || echo RESTARTING >&2
$LCLI1 -- dev-restart $LIGHTNINGD1 >/dev/null 2>&1 || true
if ! check "$LCLI1 getlog 2>/dev/null | fgrep -q Hello"; then
echo "dev-restart failed!">&2
exit 1
fi
;;
esac
# Wait for reconnect (if peer2 still there)
if [ -z "$NO_PEER2" ] && ! check "$LCLI1 getpeers | tr -s '\012\011\" ' ' ' | fgrep -q 'connected : true'"; then
echo "Failed to reconnect!">&2
exit 1
fi
if [ "$1" = "dev-newhtlc" ]; then
# It might have gotten committed, or might be forgotten.
ID=`echo "$OUT" | extract_id`
if ! htlc_exists "$LCLI1" $2 $ID; then
if [ -z "$VERBOSE" ]; then
$LCLI1 "$@" >/dev/null 2>&1 || true
else
echo "Rerunning $LCLI1 $@" >&2
$LCLI1 "$@" >&2 || true
fi
fi
# Make sure it's confirmed before we run next command,
# in case *that* restarts (unless manual commit)
[ -n "$MANUALCOMMIT" ] || check ! htlc_is_state \'"$LCLI1"\' $2 $ID SENT_ADD_HTLC
# Removals may also be forgotten.
elif [ "$1" = "fulfillhtlc" -o "$1" = "failhtlc" ]; then
ID="$3"
if htlc_is_state "$LCLI1" $2 $ID RCVD_ADD_ACK_REVOCATION; then
if [ -z "$VERBOSE" ]; then
$LCLI1 "$@" >/dev/null 2>&1 || true
else
echo "Rerunning $LCLI1 $@" >&2
$LCLI1 "$@" >&2 || true
fi
# Make sure it's confirmed before we run next command,
# in case *that* restarts.
[ -n "$MANUALCOMMIT" ] || check ! htlc_is_state \'"$LCLI1"\' $2 $ID SENT_REMOVE_HTLC
fi
fi
;;
esac
fi
}
lcli2()
{
if [ -n "$VERBOSE" ]; then
echo $LCLI2 "$@" >&2
fi
$LCLI2 "$@"
}
lcli3()
{
if [ -n "$VERBOSE" ]; then
echo $LCLI3 "$@" >&2
fi
$LCLI3 "$@"
}
blockheight()
{
$CLI getblockcount
}
# Usage: <cmd to test>...
check()
{
local i=0
while ! eval "$@"; do
sleep 1
i=$(($i + 1))
if [ $i = 60 ]; then
return 1
fi
done
}
check_balance_single()
{
lcli="$1"
us_pay=$2
us_fee=$3
them_pay=$4
them_fee=$5
if check "$lcli getpeers | tr -s '\012\011\" ' ' ' | $FGREP \"our_amount : $us_pay, our_fee : $us_fee, their_amount : $them_pay, their_fee : $them_fee,\""; then :; else
echo Cannot find $lcli output: "our_amount : $us_pay, our_fee : $us_fee, their_amount : $them_pay, their_fee : $them_fee," >&2
$lcli getpeers | tr -s '\012\011" ' ' ' >&2
return 1
fi
}
check_status_single()
{
lcli="$1"
us_pay=$2
us_fee=$3
us_htlcs="$4"
them_pay=$5
them_fee=$6
them_htlcs="$7"
check_balance_single "$lcli" $us_pay $us_fee $them_pay $them_fee
if check "$lcli getpeers | tr -s '\012\011\" ' ' ' | $FGREP \"our_htlcs : [ $us_htlcs], their_htlcs : [ $them_htlcs]\""; then :; else
echo Cannot find $lcli output: "our_htlcs : [ $us_htlcs], their_htlcs : [ $them_htlcs]" >&2
$lcli getpeers | tr -s '\012\011" ' ' ' >&2
return 1
fi
}
# SEND_ -> RCVD_ and RCVD_ -> SEND_
swap_status()
{
echo "$@" | sed -e 's/state : RCVD_/@@/g' -e 's/state : SENT_/state : RCVD_/g' -e 's/@@/state : SENT_/g'
}
check_status()
{
us_pay=$1
us_fee=$2
us_htlcs="$3"
them_pay=$4
them_fee=$5
them_htlcs="$6"
check_status_single lcli1 "$us_pay" "$us_fee" "$us_htlcs" "$them_pay" "$them_fee" "$them_htlcs"
check_status_single lcli2 "$them_pay" "$them_fee" "`swap_status \"$them_htlcs\"`" "$us_pay" "$us_fee" "`swap_status \"$us_htlcs\"`"
}
check_tx_spend()
{
if check "$CLI getrawmempool | $FGREP '\"'"; then :;
else
echo "No tx in mempool:" >&2
$CLI getrawmempool >&2
exit 1
fi
}
check_peerstate()
{
if check "$1 getpeers | $FGREP -w $2"; then :
else
echo "$1" not in state "$2": >&2
$1 getpeers >&2
exit 1
fi
}
check_peerconnected()
{
if check "$1 getpeers | tr -s '\012\011\" ' ' ' | $FGREP -w 'connected : '$2"; then :
else
echo "$1" not connected "$2": >&2
$1 getpeers >&2
exit 1
fi
}
check_no_peers()
{
if check "$1 getpeers | tr -s '\012\011\" ' ' ' | $FGREP 'peers : [ ]'"; then :
else
echo "$1" still has peers: >&2
$1 getpeers >&2
exit 1
fi
}
extract_id()
{
XID=`tr -s '\012\011\" ' ' ' | sed -n 's/{ id : \([0-9]*\) }/\1/p'`
case "$XID" in
[0-9]*)
echo $XID;;
*)
return 1;;
esac
}
all_ok()
{
# Look for valgrind errors.
if grep ^== $DIR1/errors; then exit 1; fi
if grep ^== $DIR2/errors; then exit 1; fi
if grep ^== $DIR3/errors; then exit 1; fi
$SHUTDOWN_BITCOIN
trap "rm -rf $DIR1 $DIR2 $DIR3" EXIT
exit 0
}
if [ -n "$CRASH_ON_FAIL" ]; then
trap "$LCLI1 dev-crash 2>/dev/null || true; $LCLI2 dev-crash 2>/dev/null || true; echo Crash results in $DIR1 and $DIR2 >&2; cat $DIR1/errors $DIR2/errors >&2" EXIT
else
trap "echo Results in $DIR1 and $DIR2 >&2; cat $DIR1/errors $DIR2/errors >&2" EXIT
fi
mkdir $DIR1 $DIR2 $DIR3
if [ -n "$MANUALCOMMIT" ]; then
# Aka. never.
COMMIT_TIME=1h
else
COMMIT_TIME=10ms
fi
cat > $DIR1/config <<EOF
disable-irc
log-level=debug
bitcoind-regtest
bitcoind-poll=5s
deadline-blocks=5
min-htlc-expiry=6
bitcoin-datadir=$DATADIR
locktime-blocks=6
commit-time=$COMMIT_TIME
EOF
cat > $DIR2/config <<EOF
disable-irc
bitcoind-regtest
log-level=debug
bitcoind-poll=5s
deadline-blocks=5
min-htlc-expiry=6
bitcoin-datadir=$DATADIR
locktime-blocks=6
commit-time=$COMMIT_TIME
EOF
cp $DIR2/config $DIR3/config
if [ x"$RECONNECT" = xrestart ]; then
# Make sure node2 & 3 restart on same port, by setting in config.
# Find a free TCP port.
echo port=`findport 4000 $VARIANT` >> $DIR2/config
echo port=`findport 4010 $VARIANT` >> $DIR3/config
fi
if [ -n "$DIFFERENT_FEES" ]; then
# Simply override default fee (estimatefee fails on regtest anyway)
DEFAULT_FEE_RATE2=50000
# We use 5x fee rate for commits, by defailt.
FEE_RATE2=$(($DEFAULT_FEE_RATE2 * 5))
echo "default-fee-rate=$DEFAULT_FEE_RATE2" >> $DIR2/config
fi
# Need absolute path for re-exec testing.
LIGHTNINGD1="$(readlink -f `pwd`/../lightningd) --lightning-dir=$DIR1"
if [ -n "$GDB1" ]; then
echo Press return once you run: gdb --args $LIGHTNINGD1 >&2
read REPLY
else
LIGHTNINGD1="$PREFIX $LIGHTNINGD1"
$LIGHTNINGD1 > $REDIR1 2> $REDIRERR1 &
fi
LIGHTNINGD2="$(readlink -f `pwd`/../lightningd) --lightning-dir=$DIR2"
if [ -n "$GDB2" ]; then
echo Press return once you run: gdb --args $LIGHTNINGD2 >&2
read REPLY
else
LIGHTNINGD2="$PREFIX $LIGHTNINGD2"
$LIGHTNINGD2 > $REDIR2 2> $REDIRERR2 &
fi
LIGHTNINGD3="$PREFIX $(readlink -f `pwd`/../lightningd) --lightning-dir=$DIR3"
$LIGHTNINGD3 > $DIR3/output 2> $DIR3/errors &
if ! check "$LCLI1 getlog 2>/dev/null | $FGREP Hello"; then
echo Failed to start daemon 1 >&2
exit 1
fi
if ! check "$LCLI2 getlog 2>/dev/null | $FGREP Hello"; then
echo Failed to start daemon 2 >&2
exit 1
fi
if ! check "$LCLI3 getlog 2>/dev/null | $FGREP Hello"; then
echo Failed to start daemon 3 >&2
exit 1
fi
# Version should match binary version
GETINFO_VERSION=`$LCLI1 getinfo | sed -n 's/.*"version" : "\([^"]*\)".*/\1/p'`
LCLI_VERSION=$($LCLI1 --version | head -n1)
LDAEMON_VERSION=$($LIGHTNINGD1 --version | head -n1)
if [ $GETINFO_VERSION != $LCLI_VERSION -o $GETINFO_VERSION != $LDAEMON_VERSION ]; then
echo Wrong versions: getinfo gave $GETINFO_VERSION, cli gave $LCLI_VERSION, daemon gave $LDAEMON_VERSION >&2
exit 1
fi
ID1=`$LCLI1 getlog | sed -n 's/.*"ID: \([0-9a-f]*\)".*/\1/p'`
[ `$LCLI1 getinfo | sed -n 's/.*"id" : "\([0-9a-f]*\)".*/\1/p'` = $ID1 ]
ID2=`$LCLI2 getlog | sed -n 's/.*"ID: \([0-9a-f]*\)".*/\1/p'`
[ `$LCLI2 getinfo | sed -n 's/.*"id" : "\([0-9a-f]*\)".*/\1/p'` = $ID2 ]
ID3=`$LCLI3 getlog | sed -n 's/.*"ID: \([0-9a-f]*\)".*/\1/p'`
[ `$LCLI3 getinfo | sed -n 's/.*"id" : "\([0-9a-f]*\)".*/\1/p'` = $ID3 ]
PORT2=`$LCLI2 getlog | sed -n 's/.*on port \([0-9]*\).*/\1/p'`
PORT3=`$LCLI3 getlog | sed -n 's/.*on port \([0-9]*\).*/\1/p'`
# Make a payment into a P2SH for anchor.
P2SHADDR=`$LCLI1 newaddr | sed -n 's/{ "address" : "\(.*\)" }/\1/p'`
TXID=`$CLI sendtoaddress $P2SHADDR 0.01`
TX=`$CLI getrawtransaction $TXID`
$CLI generate 1
# Make sure they see it (for timeout we need to know what height they were)
BLOCKHEIGHT=`$CLI getblockcount`
check "$LCLI1 getinfo | $FGREP '\"blockheight\" : $BLOCKHEIGHT'"
check "$LCLI2 getinfo | $FGREP '\"blockheight\" : $BLOCKHEIGHT'"
# Prevent anchor broadcast if we want to test timeout.
if [ -n "$TIMEOUT_ANCHOR" ]; then
lcli1 dev-broadcast false
fi
lcli1 connect localhost $PORT2 $TX &
# Expect them to be waiting for anchor, and ack from other side.
check_peerstate lcli1 STATE_OPEN_WAIT_ANCHORDEPTH_AND_THEIRCOMPLETE
check_peerstate lcli2 STATE_OPEN_WAIT_ANCHORDEPTH_AND_THEIRCOMPLETE
DO_RECONNECT=$RECONNECT
if [ -n "$TIMEOUT_ANCHOR" ]; then
# Blocks before anchor committed (100 to hit chain, 1 to reach depth)
$CLI generate 100
# Still waiting.
check_peerstate lcli1 STATE_OPEN_WAIT_ANCHORDEPTH_AND_THEIRCOMPLETE
check_peerstate lcli2 STATE_OPEN_WAIT_ANCHORDEPTH_AND_THEIRCOMPLETE
# Make sure whichever times out first doesn't tell the other.
lcli1 dev-output $ID2 false
lcli2 dev-output $ID1 false
$CLI generate 1
# Node1 should have gone into STATE_ERR_ANCHOR_TIMEOUT.
check "lcli1 getlog debug | $FGREP STATE_ERR_ANCHOR_TIMEOUT"
# Don't try to reconnect any more if we are.
if [ x"$RECONNECT" = xreconnect ]; then DO_RECONNECT=""; fi
NO_PEER2=1
# Now let them send errors if they're still trying.
lcli2 dev-output $ID1 true || true
lcli1 dev-output $ID2 true || true
# Peer 2 should give up, and have forgotten all about it.
check "lcli2 getlog debug | $FGREP STATE_CLOSED"
check_no_peers lcli2
# Node1 should be disconnected.
check_peerconnected lcli1 false
# Now let node1 broadcast anchor and unilateral close belatedly!
lcli1 dev-broadcast true
# Now mine that transaction so they see it.
$CLI generate 1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_OUR_UNILATERAL
# Now move bitcoind 1 day, which is what node2 asked for on commit.
# Get current time from last block (works if we run this twice).
CURTIME=$($CLI getblock $($CLI getblockhash $(($BLOCKHEIGHT + 100))) | sed -n 's/ "time": \([0-9]*\),/\1/p')
$CLI setmocktime $(($CURTIME + 24 * 60 * 60))
# Move average so CSV moves.
$CLI generate 6
# Now it should have spent the commit tx.
check_tx_spend lcli1
# 100 blocks pass
$CLI generate 100
# Considers it all done now.
check_no_peers lcli1
lcli1 stop
lcli2 stop
all_ok
fi
# Now make it pass anchor (should be in mempool: one block to bury it)
check_tx_spend lcli1
$CLI generate 1
check_peerstate lcli1 STATE_NORMAL
check_peerstate lcli2 STATE_NORMAL
# We turn off routing failure for the moment.
lcli1 dev-routefail false
lcli2 dev-routefail false
if [ -n "$DIFFERENT_FEES" ]; then
# This is 100,000 satoshi, so covers fees.
HTLC_AMOUNT=100000000
# Asymmetry, since fee rates different.
NO_HTLCS_FEE2=$((338 * $FEE_RATE2 / 2000 * 2000))
ONE_HTLCS_FEE2=$(( (338 + 32) * $FEE_RATE2 / 2000 * 2000))
A_AMOUNT1=$(($AMOUNT - $NO_HTLCS_FEE))
A_FEE1=$NO_HTLCS_FEE
A_AMOUNT2=$(($AMOUNT - $NO_HTLCS_FEE2))
A_FEE2=$NO_HTLCS_FEE2
B_AMOUNT=0
B_FEE=0
check_status_single lcli1 $A_AMOUNT1 $A_FEE1 "" $B_AMOUNT $B_FEE ""
check_status_single lcli2 $B_AMOUNT $B_FEE "" $(($A_AMOUNT2)) $(($A_FEE2)) ""
EXPIRY=$(( $(blockheight) + 10))
SECRET=1de08917a61cb2b62ed5937d38577f6a7bfe59c176781c6d8128018e8b5ccdfd
RHASH=`lcli1 dev-rhash $SECRET | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
check_status_single lcli2 0 0 "" $(($AMOUNT - $HTLC_AMOUNT - $ONE_HTLCS_FEE2)) $(($ONE_HTLCS_FEE2)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_ADD_ACK_REVOCATION } "
lcli2 dev-fulfillhtlc $ID1 $HTLCID $SECRET
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
check_status_single lcli1 $(($AMOUNT - $HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) "" $(($HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) ""
check_status_single lcli2 $(($HTLC_AMOUNT - $NO_HTLCS_FEE2 / 2)) $(($NO_HTLCS_FEE2 / 2)) "" $(($AMOUNT - $HTLC_AMOUNT - $NO_HTLCS_FEE2 / 2)) $(($NO_HTLCS_FEE2 / 2)) ""
# FIXME: reactivate feechanges!
# # Change fee rate on node2 to same as node1.
# lcli2 dev-feerate 40000
# $CLI generate 1
# [ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# [ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# check_status $(($AMOUNT - $HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) "" $(($HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) ""
# # Change back.
# lcli2 dev-feerate 50000
# $CLI generate 1
# [ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# [ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# check_status_single lcli1 $(($AMOUNT - $HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) "" $(($HTLC_AMOUNT - $NO_HTLCS_FEE / 2)) $(($NO_HTLCS_FEE / 2)) ""
# check_status_single lcli2 $(($HTLC_AMOUNT - $NO_HTLCS_FEE2 / 2)) $(($NO_HTLCS_FEE2 / 2)) "" $(($AMOUNT - $HTLC_AMOUNT - $NO_HTLCS_FEE2 / 2)) $(($NO_HTLCS_FEE2 / 2)) ""
lcli1 close $ID2
# Make sure they notice it.
check_peerstate lcli1 STATE_MUTUAL_CLOSING
check_peerstate lcli2 STATE_MUTUAL_CLOSING
$CLI generate 1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_MUTUAL
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_MUTUAL
# Give it 10 blocks ie "forever"
$CLI generate 10
check_no_peers lcli1
check_no_peers lcli2
lcli1 stop
lcli2 stop
all_ok
fi
A_AMOUNT=$(($AMOUNT - $NO_HTLCS_FEE))
A_FEE=$NO_HTLCS_FEE
B_AMOUNT=0
B_FEE=0
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# This is 10,000 satoshi, so not dust!
HTLC_AMOUNT=10000000
EXPIRY=$(( $(blockheight) + 10))
SECRET=1de08917a61cb2b62ed5937d38577f6a7bfe59c176781c6d8128018e8b5ccdfd
RHASH=`lcli1 dev-rhash $SECRET | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
if [ -n "$MANUALCOMMIT" ]; then
# They should register a staged htlc.
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_HTLC } " $B_AMOUNT $B_FEE ""
# Now commit it.
lcli1 dev-commit $ID2
# Node 1 hasn't got it committed, but node2 should have told it to stage.
check_status_single lcli1 $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_ADD_REVOCATION } " $B_AMOUNT $B_FEE ""
# Check channel status
A_AMOUNT=$(($A_AMOUNT - $EXTRA_FEE - $HTLC_AMOUNT))
A_FEE=$(($A_FEE + $EXTRA_FEE))
# Node 2 has it committed.
check_status_single lcli2 $B_AMOUNT $B_FEE "" $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_REVOCATION } "
# There should be no "both committed" here yet
if lcli1 getlog debug | $FGREP "Both committed"; then
echo "Node1 thinks they are both committed";
exit 1
fi
if lcli2 getlog debug | $FGREP "Both committed"; then
echo "Node2 thinks they are both committed";
exit 1
fi
# Now node2 gives commitment to node1.
lcli2 dev-commit $ID1
# After revocation, they should know they're both committed.
check lcli1 "getlog debug | $FGREP 'Both committed to ADD of our HTLC'"
check lcli2 "getlog debug | $FGREP 'Both committed to ADD of their HTLC'"
else
A_AMOUNT=$(($A_AMOUNT - $EXTRA_FEE - $HTLC_AMOUNT))
A_FEE=$(($A_FEE + $EXTRA_FEE))
fi
# Both should have committed tx.
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $B_AMOUNT $B_FEE ""
if [ -n "$STEAL" ]; then
STEAL_TX=`$LCLI1 dev-signcommit $ID2 | cut -d\" -f4`
fi
if [ -n "$DUMP_ONCHAIN" ]; then
# make node1 disconnect with node2.
lcli1 dev-disconnect $ID2
check_peerconnected lcli1 false
# lcli1 should have sent out commitment tx
check_peerstate lcli1 STATE_ERR_BREAKDOWN
check_tx_spend lcli1
# Mine it.
$CLI generate 1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_OUR_UNILATERAL
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_THEIR_UNILATERAL
# both still know about htlc
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $B_AMOUNT $B_FEE ""
# Generate 6 blocks so CSV timeout has expired.
$CLI generate 6
# Now, lcli1 should spend its own output.
check_tx_spend lcli1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_OUR_UNILATERAL
while [ $(blockheight) != $EXPIRY ]; do
$CLI generate 1
done
# lcli1 should have gotten HTLC back.
check_tx_spend lcli1
# Now, after 10 blocks, should all be concluded.
$CLI generate 10
# Both consider it all done now.
check_no_peers lcli1
lcli1 stop
all_ok
fi
lcli2 dev-fulfillhtlc $ID1 $HTLCID $SECRET
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# Without manual commit, this check is racy.
if [ -n "$MANUALCOMMIT" ]; then
if lcli1 getlog debug | $FGREP 'Both committed to FULFILL'; then
echo "Node1 thinks they are both committed";
exit 1
fi
if lcli2 getlog debug | $FGREP 'Both committed to FULFILL'; then
echo "Node2 thinks they are both committed";
exit 1
fi
fi
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# If we're very slow, manually committed above, and we're restarting,
# we may restart *after* this and thus not see it in the log.
[ "$RECONNECT$MANUALCOMMIT" = restart1 ] || check lcli1 "getlog debug | $FGREP 'Both committed to FULFILL of our HTLC'"
check lcli2 "getlog debug | $FGREP 'Both committed to FULFILL of their HTLC'"
# We've transferred the HTLC amount to 2, who now has to pay fees,
# so no net change for A who saves on fees.
B_FEE=$HTLC_AMOUNT
# With no HTLCs, extra fee no longer required.
A_FEE=$(($A_FEE - $EXTRA_FEE - $B_FEE))
A_AMOUNT=$(($A_AMOUNT + $EXTRA_FEE + $HTLC_AMOUNT))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# A new one, at 10x the amount.
HTLC_AMOUNT=100000000
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# Check channel status
A_AMOUNT=$(($A_AMOUNT - $EXTRA_FEE - $HTLC_AMOUNT))
A_FEE=$(($A_FEE + $EXTRA_FEE))
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $B_AMOUNT $B_FEE ""
lcli2 dev-failhtlc $ID1 $HTLCID 695
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# Back to how we were before.
A_AMOUNT=$(($A_AMOUNT + $EXTRA_FEE + $HTLC_AMOUNT))
A_FEE=$(($A_FEE - $EXTRA_FEE))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# Same again, but this time it expires.
HTLC_AMOUNT=10000001
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# Check channel status
A_AMOUNT=$(($A_AMOUNT - $EXTRA_FEE - $HTLC_AMOUNT))
A_FEE=$(($A_FEE + $EXTRA_FEE))
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $B_AMOUNT $B_FEE ""
# Make sure node1 accepts the expiry packet.
while [ $(blockheight) != $EXPIRY ]; do
$CLI generate 1
done
# This should make node2 send it.
$CLI generate 1
if [ -n "$MANUALCOMMIT" ]; then
check_status $A_AMOUNT $A_FEE "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_REMOVE_HTLC } " $B_AMOUNT $B_FEE ""
lcli2 dev-commit $ID1
lcli1 dev-commit $ID2
fi
# Back to how we were before.
A_AMOUNT=$(($A_AMOUNT + $EXTRA_FEE + $HTLC_AMOUNT))
A_FEE=$(($A_FEE - $EXTRA_FEE))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
if [ -n "$STEAL" ]; then
# Send out old commit tx from peer 1.
$CLI sendrawtransaction $STEAL_TX
$CLI generate 1
# Node1 should get really upset; node2 should steal the transaction.
check_peerstate lcli1 STATE_ERR_INFORMATION_LEAK
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_CHEATED
check_tx_spend lcli2
# Give it "forever" blocks.
$CLI generate 10
check_no_peers lcli2
lcli1 stop
lcli2 stop
all_ok
fi
# First, give more money to node2, so it can offer HTLCs.
EXPIRY=$(( $(blockheight) + 10))
HTLC_AMOUNT=100000000
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
check_status $(($A_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE)) $(($A_FEE + $EXTRA_FEE)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $B_AMOUNT $B_FEE ""
lcli2 dev-fulfillhtlc $ID1 $HTLCID $SECRET
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# Both now pay equal fees.
A_FEE=$(($NO_HTLCS_FEE / 2))
B_FEE=$(($NO_HTLCS_FEE / 2))
# We transferred 10000000 before, and $HTLC_AMOUNT now.
A_AMOUNT=$(($AMOUNT - 10000000 - $HTLC_AMOUNT - $A_FEE))
B_AMOUNT=$((10000000 + $HTLC_AMOUNT - $B_FEE))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# Two failures crossover
SECRET2=1de08917a61cb2b62ed5937d38577f6a7bfe59c176781c6d8128018e8b5ccdfe
RHASH2=`lcli1 dev-rhash $SECRET2 | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
# This means B will *just* afford it (but can't cover increased fees)
HTLC_AMOUNT=$(($B_AMOUNT - $EXTRA_FEE / 2))
HTLCID=`lcli2 dev-newhtlc $ID1 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
# Make sure that's committed, in case lcli1 restarts.
lcli2 dev-commit $ID1 >/dev/null || true
HTLCID2=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH2 | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# A covers the extra part of the fee.
check_status $(($A_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE - $EXTRA_FEE / 2)) $(($A_FEE + $EXTRA_FEE + $EXTRA_FEE / 2)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : SENT_ADD_ACK_REVOCATION } " 0 $(($B_FEE + $EXTRA_FEE / 2)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_ADD_ACK_REVOCATION } "
# Fail both, to reset.
lcli1 dev-failhtlc $ID2 $HTLCID 830
lcli2 dev-failhtlc $ID1 $HTLCID2 829
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# Now, two HTLCs at once, one from each direction.
# Both sides can afford this.
HTLC_AMOUNT=1000000
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
HTLCID2=`lcli2 dev-newhtlc $ID1 $HTLC_AMOUNT $EXPIRY $RHASH2 | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
check_status $(($A_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE)) $(($A_FEE + $EXTRA_FEE)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } " $(($B_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE)) $(($B_FEE + $EXTRA_FEE)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : RCVD_ADD_ACK_REVOCATION } "
if [ -n "$CLOSE_WITH_HTLCS" ]; then
# Now begin close
lcli1 close $ID2
# They should be waiting for it to clear up.
check_peerstate lcli1 STATE_SHUTDOWN
check_peerstate lcli2 STATE_SHUTDOWN
# Fail one, still waiting.
lcli2 dev-failhtlc $ID1 $HTLCID 800
check_peerstate lcli1 STATE_SHUTDOWN
check_peerstate lcli2 STATE_SHUTDOWN
# Fulfill the other causes them to actually complete the close.
lcli1 dev-fulfillhtlc $ID2 $HTLCID2 $SECRET2
check_peerstate lcli1 STATE_MUTUAL_CLOSING
check_peerstate lcli2 STATE_MUTUAL_CLOSING
$CLI generate 1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_MUTUAL
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_MUTUAL
# Give it "forever" blocks.
$CLI generate 9
check_no_peers lcli1
check_no_peers lcli2
lcli1 stop
lcli2 stop
all_ok
fi
lcli1 dev-fulfillhtlc $ID2 $HTLCID2 $SECRET2
lcli2 dev-failhtlc $ID1 $HTLCID 849
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
# We transferred amount from B to A.
A_AMOUNT=$(($A_AMOUNT + $HTLC_AMOUNT))
B_AMOUNT=$(($B_AMOUNT - $HTLC_AMOUNT))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# Now, test making more changes before receiving commit reply.
DO_RECONNECT=""
lcli2 dev-output $ID1 false
HTLCID=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH | extract_id`
# Make sure node1 sends commit (in the background, since it will block!)
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2 &
if [ -n "$MANUALCOMMIT" ]; then
# node2 will consider this committed.
check_status_single lcli2 $(($B_AMOUNT - $EXTRA_FEE/2)) $(($B_FEE + $EXTRA_FEE/2)) "" $(($A_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE/2)) $(($A_FEE + $EXTRA_FEE/2)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_REVOCATION } "
else
# It will start committing by itself
check_status_single lcli2 $(($B_AMOUNT - $EXTRA_FEE/2)) $(($B_FEE + $EXTRA_FEE/2)) "" $(($A_AMOUNT - $HTLC_AMOUNT - $EXTRA_FEE/2)) $(($A_FEE + $EXTRA_FEE/2)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_COMMIT } "
fi
# node1 will still be awaiting node2's revocation reply.
check_status_single lcli1 $(($A_AMOUNT)) $(($A_FEE)) "{ msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_COMMIT } " $B_AMOUNT $B_FEE ""
# Now send another offer, and enable node2 output.
HTLCID2=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH2 | extract_id`
lcli2 dev-output $ID1 true
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
DO_RECONNECT=$RECONNECT
# Both sides should be committed to htlcs
# We open-code check_status here: HTLCs could be in either order.
check_balance_single lcli1 $(($A_AMOUNT - $HTLC_AMOUNT*2 - $EXTRA_FEE)) $(($A_FEE + $EXTRA_FEE)) $(($B_AMOUNT - $EXTRA_FEE)) $(($B_FEE + $EXTRA_FEE))
check_balance_single lcli2 $(($B_AMOUNT - $EXTRA_FEE)) $(($B_FEE + $EXTRA_FEE)) $(($A_AMOUNT - $HTLC_AMOUNT*2 - $EXTRA_FEE)) $(($A_FEE + $EXTRA_FEE))
# Once both balances are correct, this should be right.
lcli1 getpeers | tr -s '\012\011" ' ' ' | $FGREP "our_htlcs : [ { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION }, { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : SENT_ADD_ACK_REVOCATION } ], their_htlcs : [ ]" || lcli1 getpeers | tr -s '\012\011" ' ' ' | $FGREP "our_htlcs : [ { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : SENT_ADD_ACK_REVOCATION }, { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : SENT_ADD_ACK_REVOCATION } ], their_htlcs : [ ]"
lcli2 getpeers | tr -s '\012\011" ' ' ' | $FGREP "our_htlcs : [ ], their_htlcs : [ { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_ADD_ACK_REVOCATION }, { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : RCVD_ADD_ACK_REVOCATION } ]" || lcli2 getpeers | tr -s '\012\011" ' ' ' | $FGREP "our_htlcs : [ ], their_htlcs : [ { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH2 , state : RCVD_ADD_ACK_REVOCATION }, { msatoshi : $HTLC_AMOUNT, expiry : { block : $EXPIRY }, rhash : $RHASH , state : RCVD_ADD_ACK_REVOCATION } ]"
# Just for once, reconnect/restart node 2.
case "$RECONNECT" in
reconnect)
echo RECONNECTING NODE2
$LCLI2 dev-reconnect $ID1 >/dev/null
sleep 1
;;
restart)
echo RESTARTING NODE2
$LCLI2 -- dev-restart $LIGHTNINGD2 >/dev/null 2>&1 || true
if ! check "$LCLI2 getlog 2>/dev/null | fgrep -q Hello"; then
echo "Node2 dev-restart failed!">&2
exit 1
fi
;;
esac
if ! check "$LCLI2 getpeers | tr -s '\012\011\" ' ' ' | fgrep -q 'connected : true'"; then
echo "Failed to reconnect!">&2
exit 1
fi
# Node2 collects the HTLCs.
lcli2 dev-fulfillhtlc $ID1 $HTLCID $SECRET
lcli2 dev-fulfillhtlc $ID1 $HTLCID2 $SECRET2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# We transferred 2 * amount from A to B.
A_AMOUNT=$(($A_AMOUNT - $HTLC_AMOUNT * 2))
B_AMOUNT=$(($B_AMOUNT + $HTLC_AMOUNT * 2))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
# Now, use automatic payment redemption
lcli1 dev-routefail true
lcli2 dev-routefail true
RHASH3=`lcli2 invoice $HTLC_AMOUNT RHASH3 | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
lcli2 listinvoice
[ "`lcli2 listinvoice | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH3 , rhash : $RHASH3 , msatoshi : $HTLC_AMOUNT, complete : false } ] " ]
HTLCID3=`lcli1 dev-newhtlc $ID2 $HTLC_AMOUNT $EXPIRY $RHASH3 | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
# We transferred amount from A to B.
A_AMOUNT=$(($A_AMOUNT - $HTLC_AMOUNT))
B_AMOUNT=$(($B_AMOUNT + $HTLC_AMOUNT))
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
[ "`lcli2 listinvoice | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH3 , rhash : $RHASH3 , msatoshi : $HTLC_AMOUNT, complete : true } ] " ]
# Now, failed payment (didn't pay enough)
RHASH4=`lcli2 invoice $HTLC_AMOUNT RHASH4 | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
# Shouldn't have this already.
if lcli2 getlog | $FGREP 'Short payment for'; then exit 1; fi
# Test listinvoice with both, or subset (either order possible!)
INVOICES=`lcli2 listinvoice | tr -s '\012\011\" ' ' '`
[ "$INVOICES" = "[ { label : RHASH3 , rhash : $RHASH3 , msatoshi : $HTLC_AMOUNT, complete : true }, { label : RHASH4 , rhash : $RHASH4 , msatoshi : $HTLC_AMOUNT, complete : false } ] " ] || [ "$INVOICES" = "[ { label : RHASH4 , rhash : $RHASH4 , msatoshi : $HTLC_AMOUNT, complete : false }, { label : RHASH3 , rhash : $RHASH3 , msatoshi : $HTLC_AMOUNT, complete : true } ] " ]
[ "`lcli2 listinvoice RHASH3 | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH3 , rhash : $RHASH3 , msatoshi : $HTLC_AMOUNT, complete : true } ] " ]
[ "`lcli2 listinvoice RHASH4 | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH4 , rhash : $RHASH4 , msatoshi : $HTLC_AMOUNT, complete : false } ] " ]
HTLCID4=`lcli1 dev-newhtlc $ID2 $(($HTLC_AMOUNT - 1)) $EXPIRY $RHASH4 | extract_id`
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli2 dev-commit $ID1
[ ! -n "$MANUALCOMMIT" ] || lcli1 dev-commit $ID2
check lcli2 "getlog | $FGREP 'Short payment for'"
check_status $A_AMOUNT $A_FEE "" $B_AMOUNT $B_FEE ""
lcli2 delinvoice RHASH4
if lcli2 delinvoice RHASH3 >/dev/null; then
echo "Should not be able to delete completed invoice!" >&2
exit 1
fi
if [ ! -n "$MANUALCOMMIT" ]; then
# Test routing to a third node.
P2SHADDR2=`$LCLI2 newaddr | sed -n 's/{ "address" : "\(.*\)" }/\1/p'`
TXID2=`$CLI sendtoaddress $P2SHADDR2 0.01`
TX2=`$CLI getrawtransaction $TXID2`
$CLI generate 1
lcli2 connect localhost $PORT3 $TX2 &
check_tx_spend lcli2
$CLI generate 1
# Make sure it's STATE_NORMAL.
check_peerstate lcli3 STATE_NORMAL
# More than enough to cover commit fees.
HTLC_AMOUNT=100000000
# Tell node 1 about the 2->3 route.
# Add to config in case we are restaring.
echo "add-route=$ID2/$ID3/546000/10/36/36" >> $DIR1/config
lcli1 dev-add-route $ID2 $ID3 546000 10 36 36
RHASH5=`lcli3 invoice $HTLC_AMOUNT RHASH5 | sed 's/.*"\([0-9a-f]*\)".*/\1/'`
# Get route.
ROUTE=`lcli1 getroute $ID3 $HTLC_AMOUNT 1`
ROUTE=`echo $ROUTE | sed 's/^{ "route" : \(.*\) }$/\1/'`
# Try wrong hash.
if lcli1 sendpay "$ROUTE" $RHASH4; then
echo Paid with wrong hash? >&2
exit 1
fi
# Try underpaying.
PAID=`echo "$ROUTE" | sed -n 's/.*"msatoshi" : \([0-9]*\),.*/\1/p'`
UNDERPAY=`echo "$ROUTE" | sed "s/: $PAID,/: $(($PAID - 1)),/"`
if lcli1 sendpay "$UNDERPAY" $RHASH5; then
echo Paid with too little? >&2
exit 1
fi
# If restarting, make sure node3 remembers incoming payment.
if [ "$RECONNECT" = restart ]; then
$LCLI3 -- dev-restart $LIGHTNINGD3 >/dev/null 2>&1 || true
if ! check "$LCLI3 getpeers 2>/dev/null | tr -s '\012\011\" ' ' ' | fgrep -q 'connected : true'"; then
echo "Failed to reconnect!">&2
exit 1
fi
fi
[ "`lcli3 listinvoice RHASH5 | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH5 , rhash : $RHASH5 , msatoshi : $HTLC_AMOUNT, complete : false } ] " ]
# Pay correctly.
lcli1 sendpay "$ROUTE" $RHASH5
# Node 3 should end up with that amount (minus 1/2 tx fee)
# Note that it is delayed a little, since node2 fulfils as soon as fulfill
# starts.
check lcli3 "getpeers | $FGREP \"\\\"our_amount\\\" : $(($HTLC_AMOUNT - $NO_HTLCS_FEE / 2))\""
# If restarting, make sure node3 remembers completed payment.
if [ "$RECONNECT" = restart ]; then
echo RESTARTING NODE3
$LCLI3 -- dev-restart $LIGHTNINGD3 >/dev/null 2>&1 || true
if ! check "$LCLI3 getpeers 2>/dev/null | tr -s '\012\011\" ' ' ' | fgrep -q 'connected : true'"; then
echo "Failed to reconnect!">&2
exit 1
fi
fi
[ "`lcli3 listinvoice RHASH5 | tr -s '\012\011\" ' ' '`" = "[ { label : RHASH5 , rhash : $RHASH5 , msatoshi : $HTLC_AMOUNT, complete : true } ] " ]
[ "`lcli3 waitinvoice | tr -s '\012\011\" ' ' '`" = "{ label : RHASH5 , rhash : $RHASH5 , msatoshi : $HTLC_AMOUNT } " ]
# Can't pay twice (try from node2)
ROUTE2=`lcli2 getroute $ID3 $HTLC_AMOUNT 1`
ROUTE2=`echo $ROUTE2 | sed 's/^{ "route" : \(.*\) }$/\1/'`
if lcli2 sendpay "$ROUTE2" $RHASH5; then
echo "Paying twice worked?" >&2
exit 1
fi
lcli3 close $ID2
# Re-send should be a noop (doesn't matter that node3 is down!)
lcli1 sendpay "$ROUTE" $RHASH5
# Re-send to different id or amount should complain.
SHORTROUTE=`echo "$ROUTE" | sed 's/, { "id" : .* }//' | sed 's/"msatoshi" : [0-9]*,/"msatoshi" : '$HTLC_AMOUNT,/`
lcli1 sendpay "$SHORTROUTE" $RHASH5 | $FGREP "already succeeded to $ID3"
lcli1 sendpay "$UNDERPAY" $RHASH5 | $FGREP "already succeeded with amount $HTLC_AMOUNT"
# Now node2 should fail to route.
if lcli1 sendpay "$ROUTE" $RHASH4 | $FGREP "failed: error code 404 node $ID2 reason Unknown peer"; then : ;
else
echo "Pay to node3 didn't give 404" >&2
exit 1
fi
# Now node1 should fail to route (route deleted)
if lcli1 getroute $ID3 $HTLC_AMOUNT 1 | $FGREP "no route found"; then : ;
else
echo "Pay to node3 didn't fail instantly second time" >&2
exit 1
fi
fi
lcli1 close $ID2
# They should be negotiating the close.
check_peerstate lcli1 STATE_MUTUAL_CLOSING
check_peerstate lcli2 STATE_MUTUAL_CLOSING
$CLI generate 1
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_MUTUAL
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_MUTUAL
# Give it forever-1 blocks.
$CLI generate 8
# Make sure they saw it!
check_peerstate lcli1 STATE_CLOSE_ONCHAIN_MUTUAL
check_peerstate lcli2 STATE_CLOSE_ONCHAIN_MUTUAL
# Now the final one.
$CLI generate 1
check_no_peers lcli1
check_no_peers lcli2
lcli1 stop
lcli2 stop
all_ok