#!/bin/sh test_description='test skipping fetch negotiator' . ./test-lib.sh have_sent () { while test "$#" -ne 0 do grep "fetch> have $(git -C client rev-parse $1)" trace if test $? -ne 0 then echo "No have $(git -C client rev-parse $1) ($1)" return 1 fi shift done } have_not_sent () { while test "$#" -ne 0 do grep "fetch> have $(git -C client rev-parse $1)" trace if test $? -eq 0 then return 1 fi shift done } # trace_fetch <client_dir> <server_dir> [args] # # Trace the packet output of fetch, but make sure we disable the variable # in the child upload-pack, so we don't combine the results in the same file. trace_fetch () { client=$1; shift server=$1; shift GIT_TRACE_PACKET="$(pwd)/trace" \ git -C "$client" fetch \ --upload-pack 'unset GIT_TRACE_PACKET; git-upload-pack' \ "$server" "$@" } test_expect_success 'commits with no parents are sent regardless of skip distance' ' git init server && test_commit -C server to_fetch && git init client && for i in $(test_seq 7) do test_commit -C client c$i done && # We send: "c7" (skip 1) "c5" (skip 2) "c2" (skip 4). After that, since # "c1" has no parent, it is still sent as "have" even though it would # normally be skipped. test_config -C client fetch.negotiationalgorithm skipping && trace_fetch client "$(pwd)/server" && have_sent c7 c5 c2 c1 && have_not_sent c6 c4 c3 ' test_expect_success 'when two skips collide, favor the larger one' ' rm -rf server client trace && git init server && test_commit -C server to_fetch && git init client && for i in $(test_seq 11) do test_commit -C client c$i done && git -C client checkout c5 && test_commit -C client c5side && # Before reaching c5, we send "c5side" (skip 1) and "c11" (skip 1) "c9" # (skip 2) "c6" (skip 4). The larger skip (skip 4) takes precedence, so # the next "have" sent will be "c1" (from "c6" skip 4) and not "c4" # (from "c5side" skip 1). test_config -C client fetch.negotiationalgorithm skipping && trace_fetch client "$(pwd)/server" && have_sent c5side c11 c9 c6 c1 && have_not_sent c10 c8 c7 c5 c4 c3 c2 ' test_expect_success 'use ref advertisement to filter out commits' ' rm -rf server client trace && git init server && test_commit -C server c1 && test_commit -C server c2 && test_commit -C server c3 && git -C server tag -d c1 c2 c3 && git clone server client && test_commit -C client c4 && test_commit -C client c5 && git -C client checkout c4^^ && test_commit -C client c2side && git -C server checkout --orphan anotherbranch && test_commit -C server to_fetch && # The server advertising "c3" (as "refs/heads/master") means that we do # not need to send any ancestors of "c3", but we still need to send "c3" # itself. test_config -C client fetch.negotiationalgorithm skipping && # The ref advertisement itself is filtered when protocol v2 is used, so # use v0. ( GIT_TEST_PROTOCOL_VERSION=0 && export GIT_TEST_PROTOCOL_VERSION && trace_fetch client origin to_fetch ) && have_sent c5 c4^ c2side && have_not_sent c4 c4^^ c4^^^ ' test_expect_success 'handle clock skew' ' rm -rf server client trace && git init server && test_commit -C server to_fetch && git init client && # 2 regular commits test_tick=2000000000 && test_commit -C client c1 && test_commit -C client c2 && # 4 old commits test_tick=1000000000 && git -C client checkout c1 && test_commit -C client old1 && test_commit -C client old2 && test_commit -C client old3 && test_commit -C client old4 && # "c2" and "c1" are popped first, then "old4" to "old1". "old1" would # normally be skipped, but is treated as a commit without a parent here # and sent, because (due to clock skew) its only parent has already been # popped off the priority queue. test_config -C client fetch.negotiationalgorithm skipping && trace_fetch client "$(pwd)/server" && have_sent c2 c1 old4 old2 old1 && have_not_sent old3 ' test_expect_success 'do not send "have" with ancestors of commits that server ACKed' ' rm -rf server client trace && git init server && test_commit -C server to_fetch && git init client && for i in $(test_seq 8) do git -C client checkout --orphan b$i && test_commit -C client b$i.c0 done && for j in $(test_seq 19) do for i in $(test_seq 8) do git -C client checkout b$i && test_commit -C client b$i.c$j done done && # Copy this branch over to the server and add a commit on it so that it # is reachable but not advertised. git -C server fetch --no-tags "$(pwd)/client" b1:refs/heads/b1 && git -C server checkout b1 && test_commit -C server commit-on-b1 && test_config -C client fetch.negotiationalgorithm skipping && # NEEDSWORK: The number of "have"s sent depends on whether the transport # is stateful. If the overspecification of the result were reduced, this # test could be used for both stateful and stateless transports. ( # Force protocol v0, in which local transport is stateful (in # protocol v2 it is stateless). GIT_TEST_PROTOCOL_VERSION=0 && export GIT_TEST_PROTOCOL_VERSION && trace_fetch client "$(pwd)/server" to_fetch ) && grep " fetch" trace && # fetch-pack sends 2 requests each containing 16 "have" lines before # processing the first response. In these 2 requests, 4 commits from # each branch are sent. Just check the first branch. have_sent b1.c19 b1.c17 b1.c14 b1.c9 && have_not_sent b1.c18 b1.c16 b1.c15 b1.c13 b1.c12 b1.c11 b1.c10 && # While fetch-pack is processing the first response, it should read that # the server ACKs b1.c19 and b1.c17. grep "fetch< ACK $(git -C client rev-parse b1.c19) common" trace && grep "fetch< ACK $(git -C client rev-parse b1.c17) common" trace && # fetch-pack should thus not send any more commits in the b1 branch, but # should still send the others (in this test, just check b2). for i in $(test_seq 0 8) do have_not_sent b1.c$i done && have_sent b2.c1 b2.c0 ' test_done