#!/bin/ksh # # This file and its contents are supplied under the terms of the # Common Development and Distribution License ("CDDL"), version 1.0. # You may only use this file in accordance with the terms of version # 1.0 of the CDDL. # # A full copy of the text of the CDDL should have accompanied this # source. A copy of the CDDL is also available via the Internet at # http://www.illumos.org/license/CDDL. # # # Copyright (c) 2019 by Lawrence Livermore National Security, LLC. # . $STF_SUITE/include/properties.shlib . $STF_SUITE/include/libtest.shlib . $STF_SUITE/tests/functional/rsend/rsend.kshlib # # Description: # Verify incremental receive properly handles reallocation. # # Strategy: # 1. Create a pool containing an encrypted filesystem. # 2. Use 'zfs send -wp' to perform a raw send of the initial filesystem. # 3. Repeat the following steps N times to verify raw incremental receives. # a) Randomly change several key dataset properties. # b) Modify the contents of the filesystem such that dnode reallocation # is likely during the 'zfs receive', and receive_object() exercises # as much of its functionality as possible. # c) Create a new snapshot and generate an raw incremental stream. # d) Receive the raw incremental stream and verify the received contents. # e) Destroy the incremental stream and old snapshot. # verify_runnable "both" log_assert "Verify incremental receive handles reallocation" function cleanup { rm -f $BACKDIR/fs@* destroy_dataset $POOL/fs "-rR" destroy_dataset $POOL/newfs "-rR" } log_onexit cleanup log_must zfs create $POOL/fs last_snap=1 log_must zfs snapshot $POOL/fs@snap${last_snap} log_must eval "zfs send $POOL/fs@snap${last_snap} >$BACKDIR/fs@snap${last_snap}" log_must eval "zfs recv $POOL/newfs < $BACKDIR/fs@snap${last_snap}" # Set atime=off to prevent the recursive_cksum from modifying newfs. log_must zfs set atime=off $POOL/newfs if is_kmemleak; then # Use fewer files and passes on debug kernels # to avoid timeout due to reduced performance. nr_files=100 passes=2 elif is_freebsd; then # Use fewer passes and files on FreeBSD to avoid timeout. nr_files=500 passes=2 else nr_files=1000 passes=3 fi for i in {1..$passes}; do # Randomly modify several dataset properties in order to generate # more interesting incremental send streams. rand_set_prop $POOL/fs checksum "off" "fletcher4" "sha256" rand_set_prop $POOL/fs compression "${compress_prop_vals[@]}" rand_set_prop $POOL/fs recordsize "32K" "128K" rand_set_prop $POOL/fs dnodesize "legacy" "auto" "4k" rand_set_prop $POOL/fs xattr "on" "sa" # Churn the filesystem in such a way that we're likely to be both # allocating and reallocating objects in the incremental stream. log_must churn_files $nr_files 524288 $POOL/fs expected_cksum=$(recursive_cksum /$POOL/fs) # Create a snapshot and use it to send an incremental stream. this_snap=$((last_snap + 1)) log_must zfs snapshot $POOL/fs@snap${this_snap} log_must eval "zfs send -i $POOL/fs@snap${last_snap} \ $POOL/fs@snap${this_snap} > $BACKDIR/fs@snap${this_snap}" # Receive the incremental stream and verify the received contents. log_must eval "zfs recv $POOL/newfs < $BACKDIR/fs@snap${this_snap}" actual_cksum=$(recursive_cksum /$POOL/newfs) if [[ "$expected_cksum" != "$actual_cksum" ]]; then log_fail "Checksums differ ($expected_cksum != $actual_cksum)" fi # Destroy the incremental stream and old snapshot. rm -f $BACKDIR/fs@snap${last_snap} log_must zfs destroy $POOL/fs@snap${last_snap} log_must zfs destroy $POOL/newfs@snap${last_snap} last_snap=$this_snap done log_pass "Verify incremental receive handles dnode reallocation"