qemu-e2k/tests/qemu-iotests/common.pattern
Eric Blake 8cedcffdc1 iotests: Drop use of bash keyword 'function'
Bash allows functions to be declared with or without the leading
keyword 'function'; but including the keyword does not comply with
POSIX syntax, and is confusing to ksh users where the use of the
keyword changes the scoping rules for functions.  Stick to the
POSIX form through iotests.

Done mechanically with:
  sed -i 's/^function //' $(git ls-files tests/qemu-iotests)

Signed-off-by: Eric Blake <eblake@redhat.com>
Message-Id: <20181116215002.2124581-1-eblake@redhat.com>
Reviewed-by: Daniel P. Berrangé <berrange@redhat.com>
Reviewed-by: Philippe Mathieu-Daudé <philmd@redhat.com>
2018-11-19 11:16:46 -06:00

141 lines
4.8 KiB
Bash

#!/bin/bash
#
# Copyright (C) 2009 Red Hat, Inc.
#
# 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 2 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/>.
#
do_is_allocated() {
local start=$1
local size=$2
local step=$3
local count=$4
for i in `seq 1 $count`; do
echo alloc $(( start + (i - 1) * step )) $size
done
}
is_allocated() {
do_is_allocated "$@" | $QEMU_IO "$TEST_IMG" | _filter_qemu_io
}
do_io() {
local op=$1
local start=$2
local size=$3
local step=$4
local count=$5
local pattern=$6
echo === IO: pattern $pattern >&2
for i in `seq 1 $count`; do
echo $op -P $pattern $(( start + (i - 1) * step )) $size
done
}
io_pattern() {
do_io "$@" | $QEMU_IO "$TEST_IMG" | _filter_qemu_io
}
io() {
local start=$2
local pattern=$(( (start >> 9) % 256 ))
do_io "$@" $pattern | $QEMU_IO "$TEST_IMG" | _filter_qemu_io
}
io_zero() {
do_io "$@" 0 | $QEMU_IO "$TEST_IMG" | _filter_qemu_io
}
io_test() {
local op=$1
local offset=$2
local cluster_size=$3
local num_large=$4
local num_medium=$((num_large * num_large))
local num_small=$((4 * num_medium))
local half_cluster=$((cluster_size / 2))
local quarter_cluster=$((cluster_size / 4))
local l2_size=$((cluster_size * cluster_size / 8))
# Complete clusters
io "$op" $offset $cluster_size $cluster_size $num_small
offset=$((offset + num_small * $cluster_size))
# From somewhere in the middle to the end of a cluster
io "$op" $((offset + $half_cluster)) $half_cluster $cluster_size $num_small
offset=$((offset + num_small * $cluster_size))
# From the start to somewhere in the middle of a cluster
io "$op" $offset $half_cluster $cluster_size $num_small
offset=$((offset + num_small * $cluster_size))
# Completely misaligned (and small)
io "$op" $((offset + $quarter_cluster)) $half_cluster $cluster_size $num_small
offset=$((offset + num_small * $cluster_size))
# Spanning multiple clusters
io "$op" $((offset + $half_cluster)) $((cluster_size * 2)) $((cluster_size * 3)) $num_medium
offset=$((offset + num_medium * 3 * $cluster_size))
# Spanning multiple L2 tables
# L2 table size: 512 clusters of 4k = 2M
offset=$(( ((offset + l2_size - 1) & ~(l2_size - 1)) - (3 * half_cluster) ))
io "$op" $offset $((6 * half_cluster)) $(( l2_size + half_cluster )) $num_large
offset=$((offset + num_large * ( l2_size + half_cluster )))
}
io_test2() {
local orig_offset=$1
local cluster_size=$2
local num=$3
# Pattern (repeat after 9 clusters):
# used - used - free - used - compressed - compressed -
# free - free - compressed
# Write the clusters to be compressed
echo === Clusters to be compressed [1]
io_pattern writev $((offset + 4 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
echo === Clusters to be compressed [2]
io_pattern writev $((offset + 5 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
echo === Clusters to be compressed [3]
io_pattern writev $((offset + 8 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
mv "$TEST_IMG" "$TEST_IMG.orig"
$QEMU_IMG convert -f $IMGFMT -O $IMGFMT -c "$TEST_IMG.orig" "$TEST_IMG"
# Write the used clusters
echo === Used clusters [1]
io_pattern writev $((offset + 0 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
echo === Used clusters [2]
io_pattern writev $((offset + 1 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
echo === Used clusters [3]
io_pattern writev $((offset + 3 * $cluster_size)) $cluster_size $((9 * $cluster_size)) $num 165
# Read them
echo === Read used/compressed clusters
io_pattern readv $((offset + 0 * $cluster_size)) $((2 * $cluster_size)) $((9 * $cluster_size)) $num 165
io_pattern readv $((offset + 3 * $cluster_size)) $((3 * $cluster_size)) $((9 * $cluster_size)) $num 165
io_pattern readv $((offset + 8 * $cluster_size)) $((1 * $cluster_size)) $((9 * $cluster_size)) $num 165
echo === Read zeros
io_zero readv $((offset + 2 * $cluster_size)) $((1 * $cluster_size)) $((9 * $cluster_size)) $num
io_zero readv $((offset + 6 * $cluster_size)) $((2 * $cluster_size)) $((9 * $cluster_size)) $num
}