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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [xen master] x86: Build check for embedded endbr64 instructions
commit 4d037425dccf6c5109d4939a6cd224d846827907
Author: Marek Marczykowski-Górecki <marmarek@xxxxxxxxxxxxxxxxxxxxxx>
AuthorDate: Fri Nov 26 15:34:08 2021 +0000
Commit: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
CommitDate: Wed Feb 23 15:33:43 2022 +0000
x86: Build check for embedded endbr64 instructions
An interesting corner case occurs when the byte sequence making up endbr64
ends up on a non-instruction boundary. Such embedded instructions mark
legal
indirect branch targets as far as the CPU is concerned, which aren't legal
as
far as the logic is concerned.
When CET-IBT is active, check for embedded byte sequences. Example failures
look like:
check-endbr.sh xen-syms Fail: Found 2 embedded endbr64 instructions
0xffff82d040325677: test_endbr64 at
/local/xen.git/xen/arch/x86/x86_64/entry.S:28
0xffff82d040352da6: init_done at /local/xen.git/xen/arch/x86/setup.c:675
Signed-off-by: Marek Marczykowski-Górecki <marmarek@xxxxxxxxxxxxxxxxxxxxxx>
Signed-off-by: Andrew Cooper <andrew.cooper3@xxxxxxxxxx>
Reviewed-by: Jan Beulich <jbeulich@xxxxxxxx>
---
README | 1 +
xen/arch/x86/Makefile | 6 ++++
xen/tools/check-endbr.sh | 86 ++++++++++++++++++++++++++++++++++++++++++++++++
3 files changed, 93 insertions(+)
diff --git a/README b/README
index 562b808080..5e55047ffd 100644
--- a/README
+++ b/README
@@ -68,6 +68,7 @@ provided by your OS distributor:
In addition to the above there are a number of optional build
prerequisites. Omitting these will cause the related features to be
disabled at compile time:
+ * Binary-search capable grep (if building Xen with CET support)
* Development install of Ocaml (e.g. ocaml-nox and
ocaml-findlib). Required to build ocaml components which
includes the alternative ocaml xenstored.
diff --git a/xen/arch/x86/Makefile b/xen/arch/x86/Makefile
index db97ae8c07..b90146b756 100644
--- a/xen/arch/x86/Makefile
+++ b/xen/arch/x86/Makefile
@@ -142,6 +142,9 @@ $(TARGET)-syms: $(BASEDIR)/prelink.o $(obj)/xen.lds
| $(BASEDIR)/tools/symbols --all-symbols --xensyms --sysv
--sort \
>$(@D)/$(@F).map
rm -f $(@D)/.$(@F).[0-9]* $(@D)/..$(@F).[0-9]*
+ifeq ($(CONFIG_XEN_IBT),y)
+ $(SHELL) $(BASEDIR)/tools/check-endbr.sh $@
+endif
$(obj)/note.o: $(TARGET)-syms
$(OBJCOPY) -O binary --only-section=.note.gnu.build-id $< $@.bin
@@ -212,6 +215,9 @@ endif
$(NM) -pa --format=sysv $(@D)/$(@F) \
| $(BASEDIR)/tools/symbols --all-symbols --xensyms --sysv
--sort >$(@D)/$(@F).map
rm -f $(@D)/.$(@F).[0-9]* $(@D)/..$(@F).[0-9]*
+ifeq ($(CONFIG_XEN_IBT),y)
+ $(SHELL) $(BASEDIR)/tools/check-endbr.sh $@
+endif
else
$(TARGET).efi: FORCE
rm -f $@
diff --git a/xen/tools/check-endbr.sh b/xen/tools/check-endbr.sh
new file mode 100755
index 0000000000..7fbb181b3c
--- /dev/null
+++ b/xen/tools/check-endbr.sh
@@ -0,0 +1,86 @@
+#!/bin/sh
+#
+# Usage ./$0 xen-syms
+#
+set -e
+
+# Pretty-print parameters a little for message
+MSG_PFX="${0##*/} ${1##*/}"
+
+OBJCOPY="${OBJCOPY:-objcopy}"
+OBJDUMP="${OBJDUMP:-objdump}"
+ADDR2LINE="${ADDR2LINE:-addr2line}"
+
+D=$(mktemp -d)
+trap "rm -rf $D" EXIT
+
+TEXT_BIN=$D/xen-syms.text
+VALID=$D/valid-addrs
+ALL=$D/all-addrs
+BAD=$D/bad-addrs
+
+# Check that grep can do binary searches. Some, e.g. busybox, can't. Leave a
+# warning but don't fail the build.
+echo "X" | grep -aob "X" -q 2>/dev/null ||
+ { echo "$MSG_PFX Warning: grep can't do binary searches" >&2; exit 0; }
+
+#
+# First, look for all the valid endbr64 instructions.
+# A worst-case disassembly, viewed through cat -A, may look like:
+#
+# ffff82d040337bd4 <endbr64>:$
+# ffff82d040337bd4:^If3 0f 1e fa ^Iendbr64 $
+# ffff82d040337bd8:^Ieb fe ^Ijmp ffff82d040337bd8
<endbr64+0x4>$
+# ffff82d040337bda:^Ib8 f3 0f 1e fa ^Imov $0xfa1e0ff3,%eax$
+#
+# Want to grab the address of endbr64 instructions only, ignoring function
+# names/jump labels/etc, so look for 'endbr64' preceded by a tab and with any
+# number of trailing spaces before the end of the line.
+#
+${OBJDUMP} -j .text $1 -d -w | grep ' endbr64 *$' | cut -f 1 -d ':' > $VALID &
+
+#
+# Second, look for any endbr64 byte sequence
+# This has a couple of complications:
+#
+# 1) Grep binary search isn't VMA aware. Copy .text out as binary, causing
+# the grep offset to be from the start of .text.
+#
+# 2) dash's printf doesn't understand hex escapes, hence the use of octal.
+#
+# 3) AWK can't add 64bit integers, because internally all numbers are doubles.
+# When the upper bits are set, the exponents worth of precision is lost in
+# the lower bits, rounding integers to the nearest 4k.
+#
+# Instead, use the fact that Xen's .text is within a 1G aligned region, and
+# split the VMA in half so AWK's numeric addition is only working on 32 bit
+# numbers, which don't lose precision.
+#
+eval $(${OBJDUMP} -j .text $1 -h |
+ awk '$2 == ".text" {printf "vma_hi=%s\nvma_lo=%s\n", substr($4, 1, 8),
substr($4, 9, 16)}')
+
+${OBJCOPY} -j .text $1 -O binary $TEXT_BIN
+grep -aob "$(printf '\363\17\36\372')" $TEXT_BIN |
+ awk -F':' '{printf "%s%x\n", "'$vma_hi'", int(0x'$vma_lo') + $1}' > $ALL
+
+# Wait for $VALID to become complete
+wait
+
+# Sanity check $VALID and $ALL, in case the string parsing bitrots
+val_sz=$(stat -c '%s' $VALID)
+all_sz=$(stat -c '%s' $ALL)
+[ "$val_sz" -eq 0 ] && { echo "$MSG_PFX Error: Empty valid-addrs" >&2;
exit 1; }
+[ "$all_sz" -eq 0 ] && { echo "$MSG_PFX Error: Empty all-addrs" >&2;
exit 1; }
+[ "$all_sz" -lt "$val_sz" ] && { echo "$MSG_PFX Error: More valid-addrs than
all-addrs" >&2; exit 1; }
+
+# $BAD = $ALL - $VALID
+sort $VALID $ALL | uniq -u > $BAD
+nr_bad=$(wc -l < $BAD)
+
+# Success
+[ "$nr_bad" -eq 0 ] && exit 0
+
+# Failure
+echo "$MSG_PFX Fail: Found ${nr_bad} embedded endbr64 instructions" >&2
+${ADDR2LINE} -afip -e $1 < $BAD >&2
+exit 1
--
generated by git-patchbot for /home/xen/git/xen.git#master
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