xref: /openbmc/qemu/tests/uefi-test-tools/Makefile (revision 2e1cacfb)
1# Makefile for the test helper UEFI applications that run in guests.
2#
3# Copyright (C) 2019, Red Hat, Inc.
4#
5# This program and the accompanying materials are licensed and made available
6# under the terms and conditions of the BSD License that accompanies this
7# distribution. The full text of the license may be found at
8# <http://opensource.org/licenses/bsd-license.php>.
9#
10# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, WITHOUT
11# WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
12
13edk2_dir              := ../../roms/edk2
14images_dir            := ../data/uefi-boot-images
15emulation_targets     := arm aarch64 i386 x86_64 riscv64
16uefi_binaries         := bios-tables-test
17intermediate_suffixes := .efi .fat .iso.raw
18
19images: $(foreach binary,$(uefi_binaries), \
20		$(foreach target,$(emulation_targets), \
21			$(images_dir)/$(binary).$(target).iso.qcow2))
22
23# Preserve all intermediate targets if the build succeeds.
24# - Intermediate targets help with development & debugging.
25# - Preserving intermediate targets also keeps spurious changes out of the
26#   final build products, in case the user re-runs "make" without any changes
27#   to the UEFI source code. Normally, the intermediate files would have been
28#   removed by the last "make" invocation, hence the re-run would rebuild them
29#   from the unchanged UEFI sources. Unfortunately, the "mkdosfs" and
30#   "genisoimage" utilities embed timestamp-based information in their outputs,
31#   which causes git to report differences for the tracked qcow2 ISO images.
32.SECONDARY: $(foreach binary,$(uefi_binaries), \
33		$(foreach target,$(emulation_targets), \
34			$(foreach suffix,$(intermediate_suffixes), \
35				Build/$(binary).$(target)$(suffix))))
36
37# In the pattern rules below, the stem (%, $*) stands for
38# "$(binary).$(target)".
39
40# Convert the raw ISO image to a qcow2 one, enabling compression, and using a
41# small cluster size. This allows for small binary files under git control,
42# hence for small binary patches.
43$(images_dir)/%.iso.qcow2: Build/%.iso.raw
44	mkdir -p -- $(images_dir)
45	$${QTEST_QEMU_IMG:-qemu-img} convert -f raw -O qcow2 -c \
46		-o cluster_size=512 -- $< $@
47
48# Embed the "UEFI system partition" into an ISO9660 file system as an ElTorito
49# boot image.
50Build/%.iso.raw: Build/%.fat
51	genisoimage -input-charset ASCII -efi-boot $(notdir $<) -no-emul-boot \
52		-quiet -o $@ -- $<
53
54# Define chained macros in order to map QEMU system emulation targets to
55# *short* UEFI architecture identifiers. Periods are allowed in, and ultimately
56# stripped from, the argument.
57map_arm_to_uefi     = $(subst arm,ARM,$(1))
58map_aarch64_to_uefi = $(subst aarch64,AA64,$(call map_arm_to_uefi,$(1)))
59map_riscv64_to_uefi = $(subst riscv64,RISCV64,$(call map_aarch64_to_uefi,$(1)))
60map_i386_to_uefi    = $(subst i386,IA32,$(call map_riscv64_to_uefi,$(1)))
61map_x86_64_to_uefi  = $(subst x86_64,X64,$(call map_i386_to_uefi,$(1)))
62map_to_uefi         = $(subst .,,$(call map_x86_64_to_uefi,$(1)))
63
64# Format a "UEFI system partition", using the UEFI binary as the default boot
65# loader. Add 10% size for filesystem metadata, round up to the next KB, and
66# make sure the size is large enough for a FAT filesystem. Name the filesystem
67# after the UEFI binary. (Excess characters are automatically dropped from the
68# filesystem label.)
69Build/%.fat: Build/%.efi
70	rm -f -- $@
71	uefi_bin_b=$$(stat --format=%s -- $<) && \
72		uefi_fat_kb=$$(( (uefi_bin_b * 11 / 10 + 1023) / 1024 )) && \
73		uefi_fat_kb=$$(( uefi_fat_kb >= 64 ? uefi_fat_kb : 64 )) && \
74		mkdosfs -C $@ -n "bios-test" -- $$uefi_fat_kb
75	MTOOLS_SKIP_CHECK=1 mmd -i $@ ::EFI
76	MTOOLS_SKIP_CHECK=1 mmd -i $@ ::EFI/BOOT
77	MTOOLS_SKIP_CHECK=1 mcopy -i $@ -- $< \
78		::EFI/BOOT/BOOT$(call map_to_uefi,$(suffix $*)).EFI
79
80# In the pattern rules below, the stem (%, $*) stands for "$(target)" only. The
81# association between the UEFI binary (such as "bios-tables-test") and the
82# component name from the edk2 platform DSC file (such as "BiosTablesTest") is
83# explicit in each rule.
84
85# "build.sh" invokes the "build" utility of edk2 BaseTools. In any given edk2
86# workspace, at most one "build" instance may be operating at a time. Therefore
87# we must serialize the rebuilding of targets in this Makefile.
88.NOTPARALLEL:
89
90# In turn, the "build" utility of edk2 BaseTools invokes another "make".
91# Although the outer "make" process advertises its job server to all child
92# processes via MAKEFLAGS in the environment, the outer "make" closes the job
93# server file descriptors (exposed in MAKEFLAGS) before executing a recipe --
94# unless the recipe is recognized as a recursive "make" recipe. Recipes that
95# call $(MAKE) are classified automatically as recursive; for "build.sh" below,
96# we must mark the recipe manually as recursive, by using the "+" indicator.
97# This way, when the inner "make" starts a parallel build of the target edk2
98# module, it can communicate with the outer "make"'s job server.
99Build/bios-tables-test.%.efi:
100	$(PYTHON) ../../roms/edk2-build.py --config uefi-test-build.config \
101		--match $*
102
103clean:
104	rm -rf Build Conf log
105	$(MAKE) -C $(edk2_dir)/BaseTools clean
106