HAVE_ZFS= ${MK_LOADER_ZFS} LOADER_NET_SUPPORT?= yes LOADER_NFS_SUPPORT?= yes LOADER_TFTP_SUPPORT?= yes LOADER_CD9660_SUPPORT?= yes LOADER_EXT2FS_SUPPORT?= yes LOADER_MSDOS_SUPPORT?= yes LOADER_UFS_SUPPORT?= yes LOADER_GZIP_SUPPORT?= yes LOADER_BZIP2_SUPPORT?= yes .include LOADER?= loader_${LOADER_INTERP} PROG= ${LOADER}.sym INTERNALPROG= NEWVERSWHAT?= "bootstrap loader" x86 VERSION_FILE= ${.CURDIR}/../loader/version # # There's 640k - 40k maximum space, less however much memory the BIOS uses. A # non-random survey suggests that 20k-25k is a good value for 'most' machines. # We also need to subtract maximum stack usage (20-25k). # # So 640k - 40k - 25k - 25k = 550k = 563,200 bytes, but use 550,000 below for # some extra buffer for more complex setups and/or wider BIOS lomem variation. # # Some systems use more stack or have BIOS reserve more RAM (or both), and will # need to set this lower in /etc/src.conf if the above buffer is too small. # # sudo dd if=/dev/mem bs=1 iseek=0x413 count=2 | hd -d # # will tell you how many kiB of lomem are available. # LOADERSIZE?= 550000 # Largest known safe size for loader.bin .PATH: ${BOOTSRC}/i386/loader # architecture-specific loader code SRCS= main.c conf.c vers.c chain.c gfx_fb.c 8x16.c CFLAGS.gfx_fb.c += -I${.CURDIR}/../libi386 CFLAGS.gfx_fb.c += -I$(SRCTOP)/sys/teken CFLAGS.gfx_fb.c += -I${SRCTOP}/sys/cddl/contrib/opensolaris/common/lz4 CFLAGS.gfx_fb.c += -I${SRCTOP}/contrib/pnglite CFLAGS.gfx_fb.c += -DHAVE_MEMCPY -I${SRCTOP}/sys/contrib/zlib # Include bcache code. HAVE_BCACHE= yes # Enable PnP and ISA-PnP code. HAVE_PNP= yes HAVE_ISABUS= yes .if ${MK_LOADER_ZFS} == "yes" CFLAGS.main.c+= -I${SYSDIR}/contrib/openzfs/include CFLAGS.main.c+= -I${SYSDIR}/contrib/openzfs/include/os/freebsd/zfs .endif .if exists(${.CURDIR}/help.i386) HELP_FILES= ${.CURDIR}/help.i386 .endif HELP_FILENAME= loader.help.bios # Always add MI sources .include "${BOOTSRC}/loader.mk" CLEANFILES+= ${LOADER} ${LOADER}.bin 8x16.c ORG= 0x0 CFLAGS+= -Wall LDFLAGS+= -static ${LDFLAGS_ORG} -Wl,--gc-sections .if ${LINKER_TYPE} == "lld" && ${LINKER_VERSION} >= 130000 # lld 13 and higher default to garbage collecting start/stop symbols, # completely ruining our linker sets. For now, work around it by # disabling this un-feature. LDFLAGS+= -Wl,-z,nostart-stop-gc .endif # i386 standalone support library LIBI386= ${BOOTOBJ}/i386/libi386/libi386.a CFLAGS+= -I${BOOTSRC}/i386 # Debug me! #CFLAGS+= -g #LDFLAGS+= -g 8x16.c: ${SRCTOP}/contrib/terminus/ter-u16b.bdf vtfontcvt -f compressed-source -o ${.TARGET} ${.ALLSRC} ${LOADER}: ${LOADER}.bin ${BTXLDR} ${BTXKERN} btxld -v -f aout -e ${LOADER_ADDRESS} -o ${.TARGET} -l ${BTXLDR} \ -b ${BTXKERN} ${LOADER}.bin ${LOADER}.bin: ${LOADER}.sym ${STRIPBIN} -R .comment -R .note -o ${.TARGET} ${.ALLSRC} @set -- `ls -l ${.TARGET}` ; x=$$((${LOADERSIZE}-$$5)); \ echo "$$x bytes available"; test $$x -ge 0 .if ${MK_LOADER_ZFS} == "yes" && ${LOADER_INTERP} == ${LOADER_DEFAULT_INTERP} LINKS+= ${BINDIR}/${LOADER} ${BINDIR}/zfsloader .endif .if ${LOADER_INTERP} == ${LOADER_DEFAULT_INTERP} LINKS+= ${BINDIR}/${LOADER} ${BINDIR}/loader .endif FILES+= ${LOADER} FILESMODE_${LOADER}= ${BINMODE} -b # Note: crt0.o needs to be first for pxeboot(8) to work. It assumes that the # startup code is located at the start of the loader and will jump # there. Although btx is more flexible than this, the emulated boot2 environment # that pxeldr provides has none of that flexibility assumes an entry point of # 0. In addition, pxeldr and cdboot assume that it is loading an a.out file. # # We must add it to the LDFLAGS instead of the OBJS because the former won't try # to clean it. When it is in OBJS, this cleaning can lead to races where # btxcrt.o is rebuilt, but boot2 isn't, leading to errors at installation time. # LDFLAGS does not have this baggage and will be included first in the list of # files. LDFLAGS+= ${BTXCRT} DPADD= ${LDR_INTERP32} ${LIBI386} ${LIBSA32} LDADD= ${LDR_INTERP32} ${LIBI386} ${LIBSA32} .if ${MACHINE_CPUARCH} == "amd64" CFLAGS+= -DLOADER_PREFER_AMD64 .endif .include