freebsd-dev/sys/modules/efirt/Makefile

# $FreeBSD$

.PATH: ${SRCTOP}/sys/${MACHINE}/${MACHINE}
.PATH: ${SRCTOP}/sys/dev/efidev

KMOD=	efirt
SRCS=	efirt.c efirt_machdep.c efidev.c
SRCS+=	efirtc.c
SRCS+=  device_if.h bus_if.h clock_if.h

.if ${MACHINE_CPUARCH} == "amd64"
SRCS+=	opt_hwpmc_hooks.h opt_kstack_pages.h
SRCS+=	efirt_support.S
DPSRCS+= assym.inc
efirt_support.o:	efirt_support.S assym.inc
	${CC} -c -x assembler-with-cpp -DLOCORE ${CFLAGS} \
	    ${.IMPSRC} -o ${.TARGET}
.endif

.include <bsd.kmod.mk>
Add kernel interfaces to call EFI Runtime Services. Runtime services require special execution environment for the call. Besides that, OS must inform firmware about runtime virtual memory map which will be active during the calls, with the SetVirtualAddressMap() runtime call, done while the 1:1 mapping is still used. There are two complication: the SetVirtualAddressMap() effectively must be done from loader, which needs to know kernel address map in advance. More, despite not explicitely mentioned in the specification, both 1:1 and the map passed to SetVirtualAddressMap() must be active during the SetVirtualAddressMap() call. Second, there are buggy BIOSes which require both mappings active during runtime calls as well, most likely because they fail to identify all relocations to perform. On amd64, we can get rid of both problems by providing 1:1 mapping for the duration of runtime calls, by temprorary remapping user addresses. As result, we avoid the need for loader to know about future kernel address map, and avoid bugs in BIOSes. Typically BIOS only maps something in low 4G. If not runtime bugs, we would take advantage of the DMAP, as previous versions of this patch did. Similar but more complicated trick can be used even for i386 and 32bit runtime, if and when the EFI boot on i386 is supported. We would need a trampoline page, since potentially whole 4G of VA would be switched on calls, instead of only userspace portion on amd64. Context switches are disabled for the duration of the call, FPU access is granted, and interrupts are not disabled. The later is possible because kernel is mapped during calls. To test, the sysctl mib debug.efi_time is provided, setting it to 1 makes one call to EFI get_time() runtime service, on success the efitm structure is printed to the control terminal. Load efirt.ko, or add EFIRT option to the kernel config, to enable code. Discussed with: emaste, imp Tested by: emaste (mac, qemu) Sponsored by: The FreeBSD Foundation MFC after: 2 weeks 2016-09-21 11:31:58 +00:00			`# $FreeBSD$`

sys/modules: normalize .CURDIR-relative paths to SRCTOP This simplifies make output/logic Tested with: `cd sys/modules; make ALL_MODULES=` on amd64 MFC after: 1 month Sponsored by: Dell EMC Isilon 2017-03-04 10:10:17 +00:00			`.PATH: ${SRCTOP}/sys/${MACHINE}/${MACHINE}`
			`.PATH: ${SRCTOP}/sys/dev/efidev`
Add kernel interfaces to call EFI Runtime Services. Runtime services require special execution environment for the call. Besides that, OS must inform firmware about runtime virtual memory map which will be active during the calls, with the SetVirtualAddressMap() runtime call, done while the 1:1 mapping is still used. There are two complication: the SetVirtualAddressMap() effectively must be done from loader, which needs to know kernel address map in advance. More, despite not explicitely mentioned in the specification, both 1:1 and the map passed to SetVirtualAddressMap() must be active during the SetVirtualAddressMap() call. Second, there are buggy BIOSes which require both mappings active during runtime calls as well, most likely because they fail to identify all relocations to perform. On amd64, we can get rid of both problems by providing 1:1 mapping for the duration of runtime calls, by temprorary remapping user addresses. As result, we avoid the need for loader to know about future kernel address map, and avoid bugs in BIOSes. Typically BIOS only maps something in low 4G. If not runtime bugs, we would take advantage of the DMAP, as previous versions of this patch did. Similar but more complicated trick can be used even for i386 and 32bit runtime, if and when the EFI boot on i386 is supported. We would need a trampoline page, since potentially whole 4G of VA would be switched on calls, instead of only userspace portion on amd64. Context switches are disabled for the duration of the call, FPU access is granted, and interrupts are not disabled. The later is possible because kernel is mapped during calls. To test, the sysctl mib debug.efi_time is provided, setting it to 1 makes one call to EFI get_time() runtime service, on success the efitm structure is printed to the control terminal. Load efirt.ko, or add EFIRT option to the kernel config, to enable code. Discussed with: emaste, imp Tested by: emaste (mac, qemu) Sponsored by: The FreeBSD Foundation MFC after: 2 weeks 2016-09-21 11:31:58 +00:00
			`KMOD= efirt`
To prepare for adding EFI runtime services support on arm64 move the machine independent parts of the existing code to a new file that can be shared between amd64 and arm64. Reviewed by: kib (previous version), imp Sponsored by: DARPA, AFRL Differential Revision: https://reviews.freebsd.org/D12434 2017-10-01 19:52:47 +00:00			`SRCS= efirt.c efirt_machdep.c efidev.c`
Add a driver for the EFI RTC. This uses the EFI Runtime Services to query the system time. As we seem to only read this time on boot, and this is the only source of time on many arm64 machines we need to enable this by default there. As this is not always the case with U-Boot firmware, or when we have been booted from a non-UEFI environment we only enable the device driver when the Runtime Services are present and reading the time doesn't result in an error. PR: 212185 Reviewed by: imp, kib Tested by: emaste Relnotes: yes Sponsored by: DARPA, AFRL Differential Revision: https://reviews.freebsd.org/D12650 2017-11-21 17:23:16 +00:00			`SRCS+= efirtc.c`
			`SRCS+= device_if.h bus_if.h clock_if.h`
Add kernel interfaces to call EFI Runtime Services. Runtime services require special execution environment for the call. Besides that, OS must inform firmware about runtime virtual memory map which will be active during the calls, with the SetVirtualAddressMap() runtime call, done while the 1:1 mapping is still used. There are two complication: the SetVirtualAddressMap() effectively must be done from loader, which needs to know kernel address map in advance. More, despite not explicitely mentioned in the specification, both 1:1 and the map passed to SetVirtualAddressMap() must be active during the SetVirtualAddressMap() call. Second, there are buggy BIOSes which require both mappings active during runtime calls as well, most likely because they fail to identify all relocations to perform. On amd64, we can get rid of both problems by providing 1:1 mapping for the duration of runtime calls, by temprorary remapping user addresses. As result, we avoid the need for loader to know about future kernel address map, and avoid bugs in BIOSes. Typically BIOS only maps something in low 4G. If not runtime bugs, we would take advantage of the DMAP, as previous versions of this patch did. Similar but more complicated trick can be used even for i386 and 32bit runtime, if and when the EFI boot on i386 is supported. We would need a trampoline page, since potentially whole 4G of VA would be switched on calls, instead of only userspace portion on amd64. Context switches are disabled for the duration of the call, FPU access is granted, and interrupts are not disabled. The later is possible because kernel is mapped during calls. To test, the sysctl mib debug.efi_time is provided, setting it to 1 makes one call to EFI get_time() runtime service, on success the efitm structure is printed to the control terminal. Load efirt.ko, or add EFIRT option to the kernel config, to enable code. Discussed with: emaste, imp Tested by: emaste (mac, qemu) Sponsored by: The FreeBSD Foundation MFC after: 2 weeks 2016-09-21 11:31:58 +00:00
Catch exceptions during EFI RT calls on amd64. This appeared to be required to have EFI RT support and EFI RTC enabled by default, because there are too many reports of faulting calls on many different machines. The knob is added to leave the exceptions unhandled to allow to debug the actual bugs. Reviewed by: kevans Sponsored by: The FreeBSD Foundation MFC after: 1 week Approved by: re (rgrimes) Differential revision: https://reviews.freebsd.org/D16972 2018-09-02 21:37:05 +00:00			`.if ${MACHINE_CPUARCH} == "amd64"`
Fix `make` in sys/modules Sponsored by: The FreeBSD Foundation 2019-03-28 08:59:11 +00:00			`SRCS+= opt_hwpmc_hooks.h opt_kstack_pages.h`
Catch exceptions during EFI RT calls on amd64. This appeared to be required to have EFI RT support and EFI RTC enabled by default, because there are too many reports of faulting calls on many different machines. The knob is added to leave the exceptions unhandled to allow to debug the actual bugs. Reviewed by: kevans Sponsored by: The FreeBSD Foundation MFC after: 1 week Approved by: re (rgrimes) Differential revision: https://reviews.freebsd.org/D16972 2018-09-02 21:37:05 +00:00			`SRCS+= efirt_support.S`
Add missing DPSRCS entry for assym.inc. This brings in various CLEANFILES/DEPENDOBJS handling. MFC after: 2 weeks Sponsored by: DellEMC 2019-06-11 23:35:49 +00:00			`DPSRCS+= assym.inc`
Catch exceptions during EFI RT calls on amd64. This appeared to be required to have EFI RT support and EFI RTC enabled by default, because there are too many reports of faulting calls on many different machines. The knob is added to leave the exceptions unhandled to allow to debug the actual bugs. Reviewed by: kevans Sponsored by: The FreeBSD Foundation MFC after: 1 week Approved by: re (rgrimes) Differential revision: https://reviews.freebsd.org/D16972 2018-09-02 21:37:05 +00:00			`efirt_support.o: efirt_support.S assym.inc`
			`${CC} -c -x assembler-with-cpp -DLOCORE ${CFLAGS} \`
			`${.IMPSRC} -o ${.TARGET}`
			`.endif`

Add kernel interfaces to call EFI Runtime Services. Runtime services require special execution environment for the call. Besides that, OS must inform firmware about runtime virtual memory map which will be active during the calls, with the SetVirtualAddressMap() runtime call, done while the 1:1 mapping is still used. There are two complication: the SetVirtualAddressMap() effectively must be done from loader, which needs to know kernel address map in advance. More, despite not explicitely mentioned in the specification, both 1:1 and the map passed to SetVirtualAddressMap() must be active during the SetVirtualAddressMap() call. Second, there are buggy BIOSes which require both mappings active during runtime calls as well, most likely because they fail to identify all relocations to perform. On amd64, we can get rid of both problems by providing 1:1 mapping for the duration of runtime calls, by temprorary remapping user addresses. As result, we avoid the need for loader to know about future kernel address map, and avoid bugs in BIOSes. Typically BIOS only maps something in low 4G. If not runtime bugs, we would take advantage of the DMAP, as previous versions of this patch did. Similar but more complicated trick can be used even for i386 and 32bit runtime, if and when the EFI boot on i386 is supported. We would need a trampoline page, since potentially whole 4G of VA would be switched on calls, instead of only userspace portion on amd64. Context switches are disabled for the duration of the call, FPU access is granted, and interrupts are not disabled. The later is possible because kernel is mapped during calls. To test, the sysctl mib debug.efi_time is provided, setting it to 1 makes one call to EFI get_time() runtime service, on success the efitm structure is printed to the control terminal. Load efirt.ko, or add EFIRT option to the kernel config, to enable code. Discussed with: emaste, imp Tested by: emaste (mac, qemu) Sponsored by: The FreeBSD Foundation MFC after: 2 weeks 2016-09-21 11:31:58 +00:00			`.include <bsd.kmod.mk>`