Hello
I am trying to add the last missing Allwinner Soc in kernelci: the A80.
But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
But kexec 2.0.18 fail to work:
kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
syscall kexec_file_load not available.
Try gzip decompression.
kernel: 0xb6535008 kernel_size: 0x853200
MEMORY RANGES
0000000020000000-000000009fffffff (0)
zImage header: 0x016f2818 0x00000000 0x00853200
zImage size 0x853200, file size 0x853200
zImage requires 0x00864200 bytes
offset 0x0000bae4 tag 0x5a534c4b size 8
Decompressed kernel sizes:
text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
Resulting kernel space: 0x01def5a0
Kernel: address=0x20008000 size=0x01def5a0
Initrd: address=0x21df8000 size=0x0090b6fa
DT : address=0x22704000 size=0x00005c09
kexec_load: entry = 0x20008000 flags = 0x280000
nr_segments = 3
segment[0].buf = 0xb6535008
segment[0].bufsz = 0x853204
segment[0].mem = 0x20008000
segment[0].memsz = 0x854000
segment[1].buf = 0xb5c29008
segment[1].bufsz = 0x90b6fa
segment[1].mem = 0x21df8000
segment[1].memsz = 0x90c000
segment[2].buf = 0x4db50
segment[2].bufsz = 0x5c09
segm[ 71.039126] kexec_core: Starting new kernel
ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
x22704000
segment[2].memsz = 0x6000
[ 71.489070] Bye!
I have tried also kexec-2.0.20
Try gzip decompression.
zImage header: 0x00000000 0x000019b4 0x00001000
zImage requires 0x008641c0 bytes
Could not find a free area of memory of 0x86c1c0 bytes...
Cannot load /tmp/kernel
What can I do for made it working ? I probably need to give it some memory address, but I am a bit loss.
Thanks
Regards
On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> Hello
>
> I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
>
> But kexec 2.0.18 fail to work:
> kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
What happens if you omit the dtb argument?
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > Hello
> >
> > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> >
> > But kexec 2.0.18 fail to work:
> > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
>
> What happens if you omit the dtb argument?
>
No change without dtb
I have also tried to add --mem-mim and --mem-max without any change.
I given mem according to what I saw in /proc/iomem
20000000-9fffffff : System RAM
20008000-207fffff : Kernel code
20900000-209a0c87 : Kernel data
So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
Anyway, the result is always the same.
On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > Hello
> > >
> > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > >
> > > But kexec 2.0.18 fail to work:
> > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> >
> > What happens if you omit the dtb argument?
> >
>
> No change without dtb
>
> I have also tried to add --mem-mim and --mem-max without any change.
> I given mem according to what I saw in /proc/iomem
> 20000000-9fffffff : System RAM
> 20008000-207fffff : Kernel code
> 20900000-209a0c87 : Kernel data
> So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> Anyway, the result is always the same.
The next step is to enable the early debugging - first in the
decompressor - add #define DEBUG to the top of
arch/arm/boot/compressed/head.S
Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
get anything from the new kernel.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Mon, Apr 06, 2020 at 10:37:29AM +0100, Russell King - ARM Linux admin wrote:
> On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> > On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > Hello
> > > >
> > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > >
> > > > But kexec 2.0.18 fail to work:
> > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > >
> > > What happens if you omit the dtb argument?
> > >
> >
> > No change without dtb
> >
> > I have also tried to add --mem-mim and --mem-max without any change.
> > I given mem according to what I saw in /proc/iomem
> > 20000000-9fffffff : System RAM
> > 20008000-207fffff : Kernel code
> > 20900000-209a0c87 : Kernel data
> > So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> > Anyway, the result is always the same.
>
> The next step is to enable the early debugging - first in the
> decompressor - add #define DEBUG to the top of
> arch/arm/boot/compressed/head.S
>
> Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
> get anything from the new kernel.
>
I dont know what happened, but now I always get "Could not find a free area of memory of 0x86c1c0 bytes..." (even with kexec 2.0.18)
Furthermore, I have added crashkernel=128M to the cmdlist
I have verified that the reservation is working:
20000000-9fffffff : System RAM
20008000-207fffff : Kernel code
20900000-209a0c87 : Kernel data
40000000-47ffffff : Crash kernel
But even with this reservation, no change.
On Mon, Apr 06, 2020 at 10:10:53PM +0200, Corentin Labbe wrote:
> On Mon, Apr 06, 2020 at 10:37:29AM +0100, Russell King - ARM Linux admin wrote:
> > On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> > > On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > Hello
> > > > >
> > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > >
> > > > > But kexec 2.0.18 fail to work:
> > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > >
> > > > What happens if you omit the dtb argument?
> > > >
> > >
> > > No change without dtb
> > >
> > > I have also tried to add --mem-mim and --mem-max without any change.
> > > I given mem according to what I saw in /proc/iomem
> > > 20000000-9fffffff : System RAM
> > > 20008000-207fffff : Kernel code
> > > 20900000-209a0c87 : Kernel data
> > > So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> > > Anyway, the result is always the same.
> >
> > The next step is to enable the early debugging - first in the
> > decompressor - add #define DEBUG to the top of
> > arch/arm/boot/compressed/head.S
> >
> > Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
> > get anything from the new kernel.
> >
>
> I dont know what happened, but now I always get "Could not find a free area of memory of 0x86c1c0 bytes..." (even with kexec 2.0.18)
> Furthermore, I have added crashkernel=128M to the cmdlist
> I have verified that the reservation is working:
> 20000000-9fffffff : System RAM
> 20008000-207fffff : Kernel code
> 20900000-209a0c87 : Kernel data
> 40000000-47ffffff : Crash kernel
> But even with this reservation, no change.
crashkernel is only necessary if you're loading a kenrel image to be
booted when the existing one has crashed. For the problem you're
seeing, it's an unnecessary additional change; please drop that.
You could try running kexec with debug enabled to see more information.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 08:31:17AM +0100, Russell King - ARM Linux admin wrote:
> On Mon, Apr 06, 2020 at 10:10:53PM +0200, Corentin Labbe wrote:
> > On Mon, Apr 06, 2020 at 10:37:29AM +0100, Russell King - ARM Linux admin wrote:
> > > On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> > > > On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > Hello
> > > > > >
> > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > >
> > > > > > But kexec 2.0.18 fail to work:
> > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > >
> > > > > What happens if you omit the dtb argument?
> > > > >
> > > >
> > > > No change without dtb
> > > >
> > > > I have also tried to add --mem-mim and --mem-max without any change.
> > > > I given mem according to what I saw in /proc/iomem
> > > > 20000000-9fffffff : System RAM
> > > > 20008000-207fffff : Kernel code
> > > > 20900000-209a0c87 : Kernel data
> > > > So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> > > > Anyway, the result is always the same.
> > >
> > > The next step is to enable the early debugging - first in the
> > > decompressor - add #define DEBUG to the top of
> > > arch/arm/boot/compressed/head.S
> > >
> > > Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
> > > get anything from the new kernel.
> > >
> >
> > I dont know what happened, but now I always get "Could not find a free area of memory of 0x86c1c0 bytes..." (even with kexec 2.0.18)
> > Furthermore, I have added crashkernel=128M to the cmdlist
> > I have verified that the reservation is working:
> > 20000000-9fffffff : System RAM
> > 20008000-207fffff : Kernel code
> > 20900000-209a0c87 : Kernel data
> > 40000000-47ffffff : Crash kernel
> > But even with this reservation, no change.
>
> crashkernel is only necessary if you're loading a kenrel image to be
> booted when the existing one has crashed. For the problem you're
> seeing, it's an unnecessary additional change; please drop that.
>
> You could try running kexec with debug enabled to see more information.
>
I am already running with --debug
On Tue, Apr 07, 2020 at 10:01:44AM +0200, Corentin Labbe wrote:
> On Tue, Apr 07, 2020 at 08:31:17AM +0100, Russell King - ARM Linux admin wrote:
> > On Mon, Apr 06, 2020 at 10:10:53PM +0200, Corentin Labbe wrote:
> > > On Mon, Apr 06, 2020 at 10:37:29AM +0100, Russell King - ARM Linux admin wrote:
> > > > On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> > > > > On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > > Hello
> > > > > > >
> > > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > > >
> > > > > > > But kexec 2.0.18 fail to work:
> > > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > >
> > > > > > What happens if you omit the dtb argument?
> > > > > >
> > > > >
> > > > > No change without dtb
> > > > >
> > > > > I have also tried to add --mem-mim and --mem-max without any change.
> > > > > I given mem according to what I saw in /proc/iomem
> > > > > 20000000-9fffffff : System RAM
> > > > > 20008000-207fffff : Kernel code
> > > > > 20900000-209a0c87 : Kernel data
> > > > > So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> > > > > Anyway, the result is always the same.
> > > >
> > > > The next step is to enable the early debugging - first in the
> > > > decompressor - add #define DEBUG to the top of
> > > > arch/arm/boot/compressed/head.S
> > > >
> > > > Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
> > > > get anything from the new kernel.
> > > >
> > >
> > > I dont know what happened, but now I always get "Could not find a free area of memory of 0x86c1c0 bytes..." (even with kexec 2.0.18)
> > > Furthermore, I have added crashkernel=128M to the cmdlist
> > > I have verified that the reservation is working:
> > > 20000000-9fffffff : System RAM
> > > 20008000-207fffff : Kernel code
> > > 20900000-209a0c87 : Kernel data
> > > 40000000-47ffffff : Crash kernel
> > > But even with this reservation, no change.
> >
> > crashkernel is only necessary if you're loading a kenrel image to be
> > booted when the existing one has crashed. For the problem you're
> > seeing, it's an unnecessary additional change; please drop that.
> >
> > You could try running kexec with debug enabled to see more information.
> >
>
> I am already running with --debug
That was not reflected in the command lines given to kexec that you
quoted previously, so I'm now wondering if you're giving me the full
information.
In any case, based on the information you've supplied thus far, I have
no further suggetsions to make.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 09:12:57AM +0100, Russell King - ARM Linux admin wrote:
> On Tue, Apr 07, 2020 at 10:01:44AM +0200, Corentin Labbe wrote:
> > On Tue, Apr 07, 2020 at 08:31:17AM +0100, Russell King - ARM Linux admin wrote:
> > > On Mon, Apr 06, 2020 at 10:10:53PM +0200, Corentin Labbe wrote:
> > > > On Mon, Apr 06, 2020 at 10:37:29AM +0100, Russell King - ARM Linux admin wrote:
> > > > > On Mon, Apr 06, 2020 at 11:25:40AM +0200, Corentin Labbe wrote:
> > > > > > On Mon, Apr 06, 2020 at 10:16:00AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > > > Hello
> > > > > > > >
> > > > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > > > >
> > > > > > > > But kexec 2.0.18 fail to work:
> > > > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > > >
> > > > > > > What happens if you omit the dtb argument?
> > > > > > >
> > > > > >
> > > > > > No change without dtb
> > > > > >
> > > > > > I have also tried to add --mem-mim and --mem-max without any change.
> > > > > > I given mem according to what I saw in /proc/iomem
> > > > > > 20000000-9fffffff : System RAM
> > > > > > 20008000-207fffff : Kernel code
> > > > > > 20900000-209a0c87 : Kernel data
> > > > > > So I gave --mem-min 0x30000000 --mem-max 0x9fffffff
> > > > > > Anyway, the result is always the same.
> > > > >
> > > > > The next step is to enable the early debugging - first in the
> > > > > decompressor - add #define DEBUG to the top of
> > > > > arch/arm/boot/compressed/head.S
> > > > >
> > > > > Also enable DEBUG_LL in the kernel and use earlyprintk to see if you can
> > > > > get anything from the new kernel.
> > > > >
> > > >
> > > > I dont know what happened, but now I always get "Could not find a free area of memory of 0x86c1c0 bytes..." (even with kexec 2.0.18)
> > > > Furthermore, I have added crashkernel=128M to the cmdlist
> > > > I have verified that the reservation is working:
> > > > 20000000-9fffffff : System RAM
> > > > 20008000-207fffff : Kernel code
> > > > 20900000-209a0c87 : Kernel data
> > > > 40000000-47ffffff : Crash kernel
> > > > But even with this reservation, no change.
> > >
> > > crashkernel is only necessary if you're loading a kenrel image to be
> > > booted when the existing one has crashed. For the problem you're
> > > seeing, it's an unnecessary additional change; please drop that.
> > >
> > > You could try running kexec with debug enabled to see more information.
> > >
> >
> > I am already running with --debug
>
> That was not reflected in the command lines given to kexec that you
> quoted previously, so I'm now wondering if you're giving me the full
> information.
>
> In any case, based on the information you've supplied thus far, I have
> no further suggetsions to make.
>
Sorry I have added --debug after my initial mail.
But I am surprised that no debug output like "MEMORY RANGES" is done (like I got in my first try).
I have started to patch kexec-tools to check it, and debug is enabled.
Furthermore, I got in locate_hole:237 memory_ranges=0.
So the memory region in struct kexec_info is not initialized (and so cannot be printed)
On Tue, Apr 07, 2020 at 11:32:53AM +0200, Corentin Labbe wrote:
> On Tue, Apr 07, 2020 at 09:12:57AM +0100, Russell King - ARM Linux admin wrote:
> > That was not reflected in the command lines given to kexec that you
> > quoted previously, so I'm now wondering if you're giving me the full
> > information.
> >
> > In any case, based on the information you've supplied thus far, I have
> > no further suggetsions to make.
> >
>
> Sorry I have added --debug after my initial mail.
> But I am surprised that no debug output like "MEMORY RANGES" is done (like I got in my first try).
> I have started to patch kexec-tools to check it, and debug is enabled.
> Furthermore, I got in locate_hole:237 memory_ranges=0.
> So the memory region in struct kexec_info is not initialized (and so cannot be printed)
The memory region information is initialised by get_memory_ranges()
in kexec/arch/arm/kexec-arm.c, which reads /proc/iomem.
That is called from my_load(), which checks that info.memory_ranges
is non-zero. If it's zero, it errors out with "Could not get memory
layout".
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> Hello
>
> I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
>
> But kexec 2.0.18 fail to work:
> kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
As I mentioned in my other reply, this apparent "kexec" command line
does not seem to reflect the arguments you actually used to invoke
the kexec output below.
> syscall kexec_file_load not available.
This message is produced by do_kexec_file_load(). This function is only
invoked if the do_kexec_file_syscall flag in main() is set. This flag
is only set if one of:
--kexec-file-syscall
--kexec-syscall
--kexec-syscall-auto
-s
-c
-a
are provided on the kexec command line. Your command line above does
not contain any of those arguments, so either the command line is not
what you used, or you are using a patched kexec, or your compiler is
grossly miscompiling kexec.
> Try gzip decompression.
> kernel: 0xb6535008 kernel_size: 0x853200
> MEMORY RANGES
> 0000000020000000-000000009fffffff (0)
Then there's the debug output, which is only produced if the
kexec_debug global is set, which in turn is only set if --debug or -d
is supplied on the kexec command line - which again, your kexec
command line does not contain this.
> zImage header: 0x016f2818 0x00000000 0x00853200
> zImage size 0x853200, file size 0x853200
> zImage requires 0x00864200 bytes
> offset 0x0000bae4 tag 0x5a534c4b size 8
> Decompressed kernel sizes:
> text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> Resulting kernel space: 0x01def5a0
> Kernel: address=0x20008000 size=0x01def5a0
> Initrd: address=0x21df8000 size=0x0090b6fa
> DT : address=0x22704000 size=0x00005c09
> kexec_load: entry = 0x20008000 flags = 0x280000
> nr_segments = 3
> segment[0].buf = 0xb6535008
> segment[0].bufsz = 0x853204
> segment[0].mem = 0x20008000
> segment[0].memsz = 0x854000
> segment[1].buf = 0xb5c29008
> segment[1].bufsz = 0x90b6fa
> segment[1].mem = 0x21df8000
> segment[1].memsz = 0x90c000
> segment[2].buf = 0x4db50
> segment[2].bufsz = 0x5c09
> segm[ 71.039126] kexec_core: Starting new kernel
> ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> x22704000
> segment[2].memsz = 0x6000
> [ 71.489070] Bye!
>
>
> I have tried also kexec-2.0.20
> Try gzip decompression.
> zImage header: 0x00000000 0x000019b4 0x00001000
> zImage requires 0x008641c0 bytes
> Could not find a free area of memory of 0x86c1c0 bytes...
> Cannot load /tmp/kernel
kexec 2.0.20 doesn't appear to have changed anything to do with how
allocations are done. The above output looks even more strange and
confusing. "zImage header" is produced by debugging prints, which
imply that kexec_debug was set.
However, the "MEMORY RANGES" output is missing - this has not gone
away with kexec 2.0.20, it's still there, and works for me (I've
just built and tested kexec 2.0.20).
Also, the values on the "zImage header" line are completely messed
up; the first should be the zImage magic value and it is not - that
suggests that the file being loaded is not a zImage file, or is
corrupted.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > Hello
> >
> > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> >
> > But kexec 2.0.18 fail to work:
> > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
>
> As I mentioned in my other reply, this apparent "kexec" command line
> does not seem to reflect the arguments you actually used to invoke
> the kexec output below.
>
> > syscall kexec_file_load not available.
>
> This message is produced by do_kexec_file_load(). This function is only
> invoked if the do_kexec_file_syscall flag in main() is set. This flag
> is only set if one of:
>
> --kexec-file-syscall
> --kexec-syscall
> --kexec-syscall-auto
> -s
> -c
> -a
>
> are provided on the kexec command line. Your command line above does
> not contain any of those arguments, so either the command line is not
> what you used, or you are using a patched kexec, or your compiler is
> grossly miscompiling kexec.
>
> > Try gzip decompression.
> > kernel: 0xb6535008 kernel_size: 0x853200
> > MEMORY RANGES
> > 0000000020000000-000000009fffffff (0)
>
> Then there's the debug output, which is only produced if the
> kexec_debug global is set, which in turn is only set if --debug or -d
> is supplied on the kexec command line - which again, your kexec
> command line does not contain this.
>
> > zImage header: 0x016f2818 0x00000000 0x00853200
> > zImage size 0x853200, file size 0x853200
> > zImage requires 0x00864200 bytes
> > offset 0x0000bae4 tag 0x5a534c4b size 8
> > Decompressed kernel sizes:
> > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > Resulting kernel space: 0x01def5a0
> > Kernel: address=0x20008000 size=0x01def5a0
> > Initrd: address=0x21df8000 size=0x0090b6fa
> > DT : address=0x22704000 size=0x00005c09
> > kexec_load: entry = 0x20008000 flags = 0x280000
> > nr_segments = 3
> > segment[0].buf = 0xb6535008
> > segment[0].bufsz = 0x853204
> > segment[0].mem = 0x20008000
> > segment[0].memsz = 0x854000
> > segment[1].buf = 0xb5c29008
> > segment[1].bufsz = 0x90b6fa
> > segment[1].mem = 0x21df8000
> > segment[1].memsz = 0x90c000
> > segment[2].buf = 0x4db50
> > segment[2].bufsz = 0x5c09
> > segm[ 71.039126] kexec_core: Starting new kernel
> > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > x22704000
> > segment[2].memsz = 0x6000
> > [ 71.489070] Bye!
> >
> >
> > I have tried also kexec-2.0.20
> > Try gzip decompression.
> > zImage header: 0x00000000 0x000019b4 0x00001000
> > zImage requires 0x008641c0 bytes
> > Could not find a free area of memory of 0x86c1c0 bytes...
> > Cannot load /tmp/kernel
>
> kexec 2.0.20 doesn't appear to have changed anything to do with how
> allocations are done. The above output looks even more strange and
> confusing. "zImage header" is produced by debugging prints, which
> imply that kexec_debug was set.
>
> However, the "MEMORY RANGES" output is missing - this has not gone
> away with kexec 2.0.20, it's still there, and works for me (I've
> just built and tested kexec 2.0.20).
>
> Also, the values on the "zImage header" line are completely messed
> up; the first should be the zImage magic value and it is not - that
> suggests that the file being loaded is not a zImage file, or is
> corrupted.
Under a VM (the kernel doesn't have kexec support - but that's not a
problem, because the initial loading stages are the relevant parts
which all happen in userspace):
# build/sbin/kexec --version
kexec-tools 2.0.20
# build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
Try gzip decompression.
kernel: 0xb6a6c008 kernel_size: 0x407358
MEMORY RANGES
0000000040000000-000000007fffffff (0)
zImage header: 0x016f2818 0x00000000 0x00407358
zImage size 0x407358, file size 0x407358
zImage requires 0x00418358 bytes
offset 0x00007178 tag 0x5a534c4b size 12
Decompressed kernel sizes:
text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
Resulting kernel space: 0x0104707c
Kernel: address=0x40008000 size=0x0104707c
DT : address=0x41051000 size=0x00100000
kexec_load: entry = 0x40008000 flags = 0x280000
nr_segments = 2
segment[0].buf = 0xb6a6c008
segment[0].bufsz = 0x40735c
segment[0].mem = 0x40008000
segment[0].memsz = 0x408000
segment[1].buf = 0xb696b008
segment[1].bufsz = 0x100000
segment[1].mem = 0x41051000
segment[1].memsz = 0x100000
kexec_load failed: Function not implemented
entry = 0x40008000 flags = 0x280000
nr_segments = 2
segment[0].buf = 0xb6aa0008
segment[0].bufsz = 0x40735c
segment[0].mem = 0x40008000
segment[0].memsz = 0x408000
segment[1].buf = 0xb699f008
segment[1].bufsz = 0x100000
segment[1].mem = 0x41051000
segment[1].memsz = 0x100000
#
On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
kexec binary, first without an initrd, and then with):
# build/sbin/kexec --version
kexec-tools 2.0.20
# build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
Try gzip decompression.
kernel: 0xb6763008 kernel_size: 0x7273a8
MEMORY RANGES
0000000010000000-000000004fffffff (0)
zImage header: 0x016f2818 0x00000000 0x007273a8
zImage size 0x7273a8, file size 0x7273a8
zImage requires 0x007383a8 bytes
offset 0x00004da8 tag 0x5a534c4b size 12
Decompressed kernel sizes:
text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
Resulting kernel space: 0x015077b0
Kernel: address=0x10008000 size=0x015077b0
DT : address=0x11511000 size=0x0000b000
kexec_load: entry = 0x10008000 flags = 0x280000
nr_segments = 2
segment[0].buf = 0xb6763008
segment[0].bufsz = 0x7273ac
segment[0].mem = 0x10008000
segment[0].memsz = 0x728000
segment[1].buf = 0x1207cb0
segment[1].bufsz = 0xb000
segment[1].mem = 0x11511000
segment[1].memsz = 0xb000
# build/sbin/kexec --unload
# build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
Try gzip decompression.
kernel: 0xb65d8008 kernel_size: 0x7273a8
MEMORY RANGES
0000000010000000-000000004fffffff (0)
zImage header: 0x016f2818 0x00000000 0x007273a8
zImage size 0x7273a8, file size 0x7273a8
zImage requires 0x007383a8 bytes
offset 0x00004da8 tag 0x5a534c4b size 12
Decompressed kernel sizes:
text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
Resulting kernel space: 0x015077b0
Kernel: address=0x10008000 size=0x015077b0
Initrd: address=0x11510000 size=0x0053f46a
DT : address=0x11a50000 size=0x0000b044
kexec_load: entry = 0x10008000 flags = 0x280000
nr_segments = 3
segment[0].buf = 0xb65d8008
segment[0].bufsz = 0x7273ac
segment[0].mem = 0x10008000
segment[0].memsz = 0x728000
segment[1].buf = 0xb6098008
segment[1].bufsz = 0x53f46a
segment[1].mem = 0x11510000
segment[1].memsz = 0x540000
segment[2].buf = 0x993cf0
segment[2].bufsz = 0xb044
segment[2].mem = 0x11a50000
segment[2].memsz = 0xc000
On clearfog (Armada 388):
# build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
Try gzip decompression.
kernel: 0xb6745008 kernel_size: 0x7273a8
MEMORY RANGES
0000000000000000-000000003fffffff (0)
zImage header: 0x016f2818 0x00000000 0x007273a8
zImage size 0x7273a8, file size 0x7273a8
zImage requires 0x007383a8 bytes
offset 0x00004da8 tag 0x5a534c4b size 12
Decompressed kernel sizes:
text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
Resulting kernel space: 0x015077b0
Kernel: address=0x00008000 size=0x015077b0
DT : address=0x01511000 size=0x00007be3
kexec_load: entry = 0x8000 flags = 0x280000
nr_segments = 2
segment[0].buf = 0xb6745008
segment[0].bufsz = 0x7273ac
segment[0].mem = 0x8000
segment[0].memsz = 0x728000
segment[1].buf = 0x1be7f68
segment[1].bufsz = 0x7be3
segment[1].mem = 0x1511000
segment[1].memsz = 0x8000
All appears to work fine.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > Hello
> > >
> > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > >
> > > But kexec 2.0.18 fail to work:
> > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> >
> > As I mentioned in my other reply, this apparent "kexec" command line
> > does not seem to reflect the arguments you actually used to invoke
> > the kexec output below.
> >
> > > syscall kexec_file_load not available.
> >
> > This message is produced by do_kexec_file_load(). This function is only
> > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > is only set if one of:
> >
> > --kexec-file-syscall
> > --kexec-syscall
> > --kexec-syscall-auto
> > -s
> > -c
> > -a
> >
> > are provided on the kexec command line. Your command line above does
> > not contain any of those arguments, so either the command line is not
> > what you used, or you are using a patched kexec, or your compiler is
> > grossly miscompiling kexec.
> >
> > > Try gzip decompression.
> > > kernel: 0xb6535008 kernel_size: 0x853200
> > > MEMORY RANGES
> > > 0000000020000000-000000009fffffff (0)
> >
> > Then there's the debug output, which is only produced if the
> > kexec_debug global is set, which in turn is only set if --debug or -d
> > is supplied on the kexec command line - which again, your kexec
> > command line does not contain this.
> >
> > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > zImage size 0x853200, file size 0x853200
> > > zImage requires 0x00864200 bytes
> > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > Decompressed kernel sizes:
> > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > Resulting kernel space: 0x01def5a0
> > > Kernel: address=0x20008000 size=0x01def5a0
> > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > DT : address=0x22704000 size=0x00005c09
> > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > nr_segments = 3
> > > segment[0].buf = 0xb6535008
> > > segment[0].bufsz = 0x853204
> > > segment[0].mem = 0x20008000
> > > segment[0].memsz = 0x854000
> > > segment[1].buf = 0xb5c29008
> > > segment[1].bufsz = 0x90b6fa
> > > segment[1].mem = 0x21df8000
> > > segment[1].memsz = 0x90c000
> > > segment[2].buf = 0x4db50
> > > segment[2].bufsz = 0x5c09
> > > segm[ 71.039126] kexec_core: Starting new kernel
> > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > x22704000
> > > segment[2].memsz = 0x6000
> > > [ 71.489070] Bye!
> > >
> > >
> > > I have tried also kexec-2.0.20
> > > Try gzip decompression.
> > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > zImage requires 0x008641c0 bytes
> > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > Cannot load /tmp/kernel
> >
> > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > allocations are done. The above output looks even more strange and
> > confusing. "zImage header" is produced by debugging prints, which
> > imply that kexec_debug was set.
> >
> > However, the "MEMORY RANGES" output is missing - this has not gone
> > away with kexec 2.0.20, it's still there, and works for me (I've
> > just built and tested kexec 2.0.20).
> >
> > Also, the values on the "zImage header" line are completely messed
> > up; the first should be the zImage magic value and it is not - that
> > suggests that the file being loaded is not a zImage file, or is
> > corrupted.
>
> Under a VM (the kernel doesn't have kexec support - but that's not a
> problem, because the initial loading stages are the relevant parts
> which all happen in userspace):
>
> # build/sbin/kexec --version
> kexec-tools 2.0.20
> # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> Try gzip decompression.
> kernel: 0xb6a6c008 kernel_size: 0x407358
> MEMORY RANGES
> 0000000040000000-000000007fffffff (0)
> zImage header: 0x016f2818 0x00000000 0x00407358
> zImage size 0x407358, file size 0x407358
> zImage requires 0x00418358 bytes
> offset 0x00007178 tag 0x5a534c4b size 12
> Decompressed kernel sizes:
> text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> Resulting kernel space: 0x0104707c
> Kernel: address=0x40008000 size=0x0104707c
> DT : address=0x41051000 size=0x00100000
> kexec_load: entry = 0x40008000 flags = 0x280000
> nr_segments = 2
> segment[0].buf = 0xb6a6c008
> segment[0].bufsz = 0x40735c
> segment[0].mem = 0x40008000
> segment[0].memsz = 0x408000
> segment[1].buf = 0xb696b008
> segment[1].bufsz = 0x100000
> segment[1].mem = 0x41051000
> segment[1].memsz = 0x100000
> kexec_load failed: Function not implemented
> entry = 0x40008000 flags = 0x280000
> nr_segments = 2
> segment[0].buf = 0xb6aa0008
> segment[0].bufsz = 0x40735c
> segment[0].mem = 0x40008000
> segment[0].memsz = 0x408000
> segment[1].buf = 0xb699f008
> segment[1].bufsz = 0x100000
> segment[1].mem = 0x41051000
> segment[1].memsz = 0x100000
> #
>
> On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> kexec binary, first without an initrd, and then with):
>
> # build/sbin/kexec --version
> kexec-tools 2.0.20
> # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> Try gzip decompression.
> kernel: 0xb6763008 kernel_size: 0x7273a8
> MEMORY RANGES
> 0000000010000000-000000004fffffff (0)
> zImage header: 0x016f2818 0x00000000 0x007273a8
> zImage size 0x7273a8, file size 0x7273a8
> zImage requires 0x007383a8 bytes
> offset 0x00004da8 tag 0x5a534c4b size 12
> Decompressed kernel sizes:
> text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> Resulting kernel space: 0x015077b0
> Kernel: address=0x10008000 size=0x015077b0
> DT : address=0x11511000 size=0x0000b000
> kexec_load: entry = 0x10008000 flags = 0x280000
> nr_segments = 2
> segment[0].buf = 0xb6763008
> segment[0].bufsz = 0x7273ac
> segment[0].mem = 0x10008000
> segment[0].memsz = 0x728000
> segment[1].buf = 0x1207cb0
> segment[1].bufsz = 0xb000
> segment[1].mem = 0x11511000
> segment[1].memsz = 0xb000
> # build/sbin/kexec --unload
> # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> Try gzip decompression.
> kernel: 0xb65d8008 kernel_size: 0x7273a8
> MEMORY RANGES
> 0000000010000000-000000004fffffff (0)
> zImage header: 0x016f2818 0x00000000 0x007273a8
> zImage size 0x7273a8, file size 0x7273a8
> zImage requires 0x007383a8 bytes
> offset 0x00004da8 tag 0x5a534c4b size 12
> Decompressed kernel sizes:
> text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> Resulting kernel space: 0x015077b0
> Kernel: address=0x10008000 size=0x015077b0
> Initrd: address=0x11510000 size=0x0053f46a
> DT : address=0x11a50000 size=0x0000b044
> kexec_load: entry = 0x10008000 flags = 0x280000
> nr_segments = 3
> segment[0].buf = 0xb65d8008
> segment[0].bufsz = 0x7273ac
> segment[0].mem = 0x10008000
> segment[0].memsz = 0x728000
> segment[1].buf = 0xb6098008
> segment[1].bufsz = 0x53f46a
> segment[1].mem = 0x11510000
> segment[1].memsz = 0x540000
> segment[2].buf = 0x993cf0
> segment[2].bufsz = 0xb044
> segment[2].mem = 0x11a50000
> segment[2].memsz = 0xc000
>
> On clearfog (Armada 388):
>
> # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> Try gzip decompression.
> kernel: 0xb6745008 kernel_size: 0x7273a8
> MEMORY RANGES
> 0000000000000000-000000003fffffff (0)
> zImage header: 0x016f2818 0x00000000 0x007273a8
> zImage size 0x7273a8, file size 0x7273a8
> zImage requires 0x007383a8 bytes
> offset 0x00004da8 tag 0x5a534c4b size 12
> Decompressed kernel sizes:
> text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> Resulting kernel space: 0x015077b0
> Kernel: address=0x00008000 size=0x015077b0
> DT : address=0x01511000 size=0x00007be3
> kexec_load: entry = 0x8000 flags = 0x280000
> nr_segments = 2
> segment[0].buf = 0xb6745008
> segment[0].bufsz = 0x7273ac
> segment[0].mem = 0x8000
> segment[0].memsz = 0x728000
> segment[1].buf = 0x1be7f68
> segment[1].bufsz = 0x7be3
> segment[1].mem = 0x1511000
> segment[1].memsz = 0x8000
>
> All appears to work fine.
>
I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
Even if I set --kexec-syscall.
On my early tries I got "syscall kexec_file_load not available."
When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
Since kexec-tool always set do_kexec_file_syscall, it is never called.
I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
So I have hack to always set do_kexec_file_syscall=0
So now my test go further, but the final kernel crash.
DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
Set DEBUG!
main:1417 OPT_KEXEC_SYSCALL
main:1422 OPT_KEXEC_SYSCALL_AUTO
arch_process_options:119
main:1500
main:1517 res=0 do_load=1
main:1519 res=0 do_kexec_file_syscall=0
my_load:713
Try gzip decompression.
kernel: 0xb693b008 kernel_size: 0x443ac0
get_memory_ranges:36
MEMORY RANGES
0000000020000000-000000009fffffff (0)
DEBUG: my_load:737 memory_ranges=1
zImage_arm_load:423
zImage header: 0x016f2818 0x00000000 0x00443ac0
zImage size 0x443ac0, file size 0x443ac0
zImage requires 0x00454ac0 bytes
offset 0x00006678 tag 0x5a534c4b size 8
Decompressed kernel sizes:
text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
Resulting kernel space: 0x00fccb40
DEBUG: locate_hole:237 memory_ranges=1
Check 0/1 536870912 0 type=-1610612737
Check 0/1 536870912 0
Kernel: address=0x20008000 size=0x00fccb40
DEBUG: locate_hole:237 memory_ranges=1
Check 0/1 536870912 0 type=-1610612737
Check 0/1 536870912 0
Initrd: address=0x20fd5000 size=0x0167213d
DEBUG: locate_hole:237 memory_ranges=1
Check 0/1 536870912 0 type=-1610612737
Check 0/2 536870912 0
Check 1/2 577011712 0
DT : address=0x22648000 size=0x00006043
kexec_load: entry = 0x20008000 flags = 0x280000
nr_segments = 3
segment[0].buf = 0xb693b008
segment[0].bufsz = 0x443ac4
segment[0].mem = 0x20008000
segment[0].memsz = 0x444000
segment[1].buf = 0xb52c8008
segment[1].bufsz = 0x167213d
segment[1].mem = 0x20fd5000
segment[1].memsz = 0x1673000
segment[2].buf = 0x4ef88
segment[2].bufsz = 0x6043
segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
2648000
segment[2].memsz = 0x7000
main:1568 res=0
main:1582 res=0 do_exec=1
[ 31.277297] kexec_core: Starting new kernel
[ 31.282700] Disabling non-boot CPUs ...
[ 31.692085] Bye!
C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > Hello
> > > >
> > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > >
> > > > But kexec 2.0.18 fail to work:
> > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > >
> > > As I mentioned in my other reply, this apparent "kexec" command line
> > > does not seem to reflect the arguments you actually used to invoke
> > > the kexec output below.
> > >
> > > > syscall kexec_file_load not available.
> > >
> > > This message is produced by do_kexec_file_load(). This function is only
> > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > is only set if one of:
> > >
> > > --kexec-file-syscall
> > > --kexec-syscall
> > > --kexec-syscall-auto
> > > -s
> > > -c
> > > -a
> > >
> > > are provided on the kexec command line. Your command line above does
> > > not contain any of those arguments, so either the command line is not
> > > what you used, or you are using a patched kexec, or your compiler is
> > > grossly miscompiling kexec.
> > >
> > > > Try gzip decompression.
> > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > MEMORY RANGES
> > > > 0000000020000000-000000009fffffff (0)
> > >
> > > Then there's the debug output, which is only produced if the
> > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > is supplied on the kexec command line - which again, your kexec
> > > command line does not contain this.
> > >
> > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > zImage size 0x853200, file size 0x853200
> > > > zImage requires 0x00864200 bytes
> > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > Decompressed kernel sizes:
> > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > Resulting kernel space: 0x01def5a0
> > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > DT : address=0x22704000 size=0x00005c09
> > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > nr_segments = 3
> > > > segment[0].buf = 0xb6535008
> > > > segment[0].bufsz = 0x853204
> > > > segment[0].mem = 0x20008000
> > > > segment[0].memsz = 0x854000
> > > > segment[1].buf = 0xb5c29008
> > > > segment[1].bufsz = 0x90b6fa
> > > > segment[1].mem = 0x21df8000
> > > > segment[1].memsz = 0x90c000
> > > > segment[2].buf = 0x4db50
> > > > segment[2].bufsz = 0x5c09
> > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > x22704000
> > > > segment[2].memsz = 0x6000
> > > > [ 71.489070] Bye!
> > > >
> > > >
> > > > I have tried also kexec-2.0.20
> > > > Try gzip decompression.
> > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > zImage requires 0x008641c0 bytes
> > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > Cannot load /tmp/kernel
> > >
> > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > allocations are done. The above output looks even more strange and
> > > confusing. "zImage header" is produced by debugging prints, which
> > > imply that kexec_debug was set.
> > >
> > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > just built and tested kexec 2.0.20).
> > >
> > > Also, the values on the "zImage header" line are completely messed
> > > up; the first should be the zImage magic value and it is not - that
> > > suggests that the file being loaded is not a zImage file, or is
> > > corrupted.
> >
> > Under a VM (the kernel doesn't have kexec support - but that's not a
> > problem, because the initial loading stages are the relevant parts
> > which all happen in userspace):
> >
> > # build/sbin/kexec --version
> > kexec-tools 2.0.20
> > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > Try gzip decompression.
> > kernel: 0xb6a6c008 kernel_size: 0x407358
> > MEMORY RANGES
> > 0000000040000000-000000007fffffff (0)
> > zImage header: 0x016f2818 0x00000000 0x00407358
> > zImage size 0x407358, file size 0x407358
> > zImage requires 0x00418358 bytes
> > offset 0x00007178 tag 0x5a534c4b size 12
> > Decompressed kernel sizes:
> > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > Resulting kernel space: 0x0104707c
> > Kernel: address=0x40008000 size=0x0104707c
> > DT : address=0x41051000 size=0x00100000
> > kexec_load: entry = 0x40008000 flags = 0x280000
> > nr_segments = 2
> > segment[0].buf = 0xb6a6c008
> > segment[0].bufsz = 0x40735c
> > segment[0].mem = 0x40008000
> > segment[0].memsz = 0x408000
> > segment[1].buf = 0xb696b008
> > segment[1].bufsz = 0x100000
> > segment[1].mem = 0x41051000
> > segment[1].memsz = 0x100000
> > kexec_load failed: Function not implemented
> > entry = 0x40008000 flags = 0x280000
> > nr_segments = 2
> > segment[0].buf = 0xb6aa0008
> > segment[0].bufsz = 0x40735c
> > segment[0].mem = 0x40008000
> > segment[0].memsz = 0x408000
> > segment[1].buf = 0xb699f008
> > segment[1].bufsz = 0x100000
> > segment[1].mem = 0x41051000
> > segment[1].memsz = 0x100000
> > #
> >
> > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > kexec binary, first without an initrd, and then with):
> >
> > # build/sbin/kexec --version
> > kexec-tools 2.0.20
> > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > Try gzip decompression.
> > kernel: 0xb6763008 kernel_size: 0x7273a8
> > MEMORY RANGES
> > 0000000010000000-000000004fffffff (0)
> > zImage header: 0x016f2818 0x00000000 0x007273a8
> > zImage size 0x7273a8, file size 0x7273a8
> > zImage requires 0x007383a8 bytes
> > offset 0x00004da8 tag 0x5a534c4b size 12
> > Decompressed kernel sizes:
> > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > Resulting kernel space: 0x015077b0
> > Kernel: address=0x10008000 size=0x015077b0
> > DT : address=0x11511000 size=0x0000b000
> > kexec_load: entry = 0x10008000 flags = 0x280000
> > nr_segments = 2
> > segment[0].buf = 0xb6763008
> > segment[0].bufsz = 0x7273ac
> > segment[0].mem = 0x10008000
> > segment[0].memsz = 0x728000
> > segment[1].buf = 0x1207cb0
> > segment[1].bufsz = 0xb000
> > segment[1].mem = 0x11511000
> > segment[1].memsz = 0xb000
> > # build/sbin/kexec --unload
> > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > Try gzip decompression.
> > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > MEMORY RANGES
> > 0000000010000000-000000004fffffff (0)
> > zImage header: 0x016f2818 0x00000000 0x007273a8
> > zImage size 0x7273a8, file size 0x7273a8
> > zImage requires 0x007383a8 bytes
> > offset 0x00004da8 tag 0x5a534c4b size 12
> > Decompressed kernel sizes:
> > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > Resulting kernel space: 0x015077b0
> > Kernel: address=0x10008000 size=0x015077b0
> > Initrd: address=0x11510000 size=0x0053f46a
> > DT : address=0x11a50000 size=0x0000b044
> > kexec_load: entry = 0x10008000 flags = 0x280000
> > nr_segments = 3
> > segment[0].buf = 0xb65d8008
> > segment[0].bufsz = 0x7273ac
> > segment[0].mem = 0x10008000
> > segment[0].memsz = 0x728000
> > segment[1].buf = 0xb6098008
> > segment[1].bufsz = 0x53f46a
> > segment[1].mem = 0x11510000
> > segment[1].memsz = 0x540000
> > segment[2].buf = 0x993cf0
> > segment[2].bufsz = 0xb044
> > segment[2].mem = 0x11a50000
> > segment[2].memsz = 0xc000
> >
> > On clearfog (Armada 388):
> >
> > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > Try gzip decompression.
> > kernel: 0xb6745008 kernel_size: 0x7273a8
> > MEMORY RANGES
> > 0000000000000000-000000003fffffff (0)
> > zImage header: 0x016f2818 0x00000000 0x007273a8
> > zImage size 0x7273a8, file size 0x7273a8
> > zImage requires 0x007383a8 bytes
> > offset 0x00004da8 tag 0x5a534c4b size 12
> > Decompressed kernel sizes:
> > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > Resulting kernel space: 0x015077b0
> > Kernel: address=0x00008000 size=0x015077b0
> > DT : address=0x01511000 size=0x00007be3
> > kexec_load: entry = 0x8000 flags = 0x280000
> > nr_segments = 2
> > segment[0].buf = 0xb6745008
> > segment[0].bufsz = 0x7273ac
> > segment[0].mem = 0x8000
> > segment[0].memsz = 0x728000
> > segment[1].buf = 0x1be7f68
> > segment[1].bufsz = 0x7be3
> > segment[1].mem = 0x1511000
> > segment[1].memsz = 0x8000
> >
> > All appears to work fine.
> >
>
> I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> Even if I set --kexec-syscall.
You mention below that you're using buildroot. Does buildroot have
patches on top of the reference kexec-tools codebase as found at
git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
Looking at the 2.0.20 code, there's no way for that to be happening;
the only way that _could_ happen is if getopt_long() always returns
's' when we get to the last argument, which is highly unlikely.
> On my early tries I got "syscall kexec_file_load not available."
> When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
32-bit kernels have no support for kexec_file_load(), although the
syscall is reserved.
Irrespective of that, presence of the syscall number allocation is
not sufficient to tell whether the syscall is implemented by the
kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
This symbol is never offered for 32-bit ARM kernels.
> The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
>
> Since kexec-tool always set do_kexec_file_syscall, it is never called.
> I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
>
> So I have hack to always set do_kexec_file_syscall=0
It sounds like buildroot is patching kexec-tools in ways that break
32-bit ARM, and it sounds like this needs to be reported as a bug to
buildroot.
That said, I think there's a weakness in the ARM support in
kexec-tools, which this patch should address for 2.0.20. Things have
changed in the merged patches since 2.0.20, so the return needs to be
EFALLBACK not ENOSYS, so please pay attention to exactly which version
of kexec-tools you have (whether it's the 2.0.20 tagged version or has
further patches from kexec-tools on top.)
diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
index 9a67b8a4db98..ca4e35382ea1 100644
--- a/kexec/arch/arm/kexec-zImage-arm.c
+++ b/kexec/arch/arm/kexec-zImage-arm.c
@@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
};
static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
+ /* We do not support file mode */
+ if (info->file_mode) {
+ fprintf(stderr, "syscall kexec_file_load not implemented.\n");
+ return -ENOSYS;
+ }
+
/*
* Parse the command line arguments
*/
> So now my test go further, but the final kernel crash.
> DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> Set DEBUG!
> main:1417 OPT_KEXEC_SYSCALL
> main:1422 OPT_KEXEC_SYSCALL_AUTO
> arch_process_options:119
> main:1500
> main:1517 res=0 do_load=1
> main:1519 res=0 do_kexec_file_syscall=0
> my_load:713
> Try gzip decompression.
> kernel: 0xb693b008 kernel_size: 0x443ac0
> get_memory_ranges:36
> MEMORY RANGES
> 0000000020000000-000000009fffffff (0)
> DEBUG: my_load:737 memory_ranges=1
> zImage_arm_load:423
> zImage header: 0x016f2818 0x00000000 0x00443ac0
> zImage size 0x443ac0, file size 0x443ac0
> zImage requires 0x00454ac0 bytes
> offset 0x00006678 tag 0x5a534c4b size 8
> Decompressed kernel sizes:
> text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> Resulting kernel space: 0x00fccb40
> DEBUG: locate_hole:237 memory_ranges=1
> Check 0/1 536870912 0 type=-1610612737
> Check 0/1 536870912 0
> Kernel: address=0x20008000 size=0x00fccb40
> DEBUG: locate_hole:237 memory_ranges=1
> Check 0/1 536870912 0 type=-1610612737
> Check 0/1 536870912 0
> Initrd: address=0x20fd5000 size=0x0167213d
> DEBUG: locate_hole:237 memory_ranges=1
> Check 0/1 536870912 0 type=-1610612737
> Check 0/2 536870912 0
> Check 1/2 577011712 0
> DT : address=0x22648000 size=0x00006043
> kexec_load: entry = 0x20008000 flags = 0x280000
> nr_segments = 3
> segment[0].buf = 0xb693b008
> segment[0].bufsz = 0x443ac4
> segment[0].mem = 0x20008000
> segment[0].memsz = 0x444000
> segment[1].buf = 0xb52c8008
> segment[1].bufsz = 0x167213d
> segment[1].mem = 0x20fd5000
> segment[1].memsz = 0x1673000
> segment[2].buf = 0x4ef88
> segment[2].bufsz = 0x6043
> segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> 2648000
> segment[2].memsz = 0x7000
> main:1568 res=0
> main:1582 res=0 do_exec=1
> [ 31.277297] kexec_core: Starting new kernel
> [ 31.282700] Disabling non-boot CPUs ...
> [ 31.692085] Bye!
> C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
This line shows that we entered the new kernel, which was located
(correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
itself to 0x20B80B00-0x20FC4500.
The lack of further output suggests that the decompressor itself
wasn't able to run after being relocated higher in memory.
It may be worth booting the same kernel image and see what the C:
line comes out as there.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 01:22:43PM +0100, Russell King - ARM Linux admin wrote:
> On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> > On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > Hello
> > > > >
> > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > >
> > > > > But kexec 2.0.18 fail to work:
> > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > >
> > > > As I mentioned in my other reply, this apparent "kexec" command line
> > > > does not seem to reflect the arguments you actually used to invoke
> > > > the kexec output below.
> > > >
> > > > > syscall kexec_file_load not available.
> > > >
> > > > This message is produced by do_kexec_file_load(). This function is only
> > > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > > is only set if one of:
> > > >
> > > > --kexec-file-syscall
> > > > --kexec-syscall
> > > > --kexec-syscall-auto
> > > > -s
> > > > -c
> > > > -a
> > > >
> > > > are provided on the kexec command line. Your command line above does
> > > > not contain any of those arguments, so either the command line is not
> > > > what you used, or you are using a patched kexec, or your compiler is
> > > > grossly miscompiling kexec.
> > > >
> > > > > Try gzip decompression.
> > > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > > MEMORY RANGES
> > > > > 0000000020000000-000000009fffffff (0)
> > > >
> > > > Then there's the debug output, which is only produced if the
> > > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > > is supplied on the kexec command line - which again, your kexec
> > > > command line does not contain this.
> > > >
> > > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > > zImage size 0x853200, file size 0x853200
> > > > > zImage requires 0x00864200 bytes
> > > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > > Resulting kernel space: 0x01def5a0
> > > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > > DT : address=0x22704000 size=0x00005c09
> > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > nr_segments = 3
> > > > > segment[0].buf = 0xb6535008
> > > > > segment[0].bufsz = 0x853204
> > > > > segment[0].mem = 0x20008000
> > > > > segment[0].memsz = 0x854000
> > > > > segment[1].buf = 0xb5c29008
> > > > > segment[1].bufsz = 0x90b6fa
> > > > > segment[1].mem = 0x21df8000
> > > > > segment[1].memsz = 0x90c000
> > > > > segment[2].buf = 0x4db50
> > > > > segment[2].bufsz = 0x5c09
> > > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > > x22704000
> > > > > segment[2].memsz = 0x6000
> > > > > [ 71.489070] Bye!
> > > > >
> > > > >
> > > > > I have tried also kexec-2.0.20
> > > > > Try gzip decompression.
> > > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > > zImage requires 0x008641c0 bytes
> > > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > > Cannot load /tmp/kernel
> > > >
> > > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > > allocations are done. The above output looks even more strange and
> > > > confusing. "zImage header" is produced by debugging prints, which
> > > > imply that kexec_debug was set.
> > > >
> > > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > > just built and tested kexec 2.0.20).
> > > >
> > > > Also, the values on the "zImage header" line are completely messed
> > > > up; the first should be the zImage magic value and it is not - that
> > > > suggests that the file being loaded is not a zImage file, or is
> > > > corrupted.
> > >
> > > Under a VM (the kernel doesn't have kexec support - but that's not a
> > > problem, because the initial loading stages are the relevant parts
> > > which all happen in userspace):
> > >
> > > # build/sbin/kexec --version
> > > kexec-tools 2.0.20
> > > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > > Try gzip decompression.
> > > kernel: 0xb6a6c008 kernel_size: 0x407358
> > > MEMORY RANGES
> > > 0000000040000000-000000007fffffff (0)
> > > zImage header: 0x016f2818 0x00000000 0x00407358
> > > zImage size 0x407358, file size 0x407358
> > > zImage requires 0x00418358 bytes
> > > offset 0x00007178 tag 0x5a534c4b size 12
> > > Decompressed kernel sizes:
> > > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > > Resulting kernel space: 0x0104707c
> > > Kernel: address=0x40008000 size=0x0104707c
> > > DT : address=0x41051000 size=0x00100000
> > > kexec_load: entry = 0x40008000 flags = 0x280000
> > > nr_segments = 2
> > > segment[0].buf = 0xb6a6c008
> > > segment[0].bufsz = 0x40735c
> > > segment[0].mem = 0x40008000
> > > segment[0].memsz = 0x408000
> > > segment[1].buf = 0xb696b008
> > > segment[1].bufsz = 0x100000
> > > segment[1].mem = 0x41051000
> > > segment[1].memsz = 0x100000
> > > kexec_load failed: Function not implemented
> > > entry = 0x40008000 flags = 0x280000
> > > nr_segments = 2
> > > segment[0].buf = 0xb6aa0008
> > > segment[0].bufsz = 0x40735c
> > > segment[0].mem = 0x40008000
> > > segment[0].memsz = 0x408000
> > > segment[1].buf = 0xb699f008
> > > segment[1].bufsz = 0x100000
> > > segment[1].mem = 0x41051000
> > > segment[1].memsz = 0x100000
> > > #
> > >
> > > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > > kexec binary, first without an initrd, and then with):
> > >
> > > # build/sbin/kexec --version
> > > kexec-tools 2.0.20
> > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > Try gzip decompression.
> > > kernel: 0xb6763008 kernel_size: 0x7273a8
> > > MEMORY RANGES
> > > 0000000010000000-000000004fffffff (0)
> > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > zImage size 0x7273a8, file size 0x7273a8
> > > zImage requires 0x007383a8 bytes
> > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > Decompressed kernel sizes:
> > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > Resulting kernel space: 0x015077b0
> > > Kernel: address=0x10008000 size=0x015077b0
> > > DT : address=0x11511000 size=0x0000b000
> > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > nr_segments = 2
> > > segment[0].buf = 0xb6763008
> > > segment[0].bufsz = 0x7273ac
> > > segment[0].mem = 0x10008000
> > > segment[0].memsz = 0x728000
> > > segment[1].buf = 0x1207cb0
> > > segment[1].bufsz = 0xb000
> > > segment[1].mem = 0x11511000
> > > segment[1].memsz = 0xb000
> > > # build/sbin/kexec --unload
> > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > > Try gzip decompression.
> > > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > > MEMORY RANGES
> > > 0000000010000000-000000004fffffff (0)
> > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > zImage size 0x7273a8, file size 0x7273a8
> > > zImage requires 0x007383a8 bytes
> > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > Decompressed kernel sizes:
> > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > Resulting kernel space: 0x015077b0
> > > Kernel: address=0x10008000 size=0x015077b0
> > > Initrd: address=0x11510000 size=0x0053f46a
> > > DT : address=0x11a50000 size=0x0000b044
> > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > nr_segments = 3
> > > segment[0].buf = 0xb65d8008
> > > segment[0].bufsz = 0x7273ac
> > > segment[0].mem = 0x10008000
> > > segment[0].memsz = 0x728000
> > > segment[1].buf = 0xb6098008
> > > segment[1].bufsz = 0x53f46a
> > > segment[1].mem = 0x11510000
> > > segment[1].memsz = 0x540000
> > > segment[2].buf = 0x993cf0
> > > segment[2].bufsz = 0xb044
> > > segment[2].mem = 0x11a50000
> > > segment[2].memsz = 0xc000
> > >
> > > On clearfog (Armada 388):
> > >
> > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > Try gzip decompression.
> > > kernel: 0xb6745008 kernel_size: 0x7273a8
> > > MEMORY RANGES
> > > 0000000000000000-000000003fffffff (0)
> > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > zImage size 0x7273a8, file size 0x7273a8
> > > zImage requires 0x007383a8 bytes
> > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > Decompressed kernel sizes:
> > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > Resulting kernel space: 0x015077b0
> > > Kernel: address=0x00008000 size=0x015077b0
> > > DT : address=0x01511000 size=0x00007be3
> > > kexec_load: entry = 0x8000 flags = 0x280000
> > > nr_segments = 2
> > > segment[0].buf = 0xb6745008
> > > segment[0].bufsz = 0x7273ac
> > > segment[0].mem = 0x8000
> > > segment[0].memsz = 0x728000
> > > segment[1].buf = 0x1be7f68
> > > segment[1].bufsz = 0x7be3
> > > segment[1].mem = 0x1511000
> > > segment[1].memsz = 0x8000
> > >
> > > All appears to work fine.
> > >
> >
> > I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> > Even if I set --kexec-syscall.
>
> You mention below that you're using buildroot. Does buildroot have
> patches on top of the reference kexec-tools codebase as found at
> git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
>
> Looking at the 2.0.20 code, there's no way for that to be happening;
> the only way that _could_ happen is if getopt_long() always returns
> 's' when we get to the last argument, which is highly unlikely.
>
> > On my early tries I got "syscall kexec_file_load not available."
> > When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
>
> 32-bit kernels have no support for kexec_file_load(), although the
> syscall is reserved.
>
> Irrespective of that, presence of the syscall number allocation is
> not sufficient to tell whether the syscall is implemented by the
> kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
> This symbol is never offered for 32-bit ARM kernels.
>
> > The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
> >
> > Since kexec-tool always set do_kexec_file_syscall, it is never called.
> > I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
> >
> > So I have hack to always set do_kexec_file_syscall=0
>
> It sounds like buildroot is patching kexec-tools in ways that break
> 32-bit ARM, and it sounds like this needs to be reported as a bug to
> buildroot.
>
> That said, I think there's a weakness in the ARM support in
> kexec-tools, which this patch should address for 2.0.20. Things have
> changed in the merged patches since 2.0.20, so the return needs to be
> EFALLBACK not ENOSYS, so please pay attention to exactly which version
> of kexec-tools you have (whether it's the 2.0.20 tagged version or has
> further patches from kexec-tools on top.)
>
> diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
> index 9a67b8a4db98..ca4e35382ea1 100644
> --- a/kexec/arch/arm/kexec-zImage-arm.c
> +++ b/kexec/arch/arm/kexec-zImage-arm.c
> @@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
> };
> static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
>
> + /* We do not support file mode */
> + if (info->file_mode) {
> + fprintf(stderr, "syscall kexec_file_load not implemented.\n");
> + return -ENOSYS;
> + }
> +
> /*
> * Parse the command line arguments
> */
>
> > So now my test go further, but the final kernel crash.
> > DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > Set DEBUG!
> > main:1417 OPT_KEXEC_SYSCALL
> > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > arch_process_options:119
> > main:1500
> > main:1517 res=0 do_load=1
> > main:1519 res=0 do_kexec_file_syscall=0
> > my_load:713
> > Try gzip decompression.
> > kernel: 0xb693b008 kernel_size: 0x443ac0
> > get_memory_ranges:36
> > MEMORY RANGES
> > 0000000020000000-000000009fffffff (0)
> > DEBUG: my_load:737 memory_ranges=1
> > zImage_arm_load:423
> > zImage header: 0x016f2818 0x00000000 0x00443ac0
> > zImage size 0x443ac0, file size 0x443ac0
> > zImage requires 0x00454ac0 bytes
> > offset 0x00006678 tag 0x5a534c4b size 8
> > Decompressed kernel sizes:
> > text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> > Resulting kernel space: 0x00fccb40
> > DEBUG: locate_hole:237 memory_ranges=1
> > Check 0/1 536870912 0 type=-1610612737
> > Check 0/1 536870912 0
> > Kernel: address=0x20008000 size=0x00fccb40
> > DEBUG: locate_hole:237 memory_ranges=1
> > Check 0/1 536870912 0 type=-1610612737
> > Check 0/1 536870912 0
> > Initrd: address=0x20fd5000 size=0x0167213d
> > DEBUG: locate_hole:237 memory_ranges=1
> > Check 0/1 536870912 0 type=-1610612737
> > Check 0/2 536870912 0
> > Check 1/2 577011712 0
> > DT : address=0x22648000 size=0x00006043
> > kexec_load: entry = 0x20008000 flags = 0x280000
> > nr_segments = 3
> > segment[0].buf = 0xb693b008
> > segment[0].bufsz = 0x443ac4
> > segment[0].mem = 0x20008000
> > segment[0].memsz = 0x444000
> > segment[1].buf = 0xb52c8008
> > segment[1].bufsz = 0x167213d
> > segment[1].mem = 0x20fd5000
> > segment[1].memsz = 0x1673000
> > segment[2].buf = 0x4ef88
> > segment[2].bufsz = 0x6043
> > segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > 2648000
> > segment[2].memsz = 0x7000
> > main:1568 res=0
> > main:1582 res=0 do_exec=1
> > [ 31.277297] kexec_core: Starting new kernel
> > [ 31.282700] Disabling non-boot CPUs ...
> > [ 31.692085] Bye!
> > C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
>
> This line shows that we entered the new kernel, which was located
> (correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
> itself to 0x20B80B00-0x20FC4500.
>
> The lack of further output suggests that the decompressor itself
> wasn't able to run after being relocated higher in memory.
>
> It may be worth booting the same kernel image and see what the C:
> line comes out as there.
>
I have checked and some CONFIG was missing, now I get one line further:
[ 32.903765] kexec_core: Starting new kernel
[ 32.907958] Disabling non-boot CPUs ...
[ 33.392056] Bye!
C:0x200080C0-0x2044AE80->0x20B80300-0x20FC30C0
Uncompressing Linux... done, booting the kernel.
So the uncompressor seems ok.
As you said, I have started the same kernel, but I dont see any C:
Starting kernel ...
Uncompressing Linux... done, booting the kernel.
[ 0.000000] Booting Linux on physical CPU 0x0
[ 0.000000] Linux version 5.6.0-10890-gc27180b13770-dirty (compile@Red) (gcc version 8.3.0 (Gentoo 8.3.0-r1 p1.1)) #78 SMP Tue Apr 7 14:55:53 CEST 2020
[ 0.000000] CPU: ARMv7 Processor [410fc075] revision 5 (ARMv7), cr=10c5387d
[ 0.000000] CPU: div instructions available: patching division code
On Tue, Apr 07, 2020 at 03:05:59PM +0200, Corentin Labbe wrote:
> On Tue, Apr 07, 2020 at 01:22:43PM +0100, Russell King - ARM Linux admin wrote:
> > On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> > > On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > > > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > Hello
> > > > > >
> > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > >
> > > > > > But kexec 2.0.18 fail to work:
> > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > >
> > > > > As I mentioned in my other reply, this apparent "kexec" command line
> > > > > does not seem to reflect the arguments you actually used to invoke
> > > > > the kexec output below.
> > > > >
> > > > > > syscall kexec_file_load not available.
> > > > >
> > > > > This message is produced by do_kexec_file_load(). This function is only
> > > > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > > > is only set if one of:
> > > > >
> > > > > --kexec-file-syscall
> > > > > --kexec-syscall
> > > > > --kexec-syscall-auto
> > > > > -s
> > > > > -c
> > > > > -a
> > > > >
> > > > > are provided on the kexec command line. Your command line above does
> > > > > not contain any of those arguments, so either the command line is not
> > > > > what you used, or you are using a patched kexec, or your compiler is
> > > > > grossly miscompiling kexec.
> > > > >
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > > > MEMORY RANGES
> > > > > > 0000000020000000-000000009fffffff (0)
> > > > >
> > > > > Then there's the debug output, which is only produced if the
> > > > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > > > is supplied on the kexec command line - which again, your kexec
> > > > > command line does not contain this.
> > > > >
> > > > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > > > zImage size 0x853200, file size 0x853200
> > > > > > zImage requires 0x00864200 bytes
> > > > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > > > Resulting kernel space: 0x01def5a0
> > > > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > > > DT : address=0x22704000 size=0x00005c09
> > > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > > nr_segments = 3
> > > > > > segment[0].buf = 0xb6535008
> > > > > > segment[0].bufsz = 0x853204
> > > > > > segment[0].mem = 0x20008000
> > > > > > segment[0].memsz = 0x854000
> > > > > > segment[1].buf = 0xb5c29008
> > > > > > segment[1].bufsz = 0x90b6fa
> > > > > > segment[1].mem = 0x21df8000
> > > > > > segment[1].memsz = 0x90c000
> > > > > > segment[2].buf = 0x4db50
> > > > > > segment[2].bufsz = 0x5c09
> > > > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > > > x22704000
> > > > > > segment[2].memsz = 0x6000
> > > > > > [ 71.489070] Bye!
> > > > > >
> > > > > >
> > > > > > I have tried also kexec-2.0.20
> > > > > > Try gzip decompression.
> > > > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > > > zImage requires 0x008641c0 bytes
> > > > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > > > Cannot load /tmp/kernel
> > > > >
> > > > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > > > allocations are done. The above output looks even more strange and
> > > > > confusing. "zImage header" is produced by debugging prints, which
> > > > > imply that kexec_debug was set.
> > > > >
> > > > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > > > just built and tested kexec 2.0.20).
> > > > >
> > > > > Also, the values on the "zImage header" line are completely messed
> > > > > up; the first should be the zImage magic value and it is not - that
> > > > > suggests that the file being loaded is not a zImage file, or is
> > > > > corrupted.
> > > >
> > > > Under a VM (the kernel doesn't have kexec support - but that's not a
> > > > problem, because the initial loading stages are the relevant parts
> > > > which all happen in userspace):
> > > >
> > > > # build/sbin/kexec --version
> > > > kexec-tools 2.0.20
> > > > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > > > Try gzip decompression.
> > > > kernel: 0xb6a6c008 kernel_size: 0x407358
> > > > MEMORY RANGES
> > > > 0000000040000000-000000007fffffff (0)
> > > > zImage header: 0x016f2818 0x00000000 0x00407358
> > > > zImage size 0x407358, file size 0x407358
> > > > zImage requires 0x00418358 bytes
> > > > offset 0x00007178 tag 0x5a534c4b size 12
> > > > Decompressed kernel sizes:
> > > > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > > > Resulting kernel space: 0x0104707c
> > > > Kernel: address=0x40008000 size=0x0104707c
> > > > DT : address=0x41051000 size=0x00100000
> > > > kexec_load: entry = 0x40008000 flags = 0x280000
> > > > nr_segments = 2
> > > > segment[0].buf = 0xb6a6c008
> > > > segment[0].bufsz = 0x40735c
> > > > segment[0].mem = 0x40008000
> > > > segment[0].memsz = 0x408000
> > > > segment[1].buf = 0xb696b008
> > > > segment[1].bufsz = 0x100000
> > > > segment[1].mem = 0x41051000
> > > > segment[1].memsz = 0x100000
> > > > kexec_load failed: Function not implemented
> > > > entry = 0x40008000 flags = 0x280000
> > > > nr_segments = 2
> > > > segment[0].buf = 0xb6aa0008
> > > > segment[0].bufsz = 0x40735c
> > > > segment[0].mem = 0x40008000
> > > > segment[0].memsz = 0x408000
> > > > segment[1].buf = 0xb699f008
> > > > segment[1].bufsz = 0x100000
> > > > segment[1].mem = 0x41051000
> > > > segment[1].memsz = 0x100000
> > > > #
> > > >
> > > > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > > > kexec binary, first without an initrd, and then with):
> > > >
> > > > # build/sbin/kexec --version
> > > > kexec-tools 2.0.20
> > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > Try gzip decompression.
> > > > kernel: 0xb6763008 kernel_size: 0x7273a8
> > > > MEMORY RANGES
> > > > 0000000010000000-000000004fffffff (0)
> > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > zImage size 0x7273a8, file size 0x7273a8
> > > > zImage requires 0x007383a8 bytes
> > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > Decompressed kernel sizes:
> > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > Resulting kernel space: 0x015077b0
> > > > Kernel: address=0x10008000 size=0x015077b0
> > > > DT : address=0x11511000 size=0x0000b000
> > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > nr_segments = 2
> > > > segment[0].buf = 0xb6763008
> > > > segment[0].bufsz = 0x7273ac
> > > > segment[0].mem = 0x10008000
> > > > segment[0].memsz = 0x728000
> > > > segment[1].buf = 0x1207cb0
> > > > segment[1].bufsz = 0xb000
> > > > segment[1].mem = 0x11511000
> > > > segment[1].memsz = 0xb000
> > > > # build/sbin/kexec --unload
> > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > > > Try gzip decompression.
> > > > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > > > MEMORY RANGES
> > > > 0000000010000000-000000004fffffff (0)
> > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > zImage size 0x7273a8, file size 0x7273a8
> > > > zImage requires 0x007383a8 bytes
> > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > Decompressed kernel sizes:
> > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > Resulting kernel space: 0x015077b0
> > > > Kernel: address=0x10008000 size=0x015077b0
> > > > Initrd: address=0x11510000 size=0x0053f46a
> > > > DT : address=0x11a50000 size=0x0000b044
> > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > nr_segments = 3
> > > > segment[0].buf = 0xb65d8008
> > > > segment[0].bufsz = 0x7273ac
> > > > segment[0].mem = 0x10008000
> > > > segment[0].memsz = 0x728000
> > > > segment[1].buf = 0xb6098008
> > > > segment[1].bufsz = 0x53f46a
> > > > segment[1].mem = 0x11510000
> > > > segment[1].memsz = 0x540000
> > > > segment[2].buf = 0x993cf0
> > > > segment[2].bufsz = 0xb044
> > > > segment[2].mem = 0x11a50000
> > > > segment[2].memsz = 0xc000
> > > >
> > > > On clearfog (Armada 388):
> > > >
> > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > Try gzip decompression.
> > > > kernel: 0xb6745008 kernel_size: 0x7273a8
> > > > MEMORY RANGES
> > > > 0000000000000000-000000003fffffff (0)
> > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > zImage size 0x7273a8, file size 0x7273a8
> > > > zImage requires 0x007383a8 bytes
> > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > Decompressed kernel sizes:
> > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > Resulting kernel space: 0x015077b0
> > > > Kernel: address=0x00008000 size=0x015077b0
> > > > DT : address=0x01511000 size=0x00007be3
> > > > kexec_load: entry = 0x8000 flags = 0x280000
> > > > nr_segments = 2
> > > > segment[0].buf = 0xb6745008
> > > > segment[0].bufsz = 0x7273ac
> > > > segment[0].mem = 0x8000
> > > > segment[0].memsz = 0x728000
> > > > segment[1].buf = 0x1be7f68
> > > > segment[1].bufsz = 0x7be3
> > > > segment[1].mem = 0x1511000
> > > > segment[1].memsz = 0x8000
> > > >
> > > > All appears to work fine.
> > > >
> > >
> > > I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> > > Even if I set --kexec-syscall.
> >
> > You mention below that you're using buildroot. Does buildroot have
> > patches on top of the reference kexec-tools codebase as found at
> > git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
> >
> > Looking at the 2.0.20 code, there's no way for that to be happening;
> > the only way that _could_ happen is if getopt_long() always returns
> > 's' when we get to the last argument, which is highly unlikely.
> >
> > > On my early tries I got "syscall kexec_file_load not available."
> > > When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
> >
> > 32-bit kernels have no support for kexec_file_load(), although the
> > syscall is reserved.
> >
> > Irrespective of that, presence of the syscall number allocation is
> > not sufficient to tell whether the syscall is implemented by the
> > kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
> > This symbol is never offered for 32-bit ARM kernels.
> >
> > > The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
> > >
> > > Since kexec-tool always set do_kexec_file_syscall, it is never called.
> > > I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
> > >
> > > So I have hack to always set do_kexec_file_syscall=0
> >
> > It sounds like buildroot is patching kexec-tools in ways that break
> > 32-bit ARM, and it sounds like this needs to be reported as a bug to
> > buildroot.
> >
> > That said, I think there's a weakness in the ARM support in
> > kexec-tools, which this patch should address for 2.0.20. Things have
> > changed in the merged patches since 2.0.20, so the return needs to be
> > EFALLBACK not ENOSYS, so please pay attention to exactly which version
> > of kexec-tools you have (whether it's the 2.0.20 tagged version or has
> > further patches from kexec-tools on top.)
> >
> > diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
> > index 9a67b8a4db98..ca4e35382ea1 100644
> > --- a/kexec/arch/arm/kexec-zImage-arm.c
> > +++ b/kexec/arch/arm/kexec-zImage-arm.c
> > @@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
> > };
> > static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
> >
> > + /* We do not support file mode */
> > + if (info->file_mode) {
> > + fprintf(stderr, "syscall kexec_file_load not implemented.\n");
> > + return -ENOSYS;
> > + }
> > +
> > /*
> > * Parse the command line arguments
> > */
> >
> > > So now my test go further, but the final kernel crash.
> > > DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > Set DEBUG!
> > > main:1417 OPT_KEXEC_SYSCALL
> > > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > > arch_process_options:119
> > > main:1500
> > > main:1517 res=0 do_load=1
> > > main:1519 res=0 do_kexec_file_syscall=0
> > > my_load:713
> > > Try gzip decompression.
> > > kernel: 0xb693b008 kernel_size: 0x443ac0
> > > get_memory_ranges:36
> > > MEMORY RANGES
> > > 0000000020000000-000000009fffffff (0)
> > > DEBUG: my_load:737 memory_ranges=1
> > > zImage_arm_load:423
> > > zImage header: 0x016f2818 0x00000000 0x00443ac0
> > > zImage size 0x443ac0, file size 0x443ac0
> > > zImage requires 0x00454ac0 bytes
> > > offset 0x00006678 tag 0x5a534c4b size 8
> > > Decompressed kernel sizes:
> > > text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> > > Resulting kernel space: 0x00fccb40
> > > DEBUG: locate_hole:237 memory_ranges=1
> > > Check 0/1 536870912 0 type=-1610612737
> > > Check 0/1 536870912 0
> > > Kernel: address=0x20008000 size=0x00fccb40
> > > DEBUG: locate_hole:237 memory_ranges=1
> > > Check 0/1 536870912 0 type=-1610612737
> > > Check 0/1 536870912 0
> > > Initrd: address=0x20fd5000 size=0x0167213d
> > > DEBUG: locate_hole:237 memory_ranges=1
> > > Check 0/1 536870912 0 type=-1610612737
> > > Check 0/2 536870912 0
> > > Check 1/2 577011712 0
> > > DT : address=0x22648000 size=0x00006043
> > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > nr_segments = 3
> > > segment[0].buf = 0xb693b008
> > > segment[0].bufsz = 0x443ac4
> > > segment[0].mem = 0x20008000
> > > segment[0].memsz = 0x444000
> > > segment[1].buf = 0xb52c8008
> > > segment[1].bufsz = 0x167213d
> > > segment[1].mem = 0x20fd5000
> > > segment[1].memsz = 0x1673000
> > > segment[2].buf = 0x4ef88
> > > segment[2].bufsz = 0x6043
> > > segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > > 2648000
> > > segment[2].memsz = 0x7000
> > > main:1568 res=0
> > > main:1582 res=0 do_exec=1
> > > [ 31.277297] kexec_core: Starting new kernel
> > > [ 31.282700] Disabling non-boot CPUs ...
> > > [ 31.692085] Bye!
> > > C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
> >
> > This line shows that we entered the new kernel, which was located
> > (correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
> > itself to 0x20B80B00-0x20FC4500.
> >
> > The lack of further output suggests that the decompressor itself
> > wasn't able to run after being relocated higher in memory.
> >
> > It may be worth booting the same kernel image and see what the C:
> > line comes out as there.
> >
>
> I have checked and some CONFIG was missing, now I get one line further:
> [ 32.903765] kexec_core: Starting new kernel
> [ 32.907958] Disabling non-boot CPUs ...
> [ 33.392056] Bye!
> C:0x200080C0-0x2044AE80->0x20B80300-0x20FC30C0
> Uncompressing Linux... done, booting the kernel.
>
> So the uncompressor seems ok.
>
> As you said, I have started the same kernel, but I dont see any C:
> Starting kernel ...
> Uncompressing Linux... done, booting the kernel.
> [ 0.000000] Booting Linux on physical CPU 0x0
> [ 0.000000] Linux version 5.6.0-10890-gc27180b13770-dirty (compile@Red) (gcc version 8.3.0 (Gentoo 8.3.0-r1 p1.1)) #78 SMP Tue Apr 7 14:55:53 CEST 2020
> [ 0.000000] CPU: ARMv7 Processor [410fc075] revision 5 (ARMv7), cr=10c5387d
> [ 0.000000] CPU: div instructions available: patching division code
Hmm, are you sure you booted the same zImage file? The
"Uncompressing Linux..." messages will be using the same output
functions as the C: line, so it shouldn't be missing.
In any case, please try adding this patch so we can see what was
passed in r1/r2 to the kernel (not build tested here, sorry).
diff --git a/arch/arm/boot/compressed/head.S b/arch/arm/boot/compressed/head.S
index e05af1cb3ed4..56dd01c1bae3 100644
--- a/arch/arm/boot/compressed/head.S
+++ b/arch/arm/boot/compressed/head.S
@@ -136,6 +136,27 @@
#endif
.endm
+ .macro dbgent, id, ptr
+#ifdef DEBUG
+ kputc #'\n'
+ kputc #'I'
+ kputc #'D'
+ kputc #':'
+ kputc #'0'
+ kputc #'x'
+ kphex \id, 8
+ kputc #' '
+ kputc #'D'
+ kputc #'T'
+ kputc #':'
+ kputc #'0'
+ kputc #'x'
+ kphex \ptr, 8
+ kputc #'\n'
+ kputc #'\r'
+#endif
+ .endm
+
.macro enable_cp15_barriers, reg
mrc p15, 0, \reg, c1, c0, 0 @ read SCTLR
tst \reg, #(1 << 5) @ CP15BEN bit set?
@@ -289,7 +310,9 @@
orrcc r4, r4, #1 @ remember we skipped cache_on
blcs cache_on
-restart: adr r0, LC0
+
+restart: dbgent r7, r8
+ adr r0, LC0
ldmia r0, {r1, r2, r3, r6, r11, r12}
ldr sp, [r0, #24]
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 02:26:02PM +0100, Russell King - ARM Linux admin wrote:
> On Tue, Apr 07, 2020 at 03:05:59PM +0200, Corentin Labbe wrote:
> > On Tue, Apr 07, 2020 at 01:22:43PM +0100, Russell King - ARM Linux admin wrote:
> > > On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> > > > On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > > > > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > > Hello
> > > > > > >
> > > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > > >
> > > > > > > But kexec 2.0.18 fail to work:
> > > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > >
> > > > > > As I mentioned in my other reply, this apparent "kexec" command line
> > > > > > does not seem to reflect the arguments you actually used to invoke
> > > > > > the kexec output below.
> > > > > >
> > > > > > > syscall kexec_file_load not available.
> > > > > >
> > > > > > This message is produced by do_kexec_file_load(). This function is only
> > > > > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > > > > is only set if one of:
> > > > > >
> > > > > > --kexec-file-syscall
> > > > > > --kexec-syscall
> > > > > > --kexec-syscall-auto
> > > > > > -s
> > > > > > -c
> > > > > > -a
> > > > > >
> > > > > > are provided on the kexec command line. Your command line above does
> > > > > > not contain any of those arguments, so either the command line is not
> > > > > > what you used, or you are using a patched kexec, or your compiler is
> > > > > > grossly miscompiling kexec.
> > > > > >
> > > > > > > Try gzip decompression.
> > > > > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > > > > MEMORY RANGES
> > > > > > > 0000000020000000-000000009fffffff (0)
> > > > > >
> > > > > > Then there's the debug output, which is only produced if the
> > > > > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > > > > is supplied on the kexec command line - which again, your kexec
> > > > > > command line does not contain this.
> > > > > >
> > > > > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > > > > zImage size 0x853200, file size 0x853200
> > > > > > > zImage requires 0x00864200 bytes
> > > > > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > > > > Decompressed kernel sizes:
> > > > > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > > > > Resulting kernel space: 0x01def5a0
> > > > > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > > > > DT : address=0x22704000 size=0x00005c09
> > > > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > > > nr_segments = 3
> > > > > > > segment[0].buf = 0xb6535008
> > > > > > > segment[0].bufsz = 0x853204
> > > > > > > segment[0].mem = 0x20008000
> > > > > > > segment[0].memsz = 0x854000
> > > > > > > segment[1].buf = 0xb5c29008
> > > > > > > segment[1].bufsz = 0x90b6fa
> > > > > > > segment[1].mem = 0x21df8000
> > > > > > > segment[1].memsz = 0x90c000
> > > > > > > segment[2].buf = 0x4db50
> > > > > > > segment[2].bufsz = 0x5c09
> > > > > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > > > > x22704000
> > > > > > > segment[2].memsz = 0x6000
> > > > > > > [ 71.489070] Bye!
> > > > > > >
> > > > > > >
> > > > > > > I have tried also kexec-2.0.20
> > > > > > > Try gzip decompression.
> > > > > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > > > > zImage requires 0x008641c0 bytes
> > > > > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > > > > Cannot load /tmp/kernel
> > > > > >
> > > > > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > > > > allocations are done. The above output looks even more strange and
> > > > > > confusing. "zImage header" is produced by debugging prints, which
> > > > > > imply that kexec_debug was set.
> > > > > >
> > > > > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > > > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > > > > just built and tested kexec 2.0.20).
> > > > > >
> > > > > > Also, the values on the "zImage header" line are completely messed
> > > > > > up; the first should be the zImage magic value and it is not - that
> > > > > > suggests that the file being loaded is not a zImage file, or is
> > > > > > corrupted.
> > > > >
> > > > > Under a VM (the kernel doesn't have kexec support - but that's not a
> > > > > problem, because the initial loading stages are the relevant parts
> > > > > which all happen in userspace):
> > > > >
> > > > > # build/sbin/kexec --version
> > > > > kexec-tools 2.0.20
> > > > > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > > > > Try gzip decompression.
> > > > > kernel: 0xb6a6c008 kernel_size: 0x407358
> > > > > MEMORY RANGES
> > > > > 0000000040000000-000000007fffffff (0)
> > > > > zImage header: 0x016f2818 0x00000000 0x00407358
> > > > > zImage size 0x407358, file size 0x407358
> > > > > zImage requires 0x00418358 bytes
> > > > > offset 0x00007178 tag 0x5a534c4b size 12
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > > > > Resulting kernel space: 0x0104707c
> > > > > Kernel: address=0x40008000 size=0x0104707c
> > > > > DT : address=0x41051000 size=0x00100000
> > > > > kexec_load: entry = 0x40008000 flags = 0x280000
> > > > > nr_segments = 2
> > > > > segment[0].buf = 0xb6a6c008
> > > > > segment[0].bufsz = 0x40735c
> > > > > segment[0].mem = 0x40008000
> > > > > segment[0].memsz = 0x408000
> > > > > segment[1].buf = 0xb696b008
> > > > > segment[1].bufsz = 0x100000
> > > > > segment[1].mem = 0x41051000
> > > > > segment[1].memsz = 0x100000
> > > > > kexec_load failed: Function not implemented
> > > > > entry = 0x40008000 flags = 0x280000
> > > > > nr_segments = 2
> > > > > segment[0].buf = 0xb6aa0008
> > > > > segment[0].bufsz = 0x40735c
> > > > > segment[0].mem = 0x40008000
> > > > > segment[0].memsz = 0x408000
> > > > > segment[1].buf = 0xb699f008
> > > > > segment[1].bufsz = 0x100000
> > > > > segment[1].mem = 0x41051000
> > > > > segment[1].memsz = 0x100000
> > > > > #
> > > > >
> > > > > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > > > > kexec binary, first without an initrd, and then with):
> > > > >
> > > > > # build/sbin/kexec --version
> > > > > kexec-tools 2.0.20
> > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > Try gzip decompression.
> > > > > kernel: 0xb6763008 kernel_size: 0x7273a8
> > > > > MEMORY RANGES
> > > > > 0000000010000000-000000004fffffff (0)
> > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > zImage requires 0x007383a8 bytes
> > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > Resulting kernel space: 0x015077b0
> > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > DT : address=0x11511000 size=0x0000b000
> > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > nr_segments = 2
> > > > > segment[0].buf = 0xb6763008
> > > > > segment[0].bufsz = 0x7273ac
> > > > > segment[0].mem = 0x10008000
> > > > > segment[0].memsz = 0x728000
> > > > > segment[1].buf = 0x1207cb0
> > > > > segment[1].bufsz = 0xb000
> > > > > segment[1].mem = 0x11511000
> > > > > segment[1].memsz = 0xb000
> > > > > # build/sbin/kexec --unload
> > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > > > > Try gzip decompression.
> > > > > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > > > > MEMORY RANGES
> > > > > 0000000010000000-000000004fffffff (0)
> > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > zImage requires 0x007383a8 bytes
> > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > Resulting kernel space: 0x015077b0
> > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > Initrd: address=0x11510000 size=0x0053f46a
> > > > > DT : address=0x11a50000 size=0x0000b044
> > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > nr_segments = 3
> > > > > segment[0].buf = 0xb65d8008
> > > > > segment[0].bufsz = 0x7273ac
> > > > > segment[0].mem = 0x10008000
> > > > > segment[0].memsz = 0x728000
> > > > > segment[1].buf = 0xb6098008
> > > > > segment[1].bufsz = 0x53f46a
> > > > > segment[1].mem = 0x11510000
> > > > > segment[1].memsz = 0x540000
> > > > > segment[2].buf = 0x993cf0
> > > > > segment[2].bufsz = 0xb044
> > > > > segment[2].mem = 0x11a50000
> > > > > segment[2].memsz = 0xc000
> > > > >
> > > > > On clearfog (Armada 388):
> > > > >
> > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > Try gzip decompression.
> > > > > kernel: 0xb6745008 kernel_size: 0x7273a8
> > > > > MEMORY RANGES
> > > > > 0000000000000000-000000003fffffff (0)
> > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > zImage requires 0x007383a8 bytes
> > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > Resulting kernel space: 0x015077b0
> > > > > Kernel: address=0x00008000 size=0x015077b0
> > > > > DT : address=0x01511000 size=0x00007be3
> > > > > kexec_load: entry = 0x8000 flags = 0x280000
> > > > > nr_segments = 2
> > > > > segment[0].buf = 0xb6745008
> > > > > segment[0].bufsz = 0x7273ac
> > > > > segment[0].mem = 0x8000
> > > > > segment[0].memsz = 0x728000
> > > > > segment[1].buf = 0x1be7f68
> > > > > segment[1].bufsz = 0x7be3
> > > > > segment[1].mem = 0x1511000
> > > > > segment[1].memsz = 0x8000
> > > > >
> > > > > All appears to work fine.
> > > > >
> > > >
> > > > I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> > > > Even if I set --kexec-syscall.
> > >
> > > You mention below that you're using buildroot. Does buildroot have
> > > patches on top of the reference kexec-tools codebase as found at
> > > git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
> > >
> > > Looking at the 2.0.20 code, there's no way for that to be happening;
> > > the only way that _could_ happen is if getopt_long() always returns
> > > 's' when we get to the last argument, which is highly unlikely.
> > >
> > > > On my early tries I got "syscall kexec_file_load not available."
> > > > When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
> > >
> > > 32-bit kernels have no support for kexec_file_load(), although the
> > > syscall is reserved.
> > >
> > > Irrespective of that, presence of the syscall number allocation is
> > > not sufficient to tell whether the syscall is implemented by the
> > > kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
> > > This symbol is never offered for 32-bit ARM kernels.
> > >
> > > > The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
> > > >
> > > > Since kexec-tool always set do_kexec_file_syscall, it is never called.
> > > > I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
> > > >
> > > > So I have hack to always set do_kexec_file_syscall=0
> > >
> > > It sounds like buildroot is patching kexec-tools in ways that break
> > > 32-bit ARM, and it sounds like this needs to be reported as a bug to
> > > buildroot.
> > >
> > > That said, I think there's a weakness in the ARM support in
> > > kexec-tools, which this patch should address for 2.0.20. Things have
> > > changed in the merged patches since 2.0.20, so the return needs to be
> > > EFALLBACK not ENOSYS, so please pay attention to exactly which version
> > > of kexec-tools you have (whether it's the 2.0.20 tagged version or has
> > > further patches from kexec-tools on top.)
> > >
> > > diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
> > > index 9a67b8a4db98..ca4e35382ea1 100644
> > > --- a/kexec/arch/arm/kexec-zImage-arm.c
> > > +++ b/kexec/arch/arm/kexec-zImage-arm.c
> > > @@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
> > > };
> > > static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
> > >
> > > + /* We do not support file mode */
> > > + if (info->file_mode) {
> > > + fprintf(stderr, "syscall kexec_file_load not implemented.\n");
> > > + return -ENOSYS;
> > > + }
> > > +
> > > /*
> > > * Parse the command line arguments
> > > */
> > >
> > > > So now my test go further, but the final kernel crash.
> > > > DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > Set DEBUG!
> > > > main:1417 OPT_KEXEC_SYSCALL
> > > > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > > > arch_process_options:119
> > > > main:1500
> > > > main:1517 res=0 do_load=1
> > > > main:1519 res=0 do_kexec_file_syscall=0
> > > > my_load:713
> > > > Try gzip decompression.
> > > > kernel: 0xb693b008 kernel_size: 0x443ac0
> > > > get_memory_ranges:36
> > > > MEMORY RANGES
> > > > 0000000020000000-000000009fffffff (0)
> > > > DEBUG: my_load:737 memory_ranges=1
> > > > zImage_arm_load:423
> > > > zImage header: 0x016f2818 0x00000000 0x00443ac0
> > > > zImage size 0x443ac0, file size 0x443ac0
> > > > zImage requires 0x00454ac0 bytes
> > > > offset 0x00006678 tag 0x5a534c4b size 8
> > > > Decompressed kernel sizes:
> > > > text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> > > > Resulting kernel space: 0x00fccb40
> > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > Check 0/1 536870912 0 type=-1610612737
> > > > Check 0/1 536870912 0
> > > > Kernel: address=0x20008000 size=0x00fccb40
> > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > Check 0/1 536870912 0 type=-1610612737
> > > > Check 0/1 536870912 0
> > > > Initrd: address=0x20fd5000 size=0x0167213d
> > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > Check 0/1 536870912 0 type=-1610612737
> > > > Check 0/2 536870912 0
> > > > Check 1/2 577011712 0
> > > > DT : address=0x22648000 size=0x00006043
> > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > nr_segments = 3
> > > > segment[0].buf = 0xb693b008
> > > > segment[0].bufsz = 0x443ac4
> > > > segment[0].mem = 0x20008000
> > > > segment[0].memsz = 0x444000
> > > > segment[1].buf = 0xb52c8008
> > > > segment[1].bufsz = 0x167213d
> > > > segment[1].mem = 0x20fd5000
> > > > segment[1].memsz = 0x1673000
> > > > segment[2].buf = 0x4ef88
> > > > segment[2].bufsz = 0x6043
> > > > segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > > > 2648000
> > > > segment[2].memsz = 0x7000
> > > > main:1568 res=0
> > > > main:1582 res=0 do_exec=1
> > > > [ 31.277297] kexec_core: Starting new kernel
> > > > [ 31.282700] Disabling non-boot CPUs ...
> > > > [ 31.692085] Bye!
> > > > C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
> > >
> > > This line shows that we entered the new kernel, which was located
> > > (correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
> > > itself to 0x20B80B00-0x20FC4500.
> > >
> > > The lack of further output suggests that the decompressor itself
> > > wasn't able to run after being relocated higher in memory.
> > >
> > > It may be worth booting the same kernel image and see what the C:
> > > line comes out as there.
> > >
> >
> > I have checked and some CONFIG was missing, now I get one line further:
> > [ 32.903765] kexec_core: Starting new kernel
> > [ 32.907958] Disabling non-boot CPUs ...
> > [ 33.392056] Bye!
> > C:0x200080C0-0x2044AE80->0x20B80300-0x20FC30C0
> > Uncompressing Linux... done, booting the kernel.
> >
> > So the uncompressor seems ok.
> >
> > As you said, I have started the same kernel, but I dont see any C:
> > Starting kernel ...
> > Uncompressing Linux... done, booting the kernel.
> > [ 0.000000] Booting Linux on physical CPU 0x0
> > [ 0.000000] Linux version 5.6.0-10890-gc27180b13770-dirty (compile@Red) (gcc version 8.3.0 (Gentoo 8.3.0-r1 p1.1)) #78 SMP Tue Apr 7 14:55:53 CEST 2020
> > [ 0.000000] CPU: ARMv7 Processor [410fc075] revision 5 (ARMv7), cr=10c5387d
> > [ 0.000000] CPU: div instructions available: patching division code
>
> Hmm, are you sure you booted the same zImage file? The
> "Uncompressing Linux..." messages will be using the same output
> functions as the C: line, so it shouldn't be missing.
>
> In any case, please try adding this patch so we can see what was
> passed in r1/r2 to the kernel (not build tested here, sorry).
>
> diff --git a/arch/arm/boot/compressed/head.S b/arch/arm/boot/compressed/head.S
> index e05af1cb3ed4..56dd01c1bae3 100644
> --- a/arch/arm/boot/compressed/head.S
> +++ b/arch/arm/boot/compressed/head.S
> @@ -136,6 +136,27 @@
> #endif
> .endm
>
> + .macro dbgent, id, ptr
> +#ifdef DEBUG
> + kputc #'\n'
> + kputc #'I'
> + kputc #'D'
> + kputc #':'
> + kputc #'0'
> + kputc #'x'
> + kphex \id, 8
> + kputc #' '
> + kputc #'D'
> + kputc #'T'
> + kputc #':'
> + kputc #'0'
> + kputc #'x'
> + kphex \ptr, 8
> + kputc #'\n'
> + kputc #'\r'
> +#endif
> + .endm
> +
> .macro enable_cp15_barriers, reg
> mrc p15, 0, \reg, c1, c0, 0 @ read SCTLR
> tst \reg, #(1 << 5) @ CP15BEN bit set?
> @@ -289,7 +310,9 @@
> orrcc r4, r4, #1 @ remember we skipped cache_on
> blcs cache_on
>
> -restart: adr r0, LC0
> +
> +restart: dbgent r7, r8
> + adr r0, LC0
> ldmia r0, {r1, r2, r3, r6, r11, r12}
> ldr sp, [r0, #24]
>
I use the same kernel for both the initial and the kexec-ed one
The first kernel give:
Starting kernel ...
ID:0x00000000 DT:0x2984E000
Uncompressing Linux... done, booting the kernel.
[ 32.113191] kexec_core: Starting new kernel
[ 32.460412] Bye!
ID:0xFFFFFFFF DT:0x2267D000
C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
ID:0xFFFFFFFF DT:0x2267D000
Uncompressing Linux... done, booting the kernel.
On Tue, Apr 07, 2020 at 03:48:49PM +0200, Corentin Labbe wrote:
> On Tue, Apr 07, 2020 at 02:26:02PM +0100, Russell King - ARM Linux admin wrote:
> > On Tue, Apr 07, 2020 at 03:05:59PM +0200, Corentin Labbe wrote:
> > > On Tue, Apr 07, 2020 at 01:22:43PM +0100, Russell King - ARM Linux admin wrote:
> > > > On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> > > > > On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > > > Hello
> > > > > > > >
> > > > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > > > >
> > > > > > > > But kexec 2.0.18 fail to work:
> > > > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > > >
> > > > > > > As I mentioned in my other reply, this apparent "kexec" command line
> > > > > > > does not seem to reflect the arguments you actually used to invoke
> > > > > > > the kexec output below.
> > > > > > >
> > > > > > > > syscall kexec_file_load not available.
> > > > > > >
> > > > > > > This message is produced by do_kexec_file_load(). This function is only
> > > > > > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > > > > > is only set if one of:
> > > > > > >
> > > > > > > --kexec-file-syscall
> > > > > > > --kexec-syscall
> > > > > > > --kexec-syscall-auto
> > > > > > > -s
> > > > > > > -c
> > > > > > > -a
> > > > > > >
> > > > > > > are provided on the kexec command line. Your command line above does
> > > > > > > not contain any of those arguments, so either the command line is not
> > > > > > > what you used, or you are using a patched kexec, or your compiler is
> > > > > > > grossly miscompiling kexec.
> > > > > > >
> > > > > > > > Try gzip decompression.
> > > > > > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > > > > > MEMORY RANGES
> > > > > > > > 0000000020000000-000000009fffffff (0)
> > > > > > >
> > > > > > > Then there's the debug output, which is only produced if the
> > > > > > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > > > > > is supplied on the kexec command line - which again, your kexec
> > > > > > > command line does not contain this.
> > > > > > >
> > > > > > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > > > > > zImage size 0x853200, file size 0x853200
> > > > > > > > zImage requires 0x00864200 bytes
> > > > > > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > > > > > Decompressed kernel sizes:
> > > > > > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > > > > > Resulting kernel space: 0x01def5a0
> > > > > > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > > > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > > > > > DT : address=0x22704000 size=0x00005c09
> > > > > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > > > > nr_segments = 3
> > > > > > > > segment[0].buf = 0xb6535008
> > > > > > > > segment[0].bufsz = 0x853204
> > > > > > > > segment[0].mem = 0x20008000
> > > > > > > > segment[0].memsz = 0x854000
> > > > > > > > segment[1].buf = 0xb5c29008
> > > > > > > > segment[1].bufsz = 0x90b6fa
> > > > > > > > segment[1].mem = 0x21df8000
> > > > > > > > segment[1].memsz = 0x90c000
> > > > > > > > segment[2].buf = 0x4db50
> > > > > > > > segment[2].bufsz = 0x5c09
> > > > > > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > > > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > > > > > x22704000
> > > > > > > > segment[2].memsz = 0x6000
> > > > > > > > [ 71.489070] Bye!
> > > > > > > >
> > > > > > > >
> > > > > > > > I have tried also kexec-2.0.20
> > > > > > > > Try gzip decompression.
> > > > > > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > > > > > zImage requires 0x008641c0 bytes
> > > > > > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > > > > > Cannot load /tmp/kernel
> > > > > > >
> > > > > > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > > > > > allocations are done. The above output looks even more strange and
> > > > > > > confusing. "zImage header" is produced by debugging prints, which
> > > > > > > imply that kexec_debug was set.
> > > > > > >
> > > > > > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > > > > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > > > > > just built and tested kexec 2.0.20).
> > > > > > >
> > > > > > > Also, the values on the "zImage header" line are completely messed
> > > > > > > up; the first should be the zImage magic value and it is not - that
> > > > > > > suggests that the file being loaded is not a zImage file, or is
> > > > > > > corrupted.
> > > > > >
> > > > > > Under a VM (the kernel doesn't have kexec support - but that's not a
> > > > > > problem, because the initial loading stages are the relevant parts
> > > > > > which all happen in userspace):
> > > > > >
> > > > > > # build/sbin/kexec --version
> > > > > > kexec-tools 2.0.20
> > > > > > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb6a6c008 kernel_size: 0x407358
> > > > > > MEMORY RANGES
> > > > > > 0000000040000000-000000007fffffff (0)
> > > > > > zImage header: 0x016f2818 0x00000000 0x00407358
> > > > > > zImage size 0x407358, file size 0x407358
> > > > > > zImage requires 0x00418358 bytes
> > > > > > offset 0x00007178 tag 0x5a534c4b size 12
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > > > > > Resulting kernel space: 0x0104707c
> > > > > > Kernel: address=0x40008000 size=0x0104707c
> > > > > > DT : address=0x41051000 size=0x00100000
> > > > > > kexec_load: entry = 0x40008000 flags = 0x280000
> > > > > > nr_segments = 2
> > > > > > segment[0].buf = 0xb6a6c008
> > > > > > segment[0].bufsz = 0x40735c
> > > > > > segment[0].mem = 0x40008000
> > > > > > segment[0].memsz = 0x408000
> > > > > > segment[1].buf = 0xb696b008
> > > > > > segment[1].bufsz = 0x100000
> > > > > > segment[1].mem = 0x41051000
> > > > > > segment[1].memsz = 0x100000
> > > > > > kexec_load failed: Function not implemented
> > > > > > entry = 0x40008000 flags = 0x280000
> > > > > > nr_segments = 2
> > > > > > segment[0].buf = 0xb6aa0008
> > > > > > segment[0].bufsz = 0x40735c
> > > > > > segment[0].mem = 0x40008000
> > > > > > segment[0].memsz = 0x408000
> > > > > > segment[1].buf = 0xb699f008
> > > > > > segment[1].bufsz = 0x100000
> > > > > > segment[1].mem = 0x41051000
> > > > > > segment[1].memsz = 0x100000
> > > > > > #
> > > > > >
> > > > > > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > > > > > kexec binary, first without an initrd, and then with):
> > > > > >
> > > > > > # build/sbin/kexec --version
> > > > > > kexec-tools 2.0.20
> > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb6763008 kernel_size: 0x7273a8
> > > > > > MEMORY RANGES
> > > > > > 0000000010000000-000000004fffffff (0)
> > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > zImage requires 0x007383a8 bytes
> > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > Resulting kernel space: 0x015077b0
> > > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > > DT : address=0x11511000 size=0x0000b000
> > > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > > nr_segments = 2
> > > > > > segment[0].buf = 0xb6763008
> > > > > > segment[0].bufsz = 0x7273ac
> > > > > > segment[0].mem = 0x10008000
> > > > > > segment[0].memsz = 0x728000
> > > > > > segment[1].buf = 0x1207cb0
> > > > > > segment[1].bufsz = 0xb000
> > > > > > segment[1].mem = 0x11511000
> > > > > > segment[1].memsz = 0xb000
> > > > > > # build/sbin/kexec --unload
> > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > > > > > MEMORY RANGES
> > > > > > 0000000010000000-000000004fffffff (0)
> > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > zImage requires 0x007383a8 bytes
> > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > Resulting kernel space: 0x015077b0
> > > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > > Initrd: address=0x11510000 size=0x0053f46a
> > > > > > DT : address=0x11a50000 size=0x0000b044
> > > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > > nr_segments = 3
> > > > > > segment[0].buf = 0xb65d8008
> > > > > > segment[0].bufsz = 0x7273ac
> > > > > > segment[0].mem = 0x10008000
> > > > > > segment[0].memsz = 0x728000
> > > > > > segment[1].buf = 0xb6098008
> > > > > > segment[1].bufsz = 0x53f46a
> > > > > > segment[1].mem = 0x11510000
> > > > > > segment[1].memsz = 0x540000
> > > > > > segment[2].buf = 0x993cf0
> > > > > > segment[2].bufsz = 0xb044
> > > > > > segment[2].mem = 0x11a50000
> > > > > > segment[2].memsz = 0xc000
> > > > > >
> > > > > > On clearfog (Armada 388):
> > > > > >
> > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb6745008 kernel_size: 0x7273a8
> > > > > > MEMORY RANGES
> > > > > > 0000000000000000-000000003fffffff (0)
> > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > zImage requires 0x007383a8 bytes
> > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > Resulting kernel space: 0x015077b0
> > > > > > Kernel: address=0x00008000 size=0x015077b0
> > > > > > DT : address=0x01511000 size=0x00007be3
> > > > > > kexec_load: entry = 0x8000 flags = 0x280000
> > > > > > nr_segments = 2
> > > > > > segment[0].buf = 0xb6745008
> > > > > > segment[0].bufsz = 0x7273ac
> > > > > > segment[0].mem = 0x8000
> > > > > > segment[0].memsz = 0x728000
> > > > > > segment[1].buf = 0x1be7f68
> > > > > > segment[1].bufsz = 0x7be3
> > > > > > segment[1].mem = 0x1511000
> > > > > > segment[1].memsz = 0x8000
> > > > > >
> > > > > > All appears to work fine.
> > > > > >
> > > > >
> > > > > I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> > > > > Even if I set --kexec-syscall.
> > > >
> > > > You mention below that you're using buildroot. Does buildroot have
> > > > patches on top of the reference kexec-tools codebase as found at
> > > > git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
> > > >
> > > > Looking at the 2.0.20 code, there's no way for that to be happening;
> > > > the only way that _could_ happen is if getopt_long() always returns
> > > > 's' when we get to the last argument, which is highly unlikely.
> > > >
> > > > > On my early tries I got "syscall kexec_file_load not available."
> > > > > When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
> > > >
> > > > 32-bit kernels have no support for kexec_file_load(), although the
> > > > syscall is reserved.
> > > >
> > > > Irrespective of that, presence of the syscall number allocation is
> > > > not sufficient to tell whether the syscall is implemented by the
> > > > kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
> > > > This symbol is never offered for 32-bit ARM kernels.
> > > >
> > > > > The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
> > > > >
> > > > > Since kexec-tool always set do_kexec_file_syscall, it is never called.
> > > > > I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
> > > > >
> > > > > So I have hack to always set do_kexec_file_syscall=0
> > > >
> > > > It sounds like buildroot is patching kexec-tools in ways that break
> > > > 32-bit ARM, and it sounds like this needs to be reported as a bug to
> > > > buildroot.
> > > >
> > > > That said, I think there's a weakness in the ARM support in
> > > > kexec-tools, which this patch should address for 2.0.20. Things have
> > > > changed in the merged patches since 2.0.20, so the return needs to be
> > > > EFALLBACK not ENOSYS, so please pay attention to exactly which version
> > > > of kexec-tools you have (whether it's the 2.0.20 tagged version or has
> > > > further patches from kexec-tools on top.)
> > > >
> > > > diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
> > > > index 9a67b8a4db98..ca4e35382ea1 100644
> > > > --- a/kexec/arch/arm/kexec-zImage-arm.c
> > > > +++ b/kexec/arch/arm/kexec-zImage-arm.c
> > > > @@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
> > > > };
> > > > static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
> > > >
> > > > + /* We do not support file mode */
> > > > + if (info->file_mode) {
> > > > + fprintf(stderr, "syscall kexec_file_load not implemented.\n");
> > > > + return -ENOSYS;
> > > > + }
> > > > +
> > > > /*
> > > > * Parse the command line arguments
> > > > */
> > > >
> > > > > So now my test go further, but the final kernel crash.
> > > > > DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > Set DEBUG!
> > > > > main:1417 OPT_KEXEC_SYSCALL
> > > > > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > > > > arch_process_options:119
> > > > > main:1500
> > > > > main:1517 res=0 do_load=1
> > > > > main:1519 res=0 do_kexec_file_syscall=0
> > > > > my_load:713
> > > > > Try gzip decompression.
> > > > > kernel: 0xb693b008 kernel_size: 0x443ac0
> > > > > get_memory_ranges:36
> > > > > MEMORY RANGES
> > > > > 0000000020000000-000000009fffffff (0)
> > > > > DEBUG: my_load:737 memory_ranges=1
> > > > > zImage_arm_load:423
> > > > > zImage header: 0x016f2818 0x00000000 0x00443ac0
> > > > > zImage size 0x443ac0, file size 0x443ac0
> > > > > zImage requires 0x00454ac0 bytes
> > > > > offset 0x00006678 tag 0x5a534c4b size 8
> > > > > Decompressed kernel sizes:
> > > > > text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> > > > > Resulting kernel space: 0x00fccb40
> > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > Check 0/1 536870912 0
> > > > > Kernel: address=0x20008000 size=0x00fccb40
> > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > Check 0/1 536870912 0
> > > > > Initrd: address=0x20fd5000 size=0x0167213d
> > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > Check 0/2 536870912 0
> > > > > Check 1/2 577011712 0
> > > > > DT : address=0x22648000 size=0x00006043
> > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > nr_segments = 3
> > > > > segment[0].buf = 0xb693b008
> > > > > segment[0].bufsz = 0x443ac4
> > > > > segment[0].mem = 0x20008000
> > > > > segment[0].memsz = 0x444000
> > > > > segment[1].buf = 0xb52c8008
> > > > > segment[1].bufsz = 0x167213d
> > > > > segment[1].mem = 0x20fd5000
> > > > > segment[1].memsz = 0x1673000
> > > > > segment[2].buf = 0x4ef88
> > > > > segment[2].bufsz = 0x6043
> > > > > segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > > > > 2648000
> > > > > segment[2].memsz = 0x7000
> > > > > main:1568 res=0
> > > > > main:1582 res=0 do_exec=1
> > > > > [ 31.277297] kexec_core: Starting new kernel
> > > > > [ 31.282700] Disabling non-boot CPUs ...
> > > > > [ 31.692085] Bye!
> > > > > C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
> > > >
> > > > This line shows that we entered the new kernel, which was located
> > > > (correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
> > > > itself to 0x20B80B00-0x20FC4500.
> > > >
> > > > The lack of further output suggests that the decompressor itself
> > > > wasn't able to run after being relocated higher in memory.
> > > >
> > > > It may be worth booting the same kernel image and see what the C:
> > > > line comes out as there.
> > > >
> > >
> > > I have checked and some CONFIG was missing, now I get one line further:
> > > [ 32.903765] kexec_core: Starting new kernel
> > > [ 32.907958] Disabling non-boot CPUs ...
> > > [ 33.392056] Bye!
> > > C:0x200080C0-0x2044AE80->0x20B80300-0x20FC30C0
> > > Uncompressing Linux... done, booting the kernel.
> > >
> > > So the uncompressor seems ok.
> > >
> > > As you said, I have started the same kernel, but I dont see any C:
> > > Starting kernel ...
> > > Uncompressing Linux... done, booting the kernel.
> > > [ 0.000000] Booting Linux on physical CPU 0x0
> > > [ 0.000000] Linux version 5.6.0-10890-gc27180b13770-dirty (compile@Red) (gcc version 8.3.0 (Gentoo 8.3.0-r1 p1.1)) #78 SMP Tue Apr 7 14:55:53 CEST 2020
> > > [ 0.000000] CPU: ARMv7 Processor [410fc075] revision 5 (ARMv7), cr=10c5387d
> > > [ 0.000000] CPU: div instructions available: patching division code
> >
> > Hmm, are you sure you booted the same zImage file? The
> > "Uncompressing Linux..." messages will be using the same output
> > functions as the C: line, so it shouldn't be missing.
> >
> > In any case, please try adding this patch so we can see what was
> > passed in r1/r2 to the kernel (not build tested here, sorry).
> >
> > diff --git a/arch/arm/boot/compressed/head.S b/arch/arm/boot/compressed/head.S
> > index e05af1cb3ed4..56dd01c1bae3 100644
> > --- a/arch/arm/boot/compressed/head.S
> > +++ b/arch/arm/boot/compressed/head.S
> > @@ -136,6 +136,27 @@
> > #endif
> > .endm
> >
> > + .macro dbgent, id, ptr
> > +#ifdef DEBUG
> > + kputc #'\n'
> > + kputc #'I'
> > + kputc #'D'
> > + kputc #':'
> > + kputc #'0'
> > + kputc #'x'
> > + kphex \id, 8
> > + kputc #' '
> > + kputc #'D'
> > + kputc #'T'
> > + kputc #':'
> > + kputc #'0'
> > + kputc #'x'
> > + kphex \ptr, 8
> > + kputc #'\n'
> > + kputc #'\r'
> > +#endif
> > + .endm
> > +
> > .macro enable_cp15_barriers, reg
> > mrc p15, 0, \reg, c1, c0, 0 @ read SCTLR
> > tst \reg, #(1 << 5) @ CP15BEN bit set?
> > @@ -289,7 +310,9 @@
> > orrcc r4, r4, #1 @ remember we skipped cache_on
> > blcs cache_on
> >
> > -restart: adr r0, LC0
> > +
> > +restart: dbgent r7, r8
> > + adr r0, LC0
> > ldmia r0, {r1, r2, r3, r6, r11, r12}
> > ldr sp, [r0, #24]
> >
>
> I use the same kernel for both the initial and the kexec-ed one
>
> The first kernel give:
> Starting kernel ...
> ID:0x00000000 DT:0x2984E000
> Uncompressing Linux... done, booting the kernel.
Hmm, I guess the boot loader is loading the image away from the area
it's going to write.
> [ 32.113191] kexec_core: Starting new kernel
> [ 32.460412] Bye!
> ID:0xFFFFFFFF DT:0x2267D000
> C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
> ID:0xFFFFFFFF DT:0x2267D000
> Uncompressing Linux... done, booting the kernel.
So this is saying that the DT blob is at 0x2267d000, but from the
previous kexec debug output, that said it was supposed to be at
0x22648000 (segment[2].mem). If that's correct, it would explain
why the kernel isn't booting - but could be you've changed something
else and the previously posted kexec messages are now stale.
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Tue, Apr 07, 2020 at 07:17:40PM +0100, Russell King - ARM Linux admin wrote:
> On Tue, Apr 07, 2020 at 03:48:49PM +0200, Corentin Labbe wrote:
> > On Tue, Apr 07, 2020 at 02:26:02PM +0100, Russell King - ARM Linux admin wrote:
> > > On Tue, Apr 07, 2020 at 03:05:59PM +0200, Corentin Labbe wrote:
> > > > On Tue, Apr 07, 2020 at 01:22:43PM +0100, Russell King - ARM Linux admin wrote:
> > > > > On Tue, Apr 07, 2020 at 01:34:54PM +0200, Corentin Labbe wrote:
> > > > > > On Tue, Apr 07, 2020 at 11:19:12AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > > On Tue, Apr 07, 2020 at 11:02:03AM +0100, Russell King - ARM Linux admin wrote:
> > > > > > > > On Mon, Apr 06, 2020 at 10:27:20AM +0200, Corentin Labbe wrote:
> > > > > > > > > Hello
> > > > > > > > >
> > > > > > > > > I am trying to add the last missing Allwinner Soc in kernelci: the A80.
> > > > > > > > > But this SoC does not have any way to be used in kernelci, no USB nor network in uboot.
> > > > > > > > > So I have tried to fake uboot since the kernel has network support and run the new kernel via kexec.
> > > > > > > > >
> > > > > > > > > But kexec 2.0.18 fail to work:
> > > > > > > > > kexec --force /tmp/kernel --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > > > >
> > > > > > > > As I mentioned in my other reply, this apparent "kexec" command line
> > > > > > > > does not seem to reflect the arguments you actually used to invoke
> > > > > > > > the kexec output below.
> > > > > > > >
> > > > > > > > > syscall kexec_file_load not available.
> > > > > > > >
> > > > > > > > This message is produced by do_kexec_file_load(). This function is only
> > > > > > > > invoked if the do_kexec_file_syscall flag in main() is set. This flag
> > > > > > > > is only set if one of:
> > > > > > > >
> > > > > > > > --kexec-file-syscall
> > > > > > > > --kexec-syscall
> > > > > > > > --kexec-syscall-auto
> > > > > > > > -s
> > > > > > > > -c
> > > > > > > > -a
> > > > > > > >
> > > > > > > > are provided on the kexec command line. Your command line above does
> > > > > > > > not contain any of those arguments, so either the command line is not
> > > > > > > > what you used, or you are using a patched kexec, or your compiler is
> > > > > > > > grossly miscompiling kexec.
> > > > > > > >
> > > > > > > > > Try gzip decompression.
> > > > > > > > > kernel: 0xb6535008 kernel_size: 0x853200
> > > > > > > > > MEMORY RANGES
> > > > > > > > > 0000000020000000-000000009fffffff (0)
> > > > > > > >
> > > > > > > > Then there's the debug output, which is only produced if the
> > > > > > > > kexec_debug global is set, which in turn is only set if --debug or -d
> > > > > > > > is supplied on the kexec command line - which again, your kexec
> > > > > > > > command line does not contain this.
> > > > > > > >
> > > > > > > > > zImage header: 0x016f2818 0x00000000 0x00853200
> > > > > > > > > zImage size 0x853200, file size 0x853200
> > > > > > > > > zImage requires 0x00864200 bytes
> > > > > > > > > offset 0x0000bae4 tag 0x5a534c4b size 8
> > > > > > > > > Decompressed kernel sizes:
> > > > > > > > > text+data 0x0158b3a0 bss 0x000632f0 total 0x015ee690
> > > > > > > > > Resulting kernel space: 0x01def5a0
> > > > > > > > > Kernel: address=0x20008000 size=0x01def5a0
> > > > > > > > > Initrd: address=0x21df8000 size=0x0090b6fa
> > > > > > > > > DT : address=0x22704000 size=0x00005c09
> > > > > > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > > > > > nr_segments = 3
> > > > > > > > > segment[0].buf = 0xb6535008
> > > > > > > > > segment[0].bufsz = 0x853204
> > > > > > > > > segment[0].mem = 0x20008000
> > > > > > > > > segment[0].memsz = 0x854000
> > > > > > > > > segment[1].buf = 0xb5c29008
> > > > > > > > > segment[1].bufsz = 0x90b6fa
> > > > > > > > > segment[1].mem = 0x21df8000
> > > > > > > > > segment[1].memsz = 0x90c000
> > > > > > > > > segment[2].buf = 0x4db50
> > > > > > > > > segment[2].bufsz = 0x5c09
> > > > > > > > > segm[ 71.039126] kexec_core: Starting new kernel
> > > > > > > > > ent[2].mem = 0[ 71.044712] Disabling non-boot CPUs ...
> > > > > > > > > x22704000
> > > > > > > > > segment[2].memsz = 0x6000
> > > > > > > > > [ 71.489070] Bye!
> > > > > > > > >
> > > > > > > > >
> > > > > > > > > I have tried also kexec-2.0.20
> > > > > > > > > Try gzip decompression.
> > > > > > > > > zImage header: 0x00000000 0x000019b4 0x00001000
> > > > > > > > > zImage requires 0x008641c0 bytes
> > > > > > > > > Could not find a free area of memory of 0x86c1c0 bytes...
> > > > > > > > > Cannot load /tmp/kernel
> > > > > > > >
> > > > > > > > kexec 2.0.20 doesn't appear to have changed anything to do with how
> > > > > > > > allocations are done. The above output looks even more strange and
> > > > > > > > confusing. "zImage header" is produced by debugging prints, which
> > > > > > > > imply that kexec_debug was set.
> > > > > > > >
> > > > > > > > However, the "MEMORY RANGES" output is missing - this has not gone
> > > > > > > > away with kexec 2.0.20, it's still there, and works for me (I've
> > > > > > > > just built and tested kexec 2.0.20).
> > > > > > > >
> > > > > > > > Also, the values on the "zImage header" line are completely messed
> > > > > > > > up; the first should be the zImage magic value and it is not - that
> > > > > > > > suggests that the file being loaded is not a zImage file, or is
> > > > > > > > corrupted.
> > > > > > >
> > > > > > > Under a VM (the kernel doesn't have kexec support - but that's not a
> > > > > > > problem, because the initial loading stages are the relevant parts
> > > > > > > which all happen in userspace):
> > > > > > >
> > > > > > > # build/sbin/kexec --version
> > > > > > > kexec-tools 2.0.20
> > > > > > > # build/sbin/kexec --debug --load virt-vmlinuz-5.4.0+
> > > > > > > Try gzip decompression.
> > > > > > > kernel: 0xb6a6c008 kernel_size: 0x407358
> > > > > > > MEMORY RANGES
> > > > > > > 0000000040000000-000000007fffffff (0)
> > > > > > > zImage header: 0x016f2818 0x00000000 0x00407358
> > > > > > > zImage size 0x407358, file size 0x407358
> > > > > > > zImage requires 0x00418358 bytes
> > > > > > > offset 0x00007178 tag 0x5a534c4b size 12
> > > > > > > Decompressed kernel sizes:
> > > > > > > text+data 0x00c2ed24 bss 0x000319ec total 0x00c60710
> > > > > > > Resulting kernel space: 0x0104707c
> > > > > > > Kernel: address=0x40008000 size=0x0104707c
> > > > > > > DT : address=0x41051000 size=0x00100000
> > > > > > > kexec_load: entry = 0x40008000 flags = 0x280000
> > > > > > > nr_segments = 2
> > > > > > > segment[0].buf = 0xb6a6c008
> > > > > > > segment[0].bufsz = 0x40735c
> > > > > > > segment[0].mem = 0x40008000
> > > > > > > segment[0].memsz = 0x408000
> > > > > > > segment[1].buf = 0xb696b008
> > > > > > > segment[1].bufsz = 0x100000
> > > > > > > segment[1].mem = 0x41051000
> > > > > > > segment[1].memsz = 0x100000
> > > > > > > kexec_load failed: Function not implemented
> > > > > > > entry = 0x40008000 flags = 0x280000
> > > > > > > nr_segments = 2
> > > > > > > segment[0].buf = 0xb6aa0008
> > > > > > > segment[0].bufsz = 0x40735c
> > > > > > > segment[0].mem = 0x40008000
> > > > > > > segment[0].memsz = 0x408000
> > > > > > > segment[1].buf = 0xb699f008
> > > > > > > segment[1].bufsz = 0x100000
> > > > > > > segment[1].mem = 0x41051000
> > > > > > > segment[1].memsz = 0x100000
> > > > > > > #
> > > > > > >
> > > > > > > On a SolidRun Hummingboard2 (iMX6 based, which has kexec support, same
> > > > > > > kexec binary, first without an initrd, and then with):
> > > > > > >
> > > > > > > # build/sbin/kexec --version
> > > > > > > kexec-tools 2.0.20
> > > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > > > Try gzip decompression.
> > > > > > > kernel: 0xb6763008 kernel_size: 0x7273a8
> > > > > > > MEMORY RANGES
> > > > > > > 0000000010000000-000000004fffffff (0)
> > > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > > zImage requires 0x007383a8 bytes
> > > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > > Decompressed kernel sizes:
> > > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > > Resulting kernel space: 0x015077b0
> > > > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > > > DT : address=0x11511000 size=0x0000b000
> > > > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > > > nr_segments = 2
> > > > > > > segment[0].buf = 0xb6763008
> > > > > > > segment[0].bufsz = 0x7273ac
> > > > > > > segment[0].mem = 0x10008000
> > > > > > > segment[0].memsz = 0x728000
> > > > > > > segment[1].buf = 0x1207cb0
> > > > > > > segment[1].bufsz = 0xb000
> > > > > > > segment[1].mem = 0x11511000
> > > > > > > segment[1].memsz = 0xb000
> > > > > > > # build/sbin/kexec --unload
> > > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+ --initrd /boot/initrd.img-5.4.0+
> > > > > > > Try gzip decompression.
> > > > > > > kernel: 0xb65d8008 kernel_size: 0x7273a8
> > > > > > > MEMORY RANGES
> > > > > > > 0000000010000000-000000004fffffff (0)
> > > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > > zImage requires 0x007383a8 bytes
> > > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > > Decompressed kernel sizes:
> > > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > > Resulting kernel space: 0x015077b0
> > > > > > > Kernel: address=0x10008000 size=0x015077b0
> > > > > > > Initrd: address=0x11510000 size=0x0053f46a
> > > > > > > DT : address=0x11a50000 size=0x0000b044
> > > > > > > kexec_load: entry = 0x10008000 flags = 0x280000
> > > > > > > nr_segments = 3
> > > > > > > segment[0].buf = 0xb65d8008
> > > > > > > segment[0].bufsz = 0x7273ac
> > > > > > > segment[0].mem = 0x10008000
> > > > > > > segment[0].memsz = 0x728000
> > > > > > > segment[1].buf = 0xb6098008
> > > > > > > segment[1].bufsz = 0x53f46a
> > > > > > > segment[1].mem = 0x11510000
> > > > > > > segment[1].memsz = 0x540000
> > > > > > > segment[2].buf = 0x993cf0
> > > > > > > segment[2].bufsz = 0xb044
> > > > > > > segment[2].mem = 0x11a50000
> > > > > > > segment[2].memsz = 0xc000
> > > > > > >
> > > > > > > On clearfog (Armada 388):
> > > > > > >
> > > > > > > # build/sbin/kexec --debug --load multi-vmlinuz-5.6.0+
> > > > > > > Try gzip decompression.
> > > > > > > kernel: 0xb6745008 kernel_size: 0x7273a8
> > > > > > > MEMORY RANGES
> > > > > > > 0000000000000000-000000003fffffff (0)
> > > > > > > zImage header: 0x016f2818 0x00000000 0x007273a8
> > > > > > > zImage size 0x7273a8, file size 0x7273a8
> > > > > > > zImage requires 0x007383a8 bytes
> > > > > > > offset 0x00004da8 tag 0x5a534c4b size 12
> > > > > > > Decompressed kernel sizes:
> > > > > > > text+data 0x00dbedb8 bss 0x007489f8 total 0x015077b0
> > > > > > > Resulting kernel space: 0x015077b0
> > > > > > > Kernel: address=0x00008000 size=0x015077b0
> > > > > > > DT : address=0x01511000 size=0x00007be3
> > > > > > > kexec_load: entry = 0x8000 flags = 0x280000
> > > > > > > nr_segments = 2
> > > > > > > segment[0].buf = 0xb6745008
> > > > > > > segment[0].bufsz = 0x7273ac
> > > > > > > segment[0].mem = 0x8000
> > > > > > > segment[0].memsz = 0x728000
> > > > > > > segment[1].buf = 0x1be7f68
> > > > > > > segment[1].bufsz = 0x7be3
> > > > > > > segment[1].mem = 0x1511000
> > > > > > > segment[1].memsz = 0x8000
> > > > > > >
> > > > > > > All appears to work fine.
> > > > > > >
> > > > > >
> > > > > > I have found a part of my problem, kexec-tool seems to always use the OPT_KEXEC_FILE_SYSCALL.
> > > > > > Even if I set --kexec-syscall.
> > > > >
> > > > > You mention below that you're using buildroot. Does buildroot have
> > > > > patches on top of the reference kexec-tools codebase as found at
> > > > > git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git ?
> > > > >
> > > > > Looking at the 2.0.20 code, there's no way for that to be happening;
> > > > > the only way that _could_ happen is if getopt_long() always returns
> > > > > 's' when we get to the last argument, which is highly unlikely.
> > > > >
> > > > > > On my early tries I got "syscall kexec_file_load not available."
> > > > > > When I did a full rebuild of my buildroot to go back to kexec-tool 2.0.18, this syscall become availlable.
> > > > >
> > > > > 32-bit kernels have no support for kexec_file_load(), although the
> > > > > syscall is reserved.
> > > > >
> > > > > Irrespective of that, presence of the syscall number allocation is
> > > > > not sufficient to tell whether the syscall is implemented by the
> > > > > kernel; that is controlled by the kernel's CONFIG_KEXEC_FILE symbol.
> > > > > This symbol is never offered for 32-bit ARM kernels.
> > > > >
> > > > > > The get_memory_ranges seems to be called only from my_load() which is executed when !do_kexec_file_syscall.
> > > > > >
> > > > > > Since kexec-tool always set do_kexec_file_syscall, it is never called.
> > > > > > I have added a print for each syscal option, and it seems that OPT_KEXEC_SYSCALL_AUTO is called after the handling of OPT_KEXEC_SYSCALL.
> > > > > >
> > > > > > So I have hack to always set do_kexec_file_syscall=0
> > > > >
> > > > > It sounds like buildroot is patching kexec-tools in ways that break
> > > > > 32-bit ARM, and it sounds like this needs to be reported as a bug to
> > > > > buildroot.
> > > > >
> > > > > That said, I think there's a weakness in the ARM support in
> > > > > kexec-tools, which this patch should address for 2.0.20. Things have
> > > > > changed in the merged patches since 2.0.20, so the return needs to be
> > > > > EFALLBACK not ENOSYS, so please pay attention to exactly which version
> > > > > of kexec-tools you have (whether it's the 2.0.20 tagged version or has
> > > > > further patches from kexec-tools on top.)
> > > > >
> > > > > diff --git a/kexec/arch/arm/kexec-zImage-arm.c b/kexec/arch/arm/kexec-zImage-arm.c
> > > > > index 9a67b8a4db98..ca4e35382ea1 100644
> > > > > --- a/kexec/arch/arm/kexec-zImage-arm.c
> > > > > +++ b/kexec/arch/arm/kexec-zImage-arm.c
> > > > > @@ -421,6 +421,12 @@ int zImage_arm_load(int argc, char **argv, const char *buf, off_t len,
> > > > > };
> > > > > static const char short_options[] = KEXEC_ARCH_OPT_STR "a:r:";
> > > > >
> > > > > + /* We do not support file mode */
> > > > > + if (info->file_mode) {
> > > > > + fprintf(stderr, "syscall kexec_file_load not implemented.\n");
> > > > > + return -ENOSYS;
> > > > > + }
> > > > > +
> > > > > /*
> > > > > * Parse the command line arguments
> > > > > */
> > > > >
> > > > > > So now my test go further, but the final kernel crash.
> > > > > > DEBUG: bootz: run kexec with /tmp/kernel --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 ip=dhcp'
> > > > > > Set DEBUG!
> > > > > > main:1417 OPT_KEXEC_SYSCALL
> > > > > > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > > > > > arch_process_options:119
> > > > > > main:1500
> > > > > > main:1517 res=0 do_load=1
> > > > > > main:1519 res=0 do_kexec_file_syscall=0
> > > > > > my_load:713
> > > > > > Try gzip decompression.
> > > > > > kernel: 0xb693b008 kernel_size: 0x443ac0
> > > > > > get_memory_ranges:36
> > > > > > MEMORY RANGES
> > > > > > 0000000020000000-000000009fffffff (0)
> > > > > > DEBUG: my_load:737 memory_ranges=1
> > > > > > zImage_arm_load:423
> > > > > > zImage header: 0x016f2818 0x00000000 0x00443ac0
> > > > > > zImage size 0x443ac0, file size 0x443ac0
> > > > > > zImage requires 0x00454ac0 bytes
> > > > > > offset 0x00006678 tag 0x5a534c4b size 8
> > > > > > Decompressed kernel sizes:
> > > > > > text+data 0x00b78080 bss 0x0003d3c0 total 0x00bb5440
> > > > > > Resulting kernel space: 0x00fccb40
> > > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > > Check 0/1 536870912 0
> > > > > > Kernel: address=0x20008000 size=0x00fccb40
> > > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > > Check 0/1 536870912 0
> > > > > > Initrd: address=0x20fd5000 size=0x0167213d
> > > > > > DEBUG: locate_hole:237 memory_ranges=1
> > > > > > Check 0/1 536870912 0 type=-1610612737
> > > > > > Check 0/2 536870912 0
> > > > > > Check 1/2 577011712 0
> > > > > > DT : address=0x22648000 size=0x00006043
> > > > > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > > > > nr_segments = 3
> > > > > > segment[0].buf = 0xb693b008
> > > > > > segment[0].bufsz = 0x443ac4
> > > > > > segment[0].mem = 0x20008000
> > > > > > segment[0].memsz = 0x444000
> > > > > > segment[1].buf = 0xb52c8008
> > > > > > segment[1].bufsz = 0x167213d
> > > > > > segment[1].mem = 0x20fd5000
> > > > > > segment[1].memsz = 0x1673000
> > > > > > segment[2].buf = 0x4ef88
> > > > > > segment[2].bufsz = 0x6043
> > > > > > segment[2].mem = 0x2[ 31.265096] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > > > > > 2648000
> > > > > > segment[2].memsz = 0x7000
> > > > > > main:1568 res=0
> > > > > > main:1582 res=0 do_exec=1
> > > > > > [ 31.277297] kexec_core: Starting new kernel
> > > > > > [ 31.282700] Disabling non-boot CPUs ...
> > > > > > [ 31.692085] Bye!
> > > > > > C:0x200080C0-0x2044BAC0->0x20B80B00-0x20FC4500
> > > > >
> > > > > This line shows that we entered the new kernel, which was located
> > > > > (correctly) at 0x200080C0-0x2044BAC0, and it has decided to relocate
> > > > > itself to 0x20B80B00-0x20FC4500.
> > > > >
> > > > > The lack of further output suggests that the decompressor itself
> > > > > wasn't able to run after being relocated higher in memory.
> > > > >
> > > > > It may be worth booting the same kernel image and see what the C:
> > > > > line comes out as there.
> > > > >
> > > >
> > > > I have checked and some CONFIG was missing, now I get one line further:
> > > > [ 32.903765] kexec_core: Starting new kernel
> > > > [ 32.907958] Disabling non-boot CPUs ...
> > > > [ 33.392056] Bye!
> > > > C:0x200080C0-0x2044AE80->0x20B80300-0x20FC30C0
> > > > Uncompressing Linux... done, booting the kernel.
> > > >
> > > > So the uncompressor seems ok.
> > > >
> > > > As you said, I have started the same kernel, but I dont see any C:
> > > > Starting kernel ...
> > > > Uncompressing Linux... done, booting the kernel.
> > > > [ 0.000000] Booting Linux on physical CPU 0x0
> > > > [ 0.000000] Linux version 5.6.0-10890-gc27180b13770-dirty (compile@Red) (gcc version 8.3.0 (Gentoo 8.3.0-r1 p1.1)) #78 SMP Tue Apr 7 14:55:53 CEST 2020
> > > > [ 0.000000] CPU: ARMv7 Processor [410fc075] revision 5 (ARMv7), cr=10c5387d
> > > > [ 0.000000] CPU: div instructions available: patching division code
> > >
> > > Hmm, are you sure you booted the same zImage file? The
> > > "Uncompressing Linux..." messages will be using the same output
> > > functions as the C: line, so it shouldn't be missing.
> > >
> > > In any case, please try adding this patch so we can see what was
> > > passed in r1/r2 to the kernel (not build tested here, sorry).
> > >
> > > diff --git a/arch/arm/boot/compressed/head.S b/arch/arm/boot/compressed/head.S
> > > index e05af1cb3ed4..56dd01c1bae3 100644
> > > --- a/arch/arm/boot/compressed/head.S
> > > +++ b/arch/arm/boot/compressed/head.S
> > > @@ -136,6 +136,27 @@
> > > #endif
> > > .endm
> > >
> > > + .macro dbgent, id, ptr
> > > +#ifdef DEBUG
> > > + kputc #'\n'
> > > + kputc #'I'
> > > + kputc #'D'
> > > + kputc #':'
> > > + kputc #'0'
> > > + kputc #'x'
> > > + kphex \id, 8
> > > + kputc #' '
> > > + kputc #'D'
> > > + kputc #'T'
> > > + kputc #':'
> > > + kputc #'0'
> > > + kputc #'x'
> > > + kphex \ptr, 8
> > > + kputc #'\n'
> > > + kputc #'\r'
> > > +#endif
> > > + .endm
> > > +
> > > .macro enable_cp15_barriers, reg
> > > mrc p15, 0, \reg, c1, c0, 0 @ read SCTLR
> > > tst \reg, #(1 << 5) @ CP15BEN bit set?
> > > @@ -289,7 +310,9 @@
> > > orrcc r4, r4, #1 @ remember we skipped cache_on
> > > blcs cache_on
> > >
> > > -restart: adr r0, LC0
> > > +
> > > +restart: dbgent r7, r8
> > > + adr r0, LC0
> > > ldmia r0, {r1, r2, r3, r6, r11, r12}
> > > ldr sp, [r0, #24]
> > >
> >
> > I use the same kernel for both the initial and the kexec-ed one
> >
> > The first kernel give:
> > Starting kernel ...
> > ID:0x00000000 DT:0x2984E000
> > Uncompressing Linux... done, booting the kernel.
>
> Hmm, I guess the boot loader is loading the image away from the area
> it's going to write.
>
> > [ 32.113191] kexec_core: Starting new kernel
> > [ 32.460412] Bye!
> > ID:0xFFFFFFFF DT:0x2267D000
> > C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
> > ID:0xFFFFFFFF DT:0x2267D000
> > Uncompressing Linux... done, booting the kernel.
>
> So this is saying that the DT blob is at 0x2267d000, but from the
> previous kexec debug output, that said it was supposed to be at
> 0x22648000 (segment[2].mem). If that's correct, it would explain
> why the kernel isn't booting - but could be you've changed something
> else and the previously posted kexec messages are now stale.
>
This is the last boot:
## Loading init Ramdisk from Legacy Image at 2a000000 ...
Image Name:
Image Type: ARM Linux RAMDisk Image (uncompressed)
Data Size: 8031928 Bytes = 7.7 MiB
Load Address: 00000000
Entry Point: 00000000
Verifying Checksum ... OK
## Flattened Device Tree blob at 23000000
Booting using the fdt blob at 0x23000000
Loading Ramdisk to 29857000, end 29fffeb8 ... OK
Loading Device Tree to 2984e000, end 29856fd1 ... OK
Starting kernel ...
ID:0x00000000 DT:0x2984E000
Uncompressing Linux... done, booting the kernel.
[...]
fake uboot stuff
[...]
DEBUG: bootz: run kexec with --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 earlyprintk ip=dhcp'
Set DEBUG!
main:1417 OPT_KEXEC_SYSCALL
main:1422 OPT_KEXEC_SYSCALL_AUTO
arch_process_options:119
main:1500
main:1517 res=0 do_load=1
main:1519 res=0 do_kexec_file_syscall=0
my_load:713
Try gzip decompression.
kernel: 0xb6931008 kernel_size: 0x444fc8
get_memory_ranges:36
MEMORY RANGES
0000000020000000-000000009fffffff (0)
zImage_arm_load:423
zImage header: 0x016f2818 0x00000000 0x00444fc8
zImage size 0x444fc8, file size 0x444fc8
zImage requires 0x00455fc8 bytes
offset 0x00006738 tag 0x5a534c4b size 8
Decompressed kernel sizes:
text+data 0x00b77958 bss 0x0003d428 total 0x00bb4d80
Resulting kernel space: 0x00fcd920
Kernel: address=0x20008000 size=0x00fcd920
Initrd: address=0x20fd6000 size=0x016a6b97
DT : address=0x2267d000 size=0x00006043
kexec_load: entry = 0x20008000 flags = 0x280000
nr_segments = 3
segment[0].buf = 0xb6931008
segment[0].bufsz = 0x444fcc
segment[0].mem = 0x20008000
segment[0].memsz = 0x445000
segment[1].buf = 0xb528a008
segment[1].bufsz = 0x16a6b97
segment[1].mem = 0x20fd6000
segment[1].memsz = 0x16a7000
segment[2].buf = 0x4ef88
segment[2].bufsz = 0x6043
segment[2].mem = 0x2267d000
segment[2].memsz = 0x7000
main:1568 res=0[ 32.098439] sun7i-dwmac 830000.ethernet eth0: Link is Down
main:1582 res=0 do_exec=1
[ 32.113191] kexec_core: Starting new kernel
[ 32.460412] Bye!
ID:0xFFFFFFFF DT:0x2267D000
C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
ID:0xFFFFFFFF DT:0x2267D000
Uncompressing Linux... done, booting the kernel.
On Wed, Apr 08, 2020 at 10:40:29AM +0200, Corentin Labbe wrote:
> This is the last boot:
> ## Loading init Ramdisk from Legacy Image at 2a000000 ...
> Image Name:
> Image Type: ARM Linux RAMDisk Image (uncompressed)
> Data Size: 8031928 Bytes = 7.7 MiB
> Load Address: 00000000
> Entry Point: 00000000
> Verifying Checksum ... OK
> ## Flattened Device Tree blob at 23000000
> Booting using the fdt blob at 0x23000000
> Loading Ramdisk to 29857000, end 29fffeb8 ... OK
> Loading Device Tree to 2984e000, end 29856fd1 ... OK
> Starting kernel ...
> ID:0x00000000 DT:0x2984E000
> Uncompressing Linux... done, booting the kernel.
> [...]
> fake uboot stuff
> [...]
> DEBUG: bootz: run kexec with --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 earlyprintk ip=dhcp'
> Set DEBUG!
> main:1417 OPT_KEXEC_SYSCALL
> main:1422 OPT_KEXEC_SYSCALL_AUTO
> arch_process_options:119
> main:1500
> main:1517 res=0 do_load=1
> main:1519 res=0 do_kexec_file_syscall=0
> my_load:713
> Try gzip decompression.
> kernel: 0xb6931008 kernel_size: 0x444fc8
> get_memory_ranges:36
> MEMORY RANGES
> 0000000020000000-000000009fffffff (0)
> zImage_arm_load:423
> zImage header: 0x016f2818 0x00000000 0x00444fc8
> zImage size 0x444fc8, file size 0x444fc8
> zImage requires 0x00455fc8 bytes
> offset 0x00006738 tag 0x5a534c4b size 8
> Decompressed kernel sizes:
> text+data 0x00b77958 bss 0x0003d428 total 0x00bb4d80
> Resulting kernel space: 0x00fcd920
> Kernel: address=0x20008000 size=0x00fcd920
> Initrd: address=0x20fd6000 size=0x016a6b97
> DT : address=0x2267d000 size=0x00006043
> kexec_load: entry = 0x20008000 flags = 0x280000
> nr_segments = 3
> segment[0].buf = 0xb6931008
> segment[0].bufsz = 0x444fcc
> segment[0].mem = 0x20008000
> segment[0].memsz = 0x445000
> segment[1].buf = 0xb528a008
> segment[1].bufsz = 0x16a6b97
> segment[1].mem = 0x20fd6000
> segment[1].memsz = 0x16a7000
> segment[2].buf = 0x4ef88
> segment[2].bufsz = 0x6043
> segment[2].mem = 0x2267d000
> segment[2].memsz = 0x7000
> main:1568 res=0[ 32.098439] sun7i-dwmac 830000.ethernet eth0: Link is Down
> main:1582 res=0 do_exec=1
> [ 32.113191] kexec_core: Starting new kernel
> [ 32.460412] Bye!
> ID:0xFFFFFFFF DT:0x2267D000
> C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
> ID:0xFFFFFFFF DT:0x2267D000
> Uncompressing Linux... done, booting the kernel.
Okay, that looks fine:
- the DT is out of the way, so shouldn't be corrupted by the
decompression process.
- the decompressor writes the kernel image to 0x20008000 to 0x20b7f958
which is clear of the decompressor itself (which relocated itself
to 0x20b80500).
- the ID doesn't matter for DT booting purposes.
I see you've gone back to using your own dtb rather than one derived
from the booting kernel. I strongly recommend against giving your own
dtb to kexec as if the boot loader modifies the DTB when calling the
first kernel (such as adding memory region information, adding MAC
addresses, enabling or disabling various devices) those modifications
will be lost if you supply your own DTB to kexec.
Please drop "--dtb /tmp/dtb".
--
RMK's Patch system: https://www.armlinux.org.uk/developer/patches/
FTTC broadband for 0.8mile line in suburbia: sync at 10.2Mbps down 587kbps up
On Wed, Apr 08, 2020 at 10:33:20AM +0100, Russell King - ARM Linux admin wrote:
> On Wed, Apr 08, 2020 at 10:40:29AM +0200, Corentin Labbe wrote:
> > This is the last boot:
> > ## Loading init Ramdisk from Legacy Image at 2a000000 ...
> > Image Name:
> > Image Type: ARM Linux RAMDisk Image (uncompressed)
> > Data Size: 8031928 Bytes = 7.7 MiB
> > Load Address: 00000000
> > Entry Point: 00000000
> > Verifying Checksum ... OK
> > ## Flattened Device Tree blob at 23000000
> > Booting using the fdt blob at 0x23000000
> > Loading Ramdisk to 29857000, end 29fffeb8 ... OK
> > Loading Device Tree to 2984e000, end 29856fd1 ... OK
> > Starting kernel ...
> > ID:0x00000000 DT:0x2984E000
> > Uncompressing Linux... done, booting the kernel.
> > [...]
> > fake uboot stuff
> > [...]
> > DEBUG: bootz: run kexec with --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 earlyprintk ip=dhcp'
> > Set DEBUG!
> > main:1417 OPT_KEXEC_SYSCALL
> > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > arch_process_options:119
> > main:1500
> > main:1517 res=0 do_load=1
> > main:1519 res=0 do_kexec_file_syscall=0
> > my_load:713
> > Try gzip decompression.
> > kernel: 0xb6931008 kernel_size: 0x444fc8
> > get_memory_ranges:36
> > MEMORY RANGES
> > 0000000020000000-000000009fffffff (0)
> > zImage_arm_load:423
> > zImage header: 0x016f2818 0x00000000 0x00444fc8
> > zImage size 0x444fc8, file size 0x444fc8
> > zImage requires 0x00455fc8 bytes
> > offset 0x00006738 tag 0x5a534c4b size 8
> > Decompressed kernel sizes:
> > text+data 0x00b77958 bss 0x0003d428 total 0x00bb4d80
> > Resulting kernel space: 0x00fcd920
> > Kernel: address=0x20008000 size=0x00fcd920
> > Initrd: address=0x20fd6000 size=0x016a6b97
> > DT : address=0x2267d000 size=0x00006043
> > kexec_load: entry = 0x20008000 flags = 0x280000
> > nr_segments = 3
> > segment[0].buf = 0xb6931008
> > segment[0].bufsz = 0x444fcc
> > segment[0].mem = 0x20008000
> > segment[0].memsz = 0x445000
> > segment[1].buf = 0xb528a008
> > segment[1].bufsz = 0x16a6b97
> > segment[1].mem = 0x20fd6000
> > segment[1].memsz = 0x16a7000
> > segment[2].buf = 0x4ef88
> > segment[2].bufsz = 0x6043
> > segment[2].mem = 0x2267d000
> > segment[2].memsz = 0x7000
> > main:1568 res=0[ 32.098439] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > main:1582 res=0 do_exec=1
> > [ 32.113191] kexec_core: Starting new kernel
> > [ 32.460412] Bye!
> > ID:0xFFFFFFFF DT:0x2267D000
> > C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
> > ID:0xFFFFFFFF DT:0x2267D000
> > Uncompressing Linux... done, booting the kernel.
>
> Okay, that looks fine:
> - the DT is out of the way, so shouldn't be corrupted by the
> decompression process.
> - the decompressor writes the kernel image to 0x20008000 to 0x20b7f958
> which is clear of the decompressor itself (which relocated itself
> to 0x20b80500).
> - the ID doesn't matter for DT booting purposes.
>
> I see you've gone back to using your own dtb rather than one derived
> from the booting kernel. I strongly recommend against giving your own
> dtb to kexec as if the boot loader modifies the DTB when calling the
> first kernel (such as adding memory region information, adding MAC
> addresses, enabling or disabling various devices) those modifications
> will be lost if you supply your own DTB to kexec.
>
> Please drop "--dtb /tmp/dtb".
>
Thanks it works now.
With a working setup I diffed dtb and the one given by uboot and it seems the missing node for booting was /memory.
So now I am able to boot the same kernel as the "fake uboot".
For booting a different kernel, I fdtput the dtb (for memory and bootargs), and it works until it try to mount the roofs which it find corrupt.
Since the rootfs I get by the fakeuboot is a "uboot legacy image" (rootfs.cpio.gz modified by mkimage), I drop the first 64bytes but it seems not sufficiant. (even if file say it is a good rootfs.cpio.gz)
Or perhaps the kernel get an invalid initrd address.
Anyway the main issue is fixed.
Thanks for your help
On Wed, Apr 08, 2020 at 05:24:12PM +0200, Corentin Labbe wrote:
> On Wed, Apr 08, 2020 at 10:33:20AM +0100, Russell King - ARM Linux admin wrote:
> > On Wed, Apr 08, 2020 at 10:40:29AM +0200, Corentin Labbe wrote:
> > > This is the last boot:
> > > ## Loading init Ramdisk from Legacy Image at 2a000000 ...
> > > Image Name:
> > > Image Type: ARM Linux RAMDisk Image (uncompressed)
> > > Data Size: 8031928 Bytes = 7.7 MiB
> > > Load Address: 00000000
> > > Entry Point: 00000000
> > > Verifying Checksum ... OK
> > > ## Flattened Device Tree blob at 23000000
> > > Booting using the fdt blob at 0x23000000
> > > Loading Ramdisk to 29857000, end 29fffeb8 ... OK
> > > Loading Device Tree to 2984e000, end 29856fd1 ... OK
> > > Starting kernel ...
> > > ID:0x00000000 DT:0x2984E000
> > > Uncompressing Linux... done, booting the kernel.
> > > [...]
> > > fake uboot stuff
> > > [...]
> > > DEBUG: bootz: run kexec with --debug --kexec-syscall --force --initrd /tmp/ramdisk --dtb /tmp/dtb --command-line='console=ttyS0,115200n8 root=/dev/ram0 earlycon=uart,mmio32,0x7000000 earlyprintk ip=dhcp'
> > > Set DEBUG!
> > > main:1417 OPT_KEXEC_SYSCALL
> > > main:1422 OPT_KEXEC_SYSCALL_AUTO
> > > arch_process_options:119
> > > main:1500
> > > main:1517 res=0 do_load=1
> > > main:1519 res=0 do_kexec_file_syscall=0
> > > my_load:713
> > > Try gzip decompression.
> > > kernel: 0xb6931008 kernel_size: 0x444fc8
> > > get_memory_ranges:36
> > > MEMORY RANGES
> > > 0000000020000000-000000009fffffff (0)
> > > zImage_arm_load:423
> > > zImage header: 0x016f2818 0x00000000 0x00444fc8
> > > zImage size 0x444fc8, file size 0x444fc8
> > > zImage requires 0x00455fc8 bytes
> > > offset 0x00006738 tag 0x5a534c4b size 8
> > > Decompressed kernel sizes:
> > > text+data 0x00b77958 bss 0x0003d428 total 0x00bb4d80
> > > Resulting kernel space: 0x00fcd920
> > > Kernel: address=0x20008000 size=0x00fcd920
> > > Initrd: address=0x20fd6000 size=0x016a6b97
> > > DT : address=0x2267d000 size=0x00006043
> > > kexec_load: entry = 0x20008000 flags = 0x280000
> > > nr_segments = 3
> > > segment[0].buf = 0xb6931008
> > > segment[0].bufsz = 0x444fcc
> > > segment[0].mem = 0x20008000
> > > segment[0].memsz = 0x445000
> > > segment[1].buf = 0xb528a008
> > > segment[1].bufsz = 0x16a6b97
> > > segment[1].mem = 0x20fd6000
> > > segment[1].memsz = 0x16a7000
> > > segment[2].buf = 0x4ef88
> > > segment[2].bufsz = 0x6043
> > > segment[2].mem = 0x2267d000
> > > segment[2].memsz = 0x7000
> > > main:1568 res=0[ 32.098439] sun7i-dwmac 830000.ethernet eth0: Link is Down
> > > main:1582 res=0 do_exec=1
> > > [ 32.113191] kexec_core: Starting new kernel
> > > [ 32.460412] Bye!
> > > ID:0xFFFFFFFF DT:0x2267D000
> > > C:0x200080C0-0x2044CFE0->0x20B80500-0x20FC5420
> > > ID:0xFFFFFFFF DT:0x2267D000
> > > Uncompressing Linux... done, booting the kernel.
> >
> > Okay, that looks fine:
> > - the DT is out of the way, so shouldn't be corrupted by the
> > decompression process.
> > - the decompressor writes the kernel image to 0x20008000 to 0x20b7f958
> > which is clear of the decompressor itself (which relocated itself
> > to 0x20b80500).
> > - the ID doesn't matter for DT booting purposes.
> >
> > I see you've gone back to using your own dtb rather than one derived
> > from the booting kernel. I strongly recommend against giving your own
> > dtb to kexec as if the boot loader modifies the DTB when calling the
> > first kernel (such as adding memory region information, adding MAC
> > addresses, enabling or disabling various devices) those modifications
> > will be lost if you supply your own DTB to kexec.
> >
> > Please drop "--dtb /tmp/dtb".
> >
>
> Thanks it works now.
>
> With a working setup I diffed dtb and the one given by uboot and it seems the missing node for booting was /memory.
That is more or less expected - it seems kexec never adds the /memory
nodes to the dtb. I've no idea whether it should or should not be doing
so, and is for others to thrash out the arguments for and against what
should be modified and how.
The upshot of the existing kexec behaviour is you can't take a dtb from
the kernel build and use it with kexec.
> For booting a different kernel, I fdtput the dtb (for memory and bootargs), and it works until it try to mount the roofs which it find corrupt.
rootfs or initrd supplied to kexec?
> Since the rootfs I get by the fakeuboot is a "uboot legacy image" (rootfs.cpio.gz modified by mkimage), I drop the first 64bytes but it seems not sufficiant. (even if file say it is a good rootfs.cpio.gz)
> Or perhaps the kernel get an invalid initrd address.
Yep, the file given via --initrd or --ramdisk is loaded exactly as-is
into memory, no parsing of the file is done. Neither the kernel, nor
kexec, does any u-boot parsing of the initrd/ramdisk file; they are
not u-boot.
If you want to try giving the kernel a bit more space, you can try
--image-size=$((0x01000000)) to see whether that affects the ramdisk
image problem - if it does, it means we're still not properly
calculating the space the kernel needs.
--
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