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The setup_data links are appended to the compressed kernel image. Since the kernel image is typically loaded at 0x100000, setup_data lives at `0x100000 + compressed_size`, which does not get relocated during the kernel's boot process. The kernel typically decompresses the image starting at address 0x1000000 (note: there's one more zero there than the compressed image above). This usually is fine for most kernels. However, if the compressed image is actually quite large, then setup_data will live at a `0x100000 + compressed_size` that extends into the decompressed zone at 0x1000000. In other words, if compressed_size is larger than `0x1000000 - 0x100000`, then the decompression step will clobber setup_data, resulting in crashes. Visually, what happens now is that QEMU appends setup_data to the kernel image: kernel image setup_data |--------------------------||----------------| 0x100000 0x100000+l1 0x100000+l1+l2 The problem is that this decompresses to 0x1000000 (one more zero). So if l1 is > (0x1000000-0x100000), then this winds up looking like: kernel image setup_data |--------------------------||----------------| 0x100000 0x100000+l1 0x100000+l1+l2 d e c o m p r e s s e d k e r n e l |-------------------------------------------------------------| 0x1000000 0x1000000+l3 The decompressed kernel seemingly overwriting the compressed kernel image isn't a problem, because that gets relocated to a higher address early on in the boot process, at the end of startup_64. setup_data, however, stays in the same place, since those links are self referential and nothing fixes them up. So the decompressed kernel clobbers it. Fix this by appending setup_data to the cmdline blob rather than the kernel image blob, which remains at a lower address that won't get clobbered. This could have been done by overwriting the initrd blob instead, but that poses big difficulties, such as no longer being able to use memory mapped files for initrd, hurting performance, and, more importantly, the initrd address calculation is hard coded in qboot, and it always grows down rather than up, which means lots of brittle semantics would have to be changed around, incurring more complexity. In contrast, using cmdline is simple and doesn't interfere with anything. The microvm machine has a gross hack where it fiddles with fw_cfg data after the fact. So this hack is updated to account for this appending, by reserving some bytes. Fixup-by: Michael S. Tsirkin <mst@redhat.com> Cc: x86@kernel.org Cc: Philippe Mathieu-Daudé <philmd@linaro.org> Cc: H. Peter Anvin <hpa@zytor.com> Cc: Borislav Petkov <bp@alien8.de> Cc: Eric Biggers <ebiggers@kernel.org> Signed-off-by: Jason A. Donenfeld <Jason@zx2c4.com> Message-Id: <20221230220725.618763-1-Jason@zx2c4.com> Message-ID: <20230128061015-mutt-send-email-mst@kernel.org> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com> Tested-by: Eric Biggers <ebiggers@google.com> Tested-by: Mathias Krause <minipli@grsecurity.net> |
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.. | ||
chrp_nvram.c | ||
ds1225y.c | ||
eeprom93xx.c | ||
eeprom_at24c.c | ||
fw_cfg-interface.c | ||
fw_cfg.c | ||
Kconfig | ||
mac_nvram.c | ||
meson.build | ||
npcm7xx_otp.c | ||
nrf51_nvm.c | ||
spapr_nvram.c | ||
trace-events | ||
trace.h | ||
xlnx-bbram.c | ||
xlnx-efuse-crc.c | ||
xlnx-efuse.c | ||
xlnx-versal-efuse-cache.c | ||
xlnx-versal-efuse-ctrl.c | ||
xlnx-zynqmp-efuse.c |