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Under certain circumstances normal xen-mapcache functioning may be broken by guest's actions. This may lead to either QEMU performing exit() due to a caught bad pointer (and with QEMU process gone the guest domain simply appears hung afterwards) or actual use of the incorrect pointer inside QEMU address space -- a write to unmapped memory is possible. The bug is hard to reproduce on a i440 machine as multiple DMA sources are required (though it's possible in theory, using multiple emulated devices), but can be reproduced somewhat easily on a Q35 machine using an emulated AHCI controller -- each NCQ queue command slot may be used as an independent DMA source ex. using READ FPDMA QUEUED command, so a single storage device on the AHCI controller port will be enough to produce multiple DMAs (up to 32). The detailed description of the issue follows. Xen-mapcache provides an ability to map parts of a guest memory into QEMU's own address space to work with. There are two types of cache lookups: - translating a guest physical address into a pointer in QEMU's address space, mapping a part of guest domain memory if necessary (while trying to reduce a number of such (re)mappings to a minimum) - translating a QEMU's pointer back to its physical address in guest RAM These lookups are managed via two linked-lists of structures. MapCacheEntry is used for forward cache lookups, while MapCacheRev -- for reverse lookups. Every guest physical address is broken down into 2 parts: address_index = phys_addr >> MCACHE_BUCKET_SHIFT; address_offset = phys_addr & (MCACHE_BUCKET_SIZE - 1); MCACHE_BUCKET_SHIFT depends on a system (32/64) and is equal to 20 for a 64-bit system (which assumed for the further description). Basically, this means that we deal with 1 MB chunks and offsets within those 1 MB chunks. All mappings are created with 1MB-granularity, i.e. 1MB/2MB/3MB etc. Most DMA transfers typically are less than 1MB, however, if the transfer crosses any 1MB border(s) - than a nearest larger mapping size will be used, so ex. a 512-byte DMA transfer with the start address 700FFF80h will actually require a 2MB range. Current implementation assumes that MapCacheEntries are unique for a given address_index and size pair and that a single MapCacheEntry may be reused by multiple requests -- in this case the 'lock' field will be larger than 1. On other hand, each requested guest physical address (with 'lock' flag) is described by each own MapCacheRev. So there may be multiple MapCacheRev entries corresponding to a single MapCacheEntry. The xen-mapcache code uses MapCacheRev entries to retrieve the address_index & size pair which in turn used to find a related MapCacheEntry. The 'lock' field within a MapCacheEntry structure is actually a reference counter which shows a number of corresponding MapCacheRev entries. The bug lies in ability for the guest to indirectly manipulate with the xen-mapcache MapCacheEntries list via a special sequence of DMA operations, typically for storage devices. In order to trigger the bug, guest needs to issue DMA operations in specific order and timing. Although xen-mapcache is protected by the mutex lock -- this doesn't help in this case, as the bug is not due to a race condition. Suppose we have 3 DMA transfers, namely A, B and C, where - transfer A crosses 1MB border and thus uses a 2MB mapping - transfers B and C are normal transfers within 1MB range - and all 3 transfers belong to the same address_index In this case, if all these transfers are to be executed one-by-one (without overlaps), no special treatment necessary -- each transfer's mapping lock will be set and then cleared on unmap before starting the next transfer. The situation changes when DMA transfers overlap in time, ex. like this: |===== transfer A (2MB) =====| |===== transfer B (1MB) =====| |===== transfer C (1MB) =====| time ---> In this situation the following sequence of actions happens: 1. transfer A creates a mapping to 2MB area (lock=1) 2. transfer B (1MB) tries to find available mapping but cannot find one because transfer A is still in progress, and it has 2MB size + non-zero lock. So transfer B creates another mapping -- same address_index, but 1MB size. 3. transfer A completes, making 1st mapping entry available by setting its lock to 0 4. transfer C starts and tries to find available mapping entry and sees that 1st entry has lock=0, so it uses this entry but remaps the mapping to a 1MB size 5. transfer B completes and by this time - there are two locked entries in the MapCacheEntry list with the SAME values for both address_index and size - the entry for transfer B actually resides farther in list while transfer C's entry is first 6. xen_ram_addr_from_mapcache() for transfer B gets correct address_index and size pair from corresponding MapCacheRev entry, but then it starts looking for MapCacheEntry with these values and finds the first entry -- which belongs to transfer C. At this point there may be following possible (bad) consequences: 1. xen_ram_addr_from_mapcache() will use a wrong entry->vaddr_base value in this statement: raddr = (reventry->paddr_index << MCACHE_BUCKET_SHIFT) + ((unsigned long) ptr - (unsigned long) entry->vaddr_base); resulting in an incorrent raddr value returned from the function. The (ptr - entry->vaddr_base) expression may produce both positive and negative numbers and its actual value may differ greatly as there are many map/unmap operations take place. If the value will be beyond guest RAM limits then a "Bad RAM offset" error will be triggered and logged, followed by exit() in QEMU. 2. If raddr value won't exceed guest RAM boundaries, the same sequence of actions will be performed for xen_invalidate_map_cache_entry() on DMA unmap, resulting in a wrong MapCacheEntry being unmapped while DMA operation which uses it is still active. The above example must be extended by one more DMA transfer in order to allow unmapping as the first mapping in the list is sort of resident. The patch modifies the behavior in which MapCacheEntry's are added to the list, avoiding duplicates. Signed-off-by: Alexey Gerasimenko <x1917x@gmail.com> Signed-off-by: Stefano Stabellini <sstabellini@kernel.org> |
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.. | ||
kvm | ||
xen | ||
acpi-build.c | ||
acpi-build.h | ||
amd_iommu.c | ||
amd_iommu.h | ||
intel_iommu_internal.h | ||
intel_iommu.c | ||
kvmvapic.c | ||
Makefile.objs | ||
multiboot.c | ||
multiboot.h | ||
pc_piix.c | ||
pc_q35.c | ||
pc_sysfw.c | ||
pc.c | ||
pci-assign-load-rom.c | ||
trace-events | ||
x86-iommu.c |