CVE-2026-53360 (GCVE-0-2026-53360)

Vulnerability from cvelistv5 – Published: 2026-07-04 11:53 – Updated: 2026-07-04 11:53
VLAI
Title
KVM: SEV: Require in-GHCB scratch area if GHCB v2+ is in use
Summary
In the Linux kernel, the following vulnerability has been resolved: KVM: SEV: Require in-GHCB scratch area if GHCB v2+ is in use As per the GHCB spec, when using GHCB v2+ require the software scratch area to reside in the GHCB's shared buffer. Note, things like Page State Change (PSC) requests _rely_ on this behavior, as the guest can't provide a length when making the request, i.e. the size of the guest payload is bounded by the size of the shared buffer. Failure to force usage of the GHCB, and a slew of other flaws, lets a malicious SNP guest corrupt host kernel heap memory, and leak host heap layout information. setup_vmgexit_scratch() allocates a buffer via kvzalloc(exit_info_2), where exit_info_2 is guest-controlled. With exit_info_2=24, this yields a 24-byte allocation in kmalloc-cg-32 (32-byte slab objects). The buffer holds an 8-byte psc_hdr followed by 8-byte psc_entry structs, so only entries[0] and entries[1] are in-bounds. snp_begin_psc() validates end_entry against VMGEXIT_PSC_MAX_COUNT (253) but NOT against the actual buffer size: idx_end = hdr->end_entry; if (idx_end >= VMGEXIT_PSC_MAX_COUNT) { // checks 253, not buffer snp_complete_psc(svm, ...); return 1; } for (idx = idx_start; idx <= idx_end; idx++) { entry_start = entries[idx]; // OOB when idx >= 2 The guest sets end_entry=10+, causing the host to iterate entries[2+] which are OOB into adjacent slab objects. For each OOB entry: - The host reads 8 bytes (OOB READ / info leak oracle) - If the data passes PSC validation, __snp_complete_one_psc() writes cur_page = 1 or 512 into the entry (OOB WRITE, sev.c:3806) - If validation fails, the error response reveals whether adjacent memory is zero vs non-zero (information disclosure to guest) The guest controls allocation size (exit_info_2), entry range (cur_entry/end_entry), and can fire unlimited VMGEXITs to repeatedly hit different slab positions. By exploiting the variety of bugs, a malicious SEV-SNP guest can: - OOB read adjacent kmalloc-cg-32 objects (heap layout disclosure) - OOB write cur_page bits into adjacent objects (heap corruption) - Trigger use-after-free conditions across VMGEXITs E.g. with KASAN enabled, a single insmod of the PoC guest module produces 73 KASAN reports: BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x126/0x890 Read of size 8 at addr ffff888219ffb5e0 by task qemu-system-x86/2199 BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x468/0x890 Write of size 8 at addr ffff888351566648 by task qemu-system-x86/2199 The buggy address belongs to the object at ffff888XXXXXXXXX which belongs to the cache kmalloc-cg-32 of size 32 The buggy address is located N bytes to the right of allocated 32-byte region [ffff888XXXXXXXXX, ffff888XXXXXXXXX) Breakdown: 62 slab-out-of-bounds (reads + writes past allocation) 7 slab-use-after-free 4 use-after-free All credit to Stan for the wonderful description and reproducer! [sean: write changelog]
Severity
No CVSS data available.
Assigner
Impacted products
Vendor Product Version
Linux Linux Affected: 4af663c2f64a8d252e690c60cf8b8abf22dc2951 , < bf9ba093fbb83c0c9a3dedd50efec29424eca2fc (git)
Affected: 4af663c2f64a8d252e690c60cf8b8abf22dc2951 , < c9b4198fbc6ed99a9da4bee9f74bb730f926c9ae (git)
Affected: 4af663c2f64a8d252e690c60cf8b8abf22dc2951 , < b328ede59ac34e7998e1eee5e5f0cc26c2a91846 (git)
Affected: 4af663c2f64a8d252e690c60cf8b8abf22dc2951 , < db3f2195d29344a3cf1e9dd9ab7f21ced7308cf7 (git)
Create a notification for this product.
Linux Linux Affected: 6.10
Unaffected: 0 , < 6.10 (semver)
Unaffected: 6.12.93 , ≤ 6.12.* (semver)
Unaffected: 6.18.35 , ≤ 6.18.* (semver)
Unaffected: 7.0.12 , ≤ 7.0.* (semver)
Unaffected: 7.1 , ≤ * (original_commit_for_fix)
Create a notification for this product.
Show details on NVD website

{
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      "affected": [
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          "defaultStatus": "unaffected",
          "product": "Linux",
          "programFiles": [
            "arch/x86/kvm/svm/sev.c"
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          "programFiles": [
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          "vendor": "Linux",
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          "value": "In the Linux kernel, the following vulnerability has been resolved:\n\nKVM: SEV: Require in-GHCB scratch area if GHCB v2+ is in use\n\nAs per the GHCB spec, when using GHCB v2+ require the software scratch area\nto reside in the GHCB\u0027s shared buffer.  Note, things like Page State Change\n(PSC) requests _rely_ on this behavior, as the guest can\u0027t provide a length\nwhen making the request, i.e. the size of the guest payload is bounded by\nthe size of the shared buffer.\n\nFailure to force usage of the GHCB, and a slew of other flaws, lets a\nmalicious SNP guest corrupt host kernel heap memory, and leak host heap\nlayout information.\n\nsetup_vmgexit_scratch() allocates a buffer via kvzalloc(exit_info_2),\nwhere exit_info_2 is guest-controlled. With exit_info_2=24, this yields\na 24-byte allocation in kmalloc-cg-32 (32-byte slab objects). The buffer\nholds an 8-byte psc_hdr followed by 8-byte psc_entry structs, so only\nentries[0] and entries[1] are in-bounds.\n\nsnp_begin_psc() validates end_entry against VMGEXIT_PSC_MAX_COUNT (253)\nbut NOT against the actual buffer size:\n\n      idx_end = hdr-\u003eend_entry;\n\n      if (idx_end \u003e= VMGEXIT_PSC_MAX_COUNT) {   // checks 253, not buffer\n          snp_complete_psc(svm, ...);\n          return 1;\n      }\n\n      for (idx = idx_start; idx \u003c= idx_end; idx++) {\n          entry_start = entries[idx];           // OOB when idx \u003e= 2\n\nThe guest sets end_entry=10+, causing the host to iterate entries[2+]\nwhich are OOB into adjacent slab objects. For each OOB entry:\n\n  - The host reads 8 bytes (OOB READ / info leak oracle)\n  - If the data passes PSC validation, __snp_complete_one_psc() writes\n    cur_page = 1 or 512 into the entry (OOB WRITE, sev.c:3806)\n  - If validation fails, the error response reveals whether adjacent\n    memory is zero vs non-zero (information disclosure to guest)\n\nThe guest controls allocation size (exit_info_2), entry range\n(cur_entry/end_entry), and can fire unlimited VMGEXITs to repeatedly\nhit different slab positions.\n\nBy exploiting the variety of bugs, a malicious SEV-SNP guest can:\n    - OOB read adjacent kmalloc-cg-32 objects (heap layout disclosure)\n    - OOB write cur_page bits into adjacent objects (heap corruption)\n    - Trigger use-after-free conditions across VMGEXITs\n\nE.g. with KASAN enabled, a single insmod of the PoC guest module\nproduces 73 KASAN reports:\n\n    BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x126/0x890\n    Read of size 8 at addr ffff888219ffb5e0 by task qemu-system-x86/2199\n\n    BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x468/0x890\n    Write of size 8 at addr ffff888351566648 by task qemu-system-x86/2199\n\n    The buggy address belongs to the object at ffff888XXXXXXXXX\n     which belongs to the cache kmalloc-cg-32 of size 32\n    The buggy address is located N bytes to the right of\n     allocated 32-byte region [ffff888XXXXXXXXX, ffff888XXXXXXXXX)\n\n  Breakdown:\n    62 slab-out-of-bounds (reads + writes past allocation)\n     7 slab-use-after-free\n     4 use-after-free\n\nAll credit to Stan for the wonderful description and reproducer!\n\n[sean: write changelog]"
        }
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      "providerMetadata": {
        "dateUpdated": "2026-07-04T11:53:58.657Z",
        "orgId": "416baaa9-dc9f-4396-8d5f-8c081fb06d67",
        "shortName": "Linux"
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        },
        {
          "url": "https://git.kernel.org/stable/c/db3f2195d29344a3cf1e9dd9ab7f21ced7308cf7"
        }
      ],
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    "assignerShortName": "Linux",
    "cveId": "CVE-2026-53360",
    "datePublished": "2026-07-04T11:53:58.657Z",
    "dateReserved": "2026-06-09T07:44:35.400Z",
    "dateUpdated": "2026-07-04T11:53:58.657Z",
    "state": "PUBLISHED"
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    "epss": {
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      "date": "2026-07-06",
      "epss": "0.00267",
      "percentile": "0.18325"
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    "nvd": "{\"cve\":{\"id\":\"CVE-2026-53360\",\"sourceIdentifier\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\",\"published\":\"2026-07-04T12:17:01.880\",\"lastModified\":\"2026-07-04T12:17:01.880\",\"vulnStatus\":\"Received\",\"cveTags\":[],\"descriptions\":[{\"lang\":\"en\",\"value\":\"In the Linux kernel, the following vulnerability has been resolved:\\n\\nKVM: SEV: Require in-GHCB scratch area if GHCB v2+ is in use\\n\\nAs per the GHCB spec, when using GHCB v2+ require the software scratch area\\nto reside in the GHCB\u0027s shared buffer.  Note, things like Page State Change\\n(PSC) requests _rely_ on this behavior, as the guest can\u0027t provide a length\\nwhen making the request, i.e. the size of the guest payload is bounded by\\nthe size of the shared buffer.\\n\\nFailure to force usage of the GHCB, and a slew of other flaws, lets a\\nmalicious SNP guest corrupt host kernel heap memory, and leak host heap\\nlayout information.\\n\\nsetup_vmgexit_scratch() allocates a buffer via kvzalloc(exit_info_2),\\nwhere exit_info_2 is guest-controlled. With exit_info_2=24, this yields\\na 24-byte allocation in kmalloc-cg-32 (32-byte slab objects). The buffer\\nholds an 8-byte psc_hdr followed by 8-byte psc_entry structs, so only\\nentries[0] and entries[1] are in-bounds.\\n\\nsnp_begin_psc() validates end_entry against VMGEXIT_PSC_MAX_COUNT (253)\\nbut NOT against the actual buffer size:\\n\\n      idx_end = hdr-\u003eend_entry;\\n\\n      if (idx_end \u003e= VMGEXIT_PSC_MAX_COUNT) {   // checks 253, not buffer\\n          snp_complete_psc(svm, ...);\\n          return 1;\\n      }\\n\\n      for (idx = idx_start; idx \u003c= idx_end; idx++) {\\n          entry_start = entries[idx];           // OOB when idx \u003e= 2\\n\\nThe guest sets end_entry=10+, causing the host to iterate entries[2+]\\nwhich are OOB into adjacent slab objects. For each OOB entry:\\n\\n  - The host reads 8 bytes (OOB READ / info leak oracle)\\n  - If the data passes PSC validation, __snp_complete_one_psc() writes\\n    cur_page = 1 or 512 into the entry (OOB WRITE, sev.c:3806)\\n  - If validation fails, the error response reveals whether adjacent\\n    memory is zero vs non-zero (information disclosure to guest)\\n\\nThe guest controls allocation size (exit_info_2), entry range\\n(cur_entry/end_entry), and can fire unlimited VMGEXITs to repeatedly\\nhit different slab positions.\\n\\nBy exploiting the variety of bugs, a malicious SEV-SNP guest can:\\n    - OOB read adjacent kmalloc-cg-32 objects (heap layout disclosure)\\n    - OOB write cur_page bits into adjacent objects (heap corruption)\\n    - Trigger use-after-free conditions across VMGEXITs\\n\\nE.g. with KASAN enabled, a single insmod of the PoC guest module\\nproduces 73 KASAN reports:\\n\\n    BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x126/0x890\\n    Read of size 8 at addr ffff888219ffb5e0 by task qemu-system-x86/2199\\n\\n    BUG: KASAN: slab-out-of-bounds in snp_begin_psc+0x468/0x890\\n    Write of size 8 at addr ffff888351566648 by task qemu-system-x86/2199\\n\\n    The buggy address belongs to the object at ffff888XXXXXXXXX\\n     which belongs to the cache kmalloc-cg-32 of size 32\\n    The buggy address is located N bytes to the right of\\n     allocated 32-byte region [ffff888XXXXXXXXX, ffff888XXXXXXXXX)\\n\\n  Breakdown:\\n    62 slab-out-of-bounds (reads + writes past allocation)\\n     7 slab-use-after-free\\n     4 use-after-free\\n\\nAll credit to Stan for the wonderful description and reproducer!\\n\\n[sean: write changelog]\"}],\"affected\":[{\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\",\"affectedData\":[{\"vendor\":\"Linux\",\"product\":\"Linux\",\"defaultStatus\":\"unaffected\",\"programFiles\":[\"arch/x86/kvm/svm/sev.c\"],\"repo\":\"https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git\",\"versions\":[{\"version\":\"4af663c2f64a8d252e690c60cf8b8abf22dc2951\",\"lessThan\":\"bf9ba093fbb83c0c9a3dedd50efec29424eca2fc\",\"versionType\":\"git\",\"status\":\"affected\"},{\"version\":\"4af663c2f64a8d252e690c60cf8b8abf22dc2951\",\"lessThan\":\"c9b4198fbc6ed99a9da4bee9f74bb730f926c9ae\",\"versionType\":\"git\",\"status\":\"affected\"},{\"version\":\"4af663c2f64a8d252e690c60cf8b8abf22dc2951\",\"lessThan\":\"b328ede59ac34e7998e1eee5e5f0cc26c2a91846\",\"versionType\":\"git\",\"status\":\"affected\"},{\"version\":\"4af663c2f64a8d252e690c60cf8b8abf22dc2951\",\"lessThan\":\"db3f2195d29344a3cf1e9dd9ab7f21ced7308cf7\",\"versionType\":\"git\",\"status\":\"affected\"}]},{\"vendor\":\"Linux\",\"product\":\"Linux\",\"defaultStatus\":\"affected\",\"programFiles\":[\"arch/x86/kvm/svm/sev.c\"],\"repo\":\"https://git.kernel.org/pub/scm/linux/kernel/git/stable/linux.git\",\"versions\":[{\"version\":\"6.10\",\"status\":\"affected\"},{\"version\":\"0\",\"lessThan\":\"6.10\",\"versionType\":\"semver\",\"status\":\"unaffected\"},{\"version\":\"6.12.93\",\"lessThanOrEqual\":\"6.12.*\",\"versionType\":\"semver\",\"status\":\"unaffected\"},{\"version\":\"6.18.35\",\"lessThanOrEqual\":\"6.18.*\",\"versionType\":\"semver\",\"status\":\"unaffected\"},{\"version\":\"7.0.12\",\"lessThanOrEqual\":\"7.0.*\",\"versionType\":\"semver\",\"status\":\"unaffected\"},{\"version\":\"7.1\",\"lessThanOrEqual\":\"*\",\"versionType\":\"original_commit_for_fix\",\"status\":\"unaffected\"}]}]}],\"metrics\":{},\"references\":[{\"url\":\"https://git.kernel.org/stable/c/b328ede59ac34e7998e1eee5e5f0cc26c2a91846\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"},{\"url\":\"https://git.kernel.org/stable/c/bf9ba093fbb83c0c9a3dedd50efec29424eca2fc\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"},{\"url\":\"https://git.kernel.org/stable/c/c9b4198fbc6ed99a9da4bee9f74bb730f926c9ae\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"},{\"url\":\"https://git.kernel.org/stable/c/db3f2195d29344a3cf1e9dd9ab7f21ced7308cf7\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"}]}}"
  }
}


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Forecast uses a logistic model when the trend is rising, or an exponential decay model when the trend is falling. Fitted via linearized least squares.

Sightings

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Nomenclature

  • Seen: The vulnerability was mentioned, discussed, or observed by the user.
  • Confirmed: The vulnerability has been validated from an analyst's perspective.
  • Published Proof of Concept: A public proof of concept is available for this vulnerability.
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