CVE-2026-46025 (GCVE-0-2026-46025)

Vulnerability from cvelistv5 – Published: 2026-05-27 12:56 – Updated: 2026-05-27 12:56
VLAI
Title
mm/damon/core: fix damon_call() vs kdamond_fn() exit race
Summary
In the Linux kernel, the following vulnerability has been resolved: mm/damon/core: fix damon_call() vs kdamond_fn() exit race Patch series "mm/damon/core: fix damon_call()/damos_walk() vs kdmond exit race". damon_call() and damos_walk() can leak memory and/or deadlock when they race with kdamond terminations. Fix those. This patch (of 2); When kdamond_fn() main loop is finished, the function cancels all remaining damon_call() requests and unset the damon_ctx->kdamond so that API callers and API functions themselves can know the context is terminated. damon_call() adds the caller's request to the queue first. After that, it shows if the kdamond of the damon_ctx is still running (damon_ctx->kdamond is set). Only if the kdamond is running, damon_call() starts waiting for the kdamond's handling of the newly added request. The damon_call() requests registration and damon_ctx->kdamond unset are protected by different mutexes, though. Hence, damon_call() could race with damon_ctx->kdamond unset, and result in deadlocks. For example, let's suppose kdamond successfully finished the damon_call() requests cancelling. Right after that, damon_call() is called for the context. It registers the new request, and shows the context is still running, because damon_ctx->kdamond unset is not yet done. Hence the damon_call() caller starts waiting for the handling of the request. However, the kdamond is already on the termination steps, so it never handles the new request. As a result, the damon_call() caller threads infinitely waits. Fix this by introducing another damon_ctx field, namely call_controls_obsolete. It is protected by the damon_ctx->call_controls_lock, which protects damon_call() requests registration. Initialize (unset) it in kdamond_fn() before letting damon_start() returns and set it just before the cancelling of remaining damon_call() requests is executed. damon_call() reads the obsolete field under the lock and avoids adding a new request. After this change, only requests that are guaranteed to be handled or cancelled are registered. Hence the after-registration DAMON context termination check is no longer needed. Remove it together. Note that the deadlock will not happen when damon_call() is called for repeat mode request. In tis case, damon_call() returns instead of waiting for the handling when the request registration succeeds and it shows the kdamond is running. However, if the request also has dealloc_on_cancel, the request memory would be leaked. The issue is found by sashiko [1].
Severity
No CVSS data available.
Assigner
References
Impacted products
Vendor Product Version
Linux Linux Affected: 42b7491af14cbba2393329ce43d508a957bd94fa , < 2691332ad88b57179c38653e2cd613d5820a52cf (git)
Affected: 42b7491af14cbba2393329ce43d508a957bd94fa , < e6a053a6f4b5048746c49432a5cc5b79fe4695fe (git)
Affected: 42b7491af14cbba2393329ce43d508a957bd94fa , < 55da81663b9642dd046b26dd6f1baddbcf337c1e (git)
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Linux Linux Affected: 6.14
Unaffected: 0 , < 6.14 (semver)
Unaffected: 6.18.27 , ≤ 6.18.* (semver)
Unaffected: 7.0.4 , ≤ 7.0.* (semver)
Unaffected: 7.1-rc1 , ≤ * (original_commit_for_fix)
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{
  "containers": {
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      "affected": [
        {
          "defaultStatus": "unaffected",
          "product": "Linux",
          "programFiles": [
            "include/linux/damon.h",
            "mm/damon/core.c"
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          "vendor": "Linux",
          "versions": [
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              "version": "6.14"
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              "version": "0",
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              "versionType": "semver"
            },
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              "lessThanOrEqual": "7.0.*",
              "status": "unaffected",
              "version": "7.0.4",
              "versionType": "semver"
            },
            {
              "lessThanOrEqual": "*",
              "status": "unaffected",
              "version": "7.1-rc1",
              "versionType": "original_commit_for_fix"
            }
          ]
        }
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                  "vulnerable": true
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              "operator": "OR"
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      "descriptions": [
        {
          "lang": "en",
          "value": "In the Linux kernel, the following vulnerability has been resolved:\n\nmm/damon/core: fix damon_call() vs kdamond_fn() exit race\n\nPatch series \"mm/damon/core: fix damon_call()/damos_walk() vs kdmond exit\nrace\".\n\ndamon_call() and damos_walk() can leak memory and/or deadlock when they\nrace with kdamond terminations.  Fix those.\n\n\nThis patch (of 2);\n\nWhen kdamond_fn() main loop is finished, the function cancels all\nremaining damon_call() requests and unset the damon_ctx-\u003ekdamond so that\nAPI callers and API functions themselves can know the context is\nterminated.  damon_call() adds the caller\u0027s request to the queue first. \nAfter that, it shows if the kdamond of the damon_ctx is still running\n(damon_ctx-\u003ekdamond is set).  Only if the kdamond is running, damon_call()\nstarts waiting for the kdamond\u0027s handling of the newly added request.\n\nThe damon_call() requests registration and damon_ctx-\u003ekdamond unset are\nprotected by different mutexes, though.  Hence, damon_call() could race\nwith damon_ctx-\u003ekdamond unset, and result in deadlocks.\n\nFor example, let\u0027s suppose kdamond successfully finished the damon_call()\nrequests cancelling.  Right after that, damon_call() is called for the\ncontext.  It registers the new request, and shows the context is still\nrunning, because damon_ctx-\u003ekdamond unset is not yet done.  Hence the\ndamon_call() caller starts waiting for the handling of the request. \nHowever, the kdamond is already on the termination steps, so it never\nhandles the new request.  As a result, the damon_call() caller threads\ninfinitely waits.\n\nFix this by introducing another damon_ctx field, namely\ncall_controls_obsolete.  It is protected by the\ndamon_ctx-\u003ecall_controls_lock, which protects damon_call() requests\nregistration.  Initialize (unset) it in kdamond_fn() before letting\ndamon_start() returns and set it just before the cancelling of remaining\ndamon_call() requests is executed.  damon_call() reads the obsolete field\nunder the lock and avoids adding a new request.\n\nAfter this change, only requests that are guaranteed to be handled or\ncancelled are registered.  Hence the after-registration DAMON context\ntermination check is no longer needed.  Remove it together.\n\nNote that the deadlock will not happen when damon_call() is called for\nrepeat mode request.  In tis case, damon_call() returns instead of waiting\nfor the handling when the request registration succeeds and it shows the\nkdamond is running.  However, if the request also has dealloc_on_cancel,\nthe request memory would be leaked.\n\nThe issue is found by sashiko [1]."
        }
      ],
      "providerMetadata": {
        "dateUpdated": "2026-05-27T12:56:31.784Z",
        "orgId": "416baaa9-dc9f-4396-8d5f-8c081fb06d67",
        "shortName": "Linux"
      },
      "references": [
        {
          "url": "https://git.kernel.org/stable/c/2691332ad88b57179c38653e2cd613d5820a52cf"
        },
        {
          "url": "https://git.kernel.org/stable/c/e6a053a6f4b5048746c49432a5cc5b79fe4695fe"
        },
        {
          "url": "https://git.kernel.org/stable/c/55da81663b9642dd046b26dd6f1baddbcf337c1e"
        }
      ],
      "title": "mm/damon/core: fix damon_call() vs kdamond_fn() exit race",
      "x_generator": {
        "engine": "bippy-1.2.0"
      }
    }
  },
  "cveMetadata": {
    "assignerOrgId": "416baaa9-dc9f-4396-8d5f-8c081fb06d67",
    "assignerShortName": "Linux",
    "cveId": "CVE-2026-46025",
    "datePublished": "2026-05-27T12:56:31.784Z",
    "dateReserved": "2026-05-13T15:03:33.093Z",
    "dateUpdated": "2026-05-27T12:56:31.784Z",
    "state": "PUBLISHED"
  },
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  "dataVersion": "5.2",
  "vulnerability-lookup:meta": {
    "epss": {
      "cve": "CVE-2026-46025",
      "date": "2026-05-29",
      "epss": "0.00017",
      "percentile": "0.04336"
    },
    "nvd": "{\"cve\":{\"id\":\"CVE-2026-46025\",\"sourceIdentifier\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\",\"published\":\"2026-05-27T14:17:21.013\",\"lastModified\":\"2026-05-27T14:48:03.013\",\"vulnStatus\":\"Awaiting Analysis\",\"cveTags\":[],\"descriptions\":[{\"lang\":\"en\",\"value\":\"In the Linux kernel, the following vulnerability has been resolved:\\n\\nmm/damon/core: fix damon_call() vs kdamond_fn() exit race\\n\\nPatch series \\\"mm/damon/core: fix damon_call()/damos_walk() vs kdmond exit\\nrace\\\".\\n\\ndamon_call() and damos_walk() can leak memory and/or deadlock when they\\nrace with kdamond terminations.  Fix those.\\n\\n\\nThis patch (of 2);\\n\\nWhen kdamond_fn() main loop is finished, the function cancels all\\nremaining damon_call() requests and unset the damon_ctx-\u003ekdamond so that\\nAPI callers and API functions themselves can know the context is\\nterminated.  damon_call() adds the caller\u0027s request to the queue first. \\nAfter that, it shows if the kdamond of the damon_ctx is still running\\n(damon_ctx-\u003ekdamond is set).  Only if the kdamond is running, damon_call()\\nstarts waiting for the kdamond\u0027s handling of the newly added request.\\n\\nThe damon_call() requests registration and damon_ctx-\u003ekdamond unset are\\nprotected by different mutexes, though.  Hence, damon_call() could race\\nwith damon_ctx-\u003ekdamond unset, and result in deadlocks.\\n\\nFor example, let\u0027s suppose kdamond successfully finished the damon_call()\\nrequests cancelling.  Right after that, damon_call() is called for the\\ncontext.  It registers the new request, and shows the context is still\\nrunning, because damon_ctx-\u003ekdamond unset is not yet done.  Hence the\\ndamon_call() caller starts waiting for the handling of the request. \\nHowever, the kdamond is already on the termination steps, so it never\\nhandles the new request.  As a result, the damon_call() caller threads\\ninfinitely waits.\\n\\nFix this by introducing another damon_ctx field, namely\\ncall_controls_obsolete.  It is protected by the\\ndamon_ctx-\u003ecall_controls_lock, which protects damon_call() requests\\nregistration.  Initialize (unset) it in kdamond_fn() before letting\\ndamon_start() returns and set it just before the cancelling of remaining\\ndamon_call() requests is executed.  damon_call() reads the obsolete field\\nunder the lock and avoids adding a new request.\\n\\nAfter this change, only requests that are guaranteed to be handled or\\ncancelled are registered.  Hence the after-registration DAMON context\\ntermination check is no longer needed.  Remove it together.\\n\\nNote that the deadlock will not happen when damon_call() is called for\\nrepeat mode request.  In tis case, damon_call() returns instead of waiting\\nfor the handling when the request registration succeeds and it shows the\\nkdamond is running.  However, if the request also has dealloc_on_cancel,\\nthe request memory would be leaked.\\n\\nThe issue is found by sashiko [1].\"}],\"metrics\":{},\"references\":[{\"url\":\"https://git.kernel.org/stable/c/2691332ad88b57179c38653e2cd613d5820a52cf\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"},{\"url\":\"https://git.kernel.org/stable/c/55da81663b9642dd046b26dd6f1baddbcf337c1e\",\"source\":\"416baaa9-dc9f-4396-8d5f-8c081fb06d67\"},{\"url\":\"https://git.kernel.org/stable/c/e6a053a6f4b5048746c49432a5cc5b79fe4695fe\",\"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.

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  • 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.
  • Exploited: The vulnerability was observed as exploited by the user who reported the sighting.
  • Patched: The vulnerability was observed as successfully patched by the user who reported the sighting.
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  • Not confirmed: The user expressed doubt about the validity of the vulnerability.
  • Not patched: The vulnerability was not observed as successfully patched by the user who reported the sighting.


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