CVE-2024-35871

Summary

In the Linux kernel, the following vulnerability has been resolved:

riscv: process: Fix kernel gp leakage

childregs represents the registers which are active for the new thread in user context. For a kernel thread, childregs->gp is never used since the kernel gp is not touched by switch_to. For a user mode helper, the gp value can be observed in user space after execve or possibly by other means.

[From the email thread]

The /* Kernel thread */ comment is somewhat inaccurate in that it is also used for user_mode_helper threads, which exec a user process, e.g. /sbin/init or when /proc/sys/kernel/core_pattern is a pipe. Such threads do not have PF_KTHREAD set and are valid targets for ptrace etc. even before they exec.

childregs is the user context during syscall execution and it is observable from userspace in at least five ways:

  1. kernel_execve does not currently clear integer registers, so the starting register state for PID 1 and other user processes started by the kernel has sp = user stack, gp = kernel __global_pointer$, all other integer registers zeroed by the memset in the patch comment.

    This is a bug in its own right, but I'm unwilling to bet that it is the only way to exploit the issue addressed by this patch.

  2. ptrace(PTRACE_GETREGSET): you can PTRACE_ATTACH to a user_mode_helper thread before it execs, but ptrace requires SIGSTOP to be delivered which can only happen at user/kernel boundaries.

  3. /proc//task//syscall: this is perfectly happy to read pt_regs for user_mode_helpers before the exec completes, but gp is not one of the registers it returns.

  4. PERF_SAMPLE_REGS_USER: LOCKDOWN_PERF normally prevents access to kernel addresses via PERF_SAMPLE_REGS_INTR, but due to this bug kernel addresses are also exposed via PERF_SAMPLE_REGS_USER which is permitted under LOCKDOWN_PERF. I have not attempted to write exploit code.

  5. Much of the tracing infrastructure allows access to user registers. I have not attempted to determine which forms of tracing allow access to user registers without already allowing access to kernel registers.

Affected Software

VendorProductVersion RangeStatus
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < 9abc3e6f1116adb7a2d4fbb8ce20c37916976bf5affected
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < dff6072124f6df77bfd36951fbd88565746980efaffected
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < f6583444d7e78dae750798552b65a2519ff3ca84affected
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < 00effef72c98294edb1efa87ffa0f6cfb61b36a4affected
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < d8dcba0691b8e42bddb61aab201e4d918a08e5d9affected
LinuxLinux7db91e57a0acde126a162ababfb1e0ab190130cb < d14fa1fcf69db9d070e75f1c4425211fa619dfc8affected
LinuxLinux4.15affected
LinuxLinux0 < 4.15unaffected
LinuxLinux5.10.216 <= 5.10.*unaffected
LinuxLinux5.15.154 <= 5.15.*unaffected
LinuxLinux6.1.85 <= 6.1.*unaffected
LinuxLinux6.6.26 <= 6.6.*unaffected
LinuxLinux6.8.5 <= 6.8.*unaffected
LinuxLinux6.9 <= *unaffected

Weaknesses

ADP Enrichment

CISA ADP Vulnrichment

  • SSVC:
  • Exploitation: none
    • Automatable: no
    • Technical Impact: partial

CVE Program Container

Additional References

References