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763 Commits
Author | SHA1 | Message | Date | |
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Dmitry Vyukov
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bcb7ee7902 |
posix-timers: Prefer delivery of signals to the current thread
POSIX timers using the CLOCK_PROCESS_CPUTIME_ID clock prefer the main thread of a thread group for signal delivery. However, this has a significant downside: it requires waking up a potentially idle thread. Instead, prefer to deliver signals to the current thread (in the same thread group) if SIGEV_THREAD_ID is not set by the user. This does not change guaranteed semantics, since POSIX process CPU time timers have never guaranteed that signal delivery is to a specific thread (without SIGEV_THREAD_ID set). The effect is that queueing the signal no longer wakes up potentially idle threads, and the kernel is no longer biased towards delivering the timer signal to any particular thread (which better distributes the timer signals esp. when multiple timers fire concurrently). Suggested-by: Oleg Nesterov <oleg@redhat.com> Signed-off-by: Dmitry Vyukov <dvyukov@google.com> Signed-off-by: Marco Elver <elver@google.com> Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Acked-by: Peter Zijlstra (Intel) <peterz@infradead.org> Link: https://lore.kernel.org/r/20230316123028.2890338-1-elver@google.com |
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Mathieu Desnoyers
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af7f588d8f |
sched: Introduce per-memory-map concurrency ID
This feature allows the scheduler to expose a per-memory map concurrency ID to user-space. This concurrency ID is within the possible cpus range, and is temporarily (and uniquely) assigned while threads are actively running within a memory map. If a memory map has fewer threads than cores, or is limited to run on few cores concurrently through sched affinity or cgroup cpusets, the concurrency IDs will be values close to 0, thus allowing efficient use of user-space memory for per-cpu data structures. This feature is meant to be exposed by a new rseq thread area field. The primary purpose of this feature is to do the heavy-lifting needed by memory allocators to allow them to use per-cpu data structures efficiently in the following situations: - Single-threaded applications, - Multi-threaded applications on large systems (many cores) with limited cpu affinity mask, - Multi-threaded applications on large systems (many cores) with restricted cgroup cpuset per container. One of the key concern from scheduler maintainers is the overhead associated with additional spin locks or atomic operations in the scheduler fast-path. This is why the following optimization is implemented. On context switch between threads belonging to the same memory map, transfer the mm_cid from prev to next without any atomic ops. This takes care of use-cases involving frequent context switch between threads belonging to the same memory map. Additional optimizations can be done if the spin locks added when context switching between threads belonging to different memory maps end up being a performance bottleneck. Those are left out of this patch though. A performance impact would have to be clearly demonstrated to justify the added complexity. The credit goes to Paul Turner (Google) for the original virtual cpu id idea. This feature is implemented based on the discussions with Paul Turner and Peter Oskolkov (Google), but I took the liberty to implement scheduler fast-path optimizations and my own NUMA-awareness scheme. The rumor has it that Google have been running a rseq vcpu_id extension internally in production for a year. The tcmalloc source code indeed has comments hinting at a vcpu_id prototype extension to the rseq system call [1]. The following benchmarks do not show any significant overhead added to the scheduler context switch by this feature: * perf bench sched messaging (process) Baseline: 86.5±0.3 ms With mm_cid: 86.7±2.6 ms * perf bench sched messaging (threaded) Baseline: 84.3±3.0 ms With mm_cid: 84.7±2.6 ms * hackbench (process) Baseline: 82.9±2.7 ms With mm_cid: 82.9±2.9 ms * hackbench (threaded) Baseline: 85.2±2.6 ms With mm_cid: 84.4±2.9 ms [1] https://github.com/google/tcmalloc/blob/master/tcmalloc/internal/linux_syscall_support.h#L26 Signed-off-by: Mathieu Desnoyers <mathieu.desnoyers@efficios.com> Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> Link: https://lore.kernel.org/r/20221122203932.231377-8-mathieu.desnoyers@efficios.com |
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Linus Torvalds
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48ea09cdda |
hardening updates for v6.2-rc1
- Convert flexible array members, fix -Wstringop-overflow warnings, and fix KCFI function type mismatches that went ignored by maintainers (Gustavo A. R. Silva, Nathan Chancellor, Kees Cook). - Remove the remaining side-effect users of ksize() by converting dma-buf, btrfs, and coredump to using kmalloc_size_roundup(), add more __alloc_size attributes, and introduce full testing of all allocator functions. Finally remove the ksize() side-effect so that each allocation-aware checker can finally behave without exceptions. - Introduce oops_limit (default 10,000) and warn_limit (default off) to provide greater granularity of control for panic_on_oops and panic_on_warn (Jann Horn, Kees Cook). - Introduce overflows_type() and castable_to_type() helpers for cleaner overflow checking. - Improve code generation for strscpy() and update str*() kern-doc. - Convert strscpy and sigphash tests to KUnit, and expand memcpy tests. - Always use a non-NULL argument for prepare_kernel_cred(). - Disable structleak plugin in FORTIFY KUnit test (Anders Roxell). - Adjust orphan linker section checking to respect CONFIG_WERROR (Xin Li). - Make sure siginfo is cleared for forced SIGKILL (haifeng.xu). - Fix um vs FORTIFY warnings for always-NULL arguments. -----BEGIN PGP SIGNATURE----- iQJKBAABCgA0FiEEpcP2jyKd1g9yPm4TiXL039xtwCYFAmOZSOoWHGtlZXNjb29r QGNocm9taXVtLm9yZwAKCRCJcvTf3G3AJjAAD/0YkvpU7f03f8hcQMJK6wv//24K AW41hEaBikq9RcmkuvkLLrJRibGgZ5O2xUkUkxRs/HxhkhrZ0kEw8sbwZe8MoWls F4Y9+TDjsrdHmjhfcBZdLnVxwcKK5wlaEcpjZXtbsfcdhx3TbgcDA23YELl5t0K+ I11j4kYmf9SLl4CwIrSP5iACml8CBHARDh8oIMF7FT/LrjNbM8XkvBcVVT6hTbOV yjgA8WP2e9GXvj9GzKgqvd0uE/kwPkVAeXLNFWopPi4FQ8AWjlxbBZR0gamA6/EB d7TIs0ifpVU2JGQaTav4xO6SsFMj3ntoUI0qIrFaTxZAvV4KYGrPT/Kwz1O4SFaG rN5lcxseQbPQSBTFNG4zFjpywTkVCgD2tZqDwz5Rrmiraz0RyIokCN+i4CD9S0Ds oEd8JSyLBk1sRALczkuEKo0an5AyC9YWRcBXuRdIHpLo08PsbeUUSe//4pe303cw 0ApQxYOXnrIk26MLElTzSMImlSvlzW6/5XXzL9ME16leSHOIfDeerPnc9FU9Eb3z ODv22z6tJZ9H/apSUIHZbMciMbbVTZ8zgpkfydr08o87b342N/ncYHZ5cSvQ6DWb jS5YOIuvl46/IhMPT16qWC8p0bP5YhxoPv5l6Xr0zq0ooEj0E7keiD/SzoLvW+Qs AHXcibguPRQBPAdiPQ== =yaaN -----END PGP SIGNATURE----- Merge tag 'hardening-v6.2-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/kees/linux Pull kernel hardening updates from Kees Cook: - Convert flexible array members, fix -Wstringop-overflow warnings, and fix KCFI function type mismatches that went ignored by maintainers (Gustavo A. R. Silva, Nathan Chancellor, Kees Cook) - Remove the remaining side-effect users of ksize() by converting dma-buf, btrfs, and coredump to using kmalloc_size_roundup(), add more __alloc_size attributes, and introduce full testing of all allocator functions. Finally remove the ksize() side-effect so that each allocation-aware checker can finally behave without exceptions - Introduce oops_limit (default 10,000) and warn_limit (default off) to provide greater granularity of control for panic_on_oops and panic_on_warn (Jann Horn, Kees Cook) - Introduce overflows_type() and castable_to_type() helpers for cleaner overflow checking - Improve code generation for strscpy() and update str*() kern-doc - Convert strscpy and sigphash tests to KUnit, and expand memcpy tests - Always use a non-NULL argument for prepare_kernel_cred() - Disable structleak plugin in FORTIFY KUnit test (Anders Roxell) - Adjust orphan linker section checking to respect CONFIG_WERROR (Xin Li) - Make sure siginfo is cleared for forced SIGKILL (haifeng.xu) - Fix um vs FORTIFY warnings for always-NULL arguments * tag 'hardening-v6.2-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/kees/linux: (31 commits) ksmbd: replace one-element arrays with flexible-array members hpet: Replace one-element array with flexible-array member um: virt-pci: Avoid GCC non-NULL warning signal: Initialize the info in ksignal lib: fortify_kunit: build without structleak plugin panic: Expose "warn_count" to sysfs panic: Introduce warn_limit panic: Consolidate open-coded panic_on_warn checks exit: Allow oops_limit to be disabled exit: Expose "oops_count" to sysfs exit: Put an upper limit on how often we can oops panic: Separate sysctl logic from CONFIG_SMP mm/pgtable: Fix multiple -Wstringop-overflow warnings mm: Make ksize() a reporting-only function kunit/fortify: Validate __alloc_size attribute results drm/sti: Fix return type of sti_{dvo,hda,hdmi}_connector_mode_valid() drm/fsl-dcu: Fix return type of fsl_dcu_drm_connector_mode_valid() driver core: Add __alloc_size hint to devm allocators overflow: Introduce overflows_type() and castable_to_type() coredump: Proactively round up to kmalloc bucket size ... |
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haifeng.xu
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3a017d6355 |
signal: Initialize the info in ksignal
When handing the SIGNAL_GROUP_EXIT flag, the info in ksignal isn't cleared. However, the info acquired by dequeue_synchronous_signal/dequeue_signal is initialized and can be safely used. Fortunately, the fatal signal process just uses the si_signo and doesn't use any other member. Even so, the initialization before use is more safer. Signed-off-by: haifeng.xu <haifeng.xu@shopee.com> Signed-off-by: Kees Cook <keescook@chromium.org> Link: https://lore.kernel.org/r/20221128065606.19570-1-haifeng.xu@shopee.com |
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Al Viro
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6a542d1d5f |
kill signal_pt_regs()
Once upon at it was used on hot paths, but that had not been true since 2013. IOW, there's no point for arch-optimized equivalent of task_pt_regs(current) - remaining two users are not worth bothering with. Signed-off-by: Al Viro <viro@zeniv.linux.org.uk> |
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Linus Torvalds
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30c999937f |
Scheduler changes for v6.1:
- Debuggability: - Change most occurances of BUG_ON() to WARN_ON_ONCE() - Reorganize & fix TASK_ state comparisons, turn it into a bitmap - Update/fix misc scheduler debugging facilities - Load-balancing & regular scheduling: - Improve the behavior of the scheduler in presence of lot of SCHED_IDLE tasks - in particular they should not impact other scheduling classes. - Optimize task load tracking, cleanups & fixes - Clean up & simplify misc load-balancing code - Freezer: - Rewrite the core freezer to behave better wrt thawing and be simpler in general, by replacing PF_FROZEN with TASK_FROZEN & fixing/adjusting all the fallout. - Deadline scheduler: - Fix the DL capacity-aware code - Factor out dl_task_is_earliest_deadline() & replenish_dl_new_period() - Relax/optimize locking in task_non_contending() - Cleanups: - Factor out the update_current_exec_runtime() helper - Various cleanups, simplifications Signed-off-by: Ingo Molnar <mingo@kernel.org> -----BEGIN PGP SIGNATURE----- iQJFBAABCgAvFiEEBpT5eoXrXCwVQwEKEnMQ0APhK1gFAmM/01cRHG1pbmdvQGtl cm5lbC5vcmcACgkQEnMQ0APhK1geZA/+PB4KC1T9aVxzaTHI36R03YgJYZmIdtxw wTf02MixePmz+gQCbepJbempGOh5ST28aOcI0xhdYOql5B63MaUBBMlB0HvGUyDG IU3zETqLMRtAbnSTdQFv8m++ECUtZYp8/x1FCel4WO7ya4ETkRu1NRfCoUepEhpZ aVAlae9LH3NBaF9t7s0PT2lTjf3pIzMFRkddJ0ywJhbFR3VnWat05fAK+J6fGY8+ LS54coefNlJD4oDh5TY8uniL1j5SmWmmwbk9Cdj7bLU5P3dFSS0/+5FJNHJPVGDE srGT7wstRUcDrN0CnZo48VIUBiApJCCDqTfJYi9wNYd0NAHvwY6MIJJgEIY8mKsI L/qH26H81Wt+ezSZ/5JIlGlZ/LIeNaa6OO/fbWEYABBQogvvx3nxsRNUYKSQzumH CnSBasBjLnjWyLlK4qARM9cI7NFSEK6NUigrEx/7h8JFu/8T4DlSy6LsF1HUyKgq 4+FJLAqG6cL0tcwB/fHYd0oRESN8dStnQhGxSojgufwLc7dlFULvCYF5JM/dX+/V IKwbOfIOeOn6ViMtSOXAEGdII+IQ2/ZFPwr+8Z5JC7NzvTVL6xlu/3JXkLZR3L7o yaXTSaz06h1vil7Z+GRf7RHc+wUeGkEpXh5vnarGZKXivhFdWsBdROIJANK+xR0i TeSLCxQxXlU= =KjMD -----END PGP SIGNATURE----- Merge tag 'sched-core-2022-10-07' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip Pull scheduler updates from Ingo Molnar: "Debuggability: - Change most occurances of BUG_ON() to WARN_ON_ONCE() - Reorganize & fix TASK_ state comparisons, turn it into a bitmap - Update/fix misc scheduler debugging facilities Load-balancing & regular scheduling: - Improve the behavior of the scheduler in presence of lot of SCHED_IDLE tasks - in particular they should not impact other scheduling classes. - Optimize task load tracking, cleanups & fixes - Clean up & simplify misc load-balancing code Freezer: - Rewrite the core freezer to behave better wrt thawing and be simpler in general, by replacing PF_FROZEN with TASK_FROZEN & fixing/adjusting all the fallout. Deadline scheduler: - Fix the DL capacity-aware code - Factor out dl_task_is_earliest_deadline() & replenish_dl_new_period() - Relax/optimize locking in task_non_contending() Cleanups: - Factor out the update_current_exec_runtime() helper - Various cleanups, simplifications" * tag 'sched-core-2022-10-07' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (41 commits) sched: Fix more TASK_state comparisons sched: Fix TASK_state comparisons sched/fair: Move call to list_last_entry() in detach_tasks sched/fair: Cleanup loop_max and loop_break sched/fair: Make sure to try to detach at least one movable task sched: Show PF_flag holes freezer,sched: Rewrite core freezer logic sched: Widen TAKS_state literals sched/wait: Add wait_event_state() sched/completion: Add wait_for_completion_state() sched: Add TASK_ANY for wait_task_inactive() sched: Change wait_task_inactive()s match_state freezer,umh: Clean up freezer/initrd interaction freezer: Have {,un}lock_system_sleep() save/restore flags sched: Rename task_running() to task_on_cpu() sched/fair: Cleanup for SIS_PROP sched/fair: Default to false in test_idle_cores() sched/fair: Remove useless check in select_idle_core() sched/fair: Avoid double search on same cpu sched/fair: Remove redundant check in select_idle_smt() ... |
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Peter Zijlstra
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f5d39b0208 |
freezer,sched: Rewrite core freezer logic
Rewrite the core freezer to behave better wrt thawing and be simpler in general. By replacing PF_FROZEN with TASK_FROZEN, a special block state, it is ensured frozen tasks stay frozen until thawed and don't randomly wake up early, as is currently possible. As such, it does away with PF_FROZEN and PF_FREEZER_SKIP, freeing up two PF_flags (yay!). Specifically; the current scheme works a little like: freezer_do_not_count(); schedule(); freezer_count(); And either the task is blocked, or it lands in try_to_freezer() through freezer_count(). Now, when it is blocked, the freezer considers it frozen and continues. However, on thawing, once pm_freezing is cleared, freezer_count() stops working, and any random/spurious wakeup will let a task run before its time. That is, thawing tries to thaw things in explicit order; kernel threads and workqueues before doing bringing SMP back before userspace etc.. However due to the above mentioned races it is entirely possible for userspace tasks to thaw (by accident) before SMP is back. This can be a fatal problem in asymmetric ISA architectures (eg ARMv9) where the userspace task requires a special CPU to run. As said; replace this with a special task state TASK_FROZEN and add the following state transitions: TASK_FREEZABLE -> TASK_FROZEN __TASK_STOPPED -> TASK_FROZEN __TASK_TRACED -> TASK_FROZEN The new TASK_FREEZABLE can be set on any state part of TASK_NORMAL (IOW. TASK_INTERRUPTIBLE and TASK_UNINTERRUPTIBLE) -- any such state is already required to deal with spurious wakeups and the freezer causes one such when thawing the task (since the original state is lost). The special __TASK_{STOPPED,TRACED} states *can* be restored since their canonical state is in ->jobctl. With this, frozen tasks need an explicit TASK_FROZEN wakeup and are free of undue (early / spurious) wakeups. Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> Reviewed-by: Ingo Molnar <mingo@kernel.org> Acked-by: Rafael J. Wysocki <rafael.j.wysocki@intel.com> Link: https://lore.kernel.org/r/20220822114649.055452969@infradead.org |
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Eric W. Biederman
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9a95f78eab |
signal: Drop signals received after a fatal signal has been processed
In
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Linus Torvalds
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a382f8fee4 |
signal handling: don't use BUG_ON() for debugging
These are indeed "should not happen" situations, but it turns out recent changes made the 'task_is_stopped_or_trace()' case trigger (fix for that exists, is pending more testing), and the BUG_ON() makes it unnecessarily hard to actually debug for no good reason. It's been that way for a long time, but let's make it clear: BUG_ON() is not good for debugging, and should never be used in situations where you could just say "this shouldn't happen, but we can continue". Use WARN_ON_ONCE() instead to make sure it gets logged, and then just continue running. Instead of making the system basically unusuable because you crashed the machine while potentially holding some very core locks (eg this function is commonly called while holding 'tasklist_lock' for writing). Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org> |
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Linus Torvalds
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67850b7bdc |
While looking at the ptrace problems with PREEMPT_RT and the problems
of Peter Zijlstra was encountering with ptrace in his freezer rewrite I identified some cleanups to ptrace_stop that make sense on their own and move make resolving the other problems much simpler. The biggest issue is the habbit of the ptrace code to change task->__state from the tracer to suppress TASK_WAKEKILL from waking up the tracee. No other code in the kernel does that and it is straight forward to update signal_wake_up and friends to make that unnecessary. Peter's task freezer sets frozen tasks to a new state TASK_FROZEN and then it stores them by calling "wake_up_state(t, TASK_FROZEN)" relying on the fact that all stopped states except the special stop states can tolerate spurious wake up and recover their state. The state of stopped and traced tasked is changed to be stored in task->jobctl as well as in task->__state. This makes it possible for the freezer to recover tasks in these special states, as well as serving as a general cleanup. With a little more work in that direction I believe TASK_STOPPED can learn to tolerate spurious wake ups and become an ordinary stop state. The TASK_TRACED state has to remain a special state as the registers for a process are only reliably available when the process is stopped in the scheduler. Fundamentally ptrace needs acess to the saved register values of a task. There are bunch of semi-random ptrace related cleanups that were found while looking at these issues. One cleanup that deserves to be called out is from commit |
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Peter Zijlstra
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31cae1eaae |
sched,signal,ptrace: Rework TASK_TRACED, TASK_STOPPED state
Currently ptrace_stop() / do_signal_stop() rely on the special states TASK_TRACED and TASK_STOPPED resp. to keep unique state. That is, this state exists only in task->__state and nowhere else. There's two spots of bother with this: - PREEMPT_RT has task->saved_state which complicates matters, meaning task_is_{traced,stopped}() needs to check an additional variable. - An alternative freezer implementation that itself relies on a special TASK state would loose TASK_TRACED/TASK_STOPPED and will result in misbehaviour. As such, add additional state to task->jobctl to track this state outside of task->__state. NOTE: this doesn't actually fix anything yet, just adds extra state. --EWB * didn't add a unnecessary newline in signal.h * Update t->jobctl in signal_wake_up and ptrace_signal_wake_up instead of in signal_wake_up_state. This prevents the clearing of TASK_STOPPED and TASK_TRACED from getting lost. * Added warnings if JOBCTL_STOPPED or JOBCTL_TRACED are not cleared Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> Link: https://lkml.kernel.org/r/20220421150654.757693825@infradead.org Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-12-ebiederm@xmission.com Signed-off-by: Eric W. Biederman <ebiederm@xmission.com> |
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Eric W. Biederman
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2500ad1c7f |
ptrace: Don't change __state
Stop playing with tsk->__state to remove TASK_WAKEKILL while a ptrace command is executing. Instead remove TASK_WAKEKILL from the definition of TASK_TRACED, and implement a new jobctl flag TASK_PTRACE_FROZEN. This new flag is set in jobctl_freeze_task and cleared when ptrace_stop is awoken or in jobctl_unfreeze_task (when ptrace_stop remains asleep). In signal_wake_up add __TASK_TRACED to state along with TASK_WAKEKILL when the wake up is for a fatal signal. Skip adding __TASK_TRACED when TASK_PTRACE_FROZEN is not set. This has the same effect as changing TASK_TRACED to __TASK_TRACED as all of the wake_ups that use TASK_KILLABLE go through signal_wake_up. Handle a ptrace_stop being called with a pending fatal signal. Previously it would have been handled by schedule simply failing to sleep. As TASK_WAKEKILL is no longer part of TASK_TRACED schedule will sleep with a fatal_signal_pending. The code in signal_wake_up guarantees that the code will be awaked by any fatal signal that codes after TASK_TRACED is set. Previously the __state value of __TASK_TRACED was changed to TASK_RUNNING when woken up or back to TASK_TRACED when the code was left in ptrace_stop. Now when woken up ptrace_stop now clears JOBCTL_PTRACE_FROZEN and when left sleeping ptrace_unfreezed_traced clears JOBCTL_PTRACE_FROZEN. Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-10-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
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57b6de08b5 |
ptrace: Admit ptrace_stop can generate spuriuos SIGTRAPs
Long ago and far away there was a BUG_ON at the start of ptrace_stop that did "BUG_ON(!(current->ptrace & PT_PTRACED));" [1]. The BUG_ON had never triggered but examination of the code showed that the BUG_ON could actually trigger. To complement removing the BUG_ON an attempt to better handle the race was added. The code detected the tracer had gone away and did not call do_notify_parent_cldstop. The code also attempted to prevent ptrace_report_syscall from sending spurious SIGTRAPs when the tracer went away. The code to detect when the tracer had gone away before sending a signal to tracer was a legitimate fix and continues to work to this date. The code to prevent sending spurious SIGTRAPs is a failure. At the time and until today the code only catches it when the tracer goes away after siglock is dropped and before read_lock is acquired. If the tracer goes away after read_lock is dropped a spurious SIGTRAP can still be sent to the tracee. The tracer going away after read_lock is dropped is the far likelier case as it is the bigger window. Given that the attempt to prevent the generation of a SIGTRAP was a failure and continues to be a failure remove the code that attempts to do that. This simplifies the code in ptrace_stop and makes ptrace_stop much easier to reason about. To successfully deal with the tracer going away, all of the tracer's instrumentation of the child would need to be removed, and reliably detecting when the tracer has set a signal to continue with would need to be implemented. [1] 66519f549ae5 ("[PATCH] fix ptracer death race yielding bogus BUG_ON") History-Tree: https://git.kernel.org/pub/scm/linux/kernel/git/tglx/history.git Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-9-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
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cb3c19c93d |
signal: Use lockdep_assert_held instead of assert_spin_locked
The distinction is that assert_spin_locked() checks if the lock is held *by*anyone* whereas lockdep_assert_held() asserts the current context holds the lock. Also, the check goes away if you build without lockdep. Suggested-by: Peter Zijlstra <peterz@infradead.org> Link: https://lkml.kernel.org/r/Ympr/+PX4XgT/UKU@hirez.programming.kicks-ass.net Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-6-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
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e71ba12407 |
signal: Replace __group_send_sig_info with send_signal_locked
The function __group_send_sig_info is just a light wrapper around send_signal_locked with one parameter fixed to a constant value. As the wrapper adds no real value update the code to directly call the wrapped function. Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-2-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
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157cc18122 |
signal: Rename send_signal send_signal_locked
Rename send_signal and __send_signal to send_signal_locked and __send_signal_locked to make send_signal usable outside of signal.c. Tested-by: Kees Cook <keescook@chromium.org> Reviewed-by: Oleg Nesterov <oleg@redhat.com> Link: https://lkml.kernel.org/r/20220505182645.497868-1-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Marco Elver
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78ed93d72d |
signal: Deliver SIGTRAP on perf event asynchronously if blocked
With SIGTRAP on perf events, we have encountered termination of
processes due to user space attempting to block delivery of SIGTRAP.
Consider this case:
<set up SIGTRAP on a perf event>
...
sigset_t s;
sigemptyset(&s);
sigaddset(&s, SIGTRAP | <and others>);
sigprocmask(SIG_BLOCK, &s, ...);
...
<perf event triggers>
When the perf event triggers, while SIGTRAP is blocked, force_sig_perf()
will force the signal, but revert back to the default handler, thus
terminating the task.
This makes sense for error conditions, but not so much for explicitly
requested monitoring. However, the expectation is still that signals
generated by perf events are synchronous, which will no longer be the
case if the signal is blocked and delivered later.
To give user space the ability to clearly distinguish synchronous from
asynchronous signals, introduce siginfo_t::si_perf_flags and
TRAP_PERF_FLAG_ASYNC (opted for flags in case more binary information is
required in future).
The resolution to the problem is then to (a) no longer force the signal
(avoiding the terminations), but (b) tell user space via si_perf_flags
if the signal was synchronous or not, so that such signals can be
handled differently (e.g. let user space decide to ignore or consider
the data imprecise).
The alternative of making the kernel ignore SIGTRAP on perf events if
the signal is blocked may work for some usecases, but likely causes
issues in others that then have to revert back to interception of
sigprocmask() (which we want to avoid). [ A concrete example: when using
breakpoint perf events to track data-flow, in a region of code where
signals are blocked, data-flow can no longer be tracked accurately.
When a relevant asynchronous signal is received after unblocking the
signal, the data-flow tracking logic needs to know its state is
imprecise. ]
Fixes:
|
||
Thomas Gleixner
|
7dd5ad2d3e |
Revert "signal, x86: Delay calling signals in atomic on RT enabled kernels"
Revert commit
|
||
Linus Torvalds
|
1930a6e739 |
ptrace: Cleanups for v5.18
This set of changes removes tracehook.h, moves modification of all of the ptrace fields inside of siglock to remove races, adds a missing permission check to ptrace.c The removal of tracehook.h is quite significant as it has been a major source of confusion in recent years. Much of that confusion was around task_work and TIF_NOTIFY_SIGNAL (which I have now decoupled making the semantics clearer). For people who don't know tracehook.h is a vestiage of an attempt to implement uprobes like functionality that was never fully merged, and was later superseeded by uprobes when uprobes was merged. For many years now we have been removing what tracehook functionaly a little bit at a time. To the point where now anything left in tracehook.h is some weird strange thing that is difficult to understand. Eric W. Biederman (15): ptrace: Move ptrace_report_syscall into ptrace.h ptrace/arm: Rename tracehook_report_syscall report_syscall ptrace: Create ptrace_report_syscall_{entry,exit} in ptrace.h ptrace: Remove arch_syscall_{enter,exit}_tracehook ptrace: Remove tracehook_signal_handler task_work: Remove unnecessary include from posix_timers.h task_work: Introduce task_work_pending task_work: Call tracehook_notify_signal from get_signal on all architectures task_work: Decouple TIF_NOTIFY_SIGNAL and task_work signal: Move set_notify_signal and clear_notify_signal into sched/signal.h resume_user_mode: Remove #ifdef TIF_NOTIFY_RESUME in set_notify_resume resume_user_mode: Move to resume_user_mode.h tracehook: Remove tracehook.h ptrace: Move setting/clearing ptrace_message into ptrace_stop ptrace: Return the signal to continue with from ptrace_stop Jann Horn (1): ptrace: Check PTRACE_O_SUSPEND_SECCOMP permission on PTRACE_SEIZE Yang Li (1): ptrace: Remove duplicated include in ptrace.c MAINTAINERS | 1 - arch/Kconfig | 5 +- arch/alpha/kernel/ptrace.c | 5 +- arch/alpha/kernel/signal.c | 4 +- arch/arc/kernel/ptrace.c | 5 +- arch/arc/kernel/signal.c | 4 +- arch/arm/kernel/ptrace.c | 12 +- arch/arm/kernel/signal.c | 4 +- arch/arm64/kernel/ptrace.c | 14 +-- arch/arm64/kernel/signal.c | 4 +- arch/csky/kernel/ptrace.c | 5 +- arch/csky/kernel/signal.c | 4 +- arch/h8300/kernel/ptrace.c | 5 +- arch/h8300/kernel/signal.c | 4 +- arch/hexagon/kernel/process.c | 4 +- arch/hexagon/kernel/signal.c | 1 - arch/hexagon/kernel/traps.c | 6 +- arch/ia64/kernel/process.c | 4 +- arch/ia64/kernel/ptrace.c | 6 +- arch/ia64/kernel/signal.c | 1 - arch/m68k/kernel/ptrace.c | 5 +- arch/m68k/kernel/signal.c | 4 +- arch/microblaze/kernel/ptrace.c | 5 +- arch/microblaze/kernel/signal.c | 4 +- arch/mips/kernel/ptrace.c | 5 +- arch/mips/kernel/signal.c | 4 +- arch/nds32/include/asm/syscall.h | 2 +- arch/nds32/kernel/ptrace.c | 5 +- arch/nds32/kernel/signal.c | 4 +- arch/nios2/kernel/ptrace.c | 5 +- arch/nios2/kernel/signal.c | 4 +- arch/openrisc/kernel/ptrace.c | 5 +- arch/openrisc/kernel/signal.c | 4 +- arch/parisc/kernel/ptrace.c | 7 +- arch/parisc/kernel/signal.c | 4 +- arch/powerpc/kernel/ptrace/ptrace.c | 8 +- arch/powerpc/kernel/signal.c | 4 +- arch/riscv/kernel/ptrace.c | 5 +- arch/riscv/kernel/signal.c | 4 +- arch/s390/include/asm/entry-common.h | 1 - arch/s390/kernel/ptrace.c | 1 - arch/s390/kernel/signal.c | 5 +- arch/sh/kernel/ptrace_32.c | 5 +- arch/sh/kernel/signal_32.c | 4 +- arch/sparc/kernel/ptrace_32.c | 5 +- arch/sparc/kernel/ptrace_64.c | 5 +- arch/sparc/kernel/signal32.c | 1 - arch/sparc/kernel/signal_32.c | 4 +- arch/sparc/kernel/signal_64.c | 4 +- arch/um/kernel/process.c | 4 +- arch/um/kernel/ptrace.c | 5 +- arch/x86/kernel/ptrace.c | 1 - arch/x86/kernel/signal.c | 5 +- arch/x86/mm/tlb.c | 1 + arch/xtensa/kernel/ptrace.c | 5 +- arch/xtensa/kernel/signal.c | 4 +- block/blk-cgroup.c | 2 +- fs/coredump.c | 1 - fs/exec.c | 1 - fs/io-wq.c | 6 +- fs/io_uring.c | 11 +- fs/proc/array.c | 1 - fs/proc/base.c | 1 - include/asm-generic/syscall.h | 2 +- include/linux/entry-common.h | 47 +------- include/linux/entry-kvm.h | 2 +- include/linux/posix-timers.h | 1 - include/linux/ptrace.h | 81 ++++++++++++- include/linux/resume_user_mode.h | 64 ++++++++++ include/linux/sched/signal.h | 17 +++ include/linux/task_work.h | 5 + include/linux/tracehook.h | 226 ----------------------------------- include/uapi/linux/ptrace.h | 2 +- kernel/entry/common.c | 19 +-- kernel/entry/kvm.c | 9 +- kernel/exit.c | 3 +- kernel/livepatch/transition.c | 1 - kernel/ptrace.c | 47 +++++--- kernel/seccomp.c | 1 - kernel/signal.c | 62 +++++----- kernel/task_work.c | 4 +- kernel/time/posix-cpu-timers.c | 1 + mm/memcontrol.c | 2 +- security/apparmor/domain.c | 1 - security/selinux/hooks.c | 1 - 85 files changed, 372 insertions(+), 495 deletions(-) Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> -----BEGIN PGP SIGNATURE----- iQIzBAABCgAdFiEEgjlraLDcwBA2B+6cC/v6Eiajj0AFAmJCQkoACgkQC/v6Eiaj j0DCWQ/5AZVFU+hX32obUNCLackHTwgcCtSOs3JNBmNA/zL/htPiYYG0ghkvtlDR Dw5J5DnxC6P7PVAdAqrpvx2uX2FebHYU0bRlyLx8LYUEP5dhyNicxX9jA882Z+vw Ud0Ue9EojwGWS76dC9YoKUj3slThMATbhA2r4GVEoof8fSNJaBxQIqath44t0FwU DinWa+tIOvZANGBZr6CUUINNIgqBIZCH/R4h6ArBhMlJpuQ5Ufk2kAaiWFwZCkX4 0LuuAwbKsCKkF8eap5I2KrIg/7zZVgxAg9O3cHOzzm8OPbKzRnNnQClcDe8perqp S6e/f3MgpE+eavd1EiLxevZ660cJChnmikXVVh8ZYYoefaMKGqBaBSsB38bNcLjY 3+f2dB+TNBFRnZs1aCujK3tWBT9QyjZDKtCBfzxDNWBpXGLhHH6j6lA5Lj+Cef5K /HNHFb+FuqedlFZh5m1Y+piFQ70hTgCa2u8b+FSOubI2hW9Zd+WzINV0ANaZ2LvZ 4YGtcyDNk1q1+c87lxP9xMRl/xi6rNg+B9T2MCo4IUnHgpSVP6VEB3osgUmrrrN0 eQlUI154G/AaDlqXLgmn1xhRmlPGfmenkxpok1AuzxvNJsfLKnpEwQSc13g3oiZr disZQxNY0kBO2Nv3G323Z6PLinhbiIIFez6cJzK5v0YJ2WtO3pY= =uEro -----END PGP SIGNATURE----- Merge tag 'ptrace-cleanups-for-v5.18' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace Pull ptrace cleanups from Eric Biederman: "This set of changes removes tracehook.h, moves modification of all of the ptrace fields inside of siglock to remove races, adds a missing permission check to ptrace.c The removal of tracehook.h is quite significant as it has been a major source of confusion in recent years. Much of that confusion was around task_work and TIF_NOTIFY_SIGNAL (which I have now decoupled making the semantics clearer). For people who don't know tracehook.h is a vestiage of an attempt to implement uprobes like functionality that was never fully merged, and was later superseeded by uprobes when uprobes was merged. For many years now we have been removing what tracehook functionaly a little bit at a time. To the point where anything left in tracehook.h was some weird strange thing that was difficult to understand" * tag 'ptrace-cleanups-for-v5.18' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace: ptrace: Remove duplicated include in ptrace.c ptrace: Check PTRACE_O_SUSPEND_SECCOMP permission on PTRACE_SEIZE ptrace: Return the signal to continue with from ptrace_stop ptrace: Move setting/clearing ptrace_message into ptrace_stop tracehook: Remove tracehook.h resume_user_mode: Move to resume_user_mode.h resume_user_mode: Remove #ifdef TIF_NOTIFY_RESUME in set_notify_resume signal: Move set_notify_signal and clear_notify_signal into sched/signal.h task_work: Decouple TIF_NOTIFY_SIGNAL and task_work task_work: Call tracehook_notify_signal from get_signal on all architectures task_work: Introduce task_work_pending task_work: Remove unnecessary include from posix_timers.h ptrace: Remove tracehook_signal_handler ptrace: Remove arch_syscall_{enter,exit}_tracehook ptrace: Create ptrace_report_syscall_{entry,exit} in ptrace.h ptrace/arm: Rename tracehook_report_syscall report_syscall ptrace: Move ptrace_report_syscall into ptrace.h |
||
Eric W. Biederman
|
6487d1dab8 |
ptrace: Return the signal to continue with from ptrace_stop
The signal a task should continue with after a ptrace stop is inconsistently read, cleared, and sent. Solve this by reading and clearing the signal to be sent in ptrace_stop. In an ideal world everything except ptrace_signal would share a common implementation of continuing with the signal, so ptracers could count on the signal they ask to continue with actually being delivered. For now retain bug compatibility and just return with the signal number the ptracer requested the code continue with. Link: https://lkml.kernel.org/r/875yoe7qdp.fsf_-_@email.froward.int.ebiederm.org Reviewed-by: Kees Cook <keescook@chromium.org> Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
336d4b814b |
ptrace: Move setting/clearing ptrace_message into ptrace_stop
Today ptrace_message is easy to overlook as it not a core part of ptrace_stop. It has been overlooked so much that there are places that set ptrace_message and don't clear it, and places that never set it. So if you get an unlucky sequence of events the ptracer may be able to read a ptrace_message that does not apply to the current ptrace stop. Move setting of ptrace_message into ptrace_stop so that it always gets set before the stop, and always gets cleared after the stop. This prevents non-sense from being reported to userspace and makes ptrace_message more visible in the ptrace helper functions so that kernel developers can see it. Link: https://lkml.kernel.org/r/87bky67qfv.fsf_-_@email.froward.int.ebiederm.org Acked-by: Oleg Nesterov <oleg@redhat.com> Reviewed-by: Kees Cook <keescook@chromium.org> Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
355f841a3f |
tracehook: Remove tracehook.h
Now that all of the definitions have moved out of tracehook.h into ptrace.h, sched/signal.h, resume_user_mode.h there is nothing left in tracehook.h so remove it. Update the few files that were depending upon tracehook.h to bring in definitions to use the headers they need directly. Reviewed-by: Kees Cook <keescook@chromium.org> Link: https://lkml.kernel.org/r/20220309162454.123006-13-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
8ba62d3794 |
task_work: Call tracehook_notify_signal from get_signal on all architectures
Always handle TIF_NOTIFY_SIGNAL in get_signal. With commit
|
||
Eric W. Biederman
|
7f62d40d9c |
task_work: Introduce task_work_pending
Wrap the test of task->task_works in a helper function to make it clear what is being tested. All of the other readers of task->task_work use READ_ONCE and this is even necessary on current as other processes can update task->task_work. So for consistency I have added READ_ONCE into task_work_pending. Reviewed-by: Kees Cook <keescook@chromium.org> Link: https://lkml.kernel.org/r/20220309162454.123006-7-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
c145137dc9 |
ptrace: Remove tracehook_signal_handler
The two line function tracehook_signal_handler is only called from signal_delivered. Expand it inline in signal_delivered and remove it. Just to make it easier to understand what is going on. Reviewed-by: Kees Cook <keescook@chromium.org> Link: https://lkml.kernel.org/r/20220309162454.123006-5-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Oleg Nesterov
|
bf9ad37dc8 |
signal, x86: Delay calling signals in atomic on RT enabled kernels
On x86_64 we must disable preemption before we enable interrupts for stack faults, int3 and debugging, because the current task is using a per CPU debug stack defined by the IST. If we schedule out, another task can come in and use the same stack and cause the stack to be corrupted and crash the kernel on return. When CONFIG_PREEMPT_RT is enabled, spinlock_t locks become sleeping, and one of these is the spin lock used in signal handling. Some of the debug code (int3) causes do_trap() to send a signal. This function calls a spinlock_t lock that has been converted to a sleeping lock. If this happens, the above issues with the corrupted stack is possible. Instead of calling the signal right away, for PREEMPT_RT and x86, the signal information is stored on the stacks task_struct and TIF_NOTIFY_RESUME is set. Then on exit of the trap, the signal resume code will send the signal when preemption is enabled. [ rostedt: Switched from #ifdef CONFIG_PREEMPT_RT to ARCH_RT_DELAYS_SIGNAL_SEND and added comments to the code. ] [bigeasy: Add on 32bit as per Yang Shi, minor rewording. ] [ tglx: Use a config option ] Signed-off-by: Oleg Nesterov <oleg@redhat.com> Signed-off-by: Steven Rostedt <rostedt@goodmis.org> Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Sebastian Andrzej Siewior <bigeasy@linutronix.de> Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Link: https://lore.kernel.org/r/Ygq5aBB/qMQw6aP5@linutronix.de |
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Kees Cook
|
5c72263ef2 |
signal: HANDLER_EXIT should clear SIGNAL_UNKILLABLE
Fatal SIGSYS signals (i.e. seccomp RET_KILL_* syscall filter actions)
were not being delivered to ptraced pid namespace init processes. Make
sure the SIGNAL_UNKILLABLE doesn't get set for these cases.
Reported-by: Robert Święcki <robert@swiecki.net>
Suggested-by: "Eric W. Biederman" <ebiederm@xmission.com>
Fixes:
|
||
Linus Torvalds
|
35ce8ae9ae |
Merge branch 'signal-for-v5.17' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace
Pull signal/exit/ptrace updates from Eric Biederman: "This set of changes deletes some dead code, makes a lot of cleanups which hopefully make the code easier to follow, and fixes bugs found along the way. The end-game which I have not yet reached yet is for fatal signals that generate coredumps to be short-circuit deliverable from complete_signal, for force_siginfo_to_task not to require changing userspace configured signal delivery state, and for the ptrace stops to always happen in locations where we can guarantee on all architectures that the all of the registers are saved and available on the stack. Removal of profile_task_ext, profile_munmap, and profile_handoff_task are the big successes for dead code removal this round. A bunch of small bug fixes are included, as most of the issues reported were small enough that they would not affect bisection so I simply added the fixes and did not fold the fixes into the changes they were fixing. There was a bug that broke coredumps piped to systemd-coredump. I dropped the change that caused that bug and replaced it entirely with something much more restrained. Unfortunately that required some rebasing. Some successes after this set of changes: There are few enough calls to do_exit to audit in a reasonable amount of time. The lifetime of struct kthread now matches the lifetime of struct task, and the pointer to struct kthread is no longer stored in set_child_tid. The flag SIGNAL_GROUP_COREDUMP is removed. The field group_exit_task is removed. Issues where task->exit_code was examined with signal->group_exit_code should been examined were fixed. There are several loosely related changes included because I am cleaning up and if I don't include them they will probably get lost. The original postings of these changes can be found at: https://lkml.kernel.org/r/87a6ha4zsd.fsf@email.froward.int.ebiederm.org https://lkml.kernel.org/r/87bl1kunjj.fsf@email.froward.int.ebiederm.org https://lkml.kernel.org/r/87r19opkx1.fsf_-_@email.froward.int.ebiederm.org I trimmed back the last set of changes to only the obviously correct once. Simply because there was less time for review than I had hoped" * 'signal-for-v5.17' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace: (44 commits) ptrace/m68k: Stop open coding ptrace_report_syscall ptrace: Remove unused regs argument from ptrace_report_syscall ptrace: Remove second setting of PT_SEIZED in ptrace_attach taskstats: Cleanup the use of task->exit_code exit: Use the correct exit_code in /proc/<pid>/stat exit: Fix the exit_code for wait_task_zombie exit: Coredumps reach do_group_exit exit: Remove profile_handoff_task exit: Remove profile_task_exit & profile_munmap signal: clean up kernel-doc comments signal: Remove the helper signal_group_exit signal: Rename group_exit_task group_exec_task coredump: Stop setting signal->group_exit_task signal: Remove SIGNAL_GROUP_COREDUMP signal: During coredumps set SIGNAL_GROUP_EXIT in zap_process signal: Make coredump handling explicit in complete_signal signal: Have prepare_signal detect coredumps using signal->core_state signal: Have the oom killer detect coredumps using signal->core_state exit: Move force_uaccess back into do_exit exit: Guarantee make_task_dead leaks the tsk when calling do_task_exit ... |
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Randy Dunlap
|
6410349ea5 |
signal: clean up kernel-doc comments
Fix kernel-doc warnings in kernel/signal.c: kernel/signal.c:1830: warning: Function parameter or member 'force_coredump' not described in 'force_sig_seccomp' kernel/signal.c:2873: warning: missing initial short description on line: * signal_delivered - Also add a closing parenthesis to the comments in signal_delivered(). Signed-off-by: Randy Dunlap <rdunlap@infradead.org> Cc: Alexander Viro <viro@zeniv.linux.org.uk> Cc: Richard Weinberger <richard@nod.at> Cc: Andrew Morton <akpm@linux-foundation.org> Cc: "Eric W. Biederman" <ebiederm@xmission.com> Cc: Jens Axboe <axboe@kernel.dk> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Marco Elver <elver@google.com> Cc: Thomas Gleixner <tglx@linutronix.de> Link: https://lkml.kernel.org/r/20211222031027.29694-1-rdunlap@infradead.org Signed-off-by: Eric W. Biederman <ebiederm@xmission.com> |
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Eric W. Biederman
|
49697335e0 |
signal: Remove the helper signal_group_exit
This helper is misleading. It tests for an ongoing exec as well as the process having received a fatal signal. Sometimes it is appropriate to treat an on-going exec differently than a process that is shutting down due to a fatal signal. In particular taking the fast path out of exit_signals instead of retargeting signals is not appropriate during exec, and not changing the the exit code in do_group_exit during exec. Removing the helper makes it more obvious what is going on as both cases must be coded for explicitly. While removing the helper fix the two cases where I have observed using signal_group_exit resulted in the wrong result. In exit_signals only test for SIGNAL_GROUP_EXIT so that signals are retargetted during an exec. In do_group_exit use 0 as the exit code during an exec as de_thread does not set group_exit_code. As best as I can determine group_exit_code has been is set to 0 most of the time during de_thread. During a thread group stop group_exit_code is set to the stop signal and when the thread group receives SIGCONT group_exit_code is reset to 0. Link: https://lkml.kernel.org/r/20211213225350.27481-8-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
|
2f824d4d19 |
signal: Remove SIGNAL_GROUP_COREDUMP
After the previous cleanups "signal->core_state" is set whenever SIGNAL_GROUP_COREDUMP is set and "signal->core_state" is tested whenver the code wants to know if a coredump is in progress. The remaining tests of SIGNAL_GROUP_COREDUMP also test to see if SIGNAL_GROUP_EXIT is set. Similarly the only place that sets SIGNAL_GROUP_COREDUMP also sets SIGNAL_GROUP_EXIT. Which makes SIGNAL_GROUP_COREDUMP unecessary and redundant. So stop setting SIGNAL_GROUP_COREDUMP, stop testing SIGNAL_GROUP_COREDUMP, and remove it's definition. With the setting of SIGNAL_GROUP_COREDUMP gone, coredump_finish no longer needs to clear SIGNAL_GROUP_COREDUMP out of signal->flags by setting SIGNAL_GROUP_EXIT. Link: https://lkml.kernel.org/r/20211213225350.27481-5-ebiederm@xmission.com Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
|
7ba03471ac |
signal: Make coredump handling explicit in complete_signal
Ever since commit
|
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Eric W. Biederman
|
a0287db0f1 |
signal: Have prepare_signal detect coredumps using signal->core_state
In preparation for removing the flag SIGNAL_GROUP_COREDUMP, change prepare_signal to test signal->core_state instead of the flag SIGNAL_GROUP_COREDUMP. Both fields are protected by siglock and both live in signal_struct so there are no real tradeoffs here, just a change to which field is being tested. Link: https://lkml.kernel.org/r/20211213225350.27481-1-ebiederm@xmission.com Link: https://lkml.kernel.org/r/875yqu14co.fsf_-_@email.froward.int.ebiederm.org Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Chang S. Bae
|
6c3118c321 |
signal: Skip the altstack update when not needed
== Background ==
Support for large, "dynamic" fpstates was recently merged. This
included code to ensure that sigaltstacks are sufficiently sized for
these large states. A new lock was added to remove races between
enabling large features and setting up sigaltstacks.
== Problem ==
The new lock (sigaltstack_lock()) is acquired in the sigreturn path
before restoring the old sigaltstack. Unfortunately, contention on the
new lock causes a measurable signal handling performance regression [1].
However, the common case is that no *changes* are made to the
sigaltstack state at sigreturn.
== Solution ==
do_sigaltstack() acquires sigaltstack_lock() and is used for both
sys_sigaltstack() and restoring the sigaltstack in sys_sigreturn().
Check for changes to the sigaltstack before taking the lock. If no
changes were made, return before acquiring the lock.
This removes lock contention from the common-case sigreturn path.
[1] https://lore.kernel.org/lkml/20211207012128.GA16074@xsang-OptiPlex-9020/
Fixes:
|
||
Eric W. Biederman
|
9d3f401c52 |
Merge SA_IMMUTABLE-fixes-for-v5.16-rc2
I completed the first batch of signal changes for v5.17 against
v5.16-rc1 before the SA_IMMUTABLE fixes where completed. Which leaves
me with two lines of development that I want on my signal development
branch both rooted at v5.16-rc1. Especially as I am hoping
to reach the point of being able to remove SA_IMMUTABLE.
Linus merged my SA_IMUTABLE fixes as:
|
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Eric W. Biederman
|
fcb116bc43 |
signal: Replace force_fatal_sig with force_exit_sig when in doubt
Recently to prevent issues with SECCOMP_RET_KILL and similar signals being changed before they are delivered SA_IMMUTABLE was added. Unfortunately this broke debuggers[1][2] which reasonably expect to be able to trap synchronous SIGTRAP and SIGSEGV even when the target process is not configured to handle those signals. Add force_exit_sig and use it instead of force_fatal_sig where historically the code has directly called do_exit. This has the implementation benefits of going through the signal exit path (including generating core dumps) without the danger of allowing userspace to ignore or change these signals. This avoids userspace regressions as older kernels exited with do_exit which debuggers also can not intercept. In the future is should be possible to improve the quality of implementation of the kernel by changing some of these force_exit_sig calls to force_fatal_sig. That can be done where it matters on a case-by-case basis with careful analysis. Reported-by: Kyle Huey <me@kylehuey.com> Reported-by: kernel test robot <oliver.sang@intel.com> [1] https://lkml.kernel.org/r/CAP045AoMY4xf8aC_4QU_-j7obuEPYgTcnQQP3Yxk=2X90jtpjw@mail.gmail.com [2] https://lkml.kernel.org/r/20211117150258.GB5403@xsang-OptiPlex-9020 Fixes: |
||
Eric W. Biederman
|
e349d945fa |
signal: Don't always set SA_IMMUTABLE for forced signals
Recently to prevent issues with SECCOMP_RET_KILL and similar signals
being changed before they are delivered SA_IMMUTABLE was added.
Unfortunately this broke debuggers[1][2] which reasonably expect to be
able to trap synchronous SIGTRAP and SIGSEGV even when the target
process is not configured to handle those signals.
Update force_sig_to_task to support both the case when we can allow
the debugger to intercept and possibly ignore the signal and the case
when it is not safe to let userspace know about the signal until the
process has exited.
Suggested-by: Linus Torvalds <torvalds@linux-foundation.org>
Reported-by: Kyle Huey <me@kylehuey.com>
Reported-by: kernel test robot <oliver.sang@intel.com>
Cc: stable@vger.kernel.org
[1] https://lkml.kernel.org/r/CAP045AoMY4xf8aC_4QU_-j7obuEPYgTcnQQP3Yxk=2X90jtpjw@mail.gmail.com
[2] https://lkml.kernel.org/r/20211117150258.GB5403@xsang-OptiPlex-9020
Fixes:
|
||
Eric W. Biederman
|
b171f667f3 |
signal: Requeue ptrace signals
Kyle Huey <me@kylehuey.com> writes: > rr, a userspace record and replay debugger[0], uses the recorded register > state at PTRACE_EVENT_EXIT to find the point in time at which to cease > executing the program during replay. > > If a SIGKILL races with processing another signal in get_signal, it is > possible for the kernel to decline to notify the tracer of the original > signal. But if the original signal had a handler, the kernel proceeds > with setting up a signal handler frame as if the tracer had chosen to > deliver the signal unmodified to the tracee. When the kernel goes to > execute the signal handler that it has now modified the stack and registers > for, it will discover the pending SIGKILL, and terminate the tracee > without executing the handler. When PTRACE_EVENT_EXIT is delivered to > the tracer, however, the effects of handler setup will be visible to > the tracer. > > Because rr (the tracer) was never notified of the signal, it is not aware > that a signal handler frame was set up and expects the state of the program > at PTRACE_EVENT_EXIT to be a state that will be reconstructed naturally > by allowing the program to execute from the last event. When that fails > to happen during replay, rr will assert and die. > > The following patches add an explicit check for a newly pending SIGKILL > after the ptracer has been notified and the siglock has been reacquired. > If this happens, we stop processing the current signal and proceed > immediately to handling the SIGKILL. This makes the state reported at > PTRACE_EVENT_EXIT the unmodified state of the program, and also avoids the > work to set up a signal handler frame that will never be used. > > [0] https://rr-project.org/ The problem is that while the traced process makes it into ptrace_stop, the tracee is killed before the tracer manages to wait for the tracee and discover which signal was about to be delivered. More generally the problem is that while siglock was dropped a signal with process wide effect is short cirucit delivered to the entire process killing it, but the process continues to try and deliver another signal. In general it impossible to avoid all cases where work is performed after the process has been killed. In particular if the process is killed after get_signal returns the code will simply not know it has been killed until after delivering the signal frame to userspace. On the other hand when the code has already discovered the process has been killed and taken user space visible action that shows the kernel knows the process has been killed, it is just silly to then write the signal frame to the user space stack. Instead of being silly detect the process has been killed in ptrace_signal and requeue the signal so the code can pretend it was simply never dequeued for delivery. To test the process has been killed I use fatal_signal_pending rather than signal_group_exit to match the test in signal_pending_state which is used in schedule which is where ptrace_stop detects the process has been killed. Requeuing the signal so the code can pretend it was simply never dequeued improves the user space visible behavior that has been present since ebf5ebe31d2c ("[PATCH] signal-fixes-2.5.59-A4"). Kyle Huey verified that this change in behavior and makes rr happy. Reported-by: Kyle Huey <khuey@kylehuey.com> Reported-by: Marko Mäkelä <marko.makela@mariadb.com> History Tree: https://git.kernel.org/pub/scm/linux/kernel/git/tglx/history.gi Reviewed-by: Kees Cook <keescook@chromium.org> Link: https://lkml.kernel.org/r/87tugcd5p2.fsf_-_@email.froward.int.ebiederm.org Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
5768d8906b |
signal: Requeue signals in the appropriate queue
In the event that a tracer changes which signal needs to be delivered and that signal is currently blocked then the signal needs to be requeued for later delivery. With the advent of CLONE_THREAD the kernel has 2 signal queues per task. The per process queue and the per task queue. Update the code so that if the signal is removed from the per process queue it is requeued on the per process queue. This is necessary to make it appear the signal was never dequeued. The rr debugger reasonably believes that the state of the process from the last ptrace_stop it observed until PTRACE_EVENT_EXIT can be recreated by simply letting a process run. If a SIGKILL interrupts a ptrace_stop this is not true today. So return signals to their original queue in ptrace_signal so that signals that are not delivered appear like they were never dequeued. Fixes: 794aa320b79d ("[PATCH] sigfix-2.5.40-D6") History Tree: https://git.kernel.org/pub/scm/linux/kernel/git/tglx/history.gi Reviewed-by: Kees Cook <keescook@chromium.org> Link: https://lkml.kernel.org/r/87zgq4d5r4.fsf_-_@email.froward.int.ebiederm.org Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
||
Eric W. Biederman
|
e7f7c99ba9 |
signal: In get_signal test for signal_group_exit every time through the loop
Recently while investigating a problem with rr and signals I noticed
that siglock is dropped in ptrace_signal and get_signal does not jump
to relock.
Looking farther to see if the problem is anywhere else I see that
do_signal_stop also returns if signal_group_exit is true. I believe
that test can now never be true, but it is a bit hard to trace
through and be certain.
Testing signal_group_exit is not expensive, so move the test for
signal_group_exit into the for loop inside of get_signal to ensure
the test is never skipped improperly.
This has been a potential problem since I added the test for
signal_group_exit was added.
Fixes:
|
||
Linus Torvalds
|
5147da902e |
Merge branch 'exit-cleanups-for-v5.16' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace
Pull exit cleanups from Eric Biederman: "While looking at some issues related to the exit path in the kernel I found several instances where the code is not using the existing abstractions properly. This set of changes introduces force_fatal_sig a way of sending a signal and not allowing it to be caught, and corrects the misuse of the existing abstractions that I found. A lot of the misuse of the existing abstractions are silly things such as doing something after calling a no return function, rolling BUG by hand, doing more work than necessary to terminate a kernel thread, or calling do_exit(SIGKILL) instead of calling force_sig(SIGKILL). In the review a deficiency in force_fatal_sig and force_sig_seccomp where ptrace or sigaction could prevent the delivery of the signal was found. I have added a change that adds SA_IMMUTABLE to change that makes it impossible to interrupt the delivery of those signals, and allows backporting to fix force_sig_seccomp And Arnd found an issue where a function passed to kthread_run had the wrong prototype, and after my cleanup was failing to build." * 'exit-cleanups-for-v5.16' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace: (23 commits) soc: ti: fix wkup_m3_rproc_boot_thread return type signal: Add SA_IMMUTABLE to ensure forced siganls do not get changed signal: Replace force_sigsegv(SIGSEGV) with force_fatal_sig(SIGSEGV) exit/r8188eu: Replace the macro thread_exit with a simple return 0 exit/rtl8712: Replace the macro thread_exit with a simple return 0 exit/rtl8723bs: Replace the macro thread_exit with a simple return 0 signal/x86: In emulate_vsyscall force a signal instead of calling do_exit signal/sparc32: In setup_rt_frame and setup_fram use force_fatal_sig signal/sparc32: Exit with a fatal signal when try_to_clear_window_buffer fails exit/syscall_user_dispatch: Send ordinary signals on failure signal: Implement force_fatal_sig exit/kthread: Have kernel threads return instead of calling do_exit signal/s390: Use force_sigsegv in default_trap_handler signal/vm86_32: Properly send SIGSEGV when the vm86 state cannot be saved. signal/vm86_32: Replace open coded BUG_ON with an actual BUG_ON signal/sparc: In setup_tsb_params convert open coded BUG into BUG signal/powerpc: On swapcontext failure force SIGSEGV signal/sh: Use force_sig(SIGKILL) instead of do_group_exit(SIGKILL) signal/mips: Update (_save|_restore)_fp_context to fail with -EFAULT signal/sparc32: Remove unreachable do_exit in do_sparc_fault ... |
||
Linus Torvalds
|
a602285ac1 |
Merge branch 'per_signal_struct_coredumps-for-v5.16' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace
Pull per signal_struct coredumps from Eric Biederman: "Current coredumps are mixed up with the exit code, the signal handling code, and the ptrace code making coredumps much more complicated than necessary and difficult to follow. This series of changes starts with ptrace_stop and cleans it up, making it easier to follow what is happening in ptrace_stop. Then cleans up the exec interactions with coredumps. Then cleans up the coredump interactions with exit. Finally the coredump interactions with the signal handling code is cleaned up. The first and last changes are bug fixes for minor bugs. I believe the fact that vfork followed by execve can kill the process the called vfork if exec fails is sufficient justification to change the userspace visible behavior. In previous discussions some of these changes were organized differently and individually appeared to make the code base worse. As currently written I believe they all stand on their own as cleanups and bug fixes. Which means that even if the worst should happen and the last change needs to be reverted for some unimaginable reason, the code base will still be improved. If the worst does not happen there are a more cleanups that can be made. Signals that generate coredumps can easily become eligible for short circuit delivery in complete_signal. The entire rendezvous for generating a coredump can move into get_signal. The function force_sig_info_to_task be written in a way that does not modify the signal handling state of the target task (because coredumps are eligible for short circuit delivery). Many of these future cleanups can be done another way but nothing so cleanly as if coredumps become per signal_struct" * 'per_signal_struct_coredumps-for-v5.16' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace: coredump: Limit coredumps to a single thread group coredump: Don't perform any cleanups before dumping core exit: Factor coredump_exit_mm out of exit_mm exec: Check for a pending fatal signal instead of core_state ptrace: Remove the unnecessary arguments from arch_ptrace_stop signal: Remove the bogus sigkill_pending in ptrace_stop |
||
Eric W. Biederman
|
00b06da29c |
signal: Add SA_IMMUTABLE to ensure forced siganls do not get changed
As Andy pointed out that there are races between
force_sig_info_to_task and sigaction[1] when force_sig_info_task. As
Kees discovered[2] ptrace is also able to change these signals.
In the case of seeccomp killing a process with a signal it is a
security violation to allow the signal to be caught or manipulated.
Solve this problem by introducing a new flag SA_IMMUTABLE that
prevents sigaction and ptrace from modifying these forced signals.
This flag is carefully made kernel internal so that no new ABI is
introduced.
Longer term I think this can be solved by guaranteeing short circuit
delivery of signals in this case. Unfortunately reliable and
guaranteed short circuit delivery of these signals is still a ways off
from being implemented, tested, and merged. So I have implemented a much
simpler alternative for now.
[1] https://lkml.kernel.org/r/b5d52d25-7bde-4030-a7b1-7c6f8ab90660@www.fastmail.com
[2] https://lkml.kernel.org/r/202110281136.5CE65399A7@keescook
Cc: stable@vger.kernel.org
Fixes:
|
||
Linus Torvalds
|
8cb1ae19bf |
x86/fpu updates:
- Cleanup of extable fixup handling to be more robust, which in turn allows to make the FPU exception fixups more robust as well. - Change the return code for signal frame related failures from explicit error codes to a boolean fail/success as that's all what the calling code evaluates. - A large refactoring of the FPU code to prepare for adding AMX support: - Distangle the public header maze and remove especially the misnomed kitchen sink internal.h which is despite it's name included all over the place. - Add a proper abstraction for the register buffer storage (struct fpstate) which allows to dynamically size the buffer at runtime by flipping the pointer to the buffer container from the default container which is embedded in task_struct::tread::fpu to a dynamically allocated container with a larger register buffer. - Convert the code over to the new fpstate mechanism. - Consolidate the KVM FPU handling by moving the FPU related code into the FPU core which removes the number of exports and avoids adding even more export when AMX has to be supported in KVM. This also removes duplicated code which was of course unnecessary different and incomplete in the KVM copy. - Simplify the KVM FPU buffer handling by utilizing the new fpstate container and just switching the buffer pointer from the user space buffer to the KVM guest buffer when entering vcpu_run() and flipping it back when leaving the function. This cuts the memory requirements of a vCPU for FPU buffers in half and avoids pointless memory copy operations. This also solves the so far unresolved problem of adding AMX support because the current FPU buffer handling of KVM inflicted a circular dependency between adding AMX support to the core and to KVM. With the new scheme of switching fpstate AMX support can be added to the core code without affecting KVM. - Replace various variables with proper data structures so the extra information required for adding dynamically enabled FPU features (AMX) can be added in one place - Add AMX (Advanved Matrix eXtensions) support (finally): AMX is a large XSTATE component which is going to be available with Saphire Rapids XEON CPUs. The feature comes with an extra MSR (MSR_XFD) which allows to trap the (first) use of an AMX related instruction, which has two benefits: 1) It allows the kernel to control access to the feature 2) It allows the kernel to dynamically allocate the large register state buffer instead of burdening every task with the the extra 8K or larger state storage. It would have been great to gain this kind of control already with AVX512. The support comes with the following infrastructure components: 1) arch_prctl() to - read the supported features (equivalent to XGETBV(0)) - read the permitted features for a task - request permission for a dynamically enabled feature Permission is granted per process, inherited on fork() and cleared on exec(). The permission policy of the kernel is restricted to sigaltstack size validation, but the syscall obviously allows further restrictions via seccomp etc. 2) A stronger sigaltstack size validation for sys_sigaltstack(2) which takes granted permissions and the potentially resulting larger signal frame into account. This mechanism can also be used to enforce factual sigaltstack validation independent of dynamic features to help with finding potential victims of the 2K sigaltstack size constant which is broken since AVX512 support was added. 3) Exception handling for #NM traps to catch first use of a extended feature via a new cause MSR. If the exception was caused by the use of such a feature, the handler checks permission for that feature. If permission has not been granted, the handler sends a SIGILL like the #UD handler would do if the feature would have been disabled in XCR0. If permission has been granted, then a new fpstate which fits the larger buffer requirement is allocated. In the unlikely case that this allocation fails, the handler sends SIGSEGV to the task. That's not elegant, but unavoidable as the other discussed options of preallocation or full per task permissions come with their own set of horrors for kernel and/or userspace. So this is the lesser of the evils and SIGSEGV caused by unexpected memory allocation failures is not a fundamentally new concept either. When allocation succeeds, the fpstate properties are filled in to reflect the extended feature set and the resulting sizes, the fpu::fpstate pointer is updated accordingly and the trap is disarmed for this task permanently. 4) Enumeration and size calculations 5) Trap switching via MSR_XFD The XFD (eXtended Feature Disable) MSR is context switched with the same life time rules as the FPU register state itself. The mechanism is keyed off with a static key which is default disabled so !AMX equipped CPUs have zero overhead. On AMX enabled CPUs the overhead is limited by comparing the tasks XFD value with a per CPU shadow variable to avoid redundant MSR writes. In case of switching from a AMX using task to a non AMX using task or vice versa, the extra MSR write is obviously inevitable. All other places which need to be aware of the variable feature sets and resulting variable sizes are not affected at all because they retrieve the information (feature set, sizes) unconditonally from the fpstate properties. 6) Enable the new AMX states Note, this is relatively new code despite the fact that AMX support is in the works for more than a year now. The big refactoring of the FPU code, which allowed to do a proper integration has been started exactly 3 weeks ago. Refactoring of the existing FPU code and of the original AMX patches took a week and has been subject to extensive review and testing. The only fallout which has not been caught in review and testing right away was restricted to AMX enabled systems, which is completely irrelevant for anyone outside Intel and their early access program. There might be dragons lurking as usual, but so far the fine grained refactoring has held up and eventual yet undetected fallout is bisectable and should be easily addressable before the 5.16 release. Famous last words... Many thanks to Chang Bae and Dave Hansen for working hard on this and also to the various test teams at Intel who reserved extra capacity to follow the rapid development of this closely which provides the confidence level required to offer this rather large update for inclusion into 5.16-rc1. -----BEGIN PGP SIGNATURE----- iQJHBAABCgAxFiEEQp8+kY+LLUocC4bMphj1TA10mKEFAmF/NkITHHRnbHhAbGlu dXRyb25peC5kZQAKCRCmGPVMDXSYodDkEADH4+/nN/QoSUHIuuha5Zptj3g2b16a /3TxT9fhwPen/kzMGsUk70s3iWJMA+I5dCfkSZexJ2hfhcRe9cBzZIa1HCawKwf3 YCISTsO/M+LpeORuZ+TpfFLJKnxNr1SEOl+EYffGhq0AkCjifb9Cnr0JZuoMUzGU jpfJZ2bj28ri5lG812DtzSMBM9E3SAwgJv+GNjmZbxZKb9mAfhbAMdBUXHirX7Ej jmx6koQjYOKwYIW8w1BrdC270lUKQUyJTbQgdRkN9Mh/HnKyFixQ18JqGlgaV2cT EtYePUfTEdaHdAhUINLIlEug1MfOslHU+HyGsdywnoChNB4GHPQuePC5Tz60VeFN RbQ9aKcBUu8r95rjlnKtAtBijNMA4bjGwllVxNwJ/ZoA9RPv1SbDZ07RX3qTaLVY YhVQl8+shD33/W24jUTJv1kMMexpHXIlv0gyfMryzpwI7uzzmGHRPAokJdbYKctC dyMPfdE90rxTiMUdL/1IQGhnh3awjbyfArzUhHyQ++HyUyzCFh0slsO0CD18vUy8 FofhCugGBhjuKw3XwLNQ+KsWURz5qHctSzBc3qMOSyqFHbAJCVRANkhsFvWJo2qL 75+Z7OTRebtsyOUZIdq26r4roSxHrps3dupWTtN70HWx2NhQG1nLEw986QYiQu1T hcKvDmehQLrUvg== =x3WL -----END PGP SIGNATURE----- Merge tag 'x86-fpu-2021-11-01' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip Pull x86 fpu updates from Thomas Gleixner: - Cleanup of extable fixup handling to be more robust, which in turn allows to make the FPU exception fixups more robust as well. - Change the return code for signal frame related failures from explicit error codes to a boolean fail/success as that's all what the calling code evaluates. - A large refactoring of the FPU code to prepare for adding AMX support: - Distangle the public header maze and remove especially the misnomed kitchen sink internal.h which is despite it's name included all over the place. - Add a proper abstraction for the register buffer storage (struct fpstate) which allows to dynamically size the buffer at runtime by flipping the pointer to the buffer container from the default container which is embedded in task_struct::tread::fpu to a dynamically allocated container with a larger register buffer. - Convert the code over to the new fpstate mechanism. - Consolidate the KVM FPU handling by moving the FPU related code into the FPU core which removes the number of exports and avoids adding even more export when AMX has to be supported in KVM. This also removes duplicated code which was of course unnecessary different and incomplete in the KVM copy. - Simplify the KVM FPU buffer handling by utilizing the new fpstate container and just switching the buffer pointer from the user space buffer to the KVM guest buffer when entering vcpu_run() and flipping it back when leaving the function. This cuts the memory requirements of a vCPU for FPU buffers in half and avoids pointless memory copy operations. This also solves the so far unresolved problem of adding AMX support because the current FPU buffer handling of KVM inflicted a circular dependency between adding AMX support to the core and to KVM. With the new scheme of switching fpstate AMX support can be added to the core code without affecting KVM. - Replace various variables with proper data structures so the extra information required for adding dynamically enabled FPU features (AMX) can be added in one place - Add AMX (Advanced Matrix eXtensions) support (finally): AMX is a large XSTATE component which is going to be available with Saphire Rapids XEON CPUs. The feature comes with an extra MSR (MSR_XFD) which allows to trap the (first) use of an AMX related instruction, which has two benefits: 1) It allows the kernel to control access to the feature 2) It allows the kernel to dynamically allocate the large register state buffer instead of burdening every task with the the extra 8K or larger state storage. It would have been great to gain this kind of control already with AVX512. The support comes with the following infrastructure components: 1) arch_prctl() to - read the supported features (equivalent to XGETBV(0)) - read the permitted features for a task - request permission for a dynamically enabled feature Permission is granted per process, inherited on fork() and cleared on exec(). The permission policy of the kernel is restricted to sigaltstack size validation, but the syscall obviously allows further restrictions via seccomp etc. 2) A stronger sigaltstack size validation for sys_sigaltstack(2) which takes granted permissions and the potentially resulting larger signal frame into account. This mechanism can also be used to enforce factual sigaltstack validation independent of dynamic features to help with finding potential victims of the 2K sigaltstack size constant which is broken since AVX512 support was added. 3) Exception handling for #NM traps to catch first use of a extended feature via a new cause MSR. If the exception was caused by the use of such a feature, the handler checks permission for that feature. If permission has not been granted, the handler sends a SIGILL like the #UD handler would do if the feature would have been disabled in XCR0. If permission has been granted, then a new fpstate which fits the larger buffer requirement is allocated. In the unlikely case that this allocation fails, the handler sends SIGSEGV to the task. That's not elegant, but unavoidable as the other discussed options of preallocation or full per task permissions come with their own set of horrors for kernel and/or userspace. So this is the lesser of the evils and SIGSEGV caused by unexpected memory allocation failures is not a fundamentally new concept either. When allocation succeeds, the fpstate properties are filled in to reflect the extended feature set and the resulting sizes, the fpu::fpstate pointer is updated accordingly and the trap is disarmed for this task permanently. 4) Enumeration and size calculations 5) Trap switching via MSR_XFD The XFD (eXtended Feature Disable) MSR is context switched with the same life time rules as the FPU register state itself. The mechanism is keyed off with a static key which is default disabled so !AMX equipped CPUs have zero overhead. On AMX enabled CPUs the overhead is limited by comparing the tasks XFD value with a per CPU shadow variable to avoid redundant MSR writes. In case of switching from a AMX using task to a non AMX using task or vice versa, the extra MSR write is obviously inevitable. All other places which need to be aware of the variable feature sets and resulting variable sizes are not affected at all because they retrieve the information (feature set, sizes) unconditonally from the fpstate properties. 6) Enable the new AMX states Note, this is relatively new code despite the fact that AMX support is in the works for more than a year now. The big refactoring of the FPU code, which allowed to do a proper integration has been started exactly 3 weeks ago. Refactoring of the existing FPU code and of the original AMX patches took a week and has been subject to extensive review and testing. The only fallout which has not been caught in review and testing right away was restricted to AMX enabled systems, which is completely irrelevant for anyone outside Intel and their early access program. There might be dragons lurking as usual, but so far the fine grained refactoring has held up and eventual yet undetected fallout is bisectable and should be easily addressable before the 5.16 release. Famous last words... Many thanks to Chang Bae and Dave Hansen for working hard on this and also to the various test teams at Intel who reserved extra capacity to follow the rapid development of this closely which provides the confidence level required to offer this rather large update for inclusion into 5.16-rc1 * tag 'x86-fpu-2021-11-01' of git://git.kernel.org/pub/scm/linux/kernel/git/tip/tip: (110 commits) Documentation/x86: Add documentation for using dynamic XSTATE features x86/fpu: Include vmalloc.h for vzalloc() selftests/x86/amx: Add context switch test selftests/x86/amx: Add test cases for AMX state management x86/fpu/amx: Enable the AMX feature in 64-bit mode x86/fpu: Add XFD handling for dynamic states x86/fpu: Calculate the default sizes independently x86/fpu/amx: Define AMX state components and have it used for boot-time checks x86/fpu/xstate: Prepare XSAVE feature table for gaps in state component numbers x86/fpu/xstate: Add fpstate_realloc()/free() x86/fpu/xstate: Add XFD #NM handler x86/fpu: Update XFD state where required x86/fpu: Add sanity checks for XFD x86/fpu: Add XFD state to fpstate x86/msr-index: Add MSRs for XFD x86/cpufeatures: Add eXtended Feature Disabling (XFD) feature bit x86/fpu: Reset permission and fpstate on exec() x86/fpu: Prepare fpu_clone() for dynamically enabled features x86/fpu/signal: Prepare for variable sigframe length x86/signal: Use fpu::__state_user_size for sigalt stack validation ... |
||
Eric W. Biederman
|
26d5badbcc |
signal: Implement force_fatal_sig
Add a simple helper force_fatal_sig that causes a signal to be delivered to a process as if the signal handler was set to SIG_DFL. Reimplement force_sigsegv based upon this new helper. This fixes force_sigsegv so that when it forces the default signal handler to be used the code now forces the signal to be unblocked as well. Reusing the tested logic in force_sig_info_to_task that was built for force_sig_seccomp this makes the implementation trivial. This is interesting both because it makes force_sigsegv simpler and because there are a couple of buggy places in the kernel that call do_exit(SIGILL) or do_exit(SIGSYS) because there is no straight forward way today for those places to simply force the exit of a process with the chosen signal. Creating force_fatal_sig allows those places to be implemented with normal signal exits. Link: https://lkml.kernel.org/r/20211020174406.17889-13-ebiederm@xmission.com Signed-off-by: Eric W. Biederman <ebiederm@xmission.com> |
||
Thomas Gleixner
|
1bdda24c4a |
signal: Add an optional check for altstack size
New x86 FPU features will be very large, requiring ~10k of stack in signal handlers. These new features require a new approach called "dynamic features". The kernel currently tries to ensure that altstacks are reasonably sized. Right now, on x86, sys_sigaltstack() requires a size of >=2k. However, that 2k is a constant. Simply raising that 2k requirement to >10k for the new features would break existing apps which have a compiled-in size of 2k. Instead of universally enforcing a larger stack, prohibit a process from using dynamic features without properly-sized altstacks. This must be enforced in two places: * A dynamic feature can not be enabled without an large-enough altstack for each process thread. * Once a dynamic feature is enabled, any request to install a too-small altstack will be rejected The dynamic feature enabling code must examine each thread in a process to ensure that the altstacks are large enough. Add a new lock (sigaltstack_lock()) to ensure that threads can not race and change their altstack after being examined. Add the infrastructure in form of a config option and provide empty stubs for architectures which do not need dynamic altstack size checks. This implementation will be fleshed out for x86 in a future patch called x86/arch_prctl: Add controls for dynamic XSTATE components [dhansen: commit message. ] Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Signed-off-by: Chang S. Bae <chang.seok.bae@intel.com> Signed-off-by: Borislav Petkov <bp@suse.de> Link: https://lkml.kernel.org/r/20211021225527.10184-2-chang.seok.bae@intel.com |
||
Linus Torvalds
|
9d235ac01f |
Merge branch 'ucount-fixes-for-v5.15' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace
Pull ucounts fixes from Eric Biederman: "There has been one very hard to track down bug in the ucount code that we have been tracking since roughly v5.14 was released. Alex managed to find a reliable reproducer a few days ago and then I was able to instrument the code and figure out what the issue was. It turns out the sigqueue_alloc single atomic operation optimization did not play nicely with ucounts multiple level rlimits. It turned out that either sigqueue_alloc or sigqueue_free could be operating on multiple levels and trigger the conditions for the optimization on more than one level at the same time. To deal with that situation I have introduced inc_rlimit_get_ucounts and dec_rlimit_put_ucounts that just focuses on the optimization and the rlimit and ucount changes. While looking into the big bug I found I couple of other little issues so I am including those fixes here as well. When I have time I would very much like to dig into process ownership of the shared signal queue and see if we could pick a single owner for the entire queue so that all of the rlimits can count to that owner. That should entirely remove the need to call get_ucounts and put_ucounts in sigqueue_alloc and sigqueue_free. It is difficult because Linux unlike POSIX supports setuid that works on a single thread" * 'ucount-fixes-for-v5.15' of git://git.kernel.org/pub/scm/linux/kernel/git/ebiederm/user-namespace: ucounts: Move get_ucounts from cred_alloc_blank to key_change_session_keyring ucounts: Proper error handling in set_cred_ucounts ucounts: Pair inc_rlimit_ucounts with dec_rlimit_ucoutns in commit_creds ucounts: Fix signal ucount refcounting |
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Eric W. Biederman
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15bc01effe |
ucounts: Fix signal ucount refcounting
In commit |
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Eric W. Biederman
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9230738308 |
coredump: Don't perform any cleanups before dumping core
Rename coredump_exit_mm to coredump_task_exit and call it from do_exit before PTRACE_EVENT_EXIT, and before any cleanup work for a task happens. This ensures that an accurate copy of the process can be captured in the coredump as no cleanup for the process happens before the coredump completes. This also ensures that PTRACE_EVENT_EXIT will not be visited by any thread until the coredump is complete. Add a new flag PF_POSTCOREDUMP so that tasks that have passed through coredump_task_exit can be recognized and ignored in zap_process. Now that all of the coredumping happens before exit_mm remove code to test for a coredump in progress from mm_release. Replace "may_ptrace_stop()" with a simple test of "current->ptrace". The other tests in may_ptrace_stop all concern avoiding stopping during a coredump. These tests are no longer necessary as it is now guaranteed that fatal_signal_pending will be set if the code enters ptrace_stop during a coredump. The code in ptrace_stop is guaranteed not to stop if fatal_signal_pending returns true. Until this change "ptrace_event(PTRACE_EVENT_EXIT)" could call ptrace_stop without fatal_signal_pending being true, as signals are dequeued in get_signal before calling do_exit. This is no longer an issue as "ptrace_event(PTRACE_EVENT_EXIT)" is no longer reached until after the coredump completes. Link: https://lkml.kernel.org/r/874kaax26c.fsf@disp2133 Reviewed-by: Kees Cook <keescook@chromium.org> Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |
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Eric W. Biederman
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4f627af8e6 |
ptrace: Remove the unnecessary arguments from arch_ptrace_stop
Both arch_ptrace_stop_needed and arch_ptrace_stop are called with an exit_code and a siginfo structure. Neither argument is used by any of the implementations so just remove the unneeded arguments. The two arechitectures that implement arch_ptrace_stop are ia64 and sparc. Both architectures flush their register stacks before a ptrace_stack so that all of the register information can be accessed by debuggers. As the question of if a register stack needs to be flushed is independent of why ptrace is stopping not needing arguments make sense. Cc: David Miller <davem@davemloft.net> Cc: sparclinux@vger.kernel.org Link: https://lkml.kernel.org/r/87lf3mx290.fsf@disp2133 Reviewed-by: Kees Cook <keescook@chromium.org> Signed-off-by: "Eric W. Biederman" <ebiederm@xmission.com> |