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SUSE:SLE-15-SP2:Update
xen
xsa453-6.patch
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File xsa453-6.patch of Package xen
From: =?UTF-8?q?Roger=20Pau=20Monn=C3=A9?= <roger.pau@citrix.com> Subject: locking: attempt to ensure lock wrappers are always inline In order to prevent the locking speculation barriers from being inside of `call`ed functions that could be speculatively bypassed. While there also add an extra locking barrier to _mm_write_lock() in the branch taken when the lock is already held. Note some functions are switched to use the unsafe variants (without speculation barrier) of the locking primitives, but a speculation barrier is always added to the exposed public lock wrapping helper. That's the case with sched_spin_lock_double() or pcidevs_lock() for example. This is part of XSA-453 / CVE-2024-2193 Signed-off-by: Roger Pau Monné <roger.pau@citrix.com> Reviewed-by: Jan Beulich <jbeulich@suse.com> (cherry picked from commit 197ecd838a2aaf959a469df3696d4559c4f8b762) --- a/xen/arch/x86/hvm/vpt.c +++ b/xen/arch/x86/hvm/vpt.c @@ -160,7 +160,7 @@ static int pt_irq_masked(struct periodic * pt->vcpu field, because another thread holding the pt_migrate lock * may already be spinning waiting for your vcpu lock. */ -static void pt_vcpu_lock(struct vcpu *v) +static always_inline void pt_vcpu_lock(struct vcpu *v) { spin_lock(&v->arch.hvm.tm_lock); } @@ -179,9 +179,13 @@ static void pt_vcpu_unlock(struct vcpu * * need to take an additional lock that protects against pt->vcpu * changing. */ -static void pt_lock(struct periodic_time *pt) +static always_inline void pt_lock(struct periodic_time *pt) { - read_lock(&pt->vcpu->domain->arch.hvm.pl_time->pt_migrate); + /* + * Use the speculation unsafe variant for the first lock, as the following + * lock taking helper already includes a speculation barrier. + */ + _read_lock(&pt->vcpu->domain->arch.hvm.pl_time->pt_migrate); spin_lock(&pt->vcpu->arch.hvm.tm_lock); } --- a/xen/arch/x86/mm/mm-locks.h +++ b/xen/arch/x86/mm/mm-locks.h @@ -88,8 +88,8 @@ static inline void _set_lock_level(int l this_cpu(mm_lock_level) = l; } -static inline void _mm_lock(const struct domain *d, mm_lock_t *l, - const char *func, int level, int rec) +static always_inline void _mm_lock(const struct domain *d, mm_lock_t *l, + const char *func, int level, int rec) { if ( !((mm_locked_by_me(l)) && rec) ) _check_lock_level(d, level); @@ -139,8 +139,8 @@ static inline int mm_write_locked_by_me( return (l->locker == get_processor_id()); } -static inline void _mm_write_lock(const struct domain *d, mm_rwlock_t *l, - const char *func, int level) +static always_inline void _mm_write_lock(const struct domain *d, mm_rwlock_t *l, + const char *func, int level) { if ( !mm_write_locked_by_me(l) ) { @@ -151,6 +151,8 @@ static inline void _mm_write_lock(const l->unlock_level = _get_lock_level(); _set_lock_level(_lock_level(d, level)); } + else + block_lock_speculation(); l->recurse_count++; } @@ -164,8 +166,8 @@ static inline void mm_write_unlock(mm_rw percpu_write_unlock(p2m_percpu_rwlock, &l->lock); } -static inline void _mm_read_lock(const struct domain *d, mm_rwlock_t *l, - int level) +static always_inline void _mm_read_lock(const struct domain *d, mm_rwlock_t *l, + int level) { _check_lock_level(d, level); percpu_read_lock(p2m_percpu_rwlock, &l->lock); @@ -180,15 +182,15 @@ static inline void mm_read_unlock(mm_rwl /* This wrapper uses the line number to express the locking order below */ #define declare_mm_lock(name) \ - static inline void mm_lock_##name(const struct domain *d, mm_lock_t *l, \ - const char *func, int rec) \ + static always_inline void mm_lock_##name( \ + const struct domain *d, mm_lock_t *l, const char *func, int rec) \ { _mm_lock(d, l, func, MM_LOCK_ORDER_##name, rec); } #define declare_mm_rwlock(name) \ - static inline void mm_write_lock_##name(const struct domain *d, \ - mm_rwlock_t *l, const char *func) \ + static always_inline void mm_write_lock_##name( \ + const struct domain *d, mm_rwlock_t *l, const char *func) \ { _mm_write_lock(d, l, func, MM_LOCK_ORDER_##name); } \ - static inline void mm_read_lock_##name(const struct domain *d, \ - mm_rwlock_t *l) \ + static always_inline void mm_read_lock_##name(const struct domain *d, \ + mm_rwlock_t *l) \ { _mm_read_lock(d, l, MM_LOCK_ORDER_##name); } /* These capture the name of the calling function */ #define mm_lock(name, d, l) mm_lock_##name(d, l, __func__, 0) @@ -321,7 +323,7 @@ declare_mm_lock(altp2mlist) #define MM_LOCK_ORDER_altp2m 40 declare_mm_rwlock(altp2m); -static inline void p2m_lock(struct p2m_domain *p) +static always_inline void p2m_lock(struct p2m_domain *p) { if ( p2m_is_altp2m(p) ) mm_write_lock(altp2m, p->domain, &p->lock); --- a/xen/arch/x86/mm/p2m-pod.c +++ b/xen/arch/x86/mm/p2m-pod.c @@ -32,7 +32,7 @@ #define superpage_aligned(_x) (((_x)&(SUPERPAGE_PAGES-1))==0) /* Enforce lock ordering when grabbing the "external" page_alloc lock */ -static inline void lock_page_alloc(struct p2m_domain *p2m) +static always_inline void lock_page_alloc(struct p2m_domain *p2m) { page_alloc_mm_pre_lock(p2m->domain); spin_lock(&(p2m->domain->page_alloc_lock)); --- a/xen/common/event_channel.c +++ b/xen/common/event_channel.c @@ -57,7 +57,7 @@ * just assume the event channel is free or unbound at the moment when the * evtchn_read_trylock() returns false. */ -static inline void evtchn_write_lock(struct evtchn *evtchn) +static always_inline void evtchn_write_lock(struct evtchn *evtchn) { write_lock(&evtchn->lock); @@ -317,8 +317,8 @@ static long evtchn_alloc_unbound(evtchn_ return rc; } - -static void double_evtchn_lock(struct evtchn *lchn, struct evtchn *rchn) +static always_inline void double_evtchn_lock(struct evtchn *lchn, + struct evtchn *rchn) { if ( lchn <= rchn ) { --- a/xen/common/grant_table.c +++ b/xen/common/grant_table.c @@ -341,7 +341,7 @@ static inline void act_set_gfn(struct ac static DEFINE_PERCPU_RWLOCK_GLOBAL(grant_rwlock); -static inline void grant_read_lock(struct grant_table *gt) +static always_inline void grant_read_lock(struct grant_table *gt) { percpu_read_lock(grant_rwlock, >->lock); } @@ -351,7 +351,7 @@ static inline void grant_read_unlock(str percpu_read_unlock(grant_rwlock, >->lock); } -static inline void grant_write_lock(struct grant_table *gt) +static always_inline void grant_write_lock(struct grant_table *gt) { percpu_write_lock(grant_rwlock, >->lock); } @@ -388,7 +388,7 @@ nr_active_grant_frames(struct grant_tabl return num_act_frames_from_sha_frames(nr_grant_frames(gt)); } -static inline struct active_grant_entry * +static always_inline struct active_grant_entry * active_entry_acquire(struct grant_table *t, grant_ref_t e) { struct active_grant_entry *act; --- a/xen/common/schedule.c +++ b/xen/common/schedule.c @@ -345,23 +345,28 @@ uint64_t get_cpu_idle_time(unsigned int * This avoids dead- or live-locks when this code is running on both * cpus at the same time. */ -static void sched_spin_lock_double(spinlock_t *lock1, spinlock_t *lock2, - unsigned long *flags) +static always_inline void sched_spin_lock_double( + spinlock_t *lock1, spinlock_t *lock2, unsigned long *flags) { + /* + * In order to avoid extra overhead, use the locking primitives without the + * speculation barrier, and introduce a single barrier here. + */ if ( lock1 == lock2 ) { - spin_lock_irqsave(lock1, *flags); + *flags = _spin_lock_irqsave(lock1); } else if ( lock1 < lock2 ) { - spin_lock_irqsave(lock1, *flags); - spin_lock(lock2); + *flags = _spin_lock_irqsave(lock1); + _spin_lock(lock2); } else { - spin_lock_irqsave(lock2, *flags); - spin_lock(lock1); + *flags = _spin_lock_irqsave(lock2); + _spin_lock(lock1); } + block_lock_speculation(); } static void sched_spin_unlock_double(spinlock_t *lock1, spinlock_t *lock2, --- a/xen/common/timer.c +++ b/xen/common/timer.c @@ -239,7 +239,7 @@ static inline void deactivate_timer(stru list_add(&timer->inactive, &per_cpu(timers, timer->cpu).inactive); } -static inline bool_t timer_lock(struct timer *timer) +static inline bool_t timer_lock_unsafe(struct timer *timer) { unsigned int cpu; @@ -253,7 +253,8 @@ static inline bool_t timer_lock(struct t rcu_read_unlock(&timer_cpu_read_lock); return 0; } - spin_lock(&per_cpu(timers, cpu).lock); + /* Use the speculation unsafe variant, the wrapper has the barrier. */ + _spin_lock(&per_cpu(timers, cpu).lock); if ( likely(timer->cpu == cpu) ) break; spin_unlock(&per_cpu(timers, cpu).lock); @@ -266,8 +267,9 @@ static inline bool_t timer_lock(struct t #define timer_lock_irqsave(t, flags) ({ \ bool_t __x; \ local_irq_save(flags); \ - if ( !(__x = timer_lock(t)) ) \ + if ( !(__x = timer_lock_unsafe(t)) ) \ local_irq_restore(flags); \ + block_lock_speculation(); \ __x; \ }) --- a/xen/drivers/passthrough/pci.c +++ b/xen/drivers/passthrough/pci.c @@ -53,9 +53,10 @@ struct pci_seg { static spinlock_t _pcidevs_lock = SPIN_LOCK_UNLOCKED; -void pcidevs_lock(void) +/* Do not use, as it has no speculation barrier, use pcidevs_lock() instead. */ +void pcidevs_lock_unsafe(void) { - spin_lock_recursive(&_pcidevs_lock); + _spin_lock_recursive(&_pcidevs_lock); } void pcidevs_unlock(void) @@ -68,7 +69,7 @@ bool_t pcidevs_locked(void) return !!spin_is_locked(&_pcidevs_lock); } -bool_t pcidevs_trylock(void) +static always_inline bool_t pcidevs_trylock(void) { return !!spin_trylock_recursive(&_pcidevs_lock); } --- a/xen/include/asm-x86/irq.h +++ b/xen/include/asm-x86/irq.h @@ -178,6 +178,7 @@ extern void irq_complete_move(struct irq extern struct irq_desc *irq_desc; +/* Not speculation safe, only used for AP bringup. */ void lock_vector_lock(void); void unlock_vector_lock(void); --- a/xen/include/xen/event.h +++ b/xen/include/xen/event.h @@ -111,12 +111,12 @@ static inline unsigned int max_evtchns(c : BITS_PER_EVTCHN_WORD(d) * BITS_PER_EVTCHN_WORD(d); } -static inline void evtchn_read_lock(struct evtchn *evtchn) +static always_inline void evtchn_read_lock(struct evtchn *evtchn) { read_lock(&evtchn->lock); } -static inline bool evtchn_read_trylock(struct evtchn *evtchn) +static always_inline bool evtchn_read_trylock(struct evtchn *evtchn) { return read_trylock(&evtchn->lock); } --- a/xen/include/xen/pci.h +++ b/xen/include/xen/pci.h @@ -144,11 +144,14 @@ struct pci_dev { * devices, it also sync the access to the msi capability that is not * interrupt handling related (the mask bit register). */ - -void pcidevs_lock(void); +void pcidevs_lock_unsafe(void); +static always_inline void pcidevs_lock(void) +{ + pcidevs_lock_unsafe(); + block_lock_speculation(); +} void pcidevs_unlock(void); bool_t __must_check pcidevs_locked(void); -bool_t __must_check pcidevs_trylock(void); bool_t pci_known_segment(u16 seg); bool_t pci_device_detect(u16 seg, u8 bus, u8 dev, u8 func); --- a/xen/include/xen/sched-if.h +++ b/xen/include/xen/sched-if.h @@ -209,8 +209,24 @@ DECLARE_PER_CPU(cpumask_t, cpumask_scrat #define cpumask_scratch (&this_cpu(cpumask_scratch)) #define cpumask_scratch_cpu(c) (&per_cpu(cpumask_scratch, c)) +/* + * Deal with _spin_lock_irqsave() returning the flags value instead of storing + * it in a passed parameter. + */ +#define _sched_spinlock0(lock, irq) _spin_lock##irq(lock) +#define _sched_spinlock1(lock, irq, arg) ({ \ + BUILD_BUG_ON(sizeof(arg) != sizeof(unsigned long)); \ + (arg) = _spin_lock##irq(lock); \ +}) + +#define _sched_spinlock__(nr) _sched_spinlock ## nr +#define _sched_spinlock_(nr) _sched_spinlock__(nr) +#define _sched_spinlock(lock, irq, args...) \ + _sched_spinlock_(count_args(args))(lock, irq, ## args) + #define sched_lock(kind, param, cpu, irq, arg...) \ -static inline spinlock_t *kind##_schedule_lock##irq(param EXTRA_TYPE(arg)) \ +static always_inline spinlock_t \ +*kind##_schedule_lock##irq(param EXTRA_TYPE(arg)) \ { \ for ( ; ; ) \ { \ @@ -222,10 +238,16 @@ static inline spinlock_t *kind##_schedul * \ * It may also be the case that v->processor may change but the \ * lock may be the same; this will succeed in that case. \ + * \ + * Use the speculation unsafe locking helper, there's a speculation \ + * barrier before returning to the caller. \ */ \ - spin_lock##irq(lock, ## arg); \ + _sched_spinlock(lock, irq, ## arg); \ if ( likely(lock == get_sched_res(cpu)->schedule_lock) ) \ + { \ + block_lock_speculation(); \ return lock; \ + } \ spin_unlock##irq(lock, ## arg); \ } \ }
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