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s=fm1; t=1716392371; x= 1716478771; bh=y+sSs98gGM+UCF1S1MrkA/IvESQ3dOFmWnvEWkSSLzI=; b=L 57UiV40DjM/rz79neWqQk5ov/hE9Ra9xoONNrXU22l3xCaHo1hDFbnbdezRanV4v lQa0MZd2aV+gm01t564vREzQTgs+HO2E/OUIFjzeEZtdjuhT43hM5k9fHMiBpj7r xld+Tt6RQIhVNEkQfoDEl7YGz74px6Q8jhOc1Xku/z8k/2BF9UyGYefe6sbtnhJ8 zwZLmVZVuVIjOlen/2sQFbzO81vYUY6lAAI9fwpE/3LAnTav1ub8SGRJtko0Xoie MIxFwLnPxa3xbUe6YQOvcAQSa6I0ANOvgnAnXbrSs5HymYLgrKVPAFMiNy0o5bbQ EnnKNE+Cmcc5LoBUz2JCA== X-ME-Sender: X-ME-Received: X-ME-Proxy-Cause: gggruggvucftvghtrhhoucdtuddrgedvledrvdeigedgvdegucetufdoteggodetrfdotf fvucfrrhhofhhilhgvmecuhfgrshhtofgrihhlpdfqfgfvpdfurfetoffkrfgpnffqhgen uceurghilhhouhhtmecufedttdenucesvcftvggtihhpihgvnhhtshculddquddttddmne cujfgurhephffvvefufffkofgjfhggtgfgsehtkeertdertdejnecuhfhrohhmpeforghr vghkucforghrtgiihihkohifshhkihdqifpkrhgvtghkihcuoehmrghrmhgrrhgvkhesih hnvhhishhisghlvghthhhinhhgshhlrggsrdgtohhmqeenucggtffrrghtthgvrhhnpefg ueduhefgvdefheehudejheefudevueeghfekhfehleegveduteeuiedugffgffenucevlh hushhtvghrufhiiigvpedtnecurfgrrhgrmhepmhgrihhlfhhrohhmpehmrghrmhgrrhgv khesihhnvhhishhisghlvghthhhinhhgshhlrggsrdgtohhm X-ME-Proxy: Feedback-ID: i1568416f:Fastmail From: =?utf-8?q?Marek_Marczykowski-G=C3=B3recki?= To: xen-devel@lists.xenproject.org Cc: =?utf-8?q?Marek_Marczykowski-G=C3=B3recki?= , Jan Beulich , Andrew Cooper , =?utf-8?q?Roger_Pau_Monn=C3=A9?= Subject: [PATCH v4 1/2] x86/mm: add API for marking only part of a MMIO page read only Date: Wed, 22 May 2024 17:39:03 +0200 Message-ID: <30562c807ff2e434731a76d7110d48614a58884b.1716392340.git-series.marmarek@invisiblethingslab.com> X-Mailer: git-send-email 2.44.0 In-Reply-To: References: MIME-Version: 1.0 In some cases, only few registers on a page needs to be write-protected. Examples include USB3 console (64 bytes worth of registers) or MSI-X's PBA table (which doesn't need to span the whole table either), although in the latter case the spec forbids placing other registers on the same page. Current API allows only marking whole pages pages read-only, which sometimes may cover other registers that guest may need to write into. Currently, when a guest tries to write to an MMIO page on the mmio_ro_ranges, it's either immediately crashed on EPT violation - if that's HVM, or if PV, it gets #PF. In case of Linux PV, if access was from userspace (like, /dev/mem), it will try to fixup by updating page tables (that Xen again will force to read-only) and will hit that #PF again (looping endlessly). Both behaviors are undesirable if guest could actually be allowed the write. Introduce an API that allows marking part of a page read-only. Since sub-page permissions are not a thing in page tables (they are in EPT, but not granular enough), do this via emulation (or simply page fault handler for PV) that handles writes that are supposed to be allowed. The new subpage_mmio_ro_add() takes a start physical address and the region size in bytes. Both start address and the size need to be 8-byte aligned, as a practical simplification (allows using smaller bitmask, and a smaller granularity isn't really necessary right now). It will internally add relevant pages to mmio_ro_ranges, but if either start or end address is not page-aligned, it additionally adds that page to a list for sub-page R/O handling. The list holds a bitmask which qwords are supposed to be read-only and an address where page is mapped for write emulation - this mapping is done only on the first access. A plain list is used instead of more efficient structure, because there isn't supposed to be many pages needing this precise r/o control. The mechanism this API is plugged in is slightly different for PV and HVM. For both paths, it's plugged into mmio_ro_emulated_write(). For PV, it's already called for #PF on read-only MMIO page. For HVM however, EPT violation on p2m_mmio_direct page results in a direct domain_crash() for non hardware domains. To reach mmio_ro_emulated_write(), change how write violations for p2m_mmio_direct are handled - specifically, check if they relate to such partially protected page via subpage_mmio_write_accept() and if so, call hvm_emulate_one_mmio() for them too. This decodes what guest is trying write and finally calls mmio_ro_emulated_write(). The EPT write violation is detected as npfec.write_access and npfec.present both being true (similar to other places), which may cover some other (future?) cases - if that happens, emulator might get involved unnecessarily, but since it's limited to pages marked with subpage_mmio_ro_add() only, the impact is minimal. Both of those paths need an MFN to which guest tried to write (to check which part of the page is supposed to be read-only, and where the page is mapped for writes). This information currently isn't available directly in mmio_ro_emulated_write(), but in both cases it is already resolved somewhere higher in the call tree. Pass it down to mmio_ro_emulated_write() via new mmio_ro_emulate_ctxt.mfn field. This may give a bit more access to the instruction emulator to HVM guests (the change in hvm_hap_nested_page_fault()), but only for pages explicitly marked with subpage_mmio_ro_add() - so, if the guest has a passed through a device partially used by Xen. As of the next patch, it applies only configuration explicitly documented as not security supported. The subpage_mmio_ro_add() function cannot be called with overlapping ranges, and on pages already added to mmio_ro_ranges separately. Successful calls would result in correct handling, but error paths may result in incorrect state (like pages removed from mmio_ro_ranges too early). Debug build has asserts for relevant cases. Signed-off-by: Marek Marczykowski-Górecki --- Shadow mode is not tested, but I don't expect it to work differently than HAP in areas related to this patch. Changes in v4: - rename SUBPAGE_MMIO_RO_ALIGN to MMIO_RO_SUBPAGE_GRAN - guard subpage_mmio_write_accept with CONFIG_HVM, as it's used only there - rename ro_qwords to ro_elems - use unsigned arguments for subpage_mmio_ro_remove_page() - use volatile for __iomem - do not set mmio_ro_ctxt.mfn for mmcfg case - comment where fields of mmio_ro_ctxt are used - use bool for result of __test_and_set_bit - do not open-code mfn_to_maddr() - remove leftover RCU - mention hvm_hap_nested_page_fault() explicitly in the commit message Changes in v3: - use unsigned int for loop iterators - use __set_bit/__clear_bit when under spinlock - avoid ioremap() under spinlock - do not cast away const - handle unaligned parameters in release build - comment fixes - remove RCU - the add functions are __init and actual usage is only much later after domains are running - add checks overlapping ranges in debug build and document the limitations - change subpage_mmio_ro_add() so the error path doesn't potentially remove pages from mmio_ro_ranges - move printing message to avoid one goto in subpage_mmio_write_emulate() Changes in v2: - Simplify subpage_mmio_ro_add() parameters - add to mmio_ro_ranges from within subpage_mmio_ro_add() - use ioremap() instead of caller-provided fixmap - use 8-bytes granularity (largest supported single write) and a bitmap instead of a rangeset - clarify commit message - change how it's plugged in for HVM domain, to not change the behavior for read-only parts (keep it hitting domain_crash(), instead of ignoring write) - remove unused subpage_mmio_ro_remove() --- xen/arch/x86/hvm/emulate.c | 2 +- xen/arch/x86/hvm/hvm.c | 4 +- xen/arch/x86/include/asm/mm.h | 25 +++- xen/arch/x86/mm.c | 273 +++++++++++++++++++++++++++++++++- xen/arch/x86/pv/ro-page-fault.c | 6 +- 5 files changed, 305 insertions(+), 5 deletions(-) diff --git a/xen/arch/x86/hvm/emulate.c b/xen/arch/x86/hvm/emulate.c index ab1bc516839a..e98513afc69b 100644 --- a/xen/arch/x86/hvm/emulate.c +++ b/xen/arch/x86/hvm/emulate.c @@ -2735,7 +2735,7 @@ int hvm_emulate_one_mmio(unsigned long mfn, unsigned long gla) .write = mmio_ro_emulated_write, .validate = hvmemul_validate, }; - struct mmio_ro_emulate_ctxt mmio_ro_ctxt = { .cr2 = gla }; + struct mmio_ro_emulate_ctxt mmio_ro_ctxt = { .cr2 = gla, .mfn = _mfn(mfn) }; struct hvm_emulate_ctxt ctxt; const struct x86_emulate_ops *ops; unsigned int seg, bdf; diff --git a/xen/arch/x86/hvm/hvm.c b/xen/arch/x86/hvm/hvm.c index 9594e0a5c530..73bbfe2bdc99 100644 --- a/xen/arch/x86/hvm/hvm.c +++ b/xen/arch/x86/hvm/hvm.c @@ -2001,8 +2001,8 @@ int hvm_hap_nested_page_fault(paddr_t gpa, unsigned long gla, goto out_put_gfn; } - if ( (p2mt == p2m_mmio_direct) && is_hardware_domain(currd) && - npfec.write_access && npfec.present && + if ( (p2mt == p2m_mmio_direct) && npfec.write_access && npfec.present && + (is_hardware_domain(currd) || subpage_mmio_write_accept(mfn, gla)) && (hvm_emulate_one_mmio(mfn_x(mfn), gla) == X86EMUL_OKAY) ) { rc = 1; diff --git a/xen/arch/x86/include/asm/mm.h b/xen/arch/x86/include/asm/mm.h index 98b66edaca5e..d04cf2c4165e 100644 --- a/xen/arch/x86/include/asm/mm.h +++ b/xen/arch/x86/include/asm/mm.h @@ -522,9 +522,34 @@ extern struct rangeset *mmio_ro_ranges; void memguard_guard_stack(void *p); void memguard_unguard_stack(void *p); +/* + * Add more precise r/o marking for a MMIO page. Range specified here + * will still be R/O, but the rest of the page (not marked as R/O via another + * call) will have writes passed through. + * The start address and the size must be aligned to MMIO_RO_SUBPAGE_GRAN. + * + * This API cannot be used for overlapping ranges, nor for pages already added + * to mmio_ro_ranges separately. + * + * Since there is currently no subpage_mmio_ro_remove(), relevant device should + * not be hot-unplugged. + * + * Return values: + * - negative: error + * - 0: success + */ +#define MMIO_RO_SUBPAGE_GRAN 8 +int subpage_mmio_ro_add(paddr_t start, size_t size); +#ifdef CONFIG_HVM +bool subpage_mmio_write_accept(mfn_t mfn, unsigned long gla); +#endif + struct mmio_ro_emulate_ctxt { unsigned long cr2; + /* Used only for mmcfg case */ unsigned int seg, bdf; + /* Used only for non-mmcfg case */ + mfn_t mfn; }; int cf_check mmio_ro_emulated_write( diff --git a/xen/arch/x86/mm.c b/xen/arch/x86/mm.c index d968bbbc7315..dab7cc018c3f 100644 --- a/xen/arch/x86/mm.c +++ b/xen/arch/x86/mm.c @@ -150,6 +150,17 @@ bool __read_mostly machine_to_phys_mapping_valid; struct rangeset *__read_mostly mmio_ro_ranges; +/* Handling sub-page read-only MMIO regions */ +struct subpage_ro_range { + struct list_head list; + mfn_t mfn; + void __iomem *mapped; + DECLARE_BITMAP(ro_elems, PAGE_SIZE / MMIO_RO_SUBPAGE_GRAN); +}; + +static LIST_HEAD(subpage_ro_ranges); +static DEFINE_SPINLOCK(subpage_ro_lock); + static uint32_t base_disallow_mask; /* Global bit is allowed to be set on L1 PTEs. Intended for user mappings. */ #define L1_DISALLOW_MASK ((base_disallow_mask | _PAGE_GNTTAB) & ~_PAGE_GLOBAL) @@ -4910,6 +4921,265 @@ long arch_memory_op(unsigned long cmd, XEN_GUEST_HANDLE_PARAM(void) arg) return rc; } +/* + * Mark part of the page as R/O. + * Returns: + * - 0 on success - first range in the page + * - 1 on success - subsequent range in the page + * - <0 on error + * + * This needs subpage_ro_lock already taken. + */ +static int __init subpage_mmio_ro_add_page( + mfn_t mfn, unsigned int offset_s, unsigned int offset_e) +{ + struct subpage_ro_range *entry = NULL, *iter; + unsigned int i; + + list_for_each_entry(iter, &subpage_ro_ranges, list) + { + if ( mfn_eq(iter->mfn, mfn) ) + { + entry = iter; + break; + } + } + if ( !entry ) + { + /* iter == NULL marks it was a newly allocated entry */ + iter = NULL; + entry = xzalloc(struct subpage_ro_range); + if ( !entry ) + return -ENOMEM; + entry->mfn = mfn; + } + + for ( i = offset_s; i <= offset_e; i += MMIO_RO_SUBPAGE_GRAN ) + { + bool oldbit = __test_and_set_bit(i / MMIO_RO_SUBPAGE_GRAN, + entry->ro_elems); + ASSERT(!oldbit); + } + + if ( !iter ) + list_add(&entry->list, &subpage_ro_ranges); + + return iter ? 1 : 0; +} + +/* This needs subpage_ro_lock already taken */ +static void __init subpage_mmio_ro_remove_page( + mfn_t mfn, + unsigned int offset_s, + unsigned int offset_e) +{ + struct subpage_ro_range *entry = NULL, *iter; + unsigned int i; + + list_for_each_entry(iter, &subpage_ro_ranges, list) + { + if ( mfn_eq(iter->mfn, mfn) ) + { + entry = iter; + break; + } + } + if ( !entry ) + return; + + for ( i = offset_s; i <= offset_e; i += MMIO_RO_SUBPAGE_GRAN ) + __clear_bit(i / MMIO_RO_SUBPAGE_GRAN, entry->ro_elems); + + if ( !bitmap_empty(entry->ro_elems, PAGE_SIZE / MMIO_RO_SUBPAGE_GRAN) ) + return; + + list_del(&entry->list); + if ( entry->mapped ) + iounmap(entry->mapped); + xfree(entry); +} + +int __init subpage_mmio_ro_add( + paddr_t start, + size_t size) +{ + mfn_t mfn_start = maddr_to_mfn(start); + paddr_t end = start + size - 1; + mfn_t mfn_end = maddr_to_mfn(end); + unsigned int offset_end = 0; + int rc; + bool subpage_start, subpage_end; + + ASSERT(IS_ALIGNED(start, MMIO_RO_SUBPAGE_GRAN)); + ASSERT(IS_ALIGNED(size, MMIO_RO_SUBPAGE_GRAN)); + if ( !IS_ALIGNED(size, MMIO_RO_SUBPAGE_GRAN) ) + size = ROUNDUP(size, MMIO_RO_SUBPAGE_GRAN); + + if ( !size ) + return 0; + + if ( mfn_eq(mfn_start, mfn_end) ) + { + /* Both starting and ending parts handled at once */ + subpage_start = PAGE_OFFSET(start) || PAGE_OFFSET(end) != PAGE_SIZE - 1; + subpage_end = false; + } + else + { + subpage_start = PAGE_OFFSET(start); + subpage_end = PAGE_OFFSET(end) != PAGE_SIZE - 1; + } + + spin_lock(&subpage_ro_lock); + + if ( subpage_start ) + { + offset_end = mfn_eq(mfn_start, mfn_end) ? + PAGE_OFFSET(end) : + (PAGE_SIZE - 1); + rc = subpage_mmio_ro_add_page(mfn_start, + PAGE_OFFSET(start), + offset_end); + if ( rc < 0 ) + goto err_unlock; + /* Check if not marking R/W part of a page intended to be fully R/O */ + ASSERT(rc || !rangeset_contains_singleton(mmio_ro_ranges, + mfn_x(mfn_start))); + } + + if ( subpage_end ) + { + rc = subpage_mmio_ro_add_page(mfn_end, 0, PAGE_OFFSET(end)); + if ( rc < 0 ) + goto err_unlock_remove; + /* Check if not marking R/W part of a page intended to be fully R/O */ + ASSERT(rc || !rangeset_contains_singleton(mmio_ro_ranges, + mfn_x(mfn_end))); + } + + spin_unlock(&subpage_ro_lock); + + rc = rangeset_add_range(mmio_ro_ranges, mfn_x(mfn_start), mfn_x(mfn_end)); + if ( rc ) + goto err_remove; + + return 0; + + err_remove: + spin_lock(&subpage_ro_lock); + if ( subpage_end ) + subpage_mmio_ro_remove_page(mfn_end, 0, PAGE_OFFSET(end)); + err_unlock_remove: + if ( subpage_start ) + subpage_mmio_ro_remove_page(mfn_start, PAGE_OFFSET(start), offset_end); + err_unlock: + spin_unlock(&subpage_ro_lock); + return rc; +} + +static void __iomem *subpage_mmio_map_page( + struct subpage_ro_range *entry) +{ + void __iomem *mapped_page; + + if ( entry->mapped ) + return entry->mapped; + + mapped_page = ioremap(mfn_to_maddr(entry->mfn), PAGE_SIZE); + + spin_lock(&subpage_ro_lock); + /* Re-check under the lock */ + if ( entry->mapped ) + { + spin_unlock(&subpage_ro_lock); + if ( mapped_page ) + iounmap(mapped_page); + return entry->mapped; + } + + entry->mapped = mapped_page; + spin_unlock(&subpage_ro_lock); + return entry->mapped; +} + +static void subpage_mmio_write_emulate( + mfn_t mfn, + unsigned int offset, + const void *data, + unsigned int len) +{ + struct subpage_ro_range *entry; + volatile void __iomem *addr; + + list_for_each_entry(entry, &subpage_ro_ranges, list) + { + if ( mfn_eq(entry->mfn, mfn) ) + { + if ( test_bit(offset / MMIO_RO_SUBPAGE_GRAN, entry->ro_elems) ) + { + write_ignored: + gprintk(XENLOG_WARNING, + "ignoring write to R/O MMIO 0x%"PRI_mfn"%03x len %u\n", + mfn_x(mfn), offset, len); + return; + } + + addr = subpage_mmio_map_page(entry); + if ( !addr ) + { + gprintk(XENLOG_ERR, + "Failed to map page for MMIO write at 0x%"PRI_mfn"%03x\n", + mfn_x(mfn), offset); + return; + } + + switch ( len ) + { + case 1: + writeb(*(const uint8_t*)data, addr); + break; + case 2: + writew(*(const uint16_t*)data, addr); + break; + case 4: + writel(*(const uint32_t*)data, addr); + break; + case 8: + writeq(*(const uint64_t*)data, addr); + break; + default: + /* mmio_ro_emulated_write() already validated the size */ + ASSERT_UNREACHABLE(); + goto write_ignored; + } + return; + } + } + /* Do not print message for pages without any writable parts. */ +} + +#ifdef CONFIG_HVM +bool subpage_mmio_write_accept(mfn_t mfn, unsigned long gla) +{ + unsigned int offset = PAGE_OFFSET(gla); + const struct subpage_ro_range *entry; + + list_for_each_entry(entry, &subpage_ro_ranges, list) + if ( mfn_eq(entry->mfn, mfn) && + !test_bit(offset / MMIO_RO_SUBPAGE_GRAN, entry->ro_elems) ) + { + /* + * We don't know the write size at this point yet, so it could be + * an unaligned write, but accept it here anyway and deal with it + * later. + */ + return true; + } + + return false; +} +#endif + int cf_check mmio_ro_emulated_write( enum x86_segment seg, unsigned long offset, @@ -4928,6 +5198,9 @@ int cf_check mmio_ro_emulated_write( return X86EMUL_UNHANDLEABLE; } + subpage_mmio_write_emulate(mmio_ro_ctxt->mfn, PAGE_OFFSET(offset), + p_data, bytes); + return X86EMUL_OKAY; } diff --git a/xen/arch/x86/pv/ro-page-fault.c b/xen/arch/x86/pv/ro-page-fault.c index cad28ef928ad..2ea1a6ad489c 100644 --- a/xen/arch/x86/pv/ro-page-fault.c +++ b/xen/arch/x86/pv/ro-page-fault.c @@ -333,8 +333,10 @@ static int mmio_ro_do_page_fault(struct x86_emulate_ctxt *ctxt, ctxt->data = &mmio_ro_ctxt; if ( pci_ro_mmcfg_decode(mfn_x(mfn), &mmio_ro_ctxt.seg, &mmio_ro_ctxt.bdf) ) return x86_emulate(ctxt, &mmcfg_intercept_ops); - else - return x86_emulate(ctxt, &mmio_ro_emulate_ops); + + mmio_ro_ctxt.mfn = mfn; + + return x86_emulate(ctxt, &mmio_ro_emulate_ops); } int pv_ro_page_fault(unsigned long addr, struct cpu_user_regs *regs)