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[83.57.168.62]) by smtp.gmail.com with ESMTPSA id b10sm21701wrt.36.2021.11.18.06.34.01 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Thu, 18 Nov 2021 06:34:02 -0800 (PST) From: =?utf-8?q?Philippe_Mathieu-Daud=C3=A9?= To: qemu-devel@nongnu.org Subject: [PATCH-for-6.2?] docs: Spell QEMU all caps Date: Thu, 18 Nov 2021 15:34:01 +0100 Message-Id: <20211118143401.4101497-1-philmd@redhat.com> X-Mailer: git-send-email 2.31.1 MIME-Version: 1.0 Authentication-Results: relay.mimecast.com; auth=pass smtp.auth=CUSA124A263 smtp.mailfrom=philmd@redhat.com X-Mimecast-Spam-Score: 0 X-Mimecast-Originator: redhat.com Received-SPF: pass client-ip=170.10.129.124; envelope-from=philmd@redhat.com; helo=us-smtp-delivery-124.mimecast.com X-Spam_score_int: -34 X-Spam_score: -3.5 X-Spam_bar: --- X-Spam_report: (-3.5 / 5.0 requ) BAYES_00=-1.9, DKIMWL_WL_HIGH=-0.698, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, RCVD_IN_DNSWL_LOW=-0.7, RCVD_IN_MSPIKE_H4=0.001, RCVD_IN_MSPIKE_WL=0.001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001 autolearn=unavailable autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Cc: Kevin Wolf , Vladimir Sementsov-Ogievskiy , qemu-block@nongnu.org, kvm@vger.kernel.org, =?utf-8?q?Philippe_Mathieu-Daud?= =?utf-8?q?=C3=A9?= , Marcelo Tosatti , Hanna Reitz , Paolo Bonzini , Eric Blake Errors-To: qemu-devel-bounces+qemu-devel=archiver.kernel.org@nongnu.org Sender: "Qemu-devel" Replace Qemu -> QEMU. Signed-off-by: Philippe Mathieu-Daudé Reviewed-by: Darren Kenny Reviewed-by: Markus Armbruster --- docs/devel/modules.rst | 2 +- docs/devel/multi-thread-tcg.rst | 2 +- docs/devel/style.rst | 2 +- docs/devel/ui.rst | 4 ++-- docs/interop/nbd.txt | 6 +++--- docs/interop/qcow2.txt | 8 ++++---- docs/multiseat.txt | 2 +- docs/system/device-url-syntax.rst.inc | 2 +- docs/system/i386/sgx.rst | 26 +++++++++++++------------- docs/u2f.txt | 2 +- 10 files changed, 28 insertions(+), 28 deletions(-) diff --git a/docs/devel/modules.rst b/docs/devel/modules.rst index 066f347b89b..8e999c4fa48 100644 --- a/docs/devel/modules.rst +++ b/docs/devel/modules.rst @@ -1,5 +1,5 @@ ============ -Qemu modules +QEMU modules ============ .. kernel-doc:: include/qemu/module.h diff --git a/docs/devel/multi-thread-tcg.rst b/docs/devel/multi-thread-tcg.rst index 5b446ee08b6..c9541a7b20a 100644 --- a/docs/devel/multi-thread-tcg.rst +++ b/docs/devel/multi-thread-tcg.rst @@ -228,7 +228,7 @@ Emulated hardware state Currently thanks to KVM work any access to IO memory is automatically protected by the global iothread mutex, also known as the BQL (Big -Qemu Lock). Any IO region that doesn't use global mutex is expected to +QEMU Lock). Any IO region that doesn't use global mutex is expected to do its own locking. However IO memory isn't the only way emulated hardware state can be diff --git a/docs/devel/style.rst b/docs/devel/style.rst index 260e3263fa0..e00af62e763 100644 --- a/docs/devel/style.rst +++ b/docs/devel/style.rst @@ -686,7 +686,7 @@ Rationale: hex numbers are hard to read in logs when there is no 0x prefix, especially when (occasionally) the representation doesn't contain any letters and especially in one line with other decimal numbers. Number groups are allowed to not use '0x' because for some things notations like %x.%x.%x are used not -only in Qemu. Also dumping raw data bytes with '0x' is less readable. +only in QEMU. Also dumping raw data bytes with '0x' is less readable. '#' printf flag --------------- diff --git a/docs/devel/ui.rst b/docs/devel/ui.rst index 06c7d622ce7..17fb667dec4 100644 --- a/docs/devel/ui.rst +++ b/docs/devel/ui.rst @@ -1,8 +1,8 @@ ================= -Qemu UI subsystem +QEMU UI subsystem ================= -Qemu Clipboard +QEMU Clipboard -------------- .. kernel-doc:: include/ui/clipboard.h diff --git a/docs/interop/nbd.txt b/docs/interop/nbd.txt index 10ce098a29b..bdb0f2a41ac 100644 --- a/docs/interop/nbd.txt +++ b/docs/interop/nbd.txt @@ -1,4 +1,4 @@ -Qemu supports the NBD protocol, and has an internal NBD client (see +QEMU supports the NBD protocol, and has an internal NBD client (see block/nbd.c), an internal NBD server (see blockdev-nbd.c), and an external NBD server tool (see qemu-nbd.c). The common code is placed in nbd/*. @@ -7,11 +7,11 @@ The NBD protocol is specified here: https://github.com/NetworkBlockDevice/nbd/blob/master/doc/proto.md The following paragraphs describe some specific properties of NBD -protocol realization in Qemu. +protocol realization in QEMU. = Metadata namespaces = -Qemu supports the "base:allocation" metadata context as defined in the +QEMU supports the "base:allocation" metadata context as defined in the NBD protocol specification, and also defines an additional metadata namespace "qemu". diff --git a/docs/interop/qcow2.txt b/docs/interop/qcow2.txt index 0463f761efb..f7dc304ff69 100644 --- a/docs/interop/qcow2.txt +++ b/docs/interop/qcow2.txt @@ -313,7 +313,7 @@ The fields of the bitmaps extension are: The number of bitmaps contained in the image. Must be greater than or equal to 1. - Note: Qemu currently only supports up to 65535 bitmaps per + Note: QEMU currently only supports up to 65535 bitmaps per image. 4 - 7: Reserved, must be zero. @@ -775,7 +775,7 @@ Structure of a bitmap directory entry: 2: extra_data_compatible This flags is meaningful when the extra data is unknown to the software (currently any extra data is - unknown to Qemu). + unknown to QEMU). If it is set, the bitmap may be used as expected, extra data must be left as is. If it is not set, the bitmap must not be used, but @@ -793,7 +793,7 @@ Structure of a bitmap directory entry: 17: granularity_bits Granularity bits. Valid values: 0 - 63. - Note: Qemu currently supports only values 9 - 31. + Note: QEMU currently supports only values 9 - 31. Granularity is calculated as granularity = 1 << granularity_bits @@ -804,7 +804,7 @@ Structure of a bitmap directory entry: 18 - 19: name_size Size of the bitmap name. Must be non-zero. - Note: Qemu currently doesn't support values greater than + Note: QEMU currently doesn't support values greater than 1023. 20 - 23: extra_data_size diff --git a/docs/multiseat.txt b/docs/multiseat.txt index 11850c96ff8..2b297e979d6 100644 --- a/docs/multiseat.txt +++ b/docs/multiseat.txt @@ -123,7 +123,7 @@ Background info is here: guest side with pci-bridge-seat ------------------------------- -Qemu version 2.4 and newer has a new pci-bridge-seat device which +QEMU version 2.4 and newer has a new pci-bridge-seat device which can be used instead of pci-bridge. Just swap the device name in the qemu command line above. The only difference between the two devices is the pci id. We can match the pci id instead of the device path diff --git a/docs/system/device-url-syntax.rst.inc b/docs/system/device-url-syntax.rst.inc index d15a0215087..7dbc525fa80 100644 --- a/docs/system/device-url-syntax.rst.inc +++ b/docs/system/device-url-syntax.rst.inc @@ -15,7 +15,7 @@ These are specified using a special URL syntax. 'iqn.2008-11.org.linux-kvm[:]' but this can also be set from the command line or a configuration file. - Since version Qemu 2.4 it is possible to specify a iSCSI request + Since version QEMU 2.4 it is possible to specify a iSCSI request timeout to detect stalled requests and force a reestablishment of the session. The timeout is specified in seconds. The default is 0 which means no timeout. Libiscsi 1.15.0 or greater is required for this diff --git a/docs/system/i386/sgx.rst b/docs/system/i386/sgx.rst index 9aa161af1a1..f8fade5ac2d 100644 --- a/docs/system/i386/sgx.rst +++ b/docs/system/i386/sgx.rst @@ -20,13 +20,13 @@ report the same CPUID info to guest as on host for most of SGX CPUID. With reporting the same CPUID guest is able to use full capacity of SGX, and KVM doesn't need to emulate those info. -The guest's EPC base and size are determined by Qemu, and KVM needs Qemu to +The guest's EPC base and size are determined by QEMU, and KVM needs QEMU to notify such info to it before it can initialize SGX for guest. Virtual EPC ~~~~~~~~~~~ -By default, Qemu does not assign EPC to a VM, i.e. fully enabling SGX in a VM +By default, QEMU does not assign EPC to a VM, i.e. fully enabling SGX in a VM requires explicit allocation of EPC to the VM. Similar to other specialized memory types, e.g. hugetlbfs, EPC is exposed as a memory backend. @@ -35,12 +35,12 @@ prior to realizing the vCPUs themselves, which occurs long before generic devices are parsed and realized. This limitation means that EPC does not require -maxmem as EPC is not treated as {cold,hot}plugged memory. -Qemu does not artificially restrict the number of EPC sections exposed to a -guest, e.g. Qemu will happily allow you to create 64 1M EPC sections. Be aware +QEMU does not artificially restrict the number of EPC sections exposed to a +guest, e.g. QEMU will happily allow you to create 64 1M EPC sections. Be aware that some kernels may not recognize all EPC sections, e.g. the Linux SGX driver is hardwired to support only 8 EPC sections. -The following Qemu snippet creates two EPC sections, with 64M pre-allocated +The following QEMU snippet creates two EPC sections, with 64M pre-allocated to the VM and an additional 28M mapped but not allocated:: -object memory-backend-epc,id=mem1,size=64M,prealloc=on \ @@ -54,7 +54,7 @@ to physical EPC. Because physical EPC is protected via range registers, the size of the physical EPC must be a power of two (though software sees a subset of the full EPC, e.g. 92M or 128M) and the EPC must be naturally aligned. KVM SGX's virtual EPC is purely a software construct and only -requires the size and location to be page aligned. Qemu enforces the EPC +requires the size and location to be page aligned. QEMU enforces the EPC size is a multiple of 4k and will ensure the base of the EPC is 4k aligned. To simplify the implementation, EPC is always located above 4g in the guest physical address space. @@ -62,7 +62,7 @@ physical address space. Migration ~~~~~~~~~ -Qemu/KVM doesn't prevent live migrating SGX VMs, although from hardware's +QEMU/KVM doesn't prevent live migrating SGX VMs, although from hardware's perspective, SGX doesn't support live migration, since both EPC and the SGX key hierarchy are bound to the physical platform. However live migration can be supported in the sense if guest software stack can support recreating @@ -76,7 +76,7 @@ CPUID ~~~~~ Due to its myriad dependencies, SGX is currently not listed as supported -in any of Qemu's built-in CPU configuration. To expose SGX (and SGX Launch +in any of QEMU's built-in CPU configuration. To expose SGX (and SGX Launch Control) to a guest, you must either use ``-cpu host`` to pass-through the host CPU model, or explicitly enable SGX when using a built-in CPU model, e.g. via ``-cpu ,+sgx`` or ``-cpu ,+sgx,+sgxlc``. @@ -101,7 +101,7 @@ controlled via -cpu are prefixed with "sgx", e.g.:: sgx2 sgxlc -The following Qemu snippet passes through the host CPU but restricts access to +The following QEMU snippet passes through the host CPU but restricts access to the provision and EINIT token keys:: -cpu host,-sgx-provisionkey,-sgx-tokenkey @@ -112,11 +112,11 @@ in hardware cannot be forced on via '-cpu'. Virtualize SGX Launch Control ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ -Qemu SGX support for Launch Control (LC) is passive, in the sense that it -does not actively change the LC configuration. Qemu SGX provides the user +QEMU SGX support for Launch Control (LC) is passive, in the sense that it +does not actively change the LC configuration. QEMU SGX provides the user the ability to set/clear the CPUID flag (and by extension the associated IA32_FEATURE_CONTROL MSR bit in fw_cfg) and saves/restores the LE Hash MSRs -when getting/putting guest state, but Qemu does not add new controls to +when getting/putting guest state, but QEMU does not add new controls to directly modify the LC configuration. Similar to hardware behavior, locking the LC configuration to a non-Intel value is left to guest firmware. Unlike host bios setting for SGX launch control(LC), there is no special bios setting @@ -126,7 +126,7 @@ creating VM with SGX. Feature Control ~~~~~~~~~~~~~~~ -Qemu SGX updates the ``etc/msr_feature_control`` fw_cfg entry to set the SGX +QEMU SGX updates the ``etc/msr_feature_control`` fw_cfg entry to set the SGX (bit 18) and SGX LC (bit 17) flags based on their respective CPUID support, i.e. existing guest firmware will automatically set SGX and SGX LC accordingly, assuming said firmware supports fw_cfg.msr_feature_control. diff --git a/docs/u2f.txt b/docs/u2f.txt index 8f44994818a..7f5813a0b72 100644 --- a/docs/u2f.txt +++ b/docs/u2f.txt @@ -21,7 +21,7 @@ The second factor is materialized by a device implementing the U2F protocol. In case of a USB U2F security key, it is a USB HID device that implements the U2F protocol. -In Qemu, the USB U2F key device offers a dedicated support of U2F, allowing +In QEMU, the USB U2F key device offers a dedicated support of U2F, allowing guest USB FIDO/U2F security keys operating in two possible modes: pass-through and emulated.