forked from Minki/linux
f3383cf80e
Old guests try to use the magic page, but map their trampoline code inside of an NX region. Since we can't fix those old kernels, try to detect whether the guest is sane or not. If not, just disable NX functionality in KVM so that old guests at least work at all. For newer guests, add a bit that we can set to keep NX functionality available. Signed-off-by: Alexander Graf <agraf@suse.de>
213 lines
7.3 KiB
Plaintext
213 lines
7.3 KiB
Plaintext
The PPC KVM paravirtual interface
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=================================
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The basic execution principle by which KVM on PowerPC works is to run all kernel
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space code in PR=1 which is user space. This way we trap all privileged
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instructions and can emulate them accordingly.
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Unfortunately that is also the downfall. There are quite some privileged
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instructions that needlessly return us to the hypervisor even though they
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could be handled differently.
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This is what the PPC PV interface helps with. It takes privileged instructions
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and transforms them into unprivileged ones with some help from the hypervisor.
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This cuts down virtualization costs by about 50% on some of my benchmarks.
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The code for that interface can be found in arch/powerpc/kernel/kvm*
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Querying for existence
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======================
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To find out if we're running on KVM or not, we leverage the device tree. When
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Linux is running on KVM, a node /hypervisor exists. That node contains a
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compatible property with the value "linux,kvm".
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Once you determined you're running under a PV capable KVM, you can now use
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hypercalls as described below.
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KVM hypercalls
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==============
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Inside the device tree's /hypervisor node there's a property called
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'hypercall-instructions'. This property contains at most 4 opcodes that make
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up the hypercall. To call a hypercall, just call these instructions.
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The parameters are as follows:
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Register IN OUT
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r0 - volatile
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r3 1st parameter Return code
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r4 2nd parameter 1st output value
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r5 3rd parameter 2nd output value
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r6 4th parameter 3rd output value
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r7 5th parameter 4th output value
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r8 6th parameter 5th output value
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r9 7th parameter 6th output value
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r10 8th parameter 7th output value
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r11 hypercall number 8th output value
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r12 - volatile
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Hypercall definitions are shared in generic code, so the same hypercall numbers
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apply for x86 and powerpc alike with the exception that each KVM hypercall
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also needs to be ORed with the KVM vendor code which is (42 << 16).
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Return codes can be as follows:
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Code Meaning
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0 Success
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12 Hypercall not implemented
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<0 Error
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The magic page
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==============
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To enable communication between the hypervisor and guest there is a new shared
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page that contains parts of supervisor visible register state. The guest can
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map this shared page using the KVM hypercall KVM_HC_PPC_MAP_MAGIC_PAGE.
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With this hypercall issued the guest always gets the magic page mapped at the
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desired location. The first parameter indicates the effective address when the
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MMU is enabled. The second parameter indicates the address in real mode, if
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applicable to the target. For now, we always map the page to -4096. This way we
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can access it using absolute load and store functions. The following
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instruction reads the first field of the magic page:
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ld rX, -4096(0)
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The interface is designed to be extensible should there be need later to add
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additional registers to the magic page. If you add fields to the magic page,
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also define a new hypercall feature to indicate that the host can give you more
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registers. Only if the host supports the additional features, make use of them.
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The magic page layout is described by struct kvm_vcpu_arch_shared
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in arch/powerpc/include/asm/kvm_para.h.
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Magic page features
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===================
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When mapping the magic page using the KVM hypercall KVM_HC_PPC_MAP_MAGIC_PAGE,
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a second return value is passed to the guest. This second return value contains
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a bitmap of available features inside the magic page.
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The following enhancements to the magic page are currently available:
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KVM_MAGIC_FEAT_SR Maps SR registers r/w in the magic page
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KVM_MAGIC_FEAT_MAS0_TO_SPRG7 Maps MASn, ESR, PIR and high SPRGs
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For enhanced features in the magic page, please check for the existence of the
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feature before using them!
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Magic page flags
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================
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In addition to features that indicate whether a host is capable of a particular
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feature we also have a channel for a guest to tell the guest whether it's capable
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of something. This is what we call "flags".
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Flags are passed to the host in the low 12 bits of the Effective Address.
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The following flags are currently available for a guest to expose:
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MAGIC_PAGE_FLAG_NOT_MAPPED_NX Guest handles NX bits correclty wrt magic page
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MSR bits
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========
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The MSR contains bits that require hypervisor intervention and bits that do
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not require direct hypervisor intervention because they only get interpreted
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when entering the guest or don't have any impact on the hypervisor's behavior.
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The following bits are safe to be set inside the guest:
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MSR_EE
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MSR_RI
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If any other bit changes in the MSR, please still use mtmsr(d).
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Patched instructions
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====================
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The "ld" and "std" instructions are transformed to "lwz" and "stw" instructions
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respectively on 32 bit systems with an added offset of 4 to accommodate for big
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endianness.
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The following is a list of mapping the Linux kernel performs when running as
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guest. Implementing any of those mappings is optional, as the instruction traps
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also act on the shared page. So calling privileged instructions still works as
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before.
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From To
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==== ==
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mfmsr rX ld rX, magic_page->msr
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mfsprg rX, 0 ld rX, magic_page->sprg0
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mfsprg rX, 1 ld rX, magic_page->sprg1
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mfsprg rX, 2 ld rX, magic_page->sprg2
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mfsprg rX, 3 ld rX, magic_page->sprg3
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mfsrr0 rX ld rX, magic_page->srr0
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mfsrr1 rX ld rX, magic_page->srr1
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mfdar rX ld rX, magic_page->dar
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mfdsisr rX lwz rX, magic_page->dsisr
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mtmsr rX std rX, magic_page->msr
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mtsprg 0, rX std rX, magic_page->sprg0
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mtsprg 1, rX std rX, magic_page->sprg1
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mtsprg 2, rX std rX, magic_page->sprg2
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mtsprg 3, rX std rX, magic_page->sprg3
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mtsrr0 rX std rX, magic_page->srr0
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mtsrr1 rX std rX, magic_page->srr1
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mtdar rX std rX, magic_page->dar
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mtdsisr rX stw rX, magic_page->dsisr
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tlbsync nop
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mtmsrd rX, 0 b <special mtmsr section>
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mtmsr rX b <special mtmsr section>
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mtmsrd rX, 1 b <special mtmsrd section>
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[Book3S only]
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mtsrin rX, rY b <special mtsrin section>
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[BookE only]
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wrteei [0|1] b <special wrteei section>
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Some instructions require more logic to determine what's going on than a load
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or store instruction can deliver. To enable patching of those, we keep some
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RAM around where we can live translate instructions to. What happens is the
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following:
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1) copy emulation code to memory
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2) patch that code to fit the emulated instruction
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3) patch that code to return to the original pc + 4
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4) patch the original instruction to branch to the new code
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That way we can inject an arbitrary amount of code as replacement for a single
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instruction. This allows us to check for pending interrupts when setting EE=1
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for example.
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Hypercall ABIs in KVM on PowerPC
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=================================
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1) KVM hypercalls (ePAPR)
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These are ePAPR compliant hypercall implementation (mentioned above). Even
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generic hypercalls are implemented here, like the ePAPR idle hcall. These are
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available on all targets.
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2) PAPR hypercalls
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PAPR hypercalls are needed to run server PowerPC PAPR guests (-M pseries in QEMU).
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These are the same hypercalls that pHyp, the POWER hypervisor implements. Some of
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them are handled in the kernel, some are handled in user space. This is only
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available on book3s_64.
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3) OSI hypercalls
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Mac-on-Linux is another user of KVM on PowerPC, which has its own hypercall (long
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before KVM). This is supported to maintain compatibility. All these hypercalls get
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forwarded to user space. This is only useful on book3s_32, but can be used with
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book3s_64 as well.
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