2007-07-19 16:49:22 +08:00
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#include <linux/linkage.h>
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#include <linux/lguest.h>
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2007-10-22 09:03:36 +08:00
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#include <asm/lguest_hcall.h>
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2007-07-19 16:49:22 +08:00
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#include <asm/asm-offsets.h>
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#include <asm/thread_info.h>
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2007-07-20 20:12:56 +08:00
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#include <asm/processor-flags.h>
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2007-07-19 16:49:22 +08:00
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2008-03-29 00:05:53 +08:00
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/*G:020 Our story starts with the kernel booting into startup_32 in
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* arch/x86/kernel/head_32.S. It expects a boot header, which is created by
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* the bootloader (the Launcher in our case).
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*
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* The startup_32 function does very little: it clears the uninitialized global
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* C variables which we expect to be zero (ie. BSS) and then copies the boot
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* header and kernel command line somewhere safe. Finally it checks the
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* 'hardware_subarch' field. This was introduced in 2.6.24 for lguest and Xen:
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* if it's set to '1' (lguest's assigned number), then it calls us here.
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2007-10-22 09:03:36 +08:00
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*
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* WARNING: be very careful here! We're running at addresses equal to physical
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* addesses (around 0), not above PAGE_OFFSET as most code expectes
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* (eg. 0xC0000000). Jumps are relative, so they're OK, but we can't touch any
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2008-03-29 00:05:53 +08:00
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* data without remembering to subtract __PAGE_OFFSET!
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2007-07-19 16:49:22 +08:00
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*
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2007-07-27 01:41:02 +08:00
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* The .section line puts this code in .init.text so it will be discarded after
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* boot. */
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2007-07-19 16:49:22 +08:00
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.section .init.text, "ax", @progbits
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2007-10-22 09:29:44 +08:00
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ENTRY(lguest_entry)
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2007-10-25 13:02:50 +08:00
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/* We make the "initialization" hypercall now to tell the Host about
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* us, and also find out where it put our page tables. */
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2007-10-22 09:03:36 +08:00
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movl $LHCALL_LGUEST_INIT, %eax
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2009-03-14 23:37:52 +08:00
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movl $lguest_data - __PAGE_OFFSET, %ebx
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.byte 0x0f,0x01,0xc1 /* KVM_HYPERCALL */
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2007-10-22 09:03:36 +08:00
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/* Set up the initial stack so we can run C code. */
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movl $(init_thread_union+THREAD_SIZE),%esp
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/* Jumps are relative, and we're running __PAGE_OFFSET too low at the
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* moment. */
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jmp lguest_init+__PAGE_OFFSET
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2007-07-19 16:49:22 +08:00
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2007-07-27 01:41:02 +08:00
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/*G:055 We create a macro which puts the assembler code between lgstart_ and
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2007-09-25 12:24:44 +08:00
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* lgend_ markers. These templates are put in the .text section: they can't be
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* discarded after boot as we may need to patch modules, too. */
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.text
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2007-07-19 16:49:22 +08:00
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#define LGUEST_PATCH(name, insns...) \
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lgstart_##name: insns; lgend_##name:; \
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.globl lgstart_##name; .globl lgend_##name
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LGUEST_PATCH(cli, movl $0, lguest_data+LGUEST_DATA_irq_enabled)
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LGUEST_PATCH(pushf, movl lguest_data+LGUEST_DATA_irq_enabled, %eax)
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lguest: optimize by coding restore_flags and irq_enable in assembler.
The downside of the last patch which made restore_flags and irq_enable
check interrupts is that they are now too big to be patched directly
into the callsites, so the C versions are always used.
But the C versions go via PV_CALLEE_SAVE_REGS_THUNK which saves all
the registers. In fact, we don't need any registers in the fast path,
so we can do better than this if we actually code them in assembler.
The results are in the noise, but since it's about the same amount of
code, it's worth applying.
1GB Guest->Host: input(suppressed),output(suppressed)
Before:
Seconds: 0:16.53
Packets: 377268,753673
Interrupts: 22461,24297
Notifications: 1(5245),21303(732370)
Net IRQs triggered: 377023(245),42578(711095)
After:
Seconds: 0:16.48
Packets: 377289,753673
Interrupts: 22281,24465
Notifications: 1(5245),21296(732377)
Net IRQs triggered: 377060(229),42564(711109)
Signed-off-by: Rusty Russell <rusty@rustcorp.com.au>
2009-06-13 12:27:03 +08:00
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/*G:033 But using those wrappers is inefficient (we'll see why that doesn't
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* matter for save_fl and irq_disable later). If we write our routines
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* carefully in assembler, we can avoid clobbering any registers and avoid
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* jumping through the wrapper functions.
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*
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* I skipped over our first piece of assembler, but this one is worth studying
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* in a bit more detail so I'll describe in easy stages. First, the routine
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* to enable interrupts: */
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ENTRY(lg_irq_enable)
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/* The reverse of irq_disable, this sets lguest_data.irq_enabled to
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* X86_EFLAGS_IF (ie. "Interrupts enabled"). */
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movl $X86_EFLAGS_IF, lguest_data+LGUEST_DATA_irq_enabled
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/* But now we need to check if the Host wants to know: there might have
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* been interrupts waiting to be delivered, in which case it will have
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* set lguest_data.irq_pending to X86_EFLAGS_IF. If it's not zero, we
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* jump to send_interrupts, otherwise we're done. */
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testl $0, lguest_data+LGUEST_DATA_irq_pending
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jnz send_interrupts
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/* One cool thing about x86 is that you can do many things without using
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* a register. In this case, the normal path hasn't needed to save or
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* restore any registers at all! */
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ret
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send_interrupts:
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/* OK, now we need a register: eax is used for the hypercall number,
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* which is LHCALL_SEND_INTERRUPTS.
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*
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* We used not to bother with this pending detection at all, which was
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* much simpler. Sooner or later the Host would realize it had to
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* send us an interrupt. But that turns out to make performance 7
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* times worse on a simple tcp benchmark. So now we do this the hard
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* way. */
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pushl %eax
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movl $LHCALL_SEND_INTERRUPTS, %eax
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/* This is a vmcall instruction (same thing that KVM uses). Older
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* assembler versions might not know the "vmcall" instruction, so we
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* create one manually here. */
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.byte 0x0f,0x01,0xc1 /* KVM_HYPERCALL */
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popl %eax
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ret
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/* Finally, the "popf" or "restore flags" routine. The %eax register holds the
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* flags (in practice, either X86_EFLAGS_IF or 0): if it's X86_EFLAGS_IF we're
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* enabling interrupts again, if it's 0 we're leaving them off. */
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ENTRY(lg_restore_fl)
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/* This is just "lguest_data.irq_enabled = flags;" */
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movl %eax, lguest_data+LGUEST_DATA_irq_enabled
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/* Now, if the %eax value has enabled interrupts and
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* lguest_data.irq_pending is set, we want to tell the Host so it can
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* deliver any outstanding interrupts. Fortunately, both values will
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* be X86_EFLAGS_IF (ie. 512) in that case, and the "testl"
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* instruction will AND them together for us. If both are set, we
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* jump to send_interrupts. */
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testl lguest_data+LGUEST_DATA_irq_pending, %eax
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jnz send_interrupts
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/* Again, the normal path has used no extra registers. Clever, huh? */
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ret
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2007-07-19 16:49:22 +08:00
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/* These demark the EIP range where host should never deliver interrupts. */
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.global lguest_noirq_start
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.global lguest_noirq_end
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2007-07-27 01:41:05 +08:00
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/*M:004 When the Host reflects a trap or injects an interrupt into the Guest,
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* it sets the eflags interrupt bit on the stack based on
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* lguest_data.irq_enabled, so the Guest iret logic does the right thing when
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* restoring it. However, when the Host sets the Guest up for direct traps,
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* such as system calls, the processor is the one to push eflags onto the
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* stack, and the interrupt bit will be 1 (in reality, interrupts are always
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* enabled in the Guest).
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*
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* This turns out to be harmless: the only trap which should happen under Linux
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* with interrupts disabled is Page Fault (due to our lazy mapping of vmalloc
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* regions), which has to be reflected through the Host anyway. If another
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* trap *does* go off when interrupts are disabled, the Guest will panic, and
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* we'll never get to this iret! :*/
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2007-07-27 01:41:02 +08:00
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/*G:045 There is one final paravirt_op that the Guest implements, and glancing
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* at it you can see why I left it to last. It's *cool*! It's in *assembler*!
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*
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* The "iret" instruction is used to return from an interrupt or trap. The
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* stack looks like this:
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* old address
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* old code segment & privilege level
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* old processor flags ("eflags")
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*
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* The "iret" instruction pops those values off the stack and restores them all
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* at once. The only problem is that eflags includes the Interrupt Flag which
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* the Guest can't change: the CPU will simply ignore it when we do an "iret".
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* So we have to copy eflags from the stack to lguest_data.irq_enabled before
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* we do the "iret".
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*
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* There are two problems with this: firstly, we need to use a register to do
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* the copy and secondly, the whole thing needs to be atomic. The first
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* problem is easy to solve: push %eax on the stack so we can use it, and then
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* restore it at the end just before the real "iret".
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*
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* The second is harder: copying eflags to lguest_data.irq_enabled will turn
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* interrupts on before we're finished, so we could be interrupted before we
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* return to userspace or wherever. Our solution to this is to surround the
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* code with lguest_noirq_start: and lguest_noirq_end: labels. We tell the
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* Host that it is *never* to interrupt us there, even if interrupts seem to be
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* enabled. */
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2007-07-19 16:49:22 +08:00
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ENTRY(lguest_iret)
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pushl %eax
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movl 12(%esp), %eax
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lguest_noirq_start:
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2007-07-27 01:41:02 +08:00
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/* Note the %ss: segment prefix here. Normal data accesses use the
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* "ds" segment, but that will have already been restored for whatever
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* we're returning to (such as userspace): we can't trust it. The %ss:
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* prefix makes sure we use the stack segment, which is still valid. */
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2007-07-19 16:49:22 +08:00
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movl %eax,%ss:lguest_data+LGUEST_DATA_irq_enabled
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popl %eax
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iret
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lguest_noirq_end:
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