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Recent commit2f2c4e4731
"Convert "translator internals" docs to RST, move to devel manual" and commit282d36b5e2
"qemu-tech.texi: Remove "QEMU compared to other emulators" section" removed @node, but left their @menu entries behind. This broke building qemu-doc.info (but not qemu-doc.{html,pdf,txt}; how odd). Bury the dead @menu entries. Reported-by: Philippe Mathieu-Daudé <philmd@redhat.com> Fixes:2f2c4e4731
Fixes:282d36b5e2
Signed-off-by: Markus Armbruster <armbru@redhat.com> Message-Id: <20190715055736.15214-3-armbru@redhat.com> Reviewed-by: Philippe Mathieu-Daudé <philmd@redhat.com> Tested-by: Philippe Mathieu-Daudé <philmd@redhat.com> Reviewed-by: Peter Maydell <peter.maydell@linaro.org>
195 lines
5.3 KiB
Text
195 lines
5.3 KiB
Text
@node Implementation notes
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@appendix Implementation notes
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@menu
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* CPU emulation::
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* Managed start up options::
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@end menu
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@node CPU emulation
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@section CPU emulation
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@menu
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* x86:: x86 and x86-64 emulation
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* ARM:: ARM emulation
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* MIPS:: MIPS emulation
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* PPC:: PowerPC emulation
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* SPARC:: Sparc32 and Sparc64 emulation
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* Xtensa:: Xtensa emulation
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@end menu
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@node x86
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@subsection x86 and x86-64 emulation
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QEMU x86 target features:
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@itemize
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@item The virtual x86 CPU supports 16 bit and 32 bit addressing with segmentation.
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LDT/GDT and IDT are emulated. VM86 mode is also supported to run
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DOSEMU. There is some support for MMX/3DNow!, SSE, SSE2, SSE3, SSSE3,
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and SSE4 as well as x86-64 SVM.
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@item Support of host page sizes bigger than 4KB in user mode emulation.
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@item QEMU can emulate itself on x86.
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@item An extensive Linux x86 CPU test program is included @file{tests/test-i386}.
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It can be used to test other x86 virtual CPUs.
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@end itemize
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Current QEMU limitations:
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@itemize
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@item Limited x86-64 support.
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@item IPC syscalls are missing.
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@item The x86 segment limits and access rights are not tested at every
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memory access (yet). Hopefully, very few OSes seem to rely on that for
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normal use.
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@end itemize
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@node ARM
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@subsection ARM emulation
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@itemize
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@item Full ARM 7 user emulation.
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@item NWFPE FPU support included in user Linux emulation.
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@item Can run most ARM Linux binaries.
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@end itemize
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@node MIPS
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@subsection MIPS emulation
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@itemize
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@item The system emulation allows full MIPS32/MIPS64 Release 2 emulation,
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including privileged instructions, FPU and MMU, in both little and big
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endian modes.
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@item The Linux userland emulation can run many 32 bit MIPS Linux binaries.
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@end itemize
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Current QEMU limitations:
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@itemize
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@item Self-modifying code is not always handled correctly.
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@item 64 bit userland emulation is not implemented.
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@item The system emulation is not complete enough to run real firmware.
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@item The watchpoint debug facility is not implemented.
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@end itemize
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@node PPC
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@subsection PowerPC emulation
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@itemize
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@item Full PowerPC 32 bit emulation, including privileged instructions,
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FPU and MMU.
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@item Can run most PowerPC Linux binaries.
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@end itemize
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@node SPARC
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@subsection Sparc32 and Sparc64 emulation
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@itemize
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@item Full SPARC V8 emulation, including privileged
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instructions, FPU and MMU. SPARC V9 emulation includes most privileged
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and VIS instructions, FPU and I/D MMU. Alignment is fully enforced.
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@item Can run most 32-bit SPARC Linux binaries, SPARC32PLUS Linux binaries and
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some 64-bit SPARC Linux binaries.
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@end itemize
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Current QEMU limitations:
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@itemize
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@item IPC syscalls are missing.
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@item Floating point exception support is buggy.
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@item Atomic instructions are not correctly implemented.
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@item There are still some problems with Sparc64 emulators.
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@end itemize
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@node Xtensa
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@subsection Xtensa emulation
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@itemize
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@item Core Xtensa ISA emulation, including most options: code density,
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loop, extended L32R, 16- and 32-bit multiplication, 32-bit division,
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MAC16, miscellaneous operations, boolean, FP coprocessor, coprocessor
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context, debug, multiprocessor synchronization,
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conditional store, exceptions, relocatable vectors, unaligned exception,
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interrupts (including high priority and timer), hardware alignment,
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region protection, region translation, MMU, windowed registers, thread
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pointer, processor ID.
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@item Not implemented options: data/instruction cache (including cache
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prefetch and locking), XLMI, processor interface. Also options not
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covered by the core ISA (e.g. FLIX, wide branches) are not implemented.
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@item Can run most Xtensa Linux binaries.
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@item New core configuration that requires no additional instructions
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may be created from overlay with minimal amount of hand-written code.
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@end itemize
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@node Managed start up options
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@section Managed start up options
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In system mode emulation, it's possible to create a VM in a paused state using
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the -S command line option. In this state the machine is completely initialized
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according to command line options and ready to execute VM code but VCPU threads
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are not executing any code. The VM state in this paused state depends on the way
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QEMU was started. It could be in:
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@table @asis
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@item initial state (after reset/power on state)
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@item with direct kernel loading, the initial state could be amended to execute
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code loaded by QEMU in the VM's RAM and with incoming migration
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@item with incoming migration, initial state will by amended with the migrated
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machine state after migration completes.
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@end table
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This paused state is typically used by users to query machine state and/or
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additionally configure the machine (by hotplugging devices) in runtime before
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allowing VM code to run.
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However, at the -S pause point, it's impossible to configure options that affect
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initial VM creation (like: -smp/-m/-numa ...) or cold plug devices. The
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experimental --preconfig command line option allows pausing QEMU
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before the initial VM creation, in a ``preconfig'' state, where additional
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queries and configuration can be performed via QMP before moving on to
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the resulting configuration startup. In the preconfig state, QEMU only allows
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a limited set of commands over the QMP monitor, where the commands do not
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depend on an initialized machine, including but not limited to:
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@table @asis
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@item qmp_capabilities
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@item query-qmp-schema
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@item query-commands
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@item query-status
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@item x-exit-preconfig
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@end table
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