| Emulation |
| ========= |
| |
| QEMU's Tiny Code Generator (TCG) provides the ability to emulate a |
| number of CPU architectures on any supported host platform. Both |
| :ref:`System Emulation` and :ref:`User Mode Emulation` are supported |
| depending on the guest architecture. |
| |
| .. list-table:: Supported Guest Architectures for Emulation |
| :widths: 30 10 10 50 |
| :header-rows: 1 |
| |
| * - Architecture (qemu name) |
| - System |
| - User |
| - Notes |
| * - Alpha |
| - Yes |
| - Yes |
| - Legacy 64 bit RISC ISA developed by DEC |
| * - Arm (arm, aarch64) |
| - :ref:`Yes<ARM-System-emulator>` |
| - Yes |
| - Wide range of features, see :ref:`Arm Emulation` for details |
| * - AVR |
| - :ref:`Yes<AVR-System-emulator>` |
| - No |
| - 8 bit micro controller, often used in maker projects |
| * - Cris |
| - Yes |
| - Yes |
| - Embedded RISC chip developed by AXIS |
| * - Hexagon |
| - No |
| - Yes |
| - Family of DSPs by Qualcomm |
| * - PA-RISC (hppa) |
| - Yes |
| - Yes |
| - A legacy RISC system used in HP's old minicomputers |
| * - x86 (i386, x86_64) |
| - :ref:`Yes<QEMU-PC-System-emulator>` |
| - Yes |
| - The ubiquitous desktop PC CPU architecture, 32 and 64 bit. |
| * - LoongArch |
| - Yes |
| - Yes |
| - A MIPS-like 64bit RISC architecture developed in China |
| * - m68k |
| - :ref:`Yes<ColdFire-System-emulator>` |
| - Yes |
| - Motorola 68000 variants and ColdFire |
| * - Microblaze |
| - Yes |
| - Yes |
| - RISC based soft-core by Xilinx |
| * - MIPS (mips*) |
| - :ref:`Yes<MIPS-System-emulator>` |
| - Yes |
| - Venerable RISC architecture originally out of Stanford University |
| * - OpenRISC |
| - :ref:`Yes<OpenRISC-System-emulator>` |
| - Yes |
| - Open source RISC architecture developed by the OpenRISC community |
| * - Power (ppc, ppc64) |
| - :ref:`Yes<PowerPC-System-emulator>` |
| - Yes |
| - A general purpose RISC architecture now managed by IBM |
| * - RISC-V |
| - :ref:`Yes<RISC-V-System-emulator>` |
| - Yes |
| - An open standard RISC ISA maintained by RISC-V International |
| * - RX |
| - :ref:`Yes<RX-System-emulator>` |
| - No |
| - A 32 bit micro controller developed by Renesas |
| * - s390x |
| - :ref:`Yes<s390x-System-emulator>` |
| - Yes |
| - A 64 bit CPU found in IBM's System Z mainframes |
| * - sh4 |
| - Yes |
| - Yes |
| - A 32 bit RISC embedded CPU developed by Hitachi |
| * - SPARC (sparc, sparc64) |
| - :ref:`Yes<Sparc32-System-emulator>` |
| - Yes |
| - A RISC ISA originally developed by Sun Microsystems |
| * - Tricore |
| - Yes |
| - No |
| - A 32 bit RISC/uController/DSP developed by Infineon |
| * - Xtensa |
| - :ref:`Yes<Xtensa-System-emulator>` |
| - Yes |
| - A configurable 32 bit soft core now owned by Cadence |
| |
| A number of features are only available when running under |
| emulation including :ref:`Record/Replay<replay>` and :ref:`TCG Plugins`. |
| |
| .. _Semihosting: |
| |
| Semihosting |
| ----------- |
| |
| Semihosting is a feature defined by the owner of the architecture to |
| allow programs to interact with a debugging host system. On real |
| hardware this is usually provided by an In-circuit emulator (ICE) |
| hooked directly to the board. QEMU's implementation allows for |
| semihosting calls to be passed to the host system or via the |
| ``gdbstub``. |
| |
| Generally semihosting makes it easier to bring up low level code before a |
| more fully functional operating system has been enabled. On QEMU it |
| also allows for embedded micro-controller code which typically doesn't |
| have a full libc to be run as "bare-metal" code under QEMU's user-mode |
| emulation. It is also useful for writing test cases and indeed a |
| number of compiler suites as well as QEMU itself use semihosting calls |
| to exit test code while reporting the success state. |
| |
| Semihosting is only available using TCG emulation. This is because the |
| instructions to trigger a semihosting call are typically reserved |
| causing most hypervisors to trap and fault on them. |
| |
| .. warning:: |
| Semihosting inherently bypasses any isolation there may be between |
| the guest and the host. As a result a program using semihosting can |
| happily trash your host system. Some semihosting calls (e.g. |
| ``SYS_READC``) can block execution indefinitely. You should only |
| ever run trusted code with semihosting enabled. |
| |
| Redirection |
| ~~~~~~~~~~~ |
| |
| Semihosting calls can be re-directed to a (potentially remote) gdb |
| during debugging via the :ref:`gdbstub<GDB usage>`. Output to the |
| semihosting console is configured as a ``chardev`` so can be |
| redirected to a file, pipe or socket like any other ``chardev`` |
| device. |
| |
| Supported Targets |
| ~~~~~~~~~~~~~~~~~ |
| |
| Most targets offer similar semihosting implementations with some |
| minor changes to define the appropriate instruction to encode the |
| semihosting call and which registers hold the parameters. They tend to |
| presents a simple POSIX-like API which allows your program to read and |
| write files, access the console and some other basic interactions. |
| |
| For full details of the ABI for a particular target, and the set of |
| calls it provides, you should consult the semihosting specification |
| for that architecture. |
| |
| .. note:: |
| QEMU makes an implementation decision to implement all file |
| access in ``O_BINARY`` mode. The user-visible effect of this is |
| regardless of the text/binary mode the program sets QEMU will |
| always select a binary mode ensuring no line-terminator conversion |
| is performed on input or output. This is because gdb semihosting |
| support doesn't make the distinction between the modes and |
| magically processing line endings can be confusing. |
| |
| .. list-table:: Guest Architectures supporting Semihosting |
| :widths: 10 10 80 |
| :header-rows: 1 |
| |
| * - Architecture |
| - Modes |
| - Specification |
| * - Arm |
| - System and User-mode |
| - https://github.com/ARM-software/abi-aa/blob/main/semihosting/semihosting.rst |
| * - m68k |
| - System |
| - https://sourceware.org/git/?p=newlib-cygwin.git;a=blob;f=libgloss/m68k/m68k-semi.txt;hb=HEAD |
| * - MIPS |
| - System |
| - Unified Hosting Interface (MD01069) |
| * - RISC-V |
| - System and User-mode |
| - https://github.com/riscv/riscv-semihosting-spec/blob/main/riscv-semihosting-spec.adoc |
| * - Xtensa |
| - System |
| - Tensilica ISS SIMCALL |