xref: /openbmc/qemu/docs/about/emulation.rst (revision 4921d0a7)
1Emulation
2=========
3
4QEMU's Tiny Code Generator (TCG) provides the ability to emulate a
5number of CPU architectures on any supported host platform. Both
6:ref:`System Emulation` and :ref:`User Mode Emulation` are supported
7depending on the guest architecture.
8
9.. list-table:: Supported Guest Architectures for Emulation
10  :widths: 30 10 10 50
11  :header-rows: 1
12
13  * - Architecture (qemu name)
14    - System
15    - User
16    - Notes
17  * - Alpha
18    - Yes
19    - Yes
20    - Legacy 64 bit RISC ISA developed by DEC
21  * - Arm (arm, aarch64)
22    - :ref:`Yes<ARM-System-emulator>`
23    - Yes
24    - Wide range of features, see :ref:`Arm Emulation` for details
25  * - AVR
26    - :ref:`Yes<AVR-System-emulator>`
27    - No
28    - 8 bit micro controller, often used in maker projects
29  * - Cris
30    - Yes
31    - Yes
32    - Embedded RISC chip developed by AXIS
33  * - Hexagon
34    - No
35    - Yes
36    - Family of DSPs by Qualcomm
37  * - PA-RISC (hppa)
38    - Yes
39    - Yes
40    - A legacy RISC system used in HP's old minicomputers
41  * - x86 (i386, x86_64)
42    - :ref:`Yes<QEMU-PC-System-emulator>`
43    - Yes
44    - The ubiquitous desktop PC CPU architecture, 32 and 64 bit.
45  * - Loongarch
46    - Yes
47    - Yes
48    - A MIPS-like 64bit RISC architecture developed in China
49  * - m68k
50    - :ref:`Yes<ColdFire-System-emulator>`
51    - Yes
52    - Motorola 68000 variants and ColdFire
53  * - Microblaze
54    - Yes
55    - Yes
56    - RISC based soft-core by Xilinx
57  * - MIPS (mips*)
58    - :ref:`Yes<MIPS-System-emulator>`
59    - Yes
60    - Venerable RISC architecture originally out of Stanford University
61  * - OpenRISC
62    - :ref:`Yes<OpenRISC-System-emulator>`
63    - Yes
64    - Open source RISC architecture developed by the OpenRISC community
65  * - Power (ppc, ppc64)
66    - :ref:`Yes<PowerPC-System-emulator>`
67    - Yes
68    - A general purpose RISC architecture now managed by IBM
69  * - RISC-V
70    - :ref:`Yes<RISC-V-System-emulator>`
71    - Yes
72    - An open standard RISC ISA maintained by RISC-V International
73  * - RX
74    - :ref:`Yes<RX-System-emulator>`
75    - No
76    - A 32 bit micro controller developed by Renesas
77  * - s390x
78    - :ref:`Yes<s390x-System-emulator>`
79    - Yes
80    - A 64 bit CPU found in IBM's System Z mainframes
81  * - sh4
82    - Yes
83    - Yes
84    - A 32 bit RISC embedded CPU developed by Hitachi
85  * - SPARC (sparc, sparc64)
86    - :ref:`Yes<Sparc32-System-emulator>`
87    - Yes
88    - A RISC ISA originally developed by Sun Microsystems
89  * - Tricore
90    - Yes
91    - No
92    - A 32 bit RISC/uController/DSP developed by Infineon
93  * - Xtensa
94    - :ref:`Yes<Xtensa-System-emulator>`
95    - Yes
96    - A configurable 32 bit soft core now owned by Cadence
97
98A number of features are only available when running under
99emulation including :ref:`Record/Replay<replay>` and :ref:`TCG Plugins`.
100
101.. _Semihosting:
102
103Semihosting
104-----------
105
106Semihosting is a feature defined by the owner of the architecture to
107allow programs to interact with a debugging host system. On real
108hardware this is usually provided by an In-circuit emulator (ICE)
109hooked directly to the board. QEMU's implementation allows for
110semihosting calls to be passed to the host system or via the
111``gdbstub``.
112
113Generally semihosting makes it easier to bring up low level code before a
114more fully functional operating system has been enabled. On QEMU it
115also allows for embedded micro-controller code which typically doesn't
116have a full libc to be run as "bare-metal" code under QEMU's user-mode
117emulation. It is also useful for writing test cases and indeed a
118number of compiler suites as well as QEMU itself use semihosting calls
119to exit test code while reporting the success state.
120
121Semihosting is only available using TCG emulation. This is because the
122instructions to trigger a semihosting call are typically reserved
123causing most hypervisors to trap and fault on them.
124
125.. warning::
126   Semihosting inherently bypasses any isolation there may be between
127   the guest and the host. As a result a program using semihosting can
128   happily trash your host system. Some semihosting calls (e.g.
129   ``SYS_READC``) can block execution indefinitely. You should only
130   ever run trusted code with semihosting enabled.
131
132Redirection
133~~~~~~~~~~~
134
135Semihosting calls can be re-directed to a (potentially remote) gdb
136during debugging via the :ref:`gdbstub<GDB usage>`. Output to the
137semihosting console is configured as a ``chardev`` so can be
138redirected to a file, pipe or socket like any other ``chardev``
139device.
140
141Supported Targets
142~~~~~~~~~~~~~~~~~
143
144Most targets offer similar semihosting implementations with some
145minor changes to define the appropriate instruction to encode the
146semihosting call and which registers hold the parameters. They tend to
147presents a simple POSIX-like API which allows your program to read and
148write files, access the console and some other basic interactions.
149
150For full details of the ABI for a particular target, and the set of
151calls it provides, you should consult the semihosting specification
152for that architecture.
153
154.. note::
155   QEMU makes an implementation decision to implement all file
156   access in ``O_BINARY`` mode. The user-visible effect of this is
157   regardless of the text/binary mode the program sets QEMU will
158   always select a binary mode ensuring no line-terminator conversion
159   is performed on input or output. This is because gdb semihosting
160   support doesn't make the distinction between the modes and
161   magically processing line endings can be confusing.
162
163.. list-table:: Guest Architectures supporting Semihosting
164  :widths: 10 10 80
165  :header-rows: 1
166
167  * - Architecture
168    - Modes
169    - Specification
170  * - Arm
171    - System and User-mode
172    - https://github.com/ARM-software/abi-aa/blob/main/semihosting/semihosting.rst
173  * - m68k
174    - System
175    - https://sourceware.org/git/?p=newlib-cygwin.git;a=blob;f=libgloss/m68k/m68k-semi.txt;hb=HEAD
176  * - MIPS
177    - System
178    - Unified Hosting Interface (MD01069)
179  * - RISC-V
180    - System and User-mode
181    - https://github.com/riscv/riscv-semihosting-spec/blob/main/riscv-semihosting-spec.adoc
182  * - Xtensa
183    - System
184    - Tensilica ISS SIMCALL
185