xref: /openbmc/qemu/docs/system/riscv/virt.rst (revision abb6295b)
1'virt' Generic Virtual Platform (``virt``)
2==========================================
3
4The ``virt`` board is a platform which does not correspond to any real hardware;
5it is designed for use in virtual machines. It is the recommended board type
6if you simply want to run a guest such as Linux and do not care about
7reproducing the idiosyncrasies and limitations of a particular bit of
8real-world hardware.
9
10Supported devices
11-----------------
12
13The ``virt`` machine supports the following devices:
14
15* Up to 8 generic RV32GC/RV64GC cores, with optional extensions
16* Core Local Interruptor (CLINT)
17* Platform-Level Interrupt Controller (PLIC)
18* CFI parallel NOR flash memory
19* 1 NS16550 compatible UART
20* 1 Google Goldfish RTC
21* 1 SiFive Test device
22* 8 virtio-mmio transport devices
23* 1 generic PCIe host bridge
24* The fw_cfg device that allows a guest to obtain data from QEMU
25
26The hypervisor extension has been enabled for the default CPU, so virtual
27machines with hypervisor extension can simply be used without explicitly
28declaring.
29
30Hardware configuration information
31----------------------------------
32
33The ``virt`` machine automatically generates a device tree blob ("dtb")
34which it passes to the guest, if there is no ``-dtb`` option. This provides
35information about the addresses, interrupt lines and other configuration of
36the various devices in the system. Guest software should discover the devices
37that are present in the generated DTB.
38
39If users want to provide their own DTB, they can use the ``-dtb`` option.
40These DTBs should have the following requirements:
41
42* The number of subnodes of the /cpus node should match QEMU's ``-smp`` option
43* The /memory reg size should match QEMU’s selected ram_size via ``-m``
44* Should contain a node for the CLINT device with a compatible string
45  "riscv,clint0" if using with OpenSBI BIOS images
46
47Boot options
48------------
49
50The ``virt`` machine can start using the standard -kernel functionality
51for loading a Linux kernel, a VxWorks kernel, an S-mode U-Boot bootloader
52with the default OpenSBI firmware image as the -bios. It also supports
53the recommended RISC-V bootflow: U-Boot SPL (M-mode) loads OpenSBI fw_dynamic
54firmware and U-Boot proper (S-mode), using the standard -bios functionality.
55
56Machine-specific options
57------------------------
58
59The following machine-specific options are supported:
60
61- aclint=[on|off]
62
63  When this option is "on", ACLINT devices will be emulated instead of
64  SiFive CLINT. When not specified, this option is assumed to be "off".
65
66- aia=[none|aplic|aplic-imsic]
67
68  This option allows selecting interrupt controller defined by the AIA
69  (advanced interrupt architecture) specification. The "aia=aplic" selects
70  APLIC (advanced platform level interrupt controller) to handle wired
71  interrupts whereas the "aia=aplic-imsic" selects APLIC and IMSIC (incoming
72  message signaled interrupt controller) to handle both wired interrupts and
73  MSIs. When not specified, this option is assumed to be "none" which selects
74  SiFive PLIC to handle wired interrupts.
75
76- aia-guests=nnn
77
78  The number of per-HART VS-level AIA IMSIC pages to be emulated for a guest
79  having AIA IMSIC (i.e. "aia=aplic-imsic" selected). When not specified,
80  the default number of per-HART VS-level AIA IMSIC pages is 0.
81
82Running Linux kernel
83--------------------
84
85Linux mainline v5.12 release is tested at the time of writing. To build a
86Linux mainline kernel that can be booted by the ``virt`` machine in
8764-bit mode, simply configure the kernel using the defconfig configuration:
88
89.. code-block:: bash
90
91  $ export ARCH=riscv
92  $ export CROSS_COMPILE=riscv64-linux-
93  $ make defconfig
94  $ make
95
96To boot the newly built Linux kernel in QEMU with the ``virt`` machine:
97
98.. code-block:: bash
99
100  $ qemu-system-riscv64 -M virt -smp 4 -m 2G \
101      -display none -serial stdio \
102      -kernel arch/riscv/boot/Image \
103      -initrd /path/to/rootfs.cpio \
104      -append "root=/dev/ram"
105
106To build a Linux mainline kernel that can be booted by the ``virt`` machine
107in 32-bit mode, use the rv32_defconfig configuration. A patch is required to
108fix the 32-bit boot issue for Linux kernel v5.12.
109
110.. code-block:: bash
111
112  $ export ARCH=riscv
113  $ export CROSS_COMPILE=riscv64-linux-
114  $ curl https://patchwork.kernel.org/project/linux-riscv/patch/20210627135117.28641-1-bmeng.cn@gmail.com/mbox/ > riscv.patch
115  $ git am riscv.patch
116  $ make rv32_defconfig
117  $ make
118
119Replace ``qemu-system-riscv64`` with ``qemu-system-riscv32`` in the command
120line above to boot the 32-bit Linux kernel. A rootfs image containing 32-bit
121applications shall be used in order for kernel to boot to user space.
122
123Running U-Boot
124--------------
125
126U-Boot mainline v2021.04 release is tested at the time of writing. To build an
127S-mode U-Boot bootloader that can be booted by the ``virt`` machine, use
128the qemu-riscv64_smode_defconfig with similar commands as described above for Linux:
129
130.. code-block:: bash
131
132  $ export CROSS_COMPILE=riscv64-linux-
133  $ make qemu-riscv64_smode_defconfig
134
135Boot the 64-bit U-Boot S-mode image directly:
136
137.. code-block:: bash
138
139  $ qemu-system-riscv64 -M virt -smp 4 -m 2G \
140      -display none -serial stdio \
141      -kernel /path/to/u-boot.bin
142
143To test booting U-Boot SPL which in M-mode, which in turn loads a FIT image
144that bundles OpenSBI fw_dynamic firmware and U-Boot proper (S-mode) together,
145build the U-Boot images using riscv64_spl_defconfig:
146
147.. code-block:: bash
148
149  $ export CROSS_COMPILE=riscv64-linux-
150  $ export OPENSBI=/path/to/opensbi-riscv64-generic-fw_dynamic.bin
151  $ make qemu-riscv64_spl_defconfig
152
153The minimal QEMU commands to run U-Boot SPL are:
154
155.. code-block:: bash
156
157  $ qemu-system-riscv64 -M virt -smp 4 -m 2G \
158      -display none -serial stdio \
159      -bios /path/to/u-boot-spl \
160      -device loader,file=/path/to/u-boot.itb,addr=0x80200000
161
162To test 32-bit U-Boot images, switch to use qemu-riscv32_smode_defconfig and
163riscv32_spl_defconfig builds, and replace ``qemu-system-riscv64`` with
164``qemu-system-riscv32`` in the command lines above to boot the 32-bit U-Boot.
165
166Enabling TPM
167------------
168
169A TPM device can be connected to the virt board by following the steps below.
170
171First launch the TPM emulator
172
173    swtpm socket --tpm2 -t -d --tpmstate dir=/tmp/tpm \
174        --ctrl type=unixio,path=swtpm-sock
175
176Then launch QEMU with:
177
178    ...
179    -chardev socket,id=chrtpm,path=swtpm-sock \
180    -tpmdev emulator,id=tpm0,chardev=chrtpm \
181    -device tpm-tis-device,tpmdev=tpm0
182
183The TPM device can be seen in the memory tree and the generated device
184tree and should be accessible from the guest software.
185