diff mbox series

[v7,19/21] RISC-V: KVM: Document RISC-V specific parts of KVM API.

Message ID 20190904161245.111924-21-anup.patel@wdc.com (mailing list archive)
State New, archived
Headers show
Series KVM RISC-V Support | expand

Commit Message

Anup Patel Sept. 4, 2019, 4:16 p.m. UTC
Document RISC-V specific parts of the KVM API, such as:
 - The interrupt numbers passed to the KVM_INTERRUPT ioctl.
 - The states supported by the KVM_{GET,SET}_MP_STATE ioctls.
 - The registers supported by the KVM_{GET,SET}_ONE_REG interface
   and the encoding of those register ids.

Signed-off-by: Anup Patel <anup.patel@wdc.com>
---
 Documentation/virt/kvm/api.txt | 141 +++++++++++++++++++++++++++++++--
 1 file changed, 134 insertions(+), 7 deletions(-)
diff mbox series

Patch

diff --git a/Documentation/virt/kvm/api.txt b/Documentation/virt/kvm/api.txt
index 2d067767b617..065c664b0d48 100644
--- a/Documentation/virt/kvm/api.txt
+++ b/Documentation/virt/kvm/api.txt
@@ -471,7 +471,7 @@  struct kvm_translation {
 4.16 KVM_INTERRUPT
 
 Capability: basic
-Architectures: x86, ppc, mips
+Architectures: x86, ppc, mips, riscv
 Type: vcpu ioctl
 Parameters: struct kvm_interrupt (in)
 Returns: 0 on success, negative on failure.
@@ -531,6 +531,22 @@  interrupt number dequeues the interrupt.
 
 This is an asynchronous vcpu ioctl and can be invoked from any thread.
 
+RISC-V:
+
+Queues an external interrupt to be injected into the virutal CPU. This ioctl
+is overloaded with 2 different irq values:
+
+a) KVM_INTERRUPT_SET
+
+  This sets external interrupt for a virtual CPU and it will receive
+  once it is ready.
+
+b) KVM_INTERRUPT_UNSET
+
+  This clears pending external interrupt for a virtual CPU.
+
+This is an asynchronous vcpu ioctl and can be invoked from any thread.
+
 
 4.17 KVM_DEBUG_GUEST
 
@@ -1206,7 +1222,7 @@  for vm-wide capabilities.
 4.38 KVM_GET_MP_STATE
 
 Capability: KVM_CAP_MP_STATE
-Architectures: x86, s390, arm, arm64
+Architectures: x86, s390, arm, arm64, riscv
 Type: vcpu ioctl
 Parameters: struct kvm_mp_state (out)
 Returns: 0 on success; -1 on error
@@ -1220,7 +1236,8 @@  uniprocessor guests).
 
 Possible values are:
 
- - KVM_MP_STATE_RUNNABLE:        the vcpu is currently running [x86,arm/arm64]
+ - KVM_MP_STATE_RUNNABLE:        the vcpu is currently running
+                                 [x86,arm/arm64,riscv]
  - KVM_MP_STATE_UNINITIALIZED:   the vcpu is an application processor (AP)
                                  which has not yet received an INIT signal [x86]
  - KVM_MP_STATE_INIT_RECEIVED:   the vcpu has received an INIT signal, and is
@@ -1229,7 +1246,7 @@  Possible values are:
                                  is waiting for an interrupt [x86]
  - KVM_MP_STATE_SIPI_RECEIVED:   the vcpu has just received a SIPI (vector
                                  accessible via KVM_GET_VCPU_EVENTS) [x86]
- - KVM_MP_STATE_STOPPED:         the vcpu is stopped [s390,arm/arm64]
+ - KVM_MP_STATE_STOPPED:         the vcpu is stopped [s390,arm/arm64,riscv]
  - KVM_MP_STATE_CHECK_STOP:      the vcpu is in a special error state [s390]
  - KVM_MP_STATE_OPERATING:       the vcpu is operating (running or halted)
                                  [s390]
@@ -1240,7 +1257,7 @@  On x86, this ioctl is only useful after KVM_CREATE_IRQCHIP. Without an
 in-kernel irqchip, the multiprocessing state must be maintained by userspace on
 these architectures.
 
-For arm/arm64:
+For arm/arm64/riscv:
 
 The only states that are valid are KVM_MP_STATE_STOPPED and
 KVM_MP_STATE_RUNNABLE which reflect if the vcpu is paused or not.
@@ -1248,7 +1265,7 @@  KVM_MP_STATE_RUNNABLE which reflect if the vcpu is paused or not.
 4.39 KVM_SET_MP_STATE
 
 Capability: KVM_CAP_MP_STATE
-Architectures: x86, s390, arm, arm64
+Architectures: x86, s390, arm, arm64, riscv
 Type: vcpu ioctl
 Parameters: struct kvm_mp_state (in)
 Returns: 0 on success; -1 on error
@@ -1260,7 +1277,7 @@  On x86, this ioctl is only useful after KVM_CREATE_IRQCHIP. Without an
 in-kernel irqchip, the multiprocessing state must be maintained by userspace on
 these architectures.
 
-For arm/arm64:
+For arm/arm64/riscv:
 
 The only states that are valid are KVM_MP_STATE_STOPPED and
 KVM_MP_STATE_RUNNABLE which reflect if the vcpu should be paused or not.
@@ -2269,6 +2286,116 @@  following id bit patterns:
   0x7020 0000 0003 02 <0:3> <reg:5>
 
 
+RISC-V registers are mapped using the lower 32 bits. The upper 8 bits of
+that is the register group type.
+
+RISC-V config registers are meant for configuring a Guest VCPU and it has
+the following id bit patterns:
+  0x8020 0000 01 <index into the kvm_riscv_config struct:24> (32bit Host)
+  0x8030 0000 01 <index into the kvm_riscv_config struct:24> (64bit Host)
+
+Following are the RISC-V config registers:
+
+    Encoding            Register  Description
+------------------------------------------------------------------
+  0x80x0 0000 0100 0000 isa       ISA feature bitmap of Guest VCPU
+  0x80x0 0000 0100 0001 tbfreq    Time base frequency
+
+The isa config register can be read anytime but can only be written before
+a Guest VCPU runs. It will have ISA feature bits matching underlying host
+set by default. The tbfreq config register is a read-only register and it
+will return host timebase frequenc.
+
+RISC-V core registers represent the general excution state of a Guest VCPU
+and it has the following id bit patterns:
+  0x8020 0000 02 <index into the kvm_regs struct:24> (32bit Host)
+  0x8030 0000 02 <index into the kvm_regs struct:24> (64bit Host)
+
+Following are the RISC-V core registers:
+
+    Encoding            Register  Description
+------------------------------------------------------------------
+  0x80x0 0000 0200 0000 regs.pc   Program counter
+  0x80x0 0000 0200 0001 regs.ra   Return address
+  0x80x0 0000 0200 0002 regs.sp   Stack pointer
+  0x80x0 0000 0200 0003 regs.gp   Global pointer
+  0x80x0 0000 0200 0004 regs.tp   Task pointer
+  0x80x0 0000 0200 0005 regs.t0   Caller saved register 0
+  0x80x0 0000 0200 0006 regs.t1   Caller saved register 1
+  0x80x0 0000 0200 0007 regs.t2   Caller saved register 2
+  0x80x0 0000 0200 0008 regs.s0   Callee saved register 0
+  0x80x0 0000 0200 0009 regs.s1   Callee saved register 1
+  0x80x0 0000 0200 000a regs.a0   Function argument (or return value) 0
+  0x80x0 0000 0200 000b regs.a1   Function argument (or return value) 1
+  0x80x0 0000 0200 000c regs.a2   Function argument 2
+  0x80x0 0000 0200 000d regs.a3   Function argument 3
+  0x80x0 0000 0200 000e regs.a4   Function argument 4
+  0x80x0 0000 0200 000f regs.a5   Function argument 5
+  0x80x0 0000 0200 0010 regs.a6   Function argument 6
+  0x80x0 0000 0200 0011 regs.a7   Function argument 7
+  0x80x0 0000 0200 0012 regs.s2   Callee saved register 2
+  0x80x0 0000 0200 0013 regs.s3   Callee saved register 3
+  0x80x0 0000 0200 0014 regs.s4   Callee saved register 4
+  0x80x0 0000 0200 0015 regs.s5   Callee saved register 5
+  0x80x0 0000 0200 0016 regs.s6   Callee saved register 6
+  0x80x0 0000 0200 0017 regs.s7   Callee saved register 7
+  0x80x0 0000 0200 0018 regs.s8   Callee saved register 8
+  0x80x0 0000 0200 0019 regs.s9   Callee saved register 9
+  0x80x0 0000 0200 001a regs.s10  Callee saved register 10
+  0x80x0 0000 0200 001b regs.s11  Callee saved register 11
+  0x80x0 0000 0200 001c regs.t3   Caller saved register 3
+  0x80x0 0000 0200 001d regs.t4   Caller saved register 4
+  0x80x0 0000 0200 001e regs.t5   Caller saved register 5
+  0x80x0 0000 0200 001f regs.t6   Caller saved register 6
+  0x80x0 0000 0200 0020 mode      Privilege mode (1 = S-mode or 0 = U-mode)
+
+RISC-V csr registers represent the supervisor mode control/status registers
+of a Guest VCPU and it has the following id bit patterns:
+  0x8020 0000 03 <index into the kvm_sregs struct:24> (32bit Host)
+  0x8030 0000 03 <index into the kvm_sregs struct:24> (64bit Host)
+
+Following are the RISC-V csr registers:
+
+    Encoding            Register  Description
+------------------------------------------------------------------
+  0x80x0 0000 0300 0000 sstatus   Supervisor status
+  0x80x0 0000 0300 0001 sie       Supervisor interrupt enable
+  0x80x0 0000 0300 0002 stvec     Supervisor trap vector base
+  0x80x0 0000 0300 0003 sscratch  Supervisor scratch register
+  0x80x0 0000 0300 0004 sepc      Supervisor exception program counter
+  0x80x0 0000 0300 0005 scause    Supervisor trap cause
+  0x80x0 0000 0300 0006 stval     Supervisor bad address or instruction
+  0x80x0 0000 0300 0007 sip       Supervisor interrupt pending
+  0x80x0 0000 0300 0008 satp      Supervisor address translation and protection
+
+RISC-V F extension registers represent the single precision floating point
+state of a Guest VCPU and it has the following id bit patterns:
+  0x8020 0000 04 <index into the __riscv_f_ext_state struct:24>
+
+Following are the RISC-V F extension registers:
+
+    Encoding            Register  Description
+------------------------------------------------------------------
+  0x8020 0000 0400 0000 f[0]      Floating point register 0
+  ...
+  0x8020 0000 0400 001f f[31]     Floating point register 31
+  0x8020 0000 0400 0020 fcsr      Floating point control and status register
+
+RISC-V D extension registers represent the double precision floating point
+state of a Guest VCPU and it has the following id bit patterns:
+  0x8020 0000 05 <index into the __riscv_d_ext_state struct:24> (fcsr)
+  0x8030 0000 05 <index into the __riscv_d_ext_state struct:24> (non-fcsr)
+
+Following are the RISC-V D extension registers:
+
+    Encoding            Register  Description
+------------------------------------------------------------------
+  0x8030 0000 0500 0000 f[0]      Floating point register 0
+  ...
+  0x8030 0000 0500 001f f[31]     Floating point register 31
+  0x8020 0000 0500 0020 fcsr      Floating point control and status register
+
+
 4.69 KVM_GET_ONE_REG
 
 Capability: KVM_CAP_ONE_REG