A lightweight C11 RISC-V (RV32/64[I|M|F]) userspace emulator designed for embedded scripting.
Originally written as the backend for the Nano game engine's scripting system.
No external dependencies, and no implicit depedency on any runtime/LibC (unless specified through build options).
- RV32I
- RV64I
- RV32M/RV64M
- Zicsr
- Counter CSRs
- RV32F/RV64F
- RV32D/RV64D
- RV32A/AMO
NanoRV is intended to be directly embedded in an existing project.
Build configuration is specified through a set of RV_ prefixed preprocessor macros. For a full listing of supported build options, view nanorv_config.h.
Use the RV_OPT_INCLUDE_CONFIG preprocessor definition to have NanoRV include a config file (nanorv_config.h) containing your build configuration,
or specify all your build configuration options project-wide through the compiler's preprocessor definition options.
#include "nanorv.h"
#include <stdio.h>
VOID
RvTest(
VOID
)
{
RV_SIZE_T i;
RV_PROCESSOR Vp;
RV_UINT32 VpMemory[ 1024 ] =
{
// 0000000000000000 <_start>:
0xb7100000, // 0: lui ra,0x1
0x13010010, // 4: li sp,256
0x63441100, // 8: blt sp,ra,10
0x6f00c000, // c: j 18
// 0000000000000010 :
0x93012000, // 10: li gp,2
0x6f008000, // 14: j 1c
// 0000000000000018:
0x93011000, // 18: li gp,1
// 000000000000001c :
0x33c23000, // 1c: xor tp,ra,gp
0x73001000, // 20: ebreak
};
//
// Set up initial processor context.
//
Vp = ( RV_PROCESSOR ) {
/* Flat span of host memory to pass to the guest. */
.MmuVaSpanHostBase = VpMemory,
.MmuVaSpanSize = sizeof( VpMemory ),
/* Begin the flat span of memory at guest effective address 0. */
.MmuVaSpanGuestBase = 0,
/* Begin executing at guest effective address 0. */
.Pc = 0
};
//
// Execute code until an exception is triggered, or an EBREAK instruction is hit.
//
while( Vp.EBreakPending == 0 ) {
//
// Execute a tick; Fetches, decodes, and executes an instruction.
//
RvpTickExecute( &Vp );
//
// Print exception information.
//
if( Vp.ExceptionPending ) {
printf( "RV exception %i @ PC=0x%llx\n", ( RV_INT )Vp.ExceptionIndex, ( RV_UINT64 )Vp.Pc );
break;
}
}
//
// Dump all general-purpose registers.
//
for( i = 0; i < RV_COUNTOF( Vp.Xr ); i++ ) {
printf( "x%i = 0x%llx\n", ( RV_INT )i, ( RV_UINT64 )Vp.Xr[ i ] );
}
//
// Dump program-counter register.
//
printf( "pc = 0x%llx\n", ( RV_UINT64 )Vp.Pc );
}x0 = 0x0
x1 = 0x1000
x2 = 0x100
x3 = 0x2
x4 = 0x1002
...
pc = 0x24