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base: DBT-RISE:4e0f20eba0ac9436c1e6dc2d2973a2d5fbf6994c
Branches Tags
DBT-RISE:main DBT-RISE:develop DBT-RISE:featture/interp_instr_cache DBT-RISE:feature/privilege_refactor DBT-RISE:feature/htif DBT-RISE:feature/eve_checkin DBT-RISE:feature/iss_factory DBT-RISE:feature/core_factory DBT-RISE:Trace_enhancement DBT-RISE:feature/reduced_output DBT-RISE:msvc_compat DBT-RISE:hotfix/latest_scc DBT-RISE:feature/interpreter
...
compare: DBT-RISE:msvc_compat
Branches Tags
DBT-RISE:develop DBT-RISE:featture/interp_instr_cache DBT-RISE:feature/privilege_refactor DBT-RISE:feature/htif DBT-RISE:feature/eve_checkin DBT-RISE:main DBT-RISE:feature/iss_factory DBT-RISE:feature/core_factory DBT-RISE:Trace_enhancement DBT-RISE:feature/reduced_output DBT-RISE:msvc_compat DBT-RISE:hotfix/latest_scc DBT-RISE:feature/interpreter

51 Commits
4e0f20eba0 ... msvc_compa

Author SHA1 Message Date
Eyck Jentzsch
c8679fca85 remove MSVC warning 2021-10-10 19:56:33 +02:00
Eyck Jentzsch
f0ada1ba8c add MSVC 16 compatibility 2021-10-10 19:06:41 +02:00
Eyck Jentzsch
09b01af3fa fix find_package use and debug access alignment check 2021-08-26 22:10:27 +02:00
Eyck Jentzsch
9c8b72693e correct trap ids of access faults 2021-08-20 09:02:56 +02:00
Eyck Jentzsch
c409e7b7ca adapt to fixed handling of SystemCPackage 2021-08-19 13:38:29 +02:00
Eyck Jentzsch
2f05083cf0 fix elf loader and pmp check for debug accesses 2021-08-19 10:50:25 +02:00
Eyck Jentzsch
e934049dd4 fix inconsistency due to PA adaptation 2021-08-16 17:55:14 +02:00
Eyck Jentzsch
94f796ebdb add install target and PA compatibility 2021-08-16 17:02:31 +02:00
Eyck Jentzsch
836ba269e3 fix clic reset values 2021-08-16 15:05:05 +02:00
Eyck Jentzsch
c8681096be update vm_tgfs_c to match CoreDSL 2021-08-14 10:57:36 +02:00
Eyck Jentzsch
adeffe47ad fix behavior of riscv_hart_mu_p to match TGC_D 2021-08-12 20:34:10 +02:00
Eyck Jentzsch
d95846a849 fix trap handling if illegal fetch (PMP) and U-mode CSRs 2021-08-01 17:23:22 +02:00
Eyck Jentzsch
af887c286f fix for #2 2021-07-28 09:09:08 +02:00
Eyck Jentzsch
4ddf50162c make library naming consistent 2021-07-27 15:55:08 +02:00
Eyck Jentzsch
da819d8890 fix SystemC lib handling in build system 2021-07-27 12:25:31 +02:00
Eyck Jentzsch
5ef5d57d30 Merge branch 'tmp' into develop 2021-07-27 10:49:35 +02:00
Eyck Jentzsch
d7bddd825c add clic CSRs 2021-07-27 10:47:48 +02:00
Eyck Jentzsch
15f46a87db adapt core_complex to use scv-tr (scc commit id a3cde47) 2021-07-27 09:38:05 +02:00
Eyck Jentzsch
fc1ae4d57d update build system 2021-07-26 12:03:52 +02:00
Eyck Jentzsch
d0f3a120fd fix naming in MU wrapper 2021-07-19 16:26:23 +02:00
Eyck Jentzsch
c592a26346 fix mepc mask 2021-07-09 13:01:22 +02:00
Eyck Jentzsch
e68918c2e8 fix instruction decode 2021-07-09 07:37:12 +02:00
Eyck Jentzsch
473f8a5a17 fix privilege behavior 2021-07-07 11:30:00 +02:00
Eyck Jentzsch
2f4b5bd9b2 fix detailed behavior of TGC_C 2021-07-06 21:19:36 +02:00
Eyck Jentzsch
23b9741adf refine and fix TGC_C iss to becoem compliant 2021-06-29 11:51:30 +02:00
Eyck Jentzsch
5d8da08ce5 fix linker issue 
the root cuase of the issue is the template paramter deduction which led
to the wrong template parameter.
 2021-06-26 14:30:36 +02:00
Stas
a249aea703 getting rid of the error: reference to 'wait' is ambiguous 2021-06-25 13:35:42 +02:00
Eyck Jentzsch
e432dd8208 fix handling of exceptions while accessing address spaces 2021-06-07 22:22:36 +02:00
Eyck Jentzsch
8c385647dd remove redundant code from checked in generated sources 2021-05-26 23:06:31 +02:00
Eyck Jentzsch
aaceecd5dc fix mu_p platform features and CSRs 2021-05-17 09:20:09 +02:00
Eyck Jentzsch
4b3f5a6b0c add missing change 2021-05-16 16:44:30 +02:00
Eyck Jentzsch
d41e1d816a add factory for ISS and use it in main.cpp 2021-05-16 16:44:14 +02:00
Eyck Jentzsch
a35974c9f5 make cpu type in core_complex configurable 2021-05-16 15:06:42 +02:00
Eyck Jentzsch
9c456ba8f2 initial version of MU hart 2021-05-14 13:29:39 +02:00
Eyck Jentzsch
c57884caee small fix 2021-05-13 16:01:04 +02:00
Eyck Jentzsch
cf7b62a3f9 update names 2021-05-13 15:54:48 +02:00
Eyck Jentzsch
f2bf6d682a fix build setup 2021-05-13 14:03:10 +02:00
Eyck Jentzsch
a1fa8877f7 make core name a cmake option 2021-05-13 09:32:38 +02:00
Eyck Jentzsch
391f9bb808 remove unneeded constants 2021-05-08 15:14:19 +02:00
Stanislaw Kaushanski
ef02dba8c5 add read misa callback 2021-04-09 11:20:51 +02:00
Stanislaw Kaushanski
2f4cfb68dc update to latest SCC 2021-04-07 18:56:46 +02:00
Stanislaw Kaushanski
7009943106 fix wait for interrupt. Adapt for new SCC structure 2021-04-07 17:42:08 +02:00
Eyck Jentzsch
0a76ccbdac make RSP register response independend of register definition 2021-03-31 07:48:46 +00:00
Eyck Jentzsch
32e4aa83b8 use extracted variables 2021-03-27 09:36:52 +00:00
Eyck Jentzsch
78c7064295 update groovy template to extract used registers 2021-03-26 08:24:45 +00:00
Eyck Jentzsch
412a4bd9bb update name 2021-03-23 17:13:32 +00:00
Stanislaw Kaushanski
ea3ff3c0cd build with SCV lib 2021-03-23 11:57:47 +01:00
Eyck Jentzsch
b0bcb7febb small fixes for robustness and readability 2021-03-22 22:47:30 +00:00
Stanislaw Kaushanski
c941890901 SCC refactoring 2021-03-22 14:50:53 +01:00
Eyck Jentzsch
51fbc34fb3 change namespace of core complex 2021-03-22 11:57:40 +00:00
Stas
b7c0fb2b1c fix bitfield structure 2021-03-10 12:40:06 +01:00
27 changed files with 5599 additions and 1644 deletions
Expand all files Collapse all files

219
CMakeLists.txt
View File

@@ -1,20 +1,21 @@
cmake_minimum_required(VERSION 3.12)
project(tgfs VERSION 1.0.0)
###############################################################################
#
###############################################################################
project(dbt-rise-tgc VERSION 1.0.0)
include(GNUInstallDirs)
conan_basic_setup()
find_package(elfio)
find_package(Boost COMPONENTS program_options system thread filesystem REQUIRED)
if(WITH_LLVM)
if(DEFINED ENV{LLVM_HOME})
find_path (LLVM_DIR LLVM-Config.cmake $ENV{LLVM_HOME}/lib/cmake/llvm)
endif(DEFINED ENV{LLVM_HOME})
find_package(LLVM REQUIRED CONFIG)
message(STATUS "Found LLVM ${LLVM_PACKAGE_VERSION}")
message(STATUS "Using LLVMConfig.cmake in: ${LLVM_DIR}")
llvm_map_components_to_libnames(llvm_libs support core mcjit x86codegen x86asmparser)
if(DEFINED ENV{LLVM_HOME})
find_path (LLVM_DIR LLVM-Config.cmake $ENV{LLVM_HOME}/lib/cmake/llvm)
endif(DEFINED ENV{LLVM_HOME})
find_package(LLVM REQUIRED CONFIG)
message(STATUS "Found LLVM ${LLVM_PACKAGE_VERSION}")
message(STATUS "Using LLVMConfig.cmake in: ${LLVM_DIR}")
llvm_map_components_to_libnames(llvm_libs support core mcjit x86codegen x86asmparser)
endif()
#Mac needed variables (adapt for your needs - http://www.cmake.org/Wiki/CMake_RPATH_handling#Mac_OS_X_and_the_RPATH)
@@ -27,104 +28,142 @@ endif()
add_subdirectory(softfloat)
# library files
FILE(GLOB RiscVSCHeaders ${CMAKE_CURRENT_SOURCE_DIR}/incl/sysc/*.h ${CMAKE_CURRENT_SOURCE_DIR}/incl/sysc/*/*.h)
set(LIB_HEADERS tgfscVSCHeaders} )
FILE(GLOB TGC_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src/iss/*.cpp
${CMAKE_CURRENT_SOURCE_DIR}/src/vm/interp/vm_*.cpp
)
set(LIB_SOURCES
src/vm/fp_functions.cpp
src/vm/fp_functions.cpp
src/plugin/instruction_count.cpp
src/plugin/cycle_estimate.cpp
${TGC_SOURCES}
)
if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/src/iss/tgf_b.cpp)
set(LIB_SOURCES ${LIB_SOURCES} src/iss/tgf_b.cpp src/vm/interp/vm_tgf_b.cpp)
endif()
if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/src/iss/tgf_c.cpp)
set(LIB_SOURCES ${LIB_SOURCES} src/iss/tgf_c.cpp src/vm/interp/vm_tgf_c.cpp)
endif()
if(WITH_LLVM)
set(LIB_SOURCES ${LIB_SOURCES}
src/vm/llvm/fp_impl.cpp
src/vm/llvm/vm_tgf_b.cpp
src/vm/llvm/vm_tgf_c.cpp
)
set(LIB_SOURCES ${LIB_SOURCES}
src/vm/llvm/fp_impl.cpp
#src/vm/llvm/vm_tgf_b.cpp
#src/vm/llvm/vm_tgf_c.cpp
)
endif()
# Define the library
add_library(tgfs SHARED ${LIB_SOURCES})
add_library(${PROJECT_NAME} ${LIB_SOURCES})
# list code gen dependencies
if(TARGET TGF_B_src)
add_dependencies(tgfs TGF_B_src)
endif()
if(TARGET TGF_C_src)
add_dependencies(tgfs TGF_C_src)
if(TARGET ${CORE_NAME}_cpp)
add_dependencies(${PROJECT_NAME} ${CORE_NAME}_cpp)
endif()
target_compile_options(tgfs PRIVATE -Wno-shift-count-overflow)
target_include_directories(tgfs PUBLIC incl)
target_link_libraries(tgfs PUBLIC softfloat scc-util)
target_link_libraries(tgfs PUBLIC -Wl,--whole-archive dbt-core -Wl,--no-whole-archive)
target_link_libraries(tgfs PUBLIC ${Boost_LIBRARIES} )
set_target_properties(tgfs PROPERTIES
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
target_compile_options(${PROJECT_NAME} PRIVATE -Wno-shift-count-overflow)
elseif("${CMAKE_CXX_COMPILER_ID}" STREQUAL "MSVC")
target_compile_options(${PROJECT_NAME} PRIVATE /wd4293)
endif()
target_include_directories(${PROJECT_NAME} PUBLIC incl)
target_link_libraries(${PROJECT_NAME} PUBLIC softfloat scc-util jsoncpp)
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
target_link_libraries(${PROJECT_NAME} PUBLIC -Wl,--whole-archive dbt-core -Wl,--no-whole-archive)
else()
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-core)
endif()
if(TARGET CONAN_PKG::elfio)
target_link_libraries(${PROJECT_NAME} PUBLIC CONAN_PKG::elfio)
elseif(TARGET elfio::elfio)
target_link_libraries(${PROJECT_NAME} PUBLIC elfio::elfio)
else()
message(FATAL_ERROR "No elfio library found, maybe a find_package() call is missing")
endif()
set_target_properties(${PROJECT_NAME} PROPERTIES
VERSION ${PROJECT_VERSION}
FRAMEWORK FALSE
PUBLIC_HEADER "${LIB_HEADERS}" # specify the public headers
)
if(SystemC_FOUND)
add_library(tgfs_sc src/sysc/core_complex.cpp)
target_compile_definitions(tgfs_sc PUBLIC WITH_SYSTEMC)
target_include_directories(tgfs_sc PUBLIC ../incl ${SystemC_INCLUDE_DIRS} ${CCI_INCLUDE_DIRS})
if(SCV_FOUND)
target_compile_definitions(tgfs_sc PUBLIC WITH_SCV)
target_include_directories(tgfs_sc PUBLIC ${SCV_INCLUDE_DIRS})
endif()
target_link_libraries(tgfs_sc PUBLIC tgfs scc )
if(WITH_LLVM)
target_link_libraries(tgfs_sc PUBLIC ${llvm_libs})
endif()
set_target_properties(tgfs_sc PROPERTIES
VERSION ${PROJECT_VERSION}
FRAMEWORK FALSE
PUBLIC_HEADER "${LIB_HEADERS}" # specify the public headers
)
endif()
project("tgfs-sim")
add_executable(tgfs-sim src/main.cpp)
# This sets the include directory for the reference project. This is the -I flag in gcc.
if(WITH_LLVM)
target_compile_definitions(tgfs-sim PRIVATE WITH_LLVM)
target_link_libraries(tgfs-sim PUBLIC ${llvm_libs})
endif()
# Links the target exe against the libraries
target_link_libraries(tgfs-sim tgfs)
target_link_libraries(tgfs-sim jsoncpp)
target_link_libraries(tgfs-sim ${Boost_LIBRARIES} )
if (Tcmalloc_FOUND)
target_link_libraries(tgfs-sim ${Tcmalloc_LIBRARIES})
endif(Tcmalloc_FOUND)
install(TARGETS tgfs tgfs-sim
install(TARGETS ${PROJECT_NAME} COMPONENT ${PROJECT_NAME}
EXPORT ${PROJECT_NAME}Targets # for downstream dependencies
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR} COMPONENT libs # static lib
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR} COMPONENT libs # binaries
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR} COMPONENT libs # shared lib
FRAMEWORK DESTINATION ${CMAKE_INSTALL_LIBDIR} COMPONENT libs # for mac
PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME} COMPONENT devel # headers for mac (note the different component -> different package)
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR} # static lib
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR} # binaries
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR} # shared lib
FRAMEWORK DESTINATION ${CMAKE_INSTALL_LIBDIR} # for mac
PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME} # headers for mac (note the different component -> different package)
INCLUDES DESTINATION ${CMAKE_INSTALL_INCLUDEDIR} # headers
)
install(DIRECTORY ${CMAKE_CURRENT_SOURCE_DIR}/incl/iss COMPONENT ${PROJECT_NAME}
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR} # target directory
FILES_MATCHING # install only matched files
PATTERN "*.h" # select header files
)
###############################################################################
#
# SYSTEM PACKAGING (RPM, TGZ, ...)
# _____________________________________________________________________________
###############################################################################
project(tgc-sim)
find_package(Boost COMPONENTS program_options thread REQUIRED)
#include(CPackConfig)
add_executable(${PROJECT_NAME} src/main.cpp)
# This sets the include directory for the reference project. This is the -I flag in gcc.
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
if(WITH_LLVM)
target_compile_definitions(${PROJECT_NAME} PRIVATE WITH_LLVM)
target_link_libraries(${PROJECT_NAME} PUBLIC ${llvm_libs})
endif()
# Links the target exe against the libraries
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-rise-tgc)
if(TARGET Boost::program_options)
target_link_libraries(${PROJECT_NAME} PUBLIC Boost::program_options Boost::thread)
else()
target_link_libraries(${PROJECT_NAME} PUBLIC ${BOOST_program_options_LIBRARY} ${BOOST_thread_LIBRARY})
endif()
target_link_libraries(${PROJECT_NAME} PUBLIC ${CMAKE_DL_LIBS})
if (Tcmalloc_FOUND)
target_link_libraries(${PROJECT_NAME} PUBLIC ${Tcmalloc_LIBRARIES})
endif(Tcmalloc_FOUND)
install(TARGETS tgc-sim
EXPORT ${PROJECT_NAME}Targets # for downstream dependencies
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR} # static lib
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR} # binaries
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR} # shared lib
FRAMEWORK DESTINATION ${CMAKE_INSTALL_LIBDIR} # for mac
PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/${PROJECT_NAME} # headers for mac (note the different component -> different package)
INCLUDES DESTINATION ${CMAKE_INSTALL_INCLUDEDIR} # headers
)
###############################################################################
#
# CMAKE PACKAGING (for other CMake projects to use this one easily)
# _____________________________________________________________________________
###############################################################################
project(dbt-rise-tgc_sc VERSION 1.0.0)
include(SystemCPackage)
if(SystemC_FOUND)
add_library(${PROJECT_NAME} src/sysc/core_complex.cpp)
target_compile_definitions(${PROJECT_NAME} PUBLIC WITH_SYSTEMC)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/incl/iss/arch/tgc_b.h)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_TGC_B)
endif()
if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/incl/iss/arch/tgc_c.h)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_TGC_C)
endif()
if(EXISTS ${CMAKE_CURRENT_SOURCE_DIR}/incl/iss/arch/tgc_d.h)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_TGC_D)
endif()
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-rise-tgc scc)
if(WITH_LLVM)
target_link_libraries(${PROJECT_NAME} PUBLIC ${llvm_libs})
endif()
set(LIB_HEADERS ${CMAKE_CURRENT_SOURCE_DIR}/incl/sysc/core_complex.h)
set_target_properties(${PROJECT_NAME} PROPERTIES
VERSION ${PROJECT_VERSION}
FRAMEWORK FALSE
PUBLIC_HEADER "${LIB_HEADERS}" # specify the public headers
)
install(TARGETS ${PROJECT_NAME} COMPONENT ${PROJECT_NAME}
EXPORT ${PROJECT_NAME}Targets # for downstream dependencies
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR} # static lib
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR} # binaries
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR} # shared lib
FRAMEWORK DESTINATION ${CMAKE_INSTALL_LIBDIR} # for mac
PUBLIC_HEADER DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/sysc # headers for mac (note the different component -> different package)
INCLUDES DESTINATION ${CMAKE_INSTALL_INCLUDEDIR} # headers
)
endif()
#include(PackageConfigurator)

30
contrib/build.tcl Normal file
View File

@@ -0,0 +1,30 @@
namespace eval Specification {
proc buildproc { args } {
global env
variable installDir
variable compiler
variable compiler [::scsh::get_backend_compiler]
# set target $machine
set target [::scsh::machine]
set linkerOptions ""
set preprocessorOptions ""
set libversion $compiler
switch -exact -- $target {
"linux" {
set install_dir $::env(TGFS_INSTALL_ROOT)
set incldir "${install_dir}/include"
set libdir "${install_dir}/lib64"
set preprocessorOptions [concat $preprocessorOptions "-I${incldir}"]
# Set the Linker paths.
set linkerOptions [concat $linkerOptions "-Wl,-rpath,${libdir} -L${libdir} -ldbt-rise-tgc_sc"]
}
default {
puts stderr "ERROR: \"$target\" is not supported, [::scsh::version]"
return
}
}
::scsh::cwr_append_ipsimbld_opts preprocessor "$preprocessorOptions"
::scsh::cwr_append_ipsimbld_opts linker "$linkerOptions"
}
::scsh::add_build_callback [namespace current]::buildproc
}

4
contrib/tgc_import.cc Normal file
View File

@@ -0,0 +1,4 @@
#include "sysc/core_complex.h"
void modules() { sysc::tgfs::core_complex i_core_complex("core_complex"); }

50
contrib/tgc_import.tcl Normal file
View File

@@ -0,0 +1,50 @@
#############################################################################
#
#############################################################################
proc getScriptDirectory {} {
set dispScriptFile [file normalize [info script]]
set scriptFolder [file dirname $dispScriptFile]
return $scriptFolder
}
if { $::env(SNPS_VP_PRODUCT) == "PAULTRA" } {
set hardware /HARDWARE/HW/HW
} else {
set hardware /HARDWARE
}
set scriptDir [getScriptDirectory]
set top_design_name core_complex
set clocks clk_i
set resets rst_i
set model_prefix "i_"
set model_postfix ""
::pct::new_project
::pct::open_library TLM2_PL
::pct::clear_systemc_defines
::pct::clear_systemc_include_path
::pct::add_to_systemc_include_path $::env(TGFS_INSTALL_ROOT)/include
::pct::set_import_protocol_generation_flag false
::pct::set_update_existing_encaps_flag true
::pct::set_dynamic_port_arrays_flag true
::pct::set_import_scml_properties_flag true
::pct::load_modules --set-category modules tgc_import.cc
# Set Port Protocols correctly
set block ${top_design_name}
foreach clock ${clocks} {
::pct::set_block_port_protocol --set-category SYSTEM_LIBRARY:$block/${clock} SYSTEM_LIBRARY:CLOCK
}
foreach reset ${resets} {
::pct::set_block_port_protocol --set-category SYSTEM_LIBRARY:$block/${reset} SYSTEM_LIBRARY:RESET
}
::pct::set_encap_port_array_size SYSTEM_LIBRARY:$block/local_irq_i 16
# Set compile settings and look
set block SYSTEM_LIBRARY:${top_design_name}
::pct::set_encap_build_script $block/${top_design_name} $scriptDir/build.tcl
::pct::set_background_color_rgb $block 255 255 255 255
::pct::create_instance SYSTEM_LIBRARY:${top_design_name} ${hardware} ${model_prefix}${top_design_name}${model_postfix} ${top_design_name}
# export the result as component
::pct::export_system_library ${top_design_name} ${top_design_name}.xml

2
gen_input/CoreDSL-Instruction-Set-Description

Submodule gen_input/CoreDSL-Instruction-Set-Description updated: a5f12b0659...8d9a0fb149

14
gen_input/TGFS.core_desc
View File

@@ -2,7 +2,7 @@ import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
Core TGF_B provides RV32I {
Core TGC_B provides RV32I {
architectural_state {
unsigned XLEN=32;
unsigned PCLEN=32;
@@ -14,7 +14,7 @@ Core TGF_B provides RV32I {
}
}
Core TGF_C provides RV32I, RV32M, RV32IC {
Core TGC_C provides RV32I, RV32M, RV32IC {
architectural_state {
unsigned XLEN=32;
unsigned PCLEN=32;
@@ -25,3 +25,13 @@ Core TGF_C provides RV32I, RV32M, RV32IC {
unsigned PGMASK = 0xfff; //PGSIZE-1
}
}
Core TGC_D provides RV32I, RV32M, RV32IC {
architectural_state {
unsigned XLEN=32;
unsigned PCLEN=32;
// definitions for the architecture wrapper
// XL ZYXWVUTSRQPONMLKJIHGFEDCBA
unsigned MISA_VAL = 0b01000000000000000001000100000100;
}
}

2
gen_input/templates/CORENAME.cpp.gtl
View File

@@ -33,7 +33,7 @@
def getRegisterSizes(){
def regs = registers.collect{it.size}
regs[-1]=64 // correct for NEXT_PC
regs+=[32, 32, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT
regs+=[32, 32, 64, 64, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET
return regs
}
%>

8
gen_input/templates/CORENAME.h.gtl
View File

@@ -37,7 +37,7 @@ def nativeTypeSize(int size){
}
def getRegisterSizes(){
def regs = registers.collect{nativeTypeSize(it.size)}
regs+=[32,32, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT
regs+=[32,32, 64, 64, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET
return regs
}
def getRegisterOffsets(){
@@ -94,7 +94,9 @@ template <> struct traits<${coreDef.name.toLowerCase()}> {
${registers.collect{it.name}.join(', ')}, NUM_REGS,
TRAP_STATE=NUM_REGS,
PENDING_TRAP,
ICOUNT
ICOUNT,
CYCLE,
INSTRET
};
using reg_t = uint${addrDataWidth}_t;
@@ -175,6 +177,8 @@ protected:
}}%>
uint32_t trap_state = 0, pending_trap = 0;
uint64_t icount = 0;
uint64_t cycle = 0;
uint64_t instret = 0;
uint32_t last_branch;
} reg;
#pragma pack(pop)

187
gen_input/templates/interp/CORENAME.cpp.gtl
View File

@@ -85,6 +85,7 @@ protected:
inline const char *name(size_t index){return traits::reg_aliases.at(index);}
compile_func decode_inst(code_word_t instr) ;
virt_addr_t execute_inst(finish_cond_e cond, virt_addr_t start, uint64_t icount_limit) override;
// some compile time constants
@@ -98,46 +99,13 @@ protected:
std::array<compile_func, LUT_SIZE_C> lut_00, lut_01, lut_10;
std::array<compile_func, LUT_SIZE> lut_11;
std::array<compile_func *, 4> qlut;
struct instruction_pattern {
uint32_t value;
uint32_t mask;
compile_func opc;
};
std::array<const uint32_t, 4> lutmasks = {{EXTR_MASK16, EXTR_MASK16, EXTR_MASK16, EXTR_MASK32}};
void expand_bit_mask(int pos, uint32_t mask, uint32_t value, uint32_t valid, uint32_t idx, compile_func lut[],
compile_func f) {
if (pos < 0) {
lut[idx] = f;
} else {
auto bitmask = 1UL << pos;
if ((mask & bitmask) == 0) {
expand_bit_mask(pos - 1, mask, value, valid, idx, lut, f);
} else {
if ((valid & bitmask) == 0) {
expand_bit_mask(pos - 1, mask, value, valid, (idx << 1), lut, f);
expand_bit_mask(pos - 1, mask, value, valid, (idx << 1) + 1, lut, f);
} else {
auto new_val = idx << 1;
if ((value & bitmask) != 0) new_val++;
expand_bit_mask(pos - 1, mask, value, valid, new_val, lut, f);
}
}
}
}
inline uint32_t extract_fields(uint32_t val) { return extract_fields(29, val >> 2, lutmasks[val & 0x3], 0); }
uint32_t extract_fields(int pos, uint32_t val, uint32_t mask, uint32_t lut_val) {
if (pos >= 0) {
auto bitmask = 1UL << pos;
if ((mask & bitmask) == 0) {
lut_val = extract_fields(pos - 1, val, mask, lut_val);
} else {
auto new_val = lut_val << 1;
if ((val & bitmask) != 0) new_val++;
lut_val = extract_fields(pos - 1, val, mask, new_val);
}
}
return lut_val;
}
std::array<std::vector<instruction_pattern>, 4> qlut;
inline void raise(uint16_t trap_id, uint16_t cause){
auto trap_val = 0x80ULL << 24 | (cause << 16) | trap_id;
@@ -147,8 +115,6 @@ protected:
inline void leave(unsigned lvl){
this->core.leave_trap(lvl);
auto pc_val = super::template read_mem<reg_t>(traits::CSR, (lvl << 8) + 0x41);
this->template get_reg<reg_t>(traits::NEXT_PC) = pc_val;
}
inline void wait(unsigned type){
@@ -157,14 +123,42 @@ protected:
template<typename T>
T& pc_assign(T& val){super::ex_info.branch_taken=true; return val;}
inline uint8_t readSpace1(typename super::mem_type_e space, uint64_t addr){return super::template read_mem<uint8_t>(space, addr);}
inline uint16_t readSpace2(typename super::mem_type_e space, uint64_t addr){return super::template read_mem<uint16_t>(space, addr);}
inline uint32_t readSpace4(typename super::mem_type_e space, uint64_t addr){return super::template read_mem<uint32_t>(space, addr);}
inline uint64_t readSpace8(typename super::mem_type_e space, uint64_t addr){return super::template read_mem<uint64_t>(space, addr);}
inline void writeSpace1(typename super::mem_type_e space, uint64_t addr, uint8_t data){super::write_mem(space, addr, data);}
inline void writeSpace2(typename super::mem_type_e space, uint64_t addr, uint16_t data){super::write_mem(space, addr, data);}
inline void writeSpace4(typename super::mem_type_e space, uint64_t addr, uint32_t data){super::write_mem(space, addr, data);}
inline void writeSpace8(typename super::mem_type_e space, uint64_t addr, uint64_t data){super::write_mem(space, addr, data);}
inline uint8_t readSpace1(typename super::mem_type_e space, uint64_t addr){
auto ret = super::template read_mem<uint8_t>(space, addr);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
return ret;
}
inline uint16_t readSpace2(typename super::mem_type_e space, uint64_t addr){
auto ret = super::template read_mem<uint16_t>(space, addr);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
return ret;
}
inline uint32_t readSpace4(typename super::mem_type_e space, uint64_t addr){
auto ret = super::template read_mem<uint32_t>(space, addr);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
return ret;
}
inline uint64_t readSpace8(typename super::mem_type_e space, uint64_t addr){
auto ret = super::template read_mem<uint64_t>(space, addr);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
return ret;
}
inline void writeSpace1(typename super::mem_type_e space, uint64_t addr, uint8_t data){
super::write_mem(space, addr, data);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
}
inline void writeSpace2(typename super::mem_type_e space, uint64_t addr, uint16_t data){
super::write_mem(space, addr, data);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
}
inline void writeSpace4(typename super::mem_type_e space, uint64_t addr, uint32_t data){
super::write_mem(space, addr, data);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
}
inline void writeSpace8(typename super::mem_type_e space, uint64_t addr, uint64_t data){
super::write_mem(space, addr, data);
if(this->template get_reg<uint32_t>(traits::TRAP_STATE)) throw 0;
}
template<unsigned W, typename U, typename S = typename std::make_signed<U>::type>
inline S sext(U from) {
auto mask = (1ULL<<W) - 1;
@@ -193,27 +187,38 @@ private:
/* instruction ${idx}: ${instr.name} */
compile_ret_t __${generator.functionName(instr.name)}(virt_addr_t& pc, code_word_t instr){
// pre execution stuff
this->do_sync(PRE_SYNC, ${idx});
auto* PC = reinterpret_cast<uint${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PC]);
auto NEXT_PC = reinterpret_cast<uint${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::NEXT_PC]);
*PC=*NEXT_PC;
auto* trap_state = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::TRAP_STATE]);
*trap_state = *reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PENDING_TRAP]);
if(this->sync_exec && PRE_SYNC) this->do_sync(PRE_SYNC, ${idx});
<%instr.fields.eachLine{%>${it}
<%}%>if(this->disass_enabled){
/* generate console output when executing the command */
<%instr.disass.eachLine{%>${it}
<%}%>
}
// prepare execution
uint${addrDataWidth}_t* X = reinterpret_cast<uint${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::X0]);
uint${addrDataWidth}_t* PC = reinterpret_cast<uint${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PC]);
uint${addrDataWidth}_t* NEXT_PC = reinterpret_cast<uint${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::NEXT_PC]);
// used registers<%instr.usedVariables.each{ k,v->
if(v.isArray) {%>
auto* ${k} = reinterpret_cast<uint${v.type.size}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::${k}0]);<% }else{ %>
auto* ${k} = reinterpret_cast<uint${v.type.size}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::${k}]);
<%}}%>// calculate next pc value
*NEXT_PC = *PC + ${instr.length/8};
// execute instruction
try {
<%instr.behavior.eachLine{%>${it}
<%}%>// post execution stuff
<%}%>} catch(...){}
// post execution stuff
if(this->sync_exec && POST_SYNC) this->do_sync(POST_SYNC, ${idx});
auto* trap_state = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::TRAP_STATE]);
// trap check
if(*trap_state!=0){
super::core.enter_trap(*trap_state, pc.val);
super::core.enter_trap(*trap_state, pc.val, instr);
} else {
(*reinterpret_cast<uint64_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::ICOUNT]))++;
(*reinterpret_cast<uint64_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::INSTRET]))++;
}
(*reinterpret_cast<uint64_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::CYCLE]))++;
pc.val=*NEXT_PC;
return pc;
}
@@ -226,13 +231,13 @@ private:
uint32_t* PC = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PC]);
uint32_t* NEXT_PC = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::NEXT_PC]);
*NEXT_PC = *PC + ((instr & 3) == 3 ? 4 : 2);
raise(0, 11);
raise(0, 2);
// post execution stuff
if(this->sync_exec && POST_SYNC) this->do_sync(POST_SYNC, static_cast<unsigned>(arch::traits<ARCH>::opcode_e::MAX_OPCODE));
auto* trap_state = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::TRAP_STATE]);
// trap check
if(*trap_state!=0){
super::core.enter_trap(*trap_state, pc.val);
super::core.enter_trap(*trap_state, pc.val, instr);
}
pc.val=*NEXT_PC;
return pc;
@@ -259,40 +264,68 @@ template <typename CODE_WORD> void debug_fn(CODE_WORD insn) {
template <typename ARCH> vm_impl<ARCH>::vm_impl() { this(new ARCH()); }
// according to
// https://stackoverflow.com/questions/8871204/count-number-of-1s-in-binary-representation
#ifdef __GCC__
constexpr size_t bit_count(uint32_t u) { return __builtin_popcount(u); }
#elif __cplusplus < 201402L
constexpr size_t uCount(uint32_t u) { return u - ((u >> 1) & 033333333333) - ((u >> 2) & 011111111111); }
constexpr size_t bit_count(uint32_t u) { return ((uCount(u) + (uCount(u) >> 3)) & 030707070707) % 63; }
#else
constexpr size_t bit_count(uint32_t u) {
size_t uCount = u - ((u >> 1) & 033333333333) - ((u >> 2) & 011111111111);
return ((uCount + (uCount >> 3)) & 030707070707) % 63;
}
#endif
template <typename ARCH>
vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
: vm_base<ARCH>(core, core_id, cluster_id) {
qlut[0] = lut_00.data();
qlut[1] = lut_01.data();
qlut[2] = lut_10.data();
qlut[3] = lut_11.data();
for (auto instr : instr_descr) {
auto quantrant = instr.value & 0x3;
expand_bit_mask(29, lutmasks[quantrant], instr.value >> 2, instr.mask >> 2, 0, qlut[quantrant], instr.op);
auto quadrant = instr.value & 0x3;
qlut[quadrant].push_back(instruction_pattern{instr.value, instr.mask, instr.op});
}
for(auto& lut: qlut){
std::sort(std::begin(lut), std::end(lut), [](instruction_pattern const& a, instruction_pattern const& b){
return bit_count(a.mask) > bit_count(b.mask);
});
}
}
inline bool is_count_limit_enabled(finish_cond_e cond){
return (cond & finish_cond_e::COUNT_LIMIT) == finish_cond_e::COUNT_LIMIT;
}
inline bool is_jump_to_self_enabled(finish_cond_e cond){
return (cond & finish_cond_e::JUMP_TO_SELF) == finish_cond_e::JUMP_TO_SELF;
}
template <typename ARCH>
typename vm_impl<ARCH>::compile_func vm_impl<ARCH>::decode_inst(code_word_t instr){
for(auto& e: qlut[instr&0x3]){
if(!((instr&e.mask) ^ e.value )) return e.opc;
}
return &this_class::illegal_intruction;
}
template <typename ARCH>
typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e cond, virt_addr_t start, uint64_t icount_limit){
// we fetch at max 4 byte, alignment is 2
enum {TRAP_ID=1<<16};
code_word_t insn = 0;
auto *const data = (uint8_t *)&insn;
auto pc=start;
while(!core.should_stop() &&
!((cond & finish_cond_e::COUNT_LIMIT) && core.get_icount() < icount)){
while(!this->core.should_stop() &&
!(is_count_limit_enabled(cond) && this->core.get_icount() >= icount_limit)){
auto res = fetch_ins(pc, data);
if(res!=iss::Ok){
auto new_pc = super::core.enter_trap(TRAP_ID, pc.val);
res = fetch_ins(virt_addr_t{access_type::FETCH, new_pc}, data);
if(res!=iss::Ok) throw simulation_stopped(0);
this->do_sync(POST_SYNC, std::numeric_limits<unsigned>::max());
pc.val = super::core.enter_trap(std::numeric_limits<uint64_t>::max(), pc.val, 0);
} else {
if (is_jump_to_self_enabled(cond) &&
(insn == 0x0000006f || (insn&0xffff)==0xa001)) throw simulation_stopped(0); // 'J 0' or 'C.J 0'
auto f = decode_inst(insn);
pc = (this->*f)(pc, insn);
}
if ((cond & finish_cond_e::JUMP_TO_SELF) && (insn == 0x0000006f || (insn&0xffff)==0xa001)) throw simulation_stopped(0); // 'J 0' or 'C.J 0'
auto lut_val = extract_fields(insn);
auto f = qlut[insn & 0x3][lut_val];
if (!f)
f = &this_class::illegal_intruction;
pc = (this->*f)(pc, insn);
}
return pc;
}

2
incl/iss/arch/.gitignore vendored
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@@ -1 +1 @@
/tgf_b.h
/tgc_*.h

242
incl/iss/arch/riscv_hart_common.h Normal file
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@@ -0,0 +1,242 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, 2021 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
* Contributors:
* eyck@minres.com - initial implementation
******************************************************************************/
#ifndef _RISCV_HART_COMMON
#define _RISCV_HART_COMMON
#include "iss/arch_if.h"
#include <cstdint>
namespace iss {
namespace arch {
enum { tohost_dflt = 0xF0001000, fromhost_dflt = 0xF0001040 };
enum riscv_csr {
/* user-level CSR */
// User Trap Setup
ustatus = 0x000,
uie = 0x004,
utvec = 0x005,
// User Trap Handling
uscratch = 0x040,
uepc = 0x041,
ucause = 0x042,
utval = 0x043,
uip = 0x044,
// User Floating-Point CSRs
fflags = 0x001,
frm = 0x002,
fcsr = 0x003,
// User Counter/Timers
cycle = 0xC00,
time = 0xC01,
instret = 0xC02,
hpmcounter3 = 0xC03,
hpmcounter4 = 0xC04,
/*...*/
hpmcounter31 = 0xC1F,
cycleh = 0xC80,
timeh = 0xC81,
instreth = 0xC82,
hpmcounter3h = 0xC83,
hpmcounter4h = 0xC84,
/*...*/
hpmcounter31h = 0xC9F,
/* supervisor-level CSR */
// Supervisor Trap Setup
sstatus = 0x100,
sedeleg = 0x102,
sideleg = 0x103,
sie = 0x104,
stvec = 0x105,
scounteren = 0x106,
// Supervisor Trap Handling
sscratch = 0x140,
sepc = 0x141,
scause = 0x142,
stval = 0x143,
sip = 0x144,
// Supervisor Protection and Translation
satp = 0x180,
/* machine-level CSR */
// Machine Information Registers
mvendorid = 0xF11,
marchid = 0xF12,
mimpid = 0xF13,
mhartid = 0xF14,
// Machine Trap Setup
mstatus = 0x300,
misa = 0x301,
medeleg = 0x302,
mideleg = 0x303,
mie = 0x304,
mtvec = 0x305,
mcounteren = 0x306,
mtvt = 0x307, //CLIC
// Machine Trap Handling
mscratch = 0x340,
mepc = 0x341,
mcause = 0x342,
mtval = 0x343,
mip = 0x344,
mxnti = 0x345, //CLIC
mintstatus = 0x346, // MRW Current interrupt levels (CLIC) - addr subject to change
mscratchcsw = 0x348, // MRW Conditional scratch swap on priv mode change (CLIC)
mscratchcswl = 0x349, // MRW Conditional scratch swap on level change (CLIC)
mintthresh = 0x350, // MRW Interrupt-level threshold (CLIC) - addr subject to change
mclicbase = 0x351, // MRW Base address for CLIC memory mapped registers (CLIC) - addr subject to change
// Physical Memory Protection
pmpcfg0 = 0x3A0,
pmpcfg1 = 0x3A1,
pmpcfg2 = 0x3A2,
pmpcfg3 = 0x3A3,
pmpaddr0 = 0x3B0,
pmpaddr1 = 0x3B1,
pmpaddr2 = 0x3B2,
pmpaddr3 = 0x3B3,
pmpaddr4 = 0x3B4,
pmpaddr5 = 0x3B5,
pmpaddr6 = 0x3B6,
pmpaddr7 = 0x3B7,
pmpaddr8 = 0x3B8,
pmpaddr9 = 0x3B9,
pmpaddr10 = 0x3BA,
pmpaddr11 = 0x3BB,
pmpaddr12 = 0x3BC,
pmpaddr13 = 0x3BD,
pmpaddr14 = 0x3BE,
pmpaddr15 = 0x3BF,
// Machine Counter/Timers
mcycle = 0xB00,
minstret = 0xB02,
mhpmcounter3 = 0xB03,
mhpmcounter4 = 0xB04,
/*...*/
mhpmcounter31 = 0xB1F,
mcycleh = 0xB80,
minstreth = 0xB82,
mhpmcounter3h = 0xB83,
mhpmcounter4h = 0xB84,
/*...*/
mhpmcounter31h = 0xB9F,
// Machine Counter Setup
mhpmevent3 = 0x323,
mhpmevent4 = 0x324,
/*...*/
mhpmevent31 = 0x33F,
// Debug/Trace Registers (shared with Debug Mode)
tselect = 0x7A0,
tdata1 = 0x7A1,
tdata2 = 0x7A2,
tdata3 = 0x7A3,
// Debug Mode Registers
dcsr = 0x7B0,
dpc = 0x7B1,
dscratch = 0x7B2
};
enum {
PGSHIFT = 12,
PTE_PPN_SHIFT = 10,
// page table entry (PTE) fields
PTE_V = 0x001, // Valid
PTE_R = 0x002, // Read
PTE_W = 0x004, // Write
PTE_X = 0x008, // Execute
PTE_U = 0x010, // User
PTE_G = 0x020, // Global
PTE_A = 0x040, // Accessed
PTE_D = 0x080, // Dirty
PTE_SOFT = 0x300 // Reserved for Software
};
template <typename T> inline bool PTE_TABLE(T PTE) { return (((PTE) & (PTE_V | PTE_R | PTE_W | PTE_X)) == PTE_V); }
enum { PRIV_U = 0, PRIV_S = 1, PRIV_M = 3 };
enum {
ISA_A = 1,
ISA_B = 1 << 1,
ISA_C = 1 << 2,
ISA_D = 1 << 3,
ISA_E = 1 << 4,
ISA_F = 1 << 5,
ISA_G = 1 << 6,
ISA_I = 1 << 8,
ISA_M = 1 << 12,
ISA_N = 1 << 13,
ISA_Q = 1 << 16,
ISA_S = 1 << 18,
ISA_U = 1 << 20
};
struct vm_info {
int levels;
int idxbits;
int ptesize;
uint64_t ptbase;
bool is_active() { return levels; }
};
class trap_load_access_fault : public trap_access {
public:
trap_load_access_fault(uint64_t badaddr)
: trap_access(5 << 16, badaddr) {}
};
class illegal_instruction_fault : public trap_access {
public:
illegal_instruction_fault(uint64_t badaddr)
: trap_access(2 << 16, badaddr) {}
};
class trap_instruction_page_fault : public trap_access {
public:
trap_instruction_page_fault(uint64_t badaddr)
: trap_access(12 << 16, badaddr) {}
};
class trap_load_page_fault : public trap_access {
public:
trap_load_page_fault(uint64_t badaddr)
: trap_access(13 << 16, badaddr) {}
};
class trap_store_page_fault : public trap_access {
public:
trap_store_page_fault(uint64_t badaddr)
: trap_access(15 << 16, badaddr) {}
};
}
}
#endif

544
incl/iss/arch/riscv_hart_m_p.h
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@@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, MINRES Technologies GmbH
* Copyright (C) 2021 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@@ -32,11 +32,11 @@
* eyck@minres.com - initial implementation
******************************************************************************/
#ifndef _RISCV_CORE_H_
#define _RISCV_CORE_H_
#ifndef _RISCV_HART_M_P_H
#define _RISCV_HART_M_P_H
#include "riscv_hart_common.h"
#include "iss/arch/traits.h"
#include "iss/arch_if.h"
#include "iss/instrumentation_if.h"
#include "iss/log_categories.h"
#include "iss/vm_if.h"
@@ -66,191 +66,36 @@
namespace iss {
namespace arch {
enum { tohost_dflt = 0xF0001000, fromhost_dflt = 0xF0001040 };
enum riscv_csr {
/* user-level CSR */
// User Trap Setup
ustatus = 0x000,
uie = 0x004,
utvec = 0x005,
// User Trap Handling
uscratch = 0x040,
uepc = 0x041,
ucause = 0x042,
utval = 0x043,
uip = 0x044,
// User Floating-Point CSRs
fflags = 0x001,
frm = 0x002,
fcsr = 0x003,
// User Counter/Timers
cycle = 0xC00,
time = 0xC01,
instret = 0xC02,
hpmcounter3 = 0xC03,
hpmcounter4 = 0xC04,
/*...*/
hpmcounter31 = 0xC1F,
cycleh = 0xC80,
timeh = 0xC81,
instreth = 0xC82,
hpmcounter3h = 0xC83,
hpmcounter4h = 0xC84,
/*...*/
hpmcounter31h = 0xC9F,
/* supervisor-level CSR */
// Supervisor Trap Setup
sstatus = 0x100,
sedeleg = 0x102,
sideleg = 0x103,
sie = 0x104,
stvec = 0x105,
scounteren = 0x106,
// Supervisor Trap Handling
sscratch = 0x140,
sepc = 0x141,
scause = 0x142,
stval = 0x143,
sip = 0x144,
// Supervisor Protection and Translation
satp = 0x180,
/* machine-level CSR */
// Machine Information Registers
mvendorid = 0xF11,
marchid = 0xF12,
mimpid = 0xF13,
mhartid = 0xF14,
// Machine Trap Setup
mstatus = 0x300,
misa = 0x301,
medeleg = 0x302,
mideleg = 0x303,
mie = 0x304,
mtvec = 0x305,
mcounteren = 0x306,
// Machine Trap Handling
mscratch = 0x340,
mepc = 0x341,
mcause = 0x342,
mtval = 0x343,
mip = 0x344,
// Machine Protection and Translation
pmpcfg0 = 0x3A0,
pmpcfg1 = 0x3A1,
pmpcfg2 = 0x3A2,
pmpcfg3 = 0x3A3,
pmpaddr0 = 0x3B0,
pmpaddr1 = 0x3B1,
/*...*/
pmpaddr15 = 0x3BF,
// Machine Counter/Timers
mcycle = 0xB00,
minstret = 0xB02,
mhpmcounter3 = 0xB03,
mhpmcounter4 = 0xB04,
/*...*/
mhpmcounter31 = 0xB1F,
mcycleh = 0xB80,
minstreth = 0xB82,
mhpmcounter3h = 0xB83,
mhpmcounter4h = 0xB84,
/*...*/
mhpmcounter31h = 0xB9F,
// Machine Counter Setup
mhpmevent3 = 0x323,
mhpmevent4 = 0x324,
/*...*/
mhpmevent31 = 0x33F,
// Debug/Trace Registers (shared with Debug Mode)
tselect = 0x7A0,
tdata1 = 0x7A1,
tdata2 = 0x7A2,
tdata3 = 0x7A3,
// Debug Mode Registers
dcsr = 0x7B0,
dpc = 0x7B1,
dscratch = 0x7B2
};
namespace {
std::array<const char *, 16> trap_str = {{""
"Instruction address misaligned", // 0
"Instruction access fault", // 1
"Illegal instruction", // 2
"Breakpoint", // 3
"Load address misaligned", // 4
"Load access fault", // 5
"Store/AMO address misaligned", // 6
"Store/AMO access fault", // 7
"Environment call from U-mode", // 8
"Environment call from S-mode", // 9
"Reserved", // a
"Environment call from M-mode", // b
"Instruction page fault", // c
"Load page fault", // d
"Reserved", // e
"Store/AMO page fault"}};
std::array<const char *, 12> irq_str = {
{"User software interrupt", "Supervisor software interrupt", "Reserved", "Machine software interrupt",
"User timer interrupt", "Supervisor timer interrupt", "Reserved", "Machine timer interrupt",
"User external interrupt", "Supervisor external interrupt", "Reserved", "Machine external interrupt"}};
enum {
PGSHIFT = 12,
PTE_PPN_SHIFT = 10,
// page table entry (PTE) fields
PTE_V = 0x001, // Valid
PTE_R = 0x002, // Read
PTE_W = 0x004, // Write
PTE_X = 0x008, // Execute
PTE_U = 0x010, // User
PTE_G = 0x020, // Global
PTE_A = 0x040, // Accessed
PTE_D = 0x080, // Dirty
PTE_SOFT = 0x300 // Reserved for Software
};
template <typename T> inline bool PTE_TABLE(T PTE) { return (((PTE) & (PTE_V | PTE_R | PTE_W | PTE_X)) == PTE_V); }
enum { PRIV_U = 0, PRIV_S = 1, PRIV_M = 3 };
enum {
ISA_A = 1,
ISA_B = 1 << 1,
ISA_C = 1 << 2,
ISA_D = 1 << 3,
ISA_E = 1 << 4,
ISA_F = 1 << 5,
ISA_G = 1 << 6,
ISA_I = 1 << 8,
ISA_M = 1 << 12,
ISA_N = 1 << 13,
ISA_Q = 1 << 16,
ISA_S = 1 << 18,
ISA_U = 1 << 20
};
class trap_load_access_fault : public trap_access {
public:
trap_load_access_fault(uint64_t badaddr)
: trap_access(5 << 16, badaddr) {}
};
class illegal_instruction_fault : public trap_access {
public:
illegal_instruction_fault(uint64_t badaddr)
: trap_access(2 << 16, badaddr) {}
};
} // namespace
template <typename BASE> class riscv_hart_m_p : public BASE {
protected:
const std::array<const char, 4> lvl = {{'U', 'S', 'H', 'M'}};
const std::array<const char *, 16> trap_str = {{""
"Instruction address misaligned", // 0
"Instruction access fault", // 1
"Illegal instruction", // 2
"Breakpoint", // 3
"Load address misaligned", // 4
"Load access fault", // 5
"Store/AMO address misaligned", // 6
"Store/AMO access fault", // 7
"Environment call from U-mode", // 8
"Environment call from S-mode", // 9
"Reserved", // a
"Environment call from M-mode", // b
"Instruction page fault", // c
"Load page fault", // d
"Reserved", // e
"Store/AMO page fault"}};
const std::array<const char *, 12> irq_str = {
{"User software interrupt", "Supervisor software interrupt", "Reserved", "Machine software interrupt",
"User timer interrupt", "Supervisor timer interrupt", "Reserved", "Machine timer interrupt",
"User external interrupt", "Supervisor external interrupt", "Reserved", "Machine external interrupt"}};
public:
using super = BASE;
using core = BASE;
using this_class = riscv_hart_m_p<BASE>;
using phys_addr_t = typename super::phys_addr_t;
using reg_t = typename super::reg_t;
using addr_t = typename super::addr_t;
using phys_addr_t = typename core::phys_addr_t;
using reg_t = typename core::reg_t;
using addr_t = typename core::addr_t;
using rd_csr_f = iss::status (this_class::*)(unsigned addr, reg_t &);
using wr_csr_f = iss::status (this_class::*)(unsigned addr, reg_t);
@@ -299,25 +144,40 @@ public:
mstatus_t mstatus;
static const reg_t mstatus_reset_val = 0;
static const reg_t mstatus_reset_val = 0x1800;
void write_mstatus(T val) {
auto mask = get_mask();
auto mask = get_mask() &0xff; // MPP is hardcode as 0x3
auto new_val = (mstatus.backing.val & ~mask) | (val & mask);
mstatus = new_val;
}
T satp;
static constexpr T get_misa() { return (1UL << 30) | ISA_I | ISA_M | ISA_A | ISA_U | ISA_S | ISA_M; }
static constexpr uint32_t get_mask() {
return 0x807ff9ddUL; // 0b1000 0000 0111 1111 1111 1001 1011 1011 // only machine mode is supported
//return 0x807ff988UL; // 0b1000 0000 0111 1111 1111 1000 1000 1000 // only machine mode is supported
// +-SD
// | +-TSR
// | |+-TW
// | ||+-TVM
// | |||+-MXR
// | ||||+-SUM
// | |||||+-MPRV
// | |||||| +-XS
// | |||||| | +-FS
// | |||||| | | +-MPP
// | |||||| | | | +-SPP
// | |||||| | | | |+-MPIE
// | ||||||/|/|/| || +-MIE
return 0b00000000000000000001100010001000;
}
};
using hart_state_type = hart_state<reg_t>;
constexpr reg_t get_irq_mask() {
return 0b101110111011; // only machine mode is supported
return 0b100010001000; // only machine mode is supported
}
constexpr reg_t get_pc_mask() {
return traits<BASE>::MISA_VAL&0b0100?~1:~3;
}
riscv_hart_m_p();
@@ -332,8 +192,8 @@ public:
iss::status write(const address_type type, const access_type access, const uint32_t space,
const uint64_t addr, const unsigned length, const uint8_t *const data) override;
virtual uint64_t enter_trap(uint64_t flags) override { return riscv_hart_m_p::enter_trap(flags, fault_data); }
virtual uint64_t enter_trap(uint64_t flags, uint64_t addr) override;
virtual uint64_t enter_trap(uint64_t flags) override { return riscv_hart_m_p::enter_trap(flags, fault_data, fault_data); }
virtual uint64_t enter_trap(uint64_t flags, uint64_t addr, uint64_t instr) override;
virtual uint64_t leave_trap(uint64_t flags) override;
const reg_t& get_mhartid() const { return mhartid_reg; }
@@ -389,8 +249,11 @@ protected:
virtual iss::status read_csr(unsigned addr, reg_t &val);
virtual iss::status write_csr(unsigned addr, reg_t val);
hart_state<reg_t> state;
uint64_t cycle_offset;
hart_state_type state;
int64_t cycle_offset{0};
uint64_t mcycle_csr{0};
int64_t instret_offset{0};
uint64_t minstret_csr{0};
reg_t fault_data;
uint64_t tohost = tohost_dflt;
uint64_t fromhost = fromhost_dflt;
@@ -411,15 +274,23 @@ protected:
private:
iss::status read_reg(unsigned addr, reg_t &val);
iss::status write_reg(unsigned addr, reg_t val);
iss::status read_null(unsigned addr, reg_t &val);
iss::status write_null(unsigned addr, reg_t val){return iss::status::Ok;}
iss::status read_cycle(unsigned addr, reg_t &val);
iss::status write_cycle(unsigned addr, reg_t val);
iss::status read_instret(unsigned addr, reg_t &val);
iss::status write_instret(unsigned addr, reg_t val);
iss::status read_tvec(unsigned addr, reg_t &val);
iss::status read_time(unsigned addr, reg_t &val);
iss::status read_status(unsigned addr, reg_t &val);
iss::status write_status(unsigned addr, reg_t val);
iss::status write_cause(unsigned addr, reg_t val);
iss::status read_ie(unsigned addr, reg_t &val);
iss::status write_ie(unsigned addr, reg_t val);
iss::status read_ip(unsigned addr, reg_t &val);
iss::status write_ip(unsigned addr, reg_t val);
iss::status read_hartid(unsigned addr, reg_t &val);
iss::status write_epc(unsigned addr, reg_t val);
reg_t mhartid_reg{0x0};
std::function<iss::status(phys_addr_t, unsigned, uint8_t *const)>mem_read_cb;
@@ -432,36 +303,71 @@ protected:
template <typename BASE>
riscv_hart_m_p<BASE>::riscv_hart_m_p()
: state()
, cycle_offset(0)
, instr_if(*this) {
csr[misa] = hart_state<reg_t>::get_misa();
// reset values
csr[misa] = traits<BASE>::MISA_VAL;
csr[mvendorid] = 0x669;
csr[marchid] = 0x80000003;
csr[mimpid] = 1;
uart_buf.str("");
// read-only registers
csr_wr_cb[misa] = nullptr;
for (unsigned addr = mcycle; addr <= hpmcounter31; ++addr) csr_wr_cb[addr] = nullptr;
for (unsigned addr = mcycleh; addr <= hpmcounter31h; ++addr) csr_wr_cb[addr] = nullptr;
// special handling
csr_rd_cb[time] = &riscv_hart_m_p<BASE>::read_time;
csr_wr_cb[time] = nullptr;
csr_rd_cb[timeh] = &riscv_hart_m_p<BASE>::read_time;
csr_wr_cb[timeh] = nullptr;
csr_rd_cb[mcycle] = &riscv_hart_m_p<BASE>::read_cycle;
csr_rd_cb[mcycleh] = &riscv_hart_m_p<BASE>::read_cycle;
csr_rd_cb[minstret] = &riscv_hart_m_p<BASE>::read_cycle;
csr_rd_cb[minstreth] = &riscv_hart_m_p<BASE>::read_cycle;
csr_rd_cb[mstatus] = &riscv_hart_m_p<BASE>::read_status;
csr_wr_cb[mstatus] = &riscv_hart_m_p<BASE>::write_status;
csr_rd_cb[mip] = &riscv_hart_m_p<BASE>::read_ip;
csr_wr_cb[mip] = &riscv_hart_m_p<BASE>::write_ip;
csr_rd_cb[mie] = &riscv_hart_m_p<BASE>::read_ie;
csr_wr_cb[mie] = &riscv_hart_m_p<BASE>::write_ie;
csr_rd_cb[mhartid] = &riscv_hart_m_p<BASE>::read_hartid;
// common regs
const std::array<unsigned, 6> addrs{{mepc, mtvec, mscratch, mcause, mtval, mscratch}};
for(auto addr: addrs) {
csr_rd_cb[addr] = &riscv_hart_m_p<BASE>::read_reg;
csr_wr_cb[addr] = &riscv_hart_m_p<BASE>::write_reg;
for (unsigned addr = mhpmcounter3; addr <= mhpmcounter31; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
csr_wr_cb[addr] = &this_class::write_reg;
}
for (unsigned addr = mhpmcounter3h; addr <= mhpmcounter31h; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
csr_wr_cb[addr] = &this_class::write_reg;
}
for (unsigned addr = mhpmevent3; addr <= mhpmevent31; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
csr_wr_cb[addr] = &this_class::write_reg;
}
for (unsigned addr = hpmcounter3; addr <= hpmcounter31; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
}
for (unsigned addr = hpmcounter3h; addr <= hpmcounter31h; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
//csr_wr_cb[addr] = &this_class::write_reg;
}
// common regs
const std::array<unsigned, 10> addrs{{misa, mvendorid, marchid, mimpid, mepc, mtvec, mscratch, mcause, mtval, mscratch}};
for(auto addr: addrs) {
csr_rd_cb[addr] = &this_class::read_reg;
csr_wr_cb[addr] = &this_class::write_reg;
}
// special handling & overrides
csr_rd_cb[time] = &this_class::read_time;
csr_rd_cb[timeh] = &this_class::read_time;
csr_rd_cb[cycle] = &this_class::read_cycle;
csr_rd_cb[cycleh] = &this_class::read_cycle;
csr_rd_cb[instret] = &this_class::read_instret;
csr_rd_cb[instreth] = &this_class::read_instret;
csr_rd_cb[mcycle] = &this_class::read_cycle;
csr_wr_cb[mcycle] = &this_class::write_cycle;
csr_rd_cb[mcycleh] = &this_class::read_cycle;
csr_wr_cb[mcycleh] = &this_class::write_cycle;
csr_rd_cb[minstret] = &this_class::read_instret;
csr_wr_cb[minstret] = &this_class::write_instret;
csr_rd_cb[minstreth] = &this_class::read_instret;
csr_wr_cb[minstreth] = &this_class::write_instret;
csr_rd_cb[mstatus] = &this_class::read_status;
csr_wr_cb[mstatus] = &this_class::write_status;
csr_wr_cb[mcause] = &this_class::write_cause;
csr_rd_cb[mtvec] = &this_class::read_tvec;
csr_wr_cb[mepc] = &this_class::write_epc;
csr_rd_cb[mip] = &this_class::read_ip;
csr_wr_cb[mip] = &this_class::write_ip;
csr_rd_cb[mie] = &this_class::read_ie;
csr_wr_cb[mie] = &this_class::write_ie;
csr_rd_cb[mhartid] = &this_class::read_hartid;
csr_rd_cb[mcounteren] = &this_class::read_null;
csr_wr_cb[mcounteren] = &this_class::write_null;
csr_wr_cb[misa] = &this_class::write_null;
csr_wr_cb[mvendorid] = &this_class::write_null;
csr_wr_cb[marchid] = &this_class::write_null;
csr_wr_cb[mimpid] = &this_class::write_null;
}
template <typename BASE> std::pair<uint64_t, bool> riscv_hart_m_p<BASE>::load_file(std::string name, int type) {
@@ -482,6 +388,7 @@ template <typename BASE> std::pair<uint64_t, bool> riscv_hart_m_p<BASE>::load_fi
if (sizeof(reg_t) == 4) throw std::runtime_error("wrong elf class in file");
if (reader.get_type() != ET_EXEC) throw std::runtime_error("wrong elf type in file");
if (reader.get_machine() != EM_RISCV) throw std::runtime_error("wrong elf machine in file");
auto entry = reader.get_entry();
for (const auto pseg : reader.segments) {
const auto fsize = pseg->get_file_size(); // 0x42c/0x0
const auto seg_data = pseg->get_data();
@@ -490,18 +397,39 @@ template <typename BASE> std::pair<uint64_t, bool> riscv_hart_m_p<BASE>::load_fi
traits<BASE>::MEM, pseg->get_physical_address(),
fsize, reinterpret_cast<const uint8_t *const>(seg_data));
if (res != iss::Ok)
LOG(ERROR) << "problem writing " << fsize << "bytes to 0x" << std::hex
LOG(ERR) << "problem writing " << fsize << "bytes to 0x" << std::hex
<< pseg->get_physical_address();
}
}
for (const auto sec : reader.sections) {
if (sec->get_name() == ".tohost") {
for(const auto sec : reader.sections) {
if(sec->get_name() == ".symtab") {
if ( SHT_SYMTAB == sec->get_type() ||
SHT_DYNSYM == sec->get_type() ) {
ELFIO::symbol_section_accessor symbols( reader, sec );
auto sym_no = symbols.get_symbols_num();
std::string name;
ELFIO::Elf64_Addr value = 0;
ELFIO::Elf_Xword size = 0;
unsigned char bind = 0;
unsigned char type = 0;
ELFIO::Elf_Half section = 0;
unsigned char other = 0;
for ( auto i = 0U; i < sym_no; ++i ) {
symbols.get_symbol( i, name, value, size, bind, type, section, other );
if(name=="tohost") {
tohost = value;
} else if(name=="fromhost") {
fromhost = value;
}
}
}
} else if (sec->get_name() == ".tohost") {
tohost = sec->get_address();
fromhost = tohost + 0x40;
}
}
return std::make_pair(reader.get_entry(), true);
}
return std::make_pair(entry, true);
}
throw std::runtime_error("memory load file is not a valid elf file");
}
@@ -530,13 +458,23 @@ iss::status riscv_hart_m_p<BASE>::read(const address_type type, const access_typ
return iss::Err;
}
try {
auto alignment = access == iss::access_type::FETCH? (traits<BASE>::MISA_VAL&0x100? 2 : 4) : length;
if(alignment>1 && (addr&(alignment-1))){
this->reg.trap_state = 1<<31 | 4<<16;
fault_data=addr;
return iss::Err;
}
auto res = type==iss::address_type::PHYSICAL?
read_mem( BASE::v2p(phys_addr_t{access, space, addr}), length, data):
read_mem( BASE::v2p(iss::addr_t{access, type, space, addr}), length, data);
if (unlikely(res != iss::Ok)) this->reg.trap_state = (1 << 31) | (5 << 16); // issue trap 5 (load access fault
if (unlikely(res != iss::Ok)){
this->reg.trap_state = (1 << 31) | (5 << 16); // issue trap 5 (load access fault
fault_data=addr;
}
return res;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
} break;
@@ -562,6 +500,7 @@ iss::status riscv_hart_m_p<BASE>::read(const address_type type, const access_typ
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
}
@@ -602,14 +541,22 @@ iss::status riscv_hart_m_p<BASE>::write(const address_type type, const access_ty
return iss::Err;
}
try {
if(!(access && iss::access_type::DEBUG) && length>1 && (addr&(length-1))){
this->reg.trap_state = 1<<31 | 6<<16;
fault_data=addr;
return iss::Err;
}
auto res = type==iss::address_type::PHYSICAL?
write_mem(phys_addr_t{access, space, addr}, length, data):
write_mem(BASE::v2p(iss::addr_t{access, type, space, addr}), length, data);
if (unlikely(res != iss::Ok))
this->reg.trap_state = (1 << 31) | (5 << 16); // issue trap 7 (Store/AMO access fault)
if (unlikely(res != iss::Ok)) {
this->reg.trap_state = (1 << 31) | (7 << 16); // issue trap 7 (Store/AMO access fault)
fault_data=addr;
}
return res;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@@ -669,6 +616,7 @@ iss::status riscv_hart_m_p<BASE>::write(const address_type type, const access_ty
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
}
@@ -702,6 +650,11 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_reg(unsigned add
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_null(unsigned addr, reg_t &val) {
val = 0;
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_reg(unsigned addr, reg_t val) {
csr[addr] = val;
return iss::Ok;
@@ -718,8 +671,50 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_cycle(unsigned a
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_cycle(unsigned addr, reg_t val) {
if (sizeof(typename traits<BASE>::reg_t) != 4) {
if (addr == mcycleh)
return iss::Err;
mcycle_csr = static_cast<uint64_t>(val);
} else {
if (addr == mcycle) {
mcycle_csr = (mcycle_csr & 0xffffffff00000000) + val;
} else {
mcycle_csr = (static_cast<uint64_t>(val)<<32) + (mcycle_csr & 0xffffffff);
}
}
cycle_offset = mcycle_csr-this->reg.icount; // TODO: relying on wrap-around
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_instret(unsigned addr, reg_t &val) {
if ((addr&0xff) == (minstret&0xff)) {
val = static_cast<reg_t>(this->reg.instret);
} else if ((addr&0xff) == (minstreth&0xff)) {
if (sizeof(typename traits<BASE>::reg_t) != 4) return iss::Err;
val = static_cast<reg_t>(this->reg.instret >> 32);
}
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_instret(unsigned addr, reg_t val) {
if (sizeof(typename traits<BASE>::reg_t) != 4) {
if ((addr&0xff) == (minstreth&0xff))
return iss::Err;
this->reg.instret = static_cast<uint64_t>(val);
} else {
if ((addr&0xff) == (minstret&0xff)) {
this->reg.instret = (this->reg.instret & 0xffffffff00000000) + val;
} else {
this->reg.instret = (static_cast<uint64_t>(val)<<32) + (this->reg.instret & 0xffffffff);
}
}
this->reg.instret--;
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_time(unsigned addr, reg_t &val) {
uint64_t time_val = (this->reg.icount + cycle_offset) / (100000000 / 32768 - 1); //-> ~3052;
uint64_t time_val = this->reg.icount / (100000000 / 32768 - 1); //-> ~3052;
if (addr == time) {
val = static_cast<reg_t>(time_val);
} else if (addr == timeh) {
@@ -729,8 +724,13 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_time(unsigned ad
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_tvec(unsigned addr, reg_t &val) {
val = csr[mtvec] & ~2;
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_status(unsigned addr, reg_t &val) {
val = state.mstatus & hart_state<reg_t>::get_mask();
val = state.mstatus & hart_state_type::get_mask();
return iss::Ok;
}
@@ -740,9 +740,13 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_status(unsigned
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_cause(unsigned addr, reg_t val) {
csr[mcause] = val & ((1UL<<(traits<BASE>::XLEN-1))|0xf); //TODO: make exception code size configurable
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_ie(unsigned addr, reg_t &val) {
val = csr[mie];
val &= csr[mideleg];
return iss::Ok;
}
@@ -760,7 +764,6 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_ie(unsigned add
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_ip(unsigned addr, reg_t &val) {
val = csr[mip];
val &= csr[mideleg];
return iss::Ok;
}
@@ -772,9 +775,13 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_ip(unsigned add
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_epc(unsigned addr, reg_t val) {
csr[addr] = val & get_pc_mask();
return iss::Ok;
}
template <typename BASE>
iss::status riscv_hart_m_p<BASE>::read_mem(phys_addr_t paddr, unsigned length, uint8_t *const data) {
if ((paddr.val + length) > mem.size()) return iss::Err;
if(mem_read_cb) return mem_read_cb(paddr, length, data);
switch (paddr.val) {
case 0x0200BFF8: { // CLINT base, mtime reg
@@ -790,9 +797,9 @@ iss::status riscv_hart_m_p<BASE>::read_mem(phys_addr_t paddr, unsigned length, u
if (this->reg.icount > 30000) data[3] |= 0x80;
} break;
default: {
const auto &p = mem(paddr.val / mem.page_size);
auto offs = paddr.val & mem.page_addr_mask;
std::copy(p.data() + offs, p.data() + offs + length, data);
for(auto offs=0U; offs<length; ++offs) {
*(data + offs)=mem[(paddr.val+offs)%mem.size()];
}
}
}
return iss::Ok;
@@ -800,7 +807,6 @@ iss::status riscv_hart_m_p<BASE>::read_mem(phys_addr_t paddr, unsigned length, u
template <typename BASE>
iss::status riscv_hart_m_p<BASE>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t *const data) {
if ((paddr.val + length) > mem.size()) return iss::Err;
if(mem_write_cb) return mem_write_cb(paddr, length, data);
switch (paddr.val) {
case 0x10013000: // UART0 base, TXFIFO reg
@@ -832,9 +838,10 @@ iss::status riscv_hart_m_p<BASE>::write_mem(phys_addr_t paddr, unsigned length,
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
if (paddr.access && iss::access_type::FUNC) {
auto tohost_upper = (traits<BASE>::XLEN == 32 && paddr.val == (tohost + 4));
auto tohost_upper = (traits<BASE>::XLEN == 32 && paddr.val == (tohost + 4)) ||
(traits<BASE>::XLEN == 64 && paddr.val == tohost);
auto tohost_lower =
(traits<BASE>::XLEN == 32 && paddr.val == tohost);
(traits<BASE>::XLEN == 32 && paddr.val == tohost) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
if (tohost_lower || tohost_upper) {
uint64_t hostvar = *reinterpret_cast<uint64_t *>(p.data() + (tohost & mem.page_addr_mask));
if (tohost_upper || (tohost_lower && to_host_wr_cnt > 0)) {
@@ -865,7 +872,8 @@ iss::status riscv_hart_m_p<BASE>::write_mem(phys_addr_t paddr, unsigned length,
}
} else if (tohost_lower)
to_host_wr_cnt++;
} else if (traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) {
} else if ((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) ||
(traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t *>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t *>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
}
@@ -877,11 +885,11 @@ iss::status riscv_hart_m_p<BASE>::write_mem(phys_addr_t paddr, unsigned length,
template <typename BASE> inline void riscv_hart_m_p<BASE>::reset(uint64_t address) {
BASE::reset(address);
state.mstatus = hart_state<reg_t>::mstatus_reset_val;
state.mstatus = hart_state_type::mstatus_reset_val;
}
template <typename BASE> void riscv_hart_m_p<BASE>::check_interrupt() {
auto ideleg = csr[mideleg];
//auto ideleg = csr[mideleg];
// Multiple simultaneous interrupts and traps at the same privilege level are
// handled in the following decreasing priority order:
// external interrupts, software interrupts, timer interrupts, then finally
@@ -890,16 +898,19 @@ template <typename BASE> void riscv_hart_m_p<BASE>::check_interrupt() {
bool mie = state.mstatus.MIE;
auto m_enabled = this->reg.PRIV < PRIV_M || (this->reg.PRIV == PRIV_M && mie);
auto enabled_interrupts = m_enabled ? ena_irq & ~ideleg : 0;
auto enabled_interrupts = m_enabled ? ena_irq : 0;
if (enabled_interrupts != 0) {
int res = 0;
while ((enabled_interrupts & 1) == 0) enabled_interrupts >>= 1, res++;
while ((enabled_interrupts & 1) == 0) {
enabled_interrupts >>= 1;
res++;
}
this->reg.pending_trap = res << 16 | 1; // 0x80 << 24 | (cause << 16) | trap_id
}
}
template <typename BASE> uint64_t riscv_hart_m_p<BASE>::enter_trap(uint64_t flags, uint64_t addr) {
template <typename BASE> uint64_t riscv_hart_m_p<BASE>::enter_trap(uint64_t flags, uint64_t addr, uint64_t instr) {
// flags are ACTIVE[31:31], CAUSE[30:16], TRAPID[15:0]
// calculate and write mcause val
auto trap_id = bit_sub<0, 16>(flags);
@@ -908,11 +919,11 @@ template <typename BASE> uint64_t riscv_hart_m_p<BASE>::enter_trap(uint64_t flag
// calculate effective privilege level
if (trap_id == 0) { // exception
// store ret addr in xepc register
csr[mepc] = static_cast<reg_t>(addr); // store actual address instruction of exception
csr[mtval] = fault_data;
csr[mepc] = static_cast<reg_t>(addr) & get_pc_mask(); // store actual address instruction of exception
csr[mtval] = cause==2?((instr & 0x3)==3?instr:instr&0xffff):fault_data;
fault_data = 0;
} else {
csr[mepc] = this->reg.NEXT_PC; // store next address if interrupt
csr[mepc] = this->reg.NEXT_PC & get_pc_mask(); // store next address if interrupt
this->reg.pending_trap = 0;
}
csr[mcause] = (trap_id << 31) + cause;
@@ -931,13 +942,17 @@ template <typename BASE> uint64_t riscv_hart_m_p<BASE>::enter_trap(uint64_t flag
auto ivec = csr[mtvec];
// calculate addr// set NEXT_PC to trap addressess to jump to based on MODE
// bits in mtvec
this->reg.NEXT_PC = ivec & ~0x1UL;
this->reg.NEXT_PC = ivec & ~0x3UL;
if ((ivec & 0x1) == 1 && trap_id != 0) this->reg.NEXT_PC += 4 * cause;
// reset trap state
this->reg.PRIV = PRIV_M;
this->reg.trap_state = 0;
std::array<char, 32> buffer;
#if defined(_MSC_VER)
sprintf(buffer.data(), "0x%016llx", addr);
#else
sprintf(buffer.data(), "0x%016lx", addr);
#endif
if((flags&0xffffffff) != 0xffffffff)
CLOG(INFO, disass) << (trap_id ? "Interrupt" : "Trap") << " with cause '"
<< (trap_id ? irq_str[cause] : trap_str[cause]) << "' (" << cause << ")"
@@ -946,27 +961,16 @@ template <typename BASE> uint64_t riscv_hart_m_p<BASE>::enter_trap(uint64_t flag
}
template <typename BASE> uint64_t riscv_hart_m_p<BASE>::leave_trap(uint64_t flags) {
/* TODO: configurable support of User mode
auto cur_priv = this->reg.PRIV;
auto inst_priv = flags & 0x3;
auto status = state.mstatus;
// pop the relevant lower-privilege interrupt enable and privilege mode stack
// clear respective yIE
if (inst_priv == PRIV_M) {
this->reg.PRIV = state.mstatus.MPP;
state.mstatus.MPP = 0; // clear mpp to U mode
state.mstatus.MIE = state.mstatus.MPIE;
} else {
CLOG(ERROR, disass) << "Unsupported mode:" << inst_priv;
}*/
state.mstatus.MIE = state.mstatus.MPIE;
state.mstatus.MPIE = 1;
// sets the pc to the value stored in the x epc register.
this->reg.NEXT_PC = csr[mepc];
this->reg.NEXT_PC = csr[mepc] & get_pc_mask();
CLOG(INFO, disass) << "Executing xRET";
check_interrupt();
return this->reg.NEXT_PC;
}
} // namespace arch
} // namespace iss
#endif /* _RISCV_CORE_H_ */
#endif /* _RISCV_HART_M_P_H */

1388
incl/iss/arch/riscv_hart_msu_vp.h Normal file
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File diff suppressed because it is too large Load Diff

1286
incl/iss/arch/riscv_hart_mu_p.h Normal file
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File diff suppressed because it is too large Load Diff

138
incl/iss/arch/tgf_c.h → incl/iss/arch/tgc_c.h
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@@ -30,8 +30,8 @@
*
*******************************************************************************/
#ifndef _TGF_C_H_
#define _TGF_C_H_
#ifndef _TGC_C_H_
#define _TGC_C_H_
#include <array>
#include <iss/arch/traits.h>
@@ -41,11 +41,11 @@
namespace iss {
namespace arch {
struct tgf_c;
struct tgc_c;
template <> struct traits<tgf_c> {
template <> struct traits<tgc_c> {
constexpr static char const* const core_type = "TGF_C";
constexpr static char const* const core_type = "TGC_C";
static constexpr std::array<const char*, 35> reg_names{
{"X0", "X1", "X2", "X3", "X4", "X5", "X6", "X7", "X8", "X9", "X10", "X11", "X12", "X13", "X14", "X15", "X16", "X17", "X18", "X19", "X20", "X21", "X22", "X23", "X24", "X25", "X26", "X27", "X28", "X29", "X30", "X31", "PC", "NEXT_PC", "PRIV"}};
@@ -53,7 +53,7 @@ template <> struct traits<tgf_c> {
static constexpr std::array<const char*, 35> reg_aliases{
{"X0", "X1", "X2", "X3", "X4", "X5", "X6", "X7", "X8", "X9", "X10", "X11", "X12", "X13", "X14", "X15", "X16", "X17", "X18", "X19", "X20", "X21", "X22", "X23", "X24", "X25", "X26", "X27", "X28", "X29", "X30", "X31", "PC", "NEXT_PC", "PRIV"}};
enum constants {XLEN=32, PCLEN=32, MISA_VAL=0b01000000000000000001000100000100, PGSIZE=0x1000, PGMASK=0b111111111111, CSR_SIZE=4096, fence=0, fencei=1, fencevmal=2, fencevmau=3, eei_aligned_addresses=1, MUL_LEN=64};
enum constants {XLEN=32, PCLEN=32, MISA_VAL=0b01000000000000000001000100000100, PGSIZE=0x1000, PGMASK=0b111111111111, CSR_SIZE=4096, fence=0, fencei=1, fencevmal=2, fencevmau=3, MUL_LEN=64};
constexpr static unsigned FP_REGS_SIZE = 0;
@@ -61,7 +61,9 @@ template <> struct traits<tgf_c> {
X0, X1, X2, X3, X4, X5, X6, X7, X8, X9, X10, X11, X12, X13, X14, X15, X16, X17, X18, X19, X20, X21, X22, X23, X24, X25, X26, X27, X28, X29, X30, X31, PC, NEXT_PC, PRIV, NUM_REGS,
TRAP_STATE=NUM_REGS,
PENDING_TRAP,
ICOUNT
ICOUNT,
CYCLE,
INSTRET
};
using reg_t = uint32_t;
@@ -74,11 +76,11 @@ template <> struct traits<tgf_c> {
using phys_addr_t = iss::typed_addr_t<iss::address_type::PHYSICAL>;
static constexpr std::array<const uint32_t, 38> reg_bit_widths{
{32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,8,32,32,64}};
static constexpr std::array<const uint32_t, 40> reg_bit_widths{
{32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,8,32,32,64,64,64}};
static constexpr std::array<const uint32_t, 38> reg_byte_offsets{
{0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100,104,108,112,116,120,124,128,132,136,137,141,145}};
static constexpr std::array<const uint32_t, 40> reg_byte_offsets{
{0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100,104,108,112,116,120,124,128,132,136,137,141,145,153,161}};
static const uint64_t addr_mask = (reg_t(1) << (XLEN - 1)) | ((reg_t(1) << (XLEN - 1)) - 1);
@@ -125,51 +127,51 @@ template <> struct traits<tgf_c> {
OR = 35,
AND = 36,
FENCE = 37,
FENCE_I = 38,
ECALL = 39,
EBREAK = 40,
URET = 41,
SRET = 42,
MRET = 43,
WFI = 44,
SFENCE_VMA = 45,
CSRRW = 46,
CSRRS = 47,
CSRRC = 48,
CSRRWI = 49,
CSRRSI = 50,
CSRRCI = 51,
MUL = 52,
MULH = 53,
MULHSU = 54,
MULHU = 55,
DIV = 56,
DIVU = 57,
REM = 58,
REMU = 59,
CADDI4SPN = 60,
CLW = 61,
CSW = 62,
CADDI = 63,
CNOP = 64,
CJAL = 65,
CLI = 66,
CLUI = 67,
CADDI16SP = 68,
CSRLI = 69,
CSRAI = 70,
CANDI = 71,
CSUB = 72,
CXOR = 73,
COR = 74,
CAND = 75,
CJ = 76,
CBEQZ = 77,
CBNEZ = 78,
CSLLI = 79,
CLWSP = 80,
CMV = 81,
CJR = 82,
ECALL = 38,
EBREAK = 39,
URET = 40,
SRET = 41,
MRET = 42,
WFI = 43,
CSRRW = 44,
CSRRS = 45,
CSRRC = 46,
CSRRWI = 47,
CSRRSI = 48,
CSRRCI = 49,
MUL = 50,
MULH = 51,
MULHSU = 52,
MULHU = 53,
DIV = 54,
DIVU = 55,
REM = 56,
REMU = 57,
CADDI4SPN = 58,
CLW = 59,
CSW = 60,
CADDI = 61,
CNOP = 62,
CJAL = 63,
CLI = 64,
CLUI = 65,
CADDI16SP = 66,
__reserved_clui = 67,
CSRLI = 68,
CSRAI = 69,
CANDI = 70,
CSUB = 71,
CXOR = 72,
COR = 73,
CAND = 74,
CJ = 75,
CBEQZ = 76,
CBNEZ = 77,
CSLLI = 78,
CLWSP = 79,
CMV = 80,
CJR = 81,
__reserved_cmv = 82,
CADD = 83,
CJALR = 84,
CEBREAK = 85,
@@ -179,15 +181,15 @@ template <> struct traits<tgf_c> {
};
};
struct tgf_c: public arch_if {
struct tgc_c: public arch_if {
using virt_addr_t = typename traits<tgf_c>::virt_addr_t;
using phys_addr_t = typename traits<tgf_c>::phys_addr_t;
using reg_t = typename traits<tgf_c>::reg_t;
using addr_t = typename traits<tgf_c>::addr_t;
using virt_addr_t = typename traits<tgc_c>::virt_addr_t;
using phys_addr_t = typename traits<tgc_c>::phys_addr_t;
using reg_t = typename traits<tgc_c>::reg_t;
using addr_t = typename traits<tgc_c>::addr_t;
tgf_c();
~tgf_c();
tgc_c();
~tgc_c();
void reset(uint64_t address=0) override;
@@ -208,9 +210,9 @@ struct tgf_c: public arch_if {
inline uint64_t stop_code() { return interrupt_sim; }
inline phys_addr_t v2p(const iss::addr_t& addr){
if (addr.space != traits<tgf_c>::MEM || addr.type == iss::address_type::PHYSICAL ||
if (addr.space != traits<tgc_c>::MEM || addr.type == iss::address_type::PHYSICAL ||
addr_mode[static_cast<uint16_t>(addr.access)&0x3]==address_type::PHYSICAL) {
return phys_addr_t(addr.access, addr.space, addr.val&traits<tgf_c>::addr_mask);
return phys_addr_t(addr.access, addr.space, addr.val&traits<tgc_c>::addr_mask);
} else
return virt2phys(addr);
}
@@ -223,7 +225,7 @@ struct tgf_c: public arch_if {
protected:
#pragma pack(push, 1)
struct TGF_C_regs {
struct TGC_C_regs {
uint32_t X0 = 0;
uint32_t X1 = 0;
uint32_t X2 = 0;
@@ -261,6 +263,8 @@ protected:
uint8_t PRIV = 0;
uint32_t trap_state = 0, pending_trap = 0;
uint64_t icount = 0;
uint64_t cycle = 0;
uint64_t instret = 0;
uint32_t last_branch;
} reg;
#pragma pack(pop)
@@ -275,4 +279,4 @@ protected:
}
}
#endif /* _TGF_C_H_ */
#endif /* _TGC_C_H_ */

9
incl/iss/debugger/riscv_target_adapter.h
View File

@@ -183,7 +183,8 @@ status riscv_target_adapter<ARCH>::read_registers(std::vector<uint8_t> &data, st
data.clear();
avail.clear();
const uint8_t *reg_base = core->get_regs_base_ptr();
for (size_t reg_no = 0; reg_no < arch::traits<ARCH>::NUM_REGS; ++reg_no) {
auto start_reg=arch::traits<ARCH>::X0;
for (size_t reg_no = start_reg; reg_no < start_reg+33/*arch::traits<ARCH>::NUM_REGS*/; ++reg_no) {
auto reg_width = arch::traits<ARCH>::reg_bit_widths[reg_no] / 8;
unsigned offset = traits<ARCH>::reg_byte_offsets[reg_no];
for (size_t j = 0; j < reg_width; ++j) {
@@ -210,11 +211,11 @@ status riscv_target_adapter<ARCH>::read_registers(std::vector<uint8_t> &data, st
}
template <typename ARCH> status riscv_target_adapter<ARCH>::write_registers(const std::vector<uint8_t> &data) {
auto reg_count = arch::traits<ARCH>::NUM_REGS;
auto start_reg=arch::traits<ARCH>::X0;
auto *reg_base = core->get_regs_base_ptr();
auto iter = data.data();
for (size_t reg_no = 0; reg_no < reg_count; ++reg_no) {
auto reg_width = arch::traits<ARCH>::reg_bit_widths[static_cast<typename arch::traits<ARCH>::reg_e>(reg_no)] / 8;
for (size_t reg_no = 0; reg_no < start_reg+33/*arch::traits<ARCH>::NUM_REGS*/; ++reg_no) {
auto reg_width = arch::traits<ARCH>::reg_bit_widths[reg_no] / 8;
auto offset = traits<ARCH>::reg_byte_offsets[reg_no];
std::copy(iter, iter + reg_width, reg_base);
iter += 4;

62
incl/iss/factory.h Normal file
View File

@@ -0,0 +1,62 @@
/*******************************************************************************
* Copyright (C) 2021 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*
*******************************************************************************/
#ifndef _ISS_FACTORY_H_
#define _ISS_FACTORY_H_
#include <iss/iss.h>
namespace iss {
using cpu_ptr = std::unique_ptr<iss::arch_if>;
using vm_ptr= std::unique_ptr<iss::vm_if>;
template<typename PLAT>
std::tuple<cpu_ptr, vm_ptr> create_cpu(std::string const& backend, unsigned gdb_port){
using core_type = typename PLAT::core;
core_type* lcpu = new PLAT();
if(backend == "interp")
return {cpu_ptr{lcpu}, vm_ptr{iss::interp::create(lcpu, gdb_port)}};
#ifdef WITH_LLVM
if(backend == "llvm")
return {cpu_ptr{lcpu}, vm_ptr{iss::llvm::create(lcpu, gdb_port)}};
#endif
#ifdef WITH_LLVM
if(backend == "tcc")
return {cpu_ptr{lcpu}, vm_ptr{iss::tcc::create(lcpu, gdb_port)}};
#endif
return {nullptr, nullptr};
}
}
#endif /* _ISS_FACTORY_H_ */

120
incl/sysc/core_complex.h
View File

@@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018 MINRES Technologies GmbH
* Copyright (C) 2017-2021 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@@ -30,33 +30,23 @@
*
*******************************************************************************/
#ifndef _SYSC_SIFIVE_FE310_H_
#define _SYSC_SIFIVE_FE310_H_
#ifndef _SYSC_CORE_COMPLEX_H_
#define _SYSC_CORE_COMPLEX_H_
#include "scc/initiator_mixin.h"
#include "scc/traceable.h"
#include "scc/utilities.h"
#include "scv4tlm/tlm_rec_initiator_socket.h"
#include <tlm/scc/initiator_mixin.h>
#include <scc/traceable.h>
#include <scc/tick2time.h>
#include <scc/utilities.h>
#include <tlm/scc/scv/tlm_rec_initiator_socket.h>
#ifdef CWR_SYSTEMC
#include <scmlinc/scml_property.h>
#else
#include <cci_configuration>
#endif
#include <tlm>
#include <tlm_core/tlm_1/tlm_req_rsp/tlm_1_interfaces/tlm_core_ifs.h>
#include <tlm_utils/tlm_quantumkeeper.h>
#include <util/range_lut.h>
class scv_tr_db;
class scv_tr_stream;
struct _scv_tr_generator_default_data;
template <class T_begin, class T_end> class scv_tr_generator;
namespace iss {
class vm_if;
namespace arch {
template <typename BASE> class riscv_hart_m_p;
}
namespace debugger {
class target_adapter_if;
}
} // namespace iss
#include <memory>
namespace sysc {
@@ -70,14 +60,13 @@ public:
bool operator!=(const tlm_dmi_ext &o) const { return !operator==(o); }
};
namespace SiFive {
namespace tgfs {
class core_wrapper;
struct core_trace;
class core_complex : public sc_core::sc_module, public scc::traceable {
public:
scc::initiator_mixin<scv4tlm::tlm_rec_initiator_socket<32>> initiator{"intor"};
sc_core::sc_in<sc_core::sc_time> clk_i{"clk_i"};
tlm::scc::initiator_mixin<tlm::scc::scv::tlm_rec_initiator_socket<32>> initiator{"intor"};
sc_core::sc_in<bool> rst_i{"rst_i"};
@@ -89,6 +78,9 @@ public:
sc_core::sc_vector<sc_core::sc_in<bool>> local_irq_i{"local_irq_i", 16};
#ifndef CWR_SYSTEMC
sc_core::sc_in<sc_core::sc_time> clk_i{"clk_i"};
sc_core::sc_port<tlm::tlm_peek_if<uint64_t>, 1, sc_core::SC_ZERO_OR_MORE_BOUND> mtime_o;
cci::cci_param<std::string> elf_file{"elf_file", ""};
@@ -97,7 +89,9 @@ public:
cci::cci_param<uint64_t> reset_address{"reset_address", 0ULL};
cci::cci_param<std::string> backend{"backend", "tcc"};
cci::cci_param<std::string> core_type{"core_type", "tgc_c"};
cci::cci_param<std::string> backend{"backend", "interp"};
cci::cci_param<unsigned short> gdb_server_port{"gdb_server_port", 0};
@@ -105,7 +99,47 @@ public:
cci::cci_param<uint32_t> mhartid{"mhartid", 0};
core_complex(sc_core::sc_module_name name);
core_complex(sc_core::sc_module_name const& name);
#else
sc_core::sc_in<bool> clk_i{"clk_i"};
sc_core::sc_in<uint64_t> mtime_i{"mtime_i"};
scml_property<std::string> elf_file{"elf_file", ""};
scml_property<bool> enable_disass{"enable_disass", false};
scml_property<unsigned long long> reset_address{"reset_address", 0ULL};
scml_property<std::string> core_type{"core_type", "tgc_c"};
scml_property<std::string> backend{"backend", "interp"};
scml_property<unsigned> gdb_server_port{"gdb_server_port", 0};
scml_property<bool> dump_ir{"dump_ir", false};
scml_property<uint32_t> mhartid{"mhartid", 0};
core_complex(sc_core::sc_module_name const& name)
: sc_module(name)
, local_irq_i{"local_irq_i", 16}
, elf_file{"elf_file", ""}
, enable_disass{"enable_disass", false}
, reset_address{"reset_address", 0ULL}
, core_type{"core_type", "tgc_c"}
, backend{"backend", "interp"}
, gdb_server_port{"gdb_server_port", 0}
, dump_ir{"dump_ir", false}
, mhartid{"mhartid", 0}
, read_lut(tlm_dmi_ext())
, write_lut(tlm_dmi_ext())
{
init();
}
#endif
~core_complex();
@@ -129,13 +163,14 @@ public:
void trace(sc_core::sc_trace_file *trf) const override;
void disass_output(uint64_t pc, const std::string instr);
bool disass_output(uint64_t pc, const std::string instr);
void set_clock_period(sc_core::sc_time period);
protected:
void before_end_of_elaboration() override;
void start_of_simulation() override;
void forward();
void run();
void clk_cb();
void rst_cb();
void sw_irq_cb();
void timer_irq_cb();
@@ -144,23 +179,14 @@ protected:
util::range_lut<tlm_dmi_ext> read_lut, write_lut;
tlm_utils::tlm_quantumkeeper quantum_keeper;
std::vector<uint8_t> write_buf;
std::unique_ptr<core_wrapper> cpu;
std::unique_ptr<iss::vm_if> vm;
sc_core::sc_time curr_clk;
iss::debugger::target_adapter_if *tgt_adapter;
#ifdef WITH_SCV
//! transaction recording database
scv_tr_db *m_db;
//! blocking transaction recording stream handle
scv_tr_stream *stream_handle;
//! transaction generator handle for blocking transactions
scv_tr_generator<_scv_tr_generator_default_data, _scv_tr_generator_default_data> *instr_tr_handle;
scv_tr_generator<uint64_t, _scv_tr_generator_default_data> *fetch_tr_handle;
scv_tr_handle tr_handle;
#endif
core_wrapper* cpu{nullptr};
sc_core::sc_signal<sc_core::sc_time> curr_clk;
core_trace* trc{nullptr};
std::unique_ptr<scc::tick2time> t2t;
private:
void init();
};
} /* namespace SiFive */
} /* namespace sysc */
#endif /* _SYSC_SIFIVE_FE310_H_ */
#endif /* _SYSC_CORE_COMPLEX_H_ */

2
softfloat/build/Linux-x86_64-GCC/platform.h
View File

@@ -49,7 +49,9 @@ SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
/*----------------------------------------------------------------------------
*----------------------------------------------------------------------------*/
#ifdef __GNUC__
#define SOFTFLOAT_BUILTIN_CLZ 1
#define SOFTFLOAT_INTRINSIC_INT128 1
#endif
#include "opts-GCC.h"

2
src/iss/.gitignore vendored
View File

@@ -1 +1 @@
/tgf_b.cpp
/tgc_*.cpp

22
src/iss/tgf_c.cpp → src/iss/tgc_c.cpp
View File

@@ -32,26 +32,26 @@
#include "util/ities.h"
#include <util/logging.h>
#include <iss/arch/tgf_c.h>
#include <iss/arch/tgc_c.h>
#include <cstdio>
#include <cstring>
#include <fstream>
using namespace iss::arch;
constexpr std::array<const char*, 35> iss::arch::traits<iss::arch::tgf_c>::reg_names;
constexpr std::array<const char*, 35> iss::arch::traits<iss::arch::tgf_c>::reg_aliases;
constexpr std::array<const uint32_t, 38> iss::arch::traits<iss::arch::tgf_c>::reg_bit_widths;
constexpr std::array<const uint32_t, 38> iss::arch::traits<iss::arch::tgf_c>::reg_byte_offsets;
constexpr std::array<const char*, 35> iss::arch::traits<iss::arch::tgc_c>::reg_names;
constexpr std::array<const char*, 35> iss::arch::traits<iss::arch::tgc_c>::reg_aliases;
constexpr std::array<const uint32_t, 40> iss::arch::traits<iss::arch::tgc_c>::reg_bit_widths;
constexpr std::array<const uint32_t, 40> iss::arch::traits<iss::arch::tgc_c>::reg_byte_offsets;
tgf_c::tgf_c() {
tgc_c::tgc_c() {
reg.icount = 0;
}
tgf_c::~tgf_c() = default;
tgc_c::~tgc_c() = default;
void tgf_c::reset(uint64_t address) {
for(size_t i=0; i<traits<tgf_c>::NUM_REGS; ++i) set_reg(i, std::vector<uint8_t>(sizeof(traits<tgf_c>::reg_t),0));
void tgc_c::reset(uint64_t address) {
for(size_t i=0; i<traits<tgc_c>::NUM_REGS; ++i) set_reg(i, std::vector<uint8_t>(sizeof(traits<tgc_c>::reg_t),0));
reg.PC=address;
reg.NEXT_PC=reg.PC;
reg.PRIV=0x3;
@@ -59,11 +59,11 @@ void tgf_c::reset(uint64_t address) {
reg.icount=0;
}
uint8_t *tgf_c::get_regs_base_ptr() {
uint8_t *tgc_c::get_regs_base_ptr() {
return reinterpret_cast<uint8_t*>(&reg);
}
tgf_c::phys_addr_t tgf_c::virt2phys(const iss::addr_t &pc) {
tgc_c::phys_addr_t tgc_c::virt2phys(const iss::addr_t &pc) {
return phys_addr_t(pc); // change logical address to physical address
}

67
src/main.cpp
View File

@@ -31,15 +31,24 @@
*******************************************************************************/
#include <iostream>
#include <iss/iss.h>
#include <iss/factory.h>
#include <boost/lexical_cast.hpp>
#include <boost/program_options.hpp>
#include <iss/arch/riscv_hart_m_p.h>
#ifdef WITH_TGF_B
#include <iss/arch/tgf_b.h>
#include "iss/arch/riscv_hart_m_p.h"
#include "iss/arch/tgc_c.h"
using tgc_c_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_c>;
#ifdef CORE_TGC_B
#include "iss/arch/riscv_hart_m_p.h"
#include "iss/arch/tgc_b.h"
using tgc_b_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_b>;
#endif
#ifdef CORE_TGC_D
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d.h"
using tgc_d_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#include <iss/arch/tgf_c.h>
#ifdef WITH_LLVM
#include <iss/llvm/jit_helper.h>
#endif
@@ -49,23 +58,6 @@
namespace po = boost::program_options;
using cpu_ptr = std::unique_ptr<iss::arch_if>;
using vm_ptr= std::unique_ptr<iss::vm_if>;
template<typename CORE>
std::tuple<cpu_ptr, vm_ptr> create_cpu(std::string const& backend, unsigned gdb_port){
CORE* lcpu = new iss::arch::riscv_hart_m_p<CORE>();
if(backend == "interp")
return {cpu_ptr{lcpu}, vm_ptr{iss::interp::create(lcpu, gdb_port)}};
#ifdef WITH_LLVM
if(backend == "llvm")
return {cpu_ptr{lcpu}, vm_ptr{iss::llvm::create(lcpu, gdb_port)}};
#endif
// if(backend == "tcc")
// return {cpu_ptr{lcpu}, vm_ptr{iss::tcc::create(lcpu, gdb_port)}};
return {nullptr, nullptr};
}
int main(int argc, char *argv[]) {
/*
* Define and parse the program options
@@ -86,7 +78,7 @@ int main(int argc, char *argv[]) {
("mem,m", po::value<std::string>(), "the memory input file")
("plugin,p", po::value<std::vector<std::string>>(), "plugin to activate")
("backend", po::value<std::string>()->default_value("interp"), "the memory input file")
("isa", po::value<std::string>()->default_value("tgf_c"), "isa to use for simulation");
("isa", po::value<std::string>()->default_value("tgc_c"), "isa to use for simulation");
// clang-format on
auto parsed = po::command_line_parser(argc, argv).options(desc).allow_unregistered().run();
try {
@@ -128,20 +120,27 @@ int main(int argc, char *argv[]) {
#endif
bool dump = clim.count("dump-ir");
// instantiate the simulator
vm_ptr vm{nullptr};
cpu_ptr cpu{nullptr};
iss::vm_ptr vm{nullptr};
iss::cpu_ptr cpu{nullptr};
std::string isa_opt(clim["isa"].as<std::string>());
#ifdef WITH_TGF_B
if (isa_opt == "tgf_b") {
if (isa_opt == "tgc_c") {
std::tie(cpu, vm) =
create_cpu<iss::arch::tgf_b>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
iss::create_cpu<tgc_c_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#ifdef CORE_TGC_B
if (isa_opt == "tgc_b") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_b_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
if (isa_opt == "tgf_c") {
#ifdef CORE_TGC_D
if (isa_opt == "tgc_d") {
std::tie(cpu, vm) =
create_cpu<iss::arch::tgf_c>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else {
LOG(ERROR) << "Illegal argument value for '--isa': " << clim["isa"].as<std::string>() << std::endl;
iss::create_cpu<tgc_d_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
{
LOG(ERR) << "Illegal argument value for '--isa': " << clim["isa"].as<std::string>() << std::endl;
return 127;
}
if (clim.count("plugin")) {
@@ -162,7 +161,7 @@ int main(int argc, char *argv[]) {
vm->register_plugin(*ce_plugin);
plugin_list.push_back(ce_plugin);
} else {
LOG(ERROR) << "Unknown plugin name: " << plugin_name << ", valid names are 'ce', 'ic'" << std::endl;
LOG(ERR) << "Unknown plugin name: " << plugin_name << ", valid names are 'ce', 'ic'" << std::endl;
return 127;
}
}
@@ -179,7 +178,7 @@ int main(int argc, char *argv[]) {
}
uint64_t start_address = 0;
if (clim.count("mem"))
vm->get_arch()->load_file(clim["mem"].as<std::string>(), iss::arch::traits<iss::arch::tgf_c>::MEM);
vm->get_arch()->load_file(clim["mem"].as<std::string>());
if (clim.count("elf"))
for (std::string input : clim["elf"].as<std::vector<std::string>>()) {
auto start_addr = vm->get_arch()->load_file(input);
@@ -197,7 +196,7 @@ int main(int argc, char *argv[]) {
auto cycles = clim["instructions"].as<uint64_t>();
res = vm->start(cycles, dump);
} catch (std::exception &e) {
LOG(ERROR) << "Unhandled Exception reached the top of main: " << e.what() << ", application will now exit"
LOG(ERR) << "Unhandled Exception reached the top of main: " << e.what() << ", application will now exit"
<< std::endl;
res = 2;
}

12
src/plugin/cycle_estimate.cpp
View File

@@ -47,10 +47,10 @@ iss::plugin::cycle_estimate::cycle_estimate(std::string config_file_name)
try {
is >> root;
} catch (Json::RuntimeError &e) {
LOG(ERROR) << "Could not parse input file " << config_file_name << ", reason: " << e.what();
LOG(ERR) << "Could not parse input file " << config_file_name << ", reason: " << e.what();
}
} else {
LOG(ERROR) << "Could not open input file " << config_file_name;
LOG(ERR) << "Could not open input file " << config_file_name;
}
}
}
@@ -77,7 +77,7 @@ bool iss::plugin::cycle_estimate::registration(const char* const version, vm_if&
}
}
} else {
LOG(ERROR)<<"plugin cycle_estimate: could not find an entry for "<<core_name<<" in JSON file"<<std::endl;
LOG(ERR)<<"plugin cycle_estimate: could not find an entry for "<<core_name<<" in JSON file"<<std::endl;
}
return true;
@@ -87,6 +87,8 @@ void iss::plugin::cycle_estimate::callback(instr_info_t instr_info, exec_info co
assert(arch_instr && "No instrumentation interface available but callback executed");
auto entry = delays[instr_info.instr_id];
bool taken = (arch_instr->get_next_pc()-arch_instr->get_pc()) != (entry.size/8);
uint32_t delay = taken ? entry.taken : entry.not_taken;
if(delay>1) arch_instr->set_curr_instr_cycles(delay);
if (taken && entry.taken > 1)
arch_instr->set_curr_instr_cycles(entry.taken);
else if (entry.not_taken > 1)
arch_instr->set_curr_instr_cycles(entry.not_taken);
}

6
src/plugin/instruction_count.cpp
View File

@@ -46,10 +46,10 @@ iss::plugin::instruction_count::instruction_count(std::string config_file_name)
try {
is >> root;
} catch (Json::RuntimeError &e) {
LOG(ERROR) << "Could not parse input file " << config_file_name << ", reason: " << e.what();
LOG(ERR) << "Could not parse input file " << config_file_name << ", reason: " << e.what();
}
} else {
LOG(ERROR) << "Could not open input file " << config_file_name;
LOG(ERR) << "Could not open input file " << config_file_name;
}
}
}
@@ -85,7 +85,7 @@ bool iss::plugin::instruction_count::registration(const char* const version, vm_
}
rep_counts.resize(delays.size());
} else {
LOG(ERROR)<<"plugin instruction_count: could not find an entry for "<<core_name<<" in JSON file"<<std::endl;
LOG(ERR)<<"plugin instruction_count: could not find an entry for "<<core_name<<" in JSON file"<<std::endl;
}
return true;
}

358
src/sysc/core_complex.cpp
View File

@@ -30,26 +30,58 @@
*
*******************************************************************************/
// clang-format off
#include "iss/debugger/gdb_session.h"
#include "iss/debugger/encoderdecoder.h"
#include "iss/debugger/server.h"
#include "iss/debugger/target_adapter_if.h"
#include "iss/iss.h"
#include "iss/vm_types.h"
#include "sysc/core_complex.h"
#ifdef CORE_TGC_B
#include "iss/arch/riscv_hart_m_p.h"
#include "iss/arch/tgf_c.h"
#include "iss/debugger/encoderdecoder.h"
#include "iss/debugger/gdb_session.h"
#include "iss/debugger/server.h"
#include "iss/debugger/target_adapter_if.h"
#include "iss/iss.h"
#include "iss/vm_types.h"
#include "iss/arch/tgc_b.h"
using tgc_b_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_b>;
#endif
#include "iss/arch/riscv_hart_m_p.h"
#include "iss/arch/tgc_c.h"
using tgc_c_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_c>;
#ifdef CORE_TGC_D
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d.h"
using tgc_d_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d, iss::arch::FEAT_PMP>;
#endif
#include "scc/report.h"
#include <iostream>
#include <sstream>
#include <array>
// clang-format on
#define STR(X) #X
#define CREATE_CORE(CN) \
if (type == STR(CN)) { std::tie(cpu, vm) = create_core<CN ## _plat_type>(backend, gdb_port, hart_id); } else
#ifdef WITH_SCV
#include <array>
#include <scv.h>
#else
#include <scv-tr.h>
using namespace scv_tr;
#endif
#ifndef CWR_SYSTEMC
#define GET_PROP_VALUE(P) P.get_value()
#else
#define GET_PROP_VALUE(P) P.getValue()
#endif
#ifdef _MSC_VER
// not #if defined(_WIN32) || defined(_WIN64) because we have strncasecmp in mingw
#define strncasecmp _strnicmp
#define strcasecmp _stricmp
#endif
namespace sysc {
namespace SiFive {
namespace tgfs {
using namespace std;
using namespace iss;
using namespace logging;
@@ -57,43 +89,17 @@ using namespace sc_core;
namespace {
iss::debugger::encoder_decoder encdec;
}
using core_type = iss::arch::tgf_c;
namespace {
std::array<const char, 4> lvl = {{'U', 'S', 'H', 'M'}};
std::array<const char*, 16> trap_str = { {
"Instruction address misaligned",
"Instruction access fault",
"Illegal instruction",
"Breakpoint",
"Load address misaligned",
"Load access fault",
"Store/AMO address misaligned",
"Store/AMO access fault",
"Environment call from U-mode",
"Environment call from S-mode",
"Reserved",
"Environment call from M-mode",
"Instruction page fault",
"Load page fault",
"Reserved",
"Store/AMO page fault"
} };
std::array<const char*, 12> irq_str = { {
"User software interrupt", "Supervisor software interrupt", "Reserved", "Machine software interrupt",
"User timer interrupt", "Supervisor timer interrupt", "Reserved", "Machine timer interrupt",
"User external interrupt", "Supervisor external interrupt", "Reserved", "Machine external interrupt" } };
}
class core_wrapper : public iss::arch::riscv_hart_m_p<core_type> {
template<typename PLAT>
class core_wrapper_t : public PLAT {
public:
using base_type = arch::riscv_hart_m_p<core_type>;
using phys_addr_t = typename arch::traits<core_type>::phys_addr_t;
core_wrapper(core_complex *owner)
using reg_t = typename arch::traits<typename PLAT::core>::reg_t;
using phys_addr_t = typename arch::traits<typename PLAT::core>::phys_addr_t;
using heart_state_t = typename PLAT::hart_state_type;
core_wrapper_t(core_complex *owner)
: owner(owner) { }
uint32_t get_mode() { return this->reg.PRIV; }
@@ -102,24 +108,23 @@ public:
inline bool get_interrupt_execution() { return this->interrupt_sim; }
base_type::hart_state<base_type::reg_t> &get_state() { return this->state; }
heart_state_t &get_state() { return this->state; }
void notify_phase(exec_phase p) override {
if (p == ISTART) owner->sync(this->reg.icount + cycle_offset);
void notify_phase(iss::arch_if::exec_phase p) override {
if (p == iss::arch_if::ISTART) owner->sync(this->reg.icount);
}
sync_type needed_sync() const override { return PRE_SYNC; }
void disass_output(uint64_t pc, const std::string instr) override {
if (INFO <= Log<Output2FILE<disass>>::reporting_level() && Output2FILE<disass>::stream()) {
if (!owner->disass_output(pc, instr)) {
std::stringstream s;
s << "[p:" << lvl[this->reg.PRIV] << ";s:0x" << std::hex << std::setfill('0')
<< std::setw(sizeof(reg_t) * 2) << (reg_t)state.mstatus << std::dec << ";c:" << this->reg.icount << "]";
Log<Output2FILE<disass>>().get(INFO, "disass")
<< std::setw(sizeof(reg_t) * 2) << (reg_t)this->state.mstatus << std::dec << ";c:" << this->reg.icount << "]";
SCCDEBUG(owner->name())<<"disass: "
<< "0x" << std::setw(16) << std::right << std::setfill('0') << std::hex << pc << "\t\t" << std::setw(40)
<< std::setfill(' ') << std::left << instr << s.str();
}
owner->disass_output(pc, instr);
};
status read_mem(phys_addr_t addr, unsigned length, uint8_t *const data) override {
@@ -146,6 +151,7 @@ public:
}
status read_csr(unsigned addr, reg_t &val) override {
#ifndef CWR_SYSTEMC
if((addr==arch::time || addr==arch::timeh) && owner->mtime_o.get_interface(0)){
uint64_t time_val;
bool ret = owner->mtime_o->nb_peek(time_val);
@@ -156,21 +162,32 @@ public:
val = static_cast<reg_t>(time_val >> 32);
}
return ret?Ok:Err;
#else
if((addr==arch::time || addr==arch::timeh)){
uint64_t time_val = owner->mtime_i.read();
if (addr == iss::arch::time) {
val = static_cast<reg_t>(time_val);
} else if (addr == iss::arch::timeh) {
if (sizeof(reg_t) != 4) return iss::Err;
val = static_cast<reg_t>(time_val >> 32);
}
return Ok;
#endif
} else {
return base_type::read_csr(addr, val);
return PLAT::read_csr(addr, val);
}
}
void wait_until(uint64_t flags) override {
SCCDEBUG(owner->name()) << "Sleeping until interrupt";
do {
wait(wfi_evt);
sc_core::wait(wfi_evt);
} while (this->reg.pending_trap == 0);
base_type::wait_until(flags);
PLAT::wait_until(flags);
}
void local_irq(short id, bool value) {
base_type::reg_t mask = 0;
reg_t mask = 0;
switch (id) {
case 16: // SW
mask = 1 << 3;
@@ -191,6 +208,8 @@ public:
} else
this->csr[arch::mip] &= ~mask;
this->check_interrupt();
if(value)
SCCTRACE(owner->name()) << "Triggering interrupt " << id << " Pending trap: " << this->reg.pending_trap;
}
private:
@@ -228,19 +247,95 @@ int cmd_sysc(int argc, char *argv[], debugger::out_func of, debugger::data_func
return Err;
}
core_complex::core_complex(sc_module_name name)
using cpu_ptr = std::unique_ptr<iss::arch_if>;
using vm_ptr= std::unique_ptr<iss::vm_if>;
class core_wrapper {
public:
core_wrapper(core_complex *owner) : owner(owner) { }
void reset(uint64_t addr){vm->reset(addr);}
inline void start(){vm->start();}
inline std::pair<uint64_t, bool> load_file(std::string const& name){ return cpu->load_file(name);};
std::function<unsigned(void)> get_mode;
std::function<uint64_t(void)> get_state;
std::function<bool(void)> get_interrupt_execution;
std::function<void(bool)> set_interrupt_execution;
std::function<void(short, bool)> local_irq;
template<typename PLAT>
std::tuple<cpu_ptr, vm_ptr> create_core(std::string const& backend, unsigned gdb_port, uint32_t hart_id){
auto* lcpu = new core_wrapper_t<PLAT>(owner);
lcpu->set_mhartid(hart_id);
get_mode = [lcpu]() { return lcpu->get_mode(); };
get_state = [lcpu]() { return lcpu->get_state().mstatus.backing.val; };
get_interrupt_execution = [lcpu]() { return lcpu->get_interrupt_execution(); };
set_interrupt_execution = [lcpu](bool b) { return lcpu->set_interrupt_execution(b); };
local_irq = [lcpu](short s, bool b) { return lcpu->local_irq(s, b); };
if(backend == "interp")
return {cpu_ptr{lcpu}, vm_ptr{iss::interp::create(static_cast<typename PLAT::core*>(lcpu), gdb_port)}};
#ifdef WITH_LLVM
if(backend == "llvm")
return {cpu_ptr{lcpu}, vm_ptr{iss::llvm::create(lcpu, gdb_port)}};
#endif
#ifdef WITH_TCC
if(backend == "tcc")
s return {cpu_ptr{lcpu}, vm_ptr{iss::tcc::create(lcpu, gdb_port)}};
#endif
return {nullptr, nullptr};
}
void create_cpu(std::string const& type, std::string const& backend, unsigned gdb_port, uint32_t hart_id){
CREATE_CORE(tgc_c)
#ifdef CORE_TGC_B
CREATE_CORE(tgc_b)
#endif
#ifdef CORE_TGC_D
CREATE_CORE(tgc_d)
#endif
{
LOG(ERR) << "Illegal argument value for core type: " << type << std::endl;
}
auto *srv = debugger::server<debugger::gdb_session>::get();
if (srv) tgt_adapter = srv->get_target();
if (tgt_adapter)
tgt_adapter->add_custom_command(
{"sysc", [this](int argc, char *argv[], debugger::out_func of,
debugger::data_func df) -> int { return cmd_sysc(argc, argv, of, df, tgt_adapter); },
"SystemC sub-commands: break <time>, print_time"});
}
core_complex * const owner;
vm_ptr vm{nullptr};
cpu_ptr cpu{nullptr};
iss::debugger::target_adapter_if *tgt_adapter{nullptr};
};
struct core_trace {
//! transaction recording database
scv_tr_db *m_db{nullptr};
//! blocking transaction recording stream handle
scv_tr_stream *stream_handle{nullptr};
//! transaction generator handle for blocking transactions
scv_tr_generator<_scv_tr_generator_default_data, _scv_tr_generator_default_data> *instr_tr_handle{nullptr};
scv_tr_handle tr_handle;
};
SC_HAS_PROCESS(core_complex);// NOLINT
#ifndef CWR_SYSTEMC
core_complex::core_complex(sc_module_name const& name)
: sc_module(name)
, read_lut(tlm_dmi_ext())
, write_lut(tlm_dmi_ext())
, tgt_adapter(nullptr)
#ifdef WITH_SCV
, m_db(scv_tr_db::get_default_db())
, stream_handle(nullptr)
, instr_tr_handle(nullptr)
, fetch_tr_handle(nullptr)
#endif
{
SC_HAS_PROCESS(core_complex);// NOLINT
init();
}
#endif
void core_complex::init(){
trc=new core_trace();
initiator.register_invalidate_direct_mem_ptr([=](uint64_t start, uint64_t end) -> void {
auto lut_entry = read_lut.getEntry(start);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE && end <= lut_entry.get_end_address() + 1) {
@@ -253,8 +348,6 @@ core_complex::core_complex(sc_module_name name)
});
SC_THREAD(run);
SC_METHOD(clk_cb);
sensitive << clk_i;
SC_METHOD(rst_cb);
sensitive << rst_i;
SC_METHOD(sw_irq_cb);
@@ -263,84 +356,82 @@ core_complex::core_complex(sc_module_name name)
sensitive << timer_irq_i;
SC_METHOD(global_irq_cb);
sensitive << global_irq_i;
trc->m_db=scv_tr_db::get_default_db();
SC_METHOD(forward);
#ifndef CWR_SYSTEMC
sensitive<<clk_i;
#else
sensitive<<curr_clk;
t2t.reset(new scc::tick2time{"t2t"});
t2t->clk_i(clk_i);
t2t->clk_o(curr_clk);
#endif
}
core_complex::~core_complex() = default;
core_complex::~core_complex(){
delete cpu;
delete trc;
}
void core_complex::trace(sc_trace_file *trf) const {}
using vm_ptr= std::unique_ptr<iss::vm_if>;
vm_ptr create_cpu(core_wrapper* cpu, std::string const& backend, unsigned gdb_port){
if(backend == "interp")
return vm_ptr{iss::interp::create<core_type>(cpu, gdb_port)};
#ifdef WITH_LLVM
if(backend == "llvm")
return vm_ptr{iss::llvm::create(lcpu, gdb_port)};
#endif
#ifdef WITH_TCC
if(backend == "tcc")
return vm_ptr{iss::tcc::create<core_type>(cpu, gdb_port)};
#endif
return {nullptr};
}
void core_complex::before_end_of_elaboration() {
SCCDEBUG(SCMOD)<<"instantiating iss::arch::tgf with "<<backend.get_value()<<" backend";
cpu = scc::make_unique<core_wrapper>(this);
cpu->set_mhartid(mhartid.get_value());
vm = create_cpu(cpu.get(), backend.get_value(), gdb_server_port.get_value());
#ifdef WITH_SCV
vm->setDisassEnabled(enable_disass.get_value() || m_db != nullptr);
#else
vm->setDisassEnabled(enable_disass.get_value());
#endif
auto *srv = debugger::server<debugger::gdb_session>::get();
if (srv) tgt_adapter = srv->get_target();
if (tgt_adapter)
tgt_adapter->add_custom_command(
{"sysc", [this](int argc, char *argv[], debugger::out_func of,
debugger::data_func df) -> int { return cmd_sysc(argc, argv, of, df, tgt_adapter); },
"SystemC sub-commands: break <time>, print_time"});
SCCDEBUG(SCMOD)<<"instantiating iss::arch::tgf with "<<GET_PROP_VALUE(backend)<<" backend";
// cpu = scc::make_unique<core_wrapper>(this);
cpu = new core_wrapper(this);
cpu->create_cpu(GET_PROP_VALUE(core_type), GET_PROP_VALUE(backend), GET_PROP_VALUE(gdb_server_port), GET_PROP_VALUE(mhartid));
sc_assert(cpu->vm!=nullptr);
cpu->vm->setDisassEnabled(GET_PROP_VALUE(enable_disass) || trc->m_db != nullptr);
}
void core_complex::start_of_simulation() {
quantum_keeper.reset();
if (elf_file.get_value().size() > 0) {
istringstream is(elf_file.get_value());
if (GET_PROP_VALUE(elf_file).size() > 0) {
istringstream is(GET_PROP_VALUE(elf_file));
string s;
while (getline(is, s, ',')) {
std::pair<uint64_t, bool> start_addr = cpu->load_file(s);
#ifndef CWR_SYSTEMC
if (reset_address.is_default_value() && start_addr.second == true)
reset_address.set_value(start_addr.first);
#else
if (start_addr.second == true)
reset_address=start_addr.first;
#endif
}
}
#ifdef WITH_SCV
if (m_db != nullptr && stream_handle == nullptr) {
if (trc->m_db != nullptr && trc->stream_handle == nullptr) {
string basename(this->name());
stream_handle = new scv_tr_stream((basename + ".instr").c_str(), "TRANSACTOR", m_db);
instr_tr_handle = new scv_tr_generator<>("execute", *stream_handle);
fetch_tr_handle = new scv_tr_generator<uint64_t>("fetch", *stream_handle);
trc->stream_handle = new scv_tr_stream((basename + ".instr").c_str(), "TRANSACTOR", trc->m_db);
trc->instr_tr_handle = new scv_tr_generator<>("execute", *trc->stream_handle);
}
}
bool core_complex::disass_output(uint64_t pc, const std::string instr_str) {
if (trc->m_db == nullptr) return false;
if (trc->tr_handle.is_active()) trc->tr_handle.end_transaction();
trc->tr_handle = trc->instr_tr_handle->begin_transaction();
trc->tr_handle.record_attribute("PC", pc);
trc->tr_handle.record_attribute("INSTR", instr_str);
trc->tr_handle.record_attribute("MODE", lvl[cpu->get_mode()]);
trc->tr_handle.record_attribute("MSTATUS", cpu->get_state());
trc->tr_handle.record_attribute("LTIME_START", quantum_keeper.get_current_time().value() / 1000);
return true;
}
void core_complex::forward() {
#ifndef CWR_SYSTEMC
set_clock_period(clk_i.read());
#else
set_clock_period(curr_clk.read());
#endif
}
void core_complex::disass_output(uint64_t pc, const std::string instr_str) {
#ifdef WITH_SCV
if (m_db == nullptr) return;
if (tr_handle.is_active()) tr_handle.end_transaction();
tr_handle = instr_tr_handle->begin_transaction();
tr_handle.record_attribute("PC", pc);
tr_handle.record_attribute("INSTR", instr_str);
tr_handle.record_attribute("MODE", lvl[cpu->get_mode()]);
tr_handle.record_attribute("MSTATUS", cpu->get_state().mstatus.backing.val);
tr_handle.record_attribute("LTIME_START", quantum_keeper.get_current_time().value() / 1000);
#endif
}
void core_complex::clk_cb() {
curr_clk = clk_i.read();
if (curr_clk == SC_ZERO_TIME) cpu->set_interrupt_execution(true);
void core_complex::set_clock_period(sc_core::sc_time period) {
curr_clk = period;
if (period == SC_ZERO_TIME) cpu->set_interrupt_execution(true);
}
void core_complex::rst_cb() {
@@ -357,14 +448,14 @@ void core_complex::run() {
wait(SC_ZERO_TIME); // separate from elaboration phase
do {
if (rst_i.read()) {
cpu->reset(reset_address.get_value());
cpu->reset(GET_PROP_VALUE(reset_address));
wait(rst_i.negedge_event());
}
while (clk_i.read() == SC_ZERO_TIME) {
wait(clk_i.value_changed_event());
while (curr_clk.read() == SC_ZERO_TIME) {
wait(curr_clk.value_changed_event());
}
cpu->set_interrupt_execution(false);
vm->start();
cpu->start();
} while (cpu->get_interrupt_execution());
sc_stop();
}
@@ -384,16 +475,14 @@ bool core_complex::read_mem(uint64_t addr, unsigned length, uint8_t *const data,
gp.set_data_ptr(data);
gp.set_data_length(length);
gp.set_streaming_width(length);
sc_time delay{quantum_keeper.get_local_time()};
#ifdef WITH_SCV
if (m_db != nullptr && tr_handle.is_valid()) {
if (is_fetch && tr_handle.is_active()) {
tr_handle.end_transaction();
sc_time delay=quantum_keeper.get_local_time();
if (trc->m_db != nullptr && trc->tr_handle.is_valid()) {
if (is_fetch && trc->tr_handle.is_active()) {
trc->tr_handle.end_transaction();
}
auto preExt = new scv4tlm::tlm_recording_extension(tr_handle, this);
auto preExt = new tlm::scc::scv::tlm_recording_extension(trc->tr_handle, this);
gp.set_extension(preExt);
}
#endif
initiator->b_transport(gp, delay);
SCCTRACE(this->name()) << "read_mem(0x" << std::hex << addr << ") : " << data;
if (gp.get_response_status() != tlm::TLM_OK_RESPONSE) {
@@ -433,13 +522,11 @@ bool core_complex::write_mem(uint64_t addr, unsigned length, const uint8_t *cons
gp.set_data_ptr(write_buf.data());
gp.set_data_length(length);
gp.set_streaming_width(length);
sc_time delay{quantum_keeper.get_local_time()};
#ifdef WITH_SCV
if (m_db != nullptr && tr_handle.is_valid()) {
auto preExt = new scv4tlm::tlm_recording_extension(tr_handle, this);
sc_time delay=quantum_keeper.get_local_time();
if (trc->m_db != nullptr && trc->tr_handle.is_valid()) {
auto preExt = new tlm::scc::scv::tlm_recording_extension(trc->tr_handle, this);
gp.set_extension(preExt);
}
#endif
initiator->b_transport(gp, delay);
quantum_keeper.set(delay);
SCCTRACE() << "write_mem(0x" << std::hex << addr << ") : " << data;
@@ -502,6 +589,5 @@ bool core_complex::write_mem_dbg(uint64_t addr, unsigned length, const uint8_t *
return initiator->transport_dbg(gp) == length;
}
}
} /* namespace SiFive */
} /* namespace sysc */

2
src/vm/interp/.gitignore vendored
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@@ -1 +1 @@
/vm_tgf_b.cpp
/vm_tgc_*.cpp

2465
src/vm/interp/vm_tgf_c.cpp → src/vm/interp/vm_tgc_c.cpp
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