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base: DBT-RISE:feature/reduced_output
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:8a5fe58d51b6c5d7fae5953c8cf8b26bec840537
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

115 Commits
feature/re ... 8a5fe58d51

Author SHA1 Message Date
Eyck Jentzsch
8a5fe58d51 adds needed arch state members for TCC to tgc_c 2023-05-16 08:56:18 +02:00
Eyck Jentzsch
16cd6d5ff5 fixes core name deduction in cmake build script 2023-05-16 08:54:08 +02:00
Eyck-Alexander Jentzsch
ee2ded931d adds remaining register offsets 2023-05-14 17:16:42 +02:00
Eyck Jentzsch
95ba5c901a re-introduces last_branch register 2023-05-14 17:00:37 +02:00
Eyck Jentzsch
32848ec396 fixes build system and typo in wt_cache 2023-05-13 16:57:01 +02:00
Eyck Jentzsch
6789cf4c32 fixes case of unavailable backend 2023-05-12 15:45:53 +02:00
Eyck Jentzsch
3bc4884a9d remove unneeded cmake include 2023-05-12 09:28:43 +02:00
Eyck Jentzsch
fd6b738168 changes compile dependencies 2023-05-11 23:43:12 +02:00
Eyck Jentzsch
afdf8fb97f adds missing namespaces 2023-05-11 23:11:04 +02:00
Eyck Jentzsch
cfa7b72363 changes time handling at sockets 2023-05-06 19:57:29 +02:00
Eyck Jentzsch
d330307ed5 splits bus into 2 sockets for i/dbus 2023-05-04 21:59:31 +02:00
Eyck Jentzsch
916de2a26d changes build setup to compile specific files if a core is specified 2023-05-04 16:08:33 +02:00
Eyck Jentzsch
aa70d8a54a fixes CLIC to match clicinfo description in CLIC spec 11.04.2023 2023-05-02 17:22:13 +02:00
Eyck Jentzsch
b493745cd7 sets reset start time to 0 2023-05-02 11:21:42 +02:00
Eyck Jentzsch
f9e8e1d857 fixes core_complex wrt. tlm quantum and DMI 2023-05-02 11:13:25 +02:00
Eyck Jentzsch
974d64a627 adds logo to imported instance 2023-05-02 08:17:17 +02:00
Eyck Jentzsch
d70489cbb8 update import script to initialize broker 2023-05-02 07:58:48 +02:00
Eyck Jentzsch
d990f1cf5d fixes reading of 64bit CSR register 2023-05-01 22:23:35 +02:00
Eyck Jentzsch
1672b01e62 adds WT cache functionality as mixin 2023-04-28 20:38:07 +02:00
Eyck Jentzsch
00b0f101ac adapts to changes of instrumentation interface in dbt-rise-core 2023-04-28 20:38:07 +02:00
Rocco Jonack
54f75f92ea improved testbench import; added prebuild FW for testing 2023-04-24 08:44:12 -07:00
Rocco Jonack
0304aac9e5 fixed some issues in import script; added README for reference; added initial testbench script(to be improved) 2023-04-19 05:20:58 -07:00
Eyck Jentzsch
8ff55d7b92 updates CWR dependent core_complex definition 2023-04-14 19:34:41 +02:00
Eyck Jentzsch
f626ee2684 fixes privilege wrapper for M/U to cope with 64bit 2023-04-05 15:38:25 +02:00
Eyck Jentzsch
a8a2782329 adds changes from latest CoreDSL description 2023-04-04 16:10:12 +02:00
Eyck Jentzsch
98dd329833 fixes CSR access rights 2023-04-04 09:23:08 +02:00
Eyck Jentzsch
6213445bc4 fixes 64bit behavior of CSR regs 2023-03-27 12:04:43 +02:00
Eyck Jentzsch
c5465bf9e2 fixes according to fixed generator 2023-03-26 14:44:15 +02:00
Eyck Jentzsch
d881cb6e63 fix data width of generated code 2023-03-26 12:12:34 +02:00
Eyck Jentzsch
2e4faa4d50 fixes mstatus mask 2023-03-25 09:14:56 +01:00
Eyck Jentzsch
8e1951f298 adds 64bit mstatus 2023-03-23 07:47:21 +01:00
Eyck Jentzsch
7efa924510 fixes m/uintstatus read 2023-03-17 10:51:39 +01:00
Eyck Jentzsch
febbc4fff0 fixes m/uintstatus read 2023-03-17 10:23:05 +01:00
Eyck Jentzsch
39b2788b7e implements and fixes CLIC CSR behavior 2023-03-17 09:09:09 +01:00
Eyck Jentzsch
a943dd3bdf fixes wrong array size which led to unintended CSR definitions 2023-03-15 14:16:08 +01:00
Eyck Jentzsch
fedbff5971 fixes xcause and u-mode clic CSRs 2023-03-15 12:27:39 +01:00
Eyck Jentzsch
c2758e8321 removes mscratchcsw from CLIC feature 2023-03-15 09:07:00 +01:00
Eyck Jentzsch
8be5fe71df fixes template name typo 2023-03-12 07:42:09 +01:00
Eyck Jentzsch
3f7ce41b9d fixes CLIC mtvt register behavior 2023-03-11 14:03:03 +01:00
Eyck Jentzsch
ad1cbedf00 adds back missing max irq functions 2023-03-11 12:47:10 +01:00
Eyck Jentzsch
83f54b5074 fixes CLICCFG settings 2023-03-11 08:48:03 +01:00
Eyck Jentzsch
a83928fd8c fixes CSR/CLIC implementation 2023-03-10 20:40:21 +01:00
Eyck Jentzsch
ec55efd322 adds generator changed files 2023-02-17 06:36:34 +01:00
Eyck Jentzsch
8c3709f92a adds generator changed files 2023-02-17 06:29:27 +01:00
Eyck Jentzsch
207dbf1071 fixes out of range access for register alias names 2023-02-17 06:28:30 +01:00
Eyck Jentzsch
62c118e501 fixes CSR to match latest fast interrupts spec 2023-01-20 16:21:04 +01:00
Eyck Jentzsch
65dca13b42 fixes WFI miss of interrupt 2023-01-14 17:40:21 +01:00
Eyck Jentzsch
3187cbdfe2 removes CONAN_PKG from build system 2022-12-12 02:55:44 +01:00
Eyck Jentzsch
8c701d55c1 adapt to latest changes in SCC 2022-12-05 09:15:48 +01:00
Eyck Jentzsch
f585489ff5 fixes pin naming 2022-10-26 17:21:44 +02:00
Eyck Jentzsch
7113683ee0 moves pending interrupt check before handling trap thus saving 1 cycle 2022-10-15 10:47:35 +02:00
Eyck Jentzsch
1a0fc4bd5d fixes wrong mcounteren in M-mode only priv wrapper 2022-10-10 08:59:27 +02:00
Eyck Jentzsch
40d1966e9a fixes pending irq within irq hander behavior 2022-10-08 11:20:52 +02:00
Eyck Jentzsch
a977200284 cleans up priv wrappers 2022-10-05 08:58:57 +02:00
Eyck Jentzsch
b20fd3eba5 fix static build 2022-09-28 19:37:47 +02:00
Eyck Jentzsch
b20daa1ac2 fixes wrong path in install 2022-09-27 09:11:41 +02:00
Eyck Jentzsch
b1a18459e7 adds more flexible use of availabel targets 2022-09-26 13:57:24 +02:00
Eyck Jentzsch
6ba7c82f80 fixes wrapper definitions for hwl cores 2022-09-26 13:31:46 +02:00
Eyck Jentzsch
ad7bb28b4c fixes write mask of clic memory mapped registers 2022-09-17 12:15:19 +02:00
Eyck Jentzsch
fa7eda0889 fixes wrong check for exception 2022-08-31 11:45:53 +02:00
Eyck Jentzsch
00e02bf565 adds support for different branch types in tracing 2022-08-08 06:30:37 +02:00
Eyck Jentzsch
1ad66a71d8 extends supported break point types 2022-08-06 09:53:24 +02:00
Eyck Jentzsch
e60fa3d5e6 adaptes to changes in dbt-rise-core 2022-08-06 09:49:32 +02:00
Eyck Jentzsch
8407f6287f replaces core_complex socket 2022-07-24 20:52:28 +02:00
Eyck Jentzsch
0833198d34 aads missing windows compat firx to template 2022-07-23 14:36:23 +02:00
Eyck Jentzsch
57347ae4d9 fixes cppcheck flagged issues 2022-07-23 13:49:10 +02:00
Eyck Jentzsch
4876f18ba9 adds windows compatibility fixes 2022-07-18 11:43:42 +02:00
Eyck Jentzsch
a53ee42e13 updates TGC_C according to CoreDSL description update 2022-07-12 22:34:22 +02:00
Eyck Jentzsch
12ccfc055a updates generate tgc_c definition 2022-07-11 22:58:10 +02:00
Eyck Jentzsch
feaa49d367 removes decoder again as there is some issue 2022-06-20 00:39:11 +02:00
Eyck Jentzsch
18f33b4a68 fixes ordering of instructions for decoding 2022-06-19 16:52:29 +02:00
Eyck Jentzsch
f096b15dbd factors decoder into separate component 2022-06-19 13:17:31 +02:00
Eyck Jentzsch
cb5375258a removes compilatioon of unneeded files 2022-06-10 07:19:46 +02:00
Eyck Jentzsch
076b5a39ad fix class naming 2022-06-02 08:30:49 +02:00
Eyck Jentzsch
f40ab41899 fix left-over from layout refactoring 2022-06-02 08:30:02 +02:00
Eyck Jentzsch
e8fd5143bc fix build options for standalone ISS 2022-05-31 11:05:26 +02:00
Eyck Jentzsch
31fb51de95 update tgc_c generated code 2022-05-30 22:15:44 +02:00
Eyck Jentzsch
5d481eb79d fix generation of non-exception code 2022-05-30 22:04:16 +02:00
Eyck Jentzsch
1c90fe765d Merge remote-tracking branch 'origin/Trace_enhancement' into develop 2022-05-30 14:18:09 +02:00
Eyck Jentzsch
52ed8b81a6 fixed template to work with previous code generator 2022-05-30 14:08:02 +02:00
Eyck Jentzsch
0703a0a845 update tgc-mapper 2022-05-30 07:45:32 +02:00
Eyck Jentzsch
0c542d42aa separate generated sources 2022-05-21 12:48:28 +02:00
Eyck Jentzsch
966d1616c5 change source code to unified layout 2022-05-21 11:55:24 +02:00
Eyck-Alexander Jentzsch
1720bd4aaa adds support for compressed instructions 2022-05-20 15:17:58 +02:00
Eyck Jentzsch
df16378605 update template for changed code generator 2022-05-18 19:10:34 +02:00
Eyck Jentzsch
1438f0f373 add backannotation to pc trace plugin 2022-05-17 15:29:04 +02:00
Eyck Jentzsch
766f3ba9ee fix assertion in compressed pctrace writer 2022-05-13 12:38:12 +02:00
Eyck Jentzsch
5da4e6b424 fix alignment check for unaligned debugger accesses 2022-05-13 12:37:47 +02:00
Eyck Jentzsch
e382217e04 update vm_tgc_c due reworked CoreDSL generator 2022-05-11 18:52:15 +02:00
Eyck Jentzsch
9db4e3fd87 fix assertion 2022-05-10 16:13:21 +02:00
Eyck-Alexander Jentzsch
bb658be3b4 Merge branch 'develop' of https://git.minres.com/DBT-RISE/DBT-RISE-TGC into develop 2022-05-08 15:25:56 +02:00
Eyck-Alexander Jentzsch
6579780dc9 add call column in output 2022-05-08 15:24:26 +02:00
Eyck Jentzsch
e56bc12788 fix non-lz4 build of plugin 2022-05-07 17:27:11 +02:00
Eyck Jentzsch
e88f309ea2 add lz4 compression to pctrace 2022-05-07 17:22:06 +02:00
Eyck Jentzsch
03bec27376 implement extended instrumentation interface 2022-04-26 17:14:33 +02:00
Eyck Jentzsch
9d9008a3a2 fix pointer mess 2022-04-26 15:35:17 +02:00
Stanislaw Kaushanski
5f6d462973 check that no interrupts are pending before entering the wfi wait 2022-04-26 13:58:20 +02:00
Eyck Jentzsch
a92b84bef4 add code word access for ISS plugins 2022-04-25 14:18:19 +02:00
Eyck Jentzsch
477c530847 extend debug mode handling 2022-04-13 11:41:01 +02:00
Eyck Jentzsch
c054d75717 update to latest coredsl description 2022-04-10 18:55:44 +02:00
Eyck Jentzsch
15cd26f800 remove CoreDSL ISA repo 2022-04-10 12:15:40 +02:00
Eyck Jentzsch
9465cffe79 adapt to change in dbt-rise-core 2022-04-09 14:55:36 +02:00
Eyck Jentzsch
00d2d06cbd adapt to privileged spec 2022-03-31 20:33:12 +02:00
Eyck Jentzsch
8e4e702cb9 Merge remote-tracking branch 'origin/feature/reduced_output' into develop 2022-03-28 14:09:06 +02:00
Eyck Jentzsch
49be143588 make features configurable 2022-03-27 17:54:08 +02:00
Eyck Jentzsch
0aea1d0177 remove mcounteren in M-mode only wrapper 2022-03-27 17:21:46 +02:00
Eyck Jentzsch
6ea7721961 add TCM 2022-03-27 15:38:18 +02:00
Eyck Jentzsch
b0cb997009 add TGC_X with DMR 2022-03-26 10:48:21 +01:00
Eyck Jentzsch
9dfca612b7 add hardware loop CSR access 2022-03-25 11:33:44 +01:00
Eyck Jentzsch
30ae743361 add pctrace plugin to iss 2022-03-20 17:41:54 +01:00
Eyck Jentzsch
d91f5f9df4 fix compiler warning for reduced number of registers 2022-03-14 15:38:05 +01:00
Stanislaw Kaushanski
5ec457c76b build pctrace plugin only if RapidJSON target is availble 2022-03-08 11:23:07 +01:00
Eyck Jentzsch
2e670c4d03 change interpreter structure 2022-03-06 15:11:38 +01:00
Eyck Jentzsch
3d32c33333 update gitignore 2022-03-05 20:59:45 +01:00
Eyck Jentzsch
521f40a3d6 refactored interpreter backend structure 2022-03-05 20:59:17 +01:00
50 changed files with 7051 additions and 9944 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@ -30,6 +30,5 @@ language.settings.xml
/.gdbinit
/*.out
/dump.json
/src-gen/
/*.yaml
/*.json

3
.gitmodules vendored
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@ -1,3 +0,0 @@
[submodule "gen_input/CoreDSL-Instruction-Set-Description"]
path = gen_input/CoreDSL-Instruction-Set-Description
url = ../CoreDSL-Instruction-Set-Description.git

107
CMakeLists.txt
View File

@ -6,8 +6,9 @@ project(dbt-rise-tgc VERSION 1.0.0)
include(GNUInstallDirs)
find_package(elfio)
find_package(elfio QUIET)
find_package(Boost COMPONENTS coroutine)
find_package(jsoncpp)
if(WITH_LLVM)
if(DEFINED ENV{LLVM_HOME})
@ -28,34 +29,40 @@ endif()
add_subdirectory(softfloat)
# library files
FILE(GLOB TGC_SOURCES ${CMAKE_CURRENT_SOURCE_DIR}/src/iss/*.cpp)
FILE(GLOB TGC_VM_SOURCES ${CMAKE_CURRENT_SOURCE_DIR}/src/vm/interp/vm_*.cpp)
set(LIB_SOURCES
src/vm/fp_functions.cpp
src/plugin/instruction_count.cpp
src/plugin/pctrace.cpp
${TGC_SOURCES}
${TGC_VM_SOURCES}
src/iss/plugin/instruction_count.cpp
src/iss/arch/tgc_c.cpp
src/vm/interp/vm_tgc_c.cpp
src/vm/fp_functions.cpp
)
if(TARGET RapidJSON)
list(APPEND LIB_SOURCES src/plugin/cycle_estimate.cpp)
# library files
if(TARGET ${CORE_NAME}_cpp)
list(APPEND LIB_SOURCES ${${CORE_NAME}_OUTPUT_FILES})
else()
FILE(GLOB GEN_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src-gen/iss/arch/*.cpp
${CMAKE_CURRENT_SOURCE_DIR}/src-gen/vm/interp/vm_*.cpp
)
list(APPEND LIB_SOURCES ${GEN_SOURCES})
endif()
if(TARGET RapidJSON OR TARGET RapidJSON::RapidJSON)
list(APPEND LIB_SOURCES src/iss/plugin/cycle_estimate.cpp src/iss/plugin/pctrace.cpp)
endif()
if(WITH_LLVM)
FILE(GLOB TGC_LLVM_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src/vm/llvm/vm_*.cpp
FILE(GLOB LLVM_GEN_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src-gen/vm/llvm/vm_*.cpp
)
list(APPEND LIB_SOURCES ${TGC_LLVM_SOURCES})
list(APPEND LIB_SOURCES ${LLVM_GEN_SOURCES})
endif()
if(WITH_TCC)
FILE(GLOB TGC_TCC_SOURCES
FILE(GLOB TCC_GEN_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src/vm/tcc/vm_*.cpp
)
list(APPEND LIB_SOURCES ${TGC_TCC_SOURCES})
list(APPEND LIB_SOURCES ${TCC_GEN_SOURCES})
endif()
# Define the library
@ -70,21 +77,31 @@ if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
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 Boost::coroutine)
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU")
target_link_libraries(${PROJECT_NAME} PUBLIC -Wl,--whole-archive dbt-core -Wl,--no-whole-archive)
target_include_directories(${PROJECT_NAME} PUBLIC src)
target_include_directories(${PROJECT_NAME} PUBLIC src-gen)
target_link_libraries(${PROJECT_NAME} PUBLIC softfloat scc-util Boost::coroutine)
if(TARGET jsoncpp::jsoncpp)
target_link_libraries(${PROJECT_NAME} PUBLIC jsoncpp::jsoncpp)
else()
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-core)
target_link_libraries(${PROJECT_NAME} PUBLIC jsoncpp)
endif()
if(TARGET CONAN_PKG::elfio)
target_link_libraries(${PROJECT_NAME} PUBLIC CONAN_PKG::elfio)
elseif(TARGET elfio::elfio)
if("${CMAKE_CXX_COMPILER_ID}" STREQUAL "GNU" AND BUILD_SHARED_LIBS)
target_link_libraries(${PROJECT_NAME} PUBLIC -Wl,--whole-archive dbt-rise-core -Wl,--no-whole-archive)
else()
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-rise-core)
endif()
if(TARGET elfio::elfio)
target_link_libraries(${PROJECT_NAME} PUBLIC elfio::elfio)
else()
message(FATAL_ERROR "No elfio library found, maybe a find_package() call is missing")
endif()
if(TARGET RapidJSON)
if(TARGET lz4::lz4)
target_compile_definitions(${PROJECT_NAME} PUBLIC WITH_LZ4)
target_link_libraries(${PROJECT_NAME} PUBLIC lz4::lz4)
endif()
if(TARGET RapidJSON::RapidJSON)
target_link_libraries(${PROJECT_NAME} PUBLIC RapidJSON::RapidJSON)
elseif(TARGET RapidJSON)
target_link_libraries(${PROJECT_NAME} PUBLIC RapidJSON)
endif()
@ -114,10 +131,22 @@ project(tgc-sim)
find_package(Boost COMPONENTS program_options thread REQUIRED)
add_executable(${PROJECT_NAME} src/main.cpp)
if(TARGET ${CORE_NAME}_cpp)
list(APPEND TGC_SOURCES ${${CORE_NAME}_OUTPUT_FILES})
else()
FILE(GLOB TGC_SOURCES
${CMAKE_CURRENT_SOURCE_DIR}/src-gen/iss/arch/*.cpp
${CMAKE_CURRENT_SOURCE_DIR}/src-gen/vm/interp/vm_*.cpp
)
list(APPEND TGC_SOURCES ${GEN_SOURCES})
endif()
foreach(F IN LISTS TGC_SOURCES)
string(REGEX REPLACE ".*/([^/]*)\.cpp" "\\1" CORE_NAME_LC ${F})
string(TOUPPER ${CORE_NAME_LC} CORE_NAME)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
if (${F} MATCHES ".*/arch/([^/]*)\.cpp")
string(REGEX REPLACE ".*/([^/]*)\.cpp" "\\1" CORE_NAME_LC ${F})
string(TOUPPER ${CORE_NAME_LC} CORE_NAME)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
endif()
endforeach()
if(WITH_LLVM)
@ -148,24 +177,24 @@ install(TARGETS tgc-sim
###############################################################################
#
###############################################################################
project(dbt-rise-tgc_sc VERSION 1.0.0)
include(SystemCPackage)
if(SystemC_FOUND)
if(TARGET scc-sysc)
project(dbt-rise-tgc_sc VERSION 1.0.0)
add_library(${PROJECT_NAME} src/sysc/core_complex.cpp)
target_compile_definitions(${PROJECT_NAME} PUBLIC WITH_SYSTEMC)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
foreach(F IN LISTS TGC_SOURCES)
string(REGEX REPLACE ".*/([^/]*)\.cpp" "\\1" CORE_NAME_LC ${F})
string(TOUPPER ${CORE_NAME_LC} CORE_NAME)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
if (${F} MATCHES ".*/arch/([^/]*)\.cpp")
string(REGEX REPLACE ".*/([^/]*)\.cpp" "\\1" CORE_NAME_LC ${F})
string(TOUPPER ${CORE_NAME_LC} CORE_NAME)
target_compile_definitions(${PROJECT_NAME} PRIVATE CORE_${CORE_NAME})
endif()
endforeach()
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-rise-tgc scc)
target_link_libraries(${PROJECT_NAME} PUBLIC dbt-rise-tgc scc-sysc)
if(WITH_LLVM)
target_link_libraries(${PROJECT_NAME} PUBLIC ${llvm_libs})
endif()
set(LIB_HEADERS ${CMAKE_CURRENT_SOURCE_DIR}/incl/sysc/core_complex.h)
set(LIB_HEADERS ${CMAKE_CURRENT_SOURCE_DIR}/src/sysc/core_complex.h)
set_target_properties(${PROJECT_NAME} PROPERTIES
VERSION ${PROJECT_VERSION}
FRAMEWORK FALSE

3
contrib/.gitignore vendored Normal file
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@ -0,0 +1,3 @@
/results
/cwr
/*.xml

43
contrib/README.md Normal file
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@ -0,0 +1,43 @@
# Notes
* requires conan version 1.59
* requires decent cmake version 3.23
Setup for tcsh:
```
git clone --recursive -b develop https://git.minres.com/TGFS/TGC-ISS.git
cd TGC-ISS/
setenv TGFS_INSTALL_ROOT `pwd`/install
setenv COWAREHOME <your SNPS PA installation>
setenv SNPSLMD_LICENSE_FILE <your SNPS PA license file>
source $COWAREHOME/SLS/linux/setup.csh pae
setenv SNPS_ENABLE_MEM_ON_DEMAND_IN_GENERIC_MEM 1
setenv PATH $COWAREHOME/common/bin/:${PATH}
setenv CC $COWAREHOME/SLS/linux/common/bin/gcc
setenv CXX $COWAREHOME/SLS/linux/common/bin/g++
cmake -S . -B build/PA -DCMAKE_BUILD_TYPE=Debug -DUSE_CWR_SYSTEMC=ON -DBUILD_SHARED_LIBS=ON \
-DCODEGEN=OFF -DCMAKE_INSTALL_PREFIX=${TGFS_INSTALL_ROOT}
cmake --build build/PA --target install -j16
cd dbt-rise-tgc/contrib
# import the TGC core itself
pct tgc_import_tb.tcl
```
Setup for bash:
```
git clone --recursive -b develop https://git.minres.com/TGFS/TGC-ISS.git
cd TGC-ISS/
export TGFS_INSTALL_ROOT `pwd`/install
module load tools/pa/T-2022.06
export SNPS_ENABLE_MEM_ON_DEMAND_IN_GENERIC_MEM=1
export CC=$COWAREHOME/SLS/linux/common/bin/gcc
export CXX=$COWAREHOME/SLS/linux/common/bin/g++
cmake -S . -B build/PA -DCMAKE_BUILD_TYPE=Debug -DUSE_CWR_SYSTEMC=ON -DBUILD_SHARED_LIBS=ON \
-DCODEGEN=OFF -DCMAKE_INSTALL_PREFIX=${TGFS_INSTALL_ROOT}
cmake --build build/PA --target install -j16
cd dbt-rise-tgc/contrib
# import the TGC core itself
pct tgc_import_tb.tcl
```

2
contrib/build.tcl
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@ -16,7 +16,7 @@ namespace eval Specification {
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"]
set linkerOptions [concat $linkerOptions "-Wl,-rpath,${libdir} -L${libdir} -ldbt-rise-tgc_sc -lscc-sysc"]
}
default {
puts stderr "ERROR: \"$target\" is not supported, [::scsh::version]"

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16
contrib/tgc_import.tcl
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@ -6,14 +6,11 @@ proc getScriptDirectory {} {
set scriptFolder [file dirname $dispScriptFile]
return $scriptFolder
}
if { $::env(SNPS_VP_PRODUCT) == "PAULTRA" } {
set hardware /HARDWARE/HW/HW
} else {
set hardware /HARDWARE
}
set scriptDir [getScriptDirectory]
set top_design_name core_complex
set encap_name sysc::tgfs::${top_design_name}
set clocks clk_i
set resets rst_i
set model_prefix "i_"
@ -28,7 +25,8 @@ set model_postfix ""
::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
::pct::set_import_encap_prop_as_extra_prop_flag true
::pct::load_modules --set-category modules ${scriptDir}/tgc_import.cc
# Set Port Protocols correctly
set block ${top_design_name}
@ -38,13 +36,15 @@ foreach clock ${clocks} {
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
#::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_encap_build_script $block/${encap_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} ${top_design_name}
::pct::create_instance SYSTEM_LIBRARY:${top_design_name} ${hardware} ${model_prefix}${top_design_name}${model_postfix} ${encap_name} ${encap_name}()
::pct::set_bounds i_${top_design_name} 200 300 100 400
::pct::set_image i_${top_design_name} "$scriptDir/minres.png" center center false true
# export the result as component
::pct::export_system_library ${top_design_name} ${top_design_name}.xml

71
contrib/tgc_import_tb.tcl Normal file
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@ -0,0 +1,71 @@
source tgc_import.tcl
set hardware /HARDWARE/HW/HW
set FW_name ${scriptDir}/hello.elf
puts "instantiate testbench elements"
::paultra::add_hw_instance GenericIPlib:Memory_Generic -inst_name i_Memory_Generic
::pct::set_param_value i_Memory_Generic/MEM:protocol {Protocol Common Parameters} address_width 30
::pct::set_param_value i_Memory_Generic {Scml Properties} /timing/LT/clock_period_in_ns 1
::pct::set_param_value i_Memory_Generic {Scml Properties} /timing/read/cmd_accept_cycles 1
::pct::set_param_value i_Memory_Generic {Scml Properties} /timing/write/cmd_accept_cycles 1
::pct::set_bounds i_Memory_Generic 1000 300 100 100
::paultra::add_hw_instance Bus:Bus -inst_name i_Bus
::BLWizard::generateFramework i_Bus SBLTLM2FT * {} \
{ common_configuration:BackBone:/advanced/num_resources_per_target:1 }
::pct::set_bounds i_Bus 700 300 100 400
::pct::create_connection C_ibus i_core_complex/ibus i_Bus/i_core_complex_ibus
::pct::set_location_on_owner i_Bus/i_core_complex_ibus 10
::pct::create_connection C_dbus i_core_complex/dbus i_Bus/i_core_complex_dbus
::pct::set_location_on_owner i_Bus/i_core_complex_dbus 10
::pct::create_connection C_mem i_Bus/i_Memory_Generic_MEM i_Memory_Generic/MEM
puts "instantiating clock manager"
set clock "Clk"
::hw::create_hw_instance "" GenericIPlib:ClockGenerator ${clock}_clock
::pct::set_bounds ${clock}_clock 100 100 100 100
::pct::set_param_value $hardware/${clock}_clock {Constructor Arguments} period 1000
::pct::set_param_value $hardware/${clock}_clock {Constructor Arguments} period_unit sc_core::SC_PS
puts "instantiating reset manager"
set reset "Rst"
::hw::create_hw_instance "" GenericIPlib:ResetGenerator ${reset}_reset
::pct::set_param_value $hardware/${reset}_reset {Constructor Arguments} start_time 0
::pct::set_param_value $hardware/${reset}_reset {Constructor Arguments} start_time_unit sc_core::SC_PS
::pct::set_param_value $hardware/${reset}_reset {Constructor Arguments} duration 10000
::pct::set_param_value $hardware/${reset}_reset {Constructor Arguments} duration_unit sc_core::SC_PS
::pct::set_param_value $hardware/${reset}_reset {Constructor Arguments} active_level true
::pct::set_bounds ${reset}_reset 300 100 100 100
puts "connecting reset/clock"
::pct::create_connection C_clk . Clk_clock/CLK i_core_complex/clk_i
::pct::add_ports_to_connection C_clk i_Bus/Clk
::pct::add_ports_to_connection C_clk i_Memory_Generic/CLK
::pct::create_connection C_rst . Rst_reset/RST i_core_complex/rst_i
::pct::add_ports_to_connection C_rst i_Bus/Rst
puts "setting parameters for DBT-RISE-TGC/Bus and memory components"
::pct::set_param_value $hardware/i_${top_design_name} {Extra properties} elf_file ${FW_name}
::pct::set_address $hardware/i_${top_design_name}/ibus:i_Memory_Generic/MEM 0x0
::pct::set_address $hardware/i_${top_design_name}/dbus:i_Memory_Generic/MEM 0x0
::BLWizard::updateFramework i_Bus {} { common_configuration:BackBone:/advanced/num_resources_per_target:1 }
::pct::set_main_configuration Default {{#include <scc/report.h>} {::scc::init_logging(::scc::LogConfig().logLevel(::scc::log::INFO).coloredOutput(false).logAsync(false));} {} {} {}}
::pct::set_main_configuration Debug {{#include <scc/report.h>} {::scc::init_logging(::scc::LogConfig().logLevel(::scc::log::DEBUG).coloredOutput(false).logAsync(false));} {} {} {}}
::pct::create_simulation_build_config Debug
::pct::set_simulation_build_project_setting Debug "Main Configuration" Default
# add build settings and save design for next steps
#::pct::set_simulation_build_project_setting "Debug" "Linker Flags" "-Wl,-z,muldefs $::env(VERILATOR_ROOT)/include/verilated.cpp $::env(VERILATOR_ROOT)/include/verilated_vcd_sc.cpp $::env(VERILATOR_ROOT)/include/verilated_vcd_c.cpp"
#::pct::set_simulation_build_project_setting "Debug" "Include Paths" $::env(VERILATOR_ROOT)/include/
#::simulation::set_simulation_property Simulation [list run_for_duration:200ns results_dir:results/test_0 "TLM Port Trace:true"]
#::simulation::run_simulation Simulation
#::pct::set_simulation_build_project_setting Debug {Export Type} {STATIC NETLIST}
#::pct::set_simulation_build_project_setting Debug {Encapsulated Netlist} false
#::pct::export_system "export"
#::cd "export"
#::scsh::open-project
#::scsh::build
#::scsh::elab sim
::pct::save_system testbench.xml

1
gen_input/.gitignore vendored
View File

@ -1 +1,2 @@
/src-gen/
/CoreDSL-Instruction-Set-Description

6
gen_input/TGC_C.core_desc
View File

@ -1,6 +1,6 @@
import "CoreDSL-Instruction-Set-Description/RV32I.core_desc"
import "CoreDSL-Instruction-Set-Description/RVM.core_desc"
import "CoreDSL-Instruction-Set-Description/RVC.core_desc"
import "RV32I.core_desc"
import "RVM.core_desc"
import "RVC.core_desc"
Core TGC_C provides RV32I, Zicsr, Zifencei, RV32M, RV32IC {
architectural_state {

12
gen_input/templates/CORENAME.cpp.gtl
View File

@ -33,13 +33,13 @@
def getRegisterSizes(){
def regs = registers.collect{it.size}
regs[-1]=64 // correct for NEXT_PC
regs+=[32, 32, 64, 64, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET
regs+=[32,32, 64, 64, 64, 32, 32] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET, INSTRUCTION, LAST_BRANCH
return regs
}
%>
#include "${coreDef.name.toLowerCase()}.h"
#include "util/ities.h"
#include <util/logging.h>
#include <iss/arch/${coreDef.name.toLowerCase()}.h>
#include <cstdio>
#include <cstring>
#include <fstream>
@ -51,9 +51,7 @@ constexpr std::array<const char*, ${registers.size}> iss::arch::traits<iss::a
constexpr std::array<const uint32_t, ${getRegisterSizes().size}> iss::arch::traits<iss::arch::${coreDef.name.toLowerCase()}>::reg_bit_widths;
constexpr std::array<const uint32_t, ${getRegisterSizes().size}> iss::arch::traits<iss::arch::${coreDef.name.toLowerCase()}>::reg_byte_offsets;
${coreDef.name.toLowerCase()}::${coreDef.name.toLowerCase()}() {
reg.icount = 0;
}
${coreDef.name.toLowerCase()}::${coreDef.name.toLowerCase()}() = default;
${coreDef.name.toLowerCase()}::~${coreDef.name.toLowerCase()}() = default;
@ -64,8 +62,8 @@ void ${coreDef.name.toLowerCase()}::reset(uint64_t address) {
reg.PC=address;
reg.NEXT_PC=reg.PC;
reg.PRIV=0x3;
reg.trap_state=0;
reg.icount=0;
trap_state=0;
icount=0;
}
uint8_t *${coreDef.name.toLowerCase()}::get_regs_base_ptr() {

23
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, 64, 64] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET
regs+=[32,32, 64, 64, 64, 32, 32] // append TRAP_STATE, PENDING_TRAP, ICOUNT, CYCLE, INSTRET, INSTRUCTION, LAST_BRANCH
return regs
}
def getRegisterOffsets(){
@ -91,12 +91,7 @@ template <> struct traits<${coreDef.name.toLowerCase()}> {
constexpr static unsigned FP_REGS_SIZE = ${constants.find {it.name=='FLEN'}?.value?:0};
enum reg_e {
${registers.collect{it.name}.join(', ')}, NUM_REGS,
TRAP_STATE=NUM_REGS,
PENDING_TRAP,
ICOUNT,
CYCLE,
INSTRET
${registers.collect{it.name}.join(', ')}, NUM_REGS, TRAP_STATE=NUM_REGS, PENDING_TRAP, ICOUNT, CYCLE, INSTRET, INSTRUCTION, LAST_BRANCH
};
using reg_t = uint${addrDataWidth}_t;
@ -141,7 +136,7 @@ struct ${coreDef.name.toLowerCase()}: public arch_if {
uint8_t* get_regs_base_ptr() override;
inline uint64_t get_icount() { return reg.icount; }
inline uint64_t get_icount() { return icount; }
inline bool should_stop() { return interrupt_sim; }
@ -159,7 +154,7 @@ struct ${coreDef.name.toLowerCase()}: public arch_if {
virtual iss::sync_type needed_sync() const { return iss::NO_SYNC; }
inline uint32_t get_last_branch() { return reg.last_branch; }
inline uint32_t get_last_branch() { return last_branch; }
#pragma pack(push, 1)
@ -169,10 +164,18 @@ struct ${coreDef.name.toLowerCase()}: public arch_if {
}}%>
uint32_t trap_state = 0, pending_trap = 0;
uint64_t icount = 0;
uint64_t cycle = 0;
uint64_t instret = 0;
uint32_t last_branch;
uint32_t instruction = 0;
uint32_t last_branch = 0;
} reg;
#pragma pack(pop)
uint32_t trap_state = 0, pending_trap = 0;
uint64_t icount = 0;
uint64_t cycle = 0;
uint64_t instret = 0;
uint32_t instruction = 0;
uint32_t last_branch = 0;
std::array<address_type, 4> addr_mode;
uint64_t interrupt_sim=0;

86
gen_input/templates/CORENAME_decoder.cpp.gtl Normal file
View File

@ -0,0 +1,86 @@
#include "${coreDef.name.toLowerCase()}.h"
#include <vector>
#include <array>
#include <cstdlib>
#include <algorithm>
namespace iss {
namespace arch {
namespace {
// according to
// https://stackoverflow.com/questions/8871204/count-number-of-1s-in-binary-representation
#ifdef __GCC__
constexpr size_t bit_count(uint32_t u) { return __builtin_popcount(u); }
#elif __cplusplus < 201402L
constexpr size_t uCount(uint32_t u) { return u - ((u >> 1) & 033333333333) - ((u >> 2) & 011111111111); }
constexpr size_t bit_count(uint32_t u) { return ((uCount(u) + (uCount(u) >> 3)) & 030707070707) % 63; }
#else
constexpr size_t bit_count(uint32_t u) {
size_t uCount = u - ((u >> 1) & 033333333333) - ((u >> 2) & 011111111111);
return ((uCount + (uCount >> 3)) & 030707070707) % 63;
}
#endif
using opcode_e = traits<${coreDef.name.toLowerCase()}>::opcode_e;
/****************************************************************************
* start opcode definitions
****************************************************************************/
struct instruction_desriptor {
size_t length;
uint32_t value;
uint32_t mask;
opcode_e op;
};
const std::array<instruction_desriptor, ${instructions.size}> instr_descr = {{
/* entries are: size, valid value, valid mask, function ptr */<%instructions.each{instr -> %>
{${instr.length}, ${instr.encoding}, ${instr.mask}, opcode_e::${instr.instruction.name}},<%}%>
}};
}
template<>
struct instruction_decoder<${coreDef.name.toLowerCase()}> {
using opcode_e = traits<${coreDef.name.toLowerCase()}>::opcode_e;
using code_word_t=traits<${coreDef.name.toLowerCase()}>::code_word_t;
struct instruction_pattern {
uint32_t value;
uint32_t mask;
opcode_e id;
};
std::array<std::vector<instruction_pattern>, 4> qlut;
template<typename T>
unsigned decode_instruction(T);
instruction_decoder() {
for (auto instr : instr_descr) {
auto quadrant = instr.value & 0x3;
qlut[quadrant].push_back(instruction_pattern{instr.value, instr.mask, instr.op});
}
for(auto& lut: qlut){
std::sort(std::begin(lut), std::end(lut), [](instruction_pattern const& a, instruction_pattern const& b){
return bit_count(a.mask) < bit_count(b.mask);
});
}
}
};
template<>
unsigned instruction_decoder<${coreDef.name.toLowerCase()}>::decode_instruction<traits<${coreDef.name.toLowerCase()}>::code_word_t>(traits<${coreDef.name.toLowerCase()}>::code_word_t instr){
auto res = std::find_if(std::begin(qlut[instr&0x3]), std::end(qlut[instr&0x3]), [instr](instruction_pattern const& e){
return !((instr&e.mask) ^ e.value );
});
return static_cast<unsigned>(res!=std::end(qlut[instr&0x3])? res->id : opcode_e::MAX_OPCODE);
}
std::unique_ptr<instruction_decoder<${coreDef.name.toLowerCase()}>> traits<${coreDef.name.toLowerCase()}>::get_decoder(){
return std::make_unique<instruction_decoder<${coreDef.name.toLowerCase()}>>();
}
}
}

3
gen_input/templates/CORENAME_instr.yaml.gtl
View File

@ -12,5 +12,6 @@
${name}: <% instrList.findAll{!it.instruction.name.startsWith("__")}.each { %>
- ${it.instruction.name}:
encoding: ${it.encoding}
mask: ${it.mask}<%}}%>
mask: ${it.mask}<%if(it.attributes.size) {%>
attributes: ${it.attributes}<%}}}%>

192
gen_input/templates/interp/CORENAME.cpp.gtl
View File

@ -36,11 +36,10 @@ def nativeTypeSize(int size){
if(size<=8) return 8; else if(size<=16) return 16; else if(size<=32) return 32; else return 64;
}
%>
#include "../fp_functions.h"
#include <iss/arch/${coreDef.name.toLowerCase()}.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/debugger/gdb_session.h>
#include <iss/debugger/server.h>
#include <iss/arch/${coreDef.name.toLowerCase()}.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/iss.h>
#include <iss/interp/vm_base.h>
#include <util/logging.h>
@ -73,6 +72,7 @@ public:
using addr_t = typename super::addr_t;
using reg_t = typename traits::reg_t;
using mem_type_e = typename traits::mem_type_e;
using opcode_e = typename traits::opcode_e;
vm_impl();
@ -92,9 +92,9 @@ protected:
using compile_ret_t = virt_addr_t;
using compile_func = compile_ret_t (this_class::*)(virt_addr_t &pc, code_word_t instr);
inline const char *name(size_t index){return traits::reg_aliases.at(index);}
inline const char *name(size_t index){return index<traits::reg_aliases.size()?traits::reg_aliases[index]:"illegal";}
compile_func decode_inst(code_word_t instr) ;
typename arch::traits<ARCH>::opcode_e decode_inst_id(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
@ -114,15 +114,15 @@ protected:
struct instruction_pattern {
uint32_t value;
uint32_t mask;
compile_func opc;
typename arch::traits<ARCH>::opcode_e id;
};
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;
this->template get_reg<uint32_t>(traits::TRAP_STATE) = trap_val;
this->template get_reg<uint32_t>(traits::NEXT_PC) = std::numeric_limits<uint32_t>::max();
this->core.trap_state = trap_val;
this->template get_reg<uint${addrDataWidth}_t>(traits::NEXT_PC) = std::numeric_limits<uint${addrDataWidth}_t>::max();
}
inline void leave(unsigned lvl){
@ -137,44 +137,6 @@ protected:
using coro_t = boost::coroutines2::coroutine<void>::pull_type;
std::vector<coro_t> spawn_blocks;
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){
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;
@ -183,6 +145,7 @@ protected:
}
inline void process_spawn_blocks() {
if(spawn_blocks.size()==0) return;
for(auto it = std::begin(spawn_blocks); it!=std::end(spawn_blocks);)
if(*it){
(*it)();
@ -193,6 +156,7 @@ protected:
<%functions.each{ it.eachLine { %>
${it}<%}%>
<%}%>
private:
/****************************************************************************
* start opcode definitions
@ -201,73 +165,13 @@ private:
size_t length;
uint32_t value;
uint32_t mask;
compile_func op;
typename arch::traits<ARCH>::opcode_e op;
};
const std::array<InstructionDesriptor, ${instructions.size}> instr_descr = {{
/* entries are: size, valid value, valid mask, function ptr */<%instructions.each{instr -> %>
/* instruction ${instr.instruction.name} */
{${instr.length}, ${instr.encoding}, ${instr.mask}, &this_class::__${generator.functionName(instr.name)}},<%}%>
{${instr.length}, ${instr.encoding}, ${instr.mask}, arch::traits<ARCH>::opcode_e::${instr.instruction.name}},<%}%>
}};
/* instruction definitions */<%instructions.eachWithIndex{instr, idx -> %>
/* instruction ${idx}: ${instr.name} */
compile_ret_t __${generator.functionName(instr.name)}(virt_addr_t& pc, code_word_t instr){
// pre execution stuff
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{%>${it}
<%}%>
}
auto* PC = reinterpret_cast<uint${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]);
auto* trap_state = reinterpret_cast<uint32_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::TRAP_STATE]);
// used registers<%instr.usedVariables.each{ k,v->
if(v.isArray) {%>
auto* ${k} = reinterpret_cast<uint${nativeTypeSize(v.type.size)}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::${k}0]);<% }else{ %>
auto* ${k} = reinterpret_cast<uint${nativeTypeSize(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}
<%}%>} catch(...){}
// post execution stuff
process_spawn_blocks();
if(this->sync_exec && POST_SYNC) this->do_sync(POST_SYNC, ${idx});
// trap check
if(*trap_state!=0){
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;
}
<%}%>
/****************************************************************************
* end opcode definitions
****************************************************************************/
compile_ret_t illegal_intruction(virt_addr_t &pc, code_word_t instr) {
this->do_sync(PRE_SYNC, static_cast<unsigned>(arch::traits<ARCH>::opcode_e::MAX_OPCODE));
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, 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, instr);
}
pc.val=*NEXT_PC;
return pc;
}
//static constexpr typename traits::addr_t upper_bits = ~traits::PGMASK;
iss::status fetch_ins(virt_addr_t pc, uint8_t * data){
@ -307,6 +211,7 @@ constexpr size_t bit_count(uint32_t u) {
template <typename ARCH>
vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
: vm_base<ARCH>(core, core_id, cluster_id) {
unsigned id=0;
for (auto instr : instr_descr) {
auto quadrant = instr.value & 0x3;
qlut[quadrant].push_back(instruction_pattern{instr.value, instr.mask, instr.op});
@ -327,39 +232,82 @@ inline bool is_jump_to_self_enabled(finish_cond_e cond){
}
template <typename ARCH>
typename vm_impl<ARCH>::compile_func vm_impl<ARCH>::decode_inst(code_word_t instr){
typename arch::traits<ARCH>::opcode_e vm_impl<ARCH>::decode_inst_id(code_word_t instr){
for(auto& e: qlut[instr&0x3]){
if(!((instr&e.mask) ^ e.value )) return e.opc;
if(!((instr&e.mask) ^ e.value )) return e.id;
}
return &this_class::illegal_intruction;
return arch::traits<ARCH>::opcode_e::MAX_OPCODE;
}
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
code_word_t insn = 0;
auto *const data = (uint8_t *)&insn;
auto pc=start;
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${addrDataWidth}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::NEXT_PC]);
auto& trap_state = this->core.trap_state;
auto& icount = this->core.icount;
auto& cycle = this->core.cycle;
auto& instret = this->core.instret;
auto& instr = this->core.instruction;
// we fetch at max 4 byte, alignment is 2
auto *const data = reinterpret_cast<uint8_t*>(&instr);
while(!this->core.should_stop() &&
!(is_count_limit_enabled(cond) && this->core.get_icount() >= icount_limit)){
auto res = fetch_ins(pc, data);
if(res!=iss::Ok){
if(fetch_ins(pc, data)!=iss::Ok){
this->do_sync(POST_SYNC, std::numeric_limits<unsigned>::max());
pc.val = super::core.enter_trap(std::numeric_limits<uint64_t>::max(), pc.val, 0);
} else {
if (is_jump_to_self_enabled(cond) &&
(insn == 0x0000006f || (insn&0xffff)==0xa001)) throw simulation_stopped(0); // 'J 0' or 'C.J 0'
auto f = decode_inst(insn);
auto old_pc = pc.val;
pc = (this->*f)(pc, insn);
(instr == 0x0000006f || (instr&0xffff)==0xa001)) throw simulation_stopped(0); // 'J 0' or 'C.J 0'
auto inst_id = decode_inst_id(instr);
// pre execution stuff
this->core.last_branch = 0;
if(this->sync_exec && PRE_SYNC) this->do_sync(PRE_SYNC, static_cast<unsigned>(inst_id));
switch(inst_id){<%instructions.eachWithIndex{instr, idx -> %>
case arch::traits<ARCH>::opcode_e::${instr.name}: {
<%instr.fields.eachLine{%>${it}
<%}%>if(this->disass_enabled){
/* generate console output when executing the command */<%instr.disass.eachLine{%>
${it}<%}%>
}
// used registers<%instr.usedVariables.each{ k,v->
if(v.isArray) {%>
auto* ${k} = reinterpret_cast<uint${nativeTypeSize(v.type.size)}_t*>(this->regs_base_ptr+arch::traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::${k}0]);<% }else{ %>
auto* ${k} = reinterpret_cast<uint${nativeTypeSize(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<%instr.behavior.eachLine{%>
${it}<%}%>
TRAP_${instr.name}:break;
}// @suppress("No break at end of case")<%}%>
default: {
*NEXT_PC = *PC + ((instr & 3) == 3 ? 4 : 2);
raise(0, 2);
}
}
// post execution stuff
process_spawn_blocks();
if(this->sync_exec && POST_SYNC) this->do_sync(POST_SYNC, static_cast<unsigned>(inst_id));
// if(!this->core.trap_state) // update trap state if there is a pending interrupt
// this->core.trap_state = this->core.pending_trap;
// trap check
if(trap_state!=0){
super::core.enter_trap(trap_state, pc.val, instr);
} else {
icount++;
instret++;
}
cycle++;
pc.val=*NEXT_PC;
this->core.reg.PC = this->core.reg.NEXT_PC;
this->core.reg.trap_state = this->core.reg.pending_trap;
this->core.trap_state = this->core.pending_trap;
}
}
return pc;
}
} // namespace mnrv32
}
template <>
std::unique_ptr<vm_if> create<arch::${coreDef.name.toLowerCase()}>(arch::${coreDef.name.toLowerCase()} *core, unsigned short port, bool dump) {

4
gen_input/templates/llvm/vm-vm_CORENAME.cpp.gtl
View File

@ -30,10 +30,10 @@
*
*******************************************************************************/
#include <iss/arch/${coreDef.name.toLowerCase()}.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/debugger/gdb_session.h>
#include <iss/debugger/server.h>
#include <iss/arch/${coreDef.name.toLowerCase()}.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/iss.h>
#include <iss/llvm/vm_base.h>
#include <util/logging.h>

1
incl/iss/arch/.gitignore vendored
View File

@ -1 +0,0 @@
/tgc_*.h

2
softfloat/CMakeLists.txt
View File

@ -8,7 +8,7 @@ project("sotfloat" VERSION 3.0.0)
# Set the version number of your project here (format is MAJOR.MINOR.PATCHLEVEL - e.g. 1.0.0)
set(VERSION "3e")
include(Common)
#include(Common)
include(GNUInstallDirs)
set(SPECIALIZATION RISCV)

2
src-gen/.gitignore vendored Normal file
View File

@ -0,0 +1,2 @@
/iss
/vm

100
src/iss/arch/hwl.h Normal file
View File

@ -0,0 +1,100 @@
/*******************************************************************************
* Copyright (C) 2022 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_M_P_HWL_H
#define _RISCV_HART_M_P_HWL_H
#include <iss/vm_types.h>
namespace iss {
namespace arch {
template <typename BASE> class hwl : public BASE {
public:
using base_class = BASE;
using this_class = hwl<BASE>;
using reg_t = typename BASE::reg_t;
hwl();
virtual ~hwl() = default;
protected:
iss::status read_custom_csr_reg(unsigned addr, reg_t &val) override;
iss::status write_custom_csr_reg(unsigned addr, reg_t val) override;
};
template<typename BASE>
inline hwl<BASE>::hwl() {
for (unsigned addr = 0x800; addr < 0x803; ++addr){
this->register_custom_csr_rd(addr);
this->register_custom_csr_wr(addr);
}
for (unsigned addr = 0x804; addr < 0x807; ++addr){
this->register_custom_csr_rd(addr);
this->register_custom_csr_wr(addr);
}
}
template<typename BASE>
inline iss::status iss::arch::hwl<BASE>::read_custom_csr_reg(unsigned addr, reg_t &val) {
switch(addr){
case 0x800: val = this->reg.lpstart0; break;
case 0x801: val = this->reg.lpend0; break;
case 0x802: val = this->reg.lpcount0; break;
case 0x804: val = this->reg.lpstart1; break;
case 0x805: val = this->reg.lpend1; break;
case 0x806: val = this->reg.lpcount1; break;
}
return iss::Ok;
}
template<typename BASE>
inline iss::status iss::arch::hwl<BASE>::write_custom_csr_reg(unsigned addr, reg_t val) {
switch(addr){
case 0x800: this->reg.lpstart0 = val; break;
case 0x801: this->reg.lpend0 = val; break;
case 0x802: this->reg.lpcount0 = val; break;
case 0x804: this->reg.lpstart1 = val; break;
case 0x805: this->reg.lpend1 = val; break;
case 0x806: this->reg.lpcount1 = val; break;
}
return iss::Ok;
}
} // namespace arch
} // namespace iss
#endif /* _RISCV_HART_M_P_H */

67
incl/iss/arch/riscv_hart_common.h → src/iss/arch/riscv_hart_common.h
View File

@ -43,7 +43,7 @@ namespace arch {
enum { tohost_dflt = 0xF0001000, fromhost_dflt = 0xF0001040 };
enum features_e{FEAT_NONE, FEAT_PMP=1, FEAT_EXT_N=2, FEAT_CLIC=4, FEAT_DEBUG=8};
enum features_e{FEAT_NONE, FEAT_PMP=1, FEAT_EXT_N=2, FEAT_CLIC=4, FEAT_DEBUG=8, FEAT_TCM=16};
enum riscv_csr {
/* user-level CSR */
@ -51,12 +51,18 @@ enum riscv_csr {
ustatus = 0x000,
uie = 0x004,
utvec = 0x005,
utvt = 0x007, //CLIC
// User Trap Handling
uscratch = 0x040,
uepc = 0x041,
ucause = 0x042,
utval = 0x043,
uip = 0x044,
uxnti = 0x045, //CLIC
uintstatus = 0xCB1, // MRW Current interrupt levels (CLIC) - addr subject to change
uintthresh = 0x047, // MRW Interrupt-level threshold (CLIC) - addr subject to change
uscratchcsw = 0x048, // MRW Conditional scratch swap on priv mode change (CLIC)
uscratchcswl = 0x049, // MRW Conditional scratch swap on level change (CLIC)
// User Floating-Point CSRs
fflags = 0x001,
frm = 0x002,
@ -114,11 +120,10 @@ enum riscv_csr {
mtval = 0x343,
mip = 0x344,
mxnti = 0x345, //CLIC
mintstatus = 0x346, // MRW Current interrupt levels (CLIC) - addr subject to change
mintstatus = 0xFB1, // MRW Current interrupt levels (CLIC) - addr subject to change
mintthresh = 0x347, // MRW Interrupt-level threshold (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,
@ -188,7 +193,7 @@ enum {
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 { PRIV_U = 0, PRIV_S = 1, PRIV_M = 3, PRIV_D = 4};
enum {
ISA_A = 1,
@ -214,6 +219,15 @@ struct vm_info {
bool is_active() { return levels; }
};
struct feature_config {
uint64_t clic_base{0xc0000000};
unsigned clic_int_ctl_bits{4};
unsigned clic_num_irq{16};
unsigned clic_num_trigger{0};
uint64_t tcm_base{0x10000000};
uint64_t tcm_size{0x8000};
};
class trap_load_access_fault : public trap_access {
public:
trap_load_access_fault(uint64_t badaddr)
@ -239,6 +253,49 @@ public:
trap_store_page_fault(uint64_t badaddr)
: trap_access(15 << 16, badaddr) {}
};
inline void read_reg_uint32(uint64_t offs, uint32_t& reg, uint8_t *const data, unsigned length) {
auto reg_ptr = reinterpret_cast<uint8_t*>(&reg);
switch (offs & 0x3) {
case 0:
for (auto i = 0U; i < length; ++i)
*(data + i) = *(reg_ptr + i);
break;
case 1:
for (auto i = 0U; i < length; ++i)
*(data + i) = *(reg_ptr + 1 + i);
break;
case 2:
for (auto i = 0U; i < length; ++i)
*(data + i) = *(reg_ptr + 2 + i);
break;
case 3:
*data = *(reg_ptr + 3);
break;
}
}
inline void write_reg_uint32(uint64_t offs, uint32_t& reg, const uint8_t *const data, unsigned length) {
auto reg_ptr = reinterpret_cast<uint8_t*>(&reg);
switch (offs & 0x3) {
case 0:
for (auto i = 0U; i < length; ++i)
*(reg_ptr + i) = *(data + i);
break;
case 1:
for (auto i = 0U; i < length; ++i)
*(reg_ptr + 1 + i) = *(data + i);
break;
case 2:
for (auto i = 0U; i < length; ++i)
*(reg_ptr + 2 + i) = *(data + i);
break;
case 3:
*(reg_ptr + 3) = *data ;
break;
}
}
}
}

486
incl/iss/arch/riscv_hart_m_p.h → src/iss/arch/riscv_hart_m_p.h
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2021 MINRES Technologies GmbH
* Copyright (C) 2019 - 2023 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -97,8 +97,10 @@ public:
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);
using rd_csr_f = iss::status (this_class::*)(unsigned addr, reg_t &);
using wr_csr_f = iss::status (this_class::*)(unsigned addr, reg_t);
using mem_read_f = iss::status(phys_addr_t addr, unsigned, uint8_t *const);
using mem_write_f = iss::status(phys_addr_t addr, unsigned, uint8_t const *const);
// primary template
template <class T, class Enable = void> struct hart_state {};
@ -170,17 +172,94 @@ public:
return 0b00000000000000000001100010001000;
}
};
// specialization 64bit
template <typename T> class hart_state<T, typename std::enable_if<std::is_same<T, uint64_t>::value>::type> {
public:
BEGIN_BF_DECL(mstatus_t, T);
// SD bit is read-only and is set when either the FS or XS bits encode a Dirty state (i.e., SD=((FS==11) OR XS==11)))
BF_FIELD(SD, 63, 1);
// value of XLEN for S-mode
BF_FIELD(SXL, 34, 2);
// value of XLEN for U-mode
BF_FIELD(UXL, 32, 2);
// Trap SRET
BF_FIELD(TSR, 22, 1);
// Timeout Wait
BF_FIELD(TW, 21, 1);
// Trap Virtual Memory
BF_FIELD(TVM, 20, 1);
// Make eXecutable Readable
BF_FIELD(MXR, 19, 1);
// permit Supervisor User Memory access
BF_FIELD(SUM, 18, 1);
// Modify PRiVilege
BF_FIELD(MPRV, 17, 1);
// status of additional user-mode extensions and associated state, All off/None dirty or clean, some on/None dirty, some clean/Some dirty
BF_FIELD(XS, 15, 2);
// floating-point unit status Off/Initial/Clean/Dirty
BF_FIELD(FS, 13, 2);
// machine previous privilege
BF_FIELD(MPP, 11, 2);
// supervisor previous privilege
BF_FIELD(SPP, 8, 1);
// previous machine interrupt-enable
BF_FIELD(MPIE, 7, 1);
// previous supervisor interrupt-enable
BF_FIELD(SPIE, 5, 1);
// previous user interrupt-enable
BF_FIELD(UPIE, 4, 1);
// machine interrupt-enable
BF_FIELD(MIE, 3, 1);
// supervisor interrupt-enable
BF_FIELD(SIE, 1, 1);
// user interrupt-enable
BF_FIELD(UIE, 0, 1);
END_BF_DECL();
mstatus_t mstatus;
static const reg_t mstatus_reset_val = 0x1800;
void write_mstatus(T val) {
auto mask = get_mask() &0xff; // MPP is hardcode as 0x3
auto new_val = (mstatus.backing.val & ~mask) | (val & mask);
mstatus = new_val;
}
static constexpr T get_mask() {
//return 0x8000000f007ff9ddULL; // 0b1...0 1111 0000 0000 0111 1111 1111 1001 1011 1011
//
// +-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 0b100010001000; // only machine mode is supported
}
constexpr bool has_compressed() {
return traits<BASE>::MISA_VAL&0b0100;
}
constexpr reg_t get_pc_mask() {
return traits<BASE>::MISA_VAL&0b0100?~1:~3;
return has_compressed()?(reg_t)~1:(reg_t)~3;
}
riscv_hart_m_p();
riscv_hart_m_p(feature_config cfg = feature_config{});
virtual ~riscv_hart_m_p() = default;
void reset(uint64_t address) override;
@ -192,28 +271,20 @@ 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, 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;
uint64_t enter_trap(uint64_t flags) override { return riscv_hart_m_p::enter_trap(flags, fault_data, fault_data); }
uint64_t enter_trap(uint64_t flags, uint64_t addr, uint64_t instr) override;
uint64_t leave_trap(uint64_t flags) override;
const reg_t& get_mhartid() const { return mhartid_reg; }
void set_mhartid(reg_t mhartid) { mhartid_reg = mhartid; };
void disass_output(uint64_t pc, const std::string instr) override {
CLOG(INFO, disass) << fmt::format("0x{:016x} {:40} [s:0x{:x};c:{}]",
pc, instr, (reg_t)state.mstatus, this->reg.icount + cycle_offset);
pc, instr, (reg_t)state.mstatus, this->icount + cycle_offset);
};
iss::instrumentation_if *get_instrumentation_if() override { return &instr_if; }
void setMemReadCb(std::function<iss::status(phys_addr_t, unsigned, uint8_t* const)> const& memReadCb) {
mem_read_cb = memReadCb;
}
void setMemWriteCb(std::function<iss::status(phys_addr_t, unsigned, const uint8_t* const)> const& memWriteCb) {
mem_write_cb = memWriteCb;
}
void set_csr(unsigned addr, reg_t val){
csr[addr & csr.page_addr_mask] = val;
}
@ -233,22 +304,26 @@ protected:
*/
const std::string core_type_name() const override { return traits<BASE>::core_type; }
uint64_t get_pc() override { return arch.get_pc(); };
uint64_t get_pc() override { return arch.reg.PC; };
uint64_t get_next_pc() override { return arch.get_next_pc(); };
uint64_t get_next_pc() override { return arch.reg.NEXT_PC; };
uint64_t get_instr_count() { return arch.reg.icount; }
uint64_t get_instr_word() override { return arch.instruction; }
uint64_t get_total_cycles() override { return arch.reg.icount + arch.cycle_offset; }
uint64_t get_instr_count() override { return arch.icount; }
void set_curr_instr_cycles(unsigned cycles) override { arch.cycle_offset += cycles - 1; };
uint64_t get_pendig_traps() override { return arch.trap_state; }
uint64_t get_total_cycles() override { return arch.icount + arch.cycle_offset; }
void update_last_instr_cycles(unsigned cycles) override { arch.cycle_offset += cycles - 1; };
bool is_branch_taken() override { return arch.last_branch; };
riscv_hart_m_p<BASE, FEAT> &arch;
};
friend struct riscv_instrumentation_if;
addr_t get_pc() { return this->reg.PC; }
addr_t get_next_pc() { return this->reg.NEXT_PC; }
virtual iss::status read_mem(phys_addr_t addr, unsigned length, uint8_t *const data);
virtual iss::status write_mem(phys_addr_t addr, unsigned length, const uint8_t *const data);
@ -281,7 +356,6 @@ protected:
std::unordered_map<unsigned, rd_csr_f> csr_rd_cb;
std::unordered_map<unsigned, wr_csr_f> csr_wr_cb;
uint8_t clic_cfg_reg{0};
uint32_t clic_info_reg{0};
std::array<uint32_t, 32> clic_inttrig_reg;
union clic_int_reg_t {
struct{
@ -293,6 +367,10 @@ protected:
uint32_t raw;
};
std::vector<clic_int_reg_t> clic_int_reg;
uint8_t clic_mprev_lvl{0};
uint8_t clic_mact_lvl{0};
std::vector<uint8_t> tcm;
iss::status read_csr_reg(unsigned addr, reg_t &val);
iss::status write_csr_reg(unsigned addr, reg_t val);
@ -306,51 +384,71 @@ protected:
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 read_cause(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);
iss::status write_intstatus(unsigned addr, reg_t val);
iss::status read_intstatus(unsigned addr, reg_t& val);
iss::status write_intthresh(unsigned addr, reg_t val);
iss::status write_xtvt(unsigned addr, reg_t val);
iss::status write_dcsr_dcsr(unsigned addr, reg_t val);
iss::status read_dcsr_reg(unsigned addr, reg_t &val);
iss::status write_dcsr_reg(unsigned addr, reg_t val);
iss::status read_dpc_reg(unsigned addr, reg_t &val);
iss::status write_dpc_reg(unsigned addr, reg_t val);
virtual iss::status read_custom_csr_reg(unsigned addr, reg_t &val) {return iss::status::Err;};
virtual iss::status write_custom_csr_reg(unsigned addr, reg_t val) {return iss::status::Err;};
void register_custom_csr_rd(unsigned addr){
csr_rd_cb[addr] = &this_class::read_custom_csr_reg;
}
void register_custom_csr_wr(unsigned addr){
csr_wr_cb[addr] = &this_class::write_custom_csr_reg;
}
reg_t mhartid_reg{0x0};
std::function<iss::status(phys_addr_t, unsigned, uint8_t *const)>mem_read_cb;
std::function<iss::status(phys_addr_t, unsigned, const uint8_t *const)> mem_write_cb;
void check_interrupt();
bool pmp_check(const access_type type, const uint64_t addr, const unsigned len);
uint64_t clic_base_addr{0};
unsigned clic_num_irq{0};
unsigned clic_num_trigger{0};
unsigned mcause_max_irq{16};
std::vector<std::tuple<uint64_t, uint64_t>> memfn_range;
std::vector<std::function<mem_read_f>> memfn_read;
std::vector<std::function<mem_write_f>> memfn_write;
void insert_mem_range(uint64_t, uint64_t, std::function<mem_read_f>, std::function<mem_write_f>);
feature_config cfg;
unsigned mcause_max_irq{(FEAT&features_e::FEAT_CLIC)?4096:16};
inline bool debug_mode_active() {return this->reg.PRIV&0x4;}
std::pair<std::function<mem_read_f>, std::function<mem_write_f>>
replace_mem_access(std::function<mem_read_f> rd, std::function<mem_write_f> wr){
std::pair<std::function<mem_read_f>, std::function<mem_write_f>> ret{hart_mem_rd_delegate, hart_mem_wr_delegate};
hart_mem_rd_delegate = rd;
hart_mem_wr_delegate = wr;
return ret;
}
std::function<mem_read_f> hart_mem_rd_delegate;
std::function<mem_write_f> hart_mem_wr_delegate;
};
template <typename BASE, features_e FEAT>
riscv_hart_m_p<BASE, FEAT>::riscv_hart_m_p()
riscv_hart_m_p<BASE, FEAT>::riscv_hart_m_p(feature_config cfg)
: state()
, instr_if(*this) {
, instr_if(*this)
, cfg(cfg) {
// reset values
csr[misa] = traits<BASE>::MISA_VAL;
csr[mvendorid] = 0x669;
csr[marchid] = traits<BASE>::MARCHID_VAL;
csr[mimpid] = 1;
csr[mclicbase] = 0xc0000000; // TODO: should be taken from YAML file
uart_buf.str("");
for (unsigned addr = mhpmcounter3; addr <= mhpmcounter31; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
csr_wr_cb[addr] = &this_class::write_csr_reg;
}
for (unsigned addr = mhpmcounter3h; addr <= mhpmcounter31h; ++addr){
if(traits<BASE>::XLEN==32) for (unsigned addr = mhpmcounter3h; addr <= mhpmcounter31h; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
csr_wr_cb[addr] = &this_class::write_csr_reg;
}
@ -361,39 +459,45 @@ riscv_hart_m_p<BASE, FEAT>::riscv_hart_m_p()
for (unsigned addr = hpmcounter3; addr <= hpmcounter31; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
}
for (unsigned addr = hpmcounter3h; addr <= hpmcounter31h; ++addr){
if(traits<BASE>::XLEN==32) for (unsigned addr = hpmcounter3h; addr <= hpmcounter31h; ++addr){
csr_rd_cb[addr] = &this_class::read_null;
//csr_wr_cb[addr] = &this_class::write_csr_reg;
}
// common regs
const std::array<unsigned, 10> addrs{{misa, mvendorid, marchid, mimpid, mepc, mtvec, mscratch, mcause, mtval, mscratch}};
for(auto addr: addrs) {
const std::array<unsigned, 4> roaddrs{{misa, mvendorid, marchid, mimpid}};
for(auto addr: roaddrs) {
csr_rd_cb[addr] = &this_class::read_csr_reg;
csr_wr_cb[addr] = &this_class::write_null;
}
const std::array<unsigned, 4> rwaddrs{{mepc, mtvec, mscratch, mtval}};
for(auto addr: rwaddrs) {
csr_rd_cb[addr] = &this_class::read_csr_reg;
csr_wr_cb[addr] = &this_class::write_csr_reg;
}
// special handling & overrides
csr_rd_cb[time] = &this_class::read_time;
csr_rd_cb[timeh] = &this_class::read_time;
if(traits<BASE>::XLEN==32) csr_rd_cb[timeh] = &this_class::read_time;
csr_rd_cb[cycle] = &this_class::read_cycle;
csr_rd_cb[cycleh] = &this_class::read_cycle;
if(traits<BASE>::XLEN==32) csr_rd_cb[cycleh] = &this_class::read_cycle;
csr_rd_cb[instret] = &this_class::read_instret;
csr_rd_cb[instreth] = &this_class::read_instret;
if(traits<BASE>::XLEN==32) 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;
if(traits<BASE>::XLEN==32) csr_rd_cb[mcycleh] = &this_class::read_cycle;
if(traits<BASE>::XLEN==32) 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;
if(traits<BASE>::XLEN==32) csr_rd_cb[minstreth] = &this_class::read_instret;
if(traits<BASE>::XLEN==32) 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_rd_cb[mcause] = &this_class::read_cause;
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_wr_cb[mip] = &this_class::write_null;
csr_rd_cb[mie] = &this_class::read_ie;
csr_wr_cb[mie] = &this_class::write_ie;
csr_rd_cb[mhartid] = &this_class::read_hartid;
@ -401,6 +505,41 @@ riscv_hart_m_p<BASE, FEAT>::riscv_hart_m_p()
csr_wr_cb[mvendorid] = &this_class::write_null;
csr_wr_cb[marchid] = &this_class::write_null;
csr_wr_cb[mimpid] = &this_class::write_null;
if(FEAT & FEAT_CLIC) {
csr_rd_cb[mtvt] = &this_class::read_csr_reg;
csr_wr_cb[mtvt] = &this_class::write_xtvt;
// csr_rd_cb[mxnti] = &this_class::read_csr_reg;
// csr_wr_cb[mxnti] = &this_class::write_csr_reg;
csr_rd_cb[mintstatus] = &this_class::read_intstatus;
csr_wr_cb[mintstatus] = &this_class::write_null;
// csr_rd_cb[mscratchcsw] = &this_class::read_csr_reg;
// csr_wr_cb[mscratchcsw] = &this_class::write_csr_reg;
// csr_rd_cb[mscratchcswl] = &this_class::read_csr_reg;
// csr_wr_cb[mscratchcswl] = &this_class::write_csr_reg;
csr_rd_cb[mintthresh] = &this_class::read_csr_reg;
csr_wr_cb[mintthresh] = &this_class::write_intthresh;
clic_int_reg.resize(cfg.clic_num_irq, clic_int_reg_t{.raw=0});
clic_cfg_reg=0x20;
clic_mact_lvl = clic_mprev_lvl = (1<<(cfg.clic_int_ctl_bits)) - 1;
csr[mintthresh] = (1<<(cfg.clic_int_ctl_bits)) - 1;
insert_mem_range(cfg.clic_base, 0x5000UL,
[this](phys_addr_t addr, unsigned length, uint8_t * const data) { return read_clic(addr.val, length, data);},
[this](phys_addr_t addr, unsigned length, uint8_t const * const data) {return write_clic(addr.val, length, data);});
}
if(FEAT & FEAT_TCM) {
tcm.resize(cfg.tcm_size);
std::function<mem_read_f> read_clic_cb = [this](phys_addr_t addr, unsigned length, uint8_t * const data) {
auto offset=addr.val-this->cfg.tcm_base;
std::copy(tcm.data() + offset, tcm.data() + offset + length, data);
return iss::Ok;
};
std::function<mem_write_f> write_clic_cb = [this](phys_addr_t addr, unsigned length, uint8_t const * const data) {
auto offset=addr.val-this->cfg.tcm_base;
std::copy(data, data + length, tcm.data() + offset);
return iss::Ok;
};
insert_mem_range(cfg.tcm_base, cfg.tcm_size, read_clic_cb, write_clic_cb);
}
if(FEAT & FEAT_DEBUG){
csr_wr_cb[dscratch0] = &this_class::write_dcsr_reg;
csr_rd_cb[dscratch0] = &this_class::read_dcsr_reg;
@ -411,6 +550,12 @@ riscv_hart_m_p<BASE, FEAT>::riscv_hart_m_p()
csr_wr_cb[dcsr] = &this_class::write_dcsr_dcsr;
csr_rd_cb[dcsr] = &this_class::read_dcsr_reg;
}
hart_mem_rd_delegate = [this](phys_addr_t a, unsigned l, uint8_t* const d) -> iss::status {
return this->read_mem(a, l, d);
};
hart_mem_wr_delegate = [this](phys_addr_t a, unsigned l, uint8_t const* const d) -> iss::status {
return this->write_mem(a, l, d);
};
}
template <typename BASE, features_e FEAT> std::pair<uint64_t, bool> riscv_hart_m_p<BASE, FEAT>::load_file(std::string name, int type) {
@ -418,10 +563,10 @@ template <typename BASE, features_e FEAT> std::pair<uint64_t, bool> riscv_hart_m
if (fp) {
std::array<char, 5> buf;
auto n = fread(buf.data(), 1, 4, fp);
fclose(fp);
if (n != 4) throw std::runtime_error("input file has insufficient size");
buf[4] = 0;
if (strcmp(buf.data() + 1, "ELF") == 0) {
fclose(fp);
// Create elfio reader
ELFIO::elfio reader;
// Load ELF data
@ -479,6 +624,20 @@ template <typename BASE, features_e FEAT> std::pair<uint64_t, bool> riscv_hart_m
throw std::runtime_error("memory load file not found");
}
template<typename BASE, features_e FEAT>
inline void riscv_hart_m_p<BASE, FEAT>::insert_mem_range(uint64_t base, uint64_t size, std::function<mem_read_f> rd_f,
std::function<mem_write_f> wr_fn) {
std::tuple<uint64_t, uint64_t> entry{base, size};
auto it = std::upper_bound( memfn_range.begin(), memfn_range.end(), entry,
[](std::tuple<uint64_t, uint64_t> const& a, std::tuple<uint64_t, uint64_t> const& b){
return std::get<0>(a)<std::get<0>(b);
});
auto idx = std::distance(memfn_range.begin(), it);
memfn_range.insert(it, entry);
memfn_read.insert(std::begin(memfn_read)+idx, rd_f);
memfn_write.insert(std::begin(memfn_write)+idx, wr_fn);
}
template <typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::read(const address_type type, const access_type access, const uint32_t space,
const uint64_t addr, const unsigned length, uint8_t *const data) {
@ -494,29 +653,40 @@ iss::status riscv_hart_m_p<BASE, FEAT>::read(const address_type type, const acce
try {
switch (space) {
case traits<BASE>::MEM: {
if (unlikely((access == iss::access_type::FETCH || access == iss::access_type::DEBUG_FETCH) && (addr & 0x1) == 1)) {
auto alignment = is_fetch(access)? (has_compressed()? 2 : 4) : length;
if (unlikely(is_fetch(access) && (addr&(alignment-1)))) {
fault_data = addr;
if (access && iss::access_type::DEBUG) throw trap_access(0, addr);
this->reg.trap_state = (1 << 31); // issue trap 0
if (is_debug(access)) throw trap_access(0, addr);
this->trap_state = (1UL << 31); // issue trap 0
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;
if(!is_debug(access) && (addr&(alignment-1))){
this->trap_state = (1UL << 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);
auto phys_addr = type==iss::address_type::PHYSICAL?phys_addr_t{access, space, addr}:BASE::v2p(iss::addr_t{access, type, space, addr});
auto res = iss::Err;
if(access != access_type::FETCH && memfn_range.size()){
auto it = std::find_if(std::begin(memfn_range), std::end(memfn_range), [phys_addr](std::tuple<uint64_t, uint64_t> const& a){
return std::get<0>(a)<=phys_addr.val && (std::get<0>(a)+std::get<1>(a))>phys_addr.val;
});
if(it!=std::end(memfn_range)) {
auto idx = std::distance(std::begin(memfn_range), it);
res = memfn_read[idx](phys_addr, length, data);
} else
res = hart_mem_rd_delegate( phys_addr, length, data);
} else {
res = hart_mem_rd_delegate( phys_addr, length, data);
}
if (unlikely(res != iss::Ok)){
this->reg.trap_state = (1 << 31) | (5 << 16); // issue trap 5 (load access fault
this->trap_state = (1UL << 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;
this->trap_state = (1UL << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -542,7 +712,7 @@ iss::status riscv_hart_m_p<BASE, FEAT>::read(const address_type type, const acce
}
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
this->trap_state = (1UL << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -580,25 +750,36 @@ iss::status riscv_hart_m_p<BASE, FEAT>::write(const address_type type, const acc
if (unlikely((access && iss::access_type::FETCH) && (addr & 0x1) == 1)) {
fault_data = addr;
if (access && iss::access_type::DEBUG) throw trap_access(0, addr);
this->reg.trap_state = (1 << 31); // issue trap 0
this->trap_state = (1UL << 31); // issue trap 0
return iss::Err;
}
try {
if(!(access && iss::access_type::DEBUG) && length>1 && (addr&(length-1))){
this->reg.trap_state = 1<<31 | 6<<16;
if(length>1 && (addr&(length-1)) && (access&access_type::DEBUG) != access_type::DEBUG){
this->trap_state = (1UL << 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);
auto phys_addr = type==iss::address_type::PHYSICAL?phys_addr_t{access, space, addr}:BASE::v2p(iss::addr_t{access, type, space, addr});
auto res = iss::Err;
if(access != access_type::FETCH && memfn_range.size()){
auto it = std::find_if(std::begin(memfn_range), std::end(memfn_range), [phys_addr](std::tuple<uint64_t, uint64_t> const& a){
return std::get<0>(a)<=phys_addr.val && (std::get<0>(a)+std::get<1>(a))>phys_addr.val;
});
if(it!=std::end(memfn_range)) {
auto idx = std::distance(std::begin(memfn_range), it);
res = memfn_write[idx]( phys_addr, length, data);
} else
res = write_mem( phys_addr, length, data);
} else {
res = write_mem( phys_addr, length, data);
}
if (unlikely(res != iss::Ok)) {
this->reg.trap_state = (1 << 31) | (7 << 16); // issue trap 7 (Store/AMO access fault)
this->trap_state = (1UL << 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;
this->trap_state = (1UL << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -658,7 +839,7 @@ iss::status riscv_hart_m_p<BASE, FEAT>::write(const address_type type, const acc
}
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
this->trap_state = (1UL << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -704,11 +885,10 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::read_cycle(unsigned addr, reg_t &val) {
auto cycle_val = this->reg.icount + cycle_offset;
auto cycle_val = this->icount + cycle_offset;
if (addr == mcycle) {
val = static_cast<reg_t>(cycle_val);
} else if (addr == mcycleh) {
if (sizeof(typename traits<BASE>::reg_t) != 4) return iss::Err;
val = static_cast<reg_t>(cycle_val >> 32);
}
return iss::Ok;
@ -716,8 +896,6 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::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) {
@ -726,38 +904,35 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
mcycle_csr = (static_cast<uint64_t>(val)<<32) + (mcycle_csr & 0xffffffff);
}
}
cycle_offset = mcycle_csr-this->reg.icount; // TODO: relying on wrap-around
cycle_offset = mcycle_csr-this->icount; // TODO: relying on wrap-around
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::read_instret(unsigned addr, reg_t &val) {
if ((addr&0xff) == (minstret&0xff)) {
val = static_cast<reg_t>(this->reg.instret);
val = static_cast<reg_t>(this->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);
val = static_cast<reg_t>(this->instret >> 32);
}
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::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);
this->instret = static_cast<uint64_t>(val);
} else {
if ((addr&0xff) == (minstret&0xff)) {
this->reg.instret = (this->reg.instret & 0xffffffff00000000) + val;
this->instret = (this->instret & 0xffffffff00000000) + val;
} else {
this->reg.instret = (static_cast<uint64_t>(val)<<32) + (this->reg.instret & 0xffffffff);
this->instret = (static_cast<uint64_t>(val)<<32) + (this->instret & 0xffffffff);
}
}
this->reg.instret--;
this->instret--;
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::read_time(unsigned addr, reg_t &val) {
uint64_t time_val = this->reg.icount / (100000000 / 32768 - 1); //-> ~3052;
uint64_t time_val = this->icount / (100000000 / 32768 - 1); //-> ~3052;
if (addr == time) {
val = static_cast<reg_t>(time_val);
} else if (addr == timeh) {
@ -768,7 +943,7 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::read_tvec(unsigned addr, reg_t &val) {
val = csr[mtvec] & ~2;
val = FEAT & features_e::FEAT_CLIC? csr[addr] : csr[addr] & ~2;
return iss::Ok;
}
@ -783,8 +958,30 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::read_cause(unsigned addr, reg_t &val) {
auto res = csr[addr];
if((FEAT & features_e::FEAT_CLIC) && (csr[mtvec]&0x3)==3) {
val = csr[addr] & ((1UL<<(traits<BASE>::XLEN-1)) | (mcause_max_irq-1) | (0xfUL<<16));
val |= clic_mprev_lvl<<16;
val |= state.mstatus.MPIE<<27;
val |= state.mstatus.MPP<<28;
} else
val = csr[addr] & ((1UL<<(traits<BASE>::XLEN-1)) | (mcause_max_irq-1));
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::write_cause(unsigned addr, reg_t val) {
csr[mcause] = val & ((1UL<<(traits<BASE>::XLEN-1))| (mcause_max_irq-1));
csr[addr] = val & ((1UL<<(traits<BASE>::XLEN-1)) | (mcause_max_irq-1));
if((FEAT & features_e::FEAT_CLIC) && (csr[mtvec]&0x3)==3) {
auto mask = ((1UL<<(traits<BASE>::XLEN-1)) | (mcause_max_irq-1) | (0xfUL<<16));
csr[addr] = (val & mask) | (csr[addr] & ~mask);
clic_mprev_lvl = ((val>>16)&0xff) | (1<<(8-cfg. clic_int_ctl_bits)) - 1;
state.mstatus.MPIE=(val>>27)&0x1;
state.mstatus.MPP=(val>>28)&0x3;
} else {
auto mask = ((1UL<<(traits<BASE>::XLEN-1)) | (mcause_max_irq-1));
csr[addr] = (val & mask) | (csr[addr] & ~mask);
}
return iss::Ok;
}
@ -812,14 +1009,6 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::write_ip(unsigned addr, reg_t val) {
auto mask = get_irq_mask();
mask &= 0xf; // only xSIP is writable
csr[mip] = (csr[mip] & ~mask) | (val & mask);
check_interrupt();
return iss::Ok;
}
template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>::write_epc(unsigned addr, reg_t val) {
csr[addr] = val & get_pc_mask();
return iss::Ok;
@ -864,9 +1053,26 @@ template <typename BASE, features_e FEAT> iss::status riscv_hart_m_p<BASE, FEAT>
return iss::Ok;
}
template<typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::read_intstatus(unsigned addr, reg_t& val) {
val = (clic_mact_lvl&0xff) <<24;
return iss::Ok;
}
template<typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::write_intthresh(unsigned addr, reg_t val) {
csr[addr]= (val &0xff) | (1<<(cfg.clic_int_ctl_bits)) - 1;
return iss::Ok;
}
template<typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::write_xtvt(unsigned addr, reg_t val) {
csr[addr]= val & ~0x3fULL;
return iss::Ok;
}
template <typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::read_mem(phys_addr_t paddr, unsigned length, uint8_t *const data) {
if(mem_read_cb) return mem_read_cb(paddr, length, data);
switch (paddr.val) {
case 0x0200BFF8: { // CLINT base, mtime reg
if (sizeof(reg_t) < length) return iss::Err;
@ -878,7 +1084,7 @@ iss::status riscv_hart_m_p<BASE, FEAT>::read_mem(phys_addr_t paddr, unsigned len
const mem_type::page_type &p = mem(paddr.val / mem.page_size);
uint64_t offs = paddr.val & mem.page_addr_mask;
std::copy(p.data() + offs, p.data() + offs + length, data);
if (this->reg.icount > 30000) data[3] |= 0x80;
if (this->icount > 30000) data[3] |= 0x80;
} break;
default: {
for(auto offs=0U; offs<length; ++offs) {
@ -891,14 +1097,12 @@ iss::status riscv_hart_m_p<BASE, FEAT>::read_mem(phys_addr_t paddr, unsigned len
template <typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t *const data) {
if(mem_write_cb) return mem_write_cb(paddr, length, data);
switch (paddr.val) {
case 0x10013000: // UART0 base, TXFIFO reg
case 0x10023000: // UART1 base, TXFIFO reg
uart_buf << (char)data[0];
if (((char)data[0]) == '\n' || data[0] == 0) {
// LOG(INFO)<<"UART"<<((paddr.val>>16)&0x3)<<" send
// '"<<uart_buf.str()<<"'";
LOG(INFO)<<"UART"<<((paddr.val>>16)&0x3)<<" send '"<<uart_buf.str()<<"'";
std::cout << uart_buf.str();
uart_buf.str("");
}
@ -938,7 +1142,7 @@ iss::status riscv_hart_m_p<BASE, FEAT>::write_mem(phys_addr_t paddr, unsigned le
LOG(INFO) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
}
this->reg.trap_state=std::numeric_limits<uint32_t>::max();
this->trap_state=std::numeric_limits<uint32_t>::max();
this->interrupt_sim=hostvar;
break;
//throw(iss::simulation_stopped(hostvar));
@ -967,12 +1171,45 @@ iss::status riscv_hart_m_p<BASE, FEAT>::write_mem(phys_addr_t paddr, unsigned le
return iss::Ok;
}
template<typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::read_clic(uint64_t addr, unsigned length, uint8_t *const data) {
if(addr==cfg.clic_base) { // cliccfg
*data=clic_cfg_reg;
for(auto i=1; i<length; ++i) *(data+i)=0;
} else if(addr>=(cfg.clic_base+0x40) && (addr+length)<=(cfg.clic_base+0x40+cfg.clic_num_trigger*4)){ // clicinttrig
auto offset = ((addr&0x7fff)-0x40)/4;
read_reg_uint32(addr, clic_inttrig_reg[offset], data, length);
} else if(addr>=(cfg.clic_base+0x1000) && (addr+length)<=(cfg.clic_base+0x1000+cfg.clic_num_irq*4)){ // clicintip/clicintie/clicintattr/clicintctl
auto offset = ((addr&0x7fff)-0x1000)/4;
read_reg_uint32(addr, clic_int_reg[offset].raw, data, length);
} else {
for(auto i = 0U; i<length; ++i) *(data+i)=0;
}
return iss::Ok;
}
template<typename BASE, features_e FEAT>
iss::status riscv_hart_m_p<BASE, FEAT>::write_clic(uint64_t addr, unsigned length, const uint8_t *const data) {
if(addr==cfg.clic_base) { // cliccfg
clic_cfg_reg = (clic_cfg_reg&~0x1e) | (*data&0x1e);
} else if(addr>=(cfg.clic_base+0x40) && (addr+length)<=(cfg.clic_base+0x40+cfg.clic_num_trigger*4)){ // clicinttrig
auto offset = ((addr&0x7fff)-0x40)/4;
write_reg_uint32(addr, clic_inttrig_reg[offset], data, length);
} else if(addr>=(cfg.clic_base+0x1000) && (addr+length)<=(cfg.clic_base+0x1000+cfg.clic_num_irq*4)){ // clicintip/clicintie/clicintattr/clicintctl
auto offset = ((addr&0x7fff)-0x1000)/4;
write_reg_uint32(addr, clic_int_reg[offset].raw, data, length);
clic_int_reg[offset].raw &= 0xf0c70101; // clicIntCtlBits->0xf0, clicintattr->0xc7, clicintie->0x1, clicintip->0x1
}
return iss::Ok;
}
template <typename BASE, features_e FEAT> inline void riscv_hart_m_p<BASE, FEAT>::reset(uint64_t address) {
BASE::reset(address);
state.mstatus = hart_state_type::mstatus_reset_val;
}
template <typename BASE, features_e FEAT> void riscv_hart_m_p<BASE, FEAT>::check_interrupt() {
//TODO: Implement CLIC functionality
//auto ideleg = csr[mideleg];
// Multiple simultaneous interrupts and traps at the same privilege level are
// handled in the following decreasing priority order:
@ -980,8 +1217,8 @@ template <typename BASE, features_e FEAT> void riscv_hart_m_p<BASE, FEAT>::check
// any synchronous traps.
auto ena_irq = csr[mip] & csr[mie];
bool mie = state.mstatus.MIE;
auto m_enabled = this->reg.PRIV < PRIV_M || (this->reg.PRIV == PRIV_M && mie);
bool mstatus_mie = state.mstatus.MIE;
auto m_enabled = this->reg.PRIV < PRIV_M || mstatus_mie;
auto enabled_interrupts = m_enabled ? ena_irq : 0;
if (enabled_interrupts != 0) {
@ -990,16 +1227,17 @@ template <typename BASE, features_e FEAT> void riscv_hart_m_p<BASE, FEAT>::check
enabled_interrupts >>= 1;
res++;
}
this->reg.pending_trap = res << 16 | 1; // 0x80 << 24 | (cause << 16) | trap_id
this->pending_trap = res << 16 | 1; // 0x80 << 24 | (cause << 16) | trap_id
}
}
template <typename BASE, features_e FEAT> uint64_t riscv_hart_m_p<BASE, FEAT>::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);
auto const trap_id = bit_sub<0, 16>(flags);
auto cause = bit_sub<16, 15>(flags);
// calculate effective privilege level
unsigned new_priv = PRIV_M;
if (trap_id == 0) { // exception
if (cause == 11) cause = 0x8 + PRIV_M; // adjust environment call cause
// store ret addr in xepc register
@ -1016,13 +1254,16 @@ template <typename BASE, features_e FEAT> uint64_t riscv_hart_m_p<BASE, FEAT>::e
csr[mtval] = static_cast<reg_t>(addr);
break;
case 2:
csr[mtval] = (instr & 0x3)==3?instr:instr&0xffff;
csr[mtval] = (!has_compressed() || (instr & 0x3)==3)?instr:instr&0xffff;
break;
case 3:
//TODO: implement debug mode behavior
// csr[dpc] = addr;
// csr[dcsr] = (csr[dcsr] & ~0x1c3) | (1<<6) | PRIV_M; //FIXME: cause should not be 4 (stepi)
csr[mtval] = addr;
if((FEAT & FEAT_DEBUG) && (csr[dcsr] & 0x8000)) {
this->reg.DPC = addr;
csr[dcsr] = (csr[dcsr] & ~0x1c3) | (1<<6) | PRIV_M; //FIXME: cause should not be 4 (stepi)
new_priv = this->reg.PRIV | PRIV_D;
} else {
csr[mtval] = addr;
}
break;
case 4:
case 6:
@ -1034,7 +1275,7 @@ template <typename BASE, features_e FEAT> uint64_t riscv_hart_m_p<BASE, FEAT>::e
fault_data = 0;
} else {
csr[mepc] = this->reg.NEXT_PC & get_pc_mask(); // store next address if interrupt
this->reg.pending_trap = 0;
this->pending_trap = 0;
}
csr[mcause] = (trap_id << (traits<BASE>::XLEN-1)) + cause;
// update mstatus
@ -1049,14 +1290,22 @@ template <typename BASE, features_e FEAT> uint64_t riscv_hart_m_p<BASE, FEAT>::e
state.mstatus.MIE = false;
// get trap vector
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 & ~0x3UL;
if ((ivec & 0x1) == 1 && trap_id != 0) this->reg.NEXT_PC += 4 * cause;
auto xtvec = csr[mtvec];
// calculate adds// set NEXT_PC to trap addressess to jump to based on MODE
if((FEAT & features_e::FEAT_CLIC) && trap_id!=0 && (xtvec & 0x3UL)==3UL) {
reg_t data;
auto ret = read(address_type::LOGICAL, access_type::READ, 0, csr[mtvt], sizeof(reg_t), reinterpret_cast<uint8_t*>(&data));
if(ret == iss::Err)
return this->reg.PC;
this->reg.NEXT_PC = data;
} else {
// bits in mtvec
this->reg.NEXT_PC = xtvec & ~0x3UL;
if ((xtvec & 0x1) == 1 && trap_id != 0) this->reg.NEXT_PC += 4 * cause;
}
// reset trap state
this->reg.PRIV = PRIV_M;
this->reg.trap_state = 0;
this->reg.PRIV = new_priv;
this->trap_state = 0;
std::array<char, 32> buffer;
#if defined(_MSC_VER)
sprintf(buffer.data(), "0x%016llx", addr);
@ -1077,6 +1326,7 @@ template <typename BASE, features_e FEAT> uint64_t riscv_hart_m_p<BASE, FEAT>::l
this->reg.NEXT_PC = csr[mepc] & get_pc_mask();
CLOG(INFO, disass) << "Executing xRET";
check_interrupt();
this->trap_state = this->pending_trap;
return this->reg.NEXT_PC;
}

118
incl/iss/arch/riscv_hart_msu_vp.h → src/iss/arch/riscv_hart_msu_vp.h
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, 2021 MINRES Technologies GmbH
* Copyright (C) 2017 - 2023 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -307,19 +307,11 @@ public:
void disass_output(uint64_t pc, const std::string instr) override {
CLOG(INFO, disass) << fmt::format("0x{:016x} {:40} [p:{};s:0x{:x};c:{}]",
pc, instr, lvl[this->reg.PRIV], (reg_t)state.mstatus, this->reg.ccount + cycle_offset);
pc, instr, lvl[this->reg.PRIV], (reg_t)state.mstatus, this->icount + cycle_offset);
};
iss::instrumentation_if *get_instrumentation_if() override { return &instr_if; }
void setMemReadCb(std::function<iss::status(phys_addr_t, unsigned, uint8_t* const)> const& memReadCb) {
mem_read_cb = memReadCb;
}
void setMemWriteCb(std::function<iss::status(phys_addr_t, unsigned, const uint8_t* const)> const& memWriteCb) {
mem_write_cb = memWriteCb;
}
void set_csr(unsigned addr, reg_t val){
csr[addr & csr.page_addr_mask] = val;
}
@ -340,11 +332,17 @@ protected:
virtual uint64_t get_next_pc() { return arch.get_next_pc(); };
uint64_t get_instr_count() { return arch.reg.icount; }
uint64_t get_instr_word() override { return arch.instruction; }
uint64_t get_total_cycles() override { return arch.reg.icount + arch.cycle_offset; }
uint64_t get_instr_count() { return arch.icount; }
virtual void set_curr_instr_cycles(unsigned cycles) { arch.cycle_offset += cycles - 1; };
uint64_t get_pendig_traps() override { return arch.trap_state; }
uint64_t get_total_cycles() override { return arch.icount + arch.cycle_offset; }
void update_last_instr_cycles(unsigned cycles) override { arch.cycle_offset += cycles - 1; };
bool is_branch_taken() override { return arch.last_branch; };
riscv_hart_msu_vp<BASE> &arch;
};
@ -400,7 +398,6 @@ private:
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);
iss::status read_satp(unsigned addr, reg_t &val);
@ -408,9 +405,17 @@ private:
iss::status read_fcsr(unsigned addr, reg_t &val);
iss::status write_fcsr(unsigned addr, reg_t val);
virtual iss::status read_custom_csr_reg(unsigned addr, reg_t &val) {return iss::status::Err;};
virtual iss::status write_custom_csr_reg(unsigned addr, reg_t val) {return iss::status::Err;};
void register_custom_csr_rd(unsigned addr){
csr_rd_cb[addr] = &this_class::read_custom_csr_reg;
}
void register_custom_csr_wr(unsigned addr){
csr_wr_cb[addr] = &this_class::write_custom_csr_reg;
}
reg_t mhartid_reg{0x0};
std::function<iss::status(phys_addr_t, unsigned, uint8_t *const)>mem_read_cb;
std::function<iss::status(phys_addr_t, unsigned, const uint8_t *const)> mem_write_cb;
protected:
void check_interrupt();
@ -489,11 +494,11 @@ riscv_hart_msu_vp<BASE>::riscv_hart_msu_vp()
csr_wr_cb[sepc] = &this_class::write_epc;
csr_wr_cb[uepc] = &this_class::write_epc;
csr_rd_cb[mip] = &this_class::read_ip;
csr_wr_cb[mip] = &this_class::write_ip;
csr_wr_cb[mip] = &this_class::write_null;
csr_rd_cb[sip] = &this_class::read_ip;
csr_wr_cb[sip] = &this_class::write_ip;
csr_wr_cb[sip] = &this_class::write_null;
csr_rd_cb[uip] = &this_class::read_ip;
csr_wr_cb[uip] = &this_class::write_ip;
csr_wr_cb[uip] = &this_class::write_null;
csr_rd_cb[mie] = &this_class::read_ie;
csr_wr_cb[mie] = &this_class::write_ie;
csr_rd_cb[sie] = &this_class::read_ie;
@ -598,13 +603,19 @@ iss::status riscv_hart_msu_vp<BASE>::read(const address_type type, const access_
try {
switch (space) {
case traits<BASE>::MEM: {
if (unlikely((access == iss::access_type::FETCH || access == iss::access_type::DEBUG_FETCH) && (addr & 0x1) == 1)) {
auto alignment = is_fetch(access)? (traits<BASE>::MISA_VAL&0x100? 2 : 4) : length;
if (unlikely(is_fetch(access) && (addr&(alignment-1)))) {
fault_data = addr;
if (access && iss::access_type::DEBUG) throw trap_access(0, addr);
this->reg.trap_state = (1 << 31); // issue trap 0
this->trap_state = (1 << 31); // issue trap 0
return iss::Err;
}
try {
if(!is_debug(access) && (addr&(alignment-1))){
this->trap_state = 1<<31 | 4<<16;
fault_data=addr;
return iss::Err;
}
if (unlikely((addr & ~PGMASK) != ((addr + length - 1) & ~PGMASK))) { // we may cross a page boundary
vm_info vm = hart_state_type::decode_vm_info(this->reg.PRIV, state.satp);
if (vm.levels != 0) { // VM is active
@ -620,12 +631,12 @@ iss::status riscv_hart_msu_vp<BASE>::read(const address_type type, const access_
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
this->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;
this->trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -641,7 +652,7 @@ iss::status riscv_hart_msu_vp<BASE>::read(const address_type type, const access_
case 3: { // SFENCE:VMA upper
auto tvm = state.mstatus.TVM;
if (this->reg.PRIV == PRIV_S & tvm != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
return iss::Err;
}
@ -662,7 +673,7 @@ iss::status riscv_hart_msu_vp<BASE>::read(const address_type type, const access_
}
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
this->trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -700,7 +711,7 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
if (unlikely((access && iss::access_type::FETCH) && (addr & 0x1) == 1)) {
fault_data = addr;
if (access && iss::access_type::DEBUG) throw trap_access(0, addr);
this->reg.trap_state = (1 << 31); // issue trap 0
this->trap_state = (1 << 31); // issue trap 0
return iss::Err;
}
try {
@ -719,12 +730,12 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
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) | (7 << 16); // issue trap 7 (Store/AMO access fault)
this->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;
this->trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -773,7 +784,7 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
ptw.clear();
auto tvm = state.mstatus.TVM;
if (this->reg.PRIV == PRIV_S & tvm != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
return iss::Err;
}
@ -789,7 +800,7 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
}
return iss::Ok;
} catch (trap_access &ta) {
this->reg.trap_state = (1 << 31) | ta.id;
this->trap_state = (1 << 31) | ta.id;
fault_data=ta.addr;
return iss::Err;
}
@ -834,8 +845,8 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_reg(unsigned
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_cycle(unsigned addr, reg_t &val) {
auto cycle_val = this->reg.icount + cycle_offset;
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_cycle(unsigned addr, reg_t &val) {
auto cycle_val = this->icount + cycle_offset;
if (addr == mcycle) {
val = static_cast<reg_t>(cycle_val);
} else if (addr == mcycleh) {
@ -845,7 +856,7 @@ 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) {
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_cycle(unsigned addr, reg_t val) {
if (sizeof(typename traits<BASE>::reg_t) != 4) {
if (addr == mcycleh)
return iss::Err;
@ -857,11 +868,11 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_cycle(unsigned
mcycle_csr = (static_cast<uint64_t>(val)<<32) + (mcycle_csr & 0xffffffff);
}
}
cycle_offset = mcycle_csr-this->reg.icount; // TODO: relying on wrap-around
cycle_offset = mcycle_csr-this->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) {
template <typename BASE> iss::status riscv_hart_msu_vp<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)) {
@ -871,7 +882,7 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::read_instret(unsigned
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_instret(unsigned addr, reg_t val) {
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_instret(unsigned addr, reg_t val) {
if (sizeof(typename traits<BASE>::reg_t) != 4) {
if ((addr&0xff) == (minstreth&0xff))
return iss::Err;
@ -887,8 +898,8 @@ template <typename BASE> iss::status riscv_hart_m_p<BASE>::write_instret(unsigne
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 / (100000000 / 32768 - 1); //-> ~3052;
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_time(unsigned addr, reg_t &val) {
uint64_t time_val = this->icount / (100000000 / 32768 - 1); //-> ~3052;
if (addr == time) {
val = static_cast<reg_t>(time_val);
} else if (addr == timeh) {
@ -898,7 +909,7 @@ 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) {
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_tvec(unsigned addr, reg_t &val) {
val = csr[addr] & ~2;
return iss::Ok;
}
@ -949,15 +960,6 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_ip(unsigned a
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_ip(unsigned addr, reg_t val) {
auto req_priv_lvl = (addr >> 8) & 0x3;
auto mask = get_irq_mask(req_priv_lvl);
mask &= ~(1 << 7); // MTIP is read only
csr[mip] = (csr[mip] & ~mask) | (val & mask);
check_interrupt();
return iss::Ok;
}
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_epc(unsigned addr, reg_t val) {
csr[addr] = val & get_pc_mask();
return iss::Ok;
@ -966,7 +968,7 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_epc(unsigned
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_satp(unsigned addr, reg_t &val) {
reg_t tvm = state.mstatus.TVM;
if (this->reg.PRIV == PRIV_S & tvm != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
return iss::Err;
}
@ -977,7 +979,7 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_satp(unsigned
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_satp(unsigned addr, reg_t val) {
reg_t tvm = state.mstatus.TVM;
if (this->reg.PRIV == PRIV_S & tvm != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
return iss::Err;
}
@ -1021,7 +1023,6 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_fcsr(unsigne
template <typename BASE>
iss::status riscv_hart_msu_vp<BASE>::read_mem(phys_addr_t paddr, unsigned length, uint8_t *const data) {
if(mem_read_cb) return mem_read_cb(paddr, length, data);
switch (paddr.val) {
case 0x0200BFF8: { // CLINT base, mtime reg
if (sizeof(reg_t) < length) return iss::Err;
@ -1033,7 +1034,7 @@ iss::status riscv_hart_msu_vp<BASE>::read_mem(phys_addr_t paddr, unsigned length
const mem_type::page_type &p = mem(paddr.val / mem.page_size);
uint64_t offs = paddr.val & mem.page_addr_mask;
std::copy(p.data() + offs, p.data() + offs + length, data);
if (this->reg.icount > 30000) data[3] |= 0x80;
if (this->icount > 30000) data[3] |= 0x80;
} break;
default: {
for(auto offs=0U; offs<length; ++offs) {
@ -1046,7 +1047,6 @@ iss::status riscv_hart_msu_vp<BASE>::read_mem(phys_addr_t paddr, unsigned length
template <typename BASE>
iss::status riscv_hart_msu_vp<BASE>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t *const data) {
if(mem_write_cb) return mem_write_cb(paddr, length, data);
switch (paddr.val) {
case 0x10013000: // UART0 base, TXFIFO reg
case 0x10023000: // UART1 base, TXFIFO reg
@ -1093,7 +1093,7 @@ iss::status riscv_hart_msu_vp<BASE>::write_mem(phys_addr_t paddr, unsigned lengt
LOG(INFO) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
}
this->reg.trap_state=std::numeric_limits<uint32_t>::max();
this->trap_state=std::numeric_limits<uint32_t>::max();
this->interrupt_sim=hostvar;
break;
//throw(iss::simulation_stopped(hostvar));
@ -1162,7 +1162,7 @@ template <typename BASE> void riscv_hart_msu_vp<BASE>::check_interrupt() {
if (enabled_interrupts != 0) {
int res = 0;
while ((enabled_interrupts & 1) == 0) enabled_interrupts >>= 1, res++;
this->reg.pending_trap = res << 16 | 1; // 0x80 << 24 | (cause << 16) | trap_id
this->pending_trap = res << 16 | 1; // 0x80 << 24 | (cause << 16) | trap_id
}
}
@ -1306,7 +1306,7 @@ template <typename BASE> uint64_t riscv_hart_msu_vp<BASE>::enter_trap(uint64_t f
if (cur_priv != PRIV_M && ((csr[mideleg] >> cause) & 0x1) != 0)
new_priv = (csr[sideleg] >> cause) & 0x1 ? PRIV_U : PRIV_S;
csr[uepc | (new_priv << 8)] = this->reg.NEXT_PC; // store next address if interrupt
this->reg.pending_trap = 0;
this->pending_trap = 0;
}
size_t adr = ucause | (new_priv << 8);
csr[adr] = (trap_id << 31) + cause;
@ -1351,7 +1351,7 @@ template <typename BASE> uint64_t riscv_hart_msu_vp<BASE>::enter_trap(uint64_t f
<< lvl[cur_priv] << " to " << lvl[new_priv];
// reset trap state
this->reg.PRIV = new_priv;
this->reg.trap_state = 0;
this->trap_state = 0;
update_vm_info();
return this->reg.NEXT_PC;
}
@ -1363,7 +1363,7 @@ template <typename BASE> uint64_t riscv_hart_msu_vp<BASE>::leave_trap(uint64_t f
auto tsr = state.mstatus.TSR;
if (cur_priv == PRIV_S && inst_priv == PRIV_S && tsr != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
return this->reg.PC;
}
@ -1402,7 +1402,7 @@ template <typename BASE> void riscv_hart_msu_vp<BASE>::wait_until(uint64_t flags
auto status = state.mstatus;
auto tw = status.TW;
if (this->reg.PRIV == PRIV_S && tw != 0) {
this->reg.trap_state = (1 << 31) | (2 << 16);
this->trap_state = (1 << 31) | (2 << 16);
this->fault_data = this->reg.PC;
}
}

588
incl/iss/arch/riscv_hart_mu_p.h → src/iss/arch/riscv_hart_mu_p.h
View File

File diff suppressed because it is too large Load Diff

14
src/iss/tgc_c.cpp → src/iss/arch/tgc_c.cpp
View File

@ -30,9 +30,9 @@
*
*******************************************************************************/
#include "tgc_c.h"
#include "util/ities.h"
#include <util/logging.h>
#include <iss/arch/tgc_c.h>
#include <cstdio>
#include <cstring>
#include <fstream>
@ -41,12 +41,10 @@ using namespace iss::arch;
constexpr std::array<const char*, 36> iss::arch::traits<iss::arch::tgc_c>::reg_names;
constexpr std::array<const char*, 36> iss::arch::traits<iss::arch::tgc_c>::reg_aliases;
constexpr std::array<const uint32_t, 41> iss::arch::traits<iss::arch::tgc_c>::reg_bit_widths;
constexpr std::array<const uint32_t, 41> iss::arch::traits<iss::arch::tgc_c>::reg_byte_offsets;
constexpr std::array<const uint32_t, 43> iss::arch::traits<iss::arch::tgc_c>::reg_bit_widths;
constexpr std::array<const uint32_t, 43> iss::arch::traits<iss::arch::tgc_c>::reg_byte_offsets;
tgc_c::tgc_c() {
reg.icount = 0;
}
tgc_c::tgc_c() = default;
tgc_c::~tgc_c() = default;
@ -57,8 +55,8 @@ void tgc_c::reset(uint64_t address) {
reg.PC=address;
reg.NEXT_PC=reg.PC;
reg.PRIV=0x3;
reg.trap_state=0;
reg.icount=0;
trap_state=0;
icount=0;
}
uint8_t *tgc_c::get_regs_base_ptr() {

130
incl/iss/arch/tgc_c.h → src/iss/arch/tgc_c.h
View File

@ -53,17 +53,12 @@ template <> struct traits<tgc_c> {
static constexpr std::array<const char*, 36> reg_aliases{
{"ZERO", "RA", "SP", "GP", "TP", "T0", "T1", "T2", "S0", "S1", "A0", "A1", "A2", "A3", "A4", "A5", "A6", "A7", "S2", "S3", "S4", "S5", "S6", "S7", "S8", "S9", "S10", "S11", "T3", "T4", "T5", "T6", "PC", "NEXT_PC", "PRIV", "DPC"}};
enum constants {MISA_VAL=0b01000000000000000001000100000100, MARCHID_VAL=0x80000003, XLEN=32, CSR_SIZE=4096, INSTR_ALIGNMENT=2, fence=0, fencei=1, fencevmal=2, fencevmau=3, MUL_LEN=64};
enum constants {MISA_VAL=0b01000000000000000001000100000100, MARCHID_VAL=0x80000003, XLEN=32, INSTR_ALIGNMENT=2, RFS=32, fence=0, fencei=1, fencevmal=2, fencevmau=3, CSR_SIZE=4096, MUL_LEN=64};
constexpr static unsigned FP_REGS_SIZE = 0;
enum reg_e {
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, DPC, NUM_REGS,
TRAP_STATE=NUM_REGS,
PENDING_TRAP,
ICOUNT,
CYCLE,
INSTRET
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, DPC, NUM_REGS, TRAP_STATE=NUM_REGS, PENDING_TRAP, ICOUNT, CYCLE, INSTRET, INSTRUCTION, LAST_BRANCH
};
using reg_t = uint32_t;
@ -76,17 +71,17 @@ template <> struct traits<tgc_c> {
using phys_addr_t = iss::typed_addr_t<iss::address_type::PHYSICAL>;
static constexpr std::array<const uint32_t, 41> reg_bit_widths{
{32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,8,32,32,32,64,64,64}};
static constexpr std::array<const uint32_t, 43> reg_bit_widths{
{32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,32,8,32,32,32,64,64,64,32,32}};
static constexpr std::array<const uint32_t, 41> reg_byte_offsets{
{0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100,104,108,112,116,120,124,128,132,136,137,141,145,149,157,165}};
static constexpr std::array<const uint32_t, 43> reg_byte_offsets{
{0,4,8,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68,72,76,80,84,88,92,96,100,104,108,112,116,120,124,128,132,136,137,141,145,149,157,165,173,177}};
static const uint64_t addr_mask = (reg_t(1) << (XLEN - 1)) | ((reg_t(1) << (XLEN - 1)) - 1);
enum sreg_flag_e { FLAGS };
enum mem_type_e { MEM, CSR, FENCE, RES };
enum mem_type_e { MEM, FENCE, RES, CSR };
enum class opcode_e : unsigned short {
LUI = 0,
@ -129,56 +124,53 @@ template <> struct traits<tgc_c> {
FENCE = 37,
ECALL = 38,
EBREAK = 39,
URET = 40,
SRET = 41,
MRET = 42,
WFI = 43,
DRET = 44,
CSRRW = 45,
CSRRS = 46,
CSRRC = 47,
CSRRWI = 48,
CSRRSI = 49,
CSRRCI = 50,
FENCE_I = 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,
__reserved_clui = 69,
CSRLI = 70,
CSRAI = 71,
CANDI = 72,
CSUB = 73,
CXOR = 74,
COR = 75,
CAND = 76,
CJ = 77,
CBEQZ = 78,
CBNEZ = 79,
CSLLI = 80,
CLWSP = 81,
CMV = 82,
CJR = 83,
__reserved_cmv = 84,
CADD = 85,
CJALR = 86,
CEBREAK = 87,
CSWSP = 88,
DII = 89,
MRET = 40,
WFI = 41,
CSRRW = 42,
CSRRS = 43,
CSRRC = 44,
CSRRWI = 45,
CSRRSI = 46,
CSRRCI = 47,
FENCE_I = 48,
MUL = 49,
MULH = 50,
MULHSU = 51,
MULHU = 52,
DIV = 53,
DIVU = 54,
REM = 55,
REMU = 56,
CADDI4SPN = 57,
CLW = 58,
CSW = 59,
CADDI = 60,
CNOP = 61,
CJAL = 62,
CLI = 63,
CLUI = 64,
CADDI16SP = 65,
__reserved_clui = 66,
CSRLI = 67,
CSRAI = 68,
CANDI = 69,
CSUB = 70,
CXOR = 71,
COR = 72,
CAND = 73,
CJ = 74,
CBEQZ = 75,
CBNEZ = 76,
CSLLI = 77,
CLWSP = 78,
CMV = 79,
CJR = 80,
__reserved_cmv = 81,
CADD = 82,
CJALR = 83,
CEBREAK = 84,
CSWSP = 85,
DII = 86,
MAX_OPCODE
};
};
@ -197,7 +189,7 @@ struct tgc_c: public arch_if {
uint8_t* get_regs_base_ptr() override;
inline uint64_t get_icount() { return reg.icount; }
inline uint64_t get_icount() { return icount; }
inline bool should_stop() { return interrupt_sim; }
@ -215,7 +207,7 @@ struct tgc_c: public arch_if {
virtual iss::sync_type needed_sync() const { return iss::NO_SYNC; }
inline uint32_t get_last_branch() { return reg.last_branch; }
inline uint32_t get_last_branch() { return last_branch; }
#pragma pack(push, 1)
@ -258,10 +250,18 @@ struct tgc_c: public arch_if {
uint32_t DPC = 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;
uint32_t instruction = 0;
uint32_t last_branch = 0;
} reg;
#pragma pack(pop)
uint32_t trap_state = 0, pending_trap = 0;
uint64_t icount = 0;
uint64_t cycle = 0;
uint64_t instret = 0;
uint32_t instruction = 0;
uint32_t last_branch = 0;
std::array<address_type, 4> addr_mode;
uint64_t interrupt_sim=0;

175
src/iss/arch/tgc_c_decoder.cpp Normal file
View File

@ -0,0 +1,175 @@
#include "tgc_c.h"
#include <vector>
#include <array>
#include <cstdlib>
#include <algorithm>
namespace iss {
namespace arch {
namespace {
// 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
using opcode_e = traits<tgc_c>::opcode_e;
/****************************************************************************
* start opcode definitions
****************************************************************************/
struct instruction_desriptor {
size_t length;
uint32_t value;
uint32_t mask;
opcode_e op;
};
const std::array<instruction_desriptor, 90> instr_descr = {{
/* entries are: size, valid value, valid mask, function ptr */
{32, 0b00000000000000000000000000110111, 0b00000000000000000000000001111111, opcode_e::LUI},
{32, 0b00000000000000000000000000010111, 0b00000000000000000000000001111111, opcode_e::AUIPC},
{32, 0b00000000000000000000000001101111, 0b00000000000000000000000001111111, opcode_e::JAL},
{32, 0b00000000000000000000000001100111, 0b00000000000000000111000001111111, opcode_e::JALR},
{32, 0b00000000000000000000000001100011, 0b00000000000000000111000001111111, opcode_e::BEQ},
{32, 0b00000000000000000001000001100011, 0b00000000000000000111000001111111, opcode_e::BNE},
{32, 0b00000000000000000100000001100011, 0b00000000000000000111000001111111, opcode_e::BLT},
{32, 0b00000000000000000101000001100011, 0b00000000000000000111000001111111, opcode_e::BGE},
{32, 0b00000000000000000110000001100011, 0b00000000000000000111000001111111, opcode_e::BLTU},
{32, 0b00000000000000000111000001100011, 0b00000000000000000111000001111111, opcode_e::BGEU},
{32, 0b00000000000000000000000000000011, 0b00000000000000000111000001111111, opcode_e::LB},
{32, 0b00000000000000000001000000000011, 0b00000000000000000111000001111111, opcode_e::LH},
{32, 0b00000000000000000010000000000011, 0b00000000000000000111000001111111, opcode_e::LW},
{32, 0b00000000000000000100000000000011, 0b00000000000000000111000001111111, opcode_e::LBU},
{32, 0b00000000000000000101000000000011, 0b00000000000000000111000001111111, opcode_e::LHU},
{32, 0b00000000000000000000000000100011, 0b00000000000000000111000001111111, opcode_e::SB},
{32, 0b00000000000000000001000000100011, 0b00000000000000000111000001111111, opcode_e::SH},
{32, 0b00000000000000000010000000100011, 0b00000000000000000111000001111111, opcode_e::SW},
{32, 0b00000000000000000000000000010011, 0b00000000000000000111000001111111, opcode_e::ADDI},
{32, 0b00000000000000000010000000010011, 0b00000000000000000111000001111111, opcode_e::SLTI},
{32, 0b00000000000000000011000000010011, 0b00000000000000000111000001111111, opcode_e::SLTIU},
{32, 0b00000000000000000100000000010011, 0b00000000000000000111000001111111, opcode_e::XORI},
{32, 0b00000000000000000110000000010011, 0b00000000000000000111000001111111, opcode_e::ORI},
{32, 0b00000000000000000111000000010011, 0b00000000000000000111000001111111, opcode_e::ANDI},
{32, 0b00000000000000000001000000010011, 0b11111110000000000111000001111111, opcode_e::SLLI},
{32, 0b00000000000000000101000000010011, 0b11111110000000000111000001111111, opcode_e::SRLI},
{32, 0b01000000000000000101000000010011, 0b11111110000000000111000001111111, opcode_e::SRAI},
{32, 0b00000000000000000000000000110011, 0b11111110000000000111000001111111, opcode_e::ADD},
{32, 0b01000000000000000000000000110011, 0b11111110000000000111000001111111, opcode_e::SUB},
{32, 0b00000000000000000001000000110011, 0b11111110000000000111000001111111, opcode_e::SLL},
{32, 0b00000000000000000010000000110011, 0b11111110000000000111000001111111, opcode_e::SLT},
{32, 0b00000000000000000011000000110011, 0b11111110000000000111000001111111, opcode_e::SLTU},
{32, 0b00000000000000000100000000110011, 0b11111110000000000111000001111111, opcode_e::XOR},
{32, 0b00000000000000000101000000110011, 0b11111110000000000111000001111111, opcode_e::SRL},
{32, 0b01000000000000000101000000110011, 0b11111110000000000111000001111111, opcode_e::SRA},
{32, 0b00000000000000000110000000110011, 0b11111110000000000111000001111111, opcode_e::OR},
{32, 0b00000000000000000111000000110011, 0b11111110000000000111000001111111, opcode_e::AND},
{32, 0b00000000000000000000000000001111, 0b00000000000000000111000001111111, opcode_e::FENCE},
{32, 0b00000000000000000000000001110011, 0b11111111111111111111111111111111, opcode_e::ECALL},
{32, 0b00000000000100000000000001110011, 0b11111111111111111111111111111111, opcode_e::EBREAK},
{32, 0b00000000001000000000000001110011, 0b11111111111111111111111111111111, opcode_e::URET},
{32, 0b00010000001000000000000001110011, 0b11111111111111111111111111111111, opcode_e::SRET},
{32, 0b00110000001000000000000001110011, 0b11111111111111111111111111111111, opcode_e::MRET},
{32, 0b00010000010100000000000001110011, 0b11111111111111111111111111111111, opcode_e::WFI},
{32, 0b01111011001000000000000001110011, 0b11111111111111111111111111111111, opcode_e::DRET},
{32, 0b00000000000000000001000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRW},
{32, 0b00000000000000000010000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRS},
{32, 0b00000000000000000011000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRC},
{32, 0b00000000000000000101000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRWI},
{32, 0b00000000000000000110000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRSI},
{32, 0b00000000000000000111000001110011, 0b00000000000000000111000001111111, opcode_e::CSRRCI},
{32, 0b00000000000000000001000000001111, 0b00000000000000000111000001111111, opcode_e::FENCE_I},
{32, 0b00000010000000000000000000110011, 0b11111110000000000111000001111111, opcode_e::MUL},
{32, 0b00000010000000000001000000110011, 0b11111110000000000111000001111111, opcode_e::MULH},
{32, 0b00000010000000000010000000110011, 0b11111110000000000111000001111111, opcode_e::MULHSU},
{32, 0b00000010000000000011000000110011, 0b11111110000000000111000001111111, opcode_e::MULHU},
{32, 0b00000010000000000100000000110011, 0b11111110000000000111000001111111, opcode_e::DIV},
{32, 0b00000010000000000101000000110011, 0b11111110000000000111000001111111, opcode_e::DIVU},
{32, 0b00000010000000000110000000110011, 0b11111110000000000111000001111111, opcode_e::REM},
{32, 0b00000010000000000111000000110011, 0b11111110000000000111000001111111, opcode_e::REMU},
{16, 0b0000000000000000, 0b1110000000000011, opcode_e::CADDI4SPN},
{16, 0b0100000000000000, 0b1110000000000011, opcode_e::CLW},
{16, 0b1100000000000000, 0b1110000000000011, opcode_e::CSW},
{16, 0b0000000000000001, 0b1110000000000011, opcode_e::CADDI},
{16, 0b0000000000000001, 0b1110111110000011, opcode_e::CNOP},
{16, 0b0010000000000001, 0b1110000000000011, opcode_e::CJAL},
{16, 0b0100000000000001, 0b1110000000000011, opcode_e::CLI},
{16, 0b0110000000000001, 0b1110000000000011, opcode_e::CLUI},
{16, 0b0110000100000001, 0b1110111110000011, opcode_e::CADDI16SP},
{16, 0b0110000000000001, 0b1111000001111111, opcode_e::__reserved_clui},
{16, 0b1000000000000001, 0b1111110000000011, opcode_e::CSRLI},
{16, 0b1000010000000001, 0b1111110000000011, opcode_e::CSRAI},
{16, 0b1000100000000001, 0b1110110000000011, opcode_e::CANDI},
{16, 0b1000110000000001, 0b1111110001100011, opcode_e::CSUB},
{16, 0b1000110000100001, 0b1111110001100011, opcode_e::CXOR},
{16, 0b1000110001000001, 0b1111110001100011, opcode_e::COR},
{16, 0b1000110001100001, 0b1111110001100011, opcode_e::CAND},
{16, 0b1010000000000001, 0b1110000000000011, opcode_e::CJ},
{16, 0b1100000000000001, 0b1110000000000011, opcode_e::CBEQZ},
{16, 0b1110000000000001, 0b1110000000000011, opcode_e::CBNEZ},
{16, 0b0000000000000010, 0b1111000000000011, opcode_e::CSLLI},
{16, 0b0100000000000010, 0b1110000000000011, opcode_e::CLWSP},
{16, 0b1000000000000010, 0b1111000000000011, opcode_e::CMV},
{16, 0b1000000000000010, 0b1111000001111111, opcode_e::CJR},
{16, 0b1000000000000010, 0b1111111111111111, opcode_e::__reserved_cmv},
{16, 0b1001000000000010, 0b1111000000000011, opcode_e::CADD},
{16, 0b1001000000000010, 0b1111000001111111, opcode_e::CJALR},
{16, 0b1001000000000010, 0b1111111111111111, opcode_e::CEBREAK},
{16, 0b1100000000000010, 0b1110000000000011, opcode_e::CSWSP},
{16, 0b0000000000000000, 0b1111111111111111, opcode_e::DII},
}};
}
template<>
struct instruction_decoder<tgc_c> {
using opcode_e = traits<tgc_c>::opcode_e;
using code_word_t=traits<tgc_c>::code_word_t;
struct instruction_pattern {
uint32_t value;
uint32_t mask;
opcode_e id;
};
std::array<std::vector<instruction_pattern>, 4> qlut;
template<typename T>
unsigned decode_instruction(T);
instruction_decoder() {
for (auto instr : instr_descr) {
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);
});
}
}
};
template<>
unsigned instruction_decoder<tgc_c>::decode_instruction<traits<tgc_c>::code_word_t>(traits<tgc_c>::code_word_t instr){
auto res = std::find_if(std::begin(qlut[instr&0x3]), std::end(qlut[instr&0x3]), [instr](instruction_pattern const& e){
return !((instr&e.mask) ^ e.value );
});
return static_cast<unsigned>(res!=std::end(qlut[instr&0x3])? res->id : opcode_e::MAX_OPCODE);
}
std::unique_ptr<instruction_decoder<tgc_c>> traits<tgc_c>::get_decoder(){
return std::make_unique<instruction_decoder<tgc_c>>();
}
}
}

50
src/iss/arch/tgc_mapper.h Normal file
View File

@ -0,0 +1,50 @@
#ifndef _ISS_ARCH_TGC_MAPPER_H
#define _ISS_ARCH_TGC_MAPPER_H
#include "riscv_hart_m_p.h"
#include "tgc_c.h"
using tgc_c_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_c>;
#ifdef CORE_TGC_A
#include "riscv_hart_m_p.h"
#include <iss/arch/tgc_a.h>
using tgc_a_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_a>;
#endif
#ifdef CORE_TGC_B
#include "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_C_XRB_NN
#include "riscv_hart_m_p.h"
#include "hwl.h"
#include <iss/arch/tgc_c_xrb_nn.h>
using tgc_c_xrb_nn_plat_type = iss::arch::hwl<iss::arch::riscv_hart_m_p<iss::arch::tgc_c_xrb_nn>>;
#endif
#ifdef CORE_TGC_D
#include "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
#ifdef CORE_TGC_D_XRB_MAC
#include "riscv_hart_mu_p.h"
#include <iss/arch/tgc_d_xrb_mac.h>
using tgc_d_xrb_mac_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_mac, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#ifdef CORE_TGC_D_XRB_NN
#include "riscv_hart_mu_p.h"
#include "hwl.h"
#include <iss/arch/tgc_d_xrb_nn.h>
using tgc_d_xrb_nn_plat_type = iss::arch::hwl<iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_nn, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>>;
#endif
#ifdef CORE_TGC_E
#include "riscv_hart_mu_p.h"
#include <iss/arch/tgc_e.h>
using tgc_e_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_e, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#ifdef CORE_TGC_X
#include "riscv_hart_mu_p.h"
#include <iss/arch/tgc_x.h>
using tgc_x_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_x, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N | iss::arch::FEAT_TCM)>;
#endif
#endif

172
src/iss/arch/wt_cache.h Normal file
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@ -0,0 +1,172 @@
/*******************************************************************************
* Copyright (C) 2023 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_M_P_WT_CACHE_H
#define _RISCV_HART_M_P_WT_CACHE_H
#include <iss/vm_types.h>
#include <util/ities.h>
#include <vector>
#include <map>
#include <memory>
namespace iss {
namespace arch {
namespace cache {
enum class state { INVALID, VALID};
struct line {
uint64_t tag_addr{0};
state st{state::INVALID};
std::vector<uint8_t> data;
line(unsigned line_sz): data(line_sz) {}
};
struct set {
std::vector<line> ways;
set(unsigned ways_count, line const& l): ways(ways_count, l) {}
};
struct cache {
std::vector<set> sets;
cache(unsigned size, unsigned line_sz, unsigned ways) {
line const ref_line{line_sz};
set const ref_set{ways, ref_line};
sets.resize(size/(ways*line_sz), ref_set);
}
};
struct wt_policy {
bool is_cacheline_hit(cache& c );
};
}
// write thru, allocate on read, direct mapped or set-associative with round-robin replacement policy
template <typename BASE> class wt_cache : public BASE {
public:
using base_class = BASE;
using this_class = wt_cache<BASE>;
using reg_t = typename BASE::reg_t;
using mem_read_f = typename BASE::mem_read_f;
using mem_write_f = typename BASE::mem_write_f;
using phys_addr_t = typename BASE::phys_addr_t;
wt_cache();
virtual ~wt_cache() = default;
unsigned size{4096};
unsigned line_sz{32};
unsigned ways{1};
uint64_t io_address{0xf0000000};
uint64_t io_addr_mask{0xf0000000};
protected:
iss::status read_cache(phys_addr_t addr, unsigned, uint8_t *const);
iss::status write_cache(phys_addr_t addr, unsigned, uint8_t const *const);
std::function<mem_read_f> cache_mem_rd_delegate;
std::function<mem_write_f> cache_mem_wr_delegate;
std::unique_ptr<cache::cache> dcache_ptr;
std::unique_ptr<cache::cache> icache_ptr;
size_t get_way_select() {
return 0;
}
};
template<typename BASE>
inline wt_cache<BASE>::wt_cache() {
auto cb = base_class::replace_mem_access(
[this](phys_addr_t a, unsigned l, uint8_t* const d) -> iss::status { return read_cache(a, l,d);},
[this](phys_addr_t a, unsigned l, uint8_t const* const d) -> iss::status { return write_cache(a, l,d);});
cache_mem_rd_delegate = cb.first;
cache_mem_wr_delegate = cb.second;
}
template<typename BASE>
iss::status iss::arch::wt_cache<BASE>::read_cache(phys_addr_t a, unsigned l, uint8_t* const d) {
if(!icache_ptr) {
icache_ptr.reset(new cache::cache(size, line_sz, ways));
dcache_ptr.reset(new cache::cache(size, line_sz, ways));
}
if((a.val&io_addr_mask) != io_address) {
auto set_addr=(a.val&(size-1))>>util::ilog2(line_sz*ways);
auto tag_addr=a.val>>util::ilog2(line_sz);
auto& set = (is_fetch(a.access)?icache_ptr:dcache_ptr)->sets[set_addr];
for(auto& cl: set.ways) {
if(cl.st==cache::state::VALID && cl.tag_addr==tag_addr) {
auto start_addr = a.val&(line_sz-1);
for(auto i = 0U; i<l; ++i)
d[i] = cl.data[start_addr+i];
return iss::Ok;
}
}
auto& cl = set.ways[get_way_select()];
phys_addr_t cl_addr{a};
cl_addr.val=tag_addr<<util::ilog2(line_sz);
cache_mem_rd_delegate(cl_addr, line_sz, cl.data.data());
cl.tag_addr=tag_addr;
cl.st=cache::state::VALID;
auto start_addr = a.val&(line_sz-1);
for(auto i = 0U; i<l; ++i)
d[i] = cl.data[start_addr+i];
return iss::Ok;
} else
return cache_mem_rd_delegate(a, l, d);
}
template<typename BASE>
iss::status iss::arch::wt_cache<BASE>::write_cache(phys_addr_t a, unsigned l, const uint8_t* const d) {
if(!dcache_ptr)
dcache_ptr.reset(new cache::cache(size, line_sz, ways));
auto res = cache_mem_wr_delegate(a, l, d);
if(res == iss::Ok && ((a.val&io_addr_mask) != io_address)) {
auto set_addr=(a.val&(size-1))>>util::ilog2(line_sz*ways);
auto tag_addr=a.val>>util::ilog2(line_sz);
auto& set = dcache_ptr->sets[set_addr];
for(auto& cl: set.ways) {
if(cl.st==cache::state::VALID && cl.tag_addr==tag_addr) {
auto start_addr = a.val&(line_sz-1);
for(auto i = 0U; i<l; ++i)
cl.data[start_addr+i] = d[i];
break;
}
}
}
return res;
}
} // namespace arch
} // namespace iss
#endif /* _RISCV_HART_M_P_H */

196
incl/iss/debugger/riscv_target_adapter.h → src/iss/debugger/riscv_target_adapter.h
View File

@ -85,7 +85,7 @@ public:
corresponding bytes in avail_buf are 0, otherwise
avail buf is 1 */
status read_single_register(unsigned int reg_no, std::vector<uint8_t> &buf,
std::vector<uint8_t> &avail_buf) override;
std::vector<uint8_t> &avail_buf) override;
/* Write one register. buf is 4-byte aligned and it is in target byte
order */
@ -104,7 +104,7 @@ public:
status process_query(unsigned int &mask, const rp_thread_ref &arg, rp_thread_info &info) override;
status thread_list_query(int first, const rp_thread_ref &arg, std::vector<rp_thread_ref> &result, size_t max_num,
size_t &num, bool &done) override;
size_t &num, bool &done) override;
status current_thread_query(rp_thread_ref &thread) override;
@ -120,12 +120,12 @@ public:
status packetsize_query(std::string &out_buf) override;
status add_break(int type, uint64_t addr, unsigned int length) override;
status add_break(break_type type, uint64_t addr, unsigned int length) override;
status remove_break(int type, uint64_t addr, unsigned int length) override;
status remove_break(break_type type, uint64_t addr, unsigned int length) override;
status resume_from_addr(bool step, int sig, uint64_t addr, rp_thread_ref thread,
std::function<void(unsigned)> stop_callback) override;
std::function<void(unsigned)> stop_callback) override;
status target_xml_query(std::string &out_buf) override;
@ -159,8 +159,8 @@ template <typename ARCH> status riscv_target_adapter<ARCH>::is_thread_alive(rp_t
*/
template <typename ARCH>
status riscv_target_adapter<ARCH>::thread_list_query(int first, const rp_thread_ref &arg,
std::vector<rp_thread_ref> &result, size_t max_num, size_t &num,
bool &done) {
std::vector<rp_thread_ref> &result, size_t max_num, size_t &num,
bool &done) {
if (first == 0) {
result.clear();
result.push_back(thread_idx);
@ -193,20 +193,20 @@ status riscv_target_adapter<ARCH>::read_registers(std::vector<uint8_t> &data, st
}
}
// work around fill with F type registers
// if (arch::traits<ARCH>::NUM_REGS < 65) {
// auto reg_width = sizeof(typename arch::traits<ARCH>::reg_t);
// for (size_t reg_no = 0; reg_no < 33; ++reg_no) {
// for (size_t j = 0; j < reg_width; ++j) {
// data.push_back(0x0);
// avail.push_back(0x00);
// }
// // if(arch::traits<ARCH>::XLEN < 64)
// // for(unsigned j=0; j<4; ++j){
// // data.push_back(0x0);
// // avail.push_back(0x00);
// // }
// }
// }
// if (arch::traits<ARCH>::NUM_REGS < 65) {
// auto reg_width = sizeof(typename arch::traits<ARCH>::reg_t);
// for (size_t reg_no = 0; reg_no < 33; ++reg_no) {
// for (size_t j = 0; j < reg_width; ++j) {
// data.push_back(0x0);
// avail.push_back(0x00);
// }
// // if(arch::traits<ARCH>::XLEN < 64)
// // for(unsigned j=0; j<4; ++j){
// // data.push_back(0x0);
// // avail.push_back(0x00);
// // }
// }
// }
return Ok;
}
@ -214,19 +214,33 @@ template <typename ARCH> status riscv_target_adapter<ARCH>::write_registers(cons
auto start_reg=arch::traits<ARCH>::X0;
auto *reg_base = core->get_regs_base_ptr();
auto iter = data.data();
bool e_ext = arch::traits<ARCH>::PC<32;
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;
reg_base += offset;
if(e_ext && reg_no>15){
if(reg_no==32){
auto reg_width = arch::traits<ARCH>::reg_bit_widths[arch::traits<ARCH>::PC] / 8;
auto offset = traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PC];
std::copy(iter, iter + reg_width, reg_base);
} else {
const uint64_t zero_val=0;
auto reg_width = arch::traits<ARCH>::reg_bit_widths[15] / 8;
auto iter = (uint8_t*)&zero_val;
std::copy(iter, iter + reg_width, reg_base);
}
} else {
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;
reg_base += offset;
}
}
return Ok;
}
template <typename ARCH>
status riscv_target_adapter<ARCH>::read_single_register(unsigned int reg_no, std::vector<uint8_t> &data,
std::vector<uint8_t> &avail) {
std::vector<uint8_t> &avail) {
if (reg_no < 65) {
// auto reg_size = arch::traits<ARCH>::reg_bit_width(static_cast<typename
// arch::traits<ARCH>::reg_e>(reg_no))/8;
@ -317,34 +331,48 @@ template <typename ARCH> status riscv_target_adapter<ARCH>::packetsize_query(std
return Ok;
}
template <typename ARCH> status riscv_target_adapter<ARCH>::add_break(int type, uint64_t addr, unsigned int length) {
auto saddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr});
auto eaddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr + length});
target_adapter_base::bp_lut.addEntry(++target_adapter_base::bp_count, saddr.val, eaddr.val - saddr.val);
LOG(TRACE) << "Adding breakpoint with handle " << target_adapter_base::bp_count << " for addr 0x" << std::hex
<< saddr.val << std::dec;
LOG(TRACE) << "Now having " << target_adapter_base::bp_lut.size() << " breakpoints";
return Ok;
}
template <typename ARCH> status riscv_target_adapter<ARCH>::remove_break(int type, uint64_t addr, unsigned int length) {
auto saddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr});
unsigned handle = target_adapter_base::bp_lut.getEntry(saddr.val);
if (handle) {
LOG(TRACE) << "Removing breakpoint with handle " << handle << " for addr 0x" << std::hex << saddr.val
<< std::dec;
// TODO: check length of addr range
target_adapter_base::bp_lut.removeEntry(handle);
template <typename ARCH> status riscv_target_adapter<ARCH>::add_break(break_type type, uint64_t addr, unsigned int length) {
switch(type) {
default:
return Err;
case SW_EXEC:
case HW_EXEC: {
auto saddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr});
auto eaddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr + length});
target_adapter_base::bp_lut.addEntry(++target_adapter_base::bp_count, saddr.val, eaddr.val - saddr.val);
LOG(TRACE) << "Adding breakpoint with handle " << target_adapter_base::bp_count << " for addr 0x" << std::hex
<< saddr.val << std::dec;
LOG(TRACE) << "Now having " << target_adapter_base::bp_lut.size() << " breakpoints";
return Ok;
}
LOG(TRACE) << "Now having " << target_adapter_base::bp_lut.size() << " breakpoints";
return Err;
}
}
template <typename ARCH> status riscv_target_adapter<ARCH>::remove_break(break_type type, uint64_t addr, unsigned int length) {
switch(type) {
default:
return Err;
case SW_EXEC:
case HW_EXEC: {
auto saddr = map_addr({iss::access_type::FETCH, iss::address_type::PHYSICAL, 0, addr});
unsigned handle = target_adapter_base::bp_lut.getEntry(saddr.val);
if (handle) {
LOG(TRACE) << "Removing breakpoint with handle " << handle << " for addr 0x" << std::hex << saddr.val
<< std::dec;
// TODO: check length of addr range
target_adapter_base::bp_lut.removeEntry(handle);
LOG(TRACE) << "Now having " << target_adapter_base::bp_lut.size() << " breakpoints";
return Ok;
}
LOG(TRACE) << "Now having " << target_adapter_base::bp_lut.size() << " breakpoints";
return Err;
}
}
}
template <typename ARCH>
status riscv_target_adapter<ARCH>::resume_from_addr(bool step, int sig, uint64_t addr, rp_thread_ref thread,
std::function<void(unsigned)> stop_callback) {
std::function<void(unsigned)> stop_callback) {
auto *reg_base = core->get_regs_base_ptr();
auto reg_width = arch::traits<ARCH>::reg_bit_widths[arch::traits<ARCH>::PC] / 8;
auto offset = traits<ARCH>::reg_byte_offsets[arch::traits<ARCH>::PC];
@ -355,42 +383,42 @@ status riscv_target_adapter<ARCH>::resume_from_addr(bool step, int sig, uint64_t
template <typename ARCH> status riscv_target_adapter<ARCH>::target_xml_query(std::string &out_buf) {
const std::string res{"<?xml version=\"1.0\"?><!DOCTYPE target SYSTEM \"gdb-target.dtd\">"
"<target><architecture>riscv:rv32</architecture>"
//" <feature name=\"org.gnu.gdb.riscv.rv32i\">\n"
//" <reg name=\"x0\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x1\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x2\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x3\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x4\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x5\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x6\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x7\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x8\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x9\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x10\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x11\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x12\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x13\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x14\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x15\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x16\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x17\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x18\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x19\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x20\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x21\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x22\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x23\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x24\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x25\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x26\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x27\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x28\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x29\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x30\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x31\" bitsize=\"32\" group=\"general\"/>\n"
//" </feature>\n"
"</target>"};
"<target><architecture>riscv:rv32</architecture>"
//" <feature name=\"org.gnu.gdb.riscv.rv32i\">\n"
//" <reg name=\"x0\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x1\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x2\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x3\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x4\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x5\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x6\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x7\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x8\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x9\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x10\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x11\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x12\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x13\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x14\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x15\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x16\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x17\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x18\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x19\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x20\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x21\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x22\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x23\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x24\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x25\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x26\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x27\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x28\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x29\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x30\" bitsize=\"32\" group=\"general\"/>\n"
//" <reg name=\"x31\" bitsize=\"32\" group=\"general\"/>\n"
//" </feature>\n"
"</target>"};
out_buf = res;
return Ok;
}

0
incl/iss/factory.h → src/iss/factory.h
View File

28
src/plugin/cycle_estimate.cpp → src/iss/plugin/cycle_estimate.cpp
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, MINRES Technologies GmbH
* Copyright (C) 2017 - 2023, MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -32,14 +32,14 @@
* eyck@minres.com - initial API and implementation
******************************************************************************/
#include "iss/plugin/cycle_estimate.h"
#include "cycle_estimate.h"
#include <iss/arch_if.h>
#include <util/logging.h>
#include <rapidjson/document.h>
#include <rapidjson/istreamwrapper.h>
#include "rapidjson/writer.h"
#include "rapidjson/stringbuffer.h"
#include <rapidjson/writer.h>
#include <rapidjson/stringbuffer.h>
#include <rapidjson/ostreamwrapper.h>
#include <rapidjson/error/en.h>
#include <fstream>
@ -48,7 +48,7 @@ using namespace rapidjson;
using namespace std;
iss::plugin::cycle_estimate::cycle_estimate(string const& config_file_name)
: arch_instr(nullptr)
: instr_if(nullptr)
, config_file_name(config_file_name)
{
}
@ -57,9 +57,9 @@ iss::plugin::cycle_estimate::~cycle_estimate() {
}
bool iss::plugin::cycle_estimate::registration(const char* const version, vm_if& vm) {
arch_instr = vm.get_arch()->get_instrumentation_if();
if(!arch_instr) return false;
const string core_name = arch_instr->core_type_name();
instr_if = vm.get_arch()->get_instrumentation_if();
if(!instr_if) return false;
const string core_name = instr_if->core_type_name();
if (config_file_name.length() > 0) {
ifstream is(config_file_name);
if (is.is_open()) {
@ -107,12 +107,12 @@ bool iss::plugin::cycle_estimate::registration(const char* const version, vm_if&
}
void iss::plugin::cycle_estimate::callback(instr_info_t instr_info, exec_info const& exc_info) {
assert(arch_instr && "No instrumentation interface available but callback executed");
void iss::plugin::cycle_estimate::callback(instr_info_t instr_info) {
assert(instr_if && "No instrumentation interface available but callback executed");
auto entry = delays[instr_info.instr_id];
bool taken = exc_info.branch_taken;
if (exc_info.branch_taken && (entry.taken > 1))
arch_instr->set_curr_instr_cycles(entry.taken);
bool taken = instr_if->is_branch_taken();
if (taken && (entry.taken > 1))
instr_if->update_last_instr_cycles(entry.taken);
else if (entry.not_taken > 1)
arch_instr->set_curr_instr_cycles(entry.not_taken);
instr_if->update_last_instr_cycles(entry.not_taken);
}

8
incl/iss/plugin/cycle_estimate.h → src/iss/plugin/cycle_estimate.h
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, MINRES Technologies GmbH
* Copyright (C) 2017 - 2023, MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -45,7 +45,7 @@ namespace iss {
namespace plugin {
class cycle_estimate: public iss::vm_plugin {
class cycle_estimate: public vm_plugin {
BEGIN_BF_DECL(instr_desc, uint32_t)
BF_FIELD(taken, 24, 8)
BF_FIELD(not_taken, 16, 8)
@ -78,10 +78,10 @@ public:
sync_type get_sync() override { return POST_SYNC; };
void callback(instr_info_t instr_info, exec_info const&) override;
void callback(instr_info_t instr_info) override;
private:
iss::instrumentation_if *arch_instr;
iss::instrumentation_if *instr_if;
std::vector<instr_desc> delays;
struct pair_hash {
size_t operator()(const std::pair<uint64_t, uint64_t> &p) const {

8
src/plugin/instruction_count.cpp → src/iss/plugin/instruction_count.cpp
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, MINRES Technologies GmbH
* Copyright (C) 2017 - 2023 MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -32,8 +32,8 @@
* eyck@minres.com - initial API and implementation
******************************************************************************/
#include "iss/plugin/instruction_count.h"
#include "iss/instrumentation_if.h"
#include "instruction_count.h"
#include <iss/instrumentation_if.h>
#include <iss/arch_if.h>
#include <util/logging.h>
@ -90,6 +90,6 @@ bool iss::plugin::instruction_count::registration(const char* const version, vm_
return true;
}
void iss::plugin::instruction_count::callback(instr_info_t instr_info, exec_info const&) {
void iss::plugin::instruction_count::callback(instr_info_t instr_info) {
rep_counts[instr_info.instr_id]++;
}

4
incl/iss/plugin/instruction_count.h → src/iss/plugin/instruction_count.h
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, MINRES Technologies GmbH
* Copyright (C) 2017 - 2023, MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -69,7 +69,7 @@ public:
sync_type get_sync() override { return POST_SYNC; };
void callback(instr_info_t, exec_info const&) override;
void callback(instr_info_t) override;
private:
Json::Value root;

214
src/iss/plugin/pctrace.cpp Normal file
View File

@ -0,0 +1,214 @@
/*******************************************************************************
* Copyright (C) 2017 - 2023, 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:
* alex.com - initial implementation
******************************************************************************/
#include <iss/arch_if.h>
#include <iss/plugin/pctrace.h>
#include <util/logging.h>
#include <util/ities.h>
#include <rapidjson/document.h>
#include <rapidjson/istreamwrapper.h>
#include <rapidjson/writer.h>
#include <rapidjson/stringbuffer.h>
#include <rapidjson/ostreamwrapper.h>
#include <rapidjson/error/en.h>
#include <fstream>
#include <iostream>
#ifdef WITH_LZ4
#include <lz4frame.h>
#endif
namespace iss {
namespace plugin {
using namespace rapidjson;
using namespace std;
#ifdef WITH_LZ4
class lz4compress_steambuf: public std::streambuf {
public:
lz4compress_steambuf(const lz4compress_steambuf&) = delete;
lz4compress_steambuf& operator=(const lz4compress_steambuf&) = delete;
lz4compress_steambuf(std::ostream &sink, size_t buf_size)
: sink(sink)
, src_buf(buf_size)
, dest_buf(LZ4F_compressBound(buf_size, nullptr))
{
auto errCode = LZ4F_createCompressionContext(&ctx, LZ4F_VERSION);
if (LZ4F_isError(errCode) != 0)
throw std::runtime_error(std::string("Failed to create LZ4 context: ") + LZ4F_getErrorName(errCode));
size_t ret = LZ4F_compressBegin(ctx, &dest_buf.front(), dest_buf.capacity(), nullptr);
if (LZ4F_isError(ret) != 0)
throw std::runtime_error(std::string("Failed to start LZ4 compression: ") + LZ4F_getErrorName(ret));
setp(src_buf.data(), src_buf.data() + src_buf.size() - 1);
sink.write(dest_buf.data(), ret);
}
~lz4compress_steambuf() {
close();
}
void close() {
if (closed)
return;
sync();
auto ret = LZ4F_compressEnd(ctx, dest_buf.data(), dest_buf.capacity(), nullptr);
if (LZ4F_isError(ret) != 0)
throw std::runtime_error(std::string("Failed to finish LZ4 compression: ") + LZ4F_getErrorName(ret));
sink.write(dest_buf.data(), ret);
LZ4F_freeCompressionContext(ctx);
closed = true;
}
private:
int_type overflow(int_type ch) override {
compress_and_write();
*pptr() = static_cast<char_type>(ch);
pbump(1);
return ch;
}
int_type sync() override {
compress_and_write();
return 0;
}
void compress_and_write() {
if (closed)
throw std::runtime_error("Cannot write to closed stream");
if(auto orig_size = pptr() - pbase()){
auto ret = LZ4F_compressUpdate(ctx, dest_buf.data(), dest_buf.capacity(), pbase(), orig_size, nullptr);
if (LZ4F_isError(ret) != 0)
throw std::runtime_error(std::string("LZ4 compression failed: ") + LZ4F_getErrorName(ret));
if(ret) sink.write(dest_buf.data(), ret);
pbump(-orig_size);
}
}
std::ostream &sink;
std::vector<char> src_buf;
std::vector<char> dest_buf;
LZ4F_compressionContext_t ctx{ nullptr };
bool closed{ false };
};
#endif
pctrace::pctrace(std::string const &filename)
: instr_if(nullptr)
, filename(filename)
, output("output.trc")
#ifdef WITH_LZ4
, strbuf(new lz4compress_steambuf(output, 4096))
, ostr(strbuf.get())
#endif
{ }
pctrace::~pctrace() { }
bool pctrace::registration(const char *const version, vm_if& vm) {
instr_if = vm.get_arch()->get_instrumentation_if();
if(!instr_if) return false;
const string core_name = instr_if->core_type_name();
if (filename.length() > 0) {
ifstream is(filename);
if (is.is_open()) {
try {
IStreamWrapper isw(is);
Document d;
ParseResult ok = d.ParseStream(isw);
if(ok) {
Value& val = d[core_name.c_str()];
if(val.IsArray()){
delays.reserve(val.Size());
for (auto it = val.Begin(); it != val.End(); ++it) {
auto& name = (*it)["name"];
auto& size = (*it)["size"];
auto& delay = (*it)["delay"];
auto& branch = (*it)["branch"];
if(delay.IsArray()) {
auto dt = delay[0].Get<unsigned>();
auto dnt = delay[1].Get<unsigned>();
delays.push_back(instr_desc{size.Get<unsigned>(), dt, dnt, branch.Get<bool>()});
} else if(delay.Is<unsigned>()) {
auto d = delay.Get<unsigned>();
delays.push_back(instr_desc{size.Get<unsigned>(), d, d, branch.Get<bool>()});
} else
throw runtime_error("JSON parse error");
}
} else {
LOG(ERR)<<"plugin cycle_estimate: could not find an entry for "<<core_name<<" in JSON file"<<endl;
return false;
}
} else {
LOG(ERR)<<"plugin cycle_estimate: could not parse in JSON file at "<< ok.Offset()<<": "<<GetParseError_En(ok.Code())<<endl;
return false;
}
} catch (runtime_error &e) {
LOG(ERR) << "Could not parse input file " << filename << ", reason: " << e.what();
return false;
}
} else {
LOG(ERR) << "Could not open input file " << filename;
return false;
}
}
return true;
}
void pctrace::callback(instr_info_t iinfo) {
auto delay = 0;
size_t id = iinfo.instr_id;
auto entry = delays[id];
auto instr = instr_if->get_instr_word();
auto call = id==65 || id ==86 || ((id==2 || id==3) && bit_sub<7,5>(instr)!=0) ;//not taking care of tail calls (jalr with loading x6)
bool taken = instr_if->is_branch_taken();
bool compressed = (instr&0x3)!=0x3;
if (taken) {
delay = entry.taken;
if(entry.taken > 1)
instr_if->update_last_instr_cycles(entry.taken);
} else {
delay = entry.not_taken;
if (entry.not_taken > 1)
instr_if->update_last_instr_cycles(entry.not_taken);
}
#ifndef WITH_LZ4
output<<std::hex <<"0x" << instr_if->get_pc() <<"," << delay <<"," << call<<","<<(compressed?2:4) <<"\n";
#else
auto rdbuf=ostr.rdbuf();
ostr<<std::hex <<"0x" << instr_if->get_pc() <<"," << delay <<"," << call<<","<<(compressed?2:4) <<"\n";
#endif
}
}
}

27
incl/iss/plugin/pctrace.h → src/iss/plugin/pctrace.h
View File

@ -1,5 +1,5 @@
/*******************************************************************************
* Copyright (C) 2017, 2018, MINRES Technologies GmbH
* Copyright (C) 2017 - 2023, MINRES Technologies GmbH
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
@ -44,8 +44,8 @@
namespace iss {
namespace plugin {
class cov : public iss::vm_plugin {
class lz4compress_steambuf;
class pctrace : public iss::vm_plugin {
struct instr_delay {
std::string instr_name;
size_t size;
@ -67,31 +67,34 @@ class cov : public iss::vm_plugin {
public:
cov(const cov &) = delete;
pctrace(const pctrace &) = delete;
cov(const cov &&) = delete;
pctrace(const pctrace &&) = delete;
cov(std::string const &);
pctrace(std::string const &);
virtual ~cov();
virtual ~pctrace();
cov &operator=(const cov &) = delete;
pctrace &operator=(const pctrace &) = delete;
cov &operator=(const cov &&) = delete;
pctrace &operator=(const pctrace &&) = delete;
bool registration(const char *const version, vm_if &arch) override;
sync_type get_sync() override { return POST_SYNC; };
void callback(instr_info_t, exec_info const&) override;
void callback(instr_info_t) override;
private:
iss::instrumentation_if *instr_if {nullptr};
std::ofstream output;
#ifdef WITH_LZ4
std::unique_ptr<lz4compress_steambuf> strbuf;
std::ostream ostr;
#endif
std::string filename;
std::vector<instr_desc> delays;
bool jumped, first;
bool jumped{false}, first{true};
};
}
}

507
src/main.cpp
View File

@ -1,264 +1,249 @@
/*******************************************************************************
* Copyright (C) 2017, 2018 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.
*
*******************************************************************************/
#include <iostream>
#include <iss/factory.h>
#include <boost/lexical_cast.hpp>
#include <boost/program_options.hpp>
#include <iss/arch/riscv_hart_m_p.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_C_XRB_NN
#include "iss/arch/riscv_hart_m_p.h"
#include "iss/arch/tgc_c_xrb_nn.h"
using tgc_c_xrb_nn_plat_type = iss::arch::riscv_hart_m_p<iss::arch::tgc_c_xrb_nn>;
#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
#ifdef CORE_TGC_D_XRB_MAC
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d_xrb_mac.h"
using tgc_d_xrb_mac_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_mac, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#ifdef CORE_TGC_D_XRB_NN
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d_xrb_nn.h"
using tgc_d_xrb_nn_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_nn, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#ifdef CORE_TGC_E
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_e.h"
using tgc_e_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_e, (iss::arch::features_e)(iss::arch::FEAT_PMP | iss::arch::FEAT_CLIC | iss::arch::FEAT_EXT_N)>;
#endif
#ifdef WITH_LLVM
#include <iss/llvm/jit_helper.h>
#endif
#include <iss/log_categories.h>
#include <iss/plugin/cycle_estimate.h>
#include <iss/plugin/instruction_count.h>
#include <iss/plugin/loader.h>
#if defined(HAS_LUA)
#include <iss/plugin/lua.h>
#endif
namespace po = boost::program_options;
int main(int argc, char *argv[]) {
/*
* Define and parse the program options
*/
po::variables_map clim;
po::options_description desc("Options");
// clang-format off
desc.add_options()
("help,h", "Print help message")
("verbose,v", po::value<int>()->implicit_value(0), "Sets logging verbosity")
("logfile,f", po::value<std::string>(), "Sets default log file.")
("disass,d", po::value<std::string>()->implicit_value(""), "Enables disassembly")
("gdb-port,g", po::value<unsigned>()->default_value(0), "enable gdb server and specify port to use")
("instructions,i", po::value<uint64_t>()->default_value(std::numeric_limits<uint64_t>::max()), "max. number of instructions to simulate")
("reset,r", po::value<std::string>(), "reset address")
("dump-ir", "dump the intermediate representation")
("elf", po::value<std::vector<std::string>>(), "ELF file(s) to load")
("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("tgc_c"), "isa to use for simulation");
// clang-format on
auto parsed = po::command_line_parser(argc, argv).options(desc).allow_unregistered().run();
try {
po::store(parsed, clim); // can throw
// --help option
if (clim.count("help")) {
std::cout << "DBT-RISE-RiscV simulator for RISC-V" << std::endl << desc << std::endl;
return 0;
}
po::notify(clim); // throws on error, so do after help in case
} catch (po::error &e) {
// there are problems
std::cerr << "ERROR: " << e.what() << std::endl << std::endl;
std::cerr << desc << std::endl;
return 1;
}
std::vector<std::string> args = collect_unrecognized(parsed.options, po::include_positional);
LOGGER(DEFAULT)::print_time() = false;
LOGGER(connection)::print_time() = false;
if (clim.count("verbose")) {
auto l = logging::as_log_level(clim["verbose"].as<int>());
LOGGER(DEFAULT)::reporting_level() = l;
LOGGER(connection)::reporting_level() = l;
}
if (clim.count("logfile")) {
// configure the connection logger
auto f = fopen(clim["logfile"].as<std::string>().c_str(), "w");
LOG_OUTPUT(DEFAULT)::stream() = f;
LOG_OUTPUT(connection)::stream() = f;
}
std::vector<iss::vm_plugin *> plugin_list;
auto res = 0;
try {
#ifdef WITH_LLVM
// application code comes here //
iss::init_jit_debug(argc, argv);
#endif
bool dump = clim.count("dump-ir");
// instantiate the simulator
iss::vm_ptr vm{nullptr};
iss::cpu_ptr cpu{nullptr};
std::string isa_opt(clim["isa"].as<std::string>());
if (isa_opt == "tgc_c") {
std::tie(cpu, vm) =
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
#ifdef CORE_TGC_C_XRB_NN
if (isa_opt == "tgc_c_xrb_nn") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_c_xrb_nn_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D
if (isa_opt == "tgc_d") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D_XRB_MAC
if (isa_opt == "tgc_d_xrb_mac") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_xrb_mac_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D_XRB_NN
if (isa_opt == "tgc_d_xrb_nn") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_xrb_nn_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_E
if (isa_opt == "tgc_e") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_e_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
{
/*******************************************************************************
* Copyright (C) 2017, 2018 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.
*
*******************************************************************************/
#include <iostream>
#include "iss/factory.h"
#include <boost/lexical_cast.hpp>
#include <boost/program_options.hpp>
#include "iss/arch/tgc_mapper.h"
#ifdef WITH_LLVM
#include <iss/llvm/jit_helper.h>
#endif
#include <iss/log_categories.h>
#include "iss/plugin/cycle_estimate.h"
#include "iss/plugin/instruction_count.h"
#include "iss/plugin/pctrace.h"
#ifndef WIN32
#include <iss/plugin/loader.h>
#endif
#if defined(HAS_LUA)
#include <iss/plugin/lua.h>
#endif
namespace po = boost::program_options;
int main(int argc, char *argv[]) {
/*
* Define and parse the program options
*/
po::variables_map clim;
po::options_description desc("Options");
// clang-format off
desc.add_options()
("help,h", "Print help message")
("verbose,v", po::value<int>()->implicit_value(0), "Sets logging verbosity")
("logfile,l", po::value<std::string>(), "Sets default log file.")
("disass,d", po::value<std::string>()->implicit_value(""), "Enables disassembly")
("gdb-port,g", po::value<unsigned>()->default_value(0), "enable gdb server and specify port to use")
("instructions,i", po::value<uint64_t>()->default_value(std::numeric_limits<uint64_t>::max()), "max. number of instructions to simulate")
("reset,r", po::value<std::string>(), "reset address")
("dump-ir", "dump the intermediate representation")
("elf,f", po::value<std::vector<std::string>>(), "ELF file(s) to load")
("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("tgc_c"), "isa to use for simulation");
// clang-format on
auto parsed = po::command_line_parser(argc, argv).options(desc).allow_unregistered().run();
try {
po::store(parsed, clim); // can throw
// --help option
if (clim.count("help")) {
std::cout << "DBT-RISE-RiscV simulator for RISC-V" << std::endl << desc << std::endl;
return 0;
}
po::notify(clim); // throws on error, so do after help in case
} catch (po::error &e) {
// there are problems
std::cerr << "ERROR: " << e.what() << std::endl << std::endl;
std::cerr << desc << std::endl;
return 1;
}
std::vector<std::string> args = collect_unrecognized(parsed.options, po::include_positional);
LOGGER(DEFAULT)::print_time() = false;
LOGGER(connection)::print_time() = false;
if (clim.count("verbose")) {
auto l = logging::as_log_level(clim["verbose"].as<int>());
LOGGER(DEFAULT)::reporting_level() = l;
LOGGER(connection)::reporting_level() = l;
}
if (clim.count("logfile")) {
// configure the connection logger
auto f = fopen(clim["logfile"].as<std::string>().c_str(), "w");
LOG_OUTPUT(DEFAULT)::stream() = f;
LOG_OUTPUT(connection)::stream() = f;
}
std::vector<iss::vm_plugin *> plugin_list;
auto res = 0;
try {
#ifdef WITH_LLVM
// application code comes here //
iss::init_jit_debug(argc, argv);
#endif
bool dump = clim.count("dump-ir");
// instantiate the simulator
iss::vm_ptr vm{nullptr};
iss::cpu_ptr cpu{nullptr};
std::string isa_opt(clim["isa"].as<std::string>());
if (isa_opt == "tgc_c") {
std::tie(cpu, vm) =
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
#ifdef CORE_TGC_C_XRB_NN
if (isa_opt == "tgc_c_xrb_nn") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_c_xrb_nn_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D
if (isa_opt == "tgc_d") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D_XRB_MAC
if (isa_opt == "tgc_d_xrb_mac") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_xrb_mac_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_D_XRB_NN
if (isa_opt == "tgc_d_xrb_nn") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_d_xrb_nn_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
#ifdef CORE_TGC_E
if (isa_opt == "tgc_e") {
std::tie(cpu, vm) =
iss::create_cpu<tgc_e_plat_type>(clim["backend"].as<std::string>(), clim["gdb-port"].as<unsigned>());
} else
#endif
{
LOG(ERR) << "Illegal argument value for '--isa': " << isa_opt << std::endl;
return 127;
}
if (clim.count("plugin")) {
for (std::string const& opt_val : clim["plugin"].as<std::vector<std::string>>()) {
std::string plugin_name=opt_val;
std::string filename{"cycles.txt"};
std::size_t found = opt_val.find('=');
if (found != std::string::npos) {
plugin_name = opt_val.substr(0, found);
filename = opt_val.substr(found + 1, opt_val.size());
}
if (plugin_name == "ic") {
auto *ic_plugin = new iss::plugin::instruction_count(filename);
vm->register_plugin(*ic_plugin);
plugin_list.push_back(ic_plugin);
} else if (plugin_name == "ce") {
auto *ce_plugin = new iss::plugin::cycle_estimate(filename);
vm->register_plugin(*ce_plugin);
plugin_list.push_back(ce_plugin);
} else {
std::array<char const*, 1> a{{filename.c_str()}};
iss::plugin::loader l(plugin_name, {{"initPlugin"}});
auto* plugin = l.call_function<iss::vm_plugin*>("initPlugin", a.size(), a.data());
if(plugin){
vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else {
return 127;
}
if(!cpu ){
LOG(ERR) << "Could not create cpu fore for isa " << isa_opt << " and backend " <<clim["backend"].as<std::string>()<< std::endl;
return 127;
}
if(!vm ){
LOG(ERR) << "Could not create vm fore for isa " << isa_opt << " and backend " <<clim["backend"].as<std::string>()<< std::endl;
return 127;
}
if (clim.count("plugin")) {
for (std::string const& opt_val : clim["plugin"].as<std::vector<std::string>>()) {
std::string plugin_name=opt_val;
std::string filename{"cycles.txt"};
std::size_t found = opt_val.find('=');
if (found != std::string::npos) {
plugin_name = opt_val.substr(0, found);
filename = opt_val.substr(found + 1, opt_val.size());
}
if (plugin_name == "ic") {
auto *ic_plugin = new iss::plugin::instruction_count(filename);
vm->register_plugin(*ic_plugin);
plugin_list.push_back(ic_plugin);
} else if (plugin_name == "ce") {
auto *ce_plugin = new iss::plugin::cycle_estimate(filename);
vm->register_plugin(*ce_plugin);
plugin_list.push_back(ce_plugin);
} else if (plugin_name == "pctrace") {
auto *plugin = new iss::plugin::pctrace(filename);
vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else {
#ifndef WIN32
std::array<char const*, 1> a{{filename.c_str()}};
iss::plugin::loader l(plugin_name, {{"initPlugin"}});
auto* plugin = l.call_function<iss::vm_plugin*>("initPlugin", a.size(), a.data());
if(plugin){
vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else
#endif
{
LOG(ERR) << "Unknown plugin name: " << plugin_name << ", valid names are 'ce', 'ic'" << std::endl;
return 127;
}
}
}
}
if (clim.count("disass")) {
vm->setDisassEnabled(true);
LOGGER(disass)::reporting_level() = logging::INFO;
LOGGER(disass)::print_time() = false;
auto file_name = clim["disass"].as<std::string>();
if (file_name.length() > 0) {
LOG_OUTPUT(disass)::stream() = fopen(file_name.c_str(), "w");
LOGGER(disass)::print_severity() = false;
}
}
uint64_t start_address = 0;
if (clim.count("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);
if (start_addr.second) start_address = start_addr.first;
}
for (std::string input : args) {
auto start_addr = vm->get_arch()->load_file(input); // treat remaining arguments as elf files
if (start_addr.second) start_address = start_addr.first;
}
if (clim.count("reset")) {
auto str = clim["reset"].as<std::string>();
start_address = str.find("0x") == 0 ? std::stoull(str.substr(2), nullptr, 16) : std::stoull(str, nullptr, 10);
}
vm->reset(start_address);
auto cycles = clim["instructions"].as<uint64_t>();
res = vm->start(cycles, dump);
} catch (std::exception &e) {
return 127;
}
}
}
}
if (clim.count("disass")) {
vm->setDisassEnabled(true);
LOGGER(disass)::reporting_level() = logging::INFO;
LOGGER(disass)::print_time() = false;
auto file_name = clim["disass"].as<std::string>();
if (file_name.length() > 0) {
LOG_OUTPUT(disass)::stream() = fopen(file_name.c_str(), "w");
LOGGER(disass)::print_severity() = false;
}
}
uint64_t start_address = 0;
if (clim.count("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);
if (start_addr.second) start_address = start_addr.first;
}
for (std::string input : args) {
auto start_addr = vm->get_arch()->load_file(input); // treat remaining arguments as elf files
if (start_addr.second) start_address = start_addr.first;
}
if (clim.count("reset")) {
auto str = clim["reset"].as<std::string>();
start_address = str.find("0x") == 0 ? std::stoull(str.substr(2), nullptr, 16) : std::stoull(str, nullptr, 10);
}
vm->reset(start_address);
auto cycles = clim["instructions"].as<uint64_t>();
res = vm->start(cycles, dump);
} catch (std::exception &e) {
LOG(ERR) << "Unhandled Exception reached the top of main: " << e.what() << ", application will now exit"
<< std::endl;
res = 2;
}
// cleanup to let plugins report of needed
for (auto *p : plugin_list) {
delete p;
}
return res;
}
<< std::endl;
res = 2;
}
// cleanup to let plugins report of needed
for (auto *p : plugin_list) {
delete p;
}
return res;
}

133
src/plugin/pctrace.cpp
View File

@ -1,133 +0,0 @@
#include <iss/arch_if.h>
#include <iss/plugin/pctrace.h>
#include <util/logging.h>
#include <rapidjson/document.h>
#include <rapidjson/istreamwrapper.h>
#include "rapidjson/writer.h"
#include "rapidjson/stringbuffer.h"
#include <rapidjson/ostreamwrapper.h>
#include <rapidjson/error/en.h>
#include <fstream>
#include <iostream>
using namespace rapidjson;
using namespace std;
iss::plugin::cov::cov(std::string const &filename)
: instr_if(nullptr)
, filename(filename)
{
output.open("output.trc");
jumped = false;
first = true;
}
iss::plugin::cov::~cov() {
output.close();
}
bool iss::plugin::cov::registration(const char *const version, vm_if& vm) {
instr_if = vm.get_arch()->get_instrumentation_if();
if(!instr_if) return false;
const string core_name = instr_if->core_type_name();
if (filename.length() > 0) {
ifstream is(filename);
if (is.is_open()) {
try {
IStreamWrapper isw(is);
Document d;
ParseResult ok = d.ParseStream(isw);
if(ok) {
Value& val = d[core_name.c_str()];
if(val.IsArray()){
delays.reserve(val.Size());
for (auto it = val.Begin(); it != val.End(); ++it) {
auto& name = (*it)["name"];
auto& size = (*it)["size"];
auto& delay = (*it)["delay"];
auto& branch = (*it)["branch"];
if(delay.IsArray()) {
auto dt = delay[0].Get<unsigned>();
auto dnt = delay[1].Get<unsigned>();
delays.push_back(instr_desc{size.Get<unsigned>(), dt, dnt, branch.Get<bool>()});
} else if(delay.Is<unsigned>()) {
auto d = delay.Get<unsigned>();
delays.push_back(instr_desc{size.Get<unsigned>(), d, d, branch.Get<bool>()});
} else
throw runtime_error("JSON parse error");
}
} else {
LOG(ERR)<<"plugin cycle_estimate: could not find an entry for "<<core_name<<" in JSON file"<<endl;
return false;
}
} else {
LOG(ERR)<<"plugin cycle_estimate: could not parse in JSON file at "<< ok.Offset()<<": "<<GetParseError_En(ok.Code())<<endl;
return false;
}
} catch (runtime_error &e) {
LOG(ERR) << "Could not parse input file " << filename << ", reason: " << e.what();
return false;
}
} else {
LOG(ERR) << "Could not open input file " << filename;
return false;
}
}
return true;
}
inline string formatPC(uint64_t pc) {
stringstream stream;
stream << "0x" << std::hex << pc;
return stream.str();
}
void iss::plugin::cov::callback(instr_info_t iinfo, const exec_info& einfo) {
// auto delay = 0;
// auto entry = delays[iinfo.instr_id];
// bool taken = einfo.branch_taken;
// if (einfo.branch_taken)
// delay = entry.taken;
// else
// delay = entry.not_taken;
//
// if (first){
// output << formatPC(instr_if->get_pc()) << "," << delay;
// first = false;
// }
// if(instr_if->get_next_pc()-instr_if->get_pc() != delays[iinfo.instr_id].size/8){
// //The goal is to keep the output in start-target pairs, so after a jump the target address needs to get written
// //to the output. If the target happens to also be a start, we keep the pairing by adding a 0-delay entry.
// if (jumped)
// output <<"\n" <<formatPC(instr_if->get_pc()) << "," << 0;
// output <<"\n" << formatPC(instr_if->get_pc()) << "," << delay;
// jumped = true;
// }
// else{
// if (jumped){
// output <<"\n" << formatPC(instr_if->get_pc()) << "," << delay;
// jumped = false;
// }
// else if(delay!=1){
// output <<"\n" << formatPC(instr_if->get_pc()) << "," << delay;
// output <<"\n" << formatPC(instr_if->get_pc()) << "," << 0;
// }
//
// }
//source code for the full output
auto delay = 0;
auto entry = delays[iinfo.instr_id];
bool taken = einfo.branch_taken;
if (einfo.branch_taken)
delay = entry.taken;
else
delay = entry.not_taken;
output<<std::hex <<"0x" << instr_if->get_pc() <<"," << delay << "\n";
}

201
src/sysc/core_complex.cpp
View File

@ -30,38 +30,18 @@
*
*******************************************************************************/
// 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 <iss/plugin/loader.h>
#include "sysc/core_complex.h"
#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
#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
#ifdef CORE_TGC_D_XRB_MAC
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d_xrb_mac.h"
using tgc_d_xrb_mac_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_mac, iss::arch::FEAT_PMP>;
#endif
#ifdef CORE_TGC_D_XRB_NN
#include "iss/arch/riscv_hart_mu_p.h"
#include "iss/arch/tgc_d_xrb_nn.h"
using tgc_d_xrb_nn_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_nn, iss::arch::FEAT_PMP>;
// 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>
#ifndef WIN32
#include <iss/plugin/loader.h>
#endif
#include "core_complex.h"
#include <iss/arch/tgc_mapper.h>
#include <scc/report.h>
#include <util/ities.h>
#include <iostream>
@ -71,7 +51,7 @@ using tgc_d_xrb_nn_plat_type = iss::arch::riscv_hart_mu_p<iss::arch::tgc_d_xrb_n
#include <iss/plugin/instruction_count.h>
#include <iss/plugin/pctrace.h>
// clang-format on
// clang-format on
#define STR(X) #X
#define CREATE_CORE(CN) \
@ -90,12 +70,12 @@ using namespace scv_tr;
#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
#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 tgfs {
using namespace std;
@ -127,7 +107,8 @@ public:
heart_state_t &get_state() { return this->state; }
void notify_phase(iss::arch_if::exec_phase p) override {
if (p == iss::arch_if::ISTART) owner->sync(this->reg.icount);
if (p == iss::arch_if::ISTART)
owner->sync(this->instr_if.get_total_cycles());
}
sync_type needed_sync() const override { return PRE_SYNC; }
@ -137,7 +118,7 @@ public:
std::stringstream s;
s << "[p:" << lvl[this->reg.PRIV] << ";s:0x" << std::hex << std::setfill('0')
<< std::setw(sizeof(reg_t) * 2) << (reg_t)this->state.mstatus << std::dec << ";c:"
<< this->reg.icount + this->cycle_offset << "]";
<< this->icount + this->cycle_offset << "]";
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();
@ -148,7 +129,7 @@ public:
if (addr.access && access_type::DEBUG)
return owner->read_mem_dbg(addr.val, length, data) ? Ok : Err;
else {
return owner->read_mem(addr.val, length, data, addr.access && access_type::FETCH) ? Ok : Err;
return owner->read_mem(addr.val, length, data, is_fetch(addr.access)) ? Ok : Err;
}
}
@ -197,26 +178,26 @@ public:
void wait_until(uint64_t flags) override {
SCCDEBUG(owner->name()) << "Sleeping until interrupt";
do {
while(this->pending_trap == 0 && (this->csr[arch::mip] & this->csr[arch::mie]) == 0) {
sc_core::wait(wfi_evt);
} while (this->reg.pending_trap == 0);
}
PLAT::wait_until(flags);
}
void local_irq(short id, bool value) {
reg_t mask = 0;
switch (id) {
case 16: // SW
case 3: // SW
mask = 1 << 3;
break;
case 17: // timer
case 7: // timer
mask = 1 << 7;
break;
case 18: // external
case 11: // external
mask = 1 << 11;
break;
default:
/* do nothing*/
if(id>15) mask = 1 << id;
break;
}
if (value) {
@ -226,7 +207,7 @@ public:
this->csr[arch::mip] &= ~mask;
this->check_interrupt();
if(value)
SCCTRACE(owner->name()) << "Triggering interrupt " << id << " Pending trap: " << this->reg.pending_trap;
SCCTRACE(owner->name()) << "Triggering interrupt " << id << " Pending trap: " << this->pending_trap;
}
private:
@ -318,7 +299,7 @@ public:
CREATE_CORE(tgc_d_xrb_nn)
#endif
{
LOG(ERR) << "Illegal argument value for core type: " << type << std::endl;
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();
@ -350,6 +331,7 @@ SC_HAS_PROCESS(core_complex);// NOLINT
#ifndef CWR_SYSTEMC
core_complex::core_complex(sc_module_name const& name)
: sc_module(name)
, fetch_lut(tlm_dmi_ext())
, read_lut(tlm_dmi_ext())
, write_lut(tlm_dmi_ext())
{
@ -359,7 +341,13 @@ core_complex::core_complex(sc_module_name const& name)
void core_complex::init(){
trc=new core_trace();
initiator.register_invalidate_direct_mem_ptr([=](uint64_t start, uint64_t end) -> void {
ibus.register_invalidate_direct_mem_ptr([=](uint64_t start, uint64_t end) -> void {
auto lut_entry = fetch_lut.getEntry(start);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE && end <= lut_entry.get_end_address() + 1) {
fetch_lut.removeEntry(lut_entry);
}
});
dbus.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) {
read_lut.removeEntry(lut_entry);
@ -377,8 +365,11 @@ void core_complex::init(){
sensitive << sw_irq_i;
SC_METHOD(timer_irq_cb);
sensitive << timer_irq_i;
SC_METHOD(global_irq_cb);
sensitive << global_irq_i;
SC_METHOD(ext_irq_cb);
sensitive << ext_irq_i;
SC_METHOD(local_irq_cb);
for(auto pin:local_irq_i)
sensitive << pin;
trc->m_db=scv_tr_db::get_default_db();
SC_METHOD(forward);
@ -427,10 +418,11 @@ void core_complex::before_end_of_elaboration() {
cpu->vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else if (plugin_name == "pctrace") {
auto *plugin = new iss::plugin::cov(filename);
auto *plugin = new iss::plugin::pctrace(filename);
cpu->vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else {
#ifndef WIN32
std::array<char const*, 1> a{{filename.c_str()}};
iss::plugin::loader l(plugin_name, {{"initPlugin"}});
auto* plugin = l.call_function<iss::vm_plugin*>("initPlugin", a.size(), a.data());
@ -438,6 +430,7 @@ void core_complex::before_end_of_elaboration() {
cpu->vm->register_plugin(*plugin);
plugin_list.push_back(plugin);
} else
#endif
SCCERR(SCMOD) << "Unknown plugin '" << plugin_name << "' or plugin not found";
}
}
@ -446,7 +439,7 @@ void core_complex::before_end_of_elaboration() {
}
void core_complex::start_of_simulation() {
quantum_keeper.reset();
// quantum_keeper.reset();
if (GET_PROP_VALUE(elf_file).size() > 0) {
istringstream is(GET_PROP_VALUE(elf_file));
string s;
@ -498,15 +491,24 @@ void core_complex::rst_cb() {
if (rst_i.read()) cpu->set_interrupt_execution(true);
}
void core_complex::sw_irq_cb() { cpu->local_irq(16, sw_irq_i.read()); }
void core_complex::sw_irq_cb() { cpu->local_irq(3, sw_irq_i.read()); }
void core_complex::timer_irq_cb() { cpu->local_irq(17, timer_irq_i.read()); }
void core_complex::timer_irq_cb() { cpu->local_irq(7, timer_irq_i.read()); }
void core_complex::global_irq_cb() { cpu->local_irq(18, global_irq_i.read()); }
void core_complex::ext_irq_cb() { cpu->local_irq(11, ext_irq_i.read()); }
void core_complex::local_irq_cb() {
for(auto i=0U; i<local_irq_i.size(); ++i) {
if(local_irq_i[i].event()) {
cpu->local_irq(16+i, local_irq_i[i].read());
}
}
}
void core_complex::run() {
wait(SC_ZERO_TIME); // separate from elaboration phase
do {
wait(SC_ZERO_TIME);
if (rst_i.read()) {
cpu->reset(GET_PROP_VALUE(reset_address));
wait(rst_i.negedge_event());
@ -514,6 +516,7 @@ void core_complex::run() {
while (curr_clk.read() == SC_ZERO_TIME) {
wait(curr_clk.value_changed_event());
}
quantum_keeper.reset();
cpu->set_interrupt_execution(false);
cpu->start();
} while (cpu->get_interrupt_execution());
@ -521,14 +524,15 @@ void core_complex::run() {
}
bool core_complex::read_mem(uint64_t addr, unsigned length, uint8_t *const data, bool is_fetch) {
auto lut_entry = read_lut.getEntry(addr);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE &&
addr + length <= lut_entry.get_end_address() + 1) {
auto& dmi_lut = is_fetch?fetch_lut:read_lut;
auto lut_entry = dmi_lut.getEntry(addr);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE && addr + length <= lut_entry.get_end_address() + 1) {
auto offset = addr - lut_entry.get_start_address();
std::copy(lut_entry.get_dmi_ptr() + offset, lut_entry.get_dmi_ptr() + offset + length, data);
quantum_keeper.inc(lut_entry.get_read_latency());
return true;
} else {
auto& sckt = is_fetch? ibus : dbus;
tlm::tlm_generic_payload gp;
gp.set_command(tlm::TLM_READ_COMMAND);
gp.set_address(addr);
@ -543,8 +547,13 @@ bool core_complex::read_mem(uint64_t addr, unsigned length, uint8_t *const data,
auto preExt = new tlm::scc::scv::tlm_recording_extension(trc->tr_handle, this);
gp.set_extension(preExt);
}
initiator->b_transport(gp, delay);
SCCTRACE(this->name()) << "read_mem(0x" << std::hex << addr << ") : " << data;
sckt->b_transport(gp, delay);
auto incr = delay-quantum_keeper.get_local_time();
if(is_fetch)
ibus_inc+=incr;
else
dbus_inc+=incr;
SCCTRACE(this->name()) << "[local time: "<<delay<<"]: finish read_mem(0x" << std::hex << addr << ") : 0x" << (length==4?*(uint32_t*)data:length==2?*(uint16_t*)data:(unsigned)*data);
if (gp.get_response_status() != tlm::TLM_OK_RESPONSE) {
return false;
}
@ -552,13 +561,10 @@ bool core_complex::read_mem(uint64_t addr, unsigned length, uint8_t *const data,
gp.set_command(tlm::TLM_READ_COMMAND);
gp.set_address(addr);
tlm_dmi_ext dmi_data;
if (initiator->get_direct_mem_ptr(gp, dmi_data)) {
if (sckt->get_direct_mem_ptr(gp, dmi_data)) {
if (dmi_data.is_read_allowed())
read_lut.addEntry(dmi_data, dmi_data.get_start_address(),
dmi_lut.addEntry(dmi_data, dmi_data.get_start_address(),
dmi_data.get_end_address() - dmi_data.get_start_address() + 1);
if (dmi_data.is_write_allowed())
write_lut.addEntry(dmi_data, dmi_data.get_start_address(),
dmi_data.get_end_address() - dmi_data.get_start_address() + 1);
}
}
return true;
@ -587,9 +593,9 @@ bool core_complex::write_mem(uint64_t addr, unsigned length, const uint8_t *cons
auto preExt = new tlm::scc::scv::tlm_recording_extension(trc->tr_handle, this);
gp.set_extension(preExt);
}
initiator->b_transport(gp, delay);
quantum_keeper.set(delay);
SCCTRACE() << "write_mem(0x" << std::hex << addr << ") : " << data;
dbus->b_transport(gp, delay);
dbus_inc+=delay-quantum_keeper.get_local_time();
SCCTRACE() << "[local time: "<<delay<<"]: finish write_mem(0x" << std::hex << addr << ") : 0x" << (length==4?*(uint32_t*)data:length==2?*(uint16_t*)data:(unsigned)*data);
if (gp.get_response_status() != tlm::TLM_OK_RESPONSE) {
return false;
}
@ -597,10 +603,7 @@ bool core_complex::write_mem(uint64_t addr, unsigned length, const uint8_t *cons
gp.set_command(tlm::TLM_READ_COMMAND);
gp.set_address(addr);
tlm_dmi_ext dmi_data;
if (initiator->get_direct_mem_ptr(gp, dmi_data)) {
if (dmi_data.is_read_allowed())
read_lut.addEntry(dmi_data, dmi_data.get_start_address(),
dmi_data.get_end_address() - dmi_data.get_start_address() + 1);
if (dbus->get_direct_mem_ptr(gp, dmi_data)) {
if (dmi_data.is_write_allowed())
write_lut.addEntry(dmi_data, dmi_data.get_start_address(),
dmi_data.get_end_address() - dmi_data.get_start_address() + 1);
@ -611,43 +614,25 @@ bool core_complex::write_mem(uint64_t addr, unsigned length, const uint8_t *cons
}
bool core_complex::read_mem_dbg(uint64_t addr, unsigned length, uint8_t *const data) {
auto lut_entry = read_lut.getEntry(addr);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE &&
addr + length <= lut_entry.get_end_address() + 1) {
auto offset = addr - lut_entry.get_start_address();
std::copy(lut_entry.get_dmi_ptr() + offset, lut_entry.get_dmi_ptr() + offset + length, data);
quantum_keeper.inc(lut_entry.get_read_latency());
return true;
} else {
tlm::tlm_generic_payload gp;
gp.set_command(tlm::TLM_READ_COMMAND);
gp.set_address(addr);
gp.set_data_ptr(data);
gp.set_data_length(length);
gp.set_streaming_width(length);
return initiator->transport_dbg(gp) == length;
}
tlm::tlm_generic_payload gp;
gp.set_command(tlm::TLM_READ_COMMAND);
gp.set_address(addr);
gp.set_data_ptr(data);
gp.set_data_length(length);
gp.set_streaming_width(length);
return dbus->transport_dbg(gp) == length;
}
bool core_complex::write_mem_dbg(uint64_t addr, unsigned length, const uint8_t *const data) {
auto lut_entry = write_lut.getEntry(addr);
if (lut_entry.get_granted_access() != tlm::tlm_dmi::DMI_ACCESS_NONE &&
addr + length <= lut_entry.get_end_address() + 1) {
auto offset = addr - lut_entry.get_start_address();
std::copy(data, data + length, lut_entry.get_dmi_ptr() + offset);
quantum_keeper.inc(lut_entry.get_read_latency());
return true;
} else {
write_buf.resize(length);
std::copy(data, data + length, write_buf.begin()); // need to copy as TLM does not guarantee data integrity
tlm::tlm_generic_payload gp;
gp.set_command(tlm::TLM_WRITE_COMMAND);
gp.set_address(addr);
gp.set_data_ptr(write_buf.data());
gp.set_data_length(length);
gp.set_streaming_width(length);
return initiator->transport_dbg(gp) == length;
}
write_buf.resize(length);
std::copy(data, data + length, write_buf.begin()); // need to copy as TLM does not guarantee data integrity
tlm::tlm_generic_payload gp;
gp.set_command(tlm::TLM_WRITE_COMMAND);
gp.set_address(addr);
gp.set_data_ptr(write_buf.data());
gp.set_data_length(length);
gp.set_streaming_width(length);
return dbus->transport_dbg(gp) == length;
}
} /* namespace SiFive */
} /* namespace sysc */

27
incl/sysc/core_complex.h → src/sysc/core_complex.h
View File

@ -40,8 +40,10 @@
#include <tlm/scc/scv/tlm_rec_initiator_socket.h>
#ifdef CWR_SYSTEMC
#include <scmlinc/scml_property.h>
#define SOCKET_WIDTH 32
#else
#include <cci_configuration>
#define SOCKET_WIDTH scc::LT
#endif
#include <tlm>
#include <tlm_utils/tlm_quantumkeeper.h>
@ -69,11 +71,13 @@ struct core_trace;
class core_complex : public sc_core::sc_module, public scc::traceable {
public:
tlm::scc::initiator_mixin<tlm::scc::scv::tlm_rec_initiator_socket<32>> initiator{"intor"};
tlm::scc::initiator_mixin<tlm::tlm_initiator_socket<SOCKET_WIDTH>> ibus{"ibus"};
tlm::scc::initiator_mixin<tlm::tlm_initiator_socket<SOCKET_WIDTH>> dbus{"dbus"};
sc_core::sc_in<bool> rst_i{"rst_i"};
sc_core::sc_in<bool> global_irq_i{"global_irq_i"};
sc_core::sc_in<bool> ext_irq_i{"ext_irq_i"};
sc_core::sc_in<bool> timer_irq_i{"timer_irq_i"};
@ -84,7 +88,7 @@ public:
#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;
sc_core::sc_port<tlm::tlm_peek_if<uint64_t>, 1, sc_core::SC_ZERO_OR_MORE_BOUND> mtime_o{"mtime_o"};
cci::cci_param<std::string> elf_file{"elf_file", ""};
@ -140,6 +144,8 @@ public:
, gdb_server_port{"gdb_server_port", 0}
, dump_ir{"dump_ir", false}
, mhartid{"mhartid", 0}
, plugins{"plugins", ""}
, fetch_lut(tlm_dmi_ext())
, read_lut(tlm_dmi_ext())
, write_lut(tlm_dmi_ext())
{
@ -151,13 +157,16 @@ public:
~core_complex();
inline void sync(uint64_t cycle) {
auto time = curr_clk * (cycle - last_sync_cycle);
quantum_keeper.inc(time);
auto core_inc = curr_clk * (cycle - last_sync_cycle);
auto incr = std::max(core_inc, std::max(ibus_inc, dbus_inc));
quantum_keeper.inc(incr);
if (quantum_keeper.need_sync()) {
wait(quantum_keeper.get_local_time());
quantum_keeper.reset();
}
last_sync_cycle = cycle;
ibus_inc = sc_core::SC_ZERO_TIME;
dbus_inc = sc_core::SC_ZERO_TIME;
}
bool read_mem(uint64_t addr, unsigned length, uint8_t *const data, bool is_fetch);
@ -181,13 +190,15 @@ protected:
void rst_cb();
void sw_irq_cb();
void timer_irq_cb();
void global_irq_cb();
void ext_irq_cb();
void local_irq_cb();
uint64_t last_sync_cycle = 0;
util::range_lut<tlm_dmi_ext> read_lut, write_lut;
util::range_lut<tlm_dmi_ext> fetch_lut, read_lut, write_lut;
tlm_utils::tlm_quantumkeeper quantum_keeper;
std::vector<uint8_t> write_buf;
core_wrapper* cpu{nullptr};
sc_core::sc_signal<sc_core::sc_time> curr_clk;
sc_core::sc_time ibus_inc, dbus_inc;
core_trace* trc{nullptr};
std::unique_ptr<scc::tick2time> t2t;
private:
@ -195,7 +206,7 @@ private:
std::vector<iss::vm_plugin *> plugin_list;
};
} /* namespace SiFive */
} /* namespace tgfs */
} /* namespace sysc */
#endif /* _SYSC_CORE_COMPLEX_H_ */

1
src/vm/interp/.gitignore vendored
View File

@ -1 +0,0 @@
/vm_tgc_*.cpp

6397
src/vm/interp/vm_tgc_c.cpp
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File diff suppressed because it is too large Load Diff

10
src/vm/llvm/vm_tgf_c.cpp → src/vm/llvm/vm_tgc_c.cpp
View File

@ -30,7 +30,7 @@
*
*******************************************************************************/
#include <iss/arch/tgf_c.h>
#include <iss/arch/tgc_c.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/debugger/gdb_session.h>
#include <iss/debugger/server.h>
@ -52,7 +52,7 @@ namespace fp_impl {
void add_fp_functions_2_module(::llvm::Module *, unsigned, unsigned);
}
namespace tgf_c {
namespace tgc_c {
using namespace ::llvm;
using namespace iss::arch;
using namespace iss::debugger;
@ -4151,11 +4151,11 @@ template <typename ARCH> inline void vm_impl<ARCH>::gen_trap_check(BasicBlock *b
bb, this->trap_blk, 1);
}
} // namespace tgf_c
} // namespace tgc_c
template <>
std::unique_ptr<vm_if> create<arch::tgf_c>(arch::tgf_c *core, unsigned short port, bool dump) {
auto ret = new tgf_c::vm_impl<arch::tgf_c>(*core, dump);
std::unique_ptr<vm_if> create<arch::tgc_c>(arch::tgc_c *core, unsigned short port, bool dump) {
auto ret = new tgc_c::vm_impl<arch::tgc_c>(*core, dump);
if (port != 0) debugger::server<debugger::gdb_session>::run_server(ret, port);
return std::unique_ptr<vm_if>(ret);
}

2582
src/vm/llvm/vm_tgf_b.cpp
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File diff suppressed because it is too large Load Diff

8
src/vm/tcc/vm_tgf_c.cpp → src/vm/tcc/vm_tgc_c.cpp
View File

@ -30,7 +30,7 @@
*
*******************************************************************************/
#include <iss/arch/tgf_c.h>
#include <iss/arch/tgc_c.h>
#include <iss/arch/riscv_hart_m_p.h>
#include <iss/debugger/gdb_session.h>
#include <iss/debugger/server.h>
@ -49,7 +49,7 @@
namespace iss {
namespace tcc {
namespace tgf_c {
namespace tgc_c {
using namespace iss::arch;
using namespace iss::debugger;
@ -3251,8 +3251,8 @@ template <typename ARCH> void vm_impl<ARCH>::gen_trap_behavior(tu_builder& tu) {
} // namespace mnrv32
template <>
std::unique_ptr<vm_if> create<arch::tgf_c>(arch::tgf_c *core, unsigned short port, bool dump) {
auto ret = new tgf_c::vm_impl<arch::tgf_c>(*core, dump);
std::unique_ptr<vm_if> create<arch::tgc_c>(arch::tgc_c *core, unsigned short port, bool dump) {
auto ret = new tgc_c::vm_impl<arch::tgc_c>(*core, dump);
if (port != 0) debugger::server<debugger::gdb_session>::run_server(ret, port);
return std::unique_ptr<vm_if>(ret);
}

2074
src/vm/tcc/vm_tgf_b.cpp
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File diff suppressed because it is too large Load Diff