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merge into: DBT-RISE:main
Branches Tags
DBT-RISE:main
DBT-RISE:develop
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
...
pull from: DBT-RISE:feature/htif
Branches Tags
DBT-RISE:develop
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

11 Commits
main ... feature/ht

Author SHA1 Message Date
Eyck Jentzsch
f4718c6de3 Merge remote-tracking branch 'origin/feature/htif' into develop 2025-02-13 09:34:31 +01:00
Eyck Jentzsch
53de21eef9 adds generator changed output 2025-02-12 20:45:04 +01:00
Eyck-Alexander Jentzsch
d443c89c87 removes llvm from dbt-rise-tgc build system as it is handled in dbt-rise-core 2024-12-28 13:10:49 +01:00
Eyck-Alexander Jentzsch
9a2df32d57 updates templates 2024-12-28 13:07:07 +01:00
Eyck-Alexander Jentzsch
be0f783af8 adds cycle increment to tcc 2024-12-28 13:06:46 +01:00
Eyck-Alexander Jentzsch
1089800682 updates vm_impls and core.h to work with new vm_base 2024-12-28 08:24:09 +01:00
Eyck-Alexander Jentzsch
d907dc7f54 corrects tohost functionality and minor cleanup 2024-11-22 17:35:12 +01:00
Eyck-Alexander Jentzsch
75e81ce236 copies new tohost implemenation from hart_m_p 2024-11-14 16:51:26 +01:00
Eyck-Alexander Jentzsch
82a70efdb8 small reorder to make tohost output more readable 2024-11-14 16:51:26 +01:00
Eyck-Alexander Jentzsch
978c3db06e minor improvements to readability 2024-11-14 16:51:26 +01:00
Eyck-Alexander Jentzsch
0e88664ff7 adds better tohost writing implementation, allowing the standard riscv-isa-test benchmarks to run 2024-11-14 16:51:26 +01:00
15 changed files with 439 additions and 448 deletions
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10
CMakeLists.txt
View File

@ -109,16 +109,6 @@ if(TARGET yaml-cpp::yaml-cpp)
target_link_libraries(${PROJECT_NAME} PUBLIC yaml-cpp::yaml-cpp)
endif()
if(WITH_LLVM)
find_package(LLVM)
target_compile_definitions(${PROJECT_NAME} PUBLIC ${LLVM_DEFINITIONS})
target_include_directories(${PROJECT_NAME} PUBLIC ${LLVM_INCLUDE_DIRS})
if(BUILD_SHARED_LIBS)
target_link_libraries(${PROJECT_NAME} PUBLIC ${LLVM_LIBRARIES})
endif()
endif()
set_target_properties(${PROJECT_NAME} PROPERTIES
VERSION ${PROJECT_VERSION}
FRAMEWORK FALSE

4
gen_input/templates/CORENAME.h.gtl
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@ -131,8 +131,6 @@ struct ${coreDef.name.toLowerCase()}: public arch_if {
uint8_t* get_regs_base_ptr() override;
inline uint64_t get_icount() { return reg.icount; }
inline bool should_stop() { return interrupt_sim; }
inline uint64_t stop_code() { return interrupt_sim; }
@ -141,8 +139,6 @@ 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; }
#pragma pack(push, 1)
struct ${coreDef.name}_regs {<%

5
gen_input/templates/asmjit/CORENAME.cpp.gtl
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@ -96,7 +96,7 @@ protected:
using this_class = vm_impl<ARCH>;
using compile_func = continuation_e (this_class::*)(virt_addr_t&, code_word_t, jit_holder&);
continuation_e gen_single_inst_behavior(virt_addr_t&, unsigned int &, jit_holder&) override;
continuation_e gen_single_inst_behavior(virt_addr_t&, jit_holder&) override;
enum globals_e {TVAL = 0, GLOBALS_SIZE};
void gen_block_prologue(jit_holder& jh) override;
void gen_block_epilogue(jit_holder& jh) override;
@ -221,7 +221,7 @@ vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
}()) {}
template <typename ARCH>
continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt, jit_holder& jh) {
continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, jit_holder& jh) {
enum {TRAP_ID=1<<16};
code_word_t instr = 0;
phys_addr_t paddr(pc);
@ -233,7 +233,6 @@ continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned
return ILLEGAL_FETCH;
if (instr == 0x0000006f || (instr&0xffff)==0xa001)
return JUMP_TO_SELF;
++inst_cnt;
uint32_t inst_index = instr_decoder.decode_instr(instr);
compile_func f = nullptr;
if(inst_index < instr_descr.size())

3
gen_input/templates/interp/CORENAME.cpp.gtl
View File

@ -199,9 +199,6 @@ template <typename CODE_WORD> void debug_fn(CODE_WORD insn) {
volatile CODE_WORD x = insn;
insn = 2 * x;
}
template <typename ARCH> vm_impl<ARCH>::vm_impl() { this(new ARCH()); }
// according to
// https://stackoverflow.com/questions/8871204/count-number-of-1s-in-binary-representation
#ifdef __GCC__

13
gen_input/templates/llvm/CORENAME.cpp.gtl
View File

@ -101,7 +101,7 @@ protected:
return super::gen_cond_assign(cond, this->gen_ext(trueVal, size), this->gen_ext(falseVal, size));
}
std::tuple<continuation_e, BasicBlock *> gen_single_inst_behavior(virt_addr_t &, unsigned int &, BasicBlock *) override;
std::tuple<continuation_e, BasicBlock *> gen_single_inst_behavior(virt_addr_t &, BasicBlock *) override;
void gen_leave_behavior(BasicBlock *leave_blk) override;
void gen_raise_trap(uint16_t trap_id, uint16_t cause);
@ -244,7 +244,7 @@ vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
template <typename ARCH>
std::tuple<continuation_e, BasicBlock *>
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt, BasicBlock *this_block) {
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, BasicBlock *this_block) {
// we fetch at max 4 byte, alignment is 2
enum {TRAP_ID=1<<16};
code_word_t instr = 0;
@ -256,9 +256,10 @@ vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt,
auto res = this->core.read(paddr, 4, data);
if (res != iss::Ok)
return std::make_tuple(ILLEGAL_FETCH, nullptr);
if (instr == 0x0000006f || (instr&0xffff)==0xa001)
if (instr == 0x0000006f || (instr&0xffff)==0xa001){
this->builder.CreateBr(this->leave_blk);
return std::make_tuple(JUMP_TO_SELF, nullptr);
++inst_cnt;
}
uint32_t inst_index = instr_decoder.decode_instr(instr);
compile_func f = nullptr;
if(inst_index < instr_descr.size())
@ -340,6 +341,10 @@ void vm_impl<ARCH>::gen_instr_epilogue(BasicBlock *bb) {
auto* icount_val = this->builder.CreateAdd(
this->builder.CreateLoad(this->get_typeptr(arch::traits<ARCH>::ICOUNT), get_reg_ptr(arch::traits<ARCH>::ICOUNT)), this->gen_const(64U, 1));
this->builder.CreateStore(icount_val, get_reg_ptr(arch::traits<ARCH>::ICOUNT), false);
//increment cyclecount
auto* cycle_val = this->builder.CreateAdd(
this->builder.CreateLoad(this->get_typeptr(arch::traits<ARCH>::CYCLE), get_reg_ptr(arch::traits<ARCH>::CYCLE)), this->gen_const(64U, 1));
this->builder.CreateStore(cycle_val, get_reg_ptr(arch::traits<ARCH>::CYCLE), false);
}
} // namespace ${coreDef.name.toLowerCase()}

22
gen_input/templates/tcc/CORENAME.cpp.gtl
View File

@ -83,21 +83,21 @@ protected:
using vm_base<ARCH>::get_reg_ptr;
using this_class = vm_impl<ARCH>;
using compile_ret_t = std::tuple<continuation_e>;
using compile_ret_t = continuation_e;
using compile_func = compile_ret_t (this_class::*)(virt_addr_t &pc, code_word_t instr, tu_builder&);
inline const char *name(size_t index){return traits::reg_aliases.at(index);}
<%
if(fcsr != null) {%>
inline const char *fname(size_t index){return index < 32?name(index+traits::F0):"illegal";}
void add_prologue(tu_builder& tu) override;
<%}%>
void add_prologue(tu_builder& tu) override;
void setup_module(std::string m) override {
super::setup_module(m);
}
compile_ret_t gen_single_inst_behavior(virt_addr_t &, unsigned int &, tu_builder&) override;
compile_ret_t gen_single_inst_behavior(virt_addr_t &, tu_builder&) override;
void gen_trap_behavior(tu_builder& tu) override;
@ -176,6 +176,7 @@ private:
auto cur_pc_val = tu.constant(pc.val, traits::reg_bit_widths[traits::PC]);
pc=pc+ ${instr.length/8};
gen_set_pc(tu, pc, traits::NEXT_PC);
tu("(*cycle)++;");
tu.open_scope();
this->gen_set_tval(tu, instr);
<%instr.behavior.eachLine{%>${it}
@ -225,8 +226,8 @@ vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
}()) {}
template <typename ARCH>
std::tuple<continuation_e>
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt, tu_builder& tu) {
continuation_e
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, tu_builder& tu) {
// we fetch at max 4 byte, alignment is 2
enum {TRAP_ID=1<<16};
code_word_t instr = 0;
@ -238,7 +239,6 @@ vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt,
return ILLEGAL_FETCH;
if (instr == 0x0000006f || (instr&0xffff)==0xa001)
return JUMP_TO_SELF;
++inst_cnt;
uint32_t inst_index = instr_decoder.decode_instr(instr);
compile_func f = nullptr;
if(inst_index < instr_descr.size())
@ -273,10 +273,12 @@ template <typename ARCH> void vm_impl<ARCH>::gen_trap_behavior(tu_builder& tu) {
tu.store(traits::LAST_BRANCH, tu.constant(static_cast<int>(UNKNOWN_JUMP),32));
tu("return *next_pc;");
}
<%
if(fcsr != null) {%>
template <typename ARCH> void vm_impl<ARCH>::add_prologue(tu_builder& tu){
std::ostringstream os;
os << tu.add_reg_ptr("trap_state", arch::traits<ARCH>::TRAP_STATE, this->regs_base_ptr);
os << tu.add_reg_ptr("pending_trap", arch::traits<ARCH>::PENDING_TRAP, this->regs_base_ptr);
os << tu.add_reg_ptr("cycle", arch::traits<ARCH>::CYCLE, this->regs_base_ptr);
<%if(fcsr != null) {%>
os << "uint32_t (*fget_flags)()=" << (uintptr_t)&fget_flags << ";\\n";
os << "uint32_t (*fadd_s)(uint32_t v1, uint32_t v2, uint8_t mode)=" << (uintptr_t)&fadd_s << ";\\n";
os << "uint32_t (*fsub_s)(uint32_t v1, uint32_t v2, uint8_t mode)=" << (uintptr_t)&fsub_s << ";\\n";
@ -303,9 +305,9 @@ template <typename ARCH> void vm_impl<ARCH>::add_prologue(tu_builder& tu){
os << "uint64_t (*fcvt_32_64)(uint32_t v1, uint32_t op, uint8_t mode)=" << (uintptr_t)&fcvt_32_64 << ";\\n";
os << "uint32_t (*fcvt_64_32)(uint64_t v1, uint32_t op, uint8_t mode)=" << (uintptr_t)&fcvt_64_32 << ";\\n";
os << "uint32_t (*unbox_s)(uint64_t v)=" << (uintptr_t)&unbox_s << ";\\n";
<%}%>
tu.add_prologue(os.str());
}
<%}%>
} // namespace ${coreDef.name.toLowerCase()}

48
src/iss/arch/riscv_hart_common.h
View File

@ -36,11 +36,14 @@
#define _RISCV_HART_COMMON
#include "iss/vm_types.h"
#include <array>
#include <cstdint>
#include <elfio/elfio.hpp>
#include <fmt/format.h>
#include <iss/arch_if.h>
#include <iss/log_categories.h>
#include <limits>
#include <sstream>
#include <string>
#include <unordered_map>
#include <util/logging.h>
@ -56,8 +59,6 @@
namespace iss {
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, FEAT_TCM = 16 };
enum riscv_csr {
@ -316,8 +317,8 @@ struct riscv_hart_common {
~riscv_hart_common(){};
std::unordered_map<std::string, uint64_t> symbol_table;
uint64_t entry_address{0};
uint64_t tohost = tohost_dflt;
uint64_t fromhost = fromhost_dflt;
uint64_t tohost = std::numeric_limits<uint64_t>::max();
uint64_t fromhost = std::numeric_limits<uint64_t>::max();
bool read_elf_file(std::string name, uint8_t expected_elf_class,
std::function<iss::status(uint64_t, uint64_t, const uint8_t* const)> cb) {
@ -365,11 +366,10 @@ struct riscv_hart_common {
}
try {
tohost = symbol_table.at("tohost");
try {
fromhost = symbol_table.at("fromhost");
} catch(std::out_of_range& e) {
fromhost = tohost + 0x40;
}
} catch(std::out_of_range& e) {
}
try {
fromhost = symbol_table.at("fromhost");
} catch(std::out_of_range& e) {
}
}
@ -377,6 +377,36 @@ struct riscv_hart_common {
}
return false;
};
iss::status execute_sys_write(arch_if* aif, const std::array<uint64_t, 8>& loaded_payload, unsigned mem_type) {
std::stringstream io_buf;
uint64_t fd = loaded_payload[1];
uint64_t buf_ptr = loaded_payload[2];
uint64_t len = loaded_payload[3];
std::vector<char> buf(len);
if(aif->read(address_type::PHYSICAL, access_type::DEBUG_READ, mem_type, buf_ptr, len, reinterpret_cast<uint8_t*>(buf.data()))) {
CPPLOG(ERR) << "SYS_WRITE buffer read went wrong";
return iss::Err;
}
// we disregard the fd and just log to stdout
for(size_t i = 0; i < len; i++) {
if(buf[i] == '\n') {
CPPLOG(INFO) << "tohost send '" << io_buf.str() << "'";
io_buf.str("");
} else
io_buf << buf[i];
}
if(io_buf.str().length()) {
CPPLOG(INFO) << "tohost send '" << io_buf.str() << "'";
}
// Not sure what the correct return value should be
uint8_t ret_val = 1;
if(fromhost != std::numeric_limits<uint64_t>::max())
if(aif->write(address_type::PHYSICAL, access_type::DEBUG_WRITE, mem_type, fromhost, 1, &ret_val)) {
CPPLOG(ERR) << "Fromhost write went wrong";
return iss::Err;
}
return iss::Ok;
}
};
} // namespace arch

140
src/iss/arch/riscv_hart_m_p.h
View File

@ -41,7 +41,11 @@
#include "iss/vm_if.h"
#include "iss/vm_types.h"
#include "riscv_hart_common.h"
#include "util/logging.h"
#include <algorithm>
#include <cstdint>
#include <elfio/elf_types.hpp>
#include <limits>
#include <stdexcept>
#ifndef FMT_HEADER_ONLY
#define FMT_HEADER_ONLY
@ -344,7 +348,6 @@ protected:
int64_t instret_offset{0};
uint64_t minstret_csr{0};
reg_t fault_data;
bool tohost_lower_written = false;
riscv_instrumentation_if instr_if;
semihosting_cb_t<reg_t> semihosting_cb;
@ -354,7 +357,6 @@ protected:
using csr_page_type = typename csr_type::page_type;
mem_type mem;
csr_type csr;
std::stringstream uart_buf;
std::unordered_map<reg_t, uint64_t> ptw;
std::unordered_map<uint64_t, uint8_t> atomic_reservation;
std::unordered_map<unsigned, rd_csr_f> csr_rd_cb;
@ -446,7 +448,6 @@ riscv_hart_m_p<BASE, FEAT, LOGCAT>::riscv_hart_m_p(feature_config cfg)
csr[marchid] = traits<BASE>::MARCHID_VAL;
csr[mimpid] = 1;
uart_buf.str("");
if(traits<BASE>::FLEN > 0) {
csr_rd_cb[fcsr] = &this_class::read_fcsr;
csr_wr_cb[fcsr] = &this_class::write_fcsr;
@ -610,7 +611,7 @@ iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::read(const address_type type, co
try {
switch(space) {
case traits<BASE>::MEM: {
auto alignment = is_fetch(access) ? (has_compressed() ? 2 : 4) : length;
auto alignment = is_fetch(access) ? (has_compressed() ? 2 : 4) : std::min<unsigned>(length, sizeof(reg_t));
if(unlikely(is_fetch(access) && (addr & (alignment - 1)))) {
fault_data = addr;
if(is_debug(access))
@ -720,7 +721,8 @@ iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::write(const address_type type, c
return iss::Err;
}
try {
if(length > 1 && (addr & (length - 1)) && (access & access_type::DEBUG) != access_type::DEBUG) {
auto alignment = std::min<unsigned>(length, sizeof(reg_t));
if(length > 1 && (addr & (alignment - 1)) && !is_debug(access)) {
this->reg.trap_state = (1UL << 31) | 6 << 16;
fault_data = addr;
return iss::Err;
@ -740,7 +742,7 @@ iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::write(const address_type type, c
} else {
res = write_mem(phys_addr, length, data);
}
if(unlikely(res != iss::Ok && (access & access_type::DEBUG) == 0)) {
if(unlikely(res != iss::Ok && !is_debug(access))) {
this->reg.trap_state = (1UL << 31) | (7UL << 16); // issue trap 7 (Store/AMO access fault)
fault_data = addr;
}
@ -750,38 +752,6 @@ iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::write(const address_type type, c
fault_data = ta.addr;
return iss::Err;
}
if((addr + length) > mem.size())
return iss::Err;
switch(addr) {
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) {
std::cout << uart_buf.str();
uart_buf.str("");
}
return iss::Ok;
case 0x10008000: { // HFROSC base, hfrosccfg reg
auto& p = mem(addr / mem.page_size);
auto offs = addr & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
if(x & 0x40)
x |= 0x80; // hfroscrdy = 1 if hfroscen==1
return iss::Ok;
}
case 0x10008008: { // HFROSC base, pllcfg reg
auto& p = mem(addr / mem.page_size);
auto offs = addr & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
x |= 0x80; // set pll lock upon writing
return iss::Ok;
} break;
default: {
}
}
} break;
case traits<BASE>::CSR: {
if(length != sizeof(reg_t))
@ -1094,59 +1064,51 @@ iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::read_mem(phys_addr_t paddr, unsi
template <typename BASE, features_e FEAT, typename LOGCAT>
iss::status riscv_hart_m_p<BASE, FEAT, LOGCAT>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t* const data) {
switch(paddr.val) {
// TODO remove UART, Peripherals should not be part of the ISS
case 0xFFFF0000: // UART0 base, TXFIFO reg
if(((char)data[0]) == '\n' || data[0] == 0) {
CPPLOG(INFO) << "UART" << ((paddr.val >> 12) & 0x3) << " send '" << uart_buf.str() << "'";
uart_buf.str("");
} else if(((char)data[0]) != '\r')
uart_buf << (char)data[0];
break;
default: {
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
if(paddr.access && iss::access_type::FUNC) {
auto tohost_upper =
(traits<BASE>::XLEN == 32 && paddr.val == (tohost + 4)) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
auto tohost_lower = (traits<BASE>::XLEN == 32 && paddr.val == tohost) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
if(tohost_lower || tohost_upper) {
uint64_t hostvar = *reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask));
// in case of 32 bit system, two writes to tohost are needed, only evaluate on the second (high) write
if(tohost_upper && (tohost_lower || tohost_lower_written)) {
switch(hostvar >> 48) {
case 0:
if(hostvar != 0x1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
} else {
CPPLOG(INFO) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
}
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = hostvar;
break;
case 0x0101: {
char c = static_cast<char>(hostvar & 0xff);
if(c == '\n' || c == 0) {
CPPLOG(INFO) << "tohost send '" << uart_buf.str() << "'";
uart_buf.str("");
} else
uart_buf << c;
} break;
default:
break;
}
tohost_lower_written = false;
} else if(tohost_lower)
tohost_lower_written = true;
} else if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
// according to https://github.com/riscv-software-src/riscv-isa-sim/issues/364#issuecomment-607657754:
if(paddr.access && iss::access_type::FUNC) {
if(paddr.val == tohost) {
reg_t cur_data = *reinterpret_cast<const reg_t*>(data);
// Extract Device (bits 63:56)
uint8_t device = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 56) & 0xFF;
// Extract Command (bits 55:48)
uint8_t command = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 48) & 0xFF;
// Extract payload (bits 47:0)
uint64_t payload_addr = cur_data & 0xFFFFFFFFFFFFULL;
if(payload_addr & 1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << payload_addr << std::dec << " (" << payload_addr
<< "), stopping simulation";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
} else if(device == 0 && command == 0) {
std::array<uint64_t, 8> loaded_payload;
if(read(address_type::PHYSICAL, access_type::DEBUG_READ, traits<BASE>::MEM, payload_addr, 8 * sizeof(uint64_t),
reinterpret_cast<uint8_t*>(loaded_payload.data())) == iss::Err)
CPPLOG(ERR) << "Syscall read went wrong";
uint64_t syscall_num = loaded_payload.at(0);
if(syscall_num == 64) { // SYS_WRITE
return execute_sys_write(this, loaded_payload, traits<BASE>::MEM);
} else {
CPPLOG(ERR) << "tohost syscall with number 0x" << std::hex << syscall_num << std::dec << " (" << syscall_num
<< ") not implemented";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
} else {
CPPLOG(ERR) << "tohost functionality not implemented for device " << device << " and command " << command;
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
}
}
if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
}
}
return iss::Ok;
}

141
src/iss/arch/riscv_hart_msu_vp.h
View File

@ -41,6 +41,11 @@
#include "iss/vm_if.h"
#include "iss/vm_types.h"
#include "riscv_hart_common.h"
#include "util/logging.h"
#include <algorithm>
#include <cstdint>
#include <elfio/elf_types.hpp>
#include <limits>
#include <stdexcept>
#ifndef FMT_HEADER_ONLY
#define FMT_HEADER_ONLY
@ -393,7 +398,6 @@ protected:
uint64_t minstret_csr{0};
reg_t fault_data;
std::array<vm_info, 2> vm;
bool tohost_lower_written = false;
riscv_instrumentation_if instr_if;
std::function<void(arch_if*, reg_t, reg_t)> semihosting_cb;
@ -404,7 +408,6 @@ protected:
mem_type mem;
csr_type csr;
void update_vm_info();
std::stringstream uart_buf;
std::unordered_map<reg_t, uint64_t> ptw;
std::unordered_map<uint64_t, uint8_t> atomic_reservation;
std::unordered_map<unsigned, rd_csr_f> csr_rd_cb;
@ -459,7 +462,6 @@ riscv_hart_msu_vp<BASE>::riscv_hart_msu_vp()
csr[marchid] = traits<BASE>::MARCHID_VAL;
csr[mimpid] = 1;
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;
@ -580,7 +582,7 @@ iss::status riscv_hart_msu_vp<BASE>::read(const address_type type, const access_
try {
switch(space) {
case traits<BASE>::MEM: {
auto alignment = is_fetch(access) ? (traits<BASE>::MISA_VAL & 0x100 ? 2 : 4) : length;
auto alignment = is_fetch(access) ? (has_compressed() ? 2 : 4) : std::min<unsigned>(length, sizeof(reg_t));
if(unlikely(is_fetch(access) && (addr & (alignment - 1)))) {
fault_data = addr;
if(access && iss::access_type::DEBUG)
@ -699,6 +701,7 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
}
phys_addr_t paddr = BASE::v2p(iss::addr_t{access, type, space, addr});
try {
// TODO: There is no check for alignment
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
@ -721,40 +724,6 @@ iss::status riscv_hart_msu_vp<BASE>::write(const address_type type, const access
fault_data = ta.addr;
return iss::Err;
}
if((paddr.val + length) > mem.size())
return iss::Err;
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) {
// CPPLOG(INFO)<<"UART"<<((paddr.val>>16)&0x3)<<" send
// '"<<uart_buf.str()<<"'";
std::cout << uart_buf.str();
uart_buf.str("");
}
return iss::Ok;
case 0x10008000: { // HFROSC base, hfrosccfg reg
auto& p = mem(paddr.val / mem.page_size);
auto offs = paddr.val & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
if(x & 0x40)
x |= 0x80; // hfroscrdy = 1 if hfroscen==1
return iss::Ok;
}
case 0x10008008: { // HFROSC base, pllcfg reg
auto& p = mem(paddr.val / mem.page_size);
auto offs = paddr.val & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
x |= 0x80; // set pll lock upon writing
return iss::Ok;
} break;
default: {
}
}
} break;
case traits<BASE>::CSR: {
if(length != sizeof(reg_t))
@ -1024,61 +993,51 @@ template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::read_mem(phys_addr
}
template <typename BASE> iss::status riscv_hart_msu_vp<BASE>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t* const data) {
switch(paddr.val) {
case 0xFFFF0000: // UART0 base, TXFIFO reg
if(((char)data[0]) == '\n' || data[0] == 0) {
CPPLOG(INFO) << "UART" << ((paddr.val >> 12) & 0x3) << " send '" << uart_buf.str() << "'";
uart_buf.str("");
} else if(((char)data[0]) != '\r')
uart_buf << (char)data[0];
break;
default: {
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
if(paddr.access && iss::access_type::FUNC) {
auto tohost_upper =
(traits<BASE>::XLEN == 32 && paddr.val == (tohost + 4)) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
auto tohost_lower = (traits<BASE>::XLEN == 32 && paddr.val == tohost) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
if(tohost_lower || tohost_upper) {
uint64_t hostvar = *reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask));
// in case of 32 bit system, two writes to tohost are needed, only evaluate on the second (high) write
if(tohost_upper && (tohost_lower || tohost_lower_written)) {
switch(hostvar >> 48) {
case 0:
if(hostvar != 0x1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
} else {
CPPLOG(INFO) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
}
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = hostvar;
#ifndef WITH_TCC
throw(iss::simulation_stopped(hostvar));
#endif
break;
case 0x0101: {
char c = static_cast<char>(hostvar & 0xff);
if(c == '\n' || c == 0) {
CPPLOG(INFO) << "tohost send '" << uart_buf.str() << "'";
uart_buf.str("");
} else
uart_buf << c;
} break;
default:
break;
}
tohost_lower_written = false;
} else if(tohost_lower)
tohost_lower_written = true;
} else if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
// according to https://github.com/riscv-software-src/riscv-isa-sim/issues/364#issuecomment-607657754:
if(paddr.access && iss::access_type::FUNC) {
if(paddr.val == tohost) {
reg_t cur_data = *reinterpret_cast<const reg_t*>(data);
// Extract Device (bits 63:56)
uint8_t device = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 56) & 0xFF;
// Extract Command (bits 55:48)
uint8_t command = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 48) & 0xFF;
// Extract payload (bits 47:0)
uint64_t payload_addr = cur_data & 0xFFFFFFFFFFFFULL;
if(payload_addr & 1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << payload_addr << std::dec << " (" << payload_addr
<< "), stopping simulation";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
} else if(device == 0 && command == 0) {
std::array<uint64_t, 8> loaded_payload;
if(read(address_type::PHYSICAL, access_type::DEBUG_READ, traits<BASE>::MEM, payload_addr, 8 * sizeof(uint64_t),
reinterpret_cast<uint8_t*>(loaded_payload.data())) == iss::Err)
CPPLOG(ERR) << "Syscall read went wrong";
uint64_t syscall_num = loaded_payload.at(0);
if(syscall_num == 64) { // SYS_WRITE
return execute_sys_write(this, loaded_payload, traits<BASE>::MEM);
} else {
CPPLOG(ERR) << "tohost syscall with number 0x" << std::hex << syscall_num << std::dec << " (" << syscall_num
<< ") not implemented";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
} else {
CPPLOG(ERR) << "tohost functionality not implemented for device " << device << " and command " << command;
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
}
}
if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
}
}
return iss::Ok;
}

143
src/iss/arch/riscv_hart_mu_p.h
View File

@ -41,6 +41,11 @@
#include "iss/vm_if.h"
#include "iss/vm_types.h"
#include "riscv_hart_common.h"
#include "util/logging.h"
#include <algorithm>
#include <cstdint>
#include <elfio/elf_types.hpp>
#include <limits>
#include <stdexcept>
#ifndef FMT_HEADER_ONLY
#define FMT_HEADER_ONLY
@ -370,7 +375,6 @@ protected:
int64_t instret_offset{0};
uint64_t minstret_csr{0};
reg_t fault_data;
bool tohost_lower_written = false;
riscv_instrumentation_if instr_if;
semihosting_cb_t<reg_t> semihosting_cb;
@ -380,7 +384,6 @@ protected:
using csr_page_type = typename csr_type::page_type;
mem_type mem;
csr_type csr;
std::stringstream uart_buf;
std::unordered_map<reg_t, uint64_t> ptw;
std::unordered_map<uint64_t, uint8_t> atomic_reservation;
std::unordered_map<unsigned, rd_csr_f> csr_rd_cb;
@ -475,7 +478,6 @@ riscv_hart_mu_p<BASE, FEAT, LOGCAT>::riscv_hart_mu_p(feature_config cfg)
csr[marchid] = traits<BASE>::MARCHID_VAL;
csr[mimpid] = 1;
uart_buf.str("");
if(traits<BASE>::FLEN > 0) {
csr_rd_cb[fcsr] = &this_class::read_fcsr;
csr_wr_cb[fcsr] = &this_class::write_fcsr;
@ -783,7 +785,7 @@ iss::status riscv_hart_mu_p<BASE, FEAT, LOGCAT>::read(const address_type type, c
return iss::Err;
}
}
auto alignment = is_fetch(access) ? (has_compressed() ? 2 : 4) : length;
auto alignment = is_fetch(access) ? (has_compressed() ? 2 : 4) : std::min<unsigned>(length, sizeof(reg_t));
if(unlikely(is_fetch(access) && (addr & (alignment - 1)))) {
fault_data = addr;
if(is_debug(access))
@ -902,7 +904,8 @@ iss::status riscv_hart_mu_p<BASE, FEAT, LOGCAT>::write(const address_type type,
return iss::Err;
}
try {
if(length > 1 && (addr & (length - 1)) && (access & access_type::DEBUG) != access_type::DEBUG) {
auto alignment = std::min<unsigned>(length, sizeof(reg_t));
if(length > 1 && (addr & (alignment - 1)) && !is_debug(access)) {
this->reg.trap_state = (1UL << 31) | 6 << 16;
fault_data = addr;
return iss::Err;
@ -932,38 +935,6 @@ iss::status riscv_hart_mu_p<BASE, FEAT, LOGCAT>::write(const address_type type,
fault_data = ta.addr;
return iss::Err;
}
if((addr + length) > mem.size())
return iss::Err;
switch(addr) {
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) {
std::cout << uart_buf.str();
uart_buf.str("");
}
return iss::Ok;
case 0x10008000: { // HFROSC base, hfrosccfg reg
auto& p = mem(addr / mem.page_size);
auto offs = addr & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
if(x & 0x40)
x |= 0x80; // hfroscrdy = 1 if hfroscen==1
return iss::Ok;
}
case 0x10008008: { // HFROSC base, pllcfg reg
auto& p = mem(addr / mem.page_size);
auto offs = addr & mem.page_addr_mask;
std::copy(data, data + length, p.data() + offs);
auto& x = *(p.data() + offs + 3);
x |= 0x80; // set pll lock upon writing
return iss::Ok;
} break;
default: {
}
}
} break;
case traits<BASE>::CSR: {
if(length != sizeof(reg_t))
@ -1312,65 +1283,53 @@ iss::status riscv_hart_mu_p<BASE, FEAT, LOGCAT>::read_mem(phys_addr_t paddr, uns
}
return iss::Ok;
}
template <typename BASE, features_e FEAT, typename LOGCAT>
iss::status riscv_hart_mu_p<BASE, FEAT, LOGCAT>::write_mem(phys_addr_t paddr, unsigned length, const uint8_t* const data) {
switch(paddr.val) {
// TODO remove UART, Peripherals should not be part of the ISS
case 0xFFFF0000: // UART0 base, TXFIFO reg
if(((char)data[0]) == '\n' || data[0] == 0) {
CPPLOG(INFO) << "UART" << ((paddr.val >> 12) & 0x3) << " send '" << uart_buf.str() << "'";
uart_buf.str("");
} else if(((char)data[0]) != '\r')
uart_buf << (char)data[0];
break;
default: {
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
if(paddr.access && iss::access_type::FUNC) {
auto tohost_upper =
(traits<BASE>::XLEN == 32 && paddr.val == (tohost + 4)) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
auto tohost_lower = (traits<BASE>::XLEN == 32 && paddr.val == tohost) || (traits<BASE>::XLEN == 64 && paddr.val == tohost);
if(tohost_lower || tohost_upper) {
uint64_t hostvar = *reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask));
// in case of 32 bit system, two writes to tohost are needed, only evaluate on the second (high) write
if(tohost_upper && (tohost_lower || tohost_lower_written)) {
switch(hostvar >> 48) {
case 0:
if(hostvar != 0x1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
} else {
CPPLOG(INFO) << "tohost value is 0x" << std::hex << hostvar << std::dec << " (" << hostvar
<< "), stopping simulation";
}
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = hostvar;
#ifndef WITH_TCC
throw(iss::simulation_stopped(hostvar));
#endif
break;
case 0x0101: {
char c = static_cast<char>(hostvar & 0xff);
if(c == '\n' || c == 0) {
CPPLOG(INFO) << "tohost send '" << uart_buf.str() << "'";
uart_buf.str("");
} else
uart_buf << c;
} break;
default:
break;
}
tohost_lower_written = false;
} else if(tohost_lower)
tohost_lower_written = true;
} else if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
mem_type::page_type& p = mem(paddr.val / mem.page_size);
std::copy(data, data + length, p.data() + (paddr.val & mem.page_addr_mask));
// tohost handling in case of riscv-test
// according to https://github.com/riscv-software-src/riscv-isa-sim/issues/364#issuecomment-607657754:
if(paddr.access && iss::access_type::FUNC) {
if(paddr.val == tohost) {
reg_t cur_data = *reinterpret_cast<const reg_t*>(data);
// Extract Device (bits 63:56)
uint8_t device = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 56) & 0xFF;
// Extract Command (bits 55:48)
uint8_t command = traits<BASE>::XLEN == 32 ? 0 : (cur_data >> 48) & 0xFF;
// Extract payload (bits 47:0)
uint64_t payload_addr = cur_data & 0xFFFFFFFFFFFFULL;
if(payload_addr & 1) {
CPPLOG(FATAL) << "tohost value is 0x" << std::hex << payload_addr << std::dec << " (" << payload_addr
<< "), stopping simulation";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
} else if(device == 0 && command == 0) {
std::array<uint64_t, 8> loaded_payload;
if(read(address_type::PHYSICAL, access_type::DEBUG_READ, traits<BASE>::MEM, payload_addr, 8 * sizeof(uint64_t),
reinterpret_cast<uint8_t*>(loaded_payload.data())) == iss::Err)
CPPLOG(ERR) << "Syscall read went wrong";
uint64_t syscall_num = loaded_payload.at(0);
if(syscall_num == 64) { // SYS_WRITE
return execute_sys_write(this, loaded_payload, traits<BASE>::MEM);
} else {
CPPLOG(ERR) << "tohost syscall with number 0x" << std::hex << syscall_num << std::dec << " (" << syscall_num
<< ") not implemented";
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
} else {
CPPLOG(ERR) << "tohost functionality not implemented for device " << device << " and command " << command;
this->reg.trap_state = std::numeric_limits<uint32_t>::max();
this->interrupt_sim = payload_addr;
return iss::Ok;
}
}
}
if((traits<BASE>::XLEN == 32 && paddr.val == fromhost + 4) || (traits<BASE>::XLEN == 64 && paddr.val == fromhost)) {
uint64_t fhostvar = *reinterpret_cast<uint64_t*>(p.data() + (fromhost & mem.page_addr_mask));
*reinterpret_cast<uint64_t*>(p.data() + (tohost & mem.page_addr_mask)) = fhostvar;
}
}
return iss::Ok;
}

6
src/iss/arch/tgc5c.h
View File

File diff suppressed because one or more lines are too long

5
src/vm/asmjit/vm_tgc5c.cpp
View File

@ -94,7 +94,7 @@ protected:
using this_class = vm_impl<ARCH>;
using compile_func = continuation_e (this_class::*)(virt_addr_t&, code_word_t, jit_holder&);
continuation_e gen_single_inst_behavior(virt_addr_t&, unsigned int &, jit_holder&) override;
continuation_e gen_single_inst_behavior(virt_addr_t&, jit_holder&) override;
enum globals_e {TVAL = 0, GLOBALS_SIZE};
void gen_block_prologue(jit_holder& jh) override;
void gen_block_epilogue(jit_holder& jh) override;
@ -4780,7 +4780,7 @@ vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
}()) {}
template <typename ARCH>
continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt, jit_holder& jh) {
continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, jit_holder& jh) {
enum {TRAP_ID=1<<16};
code_word_t instr = 0;
phys_addr_t paddr(pc);
@ -4792,7 +4792,6 @@ continuation_e vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned
return ILLEGAL_FETCH;
if (instr == 0x0000006f || (instr&0xffff)==0xa001)
return JUMP_TO_SELF;
++inst_cnt;
uint32_t inst_index = instr_decoder.decode_instr(instr);
compile_func f = nullptr;
if(inst_index < instr_descr.size())

55
src/vm/interp/vm_tgc5c.cpp
View File

@ -275,9 +275,6 @@ template <typename CODE_WORD> void debug_fn(CODE_WORD insn) {
volatile CODE_WORD x = insn;
insn = 2 * x;
}
template <typename ARCH> vm_impl<ARCH>::vm_impl() { this(new ARCH()); }
// according to
// https://stackoverflow.com/questions/8871204/count-number-of-1s-in-binary-representation
#ifdef __GCC__
@ -709,9 +706,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t load_address = (uint32_t)((uint64_t)(*(X+rs1) ) + (uint64_t)((int16_t)sext<12>(imm) ));
int8_t res_27 = super::template read_mem<int8_t>(traits::MEM, load_address);
int8_t res_1 = super::template read_mem<int8_t>(traits::MEM, load_address);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
int8_t res = (int8_t)res_27;
int8_t res = (int8_t)res_1;
if(rd != 0) {
*(X+rd) = (uint32_t)res;
}
@ -740,9 +737,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t load_address = (uint32_t)((uint64_t)(*(X+rs1) ) + (uint64_t)((int16_t)sext<12>(imm) ));
int16_t res_28 = super::template read_mem<int16_t>(traits::MEM, load_address);
int16_t res_2 = super::template read_mem<int16_t>(traits::MEM, load_address);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
int16_t res = (int16_t)res_28;
int16_t res = (int16_t)res_2;
if(rd != 0) {
*(X+rd) = (uint32_t)res;
}
@ -771,9 +768,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t load_address = (uint32_t)((uint64_t)(*(X+rs1) ) + (uint64_t)((int16_t)sext<12>(imm) ));
int32_t res_29 = super::template read_mem<int32_t>(traits::MEM, load_address);
int32_t res_3 = super::template read_mem<int32_t>(traits::MEM, load_address);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
int32_t res = (int32_t)res_29;
int32_t res = (int32_t)res_3;
if(rd != 0) {
*(X+rd) = (uint32_t)res;
}
@ -802,9 +799,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t load_address = (uint32_t)((uint64_t)(*(X+rs1) ) + (uint64_t)((int16_t)sext<12>(imm) ));
uint8_t res_30 = super::template read_mem<uint8_t>(traits::MEM, load_address);
uint8_t res_4 = super::template read_mem<uint8_t>(traits::MEM, load_address);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint8_t res = res_30;
uint8_t res = res_4;
if(rd != 0) {
*(X+rd) = (uint32_t)res;
}
@ -833,9 +830,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t load_address = (uint32_t)((uint64_t)(*(X+rs1) ) + (uint64_t)((int16_t)sext<12>(imm) ));
uint16_t res_31 = super::template read_mem<uint16_t>(traits::MEM, load_address);
uint16_t res_5 = super::template read_mem<uint16_t>(traits::MEM, load_address);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint16_t res = res_31;
uint16_t res = res_5;
if(rd != 0) {
*(X+rd) = (uint32_t)res;
}
@ -1541,9 +1538,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
else {
uint32_t xrs1 = *(X+rs1);
if(rd != 0) {
uint32_t res_32 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_6 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_32;
uint32_t xrd = res_6;
super::template write_mem<uint32_t>(traits::CSR, csr, xrs1);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
*(X+rd) = xrd;
@ -1576,9 +1573,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
raise(0, traits::RV_CAUSE_ILLEGAL_INSTRUCTION);
}
else {
uint32_t res_33 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_7 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_33;
uint32_t xrd = res_7;
uint32_t xrs1 = *(X+rs1);
if(rs1 != 0) {
super::template write_mem<uint32_t>(traits::CSR, csr, xrd | xrs1);
@ -1611,9 +1608,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
raise(0, traits::RV_CAUSE_ILLEGAL_INSTRUCTION);
}
else {
uint32_t res_34 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_8 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_34;
uint32_t xrd = res_8;
uint32_t xrs1 = *(X+rs1);
if(rs1 != 0) {
super::template write_mem<uint32_t>(traits::CSR, csr, xrd & ~ xrs1);
@ -1646,9 +1643,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
raise(0, traits::RV_CAUSE_ILLEGAL_INSTRUCTION);
}
else {
uint32_t res_35 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_9 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_35;
uint32_t xrd = res_9;
super::template write_mem<uint32_t>(traits::CSR, csr, (uint32_t)zimm);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
if(rd != 0) {
@ -1678,9 +1675,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
raise(0, traits::RV_CAUSE_ILLEGAL_INSTRUCTION);
}
else {
uint32_t res_36 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_10 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_36;
uint32_t xrd = res_10;
if(zimm != 0) {
super::template write_mem<uint32_t>(traits::CSR, csr, xrd | (uint32_t)zimm);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
@ -1712,9 +1709,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
raise(0, traits::RV_CAUSE_ILLEGAL_INSTRUCTION);
}
else {
uint32_t res_37 = super::template read_mem<uint32_t>(traits::CSR, csr);
uint32_t res_11 = super::template read_mem<uint32_t>(traits::CSR, csr);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
uint32_t xrd = res_37;
uint32_t xrd = res_11;
if(zimm != 0) {
super::template write_mem<uint32_t>(traits::CSR, csr, xrd & ~ ((uint32_t)zimm));
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
@ -2049,9 +2046,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
// execute instruction
{
uint32_t offs = (uint32_t)((uint64_t)(*(X+rs1 + 8) ) + (uint64_t)(uimm ));
int32_t res_38 = super::template read_mem<int32_t>(traits::MEM, offs);
int32_t res_12 = super::template read_mem<int32_t>(traits::MEM, offs);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
*(X+rd + 8) = (uint32_t)(int32_t)res_38;
*(X+rd + 8) = (uint32_t)(int32_t)res_12;
}
break;
}// @suppress("No break at end of case")
@ -2475,9 +2472,9 @@ typename vm_base<ARCH>::virt_addr_t vm_impl<ARCH>::execute_inst(finish_cond_e co
}
else {
uint32_t offs = (uint32_t)((uint64_t)(*(X+2) ) + (uint64_t)(uimm ));
int32_t res_39 = super::template read_mem<int32_t>(traits::MEM, offs);
int32_t res_13 = super::template read_mem<int32_t>(traits::MEM, offs);
if(this->core.reg.trap_state>=0x80000000UL) throw memory_access_exception();
*(X+rd) = (uint32_t)(int32_t)res_39;
*(X+rd) = (uint32_t)(int32_t)res_13;
}
}
break;

13
src/vm/llvm/vm_tgc5c.cpp
View File

@ -97,7 +97,7 @@ protected:
return super::gen_cond_assign(cond, this->gen_ext(trueVal, size), this->gen_ext(falseVal, size));
}
std::tuple<continuation_e, BasicBlock *> gen_single_inst_behavior(virt_addr_t &, unsigned int &, BasicBlock *) override;
std::tuple<continuation_e, BasicBlock *> gen_single_inst_behavior(virt_addr_t &, BasicBlock *) override;
void gen_leave_behavior(BasicBlock *leave_blk) override;
void gen_raise_trap(uint16_t trap_id, uint16_t cause);
@ -4937,7 +4937,7 @@ vm_impl<ARCH>::vm_impl(ARCH &core, unsigned core_id, unsigned cluster_id)
template <typename ARCH>
std::tuple<continuation_e, BasicBlock *>
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt, BasicBlock *this_block) {
vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, BasicBlock *this_block) {
// we fetch at max 4 byte, alignment is 2
enum {TRAP_ID=1<<16};
code_word_t instr = 0;
@ -4949,9 +4949,10 @@ vm_impl<ARCH>::gen_single_inst_behavior(virt_addr_t &pc, unsigned int &inst_cnt,
auto res = this->core.read(paddr, 4, data);
if (res != iss::Ok)
return std::make_tuple(ILLEGAL_FETCH, nullptr);
if (instr == 0x0000006f || (instr&0xffff)==0xa001)
if (instr == 0x0000006f || (instr&0xffff)==0xa001){
this->builder.CreateBr(this->leave_blk);
return std::make_tuple(JUMP_TO_SELF, nullptr);
++inst_cnt;
}
uint32_t inst_index = instr_decoder.decode_instr(instr);
compile_func f = nullptr;
if(inst_index < instr_descr.size())
@ -5033,6 +5034,10 @@ void vm_impl<ARCH>::gen_instr_epilogue(BasicBlock *bb) {
auto* icount_val = this->builder.CreateAdd(
this->builder.CreateLoad(this->get_typeptr(arch::traits<ARCH>::ICOUNT), get_reg_ptr(arch::traits<ARCH>::ICOUNT)), this->gen_const(64U, 1));
this->builder.CreateStore(icount_val, get_reg_ptr(arch::traits<ARCH>::ICOUNT), false);
//increment cyclecount
auto* cycle_val = this->builder.CreateAdd(
this->builder.CreateLoad(this->get_typeptr(arch::traits<ARCH>::CYCLE), get_reg_ptr(arch::traits<ARCH>::CYCLE)), this->gen_const(64U, 1));
this->builder.CreateStore(cycle_val, get_reg_ptr(arch::traits<ARCH>::CYCLE), false);
}
} // namespace tgc5c

279
src/vm/tcc/vm_tgc5c.cpp
View File

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