#include "decode.h"
#include "config.h"
#include "devices.h"
+#include "trap.h"
#include <string>
#include <vector>
#include <map>
+#include "debug_rom_defines.h"
class processor_t;
class mmu_t;
typedef reg_t (*insn_func_t)(processor_t*, insn_t, reg_t);
-class sim_t;
+class simif_t;
class trap_t;
class extension_t;
class disassembler_t;
struct commit_log_reg_t
{
reg_t addr;
- reg_t data;
+ freg_t data;
};
typedef struct
// architectural state of a RISC-V hart
struct state_t
{
- void reset();
+ void reset(reg_t max_isa);
static const int num_triggers = 4;
// control and status registers
reg_t prv; // TODO: Can this be an enum instead?
+ reg_t misa;
reg_t mstatus;
reg_t mepc;
- reg_t mbadaddr;
+ reg_t mtval;
reg_t mscratch;
reg_t mtvec;
reg_t mcause;
reg_t mip;
reg_t medeleg;
reg_t mideleg;
- uint32_t mucounteren;
- uint32_t mscounteren;
+ uint32_t mcounteren;
+ uint32_t scounteren;
reg_t sepc;
- reg_t sbadaddr;
+ reg_t stval;
reg_t sscratch;
reg_t stvec;
- reg_t sptbr;
+ reg_t satp;
reg_t scause;
reg_t dpc;
reg_t dscratch;
STEP_STEPPED
} single_step;
- reg_t load_reservation;
-
#ifdef RISCV_ENABLE_COMMITLOG
commit_log_reg_t log_reg_write;
reg_t last_inst_priv;
+ int last_inst_xlen;
+ int last_inst_flen;
#endif
};
class processor_t : public abstract_device_t
{
public:
- processor_t(const char* isa, sim_t* sim, uint32_t id, bool halt_on_reset=false);
+ processor_t(const char* isa, simif_t* sim, uint32_t id, bool halt_on_reset=false);
~processor_t();
void set_debug(bool value);
void reset();
void step(size_t n); // run for n cycles
void set_csr(int which, reg_t val);
- void raise_interrupt(reg_t which);
reg_t get_csr(int which);
mmu_t* get_mmu() { return mmu; }
state_t* get_state() { return &state; }
+ unsigned get_xlen() { return xlen; }
+ unsigned get_max_xlen() { return max_xlen; }
+ std::string get_isa_string() { return isa_string; }
+ unsigned get_flen() {
+ return supports_extension('Q') ? 128 :
+ supports_extension('D') ? 64 :
+ supports_extension('F') ? 32 : 0;
+ }
extension_t* get_extension() { return ext; }
bool supports_extension(unsigned char ext) {
if (ext >= 'a' && ext <= 'z') ext += 'A' - 'a';
- return ext >= 'A' && ext <= 'Z' && ((isa >> (ext - 'A')) & 1);
+ return ext >= 'A' && ext <= 'Z' && ((state.misa >> (ext - 'A')) & 1);
+ }
+ reg_t pc_alignment_mask() {
+ return ~(reg_t)(supports_extension('C') ? 0 : 2);
}
+ void check_pc_alignment(reg_t pc) {
+ if (unlikely(pc & ~pc_alignment_mask()))
+ throw trap_instruction_address_misaligned(pc);
+ }
+ reg_t legalize_privilege(reg_t);
void set_privilege(reg_t);
- void yield_load_reservation() { state.load_reservation = (reg_t)-1; }
void update_histogram(reg_t pc);
const disassembler_t* get_disassembler() { return disassembler; }
bool slow_path();
bool halted() { return state.dcsr.cause ? true : false; }
bool halt_request;
- // The unique debug rom address that this hart jumps to when entering debug
- // mode. Rely on the fact that spike hart IDs start at 0 and are consecutive.
- uint32_t debug_rom_entry() {
- return DEBUG_ROM_ENTRY + 4 * id;
- }
// Return the index of a trigger that matched, or -1.
inline int trigger_match(trigger_operation_t operation, reg_t address, reg_t data)
(operation == OPERATION_STORE && !state.mcontrol[i].store) ||
(operation == OPERATION_LOAD && !state.mcontrol[i].load) ||
(state.prv == PRV_M && !state.mcontrol[i].m) ||
- (state.prv == PRV_H && !state.mcontrol[i].h) ||
(state.prv == PRV_S && !state.mcontrol[i].s) ||
(state.prv == PRV_U && !state.mcontrol[i].u)) {
continue;
void trigger_updated();
private:
- sim_t* sim;
+ simif_t* sim;
mmu_t* mmu; // main memory is always accessed via the mmu
extension_t* ext;
disassembler_t* disassembler;
uint32_t id;
unsigned max_xlen;
unsigned xlen;
- reg_t isa;
reg_t max_isa;
std::string isa_string;
bool histogram_enabled;
static const size_t OPCODE_CACHE_SIZE = 8191;
insn_desc_t opcode_cache[OPCODE_CACHE_SIZE];
- void check_timer();
- void take_interrupt(); // take a trap if any interrupts are pending
+ void take_pending_interrupt() { take_interrupt(state.mip & state.mie); }
+ void take_interrupt(reg_t mask); // take first enabled interrupt in mask
void take_trap(trap_t& t, reg_t epc); // take an exception
void disasm(insn_t insn); // disassemble and print an instruction
int paddr_bits();
void enter_debug_mode(uint8_t cause);
- friend class sim_t;
friend class mmu_t;
- friend class rtc_t;
+ friend class clint_t;
friend class extension_t;
void parse_isa_string(const char* isa);
void build_opcode_map();
void register_base_instructions();
insn_func_t decode_insn(insn_t insn);
+
+ // Track repeated executions for processor_t::disasm()
+ uint64_t last_pc, last_bits, executions;
};
reg_t illegal_instruction(processor_t* p, insn_t insn, reg_t pc);