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#include <riscv/extension.h>
#include <riscv/sim.h>
struct : public arg_t {
std::string to_string(insn_t insn) const { return xpr_name[insn.rd()]; }
} xrd;
struct : public arg_t {
std::string to_string(insn_t insn) const { return xpr_name[insn.rs1()]; }
} xrs1;
struct : public arg_t {
std::string to_string(insn_t insn) const { return xpr_name[insn.rs2()]; }
} xrs2;
struct : public arg_t {
std::string to_string(insn_t insn) const {
return std::to_string((int)insn.shamt());
}
} shamt;
static reg_t do_nop4([[maybe_unused]] processor_t *p,
[[maybe_unused]] insn_t insn, reg_t pc) {
return pc + 4;
}
// dummy extension that uses the same prefix as standard zba extension
struct xslliuw_dummy_t : public extension_t {
const char *name() { return "dummyslliuw"; }
xslliuw_dummy_t() {}
std::vector<insn_desc_t> get_instructions() {
std::vector<insn_desc_t> insns;
insns.push_back(insn_desc_t{MATCH_SLLI_UW, MASK_SLLI_UW, do_nop4, do_nop4,
do_nop4, do_nop4, do_nop4, do_nop4, do_nop4,
do_nop4});
return insns;
}
std::vector<disasm_insn_t *> get_disasms() {
std::vector<disasm_insn_t *> insns;
insns.push_back(new disasm_insn_t("dummy_slliuw", MATCH_SLLI_UW,
MASK_SLLI_UW, {&xrd, &xrs1, &shamt}));
return insns;
}
};
REGISTER_EXTENSION(dummyslliuw, []() { return new xslliuw_dummy_t; })
// Copied from spike main.
// TODO: This should really be provided in libriscv
static std::vector<std::pair<reg_t, abstract_mem_t *>>
make_mems(const std::vector<mem_cfg_t> &layout) {
std::vector<std::pair<reg_t, abstract_mem_t *>> mems;
mems.reserve(layout.size());
for (const auto &cfg : layout) {
mems.push_back(std::make_pair(cfg.get_base(), new mem_t(cfg.get_size())));
}
return mems;
}
int main(int argc, char **argv) {
cfg_t cfg;
cfg.isa = "RV64IMAFDCV_xdummyslliuw";
std::vector<device_factory_sargs_t> plugin_devices;
if (argc != 3) {
std::cerr << "Error: invalid arguments\n";
exit(1);
}
std::vector<std::string> htif_args{argv[1] /* pk */, argv[2] /* executable */};
debug_module_config_t dm_config = {.progbufsize = 2,
.max_sba_data_width = 0,
.require_authentication = false,
.abstract_rti = 0,
.support_hasel = true,
.support_abstract_csr_access = true,
.support_abstract_fpr_access = true,
.support_haltgroups = true,
.support_impebreak = true};
std::vector<std::pair<reg_t, abstract_mem_t *>> mems =
make_mems(cfg.mem_layout);
sim_t sim(&cfg, false, mems, plugin_devices, htif_args, dm_config,
nullptr, // log_path
true, // dtb_enabled
nullptr, // dtb_file
false, // socket_enabled
nullptr); // cmd_file
sim.run();
}
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