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// See LICENSE for license details.
#include "sim.h"
#include "mmu.h"
#include "remote_bitbang.h"
#include "cachesim.h"
#include "extension.h"
#include <dlfcn.h>
#include <fesvr/option_parser.h>
#include <stdio.h>
#include <stdlib.h>
#include <vector>
#include <string>
#include <memory>
#include <fstream>
#include "../VERSION"
using std::string;
static void help(int exit_code = 1)
{
fprintf(stderr, "Spike RISC-V ISA Simulator " SPIKE_VERSION "\n\n");
fprintf(stderr, "usage: spike [host options] <target program> [target options]\n");
fprintf(stderr, "Host Options:\n");
fprintf(stderr, " -p<n> Simulate <n> processors [default 1]\n");
fprintf(stderr, " -m<n> Provide <n> MiB of target memory [default 2048]\n");
fprintf(stderr, " -m<a:m,b:n,...> Provide memory regions of size m and n bytes\n");
fprintf(stderr, " at base addresses a and b (with 4 KiB alignment)\n");
fprintf(stderr, " -d Interactive debug mode\n");
fprintf(stderr, " -g Track histogram of PCs\n");
fprintf(stderr, " -l Generate a log of execution\n");
#ifdef HAVE_BOOST_ASIO
fprintf(stderr, " -s Command I/O via socket (use with -d)\n");
#endif
fprintf(stderr, " -h, --help Print this help message\n");
fprintf(stderr, " -H Start halted, allowing a debugger to connect\n");
fprintf(stderr, " --isa=<name> RISC-V ISA string [default %s]\n", DEFAULT_ISA);
fprintf(stderr, " --priv=<m|mu|msu> RISC-V privilege modes supported [default %s]\n", DEFAULT_PRIV);
fprintf(stderr, " --varch=<name> RISC-V Vector uArch string [default %s]\n", DEFAULT_VARCH);
fprintf(stderr, " --pc=<address> Override ELF entry point\n");
fprintf(stderr, " --hartids=<a,b,...> Explicitly specify hartids, default is 0,1,...\n");
fprintf(stderr, " --ic=<S>:<W>:<B> Instantiate a cache model with S sets,\n");
fprintf(stderr, " --dc=<S>:<W>:<B> W ways, and B-byte blocks (with S and\n");
fprintf(stderr, " --l2=<S>:<W>:<B> B both powers of 2).\n");
fprintf(stderr, " --device=<P,B,A> Attach MMIO plugin device from an --extlib library\n");
fprintf(stderr, " P -- Name of the MMIO plugin\n");
fprintf(stderr, " B -- Base memory address of the device\n");
fprintf(stderr, " A -- String arguments to pass to the plugin\n");
fprintf(stderr, " This flag can be used multiple times.\n");
fprintf(stderr, " The extlib flag for the library must come first.\n");
fprintf(stderr, " --log-cache-miss Generate a log of cache miss\n");
fprintf(stderr, " --extension=<name> Specify RoCC Extension\n");
fprintf(stderr, " This flag can be used multiple times.\n");
fprintf(stderr, " --extlib=<name> Shared library to load\n");
fprintf(stderr, " This flag can be used multiple times.\n");
fprintf(stderr, " --rbb-port=<port> Listen on <port> for remote bitbang connection\n");
fprintf(stderr, " --dump-dts Print device tree string and exit\n");
fprintf(stderr, " --disable-dtb Don't write the device tree blob into memory\n");
fprintf(stderr, " --kernel=<path> Load kernel flat image into memory\n");
fprintf(stderr, " --initrd=<path> Load kernel initrd into memory\n");
fprintf(stderr, " --bootargs=<args> Provide custom bootargs for kernel [default: console=hvc0 earlycon=sbi]\n");
fprintf(stderr, " --real-time-clint Increment clint time at real-time rate\n");
fprintf(stderr, " --dm-progsize=<words> Progsize for the debug module [default 2]\n");
fprintf(stderr, " --dm-sba=<bits> Debug bus master supports up to "
"<bits> wide accesses [default 0]\n");
fprintf(stderr, " --dm-auth Debug module requires debugger to authenticate\n");
fprintf(stderr, " --dmi-rti=<n> Number of Run-Test/Idle cycles "
"required for a DMI access [default 0]\n");
fprintf(stderr, " --dm-abstract-rti=<n> Number of Run-Test/Idle cycles "
"required for an abstract command to execute [default 0]\n");
fprintf(stderr, " --dm-no-hasel Debug module supports hasel\n");
fprintf(stderr, " --dm-no-abstract-csr Debug module won't support abstract to authenticate\n");
fprintf(stderr, " --dm-no-halt-groups Debug module won't support halt groups\n");
fprintf(stderr, " --dm-no-impebreak Debug module won't support implicit ebreak in program buffer\n");
exit(exit_code);
}
static void suggest_help()
{
fprintf(stderr, "Try 'spike --help' for more information.\n");
exit(1);
}
static bool check_file_exists(const char *fileName)
{
std::ifstream infile(fileName);
return infile.good();
}
static std::ifstream::pos_type get_file_size(const char *filename)
{
std::ifstream in(filename, std::ios::ate | std::ios::binary);
return in.tellg();
}
static void read_file_bytes(const char *filename,size_t fileoff,
mem_t* mem, size_t memoff, size_t read_sz)
{
std::ifstream in(filename, std::ios::in | std::ios::binary);
in.seekg(fileoff, std::ios::beg);
std::vector<char> read_buf(read_sz, 0);
in.read(&read_buf[0], read_sz);
mem->store(memoff, read_sz, (uint8_t*)&read_buf[0]);
}
bool sort_mem_region(const std::pair<reg_t, mem_t*> &a,
const std::pair<reg_t, mem_t*> &b)
{
if (a.first == b.first)
return (a.second->size() < b.second->size());
else
return (a.first < b.first);
}
void merge_overlapping_memory_regions(std::vector<std::pair<reg_t, mem_t*>>& mems)
{
// check the user specified memory regions and merge the overlapping or
// eliminate the containing parts
std::sort(mems.begin(), mems.end(), sort_mem_region);
std::vector<std::pair<reg_t, mem_t*>>::iterator it = mems.begin() + 1;
while (it != mems.end()) {
reg_t start = prev(it)->first;
reg_t end = prev(it)->first + prev(it)->second->size();
reg_t start2 = it->first;
reg_t end2 = it->first + it->second->size();
//contains -> remove
if (start2 >= start && end2 <= end) {
it = mems.erase(it);
//parital overlapped -> extend
} else if (start2 >= start && start2 < end) {
delete prev(it)->second;
prev(it)->second = new mem_t(std::max(end, end2) - start);
it = mems.erase(it);
// no overlapping -> keep it
} else {
it++;
}
}
}
static std::vector<std::pair<reg_t, mem_t*>> make_mems(const char* arg)
{
// handle legacy mem argument
char* p;
auto mb = strtoull(arg, &p, 0);
if (*p == 0) {
reg_t size = reg_t(mb) << 20;
if (size != (size_t)size)
throw std::runtime_error("Size would overflow size_t");
return std::vector<std::pair<reg_t, mem_t*>>(1, std::make_pair(reg_t(DRAM_BASE), new mem_t(size)));
}
// handle base/size tuples
std::vector<std::pair<reg_t, mem_t*>> res;
while (true) {
auto base = strtoull(arg, &p, 0);
if (!*p || *p != ':')
help();
auto size = strtoull(p + 1, &p, 0);
// page-align base and size
auto base0 = base, size0 = size;
size += base0 % PGSIZE;
base -= base0 % PGSIZE;
if (size % PGSIZE != 0)
size += PGSIZE - size % PGSIZE;
if (base + size < base)
help();
if (size != size0) {
fprintf(stderr, "Warning: the memory at [0x%llX, 0x%llX] has been realigned\n"
"to the %ld KiB page size: [0x%llX, 0x%llX]\n",
base0, base0 + size0 - 1, long(PGSIZE / 1024), base, base + size - 1);
}
res.push_back(std::make_pair(reg_t(base), new mem_t(size)));
if (!*p)
break;
if (*p != ',')
help();
arg = p + 1;
}
merge_overlapping_memory_regions(res);
return res;
}
static unsigned long atoul_safe(const char* s)
{
char* e;
auto res = strtoul(s, &e, 10);
if (*e)
help();
return res;
}
static unsigned long atoul_nonzero_safe(const char* s)
{
auto res = atoul_safe(s);
if (!res)
help();
return res;
}
int main(int argc, char** argv)
{
bool debug = false;
bool halted = false;
bool histogram = false;
bool log = false;
bool socket = false; // command line option -s
bool dump_dts = false;
bool dtb_enabled = true;
bool real_time_clint = false;
size_t nprocs = 1;
const char* kernel = NULL;
reg_t kernel_offset, kernel_size;
size_t initrd_size;
reg_t initrd_start = 0, initrd_end = 0;
const char* bootargs = NULL;
reg_t start_pc = reg_t(-1);
std::vector<std::pair<reg_t, mem_t*>> mems;
std::vector<std::pair<reg_t, abstract_device_t*>> plugin_devices;
std::unique_ptr<icache_sim_t> ic;
std::unique_ptr<dcache_sim_t> dc;
std::unique_ptr<cache_sim_t> l2;
bool log_cache = false;
bool log_commits = false;
const char *log_path = nullptr;
std::vector<std::function<extension_t*()>> extensions;
const char* initrd = NULL;
const char* isa = DEFAULT_ISA;
const char* priv = DEFAULT_PRIV;
const char* varch = DEFAULT_VARCH;
const char* dtb_file = NULL;
uint16_t rbb_port = 0;
bool use_rbb = false;
unsigned dmi_rti = 0;
debug_module_config_t dm_config = {
.progbufsize = 2,
.max_bus_master_bits = 0,
.require_authentication = false,
.abstract_rti = 0,
.support_hasel = true,
.support_abstract_csr_access = true,
.support_haltgroups = true,
.support_impebreak = true
};
std::vector<int> hartids;
auto const hartids_parser = [&](const char *s) {
std::string const str(s);
std::stringstream stream(str);
int n;
while (stream >> n)
{
hartids.push_back(n);
if (stream.peek() == ',') stream.ignore();
}
};
auto const device_parser = [&plugin_devices](const char *s) {
const std::string str(s);
std::istringstream stream(str);
// We are parsing a string like name,base,args.
// Parse the name, which is simply all of the characters leading up to the
// first comma. The validity of the plugin name will be checked later.
std::string name;
std::getline(stream, name, ',');
if (name.empty()) {
throw std::runtime_error("Plugin name is empty.");
}
// Parse the base address. First, get all of the characters up to the next
// comma (or up to the end of the string if there is no comma). Then try to
// parse that string as an integer according to the rules of strtoull. It
// could be in decimal, hex, or octal. Fail if we were able to parse a
// number but there were garbage characters after the valid number. We must
// consume the entire string between the commas.
std::string base_str;
std::getline(stream, base_str, ',');
if (base_str.empty()) {
throw std::runtime_error("Device base address is empty.");
}
char* end;
reg_t base = static_cast<reg_t>(strtoull(base_str.c_str(), &end, 0));
if (end != &*base_str.cend()) {
throw std::runtime_error("Error parsing device base address.");
}
// The remainder of the string is the arguments. We could use getline, but
// that could ignore newline characters in the arguments. That should be
// rare and discouraged, but handle it here anyway with this weird in_avail
// technique. The arguments are optional, so if there were no arguments
// specified we could end up with an empty string here. That's okay.
auto avail = stream.rdbuf()->in_avail();
std::string args(avail, '\0');
stream.readsome(&args[0], avail);
plugin_devices.emplace_back(base, new mmio_plugin_device_t(name, args));
};
option_parser_t parser;
parser.help(&suggest_help);
parser.option('h', "help", 0, [&](const char* s){help(0);});
parser.option('d', 0, 0, [&](const char* s){debug = true;});
parser.option('g', 0, 0, [&](const char* s){histogram = true;});
parser.option('l', 0, 0, [&](const char* s){log = true;});
#ifdef HAVE_BOOST_ASIO
parser.option('s', 0, 0, [&](const char* s){socket = true;});
#endif
parser.option('p', 0, 1, [&](const char* s){nprocs = atoul_nonzero_safe(s);});
parser.option('m', 0, 1, [&](const char* s){mems = make_mems(s);});
// I wanted to use --halted, but for some reason that doesn't work.
parser.option('H', 0, 0, [&](const char* s){halted = true;});
parser.option(0, "rbb-port", 1, [&](const char* s){use_rbb = true; rbb_port = atoul_safe(s);});
parser.option(0, "pc", 1, [&](const char* s){start_pc = strtoull(s, 0, 0);});
parser.option(0, "hartids", 1, hartids_parser);
parser.option(0, "ic", 1, [&](const char* s){ic.reset(new icache_sim_t(s));});
parser.option(0, "dc", 1, [&](const char* s){dc.reset(new dcache_sim_t(s));});
parser.option(0, "l2", 1, [&](const char* s){l2.reset(cache_sim_t::construct(s, "L2$"));});
parser.option(0, "log-cache-miss", 0, [&](const char* s){log_cache = true;});
parser.option(0, "isa", 1, [&](const char* s){isa = s;});
parser.option(0, "priv", 1, [&](const char* s){priv = s;});
parser.option(0, "varch", 1, [&](const char* s){varch = s;});
parser.option(0, "device", 1, device_parser);
parser.option(0, "extension", 1, [&](const char* s){extensions.push_back(find_extension(s));});
parser.option(0, "dump-dts", 0, [&](const char *s){dump_dts = true;});
parser.option(0, "disable-dtb", 0, [&](const char *s){dtb_enabled = false;});
parser.option(0, "dtb", 1, [&](const char *s){dtb_file = s;});
parser.option(0, "kernel", 1, [&](const char* s){kernel = s;});
parser.option(0, "initrd", 1, [&](const char* s){initrd = s;});
parser.option(0, "bootargs", 1, [&](const char* s){bootargs = s;});
parser.option(0, "real-time-clint", 0, [&](const char *s){real_time_clint = true;});
parser.option(0, "extlib", 1, [&](const char *s){
void *lib = dlopen(s, RTLD_NOW | RTLD_GLOBAL);
if (lib == NULL) {
fprintf(stderr, "Unable to load extlib '%s': %s\n", s, dlerror());
exit(-1);
}
});
parser.option(0, "dm-progsize", 1,
[&](const char* s){dm_config.progbufsize = atoul_safe(s);});
parser.option(0, "dm-no-impebreak", 0,
[&](const char* s){dm_config.support_impebreak = false;});
parser.option(0, "dm-sba", 1,
[&](const char* s){dm_config.max_bus_master_bits = atoul_safe(s);});
parser.option(0, "dm-auth", 0,
[&](const char* s){dm_config.require_authentication = true;});
parser.option(0, "dmi-rti", 1,
[&](const char* s){dmi_rti = atoul_safe(s);});
parser.option(0, "dm-abstract-rti", 1,
[&](const char* s){dm_config.abstract_rti = atoul_safe(s);});
parser.option(0, "dm-no-hasel", 0,
[&](const char* s){dm_config.support_hasel = false;});
parser.option(0, "dm-no-abstract-csr", 0,
[&](const char* s){dm_config.support_abstract_csr_access = false;});
parser.option(0, "dm-no-halt-groups", 0,
[&](const char* s){dm_config.support_haltgroups = false;});
parser.option(0, "log-commits", 0,
[&](const char* s){log_commits = true;});
parser.option(0, "log", 1,
[&](const char* s){log_path = s;});
auto argv1 = parser.parse(argv);
std::vector<std::string> htif_args(argv1, (const char*const*)argv + argc);
if (mems.empty())
mems = make_mems("2048");
if (!*argv1)
help();
if (kernel && check_file_exists(kernel)) {
kernel_size = get_file_size(kernel);
if (isa[2] == '6' && isa[3] == '4')
kernel_offset = 0x200000;
else
kernel_offset = 0x400000;
for (auto& m : mems) {
if (kernel_size && (kernel_offset + kernel_size) < m.second->size()) {
read_file_bytes(kernel, 0, m.second, kernel_offset, kernel_size);
break;
}
}
}
if (initrd && check_file_exists(initrd)) {
initrd_size = get_file_size(initrd);
for (auto& m : mems) {
if (initrd_size && (initrd_size + 0x1000) < m.second->size()) {
initrd_end = m.first + m.second->size() - 0x1000;
initrd_start = initrd_end - initrd_size;
read_file_bytes(initrd, 0, m.second, initrd_start - m.first, initrd_size);
break;
}
}
}
#ifdef HAVE_BOOST_ASIO
boost::asio::io_service *io_service_ptr = NULL; // needed for socket command interface option -s
tcp::acceptor *acceptor_ptr = NULL;
if (socket) { // if command line option -s is set
try
{ // create socket server
io_service_ptr = new boost::asio::io_service;
acceptor_ptr = new tcp::acceptor(*io_service_ptr, tcp::endpoint(tcp::v4(), 0));
// aceptor is created passing argument port=0, so O.S. will choose a free port
string name = boost::asio::ip::host_name();
std::cout << "Listening for debug commands on " << name.substr(0,name.find('.'))
<< " port " << acceptor_ptr->local_endpoint().port() << " ." << std::endl;
// at the end, add space and some other character for convenience of javascript .split(" ")
}
catch (std::exception& e)
{
std::cerr << e.what() << std::endl;
}
}
#endif
sim_t s(isa, priv, varch, nprocs, halted, real_time_clint,
initrd_start, initrd_end, bootargs, start_pc, mems, plugin_devices, htif_args,
std::move(hartids), dm_config, log_path, dtb_enabled, dtb_file
#ifdef HAVE_BOOST_ASIO
, io_service_ptr, acceptor_ptr
#endif
);
std::unique_ptr<remote_bitbang_t> remote_bitbang((remote_bitbang_t *) NULL);
std::unique_ptr<jtag_dtm_t> jtag_dtm(
new jtag_dtm_t(&s.debug_module, dmi_rti));
if (use_rbb) {
remote_bitbang.reset(new remote_bitbang_t(rbb_port, &(*jtag_dtm)));
s.set_remote_bitbang(&(*remote_bitbang));
}
if (dump_dts) {
printf("%s", s.get_dts());
return 0;
}
if (ic && l2) ic->set_miss_handler(&*l2);
if (dc && l2) dc->set_miss_handler(&*l2);
if (ic) ic->set_log(log_cache);
if (dc) dc->set_log(log_cache);
for (size_t i = 0; i < nprocs; i++)
{
if (ic) s.get_core(i)->get_mmu()->register_memtracer(&*ic);
if (dc) s.get_core(i)->get_mmu()->register_memtracer(&*dc);
for (auto e : extensions)
s.get_core(i)->register_extension(e());
}
s.set_debug(debug);
s.configure_log(log, log_commits);
s.set_histogram(histogram);
auto return_code = s.run();
for (auto& mem : mems)
delete mem.second;
for (auto& plugin_device : plugin_devices)
delete plugin_device.second;
return return_code;
}
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