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loader.cc
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loader.cc
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/*
* Copyright (C) 2013 Cloudius Systems, Ltd.
*
* This work is open source software, licensed under the terms of the
* BSD license as described in the LICENSE file in the top-level directory.
*/
#include <osv/drivers_config.h>
#include "fs/fs.hh"
#include <bsd/init.hh>
#include <bsd/net.hh>
#include <boost/format.hpp>
#include <boost/algorithm/string.hpp>
#include <cctype>
#include <osv/elf.hh>
#include "arch-tls.hh"
#include <osv/debug.hh>
#include <osv/clock.hh>
#include <osv/version.hh>
#include "smp.hh"
#ifdef __x86_64__
#if CONF_drivers_acpi
#include "drivers/acpi.hh"
#endif
#endif /* __x86_64__ */
#include <osv/sched.hh>
#include <osv/barrier.hh>
#include "arch.hh"
#include "arch-setup.hh"
#include "osv/trace.hh"
#include <osv/power.hh>
#include <osv/rcu.hh>
#include <osv/mempool.hh>
#include <bsd/porting/networking.hh>
#include <bsd/porting/shrinker.h>
#include <bsd/porting/route.h>
#include <osv/dhcp.hh>
#include <osv/version.h>
#include <osv/run.hh>
#include <osv/shutdown.hh>
#include <osv/commands.hh>
#include <osv/boot.hh>
#include <osv/sampler.hh>
#include <osv/app.hh>
#include <osv/firmware.hh>
#if CONF_drivers_xen
#include <osv/xen.hh>
#endif
#include <osv/options.hh>
#include <dirent.h>
#include <iostream>
#include <fstream>
#include <mntent.h>
#include "drivers/zfs.hh"
#include "drivers/random.hh"
#include "drivers/console.hh"
#include "drivers/null.hh"
#include "libc/network/__dns.hh"
#include <processor.hh>
#include <dlfcn.h>
using namespace osv;
using namespace osv::clock::literals;
asm(".pushsection \".debug_gdb_scripts\", \"MS\",@progbits,1 \n"
".byte 1 \n"
".asciz \"scripts/loader.py\" \n"
".popsection \n");
elf::Elf64_Ehdr* elf_header __attribute__ ((aligned(8)));
size_t elf_size;
void* elf_start;
elf::tls_data tls_data;
boot_time_chart boot_time;
void setup_tls(elf::init_table inittab)
{
tls_data = inittab.tls;
sched::init_tls(tls_data);
extern char tcb0[]; // defined by linker script
arch_setup_tls(tcb0, tls_data);
}
extern "C" {
void premain();
void vfs_init(void);
void pivot_rootfs(const char*);
void unmount_devfs();
int mount_zfs_rootfs(bool, bool);
int mount_rofs_rootfs(bool);
void rofs_disable_cache();
int mount_virtiofs_rootfs(bool);
}
void premain()
{
arch_init_early_console();
/* besides reporting the OSV version, this string has the function
to check if the early console really works early enough,
without depending on prior initialization. */
debug_early("OSv " OSV_VERSION "\n");
arch_init_premain();
#ifdef __x86_64__
auto elf_header_virt_address = (void*)elf_header + OSV_KERNEL_VM_SHIFT;
#endif
#ifdef __aarch64__
extern u64 kernel_vm_shift;
auto elf_header_virt_address = (void*)elf_header + kernel_vm_shift;
#endif
auto inittab = elf::get_init(reinterpret_cast<elf::Elf64_Ehdr*>(
elf_header_virt_address));
if (inittab.tls.start == nullptr) {
debug_early("premain: failed to get TLS data from ELF\n");
arch::halt_no_interrupts();
}
setup_tls(inittab);
boot_time.event(3,"TLS initialization");
for (auto init = inittab.start; init < inittab.start + inittab.count; ++init) {
(*init)();
}
boot_time.event(".init functions");
}
int main(int loader_argc, char **loader_argv)
{
smp_initial_find_current_cpu()->init_on_cpu();
void main_cont(int loader_argc, char** loader_argv);
sched::init([=] { main_cont(loader_argc, loader_argv); });
}
static bool opt_preload_zfs_library = false;
static bool opt_extra_zfs_pools = false;
static bool opt_disable_rofs_cache = false;
static bool opt_leak = false;
static bool opt_noshutdown = false;
bool opt_power_off_on_abort = false;
static bool opt_log_backtrace = false;
static bool opt_mount = true;
static bool opt_pivot = true;
static std::string opt_rootfs;
static bool opt_random = true;
static bool opt_init = true;
static std::string opt_console = "all";
static bool opt_verbose = false;
static std::string opt_chdir;
static bool opt_bootchart = false;
static std::vector<std::string> opt_ip;
static std::string opt_defaultgw;
static std::string opt_nameserver;
static std::string opt_redirect;
static std::chrono::nanoseconds boot_delay;
std::vector<mntent> opt_mount_fs;
bool opt_maxnic = false;
int maxnic;
bool opt_pci_disabled = false;
static int sampler_frequency;
static bool opt_enable_sampler = false;
static void usage()
{
std::cout << "OSv options:\n";
std::cout << " --help show help text\n";
std::cout << " --sampler=arg start stack sampling profiler\n";
std::cout << " --trace=arg tracepoints to enable\n";
std::cout << " --trace-backtrace log backtraces in the tracepoint log\n";
std::cout << " --leak start leak detector after boot\n";
std::cout << " --nomount don't mount the root file system\n";
std::cout << " --nopivot do not pivot the root from bootfs to the root fs\n";
std::cout << " --rootfs=arg root filesystem to use (zfs, rofs, ramfs or virtiofs)\n";
std::cout << " --assign-net assign virtio network to the application\n";
std::cout << " --maxnic=arg maximum NIC number\n";
std::cout << " --norandom don't initialize any random device\n";
std::cout << " --noshutdown continue running after main() returns\n";
std::cout << " --power-off-on-abort use poweroff instead of halt if it's aborted\n";
std::cout << " --noinit don't run commands from /init\n";
std::cout << " --verbose be verbose, print debug messages\n";
std::cout << " --console=arg select console driver\n";
std::cout << " --env=arg set Unix-like environment variable (putenv())\n";
std::cout << " --cwd=arg set current working directory\n";
std::cout << " --bootchart perform a test boot measuring a time distribution of\n";
std::cout << " the various operations\n\n";
std::cout << " --ip=arg set static IP on NIC\n";
std::cout << " --defaultgw=arg set default gateway address\n";
std::cout << " --nameserver=arg set nameserver address\n";
std::cout << " --delay=arg (=0) delay in seconds before boot\n";
std::cout << " --redirect=arg redirect stdout and stderr to file\n";
std::cout << " --disable_rofs_cache disable ROFS memory cache\n";
std::cout << " --nopci disable PCI enumeration\n";
std::cout << " --extra-zfs-pools import extra ZFS pools\n";
std::cout << " --mount-fs=arg mount extra filesystem, format:<fs_type,url,path>\n";
std::cout << " --preload-zfs-library preload ZFS library from /usr/lib/fs\n\n";
}
static void handle_parse_error(const std::string &message)
{
std::cout << message << std::endl;
usage();
osv::poweroff();
}
static bool extract_option_flag(std::map<std::string,std::vector<std::string>> &options_values, const std::string &name)
{
return options::extract_option_flag(options_values, name, handle_parse_error);
}
static void parse_options(int loader_argc, char** loader_argv)
{
auto options_values = options::parse_options_values(loader_argc, loader_argv, handle_parse_error, false);
if (extract_option_flag(options_values, "help")) {
usage();
}
if (extract_option_flag(options_values, "leak")) {
opt_leak = true;
}
if (extract_option_flag(options_values, "disable_rofs_cache")) {
opt_disable_rofs_cache = true;
}
if (extract_option_flag(options_values, "preload-zfs-library")) {
opt_preload_zfs_library = true;
}
if (extract_option_flag(options_values, "extra-zfs-pools")) {
opt_extra_zfs_pools = true;
}
if (extract_option_flag(options_values, "noshutdown")) {
opt_noshutdown = true;
}
if (extract_option_flag(options_values, "power-off-on-abort")) {
opt_power_off_on_abort = true;
}
if (options::option_value_exists(options_values, "maxnic")) {
opt_maxnic = true;
maxnic = options::extract_option_int_value(options_values, "maxnic", handle_parse_error);
}
if (extract_option_flag(options_values, "trace-backtrace")) {
opt_log_backtrace = true;
}
if (extract_option_flag(options_values, "verbose")) {
opt_verbose = true;
enable_verbose();
}
if (options::option_value_exists(options_values, "sampler")) {
sampler_frequency = options::extract_option_int_value(options_values, "sampler", handle_parse_error);
opt_enable_sampler = true;
}
if (extract_option_flag(options_values, "bootchart")) {
opt_bootchart = true;
}
if (options::option_value_exists(options_values, "trace")) {
auto tv = options::extract_option_values(options_values, "trace");
for (auto t : tv) {
std::vector<std::string> tmp;
boost::split(tmp, t, boost::is_any_of(" ,"), boost::token_compress_on);
for (auto t : tmp) {
enable_tracepoint(t);
}
}
}
opt_mount = !extract_option_flag(options_values, "nomount");
opt_pivot = !extract_option_flag(options_values, "nopivot");
opt_random = !extract_option_flag(options_values, "norandom");
opt_init = !extract_option_flag(options_values, "noinit");
if (options::option_value_exists(options_values, "console")) {
auto v = options::extract_option_values(options_values, "console");
if (v.size() > 1) {
printf("Ignoring '--console' options after the first.");
}
opt_console = v.front();
debug("console=%s\n", opt_console);
}
if (options::option_value_exists(options_values, "rootfs")) {
auto v = options::extract_option_values(options_values, "rootfs");
if (v.size() > 1) {
printf("Ignoring '--rootfs' options after the first.");
}
opt_rootfs = v.front();
}
if (options::option_value_exists(options_values, "mount-fs")) {
auto mounts = options::extract_option_values(options_values, "mount-fs");
for (auto m : mounts) {
std::vector<std::string> tmp;
boost::split(tmp, m, boost::is_any_of(","), boost::token_compress_on);
if (tmp.size() != 3 || tmp[0].empty() || tmp[1].empty() || tmp[2].empty()) {
printf("Ignoring value: '%s' for option mount-fs, expected in format: <fs_type,url,path>\n", m.c_str());
continue;
}
mntent mount = {
.mnt_fsname = strdup(tmp[1].c_str()),
.mnt_dir = strdup(tmp[2].c_str()),
.mnt_type = strdup(tmp[0].c_str()),
.mnt_opts = nullptr
};
opt_mount_fs.push_back(mount);
}
}
if (options::option_value_exists(options_values, "env")) {
for (auto t : options::extract_option_values(options_values, "env")) {
debug("Setting in environment: %s\n", t);
putenv(strdup(t.c_str()));
}
}
if (options::option_value_exists(options_values, "cwd")) {
auto v = options::extract_option_values(options_values, "cwd");
if (v.size() > 1) {
printf("Ignoring '--cwd' options after the first.");
}
opt_chdir = v.front();
}
if (options::option_value_exists(options_values, "ip")) {
opt_ip = options::extract_option_values(options_values, "ip");
}
if (options::option_value_exists(options_values, "defaultgw")) {
opt_defaultgw = options::extract_option_value(options_values, "defaultgw");
}
if (options::option_value_exists(options_values, "nameserver")) {
opt_nameserver = options::extract_option_value(options_values, "nameserver");
}
if (options::option_value_exists(options_values, "redirect")) {
opt_redirect = options::extract_option_value(options_values, "redirect");
}
if (options::option_value_exists(options_values, "delay")) {
boot_delay = std::chrono::duration_cast<std::chrono::nanoseconds>(1_s * options::extract_option_float_value(options_values, "delay", handle_parse_error));
} else {
boot_delay = std::chrono::duration_cast<std::chrono::nanoseconds>(1_s * 0.0f);
}
if (extract_option_flag(options_values, "nopci")) {
opt_pci_disabled = true;
}
if (!options_values.empty()) {
for (auto other_option : options_values) {
std::cout << "unrecognized option: " << other_option.first << std::endl;
}
usage();
osv::poweroff();
}
}
// return the std::string and the commands_args poiting to them as a move
std::vector<std::vector<std::string> > prepare_commands(char* app_cmdline)
{
std::vector<std::vector<std::string> > commands;
bool ok;
printf("Cmdline: %s\n", app_cmdline);
commands = osv::parse_command_line(app_cmdline, ok);
if (!ok) {
puts("Failed to parse command line.");
osv::poweroff();
}
if (commands.size() == 0) {
puts("This image has an empty command line. Nothing to run.");
osv::poweroff();
}
return commands;
}
static std::string read_file(std::string fn)
{
std::ifstream in(fn, std::ios::in | std::ios::binary);
return std::string((std::istreambuf_iterator<char>(in)),
std::istreambuf_iterator<char>());
}
static void stop_all_remaining_app_threads()
{
while(!application::unsafe_stop_and_abandon_other_threads()) {
usleep(100000);
}
}
static void load_zfs_library(std::function<void()> on_load_fun = nullptr)
{
// Load and initialize ZFS filesystem driver implemented in libsolaris.so
const auto libsolaris_path = "/usr/lib/fs/libsolaris.so";
if (dlopen(libsolaris_path, RTLD_LAZY)) {
if (on_load_fun) {
on_load_fun();
}
} else {
debug("Could not load and/or initialize %s.\n", libsolaris_path);
}
}
static void load_zfs_library_and_mount_zfs_root(const char* mount_error_msg, bool pivot_when_error = false)
{
load_zfs_library([mount_error_msg, pivot_when_error]() {
zfsdev::zfsdev_init();
auto error = mount_zfs_rootfs(opt_pivot, opt_extra_zfs_pools);
if (error) {
debug(mount_error_msg);
if (pivot_when_error) {
// Continue with ramfs (already mounted)
// TODO: Avoid the hack of using pivot_rootfs() just for
// mounting the fstab entries.
pivot_rootfs("/");
}
} else {
bsd_shrinker_init();
boot_time.event("ZFS mounted");
}
});
}
void* do_main_thread(void *_main_args)
{
auto app_cmdline = static_cast<char*>(_main_args);
if (!arch_setup_console(opt_console)) {
abort("Unknown console:%s\n", opt_console.c_str());
}
arch_init_drivers();
console::console_init();
nulldev::nulldev_init();
if (opt_random) {
randomdev::randomdev_init();
}
boot_time.event("drivers loaded");
if (opt_mount) {
unmount_devfs();
if (opt_rootfs.compare("rofs") == 0) {
auto error = mount_rofs_rootfs(opt_pivot);
if (error) {
debug("Could not mount rofs root filesystem.\n");
}
if (opt_disable_rofs_cache) {
debug("Disabling ROFS memory cache.\n");
rofs_disable_cache();
}
boot_time.event("ROFS mounted");
} else if (opt_rootfs.compare("zfs") == 0) {
load_zfs_library_and_mount_zfs_root("Could not mount zfs root filesystem.\n");
} else if (opt_rootfs.compare("ramfs") == 0) {
// NOTE: The ramfs is already mounted, we just need to mount fstab
// entries. That's the only difference between this and --nomount.
// TODO: Avoid the hack of using pivot_rootfs() just for mounting
// the fstab entries.
pivot_rootfs("/");
} else if (opt_rootfs.compare("virtiofs") == 0) {
auto error = mount_virtiofs_rootfs(opt_pivot);
if (error) {
debug("Could not mount virtiofs root filesystem.\n");
}
boot_time.event("Virtio-fs mounted");
} else {
// Auto-discovery: try rofs -> virtio-fs -> ZFS
if (mount_rofs_rootfs(opt_pivot) == 0) {
if (opt_disable_rofs_cache) {
debug("Disabling ROFS memory cache.\n");
rofs_disable_cache();
}
boot_time.event("ROFS mounted");
} else if (mount_virtiofs_rootfs(opt_pivot) == 0) {
boot_time.event("Virtio-fs mounted");
} else {
load_zfs_library_and_mount_zfs_root("Could not mount zfs root filesystem (while auto-discovering).\n", true);
}
}
}
if (opt_preload_zfs_library) {
load_zfs_library();
}
bool has_if = false;
osv::for_each_if([&has_if] (std::string if_name) {
if (if_name == "lo0")
return;
has_if = true;
// Start DHCP by default and wait for an IP
if (osv::start_if(if_name, "0.0.0.0", "255.255.255.0") != 0 ||
osv::ifup(if_name) != 0)
debug("Could not initialize network interface.\n");
});
if (has_if) {
if (opt_ip.size() == 0) {
dhcp_start(true);
} else {
for (auto t : opt_ip) {
std::vector<std::string> tmp;
boost::split(tmp, t, boost::is_any_of(" ,"), boost::token_compress_on);
if (tmp.size() != 3)
abort("incorrect parameter on --ip");
printf("%s: %s\n",tmp[0].c_str(),tmp[1].c_str());
if (osv::start_if(tmp[0], tmp[1], tmp[2]) != 0)
debug("Could not initialize network interface.\n");
}
if (opt_defaultgw.size() != 0) {
osv_route_add_network("0.0.0.0",
"0.0.0.0",
opt_defaultgw.c_str());
}
if (opt_nameserver.size() != 0) {
auto addr = boost::asio::ip::address_v4::from_string(opt_nameserver);
osv::set_dns_config({addr}, std::vector<std::string>());
}
}
}
std::string if_ip;
auto nr_ips = 0;
osv::for_each_if([&](std::string if_name) {
if (if_name == "lo0")
return;
if_ip = osv::if_ip(if_name);
nr_ips++;
});
if (nr_ips == 1) {
setenv("OSV_IP", if_ip.c_str(), 1);
}
if (!opt_chdir.empty()) {
debug("Chdir to: '%s'\n", opt_chdir.c_str());
if (chdir(opt_chdir.c_str()) != 0) {
perror("chdir");
}
debug("chdir done\n");
}
if (opt_leak) {
debug("Enabling leak detector.\n");
memory::tracker_enabled = true;
}
boot_time.event("Total time");
#ifdef __x86_64__
// Some hypervisors like firecracker when booting OSv
// look for this write to this port as a signal of end of
// boot time.
processor::outb(123, 0x3f0);
#endif /* __x86_64__ */
if (opt_bootchart) {
boot_time.print_chart();
} else {
boot_time.print_total_time();
}
if (!opt_redirect.empty()) {
// redirect stdout and stdin to the given file, instead of the console
// use ">>filename" to append, instead of replace, to a file.
bool append = (opt_redirect.substr(0, 2) == ">>");
auto fn = opt_redirect.substr(append ? 2 : 0);
int fd = open(fn.c_str(),
O_WRONLY | O_CREAT | (append ? O_APPEND: O_TRUNC), 777);
if (fd < 0) {
perror("output redirection failed");
} else {
std::cout << (append ? "Appending" : "Writing") <<
" stdout and stderr to " << fn << "\n";
close(1);
close(2);
dup(fd);
dup(fd);
}
}
auto commands = prepare_commands(app_cmdline);
// Run command lines in /init/* before the manual command line
if (opt_init) {
std::vector<std::vector<std::string>> init_commands;
struct dirent **namelist = nullptr;
int count = scandir("/init", &namelist, NULL, alphasort);
for (int i = 0; i < count; i++) {
if (!strcmp(".", namelist[i]->d_name) ||
!strcmp("..", namelist[i]->d_name)) {
free(namelist[i]);
continue;
}
std::string fn("/init/");
fn += namelist[i]->d_name;
auto cmdline = read_file(fn);
debug("Running from %s: %s\n", fn.c_str(), cmdline.c_str());
bool ok;
auto new_commands = osv::parse_command_line(cmdline, ok);
free(namelist[i]);
if (ok) {
init_commands.insert(init_commands.end(),
new_commands.begin(), new_commands.end());
}
}
free(namelist);
commands.insert(commands.begin(),
init_commands.begin(), init_commands.end());
}
// run each payload in order
// Our parse_command_line() leaves at the end of each command a delimiter,
// can be '&' if we need to run this command in a new thread, or ';' or
// empty otherwise, to run in this thread. '&!' is the same as '&', but
// doesn't wait for the thread to finish before exiting OSv.
std::vector<shared_app_t> detached;
std::vector<shared_app_t> bg;
for (auto &it : commands) {
std::vector<std::string> newvec(it.begin(), std::prev(it.end()));
auto suffix = it.back();
try {
bool background = (suffix == "&") || (suffix == "&!");
shared_app_t app;
if (suffix == "!") {
app = application::run(newvec[0], newvec, false, nullptr, "main", stop_all_remaining_app_threads);
} else {
app = application::run(newvec);
}
if (suffix == "&!") {
detached.push_back(app);
} else if (!background) {
app->join();
} else {
bg.push_back(app);
}
} catch (const launch_error& e) {
std::cerr << e.what() << ". Powering off.\n";
osv::poweroff();
}
}
for (auto app : bg) {
app->join();
}
for (auto app : detached) {
app->request_termination();
debug("Requested termination of %s, waiting...\n", app->get_command());
}
application::join_all();
return nullptr;
}
void main_cont(int loader_argc, char** loader_argv)
{
osv::firmware_probe();
debug("Firmware vendor: %s\n", osv::firmware_vendor().c_str());
elf::create_main_program();
std::vector<std::vector<std::string> > cmds;
parse_options(loader_argc, loader_argv);
setenv("OSV_VERSION", osv::version().c_str(), 1);
#if CONF_drivers_xen
xen::irq_init();
#endif
smp_launch();
setenv("OSV_CPUS", std::to_string(sched::cpus.size()).c_str(), 1);
boot_time.event("SMP launched");
auto end = osv::clock::uptime::now() + boot_delay;
while (end > osv::clock::uptime::now()) {
// spin
}
memory::enable_debug_allocator();
#ifdef __x86_64__
#if CONF_drivers_acpi
acpi::init();
#endif
#endif /* __x86_64__ */
if (sched::cpus.size() > sched::max_cpus) {
printf("Too many cpus, can't boot with greater than %u cpus.\n", sched::max_cpus);
poweroff();
}
enable_trace();
if (opt_log_backtrace) {
// can only do this after smp_launch, otherwise the IDT is not initialized,
// and backtrace_safe() fails as soon as we get an exception
enable_backtraces();
}
sched::init_detached_threads_reaper();
elf::setup_missing_symbols_detector();
bsd_init();
vfs_init();
boot_time.event("VFS initialized");
//ramdisk_init();
net_init();
boot_time.event("Network initialized");
arch::irq_enable();
#ifndef AARCH64_PORT_STUB
if (opt_enable_sampler) {
prof::config config{std::chrono::nanoseconds(1000000000 / sampler_frequency)};
prof::start_sampler(config);
}
#endif /* !AARCH64_PORT_STUB */
// multiple programs can be run -> separate their arguments
pthread_t pthread;
// run the payload in a pthread, so pthread_self() etc. work
// start do_main_thread unpinned (== pinned to all cpus)
cpu_set_t cpuset;
CPU_ZERO(&cpuset);
for (size_t ii=0; ii<sched::cpus.size(); ii++) {
CPU_SET(ii, &cpuset);
}
pthread_attr_t attr;
pthread_attr_init(&attr);
pthread_attr_setaffinity_np(&attr, sizeof(cpuset), &cpuset);
pthread_create(&pthread, &attr, do_main_thread, (void *) __app_cmdline);
void* retval;
pthread_join(pthread, &retval);
if (opt_noshutdown) {
// If the --noshutdown option is given, continue running the system,
// and whatever threads might be running, even after main returns
debug("main() returned.\n");
sched::thread::wait_until([] { return false; });
}
if (memory::tracker_enabled) {
debug("Leak testing done. Please use 'osv leak show' in gdb to analyze results.\n");
osv::halt();
} else {
osv::shutdown();
}
}
int __loader_argc = 0;
char** __loader_argv = nullptr;
char* __app_cmdline = nullptr;