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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 1997-2020. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* %CopyrightEnd%
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "sys.h"
#include <ctype.h>
#include "erl_vm.h"
#include "global.h"
#include "erl_process.h"
#include "error.h"
#include "erl_version.h"
#include "erl_db.h"
#include "beam_bp.h"
#include "erl_bits.h"
#include "erl_binary.h"
#include "dist.h"
#include "erl_mseg.h"
#include "erl_threads.h"
#include "erl_hl_timer.h"
#include "erl_mtrace.h"
#include "erl_printf_term.h"
#include "erl_misc_utils.h"
#include "packet_parser.h"
#include "erl_cpu_topology.h"
#include "erl_thr_progress.h"
#include "erl_thr_queue.h"
#include "erl_async.h"
#include "erl_ptab.h"
#include "erl_bif_unique.h"
#define ERTS_WANT_TIMER_WHEEL_API
#include "erl_time.h"
#include "erl_check_io.h"
#include "erl_osenv.h"
#include "erl_proc_sig_queue.h"
#include "beam_load.h"
#include "erl_global_literals.h"
#include "jit/beam_asm.h"
#ifdef HAVE_SYS_RESOURCE_H
# include <sys/resource.h>
#endif
#define ERTS_DEFAULT_NO_ASYNC_THREADS 1
#define ERTS_DEFAULT_SCHED_STACK_SIZE 128
#define ERTS_DEFAULT_DCPU_SCHED_STACK_SIZE 40
#define ERTS_DEFAULT_DIO_SCHED_STACK_SIZE 40
/*
* The variables below (prefixed with etp_) are for erts/etc/unix/etp-commands
* only. Do not remove even though they aren't used elsewhere in the emulator!
*/
const int etp_smp_compiled = 1;
const int etp_thread_compiled = 1;
const char etp_erts_version[] = ERLANG_VERSION;
const char etp_otp_release[] = ERLANG_OTP_RELEASE;
const char etp_compile_date[] = ERLANG_COMPILE_DATE;
const char etp_arch[] = ERLANG_ARCHITECTURE;
#if ERTS_ENABLE_KERNEL_POLL
const int erts_use_kernel_poll = 1;
const int etp_kernel_poll_support = 1;
#else
const int erts_use_kernel_poll = 0;
const int etp_kernel_poll_support = 0;
#endif
#if defined(ARCH_64)
const int etp_arch_bits = 64;
#elif defined(ARCH_32)
const int etp_arch_bits = 32;
#else
# error "Not 64-bit, nor 32-bit arch"
#endif
#ifdef BEAMASM
const int etp_beamasm = 1;
#else
const int etp_beamasm = 0;
#endif
#ifdef DEBUG
const int etp_debug_compiled = 1;
#else
const int etp_debug_compiled = 0;
#endif
#ifdef ERTS_ENABLE_LOCK_COUNT
const int etp_lock_count = 1;
#else
const int etp_lock_count = 0;
#endif
#ifdef ERTS_ENABLE_LOCK_CHECK
const int etp_lock_check = 1;
#else
const int etp_lock_check = 0;
#endif
const int etp_endianness = ERTS_ENDIANNESS;
const Eterm etp_ref_header = ERTS_REF_THING_HEADER;
#ifdef ERTS_MAGIC_REF_THING_HEADER
const Eterm etp_magic_ref_header = ERTS_MAGIC_REF_THING_HEADER;
#else
const Eterm etp_magic_ref_header = ERTS_REF_THING_HEADER;
#endif
const Eterm etp_the_non_value = THE_NON_VALUE;
#ifdef TAG_LITERAL_PTR
const Eterm etp_ptr_mask = (~(Eterm)7);
#else
const Eterm etp_ptr_mask = (~(Eterm)3);
#endif
#ifdef ERTS_HOLE_MARKER
const Eterm etp_hole_marker = ERTS_HOLE_MARKER;
#else
const Eterm etp_hole_marker = 0;
#endif
static int modified_sched_thread_suggested_stack_size = 0;
Eterm erts_init_process_id = ERTS_INVALID_PID;
/*
* Note about VxWorks: All variables must be initialized by executable code,
* not by an initializer. Otherwise a new instance of the emulator will
* inherit previous values.
*/
extern void erl_crash_dump_v(char *, int, const char *, va_list);
#ifdef __WIN32__
extern void ConNormalExit(void);
extern void ConWaitForExit(void);
#endif
static void erl_init(int ncpu,
int proc_tab_sz,
int legacy_proc_tab,
int port_tab_sz,
int port_tab_sz_ignore_files,
int legacy_port_tab,
int time_correction,
ErtsTimeWarpMode time_warp_mode,
int node_tab_delete_delay,
ErtsDbSpinCount db_spin_count);
static erts_atomic_t exiting;
erts_atomic32_t erts_writing_erl_crash_dump;
erts_tsd_key_t erts_is_crash_dumping_key;
int erts_initialized = 0;
/*
* Configurable parameters.
*/
int H_MIN_SIZE; /* The minimum heap grain */
int BIN_VH_MIN_SIZE; /* The minimum binary virtual*/
int H_MAX_SIZE; /* The maximum heap size */
int H_MAX_FLAGS; /* The maximum heap flags */
Uint32 erts_debug_flags; /* Debug flags. */
int erts_backtrace_depth; /* How many functions to show in a backtrace
* in error codes.
*/
erts_atomic32_t erts_max_gen_gcs;
Eterm erts_error_logger_warnings; /* What to map warning logs to, am_error,
am_info or am_warning, am_error is
the default for BC */
int erts_compat_rel;
static int no_schedulers;
static int no_schedulers_online;
static int no_dirty_cpu_schedulers;
static int no_dirty_cpu_schedulers_online;
static int no_dirty_io_schedulers;
#ifdef DEBUG
Uint32 verbose; /* See erl_debug.h for information about verbose */
#endif
int erts_atom_table_size = ATOM_LIMIT; /* Maximum number of atoms */
int erts_pd_initial_size = 8; /* must be power of 2 */
int erts_modified_timing_level;
int erts_no_crash_dump = 0; /* Use -d to suppress crash dump. */
int erts_no_line_info = 0; /* -L: Don't load line information */
#ifdef BEAMASM
int erts_jit_asm_dump = 0; /* -JDdump: Dump assembly code */
#endif
/*
* Other global variables.
*/
ErtsModifiedTimings erts_modified_timings[] = {
/* 0 */ {make_small(0), CONTEXT_REDS},
/* 1 */ {make_small(0), (3*CONTEXT_REDS)/4},
/* 2 */ {make_small(0), CONTEXT_REDS/2},
/* 3 */ {make_small(0), (7*CONTEXT_REDS)/8},
/* 4 */ {make_small(0), CONTEXT_REDS/3},
/* 5 */ {make_small(0), (10*CONTEXT_REDS)/11},
/* 6 */ {make_small(1), CONTEXT_REDS/4},
/* 7 */ {make_small(1), (5*CONTEXT_REDS)/7},
/* 8 */ {make_small(10), CONTEXT_REDS/5},
/* 9 */ {make_small(10), (6*CONTEXT_REDS)/7}
};
#define ERTS_MODIFIED_TIMING_LEVELS \
(sizeof(erts_modified_timings)/sizeof(ErtsModifiedTimings))
Export *erts_delay_trap = NULL;
int ignore_break;
int replace_intr;
static ERTS_INLINE int
has_prefix(const char *prefix, const char *string)
{
int i;
for (i = 0; prefix[i]; i++)
if (prefix[i] != string[i])
return 0;
return 1;
}
static char*
progname(char *fullname)
{
int i;
i = sys_strlen(fullname);
while (i >= 0) {
if ((fullname[i] != '/') && (fullname[i] != '\\'))
i--;
else
break;
}
return fullname+i+1;
}
static int
this_rel_num(void)
{
static int this_rel = -1;
if (this_rel < 1) {
int i;
char this_rel_str[] = ERLANG_OTP_RELEASE;
i = 0;
while (this_rel_str[i] && !isdigit((int) this_rel_str[i]))
i++;
this_rel = atoi(&this_rel_str[i]);
if (this_rel < 1)
erts_exit(1, "Unexpected ERLANG_OTP_RELEASE format\n");
}
return this_rel;
}
static ERTS_INLINE void
set_default_time_adj(int *time_correction_p, ErtsTimeWarpMode *time_warp_mode_p)
{
*time_correction_p = 1;
*time_warp_mode_p = ERTS_NO_TIME_WARP_MODE;
if (!erts_check_time_adj_support(*time_correction_p,
*time_warp_mode_p)) {
*time_correction_p = 0;
ASSERT(erts_check_time_adj_support(*time_correction_p,
*time_warp_mode_p));
}
}
/*
* Common error printout function, all error messages
* that don't go to the error logger go through here.
*/
void erl_error(const char *fmt, va_list args)
{
erts_vfprintf(stderr, fmt, args);
}
static int early_init(int *argc, char **argv);
static void init_constant_literals(void) {
Eterm* hp = erts_alloc_global_literal(ERTS_LIT_EMPTY_TUPLE, 2);
Eterm tuple;
hp[0] = make_arityval_zero();
hp[1] = make_arityval_zero();
tuple = make_tuple(hp);
erts_register_global_literal(ERTS_LIT_EMPTY_TUPLE, tuple);
ERTS_GLOBAL_LIT_EMPTY_TUPLE =
erts_get_global_literal(ERTS_LIT_EMPTY_TUPLE);
}
static void
erl_init(int ncpu,
int proc_tab_sz,
int legacy_proc_tab,
int port_tab_sz,
int port_tab_sz_ignore_files,
int legacy_port_tab,
int time_correction,
ErtsTimeWarpMode time_warp_mode,
int node_tab_delete_delay,
ErtsDbSpinCount db_spin_count)
{
init_constant_literals();
erts_monitor_link_init();
erts_bif_unique_init();
erts_proc_sig_queue_init(); /* Must be after erts_bif_unique_init(); */
erts_init_time(time_correction, time_warp_mode);
erts_init_sys_common_misc();
erts_init_process(ncpu, proc_tab_sz, legacy_proc_tab);
erts_init_scheduling(no_schedulers,
no_schedulers_online,
erts_no_poll_threads,
no_dirty_cpu_schedulers,
no_dirty_cpu_schedulers_online,
no_dirty_io_schedulers
);
erts_late_init_time_sup();
erts_init_cpu_topology(); /* Must be after init_scheduling */
erts_init_gc(); /* Must be after init_scheduling */
erts_alloc_late_init();
H_MIN_SIZE = erts_next_heap_size(H_MIN_SIZE, 0);
BIN_VH_MIN_SIZE = erts_next_heap_size(BIN_VH_MIN_SIZE, 0);
erts_init_trace();
erts_init_bits();
erts_code_ix_init();
erts_init_fun_table();
init_atom_table();
init_export_table();
init_module_table();
init_register_table();
init_message();
#ifdef BEAMASM
beamasm_init();
#endif
erts_bif_info_init();
erts_ddll_init();
init_emulator();
erts_ptab_init(); /* Must be after init_emulator() */
erts_init_binary(); /* Must be after init_emulator() */
erts_bp_init();
init_db(db_spin_count); /* Must be after init_emulator */
erts_init_node_tables(node_tab_delete_delay);
init_dist();
erl_drv_thr_init();
erts_init_async();
erts_init_io(port_tab_sz, port_tab_sz_ignore_files, legacy_port_tab);
init_load();
erts_init_bif();
erts_init_bif_chksum();
erts_init_bif_binary();
erts_init_bif_guard();
erts_init_bif_persistent_term();
erts_init_bif_re();
erts_init_unicode(); /* after RE to get access to PCRE unicode */
erts_init_external();
erts_init_map();
erts_beam_bif_load_init();
erts_delay_trap = erts_export_put(am_erlang, am_delay_trap, 2);
erts_late_init_process();
#if HAVE_ERTS_MSEG
erts_mseg_late_init(); /* Must be after timer (erts_init_time()) and thread
initializations */
#endif
erl_sys_late_init();
packet_parser_init();
erl_nif_init();
erts_msacc_init();
}
static Eterm
erl_spawn_system_process(Process* parent, Eterm mod, Eterm func, Eterm args,
ErlSpawnOpts *so)
{
Eterm res;
int arity;
ERTS_LC_ASSERT(ERTS_PROC_LOCK_MAIN & erts_proc_lc_my_proc_locks(parent));
arity = erts_list_length(args);
if (erts_find_function(mod, func, arity, erts_active_code_ix()) == NULL) {
erts_exit(ERTS_ERROR_EXIT, "No function %T:%T/%i\n", mod, func, arity);
}
so->flags |= SPO_SYSTEM_PROC;
res = erl_create_process(parent, mod, func, args, so);
return res;
}
static Eterm
erl_first_process_otp(char* mod_name, int argc, char** argv)
{
int i;
Eterm args;
Eterm res;
Eterm* hp;
Process parent;
ErlSpawnOpts so;
Eterm boot_mod;
/*
* We need a dummy parent process to be able to call erl_create_process().
*/
erts_init_empty_process(&parent);
erts_proc_lock(&parent, ERTS_PROC_LOCK_MAIN);
hp = HAlloc(&parent, argc*2 + 4);
args = NIL;
for (i = argc-1; i >= 0; i--) {
int len = sys_strlen(argv[i]);
args = CONS(hp, new_binary(&parent, (byte*)argv[i], len), args);
hp += 2;
}
boot_mod = erts_atom_put((byte *) mod_name, sys_strlen(mod_name),
ERTS_ATOM_ENC_LATIN1, 1);
args = CONS(hp, args, NIL);
hp += 2;
args = CONS(hp, boot_mod, args);
ERTS_SET_DEFAULT_SPAWN_OPTS(&so);
res = erl_spawn_system_process(&parent, am_erl_init, am_start, args, &so);
ASSERT(is_internal_pid(res));
erts_proc_unlock(&parent, ERTS_PROC_LOCK_MAIN);
erts_cleanup_empty_process(&parent);
return res;
}
static Eterm
erl_system_process_otp(Eterm parent_pid, char* modname, int off_heap_msgq, int prio)
{
Process *parent;
ErlSpawnOpts so;
Eterm mod, res;
parent = erts_pid2proc(NULL, 0, parent_pid, ERTS_PROC_LOCK_MAIN);
mod = erts_atom_put((byte *) modname, sys_strlen(modname),
ERTS_ATOM_ENC_LATIN1, 1);
ERTS_SET_DEFAULT_SPAWN_OPTS(&so);
so.flags |= SPO_USE_ARGS;
if (off_heap_msgq) {
so.flags |= SPO_OFF_HEAP_MSGQ;
}
so.min_heap_size = H_MIN_SIZE;
so.min_vheap_size = BIN_VH_MIN_SIZE;
so.max_heap_size = H_MAX_SIZE;
so.max_heap_flags = H_MAX_FLAGS;
so.priority = prio;
so.max_gen_gcs = (Uint16) erts_atomic32_read_nob(&erts_max_gen_gcs);
so.scheduler = 0;
res = erl_spawn_system_process(parent, mod, am_start, NIL, &so);
ASSERT(is_internal_pid(res));
erts_proc_unlock(parent, ERTS_PROC_LOCK_MAIN);
return res;
}
Eterm erts_internal_spawn_system_process_3(BIF_ALIST_3) {
Eterm mod, func, args, res;
ErlSpawnOpts so;
mod = BIF_ARG_1;
func = BIF_ARG_2;
args = BIF_ARG_3;
ASSERT(is_atom(mod));
ASSERT(is_atom(func));
ASSERT(erts_list_length(args) >= 0);
ERTS_SET_DEFAULT_SPAWN_OPTS(&so);
res = erl_spawn_system_process(BIF_P, mod, func, args, &so);
if (is_non_value(res)) {
BIF_ERROR(BIF_P, so.error_code);
}
BIF_RET(res);
}
Eterm
erts_preloaded(Process* p)
{
Eterm previous;
int j;
int need;
Eterm mod;
Eterm* hp;
char* name;
const Preload *preload = sys_preloaded();
j = 0;
while (preload[j].name != NULL) {
j++;
}
previous = NIL;
need = 2*j;
hp = HAlloc(p, need);
j = 0;
while ((name = preload[j].name) != NULL) {
mod = am_atom_put(name, sys_strlen(name));
previous = CONS(hp, mod, previous);
hp += 2;
j++;
}
return previous;
}
/* static variables that must not change (use same values at restart) */
static char* program;
static char* init = "init";
static int boot_argc;
static char** boot_argv;
static char *
get_arg(char* rest, char* next, int* ip)
{
if (*rest == '\0') {
if (next == NULL) {
erts_fprintf(stderr, "too few arguments\n");
erts_usage();
}
(*ip)++;
return next;
}
return rest;
}
static void
load_preloaded(void)
{
int i;
Eterm res;
Preload* preload_p;
Eterm module_name;
byte* code;
char* name;
int length;
if ((preload_p = sys_preloaded()) == NULL) {
return;
}
i = 0;
while ((name = preload_p[i].name) != NULL) {
length = preload_p[i].size;
module_name = erts_atom_put((byte *) name, sys_strlen(name), ERTS_ATOM_ENC_LATIN1, 1);
if ((code = sys_preload_begin(&preload_p[i])) == 0)
erts_exit(ERTS_ERROR_EXIT, "Failed to find preloaded code for module %s\n",
name);
res = erts_preload_module(NULL, 0, NIL, &module_name, code, length);
sys_preload_end(&preload_p[i]);
if (res != NIL)
erts_exit(ERTS_ERROR_EXIT,"Failed loading preloaded module %s (%T)\n",
name, res);
i++;
}
}
/* be helpful (or maybe downright rude:-) */
void erts_usage(void)
{
int this_rel = this_rel_num();
erts_fprintf(stderr, "Usage: %s [flags] [ -- [init_args] ]\n", progname(program));
erts_fprintf(stderr, "The flags are:\n\n");
erts_fprintf(stderr, "-a size suggest stack size in kilo words for threads\n");
erts_fprintf(stderr, " in the async-thread pool; valid range is [%d-%d]\n",
ERTS_ASYNC_THREAD_MIN_STACK_SIZE,
ERTS_ASYNC_THREAD_MAX_STACK_SIZE);
erts_fprintf(stderr, "-A number set number of threads in async thread pool;\n");
erts_fprintf(stderr, " valid range is [1-%d]\n",
ERTS_MAX_NO_OF_ASYNC_THREADS);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-B[c|d|i] set break (Ctrl-C) behavior; valid letters are:\n");
erts_fprintf(stderr, " 'c' to have Ctrl-C interrupt the Erlang shell;\n");
erts_fprintf(stderr, " 'd' (or no extra option) to disable the break handler;\n");
erts_fprintf(stderr, " 'i' to ignore break signals\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-c bool enable or disable time correction\n");
erts_fprintf(stderr, "-C mode set time warp mode; valid modes are:\n");
erts_fprintf(stderr, " no_time_warp | single_time_warp | multi_time_warp\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-d don't write a crash dump for internally detected errors\n");
erts_fprintf(stderr, " (halt(String) will still produce a crash dump)\n");
erts_fprintf(stderr, "-dcg set the limit for the number of decentralized counter groups\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-fn[u|a|l] control how filenames are interpreted\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-hms size set minimum heap size in words (default %d)\n",
H_DEFAULT_SIZE);
erts_fprintf(stderr, "-hmbs size set minimum binary virtual heap size in words (default %d)\n",
VH_DEFAULT_SIZE);
erts_fprintf(stderr, "-hmax size set maximum heap size in words (default %d)\n",
H_DEFAULT_MAX_SIZE);
erts_fprintf(stderr, "-hmaxk bool enable or disable kill at max heap size (default true)\n");
erts_fprintf(stderr, "-hmaxel bool enable or disable error_logger report at max heap size (default true)\n");
erts_fprintf(stderr, "-hpds size set initial process dictionary size (default %d)\n",
erts_pd_initial_size);
erts_fprintf(stderr, "-hmqd val set default message queue data flag for processes;\n");
erts_fprintf(stderr, " valid values are: off_heap | on_heap\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-IOp number set number of pollsets to be used to poll for I/O\n");
erts_fprintf(stderr, " (this value must be equal or smaller than the\n");
erts_fprintf(stderr, " number of poll threads; ignored if the current platform\n");
erts_fprintf(stderr, " does not support concurrent update of pollsets)\n");
erts_fprintf(stderr, "-IOt number set number of threads to be used to poll for I/O\n");
erts_fprintf(stderr, "-IOPp number set number of pollsets as a percentage of the\n");
erts_fprintf(stderr, " number of poll threads\n");
erts_fprintf(stderr, "-IOPt number set number of threads to be used to poll for I/O\n");
erts_fprintf(stderr, " as a percentage of the number of schedulers\n");
erts_fprintf(stderr, "-i module set the boot module (default init)\n");
erts_fprintf(stderr, "\n");
#ifdef BEAMASM
erts_fprintf(stderr, "-JDdump bool enable or disable dumping of generated assembly code for each module loaded\n");
erts_fprintf(stderr, "-JDperf bool enable or disable support for perf on Linux\n");
erts_fprintf(stderr, "\n");
#endif
erts_fprintf(stderr, "-n[s|a|d] control behavior of signals to ports (this flag is deprecated)\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-M<X> <Y> set memory allocator switches;\n");
erts_fprintf(stderr, " see the erts_alloc(3) documentation for more info\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-pc <set> control what characters are considered printable (default latin1)\n");
erts_fprintf(stderr, "-P number set maximum number of processes on this node;\n");
erts_fprintf(stderr, " valid range is [%d-%d]\n",
ERTS_MIN_PROCESSES, ERTS_MAX_PROCESSES);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-Q number set maximum number of ports on this node;\n");
erts_fprintf(stderr, " valid range is [%d-%d]\n",
ERTS_MIN_PORTS, ERTS_MAX_PORTS);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-R number set compatibility release number;\n");
erts_fprintf(stderr, " valid range [%d-%d]\n",
this_rel-2, this_rel);
erts_fprintf(stderr, "-r force ets memory block to be moved on realloc\n");
erts_fprintf(stderr, "-rg amount set reader groups limit\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-sbt type set scheduler bind type; valid types are:\n");
erts_fprintf(stderr, " u | ns | ts | ps | s | nnts | nnps| tnnps | db\n");
erts_fprintf(stderr, "-sbwt val set scheduler busy wait threshold; valid values are:\n");
erts_fprintf(stderr, " none | very_short | short | medium | long | very_long\n");
erts_fprintf(stderr, "-sbwtdcpu val set dirty CPU scheduler busy wait threshold; valid values are:\n");
erts_fprintf(stderr, " none | very_short | short | medium | long | very_long\n");
erts_fprintf(stderr, "-sbwtdio val set dirty IO scheduler busy wait threshold; valid values are:\n");
erts_fprintf(stderr, " none | very_short | short | medium | long | very_long\n");
erts_fprintf(stderr, "-scl bool enable/disable compaction of scheduler load\n");
erts_fprintf(stderr, "-sct cput set cpu topology\n");
erts_fprintf(stderr, "-secio bool enable or disable eager check I/O scheduling\n");
#if ERTS_HAVE_SCHED_UTIL_BALANCING_SUPPORT_OPT
erts_fprintf(stderr, "-sub bool enable or disable scheduler utilization balancing\n");
#else
erts_fprintf(stderr, "-sub false disable scheduler utilization balancing\n");
#endif
erts_fprintf(stderr, "-sws val set scheduler wakeup strategy; valid values are:\n");
erts_fprintf(stderr, " default | legacy\n");
erts_fprintf(stderr, "-swct val set scheduler wake cleanup threshold; valid values are:\n");
erts_fprintf(stderr, " very_lazy | lazy | medium | eager | very_eager\n");
erts_fprintf(stderr, "-swt val set scheduler wakeup threshold; valid values are:\n");
erts_fprintf(stderr, " very_low | low | medium | high | very_high\n");
erts_fprintf(stderr, "-swtdcpu val set dirty CPU scheduler wakeup threshold; valid values are:\n");
erts_fprintf(stderr, " very_low | low | medium | high | very_high\n");
erts_fprintf(stderr, "-swtdio val set dirty IO scheduler wakeup threshold; valid values are:\n");
erts_fprintf(stderr, " very_low | low | medium | high | very_high\n");
erts_fprintf(stderr, "-sss size suggest stack size in kilo words for scheduler threads;\n");
erts_fprintf(stderr, " valid range is [%d-%d] (default %d)\n",
ERTS_SCHED_THREAD_MIN_STACK_SIZE,
ERTS_SCHED_THREAD_MAX_STACK_SIZE,
ERTS_DEFAULT_SCHED_STACK_SIZE);
erts_fprintf(stderr, "-sssdcpu size suggest stack size in kilo words for dirty CPU scheduler\n");
erts_fprintf(stderr, " threads; valid range is [%d-%d] (default %d)\n",
ERTS_SCHED_THREAD_MIN_STACK_SIZE,
ERTS_SCHED_THREAD_MAX_STACK_SIZE,
ERTS_DEFAULT_DCPU_SCHED_STACK_SIZE);
erts_fprintf(stderr, "-sssdio size suggest stack size in kilo words for dirty IO scheduler\n");
erts_fprintf(stderr, " threads; valid range is [%d-%d] (default %d)\n",
ERTS_SCHED_THREAD_MIN_STACK_SIZE,
ERTS_SCHED_THREAD_MAX_STACK_SIZE,
ERTS_DEFAULT_DIO_SCHED_STACK_SIZE);
erts_fprintf(stderr, "-spp Bool set port parallelism scheduling hint\n");
erts_fprintf(stderr, "-S n1:n2 set number of schedulers (n1), and number of\n");
erts_fprintf(stderr, " schedulers online (n2); maximum for both\n");
erts_fprintf(stderr, " numbers is %d\n",
ERTS_MAX_NO_OF_SCHEDULERS);
erts_fprintf(stderr, "-SP p1:p2 specify schedulers (p1) and schedulers online (p2)\n");
erts_fprintf(stderr, " as percentages of logical processors configured and logical\n");
erts_fprintf(stderr, " processors available, respectively\n");
erts_fprintf(stderr, "-SDcpu n1:n2 set number of dirty CPU schedulers (n1), and number of\n");
erts_fprintf(stderr, " dirty CPU schedulers online (n2); valid range for both\n");
erts_fprintf(stderr, " numbers is [1-%d], and n2 must be less than or equal to n1\n",
ERTS_MAX_NO_OF_DIRTY_CPU_SCHEDULERS);
erts_fprintf(stderr, "-SDPcpu p1:p2 specify dirty CPU schedulers (p1) and dirty CPU schedulers\n");
erts_fprintf(stderr, " online (p2) as percentages of logical processors configured\n");
erts_fprintf(stderr, " and logical processors available, respectively\n");
erts_fprintf(stderr, "-SDio n set number of dirty I/O schedulers; valid range is [1-%d]\n",
ERTS_MAX_NO_OF_DIRTY_IO_SCHEDULERS);
erts_fprintf(stderr, "-t size set the maximum number of atoms the emulator can handle;\n");
erts_fprintf(stderr, " valid range is [%d-%d]\n",
MIN_ATOM_TABLE_SIZE, MAX_ATOM_TABLE_SIZE);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-T number set modified timing level; valid range is [0-%d]\n",
ERTS_MODIFIED_TIMING_LEVELS-1);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-V print Erlang version\n");
erts_fprintf(stderr, "-v turn on chatty mode (GCs will be reported etc)\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-W<i|w|e> set error logger warnings mapping;\n");
erts_fprintf(stderr, " see error_logger documentation for details\n");
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "-zdbbl size set the distribution buffer busy limit in kilobytes;\n");
erts_fprintf(stderr, " valid range is [1-%d]\n", INT_MAX/1024);
erts_fprintf(stderr, "-zdntgc time set delayed node table gc in seconds;\n");
erts_fprintf(stderr, " valid values are infinity or integers in the range [0-%d]\n",
ERTS_NODE_TAB_DELAY_GC_MAX);
erts_fprintf(stderr, "\n");
erts_fprintf(stderr, "Note that if the emulator is started with erlexec (typically\n");
erts_fprintf(stderr, "from the erl script), these flags should be specified with +.\n");
erts_fprintf(stderr, "\n\n");
erts_exit(1, "");
}
/*
* allocators for thread lib
*/
static void *ethr_std_alloc(size_t size)
{
return erts_alloc_fnf(ERTS_ALC_T_ETHR_STD, (Uint) size);
}
static void *ethr_std_realloc(void *ptr, size_t size)
{
return erts_realloc_fnf(ERTS_ALC_T_ETHR_STD, ptr, (Uint) size);
}
static void ethr_std_free(void *ptr)
{
erts_free(ERTS_ALC_T_ETHR_STD, ptr);
}
static void *ethr_sl_alloc(size_t size)
{
return erts_alloc_fnf(ERTS_ALC_T_ETHR_SL, (Uint) size);
}
static void *ethr_sl_realloc(void *ptr, size_t size)
{
return erts_realloc_fnf(ERTS_ALC_T_ETHR_SL, ptr, (Uint) size);
}
static void ethr_sl_free(void *ptr)
{
erts_free(ERTS_ALC_T_ETHR_SL, ptr);
}
static void *ethr_ll_alloc(size_t size)
{
return erts_alloc_fnf(ERTS_ALC_T_ETHR_LL, (Uint) size);
}
static void *ethr_ll_realloc(void *ptr, size_t size)
{
return erts_realloc_fnf(ERTS_ALC_T_ETHR_LL, ptr, (Uint) size);
}
static void ethr_ll_free(void *ptr)
{
erts_free(ERTS_ALC_T_ETHR_LL, ptr);
}
static int
early_init(int *argc, char **argv) /*
* Only put things here which are
* really important initialize
* early!
*/
{
ErtsAllocInitOpts alloc_opts = ERTS_ALLOC_INIT_DEF_OPTS_INITER;
int ncpu;
int ncpuonln;
int ncpuavail;
int ncpuquota;
int schdlrs;
int schdlrs_onln;
int schdlrs_percentage = 100;
int schdlrs_onln_percentage = 100;
int max_main_threads;
int dirty_cpu_scheds;
int dirty_cpu_scheds_online;
int dirty_cpu_scheds_pctg = 100;
int dirty_cpu_scheds_onln_pctg = 100;
int dirty_io_scheds;
int max_reader_groups;
int reader_groups;
int max_decentralized_counter_groups;
int decentralized_counter_groups;
char envbuf[21]; /* enough for any 64-bit integer */
size_t envbufsz;
erts_save_emu_args(*argc, argv);
erts_sched_compact_load = 1;
erts_printf_eterm_func = erts_printf_term;
erts_backtrace_depth = DEFAULT_BACKTRACE_SIZE;
erts_async_max_threads = ERTS_DEFAULT_NO_ASYNC_THREADS;
erts_async_thread_suggested_stack_size = ERTS_ASYNC_THREAD_MIN_STACK_SIZE;
H_MIN_SIZE = H_DEFAULT_SIZE;
BIN_VH_MIN_SIZE = VH_DEFAULT_SIZE;
H_MAX_SIZE = H_DEFAULT_MAX_SIZE;
H_MAX_FLAGS = MAX_HEAP_SIZE_KILL|MAX_HEAP_SIZE_LOG;
erts_term_init();
erts_initialized = 0;
erts_pre_early_init_cpu_topology(&max_decentralized_counter_groups,
&max_reader_groups,
&ncpu,
&ncpuonln,
&ncpuavail,
&ncpuquota);
ignore_break = 0;
replace_intr = 0;
program = argv[0];
erts_modified_timing_level = -1;
erts_compat_rel = this_rel_num();
erts_sys_pre_init();
erts_atomic_init_nob(&exiting, 0);
erts_thr_progress_pre_init();
erts_atomic32_init_nob(&erts_writing_erl_crash_dump, 0L);
erts_tsd_key_create(&erts_is_crash_dumping_key,"erts_is_crash_dumping_key");
erts_atomic32_init_nob(&erts_max_gen_gcs,
(erts_aint32_t) ((Uint16) -1));
erts_pre_init_process();
/*
* We need to know the number of schedulers to use before we
* can initialize the allocators.
*/
no_schedulers = (Uint) (ncpu > 0 ? ncpu : 1);
if (ncpuavail > 0) {
if (ncpuquota > 0) {
no_schedulers_online = MIN(ncpuquota, ncpuavail);
} else {
no_schedulers_online = ncpuavail;
}
} else if (ncpuonln > 0) {
no_schedulers_online = ncpuonln;
} else {
no_schedulers_online = no_schedulers;
}
schdlrs = no_schedulers;
schdlrs_onln = no_schedulers_online;
dirty_cpu_scheds = no_schedulers;
dirty_cpu_scheds_online = no_schedulers_online;
dirty_io_scheds = 10;
envbufsz = sizeof(envbuf);
/* erts_osenv hasn't been initialized yet, so we need to fall back to
* erts_sys_explicit_host_getenv() */
if (erts_sys_explicit_host_getenv("ERL_THREAD_POOL_SIZE", envbuf, &envbufsz) == 1)
erts_async_max_threads = atoi(envbuf);
else
erts_async_max_threads = ERTS_DEFAULT_NO_ASYNC_THREADS;
if (erts_async_max_threads > ERTS_MAX_NO_OF_ASYNC_THREADS)
erts_async_max_threads = ERTS_MAX_NO_OF_ASYNC_THREADS;
if (argc && argv) {
int i = 1;
while (i < *argc) {
if (sys_strcmp(argv[i], "--") == 0) { /* end of emulator options */
i++;
break;
}
if (argv[i][0] == '-') {
switch (argv[i][1]) {
case 'd': {
char *sub_param = argv[i]+2;
if (has_prefix("cg", sub_param)) {
char *arg = get_arg(sub_param+2, argv[i+1], &i);
if (sscanf(arg, "%d", &max_decentralized_counter_groups) != 1) {
erts_fprintf(stderr,
"bad decentralized counter groups limit: %s\n", arg);
erts_usage();
}
if (max_decentralized_counter_groups < 0) {
erts_fprintf(stderr,
"bad decentralized counter groups limit: %d\n",
max_decentralized_counter_groups);
erts_usage();
}
}
break;
}
case 'r': {
char *sub_param = argv[i]+2;
if (has_prefix("g", sub_param)) {
char *arg = get_arg(sub_param+1, argv[i+1], &i);
if (sscanf(arg, "%d", &max_reader_groups) != 1) {
erts_fprintf(stderr,
"bad reader groups limit: %s\n", arg);
erts_usage();
}
if (max_reader_groups < 0) {
erts_fprintf(stderr,
"bad reader groups limit: %d\n",
max_reader_groups);
erts_usage();
}
}
break;
}
case 'A': {
/* set number of threads in thread pool */
char *arg = get_arg(argv[i]+2, argv[i+1], &i);
if (((erts_async_max_threads = atoi(arg)) < ERTS_MIN_NO_OF_ASYNC_THREADS) ||
(erts_async_max_threads > ERTS_MAX_NO_OF_ASYNC_THREADS)) {
erts_fprintf(stderr,
"bad number of async threads %s\n",
arg);
erts_usage();
VERBOSE(DEBUG_SYSTEM, ("using %d async-threads\n",
erts_async_max_threads));
}
break;
}
case 'S' :
if (argv[i][2] == 'P') {
int ptot, ponln;
char *arg = get_arg(argv[i]+3, argv[i+1], &i);
switch (sscanf(arg, "%d:%d", &ptot, &ponln)) {
case 0:
switch (sscanf(arg, ":%d", &ponln)) {
case 1:
if (ponln < 0)
goto bad_SP;
ptot = 100;
goto chk_SP;
default:
goto bad_SP;
}
case 1:
if (ptot < 0)
goto bad_SP;
ponln = ptot < 100 ? ptot : 100;
goto chk_SP;
case 2:
if (ptot < 0 || ponln < 0)
goto bad_SP;
chk_SP:
schdlrs_percentage = ptot;
schdlrs_onln_percentage = ponln;
break;
default:
bad_SP:
erts_fprintf(stderr,
"bad schedulers percentage specifier %s\n",
arg);
erts_usage();
break;
}
VERBOSE(DEBUG_SYSTEM,
("using %d:%d scheduler percentages\n",
schdlrs_percentage, schdlrs_onln_percentage));
}
else if (argv[i][2] == 'D') {
char *arg;
char *type = argv[i]+3;
if (sys_strncmp(type, "Pcpu", 4) == 0) {
int ptot, ponln;
arg = get_arg(argv[i]+7, argv[i+1], &i);
switch (sscanf(arg, "%d:%d", &ptot, &ponln)) {
case 0:
switch (sscanf(arg, ":%d", &ponln)) {
case 1:
if (ponln < 0)
goto bad_SDPcpu;
ptot = 100;
goto chk_SDPcpu;
default:
goto bad_SDPcpu;
}
case 1:
if (ptot < 0)
goto bad_SDPcpu;
ponln = ptot < 100 ? ptot : 100;
goto chk_SDPcpu;
case 2:
if (ptot < 0 || ponln < 0)
goto bad_SDPcpu;
chk_SDPcpu:
dirty_cpu_scheds_pctg = ptot;
dirty_cpu_scheds_onln_pctg = ponln;
break;
default:
bad_SDPcpu:
erts_fprintf(stderr,
"bad dirty CPU schedulers percentage specifier %s\n",
arg);
erts_usage();
break;
}
VERBOSE(DEBUG_SYSTEM,
("using %d:%d dirty CPU scheduler percentages\n",
dirty_cpu_scheds_pctg, dirty_cpu_scheds_onln_pctg));
} else if (sys_strncmp(type, "cpu", 3) == 0) {
int tot, onln;
arg = get_arg(argv[i]+6, argv[i+1], &i);
switch (sscanf(arg, "%d:%d", &tot, &onln)) {
case 0:
switch (sscanf(arg, ":%d", &onln)) {
case 1:
tot = no_schedulers;
goto chk_SDcpu;
default:
goto bad_SDcpu;
}
case 1:
onln = tot < dirty_cpu_scheds_online ?
tot : dirty_cpu_scheds_online;
case 2:
chk_SDcpu:
if (tot > 0)
dirty_cpu_scheds = tot;
else
dirty_cpu_scheds = no_schedulers + tot;
if (onln > 0)
dirty_cpu_scheds_online = onln;
else
dirty_cpu_scheds_online = no_schedulers_online + onln;
if (dirty_cpu_scheds < 1 ||
ERTS_MAX_NO_OF_DIRTY_CPU_SCHEDULERS < dirty_cpu_scheds) {
erts_fprintf(stderr,
"bad amount of dirty CPU schedulers %d\n",
tot);
erts_usage();
}
if (dirty_cpu_scheds_online < 1 ||
dirty_cpu_scheds < dirty_cpu_scheds_online) {
erts_fprintf(stderr,
"bad amount of dirty CPU schedulers online %d "
"(total amount of dirty CPU schedulers %d)\n",
dirty_cpu_scheds_online, dirty_cpu_scheds);
erts_usage();
}
break;
default:
bad_SDcpu:
erts_fprintf(stderr,
"bad amount of dirty CPU schedulers %s\n",
arg);
erts_usage();
break;
}
VERBOSE(DEBUG_SYSTEM,
("using %d:%d dirty CPU scheduler(s)\n", tot, onln));
} else if (sys_strncmp(type, "io", 2) == 0) {
arg = get_arg(argv[i]+5, argv[i+1], &i);
dirty_io_scheds = atoi(arg);
if (dirty_io_scheds < 1 ||
dirty_io_scheds > ERTS_MAX_NO_OF_DIRTY_IO_SCHEDULERS) {
erts_fprintf(stderr,
"bad number of dirty I/O schedulers %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("using %d dirty I/O scheduler(s)\n", dirty_io_scheds));
} else {
erts_fprintf(stderr,
"bad or missing dirty scheduler specifier: %s\n",
argv[i]);
erts_usage();
break;
}
}
else {
int tot, onln;
char *arg = get_arg(argv[i]+2, argv[i+1], &i);
switch (sscanf(arg, "%d:%d", &tot, &onln)) {
case 0:
switch (sscanf(arg, ":%d", &onln)) {
case 1:
tot = no_schedulers;
goto chk_S;
default:
goto bad_S;
}
case 1:
onln = tot < schdlrs_onln ? tot : schdlrs_onln;
case 2:
chk_S:
if (tot > 0)
schdlrs = tot;
else
schdlrs = no_schedulers + tot;
if (onln > 0)
schdlrs_onln = onln;
else
schdlrs_onln = no_schedulers_online + onln;
if (schdlrs < 1 || ERTS_MAX_NO_OF_SCHEDULERS < schdlrs) {
erts_fprintf(stderr,
"bad amount of schedulers %d\n",
tot);
erts_usage();
}
if (schdlrs_onln < 1 || schdlrs < schdlrs_onln) {
erts_fprintf(stderr,
"bad amount of schedulers online %d "
"(total amount of schedulers %d)\n",
schdlrs_onln, schdlrs);
erts_usage();
}
break;
default:
bad_S:
erts_fprintf(stderr,
"bad amount of schedulers %s\n",
arg);
erts_usage();
break;
}
VERBOSE(DEBUG_SYSTEM,
("using %d:%d scheduler(s)\n", tot, onln));
}
break;
default:
break;
}
}
i++;
}
if (erts_async_max_threads < 1)
erts_async_max_threads = 1;
/* apply any scheduler percentages */
if (schdlrs_percentage != 100 || schdlrs_onln_percentage != 100) {
schdlrs = schdlrs * schdlrs_percentage / 100;
schdlrs_onln = schdlrs_onln * schdlrs_onln_percentage / 100;
if (schdlrs < 1)
schdlrs = 1;
if (ERTS_MAX_NO_OF_SCHEDULERS < schdlrs) {
erts_fprintf(stderr,
"bad schedulers percentage %d "
"(total amount of schedulers %d)\n",
schdlrs_percentage, schdlrs);
erts_usage();
}
if (schdlrs_onln < 1)
schdlrs_onln = 1;
if (schdlrs < schdlrs_onln) {
erts_fprintf(stderr,
"bad schedulers online percentage %d "
"(total amount of schedulers %d, online %d)\n",
schdlrs_onln_percentage, schdlrs, schdlrs_onln);
erts_usage();
}
}
/* apply any dirty scheduler precentages */
if (dirty_cpu_scheds_pctg != 100 || dirty_cpu_scheds_onln_pctg != 100) {
dirty_cpu_scheds = dirty_cpu_scheds * dirty_cpu_scheds_pctg / 100;
dirty_cpu_scheds_online = dirty_cpu_scheds_online * dirty_cpu_scheds_onln_pctg / 100;
}
if (dirty_cpu_scheds > schdlrs)
dirty_cpu_scheds = schdlrs;
if (dirty_cpu_scheds < 1)
dirty_cpu_scheds = 1;
if (dirty_cpu_scheds_online > schdlrs_onln)
dirty_cpu_scheds_online = schdlrs_onln;
if (dirty_cpu_scheds_online < 1)
dirty_cpu_scheds_online = 1;
}
no_schedulers = schdlrs;
no_schedulers_online = schdlrs_onln;
erts_no_schedulers = (Uint) no_schedulers;
erts_no_dirty_cpu_schedulers = no_dirty_cpu_schedulers = dirty_cpu_scheds;
no_dirty_cpu_schedulers_online = dirty_cpu_scheds_online;
erts_no_dirty_io_schedulers = no_dirty_io_schedulers = dirty_io_scheds;
erts_early_init_scheduling(no_schedulers);
alloc_opts.ncpu = ncpu;
erts_alloc_init(argc, argv, &alloc_opts); /* Handles (and removes)
-M flags. */
/* Require allocators */
erts_init_check_io(argc, argv);
/*
* Thread progress management:
*
* * Managed threads:
* ** Scheduler threads (see erl_process.c)
* ** Aux thread (see erl_process.c)
* ** Sys message dispatcher thread (see erl_trace.c)
* ** IO Poll threads (see erl_check_io.c)
*
* * Unmanaged threads that need to register:
* ** Async threads (see erl_async.c)
* ** Dirty scheduler threads
*/
erts_thr_progress_init(no_schedulers,
no_schedulers+2+erts_no_poll_threads,
erts_async_max_threads +
erts_no_dirty_cpu_schedulers +
erts_no_dirty_io_schedulers
);
erts_thr_q_init();
erts_init_utils();
erts_early_init_cpu_topology(no_schedulers,
&max_main_threads,
max_reader_groups,
&reader_groups,
max_decentralized_counter_groups,
&decentralized_counter_groups);
erts_flxctr_setup(decentralized_counter_groups);
{
erts_thr_late_init_data_t elid = ERTS_THR_LATE_INIT_DATA_DEF_INITER;
elid.mem.std.alloc = ethr_std_alloc;
elid.mem.std.realloc = ethr_std_realloc;
elid.mem.std.free = ethr_std_free;
elid.mem.sl.alloc = ethr_sl_alloc;
elid.mem.sl.realloc = ethr_sl_realloc;
elid.mem.sl.free = ethr_sl_free;
elid.mem.ll.alloc = ethr_ll_alloc;
elid.mem.ll.realloc = ethr_ll_realloc;
elid.mem.ll.free = ethr_ll_free;
elid.main_threads = max_main_threads;
elid.reader_groups = reader_groups;
erts_thr_late_init(&elid);
}
erts_msacc_early_init();
#ifdef ERTS_ENABLE_LOCK_CHECK
erts_lc_late_init();
#endif
#ifdef ERTS_ENABLE_LOCK_COUNT
erts_lcnt_late_init();
#endif
erl_sys_args(argc, argv);
/* Creates threads on Windows that depend on the arguments, so has to be after erl_sys_args */
erl_sys_init();
erts_ets_realloc_always_moves = 0;
erts_ets_always_compress = 0;
erts_dist_buf_busy_limit = ERTS_DE_BUSY_LIMIT;
return ncpu;
}
void
erl_start(int argc, char **argv)
{
int i = 1;
char* arg=NULL;
int have_break_handler = 1;
char envbuf[21]; /* enough for any 64-bit integer */
size_t envbufsz;
int ncpu = early_init(&argc, argv);
int proc_tab_sz = ERTS_DEFAULT_MAX_PROCESSES;
int port_tab_sz = ERTS_DEFAULT_MAX_PORTS;
int port_tab_sz_ignore_files = 0;
int legacy_proc_tab = 0;
int legacy_port_tab = 0;
int time_correction;
ErtsTimeWarpMode time_warp_mode;
int node_tab_delete_delay = ERTS_NODE_TAB_DELAY_GC_DEFAULT;
ErtsDbSpinCount db_spin_count = ERTS_DB_SPNCNT_NORMAL;
set_default_time_adj(&time_correction,
&time_warp_mode);
envbufsz = sizeof(envbuf);
if (erts_sys_explicit_8bit_getenv(ERL_MAX_ETS_TABLES_ENV, envbuf, &envbufsz) == 1)
user_requested_db_max_tabs = atoi(envbuf);
else
user_requested_db_max_tabs = 0;
envbufsz = sizeof(envbuf);
if (erts_sys_explicit_8bit_getenv("ERL_FULLSWEEP_AFTER", envbuf, &envbufsz) == 1) {
Uint16 max_gen_gcs = atoi(envbuf);
erts_atomic32_set_nob(&erts_max_gen_gcs,
(erts_aint32_t) max_gen_gcs);
}
envbufsz = sizeof(envbuf);
if (erts_sys_explicit_8bit_getenv("ERL_MAX_PORTS", envbuf, &envbufsz) == 1) {
port_tab_sz = atoi(envbuf);
port_tab_sz_ignore_files = 1;
}
/*
* A default stack size suitable for pcre which might use quite
* a lot of stack.
*/
erts_sched_thread_suggested_stack_size = ERTS_DEFAULT_SCHED_STACK_SIZE;
erts_dcpu_sched_thread_suggested_stack_size = ERTS_DEFAULT_DCPU_SCHED_STACK_SIZE;
erts_dio_sched_thread_suggested_stack_size = ERTS_DEFAULT_DIO_SCHED_STACK_SIZE;
#ifdef DEBUG
verbose = DEBUG_DEFAULT;
#endif
erts_error_logger_warnings = am_warning;
while (i < argc) {
if (argv[i][0] != '-') {
erts_usage();
}
if (sys_strcmp(argv[i], "--") == 0) { /* end of emulator options */
i++;
break;
}
switch (argv[i][1]) {
/*
* NOTE: -M flags are handled (and removed from argv) by
* erts_alloc_init().
*/
case 'p':
if (!sys_strncmp(argv[i],"-pc",3)) {
int printable_chars = ERL_PRINTABLE_CHARACTERS_LATIN1;
arg = get_arg(argv[i]+3, argv[i+1], &i);
if (!sys_strcmp(arg,"unicode")) {
printable_chars = ERL_PRINTABLE_CHARACTERS_UNICODE;
} else if (sys_strcmp(arg,"latin1")) {
erts_fprintf(stderr, "bad range of printable "
"characters: %s\n", arg);
erts_usage();
}
erts_set_printable_characters(printable_chars);
break;
} else {
erts_fprintf(stderr, "%s unknown flag %s\n", argv[0], argv[i]);
erts_usage();
}
case 'f':
if (!sys_strncmp(argv[i],"-fn",3)) {
int warning_type = ERL_FILENAME_WARNING_WARNING;
arg = get_arg(argv[i]+3, argv[i+1], &i);
switch (*arg) {
case 'u':
switch (*(arg+1)) {
case 'w':
case 0:
break;
case 'i':
warning_type = ERL_FILENAME_WARNING_IGNORE;
break;
case 'e':
warning_type = ERL_FILENAME_WARNING_ERROR;
break;
default:
erts_fprintf(stderr, "bad type of warnings for "
"wrongly coded filename: %s\n", arg+1);
erts_usage();
}
erts_set_user_requested_filename_encoding
(
ERL_FILENAME_UTF8,
warning_type
);
break;
case 'l':
erts_set_user_requested_filename_encoding
(
ERL_FILENAME_LATIN1,
warning_type
);
break;
case 'a':
switch (*(arg+1)) {
case 'w':
case 0:
break;
case 'i':
warning_type = ERL_FILENAME_WARNING_IGNORE;
break;
case 'e':
warning_type = ERL_FILENAME_WARNING_ERROR;
break;
default:
erts_fprintf(stderr, "bad type of warnings for "
"wrongly coded filename: %s\n", arg+1);
erts_usage();
}
erts_set_user_requested_filename_encoding
(
ERL_FILENAME_UNKNOWN,
warning_type
);
break;
default:
erts_fprintf(stderr, "bad filename encoding %s, can be "
"(l,u or a, optionally followed by w, "
"i or e)\n", arg);
erts_usage();
}
break;
} else {
erts_fprintf(stderr, "%s unknown flag %s\n", argv[0], argv[i]);
erts_usage();
}
case 'L':
erts_no_line_info = 1;
break;
case 'v':
#ifdef DEBUG
if (argv[i][2] == '\0') {
verbose |= DEBUG_SYSTEM;
} else {
char *ch;
for (ch = argv[i]+2; *ch != '\0'; ch++) {
switch (*ch) {
case 's': verbose |= DEBUG_SYSTEM; break;
case 'g': verbose |= DEBUG_PRIVATE_GC; break;
case 'M': verbose |= DEBUG_MEMORY; break;
case 'a': verbose |= DEBUG_ALLOCATION; break;
case 't': verbose |= DEBUG_THREADS; break;
case 'p': verbose |= DEBUG_PROCESSES; break;
case 'm': verbose |= DEBUG_MESSAGES; break;
case 'c': verbose |= DEBUG_SHCOPY; break;
default : erts_fprintf(stderr,"Unknown verbose option: %c\n",*ch);
}
}
}
erts_printf("Verbose level: ");
if (verbose & DEBUG_SYSTEM) erts_printf("SYSTEM ");
if (verbose & DEBUG_PRIVATE_GC) erts_printf("PRIVATE_GC ");
if (verbose & DEBUG_MEMORY) erts_printf("PARANOID_MEMORY ");
if (verbose & DEBUG_ALLOCATION) erts_printf("ALLOCATION ");
if (verbose & DEBUG_THREADS) erts_printf("THREADS ");
if (verbose & DEBUG_PROCESSES) erts_printf("PROCESSES ");
if (verbose & DEBUG_MESSAGES) erts_printf("MESSAGES ");
if (verbose & DEBUG_SHCOPY) erts_printf("SHCOPY ");
erts_printf("\n");
#else
erts_fprintf(stderr, "warning: -v (only in debug compiled code)\n");
#endif
break;
case 'V' :
{
char tmp[256];
tmp[0] = tmp[1] = '\0';
#ifdef DEBUG
strcat(tmp, ",DEBUG");
#endif
strcat(tmp, ",SMP");
strcat(tmp, ",ASYNC_THREADS");
erts_fprintf(stderr, "Erlang ");
if (tmp[1]) {
erts_fprintf(stderr, "(%s) ", tmp+1);
}
erts_fprintf(stderr, "(" EMULATOR ") emulator version "
ERLANG_VERSION "\n");
erts_exit(0, "");
}
break;
case 'H': /* undocumented */
fprintf(stderr, "The undocumented +H option has been removed (R10B-6).\n\n");
break;
case 'h': {
char *sub_param = argv[i]+2;
/* set default heap size
*
* h|ms - min_heap_size
* h|mbs - min_bin_vheap_size
* h|pds - erts_pd_initial_size
* h|mqd - message_queue_data
* h|max - max_heap_size
* h|maxk - max_heap_kill
* h|maxel - max_heap_error_logger
*
*/
if (has_prefix("mbs", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
if ((BIN_VH_MIN_SIZE = atoi(arg)) <= 0) {
erts_fprintf(stderr, "bad heap size %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using minimum binary virtual heap size %d\n", BIN_VH_MIN_SIZE));
} else if (has_prefix("ms", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if ((H_MIN_SIZE = atoi(arg)) <= 0) {
erts_fprintf(stderr, "bad heap size %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using minimum heap size %d\n", H_MIN_SIZE));
} else if (has_prefix("pds", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
if (!erts_pd_set_initial_size(atoi(arg))) {
erts_fprintf(stderr, "bad initial process dictionary size %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using initial process dictionary size %d\n",
erts_pd_initial_size));
} else if (has_prefix("mqd", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
if (sys_strcmp(arg, "on_heap") == 0) {
erts_default_spo_flags &= ~SPO_OFF_HEAP_MSGQ;
erts_default_spo_flags |= SPO_ON_HEAP_MSGQ;
}
else if (sys_strcmp(arg, "off_heap") == 0) {
erts_default_spo_flags &= ~SPO_ON_HEAP_MSGQ;
erts_default_spo_flags |= SPO_OFF_HEAP_MSGQ;
}
else {
erts_fprintf(stderr,
"Invalid message_queue_data flag: %s\n", arg);
erts_usage();
}
} else if (has_prefix("maxk", sub_param)) {
arg = get_arg(sub_param+4, argv[i+1], &i);
if (sys_strcmp(arg,"true") == 0) {
H_MAX_FLAGS |= MAX_HEAP_SIZE_KILL;
} else if (sys_strcmp(arg,"false") == 0) {
H_MAX_FLAGS &= ~MAX_HEAP_SIZE_KILL;
} else {
erts_fprintf(stderr, "bad max heap kill %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using max heap kill %d\n", H_MAX_FLAGS));
} else if (has_prefix("maxel", sub_param)) {
arg = get_arg(sub_param+5, argv[i+1], &i);
if (sys_strcmp(arg,"true") == 0) {
H_MAX_FLAGS |= MAX_HEAP_SIZE_LOG;
} else if (sys_strcmp(arg,"false") == 0) {
H_MAX_FLAGS &= ~MAX_HEAP_SIZE_LOG;
} else {
erts_fprintf(stderr, "bad max heap error logger %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using max heap log %d\n", H_MAX_FLAGS));
} else if (has_prefix("max", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
if ((H_MAX_SIZE = atoi(arg)) < 0) {
erts_fprintf(stderr, "bad max heap size %s\n", arg);
erts_usage();
}
if (H_MAX_SIZE < H_MIN_SIZE && H_MAX_SIZE) {
erts_fprintf(stderr, "max heap size (%s) is not allowed to be "
"smaller than min heap size (%d)\n",
arg, H_MIN_SIZE);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using max heap size %d\n", H_MAX_SIZE));
} else {
/* backward compatibility */
arg = get_arg(argv[i]+2, argv[i+1], &i);
if ((H_MIN_SIZE = atoi(arg)) <= 0) {
erts_fprintf(stderr, "bad heap size %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM, ("using minimum heap size %d\n", H_MIN_SIZE));
}
break;
}
case 'd':
/*
* Never produce crash dumps for internally detected
* errors; only produce a core dump. (Generation of
* crash dumps is destructive and makes it impossible
* to inspect the contents of process heaps in the
* core dump.)
*/
erts_no_crash_dump = 1;
break;
case 'e':
if (sys_strcmp("c", argv[i]+2) == 0) {
erts_ets_always_compress = 1;
}
else {
/* set maximum number of ets tables */
arg = get_arg(argv[i]+2, argv[i+1], &i);
if (( user_requested_db_max_tabs = atoi(arg) ) < 0) {
erts_fprintf(stderr, "bad maximum number of ets tables %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("using maximum number of ets tables %d\n",
user_requested_db_max_tabs));
}
break;
case 'i':
/* define name of module for initial function */
init = get_arg(argv[i]+2, argv[i+1], &i);
break;
case 'J':
#ifdef BEAMASM
{
char *sub_param = argv[i]+2;
switch (sub_param[0])
{
case 'D':
sub_param++;
if (has_prefix("dump", sub_param)) {
arg = get_arg(sub_param+4, argv[i + 1], &i);
if (sys_strcmp(arg, "true") == 0) {
erts_jit_asm_dump = 1;
} else if (sys_strcmp(arg, "false") == 0) {
erts_jit_asm_dump = 0;
} else {
erts_fprintf(stderr, "bad +JDdump flag %s\n", arg);
erts_usage();
}
}
break;
case 'P':
sub_param++;
if (has_prefix("perf", sub_param)) {
arg = get_arg(sub_param+4, argv[i + 1], &i);
#ifdef HAVE_LINUX_PERF_SUPPORT
if (sys_strcmp(arg, "true") == 0) {
erts_jit_perf_support = BEAMASM_PERF_DUMP|BEAMASM_PERF_MAP;
} else if (sys_strcmp(arg, "false") == 0) {
erts_jit_perf_support = 0;
} else if (sys_strcmp(arg, "dump") == 0) {
erts_jit_perf_support = BEAMASM_PERF_DUMP;
} else if (sys_strcmp(arg, "map") == 0) {
erts_jit_perf_support = BEAMASM_PERF_MAP;
} else {
erts_fprintf(stderr, "bad +JPperf support flag %s\n", arg);
erts_usage();
}
#else
erts_fprintf(stderr, "+JPperf is not supported on this platform\n");
erts_usage();
#endif
}
break;
default:
erts_fprintf(stderr, "invalid JIT option %s\n", argv[i]);
break;
}
}
#else
erts_fprintf(stderr,
"JIT is not supported on this system (option %s)\n",
argv[i]);
erts_usage();
#endif
break;
case 'B':
if (argv[i][2] == 'i') /* +Bi */
ignore_break = 1;
else if (argv[i][2] == 'c') /* +Bc */
replace_intr = 1;
else if (argv[i][2] == 'd') /* +Bd */
have_break_handler = 0;
else if (argv[i+1][0] == 'i') { /* +B i */
get_arg(argv[i]+2, argv[i+1], &i);
ignore_break = 1;
}
else if (argv[i+1][0] == 'c') { /* +B c */
get_arg(argv[i]+2, argv[i+1], &i);
replace_intr = 1;
}
else if (argv[i+1][0] == 'd') { /* +B d */
get_arg(argv[i]+2, argv[i+1], &i);
have_break_handler = 0;
}
else /* +B */
have_break_handler = 0;
break;
case 'n':
arg = get_arg(argv[i]+2, argv[i+1], &i);
switch (arg[0]) {
case 's': /* synchronous */
erts_port_synchronous_ops = 1;
erts_port_schedule_all_ops = 0;
break;
case 'a': /* asynchronous */
erts_port_synchronous_ops = 0;
erts_port_schedule_all_ops = 1;
break;
case 'd': /* Default - schedule on conflict (asynchronous) */
erts_port_synchronous_ops = 0;
erts_port_schedule_all_ops = 0;
break;
default:
bad_n_option:
erts_fprintf(stderr, "bad -n option %s\n", arg);
erts_usage();
}
if (arg[1] != '\0')
goto bad_n_option;
break;
case 'P': /* set maximum number of processes */
arg = get_arg(argv[i]+2, argv[i+1], &i);
if (sys_strcmp(arg, "legacy") == 0)
legacy_proc_tab = 1;
else {
errno = 0;
proc_tab_sz = strtol(arg, NULL, 10);
if (errno != 0
|| proc_tab_sz < ERTS_MIN_PROCESSES
|| ERTS_MAX_PROCESSES < proc_tab_sz) {
erts_fprintf(stderr, "bad number of processes %s\n", arg);
erts_usage();
}
}
break;
case 'Q': /* set maximum number of ports */
arg = get_arg(argv[i]+2, argv[i+1], &i);
if (sys_strcmp(arg, "legacy") == 0)
legacy_port_tab = 1;
else {
errno = 0;
port_tab_sz = strtol(arg, NULL, 10);
if (errno != 0
|| port_tab_sz < ERTS_MIN_PROCESSES
|| ERTS_MAX_PROCESSES < port_tab_sz) {
erts_fprintf(stderr, "bad number of ports %s\n", arg);
erts_usage();
}
port_tab_sz_ignore_files = 1;
}
break;
case 'S' : /* Was handled in early_init() just read past it */
if (argv[i][2] == 'D') {
char* type = argv[i]+3;
if (sys_strcmp(type, "Pcpu") == 0)
(void) get_arg(argv[i]+7, argv[i+1], &i);
if (sys_strcmp(type, "cpu") == 0)
(void) get_arg(argv[i]+6, argv[i+1], &i);
else if (sys_strcmp(type, "io") == 0)
(void) get_arg(argv[i]+5, argv[i+1], &i);
} else if (argv[i][2] == 'P')
(void) get_arg(argv[i]+3, argv[i+1], &i);
else
(void) get_arg(argv[i]+2, argv[i+1], &i);
break;
case 's' : {
char *estr;
int res;
char *sub_param = argv[i]+2;
if (has_prefix("bt", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
res = erts_init_scheduler_bind_type_string(arg);
if (res != ERTS_INIT_SCHED_BIND_TYPE_SUCCESS) {
switch (res) {
case ERTS_INIT_SCHED_BIND_TYPE_NOT_SUPPORTED:
estr = "not supported";
break;
case ERTS_INIT_SCHED_BIND_TYPE_ERROR_NO_CPU_TOPOLOGY:
estr = "no cpu topology available";
break;
case ERTS_INIT_SCHED_BIND_TYPE_ERROR_BAD_TYPE:
estr = "invalid type";
break;
default:
estr = "undefined error";
break;
}
erts_fprintf(stderr,
"setting scheduler bind type '%s' failed: %s\n",
arg,
estr);
erts_usage();
}
}
else if (has_prefix("bwtdcpu", sub_param)) {
arg = get_arg(sub_param + 7, argv[i+1], &i);
if (erts_sched_set_busy_wait_threshold(ERTS_SCHED_DIRTY_CPU, arg) != 0) {
erts_fprintf(stderr, "bad dirty CPU scheduler busy wait threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("dirty CPU scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("bwtdio", sub_param)) {
arg = get_arg(sub_param + 6, argv[i+1], &i);
if (erts_sched_set_busy_wait_threshold(ERTS_SCHED_DIRTY_IO, arg) != 0) {
erts_fprintf(stderr, "bad dirty IO scheduler busy wait threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("dirty IO scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("bwt", sub_param)) {
arg = get_arg(sub_param + 3, argv[i+1], &i);
if (erts_sched_set_busy_wait_threshold(ERTS_SCHED_NORMAL, arg) != 0) {
erts_fprintf(stderr, "bad scheduler busy wait threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("cl", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if (sys_strcmp("true", arg) == 0) {
erts_sched_compact_load = 1;
erts_sched_balance_util = 0;
}
else if (sys_strcmp("false", arg) == 0)
erts_sched_compact_load = 0;
else {
erts_fprintf(stderr,
"bad scheduler compact load value '%s'\n",
arg);
erts_usage();
}
}
else if (has_prefix("ct", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
res = erts_init_cpu_topology_string(arg);
if (res != ERTS_INIT_CPU_TOPOLOGY_OK) {
switch (res) {
case ERTS_INIT_CPU_TOPOLOGY_INVALID_ID:
estr = "invalid identifier";
break;
case ERTS_INIT_CPU_TOPOLOGY_INVALID_ID_RANGE:
estr = "invalid identifier range";
break;
case ERTS_INIT_CPU_TOPOLOGY_INVALID_HIERARCHY:
estr = "invalid hierarchy";
break;
case ERTS_INIT_CPU_TOPOLOGY_INVALID_ID_TYPE:
estr = "invalid identifier type";
break;
case ERTS_INIT_CPU_TOPOLOGY_INVALID_NODES:
estr = "invalid nodes declaration";
break;
case ERTS_INIT_CPU_TOPOLOGY_MISSING_LID:
estr = "missing logical identifier";
break;
case ERTS_INIT_CPU_TOPOLOGY_NOT_UNIQUE_LIDS:
estr = "not unique logical identifiers";
break;
case ERTS_INIT_CPU_TOPOLOGY_NOT_UNIQUE_ENTITIES:
estr = "not unique entities";
break;
case ERTS_INIT_CPU_TOPOLOGY_MISSING:
estr = "missing cpu topology";
break;
default:
estr = "undefined error";
break;
}
erts_fprintf(stderr,
"bad cpu topology '%s': %s\n",
arg,
estr);
erts_usage();
}
}
else if (has_prefix("ecio", sub_param)) {
/* ignore argument, eager check io no longer used */
arg = get_arg(sub_param+4, argv[i+1], &i);
}
else if (has_prefix("pp", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if (sys_strcmp(arg, "true") == 0)
erts_port_parallelism = 1;
else if (sys_strcmp(arg, "false") == 0)
erts_port_parallelism = 0;
else {
erts_fprintf(stderr,
"bad port parallelism scheduling hint %s\n",
arg);
erts_usage();
}
}
else if (has_prefix("tbt", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
res = erts_init_scheduler_bind_type_string(arg);
if (res == ERTS_INIT_SCHED_BIND_TYPE_ERROR_BAD_TYPE) {
erts_fprintf(stderr,
"setting scheduler bind type '%s' failed: invalid type\n",
arg);
erts_usage();
}
}
else if (has_prefix("ub", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if (sys_strcmp("true", arg) == 0) {
#if ERTS_HAVE_SCHED_UTIL_BALANCING_SUPPORT_OPT
erts_sched_balance_util = 1;
#else
erts_fprintf(stderr,
"scheduler utilization balancing not "
"supported on this system\n");
erts_usage();
#endif
}
else if (sys_strcmp("false", arg) == 0)
erts_sched_balance_util = 0;
else {
erts_fprintf(stderr, "bad scheduler utilization balancing "
" value '%s'\n", arg);
erts_usage();
}
}
else if (has_prefix("wct", sub_param)) {
arg = get_arg(sub_param+3, argv[i+1], &i);
if (erts_sched_set_wake_cleanup_threshold(arg) != 0) {
erts_fprintf(stderr, "scheduler wake cleanup threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("scheduler wake cleanup threshold: %s\n", arg));
}
else if (has_prefix("wtdcpu", sub_param)) {
arg = get_arg(sub_param+6, argv[i+1], &i);
if (erts_sched_set_wakeup_other_threshold(ERTS_SCHED_DIRTY_CPU, arg) != 0) {
erts_fprintf(stderr, "dirty CPU scheduler wakeup threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("dirty CPU scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("wtdio", sub_param)) {
arg = get_arg(sub_param+5, argv[i+1], &i);
if (erts_sched_set_wakeup_other_threshold(ERTS_SCHED_DIRTY_IO, arg) != 0) {
erts_fprintf(stderr, "dirty IO scheduler wakeup threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("dirty IO scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("wt", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if (erts_sched_set_wakeup_other_threshold(ERTS_SCHED_NORMAL, arg) != 0) {
erts_fprintf(stderr, "scheduler wakeup threshold: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("ws", sub_param)) {
arg = get_arg(sub_param+2, argv[i+1], &i);
if (erts_sched_set_wakeup_other_type(ERTS_SCHED_NORMAL, arg) != 0) {
erts_fprintf(stderr, "scheduler wakeup strategy: %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("scheduler wakeup threshold: %s\n", arg));
}
else if (has_prefix("ssdcpu", sub_param)) {
/* suggested stack size (Kilo Words) for dirty CPU scheduler threads */
arg = get_arg(sub_param+6, argv[i+1], &i);
erts_dcpu_sched_thread_suggested_stack_size = atoi(arg);
if ((erts_dcpu_sched_thread_suggested_stack_size
< ERTS_SCHED_THREAD_MIN_STACK_SIZE)
|| (erts_dcpu_sched_thread_suggested_stack_size >
ERTS_SCHED_THREAD_MAX_STACK_SIZE)) {
erts_fprintf(stderr, "bad stack size for dirty CPU scheduler threads %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("suggested dirty CPU scheduler thread stack size %d kilo words\n",
erts_dcpu_sched_thread_suggested_stack_size));
}
else if (has_prefix("ssdio", sub_param)) {
/* suggested stack size (Kilo Words) for dirty IO scheduler threads */
arg = get_arg(sub_param+5, argv[i+1], &i);
erts_dio_sched_thread_suggested_stack_size = atoi(arg);
if ((erts_dio_sched_thread_suggested_stack_size
< ERTS_SCHED_THREAD_MIN_STACK_SIZE)
|| (erts_dio_sched_thread_suggested_stack_size >
ERTS_SCHED_THREAD_MAX_STACK_SIZE)) {
erts_fprintf(stderr, "bad stack size for dirty IO scheduler threads %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("suggested dirty IO scheduler thread stack size %d kilo words\n",
erts_dio_sched_thread_suggested_stack_size));
}
else if (has_prefix("ss", sub_param)) {
/* suggested stack size (Kilo Words) for scheduler threads */
arg = get_arg(sub_param+2, argv[i+1], &i);
erts_sched_thread_suggested_stack_size = atoi(arg);
modified_sched_thread_suggested_stack_size = 1;
if ((erts_sched_thread_suggested_stack_size
< ERTS_SCHED_THREAD_MIN_STACK_SIZE)
|| (erts_sched_thread_suggested_stack_size >
ERTS_SCHED_THREAD_MAX_STACK_SIZE)) {
erts_fprintf(stderr, "bad stack size for scheduler threads %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("suggested scheduler thread stack size %d kilo words\n",
erts_sched_thread_suggested_stack_size));
}
else if (has_prefix("fwi", sub_param)) {
long val;
arg = get_arg(sub_param+3, argv[i+1], &i);
errno = 0;
val = strtol(arg, NULL, 10);
if (errno != 0 || val < 0) {
erts_fprintf(stderr,
"bad scheduler forced wakeup "
"interval %s\n",
arg);
erts_usage();
}
erts_runq_supervision_interval = val;
}
else {
erts_fprintf(stderr, "bad scheduling option %s\n", argv[i]);
erts_usage();
}
break;
}
case 't':
/* set atom table size */
arg = get_arg(argv[i]+2, argv[i+1], &i);
errno = 0;
erts_atom_table_size = strtol(arg, NULL, 10);
if (errno != 0 ||
erts_atom_table_size < MIN_ATOM_TABLE_SIZE ||
erts_atom_table_size > MAX_ATOM_TABLE_SIZE) {
erts_fprintf(stderr, "bad atom table size %s\n", arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("setting maximum number of atoms to %d\n",
erts_atom_table_size));
break;
case 'T' :
arg = get_arg(argv[i]+2, argv[i+1], &i);
errno = 0;
erts_modified_timing_level = atoi(arg);
if ((erts_modified_timing_level == 0 && errno != 0)
|| erts_modified_timing_level < 0
|| erts_modified_timing_level >= ERTS_MODIFIED_TIMING_LEVELS) {
erts_fprintf(stderr, "bad modified timing level %s\n", arg);
erts_usage();
}
else {
VERBOSE(DEBUG_SYSTEM,
("using modified timing level %d\n",
erts_modified_timing_level));
}
break;
case 'R': {
/* set compatibility release */
int this_rel;
arg = get_arg(argv[i]+2, argv[i+1], &i);
erts_compat_rel = atoi(arg);
this_rel = this_rel_num();
if (erts_compat_rel < this_rel - 2 || this_rel < erts_compat_rel) {
erts_fprintf(stderr, "bad compatibility release number %s\n", arg);
erts_usage();
}
switch (erts_compat_rel) {
/* Currently no compat features... */
default:
break;
}
break;
}
case 'A': /* Was handled in early init just read past it */
(void) get_arg(argv[i]+2, argv[i+1], &i);
break;
case 'a':
/* suggested stack size (Kilo Words) for threads in thread pool */
arg = get_arg(argv[i]+2, argv[i+1], &i);
erts_async_thread_suggested_stack_size = atoi(arg);
if ((erts_async_thread_suggested_stack_size
< ERTS_ASYNC_THREAD_MIN_STACK_SIZE)
|| (erts_async_thread_suggested_stack_size >
ERTS_ASYNC_THREAD_MAX_STACK_SIZE)) {
erts_fprintf(stderr, "bad stack size for async threads %s\n",
arg);
erts_usage();
}
VERBOSE(DEBUG_SYSTEM,
("suggested async-thread stack size %d kilo words\n",
erts_async_thread_suggested_stack_size));
break;
case 'r': {
char *sub_param = argv[i]+2;
if (has_prefix("g", sub_param)) {
get_arg(sub_param+1, argv[i+1], &i);
/* already handled */
}
else {
erts_ets_realloc_always_moves = 1;
}
break;
}
case 'C':
arg = get_arg(argv[i]+2, argv[i+1], &i);
if (sys_strcmp(arg, "no_time_warp") == 0)
time_warp_mode = ERTS_NO_TIME_WARP_MODE;
else if (sys_strcmp(arg, "single_time_warp") == 0)
time_warp_mode = ERTS_SINGLE_TIME_WARP_MODE;
else if (sys_strcmp(arg, "multi_time_warp") == 0)
time_warp_mode = ERTS_MULTI_TIME_WARP_MODE;
else {
erts_fprintf(stderr,
"Invalid time warp mode: %s\n", arg);
erts_usage();
}
break;
case 'c':
if (sys_strcmp(argv[i]+2, "false") == 0)
goto time_correction_false;
else if (sys_strcmp(argv[i]+2, "true") == 0)
goto time_correction_true;
else if (argv[i][2] == '\0') {
if (i + 1 >= argc)
goto time_correction_false;
else {
if (sys_strcmp(argv[i+1], "false") == 0) {
(void) get_arg(argv[i]+2, argv[i+1], &i);
goto time_correction_false;
}
else if (sys_strcmp(argv[i+1], "true") == 0) {
(void) get_arg(argv[i]+2, argv[i+1], &i);
time_correction_true:
time_correction = 1;
break;
}
else {
time_correction_false:
time_correction = 0;
break;
}
}
}
else {
arg = get_arg(argv[i]+2, argv[i+1], &i);
erts_fprintf(stderr, "Invalid time correnction value: %s\n", arg);
erts_usage();
}
break;
case 'W':
arg = get_arg(argv[i]+2, argv[i+1], &i);
switch (arg[0]) {
case 'i':
erts_error_logger_warnings = am_info;
break;
case 'e':
erts_error_logger_warnings = am_error;
break;
case 'w':
erts_error_logger_warnings = am_warning;
break;
default:
erts_fprintf(stderr, "unrecognized warning_map option %s\n", arg);
erts_usage();
}
break;
case 'z': {
char *sub_param = argv[i]+2;
if (has_prefix("dbbl", sub_param)) {
int new_limit;
arg = get_arg(sub_param+4, argv[i+1], &i);
new_limit = atoi(arg);
if (new_limit < 1 || INT_MAX/1024 < new_limit) {
erts_fprintf(stderr, "Invalid dbbl limit: %d\n", new_limit);
erts_usage();
} else {
erts_dist_buf_busy_limit = new_limit*1024;
}
}
else if (has_prefix("dntgc", sub_param)) {
long secs;
arg = get_arg(sub_param+5, argv[i+1], &i);
if (sys_strcmp(arg, "infinity") == 0)
secs = ERTS_NODE_TAB_DELAY_GC_INFINITY;
else {
char *endptr;
errno = 0;
secs = strtol(arg, &endptr, 10);
if (errno != 0 || *arg == '\0' || *endptr != '\0'
|| secs < 0 || ERTS_NODE_TAB_DELAY_GC_MAX < secs) {
erts_fprintf(stderr, "Invalid delayed node table gc: %s\n", arg);
erts_usage();
}
}
node_tab_delete_delay = (int) secs;
}
else if (has_prefix("ebwt", sub_param)) {
arg = get_arg(sub_param+4, argv[i+1], &i);
if (sys_strcmp(arg, "none") == 0)
db_spin_count = ERTS_DB_SPNCNT_NONE;
else if (sys_strcmp(arg, "very_short") == 0)
db_spin_count = ERTS_DB_SPNCNT_VERY_LOW;
else if (sys_strcmp(arg, "short") == 0)
db_spin_count = ERTS_DB_SPNCNT_LOW;
else if (sys_strcmp(arg, "medium") == 0)
db_spin_count = ERTS_DB_SPNCNT_NORMAL;
else if (sys_strcmp(arg, "long") == 0)
db_spin_count = ERTS_DB_SPNCNT_HIGH;
else if (sys_strcmp(arg, "very_long") == 0)
db_spin_count = ERTS_DB_SPNCNT_VERY_HIGH;
else if (sys_strcmp(arg, "extremely_long") == 0)
db_spin_count = ERTS_DB_SPNCNT_EXTREMELY_HIGH;
else {
erts_fprintf(stderr,
"Invalid ets busy wait threshold: %s\n", arg);
erts_usage();
}
}
else {
erts_fprintf(stderr, "bad -z option %s\n", argv[i]);
erts_usage();
}
break;
}
default:
erts_fprintf(stderr, "%s unknown flag %s\n", argv[0], argv[i]);
erts_usage();
}
i++;
}
if (!erts_check_time_adj_support(time_correction, time_warp_mode)) {
char *time_correction_str = time_correction ? "Enabled" : "Disabled";
char *time_warp_str = "undefined";
switch (time_warp_mode) {
case ERTS_NO_TIME_WARP_MODE:
time_warp_str = "no";
break;
case ERTS_SINGLE_TIME_WARP_MODE:
time_warp_str = "single";
break;
case ERTS_MULTI_TIME_WARP_MODE:
time_warp_str = "multi";
break;
default:
time_warp_str = "undefined";
break;
}
erts_fprintf(stderr, "%s time correction with %s time warp mode "
"is not supported on this platform\n",
time_correction_str,
time_warp_str);
erts_usage();
}
/* Output format on windows for sprintf defaults to three exponents.
* We use two-exponent to mimic normal sprintf behaviour.
*/
#if defined(__WIN32__) && defined(_TWO_DIGIT_EXPONENT)
_set_output_format(_TWO_DIGIT_EXPONENT);
#endif
/* Restart will not reinstall the break handler */
#ifdef __WIN32__
if (ignore_break)
erts_set_ignore_break();
else if (replace_intr)
erts_replace_intr();
else
init_break_handler();
#else
if (ignore_break)
erts_set_ignore_break();
else if (have_break_handler)
init_break_handler();
if (replace_intr)
erts_replace_intr();
#endif
boot_argc = argc - i; /* Number of arguments to init */
boot_argv = &argv[i];
if (erts_sched_thread_suggested_stack_size < ERTS_SCHED_THREAD_MIN_STACK_SIZE)
erts_sched_thread_suggested_stack_size = ERTS_SCHED_THREAD_MIN_STACK_SIZE;
if (erts_dcpu_sched_thread_suggested_stack_size < ERTS_SCHED_THREAD_MIN_STACK_SIZE)
erts_dcpu_sched_thread_suggested_stack_size = ERTS_SCHED_THREAD_MIN_STACK_SIZE;
if (erts_dio_sched_thread_suggested_stack_size < ERTS_SCHED_THREAD_MIN_STACK_SIZE)
erts_dio_sched_thread_suggested_stack_size = ERTS_SCHED_THREAD_MIN_STACK_SIZE;
erl_init(ncpu,
proc_tab_sz,
legacy_proc_tab,
port_tab_sz,
port_tab_sz_ignore_files,
legacy_port_tab,
time_correction,
time_warp_mode,
node_tab_delete_delay,
db_spin_count);
load_preloaded();
erts_end_staging_code_ix();
erts_commit_staging_code_ix();
erts_initialized = 1;
erts_init_process_id = erl_first_process_otp(init, boot_argc, boot_argv);
ASSERT(erts_init_process_id != ERTS_INVALID_PID);
{
/*
* The erts_code_purger and the erts_literal_area_collector
* system processes are *always* alive. If they terminate
* they bring the whole VM down.
*/
Eterm pid;
pid = erl_system_process_otp(erts_init_process_id,
"erts_code_purger", !0,
PRIORITY_NORMAL);
erts_code_purger
= (Process *) erts_ptab_pix2intptr_ddrb(&erts_proc,
internal_pid_index(pid));
ASSERT(erts_code_purger && erts_code_purger->common.id == pid);
erts_proc_inc_refc(erts_code_purger);
pid = erl_system_process_otp(erts_init_process_id,
"erts_literal_area_collector",
!0, PRIORITY_NORMAL);
erts_literal_area_collector
= (Process *) erts_ptab_pix2intptr_ddrb(&erts_proc,
internal_pid_index(pid));
ASSERT(erts_literal_area_collector
&& erts_literal_area_collector->common.id == pid);
erts_proc_inc_refc(erts_literal_area_collector);
pid = erl_system_process_otp(erts_init_process_id,
"erts_dirty_process_signal_handler",
!0, PRIORITY_NORMAL);
erts_dirty_process_signal_handler
= (Process *) erts_ptab_pix2intptr_ddrb(&erts_proc,
internal_pid_index(pid));
ASSERT(erts_dirty_process_signal_handler
&& erts_dirty_process_signal_handler->common.id == pid);
erts_proc_inc_refc(erts_dirty_process_signal_handler);
pid = erl_system_process_otp(erts_init_process_id,
"erts_dirty_process_signal_handler",
!0, PRIORITY_HIGH);
erts_dirty_process_signal_handler_high
= (Process *) erts_ptab_pix2intptr_ddrb(&erts_proc,
internal_pid_index(pid));
ASSERT(erts_dirty_process_signal_handler_high
&& erts_dirty_process_signal_handler_high->common.id == pid);
erts_proc_inc_refc(erts_dirty_process_signal_handler_high);
pid = erl_system_process_otp(erts_init_process_id,
"erts_dirty_process_signal_handler",
!0, PRIORITY_MAX);
erts_dirty_process_signal_handler_max
= (Process *) erts_ptab_pix2intptr_ddrb(&erts_proc,
internal_pid_index(pid));
ASSERT(erts_dirty_process_signal_handler_max
&& erts_dirty_process_signal_handler_max->common.id == pid);
erts_proc_inc_refc(erts_dirty_process_signal_handler_max);
}
erts_start_schedulers();
#ifdef ERTS_ENABLE_LOCK_COUNT
erts_lcnt_post_startup();
#endif
/* Let system specific code decide what to do with the main thread... */
erts_sys_main_thread(); /* May or may not return! */
}
__decl_noreturn void erts_thr_fatal_error(int err, const char *what)
{
const char *errstr = err ? strerror(err) : NULL;
erts_fprintf(stderr,
"Failed to %s: %s%s(%d)\n",
what,
errstr ? errstr : "",
errstr ? " " : "",
err);
abort();
}
static void
system_cleanup(int flush_async)
{
/*
* Make sure only one thread exits the runtime system.
*/
if (erts_atomic_inc_read_nob(&exiting) != 1) {
/*
* Another thread is currently exiting the system;
* wait for it to do its job.
*/
if (erts_thr_progress_is_managed_thread()) {
/*
* The exiting thread might be waiting for
* us to block; need to update status...
*/
erts_thr_progress_active(erts_thr_prgr_data(NULL), 0);
erts_thr_progress_prepare_wait(erts_thr_prgr_data(NULL));
}
/* Wait forever... */
while (1)
erts_milli_sleep(10000000);
}
/* No cleanup wanted if ...
* 1. we are about to do an abnormal exit
* 2. we haven't finished initializing, or
* 3. another thread than the main thread is performing the exit
* (in threaded non smp case).
*/
if (!flush_async
|| !erts_initialized
)
return;
#ifdef ERTS_ENABLE_LOCK_CHECK
erts_lc_check_exact(NULL, 0);
#endif
erts_exit_flush_async();
}
static int erts_exit_code;
static __decl_noreturn void __noreturn
erts_exit_vv(int n, int flush_async, const char *fmt, va_list args1, va_list args2)
{
system_cleanup(flush_async);
if (erts_mtrace_enabled)
erts_mtrace_exit((Uint32) n);
if (fmt != NULL && *fmt != '\0')
erl_error(fmt, args2); /* Print error message. */
erts_exit_code = n;
/* Produce an Erlang crash dump if error */
if (((n == ERTS_ERROR_EXIT && erts_no_crash_dump == 0) || n == ERTS_DUMP_EXIT)
&& erts_initialized) {
erl_crash_dump_v((char*) NULL, 0, fmt, args1);
}
erts_exit_epilogue();
}
__decl_noreturn void __noreturn erts_exit_epilogue(void)
{
int n = erts_exit_code;
sys_tty_reset(n);
if (n == ERTS_INTR_EXIT)
exit(0);
else if (n == ERTS_DUMP_EXIT)
ERTS_EXIT_AFTER_DUMP(1);
else if (n == ERTS_ERROR_EXIT || n == ERTS_ABORT_EXIT)
abort();
exit(n);
}
/* Exit without flushing async threads */
__decl_noreturn void __noreturn erts_exit(int n, const char *fmt, ...)
{
va_list args1, args2;
va_start(args1, fmt);
va_start(args2, fmt);
erts_exit_vv(n, 0, fmt, args1, args2);
va_end(args2);
va_end(args1);
}
/* Exit after flushing async threads */
__decl_noreturn void __noreturn erts_flush_async_exit(int n, char *fmt, ...)
{
va_list args1, args2;
va_start(args1, fmt);
va_start(args2, fmt);
erts_exit_vv(n, 1, fmt, args1, args2);
va_end(args2);
va_end(args1);
}
|