#ifndef __MEM_SHARE_RJ_H
#define __MEM_SHARE_RJ_H
#if defined(__APPLE__) && defined(__MACH__)
#include <machine/endian.h>
#else
#include <endian.h>
#endif
#include <sys/stat.h>
#include <sys/mman.h>
#include <sys/time.h>
#include <sys/signal.h>
#include <unistd.h>
#include <fcntl.h>
#include <errno.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stddef.h>
#include <string.h>
#include <alloca.h>
#ifndef __HEADER_NO_EXECINFO
#include <execinfo.h>
#endif
#include <time.h>
#include "thread.h"
#define MAX_VALUE_U1 0xFFU
#define MAX_U1 MAX_VALUE_U1
typedef uint8_t u1i;
#define MAX_VALUE_U2 0xFFFFU
#define MAX_U2 MAX_VALUE_U2
typedef uint16_t u2i;
#define MAX_VALUE_U4 0xFFFFFFFFU
#define MAX_U4 MAX_VALUE_U4
typedef uint32_t u4i;
#define MAX_VALUE_U8 0xFFFFFFFFFFFFFFFFLLU
#define MAX_U8 MAX_VALUE_U8
typedef unsigned long long u8i;
#define MAX_VALUE_B1 0x7F
#define MAX_B1 MAX_VALUE_B1
typedef int8_t b1i;
#define MAX_VALUE_B2 0x7FFF
#define MAX_B2 MAX_VALUE_B2
typedef int16_t b2i;
#define MAX_VALUE_B4 0x7FFFFFFF
#define MAX_B4 MAX_VALUE_B4
typedef int32_t b4i;
#define MAX_VALUE_B8 0x7FFFFFFFFFFFFFFFLL
#define MAX_B8 MAX_VALUE_B8
typedef long long b8i;
typedef float f4i;
typedef long double f8i;
#define SYS_ALIGNED_BASE 8
#define Int(x) ((int)(x))
#define UInt(x) ((unsigned)(x))
#define Int32(x) ((b4i)(x))
#define Int64(x) ((b8i)(x))
#define UInt64(x) ((u8i)(x))
#define num_min(n1, n2) (((n1) < (n2))? (n1) : (n2))
#define num_max(n1, n2) (((n1) > (n2))? (n1) : (n2))
#define num_diff(n1, n2) (((n1) < (n2))? ((n2) - (n1)) : ((n1) - (n2)))
#define num_cmp(a, b) (((a) > (b))? 1 : (((a) < (b))? -1 : -0))
#define num_cmpgt(a, b) ((a) > (b))
#define num_cmpx(a, b, c, d) (((a) > (b))? 1 : (((a) < (b))? -1 : (((c) > (d))? 1 : (((c) < (d))? -1 : 0))))
#define num_cmpgtx(a, b, c, d) (((a) > (b))? 1 : (((a) < (b))? 0 : (((c) > (d)))))
#define num_cmpxx(a, b, c, d, e, f) (((a) > (b))? 1 : (((a) < (b))? -1 : (((c) > (d))? 1 : (((c) < (d))? -1 : (((e) > (f))? 1 : (((e) < (f))? -1 : 0))))))
#define num_cmpgtxx(a, b, c, d, e, f) (((a) > (b))? 1 : (((a) < (b))? 0 : (((c) > (d))? 1 : (((c) < (d))? 0 : ((e) > (f))))))
#define num_abs(n) ((n) < 0? -(n) : (n))
#define num_saturate(v, l, h) (((v) > (h))? (h) : (((v) < (l))? (l) : (v)))
#ifndef SWAP_TMP
#define SWAP_TMP
#define swap_tmp(a, b, t) { t = a; a = b; b = t; }
#endif
#ifndef typeof
#define typeof __typeof__
#endif
#define swap_var(a, b) { typeof(a) __swap_tmp__ = (a); (a) = (b); (b) = __swap_tmp__; }
#define UNUSED(x) (void)(x)
#define EXPR(...) __VA_ARGS__
#define _QUOTE_STR(x) #x
#define TOSTR(x) _QUOTE_STR(x)
#define TOTYPE(v, type) ((type)(v))
#define uc(ch) (((ch) >= 'a' && (ch) <= 'z')? (ch) + 'A' - 'a' : (ch))
#define lc(ch) (((ch) >= 'A' && (ch) <= 'Z')? (ch) + 'a' - 'A' : (ch))
#define get_bit8(bits, idx) ((((bits)[(idx) >> 3]) >> ((idx) & 0x07)) & 0x01)
#define get_bit16(bits, idx) ((((bits)[(idx) >> 4]) >> ((idx) & 0x0F)) & 0x01)
#define get_bit32(bits, idx) ((((bits)[(idx) >> 5]) >> ((idx) & 0x1F)) & 0x01)
#define get_bit64(bits, idx) ((((bits)[(idx) >> 6]) >> ((idx) & 0x3F)) & 0x01)
#define get_2bit8(bits, idx) ((((bits)[(idx) >> 2]) >> (((idx) & 0x03) << 1)) & 0x03)
#define get_2bit16(bits, idx) ((((bits)[(idx) >> 3]) >> (((idx) & 0x07) << 1)) & 0x03)
#define get_2bit32(bits, idx) ((((bits)[(idx) >> 4]) >> (((idx) & 0x0F) << 1)) & 0x03)
#define get_2bit64(bits, idx) ((((bits)[(idx) >> 5]) >> (((idx) & 0x1F) << 1)) & 0x03)
#define inc_2bit64(bits, idx) (((bits)[(idx) >> 5]) += (1LLU << (((idx) & 0x1F) << 1)))
#define get_4bit8(bits, idx) ((((bits)[(idx) >> 1]) >> (((idx) & 0x01) << 2)) & 0x0F)
#define get_4bit16(bits, idx) ((((bits)[(idx) >> 2]) >> (((idx) & 0x03) << 2)) & 0x0F)
#define get_4bit32(bits, idx) ((((bits)[(idx) >> 3]) >> (((idx) & 0x07) << 2)) & 0x0F)
#define get_4bit64(bits, idx) ((((bits)[(idx) >> 4]) >> (((idx) & 0x0F) << 2)) & 0x0F)
#define get_8bit16(bits, idx) ((((bits)[(idx) >> 1]) >> (((idx) & 0x01) << 3)) & 0xFF)
#define get_8bit32(bits, idx) ((((bits)[(idx) >> 2]) >> (((idx) & 0x03) << 3)) & 0xFF)
#define get_8bit64(bits, idx) ((((bits)[(idx) >> 3]) >> (((idx) & 0x07) << 3)) & 0xFF)
#define sprintfa(...) ({ char *x = alloca(snprintf(NULL, 0, __VA_ARGS__) + 1); sprintf(x, __VA_ARGS__); x; })
#define BEG_RUNONCE \
{ \
static int runonce = 0; \
if(runonce == 0){ \
runonce = 1
#define END_RUNONCE \
} \
}
#define WARNONCE(str) \
BEG_RUNONCE; \
fflush(stdout); fprintf(stderr, " -- \"%s\" in %s -- %s:%d --\n", (str), __FUNCTION__, __FILE__, __LINE__); fflush(stderr); \
END_RUNONCE
#ifndef __HEADER_NO_EXECINFO
static inline void print_backtrace(FILE *out, int max_frame){
void **buffer;
int frames;
if(max_frame < 1) max_frame = 1;
buffer = malloc(sizeof(void*) * max_frame);
frames = backtrace(buffer, max_frame);
backtrace_symbols_fd(buffer, frames, fileno(out));
free(buffer);
}
#else
static inline void print_backtrace(FILE *out, int max_frame){
UNUSED(max_frame);
fprintf(out, "-- ** Cannot back trace frames ** --\n");
}
#endif
static int __attribute__((unused)) _DEBUG_LOG_ = 0;
#define _DEBUG_LOGFILE_ stderr
#define _DEBUG_LOGFILE_NO_ STDERR_FILENO
static u8i __attribute__((unused)) _DEBUG_VAR_ = 0;
static inline void num2bits(u8i num, char bits[65]){
int i;
for(i=0;i<64;i++){
bits[i] = '0' + ((num >> (63 - i)) & 0x01);
}
bits[i] = 0;
}
static inline size_t roundup_power2(size_t v){
if(v == 0) return 0;
v --;
v |= v >> 1;
v |= v >> 2;
v |= v >> 4;
v |= v >> 8;
v |= v >> 16;
return v + 1;
}
static inline size_t roundup_times(size_t v, size_t base){
return (v + base - 1) / base * base;
}
static inline void* aligned_malloc(size_t size, int base){
u1i *p, *q;
if(base <= SYS_ALIGNED_BASE) return malloc(size);
p = malloc(size + base);
if(p == NULL) return NULL;
q = (u1i*)(((u8i)(p + base)) & (~(((u8i)base) - 1)));
*(q - 1) = q - p;
return q;
}
static inline void* aligned_calloc(size_t size, int base){
u1i *p, *q;
if(base <= SYS_ALIGNED_BASE) return calloc(size, 1);
p = calloc(size + base, 1);
if(p == NULL) return NULL;
q = (u1i*)(((u8i)(p + base)) & (~(((u8i)base) - 1)));
*(q - 1) = q - p;
return q;
}
static inline void* aligned_realloc(void *buffer, size_t size, size_t cap, int base){
u1i *p, *q, pad;
if(base <= SYS_ALIGNED_BASE) return realloc(buffer, cap);
q = (u1i*)buffer;
pad = *(q - 1);
p = q - pad;
p = realloc(p, cap + base);
if(p == NULL) return NULL;
q = (u1i*)(((u8i)(p + base)) & (~(((u8i)base) - 1)));
if((q - p) != pad){
memmove(q, p + pad, size);
}
*(q - 1) = q - p;
return q;
}
static inline void aligned_free(void *buffer, int base){
u1i *p, *q;
if(base <= SYS_ALIGNED_BASE) return free(buffer);
q = (u1i*)buffer;
p = q - *(q - 1);
free(p);
}
static inline size_t encap_list(void **buffer, size_t e_size, size_t size, size_t cur_cap, size_t inc, int mem_zeros, size_t n_head, int aligned_base){
void *ptr;
size_t cap;
if(cur_cap - size >= inc) return cur_cap;
if(MAX_U8 - inc <= size){
fprintf(stderr, " -- Overflow(64bits) %llu + %llu, in %s -- %s:%d --\n", (u8i)size, (u8i)inc, __FUNCTION__, __FILE__, __LINE__);
print_backtrace(stderr, 20);
abort();
}
if(MAX_U8 - inc < 0x3FFFFFFFLLU){
fprintf(stderr, " -- Overflow(64bits) %llu + %llu, in %s -- %s:%d --\n", (u8i)size, (u8i)inc, __FUNCTION__, __FILE__, __LINE__);
print_backtrace(stderr, 20);
abort();
}
if(size + inc < 0x3FFFFFFFLLU){
cap = roundup_power2(size + inc);
} else {
cap = (size + inc + 0x3FFFFFFFLLU) & (MAX_U8 << 30);
}
ptr = aligned_realloc((*buffer) - n_head * e_size, e_size * (size + n_head), e_size * (cap + n_head), aligned_base);
if(ptr == NULL){
fprintf(stderr, " -- Out of memory, try to allocate %llu bytes, old size %llu, old addr %p in %s -- %s:%d --\n", (unsigned long long)(e_size * (cap + n_head)), (unsigned long long)(e_size * (cur_cap + n_head)), *buffer, __FUNCTION__, __FILE__, __LINE__);
print_backtrace(stderr, 20);
abort();
}
*buffer = ptr + n_head * e_size;
if(mem_zeros) memset((*buffer) + (cur_cap * e_size), 0, e_size * (cap - cur_cap));
return cap;
}
#define ZEROS(e) memset((void*)(e), 0, sizeof(*(e)))
#ifndef __USE_GNU
# define TEMP_FAILURE_RETRY(expression) \
({ \
long int __result; \
do __result = (long int) (expression); \
while (__result == -1L && errno == EINTR); \
__result; \
})
#endif
static inline void nano_sleep(u8i nsec){
struct timespec timeout;
timeout.tv_sec = nsec/1000000000;
timeout.tv_nsec = nsec%1000000000;
nanosleep(&timeout, NULL);
}
#define micro_sleep(usec) nano_sleep(((u8i)(usec)) * 1000LLU)
#define microsleep(usec) micro_sleep(usec)
static inline long long microtime(){
struct timeval tv;
gettimeofday(&tv, NULL);
return ((long long)tv.tv_sec) * 1000000 + tv.tv_usec;
}
static inline char* date(){
time_t tm;
char *dstr, *p;
tm = time(NULL);
p = dstr = asctime(localtime(&tm));
while(*p){
if(*p == '\n'){ *p = 0; break; }
p ++;
}
return dstr;
}
static inline int replace_char(char *str, char src, char dst, int max){
int ret;
ret = 0;
while(*str){
if((*str) == src){
(*str) = dst;
ret ++;
if(ret == max) break;
}
str ++;
}
return ret;
}
static inline int file_exists(const char *filename){
char *rpath;
struct stat s;
rpath = realpath(filename, NULL);
if(rpath == NULL) return 0;
if(stat(rpath, &s) == -1){ free(rpath); return 0; }
free(rpath);
switch(s.st_mode & S_IFMT){
case S_IFREG: return 1;
default: return 0;
}
}
static inline int dir_exists(const char *filename){
char *rpath;
struct stat s;
rpath = realpath(filename, NULL);
if(rpath == NULL) return 0;
if(stat(rpath, &s) == -1){ free(rpath); return 0; }
free(rpath);
switch(s.st_mode & S_IFMT){
case S_IFDIR: return 1;
default: return 0;
}
}
static inline char* relative_filename(char *filename){
char *ptr;
if(filename == NULL) return NULL;
ptr = filename + strlen(filename);
while(ptr >= filename){
if(*ptr == '/') break;
ptr --;
}
return strdup(ptr + 1);
}
static inline char* absolute_filename(char *filename){
char *path, *cwd, *ptr;
int x, y, z, i;
if(filename == NULL) return NULL;
if(filename[0] == '/') return strdup(filename);
cwd = getcwd(NULL, 0);
path = malloc(strlen(cwd) + strlen(filename) + 2);
x = 0;
y = 0;
z = 0;
ptr = filename;
while(*ptr){
if((*ptr) == '.'){
z ++;
if(z > 2) break;
} else if((*ptr) == '/'){
y = ptr - filename + 1;
if(z == 2) x ++;
z = 0;
} else {
break;
}
ptr ++;
}
z = 0;
i = strlen(cwd);
while(x && i){
while(i){
i --;
if(cwd[i] == '/') break;
}
x --;
}
if(x || i == 0){
fprintf(stderr, " -- BAD File name: '%s'. PWD = '%s' --\n", filename, cwd); fflush(stderr);
free(cwd);
return NULL;
}
strncpy(path, cwd, i);
free(cwd);
path[i] = '/';
strncpy(path + i + 1, filename + y, strlen(filename) - y);
path[i + 1 + strlen(filename) - y] = 0;
return path;
}
static inline int exists_file(char *dir, char *filename){
char *realpath, *fullname;
int ret;
realpath = absolute_filename(dir? dir : ".");
if(!dir_exists(realpath)){ free(realpath); return 0; }
fullname = malloc(strlen(realpath) + strlen(filename) + 3);
sprintf(fullname, "%s/%s", realpath, filename);
free(realpath);
ret = file_exists(fullname);
free(fullname);
return ret;
}
static inline FILE* open_file_for_read(char *name, char *suffix){
char *full_name;
FILE *file;
if(name == NULL && suffix == NULL){
full_name = "-";
} else if(suffix == NULL){
full_name = name;
} else {
full_name = (char*)alloca(strlen(name) + strlen(suffix) + 1);
memcpy(full_name, name, strlen(name));
memcpy(full_name + strlen(name), suffix, strlen(suffix) + 1);
}
if(strcmp(full_name, "-") == 0){
file = stdin;
} else {
file = fopen(full_name, "r");
}
if(file == NULL){
fprintf(stderr, "Cannot open file for read: %s\n", full_name);
perror(NULL);
exit(1);
}
return file;
}
static inline FILE* open_file_for_write(char *name, char *suffix, int overwrite){
char *full_name;
FILE *file;
if(name == NULL && suffix == NULL){
full_name = "-";
} else if(suffix == NULL){
full_name = name;
} else {
full_name = (char*)alloca(strlen(name) + strlen(suffix) + 1);
memcpy(full_name, name, strlen(name));
memcpy(full_name + strlen(name), suffix, strlen(suffix) + 1);
}
if(strcmp(full_name, "-") == 0){
file = stdout;
} else if(!overwrite && file_exists(full_name)){
fprintf(stderr, "File exists: %s\n", full_name); exit(1);
} else {
file = fopen(full_name, "w+");
}
if(file == NULL){
fprintf(stderr, "Cannot open file for write: %s\n", full_name);
perror(NULL);
exit(1);
}
return file;
}
static inline FILE* open_file_for_append(char *name, char *suffix){
char *full_name;
FILE *file;
if(name == NULL && suffix == NULL){
full_name = "-";
} else if(suffix == NULL){
full_name = name;
} else {
full_name = (char*)alloca(strlen(name) + strlen(suffix) + 1);
memcpy(full_name, name, strlen(name));
memcpy(full_name + strlen(name), suffix, strlen(suffix) + 1);
}
if(strcmp(full_name, "-") == 0){
file = stdout;
} else {
file = fopen(full_name, "a+");
}
if(file == NULL){
fprintf(stderr, "Cannot open file for append: %s\n", full_name);
perror(NULL);
exit(1);
}
return file;
}
static inline void close_file(FILE *file){
if(file == NULL) return;
if(file == stdin || file == stdout || file == stderr) return;
if(fclose(file)) perror("Error on close file");
}
#define STEP_WISE_BUFF_SIZE 0xFFFF
static inline size_t fread_stepwise(void *_ptr, size_t size, size_t ne, FILE *stream){
void *ptr;
size_t ret, len, n, sz;
ret = 0;
ptr = _ptr;
sz = STEP_WISE_BUFF_SIZE / size;
if(sz < 1) sz = 1;
while(ne){
len = num_min(ne, sz);
if((n = fread(ptr, size, len, stream)) == 0){
break;
}
ret += n;
ptr += n;
ne -= n;
}
return ret;
}
static inline int get_linux_sys_info(u8i *memtotal, u8i *memavail, int *ncpu){
FILE *fp;
char buffer[64];
u8i freed, buffered, cached;
int core;
if(memtotal || memavail){
freed = buffered = cached = 0;
fp = open_file_for_read("/proc/meminfo", NULL);
while((fscanf(fp, "%s", buffer)) > 0){
if (strstr(buffer, "MemTotal") == buffer) {
fscanf(fp, "%llu", memtotal);
(*memtotal) *= 1024;
} else if (strstr(buffer, "MemFree") == buffer) {
fscanf(fp, "%llu", &freed);
} else if (strstr(buffer, "Buffers") == buffer) {
fscanf(fp, "%llu", &buffered);
} else if (strstr(buffer, "Cached") == buffer) {
fscanf(fp, "%llu", &cached);
}
}
fclose(fp);
if(memavail){
*memavail = (freed + buffered + cached) * 1024;
}
}
if(ncpu){
fp = open_file_for_read("/proc/cpuinfo", NULL);
core = 0;
while((fscanf(fp, "%s", buffer)) > 0){
if (strstr(buffer, "processor") == buffer) {
core ++;
}
}
fclose(fp);
*ncpu = core;
}
return 0;
}
static inline int get_linux_proc_info(u8i *rss, u8i *vsize, double *utime, double *stime){
int c, n_spc;
char str[64];
FILE *fp;
unsigned long tmp, tmp2;
size_t page_size;
*rss = *vsize = 0;
*utime = *stime = 0;
page_size = sysconf(_SC_PAGESIZE);
sprintf(str, "/proc/%u/stat", getpid());
fp = open_file_for_read(str, NULL);
n_spc = 0;
while ((c = fgetc(fp)) != EOF) {
if (c == ' ') ++n_spc;
if (n_spc == 13) break;
}
fscanf(fp, "%lu%lu", &tmp, &tmp2);
*utime = tmp / 100.0;
*stime = tmp2 / 100.0;
++n_spc;
while ((c = fgetc(fp)) != EOF) {
if (c == ' ') ++n_spc;
if (n_spc == 22) break;
}
fscanf(fp, "%lu%lu", &tmp, &tmp2);
fclose(fp);
*vsize = tmp;
*rss = tmp2 * page_size;
return 0;
}
thread_beg_def(_proc_deamon);
u8i memtotal, memavail;
int ncpu;
u8i max_rss, max_vsz;
u8i rss_limit;
double utime, stime, rtime;
double rtime_limit;
int interval;
thread_end_def(_proc_deamon);
static struct _proc_deamon_struct* _sig_proc_deamon = NULL;
static inline void print_proc_stat_info(int signum){
FILE *log;
if(_sig_proc_deamon == NULL) return;
log = stderr;
thread_beg_syn_read(_sig_proc_deamon);
fprintf(log, "** PROC_STAT(%d) **: real %.3f sec, user %.3f sec, sys %.3f sec, maxrss %.1f kB, maxvsize %.1f kB\n", signum, _sig_proc_deamon->rtime, _sig_proc_deamon->utime, _sig_proc_deamon->stime, _sig_proc_deamon->max_rss / 1024.0, _sig_proc_deamon->max_vsz / 1024.0);
thread_end_syn_read(_sig_proc_deamon);
fflush(log);
}
static inline void _deamon_config_proc_limit(int signum){
char *val;
u8i rss_limit, rtime_limit;
UNUSED(signum);
if(_sig_proc_deamon == NULL) return;
thread_beg_syn_write(_sig_proc_deamon);
val = getenv("LIMIT_RSS");
if(val){
rss_limit = atol(val) * 1024 * 1024;
} else {
rss_limit = 0;
}
val = getenv("LIMIT_RTIME");
if(val){
rtime_limit = atol(val);
} else {
rtime_limit = 0;
}
_sig_proc_deamon->rss_limit = rss_limit;
_sig_proc_deamon->rtime_limit = rtime_limit;
fprintf(stderr, "** PROC_LIMIT: max rss = %llu MB rtime = %llu secs. **\n", rss_limit / 1024 * 1024, rtime_limit);
thread_end_syn_write(_sig_proc_deamon);
}
thread_beg_func(_proc_deamon);
u8i rss, vsz;
u8i cb, ce;
cb = microtime();
get_linux_sys_info((u8i*)&_proc_deamon->memtotal, (u8i*)&_proc_deamon->memavail, (int*)&_proc_deamon->ncpu);
_proc_deamon->max_rss = 0;
_proc_deamon->max_vsz = 0;
_proc_deamon->rtime = 0;
_proc_deamon->rss_limit = 0;
_proc_deamon->rtime_limit = 0;
_proc_deamon->interval = 100000; get_linux_proc_info(&rss, &vsz, (double*)&_proc_deamon->utime, (double*)&_proc_deamon->stime);
_sig_proc_deamon = (struct _proc_deamon_struct*)_proc_deamon;
signal(SIGUSR1, _deamon_config_proc_limit);
signal(SIGUSR2, print_proc_stat_info);
_proc_deamon->once = 0; thread_beg_loop(_proc_deamon);
thread_beg_syn_write(_proc_deamon);
get_linux_proc_info(&rss, &vsz, (double*)&_proc_deamon->utime, (double*)&_proc_deamon->stime);
if(rss > _proc_deamon->max_rss) _proc_deamon->max_rss = rss;
if(vsz > _proc_deamon->max_vsz) _proc_deamon->max_vsz = vsz;
ce = microtime();
_proc_deamon->rtime = (ce - cb) / 1000000.0;
thread_end_syn_write(_proc_deamon);
if(_proc_deamon->rss_limit && rss > _proc_deamon->rss_limit){
fprintf(stderr, "-- Exceed memory limit: %llu > %llu\n", rss, _proc_deamon->rss_limit);
abort();
}
if(_proc_deamon->rtime_limit){
if(_proc_deamon->rtime > _proc_deamon->rtime_limit){
fprintf(stderr, "-- Timeout: %16.3f > %16.3f\n", _proc_deamon->rtime, _proc_deamon->rtime_limit);
abort();
}
}
microsleep(_proc_deamon->interval); thread_end_loop(_proc_deamon);
get_linux_proc_info(&rss, &vsz, (double*)&_proc_deamon->utime, (double*)&_proc_deamon->stime);
if(rss > _proc_deamon->max_rss) _proc_deamon->max_rss = rss;
if(vsz > _proc_deamon->max_vsz) _proc_deamon->max_vsz = vsz;
ce = microtime();
_proc_deamon->rtime = (ce - cb) / 1000000.0;
thread_end_func(_proc_deamon);
#if defined(__linux__) || defined(__unix__) || defined(__CYGWIN__)
#define BEG_STAT_PROC_INFO(log, argc, argv) \
thread_preprocess(_proc_deamon); \
thread_beg_init(_proc_deamon, 1); \
thread_end_init(_proc_deamon); \
thread_wake_all(_proc_deamon); \
if(log){ \
fprintf(log, "--\n"); \
fprintf(log, "-- total memory %16.1f kB\n", _proc_deamon->memtotal / 1024.0); \
fprintf(log, "-- available %16.1f kB\n", _proc_deamon->memavail / 1024.0); \
fprintf(log, "-- %d cores\n", _proc_deamon->ncpu); \
int i; \
char **opts; \
opts = (char**)argv; \
fprintf(log, "-- Starting program:"); \
for(i=0;i<argc;i++) fprintf(log, " %s", opts[i]); \
fprintf(log, "\n"); \
fprintf(log, "-- pid %16d\n", getpid()); \
fprintf(log, "-- date %s\n", date()); \
fprintf(log, "--\n"); \
fflush(log); \
}
#else
#define BEG_STAT_PROC_INFO(log, argc, argv) \
if(log){ \
int i; \
char **opts; \
opts = (char**)argv; \
fprintf(log, "-- Starting program:"); \
for(i=0;i<argc;i++) fprintf(log, " %s", opts[i]); \
fprintf(log, "\n"); \
fflush(log); \
}
#endif
#if defined(__linux__) || defined(__unix__) || defined(__CYGWIN__)
#define SET_PROC_LIMIT(memory, time) \
thread_beg_iter(_proc_deamon); \
_proc_deamon->rss_limit = memory; \
_proc_deamon->rtime_limit = time; \
thread_end_iter(_proc_deamon)
#else
#define SET_PROC_LIMIT(memory, time)
#endif
#if defined(__linux__) || defined(__unix__) || defined(__CYGWIN__)
#define END_STAT_PROC_INFO(log) \
_proc_deamon->once = 1; \
thread_beg_close(_proc_deamon); \
if(log){ \
fprintf(log, "** PROC_STAT(TOTAL) **: real %.3f sec, user %.3f sec, sys %.3f sec, maxrss %.1f kB, maxvsize %.1f kB\n---\n", _sig_proc_deamon->rtime, _sig_proc_deamon->utime, _sig_proc_deamon->stime, _sig_proc_deamon->max_rss / 1024.0, _sig_proc_deamon->max_vsz / 1024.0); \
} \
thread_end_close(_proc_deamon)
#else
#define END_STAT_PROC_INFO(log) \
if(log){ \
fprintf(log, "-- proc stat failed: only support 'linux, unix, cygwin' OS --\n"); \
}
#endif
#ifndef OBJ_DESC_MAX_CHILD
#define OBJ_DESC_MAX_CHILD 64
#endif
static inline size_t mem_size_round(size_t size){ return (size + 7) & 0xFFFFFFFFFFFFFFF8LLU; }
static inline uint8_t mem_size_gap(size_t size){ return (size & 0x07U)? 8 - (size & 0x07U) : 0; }
static inline size_t mem_dump(void *mem, size_t len, FILE *out){
size_t size;
uint8_t i, v;
if(mem == NULL) return 0;
size = mem_size_round(len);
if(out){
fwrite(mem, 1, len, out);
v = 0;
for(i=0;i<mem_size_gap(len);i++) fwrite(&v, 1, 1, out);
}
return size;
}
typedef size_t (*mem_array_count)(void *obj, int idx);
typedef void (*mem_load_post)(void *obj, size_t aux_data);
struct obj_desc_t;
#define MEM_PTR_TYPE_DUMP 1
#define MEM_PTR_TYPE_POINTER 2
typedef struct obj_desc_t {
const char *tag;
size_t size; int n_child; uint8_t mem_type[OBJ_DESC_MAX_CHILD];
off_t addr[OBJ_DESC_MAX_CHILD]; const struct obj_desc_t *desc[OBJ_DESC_MAX_CHILD];
mem_array_count cnt;
mem_load_post post;
} obj_desc_t;
static const struct obj_desc_t OBJ_DESC_DATA = {"OBJ_DESC_DATA", 1, 0, {}, {}, {}, NULL, NULL};
static inline size_t _char_array_obj_desc_cnt(void *obj, int idx){ if(idx == 0 && obj) return strlen((char*)obj) + 1; else return 0; }
static const struct obj_desc_t OBJ_DESC_CHAR_ARRAY = {"OBJ_DESC_CHAR_ARRAY", 0, 1, {0}, {0}, {&OBJ_DESC_DATA}, _char_array_obj_desc_cnt, NULL};
static inline size_t mem_size_obj(void *obj, uint8_t mem_type, const obj_desc_t *desc, size_t size, size_t cnt){
size_t m;
void *ref;
int i;
if(desc == NULL) return size;
if(obj == NULL) return size;
switch(mem_type){
case 3: size += mem_size_round(sizeof(void*) * cnt);
case 2:
for(m=0;m<cnt;m++) if(((void**)obj)[m]) size += mem_size_round(desc->size);
break;
case 1: size += mem_size_round(cnt * desc->size); case 0: break;
}
if(desc->n_child == 0) return size;
for(m=0;m<cnt;m++){
if(mem_type & 0x02){
ref = ((void**)obj)[m];
if(ref == NULL) continue;
} else {
ref = obj + m * desc->size;
}
for(i=0;i<desc->n_child;i++){
if(desc->mem_type[i] & 0x01){
size += mem_size_obj(*((void**)(ref + desc->addr[i])), desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], 0, desc->cnt? desc->cnt(ref, i) : 1);
} else {
size += mem_size_obj(ref + desc->addr[i], desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], 0, desc->cnt? desc->cnt(ref, i) : 1);
}
}
}
return size;
}
static inline void mem_dup_obj(void **ret, void *obj, size_t aux_data, uint8_t mem_type, const obj_desc_t *desc, size_t cnt){
size_t m;
void *ref, *chd;
int i;
if(desc == NULL || obj == NULL){ *ret = NULL; return; }
if(mem_type & 0x01){
if(mem_type & 0x02){
*ret = calloc(cnt, sizeof(void*) * cnt);
} else if(desc->size){
*ret = calloc(cnt, desc->size);
memcpy(*ret, obj, desc->size * cnt);
} else {
}
}
if(desc->n_child == 0 && desc->post == NULL){
} else {
for(m=0;m<cnt;m++){
if(mem_type & 0x02){
ref = ((void**)obj)[m];
if(ref == NULL) continue;
chd = malloc(desc->size);
memcpy(chd, ref, desc->size);
ret[m] = chd;
} else if(desc->size){
ref = obj + m * desc->size;
chd = (*ret) + m * desc->size;
} else {
ref = obj;
chd = ret;
}
for(i=0;i<desc->n_child;i++){
if(desc->mem_type[i] & 0x01){
mem_dup_obj((void**)(chd + desc->addr[i]), *((void**)(ref + desc->addr[i])), aux_data, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], desc->cnt? desc->cnt(ref, i) : 1);
} else {
mem_dup_obj((void**)(chd + desc->addr[i]), ref + desc->addr[i], aux_data, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], desc->cnt? desc->cnt(ref, i) : 1);
}
}
if(desc->post) desc->post(chd, aux_data);
}
}
}
static inline size_t mem_dump_obj(void *obj, uint8_t mem_type, const obj_desc_t *desc, size_t offset, size_t cnt, FILE *out, int mem_free){
void *ref;
size_t size, m;
int i;
if(obj == NULL) return offset;
size = offset;
if(mem_type & 0x01){
if(mem_type & 0x02){
size += mem_dump(obj, cnt * sizeof(void*), out);
} else {
size += mem_dump(obj, cnt * desc->size, out);
}
}
if((mem_type & 0x02) == 0 && desc->n_child == 0){
} else {
for(m=0;m<cnt;m++){
if(mem_type & 0x02){
ref = ((void**)obj)[m];
if(ref == NULL) continue;
size += mem_dump(ref, desc->size, out);
} else {
ref = obj + m * desc->size;
}
for(i=0;i<desc->n_child;i++){
if(desc->mem_type[i] & 0x01){
size = mem_dump_obj(*((void**)(ref + desc->addr[i])), desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], size, desc->cnt? desc->cnt(ref, i) : 1, out, mem_free);
} else {
size = mem_dump_obj(ref + desc->addr[i], desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], size, desc->cnt? desc->cnt(ref, i) : 1, out, mem_free);
}
}
}
}
if(mem_free){
if((mem_type & 0x02) && desc->size) for(m=0;m<cnt;m++) free(((void**)obj)[m]);
if((mem_type & 0x01) && ((mem_type & 0x02) | desc->size)) free(obj);
}
return size;
}
static inline size_t mem_load_obj(void *obj, size_t aux_data, uint8_t mem_type, const obj_desc_t *desc, size_t addr_beg, size_t cnt){
size_t addr, m;
int i;
void *ref, **ptr;
if(obj == NULL) return 0;
addr = addr_beg? : (size_t)obj;
if(mem_type & 0x01){
if(mem_type & 0x02){
addr += mem_size_round(cnt * sizeof(void*));
} else {
addr += mem_size_round(cnt * desc->size);
}
}
if(desc->n_child == 0 && desc->post == NULL){
switch(mem_type){
case 2:
case 3:
for(m=0;m<cnt;m++){
ptr = ((void**)obj) + m;
if(*ptr == NULL) continue;
*ptr = (void*)addr;
addr += mem_size_round(desc->size);
}
default: return addr;
}
}
for(m=0;m<cnt;m++){
if(mem_type & 0x02){
ptr = ((void**)obj) + m;
if(*ptr == NULL) continue;
ref = *ptr = (void*)addr;
addr += mem_size_round(desc->size);
} else {
ref = obj + m * desc->size;
}
for(i=0;i<desc->n_child;i++){
ptr = ref + desc->addr[i];
if(desc->mem_type[i] & 0x01){
if(*ptr == NULL) continue;
*ptr = (void*)addr;
addr = mem_load_obj(*ptr, aux_data, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1);
} else {
addr = mem_load_obj((void*)ptr, aux_data, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1);
}
}
if(desc->post) desc->post(ref, aux_data);
}
return addr;
}
static inline size_t mem_tree_obj(FILE *out, void *obj, size_t mem_type, const obj_desc_t *desc, size_t addr, size_t cnt, size_t max_cnt, int level, int max_level){
size_t m;
int i, j;
void *ref, **ptr;
if(obj == NULL) return 0;
if(addr == 0) addr = (size_t)obj;
if(max_level <= 0 || level <= max_level){
for(j=0;j<level;j++) fputc('-', out);
fprintf(out, "%s:%p:%llu:%llu:", desc->tag, obj, (u8i)mem_type, (u8i)cnt);
}
if(mem_type & 0x01){
if(mem_type & 0x02){
addr += mem_size_round(cnt * sizeof(void*));
} else {
addr += mem_size_round(cnt * desc->size);
}
}
if(desc->n_child == 0){
if(mem_type == 3){
for(m=0;m<cnt;m++){
ptr = ((void**)obj) + m;
if(*ptr == NULL) continue;
addr += mem_size_round(desc->size);
}
}
if(max_level <= 0 || level <= max_level) fprintf(out, "%llu\n", (u8i)(addr - (size_t)obj));
return addr;
}
if(max_level <= 0 || level <= max_level) fprintf(out, "%llu\n", (u8i)(addr - (size_t)obj));
for(m=0;m<cnt;m++){
if(cnt > 1 && (max_level <= 0 || level <= max_level) && (max_cnt == 0 || m < max_cnt)){
for(j=0;j<level;j++) fputc('-', out);
fprintf(out, "[%llu/%llu]\n", (u8i)m, (u8i)cnt);
}
if(mem_type & 0x02){
ptr = ((void**)obj) + m;
if(*ptr == NULL) continue;
ref = (void*)addr;
addr += mem_size_round(desc->size);
} else {
ref = obj + m * desc->size;
}
for(i=0;i<desc->n_child;i++){
ptr = ref + desc->addr[i];
if(desc->mem_type[i] & 0x01){
if(*ptr == NULL) continue;
if(max_cnt && m >= max_cnt){
addr = mem_tree_obj(out, (void*)addr, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1, max_cnt, 2, 1);
} else {
addr = mem_tree_obj(out, (void*)addr, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1, max_cnt, level + 1, max_level);
}
} else {
if(max_cnt && m >= max_cnt){
addr = mem_tree_obj(out, (void*)ptr, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1, max_cnt, 2, 1);
} else {
addr = mem_tree_obj(out, (void*)ptr, desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP), desc->desc[i], addr, desc->cnt? desc->cnt(ref, i) : 1, max_cnt, level + 1, max_level);
}
}
}
}
return addr;
}
static inline const obj_desc_t* mem_locate_obj(void *obj, size_t *_mem_type, const obj_desc_t *desc, u4i *trace_childs, size_t *trace_cnts, u4i ntrace, size_t *addr, size_t *cnt, int selected){
const obj_desc_t *ret;
size_t m, mem_type;
u4i ns;
int i, nc;
void *ref, **ptr;
if(obj == NULL) return desc;
if(*addr == 0) *addr = (size_t)obj;
if(selected && ntrace == 0) return desc;
mem_type = *_mem_type;
if(mem_type & 0x01){
if(mem_type & 0x02){
*addr += mem_size_round((*cnt) * sizeof(void*));
} else {
*addr += mem_size_round((*cnt) * desc->size);
}
}
if(selected){
if(trace_childs[0] >= (u4i)desc->n_child){
fprintf(stderr, " -- Illegal trace child (%d >= %d) in OBJ_DESC[%s] in %s -- %s:%d --\n", trace_childs[0], desc->n_child, desc->tag, __FUNCTION__, __FILE__, __LINE__);
return desc;
}
if(trace_cnts[0] >= *cnt){
fprintf(stderr, " -- Illegal trace cont (%llu >= %llu) in OBJ_DESC[%s] in %s -- %s:%d --\n", (u8i)trace_cnts[0], (u8i)*cnt, desc->tag, __FUNCTION__, __FILE__, __LINE__);
return desc;
}
}
if(desc->n_child == 0){
switch(mem_type){
case 2:
case 3:
*addr += (*cnt) * mem_size_round(desc->size);
default: return desc;
}
}
ret = desc;
ns = selected? trace_cnts[0] + 1 : *cnt;
for(m=0;m<ns;m++){
if(mem_type & 0x02){
ptr = ((void**)obj) + m;
if(*ptr == NULL){
if(selected && m + 1 == ns){
*_mem_type = desc->mem_type[trace_childs[0]] | (desc->size? 0 : MEM_PTR_TYPE_DUMP);
*cnt = 0;
}
continue;
}
ref = (void*)*addr;
*addr += mem_size_round(desc->size);
} else {
ref = obj + m * desc->size;
}
nc = (selected && m + 1 == ns)? trace_childs[0] + 1 : (u4i)desc->n_child;
for(i=0;i<nc;i++){
ptr = ref + desc->addr[i];
if(desc->mem_type[i] & 0x01){
*_mem_type = desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP);
if(*ptr == NULL){
*cnt = 0;
continue;
}
*cnt = desc->cnt? desc->cnt(ref, i) : 1;
ret = mem_locate_obj((void*)*addr, _mem_type, desc->desc[i], trace_childs + 1, trace_cnts + 1, ntrace - 1, addr, cnt, (selected && m + 1 == ns && i == nc));
} else {
*_mem_type = desc->mem_type[i] | (desc->size? 0 : MEM_PTR_TYPE_DUMP);
*cnt = desc->cnt? desc->cnt(ref, i) : 1;
ret = mem_locate_obj((void*)ptr, _mem_type, desc->desc[i], trace_childs + 1, trace_cnts + 1, ntrace - 1, addr, cnt, (selected && m + 1 == ns && i == nc));
}
}
}
return ret;
}
static inline size_t mem_dump_obj_file(void *obj, size_t mem_type, const obj_desc_t *desc, size_t cnt, size_t aux_data, FILE *out){
size_t size;
if(desc == NULL) return 0;
if((mem_type & 0x01) == 0){
fprintf(stderr, " -- Illegal mem_type (%u) to call mem_dump, object should have standalone memory in %s -- %s:%d --\n", (int)mem_type, __FUNCTION__, __FILE__, __LINE__);
exit(1);
}
size = mem_size_obj(obj, mem_type, desc, 0, cnt);
if(out){
fwrite(&size, sizeof(size_t), 1, out);
fwrite(&mem_type, sizeof(size_t), 1, out);
fwrite(&cnt, sizeof(size_t), 1, out);
fwrite(&aux_data, sizeof(size_t), 1, out);
}
size = 4 * sizeof(size_t);
size = mem_dump_obj(obj, mem_type, desc, size, cnt, out, 0);
if(out) fflush(out);
return size;
}
static inline size_t mem_dump_free_obj_file(void *obj, size_t mem_type, const obj_desc_t *desc, size_t cnt, size_t aux_data, FILE *out){
size_t size;
if(desc == NULL) return 0;
if((mem_type & 0x01) == 0){
fprintf(stderr, " -- Illegal mem_type (%u) to call mem_dump, object should have standalone memory in %s -- %s:%d --\n", (int)mem_type, __FUNCTION__, __FILE__, __LINE__);
exit(1);
}
size = mem_size_obj(obj, mem_type, desc, 0, cnt);
if(out){
fwrite(&size, sizeof(size_t), 1, out);
fwrite(&mem_type, sizeof(size_t), 1, out);
fwrite(&cnt, sizeof(size_t), 1, out);
fwrite(&aux_data, sizeof(size_t), 1, out);
}
size = 4 * sizeof(size_t);
size = mem_dump_obj(obj, mem_type, desc, size, cnt, out, 1);
if(out) fflush(out);
return size;
}
static char *mem_share_locks = NULL;
static int mem_share_lock_size = 0;
static inline void cleanup_mem_share_file_locks(){
int off;
off = 0;
while(off < mem_share_lock_size){
shm_unlink(mem_share_locks + off);
off += strlen(mem_share_locks + off) + 1;
}
if(mem_share_locks) free(mem_share_locks);
mem_share_lock_size = 0;
mem_share_locks = NULL;
}
#ifndef sighandler_t
typedef void (*sighandler_t)(int sig);
#endif
static sighandler_t sig_term = SIG_IGN;
static sighandler_t sig_int = SIG_IGN;
static sighandler_t sig_hup = SIG_IGN;
static sighandler_t sig_kill = SIG_IGN;
static volatile sig_atomic_t cleanup_mem_share_in_progress = 0;
static inline void sig_cleanup_mem_share_file_locks(int sig){
if(cleanup_mem_share_in_progress) raise(sig);
cleanup_mem_share_in_progress = 1;
cleanup_mem_share_file_locks();
signal(SIGTERM, sig_term);
signal(SIGINT , sig_int);
signal(SIGHUP, sig_hup);
signal(SIGKILL, sig_kill);
raise(sig);
}
static inline void register_mem_share_file_lock(char *file){
int len;
if(mem_share_lock_size == 0){
if((sig_term = signal(SIGTERM, sig_cleanup_mem_share_file_locks)) == SIG_IGN) signal(SIGTERM, SIG_IGN);
if((sig_int = signal(SIGINT , sig_cleanup_mem_share_file_locks)) == SIG_IGN) signal(SIGINT , SIG_IGN);
if((sig_hup = signal(SIGHUP , sig_cleanup_mem_share_file_locks)) == SIG_IGN) signal(SIGHUP , SIG_IGN);
if((sig_kill = signal(SIGKILL, sig_cleanup_mem_share_file_locks)) == SIG_IGN) signal(SIGKILL, SIG_IGN);
atexit(cleanup_mem_share_file_locks);
}
len = strlen(file);
mem_share_locks = realloc(mem_share_locks, mem_share_lock_size + len + 1);
strcpy(mem_share_locks + mem_share_lock_size, file);
mem_share_lock_size += len + 1;
}
static inline void print_tree_obj_file(FILE *out, const obj_desc_t *desc, char *path, size_t max_cnt, int max_level){
FILE *file;
void *mem;
size_t psize, *size, *mem_type, *cnt, *aux_data;
if(desc == NULL) return;
if((file = fopen(path, "r")) == NULL){
fprintf(stderr, " -- Cannot open %s in %s -- %s:%d --\n", path, __FUNCTION__, __FILE__, __LINE__); fflush(stderr);
return;
}
size = alloca(sizeof(size_t));
mem_type = alloca(sizeof(size_t));
cnt = alloca(sizeof(size_t));
aux_data = alloca(sizeof(size_t));
fread(size, sizeof(size_t), 1, file);
fread(mem_type, sizeof(size_t), 1, file);
fread(cnt, sizeof(size_t), 1, file);
fread(aux_data, sizeof(size_t), 1, file);
psize = getpagesize();
mem = mmap(0, (((*size) + 4 * sizeof(size_t)) + psize - 1) / psize * psize, PROT_READ, MAP_PRIVATE, fileno(file), 0);
if(mem == MAP_FAILED){
perror("Cannot mmap");
return;
}
fprintf(out, "OBJ_TREE[%s]{\n", path);
mem_tree_obj(out, mem + 4 * sizeof(size_t), *mem_type, desc, 0, *cnt, max_cnt, 1, max_level);
fprintf(out, "}\n");
munmap(mem, (((*size) + 4 * sizeof(size_t)) + psize - 1) / psize * psize);
fclose(file);
}
static inline void* mem_read_obj_file(const obj_desc_t *desc, char *path, size_t *size, size_t *mem_type, size_t *cnt, size_t *aux_data){
void *mem;
size_t nin;
FILE *file;
if(desc == NULL) return NULL;
if((file = fopen(path, "r")) == NULL){
fprintf(stderr, " -- Cannot open %s in %s -- %s:%d --\n", path, __FUNCTION__, __FILE__, __LINE__); fflush(stderr);
return NULL;
}
if(size == NULL) size = alloca(sizeof(size_t));
if(mem_type == NULL) mem_type = alloca(sizeof(size_t));
if(cnt == NULL) cnt = alloca(sizeof(size_t));
if(aux_data == NULL) aux_data = alloca(sizeof(size_t));
fread(size, sizeof(size_t), 1, file);
fread(mem_type, sizeof(size_t), 1, file);
fread(cnt, sizeof(size_t), 1, file);
fread(aux_data, sizeof(size_t), 1, file);
mem = malloc(*size);
if(mem == NULL){
fprintf(stderr, " -- Cannot alloc %llu bytes memory for %s in %s -- %s:%d --\n", (unsigned long long)*size, path, __FUNCTION__, __FILE__, __LINE__); fflush(stderr);
return NULL;
}
if((nin = fread(mem, 1, *size, file)) != *size){
fprintf(stderr, " -- Read %llu bytes, not %llu bytes in %s -- %s:%d --\n", (unsigned long long)nin, (unsigned long long)*size, __FUNCTION__, __FILE__, __LINE__); fflush(stderr);
return NULL;
}
fclose(file);
mem_load_obj(mem, *aux_data, *mem_type, desc, 0, *cnt);
return mem;
}
static inline void* mem_read_sub_obj_file(const obj_desc_t *desc, u4i *trace_childs, size_t *trace_cnts, u4i ntrace, char *path, size_t *size){
const obj_desc_t *sub;
void *mem;
size_t *mem_type, *cnt, *aux_data, psize, addr, sz, nin;
FILE *file;
if(desc == NULL) return NULL;
if((file = fopen(path, "r")) == NULL){
fprintf(stderr, " -- Cannot open %s in %s -- %s:%d --\n", path, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
if(size == NULL) size = alloca(sizeof(size_t));
mem_type = alloca(sizeof(size_t));
cnt = alloca(sizeof(size_t));
aux_data = alloca(sizeof(size_t));
fread(size, sizeof(size_t), 1, file);
fread(mem_type, sizeof(size_t), 1, file);
fread(cnt, sizeof(size_t), 1, file);
fread(aux_data, sizeof(size_t), 1, file);
psize = getpagesize();
mem = mmap(0, (((*size) + 4 * sizeof(size_t)) + psize - 1) / psize * psize, PROT_READ, MAP_PRIVATE, fileno(file), 0);
if(mem == MAP_FAILED){
perror("Cannot mmap");
return NULL;
}
addr = 0;
sub = mem_locate_obj(mem + 4 * sizeof(size_t), mem_type, desc, trace_childs, trace_cnts, ntrace, &addr, cnt, 1);
sz = mem_size_obj((void*)addr, *mem_type, sub, 0, *cnt);
munmap(mem, (((*size) + 4 * sizeof(size_t)) + psize - 1) / psize * psize);
mem = malloc(sz);
fseek(file, addr - ((size_t)mem) + 4 * sizeof(size_t), SEEK_SET);
if((nin = fread(mem, 1, sz, file)) != sz){
fprintf(stderr, " -- Read %llu bytes, not %llu bytes in %s -- %s:%d --\n", (unsigned long long)nin, (unsigned long long)sz, __FUNCTION__, __FILE__, __LINE__); fflush(stderr);
return NULL;
}
fclose(file);
mem_load_obj(mem, *aux_data, *mem_type, sub, 0, *cnt);
*size = sz;
return mem;
}
static inline void* mem_load_obj_file(const obj_desc_t *desc, char *_path, size_t *size, size_t *mem_type, size_t *cnt, size_t *aux_data){
void *mem;
size_t sz, nin, psize, *msg;
char *lock, *shadow, *path, *shmp;
char hostname[65];
FILE *file;
int fd, ret;
if(desc == NULL) return NULL;
path = absolute_filename(_path);
shmp = strdup(path);
replace_char(shmp, '/', '_', 0);
if((file = fopen(path, "r+")) == NULL){
fprintf(stderr, " -- Cannot open %s in %s -- %s:%d --\n", path, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
if(size == NULL) size = alloca(sizeof(size_t));
if(mem_type == NULL) mem_type = alloca(sizeof(size_t));
if(cnt == NULL) cnt = alloca(sizeof(size_t));
if(aux_data == NULL) aux_data = alloca(sizeof(size_t));
fread(size, sizeof(size_t), 1, file);
fread(mem_type, sizeof(size_t), 1, file);
fread(cnt, sizeof(size_t), 1, file);
fread(aux_data, sizeof(size_t), 1, file);
psize = getpagesize();
sz = (*size) + 4 * sizeof(size_t);
gethostname(hostname, 64);
shadow = alloca(strlen(shmp) + strlen(hostname) + 40);
sprintf(shadow, "%s.mem_share.%s.%ld.shm", shmp, hostname, gethostid());
fd = shm_open(shadow, O_CREAT | O_RDWR, 0777);
if(fd == -1){
fprintf(stderr, " -- shm_open failed: %s in %s -- %s:%d --\n", shadow, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
ret = ftruncate(fd, (sz + psize - 1) / psize * psize);
if(ret == -1){
fprintf(stderr, " -- ftruncate failed: %s in %s -- %s:%d --\n", shadow, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
mem = mmap(0, (sz + psize - 1) / psize * psize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if(mem == MAP_FAILED){
perror("Cannot mmap");
return NULL;
}
fseek(file, 0, SEEK_SET);
if((nin = fread(mem, 1, sz, file)) != sz){
fprintf(stderr, " -- Read %llu bytes, not %llu bytes in %s -- %s:%d --\n", (unsigned long long)nin, (unsigned long long)sz, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
fclose(file);
fprintf(stderr, " -- Read %llu bytes from %s --\n", (unsigned long long)nin, path); fflush(stderr);
mem_load_obj(mem + 4 * sizeof(size_t), *aux_data, *mem_type, desc, 0, *cnt);
lock = alloca(strlen(shmp) + strlen(hostname) + 20);
sprintf(lock, "%s.mem_share.%s.%ld", shmp, hostname, gethostid());
if((fd = shm_open(lock, O_CREAT | O_RDWR, 0777)) == -1){
fprintf(stderr, " -- shm_open failed: %s in %s -- %s:%d --\n", lock, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
if((ret = ftruncate(fd, psize)) == -1){
fprintf(stderr, " -- ftruncate failed: %s in %s -- %s:%d --\n", lock, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
msg = mmap(0, psize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if(msg == MAP_FAILED){
perror("Cannot mmap");
exit(1);
}
msg[0] = (size_t)mem;
msg[1] = *size;
fprintf(stderr, "-- mem_share '%s' at %p:%llu --\n", path, mem, (u8i)*size); fflush(stderr);
free(path);
free(shmp);
return mem + 4 * sizeof(size_t);
}
static inline void* mem_share_obj(void *obj, size_t mem_type, const obj_desc_t *desc, size_t cnt, size_t aux_data, char *_path, int free_obj){
void *mem;
size_t size, sz, psize, *msg;
char *lock, *shadow, *path, *shmp;
char hostname[65];
FILE *file;
int fd, ret;
if(desc == NULL) return NULL;
if((mem_type & 0x01) == 0){
fprintf(stderr, " -- Illegal mem_type (%u) to call mem_dump, object should have standalone memory in %s -- %s:%d --\n", (int)mem_type, __FUNCTION__, __FILE__, __LINE__);
exit(1);
}
path = absolute_filename(_path);
shmp = strdup(path);
replace_char(shmp, '/', '_', 0);
size = mem_size_obj(obj, mem_type, desc, 0, cnt);
psize = getpagesize();
sz = size + 4 * sizeof(size_t);
gethostname(hostname, 64);
shadow = alloca(strlen(shmp) + strlen(hostname) + 40);
sprintf(shadow, "%s.mem_share.%s.%ld.shm", shmp, hostname, gethostid());
fd = shm_open(shadow, O_CREAT | O_RDWR, 0777);
if(fd == -1){
fprintf(stderr, " -- shm_open failed: %s in %s -- %s:%d --\n", shadow, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
ret = ftruncate(fd, (sz + psize - 1) / psize * psize);
if(ret == -1){
fprintf(stderr, " -- ftruncate failed: %s in %s -- %s:%d --\n", shadow, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
file = fdopen(fd, "w+");
fseek(file, 0, SEEK_SET);
fwrite(&size, sizeof(size_t), 1, file);
fwrite(&mem_type, sizeof(size_t), 1, file);
fwrite(&cnt, sizeof(size_t), 1, file);
fwrite(&aux_data, sizeof(size_t), 1, file);
mem_dump_obj(obj, mem_type, desc, size, cnt, file, free_obj); fflush(file);
mem = mmap(0, (sz + psize - 1) / psize * psize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if(mem == MAP_FAILED){
perror("Cannot mmap");
return NULL;
}
fclose(file);
mem_load_obj(mem + 4 * sizeof(size_t), aux_data, mem_type, desc, 0, cnt);
lock = alloca(strlen(shmp) + strlen(hostname) + 20);
sprintf(lock, "%s.mem_share.%s.%ld", shmp, hostname, gethostid());
if((fd = shm_open(lock, O_CREAT | O_RDWR, 0777)) == -1){
fprintf(stderr, " -- shm_open failed: %s in %s -- %s:%d --\n", lock, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
if((ret = ftruncate(fd, psize)) == -1){
fprintf(stderr, " -- ftruncate failed: %s in %s -- %s:%d --\n", lock, __FUNCTION__, __FILE__, __LINE__); fflush(stderr); exit(1);
}
msg = mmap(0, psize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if(msg == MAP_FAILED){
perror("Cannot mmap");
exit(1);
}
msg[0] = (size_t)mem;
msg[1] = size;
fprintf(stderr, "-- mem_share '%s' at %p:%llu --\n", path, mem, (u8i)size); fflush(stderr);
free(path);
free(shmp);
return mem + 4 * sizeof(size_t);
}
static inline int mem_stop_obj_file(char *_path){
char *lock, *shadow, *path, *shmp;
char hostname[65];
path = absolute_filename(_path);
shmp = strdup(path);
replace_char(shmp, '/', '_', 0);
gethostname(hostname, 64);
shadow = alloca(strlen(shmp) + strlen(hostname) + 40);
sprintf(shadow, "%s.mem_share.%s.%ld.shm", shmp, hostname, gethostid());
if(shm_unlink(shadow) == -1){
fprintf(stderr, " -- Failed to remove mmap object %s --\n", shadow); fflush(stderr);
return 0;
}
lock = alloca(strlen(shmp) + strlen(hostname) + 20);
sprintf(lock, "%s.mem_share.%s.%ld", shmp, hostname, gethostid());
if(shm_unlink(lock) == -1){
fprintf(stderr, " -- Failed to remove mmap object %s --\n", lock); fflush(stderr);
return 0;
}
free(path);
free(shmp);
return 1;
}
static inline void* mem_find_obj_file(const obj_desc_t *desc, char *_path, size_t *size, size_t *mem_type, size_t *cnt, size_t *aux_data, int wr){
char *lock, *shadow, *path, *shmp;
char hostname[65];
void *addr, *mem;
size_t psize, *msg;
int fd, prot;
UNUSED(desc);
gethostname(hostname, 64);
psize = getpagesize();
path = absolute_filename(_path);
shmp = strdup(path);
replace_char(shmp, '/', '_', 0);
lock = alloca(strlen(shmp) + strlen(hostname) + 32);
sprintf(lock, "%s.mem_share.%s.%ld", shmp, hostname, gethostid());
if(size == NULL) size = alloca(sizeof(size_t));
if(mem_type == NULL) mem_type = alloca(sizeof(size_t));
if(cnt == NULL) cnt = alloca(sizeof(size_t));
if(aux_data == NULL) aux_data = alloca(sizeof(size_t));
if((fd = shm_open(lock, O_RDWR, 0777)) == -1){
return NULL;
}
msg = mmap(0, psize, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if(msg == MAP_FAILED){
perror("Cannot mmap");
return NULL;
}
addr = (void*)msg[0];
*size = msg[1];
munmap(msg, psize);
shadow = alloca(strlen(shmp) + strlen(hostname) + 40);
sprintf(shadow, "%s.mem_share.%s.%ld.shm", shmp, hostname, gethostid());
fd = shm_open(shadow, O_RDWR, 0777);
prot = PROT_READ;
if(wr) prot |= PROT_WRITE;
mem = mmap(addr, ((*size) + 4 * sizeof(size_t) + psize - 1) / psize * psize, prot, MAP_SHARED | MAP_FIXED, fd, 0);
if(mem == MAP_FAILED){
perror("Cannot map shared object");
return NULL;
}
*mem_type = ((size_t*)addr)[1];
*cnt = ((size_t*)addr)[2];
*aux_data = ((size_t*)addr)[3];
fprintf(stderr, "-- mem_map '%s' at %p:%llu --\n", path, addr, (u8i)*size); fflush(stderr);
free(path);
free(shmp);
return mem + 4 * sizeof(size_t);
}
#endif