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/*=========================================================================*\
* Timeout management functions
* LuaSocket toolkit
*
* RCS ID: $Id$
\*=========================================================================*/
#include <stdio.h>
#include <lua.h>
#include <lauxlib.h>
#include "luasocket.h"
#include "auxiliar.h"
#include "timeout.h"
#ifdef _WIN32
#include <windows.h>
#else
#include <time.h>
#include <sys/time.h>
#endif
/* min and max macros */
#ifndef MIN
#define MIN(x, y) ((x) < (y) ? x : y)
#endif
#ifndef MAX
#define MAX(x, y) ((x) > (y) ? x : y)
#endif
/*=========================================================================*\
* Internal function prototypes
\*=========================================================================*/
static int tm_lua_gettime(lua_State *L);
static int tm_lua_sleep(lua_State *L);
static luaL_reg func[] = {
{ "gettime", tm_lua_gettime },
{ "sleep", tm_lua_sleep },
{ NULL, NULL }
};
/*=========================================================================*\
* Exported functions.
\*=========================================================================*/
/*-------------------------------------------------------------------------*\
* Initialize structure
\*-------------------------------------------------------------------------*/
void tm_init(p_tm tm, double block, double total) {
tm->block = block;
tm->total = total;
}
/*-------------------------------------------------------------------------*\
* Determines how much time we have left for the next system call,
* if the previous call was successful
* Input
* tm: timeout control structure
* Returns
* the number of ms left or -1 if there is no time limit
\*-------------------------------------------------------------------------*/
double tm_get(p_tm tm) {
if (tm->block < 0.0 && tm->total < 0.0) {
return -1;
} else if (tm->block < 0.0) {
double t = tm->total - tm_gettime() + tm->start;
return MAX(t, 0.0);
} else if (tm->total < 0.0) {
return tm->block;
} else {
double t = tm->total - tm_gettime() + tm->start;
return MIN(tm->block, MAX(t, 0.0));
}
}
/*-------------------------------------------------------------------------*\
* Returns time since start of operation
* Input
* tm: timeout control structure
* Returns
* start field of structure
\*-------------------------------------------------------------------------*/
double tm_getstart(p_tm tm) {
return tm->start;
}
/*-------------------------------------------------------------------------*\
* Determines how much time we have left for the next system call,
* if the previous call was a failure
* Input
* tm: timeout control structure
* Returns
* the number of ms left or -1 if there is no time limit
\*-------------------------------------------------------------------------*/
double tm_getretry(p_tm tm) {
if (tm->block < 0.0 && tm->total < 0.0) {
return -1;
} else if (tm->block < 0.0) {
double t = tm->total - tm_gettime() + tm->start;
return MAX(t, 0.0);
} else if (tm->total < 0.0) {
double t = tm->block - tm_gettime() + tm->start;
return MAX(t, 0.0);
} else {
double t = tm->total - tm_gettime() + tm->start;
return MIN(tm->block, MAX(t, 0.0));
}
}
/*-------------------------------------------------------------------------*\
* Marks the operation start time in structure
* Input
* tm: timeout control structure
\*-------------------------------------------------------------------------*/
p_tm tm_markstart(p_tm tm) {
tm->start = tm_gettime();
return tm;
}
/*-------------------------------------------------------------------------*\
* Gets time in s, relative to January 1, 1970 (UTC)
* Returns
* time in s.
\*-------------------------------------------------------------------------*/
#ifdef _WIN32
double tm_gettime(void) {
FILETIME ft;
double t;
GetSystemTimeAsFileTime(&ft);
/* Windows file time (time since January 1, 1601 (UTC)) */
t = ft.dwLowDateTime/1.0e7 + ft.dwHighDateTime*(4294967296.0/1.0e7);
/* convert to Unix Epoch time (time since January 1, 1970 (UTC)) */
return (t - 11644473600.0);
}
#else
double tm_gettime(void) {
struct timeval v;
gettimeofday(&v, (struct timezone *) NULL);
/* Unix Epoch time (time since January 1, 1970 (UTC)) */
return v.tv_sec + v.tv_usec/1.0e6;
}
#endif
/*-------------------------------------------------------------------------*\
* Initializes module
\*-------------------------------------------------------------------------*/
int tm_open(lua_State *L) {
luaL_openlib(L, NULL, func, 0);
return 0;
}
/*-------------------------------------------------------------------------*\
* Sets timeout values for IO operations
* Lua Input: base, time [, mode]
* time: time out value in seconds
* mode: "b" for block timeout, "t" for total timeout. (default: b)
\*-------------------------------------------------------------------------*/
int tm_meth_settimeout(lua_State *L, p_tm tm) {
double t = luaL_optnumber(L, 2, -1);
const char *mode = luaL_optstring(L, 3, "b");
switch (*mode) {
case 'b':
tm->block = t;
break;
case 'r': case 't':
tm->total = t;
break;
default:
luaL_argcheck(L, 0, 3, "invalid timeout mode");
break;
}
lua_pushnumber(L, 1);
return 1;
}
/*=========================================================================*\
* Test support functions
\*=========================================================================*/
/*-------------------------------------------------------------------------*\
* Returns the time the system has been up, in secconds.
\*-------------------------------------------------------------------------*/
static int tm_lua_gettime(lua_State *L)
{
lua_pushnumber(L, tm_gettime());
return 1;
}
/*-------------------------------------------------------------------------*\
* Sleep for n seconds.
\*-------------------------------------------------------------------------*/
int tm_lua_sleep(lua_State *L)
{
double n = luaL_checknumber(L, 1);
#ifdef _WIN32
Sleep((int)(n*1000));
#else
struct timespec t, r;
t.tv_sec = (int) n;
n -= t.tv_sec;
t.tv_nsec = (int) (n * 1000000000);
if (t.tv_nsec >= 1000000000) t.tv_nsec = 999999999;
while (nanosleep(&t, &r) != 0) {
t.tv_sec = r.tv_sec;
t.tv_nsec = r.tv_nsec;
}
#endif
return 0;
}
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