2012-05-27 15:27:59 +00:00
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#include "StdAfx.h"
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#include "utypes.h"
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#include <assert.h>
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#include <stdlib.h>
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#ifdef WIN32
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#define WIN32_LEAN_AND_MEAN
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#include <windows.h>
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#include <winsock2.h>
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#include <ws2tcpip.h>
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typedef ULONGLONG (WINAPI GetTickCount64Proc)(void);
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static GetTickCount64Proc *pt2GetTickCount64;
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static GetTickCount64Proc *pt2RealGetTickCount;
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static uint64 startPerformanceCounter;
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static uint64 startGetTickCount;
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// MSVC 6 standard doesn't like division with uint64s
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static double counterPerMicrosecond;
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uint64 UTGetTickCount64()
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{
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if (pt2GetTickCount64) {
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return pt2GetTickCount64();
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}
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if (pt2RealGetTickCount) {
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uint64 v = pt2RealGetTickCount();
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// fix return value from GetTickCount
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return (DWORD)v | ((v >> 0x18) & 0xFFFFFFFF00000000);
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}
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return (uint64)GetTickCount();
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}
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void Time_Initialize()
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{
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HMODULE kernel32 = GetModuleHandleA("kernel32.dll");
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pt2GetTickCount64 = (GetTickCount64Proc*)GetProcAddress(kernel32, "GetTickCount64");
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// not a typo. GetTickCount actually returns 64 bits
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pt2RealGetTickCount = (GetTickCount64Proc*)GetProcAddress(kernel32, "GetTickCount");
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uint64 frequency;
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QueryPerformanceCounter((LARGE_INTEGER*)&startPerformanceCounter);
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QueryPerformanceFrequency((LARGE_INTEGER*)&frequency);
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counterPerMicrosecond = (double)frequency / 1000000.0f;
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startGetTickCount = UTGetTickCount64();
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}
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int64 abs64(int64 x) { return x < 0 ? -x : x; }
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static uint64 GetMicroseconds()
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{
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static bool time_init = false;
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if (!time_init) {
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time_init = true;
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Time_Initialize();
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}
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uint64 counter;
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uint64 tick;
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QueryPerformanceCounter((LARGE_INTEGER*) &counter);
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tick = UTGetTickCount64();
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// unfortunately, QueryPerformanceCounter is not guaranteed
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// to be monotonic. Make it so.
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int64 ret = (int64)(((int64)counter - (int64)startPerformanceCounter) / counterPerMicrosecond);
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// if the QPC clock leaps more than one second off GetTickCount64()
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// something is seriously fishy. Adjust QPC to stay monotonic
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int64 tick_diff = tick - startGetTickCount;
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if (abs64(ret / 100000 - tick_diff / 100) > 10) {
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startPerformanceCounter -= (uint64)((int64)(tick_diff * 1000 - ret) * counterPerMicrosecond);
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ret = (int64)((counter - startPerformanceCounter) / counterPerMicrosecond);
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}
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return ret;
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}
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#else //!WIN32
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#include <time.h>
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#include <sys/time.h> // Linux needs both time.h and sys/time.h
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#include <stdlib.h>
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#include <unistd.h>
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#include <sys/socket.h>
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#include <arpa/inet.h>
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#if defined(__APPLE__)
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#include <mach/mach_time.h>
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static uint64 GetMicroseconds()
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{
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// http://developer.apple.com/mac/library/qa/qa2004/qa1398.html
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// http://www.macresearch.org/tutorial_performance_and_time
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static mach_timebase_info_data_t sTimebaseInfo;
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static uint64_t start_tick = 0;
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uint64_t tick;
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// Returns a counter in some fraction of a nanoseconds
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tick = mach_absolute_time();
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if (sTimebaseInfo.denom == 0) {
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// Get the timer ratio to convert mach_absolute_time to nanoseconds
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mach_timebase_info(&sTimebaseInfo);
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start_tick = tick;
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}
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// Calculate the elapsed time, convert it to microseconds and return it.
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return ((tick - start_tick) * sTimebaseInfo.numer) / (sTimebaseInfo.denom * 1000);
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}
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#else //!__APPLE__
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/* Unfortunately, #ifdef CLOCK_MONOTONIC is not enough to make sure that
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POSIX clocks work -- we could be running a recent libc with an ancient
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kernel (think OpenWRT). -- jch */
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static uint64_t GetMicroseconds()
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{
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static int have_posix_clocks = -1;
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int rc;
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#if defined(_POSIX_TIMERS) && _POSIX_TIMERS > 0 && defined(CLOCK_MONOTONIC)
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if (have_posix_clocks < 0) {
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struct timespec ts;
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rc = clock_gettime(CLOCK_MONOTONIC, &ts);
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if (rc < 0) {
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have_posix_clocks = 0;
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} else {
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have_posix_clocks = 1;
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}
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}
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if (have_posix_clocks) {
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struct timespec ts;
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rc = clock_gettime(CLOCK_MONOTONIC, &ts);
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return uint64(ts.tv_sec) * 1000000 + ts.tv_nsec / 1000;
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}
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#endif
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{
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struct timeval tv;
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rc = gettimeofday(&tv, NULL);
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return uint64(tv.tv_sec) * 1000000 + tv.tv_usec;
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}
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}
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#endif //!__APPLE__
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#endif //!WIN32
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uint64 UTP_GetMicroseconds()
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{
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static uint64 offset = 0, previous = 0;
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uint64 now = GetMicroseconds() + offset;
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if (previous > now) {
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/* Eek! */
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offset += previous - now;
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now = previous;
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}
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previous = now;
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return now;
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}
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uint32 UTP_GetMilliseconds()
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{
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return UTP_GetMicroseconds() / 1000;
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}
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#define ETHERNET_MTU 1500
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#define IPV4_HEADER_SIZE 20
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#define IPV6_HEADER_SIZE 40
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#define UDP_HEADER_SIZE 8
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#define GRE_HEADER_SIZE 24
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#define PPPOE_HEADER_SIZE 8
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#define MPPE_HEADER_SIZE 2
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// packets have been observed in the wild that were fragmented
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// with a payload of 1416 for the first fragment
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// There are reports of routers that have MTU sizes as small as 1392
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#define FUDGE_HEADER_SIZE 36
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#define TEREDO_MTU 1280
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#define UDP_IPV4_OVERHEAD (IPV4_HEADER_SIZE + UDP_HEADER_SIZE)
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#define UDP_IPV6_OVERHEAD (IPV6_HEADER_SIZE + UDP_HEADER_SIZE)
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#define UDP_TEREDO_OVERHEAD (UDP_IPV4_OVERHEAD + UDP_IPV6_OVERHEAD)
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#define UDP_IPV4_MTU (ETHERNET_MTU - IPV4_HEADER_SIZE - UDP_HEADER_SIZE - GRE_HEADER_SIZE - PPPOE_HEADER_SIZE - MPPE_HEADER_SIZE - FUDGE_HEADER_SIZE)
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#define UDP_IPV6_MTU (ETHERNET_MTU - IPV6_HEADER_SIZE - UDP_HEADER_SIZE - GRE_HEADER_SIZE - PPPOE_HEADER_SIZE - MPPE_HEADER_SIZE - FUDGE_HEADER_SIZE)
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2015-10-16 20:27:52 +00:00
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#define UDP_TEREDO_MTU (TEREDO_MTU - IPV6_HEADER_SIZE - UDP_HEADER_SIZE)
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2012-05-27 15:27:59 +00:00
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uint16 UTP_GetUDPMTU(const struct sockaddr *remote, socklen_t remotelen)
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{
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// Since we don't know the local address of the interface,
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// be conservative and assume all IPv6 connections are Teredo.
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return remote->sa_family == AF_INET6 ? UDP_TEREDO_MTU : UDP_IPV4_MTU;
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}
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uint16 UTP_GetUDPOverhead(const struct sockaddr *remote, socklen_t remotelen)
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{
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// Since we don't know the local address of the interface,
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// be conservative and assume all IPv6 connections are Teredo.
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return remote->sa_family == AF_INET6 ? UDP_TEREDO_OVERHEAD : UDP_IPV4_OVERHEAD;
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}
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uint32 UTP_Random()
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{
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return rand();
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}
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void UTP_DelaySample(const struct sockaddr *remote, int sample_ms) {}
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size_t UTP_GetPacketSize(const struct sockaddr *remote) { return 1500; }
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